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Methods2Test_java_unit_test_code

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train · 624k rows

target stringlengths 20 113k	src_fm stringlengths 11 86.3k	src_fm_fc stringlengths 21 86.4k	src_fm_fc_co stringlengths 30 86.4k	src_fm_fc_ms stringlengths 42 86.8k	src_fm_fc_ms_ff stringlengths 43 86.8k
@Test public void testLimitOffset() { a(dialect.formSelect("pages", null, "", Arrays.asList("page_id"), 10, 20)).shouldBeEqual( "SELECT * FROM (SELECT t2., ROWNUM AS oracle_row_number FROM (" + "SELECT FROM pages ORDER BY page_id" + ") t2) WHERE oracle_row_number >= 21 AND ROWNUM <= 10"); }	@Override public String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset) { boolean needLimit = limit != -1L; boolean needOffset = offset != -1L; StringBuilder fullQuery = new StringBuilder(); if (needOffset) { fullQuery.append("SELECT * FROM (SELECT t2., ROWNUM AS oracle_row_number FROM ("); } else if (needLimit) { fullQuery.append("SELECT FROM (SELECT t2.* FROM ("); } appendSelect(fullQuery, tableName, columns, null, subQuery, orderBys); if (needOffset) { fullQuery.append(") t2) WHERE oracle_row_number >= ").append(offset + 1); if (needLimit) { fullQuery.append(" AND ROWNUM <= ").append(limit); } } else if (needLimit) { fullQuery.append(") t2) WHERE ROWNUM <= ").append(limit); } return fullQuery.toString(); }	OracleDialect extends DefaultDialect { @Override public String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset) { boolean needLimit = limit != -1L; boolean needOffset = offset != -1L; StringBuilder fullQuery = new StringBuilder(); if (needOffset) { fullQuery.append("SELECT * FROM (SELECT t2., ROWNUM AS oracle_row_number FROM ("); } else if (needLimit) { fullQuery.append("SELECT FROM (SELECT t2.* FROM ("); } appendSelect(fullQuery, tableName, columns, null, subQuery, orderBys); if (needOffset) { fullQuery.append(") t2) WHERE oracle_row_number >= ").append(offset + 1); if (needLimit) { fullQuery.append(" AND ROWNUM <= ").append(limit); } } else if (needLimit) { fullQuery.append(") t2) WHERE ROWNUM <= ").append(limit); } return fullQuery.toString(); } }	OracleDialect extends DefaultDialect { @Override public String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset) { boolean needLimit = limit != -1L; boolean needOffset = offset != -1L; StringBuilder fullQuery = new StringBuilder(); if (needOffset) { fullQuery.append("SELECT * FROM (SELECT t2., ROWNUM AS oracle_row_number FROM ("); } else if (needLimit) { fullQuery.append("SELECT FROM (SELECT t2.* FROM ("); } appendSelect(fullQuery, tableName, columns, null, subQuery, orderBys); if (needOffset) { fullQuery.append(") t2) WHERE oracle_row_number >= ").append(offset + 1); if (needLimit) { fullQuery.append(" AND ROWNUM <= ").append(limit); } } else if (needLimit) { fullQuery.append(") t2) WHERE ROWNUM <= ").append(limit); } return fullQuery.toString(); } }	OracleDialect extends DefaultDialect { @Override public String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset) { boolean needLimit = limit != -1L; boolean needOffset = offset != -1L; StringBuilder fullQuery = new StringBuilder(); if (needOffset) { fullQuery.append("SELECT * FROM (SELECT t2., ROWNUM AS oracle_row_number FROM ("); } else if (needLimit) { fullQuery.append("SELECT FROM (SELECT t2.* FROM ("); } appendSelect(fullQuery, tableName, columns, null, subQuery, orderBys); if (needOffset) { fullQuery.append(") t2) WHERE oracle_row_number >= ").append(offset + 1); if (needLimit) { fullQuery.append(" AND ROWNUM <= ").append(limit); } } else if (needLimit) { fullQuery.append(") t2) WHERE ROWNUM <= ").append(limit); } return fullQuery.toString(); } @Override String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset); @Override Object overrideDriverTypeConversion(MetaModel mm, String attributeName, Object value); }	OracleDialect extends DefaultDialect { @Override public String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset) { boolean needLimit = limit != -1L; boolean needOffset = offset != -1L; StringBuilder fullQuery = new StringBuilder(); if (needOffset) { fullQuery.append("SELECT * FROM (SELECT t2., ROWNUM AS oracle_row_number FROM ("); } else if (needLimit) { fullQuery.append("SELECT FROM (SELECT t2.* FROM ("); } appendSelect(fullQuery, tableName, columns, null, subQuery, orderBys); if (needOffset) { fullQuery.append(") t2) WHERE oracle_row_number >= ").append(offset + 1); if (needLimit) { fullQuery.append(" AND ROWNUM <= ").append(limit); } } else if (needLimit) { fullQuery.append(") t2) WHERE ROWNUM <= ").append(limit); } return fullQuery.toString(); } @Override String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset); @Override Object overrideDriverTypeConversion(MetaModel mm, String attributeName, Object value); }
@Test public void testLimitOnlyNoOffset() { a(dialect.formSelect("pages", null, "", Arrays.asList("page_id"), 10, -1)).shouldBeEqual( "SELECT * FROM (SELECT t2.* FROM (SELECT * FROM pages ORDER BY page_id) t2) WHERE ROWNUM <= 10"); }	@Override public String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset) { boolean needLimit = limit != -1L; boolean needOffset = offset != -1L; StringBuilder fullQuery = new StringBuilder(); if (needOffset) { fullQuery.append("SELECT * FROM (SELECT t2., ROWNUM AS oracle_row_number FROM ("); } else if (needLimit) { fullQuery.append("SELECT FROM (SELECT t2.* FROM ("); } appendSelect(fullQuery, tableName, columns, null, subQuery, orderBys); if (needOffset) { fullQuery.append(") t2) WHERE oracle_row_number >= ").append(offset + 1); if (needLimit) { fullQuery.append(" AND ROWNUM <= ").append(limit); } } else if (needLimit) { fullQuery.append(") t2) WHERE ROWNUM <= ").append(limit); } return fullQuery.toString(); }	OracleDialect extends DefaultDialect { @Override public String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset) { boolean needLimit = limit != -1L; boolean needOffset = offset != -1L; StringBuilder fullQuery = new StringBuilder(); if (needOffset) { fullQuery.append("SELECT * FROM (SELECT t2., ROWNUM AS oracle_row_number FROM ("); } else if (needLimit) { fullQuery.append("SELECT FROM (SELECT t2.* FROM ("); } appendSelect(fullQuery, tableName, columns, null, subQuery, orderBys); if (needOffset) { fullQuery.append(") t2) WHERE oracle_row_number >= ").append(offset + 1); if (needLimit) { fullQuery.append(" AND ROWNUM <= ").append(limit); } } else if (needLimit) { fullQuery.append(") t2) WHERE ROWNUM <= ").append(limit); } return fullQuery.toString(); } }	OracleDialect extends DefaultDialect { @Override public String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset) { boolean needLimit = limit != -1L; boolean needOffset = offset != -1L; StringBuilder fullQuery = new StringBuilder(); if (needOffset) { fullQuery.append("SELECT * FROM (SELECT t2., ROWNUM AS oracle_row_number FROM ("); } else if (needLimit) { fullQuery.append("SELECT FROM (SELECT t2.* FROM ("); } appendSelect(fullQuery, tableName, columns, null, subQuery, orderBys); if (needOffset) { fullQuery.append(") t2) WHERE oracle_row_number >= ").append(offset + 1); if (needLimit) { fullQuery.append(" AND ROWNUM <= ").append(limit); } } else if (needLimit) { fullQuery.append(") t2) WHERE ROWNUM <= ").append(limit); } return fullQuery.toString(); } }	OracleDialect extends DefaultDialect { @Override public String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset) { boolean needLimit = limit != -1L; boolean needOffset = offset != -1L; StringBuilder fullQuery = new StringBuilder(); if (needOffset) { fullQuery.append("SELECT * FROM (SELECT t2., ROWNUM AS oracle_row_number FROM ("); } else if (needLimit) { fullQuery.append("SELECT FROM (SELECT t2.* FROM ("); } appendSelect(fullQuery, tableName, columns, null, subQuery, orderBys); if (needOffset) { fullQuery.append(") t2) WHERE oracle_row_number >= ").append(offset + 1); if (needLimit) { fullQuery.append(" AND ROWNUM <= ").append(limit); } } else if (needLimit) { fullQuery.append(") t2) WHERE ROWNUM <= ").append(limit); } return fullQuery.toString(); } @Override String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset); @Override Object overrideDriverTypeConversion(MetaModel mm, String attributeName, Object value); }	OracleDialect extends DefaultDialect { @Override public String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset) { boolean needLimit = limit != -1L; boolean needOffset = offset != -1L; StringBuilder fullQuery = new StringBuilder(); if (needOffset) { fullQuery.append("SELECT * FROM (SELECT t2., ROWNUM AS oracle_row_number FROM ("); } else if (needLimit) { fullQuery.append("SELECT FROM (SELECT t2.* FROM ("); } appendSelect(fullQuery, tableName, columns, null, subQuery, orderBys); if (needOffset) { fullQuery.append(") t2) WHERE oracle_row_number >= ").append(offset + 1); if (needLimit) { fullQuery.append(" AND ROWNUM <= ").append(limit); } } else if (needLimit) { fullQuery.append(") t2) WHERE ROWNUM <= ").append(limit); } return fullQuery.toString(); } @Override String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset); @Override Object overrideDriverTypeConversion(MetaModel mm, String attributeName, Object value); }
@Test public void testOffsetOnlyNoLimit() { a(dialect.formSelect("pages", null, "content LIKE '%test%'", Arrays.asList("page_id"), -1, 20)).shouldBeEqual( "SELECT * FROM (SELECT t2., ROWNUM AS oracle_row_number FROM (" + "SELECT FROM pages WHERE content LIKE '%test%' ORDER BY page_id" + ") t2) WHERE oracle_row_number >= 21"); }	@Override public String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset) { boolean needLimit = limit != -1L; boolean needOffset = offset != -1L; StringBuilder fullQuery = new StringBuilder(); if (needOffset) { fullQuery.append("SELECT * FROM (SELECT t2., ROWNUM AS oracle_row_number FROM ("); } else if (needLimit) { fullQuery.append("SELECT FROM (SELECT t2.* FROM ("); } appendSelect(fullQuery, tableName, columns, null, subQuery, orderBys); if (needOffset) { fullQuery.append(") t2) WHERE oracle_row_number >= ").append(offset + 1); if (needLimit) { fullQuery.append(" AND ROWNUM <= ").append(limit); } } else if (needLimit) { fullQuery.append(") t2) WHERE ROWNUM <= ").append(limit); } return fullQuery.toString(); }	OracleDialect extends DefaultDialect { @Override public String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset) { boolean needLimit = limit != -1L; boolean needOffset = offset != -1L; StringBuilder fullQuery = new StringBuilder(); if (needOffset) { fullQuery.append("SELECT * FROM (SELECT t2., ROWNUM AS oracle_row_number FROM ("); } else if (needLimit) { fullQuery.append("SELECT FROM (SELECT t2.* FROM ("); } appendSelect(fullQuery, tableName, columns, null, subQuery, orderBys); if (needOffset) { fullQuery.append(") t2) WHERE oracle_row_number >= ").append(offset + 1); if (needLimit) { fullQuery.append(" AND ROWNUM <= ").append(limit); } } else if (needLimit) { fullQuery.append(") t2) WHERE ROWNUM <= ").append(limit); } return fullQuery.toString(); } }	OracleDialect extends DefaultDialect { @Override public String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset) { boolean needLimit = limit != -1L; boolean needOffset = offset != -1L; StringBuilder fullQuery = new StringBuilder(); if (needOffset) { fullQuery.append("SELECT * FROM (SELECT t2., ROWNUM AS oracle_row_number FROM ("); } else if (needLimit) { fullQuery.append("SELECT FROM (SELECT t2.* FROM ("); } appendSelect(fullQuery, tableName, columns, null, subQuery, orderBys); if (needOffset) { fullQuery.append(") t2) WHERE oracle_row_number >= ").append(offset + 1); if (needLimit) { fullQuery.append(" AND ROWNUM <= ").append(limit); } } else if (needLimit) { fullQuery.append(") t2) WHERE ROWNUM <= ").append(limit); } return fullQuery.toString(); } }	OracleDialect extends DefaultDialect { @Override public String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset) { boolean needLimit = limit != -1L; boolean needOffset = offset != -1L; StringBuilder fullQuery = new StringBuilder(); if (needOffset) { fullQuery.append("SELECT * FROM (SELECT t2., ROWNUM AS oracle_row_number FROM ("); } else if (needLimit) { fullQuery.append("SELECT FROM (SELECT t2.* FROM ("); } appendSelect(fullQuery, tableName, columns, null, subQuery, orderBys); if (needOffset) { fullQuery.append(") t2) WHERE oracle_row_number >= ").append(offset + 1); if (needLimit) { fullQuery.append(" AND ROWNUM <= ").append(limit); } } else if (needLimit) { fullQuery.append(") t2) WHERE ROWNUM <= ").append(limit); } return fullQuery.toString(); } @Override String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset); @Override Object overrideDriverTypeConversion(MetaModel mm, String attributeName, Object value); }	OracleDialect extends DefaultDialect { @Override public String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset) { boolean needLimit = limit != -1L; boolean needOffset = offset != -1L; StringBuilder fullQuery = new StringBuilder(); if (needOffset) { fullQuery.append("SELECT * FROM (SELECT t2., ROWNUM AS oracle_row_number FROM ("); } else if (needLimit) { fullQuery.append("SELECT FROM (SELECT t2.* FROM ("); } appendSelect(fullQuery, tableName, columns, null, subQuery, orderBys); if (needOffset) { fullQuery.append(") t2) WHERE oracle_row_number >= ").append(offset + 1); if (needLimit) { fullQuery.append(" AND ROWNUM <= ").append(limit); } } else if (needLimit) { fullQuery.append(") t2) WHERE ROWNUM <= ").append(limit); } return fullQuery.toString(); } @Override String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset); @Override Object overrideDriverTypeConversion(MetaModel mm, String attributeName, Object value); }
@Test public void testNoOffsetAndNoLimit() { a(dialect.formSelect("pages", null, "content LIKE '%test%'", Arrays.asList("page_id"), -1, -1)).shouldBeEqual( "SELECT * FROM pages WHERE content LIKE '%test%' ORDER BY page_id"); }	@Override public String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset) { boolean needLimit = limit != -1L; boolean needOffset = offset != -1L; StringBuilder fullQuery = new StringBuilder(); if (needOffset) { fullQuery.append("SELECT * FROM (SELECT t2., ROWNUM AS oracle_row_number FROM ("); } else if (needLimit) { fullQuery.append("SELECT FROM (SELECT t2.* FROM ("); } appendSelect(fullQuery, tableName, columns, null, subQuery, orderBys); if (needOffset) { fullQuery.append(") t2) WHERE oracle_row_number >= ").append(offset + 1); if (needLimit) { fullQuery.append(" AND ROWNUM <= ").append(limit); } } else if (needLimit) { fullQuery.append(") t2) WHERE ROWNUM <= ").append(limit); } return fullQuery.toString(); }	OracleDialect extends DefaultDialect { @Override public String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset) { boolean needLimit = limit != -1L; boolean needOffset = offset != -1L; StringBuilder fullQuery = new StringBuilder(); if (needOffset) { fullQuery.append("SELECT * FROM (SELECT t2., ROWNUM AS oracle_row_number FROM ("); } else if (needLimit) { fullQuery.append("SELECT FROM (SELECT t2.* FROM ("); } appendSelect(fullQuery, tableName, columns, null, subQuery, orderBys); if (needOffset) { fullQuery.append(") t2) WHERE oracle_row_number >= ").append(offset + 1); if (needLimit) { fullQuery.append(" AND ROWNUM <= ").append(limit); } } else if (needLimit) { fullQuery.append(") t2) WHERE ROWNUM <= ").append(limit); } return fullQuery.toString(); } }	OracleDialect extends DefaultDialect { @Override public String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset) { boolean needLimit = limit != -1L; boolean needOffset = offset != -1L; StringBuilder fullQuery = new StringBuilder(); if (needOffset) { fullQuery.append("SELECT * FROM (SELECT t2., ROWNUM AS oracle_row_number FROM ("); } else if (needLimit) { fullQuery.append("SELECT FROM (SELECT t2.* FROM ("); } appendSelect(fullQuery, tableName, columns, null, subQuery, orderBys); if (needOffset) { fullQuery.append(") t2) WHERE oracle_row_number >= ").append(offset + 1); if (needLimit) { fullQuery.append(" AND ROWNUM <= ").append(limit); } } else if (needLimit) { fullQuery.append(") t2) WHERE ROWNUM <= ").append(limit); } return fullQuery.toString(); } }	OracleDialect extends DefaultDialect { @Override public String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset) { boolean needLimit = limit != -1L; boolean needOffset = offset != -1L; StringBuilder fullQuery = new StringBuilder(); if (needOffset) { fullQuery.append("SELECT * FROM (SELECT t2., ROWNUM AS oracle_row_number FROM ("); } else if (needLimit) { fullQuery.append("SELECT FROM (SELECT t2.* FROM ("); } appendSelect(fullQuery, tableName, columns, null, subQuery, orderBys); if (needOffset) { fullQuery.append(") t2) WHERE oracle_row_number >= ").append(offset + 1); if (needLimit) { fullQuery.append(" AND ROWNUM <= ").append(limit); } } else if (needLimit) { fullQuery.append(") t2) WHERE ROWNUM <= ").append(limit); } return fullQuery.toString(); } @Override String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset); @Override Object overrideDriverTypeConversion(MetaModel mm, String attributeName, Object value); }	OracleDialect extends DefaultDialect { @Override public String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset) { boolean needLimit = limit != -1L; boolean needOffset = offset != -1L; StringBuilder fullQuery = new StringBuilder(); if (needOffset) { fullQuery.append("SELECT * FROM (SELECT t2., ROWNUM AS oracle_row_number FROM ("); } else if (needLimit) { fullQuery.append("SELECT FROM (SELECT t2.* FROM ("); } appendSelect(fullQuery, tableName, columns, null, subQuery, orderBys); if (needOffset) { fullQuery.append(") t2) WHERE oracle_row_number >= ").append(offset + 1); if (needLimit) { fullQuery.append(" AND ROWNUM <= ").append(limit); } } else if (needLimit) { fullQuery.append(") t2) WHERE ROWNUM <= ").append(limit); } return fullQuery.toString(); } @Override String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset); @Override Object overrideDriverTypeConversion(MetaModel mm, String attributeName, Object value); }
@Test public void testSelectFirst() { a(dialect.formSelect("member_goal_action", null, "", Arrays.asList("created_at DESC"), 1, -1)).shouldBeEqual( "SELECT * FROM (SELECT t2.* FROM (SELECT * FROM member_goal_action ORDER BY created_at DESC) t2) WHERE ROWNUM <= 1"); }	@Override public String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset) { boolean needLimit = limit != -1L; boolean needOffset = offset != -1L; StringBuilder fullQuery = new StringBuilder(); if (needOffset) { fullQuery.append("SELECT * FROM (SELECT t2., ROWNUM AS oracle_row_number FROM ("); } else if (needLimit) { fullQuery.append("SELECT FROM (SELECT t2.* FROM ("); } appendSelect(fullQuery, tableName, columns, null, subQuery, orderBys); if (needOffset) { fullQuery.append(") t2) WHERE oracle_row_number >= ").append(offset + 1); if (needLimit) { fullQuery.append(" AND ROWNUM <= ").append(limit); } } else if (needLimit) { fullQuery.append(") t2) WHERE ROWNUM <= ").append(limit); } return fullQuery.toString(); }	OracleDialect extends DefaultDialect { @Override public String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset) { boolean needLimit = limit != -1L; boolean needOffset = offset != -1L; StringBuilder fullQuery = new StringBuilder(); if (needOffset) { fullQuery.append("SELECT * FROM (SELECT t2., ROWNUM AS oracle_row_number FROM ("); } else if (needLimit) { fullQuery.append("SELECT FROM (SELECT t2.* FROM ("); } appendSelect(fullQuery, tableName, columns, null, subQuery, orderBys); if (needOffset) { fullQuery.append(") t2) WHERE oracle_row_number >= ").append(offset + 1); if (needLimit) { fullQuery.append(" AND ROWNUM <= ").append(limit); } } else if (needLimit) { fullQuery.append(") t2) WHERE ROWNUM <= ").append(limit); } return fullQuery.toString(); } }	OracleDialect extends DefaultDialect { @Override public String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset) { boolean needLimit = limit != -1L; boolean needOffset = offset != -1L; StringBuilder fullQuery = new StringBuilder(); if (needOffset) { fullQuery.append("SELECT * FROM (SELECT t2., ROWNUM AS oracle_row_number FROM ("); } else if (needLimit) { fullQuery.append("SELECT FROM (SELECT t2.* FROM ("); } appendSelect(fullQuery, tableName, columns, null, subQuery, orderBys); if (needOffset) { fullQuery.append(") t2) WHERE oracle_row_number >= ").append(offset + 1); if (needLimit) { fullQuery.append(" AND ROWNUM <= ").append(limit); } } else if (needLimit) { fullQuery.append(") t2) WHERE ROWNUM <= ").append(limit); } return fullQuery.toString(); } }	OracleDialect extends DefaultDialect { @Override public String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset) { boolean needLimit = limit != -1L; boolean needOffset = offset != -1L; StringBuilder fullQuery = new StringBuilder(); if (needOffset) { fullQuery.append("SELECT * FROM (SELECT t2., ROWNUM AS oracle_row_number FROM ("); } else if (needLimit) { fullQuery.append("SELECT FROM (SELECT t2.* FROM ("); } appendSelect(fullQuery, tableName, columns, null, subQuery, orderBys); if (needOffset) { fullQuery.append(") t2) WHERE oracle_row_number >= ").append(offset + 1); if (needLimit) { fullQuery.append(" AND ROWNUM <= ").append(limit); } } else if (needLimit) { fullQuery.append(") t2) WHERE ROWNUM <= ").append(limit); } return fullQuery.toString(); } @Override String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset); @Override Object overrideDriverTypeConversion(MetaModel mm, String attributeName, Object value); }	OracleDialect extends DefaultDialect { @Override public String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset) { boolean needLimit = limit != -1L; boolean needOffset = offset != -1L; StringBuilder fullQuery = new StringBuilder(); if (needOffset) { fullQuery.append("SELECT * FROM (SELECT t2., ROWNUM AS oracle_row_number FROM ("); } else if (needLimit) { fullQuery.append("SELECT FROM (SELECT t2.* FROM ("); } appendSelect(fullQuery, tableName, columns, null, subQuery, orderBys); if (needOffset) { fullQuery.append(") t2) WHERE oracle_row_number >= ").append(offset + 1); if (needLimit) { fullQuery.append(" AND ROWNUM <= ").append(limit); } } else if (needLimit) { fullQuery.append(") t2) WHERE ROWNUM <= ").append(limit); } return fullQuery.toString(); } @Override String formSelect(String tableName, String[] columns, String subQuery, List<String> orderBys, long limit, long offset); @Override Object overrideDriverTypeConversion(MetaModel mm, String attributeName, Object value); }
@Test public void shouldGenerateSqlWithParameters() { a(Person.where("name = ? AND last_name = ?", "John", "Doe").toSql(true) .endsWith(", with parameters: John, Doe")).shouldBeTrue(); }	public String toSql() { return toSql(true); }	LazyList extends AbstractLazyList<T> implements Externalizable { public String toSql() { return toSql(true); } }	LazyList extends AbstractLazyList<T> implements Externalizable { public String toSql() { return toSql(true); } protected LazyList(String subQuery, MetaModel metaModel, Object... params); protected LazyList(boolean forPaginator, MetaModel metaModel, String fullQuery, Object... params); protected LazyList(); }	LazyList extends AbstractLazyList<T> implements Externalizable { public String toSql() { return toSql(true); } protected LazyList(String subQuery, MetaModel metaModel, Object... params); protected LazyList(boolean forPaginator, MetaModel metaModel, String fullQuery, Object... params); protected LazyList(); LazyList<E> limit(long limit); LazyList<E> offset(long offset); LazyList<E> orderBy(String orderBy); LazyList<E> include(Class<? extends Model>... classes); List<Map<String, Object>> toMaps(); String toXml(boolean pretty, boolean declaration, String... attrs); String toJson(boolean pretty, String ... attrs); LazyList<E> load(); String toSql(); String toSql(boolean showParameters); List collect(String attributeName); Set collectDistinct(String attributeName); List collect(String attributeName, String filterAttribute, Object filterValue); Set collectDistinct(String attributeName, String filterAttribute, Object filterValue); void dump(); void dump(OutputStream out); @Override void writeExternal(ObjectOutput out); @Override @SuppressWarnings("unchecked") void readExternal(ObjectInput in); }	LazyList extends AbstractLazyList<T> implements Externalizable { public String toSql() { return toSql(true); } protected LazyList(String subQuery, MetaModel metaModel, Object... params); protected LazyList(boolean forPaginator, MetaModel metaModel, String fullQuery, Object... params); protected LazyList(); LazyList<E> limit(long limit); LazyList<E> offset(long offset); LazyList<E> orderBy(String orderBy); LazyList<E> include(Class<? extends Model>... classes); List<Map<String, Object>> toMaps(); String toXml(boolean pretty, boolean declaration, String... attrs); String toJson(boolean pretty, String ... attrs); LazyList<E> load(); String toSql(); String toSql(boolean showParameters); List collect(String attributeName); Set collectDistinct(String attributeName); List collect(String attributeName, String filterAttribute, Object filterValue); Set collectDistinct(String attributeName, String filterAttribute, Object filterValue); void dump(); void dump(OutputStream out); @Override void writeExternal(ObjectOutput out); @Override @SuppressWarnings("unchecked") void readExternal(ObjectInput in); }
@Test public void shouldEscapeBasicHTML(){ the(Escape.html("<script>alert(\"This & that, it's the problem.\");</script>")).shouldBeEqual( "<script>alert("This & that, it's the problem.");</script>"); }	public static void html(StringBuilder sb, String html) { for (int i = 0; i < html.length(); i++) { char c = html.charAt(i); switch (c) { case '&': sb.append("&"); break; case '"': sb.append("""); break; case '\'': sb.append("'"); break; case '<': sb.append("<"); break; case '>': sb.append(">"); break; default: sb.append(c); } } }	Escape { public static void html(StringBuilder sb, String html) { for (int i = 0; i < html.length(); i++) { char c = html.charAt(i); switch (c) { case '&': sb.append("&"); break; case '"': sb.append("""); break; case '\'': sb.append("'"); break; case '<': sb.append("<"); break; case '>': sb.append(">"); break; default: sb.append(c); } } } }	Escape { public static void html(StringBuilder sb, String html) { for (int i = 0; i < html.length(); i++) { char c = html.charAt(i); switch (c) { case '&': sb.append("&"); break; case '"': sb.append("""); break; case '\'': sb.append("'"); break; case '<': sb.append("<"); break; case '>': sb.append(">"); break; default: sb.append(c); } } } private Escape(); }	Escape { public static void html(StringBuilder sb, String html) { for (int i = 0; i < html.length(); i++) { char c = html.charAt(i); switch (c) { case '&': sb.append("&"); break; case '"': sb.append("""); break; case '\'': sb.append("'"); break; case '<': sb.append("<"); break; case '>': sb.append(">"); break; default: sb.append(c); } } } private Escape(); static void html(StringBuilder sb, String html); static String html(String html); static void xml(StringBuilder sb, String xml); static String xml(String xml); }	Escape { public static void html(StringBuilder sb, String html) { for (int i = 0; i < html.length(); i++) { char c = html.charAt(i); switch (c) { case '&': sb.append("&"); break; case '"': sb.append("""); break; case '\'': sb.append("'"); break; case '<': sb.append("<"); break; case '>': sb.append(">"); break; default: sb.append(c); } } } private Escape(); static void html(StringBuilder sb, String html); static String html(String html); static void xml(StringBuilder sb, String xml); static String xml(String xml); }
@Test public void shouldNotEscapeHighUnicode() { String unicode = "\u30D5\u30EC\u30FC\u30E0\u30EF\u30FC\u30AF\u306E\u30D9\u30F3\u30C1\u30DE\u30FC\u30AF"; the(Escape.html(unicode)).shouldBeEqual(unicode); }	public static void html(StringBuilder sb, String html) { for (int i = 0; i < html.length(); i++) { char c = html.charAt(i); switch (c) { case '&': sb.append("&"); break; case '"': sb.append("""); break; case '\'': sb.append("'"); break; case '<': sb.append("<"); break; case '>': sb.append(">"); break; default: sb.append(c); } } }	Escape { public static void html(StringBuilder sb, String html) { for (int i = 0; i < html.length(); i++) { char c = html.charAt(i); switch (c) { case '&': sb.append("&"); break; case '"': sb.append("""); break; case '\'': sb.append("'"); break; case '<': sb.append("<"); break; case '>': sb.append(">"); break; default: sb.append(c); } } } }	Escape { public static void html(StringBuilder sb, String html) { for (int i = 0; i < html.length(); i++) { char c = html.charAt(i); switch (c) { case '&': sb.append("&"); break; case '"': sb.append("""); break; case '\'': sb.append("'"); break; case '<': sb.append("<"); break; case '>': sb.append(">"); break; default: sb.append(c); } } } private Escape(); }	Escape { public static void html(StringBuilder sb, String html) { for (int i = 0; i < html.length(); i++) { char c = html.charAt(i); switch (c) { case '&': sb.append("&"); break; case '"': sb.append("""); break; case '\'': sb.append("'"); break; case '<': sb.append("<"); break; case '>': sb.append(">"); break; default: sb.append(c); } } } private Escape(); static void html(StringBuilder sb, String html); static String html(String html); static void xml(StringBuilder sb, String xml); static String xml(String xml); }	Escape { public static void html(StringBuilder sb, String html) { for (int i = 0; i < html.length(); i++) { char c = html.charAt(i); switch (c) { case '&': sb.append("&"); break; case '"': sb.append("""); break; case '\'': sb.append("'"); break; case '<': sb.append("<"); break; case '>': sb.append(">"); break; default: sb.append(c); } } } private Escape(); static void html(StringBuilder sb, String html); static String html(String html); static void xml(StringBuilder sb, String xml); static String xml(String xml); }
@Test(expected = IllegalArgumentException.class) public void shouldRejectOddNumberOfArguments(){ Collections.map("hi"); }	public static <K, V> Map<K, V> map(Object... keysAndValues) { if (keysAndValues.length % 2 != 0) { throw new IllegalArgumentException("number of arguments must be even"); } Map<K, V> map = new HashMap<K, V>(Math.max(keysAndValues.length, 16)); for (int i = 0; i < keysAndValues.length;) { map.put((K) keysAndValues[i++], (V) keysAndValues[i++]); } return map; }	Collections { public static <K, V> Map<K, V> map(Object... keysAndValues) { if (keysAndValues.length % 2 != 0) { throw new IllegalArgumentException("number of arguments must be even"); } Map<K, V> map = new HashMap<K, V>(Math.max(keysAndValues.length, 16)); for (int i = 0; i < keysAndValues.length;) { map.put((K) keysAndValues[i++], (V) keysAndValues[i++]); } return map; } }	Collections { public static <K, V> Map<K, V> map(Object... keysAndValues) { if (keysAndValues.length % 2 != 0) { throw new IllegalArgumentException("number of arguments must be even"); } Map<K, V> map = new HashMap<K, V>(Math.max(keysAndValues.length, 16)); for (int i = 0; i < keysAndValues.length;) { map.put((K) keysAndValues[i++], (V) keysAndValues[i++]); } return map; } private Collections(); }	Collections { public static <K, V> Map<K, V> map(Object... keysAndValues) { if (keysAndValues.length % 2 != 0) { throw new IllegalArgumentException("number of arguments must be even"); } Map<K, V> map = new HashMap<K, V>(Math.max(keysAndValues.length, 16)); for (int i = 0; i < keysAndValues.length;) { map.put((K) keysAndValues[i++], (V) keysAndValues[i++]); } return map; } private Collections(); static T[] arr(T... values); static T[] array(T... values); static Set<T> set(T... values); static Map<K, V> map(Object... keysAndValues); static List<T> li(T... values); static List<T> list(T... values); }	Collections { public static <K, V> Map<K, V> map(Object... keysAndValues) { if (keysAndValues.length % 2 != 0) { throw new IllegalArgumentException("number of arguments must be even"); } Map<K, V> map = new HashMap<K, V>(Math.max(keysAndValues.length, 16)); for (int i = 0; i < keysAndValues.length;) { map.put((K) keysAndValues[i++], (V) keysAndValues[i++]); } return map; } private Collections(); static T[] arr(T... values); static T[] array(T... values); static Set<T> set(T... values); static Map<K, V> map(Object... keysAndValues); static List<T> li(T... values); static List<T> list(T... values); }
@Test public void testModelFindOneParametrized() { deleteAndPopulateTable("people"); Person person = Person.findFirst("id = ?", 2); a(person).shouldNotBeNull(); }	public static <T extends Model> T findFirst(String subQuery, Object... params) { return ModelDelegate.findFirst(Model.<T>modelClass(), subQuery, params); }	Model extends CallbackSupport implements Externalizable, Validatable { public static <T extends Model> T findFirst(String subQuery, Object... params) { return ModelDelegate.findFirst(Model.<T>modelClass(), subQuery, params); } }	Model extends CallbackSupport implements Externalizable, Validatable { public static <T extends Model> T findFirst(String subQuery, Object... params) { return ModelDelegate.findFirst(Model.<T>modelClass(), subQuery, params); } protected Model(); protected Model(MetaModel metaModel, ModelRegistry modelRegistry); }	Model extends CallbackSupport implements Externalizable, Validatable { public static <T extends Model> T findFirst(String subQuery, Object... params) { return ModelDelegate.findFirst(Model.<T>modelClass(), subQuery, params); } protected Model(); protected Model(MetaModel metaModel, ModelRegistry modelRegistry); static MetaModel getMetaModel(); static MetaModel metaModel(); T fromMap(Map input); static T findOrCreateIt(Object... namesAndValues); static T findOrInit(Object... namesAndValues); T setId(Object id); T setDate(String attributeName, Object value); java.sql.Date getDate(String attributeName); void set(String[] attributeNames, Object[] values); T set(String attributeName, Object value); boolean isModified(); boolean isFrozen(); boolean modified(); static Set<String> attributeNames(); static List<Association> associations(); boolean isNew(); boolean frozen(); boolean delete(); void delete(boolean cascade); void deleteCascade(); void deleteCascadeExcept(Association... excludedAssociations); void deleteCascadeShallow(); void deleteChildrenShallow(Class<T> clazz); static int delete(String query, Object... params); static boolean exists(Object id); boolean exists(); static int deleteAll(); static int update(String updates, String conditions, Object ... params); static int updateAll(String updates, Object ... params); Map<String, Object> toMap(); @Override String toString(); void fromXml(String xml); String toXml(boolean pretty, boolean declaration, String... attributeNames); void beforeClosingTag(StringBuilder sb, boolean pretty, String indent, String... attributeNames); String toJson(boolean pretty, String... attributeNames); void beforeClosingBrace(StringBuilder sb, boolean pretty, String indent, String... attributeNames); P parent(Class<P> parentClass); P parent(Class<P> parentClass, boolean cache); void setParents(Model... parents); void setParent(Model parent); void copyTo(Model other); void copyFrom(Model other); void refresh(); Object get(String attributeName); String getString(String attributeName); byte[] getBytes(String attributeName); BigDecimal getBigDecimal(String attributeName); Integer getInteger(String attributeName); Long getLong(String attributeName); Short getShort(String attributeName); Float getFloat(String attributeName); Time getTime(String attributeName); Timestamp getTimestamp(String attributeName); Double getDouble(String attributeName); Boolean getBoolean(String attributeName); T setString(String attributeName, Object value); T setBigDecimal(String attributeName, Object value); T setShort(String attributeName, Object value); T setInteger(String attributeName, Object value); T setLong(String attributeName, Object value); T setFloat(String attributeName, Object value); T setTime(String attributeName, Object value); T setTimestamp(String attributeName, Object value); T setDouble(String attributeName, Object value); T setBoolean(String attributeName, Object value); LazyList<C> getAll(Class<C> clazz); LazyList<C> get(Class<C> targetModelClass, String criteria, Object ... params); static ValidationBuilder addValidator(Validator validator); void addError(String key, String value); static void removeValidator(Validator validator); static List<Validator> getValidators(Class<? extends Model> clazz); static boolean belongsTo(Class<? extends Model> targetClass); static void callbackWith(CallbackListener... listeners); boolean isValid(); void validate(); void validate(boolean reset); boolean hasErrors(); void addFailedValidator(Validator validator, String errorKey); Errors errors(); Errors errors(Locale locale); static T create(Object... namesAndValues); T set(Object... namesAndValues); static T createIt(Object ... namesAndValues); static T findById(Object id); static T findByCompositeKeys(Object... values); static LazyList<T> where(String subquery, Object... params); static ScopeBuilder<T> scopes(String ... scopes); static ScopeBuilder<T> scope(String scope); static LazyList<T> find(String subquery, Object... params); static T findFirst(String subQuery, Object... params); static T first(String subQuery, Object... params); static void findWith(final ModelListener listener, String query, Object ... params); static LazyList<T> findBySQL(String fullQuery, Object... params); static LazyList<T> findAll(); void add(Model child); void addModels(List<T> models); int remove(Model child); boolean saveIt(); void reset(); void thaw(); void defrost(); boolean save(); static Long count(); static Long count(String query, Object... params); boolean insert(); static String getTableName(); Object getId(); String getIdName(); String[] getCompositeKeys(); void manageTime(boolean manage); String toInsert(String ... replacements); String toInsert(Dialect dialect, String ... replacements); String toUpdate(String ... replacements); String toUpdate(Dialect dialect, String ... replacements); static boolean isCached(); static void purgeCache(); Long getLongId(); @Override void writeExternal(ObjectOutput out); @Override void readExternal(ObjectInput in); }	Model extends CallbackSupport implements Externalizable, Validatable { public static <T extends Model> T findFirst(String subQuery, Object... params) { return ModelDelegate.findFirst(Model.<T>modelClass(), subQuery, params); } protected Model(); protected Model(MetaModel metaModel, ModelRegistry modelRegistry); static MetaModel getMetaModel(); static MetaModel metaModel(); T fromMap(Map input); static T findOrCreateIt(Object... namesAndValues); static T findOrInit(Object... namesAndValues); T setId(Object id); T setDate(String attributeName, Object value); java.sql.Date getDate(String attributeName); void set(String[] attributeNames, Object[] values); T set(String attributeName, Object value); boolean isModified(); boolean isFrozen(); boolean modified(); static Set<String> attributeNames(); static List<Association> associations(); boolean isNew(); boolean frozen(); boolean delete(); void delete(boolean cascade); void deleteCascade(); void deleteCascadeExcept(Association... excludedAssociations); void deleteCascadeShallow(); void deleteChildrenShallow(Class<T> clazz); static int delete(String query, Object... params); static boolean exists(Object id); boolean exists(); static int deleteAll(); static int update(String updates, String conditions, Object ... params); static int updateAll(String updates, Object ... params); Map<String, Object> toMap(); @Override String toString(); void fromXml(String xml); String toXml(boolean pretty, boolean declaration, String... attributeNames); void beforeClosingTag(StringBuilder sb, boolean pretty, String indent, String... attributeNames); String toJson(boolean pretty, String... attributeNames); void beforeClosingBrace(StringBuilder sb, boolean pretty, String indent, String... attributeNames); P parent(Class<P> parentClass); P parent(Class<P> parentClass, boolean cache); void setParents(Model... parents); void setParent(Model parent); void copyTo(Model other); void copyFrom(Model other); void refresh(); Object get(String attributeName); String getString(String attributeName); byte[] getBytes(String attributeName); BigDecimal getBigDecimal(String attributeName); Integer getInteger(String attributeName); Long getLong(String attributeName); Short getShort(String attributeName); Float getFloat(String attributeName); Time getTime(String attributeName); Timestamp getTimestamp(String attributeName); Double getDouble(String attributeName); Boolean getBoolean(String attributeName); T setString(String attributeName, Object value); T setBigDecimal(String attributeName, Object value); T setShort(String attributeName, Object value); T setInteger(String attributeName, Object value); T setLong(String attributeName, Object value); T setFloat(String attributeName, Object value); T setTime(String attributeName, Object value); T setTimestamp(String attributeName, Object value); T setDouble(String attributeName, Object value); T setBoolean(String attributeName, Object value); LazyList<C> getAll(Class<C> clazz); LazyList<C> get(Class<C> targetModelClass, String criteria, Object ... params); static ValidationBuilder addValidator(Validator validator); void addError(String key, String value); static void removeValidator(Validator validator); static List<Validator> getValidators(Class<? extends Model> clazz); static boolean belongsTo(Class<? extends Model> targetClass); static void callbackWith(CallbackListener... listeners); boolean isValid(); void validate(); void validate(boolean reset); boolean hasErrors(); void addFailedValidator(Validator validator, String errorKey); Errors errors(); Errors errors(Locale locale); static T create(Object... namesAndValues); T set(Object... namesAndValues); static T createIt(Object ... namesAndValues); static T findById(Object id); static T findByCompositeKeys(Object... values); static LazyList<T> where(String subquery, Object... params); static ScopeBuilder<T> scopes(String ... scopes); static ScopeBuilder<T> scope(String scope); static LazyList<T> find(String subquery, Object... params); static T findFirst(String subQuery, Object... params); static T first(String subQuery, Object... params); static void findWith(final ModelListener listener, String query, Object ... params); static LazyList<T> findBySQL(String fullQuery, Object... params); static LazyList<T> findAll(); void add(Model child); void addModels(List<T> models); int remove(Model child); boolean saveIt(); void reset(); void thaw(); void defrost(); boolean save(); static Long count(); static Long count(String query, Object... params); boolean insert(); static String getTableName(); Object getId(); String getIdName(); String[] getCompositeKeys(); void manageTime(boolean manage); String toInsert(String ... replacements); String toInsert(Dialect dialect, String ... replacements); String toUpdate(String ... replacements); String toUpdate(Dialect dialect, String ... replacements); static boolean isCached(); static void purgeCache(); Long getLongId(); @Override void writeExternal(ObjectOutput out); @Override void readExternal(ObjectInput in); }
@Test public void shouldCreateProperMap(){ Map<String, Object> person = Collections.map("name", "James", "last_name", "Belushi"); a(person.get("name")).shouldBeEqual("James"); a(person.get("last_name")).shouldBeEqual("Belushi"); }	public static <K, V> Map<K, V> map(Object... keysAndValues) { if (keysAndValues.length % 2 != 0) { throw new IllegalArgumentException("number of arguments must be even"); } Map<K, V> map = new HashMap<K, V>(Math.max(keysAndValues.length, 16)); for (int i = 0; i < keysAndValues.length;) { map.put((K) keysAndValues[i++], (V) keysAndValues[i++]); } return map; }	Collections { public static <K, V> Map<K, V> map(Object... keysAndValues) { if (keysAndValues.length % 2 != 0) { throw new IllegalArgumentException("number of arguments must be even"); } Map<K, V> map = new HashMap<K, V>(Math.max(keysAndValues.length, 16)); for (int i = 0; i < keysAndValues.length;) { map.put((K) keysAndValues[i++], (V) keysAndValues[i++]); } return map; } }	Collections { public static <K, V> Map<K, V> map(Object... keysAndValues) { if (keysAndValues.length % 2 != 0) { throw new IllegalArgumentException("number of arguments must be even"); } Map<K, V> map = new HashMap<K, V>(Math.max(keysAndValues.length, 16)); for (int i = 0; i < keysAndValues.length;) { map.put((K) keysAndValues[i++], (V) keysAndValues[i++]); } return map; } private Collections(); }	Collections { public static <K, V> Map<K, V> map(Object... keysAndValues) { if (keysAndValues.length % 2 != 0) { throw new IllegalArgumentException("number of arguments must be even"); } Map<K, V> map = new HashMap<K, V>(Math.max(keysAndValues.length, 16)); for (int i = 0; i < keysAndValues.length;) { map.put((K) keysAndValues[i++], (V) keysAndValues[i++]); } return map; } private Collections(); static T[] arr(T... values); static T[] array(T... values); static Set<T> set(T... values); static Map<K, V> map(Object... keysAndValues); static List<T> li(T... values); static List<T> list(T... values); }	Collections { public static <K, V> Map<K, V> map(Object... keysAndValues) { if (keysAndValues.length % 2 != 0) { throw new IllegalArgumentException("number of arguments must be even"); } Map<K, V> map = new HashMap<K, V>(Math.max(keysAndValues.length, 16)); for (int i = 0; i < keysAndValues.length;) { map.put((K) keysAndValues[i++], (V) keysAndValues[i++]); } return map; } private Collections(); static T[] arr(T... values); static T[] array(T... values); static Set<T> set(T... values); static Map<K, V> map(Object... keysAndValues); static List<T> li(T... values); static List<T> list(T... values); }
@Test public void shouldCreateArray(){ String[] ar = Collections.array("John", "James", "Mary", "Keith"); a(ar.length).shouldBeEqual(4); a(ar[0]).shouldBeEqual("John"); a(ar[1]).shouldBeEqual("James"); a(ar[2]).shouldBeEqual("Mary"); a(ar[3]).shouldBeEqual("Keith"); }	public static <T> T[] array(T... values) { return values; }	Collections { public static <T> T[] array(T... values) { return values; } }	Collections { public static <T> T[] array(T... values) { return values; } private Collections(); }	Collections { public static <T> T[] array(T... values) { return values; } private Collections(); static T[] arr(T... values); static T[] array(T... values); static Set<T> set(T... values); static Map<K, V> map(Object... keysAndValues); static List<T> li(T... values); static List<T> list(T... values); }	Collections { public static <T> T[] array(T... values) { return values; } private Collections(); static T[] arr(T... values); static T[] array(T... values); static Set<T> set(T... values); static Map<K, V> map(Object... keysAndValues); static List<T> li(T... values); static List<T> list(T... values); }
@Test public void shouldCreateList(){ List<String> list = Collections.list("John", "James", "Mary", "Keith"); list.add("hello"); a(list.size()).shouldBeEqual(5); a(list.get(0)).shouldBeEqual("John"); a(list.get(1)).shouldBeEqual("James"); a(list.get(2)).shouldBeEqual("Mary"); a(list.get(3)).shouldBeEqual("Keith"); }	public static <T> List<T> list(T... values) { return new ArrayList<T>(Arrays.asList(values)); }	Collections { public static <T> List<T> list(T... values) { return new ArrayList<T>(Arrays.asList(values)); } }	Collections { public static <T> List<T> list(T... values) { return new ArrayList<T>(Arrays.asList(values)); } private Collections(); }	Collections { public static <T> List<T> list(T... values) { return new ArrayList<T>(Arrays.asList(values)); } private Collections(); static T[] arr(T... values); static T[] array(T... values); static Set<T> set(T... values); static Map<K, V> map(Object... keysAndValues); static List<T> li(T... values); static List<T> list(T... values); }	Collections { public static <T> List<T> list(T... values) { return new ArrayList<T>(Arrays.asList(values)); } private Collections(); static T[] arr(T... values); static T[] array(T... values); static Set<T> set(T... values); static Map<K, V> map(Object... keysAndValues); static List<T> li(T... values); static List<T> list(T... values); }
@Test public void testJoin(){ String[] arr = {"first", "second", "third", "fourth"}; a("first, second, third, fourth").shouldBeEqual(Util.join(Arrays.asList(arr), ", ")); }	public static String join(String[] array, String delimiter) { if (empty(array)) { return ""; } StringBuilder sb = new StringBuilder(); join(sb, array, delimiter); return sb.toString(); }	Util { public static String join(String[] array, String delimiter) { if (empty(array)) { return ""; } StringBuilder sb = new StringBuilder(); join(sb, array, delimiter); return sb.toString(); } }	Util { public static String join(String[] array, String delimiter) { if (empty(array)) { return ""; } StringBuilder sb = new StringBuilder(); join(sb, array, delimiter); return sb.toString(); } private Util(); }	Util { public static String join(String[] array, String delimiter) { if (empty(array)) { return ""; } StringBuilder sb = new StringBuilder(); join(sb, array, delimiter); return sb.toString(); } private Util(); static byte[] readResourceBytes(String resourceName); static String readResource(String resourceName); static String readResource(String resourceName, String charset); static String readFile(String fileName); static String readFile(String fileName, String charset); static void closeQuietly(AutoCloseable autoCloseable); static void closeQuietly(AutoCloseable ... autoCloseable); static void closeQuietly(List<T> autoCloseable); static String read(InputStream in); static String read(InputStream in, String charset); static byte[] bytes(InputStream in); static byte[] read(File file); static List<String> getResourceLines(String resourceName); static boolean blank(Object value); static boolean empty(Object[] array); static boolean empty(Collection<?> collection); static String join(String[] array, String delimiter); static String[] split(String input, String delimiters); static String[] split(String input, char delimiter); static String join(Collection<?> collection, String delimiter); static void join(StringBuilder sb, Collection<?> collection, String delimiter); static void join(StringBuilder sb, Object[] array, String delimiter); static void repeat(StringBuilder sb, String str, int count); static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count); static void saveTo(String path, InputStream in); static String getCauseMessage(Throwable throwable); static String getStackTraceString(Throwable throwable); static void saveTo(String path, byte[] content); static String toBase64(byte[] input); static byte[] fromBase64(String input); String[] arr(String ... params); static Properties readProperties(String fileOrResource); static boolean createTree(Path path); static void recursiveDelete(Path directory); }	Util { public static String join(String[] array, String delimiter) { if (empty(array)) { return ""; } StringBuilder sb = new StringBuilder(); join(sb, array, delimiter); return sb.toString(); } private Util(); static byte[] readResourceBytes(String resourceName); static String readResource(String resourceName); static String readResource(String resourceName, String charset); static String readFile(String fileName); static String readFile(String fileName, String charset); static void closeQuietly(AutoCloseable autoCloseable); static void closeQuietly(AutoCloseable ... autoCloseable); static void closeQuietly(List<T> autoCloseable); static String read(InputStream in); static String read(InputStream in, String charset); static byte[] bytes(InputStream in); static byte[] read(File file); static List<String> getResourceLines(String resourceName); static boolean blank(Object value); static boolean empty(Object[] array); static boolean empty(Collection<?> collection); static String join(String[] array, String delimiter); static String[] split(String input, String delimiters); static String[] split(String input, char delimiter); static String join(Collection<?> collection, String delimiter); static void join(StringBuilder sb, Collection<?> collection, String delimiter); static void join(StringBuilder sb, Object[] array, String delimiter); static void repeat(StringBuilder sb, String str, int count); static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count); static void saveTo(String path, InputStream in); static String getCauseMessage(Throwable throwable); static String getStackTraceString(Throwable throwable); static void saveTo(String path, byte[] content); static String toBase64(byte[] input); static byte[] fromBase64(String input); String[] arr(String ... params); static Properties readProperties(String fileOrResource); static boolean createTree(Path path); static void recursiveDelete(Path directory); }
@Test public void testSplit(){ String[] split = Util.split("", ','); the(split.length).shouldBeEqual(0); split = Util.split(" ", ','); the(split.length).shouldBeEqual(1); the(split[0]).shouldBeEqual(""); split = Util.split("a..b", '.'); the(split.length).shouldBeEqual(2); the(split[0]).shouldBeEqual("a"); the(split[1]).shouldBeEqual("b"); split = Util.split("a . . b", '.'); the(split.length).shouldBeEqual(3); the(split[0]).shouldBeEqual("a"); the(split[1]).shouldBeEqual(""); the(split[2]).shouldBeEqual("b"); split = Util.split(" Hello, Dolly, my darling ", ','); the(split.length).shouldBeEqual(3); the(split[0]).shouldBeEqual("Hello"); the(split[1]).shouldBeEqual("Dolly"); the(split[2]).shouldBeEqual("my darling"); split = Util.split("/blog/items", '/'); the(split.length).shouldBeEqual(2); the(split[0]).shouldBeEqual("blog"); the(split[1]).shouldBeEqual("items"); }	public static String[] split(String input, String delimiters) { if (input == null) { throw new NullPointerException("input cannot be null"); } List<String> tokens = new ArrayList<String>(); StringTokenizer st = new StringTokenizer(input, delimiters); while(st.hasMoreTokens()) { tokens.add(st.nextToken().trim()); } return tokens.toArray(new String[tokens.size()]); }	Util { public static String[] split(String input, String delimiters) { if (input == null) { throw new NullPointerException("input cannot be null"); } List<String> tokens = new ArrayList<String>(); StringTokenizer st = new StringTokenizer(input, delimiters); while(st.hasMoreTokens()) { tokens.add(st.nextToken().trim()); } return tokens.toArray(new String[tokens.size()]); } }	Util { public static String[] split(String input, String delimiters) { if (input == null) { throw new NullPointerException("input cannot be null"); } List<String> tokens = new ArrayList<String>(); StringTokenizer st = new StringTokenizer(input, delimiters); while(st.hasMoreTokens()) { tokens.add(st.nextToken().trim()); } return tokens.toArray(new String[tokens.size()]); } private Util(); }	Util { public static String[] split(String input, String delimiters) { if (input == null) { throw new NullPointerException("input cannot be null"); } List<String> tokens = new ArrayList<String>(); StringTokenizer st = new StringTokenizer(input, delimiters); while(st.hasMoreTokens()) { tokens.add(st.nextToken().trim()); } return tokens.toArray(new String[tokens.size()]); } private Util(); static byte[] readResourceBytes(String resourceName); static String readResource(String resourceName); static String readResource(String resourceName, String charset); static String readFile(String fileName); static String readFile(String fileName, String charset); static void closeQuietly(AutoCloseable autoCloseable); static void closeQuietly(AutoCloseable ... autoCloseable); static void closeQuietly(List<T> autoCloseable); static String read(InputStream in); static String read(InputStream in, String charset); static byte[] bytes(InputStream in); static byte[] read(File file); static List<String> getResourceLines(String resourceName); static boolean blank(Object value); static boolean empty(Object[] array); static boolean empty(Collection<?> collection); static String join(String[] array, String delimiter); static String[] split(String input, String delimiters); static String[] split(String input, char delimiter); static String join(Collection<?> collection, String delimiter); static void join(StringBuilder sb, Collection<?> collection, String delimiter); static void join(StringBuilder sb, Object[] array, String delimiter); static void repeat(StringBuilder sb, String str, int count); static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count); static void saveTo(String path, InputStream in); static String getCauseMessage(Throwable throwable); static String getStackTraceString(Throwable throwable); static void saveTo(String path, byte[] content); static String toBase64(byte[] input); static byte[] fromBase64(String input); String[] arr(String ... params); static Properties readProperties(String fileOrResource); static boolean createTree(Path path); static void recursiveDelete(Path directory); }	Util { public static String[] split(String input, String delimiters) { if (input == null) { throw new NullPointerException("input cannot be null"); } List<String> tokens = new ArrayList<String>(); StringTokenizer st = new StringTokenizer(input, delimiters); while(st.hasMoreTokens()) { tokens.add(st.nextToken().trim()); } return tokens.toArray(new String[tokens.size()]); } private Util(); static byte[] readResourceBytes(String resourceName); static String readResource(String resourceName); static String readResource(String resourceName, String charset); static String readFile(String fileName); static String readFile(String fileName, String charset); static void closeQuietly(AutoCloseable autoCloseable); static void closeQuietly(AutoCloseable ... autoCloseable); static void closeQuietly(List<T> autoCloseable); static String read(InputStream in); static String read(InputStream in, String charset); static byte[] bytes(InputStream in); static byte[] read(File file); static List<String> getResourceLines(String resourceName); static boolean blank(Object value); static boolean empty(Object[] array); static boolean empty(Collection<?> collection); static String join(String[] array, String delimiter); static String[] split(String input, String delimiters); static String[] split(String input, char delimiter); static String join(Collection<?> collection, String delimiter); static void join(StringBuilder sb, Collection<?> collection, String delimiter); static void join(StringBuilder sb, Object[] array, String delimiter); static void repeat(StringBuilder sb, String str, int count); static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count); static void saveTo(String path, InputStream in); static String getCauseMessage(Throwable throwable); static String getStackTraceString(Throwable throwable); static void saveTo(String path, byte[] content); static String toBase64(byte[] input); static byte[] fromBase64(String input); String[] arr(String ... params); static Properties readProperties(String fileOrResource); static boolean createTree(Path path); static void recursiveDelete(Path directory); }
@Test public void shouldReadBytesFromStream() throws IOException { byte[] bytes = Util.bytes(UtilTest.class.getResourceAsStream("/text.txt")); a(new String(bytes)).shouldBeEqual("hello"); }	public static byte[] bytes(InputStream in) throws IOException { if (in == null) { throw new IllegalArgumentException("input stream cannot be null"); } ByteArrayOutputStream os = null; try { os = new ByteArrayOutputStream(1024); byte[] bytes = new byte[1024]; int len; while ((len = in.read(bytes)) != -1) { os.write(bytes, 0, len); } return os.toByteArray(); } finally { closeQuietly(os); } }	Util { public static byte[] bytes(InputStream in) throws IOException { if (in == null) { throw new IllegalArgumentException("input stream cannot be null"); } ByteArrayOutputStream os = null; try { os = new ByteArrayOutputStream(1024); byte[] bytes = new byte[1024]; int len; while ((len = in.read(bytes)) != -1) { os.write(bytes, 0, len); } return os.toByteArray(); } finally { closeQuietly(os); } } }	Util { public static byte[] bytes(InputStream in) throws IOException { if (in == null) { throw new IllegalArgumentException("input stream cannot be null"); } ByteArrayOutputStream os = null; try { os = new ByteArrayOutputStream(1024); byte[] bytes = new byte[1024]; int len; while ((len = in.read(bytes)) != -1) { os.write(bytes, 0, len); } return os.toByteArray(); } finally { closeQuietly(os); } } private Util(); }	Util { public static byte[] bytes(InputStream in) throws IOException { if (in == null) { throw new IllegalArgumentException("input stream cannot be null"); } ByteArrayOutputStream os = null; try { os = new ByteArrayOutputStream(1024); byte[] bytes = new byte[1024]; int len; while ((len = in.read(bytes)) != -1) { os.write(bytes, 0, len); } return os.toByteArray(); } finally { closeQuietly(os); } } private Util(); static byte[] readResourceBytes(String resourceName); static String readResource(String resourceName); static String readResource(String resourceName, String charset); static String readFile(String fileName); static String readFile(String fileName, String charset); static void closeQuietly(AutoCloseable autoCloseable); static void closeQuietly(AutoCloseable ... autoCloseable); static void closeQuietly(List<T> autoCloseable); static String read(InputStream in); static String read(InputStream in, String charset); static byte[] bytes(InputStream in); static byte[] read(File file); static List<String> getResourceLines(String resourceName); static boolean blank(Object value); static boolean empty(Object[] array); static boolean empty(Collection<?> collection); static String join(String[] array, String delimiter); static String[] split(String input, String delimiters); static String[] split(String input, char delimiter); static String join(Collection<?> collection, String delimiter); static void join(StringBuilder sb, Collection<?> collection, String delimiter); static void join(StringBuilder sb, Object[] array, String delimiter); static void repeat(StringBuilder sb, String str, int count); static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count); static void saveTo(String path, InputStream in); static String getCauseMessage(Throwable throwable); static String getStackTraceString(Throwable throwable); static void saveTo(String path, byte[] content); static String toBase64(byte[] input); static byte[] fromBase64(String input); String[] arr(String ... params); static Properties readProperties(String fileOrResource); static boolean createTree(Path path); static void recursiveDelete(Path directory); }	Util { public static byte[] bytes(InputStream in) throws IOException { if (in == null) { throw new IllegalArgumentException("input stream cannot be null"); } ByteArrayOutputStream os = null; try { os = new ByteArrayOutputStream(1024); byte[] bytes = new byte[1024]; int len; while ((len = in.read(bytes)) != -1) { os.write(bytes, 0, len); } return os.toByteArray(); } finally { closeQuietly(os); } } private Util(); static byte[] readResourceBytes(String resourceName); static String readResource(String resourceName); static String readResource(String resourceName, String charset); static String readFile(String fileName); static String readFile(String fileName, String charset); static void closeQuietly(AutoCloseable autoCloseable); static void closeQuietly(AutoCloseable ... autoCloseable); static void closeQuietly(List<T> autoCloseable); static String read(InputStream in); static String read(InputStream in, String charset); static byte[] bytes(InputStream in); static byte[] read(File file); static List<String> getResourceLines(String resourceName); static boolean blank(Object value); static boolean empty(Object[] array); static boolean empty(Collection<?> collection); static String join(String[] array, String delimiter); static String[] split(String input, String delimiters); static String[] split(String input, char delimiter); static String join(Collection<?> collection, String delimiter); static void join(StringBuilder sb, Collection<?> collection, String delimiter); static void join(StringBuilder sb, Object[] array, String delimiter); static void repeat(StringBuilder sb, String str, int count); static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count); static void saveTo(String path, InputStream in); static String getCauseMessage(Throwable throwable); static String getStackTraceString(Throwable throwable); static void saveTo(String path, byte[] content); static String toBase64(byte[] input); static byte[] fromBase64(String input); String[] arr(String ... params); static Properties readProperties(String fileOrResource); static boolean createTree(Path path); static void recursiveDelete(Path directory); }
@Test public void shouldReadBytesFromResource() throws IOException { byte[] bytes = Util.readResourceBytes("/pdf_implementation.pdf"); a(bytes.length).shouldBeEqual(174230); }	public static byte[] readResourceBytes(String resourceName) { InputStream is = Util.class.getResourceAsStream(resourceName); try { return bytes(is); } catch (IOException e) { throw new RuntimeException(e); } finally { closeQuietly(is); } }	Util { public static byte[] readResourceBytes(String resourceName) { InputStream is = Util.class.getResourceAsStream(resourceName); try { return bytes(is); } catch (IOException e) { throw new RuntimeException(e); } finally { closeQuietly(is); } } }	Util { public static byte[] readResourceBytes(String resourceName) { InputStream is = Util.class.getResourceAsStream(resourceName); try { return bytes(is); } catch (IOException e) { throw new RuntimeException(e); } finally { closeQuietly(is); } } private Util(); }	Util { public static byte[] readResourceBytes(String resourceName) { InputStream is = Util.class.getResourceAsStream(resourceName); try { return bytes(is); } catch (IOException e) { throw new RuntimeException(e); } finally { closeQuietly(is); } } private Util(); static byte[] readResourceBytes(String resourceName); static String readResource(String resourceName); static String readResource(String resourceName, String charset); static String readFile(String fileName); static String readFile(String fileName, String charset); static void closeQuietly(AutoCloseable autoCloseable); static void closeQuietly(AutoCloseable ... autoCloseable); static void closeQuietly(List<T> autoCloseable); static String read(InputStream in); static String read(InputStream in, String charset); static byte[] bytes(InputStream in); static byte[] read(File file); static List<String> getResourceLines(String resourceName); static boolean blank(Object value); static boolean empty(Object[] array); static boolean empty(Collection<?> collection); static String join(String[] array, String delimiter); static String[] split(String input, String delimiters); static String[] split(String input, char delimiter); static String join(Collection<?> collection, String delimiter); static void join(StringBuilder sb, Collection<?> collection, String delimiter); static void join(StringBuilder sb, Object[] array, String delimiter); static void repeat(StringBuilder sb, String str, int count); static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count); static void saveTo(String path, InputStream in); static String getCauseMessage(Throwable throwable); static String getStackTraceString(Throwable throwable); static void saveTo(String path, byte[] content); static String toBase64(byte[] input); static byte[] fromBase64(String input); String[] arr(String ... params); static Properties readProperties(String fileOrResource); static boolean createTree(Path path); static void recursiveDelete(Path directory); }	Util { public static byte[] readResourceBytes(String resourceName) { InputStream is = Util.class.getResourceAsStream(resourceName); try { return bytes(is); } catch (IOException e) { throw new RuntimeException(e); } finally { closeQuietly(is); } } private Util(); static byte[] readResourceBytes(String resourceName); static String readResource(String resourceName); static String readResource(String resourceName, String charset); static String readFile(String fileName); static String readFile(String fileName, String charset); static void closeQuietly(AutoCloseable autoCloseable); static void closeQuietly(AutoCloseable ... autoCloseable); static void closeQuietly(List<T> autoCloseable); static String read(InputStream in); static String read(InputStream in, String charset); static byte[] bytes(InputStream in); static byte[] read(File file); static List<String> getResourceLines(String resourceName); static boolean blank(Object value); static boolean empty(Object[] array); static boolean empty(Collection<?> collection); static String join(String[] array, String delimiter); static String[] split(String input, String delimiters); static String[] split(String input, char delimiter); static String join(Collection<?> collection, String delimiter); static void join(StringBuilder sb, Collection<?> collection, String delimiter); static void join(StringBuilder sb, Object[] array, String delimiter); static void repeat(StringBuilder sb, String str, int count); static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count); static void saveTo(String path, InputStream in); static String getCauseMessage(Throwable throwable); static String getStackTraceString(Throwable throwable); static void saveTo(String path, byte[] content); static String toBase64(byte[] input); static byte[] fromBase64(String input); String[] arr(String ... params); static Properties readProperties(String fileOrResource); static boolean createTree(Path path); static void recursiveDelete(Path directory); }
@Test public void shouldReadUTF8() throws IOException { it(Util.read(getClass().getResourceAsStream("/test.txt"), "UTF-8")).shouldBeEqual("чебурашка"); it(Util.read(getClass().getResourceAsStream("/test.txt"))).shouldBeEqual("чебурашка"); }	public static String read(InputStream in) throws IOException { return read(in, "UTF-8"); }	Util { public static String read(InputStream in) throws IOException { return read(in, "UTF-8"); } }	Util { public static String read(InputStream in) throws IOException { return read(in, "UTF-8"); } private Util(); }	Util { public static String read(InputStream in) throws IOException { return read(in, "UTF-8"); } private Util(); static byte[] readResourceBytes(String resourceName); static String readResource(String resourceName); static String readResource(String resourceName, String charset); static String readFile(String fileName); static String readFile(String fileName, String charset); static void closeQuietly(AutoCloseable autoCloseable); static void closeQuietly(AutoCloseable ... autoCloseable); static void closeQuietly(List<T> autoCloseable); static String read(InputStream in); static String read(InputStream in, String charset); static byte[] bytes(InputStream in); static byte[] read(File file); static List<String> getResourceLines(String resourceName); static boolean blank(Object value); static boolean empty(Object[] array); static boolean empty(Collection<?> collection); static String join(String[] array, String delimiter); static String[] split(String input, String delimiters); static String[] split(String input, char delimiter); static String join(Collection<?> collection, String delimiter); static void join(StringBuilder sb, Collection<?> collection, String delimiter); static void join(StringBuilder sb, Object[] array, String delimiter); static void repeat(StringBuilder sb, String str, int count); static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count); static void saveTo(String path, InputStream in); static String getCauseMessage(Throwable throwable); static String getStackTraceString(Throwable throwable); static void saveTo(String path, byte[] content); static String toBase64(byte[] input); static byte[] fromBase64(String input); String[] arr(String ... params); static Properties readProperties(String fileOrResource); static boolean createTree(Path path); static void recursiveDelete(Path directory); }	Util { public static String read(InputStream in) throws IOException { return read(in, "UTF-8"); } private Util(); static byte[] readResourceBytes(String resourceName); static String readResource(String resourceName); static String readResource(String resourceName, String charset); static String readFile(String fileName); static String readFile(String fileName, String charset); static void closeQuietly(AutoCloseable autoCloseable); static void closeQuietly(AutoCloseable ... autoCloseable); static void closeQuietly(List<T> autoCloseable); static String read(InputStream in); static String read(InputStream in, String charset); static byte[] bytes(InputStream in); static byte[] read(File file); static List<String> getResourceLines(String resourceName); static boolean blank(Object value); static boolean empty(Object[] array); static boolean empty(Collection<?> collection); static String join(String[] array, String delimiter); static String[] split(String input, String delimiters); static String[] split(String input, char delimiter); static String join(Collection<?> collection, String delimiter); static void join(StringBuilder sb, Collection<?> collection, String delimiter); static void join(StringBuilder sb, Object[] array, String delimiter); static void repeat(StringBuilder sb, String str, int count); static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count); static void saveTo(String path, InputStream in); static String getCauseMessage(Throwable throwable); static String getStackTraceString(Throwable throwable); static void saveTo(String path, byte[] content); static String toBase64(byte[] input); static byte[] fromBase64(String input); String[] arr(String ... params); static Properties readProperties(String fileOrResource); static boolean createTree(Path path); static void recursiveDelete(Path directory); }
@Test public void shouldReadLargeUTF8() throws IOException { Util.readResource("/large.txt"); }	public static String readResource(String resourceName) { return readResource(resourceName, "UTF-8"); }	Util { public static String readResource(String resourceName) { return readResource(resourceName, "UTF-8"); } }	Util { public static String readResource(String resourceName) { return readResource(resourceName, "UTF-8"); } private Util(); }	Util { public static String readResource(String resourceName) { return readResource(resourceName, "UTF-8"); } private Util(); static byte[] readResourceBytes(String resourceName); static String readResource(String resourceName); static String readResource(String resourceName, String charset); static String readFile(String fileName); static String readFile(String fileName, String charset); static void closeQuietly(AutoCloseable autoCloseable); static void closeQuietly(AutoCloseable ... autoCloseable); static void closeQuietly(List<T> autoCloseable); static String read(InputStream in); static String read(InputStream in, String charset); static byte[] bytes(InputStream in); static byte[] read(File file); static List<String> getResourceLines(String resourceName); static boolean blank(Object value); static boolean empty(Object[] array); static boolean empty(Collection<?> collection); static String join(String[] array, String delimiter); static String[] split(String input, String delimiters); static String[] split(String input, char delimiter); static String join(Collection<?> collection, String delimiter); static void join(StringBuilder sb, Collection<?> collection, String delimiter); static void join(StringBuilder sb, Object[] array, String delimiter); static void repeat(StringBuilder sb, String str, int count); static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count); static void saveTo(String path, InputStream in); static String getCauseMessage(Throwable throwable); static String getStackTraceString(Throwable throwable); static void saveTo(String path, byte[] content); static String toBase64(byte[] input); static byte[] fromBase64(String input); String[] arr(String ... params); static Properties readProperties(String fileOrResource); static boolean createTree(Path path); static void recursiveDelete(Path directory); }	Util { public static String readResource(String resourceName) { return readResource(resourceName, "UTF-8"); } private Util(); static byte[] readResourceBytes(String resourceName); static String readResource(String resourceName); static String readResource(String resourceName, String charset); static String readFile(String fileName); static String readFile(String fileName, String charset); static void closeQuietly(AutoCloseable autoCloseable); static void closeQuietly(AutoCloseable ... autoCloseable); static void closeQuietly(List<T> autoCloseable); static String read(InputStream in); static String read(InputStream in, String charset); static byte[] bytes(InputStream in); static byte[] read(File file); static List<String> getResourceLines(String resourceName); static boolean blank(Object value); static boolean empty(Object[] array); static boolean empty(Collection<?> collection); static String join(String[] array, String delimiter); static String[] split(String input, String delimiters); static String[] split(String input, char delimiter); static String join(Collection<?> collection, String delimiter); static void join(StringBuilder sb, Collection<?> collection, String delimiter); static void join(StringBuilder sb, Object[] array, String delimiter); static void repeat(StringBuilder sb, String str, int count); static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count); static void saveTo(String path, InputStream in); static String getCauseMessage(Throwable throwable); static String getStackTraceString(Throwable throwable); static void saveTo(String path, byte[] content); static String toBase64(byte[] input); static byte[] fromBase64(String input); String[] arr(String ... params); static Properties readProperties(String fileOrResource); static boolean createTree(Path path); static void recursiveDelete(Path directory); }
@Test public void testBlankString(){ a(Util.blank(null)).shouldBeTrue(); a(Util.blank("")).shouldBeTrue(); a(Util.blank(" ")).shouldBeTrue(); a(Util.blank("\t ")).shouldBeTrue(); a(Util.blank(' ')).shouldBeTrue(); a(Util.blank('\t')).shouldBeTrue(); a(Util.blank(new StringBuilder())).shouldBeTrue(); a(Util.blank("Foo")).shouldBeFalse(); a(Util.blank("A")).shouldBeFalse(); a(Util.blank('A')).shouldBeFalse(); a(Util.blank(new StringBuilder().append("Bar"))).shouldBeFalse(); }	public static boolean blank(Object value) { return value == null \|\| value.toString().trim().length() == 0; }	Util { public static boolean blank(Object value) { return value == null \|\| value.toString().trim().length() == 0; } }	Util { public static boolean blank(Object value) { return value == null \|\| value.toString().trim().length() == 0; } private Util(); }	Util { public static boolean blank(Object value) { return value == null \|\| value.toString().trim().length() == 0; } private Util(); static byte[] readResourceBytes(String resourceName); static String readResource(String resourceName); static String readResource(String resourceName, String charset); static String readFile(String fileName); static String readFile(String fileName, String charset); static void closeQuietly(AutoCloseable autoCloseable); static void closeQuietly(AutoCloseable ... autoCloseable); static void closeQuietly(List<T> autoCloseable); static String read(InputStream in); static String read(InputStream in, String charset); static byte[] bytes(InputStream in); static byte[] read(File file); static List<String> getResourceLines(String resourceName); static boolean blank(Object value); static boolean empty(Object[] array); static boolean empty(Collection<?> collection); static String join(String[] array, String delimiter); static String[] split(String input, String delimiters); static String[] split(String input, char delimiter); static String join(Collection<?> collection, String delimiter); static void join(StringBuilder sb, Collection<?> collection, String delimiter); static void join(StringBuilder sb, Object[] array, String delimiter); static void repeat(StringBuilder sb, String str, int count); static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count); static void saveTo(String path, InputStream in); static String getCauseMessage(Throwable throwable); static String getStackTraceString(Throwable throwable); static void saveTo(String path, byte[] content); static String toBase64(byte[] input); static byte[] fromBase64(String input); String[] arr(String ... params); static Properties readProperties(String fileOrResource); static boolean createTree(Path path); static void recursiveDelete(Path directory); }	Util { public static boolean blank(Object value) { return value == null \|\| value.toString().trim().length() == 0; } private Util(); static byte[] readResourceBytes(String resourceName); static String readResource(String resourceName); static String readResource(String resourceName, String charset); static String readFile(String fileName); static String readFile(String fileName, String charset); static void closeQuietly(AutoCloseable autoCloseable); static void closeQuietly(AutoCloseable ... autoCloseable); static void closeQuietly(List<T> autoCloseable); static String read(InputStream in); static String read(InputStream in, String charset); static byte[] bytes(InputStream in); static byte[] read(File file); static List<String> getResourceLines(String resourceName); static boolean blank(Object value); static boolean empty(Object[] array); static boolean empty(Collection<?> collection); static String join(String[] array, String delimiter); static String[] split(String input, String delimiters); static String[] split(String input, char delimiter); static String join(Collection<?> collection, String delimiter); static void join(StringBuilder sb, Collection<?> collection, String delimiter); static void join(StringBuilder sb, Object[] array, String delimiter); static void repeat(StringBuilder sb, String str, int count); static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count); static void saveTo(String path, InputStream in); static String getCauseMessage(Throwable throwable); static String getStackTraceString(Throwable throwable); static void saveTo(String path, byte[] content); static String toBase64(byte[] input); static byte[] fromBase64(String input); String[] arr(String ... params); static Properties readProperties(String fileOrResource); static boolean createTree(Path path); static void recursiveDelete(Path directory); }
@Test public void testModelFinderAll() { deleteAndPopulateTable("people"); List<Person> list = Person.findAll(); a(4).shouldBeEqual(list.size()); }	public static <T extends Model> LazyList<T> findAll() { return ModelDelegate.findAll(Model.<T>modelClass()); }	Model extends CallbackSupport implements Externalizable, Validatable { public static <T extends Model> LazyList<T> findAll() { return ModelDelegate.findAll(Model.<T>modelClass()); } }	Model extends CallbackSupport implements Externalizable, Validatable { public static <T extends Model> LazyList<T> findAll() { return ModelDelegate.findAll(Model.<T>modelClass()); } protected Model(); protected Model(MetaModel metaModel, ModelRegistry modelRegistry); }	Model extends CallbackSupport implements Externalizable, Validatable { public static <T extends Model> LazyList<T> findAll() { return ModelDelegate.findAll(Model.<T>modelClass()); } protected Model(); protected Model(MetaModel metaModel, ModelRegistry modelRegistry); static MetaModel getMetaModel(); static MetaModel metaModel(); T fromMap(Map input); static T findOrCreateIt(Object... namesAndValues); static T findOrInit(Object... namesAndValues); T setId(Object id); T setDate(String attributeName, Object value); java.sql.Date getDate(String attributeName); void set(String[] attributeNames, Object[] values); T set(String attributeName, Object value); boolean isModified(); boolean isFrozen(); boolean modified(); static Set<String> attributeNames(); static List<Association> associations(); boolean isNew(); boolean frozen(); boolean delete(); void delete(boolean cascade); void deleteCascade(); void deleteCascadeExcept(Association... excludedAssociations); void deleteCascadeShallow(); void deleteChildrenShallow(Class<T> clazz); static int delete(String query, Object... params); static boolean exists(Object id); boolean exists(); static int deleteAll(); static int update(String updates, String conditions, Object ... params); static int updateAll(String updates, Object ... params); Map<String, Object> toMap(); @Override String toString(); void fromXml(String xml); String toXml(boolean pretty, boolean declaration, String... attributeNames); void beforeClosingTag(StringBuilder sb, boolean pretty, String indent, String... attributeNames); String toJson(boolean pretty, String... attributeNames); void beforeClosingBrace(StringBuilder sb, boolean pretty, String indent, String... attributeNames); P parent(Class<P> parentClass); P parent(Class<P> parentClass, boolean cache); void setParents(Model... parents); void setParent(Model parent); void copyTo(Model other); void copyFrom(Model other); void refresh(); Object get(String attributeName); String getString(String attributeName); byte[] getBytes(String attributeName); BigDecimal getBigDecimal(String attributeName); Integer getInteger(String attributeName); Long getLong(String attributeName); Short getShort(String attributeName); Float getFloat(String attributeName); Time getTime(String attributeName); Timestamp getTimestamp(String attributeName); Double getDouble(String attributeName); Boolean getBoolean(String attributeName); T setString(String attributeName, Object value); T setBigDecimal(String attributeName, Object value); T setShort(String attributeName, Object value); T setInteger(String attributeName, Object value); T setLong(String attributeName, Object value); T setFloat(String attributeName, Object value); T setTime(String attributeName, Object value); T setTimestamp(String attributeName, Object value); T setDouble(String attributeName, Object value); T setBoolean(String attributeName, Object value); LazyList<C> getAll(Class<C> clazz); LazyList<C> get(Class<C> targetModelClass, String criteria, Object ... params); static ValidationBuilder addValidator(Validator validator); void addError(String key, String value); static void removeValidator(Validator validator); static List<Validator> getValidators(Class<? extends Model> clazz); static boolean belongsTo(Class<? extends Model> targetClass); static void callbackWith(CallbackListener... listeners); boolean isValid(); void validate(); void validate(boolean reset); boolean hasErrors(); void addFailedValidator(Validator validator, String errorKey); Errors errors(); Errors errors(Locale locale); static T create(Object... namesAndValues); T set(Object... namesAndValues); static T createIt(Object ... namesAndValues); static T findById(Object id); static T findByCompositeKeys(Object... values); static LazyList<T> where(String subquery, Object... params); static ScopeBuilder<T> scopes(String ... scopes); static ScopeBuilder<T> scope(String scope); static LazyList<T> find(String subquery, Object... params); static T findFirst(String subQuery, Object... params); static T first(String subQuery, Object... params); static void findWith(final ModelListener listener, String query, Object ... params); static LazyList<T> findBySQL(String fullQuery, Object... params); static LazyList<T> findAll(); void add(Model child); void addModels(List<T> models); int remove(Model child); boolean saveIt(); void reset(); void thaw(); void defrost(); boolean save(); static Long count(); static Long count(String query, Object... params); boolean insert(); static String getTableName(); Object getId(); String getIdName(); String[] getCompositeKeys(); void manageTime(boolean manage); String toInsert(String ... replacements); String toInsert(Dialect dialect, String ... replacements); String toUpdate(String ... replacements); String toUpdate(Dialect dialect, String ... replacements); static boolean isCached(); static void purgeCache(); Long getLongId(); @Override void writeExternal(ObjectOutput out); @Override void readExternal(ObjectInput in); }	Model extends CallbackSupport implements Externalizable, Validatable { public static <T extends Model> LazyList<T> findAll() { return ModelDelegate.findAll(Model.<T>modelClass()); } protected Model(); protected Model(MetaModel metaModel, ModelRegistry modelRegistry); static MetaModel getMetaModel(); static MetaModel metaModel(); T fromMap(Map input); static T findOrCreateIt(Object... namesAndValues); static T findOrInit(Object... namesAndValues); T setId(Object id); T setDate(String attributeName, Object value); java.sql.Date getDate(String attributeName); void set(String[] attributeNames, Object[] values); T set(String attributeName, Object value); boolean isModified(); boolean isFrozen(); boolean modified(); static Set<String> attributeNames(); static List<Association> associations(); boolean isNew(); boolean frozen(); boolean delete(); void delete(boolean cascade); void deleteCascade(); void deleteCascadeExcept(Association... excludedAssociations); void deleteCascadeShallow(); void deleteChildrenShallow(Class<T> clazz); static int delete(String query, Object... params); static boolean exists(Object id); boolean exists(); static int deleteAll(); static int update(String updates, String conditions, Object ... params); static int updateAll(String updates, Object ... params); Map<String, Object> toMap(); @Override String toString(); void fromXml(String xml); String toXml(boolean pretty, boolean declaration, String... attributeNames); void beforeClosingTag(StringBuilder sb, boolean pretty, String indent, String... attributeNames); String toJson(boolean pretty, String... attributeNames); void beforeClosingBrace(StringBuilder sb, boolean pretty, String indent, String... attributeNames); P parent(Class<P> parentClass); P parent(Class<P> parentClass, boolean cache); void setParents(Model... parents); void setParent(Model parent); void copyTo(Model other); void copyFrom(Model other); void refresh(); Object get(String attributeName); String getString(String attributeName); byte[] getBytes(String attributeName); BigDecimal getBigDecimal(String attributeName); Integer getInteger(String attributeName); Long getLong(String attributeName); Short getShort(String attributeName); Float getFloat(String attributeName); Time getTime(String attributeName); Timestamp getTimestamp(String attributeName); Double getDouble(String attributeName); Boolean getBoolean(String attributeName); T setString(String attributeName, Object value); T setBigDecimal(String attributeName, Object value); T setShort(String attributeName, Object value); T setInteger(String attributeName, Object value); T setLong(String attributeName, Object value); T setFloat(String attributeName, Object value); T setTime(String attributeName, Object value); T setTimestamp(String attributeName, Object value); T setDouble(String attributeName, Object value); T setBoolean(String attributeName, Object value); LazyList<C> getAll(Class<C> clazz); LazyList<C> get(Class<C> targetModelClass, String criteria, Object ... params); static ValidationBuilder addValidator(Validator validator); void addError(String key, String value); static void removeValidator(Validator validator); static List<Validator> getValidators(Class<? extends Model> clazz); static boolean belongsTo(Class<? extends Model> targetClass); static void callbackWith(CallbackListener... listeners); boolean isValid(); void validate(); void validate(boolean reset); boolean hasErrors(); void addFailedValidator(Validator validator, String errorKey); Errors errors(); Errors errors(Locale locale); static T create(Object... namesAndValues); T set(Object... namesAndValues); static T createIt(Object ... namesAndValues); static T findById(Object id); static T findByCompositeKeys(Object... values); static LazyList<T> where(String subquery, Object... params); static ScopeBuilder<T> scopes(String ... scopes); static ScopeBuilder<T> scope(String scope); static LazyList<T> find(String subquery, Object... params); static T findFirst(String subQuery, Object... params); static T first(String subQuery, Object... params); static void findWith(final ModelListener listener, String query, Object ... params); static LazyList<T> findBySQL(String fullQuery, Object... params); static LazyList<T> findAll(); void add(Model child); void addModels(List<T> models); int remove(Model child); boolean saveIt(); void reset(); void thaw(); void defrost(); boolean save(); static Long count(); static Long count(String query, Object... params); boolean insert(); static String getTableName(); Object getId(); String getIdName(); String[] getCompositeKeys(); void manageTime(boolean manage); String toInsert(String ... replacements); String toInsert(Dialect dialect, String ... replacements); String toUpdate(String ... replacements); String toUpdate(Dialect dialect, String ... replacements); static boolean isCached(); static void purgeCache(); Long getLongId(); @Override void writeExternal(ObjectOutput out); @Override void readExternal(ObjectInput in); }
@Test public void testEmptyArray() { a(Util.empty((Object[]) null)).shouldBeTrue(); a(Util.empty(new Object[] {})).shouldBeTrue(); a(Util.empty(new Object[] { 1 })).shouldBeFalse(); a(Util.empty(new String[] { "foo", "bar" })).shouldBeFalse(); }	public static boolean empty(Object[] array) { return array == null \|\| array.length == 0; }	Util { public static boolean empty(Object[] array) { return array == null \|\| array.length == 0; } }	Util { public static boolean empty(Object[] array) { return array == null \|\| array.length == 0; } private Util(); }	Util { public static boolean empty(Object[] array) { return array == null \|\| array.length == 0; } private Util(); static byte[] readResourceBytes(String resourceName); static String readResource(String resourceName); static String readResource(String resourceName, String charset); static String readFile(String fileName); static String readFile(String fileName, String charset); static void closeQuietly(AutoCloseable autoCloseable); static void closeQuietly(AutoCloseable ... autoCloseable); static void closeQuietly(List<T> autoCloseable); static String read(InputStream in); static String read(InputStream in, String charset); static byte[] bytes(InputStream in); static byte[] read(File file); static List<String> getResourceLines(String resourceName); static boolean blank(Object value); static boolean empty(Object[] array); static boolean empty(Collection<?> collection); static String join(String[] array, String delimiter); static String[] split(String input, String delimiters); static String[] split(String input, char delimiter); static String join(Collection<?> collection, String delimiter); static void join(StringBuilder sb, Collection<?> collection, String delimiter); static void join(StringBuilder sb, Object[] array, String delimiter); static void repeat(StringBuilder sb, String str, int count); static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count); static void saveTo(String path, InputStream in); static String getCauseMessage(Throwable throwable); static String getStackTraceString(Throwable throwable); static void saveTo(String path, byte[] content); static String toBase64(byte[] input); static byte[] fromBase64(String input); String[] arr(String ... params); static Properties readProperties(String fileOrResource); static boolean createTree(Path path); static void recursiveDelete(Path directory); }	Util { public static boolean empty(Object[] array) { return array == null \|\| array.length == 0; } private Util(); static byte[] readResourceBytes(String resourceName); static String readResource(String resourceName); static String readResource(String resourceName, String charset); static String readFile(String fileName); static String readFile(String fileName, String charset); static void closeQuietly(AutoCloseable autoCloseable); static void closeQuietly(AutoCloseable ... autoCloseable); static void closeQuietly(List<T> autoCloseable); static String read(InputStream in); static String read(InputStream in, String charset); static byte[] bytes(InputStream in); static byte[] read(File file); static List<String> getResourceLines(String resourceName); static boolean blank(Object value); static boolean empty(Object[] array); static boolean empty(Collection<?> collection); static String join(String[] array, String delimiter); static String[] split(String input, String delimiters); static String[] split(String input, char delimiter); static String join(Collection<?> collection, String delimiter); static void join(StringBuilder sb, Collection<?> collection, String delimiter); static void join(StringBuilder sb, Object[] array, String delimiter); static void repeat(StringBuilder sb, String str, int count); static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count); static void saveTo(String path, InputStream in); static String getCauseMessage(Throwable throwable); static String getStackTraceString(Throwable throwable); static void saveTo(String path, byte[] content); static String toBase64(byte[] input); static byte[] fromBase64(String input); String[] arr(String ... params); static Properties readProperties(String fileOrResource); static boolean createTree(Path path); static void recursiveDelete(Path directory); }
@Test public void testEmptyCollection() { a(Util.empty((Collection<Object>) null)).shouldBeTrue(); a(Util.empty(new ArrayList())).shouldBeTrue(); a(Util.empty(Collections.list("Hello"))).shouldBeFalse(); }	public static boolean empty(Object[] array) { return array == null \|\| array.length == 0; }	Util { public static boolean empty(Object[] array) { return array == null \|\| array.length == 0; } }	Util { public static boolean empty(Object[] array) { return array == null \|\| array.length == 0; } private Util(); }	Util { public static boolean empty(Object[] array) { return array == null \|\| array.length == 0; } private Util(); static byte[] readResourceBytes(String resourceName); static String readResource(String resourceName); static String readResource(String resourceName, String charset); static String readFile(String fileName); static String readFile(String fileName, String charset); static void closeQuietly(AutoCloseable autoCloseable); static void closeQuietly(AutoCloseable ... autoCloseable); static void closeQuietly(List<T> autoCloseable); static String read(InputStream in); static String read(InputStream in, String charset); static byte[] bytes(InputStream in); static byte[] read(File file); static List<String> getResourceLines(String resourceName); static boolean blank(Object value); static boolean empty(Object[] array); static boolean empty(Collection<?> collection); static String join(String[] array, String delimiter); static String[] split(String input, String delimiters); static String[] split(String input, char delimiter); static String join(Collection<?> collection, String delimiter); static void join(StringBuilder sb, Collection<?> collection, String delimiter); static void join(StringBuilder sb, Object[] array, String delimiter); static void repeat(StringBuilder sb, String str, int count); static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count); static void saveTo(String path, InputStream in); static String getCauseMessage(Throwable throwable); static String getStackTraceString(Throwable throwable); static void saveTo(String path, byte[] content); static String toBase64(byte[] input); static byte[] fromBase64(String input); String[] arr(String ... params); static Properties readProperties(String fileOrResource); static boolean createTree(Path path); static void recursiveDelete(Path directory); }	Util { public static boolean empty(Object[] array) { return array == null \|\| array.length == 0; } private Util(); static byte[] readResourceBytes(String resourceName); static String readResource(String resourceName); static String readResource(String resourceName, String charset); static String readFile(String fileName); static String readFile(String fileName, String charset); static void closeQuietly(AutoCloseable autoCloseable); static void closeQuietly(AutoCloseable ... autoCloseable); static void closeQuietly(List<T> autoCloseable); static String read(InputStream in); static String read(InputStream in, String charset); static byte[] bytes(InputStream in); static byte[] read(File file); static List<String> getResourceLines(String resourceName); static boolean blank(Object value); static boolean empty(Object[] array); static boolean empty(Collection<?> collection); static String join(String[] array, String delimiter); static String[] split(String input, String delimiters); static String[] split(String input, char delimiter); static String join(Collection<?> collection, String delimiter); static void join(StringBuilder sb, Collection<?> collection, String delimiter); static void join(StringBuilder sb, Object[] array, String delimiter); static void repeat(StringBuilder sb, String str, int count); static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count); static void saveTo(String path, InputStream in); static String getCauseMessage(Throwable throwable); static String getStackTraceString(Throwable throwable); static void saveTo(String path, byte[] content); static String toBase64(byte[] input); static byte[] fromBase64(String input); String[] arr(String ... params); static Properties readProperties(String fileOrResource); static boolean createTree(Path path); static void recursiveDelete(Path directory); }
@Test public void testJoinCollection() { StringBuilder sb = new StringBuilder(); Collection<String> set = new LinkedHashSet<String>(); Util.join(sb, set, ", "); the(sb.toString()).shouldBeEqual(""); sb = new StringBuilder(); set.add("foo"); Util.join(sb, set, ", "); the(sb.toString()).shouldBeEqual("foo"); sb = new StringBuilder(); set.add("bar"); Util.join(sb, set, ", "); the(sb.toString()).shouldBeEqual("foo, bar"); }	public static String join(String[] array, String delimiter) { if (empty(array)) { return ""; } StringBuilder sb = new StringBuilder(); join(sb, array, delimiter); return sb.toString(); }	Util { public static String join(String[] array, String delimiter) { if (empty(array)) { return ""; } StringBuilder sb = new StringBuilder(); join(sb, array, delimiter); return sb.toString(); } }	Util { public static String join(String[] array, String delimiter) { if (empty(array)) { return ""; } StringBuilder sb = new StringBuilder(); join(sb, array, delimiter); return sb.toString(); } private Util(); }	Util { public static String join(String[] array, String delimiter) { if (empty(array)) { return ""; } StringBuilder sb = new StringBuilder(); join(sb, array, delimiter); return sb.toString(); } private Util(); static byte[] readResourceBytes(String resourceName); static String readResource(String resourceName); static String readResource(String resourceName, String charset); static String readFile(String fileName); static String readFile(String fileName, String charset); static void closeQuietly(AutoCloseable autoCloseable); static void closeQuietly(AutoCloseable ... autoCloseable); static void closeQuietly(List<T> autoCloseable); static String read(InputStream in); static String read(InputStream in, String charset); static byte[] bytes(InputStream in); static byte[] read(File file); static List<String> getResourceLines(String resourceName); static boolean blank(Object value); static boolean empty(Object[] array); static boolean empty(Collection<?> collection); static String join(String[] array, String delimiter); static String[] split(String input, String delimiters); static String[] split(String input, char delimiter); static String join(Collection<?> collection, String delimiter); static void join(StringBuilder sb, Collection<?> collection, String delimiter); static void join(StringBuilder sb, Object[] array, String delimiter); static void repeat(StringBuilder sb, String str, int count); static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count); static void saveTo(String path, InputStream in); static String getCauseMessage(Throwable throwable); static String getStackTraceString(Throwable throwable); static void saveTo(String path, byte[] content); static String toBase64(byte[] input); static byte[] fromBase64(String input); String[] arr(String ... params); static Properties readProperties(String fileOrResource); static boolean createTree(Path path); static void recursiveDelete(Path directory); }	Util { public static String join(String[] array, String delimiter) { if (empty(array)) { return ""; } StringBuilder sb = new StringBuilder(); join(sb, array, delimiter); return sb.toString(); } private Util(); static byte[] readResourceBytes(String resourceName); static String readResource(String resourceName); static String readResource(String resourceName, String charset); static String readFile(String fileName); static String readFile(String fileName, String charset); static void closeQuietly(AutoCloseable autoCloseable); static void closeQuietly(AutoCloseable ... autoCloseable); static void closeQuietly(List<T> autoCloseable); static String read(InputStream in); static String read(InputStream in, String charset); static byte[] bytes(InputStream in); static byte[] read(File file); static List<String> getResourceLines(String resourceName); static boolean blank(Object value); static boolean empty(Object[] array); static boolean empty(Collection<?> collection); static String join(String[] array, String delimiter); static String[] split(String input, String delimiters); static String[] split(String input, char delimiter); static String join(Collection<?> collection, String delimiter); static void join(StringBuilder sb, Collection<?> collection, String delimiter); static void join(StringBuilder sb, Object[] array, String delimiter); static void repeat(StringBuilder sb, String str, int count); static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count); static void saveTo(String path, InputStream in); static String getCauseMessage(Throwable throwable); static String getStackTraceString(Throwable throwable); static void saveTo(String path, byte[] content); static String toBase64(byte[] input); static byte[] fromBase64(String input); String[] arr(String ... params); static Properties readProperties(String fileOrResource); static boolean createTree(Path path); static void recursiveDelete(Path directory); }
@Test public void testJoinArray() { StringBuilder sb = new StringBuilder(); List<String> list = new ArrayList<String>(); Util.join(sb, list.toArray(new String[list.size()]), ", "); the(sb.toString()).shouldBeEqual(""); sb = new StringBuilder(); list.add("foo"); Util.join(sb, list.toArray(new String[list.size()]), ", "); the(sb.toString()).shouldBeEqual("foo"); sb = new StringBuilder(); list.add("bar"); Util.join(sb, list.toArray(new String[list.size()]), ", "); the(sb.toString()).shouldBeEqual("foo, bar"); }	public static String join(String[] array, String delimiter) { if (empty(array)) { return ""; } StringBuilder sb = new StringBuilder(); join(sb, array, delimiter); return sb.toString(); }	Util { public static String join(String[] array, String delimiter) { if (empty(array)) { return ""; } StringBuilder sb = new StringBuilder(); join(sb, array, delimiter); return sb.toString(); } }	Util { public static String join(String[] array, String delimiter) { if (empty(array)) { return ""; } StringBuilder sb = new StringBuilder(); join(sb, array, delimiter); return sb.toString(); } private Util(); }	Util { public static String join(String[] array, String delimiter) { if (empty(array)) { return ""; } StringBuilder sb = new StringBuilder(); join(sb, array, delimiter); return sb.toString(); } private Util(); static byte[] readResourceBytes(String resourceName); static String readResource(String resourceName); static String readResource(String resourceName, String charset); static String readFile(String fileName); static String readFile(String fileName, String charset); static void closeQuietly(AutoCloseable autoCloseable); static void closeQuietly(AutoCloseable ... autoCloseable); static void closeQuietly(List<T> autoCloseable); static String read(InputStream in); static String read(InputStream in, String charset); static byte[] bytes(InputStream in); static byte[] read(File file); static List<String> getResourceLines(String resourceName); static boolean blank(Object value); static boolean empty(Object[] array); static boolean empty(Collection<?> collection); static String join(String[] array, String delimiter); static String[] split(String input, String delimiters); static String[] split(String input, char delimiter); static String join(Collection<?> collection, String delimiter); static void join(StringBuilder sb, Collection<?> collection, String delimiter); static void join(StringBuilder sb, Object[] array, String delimiter); static void repeat(StringBuilder sb, String str, int count); static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count); static void saveTo(String path, InputStream in); static String getCauseMessage(Throwable throwable); static String getStackTraceString(Throwable throwable); static void saveTo(String path, byte[] content); static String toBase64(byte[] input); static byte[] fromBase64(String input); String[] arr(String ... params); static Properties readProperties(String fileOrResource); static boolean createTree(Path path); static void recursiveDelete(Path directory); }	Util { public static String join(String[] array, String delimiter) { if (empty(array)) { return ""; } StringBuilder sb = new StringBuilder(); join(sb, array, delimiter); return sb.toString(); } private Util(); static byte[] readResourceBytes(String resourceName); static String readResource(String resourceName); static String readResource(String resourceName, String charset); static String readFile(String fileName); static String readFile(String fileName, String charset); static void closeQuietly(AutoCloseable autoCloseable); static void closeQuietly(AutoCloseable ... autoCloseable); static void closeQuietly(List<T> autoCloseable); static String read(InputStream in); static String read(InputStream in, String charset); static byte[] bytes(InputStream in); static byte[] read(File file); static List<String> getResourceLines(String resourceName); static boolean blank(Object value); static boolean empty(Object[] array); static boolean empty(Collection<?> collection); static String join(String[] array, String delimiter); static String[] split(String input, String delimiters); static String[] split(String input, char delimiter); static String join(Collection<?> collection, String delimiter); static void join(StringBuilder sb, Collection<?> collection, String delimiter); static void join(StringBuilder sb, Object[] array, String delimiter); static void repeat(StringBuilder sb, String str, int count); static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count); static void saveTo(String path, InputStream in); static String getCauseMessage(Throwable throwable); static String getStackTraceString(Throwable throwable); static void saveTo(String path, byte[] content); static String toBase64(byte[] input); static byte[] fromBase64(String input); String[] arr(String ... params); static Properties readProperties(String fileOrResource); static boolean createTree(Path path); static void recursiveDelete(Path directory); }
@Test public void testJoinList() { StringBuilder sb = new StringBuilder(); List<String> list = new ArrayList<String>(); Util.join(sb, list, ", "); the(sb.toString()).shouldBeEqual(""); sb = new StringBuilder(); list.add("foo"); Util.join(sb, list, ", "); the(sb.toString()).shouldBeEqual("foo"); sb = new StringBuilder(); list.add("bar"); Util.join(sb, list, ", "); the(sb.toString()).shouldBeEqual("foo, bar"); }	public static String join(String[] array, String delimiter) { if (empty(array)) { return ""; } StringBuilder sb = new StringBuilder(); join(sb, array, delimiter); return sb.toString(); }	Util { public static String join(String[] array, String delimiter) { if (empty(array)) { return ""; } StringBuilder sb = new StringBuilder(); join(sb, array, delimiter); return sb.toString(); } }	Util { public static String join(String[] array, String delimiter) { if (empty(array)) { return ""; } StringBuilder sb = new StringBuilder(); join(sb, array, delimiter); return sb.toString(); } private Util(); }	Util { public static String join(String[] array, String delimiter) { if (empty(array)) { return ""; } StringBuilder sb = new StringBuilder(); join(sb, array, delimiter); return sb.toString(); } private Util(); static byte[] readResourceBytes(String resourceName); static String readResource(String resourceName); static String readResource(String resourceName, String charset); static String readFile(String fileName); static String readFile(String fileName, String charset); static void closeQuietly(AutoCloseable autoCloseable); static void closeQuietly(AutoCloseable ... autoCloseable); static void closeQuietly(List<T> autoCloseable); static String read(InputStream in); static String read(InputStream in, String charset); static byte[] bytes(InputStream in); static byte[] read(File file); static List<String> getResourceLines(String resourceName); static boolean blank(Object value); static boolean empty(Object[] array); static boolean empty(Collection<?> collection); static String join(String[] array, String delimiter); static String[] split(String input, String delimiters); static String[] split(String input, char delimiter); static String join(Collection<?> collection, String delimiter); static void join(StringBuilder sb, Collection<?> collection, String delimiter); static void join(StringBuilder sb, Object[] array, String delimiter); static void repeat(StringBuilder sb, String str, int count); static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count); static void saveTo(String path, InputStream in); static String getCauseMessage(Throwable throwable); static String getStackTraceString(Throwable throwable); static void saveTo(String path, byte[] content); static String toBase64(byte[] input); static byte[] fromBase64(String input); String[] arr(String ... params); static Properties readProperties(String fileOrResource); static boolean createTree(Path path); static void recursiveDelete(Path directory); }	Util { public static String join(String[] array, String delimiter) { if (empty(array)) { return ""; } StringBuilder sb = new StringBuilder(); join(sb, array, delimiter); return sb.toString(); } private Util(); static byte[] readResourceBytes(String resourceName); static String readResource(String resourceName); static String readResource(String resourceName, String charset); static String readFile(String fileName); static String readFile(String fileName, String charset); static void closeQuietly(AutoCloseable autoCloseable); static void closeQuietly(AutoCloseable ... autoCloseable); static void closeQuietly(List<T> autoCloseable); static String read(InputStream in); static String read(InputStream in, String charset); static byte[] bytes(InputStream in); static byte[] read(File file); static List<String> getResourceLines(String resourceName); static boolean blank(Object value); static boolean empty(Object[] array); static boolean empty(Collection<?> collection); static String join(String[] array, String delimiter); static String[] split(String input, String delimiters); static String[] split(String input, char delimiter); static String join(Collection<?> collection, String delimiter); static void join(StringBuilder sb, Collection<?> collection, String delimiter); static void join(StringBuilder sb, Object[] array, String delimiter); static void repeat(StringBuilder sb, String str, int count); static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count); static void saveTo(String path, InputStream in); static String getCauseMessage(Throwable throwable); static String getStackTraceString(Throwable throwable); static void saveTo(String path, byte[] content); static String toBase64(byte[] input); static byte[] fromBase64(String input); String[] arr(String ... params); static Properties readProperties(String fileOrResource); static boolean createTree(Path path); static void recursiveDelete(Path directory); }
@Test public void testRepeat() { StringBuilder sb = new StringBuilder(); Util.repeat(sb, "na", -1); the(sb.toString()).shouldBeEqual(""); sb = new StringBuilder(); Util.repeat(sb, "na", 0); the(sb.toString()).shouldBeEqual(""); sb = new StringBuilder(); Util.repeat(sb, "na", 1); the(sb.toString()).shouldBeEqual("na"); sb = new StringBuilder(); Util.repeat(sb, "na", 16); the(sb.toString()).shouldBeEqual("nananananananananananananananana"); }	public static void repeat(StringBuilder sb, String str, int count) { for (int i = 0; i < count; i++) { sb.append(str); } }	Util { public static void repeat(StringBuilder sb, String str, int count) { for (int i = 0; i < count; i++) { sb.append(str); } } }	Util { public static void repeat(StringBuilder sb, String str, int count) { for (int i = 0; i < count; i++) { sb.append(str); } } private Util(); }	Util { public static void repeat(StringBuilder sb, String str, int count) { for (int i = 0; i < count; i++) { sb.append(str); } } private Util(); static byte[] readResourceBytes(String resourceName); static String readResource(String resourceName); static String readResource(String resourceName, String charset); static String readFile(String fileName); static String readFile(String fileName, String charset); static void closeQuietly(AutoCloseable autoCloseable); static void closeQuietly(AutoCloseable ... autoCloseable); static void closeQuietly(List<T> autoCloseable); static String read(InputStream in); static String read(InputStream in, String charset); static byte[] bytes(InputStream in); static byte[] read(File file); static List<String> getResourceLines(String resourceName); static boolean blank(Object value); static boolean empty(Object[] array); static boolean empty(Collection<?> collection); static String join(String[] array, String delimiter); static String[] split(String input, String delimiters); static String[] split(String input, char delimiter); static String join(Collection<?> collection, String delimiter); static void join(StringBuilder sb, Collection<?> collection, String delimiter); static void join(StringBuilder sb, Object[] array, String delimiter); static void repeat(StringBuilder sb, String str, int count); static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count); static void saveTo(String path, InputStream in); static String getCauseMessage(Throwable throwable); static String getStackTraceString(Throwable throwable); static void saveTo(String path, byte[] content); static String toBase64(byte[] input); static byte[] fromBase64(String input); String[] arr(String ... params); static Properties readProperties(String fileOrResource); static boolean createTree(Path path); static void recursiveDelete(Path directory); }	Util { public static void repeat(StringBuilder sb, String str, int count) { for (int i = 0; i < count; i++) { sb.append(str); } } private Util(); static byte[] readResourceBytes(String resourceName); static String readResource(String resourceName); static String readResource(String resourceName, String charset); static String readFile(String fileName); static String readFile(String fileName, String charset); static void closeQuietly(AutoCloseable autoCloseable); static void closeQuietly(AutoCloseable ... autoCloseable); static void closeQuietly(List<T> autoCloseable); static String read(InputStream in); static String read(InputStream in, String charset); static byte[] bytes(InputStream in); static byte[] read(File file); static List<String> getResourceLines(String resourceName); static boolean blank(Object value); static boolean empty(Object[] array); static boolean empty(Collection<?> collection); static String join(String[] array, String delimiter); static String[] split(String input, String delimiters); static String[] split(String input, char delimiter); static String join(Collection<?> collection, String delimiter); static void join(StringBuilder sb, Collection<?> collection, String delimiter); static void join(StringBuilder sb, Object[] array, String delimiter); static void repeat(StringBuilder sb, String str, int count); static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count); static void saveTo(String path, InputStream in); static String getCauseMessage(Throwable throwable); static String getStackTraceString(Throwable throwable); static void saveTo(String path, byte[] content); static String toBase64(byte[] input); static byte[] fromBase64(String input); String[] arr(String ... params); static Properties readProperties(String fileOrResource); static boolean createTree(Path path); static void recursiveDelete(Path directory); }
@Test public void testJoinAndRepeat() { StringBuilder sb = new StringBuilder(); Util.joinAndRepeat(sb, "na", ", ", -1); the(sb.toString()).shouldBeEqual(""); sb = new StringBuilder(); Util.joinAndRepeat(sb, "na", ", ", 0); the(sb.toString()).shouldBeEqual(""); sb = new StringBuilder(); Util.joinAndRepeat(sb, "na", ", ", 1); the(sb.toString()).shouldBeEqual("na"); sb = new StringBuilder(); Util.joinAndRepeat(sb, "na", ", ", 16); the(sb.toString()).shouldBeEqual("na, na, na, na, na, na, na, na, na, na, na, na, na, na, na, na"); }	public static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count) { if (count > 0) { sb.append(str); for (int i = 1; i < count; i++) { sb.append(delimiter); sb.append(str); } } }	Util { public static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count) { if (count > 0) { sb.append(str); for (int i = 1; i < count; i++) { sb.append(delimiter); sb.append(str); } } } }	Util { public static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count) { if (count > 0) { sb.append(str); for (int i = 1; i < count; i++) { sb.append(delimiter); sb.append(str); } } } private Util(); }	Util { public static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count) { if (count > 0) { sb.append(str); for (int i = 1; i < count; i++) { sb.append(delimiter); sb.append(str); } } } private Util(); static byte[] readResourceBytes(String resourceName); static String readResource(String resourceName); static String readResource(String resourceName, String charset); static String readFile(String fileName); static String readFile(String fileName, String charset); static void closeQuietly(AutoCloseable autoCloseable); static void closeQuietly(AutoCloseable ... autoCloseable); static void closeQuietly(List<T> autoCloseable); static String read(InputStream in); static String read(InputStream in, String charset); static byte[] bytes(InputStream in); static byte[] read(File file); static List<String> getResourceLines(String resourceName); static boolean blank(Object value); static boolean empty(Object[] array); static boolean empty(Collection<?> collection); static String join(String[] array, String delimiter); static String[] split(String input, String delimiters); static String[] split(String input, char delimiter); static String join(Collection<?> collection, String delimiter); static void join(StringBuilder sb, Collection<?> collection, String delimiter); static void join(StringBuilder sb, Object[] array, String delimiter); static void repeat(StringBuilder sb, String str, int count); static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count); static void saveTo(String path, InputStream in); static String getCauseMessage(Throwable throwable); static String getStackTraceString(Throwable throwable); static void saveTo(String path, byte[] content); static String toBase64(byte[] input); static byte[] fromBase64(String input); String[] arr(String ... params); static Properties readProperties(String fileOrResource); static boolean createTree(Path path); static void recursiveDelete(Path directory); }	Util { public static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count) { if (count > 0) { sb.append(str); for (int i = 1; i < count; i++) { sb.append(delimiter); sb.append(str); } } } private Util(); static byte[] readResourceBytes(String resourceName); static String readResource(String resourceName); static String readResource(String resourceName, String charset); static String readFile(String fileName); static String readFile(String fileName, String charset); static void closeQuietly(AutoCloseable autoCloseable); static void closeQuietly(AutoCloseable ... autoCloseable); static void closeQuietly(List<T> autoCloseable); static String read(InputStream in); static String read(InputStream in, String charset); static byte[] bytes(InputStream in); static byte[] read(File file); static List<String> getResourceLines(String resourceName); static boolean blank(Object value); static boolean empty(Object[] array); static boolean empty(Collection<?> collection); static String join(String[] array, String delimiter); static String[] split(String input, String delimiters); static String[] split(String input, char delimiter); static String join(Collection<?> collection, String delimiter); static void join(StringBuilder sb, Collection<?> collection, String delimiter); static void join(StringBuilder sb, Object[] array, String delimiter); static void repeat(StringBuilder sb, String str, int count); static void joinAndRepeat(StringBuilder sb, String str, String delimiter, int count); static void saveTo(String path, InputStream in); static String getCauseMessage(Throwable throwable); static String getStackTraceString(Throwable throwable); static void saveTo(String path, byte[] content); static String toBase64(byte[] input); static byte[] fromBase64(String input); String[] arr(String ... params); static Properties readProperties(String fileOrResource); static boolean createTree(Path path); static void recursiveDelete(Path directory); }
@Test public void shouldCovertToBigDecimal() { Object object = Convert.toBigDecimal(1); the(object).shouldBeA(BigDecimal.class); a(object).shouldBeEqual(1); object = Convert.toBigDecimal("1"); the(object).shouldBeA(BigDecimal.class); a(object).shouldBeEqual(1); object = Convert.toBigDecimal(1d); the(object).shouldBeA(BigDecimal.class); a(object).shouldBeEqual(1); object = Convert.toBigDecimal(1L); the(object).shouldBeA(BigDecimal.class); a(object).shouldBeEqual(1); }	public static BigDecimal toBigDecimal(Object value) { if (value == null) { return null; } else if (value instanceof BigDecimal) { return (BigDecimal) value; } else { try { return new BigDecimal(value.toString().trim()); } catch (NumberFormatException e) { throw new ConversionException("failed to convert: '" + value + "' to BigDecimal", e); } } }	Convert { public static BigDecimal toBigDecimal(Object value) { if (value == null) { return null; } else if (value instanceof BigDecimal) { return (BigDecimal) value; } else { try { return new BigDecimal(value.toString().trim()); } catch (NumberFormatException e) { throw new ConversionException("failed to convert: '" + value + "' to BigDecimal", e); } } } }	Convert { public static BigDecimal toBigDecimal(Object value) { if (value == null) { return null; } else if (value instanceof BigDecimal) { return (BigDecimal) value; } else { try { return new BigDecimal(value.toString().trim()); } catch (NumberFormatException e) { throw new ConversionException("failed to convert: '" + value + "' to BigDecimal", e); } } } private Convert(); }	Convert { public static BigDecimal toBigDecimal(Object value) { if (value == null) { return null; } else if (value instanceof BigDecimal) { return (BigDecimal) value; } else { try { return new BigDecimal(value.toString().trim()); } catch (NumberFormatException e) { throw new ConversionException("failed to convert: '" + value + "' to BigDecimal", e); } } } private Convert(); static String toString(Object value); static Boolean toBoolean(Object value); static java.sql.Date toSqlDate(Object value); static java.sql.Date truncateToSqlDate(Object value); static java.sql.Date truncateToSqlDate(long time); static String toIsoString(java.util.Date date); static Double toDouble(Object value); static java.sql.Time toTime(Object value); static java.sql.Timestamp toTimestamp(Object value); static Float toFloat(Object value); static Long toLong(Object value); static Integer toInteger(Object value); static BigDecimal toBigDecimal(Object value); static byte[] toBytes(Object value); static byte[] toBytes(Blob blob); static Short toShort(Object value); }	Convert { public static BigDecimal toBigDecimal(Object value) { if (value == null) { return null; } else if (value instanceof BigDecimal) { return (BigDecimal) value; } else { try { return new BigDecimal(value.toString().trim()); } catch (NumberFormatException e) { throw new ConversionException("failed to convert: '" + value + "' to BigDecimal", e); } } } private Convert(); static String toString(Object value); static Boolean toBoolean(Object value); static java.sql.Date toSqlDate(Object value); static java.sql.Date truncateToSqlDate(Object value); static java.sql.Date truncateToSqlDate(long time); static String toIsoString(java.util.Date date); static Double toDouble(Object value); static java.sql.Time toTime(Object value); static java.sql.Timestamp toTimestamp(Object value); static Float toFloat(Object value); static Long toLong(Object value); static Integer toInteger(Object value); static BigDecimal toBigDecimal(Object value); static byte[] toBytes(Object value); static byte[] toBytes(Blob blob); static Short toShort(Object value); }
@Test public void shouldCovertToLong() { Object object = Convert.toLong(1); the(object).shouldBeA(Long.class); a(object).shouldBeEqual(1); object = Convert.toLong("1"); the(object).shouldBeA(Long.class); a(object).shouldBeEqual(1); object = Convert.toLong(1d); the(object).shouldBeA(Long.class); a(object).shouldBeEqual(1); object = Convert.toLong(new BigDecimal(1)); the(object).shouldBeA(Long.class); a(object).shouldBeEqual(1); Date date = new Date(1416127392928L); object = Convert.toLong(date); the(object).shouldBeA(Long.class); a(object).shouldBeEqual(1416127392928L); }	public static Long toLong(Object value) { if (value == null) { return null; } else if (value instanceof Long) { return (Long) value; } else if (value instanceof Number) { return ((Number) value).longValue(); } else if (value instanceof java.util.Date) { return ((java.util.Date) value).getTime(); } else { try { return Long.valueOf(value.toString().trim()); } catch (NumberFormatException e) { throw new ConversionException("failed to convert: '" + value + "' to Long", e); } } }	Convert { public static Long toLong(Object value) { if (value == null) { return null; } else if (value instanceof Long) { return (Long) value; } else if (value instanceof Number) { return ((Number) value).longValue(); } else if (value instanceof java.util.Date) { return ((java.util.Date) value).getTime(); } else { try { return Long.valueOf(value.toString().trim()); } catch (NumberFormatException e) { throw new ConversionException("failed to convert: '" + value + "' to Long", e); } } } }	Convert { public static Long toLong(Object value) { if (value == null) { return null; } else if (value instanceof Long) { return (Long) value; } else if (value instanceof Number) { return ((Number) value).longValue(); } else if (value instanceof java.util.Date) { return ((java.util.Date) value).getTime(); } else { try { return Long.valueOf(value.toString().trim()); } catch (NumberFormatException e) { throw new ConversionException("failed to convert: '" + value + "' to Long", e); } } } private Convert(); }	Convert { public static Long toLong(Object value) { if (value == null) { return null; } else if (value instanceof Long) { return (Long) value; } else if (value instanceof Number) { return ((Number) value).longValue(); } else if (value instanceof java.util.Date) { return ((java.util.Date) value).getTime(); } else { try { return Long.valueOf(value.toString().trim()); } catch (NumberFormatException e) { throw new ConversionException("failed to convert: '" + value + "' to Long", e); } } } private Convert(); static String toString(Object value); static Boolean toBoolean(Object value); static java.sql.Date toSqlDate(Object value); static java.sql.Date truncateToSqlDate(Object value); static java.sql.Date truncateToSqlDate(long time); static String toIsoString(java.util.Date date); static Double toDouble(Object value); static java.sql.Time toTime(Object value); static java.sql.Timestamp toTimestamp(Object value); static Float toFloat(Object value); static Long toLong(Object value); static Integer toInteger(Object value); static BigDecimal toBigDecimal(Object value); static byte[] toBytes(Object value); static byte[] toBytes(Blob blob); static Short toShort(Object value); }	Convert { public static Long toLong(Object value) { if (value == null) { return null; } else if (value instanceof Long) { return (Long) value; } else if (value instanceof Number) { return ((Number) value).longValue(); } else if (value instanceof java.util.Date) { return ((java.util.Date) value).getTime(); } else { try { return Long.valueOf(value.toString().trim()); } catch (NumberFormatException e) { throw new ConversionException("failed to convert: '" + value + "' to Long", e); } } } private Convert(); static String toString(Object value); static Boolean toBoolean(Object value); static java.sql.Date toSqlDate(Object value); static java.sql.Date truncateToSqlDate(Object value); static java.sql.Date truncateToSqlDate(long time); static String toIsoString(java.util.Date date); static Double toDouble(Object value); static java.sql.Time toTime(Object value); static java.sql.Timestamp toTimestamp(Object value); static Float toFloat(Object value); static Long toLong(Object value); static Integer toInteger(Object value); static BigDecimal toBigDecimal(Object value); static byte[] toBytes(Object value); static byte[] toBytes(Blob blob); static Short toShort(Object value); }
@Test public void shouldCovertToDouble() { Object object = Convert.toDouble(1); the(object).shouldBeA(Double.class); a(object).shouldBeEqual(1); object = Convert.toDouble("1"); the(object).shouldBeA(Double.class); a(object).shouldBeEqual(1); object = Convert.toDouble(1L); the(object).shouldBeA(Double.class); a(object).shouldBeEqual(1); object = Convert.toDouble(new BigDecimal(1)); the(object).shouldBeA(Double.class); a(object).shouldBeEqual(1); }	public static Double toDouble(Object value) { if (value == null) { return null; } else if (value instanceof Double) { return (Double) value; } else if (value instanceof Number) { return ((Number) value).doubleValue(); } else { try { return Double.valueOf(value.toString().trim()); } catch (NumberFormatException e) { throw new ConversionException("failed to convert: '" + value + "' to Double", e); } } }	Convert { public static Double toDouble(Object value) { if (value == null) { return null; } else if (value instanceof Double) { return (Double) value; } else if (value instanceof Number) { return ((Number) value).doubleValue(); } else { try { return Double.valueOf(value.toString().trim()); } catch (NumberFormatException e) { throw new ConversionException("failed to convert: '" + value + "' to Double", e); } } } }	Convert { public static Double toDouble(Object value) { if (value == null) { return null; } else if (value instanceof Double) { return (Double) value; } else if (value instanceof Number) { return ((Number) value).doubleValue(); } else { try { return Double.valueOf(value.toString().trim()); } catch (NumberFormatException e) { throw new ConversionException("failed to convert: '" + value + "' to Double", e); } } } private Convert(); }	Convert { public static Double toDouble(Object value) { if (value == null) { return null; } else if (value instanceof Double) { return (Double) value; } else if (value instanceof Number) { return ((Number) value).doubleValue(); } else { try { return Double.valueOf(value.toString().trim()); } catch (NumberFormatException e) { throw new ConversionException("failed to convert: '" + value + "' to Double", e); } } } private Convert(); static String toString(Object value); static Boolean toBoolean(Object value); static java.sql.Date toSqlDate(Object value); static java.sql.Date truncateToSqlDate(Object value); static java.sql.Date truncateToSqlDate(long time); static String toIsoString(java.util.Date date); static Double toDouble(Object value); static java.sql.Time toTime(Object value); static java.sql.Timestamp toTimestamp(Object value); static Float toFloat(Object value); static Long toLong(Object value); static Integer toInteger(Object value); static BigDecimal toBigDecimal(Object value); static byte[] toBytes(Object value); static byte[] toBytes(Blob blob); static Short toShort(Object value); }	Convert { public static Double toDouble(Object value) { if (value == null) { return null; } else if (value instanceof Double) { return (Double) value; } else if (value instanceof Number) { return ((Number) value).doubleValue(); } else { try { return Double.valueOf(value.toString().trim()); } catch (NumberFormatException e) { throw new ConversionException("failed to convert: '" + value + "' to Double", e); } } } private Convert(); static String toString(Object value); static Boolean toBoolean(Object value); static java.sql.Date toSqlDate(Object value); static java.sql.Date truncateToSqlDate(Object value); static java.sql.Date truncateToSqlDate(long time); static String toIsoString(java.util.Date date); static Double toDouble(Object value); static java.sql.Time toTime(Object value); static java.sql.Timestamp toTimestamp(Object value); static Float toFloat(Object value); static Long toLong(Object value); static Integer toInteger(Object value); static BigDecimal toBigDecimal(Object value); static byte[] toBytes(Object value); static byte[] toBytes(Blob blob); static Short toShort(Object value); }
@Test public void testSetWrongAttribute() { deleteAndPopulateTable("people"); final Person p = new Person(); expect(new ExceptionExpectation(IllegalArgumentException.class) { @Override public void exec() { p.set("NAME1", "Igor"); } }); }	public void set(String[] attributeNames, Object[] values) { if (attributeNames == null \|\| values == null \|\| attributeNames.length != values.length) { throw new IllegalArgumentException("must pass non-null arrays of equal length"); } for (int i = 0; i < attributeNames.length; i++) { set(attributeNames[i], values[i]); } }	Model extends CallbackSupport implements Externalizable, Validatable { public void set(String[] attributeNames, Object[] values) { if (attributeNames == null \|\| values == null \|\| attributeNames.length != values.length) { throw new IllegalArgumentException("must pass non-null arrays of equal length"); } for (int i = 0; i < attributeNames.length; i++) { set(attributeNames[i], values[i]); } } }	Model extends CallbackSupport implements Externalizable, Validatable { public void set(String[] attributeNames, Object[] values) { if (attributeNames == null \|\| values == null \|\| attributeNames.length != values.length) { throw new IllegalArgumentException("must pass non-null arrays of equal length"); } for (int i = 0; i < attributeNames.length; i++) { set(attributeNames[i], values[i]); } } protected Model(); protected Model(MetaModel metaModel, ModelRegistry modelRegistry); }	Model extends CallbackSupport implements Externalizable, Validatable { public void set(String[] attributeNames, Object[] values) { if (attributeNames == null \|\| values == null \|\| attributeNames.length != values.length) { throw new IllegalArgumentException("must pass non-null arrays of equal length"); } for (int i = 0; i < attributeNames.length; i++) { set(attributeNames[i], values[i]); } } protected Model(); protected Model(MetaModel metaModel, ModelRegistry modelRegistry); static MetaModel getMetaModel(); static MetaModel metaModel(); T fromMap(Map input); static T findOrCreateIt(Object... namesAndValues); static T findOrInit(Object... namesAndValues); T setId(Object id); T setDate(String attributeName, Object value); java.sql.Date getDate(String attributeName); void set(String[] attributeNames, Object[] values); T set(String attributeName, Object value); boolean isModified(); boolean isFrozen(); boolean modified(); static Set<String> attributeNames(); static List<Association> associations(); boolean isNew(); boolean frozen(); boolean delete(); void delete(boolean cascade); void deleteCascade(); void deleteCascadeExcept(Association... excludedAssociations); void deleteCascadeShallow(); void deleteChildrenShallow(Class<T> clazz); static int delete(String query, Object... params); static boolean exists(Object id); boolean exists(); static int deleteAll(); static int update(String updates, String conditions, Object ... params); static int updateAll(String updates, Object ... params); Map<String, Object> toMap(); @Override String toString(); void fromXml(String xml); String toXml(boolean pretty, boolean declaration, String... attributeNames); void beforeClosingTag(StringBuilder sb, boolean pretty, String indent, String... attributeNames); String toJson(boolean pretty, String... attributeNames); void beforeClosingBrace(StringBuilder sb, boolean pretty, String indent, String... attributeNames); P parent(Class<P> parentClass); P parent(Class<P> parentClass, boolean cache); void setParents(Model... parents); void setParent(Model parent); void copyTo(Model other); void copyFrom(Model other); void refresh(); Object get(String attributeName); String getString(String attributeName); byte[] getBytes(String attributeName); BigDecimal getBigDecimal(String attributeName); Integer getInteger(String attributeName); Long getLong(String attributeName); Short getShort(String attributeName); Float getFloat(String attributeName); Time getTime(String attributeName); Timestamp getTimestamp(String attributeName); Double getDouble(String attributeName); Boolean getBoolean(String attributeName); T setString(String attributeName, Object value); T setBigDecimal(String attributeName, Object value); T setShort(String attributeName, Object value); T setInteger(String attributeName, Object value); T setLong(String attributeName, Object value); T setFloat(String attributeName, Object value); T setTime(String attributeName, Object value); T setTimestamp(String attributeName, Object value); T setDouble(String attributeName, Object value); T setBoolean(String attributeName, Object value); LazyList<C> getAll(Class<C> clazz); LazyList<C> get(Class<C> targetModelClass, String criteria, Object ... params); static ValidationBuilder addValidator(Validator validator); void addError(String key, String value); static void removeValidator(Validator validator); static List<Validator> getValidators(Class<? extends Model> clazz); static boolean belongsTo(Class<? extends Model> targetClass); static void callbackWith(CallbackListener... listeners); boolean isValid(); void validate(); void validate(boolean reset); boolean hasErrors(); void addFailedValidator(Validator validator, String errorKey); Errors errors(); Errors errors(Locale locale); static T create(Object... namesAndValues); T set(Object... namesAndValues); static T createIt(Object ... namesAndValues); static T findById(Object id); static T findByCompositeKeys(Object... values); static LazyList<T> where(String subquery, Object... params); static ScopeBuilder<T> scopes(String ... scopes); static ScopeBuilder<T> scope(String scope); static LazyList<T> find(String subquery, Object... params); static T findFirst(String subQuery, Object... params); static T first(String subQuery, Object... params); static void findWith(final ModelListener listener, String query, Object ... params); static LazyList<T> findBySQL(String fullQuery, Object... params); static LazyList<T> findAll(); void add(Model child); void addModels(List<T> models); int remove(Model child); boolean saveIt(); void reset(); void thaw(); void defrost(); boolean save(); static Long count(); static Long count(String query, Object... params); boolean insert(); static String getTableName(); Object getId(); String getIdName(); String[] getCompositeKeys(); void manageTime(boolean manage); String toInsert(String ... replacements); String toInsert(Dialect dialect, String ... replacements); String toUpdate(String ... replacements); String toUpdate(Dialect dialect, String ... replacements); static boolean isCached(); static void purgeCache(); Long getLongId(); @Override void writeExternal(ObjectOutput out); @Override void readExternal(ObjectInput in); }	Model extends CallbackSupport implements Externalizable, Validatable { public void set(String[] attributeNames, Object[] values) { if (attributeNames == null \|\| values == null \|\| attributeNames.length != values.length) { throw new IllegalArgumentException("must pass non-null arrays of equal length"); } for (int i = 0; i < attributeNames.length; i++) { set(attributeNames[i], values[i]); } } protected Model(); protected Model(MetaModel metaModel, ModelRegistry modelRegistry); static MetaModel getMetaModel(); static MetaModel metaModel(); T fromMap(Map input); static T findOrCreateIt(Object... namesAndValues); static T findOrInit(Object... namesAndValues); T setId(Object id); T setDate(String attributeName, Object value); java.sql.Date getDate(String attributeName); void set(String[] attributeNames, Object[] values); T set(String attributeName, Object value); boolean isModified(); boolean isFrozen(); boolean modified(); static Set<String> attributeNames(); static List<Association> associations(); boolean isNew(); boolean frozen(); boolean delete(); void delete(boolean cascade); void deleteCascade(); void deleteCascadeExcept(Association... excludedAssociations); void deleteCascadeShallow(); void deleteChildrenShallow(Class<T> clazz); static int delete(String query, Object... params); static boolean exists(Object id); boolean exists(); static int deleteAll(); static int update(String updates, String conditions, Object ... params); static int updateAll(String updates, Object ... params); Map<String, Object> toMap(); @Override String toString(); void fromXml(String xml); String toXml(boolean pretty, boolean declaration, String... attributeNames); void beforeClosingTag(StringBuilder sb, boolean pretty, String indent, String... attributeNames); String toJson(boolean pretty, String... attributeNames); void beforeClosingBrace(StringBuilder sb, boolean pretty, String indent, String... attributeNames); P parent(Class<P> parentClass); P parent(Class<P> parentClass, boolean cache); void setParents(Model... parents); void setParent(Model parent); void copyTo(Model other); void copyFrom(Model other); void refresh(); Object get(String attributeName); String getString(String attributeName); byte[] getBytes(String attributeName); BigDecimal getBigDecimal(String attributeName); Integer getInteger(String attributeName); Long getLong(String attributeName); Short getShort(String attributeName); Float getFloat(String attributeName); Time getTime(String attributeName); Timestamp getTimestamp(String attributeName); Double getDouble(String attributeName); Boolean getBoolean(String attributeName); T setString(String attributeName, Object value); T setBigDecimal(String attributeName, Object value); T setShort(String attributeName, Object value); T setInteger(String attributeName, Object value); T setLong(String attributeName, Object value); T setFloat(String attributeName, Object value); T setTime(String attributeName, Object value); T setTimestamp(String attributeName, Object value); T setDouble(String attributeName, Object value); T setBoolean(String attributeName, Object value); LazyList<C> getAll(Class<C> clazz); LazyList<C> get(Class<C> targetModelClass, String criteria, Object ... params); static ValidationBuilder addValidator(Validator validator); void addError(String key, String value); static void removeValidator(Validator validator); static List<Validator> getValidators(Class<? extends Model> clazz); static boolean belongsTo(Class<? extends Model> targetClass); static void callbackWith(CallbackListener... listeners); boolean isValid(); void validate(); void validate(boolean reset); boolean hasErrors(); void addFailedValidator(Validator validator, String errorKey); Errors errors(); Errors errors(Locale locale); static T create(Object... namesAndValues); T set(Object... namesAndValues); static T createIt(Object ... namesAndValues); static T findById(Object id); static T findByCompositeKeys(Object... values); static LazyList<T> where(String subquery, Object... params); static ScopeBuilder<T> scopes(String ... scopes); static ScopeBuilder<T> scope(String scope); static LazyList<T> find(String subquery, Object... params); static T findFirst(String subQuery, Object... params); static T first(String subQuery, Object... params); static void findWith(final ModelListener listener, String query, Object ... params); static LazyList<T> findBySQL(String fullQuery, Object... params); static LazyList<T> findAll(); void add(Model child); void addModels(List<T> models); int remove(Model child); boolean saveIt(); void reset(); void thaw(); void defrost(); boolean save(); static Long count(); static Long count(String query, Object... params); boolean insert(); static String getTableName(); Object getId(); String getIdName(); String[] getCompositeKeys(); void manageTime(boolean manage); String toInsert(String ... replacements); String toInsert(Dialect dialect, String ... replacements); String toUpdate(String ... replacements); String toUpdate(Dialect dialect, String ... replacements); static boolean isCached(); static void purgeCache(); Long getLongId(); @Override void writeExternal(ObjectOutput out); @Override void readExternal(ObjectInput in); }
@Test public void shouldCovertToFloat() { Object object = Convert.toFloat(1F); the(object).shouldBeA(Float.class); a(object).shouldBeEqual(1); object = Convert.toFloat("1"); the(object).shouldBeA(Float.class); a(object).shouldBeEqual(1); object = Convert.toFloat(1L); the(object).shouldBeA(Float.class); a(object).shouldBeEqual(1); object = Convert.toFloat(new BigDecimal(1)); the(object).shouldBeA(Float.class); a(object).shouldBeEqual(1); }	public static Float toFloat(Object value) { if (value == null) { return null; } else if (value instanceof Float) { return (Float) value; } else if (value instanceof Number) { return ((Number) value).floatValue(); } else { return Float.valueOf(value.toString().trim()); } }	Convert { public static Float toFloat(Object value) { if (value == null) { return null; } else if (value instanceof Float) { return (Float) value; } else if (value instanceof Number) { return ((Number) value).floatValue(); } else { return Float.valueOf(value.toString().trim()); } } }	Convert { public static Float toFloat(Object value) { if (value == null) { return null; } else if (value instanceof Float) { return (Float) value; } else if (value instanceof Number) { return ((Number) value).floatValue(); } else { return Float.valueOf(value.toString().trim()); } } private Convert(); }	Convert { public static Float toFloat(Object value) { if (value == null) { return null; } else if (value instanceof Float) { return (Float) value; } else if (value instanceof Number) { return ((Number) value).floatValue(); } else { return Float.valueOf(value.toString().trim()); } } private Convert(); static String toString(Object value); static Boolean toBoolean(Object value); static java.sql.Date toSqlDate(Object value); static java.sql.Date truncateToSqlDate(Object value); static java.sql.Date truncateToSqlDate(long time); static String toIsoString(java.util.Date date); static Double toDouble(Object value); static java.sql.Time toTime(Object value); static java.sql.Timestamp toTimestamp(Object value); static Float toFloat(Object value); static Long toLong(Object value); static Integer toInteger(Object value); static BigDecimal toBigDecimal(Object value); static byte[] toBytes(Object value); static byte[] toBytes(Blob blob); static Short toShort(Object value); }	Convert { public static Float toFloat(Object value) { if (value == null) { return null; } else if (value instanceof Float) { return (Float) value; } else if (value instanceof Number) { return ((Number) value).floatValue(); } else { return Float.valueOf(value.toString().trim()); } } private Convert(); static String toString(Object value); static Boolean toBoolean(Object value); static java.sql.Date toSqlDate(Object value); static java.sql.Date truncateToSqlDate(Object value); static java.sql.Date truncateToSqlDate(long time); static String toIsoString(java.util.Date date); static Double toDouble(Object value); static java.sql.Time toTime(Object value); static java.sql.Timestamp toTimestamp(Object value); static Float toFloat(Object value); static Long toLong(Object value); static Integer toInteger(Object value); static BigDecimal toBigDecimal(Object value); static byte[] toBytes(Object value); static byte[] toBytes(Blob blob); static Short toShort(Object value); }
@Test public void shouldCovertToShort() { Object object = Convert.toShort(1F); the(object).shouldBeA(Short.class); a(object).shouldBeEqual(1); object = Convert.toShort("1"); the(object).shouldBeA(Short.class); a(object).shouldBeEqual(1); object = Convert.toShort(1L); the(object).shouldBeA(Short.class); a(object).shouldBeEqual(1); object = Convert.toShort(new BigDecimal(1)); the(object).shouldBeA(Short.class); a(object).shouldBeEqual(1); }	public static Short toShort(Object value) { if (value == null) { return null; } else if (value instanceof Short) { return (Short) value; } else if (value instanceof Number) { return ((Number) value).shortValue(); } else { try { return Short.valueOf(value.toString().trim()); } catch (NumberFormatException e) { throw new ConversionException("failed to convert: '" + value + "' to Short", e); } } }	Convert { public static Short toShort(Object value) { if (value == null) { return null; } else if (value instanceof Short) { return (Short) value; } else if (value instanceof Number) { return ((Number) value).shortValue(); } else { try { return Short.valueOf(value.toString().trim()); } catch (NumberFormatException e) { throw new ConversionException("failed to convert: '" + value + "' to Short", e); } } } }	Convert { public static Short toShort(Object value) { if (value == null) { return null; } else if (value instanceof Short) { return (Short) value; } else if (value instanceof Number) { return ((Number) value).shortValue(); } else { try { return Short.valueOf(value.toString().trim()); } catch (NumberFormatException e) { throw new ConversionException("failed to convert: '" + value + "' to Short", e); } } } private Convert(); }	Convert { public static Short toShort(Object value) { if (value == null) { return null; } else if (value instanceof Short) { return (Short) value; } else if (value instanceof Number) { return ((Number) value).shortValue(); } else { try { return Short.valueOf(value.toString().trim()); } catch (NumberFormatException e) { throw new ConversionException("failed to convert: '" + value + "' to Short", e); } } } private Convert(); static String toString(Object value); static Boolean toBoolean(Object value); static java.sql.Date toSqlDate(Object value); static java.sql.Date truncateToSqlDate(Object value); static java.sql.Date truncateToSqlDate(long time); static String toIsoString(java.util.Date date); static Double toDouble(Object value); static java.sql.Time toTime(Object value); static java.sql.Timestamp toTimestamp(Object value); static Float toFloat(Object value); static Long toLong(Object value); static Integer toInteger(Object value); static BigDecimal toBigDecimal(Object value); static byte[] toBytes(Object value); static byte[] toBytes(Blob blob); static Short toShort(Object value); }	Convert { public static Short toShort(Object value) { if (value == null) { return null; } else if (value instanceof Short) { return (Short) value; } else if (value instanceof Number) { return ((Number) value).shortValue(); } else { try { return Short.valueOf(value.toString().trim()); } catch (NumberFormatException e) { throw new ConversionException("failed to convert: '" + value + "' to Short", e); } } } private Convert(); static String toString(Object value); static Boolean toBoolean(Object value); static java.sql.Date toSqlDate(Object value); static java.sql.Date truncateToSqlDate(Object value); static java.sql.Date truncateToSqlDate(long time); static String toIsoString(java.util.Date date); static Double toDouble(Object value); static java.sql.Time toTime(Object value); static java.sql.Timestamp toTimestamp(Object value); static Float toFloat(Object value); static Long toLong(Object value); static Integer toInteger(Object value); static BigDecimal toBigDecimal(Object value); static byte[] toBytes(Object value); static byte[] toBytes(Blob blob); static Short toShort(Object value); }
@Test public void shouldCovertToBoolean() { a(Convert.toBoolean(null)).shouldBeFalse(); a(Convert.toBoolean("true")).shouldBeTrue(); a(Convert.toBoolean("false")).shouldBeFalse(); a(Convert.toBoolean("TRUE")).shouldBeTrue(); a(Convert.toBoolean("FALSE")).shouldBeFalse(); a(Convert.toBoolean("True")).shouldBeTrue(); a(Convert.toBoolean("False")).shouldBeFalse(); a(Convert.toBoolean("yes")).shouldBeTrue(); a(Convert.toBoolean("no")).shouldBeFalse(); a(Convert.toBoolean("YES")).shouldBeTrue(); a(Convert.toBoolean("NO")).shouldBeFalse(); a(Convert.toBoolean("Yes")).shouldBeTrue(); a(Convert.toBoolean("No")).shouldBeFalse(); a(Convert.toBoolean("t")).shouldBeTrue(); a(Convert.toBoolean("f")).shouldBeFalse(); a(Convert.toBoolean("T")).shouldBeTrue(); a(Convert.toBoolean("F")).shouldBeFalse(); a(Convert.toBoolean("y")).shouldBeTrue(); a(Convert.toBoolean("n")).shouldBeFalse(); a(Convert.toBoolean("Y")).shouldBeTrue(); a(Convert.toBoolean("N")).shouldBeFalse(); a(Convert.toBoolean("1")).shouldBeTrue(); a(Convert.toBoolean("0")).shouldBeFalse(); a(Convert.toBoolean('t')).shouldBeTrue(); a(Convert.toBoolean('f')).shouldBeFalse(); a(Convert.toBoolean('T')).shouldBeTrue(); a(Convert.toBoolean('F')).shouldBeFalse(); a(Convert.toBoolean('y')).shouldBeTrue(); a(Convert.toBoolean('n')).shouldBeFalse(); a(Convert.toBoolean('Y')).shouldBeTrue(); a(Convert.toBoolean('N')).shouldBeFalse(); a(Convert.toBoolean('1')).shouldBeTrue(); a(Convert.toBoolean('0')).shouldBeFalse(); a(Convert.toBoolean(1)).shouldBeTrue(); a(Convert.toBoolean(0)).shouldBeFalse(); a(Convert.toBoolean(1L)).shouldBeTrue(); a(Convert.toBoolean(0L)).shouldBeFalse(); a(Convert.toBoolean(1f)).shouldBeTrue(); a(Convert.toBoolean(0f)).shouldBeFalse(); a(Convert.toBoolean(1d)).shouldBeTrue(); a(Convert.toBoolean(0d)).shouldBeFalse(); short t = (short)1; short f = (short)0; a(Convert.toBoolean(t)).shouldBeTrue(); a(Convert.toBoolean(f)).shouldBeFalse(); }	public static Boolean toBoolean(Object value) { if (value == null) { return false; } else if (value instanceof Boolean) { return (Boolean) value; } else if (value instanceof BigDecimal) { return value.equals(BigDecimal.ONE); } else if (value instanceof Number) { return ((Number) value).intValue() == 1; } else if (value instanceof Character) { char c = (Character) value; return c == 't' \|\| c == 'T' \|\| c == 'y' \|\| c == 'Y' \|\| c == '1'; } else { String str = value.toString(); return str.equalsIgnoreCase("true") \|\| str.equalsIgnoreCase("t") \|\| str.equalsIgnoreCase("yes") \|\| str.equalsIgnoreCase("y") \|\| str.equals("1") \|\| Boolean.parseBoolean(str); } }	Convert { public static Boolean toBoolean(Object value) { if (value == null) { return false; } else if (value instanceof Boolean) { return (Boolean) value; } else if (value instanceof BigDecimal) { return value.equals(BigDecimal.ONE); } else if (value instanceof Number) { return ((Number) value).intValue() == 1; } else if (value instanceof Character) { char c = (Character) value; return c == 't' \|\| c == 'T' \|\| c == 'y' \|\| c == 'Y' \|\| c == '1'; } else { String str = value.toString(); return str.equalsIgnoreCase("true") \|\| str.equalsIgnoreCase("t") \|\| str.equalsIgnoreCase("yes") \|\| str.equalsIgnoreCase("y") \|\| str.equals("1") \|\| Boolean.parseBoolean(str); } } }	Convert { public static Boolean toBoolean(Object value) { if (value == null) { return false; } else if (value instanceof Boolean) { return (Boolean) value; } else if (value instanceof BigDecimal) { return value.equals(BigDecimal.ONE); } else if (value instanceof Number) { return ((Number) value).intValue() == 1; } else if (value instanceof Character) { char c = (Character) value; return c == 't' \|\| c == 'T' \|\| c == 'y' \|\| c == 'Y' \|\| c == '1'; } else { String str = value.toString(); return str.equalsIgnoreCase("true") \|\| str.equalsIgnoreCase("t") \|\| str.equalsIgnoreCase("yes") \|\| str.equalsIgnoreCase("y") \|\| str.equals("1") \|\| Boolean.parseBoolean(str); } } private Convert(); }	Convert { public static Boolean toBoolean(Object value) { if (value == null) { return false; } else if (value instanceof Boolean) { return (Boolean) value; } else if (value instanceof BigDecimal) { return value.equals(BigDecimal.ONE); } else if (value instanceof Number) { return ((Number) value).intValue() == 1; } else if (value instanceof Character) { char c = (Character) value; return c == 't' \|\| c == 'T' \|\| c == 'y' \|\| c == 'Y' \|\| c == '1'; } else { String str = value.toString(); return str.equalsIgnoreCase("true") \|\| str.equalsIgnoreCase("t") \|\| str.equalsIgnoreCase("yes") \|\| str.equalsIgnoreCase("y") \|\| str.equals("1") \|\| Boolean.parseBoolean(str); } } private Convert(); static String toString(Object value); static Boolean toBoolean(Object value); static java.sql.Date toSqlDate(Object value); static java.sql.Date truncateToSqlDate(Object value); static java.sql.Date truncateToSqlDate(long time); static String toIsoString(java.util.Date date); static Double toDouble(Object value); static java.sql.Time toTime(Object value); static java.sql.Timestamp toTimestamp(Object value); static Float toFloat(Object value); static Long toLong(Object value); static Integer toInteger(Object value); static BigDecimal toBigDecimal(Object value); static byte[] toBytes(Object value); static byte[] toBytes(Blob blob); static Short toShort(Object value); }	Convert { public static Boolean toBoolean(Object value) { if (value == null) { return false; } else if (value instanceof Boolean) { return (Boolean) value; } else if (value instanceof BigDecimal) { return value.equals(BigDecimal.ONE); } else if (value instanceof Number) { return ((Number) value).intValue() == 1; } else if (value instanceof Character) { char c = (Character) value; return c == 't' \|\| c == 'T' \|\| c == 'y' \|\| c == 'Y' \|\| c == '1'; } else { String str = value.toString(); return str.equalsIgnoreCase("true") \|\| str.equalsIgnoreCase("t") \|\| str.equalsIgnoreCase("yes") \|\| str.equalsIgnoreCase("y") \|\| str.equals("1") \|\| Boolean.parseBoolean(str); } } private Convert(); static String toString(Object value); static Boolean toBoolean(Object value); static java.sql.Date toSqlDate(Object value); static java.sql.Date truncateToSqlDate(Object value); static java.sql.Date truncateToSqlDate(long time); static String toIsoString(java.util.Date date); static Double toDouble(Object value); static java.sql.Time toTime(Object value); static java.sql.Timestamp toTimestamp(Object value); static Float toFloat(Object value); static Long toLong(Object value); static Integer toInteger(Object value); static BigDecimal toBigDecimal(Object value); static byte[] toBytes(Object value); static byte[] toBytes(Blob blob); static Short toShort(Object value); }
@Test public void shouldCovertToIsoString() { Calendar cal = Calendar.getInstance(TimeZone.getTimeZone("UTC")); cal.set(1970, 0, 1, 0, 0, 0); the(Convert.toIsoString(cal.getTime())).shouldBeEqual("1970-01-01T00:00:00Z"); cal.set(1912, 5, 23, 2, 15, 47); the(Convert.toIsoString(cal.getTime())).shouldBeEqual("1912-06-23T02:15:47Z"); cal.set(2014, 11, 31, 23, 59, 59); the(Convert.toIsoString(cal.getTime())).shouldBeEqual("2014-12-31T23:59:59Z"); }	public static String toIsoString(java.util.Date date) { if (date == null) { return null; } else if (date instanceof java.sql.Date) { return date.toString(); } Calendar cal = THREADLOCAL_CAL_UTC.get(); cal.setTime(date); int year = cal.get(Calendar.YEAR); int month = cal.get(Calendar.MONTH) + 1; int day = cal.get(Calendar.DAY_OF_MONTH); int hour = cal.get(Calendar.HOUR_OF_DAY); int minute = cal.get(Calendar.MINUTE); int second = cal.get(Calendar.SECOND); char[] buf = new char[20]; buf[0] = Character.forDigit(year/1000, 10); buf[1] = Character.forDigit((year/100)%10, 10); buf[2] = Character.forDigit((year/10)%10, 10); buf[3] = Character.forDigit(year%10, 10); buf[4] = '-'; buf[5] = Character.forDigit(month/10, 10); buf[6] = Character.forDigit(month%10, 10); buf[7] = '-'; buf[8] = Character.forDigit(day/10, 10); buf[9] = Character.forDigit(day%10, 10); buf[10] = 'T'; buf[11] = Character.forDigit(hour/10, 10); buf[12] = Character.forDigit(hour%10, 10); buf[13] = ':'; buf[14] = Character.forDigit(minute/10, 10); buf[15] = Character.forDigit(minute%10, 10); buf[16] = ':'; buf[17] = Character.forDigit(second/10, 10); buf[18] = Character.forDigit(second%10, 10); buf[19] = 'Z'; return new String(buf); }	Convert { public static String toIsoString(java.util.Date date) { if (date == null) { return null; } else if (date instanceof java.sql.Date) { return date.toString(); } Calendar cal = THREADLOCAL_CAL_UTC.get(); cal.setTime(date); int year = cal.get(Calendar.YEAR); int month = cal.get(Calendar.MONTH) + 1; int day = cal.get(Calendar.DAY_OF_MONTH); int hour = cal.get(Calendar.HOUR_OF_DAY); int minute = cal.get(Calendar.MINUTE); int second = cal.get(Calendar.SECOND); char[] buf = new char[20]; buf[0] = Character.forDigit(year/1000, 10); buf[1] = Character.forDigit((year/100)%10, 10); buf[2] = Character.forDigit((year/10)%10, 10); buf[3] = Character.forDigit(year%10, 10); buf[4] = '-'; buf[5] = Character.forDigit(month/10, 10); buf[6] = Character.forDigit(month%10, 10); buf[7] = '-'; buf[8] = Character.forDigit(day/10, 10); buf[9] = Character.forDigit(day%10, 10); buf[10] = 'T'; buf[11] = Character.forDigit(hour/10, 10); buf[12] = Character.forDigit(hour%10, 10); buf[13] = ':'; buf[14] = Character.forDigit(minute/10, 10); buf[15] = Character.forDigit(minute%10, 10); buf[16] = ':'; buf[17] = Character.forDigit(second/10, 10); buf[18] = Character.forDigit(second%10, 10); buf[19] = 'Z'; return new String(buf); } }	Convert { public static String toIsoString(java.util.Date date) { if (date == null) { return null; } else if (date instanceof java.sql.Date) { return date.toString(); } Calendar cal = THREADLOCAL_CAL_UTC.get(); cal.setTime(date); int year = cal.get(Calendar.YEAR); int month = cal.get(Calendar.MONTH) + 1; int day = cal.get(Calendar.DAY_OF_MONTH); int hour = cal.get(Calendar.HOUR_OF_DAY); int minute = cal.get(Calendar.MINUTE); int second = cal.get(Calendar.SECOND); char[] buf = new char[20]; buf[0] = Character.forDigit(year/1000, 10); buf[1] = Character.forDigit((year/100)%10, 10); buf[2] = Character.forDigit((year/10)%10, 10); buf[3] = Character.forDigit(year%10, 10); buf[4] = '-'; buf[5] = Character.forDigit(month/10, 10); buf[6] = Character.forDigit(month%10, 10); buf[7] = '-'; buf[8] = Character.forDigit(day/10, 10); buf[9] = Character.forDigit(day%10, 10); buf[10] = 'T'; buf[11] = Character.forDigit(hour/10, 10); buf[12] = Character.forDigit(hour%10, 10); buf[13] = ':'; buf[14] = Character.forDigit(minute/10, 10); buf[15] = Character.forDigit(minute%10, 10); buf[16] = ':'; buf[17] = Character.forDigit(second/10, 10); buf[18] = Character.forDigit(second%10, 10); buf[19] = 'Z'; return new String(buf); } private Convert(); }	Convert { public static String toIsoString(java.util.Date date) { if (date == null) { return null; } else if (date instanceof java.sql.Date) { return date.toString(); } Calendar cal = THREADLOCAL_CAL_UTC.get(); cal.setTime(date); int year = cal.get(Calendar.YEAR); int month = cal.get(Calendar.MONTH) + 1; int day = cal.get(Calendar.DAY_OF_MONTH); int hour = cal.get(Calendar.HOUR_OF_DAY); int minute = cal.get(Calendar.MINUTE); int second = cal.get(Calendar.SECOND); char[] buf = new char[20]; buf[0] = Character.forDigit(year/1000, 10); buf[1] = Character.forDigit((year/100)%10, 10); buf[2] = Character.forDigit((year/10)%10, 10); buf[3] = Character.forDigit(year%10, 10); buf[4] = '-'; buf[5] = Character.forDigit(month/10, 10); buf[6] = Character.forDigit(month%10, 10); buf[7] = '-'; buf[8] = Character.forDigit(day/10, 10); buf[9] = Character.forDigit(day%10, 10); buf[10] = 'T'; buf[11] = Character.forDigit(hour/10, 10); buf[12] = Character.forDigit(hour%10, 10); buf[13] = ':'; buf[14] = Character.forDigit(minute/10, 10); buf[15] = Character.forDigit(minute%10, 10); buf[16] = ':'; buf[17] = Character.forDigit(second/10, 10); buf[18] = Character.forDigit(second%10, 10); buf[19] = 'Z'; return new String(buf); } private Convert(); static String toString(Object value); static Boolean toBoolean(Object value); static java.sql.Date toSqlDate(Object value); static java.sql.Date truncateToSqlDate(Object value); static java.sql.Date truncateToSqlDate(long time); static String toIsoString(java.util.Date date); static Double toDouble(Object value); static java.sql.Time toTime(Object value); static java.sql.Timestamp toTimestamp(Object value); static Float toFloat(Object value); static Long toLong(Object value); static Integer toInteger(Object value); static BigDecimal toBigDecimal(Object value); static byte[] toBytes(Object value); static byte[] toBytes(Blob blob); static Short toShort(Object value); }	Convert { public static String toIsoString(java.util.Date date) { if (date == null) { return null; } else if (date instanceof java.sql.Date) { return date.toString(); } Calendar cal = THREADLOCAL_CAL_UTC.get(); cal.setTime(date); int year = cal.get(Calendar.YEAR); int month = cal.get(Calendar.MONTH) + 1; int day = cal.get(Calendar.DAY_OF_MONTH); int hour = cal.get(Calendar.HOUR_OF_DAY); int minute = cal.get(Calendar.MINUTE); int second = cal.get(Calendar.SECOND); char[] buf = new char[20]; buf[0] = Character.forDigit(year/1000, 10); buf[1] = Character.forDigit((year/100)%10, 10); buf[2] = Character.forDigit((year/10)%10, 10); buf[3] = Character.forDigit(year%10, 10); buf[4] = '-'; buf[5] = Character.forDigit(month/10, 10); buf[6] = Character.forDigit(month%10, 10); buf[7] = '-'; buf[8] = Character.forDigit(day/10, 10); buf[9] = Character.forDigit(day%10, 10); buf[10] = 'T'; buf[11] = Character.forDigit(hour/10, 10); buf[12] = Character.forDigit(hour%10, 10); buf[13] = ':'; buf[14] = Character.forDigit(minute/10, 10); buf[15] = Character.forDigit(minute%10, 10); buf[16] = ':'; buf[17] = Character.forDigit(second/10, 10); buf[18] = Character.forDigit(second%10, 10); buf[19] = 'Z'; return new String(buf); } private Convert(); static String toString(Object value); static Boolean toBoolean(Object value); static java.sql.Date toSqlDate(Object value); static java.sql.Date truncateToSqlDate(Object value); static java.sql.Date truncateToSqlDate(long time); static String toIsoString(java.util.Date date); static Double toDouble(Object value); static java.sql.Time toTime(Object value); static java.sql.Timestamp toTimestamp(Object value); static Float toFloat(Object value); static Long toLong(Object value); static Integer toInteger(Object value); static BigDecimal toBigDecimal(Object value); static byte[] toBytes(Object value); static byte[] toBytes(Blob blob); static Short toShort(Object value); }
@Test public void shouldToBytesCovertNull() { the(Convert.toBytes((Object) null)).shouldBeNull(); }	public static byte[] toBytes(Object value) { if (value == null) { return null; } else if (value instanceof byte[]) { return (byte[]) value; } else if (value instanceof Blob) { return toBytes((Blob) value); } else { return toString(value).getBytes(); } }	Convert { public static byte[] toBytes(Object value) { if (value == null) { return null; } else if (value instanceof byte[]) { return (byte[]) value; } else if (value instanceof Blob) { return toBytes((Blob) value); } else { return toString(value).getBytes(); } } }	Convert { public static byte[] toBytes(Object value) { if (value == null) { return null; } else if (value instanceof byte[]) { return (byte[]) value; } else if (value instanceof Blob) { return toBytes((Blob) value); } else { return toString(value).getBytes(); } } private Convert(); }	Convert { public static byte[] toBytes(Object value) { if (value == null) { return null; } else if (value instanceof byte[]) { return (byte[]) value; } else if (value instanceof Blob) { return toBytes((Blob) value); } else { return toString(value).getBytes(); } } private Convert(); static String toString(Object value); static Boolean toBoolean(Object value); static java.sql.Date toSqlDate(Object value); static java.sql.Date truncateToSqlDate(Object value); static java.sql.Date truncateToSqlDate(long time); static String toIsoString(java.util.Date date); static Double toDouble(Object value); static java.sql.Time toTime(Object value); static java.sql.Timestamp toTimestamp(Object value); static Float toFloat(Object value); static Long toLong(Object value); static Integer toInteger(Object value); static BigDecimal toBigDecimal(Object value); static byte[] toBytes(Object value); static byte[] toBytes(Blob blob); static Short toShort(Object value); }	Convert { public static byte[] toBytes(Object value) { if (value == null) { return null; } else if (value instanceof byte[]) { return (byte[]) value; } else if (value instanceof Blob) { return toBytes((Blob) value); } else { return toString(value).getBytes(); } } private Convert(); static String toString(Object value); static Boolean toBoolean(Object value); static java.sql.Date toSqlDate(Object value); static java.sql.Date truncateToSqlDate(Object value); static java.sql.Date truncateToSqlDate(long time); static String toIsoString(java.util.Date date); static Double toDouble(Object value); static java.sql.Time toTime(Object value); static java.sql.Timestamp toTimestamp(Object value); static Float toFloat(Object value); static Long toLong(Object value); static Integer toInteger(Object value); static BigDecimal toBigDecimal(Object value); static byte[] toBytes(Object value); static byte[] toBytes(Blob blob); static Short toShort(Object value); }
@Test public void testAttemptSetId() { deleteAndPopulateTable("people"); final Person p = new Person(); expect(new ExceptionExpectation(IllegalArgumentException.class) { @Override public void exec() { p.set("person_id", "hehe"); } }); }	public void set(String[] attributeNames, Object[] values) { if (attributeNames == null \|\| values == null \|\| attributeNames.length != values.length) { throw new IllegalArgumentException("must pass non-null arrays of equal length"); } for (int i = 0; i < attributeNames.length; i++) { set(attributeNames[i], values[i]); } }	Model extends CallbackSupport implements Externalizable, Validatable { public void set(String[] attributeNames, Object[] values) { if (attributeNames == null \|\| values == null \|\| attributeNames.length != values.length) { throw new IllegalArgumentException("must pass non-null arrays of equal length"); } for (int i = 0; i < attributeNames.length; i++) { set(attributeNames[i], values[i]); } } }	Model extends CallbackSupport implements Externalizable, Validatable { public void set(String[] attributeNames, Object[] values) { if (attributeNames == null \|\| values == null \|\| attributeNames.length != values.length) { throw new IllegalArgumentException("must pass non-null arrays of equal length"); } for (int i = 0; i < attributeNames.length; i++) { set(attributeNames[i], values[i]); } } protected Model(); protected Model(MetaModel metaModel, ModelRegistry modelRegistry); }	Model extends CallbackSupport implements Externalizable, Validatable { public void set(String[] attributeNames, Object[] values) { if (attributeNames == null \|\| values == null \|\| attributeNames.length != values.length) { throw new IllegalArgumentException("must pass non-null arrays of equal length"); } for (int i = 0; i < attributeNames.length; i++) { set(attributeNames[i], values[i]); } } protected Model(); protected Model(MetaModel metaModel, ModelRegistry modelRegistry); static MetaModel getMetaModel(); static MetaModel metaModel(); T fromMap(Map input); static T findOrCreateIt(Object... namesAndValues); static T findOrInit(Object... namesAndValues); T setId(Object id); T setDate(String attributeName, Object value); java.sql.Date getDate(String attributeName); void set(String[] attributeNames, Object[] values); T set(String attributeName, Object value); boolean isModified(); boolean isFrozen(); boolean modified(); static Set<String> attributeNames(); static List<Association> associations(); boolean isNew(); boolean frozen(); boolean delete(); void delete(boolean cascade); void deleteCascade(); void deleteCascadeExcept(Association... excludedAssociations); void deleteCascadeShallow(); void deleteChildrenShallow(Class<T> clazz); static int delete(String query, Object... params); static boolean exists(Object id); boolean exists(); static int deleteAll(); static int update(String updates, String conditions, Object ... params); static int updateAll(String updates, Object ... params); Map<String, Object> toMap(); @Override String toString(); void fromXml(String xml); String toXml(boolean pretty, boolean declaration, String... attributeNames); void beforeClosingTag(StringBuilder sb, boolean pretty, String indent, String... attributeNames); String toJson(boolean pretty, String... attributeNames); void beforeClosingBrace(StringBuilder sb, boolean pretty, String indent, String... attributeNames); P parent(Class<P> parentClass); P parent(Class<P> parentClass, boolean cache); void setParents(Model... parents); void setParent(Model parent); void copyTo(Model other); void copyFrom(Model other); void refresh(); Object get(String attributeName); String getString(String attributeName); byte[] getBytes(String attributeName); BigDecimal getBigDecimal(String attributeName); Integer getInteger(String attributeName); Long getLong(String attributeName); Short getShort(String attributeName); Float getFloat(String attributeName); Time getTime(String attributeName); Timestamp getTimestamp(String attributeName); Double getDouble(String attributeName); Boolean getBoolean(String attributeName); T setString(String attributeName, Object value); T setBigDecimal(String attributeName, Object value); T setShort(String attributeName, Object value); T setInteger(String attributeName, Object value); T setLong(String attributeName, Object value); T setFloat(String attributeName, Object value); T setTime(String attributeName, Object value); T setTimestamp(String attributeName, Object value); T setDouble(String attributeName, Object value); T setBoolean(String attributeName, Object value); LazyList<C> getAll(Class<C> clazz); LazyList<C> get(Class<C> targetModelClass, String criteria, Object ... params); static ValidationBuilder addValidator(Validator validator); void addError(String key, String value); static void removeValidator(Validator validator); static List<Validator> getValidators(Class<? extends Model> clazz); static boolean belongsTo(Class<? extends Model> targetClass); static void callbackWith(CallbackListener... listeners); boolean isValid(); void validate(); void validate(boolean reset); boolean hasErrors(); void addFailedValidator(Validator validator, String errorKey); Errors errors(); Errors errors(Locale locale); static T create(Object... namesAndValues); T set(Object... namesAndValues); static T createIt(Object ... namesAndValues); static T findById(Object id); static T findByCompositeKeys(Object... values); static LazyList<T> where(String subquery, Object... params); static ScopeBuilder<T> scopes(String ... scopes); static ScopeBuilder<T> scope(String scope); static LazyList<T> find(String subquery, Object... params); static T findFirst(String subQuery, Object... params); static T first(String subQuery, Object... params); static void findWith(final ModelListener listener, String query, Object ... params); static LazyList<T> findBySQL(String fullQuery, Object... params); static LazyList<T> findAll(); void add(Model child); void addModels(List<T> models); int remove(Model child); boolean saveIt(); void reset(); void thaw(); void defrost(); boolean save(); static Long count(); static Long count(String query, Object... params); boolean insert(); static String getTableName(); Object getId(); String getIdName(); String[] getCompositeKeys(); void manageTime(boolean manage); String toInsert(String ... replacements); String toInsert(Dialect dialect, String ... replacements); String toUpdate(String ... replacements); String toUpdate(Dialect dialect, String ... replacements); static boolean isCached(); static void purgeCache(); Long getLongId(); @Override void writeExternal(ObjectOutput out); @Override void readExternal(ObjectInput in); }	Model extends CallbackSupport implements Externalizable, Validatable { public void set(String[] attributeNames, Object[] values) { if (attributeNames == null \|\| values == null \|\| attributeNames.length != values.length) { throw new IllegalArgumentException("must pass non-null arrays of equal length"); } for (int i = 0; i < attributeNames.length; i++) { set(attributeNames[i], values[i]); } } protected Model(); protected Model(MetaModel metaModel, ModelRegistry modelRegistry); static MetaModel getMetaModel(); static MetaModel metaModel(); T fromMap(Map input); static T findOrCreateIt(Object... namesAndValues); static T findOrInit(Object... namesAndValues); T setId(Object id); T setDate(String attributeName, Object value); java.sql.Date getDate(String attributeName); void set(String[] attributeNames, Object[] values); T set(String attributeName, Object value); boolean isModified(); boolean isFrozen(); boolean modified(); static Set<String> attributeNames(); static List<Association> associations(); boolean isNew(); boolean frozen(); boolean delete(); void delete(boolean cascade); void deleteCascade(); void deleteCascadeExcept(Association... excludedAssociations); void deleteCascadeShallow(); void deleteChildrenShallow(Class<T> clazz); static int delete(String query, Object... params); static boolean exists(Object id); boolean exists(); static int deleteAll(); static int update(String updates, String conditions, Object ... params); static int updateAll(String updates, Object ... params); Map<String, Object> toMap(); @Override String toString(); void fromXml(String xml); String toXml(boolean pretty, boolean declaration, String... attributeNames); void beforeClosingTag(StringBuilder sb, boolean pretty, String indent, String... attributeNames); String toJson(boolean pretty, String... attributeNames); void beforeClosingBrace(StringBuilder sb, boolean pretty, String indent, String... attributeNames); P parent(Class<P> parentClass); P parent(Class<P> parentClass, boolean cache); void setParents(Model... parents); void setParent(Model parent); void copyTo(Model other); void copyFrom(Model other); void refresh(); Object get(String attributeName); String getString(String attributeName); byte[] getBytes(String attributeName); BigDecimal getBigDecimal(String attributeName); Integer getInteger(String attributeName); Long getLong(String attributeName); Short getShort(String attributeName); Float getFloat(String attributeName); Time getTime(String attributeName); Timestamp getTimestamp(String attributeName); Double getDouble(String attributeName); Boolean getBoolean(String attributeName); T setString(String attributeName, Object value); T setBigDecimal(String attributeName, Object value); T setShort(String attributeName, Object value); T setInteger(String attributeName, Object value); T setLong(String attributeName, Object value); T setFloat(String attributeName, Object value); T setTime(String attributeName, Object value); T setTimestamp(String attributeName, Object value); T setDouble(String attributeName, Object value); T setBoolean(String attributeName, Object value); LazyList<C> getAll(Class<C> clazz); LazyList<C> get(Class<C> targetModelClass, String criteria, Object ... params); static ValidationBuilder addValidator(Validator validator); void addError(String key, String value); static void removeValidator(Validator validator); static List<Validator> getValidators(Class<? extends Model> clazz); static boolean belongsTo(Class<? extends Model> targetClass); static void callbackWith(CallbackListener... listeners); boolean isValid(); void validate(); void validate(boolean reset); boolean hasErrors(); void addFailedValidator(Validator validator, String errorKey); Errors errors(); Errors errors(Locale locale); static T create(Object... namesAndValues); T set(Object... namesAndValues); static T createIt(Object ... namesAndValues); static T findById(Object id); static T findByCompositeKeys(Object... values); static LazyList<T> where(String subquery, Object... params); static ScopeBuilder<T> scopes(String ... scopes); static ScopeBuilder<T> scope(String scope); static LazyList<T> find(String subquery, Object... params); static T findFirst(String subQuery, Object... params); static T first(String subQuery, Object... params); static void findWith(final ModelListener listener, String query, Object ... params); static LazyList<T> findBySQL(String fullQuery, Object... params); static LazyList<T> findAll(); void add(Model child); void addModels(List<T> models); int remove(Model child); boolean saveIt(); void reset(); void thaw(); void defrost(); boolean save(); static Long count(); static Long count(String query, Object... params); boolean insert(); static String getTableName(); Object getId(); String getIdName(); String[] getCompositeKeys(); void manageTime(boolean manage); String toInsert(String ... replacements); String toInsert(Dialect dialect, String ... replacements); String toUpdate(String ... replacements); String toUpdate(Dialect dialect, String ... replacements); static boolean isCached(); static void purgeCache(); Long getLongId(); @Override void writeExternal(ObjectOutput out); @Override void readExternal(ObjectInput in); }
@Test public void testCheckTomcatVersionIsValid() { Assert.assertEquals(IConstants.TOMCAT_VER_60, TomcatVersionValidator.getTomcatVersion(VMWARE_TOMCAT6_SERVERINFO)); Assert.assertEquals(IConstants.TOMCAT_VER_60, TomcatVersionValidator.getTomcatVersion(WINDOWS_TOMCAT6_SERVERINFO)); Assert.assertEquals(IConstants.TOMCAT_VER_60, TomcatVersionValidator.getTomcatVersion(LINUX_TOMCAT6_SERVERINFO)); Assert.assertEquals(IConstants.TOMCAT_VER_70, TomcatVersionValidator.getTomcatVersion(LINUX_TOMCAT7_SERVERINFO)); Assert.assertEquals(IConstants.TOMCAT_VER_80, TomcatVersionValidator.getTomcatVersion(LINUX_TOMCAT8_SERVERINFO)); Assert.assertEquals(IConstants.TOMCAT_VER_85, TomcatVersionValidator.getTomcatVersion(LINUX_TOMCAT85_SERVERINFO)); Assert.assertNull(TomcatVersionValidator.getTomcatVersion(LINUX_TOMCAT5_SERVERINFO)); Assert.assertNull(TomcatVersionValidator.getTomcatVersion(null)); Assert.assertNull(TomcatVersionValidator.getTomcatVersion("")); }	public static String getTomcatVersion(String serverInfo) { String result = null; if (serverInfo != null && !serverInfo.isEmpty()) { Debug.log("TomcatVersionValidator.getTomcatVersion() - validating ServerInfo:" + serverInfo); int currentIndex = serverInfo.indexOf(STR_APACHE_TOMCAT_SERVER_NUMBER); if (currentIndex == -1) { return null; } currentIndex += STR_APACHE_TOMCAT_SERVER_NUMBER.length(); int endIndex = serverInfo.indexOf('\n', currentIndex); if (endIndex == -1) { endIndex = serverInfo.length() - 1; } String versionLine = serverInfo.substring(currentIndex, endIndex).trim(); if (versionLine.startsWith("6.0")) { result = TOMCAT_VER_60; } else if (versionLine.startsWith("7.0")) { result = TOMCAT_VER_70; } else if (versionLine.startsWith("8.0")) { result = TOMCAT_VER_80; } else if (versionLine.startsWith("8.5")) { result = TOMCAT_VER_85; } Debug.log("TomcatVersionValidator.getTomcatVersion() - version:" + versionLine + " found version: " + result); } return result; }	TomcatVersionValidator extends ValidatorBase implements IConstants, IConfigKeys { public static String getTomcatVersion(String serverInfo) { String result = null; if (serverInfo != null && !serverInfo.isEmpty()) { Debug.log("TomcatVersionValidator.getTomcatVersion() - validating ServerInfo:" + serverInfo); int currentIndex = serverInfo.indexOf(STR_APACHE_TOMCAT_SERVER_NUMBER); if (currentIndex == -1) { return null; } currentIndex += STR_APACHE_TOMCAT_SERVER_NUMBER.length(); int endIndex = serverInfo.indexOf('\n', currentIndex); if (endIndex == -1) { endIndex = serverInfo.length() - 1; } String versionLine = serverInfo.substring(currentIndex, endIndex).trim(); if (versionLine.startsWith("6.0")) { result = TOMCAT_VER_60; } else if (versionLine.startsWith("7.0")) { result = TOMCAT_VER_70; } else if (versionLine.startsWith("8.0")) { result = TOMCAT_VER_80; } else if (versionLine.startsWith("8.5")) { result = TOMCAT_VER_85; } Debug.log("TomcatVersionValidator.getTomcatVersion() - version:" + versionLine + " found version: " + result); } return result; } }	TomcatVersionValidator extends ValidatorBase implements IConstants, IConfigKeys { public static String getTomcatVersion(String serverInfo) { String result = null; if (serverInfo != null && !serverInfo.isEmpty()) { Debug.log("TomcatVersionValidator.getTomcatVersion() - validating ServerInfo:" + serverInfo); int currentIndex = serverInfo.indexOf(STR_APACHE_TOMCAT_SERVER_NUMBER); if (currentIndex == -1) { return null; } currentIndex += STR_APACHE_TOMCAT_SERVER_NUMBER.length(); int endIndex = serverInfo.indexOf('\n', currentIndex); if (endIndex == -1) { endIndex = serverInfo.length() - 1; } String versionLine = serverInfo.substring(currentIndex, endIndex).trim(); if (versionLine.startsWith("6.0")) { result = TOMCAT_VER_60; } else if (versionLine.startsWith("7.0")) { result = TOMCAT_VER_70; } else if (versionLine.startsWith("8.0")) { result = TOMCAT_VER_80; } else if (versionLine.startsWith("8.5")) { result = TOMCAT_VER_85; } Debug.log("TomcatVersionValidator.getTomcatVersion() - version:" + versionLine + " found version: " + result); } return result; } TomcatVersionValidator(); }	TomcatVersionValidator extends ValidatorBase implements IConstants, IConfigKeys { public static String getTomcatVersion(String serverInfo) { String result = null; if (serverInfo != null && !serverInfo.isEmpty()) { Debug.log("TomcatVersionValidator.getTomcatVersion() - validating ServerInfo:" + serverInfo); int currentIndex = serverInfo.indexOf(STR_APACHE_TOMCAT_SERVER_NUMBER); if (currentIndex == -1) { return null; } currentIndex += STR_APACHE_TOMCAT_SERVER_NUMBER.length(); int endIndex = serverInfo.indexOf('\n', currentIndex); if (endIndex == -1) { endIndex = serverInfo.length() - 1; } String versionLine = serverInfo.substring(currentIndex, endIndex).trim(); if (versionLine.startsWith("6.0")) { result = TOMCAT_VER_60; } else if (versionLine.startsWith("7.0")) { result = TOMCAT_VER_70; } else if (versionLine.startsWith("8.0")) { result = TOMCAT_VER_80; } else if (versionLine.startsWith("8.5")) { result = TOMCAT_VER_85; } Debug.log("TomcatVersionValidator.getTomcatVersion() - version:" + versionLine + " found version: " + result); } return result; } TomcatVersionValidator(); ValidationResult isTomcatVersionValid( String catalinaHomeDir, Map props, IStateAccess state); void initializeValidatorMap(); static String getTomcatVersion(String serverInfo); }	TomcatVersionValidator extends ValidatorBase implements IConstants, IConfigKeys { public static String getTomcatVersion(String serverInfo) { String result = null; if (serverInfo != null && !serverInfo.isEmpty()) { Debug.log("TomcatVersionValidator.getTomcatVersion() - validating ServerInfo:" + serverInfo); int currentIndex = serverInfo.indexOf(STR_APACHE_TOMCAT_SERVER_NUMBER); if (currentIndex == -1) { return null; } currentIndex += STR_APACHE_TOMCAT_SERVER_NUMBER.length(); int endIndex = serverInfo.indexOf('\n', currentIndex); if (endIndex == -1) { endIndex = serverInfo.length() - 1; } String versionLine = serverInfo.substring(currentIndex, endIndex).trim(); if (versionLine.startsWith("6.0")) { result = TOMCAT_VER_60; } else if (versionLine.startsWith("7.0")) { result = TOMCAT_VER_70; } else if (versionLine.startsWith("8.0")) { result = TOMCAT_VER_80; } else if (versionLine.startsWith("8.5")) { result = TOMCAT_VER_85; } Debug.log("TomcatVersionValidator.getTomcatVersion() - version:" + versionLine + " found version: " + result); } return result; } TomcatVersionValidator(); ValidationResult isTomcatVersionValid( String catalinaHomeDir, Map props, IStateAccess state); void initializeValidatorMap(); static String getTomcatVersion(String serverInfo); }
@Test public void expressionEvaluator_givenExpression_shoulReturnCorrectValue() { String expression = "./author/lower-case(.)"; ExpressionEvaluatorFactory<XdmItem> evaluatorFactory = xpathResolver.getExpressionEvaluatorFactory(); EvaluateExpression evaluateExpression = evaluatorFactory.apply(nodes.get(0)); assertThat(evaluateExpression.apply(expression).get(), is("giada de laurentiis")); }	@Override public ExpressionEvaluatorFactory<XdmItem> getExpressionEvaluatorFactory() { return entry -> expression -> { try { XPathSelector selector = xpath.compile(expression).load(); selector.setContextItem(entry); XdmValue value = selector.evaluate(); if (value.size() > 1) { List<String> results = new ArrayList<>(); value.forEach(i -> { String sValue = getItemStringValue(i, value); if (sValue != null) { results.add(sValue); } } ); return Optional.of(results); } else if (value.size() == 0) { return Optional.empty(); } XdmItem item = value.itemAt(0); return Optional.ofNullable(getItemStringValue(item, value)); } catch (SaxonApiException e) { throw new RuntimeException(String.format( "Error applying XPath expression [%s] to entry [%s]", entry, expression), e); } }; }	XPathResolver implements LogicalSourceResolver<XdmItem> { @Override public ExpressionEvaluatorFactory<XdmItem> getExpressionEvaluatorFactory() { return entry -> expression -> { try { XPathSelector selector = xpath.compile(expression).load(); selector.setContextItem(entry); XdmValue value = selector.evaluate(); if (value.size() > 1) { List<String> results = new ArrayList<>(); value.forEach(i -> { String sValue = getItemStringValue(i, value); if (sValue != null) { results.add(sValue); } } ); return Optional.of(results); } else if (value.size() == 0) { return Optional.empty(); } XdmItem item = value.itemAt(0); return Optional.ofNullable(getItemStringValue(item, value)); } catch (SaxonApiException e) { throw new RuntimeException(String.format( "Error applying XPath expression [%s] to entry [%s]", entry, expression), e); } }; } }	XPathResolver implements LogicalSourceResolver<XdmItem> { @Override public ExpressionEvaluatorFactory<XdmItem> getExpressionEvaluatorFactory() { return entry -> expression -> { try { XPathSelector selector = xpath.compile(expression).load(); selector.setContextItem(entry); XdmValue value = selector.evaluate(); if (value.size() > 1) { List<String> results = new ArrayList<>(); value.forEach(i -> { String sValue = getItemStringValue(i, value); if (sValue != null) { results.add(sValue); } } ); return Optional.of(results); } else if (value.size() == 0) { return Optional.empty(); } XdmItem item = value.itemAt(0); return Optional.ofNullable(getItemStringValue(item, value)); } catch (SaxonApiException e) { throw new RuntimeException(String.format( "Error applying XPath expression [%s] to entry [%s]", entry, expression), e); } }; } XPathResolver(); XPathResolver(boolean autoNodeTextExtraction); }	XPathResolver implements LogicalSourceResolver<XdmItem> { @Override public ExpressionEvaluatorFactory<XdmItem> getExpressionEvaluatorFactory() { return entry -> expression -> { try { XPathSelector selector = xpath.compile(expression).load(); selector.setContextItem(entry); XdmValue value = selector.evaluate(); if (value.size() > 1) { List<String> results = new ArrayList<>(); value.forEach(i -> { String sValue = getItemStringValue(i, value); if (sValue != null) { results.add(sValue); } } ); return Optional.of(results); } else if (value.size() == 0) { return Optional.empty(); } XdmItem item = value.itemAt(0); return Optional.ofNullable(getItemStringValue(item, value)); } catch (SaxonApiException e) { throw new RuntimeException(String.format( "Error applying XPath expression [%s] to entry [%s]", entry, expression), e); } }; } XPathResolver(); XPathResolver(boolean autoNodeTextExtraction); boolean autoExtractsNodeText(); @Override SourceIterator<XdmItem> getSourceIterator(); @Override ExpressionEvaluatorFactory<XdmItem> getExpressionEvaluatorFactory(); }	XPathResolver implements LogicalSourceResolver<XdmItem> { @Override public ExpressionEvaluatorFactory<XdmItem> getExpressionEvaluatorFactory() { return entry -> expression -> { try { XPathSelector selector = xpath.compile(expression).load(); selector.setContextItem(entry); XdmValue value = selector.evaluate(); if (value.size() > 1) { List<String> results = new ArrayList<>(); value.forEach(i -> { String sValue = getItemStringValue(i, value); if (sValue != null) { results.add(sValue); } } ); return Optional.of(results); } else if (value.size() == 0) { return Optional.empty(); } XdmItem item = value.itemAt(0); return Optional.ofNullable(getItemStringValue(item, value)); } catch (SaxonApiException e) { throw new RuntimeException(String.format( "Error applying XPath expression [%s] to entry [%s]", entry, expression), e); } }; } XPathResolver(); XPathResolver(boolean autoNodeTextExtraction); boolean autoExtractsNodeText(); @Override SourceIterator<XdmItem> getSourceIterator(); @Override ExpressionEvaluatorFactory<XdmItem> getExpressionEvaluatorFactory(); }
@Test public void addressLoader_givenAddressSelector_shouldLoadOneAddress() throws RDFParseException, UnsupportedRDFormatException, IOException { Set<PostalAddress> addresses = RdfObjectLoader.load(selectAddresses, PostalAddress.class, model); assertThat("1 address should be loaded", addresses.size(), is(1)); }	public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); }	RdfObjectLoader { public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); } }	RdfObjectLoader { public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); } private RdfObjectLoader(); }	RdfObjectLoader { public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); } private RdfObjectLoader(); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter, Consumer<MappingCache> populateCache, Consumer<Mapper> configureMapper ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter, Consumer<MappingCache> populateCache, Consumer<Mapper> configureMapper, Set<Namespace> namespaces ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, String sparqlQuery ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, String sparqlQuery, UnaryOperator<Model> modelAdapter ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, Resource... contexts ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, UnaryOperator<Model> modelAdapter, Resource... contexts ); }	RdfObjectLoader { public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); } private RdfObjectLoader(); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter, Consumer<MappingCache> populateCache, Consumer<Mapper> configureMapper ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter, Consumer<MappingCache> populateCache, Consumer<Mapper> configureMapper, Set<Namespace> namespaces ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, String sparqlQuery ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, String sparqlQuery, UnaryOperator<Model> modelAdapter ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, Resource... contexts ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, UnaryOperator<Model> modelAdapter, Resource... contexts ); }
@Test public void personLoader_givenAllResourcesSelector_shouldLoadEightPeople() throws RDFParseException, UnsupportedRDFormatException, IOException { Set<Person> people = RdfObjectLoader.load(selectAllResources, Person.class, model); assertThat("", people, hasSize(8)); }	public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); }	RdfObjectLoader { public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); } }	RdfObjectLoader { public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); } private RdfObjectLoader(); }	RdfObjectLoader { public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); } private RdfObjectLoader(); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter, Consumer<MappingCache> populateCache, Consumer<Mapper> configureMapper ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter, Consumer<MappingCache> populateCache, Consumer<Mapper> configureMapper, Set<Namespace> namespaces ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, String sparqlQuery ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, String sparqlQuery, UnaryOperator<Model> modelAdapter ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, Resource... contexts ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, UnaryOperator<Model> modelAdapter, Resource... contexts ); }	RdfObjectLoader { public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); } private RdfObjectLoader(); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter, Consumer<MappingCache> populateCache, Consumer<Mapper> configureMapper ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter, Consumer<MappingCache> populateCache, Consumer<Mapper> configureMapper, Set<Namespace> namespaces ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, String sparqlQuery ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, String sparqlQuery, UnaryOperator<Model> modelAdapter ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, Resource... contexts ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, UnaryOperator<Model> modelAdapter, Resource... contexts ); }
@Test public void repoLoader_givenContextAndPersonFilter_shouldNotLoadPersonStamentsInOtherContexts() { Set<Person> people = RdfObjectLoader.load( selectPersons, Person.class, repo, VF.createIRI(CONTEXT_C) ); assertThat("3 person resources should be created", people, hasSize(3)); }	public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); }	RdfObjectLoader { public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); } }	RdfObjectLoader { public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); } private RdfObjectLoader(); }	RdfObjectLoader { public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); } private RdfObjectLoader(); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter, Consumer<MappingCache> populateCache, Consumer<Mapper> configureMapper ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter, Consumer<MappingCache> populateCache, Consumer<Mapper> configureMapper, Set<Namespace> namespaces ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, String sparqlQuery ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, String sparqlQuery, UnaryOperator<Model> modelAdapter ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, Resource... contexts ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, UnaryOperator<Model> modelAdapter, Resource... contexts ); }	RdfObjectLoader { public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); } private RdfObjectLoader(); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter, Consumer<MappingCache> populateCache, Consumer<Mapper> configureMapper ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter, Consumer<MappingCache> populateCache, Consumer<Mapper> configureMapper, Set<Namespace> namespaces ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, String sparqlQuery ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, String sparqlQuery, UnaryOperator<Model> modelAdapter ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, Resource... contexts ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, UnaryOperator<Model> modelAdapter, Resource... contexts ); }
@Test public void repoLoader_givenQuery_shouldLoadStamentsCorrespondingToQuery() { String sparqlQuery = "" + "CONSTRUCT {" + " ?s <http: + " ?s <http: + "} " + "FROM NAMED <http: + "WHERE { " + " GRAPH ?g { " + " ?s <http: + " ?s <http: + " } " + "}"; Set<Person> people = RdfObjectLoader.load(selectAllResources, Person.class, repo, sparqlQuery); assertThat("1 person resource should be created", people, hasSize(1)); Person person = Iterables.getOnlyElement(people); assertThat("", person.getName(), is("Manu Sporny")); assertThat("", person.getGender(), is("male")); assertThat("", person.getJobTitle(), nullValue()); assertThat("", person.getTelephone(), nullValue()); assertThat("", person.getEmail(), nullValue()); assertThat("", person.getColleagues(), empty()); }	public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); }	RdfObjectLoader { public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); } }	RdfObjectLoader { public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); } private RdfObjectLoader(); }	RdfObjectLoader { public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); } private RdfObjectLoader(); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter, Consumer<MappingCache> populateCache, Consumer<Mapper> configureMapper ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter, Consumer<MappingCache> populateCache, Consumer<Mapper> configureMapper, Set<Namespace> namespaces ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, String sparqlQuery ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, String sparqlQuery, UnaryOperator<Model> modelAdapter ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, Resource... contexts ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, UnaryOperator<Model> modelAdapter, Resource... contexts ); }	RdfObjectLoader { public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); } private RdfObjectLoader(); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter, Consumer<MappingCache> populateCache, Consumer<Mapper> configureMapper ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter, Consumer<MappingCache> populateCache, Consumer<Mapper> configureMapper, Set<Namespace> namespaces ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, String sparqlQuery ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, String sparqlQuery, UnaryOperator<Model> modelAdapter ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, Resource... contexts ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, UnaryOperator<Model> modelAdapter, Resource... contexts ); }
@Test public void addressLoader_givenAddressSelectorAndUpperCaseAdapter_shouldLoadAddressWithUppercaseLiterals() throws RDFParseException, UnsupportedRDFormatException, IOException { Set<PostalAddress> addresses = RdfObjectLoader.load(selectAddresses, PostalAddress.class, model, uppercaser); PostalAddress address = Iterables.getOnlyElement(addresses); assertThat("", address.getStreetAddress(), is("1700 KRAFT DRIVE, SUITE 2408")); assertThat("", address.getAddressLocality(), is("BLACKSBURG")); assertThat("", address.getAddressRegion(), is("VA")); assertThat("", address.getPostalCode(), is("24060")); }	public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); }	RdfObjectLoader { public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); } }	RdfObjectLoader { public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); } private RdfObjectLoader(); }	RdfObjectLoader { public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); } private RdfObjectLoader(); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter, Consumer<MappingCache> populateCache, Consumer<Mapper> configureMapper ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter, Consumer<MappingCache> populateCache, Consumer<Mapper> configureMapper, Set<Namespace> namespaces ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, String sparqlQuery ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, String sparqlQuery, UnaryOperator<Model> modelAdapter ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, Resource... contexts ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, UnaryOperator<Model> modelAdapter, Resource... contexts ); }	RdfObjectLoader { public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); } private RdfObjectLoader(); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter, Consumer<MappingCache> populateCache, Consumer<Mapper> configureMapper ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter, Consumer<MappingCache> populateCache, Consumer<Mapper> configureMapper, Set<Namespace> namespaces ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, String sparqlQuery ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, String sparqlQuery, UnaryOperator<Model> modelAdapter ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, Resource... contexts ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, UnaryOperator<Model> modelAdapter, Resource... contexts ); }
@Test public void mapper_havingMethodWithMultiplePropertyAnnotations_MapsCorrectly() { prepareTest(); CarmlMapper mapper = new CarmlMapper(); Person manu = mapper.map(model, (Resource) VF.createIRI("http: ImmutableSet.of(Person.class)); Set<Person> acquaintances = manu.getKnows(); assertThat(acquaintances, hasSize(6)); }	@Override public <T> T map(Model model, Resource resource, Set<Type> types) { if (types.size() > 1) { if (!types.stream().allMatch(t -> ((Class<?>)t).isInterface())) { throw new IllegalStateException(String.format( "Error mapping %s. In case of multiple types, mapper requires all types to be interfaces", formatResourceForLog(model, resource, namespaces, true))); } } if (types.stream().allMatch(t -> ((Class<?>)t).isInterface())) { return doMultipleInterfaceMapping(model, resource, types); } else { return doSingleTypeConcreteClassMapping(model, resource, Iterables.getOnlyElement(types)); } }	CarmlMapper implements Mapper, MappingCache { @Override public <T> T map(Model model, Resource resource, Set<Type> types) { if (types.size() > 1) { if (!types.stream().allMatch(t -> ((Class<?>)t).isInterface())) { throw new IllegalStateException(String.format( "Error mapping %s. In case of multiple types, mapper requires all types to be interfaces", formatResourceForLog(model, resource, namespaces, true))); } } if (types.stream().allMatch(t -> ((Class<?>)t).isInterface())) { return doMultipleInterfaceMapping(model, resource, types); } else { return doSingleTypeConcreteClassMapping(model, resource, Iterables.getOnlyElement(types)); } } }	CarmlMapper implements Mapper, MappingCache { @Override public <T> T map(Model model, Resource resource, Set<Type> types) { if (types.size() > 1) { if (!types.stream().allMatch(t -> ((Class<?>)t).isInterface())) { throw new IllegalStateException(String.format( "Error mapping %s. In case of multiple types, mapper requires all types to be interfaces", formatResourceForLog(model, resource, namespaces, true))); } } if (types.stream().allMatch(t -> ((Class<?>)t).isInterface())) { return doMultipleInterfaceMapping(model, resource, types); } else { return doSingleTypeConcreteClassMapping(model, resource, Iterables.getOnlyElement(types)); } } CarmlMapper(); CarmlMapper(Set<Namespace> namespaces); }	CarmlMapper implements Mapper, MappingCache { @Override public <T> T map(Model model, Resource resource, Set<Type> types) { if (types.size() > 1) { if (!types.stream().allMatch(t -> ((Class<?>)t).isInterface())) { throw new IllegalStateException(String.format( "Error mapping %s. In case of multiple types, mapper requires all types to be interfaces", formatResourceForLog(model, resource, namespaces, true))); } } if (types.stream().allMatch(t -> ((Class<?>)t).isInterface())) { return doMultipleInterfaceMapping(model, resource, types); } else { return doSingleTypeConcreteClassMapping(model, resource, Iterables.getOnlyElement(types)); } } CarmlMapper(); CarmlMapper(Set<Namespace> namespaces); @Override T map(Model model, Resource resource, Set<Type> types); @Override Object getCachedMapping(Resource resource, Set<Type> targetType); @Override void addCachedMapping(Resource resource, Set<Type> targetType, Object value); @Override Type getDecidableType(IRI rdfType); @Override void addDecidableType(IRI rdfType, Type type); @Override void bindInterfaceImplementation(Type interfaze, Type implementation); @Override Type getInterfaceImplementation(Type interfaze); }	CarmlMapper implements Mapper, MappingCache { @Override public <T> T map(Model model, Resource resource, Set<Type> types) { if (types.size() > 1) { if (!types.stream().allMatch(t -> ((Class<?>)t).isInterface())) { throw new IllegalStateException(String.format( "Error mapping %s. In case of multiple types, mapper requires all types to be interfaces", formatResourceForLog(model, resource, namespaces, true))); } } if (types.stream().allMatch(t -> ((Class<?>)t).isInterface())) { return doMultipleInterfaceMapping(model, resource, types); } else { return doSingleTypeConcreteClassMapping(model, resource, Iterables.getOnlyElement(types)); } } CarmlMapper(); CarmlMapper(Set<Namespace> namespaces); @Override T map(Model model, Resource resource, Set<Type> types); @Override Object getCachedMapping(Resource resource, Set<Type> targetType); @Override void addCachedMapping(Resource resource, Set<Type> targetType, Object value); @Override Type getDecidableType(IRI rdfType); @Override void addDecidableType(IRI rdfType, Type type); @Override void bindInterfaceImplementation(Type interfaze, Type implementation); @Override Type getInterfaceImplementation(Type interfaze); }
@Test public void nfkcSafeMaker_givenNormalizableToken_encodesAsExpected() { String input = "StandaardGeluidsruimteDagInDb_a_M²"; String expected = "StandaardGeluidsruimteDagInDb_a_M2"; String actual = nfkcSafeMaker.apply(input); assertEquals(expected, actual); }	@Override public String apply(String s) { StringBuilder result = new StringBuilder(); s = Normalizer.normalize(s, normalizationForm); s.codePoints().flatMap(c -> { if ( Character.isAlphabetic(c) \|\| Character.isDigit(c) \|\| c == '-' \|\| c == '.' \|\| c == '_' \|\| c == '~' \|\| ranges.stream().anyMatch(r -> r.includes(c)) ) return IntStream.of(c); String hex = Integer.toHexString(c); hex = upperCaseHex ? hex.toUpperCase() : hex; return ("%" + hex).codePoints(); }) .forEach(c -> result.append((char) c)); return result.toString(); }	IriSafeMaker implements Function<String, String> { @Override public String apply(String s) { StringBuilder result = new StringBuilder(); s = Normalizer.normalize(s, normalizationForm); s.codePoints().flatMap(c -> { if ( Character.isAlphabetic(c) \|\| Character.isDigit(c) \|\| c == '-' \|\| c == '.' \|\| c == '_' \|\| c == '~' \|\| ranges.stream().anyMatch(r -> r.includes(c)) ) return IntStream.of(c); String hex = Integer.toHexString(c); hex = upperCaseHex ? hex.toUpperCase() : hex; return ("%" + hex).codePoints(); }) .forEach(c -> result.append((char) c)); return result.toString(); } }	IriSafeMaker implements Function<String, String> { @Override public String apply(String s) { StringBuilder result = new StringBuilder(); s = Normalizer.normalize(s, normalizationForm); s.codePoints().flatMap(c -> { if ( Character.isAlphabetic(c) \|\| Character.isDigit(c) \|\| c == '-' \|\| c == '.' \|\| c == '_' \|\| c == '~' \|\| ranges.stream().anyMatch(r -> r.includes(c)) ) return IntStream.of(c); String hex = Integer.toHexString(c); hex = upperCaseHex ? hex.toUpperCase() : hex; return ("%" + hex).codePoints(); }) .forEach(c -> result.append((char) c)); return result.toString(); } IriSafeMaker(List<Range> ranges, Form normalizationForm, boolean upperCaseHex); }	IriSafeMaker implements Function<String, String> { @Override public String apply(String s) { StringBuilder result = new StringBuilder(); s = Normalizer.normalize(s, normalizationForm); s.codePoints().flatMap(c -> { if ( Character.isAlphabetic(c) \|\| Character.isDigit(c) \|\| c == '-' \|\| c == '.' \|\| c == '_' \|\| c == '~' \|\| ranges.stream().anyMatch(r -> r.includes(c)) ) return IntStream.of(c); String hex = Integer.toHexString(c); hex = upperCaseHex ? hex.toUpperCase() : hex; return ("%" + hex).codePoints(); }) .forEach(c -> result.append((char) c)); return result.toString(); } IriSafeMaker(List<Range> ranges, Form normalizationForm, boolean upperCaseHex); static String makeSafe(String input, Form normalizationForm, boolean upperCaseHex); static IriSafeMaker create(Form normalizationForm, boolean upperCaseHex); static IriSafeMaker create(); @Override String apply(String s); }	IriSafeMaker implements Function<String, String> { @Override public String apply(String s) { StringBuilder result = new StringBuilder(); s = Normalizer.normalize(s, normalizationForm); s.codePoints().flatMap(c -> { if ( Character.isAlphabetic(c) \|\| Character.isDigit(c) \|\| c == '-' \|\| c == '.' \|\| c == '_' \|\| c == '~' \|\| ranges.stream().anyMatch(r -> r.includes(c)) ) return IntStream.of(c); String hex = Integer.toHexString(c); hex = upperCaseHex ? hex.toUpperCase() : hex; return ("%" + hex).codePoints(); }) .forEach(c -> result.append((char) c)); return result.toString(); } IriSafeMaker(List<Range> ranges, Form normalizationForm, boolean upperCaseHex); static String makeSafe(String input, Form normalizationForm, boolean upperCaseHex); static IriSafeMaker create(Form normalizationForm, boolean upperCaseHex); static IriSafeMaker create(); @Override String apply(String s); }
@Test public void getGenerator_withReferenceAndTemplate_throwsRuntimeException() throws Exception { TermGeneratorCreator tgc = new TermGeneratorCreator(null, "foo", null, TemplateParser.build(), null); RuntimeException exception = assertThrows(RuntimeException.class, () -> tgc.getObjectGenerator(new CarmlObjectMap("foo.bar", null, "foo{foo.bar}", TermType.LITERAL, null, null, null, null))); Assert.assertNotNull(exception); Assert.assertTrue(exception.getMessage().startsWith("2 value generators were created for term map")); }	@SuppressWarnings("unchecked") TermGenerator<Value> getObjectGenerator(ObjectMap map) { return (TermGenerator<Value>) getGenerator( map, ImmutableSet.of(TermType.IRI, TermType.BLANK_NODE, TermType.LITERAL), ImmutableSet.of(IRI.class, Literal.class) ); }	TermGeneratorCreator { @SuppressWarnings("unchecked") TermGenerator<Value> getObjectGenerator(ObjectMap map) { return (TermGenerator<Value>) getGenerator( map, ImmutableSet.of(TermType.IRI, TermType.BLANK_NODE, TermType.LITERAL), ImmutableSet.of(IRI.class, Literal.class) ); } }	TermGeneratorCreator { @SuppressWarnings("unchecked") TermGenerator<Value> getObjectGenerator(ObjectMap map) { return (TermGenerator<Value>) getGenerator( map, ImmutableSet.of(TermType.IRI, TermType.BLANK_NODE, TermType.LITERAL), ImmutableSet.of(IRI.class, Literal.class) ); } TermGeneratorCreator( ValueFactory valueFactory, String baseIri, Function<String, String> makeIriSafe, TemplateParser templateParser, RmlMapper mapper ); }	TermGeneratorCreator { @SuppressWarnings("unchecked") TermGenerator<Value> getObjectGenerator(ObjectMap map) { return (TermGenerator<Value>) getGenerator( map, ImmutableSet.of(TermType.IRI, TermType.BLANK_NODE, TermType.LITERAL), ImmutableSet.of(IRI.class, Literal.class) ); } TermGeneratorCreator( ValueFactory valueFactory, String baseIri, Function<String, String> makeIriSafe, TemplateParser templateParser, RmlMapper mapper ); }	TermGeneratorCreator { @SuppressWarnings("unchecked") TermGenerator<Value> getObjectGenerator(ObjectMap map) { return (TermGenerator<Value>) getGenerator( map, ImmutableSet.of(TermType.IRI, TermType.BLANK_NODE, TermType.LITERAL), ImmutableSet.of(IRI.class, Literal.class) ); } TermGeneratorCreator( ValueFactory valueFactory, String baseIri, Function<String, String> makeIriSafe, TemplateParser templateParser, RmlMapper mapper ); }
@Test public void IriTermGenerator_withRelativeIRI_usesBaseIRI() throws Exception { ValueFactory f = SimpleValueFactory.getInstance(); String baseIri = "http: TermGeneratorCreator tgc = new TermGeneratorCreator(f, baseIri, null, TemplateParser.build(), null); String ref = "ref"; TermGenerator<Value> generator = tgc.getObjectGenerator(new CarmlObjectMap(ref, null, null, TermType.IRI, null, null, null, null)); String relativeIriPart = "/relativeIriPortion"; EvaluateExpression evaluator = Mockito.mock(EvaluateExpression.class); when(evaluator.apply(ref)).thenReturn(Optional.of(relativeIriPart)); List<Value> result = generator.apply(evaluator); Assert.assertTrue(!result.isEmpty()); Assert.assertTrue(result.get(0) instanceof IRI); Assert.assertEquals(result.get(0), f.createIRI(baseIri + relativeIriPart)); }	@SuppressWarnings("unchecked") TermGenerator<Value> getObjectGenerator(ObjectMap map) { return (TermGenerator<Value>) getGenerator( map, ImmutableSet.of(TermType.IRI, TermType.BLANK_NODE, TermType.LITERAL), ImmutableSet.of(IRI.class, Literal.class) ); }	TermGeneratorCreator { @SuppressWarnings("unchecked") TermGenerator<Value> getObjectGenerator(ObjectMap map) { return (TermGenerator<Value>) getGenerator( map, ImmutableSet.of(TermType.IRI, TermType.BLANK_NODE, TermType.LITERAL), ImmutableSet.of(IRI.class, Literal.class) ); } }	TermGeneratorCreator { @SuppressWarnings("unchecked") TermGenerator<Value> getObjectGenerator(ObjectMap map) { return (TermGenerator<Value>) getGenerator( map, ImmutableSet.of(TermType.IRI, TermType.BLANK_NODE, TermType.LITERAL), ImmutableSet.of(IRI.class, Literal.class) ); } TermGeneratorCreator( ValueFactory valueFactory, String baseIri, Function<String, String> makeIriSafe, TemplateParser templateParser, RmlMapper mapper ); }	TermGeneratorCreator { @SuppressWarnings("unchecked") TermGenerator<Value> getObjectGenerator(ObjectMap map) { return (TermGenerator<Value>) getGenerator( map, ImmutableSet.of(TermType.IRI, TermType.BLANK_NODE, TermType.LITERAL), ImmutableSet.of(IRI.class, Literal.class) ); } TermGeneratorCreator( ValueFactory valueFactory, String baseIri, Function<String, String> makeIriSafe, TemplateParser templateParser, RmlMapper mapper ); }	TermGeneratorCreator { @SuppressWarnings("unchecked") TermGenerator<Value> getObjectGenerator(ObjectMap map) { return (TermGenerator<Value>) getGenerator( map, ImmutableSet.of(TermType.IRI, TermType.BLANK_NODE, TermType.LITERAL), ImmutableSet.of(IRI.class, Literal.class) ); } TermGeneratorCreator( ValueFactory valueFactory, String baseIri, Function<String, String> makeIriSafe, TemplateParser templateParser, RmlMapper mapper ); }
@Test public void IriTermGenerator_withAbsoluteIRI_usesBaseIRI() throws Exception { ValueFactory f = SimpleValueFactory.getInstance(); String baseIri = "http: TermGeneratorCreator tgc = new TermGeneratorCreator(f, baseIri, null, TemplateParser.build(), null); String ref = "ref"; TermGenerator<Value> generator = tgc.getObjectGenerator(new CarmlObjectMap(ref, null, null, TermType.IRI, null, null, null, null)); String absoluteIri = "http: EvaluateExpression evaluator = Mockito.mock(EvaluateExpression.class); when(evaluator.apply(ref)).thenReturn(Optional.of(absoluteIri)); List<Value> result = generator.apply(evaluator); Assert.assertTrue(!result.isEmpty()); Assert.assertTrue(result.get(0) instanceof IRI); Assert.assertEquals(result.get(0), f.createIRI(absoluteIri)); }	@SuppressWarnings("unchecked") TermGenerator<Value> getObjectGenerator(ObjectMap map) { return (TermGenerator<Value>) getGenerator( map, ImmutableSet.of(TermType.IRI, TermType.BLANK_NODE, TermType.LITERAL), ImmutableSet.of(IRI.class, Literal.class) ); }	TermGeneratorCreator { @SuppressWarnings("unchecked") TermGenerator<Value> getObjectGenerator(ObjectMap map) { return (TermGenerator<Value>) getGenerator( map, ImmutableSet.of(TermType.IRI, TermType.BLANK_NODE, TermType.LITERAL), ImmutableSet.of(IRI.class, Literal.class) ); } }	TermGeneratorCreator { @SuppressWarnings("unchecked") TermGenerator<Value> getObjectGenerator(ObjectMap map) { return (TermGenerator<Value>) getGenerator( map, ImmutableSet.of(TermType.IRI, TermType.BLANK_NODE, TermType.LITERAL), ImmutableSet.of(IRI.class, Literal.class) ); } TermGeneratorCreator( ValueFactory valueFactory, String baseIri, Function<String, String> makeIriSafe, TemplateParser templateParser, RmlMapper mapper ); }	TermGeneratorCreator { @SuppressWarnings("unchecked") TermGenerator<Value> getObjectGenerator(ObjectMap map) { return (TermGenerator<Value>) getGenerator( map, ImmutableSet.of(TermType.IRI, TermType.BLANK_NODE, TermType.LITERAL), ImmutableSet.of(IRI.class, Literal.class) ); } TermGeneratorCreator( ValueFactory valueFactory, String baseIri, Function<String, String> makeIriSafe, TemplateParser templateParser, RmlMapper mapper ); }	TermGeneratorCreator { @SuppressWarnings("unchecked") TermGenerator<Value> getObjectGenerator(ObjectMap map) { return (TermGenerator<Value>) getGenerator( map, ImmutableSet.of(TermType.IRI, TermType.BLANK_NODE, TermType.LITERAL), ImmutableSet.of(IRI.class, Literal.class) ); } TermGeneratorCreator( ValueFactory valueFactory, String baseIri, Function<String, String> makeIriSafe, TemplateParser templateParser, RmlMapper mapper ); }
@Test public void expressionEvaluatorWithoutAutoTextExtraction_givenExpression_shoulReturnCorrectValue() { String expression = "./author"; ExpressionEvaluatorFactory<XdmItem> evaluatorFactory = xpathResolver.getExpressionEvaluatorFactory(); EvaluateExpression evaluateExpression = evaluatorFactory.apply(nodes.get(0)); assertThat(evaluateExpression.apply(expression).get(), is("Giada De Laurentiis")); boolean autoExtractNodeText = false; xpathResolver = new XPathResolver(autoExtractNodeText); nodeIterator = xpathResolver.bindSource(LSOURCE, sourceResolver).get(); evaluatorFactory = xpathResolver.getExpressionEvaluatorFactory(); nodes = Lists.newArrayList(nodeIterator); evaluateExpression = evaluatorFactory.apply(nodes.get(0)); assertThat(evaluateExpression.apply(expression).get(), is("<author>Giada De Laurentiis</author>")); }	@Override public ExpressionEvaluatorFactory<XdmItem> getExpressionEvaluatorFactory() { return entry -> expression -> { try { XPathSelector selector = xpath.compile(expression).load(); selector.setContextItem(entry); XdmValue value = selector.evaluate(); if (value.size() > 1) { List<String> results = new ArrayList<>(); value.forEach(i -> { String sValue = getItemStringValue(i, value); if (sValue != null) { results.add(sValue); } } ); return Optional.of(results); } else if (value.size() == 0) { return Optional.empty(); } XdmItem item = value.itemAt(0); return Optional.ofNullable(getItemStringValue(item, value)); } catch (SaxonApiException e) { throw new RuntimeException(String.format( "Error applying XPath expression [%s] to entry [%s]", entry, expression), e); } }; }	XPathResolver implements LogicalSourceResolver<XdmItem> { @Override public ExpressionEvaluatorFactory<XdmItem> getExpressionEvaluatorFactory() { return entry -> expression -> { try { XPathSelector selector = xpath.compile(expression).load(); selector.setContextItem(entry); XdmValue value = selector.evaluate(); if (value.size() > 1) { List<String> results = new ArrayList<>(); value.forEach(i -> { String sValue = getItemStringValue(i, value); if (sValue != null) { results.add(sValue); } } ); return Optional.of(results); } else if (value.size() == 0) { return Optional.empty(); } XdmItem item = value.itemAt(0); return Optional.ofNullable(getItemStringValue(item, value)); } catch (SaxonApiException e) { throw new RuntimeException(String.format( "Error applying XPath expression [%s] to entry [%s]", entry, expression), e); } }; } }	XPathResolver implements LogicalSourceResolver<XdmItem> { @Override public ExpressionEvaluatorFactory<XdmItem> getExpressionEvaluatorFactory() { return entry -> expression -> { try { XPathSelector selector = xpath.compile(expression).load(); selector.setContextItem(entry); XdmValue value = selector.evaluate(); if (value.size() > 1) { List<String> results = new ArrayList<>(); value.forEach(i -> { String sValue = getItemStringValue(i, value); if (sValue != null) { results.add(sValue); } } ); return Optional.of(results); } else if (value.size() == 0) { return Optional.empty(); } XdmItem item = value.itemAt(0); return Optional.ofNullable(getItemStringValue(item, value)); } catch (SaxonApiException e) { throw new RuntimeException(String.format( "Error applying XPath expression [%s] to entry [%s]", entry, expression), e); } }; } XPathResolver(); XPathResolver(boolean autoNodeTextExtraction); }	XPathResolver implements LogicalSourceResolver<XdmItem> { @Override public ExpressionEvaluatorFactory<XdmItem> getExpressionEvaluatorFactory() { return entry -> expression -> { try { XPathSelector selector = xpath.compile(expression).load(); selector.setContextItem(entry); XdmValue value = selector.evaluate(); if (value.size() > 1) { List<String> results = new ArrayList<>(); value.forEach(i -> { String sValue = getItemStringValue(i, value); if (sValue != null) { results.add(sValue); } } ); return Optional.of(results); } else if (value.size() == 0) { return Optional.empty(); } XdmItem item = value.itemAt(0); return Optional.ofNullable(getItemStringValue(item, value)); } catch (SaxonApiException e) { throw new RuntimeException(String.format( "Error applying XPath expression [%s] to entry [%s]", entry, expression), e); } }; } XPathResolver(); XPathResolver(boolean autoNodeTextExtraction); boolean autoExtractsNodeText(); @Override SourceIterator<XdmItem> getSourceIterator(); @Override ExpressionEvaluatorFactory<XdmItem> getExpressionEvaluatorFactory(); }	XPathResolver implements LogicalSourceResolver<XdmItem> { @Override public ExpressionEvaluatorFactory<XdmItem> getExpressionEvaluatorFactory() { return entry -> expression -> { try { XPathSelector selector = xpath.compile(expression).load(); selector.setContextItem(entry); XdmValue value = selector.evaluate(); if (value.size() > 1) { List<String> results = new ArrayList<>(); value.forEach(i -> { String sValue = getItemStringValue(i, value); if (sValue != null) { results.add(sValue); } } ); return Optional.of(results); } else if (value.size() == 0) { return Optional.empty(); } XdmItem item = value.itemAt(0); return Optional.ofNullable(getItemStringValue(item, value)); } catch (SaxonApiException e) { throw new RuntimeException(String.format( "Error applying XPath expression [%s] to entry [%s]", entry, expression), e); } }; } XPathResolver(); XPathResolver(boolean autoNodeTextExtraction); boolean autoExtractsNodeText(); @Override SourceIterator<XdmItem> getSourceIterator(); @Override ExpressionEvaluatorFactory<XdmItem> getExpressionEvaluatorFactory(); }
@Test public void IriTermGenerator_withFaultyIRI_throwsException() throws Exception { ValueFactory f = SimpleValueFactory.getInstance(); String baseIri = "?"; TermGeneratorCreator tgc = new TermGeneratorCreator(f, baseIri, null, TemplateParser.build(), null); String ref = "ref"; TermGenerator<Value> generator = tgc.getObjectGenerator(new CarmlObjectMap(ref, null, null, TermType.IRI, null, null, null, null)); String relativeIriPart = "/relativeIriPortion"; EvaluateExpression evaluator = Mockito.mock(EvaluateExpression.class); when(evaluator.apply(ref)).thenReturn(Optional.of(relativeIriPart)); RuntimeException exception = null; try { generator.apply(evaluator); Assert.assertTrue("This code should be unreachable", false); } catch (RuntimeException e) { exception = e; } Assert.assertNotNull(exception); Assert.assertTrue(exception.getMessage().startsWith("Could not generate a valid iri")); }	@SuppressWarnings("unchecked") TermGenerator<Value> getObjectGenerator(ObjectMap map) { return (TermGenerator<Value>) getGenerator( map, ImmutableSet.of(TermType.IRI, TermType.BLANK_NODE, TermType.LITERAL), ImmutableSet.of(IRI.class, Literal.class) ); }	TermGeneratorCreator { @SuppressWarnings("unchecked") TermGenerator<Value> getObjectGenerator(ObjectMap map) { return (TermGenerator<Value>) getGenerator( map, ImmutableSet.of(TermType.IRI, TermType.BLANK_NODE, TermType.LITERAL), ImmutableSet.of(IRI.class, Literal.class) ); } }	TermGeneratorCreator { @SuppressWarnings("unchecked") TermGenerator<Value> getObjectGenerator(ObjectMap map) { return (TermGenerator<Value>) getGenerator( map, ImmutableSet.of(TermType.IRI, TermType.BLANK_NODE, TermType.LITERAL), ImmutableSet.of(IRI.class, Literal.class) ); } TermGeneratorCreator( ValueFactory valueFactory, String baseIri, Function<String, String> makeIriSafe, TemplateParser templateParser, RmlMapper mapper ); }	TermGeneratorCreator { @SuppressWarnings("unchecked") TermGenerator<Value> getObjectGenerator(ObjectMap map) { return (TermGenerator<Value>) getGenerator( map, ImmutableSet.of(TermType.IRI, TermType.BLANK_NODE, TermType.LITERAL), ImmutableSet.of(IRI.class, Literal.class) ); } TermGeneratorCreator( ValueFactory valueFactory, String baseIri, Function<String, String> makeIriSafe, TemplateParser templateParser, RmlMapper mapper ); }	TermGeneratorCreator { @SuppressWarnings("unchecked") TermGenerator<Value> getObjectGenerator(ObjectMap map) { return (TermGenerator<Value>) getGenerator( map, ImmutableSet.of(TermType.IRI, TermType.BLANK_NODE, TermType.LITERAL), ImmutableSet.of(IRI.class, Literal.class) ); } TermGeneratorCreator( ValueFactory valueFactory, String baseIri, Function<String, String> makeIriSafe, TemplateParser templateParser, RmlMapper mapper ); }
@Test public void parentTriplesMapper_givenJoinConditions() { when(getIterator.get()).thenReturn(ImmutableList.of(entry)); when(expressionEvaluatorFactory.apply(entry)).thenReturn(evaluate); when(subjectGenerator.apply(evaluate)).thenReturn(ImmutableList.of(SKOS.CONCEPT)); ParentTriplesMapper<Object> mapper = new ParentTriplesMapper<>(subjectGenerator, getIterator, expressionEvaluatorFactory); Set<Resource> resources = mapper.map(joinValues); assertThat(resources.size(), is(1)); assertThat(SKOS.CONCEPT, is(in(resources))); }	Set<Resource> map(Set<Pair<String, Object>> joinValues) { if (joinValues.isEmpty()) { return ImmutableSet.of(); } Set<Resource> results = new LinkedHashSet<>(); getIterator.get().forEach(e -> map(e, joinValues) .forEach(results::add)); return results; }	ParentTriplesMapper { Set<Resource> map(Set<Pair<String, Object>> joinValues) { if (joinValues.isEmpty()) { return ImmutableSet.of(); } Set<Resource> results = new LinkedHashSet<>(); getIterator.get().forEach(e -> map(e, joinValues) .forEach(results::add)); return results; } }	ParentTriplesMapper { Set<Resource> map(Set<Pair<String, Object>> joinValues) { if (joinValues.isEmpty()) { return ImmutableSet.of(); } Set<Resource> results = new LinkedHashSet<>(); getIterator.get().forEach(e -> map(e, joinValues) .forEach(results::add)); return results; } ParentTriplesMapper( TermGenerator<Resource> subjectGenerator, TriplesMapperComponents<T> trMapperComponents ); ParentTriplesMapper( TermGenerator<Resource> subjectGenerator, Supplier<Iterable<T>> getIterator, LogicalSourceResolver.ExpressionEvaluatorFactory<T> expressionEvaluatorFactory ); }	ParentTriplesMapper { Set<Resource> map(Set<Pair<String, Object>> joinValues) { if (joinValues.isEmpty()) { return ImmutableSet.of(); } Set<Resource> results = new LinkedHashSet<>(); getIterator.get().forEach(e -> map(e, joinValues) .forEach(results::add)); return results; } ParentTriplesMapper( TermGenerator<Resource> subjectGenerator, TriplesMapperComponents<T> trMapperComponents ); ParentTriplesMapper( TermGenerator<Resource> subjectGenerator, Supplier<Iterable<T>> getIterator, LogicalSourceResolver.ExpressionEvaluatorFactory<T> expressionEvaluatorFactory ); }	ParentTriplesMapper { Set<Resource> map(Set<Pair<String, Object>> joinValues) { if (joinValues.isEmpty()) { return ImmutableSet.of(); } Set<Resource> results = new LinkedHashSet<>(); getIterator.get().forEach(e -> map(e, joinValues) .forEach(results::add)); return results; } ParentTriplesMapper( TermGenerator<Resource> subjectGenerator, TriplesMapperComponents<T> trMapperComponents ); ParentTriplesMapper( TermGenerator<Resource> subjectGenerator, Supplier<Iterable<T>> getIterator, LogicalSourceResolver.ExpressionEvaluatorFactory<T> expressionEvaluatorFactory ); }
@Test public void parentTriplesMapper_givenMultiJoinWithNullValues_ShouldStillResolveJoin() { when(getIterator.get()).thenReturn(ImmutableList.of(entry)); when(expressionEvaluatorFactory.apply(entry)).thenReturn(evaluate); when(subjectGenerator.apply(evaluate)).thenReturn(ImmutableList.of(SKOS.CONCEPT)); ParentTriplesMapper<Object> mapper = new ParentTriplesMapper<>(subjectGenerator, getIterator, expressionEvaluatorFactory); Set<Resource> resources = mapper.map(multiJoinValues); assertThat(resources.size(), is(1)); assertThat(SKOS.CONCEPT, is(in(resources))); }	Set<Resource> map(Set<Pair<String, Object>> joinValues) { if (joinValues.isEmpty()) { return ImmutableSet.of(); } Set<Resource> results = new LinkedHashSet<>(); getIterator.get().forEach(e -> map(e, joinValues) .forEach(results::add)); return results; }	ParentTriplesMapper { Set<Resource> map(Set<Pair<String, Object>> joinValues) { if (joinValues.isEmpty()) { return ImmutableSet.of(); } Set<Resource> results = new LinkedHashSet<>(); getIterator.get().forEach(e -> map(e, joinValues) .forEach(results::add)); return results; } }	ParentTriplesMapper { Set<Resource> map(Set<Pair<String, Object>> joinValues) { if (joinValues.isEmpty()) { return ImmutableSet.of(); } Set<Resource> results = new LinkedHashSet<>(); getIterator.get().forEach(e -> map(e, joinValues) .forEach(results::add)); return results; } ParentTriplesMapper( TermGenerator<Resource> subjectGenerator, TriplesMapperComponents<T> trMapperComponents ); ParentTriplesMapper( TermGenerator<Resource> subjectGenerator, Supplier<Iterable<T>> getIterator, LogicalSourceResolver.ExpressionEvaluatorFactory<T> expressionEvaluatorFactory ); }	ParentTriplesMapper { Set<Resource> map(Set<Pair<String, Object>> joinValues) { if (joinValues.isEmpty()) { return ImmutableSet.of(); } Set<Resource> results = new LinkedHashSet<>(); getIterator.get().forEach(e -> map(e, joinValues) .forEach(results::add)); return results; } ParentTriplesMapper( TermGenerator<Resource> subjectGenerator, TriplesMapperComponents<T> trMapperComponents ); ParentTriplesMapper( TermGenerator<Resource> subjectGenerator, Supplier<Iterable<T>> getIterator, LogicalSourceResolver.ExpressionEvaluatorFactory<T> expressionEvaluatorFactory ); }	ParentTriplesMapper { Set<Resource> map(Set<Pair<String, Object>> joinValues) { if (joinValues.isEmpty()) { return ImmutableSet.of(); } Set<Resource> results = new LinkedHashSet<>(); getIterator.get().forEach(e -> map(e, joinValues) .forEach(results::add)); return results; } ParentTriplesMapper( TermGenerator<Resource> subjectGenerator, TriplesMapperComponents<T> trMapperComponents ); ParentTriplesMapper( TermGenerator<Resource> subjectGenerator, Supplier<Iterable<T>> getIterator, LogicalSourceResolver.ExpressionEvaluatorFactory<T> expressionEvaluatorFactory ); }
@Test public void mapper_notFindingBoundUnnamedInputStream_shouldThrowException() { RmlMappingLoader loader = RmlMappingLoader.build(); InputStream input = RmlMapperTest.class.getResourceAsStream("simple.carml.rml.ttl"); RuntimeException exception = assertThrows(RuntimeException.class, () -> mapper.map(loader.load(RDFFormat.TURTLE, input))); assertThat(exception.getMessage(), is("attempting to get source, but no binding was present")); }	public Model map(Set<TriplesMap> mapping) { validateMapping(mapping); Model model = new LinkedHashModel(); Set<TriplesMap> functionValueTriplesMaps = getTermMaps(mapping) .filter(t -> t.getFunctionValue() != null) .map(TermMap::getFunctionValue) .collect(ImmutableCollectors.toImmutableSet()); if(LOG.isWarnEnabled()) { boolean deprecatedFno = functionValueTriplesMaps.stream() .flatMap(triplesMap -> triplesMap.getPredicateObjectMaps().stream()) .flatMap(pom -> pom.getPredicateMaps().stream()) .anyMatch(predicateMap -> predicateMap.getConstant().equals(Rdf.Fno.old_executes)); if (deprecatedFno) { LOG.warn("Usage of deprecated predicate <{}> encountered. Support in next release is not guaranteed. Upgrade to <{}>.", Rdf.Fno.old_executes, Rdf.Fno.executes); } } Set<TriplesMap> refObjectTriplesMaps = getAllTriplesMapsUsedInRefObjectMap(mapping); mapping.stream() .filter(m -> !functionValueTriplesMaps.contains(m) \|\| refObjectTriplesMaps.contains(m)) .forEach(m -> map(m, model)); this.sourceManager.clear(); return model; }	RmlMapper { public Model map(Set<TriplesMap> mapping) { validateMapping(mapping); Model model = new LinkedHashModel(); Set<TriplesMap> functionValueTriplesMaps = getTermMaps(mapping) .filter(t -> t.getFunctionValue() != null) .map(TermMap::getFunctionValue) .collect(ImmutableCollectors.toImmutableSet()); if(LOG.isWarnEnabled()) { boolean deprecatedFno = functionValueTriplesMaps.stream() .flatMap(triplesMap -> triplesMap.getPredicateObjectMaps().stream()) .flatMap(pom -> pom.getPredicateMaps().stream()) .anyMatch(predicateMap -> predicateMap.getConstant().equals(Rdf.Fno.old_executes)); if (deprecatedFno) { LOG.warn("Usage of deprecated predicate <{}> encountered. Support in next release is not guaranteed. Upgrade to <{}>.", Rdf.Fno.old_executes, Rdf.Fno.executes); } } Set<TriplesMap> refObjectTriplesMaps = getAllTriplesMapsUsedInRefObjectMap(mapping); mapping.stream() .filter(m -> !functionValueTriplesMaps.contains(m) \|\| refObjectTriplesMaps.contains(m)) .forEach(m -> map(m, model)); this.sourceManager.clear(); return model; } }	RmlMapper { public Model map(Set<TriplesMap> mapping) { validateMapping(mapping); Model model = new LinkedHashModel(); Set<TriplesMap> functionValueTriplesMaps = getTermMaps(mapping) .filter(t -> t.getFunctionValue() != null) .map(TermMap::getFunctionValue) .collect(ImmutableCollectors.toImmutableSet()); if(LOG.isWarnEnabled()) { boolean deprecatedFno = functionValueTriplesMaps.stream() .flatMap(triplesMap -> triplesMap.getPredicateObjectMaps().stream()) .flatMap(pom -> pom.getPredicateMaps().stream()) .anyMatch(predicateMap -> predicateMap.getConstant().equals(Rdf.Fno.old_executes)); if (deprecatedFno) { LOG.warn("Usage of deprecated predicate <{}> encountered. Support in next release is not guaranteed. Upgrade to <{}>.", Rdf.Fno.old_executes, Rdf.Fno.executes); } } Set<TriplesMap> refObjectTriplesMaps = getAllTriplesMapsUsedInRefObjectMap(mapping); mapping.stream() .filter(m -> !functionValueTriplesMaps.contains(m) \|\| refObjectTriplesMaps.contains(m)) .forEach(m -> map(m, model)); this.sourceManager.clear(); return model; } private RmlMapper( Function<Object, String> sourceResolver, Map<IRI, LogicalSourceResolver<?>> logicalSourceResolvers, Functions functions, Form normalizationForm, boolean iriUpperCasePercentEncoding ); }	RmlMapper { public Model map(Set<TriplesMap> mapping) { validateMapping(mapping); Model model = new LinkedHashModel(); Set<TriplesMap> functionValueTriplesMaps = getTermMaps(mapping) .filter(t -> t.getFunctionValue() != null) .map(TermMap::getFunctionValue) .collect(ImmutableCollectors.toImmutableSet()); if(LOG.isWarnEnabled()) { boolean deprecatedFno = functionValueTriplesMaps.stream() .flatMap(triplesMap -> triplesMap.getPredicateObjectMaps().stream()) .flatMap(pom -> pom.getPredicateMaps().stream()) .anyMatch(predicateMap -> predicateMap.getConstant().equals(Rdf.Fno.old_executes)); if (deprecatedFno) { LOG.warn("Usage of deprecated predicate <{}> encountered. Support in next release is not guaranteed. Upgrade to <{}>.", Rdf.Fno.old_executes, Rdf.Fno.executes); } } Set<TriplesMap> refObjectTriplesMaps = getAllTriplesMapsUsedInRefObjectMap(mapping); mapping.stream() .filter(m -> !functionValueTriplesMaps.contains(m) \|\| refObjectTriplesMaps.contains(m)) .forEach(m -> map(m, model)); this.sourceManager.clear(); return model; } private RmlMapper( Function<Object, String> sourceResolver, Map<IRI, LogicalSourceResolver<?>> logicalSourceResolvers, Functions functions, Form normalizationForm, boolean iriUpperCasePercentEncoding ); static Builder newBuilder(); Form getNormalizationForm(); boolean getIriUpperCasePercentEncoding(); LogicalSourceManager getSourceManager(); Optional<ExecuteFunction> getFunction(IRI iri); Model map(Set<TriplesMap> mapping); void bindInputStream(InputStream inputStream); void bindInputStream(String name, InputStream inputStream); }	RmlMapper { public Model map(Set<TriplesMap> mapping) { validateMapping(mapping); Model model = new LinkedHashModel(); Set<TriplesMap> functionValueTriplesMaps = getTermMaps(mapping) .filter(t -> t.getFunctionValue() != null) .map(TermMap::getFunctionValue) .collect(ImmutableCollectors.toImmutableSet()); if(LOG.isWarnEnabled()) { boolean deprecatedFno = functionValueTriplesMaps.stream() .flatMap(triplesMap -> triplesMap.getPredicateObjectMaps().stream()) .flatMap(pom -> pom.getPredicateMaps().stream()) .anyMatch(predicateMap -> predicateMap.getConstant().equals(Rdf.Fno.old_executes)); if (deprecatedFno) { LOG.warn("Usage of deprecated predicate <{}> encountered. Support in next release is not guaranteed. Upgrade to <{}>.", Rdf.Fno.old_executes, Rdf.Fno.executes); } } Set<TriplesMap> refObjectTriplesMaps = getAllTriplesMapsUsedInRefObjectMap(mapping); mapping.stream() .filter(m -> !functionValueTriplesMaps.contains(m) \|\| refObjectTriplesMaps.contains(m)) .forEach(m -> map(m, model)); this.sourceManager.clear(); return model; } private RmlMapper( Function<Object, String> sourceResolver, Map<IRI, LogicalSourceResolver<?>> logicalSourceResolvers, Functions functions, Form normalizationForm, boolean iriUpperCasePercentEncoding ); static Builder newBuilder(); Form getNormalizationForm(); boolean getIriUpperCasePercentEncoding(); LogicalSourceManager getSourceManager(); Optional<ExecuteFunction> getFunction(IRI iri); Model map(Set<TriplesMap> mapping); void bindInputStream(InputStream inputStream); void bindInputStream(String name, InputStream inputStream); }
@Test public void mapper_notFindingBoundNamedInputStreams_shouldThrowException() { String streamName = "foo"; RmlMappingLoader loader = RmlMappingLoader.build(); InputStream input = RmlMapperTest.class.getResourceAsStream("simple.namedcarml.rml.ttl"); RuntimeException exception = assertThrows(RuntimeException.class, () -> mapper.map(loader.load(RDFFormat.TURTLE, input))); assertThat(exception.getMessage(), is(String.format("attempting to get source by " + "name [%s], but no such binding is present", streamName))); }	public Model map(Set<TriplesMap> mapping) { validateMapping(mapping); Model model = new LinkedHashModel(); Set<TriplesMap> functionValueTriplesMaps = getTermMaps(mapping) .filter(t -> t.getFunctionValue() != null) .map(TermMap::getFunctionValue) .collect(ImmutableCollectors.toImmutableSet()); if(LOG.isWarnEnabled()) { boolean deprecatedFno = functionValueTriplesMaps.stream() .flatMap(triplesMap -> triplesMap.getPredicateObjectMaps().stream()) .flatMap(pom -> pom.getPredicateMaps().stream()) .anyMatch(predicateMap -> predicateMap.getConstant().equals(Rdf.Fno.old_executes)); if (deprecatedFno) { LOG.warn("Usage of deprecated predicate <{}> encountered. Support in next release is not guaranteed. Upgrade to <{}>.", Rdf.Fno.old_executes, Rdf.Fno.executes); } } Set<TriplesMap> refObjectTriplesMaps = getAllTriplesMapsUsedInRefObjectMap(mapping); mapping.stream() .filter(m -> !functionValueTriplesMaps.contains(m) \|\| refObjectTriplesMaps.contains(m)) .forEach(m -> map(m, model)); this.sourceManager.clear(); return model; }	RmlMapper { public Model map(Set<TriplesMap> mapping) { validateMapping(mapping); Model model = new LinkedHashModel(); Set<TriplesMap> functionValueTriplesMaps = getTermMaps(mapping) .filter(t -> t.getFunctionValue() != null) .map(TermMap::getFunctionValue) .collect(ImmutableCollectors.toImmutableSet()); if(LOG.isWarnEnabled()) { boolean deprecatedFno = functionValueTriplesMaps.stream() .flatMap(triplesMap -> triplesMap.getPredicateObjectMaps().stream()) .flatMap(pom -> pom.getPredicateMaps().stream()) .anyMatch(predicateMap -> predicateMap.getConstant().equals(Rdf.Fno.old_executes)); if (deprecatedFno) { LOG.warn("Usage of deprecated predicate <{}> encountered. Support in next release is not guaranteed. Upgrade to <{}>.", Rdf.Fno.old_executes, Rdf.Fno.executes); } } Set<TriplesMap> refObjectTriplesMaps = getAllTriplesMapsUsedInRefObjectMap(mapping); mapping.stream() .filter(m -> !functionValueTriplesMaps.contains(m) \|\| refObjectTriplesMaps.contains(m)) .forEach(m -> map(m, model)); this.sourceManager.clear(); return model; } }	RmlMapper { public Model map(Set<TriplesMap> mapping) { validateMapping(mapping); Model model = new LinkedHashModel(); Set<TriplesMap> functionValueTriplesMaps = getTermMaps(mapping) .filter(t -> t.getFunctionValue() != null) .map(TermMap::getFunctionValue) .collect(ImmutableCollectors.toImmutableSet()); if(LOG.isWarnEnabled()) { boolean deprecatedFno = functionValueTriplesMaps.stream() .flatMap(triplesMap -> triplesMap.getPredicateObjectMaps().stream()) .flatMap(pom -> pom.getPredicateMaps().stream()) .anyMatch(predicateMap -> predicateMap.getConstant().equals(Rdf.Fno.old_executes)); if (deprecatedFno) { LOG.warn("Usage of deprecated predicate <{}> encountered. Support in next release is not guaranteed. Upgrade to <{}>.", Rdf.Fno.old_executes, Rdf.Fno.executes); } } Set<TriplesMap> refObjectTriplesMaps = getAllTriplesMapsUsedInRefObjectMap(mapping); mapping.stream() .filter(m -> !functionValueTriplesMaps.contains(m) \|\| refObjectTriplesMaps.contains(m)) .forEach(m -> map(m, model)); this.sourceManager.clear(); return model; } private RmlMapper( Function<Object, String> sourceResolver, Map<IRI, LogicalSourceResolver<?>> logicalSourceResolvers, Functions functions, Form normalizationForm, boolean iriUpperCasePercentEncoding ); }	RmlMapper { public Model map(Set<TriplesMap> mapping) { validateMapping(mapping); Model model = new LinkedHashModel(); Set<TriplesMap> functionValueTriplesMaps = getTermMaps(mapping) .filter(t -> t.getFunctionValue() != null) .map(TermMap::getFunctionValue) .collect(ImmutableCollectors.toImmutableSet()); if(LOG.isWarnEnabled()) { boolean deprecatedFno = functionValueTriplesMaps.stream() .flatMap(triplesMap -> triplesMap.getPredicateObjectMaps().stream()) .flatMap(pom -> pom.getPredicateMaps().stream()) .anyMatch(predicateMap -> predicateMap.getConstant().equals(Rdf.Fno.old_executes)); if (deprecatedFno) { LOG.warn("Usage of deprecated predicate <{}> encountered. Support in next release is not guaranteed. Upgrade to <{}>.", Rdf.Fno.old_executes, Rdf.Fno.executes); } } Set<TriplesMap> refObjectTriplesMaps = getAllTriplesMapsUsedInRefObjectMap(mapping); mapping.stream() .filter(m -> !functionValueTriplesMaps.contains(m) \|\| refObjectTriplesMaps.contains(m)) .forEach(m -> map(m, model)); this.sourceManager.clear(); return model; } private RmlMapper( Function<Object, String> sourceResolver, Map<IRI, LogicalSourceResolver<?>> logicalSourceResolvers, Functions functions, Form normalizationForm, boolean iriUpperCasePercentEncoding ); static Builder newBuilder(); Form getNormalizationForm(); boolean getIriUpperCasePercentEncoding(); LogicalSourceManager getSourceManager(); Optional<ExecuteFunction> getFunction(IRI iri); Model map(Set<TriplesMap> mapping); void bindInputStream(InputStream inputStream); void bindInputStream(String name, InputStream inputStream); }	RmlMapper { public Model map(Set<TriplesMap> mapping) { validateMapping(mapping); Model model = new LinkedHashModel(); Set<TriplesMap> functionValueTriplesMaps = getTermMaps(mapping) .filter(t -> t.getFunctionValue() != null) .map(TermMap::getFunctionValue) .collect(ImmutableCollectors.toImmutableSet()); if(LOG.isWarnEnabled()) { boolean deprecatedFno = functionValueTriplesMaps.stream() .flatMap(triplesMap -> triplesMap.getPredicateObjectMaps().stream()) .flatMap(pom -> pom.getPredicateMaps().stream()) .anyMatch(predicateMap -> predicateMap.getConstant().equals(Rdf.Fno.old_executes)); if (deprecatedFno) { LOG.warn("Usage of deprecated predicate <{}> encountered. Support in next release is not guaranteed. Upgrade to <{}>.", Rdf.Fno.old_executes, Rdf.Fno.executes); } } Set<TriplesMap> refObjectTriplesMaps = getAllTriplesMapsUsedInRefObjectMap(mapping); mapping.stream() .filter(m -> !functionValueTriplesMaps.contains(m) \|\| refObjectTriplesMaps.contains(m)) .forEach(m -> map(m, model)); this.sourceManager.clear(); return model; } private RmlMapper( Function<Object, String> sourceResolver, Map<IRI, LogicalSourceResolver<?>> logicalSourceResolvers, Functions functions, Form normalizationForm, boolean iriUpperCasePercentEncoding ); static Builder newBuilder(); Form getNormalizationForm(); boolean getIriUpperCasePercentEncoding(); LogicalSourceManager getSourceManager(); Optional<ExecuteFunction> getFunction(IRI iri); Model map(Set<TriplesMap> mapping); void bindInputStream(InputStream inputStream); void bindInputStream(String name, InputStream inputStream); }
@Test public void mapper_withNoBoundSource_shouldThrowException() throws IOException { RmlMappingLoader loader = RmlMappingLoader.build(); InputStream input = RmlMapperTest.class.getResourceAsStream("simple.carml.rml.ttl"); RuntimeException exception = assertThrows(RuntimeException.class, () -> mapper.map(loader.load(RDFFormat.TURTLE, input))); assertThat(exception.getMessage(), is("attempting to get source, but no binding was present")); }	public Model map(Set<TriplesMap> mapping) { validateMapping(mapping); Model model = new LinkedHashModel(); Set<TriplesMap> functionValueTriplesMaps = getTermMaps(mapping) .filter(t -> t.getFunctionValue() != null) .map(TermMap::getFunctionValue) .collect(ImmutableCollectors.toImmutableSet()); if(LOG.isWarnEnabled()) { boolean deprecatedFno = functionValueTriplesMaps.stream() .flatMap(triplesMap -> triplesMap.getPredicateObjectMaps().stream()) .flatMap(pom -> pom.getPredicateMaps().stream()) .anyMatch(predicateMap -> predicateMap.getConstant().equals(Rdf.Fno.old_executes)); if (deprecatedFno) { LOG.warn("Usage of deprecated predicate <{}> encountered. Support in next release is not guaranteed. Upgrade to <{}>.", Rdf.Fno.old_executes, Rdf.Fno.executes); } } Set<TriplesMap> refObjectTriplesMaps = getAllTriplesMapsUsedInRefObjectMap(mapping); mapping.stream() .filter(m -> !functionValueTriplesMaps.contains(m) \|\| refObjectTriplesMaps.contains(m)) .forEach(m -> map(m, model)); this.sourceManager.clear(); return model; }	RmlMapper { public Model map(Set<TriplesMap> mapping) { validateMapping(mapping); Model model = new LinkedHashModel(); Set<TriplesMap> functionValueTriplesMaps = getTermMaps(mapping) .filter(t -> t.getFunctionValue() != null) .map(TermMap::getFunctionValue) .collect(ImmutableCollectors.toImmutableSet()); if(LOG.isWarnEnabled()) { boolean deprecatedFno = functionValueTriplesMaps.stream() .flatMap(triplesMap -> triplesMap.getPredicateObjectMaps().stream()) .flatMap(pom -> pom.getPredicateMaps().stream()) .anyMatch(predicateMap -> predicateMap.getConstant().equals(Rdf.Fno.old_executes)); if (deprecatedFno) { LOG.warn("Usage of deprecated predicate <{}> encountered. Support in next release is not guaranteed. Upgrade to <{}>.", Rdf.Fno.old_executes, Rdf.Fno.executes); } } Set<TriplesMap> refObjectTriplesMaps = getAllTriplesMapsUsedInRefObjectMap(mapping); mapping.stream() .filter(m -> !functionValueTriplesMaps.contains(m) \|\| refObjectTriplesMaps.contains(m)) .forEach(m -> map(m, model)); this.sourceManager.clear(); return model; } }	RmlMapper { public Model map(Set<TriplesMap> mapping) { validateMapping(mapping); Model model = new LinkedHashModel(); Set<TriplesMap> functionValueTriplesMaps = getTermMaps(mapping) .filter(t -> t.getFunctionValue() != null) .map(TermMap::getFunctionValue) .collect(ImmutableCollectors.toImmutableSet()); if(LOG.isWarnEnabled()) { boolean deprecatedFno = functionValueTriplesMaps.stream() .flatMap(triplesMap -> triplesMap.getPredicateObjectMaps().stream()) .flatMap(pom -> pom.getPredicateMaps().stream()) .anyMatch(predicateMap -> predicateMap.getConstant().equals(Rdf.Fno.old_executes)); if (deprecatedFno) { LOG.warn("Usage of deprecated predicate <{}> encountered. Support in next release is not guaranteed. Upgrade to <{}>.", Rdf.Fno.old_executes, Rdf.Fno.executes); } } Set<TriplesMap> refObjectTriplesMaps = getAllTriplesMapsUsedInRefObjectMap(mapping); mapping.stream() .filter(m -> !functionValueTriplesMaps.contains(m) \|\| refObjectTriplesMaps.contains(m)) .forEach(m -> map(m, model)); this.sourceManager.clear(); return model; } private RmlMapper( Function<Object, String> sourceResolver, Map<IRI, LogicalSourceResolver<?>> logicalSourceResolvers, Functions functions, Form normalizationForm, boolean iriUpperCasePercentEncoding ); }	RmlMapper { public Model map(Set<TriplesMap> mapping) { validateMapping(mapping); Model model = new LinkedHashModel(); Set<TriplesMap> functionValueTriplesMaps = getTermMaps(mapping) .filter(t -> t.getFunctionValue() != null) .map(TermMap::getFunctionValue) .collect(ImmutableCollectors.toImmutableSet()); if(LOG.isWarnEnabled()) { boolean deprecatedFno = functionValueTriplesMaps.stream() .flatMap(triplesMap -> triplesMap.getPredicateObjectMaps().stream()) .flatMap(pom -> pom.getPredicateMaps().stream()) .anyMatch(predicateMap -> predicateMap.getConstant().equals(Rdf.Fno.old_executes)); if (deprecatedFno) { LOG.warn("Usage of deprecated predicate <{}> encountered. Support in next release is not guaranteed. Upgrade to <{}>.", Rdf.Fno.old_executes, Rdf.Fno.executes); } } Set<TriplesMap> refObjectTriplesMaps = getAllTriplesMapsUsedInRefObjectMap(mapping); mapping.stream() .filter(m -> !functionValueTriplesMaps.contains(m) \|\| refObjectTriplesMaps.contains(m)) .forEach(m -> map(m, model)); this.sourceManager.clear(); return model; } private RmlMapper( Function<Object, String> sourceResolver, Map<IRI, LogicalSourceResolver<?>> logicalSourceResolvers, Functions functions, Form normalizationForm, boolean iriUpperCasePercentEncoding ); static Builder newBuilder(); Form getNormalizationForm(); boolean getIriUpperCasePercentEncoding(); LogicalSourceManager getSourceManager(); Optional<ExecuteFunction> getFunction(IRI iri); Model map(Set<TriplesMap> mapping); void bindInputStream(InputStream inputStream); void bindInputStream(String name, InputStream inputStream); }	RmlMapper { public Model map(Set<TriplesMap> mapping) { validateMapping(mapping); Model model = new LinkedHashModel(); Set<TriplesMap> functionValueTriplesMaps = getTermMaps(mapping) .filter(t -> t.getFunctionValue() != null) .map(TermMap::getFunctionValue) .collect(ImmutableCollectors.toImmutableSet()); if(LOG.isWarnEnabled()) { boolean deprecatedFno = functionValueTriplesMaps.stream() .flatMap(triplesMap -> triplesMap.getPredicateObjectMaps().stream()) .flatMap(pom -> pom.getPredicateMaps().stream()) .anyMatch(predicateMap -> predicateMap.getConstant().equals(Rdf.Fno.old_executes)); if (deprecatedFno) { LOG.warn("Usage of deprecated predicate <{}> encountered. Support in next release is not guaranteed. Upgrade to <{}>.", Rdf.Fno.old_executes, Rdf.Fno.executes); } } Set<TriplesMap> refObjectTriplesMaps = getAllTriplesMapsUsedInRefObjectMap(mapping); mapping.stream() .filter(m -> !functionValueTriplesMaps.contains(m) \|\| refObjectTriplesMaps.contains(m)) .forEach(m -> map(m, model)); this.sourceManager.clear(); return model; } private RmlMapper( Function<Object, String> sourceResolver, Map<IRI, LogicalSourceResolver<?>> logicalSourceResolvers, Functions functions, Form normalizationForm, boolean iriUpperCasePercentEncoding ); static Builder newBuilder(); Form getNormalizationForm(); boolean getIriUpperCasePercentEncoding(); LogicalSourceManager getSourceManager(); Optional<ExecuteFunction> getFunction(IRI iri); Model map(Set<TriplesMap> mapping); void bindInputStream(InputStream inputStream); void bindInputStream(String name, InputStream inputStream); }
@Test public void map_withPredicateMappers_callsEachPredicateMapper() throws Exception { SimpleValueFactory f = SimpleValueFactory.getInstance(); IRI subjectIRI = f.createIRI("http: Set<PredicateMapper> predicateMappers = ImmutableSet.of( mock(PredicateMapper.class), mock(PredicateMapper.class), mock(PredicateMapper.class), mock(PredicateMapper.class) ); Model model = new ModelBuilder().build(); EvaluateExpression evaluator = null; PredicateObjectMapper testSubject = new PredicateObjectMapper(ImmutableSet.of(), predicateMappers); testSubject.map(model, evaluator, subjectIRI, ImmutableSet.of()); predicateMappers.forEach(mapper -> verify(mapper).map(model, evaluator, subjectIRI)); }	void map(Model model, EvaluateExpression evaluate, Resource subject, Set<IRI> subjectGraphs) { Resource[] contexts = Stream .concat( subjectGraphs.stream(), graphGenerators.stream() .map(g -> g.apply(evaluate)) .filter(l -> !l.isEmpty()) .map(l -> l.get(0)) ) .distinct() .filter(g -> !g.equals(Rr.defaultGraph)) .toArray(Resource[]::new); predicateMappers.forEach(p -> p.map(model, evaluate, subject, contexts)); }	PredicateObjectMapper { void map(Model model, EvaluateExpression evaluate, Resource subject, Set<IRI> subjectGraphs) { Resource[] contexts = Stream .concat( subjectGraphs.stream(), graphGenerators.stream() .map(g -> g.apply(evaluate)) .filter(l -> !l.isEmpty()) .map(l -> l.get(0)) ) .distinct() .filter(g -> !g.equals(Rr.defaultGraph)) .toArray(Resource[]::new); predicateMappers.forEach(p -> p.map(model, evaluate, subject, contexts)); } }	PredicateObjectMapper { void map(Model model, EvaluateExpression evaluate, Resource subject, Set<IRI> subjectGraphs) { Resource[] contexts = Stream .concat( subjectGraphs.stream(), graphGenerators.stream() .map(g -> g.apply(evaluate)) .filter(l -> !l.isEmpty()) .map(l -> l.get(0)) ) .distinct() .filter(g -> !g.equals(Rr.defaultGraph)) .toArray(Resource[]::new); predicateMappers.forEach(p -> p.map(model, evaluate, subject, contexts)); } PredicateObjectMapper( Set<TermGenerator<IRI>> graphGenerators, Set<PredicateMapper> predicateMappers ); }	PredicateObjectMapper { void map(Model model, EvaluateExpression evaluate, Resource subject, Set<IRI> subjectGraphs) { Resource[] contexts = Stream .concat( subjectGraphs.stream(), graphGenerators.stream() .map(g -> g.apply(evaluate)) .filter(l -> !l.isEmpty()) .map(l -> l.get(0)) ) .distinct() .filter(g -> !g.equals(Rr.defaultGraph)) .toArray(Resource[]::new); predicateMappers.forEach(p -> p.map(model, evaluate, subject, contexts)); } PredicateObjectMapper( Set<TermGenerator<IRI>> graphGenerators, Set<PredicateMapper> predicateMappers ); }	PredicateObjectMapper { void map(Model model, EvaluateExpression evaluate, Resource subject, Set<IRI> subjectGraphs) { Resource[] contexts = Stream .concat( subjectGraphs.stream(), graphGenerators.stream() .map(g -> g.apply(evaluate)) .filter(l -> !l.isEmpty()) .map(l -> l.get(0)) ) .distinct() .filter(g -> !g.equals(Rr.defaultGraph)) .toArray(Resource[]::new); predicateMappers.forEach(p -> p.map(model, evaluate, subject, contexts)); } PredicateObjectMapper( Set<TermGenerator<IRI>> graphGenerators, Set<PredicateMapper> predicateMappers ); }
@Test public void map_withPassedAndOwnGraphs_createsContextWithOwnAndPassedGraphs() throws Exception { SimpleValueFactory f = SimpleValueFactory.getInstance(); IRI subjectIRI = f.createIRI("http: PredicateMapper childMapper = mock(PredicateMapper.class); Model model = new ModelBuilder().build(); EvaluateExpression evaluator = null; Set<IRI> subjectContext = ImmutableSet.of( f.createIRI("http: f.createIRI("http: f.createIRI("http: f.createIRI("http: ); Set<IRI> ownContext = ImmutableSet.of( f.createIRI("http: f.createIRI("http: f.createIRI("http: f.createIRI("http: IRI[] expectedContext = Stream.concat(subjectContext.stream(), ownContext.stream()) .toArray(IRI[]::new); Set<TermGenerator<IRI>> ownGraphGenerators = ownContext.stream() .map(graphIri -> { @SuppressWarnings("unchecked") TermGenerator<IRI> generator = (TermGenerator<IRI>) mock(TermGenerator.class); when(generator.apply(evaluator)).thenReturn(ImmutableList.of(graphIri)).getMock(); return generator; }) .collect(ImmutableCollectors.toImmutableSet()); PredicateObjectMapper testSubject = new PredicateObjectMapper(ownGraphGenerators, ImmutableSet.of(childMapper)); testSubject.map(model, evaluator, subjectIRI, subjectContext); verify(childMapper).map(model, evaluator, subjectIRI, expectedContext); }	void map(Model model, EvaluateExpression evaluate, Resource subject, Set<IRI> subjectGraphs) { Resource[] contexts = Stream .concat( subjectGraphs.stream(), graphGenerators.stream() .map(g -> g.apply(evaluate)) .filter(l -> !l.isEmpty()) .map(l -> l.get(0)) ) .distinct() .filter(g -> !g.equals(Rr.defaultGraph)) .toArray(Resource[]::new); predicateMappers.forEach(p -> p.map(model, evaluate, subject, contexts)); }	PredicateObjectMapper { void map(Model model, EvaluateExpression evaluate, Resource subject, Set<IRI> subjectGraphs) { Resource[] contexts = Stream .concat( subjectGraphs.stream(), graphGenerators.stream() .map(g -> g.apply(evaluate)) .filter(l -> !l.isEmpty()) .map(l -> l.get(0)) ) .distinct() .filter(g -> !g.equals(Rr.defaultGraph)) .toArray(Resource[]::new); predicateMappers.forEach(p -> p.map(model, evaluate, subject, contexts)); } }	PredicateObjectMapper { void map(Model model, EvaluateExpression evaluate, Resource subject, Set<IRI> subjectGraphs) { Resource[] contexts = Stream .concat( subjectGraphs.stream(), graphGenerators.stream() .map(g -> g.apply(evaluate)) .filter(l -> !l.isEmpty()) .map(l -> l.get(0)) ) .distinct() .filter(g -> !g.equals(Rr.defaultGraph)) .toArray(Resource[]::new); predicateMappers.forEach(p -> p.map(model, evaluate, subject, contexts)); } PredicateObjectMapper( Set<TermGenerator<IRI>> graphGenerators, Set<PredicateMapper> predicateMappers ); }	PredicateObjectMapper { void map(Model model, EvaluateExpression evaluate, Resource subject, Set<IRI> subjectGraphs) { Resource[] contexts = Stream .concat( subjectGraphs.stream(), graphGenerators.stream() .map(g -> g.apply(evaluate)) .filter(l -> !l.isEmpty()) .map(l -> l.get(0)) ) .distinct() .filter(g -> !g.equals(Rr.defaultGraph)) .toArray(Resource[]::new); predicateMappers.forEach(p -> p.map(model, evaluate, subject, contexts)); } PredicateObjectMapper( Set<TermGenerator<IRI>> graphGenerators, Set<PredicateMapper> predicateMappers ); }	PredicateObjectMapper { void map(Model model, EvaluateExpression evaluate, Resource subject, Set<IRI> subjectGraphs) { Resource[] contexts = Stream .concat( subjectGraphs.stream(), graphGenerators.stream() .map(g -> g.apply(evaluate)) .filter(l -> !l.isEmpty()) .map(l -> l.get(0)) ) .distinct() .filter(g -> !g.equals(Rr.defaultGraph)) .toArray(Resource[]::new); predicateMappers.forEach(p -> p.map(model, evaluate, subject, contexts)); } PredicateObjectMapper( Set<TermGenerator<IRI>> graphGenerators, Set<PredicateMapper> predicateMappers ); }
@Test public void map_withPassedAndOwnGraphs_removesDuplicatesFromConcatenatedContext() throws Exception { SimpleValueFactory f = SimpleValueFactory.getInstance(); IRI subjectIRI = f.createIRI("http: PredicateMapper childMapper = mock(PredicateMapper.class); Model model = new ModelBuilder().build(); EvaluateExpression evaluator = null; IRI subjectGraphIri = f.createIRI("http: IRI ownGraphIri = f.createIRI("http: Set<IRI> subjectContext = ImmutableSet.of(subjectGraphIri, ownGraphIri, ownGraphIri, subjectGraphIri); Set<IRI> ownContext = ImmutableSet.of(ownGraphIri, subjectGraphIri, subjectGraphIri, ownGraphIri); IRI[] expectedContext = new IRI[] { subjectGraphIri, ownGraphIri }; Set<TermGenerator<IRI>> ownGraphGenerators = ownContext.stream() .map(graphIri -> { @SuppressWarnings("unchecked") TermGenerator<IRI> generator = (TermGenerator<IRI>) mock(TermGenerator.class); when(generator.apply(evaluator)).thenReturn(ImmutableList.of(graphIri)).getMock(); return generator; }) .collect(ImmutableCollectors.toImmutableSet()); PredicateObjectMapper testSubject = new PredicateObjectMapper(ownGraphGenerators, ImmutableSet.of(childMapper)); testSubject.map(model, evaluator, subjectIRI, subjectContext); verify(childMapper).map(model, evaluator, subjectIRI, expectedContext); }	void map(Model model, EvaluateExpression evaluate, Resource subject, Set<IRI> subjectGraphs) { Resource[] contexts = Stream .concat( subjectGraphs.stream(), graphGenerators.stream() .map(g -> g.apply(evaluate)) .filter(l -> !l.isEmpty()) .map(l -> l.get(0)) ) .distinct() .filter(g -> !g.equals(Rr.defaultGraph)) .toArray(Resource[]::new); predicateMappers.forEach(p -> p.map(model, evaluate, subject, contexts)); }	PredicateObjectMapper { void map(Model model, EvaluateExpression evaluate, Resource subject, Set<IRI> subjectGraphs) { Resource[] contexts = Stream .concat( subjectGraphs.stream(), graphGenerators.stream() .map(g -> g.apply(evaluate)) .filter(l -> !l.isEmpty()) .map(l -> l.get(0)) ) .distinct() .filter(g -> !g.equals(Rr.defaultGraph)) .toArray(Resource[]::new); predicateMappers.forEach(p -> p.map(model, evaluate, subject, contexts)); } }	PredicateObjectMapper { void map(Model model, EvaluateExpression evaluate, Resource subject, Set<IRI> subjectGraphs) { Resource[] contexts = Stream .concat( subjectGraphs.stream(), graphGenerators.stream() .map(g -> g.apply(evaluate)) .filter(l -> !l.isEmpty()) .map(l -> l.get(0)) ) .distinct() .filter(g -> !g.equals(Rr.defaultGraph)) .toArray(Resource[]::new); predicateMappers.forEach(p -> p.map(model, evaluate, subject, contexts)); } PredicateObjectMapper( Set<TermGenerator<IRI>> graphGenerators, Set<PredicateMapper> predicateMappers ); }	PredicateObjectMapper { void map(Model model, EvaluateExpression evaluate, Resource subject, Set<IRI> subjectGraphs) { Resource[] contexts = Stream .concat( subjectGraphs.stream(), graphGenerators.stream() .map(g -> g.apply(evaluate)) .filter(l -> !l.isEmpty()) .map(l -> l.get(0)) ) .distinct() .filter(g -> !g.equals(Rr.defaultGraph)) .toArray(Resource[]::new); predicateMappers.forEach(p -> p.map(model, evaluate, subject, contexts)); } PredicateObjectMapper( Set<TermGenerator<IRI>> graphGenerators, Set<PredicateMapper> predicateMappers ); }	PredicateObjectMapper { void map(Model model, EvaluateExpression evaluate, Resource subject, Set<IRI> subjectGraphs) { Resource[] contexts = Stream .concat( subjectGraphs.stream(), graphGenerators.stream() .map(g -> g.apply(evaluate)) .filter(l -> !l.isEmpty()) .map(l -> l.get(0)) ) .distinct() .filter(g -> !g.equals(Rr.defaultGraph)) .toArray(Resource[]::new); predicateMappers.forEach(p -> p.map(model, evaluate, subject, contexts)); } PredicateObjectMapper( Set<TermGenerator<IRI>> graphGenerators, Set<PredicateMapper> predicateMappers ); }
@Test public void getTemplateValue_givenValidInputAndFindingValue_performsAsExpected() { when(evaluateExpression.apply("xyz")).thenReturn(Optional.of("evaluated")); when(createNaturalRdfLexicalForm.apply("evaluated")).thenReturn("natural"); when(transformValue.apply("natural")).thenReturn("transformed"); Template template = TemplateParser.build().parse("abc{xyz}"); GetTemplateValue getTemplateValue = new GetTemplateValue( template, template.getExpressions(), transformValue, createNaturalRdfLexicalForm ); Optional<Object> templateValue = getTemplateValue.apply(evaluateExpression); String result = unpackTemplateValue(templateValue); assertThat(result, is("abctransformed")); }	@Override public Optional<Object> apply(EvaluateExpression evaluateExpression) { if (LOG.isTraceEnabled()) { LOG.trace("Processing template: {}", template.toTemplateString()); } Template.Builder templateBuilder = template.newBuilder(); expressions.forEach(e -> bindTemplateExpression(e, evaluateExpression, templateBuilder)); return templateBuilder.create(); }	GetTemplateValue implements Function<EvaluateExpression, Optional<Object>> { @Override public Optional<Object> apply(EvaluateExpression evaluateExpression) { if (LOG.isTraceEnabled()) { LOG.trace("Processing template: {}", template.toTemplateString()); } Template.Builder templateBuilder = template.newBuilder(); expressions.forEach(e -> bindTemplateExpression(e, evaluateExpression, templateBuilder)); return templateBuilder.create(); } }	GetTemplateValue implements Function<EvaluateExpression, Optional<Object>> { @Override public Optional<Object> apply(EvaluateExpression evaluateExpression) { if (LOG.isTraceEnabled()) { LOG.trace("Processing template: {}", template.toTemplateString()); } Template.Builder templateBuilder = template.newBuilder(); expressions.forEach(e -> bindTemplateExpression(e, evaluateExpression, templateBuilder)); return templateBuilder.create(); } GetTemplateValue( Template template, Set<Expression> expressions, Function<String, String> transformValue, Function<Object, String> createNaturalRdfLexicalForm ); }	GetTemplateValue implements Function<EvaluateExpression, Optional<Object>> { @Override public Optional<Object> apply(EvaluateExpression evaluateExpression) { if (LOG.isTraceEnabled()) { LOG.trace("Processing template: {}", template.toTemplateString()); } Template.Builder templateBuilder = template.newBuilder(); expressions.forEach(e -> bindTemplateExpression(e, evaluateExpression, templateBuilder)); return templateBuilder.create(); } GetTemplateValue( Template template, Set<Expression> expressions, Function<String, String> transformValue, Function<Object, String> createNaturalRdfLexicalForm ); @Override Optional<Object> apply(EvaluateExpression evaluateExpression); }	GetTemplateValue implements Function<EvaluateExpression, Optional<Object>> { @Override public Optional<Object> apply(EvaluateExpression evaluateExpression) { if (LOG.isTraceEnabled()) { LOG.trace("Processing template: {}", template.toTemplateString()); } Template.Builder templateBuilder = template.newBuilder(); expressions.forEach(e -> bindTemplateExpression(e, evaluateExpression, templateBuilder)); return templateBuilder.create(); } GetTemplateValue( Template template, Set<Expression> expressions, Function<String, String> transformValue, Function<Object, String> createNaturalRdfLexicalForm ); @Override Optional<Object> apply(EvaluateExpression evaluateExpression); }
@Test public void expressionEvaluator_givenExpressionWithNamespace_shoulReturnCorrectValue() { Set<TriplesMap> mapping = RmlMappingLoader .build() .load(RDFFormat.TURTLE, XPathResolverTest.class.getResourceAsStream("xmlns.rml.ttl")); TriplesMap tMap = Iterables.getOnlyElement(mapping); LogicalSource lSource = tMap.getLogicalSource(); xpathResolver = new XPathResolver(); nodeIterator = xpathResolver.bindSource(lSource, nsSourceResolver).get(); nodes = Lists.newArrayList(nodeIterator); String expression = "./ex:author/lower-case(.)"; ExpressionEvaluatorFactory<XdmItem> evaluatorFactory = xpathResolver.getExpressionEvaluatorFactory(); EvaluateExpression evaluateExpression = evaluatorFactory.apply(nodes.get(0)); assertThat(evaluateExpression.apply(expression).get(), is("j k. rowling")); }	@Override public ExpressionEvaluatorFactory<XdmItem> getExpressionEvaluatorFactory() { return entry -> expression -> { try { XPathSelector selector = xpath.compile(expression).load(); selector.setContextItem(entry); XdmValue value = selector.evaluate(); if (value.size() > 1) { List<String> results = new ArrayList<>(); value.forEach(i -> { String sValue = getItemStringValue(i, value); if (sValue != null) { results.add(sValue); } } ); return Optional.of(results); } else if (value.size() == 0) { return Optional.empty(); } XdmItem item = value.itemAt(0); return Optional.ofNullable(getItemStringValue(item, value)); } catch (SaxonApiException e) { throw new RuntimeException(String.format( "Error applying XPath expression [%s] to entry [%s]", entry, expression), e); } }; }	XPathResolver implements LogicalSourceResolver<XdmItem> { @Override public ExpressionEvaluatorFactory<XdmItem> getExpressionEvaluatorFactory() { return entry -> expression -> { try { XPathSelector selector = xpath.compile(expression).load(); selector.setContextItem(entry); XdmValue value = selector.evaluate(); if (value.size() > 1) { List<String> results = new ArrayList<>(); value.forEach(i -> { String sValue = getItemStringValue(i, value); if (sValue != null) { results.add(sValue); } } ); return Optional.of(results); } else if (value.size() == 0) { return Optional.empty(); } XdmItem item = value.itemAt(0); return Optional.ofNullable(getItemStringValue(item, value)); } catch (SaxonApiException e) { throw new RuntimeException(String.format( "Error applying XPath expression [%s] to entry [%s]", entry, expression), e); } }; } }	XPathResolver implements LogicalSourceResolver<XdmItem> { @Override public ExpressionEvaluatorFactory<XdmItem> getExpressionEvaluatorFactory() { return entry -> expression -> { try { XPathSelector selector = xpath.compile(expression).load(); selector.setContextItem(entry); XdmValue value = selector.evaluate(); if (value.size() > 1) { List<String> results = new ArrayList<>(); value.forEach(i -> { String sValue = getItemStringValue(i, value); if (sValue != null) { results.add(sValue); } } ); return Optional.of(results); } else if (value.size() == 0) { return Optional.empty(); } XdmItem item = value.itemAt(0); return Optional.ofNullable(getItemStringValue(item, value)); } catch (SaxonApiException e) { throw new RuntimeException(String.format( "Error applying XPath expression [%s] to entry [%s]", entry, expression), e); } }; } XPathResolver(); XPathResolver(boolean autoNodeTextExtraction); }	XPathResolver implements LogicalSourceResolver<XdmItem> { @Override public ExpressionEvaluatorFactory<XdmItem> getExpressionEvaluatorFactory() { return entry -> expression -> { try { XPathSelector selector = xpath.compile(expression).load(); selector.setContextItem(entry); XdmValue value = selector.evaluate(); if (value.size() > 1) { List<String> results = new ArrayList<>(); value.forEach(i -> { String sValue = getItemStringValue(i, value); if (sValue != null) { results.add(sValue); } } ); return Optional.of(results); } else if (value.size() == 0) { return Optional.empty(); } XdmItem item = value.itemAt(0); return Optional.ofNullable(getItemStringValue(item, value)); } catch (SaxonApiException e) { throw new RuntimeException(String.format( "Error applying XPath expression [%s] to entry [%s]", entry, expression), e); } }; } XPathResolver(); XPathResolver(boolean autoNodeTextExtraction); boolean autoExtractsNodeText(); @Override SourceIterator<XdmItem> getSourceIterator(); @Override ExpressionEvaluatorFactory<XdmItem> getExpressionEvaluatorFactory(); }	XPathResolver implements LogicalSourceResolver<XdmItem> { @Override public ExpressionEvaluatorFactory<XdmItem> getExpressionEvaluatorFactory() { return entry -> expression -> { try { XPathSelector selector = xpath.compile(expression).load(); selector.setContextItem(entry); XdmValue value = selector.evaluate(); if (value.size() > 1) { List<String> results = new ArrayList<>(); value.forEach(i -> { String sValue = getItemStringValue(i, value); if (sValue != null) { results.add(sValue); } } ); return Optional.of(results); } else if (value.size() == 0) { return Optional.empty(); } XdmItem item = value.itemAt(0); return Optional.ofNullable(getItemStringValue(item, value)); } catch (SaxonApiException e) { throw new RuntimeException(String.format( "Error applying XPath expression [%s] to entry [%s]", entry, expression), e); } }; } XPathResolver(); XPathResolver(boolean autoNodeTextExtraction); boolean autoExtractsNodeText(); @Override SourceIterator<XdmItem> getSourceIterator(); @Override ExpressionEvaluatorFactory<XdmItem> getExpressionEvaluatorFactory(); }
@Test public void getTemplateValue_givenValidInputWithMultipleExpressions_performsAsExpected() { when(evaluateExpression.apply("xyz")).thenReturn(Optional.of("evaluated")); when(createNaturalRdfLexicalForm.apply("evaluated")).thenReturn("natural"); when(transformValue.apply("natural")).thenReturn("transformed"); Template template = TemplateParser.build().parse("abc{xyz}{xyz}"); GetTemplateValue getTemplateValue = new GetTemplateValue( template, template.getExpressions(), transformValue, createNaturalRdfLexicalForm ); Optional<Object>templateValue = getTemplateValue.apply(evaluateExpression); String result = unpackTemplateValue(templateValue); assertThat(result, is("abctransformedtransformed")); }	@Override public Optional<Object> apply(EvaluateExpression evaluateExpression) { if (LOG.isTraceEnabled()) { LOG.trace("Processing template: {}", template.toTemplateString()); } Template.Builder templateBuilder = template.newBuilder(); expressions.forEach(e -> bindTemplateExpression(e, evaluateExpression, templateBuilder)); return templateBuilder.create(); }	GetTemplateValue implements Function<EvaluateExpression, Optional<Object>> { @Override public Optional<Object> apply(EvaluateExpression evaluateExpression) { if (LOG.isTraceEnabled()) { LOG.trace("Processing template: {}", template.toTemplateString()); } Template.Builder templateBuilder = template.newBuilder(); expressions.forEach(e -> bindTemplateExpression(e, evaluateExpression, templateBuilder)); return templateBuilder.create(); } }	GetTemplateValue implements Function<EvaluateExpression, Optional<Object>> { @Override public Optional<Object> apply(EvaluateExpression evaluateExpression) { if (LOG.isTraceEnabled()) { LOG.trace("Processing template: {}", template.toTemplateString()); } Template.Builder templateBuilder = template.newBuilder(); expressions.forEach(e -> bindTemplateExpression(e, evaluateExpression, templateBuilder)); return templateBuilder.create(); } GetTemplateValue( Template template, Set<Expression> expressions, Function<String, String> transformValue, Function<Object, String> createNaturalRdfLexicalForm ); }	GetTemplateValue implements Function<EvaluateExpression, Optional<Object>> { @Override public Optional<Object> apply(EvaluateExpression evaluateExpression) { if (LOG.isTraceEnabled()) { LOG.trace("Processing template: {}", template.toTemplateString()); } Template.Builder templateBuilder = template.newBuilder(); expressions.forEach(e -> bindTemplateExpression(e, evaluateExpression, templateBuilder)); return templateBuilder.create(); } GetTemplateValue( Template template, Set<Expression> expressions, Function<String, String> transformValue, Function<Object, String> createNaturalRdfLexicalForm ); @Override Optional<Object> apply(EvaluateExpression evaluateExpression); }	GetTemplateValue implements Function<EvaluateExpression, Optional<Object>> { @Override public Optional<Object> apply(EvaluateExpression evaluateExpression) { if (LOG.isTraceEnabled()) { LOG.trace("Processing template: {}", template.toTemplateString()); } Template.Builder templateBuilder = template.newBuilder(); expressions.forEach(e -> bindTemplateExpression(e, evaluateExpression, templateBuilder)); return templateBuilder.create(); } GetTemplateValue( Template template, Set<Expression> expressions, Function<String, String> transformValue, Function<Object, String> createNaturalRdfLexicalForm ); @Override Optional<Object> apply(EvaluateExpression evaluateExpression); }
@Test public void getTemplateValue_givenValidInputAndNotFindingValue_returnsNoValues() { when(evaluateExpression.apply("xyz")).thenReturn(Optional.empty()); Template template = TemplateParser.build().parse("abc{xyz}"); GetTemplateValue getTemplateValue = new GetTemplateValue( template, template.getExpressions(), transformValue, createNaturalRdfLexicalForm ); Optional<Object> templateValue = getTemplateValue.apply(evaluateExpression); assertThat(templateValue, is(Optional.empty())); }	@Override public Optional<Object> apply(EvaluateExpression evaluateExpression) { if (LOG.isTraceEnabled()) { LOG.trace("Processing template: {}", template.toTemplateString()); } Template.Builder templateBuilder = template.newBuilder(); expressions.forEach(e -> bindTemplateExpression(e, evaluateExpression, templateBuilder)); return templateBuilder.create(); }	GetTemplateValue implements Function<EvaluateExpression, Optional<Object>> { @Override public Optional<Object> apply(EvaluateExpression evaluateExpression) { if (LOG.isTraceEnabled()) { LOG.trace("Processing template: {}", template.toTemplateString()); } Template.Builder templateBuilder = template.newBuilder(); expressions.forEach(e -> bindTemplateExpression(e, evaluateExpression, templateBuilder)); return templateBuilder.create(); } }	GetTemplateValue implements Function<EvaluateExpression, Optional<Object>> { @Override public Optional<Object> apply(EvaluateExpression evaluateExpression) { if (LOG.isTraceEnabled()) { LOG.trace("Processing template: {}", template.toTemplateString()); } Template.Builder templateBuilder = template.newBuilder(); expressions.forEach(e -> bindTemplateExpression(e, evaluateExpression, templateBuilder)); return templateBuilder.create(); } GetTemplateValue( Template template, Set<Expression> expressions, Function<String, String> transformValue, Function<Object, String> createNaturalRdfLexicalForm ); }	GetTemplateValue implements Function<EvaluateExpression, Optional<Object>> { @Override public Optional<Object> apply(EvaluateExpression evaluateExpression) { if (LOG.isTraceEnabled()) { LOG.trace("Processing template: {}", template.toTemplateString()); } Template.Builder templateBuilder = template.newBuilder(); expressions.forEach(e -> bindTemplateExpression(e, evaluateExpression, templateBuilder)); return templateBuilder.create(); } GetTemplateValue( Template template, Set<Expression> expressions, Function<String, String> transformValue, Function<Object, String> createNaturalRdfLexicalForm ); @Override Optional<Object> apply(EvaluateExpression evaluateExpression); }	GetTemplateValue implements Function<EvaluateExpression, Optional<Object>> { @Override public Optional<Object> apply(EvaluateExpression evaluateExpression) { if (LOG.isTraceEnabled()) { LOG.trace("Processing template: {}", template.toTemplateString()); } Template.Builder templateBuilder = template.newBuilder(); expressions.forEach(e -> bindTemplateExpression(e, evaluateExpression, templateBuilder)); return templateBuilder.create(); } GetTemplateValue( Template template, Set<Expression> expressions, Function<String, String> transformValue, Function<Object, String> createNaturalRdfLexicalForm ); @Override Optional<Object> apply(EvaluateExpression evaluateExpression); }
@Test public void map_withPredicateObjectMappers_callsEveryPredicateObjectMapper() throws Exception { EvaluateExpression evaluator = null; SimpleValueFactory f = SimpleValueFactory.getInstance(); IRI subjectIRI = f.createIRI("http: when(subjectGenerator.apply(evaluator)) .thenReturn(ImmutableList.of(subjectIRI)); PredicateObjectMapper mockMapper1 = mock(PredicateObjectMapper.class); PredicateObjectMapper mockMapper2 = mock(PredicateObjectMapper.class); PredicateObjectMapper mockMapper3 = mock(PredicateObjectMapper.class); PredicateObjectMapper mockMapper4 = mock(PredicateObjectMapper.class); Set<PredicateObjectMapper> predObjMappers = ImmutableSet.of(mockMapper1, mockMapper2, mockMapper3, mockMapper4); Model model = new ModelBuilder().build(); SubjectMapper s = new SubjectMapper(subjectGenerator, ImmutableSet.of(), ImmutableSet.of(), predObjMappers); s.map(model, evaluator); predObjMappers.forEach( mapper -> verify(mapper) .map(model, evaluator, subjectIRI, ImmutableSet.of())); }	Optional<Resource> map(Model model, EvaluateExpression evaluate) { LOG.debug("Determining subjects ..."); List<Resource> subject = generator.apply(evaluate); LOG.debug("Determined subjects {}", subject); return subject.stream().findFirst().map(s -> mapSubject(s, model, evaluate)); }	SubjectMapper { Optional<Resource> map(Model model, EvaluateExpression evaluate) { LOG.debug("Determining subjects ..."); List<Resource> subject = generator.apply(evaluate); LOG.debug("Determined subjects {}", subject); return subject.stream().findFirst().map(s -> mapSubject(s, model, evaluate)); } }	SubjectMapper { Optional<Resource> map(Model model, EvaluateExpression evaluate) { LOG.debug("Determining subjects ..."); List<Resource> subject = generator.apply(evaluate); LOG.debug("Determined subjects {}", subject); return subject.stream().findFirst().map(s -> mapSubject(s, model, evaluate)); } SubjectMapper( TermGenerator<Resource> generator, Set<TermGenerator<IRI>> graphGenerators, Set<IRI> classes, Set<PredicateObjectMapper> predicateObjectMappers ); }	SubjectMapper { Optional<Resource> map(Model model, EvaluateExpression evaluate) { LOG.debug("Determining subjects ..."); List<Resource> subject = generator.apply(evaluate); LOG.debug("Determined subjects {}", subject); return subject.stream().findFirst().map(s -> mapSubject(s, model, evaluate)); } SubjectMapper( TermGenerator<Resource> generator, Set<TermGenerator<IRI>> graphGenerators, Set<IRI> classes, Set<PredicateObjectMapper> predicateObjectMappers ); }	SubjectMapper { Optional<Resource> map(Model model, EvaluateExpression evaluate) { LOG.debug("Determining subjects ..."); List<Resource> subject = generator.apply(evaluate); LOG.debug("Determined subjects {}", subject); return subject.stream().findFirst().map(s -> mapSubject(s, model, evaluate)); } SubjectMapper( TermGenerator<Resource> generator, Set<TermGenerator<IRI>> graphGenerators, Set<IRI> classes, Set<PredicateObjectMapper> predicateObjectMappers ); }
@Test public void map_withClasses_appliesEveryClassToGeneratedSubject() throws Exception { EvaluateExpression evaluator = null; SimpleValueFactory f = SimpleValueFactory.getInstance(); IRI subjectIRI = f.createIRI("http: when(subjectGenerator.apply(evaluator)) .thenReturn(ImmutableList.of(subjectIRI)); Set<IRI> expectedClasses = ImmutableSet.of( f.createIRI("http: f.createIRI("http: f.createIRI("http: ); Model model = new ModelBuilder().build(); SubjectMapper s = new SubjectMapper(subjectGenerator, ImmutableSet.of(), expectedClasses, ImmutableSet.of()); s.map(model, evaluator); expectedClasses.forEach(iri -> Assert.assertTrue(model.contains(subjectIRI, RDF.TYPE, iri))); }	Optional<Resource> map(Model model, EvaluateExpression evaluate) { LOG.debug("Determining subjects ..."); List<Resource> subject = generator.apply(evaluate); LOG.debug("Determined subjects {}", subject); return subject.stream().findFirst().map(s -> mapSubject(s, model, evaluate)); }	SubjectMapper { Optional<Resource> map(Model model, EvaluateExpression evaluate) { LOG.debug("Determining subjects ..."); List<Resource> subject = generator.apply(evaluate); LOG.debug("Determined subjects {}", subject); return subject.stream().findFirst().map(s -> mapSubject(s, model, evaluate)); } }	SubjectMapper { Optional<Resource> map(Model model, EvaluateExpression evaluate) { LOG.debug("Determining subjects ..."); List<Resource> subject = generator.apply(evaluate); LOG.debug("Determined subjects {}", subject); return subject.stream().findFirst().map(s -> mapSubject(s, model, evaluate)); } SubjectMapper( TermGenerator<Resource> generator, Set<TermGenerator<IRI>> graphGenerators, Set<IRI> classes, Set<PredicateObjectMapper> predicateObjectMappers ); }	SubjectMapper { Optional<Resource> map(Model model, EvaluateExpression evaluate) { LOG.debug("Determining subjects ..."); List<Resource> subject = generator.apply(evaluate); LOG.debug("Determined subjects {}", subject); return subject.stream().findFirst().map(s -> mapSubject(s, model, evaluate)); } SubjectMapper( TermGenerator<Resource> generator, Set<TermGenerator<IRI>> graphGenerators, Set<IRI> classes, Set<PredicateObjectMapper> predicateObjectMappers ); }	SubjectMapper { Optional<Resource> map(Model model, EvaluateExpression evaluate) { LOG.debug("Determining subjects ..."); List<Resource> subject = generator.apply(evaluate); LOG.debug("Determined subjects {}", subject); return subject.stream().findFirst().map(s -> mapSubject(s, model, evaluate)); } SubjectMapper( TermGenerator<Resource> generator, Set<TermGenerator<IRI>> graphGenerators, Set<IRI> classes, Set<PredicateObjectMapper> predicateObjectMappers ); }
@Test public void map_withGraphsAndClasses_appliesGraphsToEveryClass() throws Exception { EvaluateExpression evaluator = null; SimpleValueFactory f = SimpleValueFactory.getInstance(); IRI subjectIRI = f.createIRI("http: when(subjectGenerator.apply(evaluator)) .thenReturn(ImmutableList.of(subjectIRI)); Set<IRI> graphs = ImmutableSet.of( f.createIRI("http: f.createIRI("http: f.createIRI("http: f.createIRI("http: ); Set<TermGenerator<IRI>> graphGenerators = graphs.stream() .map(graphIri -> { @SuppressWarnings("unchecked") TermGenerator<IRI> generator = (TermGenerator<IRI>) mock(TermGenerator.class); when(generator.apply(evaluator)).thenReturn(ImmutableList.of(graphIri)); return generator; }) .collect(ImmutableCollectors.toImmutableSet()); Set<IRI> expectedClasses = ImmutableSet.of( f.createIRI("http: f.createIRI("http: f.createIRI("http: ); Model model = new ModelBuilder().build(); SubjectMapper s = new SubjectMapper(subjectGenerator, graphGenerators, expectedClasses, ImmutableSet.of()); s.map(model, evaluator); expectedClasses.forEach(iri -> graphs.forEach(graph -> Assert.assertTrue(model.contains(subjectIRI, RDF.TYPE, iri, graph))) ); }	Optional<Resource> map(Model model, EvaluateExpression evaluate) { LOG.debug("Determining subjects ..."); List<Resource> subject = generator.apply(evaluate); LOG.debug("Determined subjects {}", subject); return subject.stream().findFirst().map(s -> mapSubject(s, model, evaluate)); }	SubjectMapper { Optional<Resource> map(Model model, EvaluateExpression evaluate) { LOG.debug("Determining subjects ..."); List<Resource> subject = generator.apply(evaluate); LOG.debug("Determined subjects {}", subject); return subject.stream().findFirst().map(s -> mapSubject(s, model, evaluate)); } }	SubjectMapper { Optional<Resource> map(Model model, EvaluateExpression evaluate) { LOG.debug("Determining subjects ..."); List<Resource> subject = generator.apply(evaluate); LOG.debug("Determined subjects {}", subject); return subject.stream().findFirst().map(s -> mapSubject(s, model, evaluate)); } SubjectMapper( TermGenerator<Resource> generator, Set<TermGenerator<IRI>> graphGenerators, Set<IRI> classes, Set<PredicateObjectMapper> predicateObjectMappers ); }	SubjectMapper { Optional<Resource> map(Model model, EvaluateExpression evaluate) { LOG.debug("Determining subjects ..."); List<Resource> subject = generator.apply(evaluate); LOG.debug("Determined subjects {}", subject); return subject.stream().findFirst().map(s -> mapSubject(s, model, evaluate)); } SubjectMapper( TermGenerator<Resource> generator, Set<TermGenerator<IRI>> graphGenerators, Set<IRI> classes, Set<PredicateObjectMapper> predicateObjectMappers ); }	SubjectMapper { Optional<Resource> map(Model model, EvaluateExpression evaluate) { LOG.debug("Determining subjects ..."); List<Resource> subject = generator.apply(evaluate); LOG.debug("Determined subjects {}", subject); return subject.stream().findFirst().map(s -> mapSubject(s, model, evaluate)); } SubjectMapper( TermGenerator<Resource> generator, Set<TermGenerator<IRI>> graphGenerators, Set<IRI> classes, Set<PredicateObjectMapper> predicateObjectMappers ); }
@Test public void map_withGraphsAndClasses_appliesAllGraphsToEveryPredicateObjectMapper() throws Exception { SimpleValueFactory f = SimpleValueFactory.getInstance(); IRI subjectIRI = f.createIRI("http: EvaluateExpression evaluator = null; Set<IRI> graphs = ImmutableSet.of( f.createIRI("http: f.createIRI("http: f.createIRI("http: f.createIRI("http: ); Set<TermGenerator<IRI>> graphGenerators = graphs.stream() .map(graphIri -> { @SuppressWarnings("unchecked") TermGenerator<IRI> generator = (TermGenerator<IRI>) mock(TermGenerator.class); when(generator.apply(evaluator)).thenReturn(ImmutableList.of(graphIri)); return generator; }) .collect(ImmutableCollectors.toImmutableSet()); when(subjectGenerator.apply(evaluator)) .thenReturn(ImmutableList.of(subjectIRI)); PredicateObjectMapper mockMapper1 = mock(PredicateObjectMapper.class); PredicateObjectMapper mockMapper2 = mock(PredicateObjectMapper.class); PredicateObjectMapper mockMapper3 = mock(PredicateObjectMapper.class); PredicateObjectMapper mockMapper4 = mock(PredicateObjectMapper.class); Set<PredicateObjectMapper> predObjMappers = ImmutableSet.of(mockMapper1, mockMapper2, mockMapper3, mockMapper4); Model m = new ModelBuilder().build(); SubjectMapper s = new SubjectMapper(subjectGenerator, graphGenerators, ImmutableSet.of(), predObjMappers); s.map(m, evaluator); predObjMappers.forEach(mapper -> verify(mapper).map(m, evaluator, subjectIRI, graphs)); }	Optional<Resource> map(Model model, EvaluateExpression evaluate) { LOG.debug("Determining subjects ..."); List<Resource> subject = generator.apply(evaluate); LOG.debug("Determined subjects {}", subject); return subject.stream().findFirst().map(s -> mapSubject(s, model, evaluate)); }	SubjectMapper { Optional<Resource> map(Model model, EvaluateExpression evaluate) { LOG.debug("Determining subjects ..."); List<Resource> subject = generator.apply(evaluate); LOG.debug("Determined subjects {}", subject); return subject.stream().findFirst().map(s -> mapSubject(s, model, evaluate)); } }	SubjectMapper { Optional<Resource> map(Model model, EvaluateExpression evaluate) { LOG.debug("Determining subjects ..."); List<Resource> subject = generator.apply(evaluate); LOG.debug("Determined subjects {}", subject); return subject.stream().findFirst().map(s -> mapSubject(s, model, evaluate)); } SubjectMapper( TermGenerator<Resource> generator, Set<TermGenerator<IRI>> graphGenerators, Set<IRI> classes, Set<PredicateObjectMapper> predicateObjectMappers ); }	SubjectMapper { Optional<Resource> map(Model model, EvaluateExpression evaluate) { LOG.debug("Determining subjects ..."); List<Resource> subject = generator.apply(evaluate); LOG.debug("Determined subjects {}", subject); return subject.stream().findFirst().map(s -> mapSubject(s, model, evaluate)); } SubjectMapper( TermGenerator<Resource> generator, Set<TermGenerator<IRI>> graphGenerators, Set<IRI> classes, Set<PredicateObjectMapper> predicateObjectMappers ); }	SubjectMapper { Optional<Resource> map(Model model, EvaluateExpression evaluate) { LOG.debug("Determining subjects ..."); List<Resource> subject = generator.apply(evaluate); LOG.debug("Determined subjects {}", subject); return subject.stream().findFirst().map(s -> mapSubject(s, model, evaluate)); } SubjectMapper( TermGenerator<Resource> generator, Set<TermGenerator<IRI>> graphGenerators, Set<IRI> classes, Set<PredicateObjectMapper> predicateObjectMappers ); }
@Test public void expressionEvaluator_givenExpression_shoulReturnCorrectValue() { String expression = "Year"; Iterable<Record> recordIterator = csvResolver.bindSource(LSOURCE, sourceResolver).get(); ExpressionEvaluatorFactory<Record> evaluatorFactory = csvResolver.getExpressionEvaluatorFactory(); List<Record> records = Lists.newArrayList(recordIterator); EvaluateExpression evaluateExpression = evaluatorFactory.apply(records.get(0)); assertThat(evaluateExpression.apply(expression).get(), is("1997")); }	@Override public ExpressionEvaluatorFactory<Record> getExpressionEvaluatorFactory() { return entry -> expression -> { logEvaluateExpression(expression, LOG); return Optional.ofNullable(entry.getString(expression)); }; }	CsvResolver implements LogicalSourceResolver<Record> { @Override public ExpressionEvaluatorFactory<Record> getExpressionEvaluatorFactory() { return entry -> expression -> { logEvaluateExpression(expression, LOG); return Optional.ofNullable(entry.getString(expression)); }; } }	CsvResolver implements LogicalSourceResolver<Record> { @Override public ExpressionEvaluatorFactory<Record> getExpressionEvaluatorFactory() { return entry -> expression -> { logEvaluateExpression(expression, LOG); return Optional.ofNullable(entry.getString(expression)); }; } }	CsvResolver implements LogicalSourceResolver<Record> { @Override public ExpressionEvaluatorFactory<Record> getExpressionEvaluatorFactory() { return entry -> expression -> { logEvaluateExpression(expression, LOG); return Optional.ofNullable(entry.getString(expression)); }; } @Override SourceIterator<Record> getSourceIterator(); @Override ExpressionEvaluatorFactory<Record> getExpressionEvaluatorFactory(); }	CsvResolver implements LogicalSourceResolver<Record> { @Override public ExpressionEvaluatorFactory<Record> getExpressionEvaluatorFactory() { return entry -> expression -> { logEvaluateExpression(expression, LOG); return Optional.ofNullable(entry.getString(expression)); }; } @Override SourceIterator<Record> getSourceIterator(); @Override ExpressionEvaluatorFactory<Record> getExpressionEvaluatorFactory(); }
@Test public void modelGetter_givenSparqlQuery_ShouldReturnAllCorrespondingStatements() { String sparqlQuery = "" + "CONSTRUCT {" + " ?s <http: + " ?s <http: + "} " + "FROM NAMED <http: + "WHERE { " + " GRAPH ?g { " + " ?s <http: + " ?s <http: + " } " + "}"; Model model = QueryUtils.getModelFromRepo(repo, sparqlQuery); assertThat( "All statements corresponding to sparql query should be loaded", model, hasSize(2) ); }	public static Model getModelFromRepo(Repository repository, String sparqlQuery) { Objects.requireNonNull(repository, REPOSITORY_MSG); Objects.requireNonNull(repository, SPARQL_QUERY_MSG); return Repositories.graphQuery( repository, sparqlQuery, QueryResults::asModel ); }	QueryUtils { public static Model getModelFromRepo(Repository repository, String sparqlQuery) { Objects.requireNonNull(repository, REPOSITORY_MSG); Objects.requireNonNull(repository, SPARQL_QUERY_MSG); return Repositories.graphQuery( repository, sparqlQuery, QueryResults::asModel ); } }	QueryUtils { public static Model getModelFromRepo(Repository repository, String sparqlQuery) { Objects.requireNonNull(repository, REPOSITORY_MSG); Objects.requireNonNull(repository, SPARQL_QUERY_MSG); return Repositories.graphQuery( repository, sparqlQuery, QueryResults::asModel ); } private QueryUtils(); }	QueryUtils { public static Model getModelFromRepo(Repository repository, String sparqlQuery) { Objects.requireNonNull(repository, REPOSITORY_MSG); Objects.requireNonNull(repository, SPARQL_QUERY_MSG); return Repositories.graphQuery( repository, sparqlQuery, QueryResults::asModel ); } private QueryUtils(); static Model getModelFromRepo(Repository repository, String sparqlQuery); static Model getModelFromRepo(Repository repository, Resource... contexts); }	QueryUtils { public static Model getModelFromRepo(Repository repository, String sparqlQuery) { Objects.requireNonNull(repository, REPOSITORY_MSG); Objects.requireNonNull(repository, SPARQL_QUERY_MSG); return Repositories.graphQuery( repository, sparqlQuery, QueryResults::asModel ); } private QueryUtils(); static Model getModelFromRepo(Repository repository, String sparqlQuery); static Model getModelFromRepo(Repository repository, Resource... contexts); }
@Test public void modelGetter_givenSpecifiContexts_shouldLoadAllStatementsInRepo() { Model model = QueryUtils.getModelFromRepo(repo); assertThat( String.format("The in-memory store should contain %s statemtents", REPO_CONTEXTS_NR_STATEMENTS), model, hasSize(REPO_CONTEXTS_NR_STATEMENTS) ); }	public static Model getModelFromRepo(Repository repository, String sparqlQuery) { Objects.requireNonNull(repository, REPOSITORY_MSG); Objects.requireNonNull(repository, SPARQL_QUERY_MSG); return Repositories.graphQuery( repository, sparqlQuery, QueryResults::asModel ); }	QueryUtils { public static Model getModelFromRepo(Repository repository, String sparqlQuery) { Objects.requireNonNull(repository, REPOSITORY_MSG); Objects.requireNonNull(repository, SPARQL_QUERY_MSG); return Repositories.graphQuery( repository, sparqlQuery, QueryResults::asModel ); } }	QueryUtils { public static Model getModelFromRepo(Repository repository, String sparqlQuery) { Objects.requireNonNull(repository, REPOSITORY_MSG); Objects.requireNonNull(repository, SPARQL_QUERY_MSG); return Repositories.graphQuery( repository, sparqlQuery, QueryResults::asModel ); } private QueryUtils(); }	QueryUtils { public static Model getModelFromRepo(Repository repository, String sparqlQuery) { Objects.requireNonNull(repository, REPOSITORY_MSG); Objects.requireNonNull(repository, SPARQL_QUERY_MSG); return Repositories.graphQuery( repository, sparqlQuery, QueryResults::asModel ); } private QueryUtils(); static Model getModelFromRepo(Repository repository, String sparqlQuery); static Model getModelFromRepo(Repository repository, Resource... contexts); }	QueryUtils { public static Model getModelFromRepo(Repository repository, String sparqlQuery) { Objects.requireNonNull(repository, REPOSITORY_MSG); Objects.requireNonNull(repository, SPARQL_QUERY_MSG); return Repositories.graphQuery( repository, sparqlQuery, QueryResults::asModel ); } private QueryUtils(); static Model getModelFromRepo(Repository repository, String sparqlQuery); static Model getModelFromRepo(Repository repository, Resource... contexts); }
@Test public void modelGetter_givenNoContext_shouldReturnAllStatementsInContexts() { Model model = QueryUtils.getModelFromRepo( repo, VF.createIRI(CONTEXT_A), VF.createIRI(CONTEXT_C) ); assertThat( String.format("The in-memory store should contain %s statemtents", REPO_CONTEXT_A_NR_STATEMENTS + REPO_CONTEXT_C_NR_STATEMENTS), model, hasSize(REPO_CONTEXT_A_NR_STATEMENTS + REPO_CONTEXT_C_NR_STATEMENTS) ); }	public static Model getModelFromRepo(Repository repository, String sparqlQuery) { Objects.requireNonNull(repository, REPOSITORY_MSG); Objects.requireNonNull(repository, SPARQL_QUERY_MSG); return Repositories.graphQuery( repository, sparqlQuery, QueryResults::asModel ); }	QueryUtils { public static Model getModelFromRepo(Repository repository, String sparqlQuery) { Objects.requireNonNull(repository, REPOSITORY_MSG); Objects.requireNonNull(repository, SPARQL_QUERY_MSG); return Repositories.graphQuery( repository, sparqlQuery, QueryResults::asModel ); } }	QueryUtils { public static Model getModelFromRepo(Repository repository, String sparqlQuery) { Objects.requireNonNull(repository, REPOSITORY_MSG); Objects.requireNonNull(repository, SPARQL_QUERY_MSG); return Repositories.graphQuery( repository, sparqlQuery, QueryResults::asModel ); } private QueryUtils(); }	QueryUtils { public static Model getModelFromRepo(Repository repository, String sparqlQuery) { Objects.requireNonNull(repository, REPOSITORY_MSG); Objects.requireNonNull(repository, SPARQL_QUERY_MSG); return Repositories.graphQuery( repository, sparqlQuery, QueryResults::asModel ); } private QueryUtils(); static Model getModelFromRepo(Repository repository, String sparqlQuery); static Model getModelFromRepo(Repository repository, Resource... contexts); }	QueryUtils { public static Model getModelFromRepo(Repository repository, String sparqlQuery) { Objects.requireNonNull(repository, REPOSITORY_MSG); Objects.requireNonNull(repository, SPARQL_QUERY_MSG); return Repositories.graphQuery( repository, sparqlQuery, QueryResults::asModel ); } private QueryUtils(); static Model getModelFromRepo(Repository repository, String sparqlQuery); static Model getModelFromRepo(Repository repository, Resource... contexts); }
@Test public void modelGetter_givenSingleContext_shouldLoadAllStatementsOfContext() { Model model = QueryUtils.getModelFromRepo(repo, VF.createIRI(CONTEXT_A)); assertThat( String.format("The in-memory store should contain %s statemtents", REPO_CONTEXT_A_NR_STATEMENTS), model, hasSize(REPO_CONTEXT_A_NR_STATEMENTS) ); }	public static Model getModelFromRepo(Repository repository, String sparqlQuery) { Objects.requireNonNull(repository, REPOSITORY_MSG); Objects.requireNonNull(repository, SPARQL_QUERY_MSG); return Repositories.graphQuery( repository, sparqlQuery, QueryResults::asModel ); }	QueryUtils { public static Model getModelFromRepo(Repository repository, String sparqlQuery) { Objects.requireNonNull(repository, REPOSITORY_MSG); Objects.requireNonNull(repository, SPARQL_QUERY_MSG); return Repositories.graphQuery( repository, sparqlQuery, QueryResults::asModel ); } }	QueryUtils { public static Model getModelFromRepo(Repository repository, String sparqlQuery) { Objects.requireNonNull(repository, REPOSITORY_MSG); Objects.requireNonNull(repository, SPARQL_QUERY_MSG); return Repositories.graphQuery( repository, sparqlQuery, QueryResults::asModel ); } private QueryUtils(); }	QueryUtils { public static Model getModelFromRepo(Repository repository, String sparqlQuery) { Objects.requireNonNull(repository, REPOSITORY_MSG); Objects.requireNonNull(repository, SPARQL_QUERY_MSG); return Repositories.graphQuery( repository, sparqlQuery, QueryResults::asModel ); } private QueryUtils(); static Model getModelFromRepo(Repository repository, String sparqlQuery); static Model getModelFromRepo(Repository repository, Resource... contexts); }	QueryUtils { public static Model getModelFromRepo(Repository repository, String sparqlQuery) { Objects.requireNonNull(repository, REPOSITORY_MSG); Objects.requireNonNull(repository, SPARQL_QUERY_MSG); return Repositories.graphQuery( repository, sparqlQuery, QueryResults::asModel ); } private QueryUtils(); static Model getModelFromRepo(Repository repository, String sparqlQuery); static Model getModelFromRepo(Repository repository, Resource... contexts); }
@Test public void personLoader_givenPersonSelector_shouldLoadFourPeople() throws RDFParseException, UnsupportedRDFormatException, IOException { Set<Person> people = RdfObjectLoader.load(selectPersons, Person.class, model); assertThat("4 people should be loaded", people, hasSize(4)); }	public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); }	RdfObjectLoader { public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); } }	RdfObjectLoader { public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); } private RdfObjectLoader(); }	RdfObjectLoader { public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); } private RdfObjectLoader(); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter, Consumer<MappingCache> populateCache, Consumer<Mapper> configureMapper ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter, Consumer<MappingCache> populateCache, Consumer<Mapper> configureMapper, Set<Namespace> namespaces ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, String sparqlQuery ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, String sparqlQuery, UnaryOperator<Model> modelAdapter ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, Resource... contexts ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, UnaryOperator<Model> modelAdapter, Resource... contexts ); }	RdfObjectLoader { public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); } private RdfObjectLoader(); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter, Consumer<MappingCache> populateCache, Consumer<Mapper> configureMapper ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter, Consumer<MappingCache> populateCache, Consumer<Mapper> configureMapper, Set<Namespace> namespaces ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, String sparqlQuery ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, String sparqlQuery, UnaryOperator<Model> modelAdapter ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, Resource... contexts ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, UnaryOperator<Model> modelAdapter, Resource... contexts ); }
@Test public void personLoader_givenPersonSelector_shouldLoadFourPeopleOneWithAddress() throws RDFParseException, UnsupportedRDFormatException, IOException { Set<Person> people = RdfObjectLoader.load(selectPersons, Person.class, model); int peopleWithAddr = (int) people.stream() .filter(p -> p.getAddress() != null) .count(); assertThat("1 person with address should be loaded", peopleWithAddr, is(1)); }	public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); }	RdfObjectLoader { public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); } }	RdfObjectLoader { public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); } private RdfObjectLoader(); }	RdfObjectLoader { public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); } private RdfObjectLoader(); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter, Consumer<MappingCache> populateCache, Consumer<Mapper> configureMapper ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter, Consumer<MappingCache> populateCache, Consumer<Mapper> configureMapper, Set<Namespace> namespaces ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, String sparqlQuery ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, String sparqlQuery, UnaryOperator<Model> modelAdapter ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, Resource... contexts ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, UnaryOperator<Model> modelAdapter, Resource... contexts ); }	RdfObjectLoader { public static <T> Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ) { return load(resourceSelector, clazz, model, m -> m, c -> {}, m -> {}); } private RdfObjectLoader(); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter, Consumer<MappingCache> populateCache, Consumer<Mapper> configureMapper ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Model model, UnaryOperator<Model> modelAdapter, Consumer<MappingCache> populateCache, Consumer<Mapper> configureMapper, Set<Namespace> namespaces ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, String sparqlQuery ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, String sparqlQuery, UnaryOperator<Model> modelAdapter ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, Resource... contexts ); static Set<T> load( Function<Model, Set<Resource>> resourceSelector, Class<T> clazz, Repository repository, UnaryOperator<Model> modelAdapter, Resource... contexts ); }
@Test public void testParseOk() { Offset rb1 = at("right bottom"); Offset rb2 = at("right+20% bottom+25%"); Offset rb3 = at("right-20% bottom-25%"); Offset rb4 = at("right+5px bottom+2px"); Offset rb5 = at("right-5px bottom-2px"); Offset tl1 = at("left top"); Offset tl2 = at("left+20% top+25%"); Offset tl3 = at("left-20% top-25%"); Offset tl4 = at("left+5px top+2px"); Offset tl5 = at("left-5px top-2px"); Offset cc1 = at("center center"); Offset cc2 = at("center+20% center+25%"); Offset cc3 = at("center-20% center-25%"); Offset cc4 = at("center+5px center+2px"); Offset cc5 = at("center-5px center-2px"); Offset ii1 = at("-inf -inf"); Offset ii2 = at("+inf -inf"); Offset ii3 = at("-inf +inf"); Rectangle r = new Rectangle(200, 100, 150, 160); assertThat(rb1.apply(r), equalTo(new Point(350, 260))); assertThat(rb2.apply(r), equalTo(new Point(380, 300))); assertThat(rb3.apply(r), equalTo(new Point(320, 220))); assertThat(rb4.apply(r), equalTo(new Point(355, 262))); assertThat(rb5.apply(r), equalTo(new Point(345, 258))); assertThat(tl1.apply(r), equalTo(new Point(200, 100))); assertThat(tl2.apply(r), equalTo(new Point(230, 140))); assertThat(tl3.apply(r), equalTo(new Point(170, 60))); assertThat(tl4.apply(r), equalTo(new Point(205, 102))); assertThat(tl5.apply(r), equalTo(new Point(195, 98))); assertThat(cc1.apply(r), equalTo(new Point(275, 180))); assertThat(cc2.apply(r), equalTo(new Point(305, 220))); assertThat(cc3.apply(r), equalTo(new Point(245, 140))); assertThat(cc4.apply(r), equalTo(new Point(280, 182))); assertThat(cc5.apply(r), equalTo(new Point(270, 178))); assertThat(ii1.apply(r), equalTo(new Point(Integer.MIN_VALUE, Integer.MIN_VALUE))); assertThat(ii2.apply(r), equalTo(new Point(Integer.MAX_VALUE, Integer.MIN_VALUE))); assertThat(ii3.apply(r), equalTo(new Point(Integer.MIN_VALUE, Integer.MAX_VALUE))); }	public static Offset at(HorizontalOffset horizontal, VerticalOffset vertical) { return new InternalOffsets.OffsetImpl(horizontal, vertical); }	Offsets { public static Offset at(HorizontalOffset horizontal, VerticalOffset vertical) { return new InternalOffsets.OffsetImpl(horizontal, vertical); } }	Offsets { public static Offset at(HorizontalOffset horizontal, VerticalOffset vertical) { return new InternalOffsets.OffsetImpl(horizontal, vertical); } }	Offsets { public static Offset at(HorizontalOffset horizontal, VerticalOffset vertical) { return new InternalOffsets.OffsetImpl(horizontal, vertical); } static Offset at(HorizontalOffset horizontal, VerticalOffset vertical); static Offset at(String pos); }	Offsets { public static Offset at(HorizontalOffset horizontal, VerticalOffset vertical) { return new InternalOffsets.OffsetImpl(horizontal, vertical); } static Offset at(HorizontalOffset horizontal, VerticalOffset vertical); static Offset at(String pos); }
@Test(expected = ParseException.class) public void testParseVerticalFirstFail() { at("top right"); }	public static Offset at(HorizontalOffset horizontal, VerticalOffset vertical) { return new InternalOffsets.OffsetImpl(horizontal, vertical); }	Offsets { public static Offset at(HorizontalOffset horizontal, VerticalOffset vertical) { return new InternalOffsets.OffsetImpl(horizontal, vertical); } }	Offsets { public static Offset at(HorizontalOffset horizontal, VerticalOffset vertical) { return new InternalOffsets.OffsetImpl(horizontal, vertical); } }	Offsets { public static Offset at(HorizontalOffset horizontal, VerticalOffset vertical) { return new InternalOffsets.OffsetImpl(horizontal, vertical); } static Offset at(HorizontalOffset horizontal, VerticalOffset vertical); static Offset at(String pos); }	Offsets { public static Offset at(HorizontalOffset horizontal, VerticalOffset vertical) { return new InternalOffsets.OffsetImpl(horizontal, vertical); } static Offset at(HorizontalOffset horizontal, VerticalOffset vertical); static Offset at(String pos); }
@Test(expected = ParseException.class) public void testParseInvalidFail() { at("right20px top"); }	public static Offset at(HorizontalOffset horizontal, VerticalOffset vertical) { return new InternalOffsets.OffsetImpl(horizontal, vertical); }	Offsets { public static Offset at(HorizontalOffset horizontal, VerticalOffset vertical) { return new InternalOffsets.OffsetImpl(horizontal, vertical); } }	Offsets { public static Offset at(HorizontalOffset horizontal, VerticalOffset vertical) { return new InternalOffsets.OffsetImpl(horizontal, vertical); } }	Offsets { public static Offset at(HorizontalOffset horizontal, VerticalOffset vertical) { return new InternalOffsets.OffsetImpl(horizontal, vertical); } static Offset at(HorizontalOffset horizontal, VerticalOffset vertical); static Offset at(String pos); }	Offsets { public static Offset at(HorizontalOffset horizontal, VerticalOffset vertical) { return new InternalOffsets.OffsetImpl(horizontal, vertical); } static Offset at(HorizontalOffset horizontal, VerticalOffset vertical); static Offset at(String pos); }
@Test public void testToString() { assertThat(at(RIGHT.plus(20).percent(), BOTTOM.minus(25).pixels()).toString(), equalTo("right+20% bottom-25px")); }	public static Offset at(HorizontalOffset horizontal, VerticalOffset vertical) { return new InternalOffsets.OffsetImpl(horizontal, vertical); }	Offsets { public static Offset at(HorizontalOffset horizontal, VerticalOffset vertical) { return new InternalOffsets.OffsetImpl(horizontal, vertical); } }	Offsets { public static Offset at(HorizontalOffset horizontal, VerticalOffset vertical) { return new InternalOffsets.OffsetImpl(horizontal, vertical); } }	Offsets { public static Offset at(HorizontalOffset horizontal, VerticalOffset vertical) { return new InternalOffsets.OffsetImpl(horizontal, vertical); } static Offset at(HorizontalOffset horizontal, VerticalOffset vertical); static Offset at(String pos); }	Offsets { public static Offset at(HorizontalOffset horizontal, VerticalOffset vertical) { return new InternalOffsets.OffsetImpl(horizontal, vertical); } static Offset at(HorizontalOffset horizontal, VerticalOffset vertical); static Offset at(String pos); }
@Test public void testHello() { assertEquals("Hello world!", target("/").request().get(String.class)); }	@GET public static String hello() { return "Hello world!"; }	HelloDocker { @GET public static String hello() { return "Hello world!"; } }	HelloDocker { @GET public static String hello() { return "Hello world!"; } }	HelloDocker { @GET public static String hello() { return "Hello world!"; } @GET static String hello(); static void main(String[] args); }	HelloDocker { @GET public static String hello() { return "Hello world!"; } @GET static String hello(); static void main(String[] args); }
@Test(expected = UnsupportedOperationException.class) public void testGetSharedCacheMode() { pui.getSharedCacheMode(); }	@Override public SharedCacheMode getSharedCacheMode() { throw new UnsupportedOperationException(); }	MinijaxPersistenceUnitInfo implements javax.persistence.spi.PersistenceUnitInfo { @Override public SharedCacheMode getSharedCacheMode() { throw new UnsupportedOperationException(); } }	MinijaxPersistenceUnitInfo implements javax.persistence.spi.PersistenceUnitInfo { @Override public SharedCacheMode getSharedCacheMode() { throw new UnsupportedOperationException(); } MinijaxPersistenceUnitInfo(final String name, final String providerClassName); }	MinijaxPersistenceUnitInfo implements javax.persistence.spi.PersistenceUnitInfo { @Override public SharedCacheMode getSharedCacheMode() { throw new UnsupportedOperationException(); } MinijaxPersistenceUnitInfo(final String name, final String providerClassName); @Override String getPersistenceUnitName(); @Override String getPersistenceProviderClassName(); @Override List<String> getManagedClassNames(); @Override Properties getProperties(); @Override PersistenceUnitTransactionType getTransactionType(); @Override DataSource getJtaDataSource(); @Override DataSource getNonJtaDataSource(); @Override List<String> getMappingFileNames(); @Override List<URL> getJarFileUrls(); @Override URL getPersistenceUnitRootUrl(); @Override boolean excludeUnlistedClasses(); @Override SharedCacheMode getSharedCacheMode(); @Override ValidationMode getValidationMode(); @Override String getPersistenceXMLSchemaVersion(); @Override ClassLoader getClassLoader(); @Override void addTransformer(final ClassTransformer transformer); @Override ClassLoader getNewTempClassLoader(); }	MinijaxPersistenceUnitInfo implements javax.persistence.spi.PersistenceUnitInfo { @Override public SharedCacheMode getSharedCacheMode() { throw new UnsupportedOperationException(); } MinijaxPersistenceUnitInfo(final String name, final String providerClassName); @Override String getPersistenceUnitName(); @Override String getPersistenceProviderClassName(); @Override List<String> getManagedClassNames(); @Override Properties getProperties(); @Override PersistenceUnitTransactionType getTransactionType(); @Override DataSource getJtaDataSource(); @Override DataSource getNonJtaDataSource(); @Override List<String> getMappingFileNames(); @Override List<URL> getJarFileUrls(); @Override URL getPersistenceUnitRootUrl(); @Override boolean excludeUnlistedClasses(); @Override SharedCacheMode getSharedCacheMode(); @Override ValidationMode getValidationMode(); @Override String getPersistenceXMLSchemaVersion(); @Override ClassLoader getClassLoader(); @Override void addTransformer(final ClassTransformer transformer); @Override ClassLoader getNewTempClassLoader(); }
@Test(expected = UnsupportedOperationException.class) public void testGetValidationMode() { pui.getValidationMode(); }	@Override public ValidationMode getValidationMode() { throw new UnsupportedOperationException(); }	MinijaxPersistenceUnitInfo implements javax.persistence.spi.PersistenceUnitInfo { @Override public ValidationMode getValidationMode() { throw new UnsupportedOperationException(); } }	MinijaxPersistenceUnitInfo implements javax.persistence.spi.PersistenceUnitInfo { @Override public ValidationMode getValidationMode() { throw new UnsupportedOperationException(); } MinijaxPersistenceUnitInfo(final String name, final String providerClassName); }	MinijaxPersistenceUnitInfo implements javax.persistence.spi.PersistenceUnitInfo { @Override public ValidationMode getValidationMode() { throw new UnsupportedOperationException(); } MinijaxPersistenceUnitInfo(final String name, final String providerClassName); @Override String getPersistenceUnitName(); @Override String getPersistenceProviderClassName(); @Override List<String> getManagedClassNames(); @Override Properties getProperties(); @Override PersistenceUnitTransactionType getTransactionType(); @Override DataSource getJtaDataSource(); @Override DataSource getNonJtaDataSource(); @Override List<String> getMappingFileNames(); @Override List<URL> getJarFileUrls(); @Override URL getPersistenceUnitRootUrl(); @Override boolean excludeUnlistedClasses(); @Override SharedCacheMode getSharedCacheMode(); @Override ValidationMode getValidationMode(); @Override String getPersistenceXMLSchemaVersion(); @Override ClassLoader getClassLoader(); @Override void addTransformer(final ClassTransformer transformer); @Override ClassLoader getNewTempClassLoader(); }	MinijaxPersistenceUnitInfo implements javax.persistence.spi.PersistenceUnitInfo { @Override public ValidationMode getValidationMode() { throw new UnsupportedOperationException(); } MinijaxPersistenceUnitInfo(final String name, final String providerClassName); @Override String getPersistenceUnitName(); @Override String getPersistenceProviderClassName(); @Override List<String> getManagedClassNames(); @Override Properties getProperties(); @Override PersistenceUnitTransactionType getTransactionType(); @Override DataSource getJtaDataSource(); @Override DataSource getNonJtaDataSource(); @Override List<String> getMappingFileNames(); @Override List<URL> getJarFileUrls(); @Override URL getPersistenceUnitRootUrl(); @Override boolean excludeUnlistedClasses(); @Override SharedCacheMode getSharedCacheMode(); @Override ValidationMode getValidationMode(); @Override String getPersistenceXMLSchemaVersion(); @Override ClassLoader getClassLoader(); @Override void addTransformer(final ClassTransformer transformer); @Override ClassLoader getNewTempClassLoader(); }
@Test(expected = UnsupportedOperationException.class) public void testGetPersistenceXMLSchemaVersion() { pui.getPersistenceXMLSchemaVersion(); }	@Override public String getPersistenceXMLSchemaVersion() { throw new UnsupportedOperationException(); }	MinijaxPersistenceUnitInfo implements javax.persistence.spi.PersistenceUnitInfo { @Override public String getPersistenceXMLSchemaVersion() { throw new UnsupportedOperationException(); } }	MinijaxPersistenceUnitInfo implements javax.persistence.spi.PersistenceUnitInfo { @Override public String getPersistenceXMLSchemaVersion() { throw new UnsupportedOperationException(); } MinijaxPersistenceUnitInfo(final String name, final String providerClassName); }	MinijaxPersistenceUnitInfo implements javax.persistence.spi.PersistenceUnitInfo { @Override public String getPersistenceXMLSchemaVersion() { throw new UnsupportedOperationException(); } MinijaxPersistenceUnitInfo(final String name, final String providerClassName); @Override String getPersistenceUnitName(); @Override String getPersistenceProviderClassName(); @Override List<String> getManagedClassNames(); @Override Properties getProperties(); @Override PersistenceUnitTransactionType getTransactionType(); @Override DataSource getJtaDataSource(); @Override DataSource getNonJtaDataSource(); @Override List<String> getMappingFileNames(); @Override List<URL> getJarFileUrls(); @Override URL getPersistenceUnitRootUrl(); @Override boolean excludeUnlistedClasses(); @Override SharedCacheMode getSharedCacheMode(); @Override ValidationMode getValidationMode(); @Override String getPersistenceXMLSchemaVersion(); @Override ClassLoader getClassLoader(); @Override void addTransformer(final ClassTransformer transformer); @Override ClassLoader getNewTempClassLoader(); }	MinijaxPersistenceUnitInfo implements javax.persistence.spi.PersistenceUnitInfo { @Override public String getPersistenceXMLSchemaVersion() { throw new UnsupportedOperationException(); } MinijaxPersistenceUnitInfo(final String name, final String providerClassName); @Override String getPersistenceUnitName(); @Override String getPersistenceProviderClassName(); @Override List<String> getManagedClassNames(); @Override Properties getProperties(); @Override PersistenceUnitTransactionType getTransactionType(); @Override DataSource getJtaDataSource(); @Override DataSource getNonJtaDataSource(); @Override List<String> getMappingFileNames(); @Override List<URL> getJarFileUrls(); @Override URL getPersistenceUnitRootUrl(); @Override boolean excludeUnlistedClasses(); @Override SharedCacheMode getSharedCacheMode(); @Override ValidationMode getValidationMode(); @Override String getPersistenceXMLSchemaVersion(); @Override ClassLoader getClassLoader(); @Override void addTransformer(final ClassTransformer transformer); @Override ClassLoader getNewTempClassLoader(); }
@Test(expected = UnsupportedOperationException.class) public void testGetClassLoader() { pui.getClassLoader(); }	@Override public ClassLoader getClassLoader() { throw new UnsupportedOperationException(); }	MinijaxPersistenceUnitInfo implements javax.persistence.spi.PersistenceUnitInfo { @Override public ClassLoader getClassLoader() { throw new UnsupportedOperationException(); } }	MinijaxPersistenceUnitInfo implements javax.persistence.spi.PersistenceUnitInfo { @Override public ClassLoader getClassLoader() { throw new UnsupportedOperationException(); } MinijaxPersistenceUnitInfo(final String name, final String providerClassName); }	MinijaxPersistenceUnitInfo implements javax.persistence.spi.PersistenceUnitInfo { @Override public ClassLoader getClassLoader() { throw new UnsupportedOperationException(); } MinijaxPersistenceUnitInfo(final String name, final String providerClassName); @Override String getPersistenceUnitName(); @Override String getPersistenceProviderClassName(); @Override List<String> getManagedClassNames(); @Override Properties getProperties(); @Override PersistenceUnitTransactionType getTransactionType(); @Override DataSource getJtaDataSource(); @Override DataSource getNonJtaDataSource(); @Override List<String> getMappingFileNames(); @Override List<URL> getJarFileUrls(); @Override URL getPersistenceUnitRootUrl(); @Override boolean excludeUnlistedClasses(); @Override SharedCacheMode getSharedCacheMode(); @Override ValidationMode getValidationMode(); @Override String getPersistenceXMLSchemaVersion(); @Override ClassLoader getClassLoader(); @Override void addTransformer(final ClassTransformer transformer); @Override ClassLoader getNewTempClassLoader(); }	MinijaxPersistenceUnitInfo implements javax.persistence.spi.PersistenceUnitInfo { @Override public ClassLoader getClassLoader() { throw new UnsupportedOperationException(); } MinijaxPersistenceUnitInfo(final String name, final String providerClassName); @Override String getPersistenceUnitName(); @Override String getPersistenceProviderClassName(); @Override List<String> getManagedClassNames(); @Override Properties getProperties(); @Override PersistenceUnitTransactionType getTransactionType(); @Override DataSource getJtaDataSource(); @Override DataSource getNonJtaDataSource(); @Override List<String> getMappingFileNames(); @Override List<URL> getJarFileUrls(); @Override URL getPersistenceUnitRootUrl(); @Override boolean excludeUnlistedClasses(); @Override SharedCacheMode getSharedCacheMode(); @Override ValidationMode getValidationMode(); @Override String getPersistenceXMLSchemaVersion(); @Override ClassLoader getClassLoader(); @Override void addTransformer(final ClassTransformer transformer); @Override ClassLoader getNewTempClassLoader(); }
@Test(expected = UnsupportedOperationException.class) public void testAddTransformer() { pui.addTransformer(null); }	@Override public void addTransformer(final ClassTransformer transformer) { throw new UnsupportedOperationException(); }	MinijaxPersistenceUnitInfo implements javax.persistence.spi.PersistenceUnitInfo { @Override public void addTransformer(final ClassTransformer transformer) { throw new UnsupportedOperationException(); } }	MinijaxPersistenceUnitInfo implements javax.persistence.spi.PersistenceUnitInfo { @Override public void addTransformer(final ClassTransformer transformer) { throw new UnsupportedOperationException(); } MinijaxPersistenceUnitInfo(final String name, final String providerClassName); }	MinijaxPersistenceUnitInfo implements javax.persistence.spi.PersistenceUnitInfo { @Override public void addTransformer(final ClassTransformer transformer) { throw new UnsupportedOperationException(); } MinijaxPersistenceUnitInfo(final String name, final String providerClassName); @Override String getPersistenceUnitName(); @Override String getPersistenceProviderClassName(); @Override List<String> getManagedClassNames(); @Override Properties getProperties(); @Override PersistenceUnitTransactionType getTransactionType(); @Override DataSource getJtaDataSource(); @Override DataSource getNonJtaDataSource(); @Override List<String> getMappingFileNames(); @Override List<URL> getJarFileUrls(); @Override URL getPersistenceUnitRootUrl(); @Override boolean excludeUnlistedClasses(); @Override SharedCacheMode getSharedCacheMode(); @Override ValidationMode getValidationMode(); @Override String getPersistenceXMLSchemaVersion(); @Override ClassLoader getClassLoader(); @Override void addTransformer(final ClassTransformer transformer); @Override ClassLoader getNewTempClassLoader(); }	MinijaxPersistenceUnitInfo implements javax.persistence.spi.PersistenceUnitInfo { @Override public void addTransformer(final ClassTransformer transformer) { throw new UnsupportedOperationException(); } MinijaxPersistenceUnitInfo(final String name, final String providerClassName); @Override String getPersistenceUnitName(); @Override String getPersistenceProviderClassName(); @Override List<String> getManagedClassNames(); @Override Properties getProperties(); @Override PersistenceUnitTransactionType getTransactionType(); @Override DataSource getJtaDataSource(); @Override DataSource getNonJtaDataSource(); @Override List<String> getMappingFileNames(); @Override List<URL> getJarFileUrls(); @Override URL getPersistenceUnitRootUrl(); @Override boolean excludeUnlistedClasses(); @Override SharedCacheMode getSharedCacheMode(); @Override ValidationMode getValidationMode(); @Override String getPersistenceXMLSchemaVersion(); @Override ClassLoader getClassLoader(); @Override void addTransformer(final ClassTransformer transformer); @Override ClassLoader getNewTempClassLoader(); }
@Test(expected = UnsupportedOperationException.class) public void testGetNewTempClassLoader() { pui.getNewTempClassLoader(); }	@Override public ClassLoader getNewTempClassLoader() { throw new UnsupportedOperationException(); }	MinijaxPersistenceUnitInfo implements javax.persistence.spi.PersistenceUnitInfo { @Override public ClassLoader getNewTempClassLoader() { throw new UnsupportedOperationException(); } }	MinijaxPersistenceUnitInfo implements javax.persistence.spi.PersistenceUnitInfo { @Override public ClassLoader getNewTempClassLoader() { throw new UnsupportedOperationException(); } MinijaxPersistenceUnitInfo(final String name, final String providerClassName); }	MinijaxPersistenceUnitInfo implements javax.persistence.spi.PersistenceUnitInfo { @Override public ClassLoader getNewTempClassLoader() { throw new UnsupportedOperationException(); } MinijaxPersistenceUnitInfo(final String name, final String providerClassName); @Override String getPersistenceUnitName(); @Override String getPersistenceProviderClassName(); @Override List<String> getManagedClassNames(); @Override Properties getProperties(); @Override PersistenceUnitTransactionType getTransactionType(); @Override DataSource getJtaDataSource(); @Override DataSource getNonJtaDataSource(); @Override List<String> getMappingFileNames(); @Override List<URL> getJarFileUrls(); @Override URL getPersistenceUnitRootUrl(); @Override boolean excludeUnlistedClasses(); @Override SharedCacheMode getSharedCacheMode(); @Override ValidationMode getValidationMode(); @Override String getPersistenceXMLSchemaVersion(); @Override ClassLoader getClassLoader(); @Override void addTransformer(final ClassTransformer transformer); @Override ClassLoader getNewTempClassLoader(); }	MinijaxPersistenceUnitInfo implements javax.persistence.spi.PersistenceUnitInfo { @Override public ClassLoader getNewTempClassLoader() { throw new UnsupportedOperationException(); } MinijaxPersistenceUnitInfo(final String name, final String providerClassName); @Override String getPersistenceUnitName(); @Override String getPersistenceProviderClassName(); @Override List<String> getManagedClassNames(); @Override Properties getProperties(); @Override PersistenceUnitTransactionType getTransactionType(); @Override DataSource getJtaDataSource(); @Override DataSource getNonJtaDataSource(); @Override List<String> getMappingFileNames(); @Override List<URL> getJarFileUrls(); @Override URL getPersistenceUnitRootUrl(); @Override boolean excludeUnlistedClasses(); @Override SharedCacheMode getSharedCacheMode(); @Override ValidationMode getValidationMode(); @Override String getPersistenceXMLSchemaVersion(); @Override ClassLoader getClassLoader(); @Override void addTransformer(final ClassTransformer transformer); @Override ClassLoader getNewTempClassLoader(); }
@Test public void testParseSelect() { final MinijaxCriteriaQuery<Widget> query = Parser.parse( em.getCriteriaBuilder(), Widget.class, Tokenizer.tokenize("SELECT w FROM Widget w WHERE id = :id")); assertNotNull(query); }	private MinijaxCriteriaQuery<T> parseSelect() { consume(TokenType.KEYWORD_SELECT); query = cb.createQuery(resultType); while (getCurr().getTokenType() != TokenType.KEYWORD_FROM) { index++; } consume(TokenType.KEYWORD_FROM); final MinijaxEntityType<T> resultEntityType = cb.getMetamodel().entity(resultType); final String entityTypeName = consume(TokenType.SYMBOL).getValue(); if (!resultEntityType.getName().equals(entityTypeName)) { throw new PersistenceException( "Result type does not match entity type name (resultEntityType=" + resultEntityType.getName() + ", entityTypeName=" + entityTypeName + ")"); } root = query.from(resultType); final String entityTypeAlias = consume(TokenType.SYMBOL).getValue(); root.alias(entityTypeAlias); while (!eof()) { final Token curr = getCurr(); switch (curr.getTokenType()) { case KEYWORD_WHERE: parseWhere(); break; case KEYWORD_ORDER: parseOrderBy(); break; default: throw new PersistenceException("Unexpected token: " + curr); } } return query; }	Parser { private MinijaxCriteriaQuery<T> parseSelect() { consume(TokenType.KEYWORD_SELECT); query = cb.createQuery(resultType); while (getCurr().getTokenType() != TokenType.KEYWORD_FROM) { index++; } consume(TokenType.KEYWORD_FROM); final MinijaxEntityType<T> resultEntityType = cb.getMetamodel().entity(resultType); final String entityTypeName = consume(TokenType.SYMBOL).getValue(); if (!resultEntityType.getName().equals(entityTypeName)) { throw new PersistenceException( "Result type does not match entity type name (resultEntityType=" + resultEntityType.getName() + ", entityTypeName=" + entityTypeName + ")"); } root = query.from(resultType); final String entityTypeAlias = consume(TokenType.SYMBOL).getValue(); root.alias(entityTypeAlias); while (!eof()) { final Token curr = getCurr(); switch (curr.getTokenType()) { case KEYWORD_WHERE: parseWhere(); break; case KEYWORD_ORDER: parseOrderBy(); break; default: throw new PersistenceException("Unexpected token: " + curr); } } return query; } }	Parser { private MinijaxCriteriaQuery<T> parseSelect() { consume(TokenType.KEYWORD_SELECT); query = cb.createQuery(resultType); while (getCurr().getTokenType() != TokenType.KEYWORD_FROM) { index++; } consume(TokenType.KEYWORD_FROM); final MinijaxEntityType<T> resultEntityType = cb.getMetamodel().entity(resultType); final String entityTypeName = consume(TokenType.SYMBOL).getValue(); if (!resultEntityType.getName().equals(entityTypeName)) { throw new PersistenceException( "Result type does not match entity type name (resultEntityType=" + resultEntityType.getName() + ", entityTypeName=" + entityTypeName + ")"); } root = query.from(resultType); final String entityTypeAlias = consume(TokenType.SYMBOL).getValue(); root.alias(entityTypeAlias); while (!eof()) { final Token curr = getCurr(); switch (curr.getTokenType()) { case KEYWORD_WHERE: parseWhere(); break; case KEYWORD_ORDER: parseOrderBy(); break; default: throw new PersistenceException("Unexpected token: " + curr); } } return query; } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }	Parser { private MinijaxCriteriaQuery<T> parseSelect() { consume(TokenType.KEYWORD_SELECT); query = cb.createQuery(resultType); while (getCurr().getTokenType() != TokenType.KEYWORD_FROM) { index++; } consume(TokenType.KEYWORD_FROM); final MinijaxEntityType<T> resultEntityType = cb.getMetamodel().entity(resultType); final String entityTypeName = consume(TokenType.SYMBOL).getValue(); if (!resultEntityType.getName().equals(entityTypeName)) { throw new PersistenceException( "Result type does not match entity type name (resultEntityType=" + resultEntityType.getName() + ", entityTypeName=" + entityTypeName + ")"); } root = query.from(resultType); final String entityTypeAlias = consume(TokenType.SYMBOL).getValue(); root.alias(entityTypeAlias); while (!eof()) { final Token curr = getCurr(); switch (curr.getTokenType()) { case KEYWORD_WHERE: parseWhere(); break; case KEYWORD_ORDER: parseOrderBy(); break; default: throw new PersistenceException("Unexpected token: " + curr); } } return query; } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); static MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }	Parser { private MinijaxCriteriaQuery<T> parseSelect() { consume(TokenType.KEYWORD_SELECT); query = cb.createQuery(resultType); while (getCurr().getTokenType() != TokenType.KEYWORD_FROM) { index++; } consume(TokenType.KEYWORD_FROM); final MinijaxEntityType<T> resultEntityType = cb.getMetamodel().entity(resultType); final String entityTypeName = consume(TokenType.SYMBOL).getValue(); if (!resultEntityType.getName().equals(entityTypeName)) { throw new PersistenceException( "Result type does not match entity type name (resultEntityType=" + resultEntityType.getName() + ", entityTypeName=" + entityTypeName + ")"); } root = query.from(resultType); final String entityTypeAlias = consume(TokenType.SYMBOL).getValue(); root.alias(entityTypeAlias); while (!eof()) { final Token curr = getCurr(); switch (curr.getTokenType()) { case KEYWORD_WHERE: parseWhere(); break; case KEYWORD_ORDER: parseOrderBy(); break; default: throw new PersistenceException("Unexpected token: " + curr); } } return query; } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); static MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }
@Test public void testParseSelectConjunction() { final MinijaxCriteriaQuery<Widget> query = Parser.parse( em.getCriteriaBuilder(), Widget.class, Tokenizer.tokenize("SELECT w FROM Widget w WHERE id = :id AND name = :name")); assertNotNull(query); }	public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); static MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); static MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }
@Test public void testParseSelectDisjunction() { final MinijaxCriteriaQuery<Widget> query = Parser.parse( em.getCriteriaBuilder(), Widget.class, Tokenizer.tokenize("SELECT w FROM Widget w WHERE id = :id OR name = :name")); assertNotNull(query); }	public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); static MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); static MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }
@Test public void testParseEqualsNamedVariable() { final MinijaxCriteriaQuery<Widget> query = Parser.parse( em.getCriteriaBuilder(), Widget.class, Tokenizer.tokenize("SELECT w FROM Widget w WHERE w.name = :names")); assertNotNull(query); }	public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); static MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); static MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }
@Test public void testHello() { assertEquals("Hello world!", target("/").request().get(String.class)); }	@GET public static String hello() { return "Hello world!"; }	Hello { @GET public static String hello() { return "Hello world!"; } }	Hello { @GET public static String hello() { return "Hello world!"; } }	Hello { @GET public static String hello() { return "Hello world!"; } @GET static String hello(); static void main(String[] args); }	Hello { @GET public static String hello() { return "Hello world!"; } @GET static String hello(); static void main(String[] args); }
@Test public void testParseIsNull() { final MinijaxCriteriaQuery<Widget> query = Parser.parse( em.getCriteriaBuilder(), Widget.class, Tokenizer.tokenize("SELECT w FROM Widget w WHERE w.name IS NULL")); assertNotNull(query); }	public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); static MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); static MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }
@Test public void testParseIsNotNull() { final MinijaxCriteriaQuery<Widget> query = Parser.parse( em.getCriteriaBuilder(), Widget.class, Tokenizer.tokenize("SELECT w FROM Widget w WHERE w.name IS NOT NULL")); assertNotNull(query); }	public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); static MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); static MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }
@Test public void testParseIn() { final MinijaxCriteriaQuery<Widget> query = Parser.parse( em.getCriteriaBuilder(), Widget.class, Tokenizer.tokenize("SELECT w FROM Widget w WHERE w.name IN('foo', 'bar')")); assertNotNull(query); }	public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); static MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); static MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }
@Test public void testParseInNamedVariable() { final MinijaxCriteriaQuery<Widget> query = Parser.parse( em.getCriteriaBuilder(), Widget.class, Tokenizer.tokenize("SELECT w FROM Widget w WHERE w.name IN :names")); assertNotNull(query); }	public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); static MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); static MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }
@Test public void testParseOrderBy() { final MinijaxCriteriaQuery<Widget> query = Parser.parse( em.getCriteriaBuilder(), Widget.class, Tokenizer.tokenize("SELECT w FROM Widget w ORDER BY w.name")); assertNotNull(query); }	private void parseOrderBy() { consume(TokenType.KEYWORD_ORDER); consume(TokenType.KEYWORD_BY); final MinijaxPath<?> path = parsePath(); boolean ascending = true; if (index < tokens.size()) { final Token curr = getCurr(); if (curr.getTokenType() == TokenType.KEYWORD_ASC) { consume(TokenType.KEYWORD_ASC); } else if (curr.getTokenType() == TokenType.KEYWORD_DESC) { consume(TokenType.KEYWORD_DESC); ascending = false; } } query.orderBy(new MinijaxOrder(path, ascending)); }	Parser { private void parseOrderBy() { consume(TokenType.KEYWORD_ORDER); consume(TokenType.KEYWORD_BY); final MinijaxPath<?> path = parsePath(); boolean ascending = true; if (index < tokens.size()) { final Token curr = getCurr(); if (curr.getTokenType() == TokenType.KEYWORD_ASC) { consume(TokenType.KEYWORD_ASC); } else if (curr.getTokenType() == TokenType.KEYWORD_DESC) { consume(TokenType.KEYWORD_DESC); ascending = false; } } query.orderBy(new MinijaxOrder(path, ascending)); } }	Parser { private void parseOrderBy() { consume(TokenType.KEYWORD_ORDER); consume(TokenType.KEYWORD_BY); final MinijaxPath<?> path = parsePath(); boolean ascending = true; if (index < tokens.size()) { final Token curr = getCurr(); if (curr.getTokenType() == TokenType.KEYWORD_ASC) { consume(TokenType.KEYWORD_ASC); } else if (curr.getTokenType() == TokenType.KEYWORD_DESC) { consume(TokenType.KEYWORD_DESC); ascending = false; } } query.orderBy(new MinijaxOrder(path, ascending)); } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }	Parser { private void parseOrderBy() { consume(TokenType.KEYWORD_ORDER); consume(TokenType.KEYWORD_BY); final MinijaxPath<?> path = parsePath(); boolean ascending = true; if (index < tokens.size()) { final Token curr = getCurr(); if (curr.getTokenType() == TokenType.KEYWORD_ASC) { consume(TokenType.KEYWORD_ASC); } else if (curr.getTokenType() == TokenType.KEYWORD_DESC) { consume(TokenType.KEYWORD_DESC); ascending = false; } } query.orderBy(new MinijaxOrder(path, ascending)); } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); static MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }	Parser { private void parseOrderBy() { consume(TokenType.KEYWORD_ORDER); consume(TokenType.KEYWORD_BY); final MinijaxPath<?> path = parsePath(); boolean ascending = true; if (index < tokens.size()) { final Token curr = getCurr(); if (curr.getTokenType() == TokenType.KEYWORD_ASC) { consume(TokenType.KEYWORD_ASC); } else if (curr.getTokenType() == TokenType.KEYWORD_DESC) { consume(TokenType.KEYWORD_DESC); ascending = false; } } query.orderBy(new MinijaxOrder(path, ascending)); } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); static MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }
@Test public void testParseOrderByAsc() { final MinijaxCriteriaQuery<Widget> query = Parser.parse( em.getCriteriaBuilder(), Widget.class, Tokenizer.tokenize("SELECT w FROM Widget w ORDER BY w.name ASC")); assertNotNull(query); }	public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); static MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); static MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }
@Test public void testParseOrderByDesc() { final MinijaxCriteriaQuery<Widget> query = Parser.parse( em.getCriteriaBuilder(), Widget.class, Tokenizer.tokenize("SELECT w FROM Widget w ORDER BY w.name DESC")); assertNotNull(query); }	public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); static MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }	Parser { public static <T> MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens) { return new Parser<>(cb, resultType, tokens).parse(); } private Parser(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); static MinijaxCriteriaQuery<T> parse(final MinijaxCriteriaBuilder cb, final Class<T> resultType, final List<Token> tokens); }
@Test public void testSelectByVariable() { final List<Token> tokens = Tokenizer.tokenize("SELECT w FROM Widget w WHERE id = :id"); assertNotNull(tokens); assertEquals(9, tokens.size()); final List<Token> expected = Arrays.asList( new Token(TokenType.KEYWORD_SELECT, "SELECT", 1, 1), new Token(TokenType.SYMBOL, "w", 1, 8), new Token(TokenType.KEYWORD_FROM, "FROM", 1, 10), new Token(TokenType.SYMBOL, "Widget", 1, 15), new Token(TokenType.SYMBOL, "w", 1, 22), new Token(TokenType.KEYWORD_WHERE, "WHERE", 1, 24), new Token(TokenType.SYMBOL, "id", 1, 30), new Token(TokenType.EQUALS, "=", 1, 33), new Token(TokenType.NAMED_PARAMETER, "id", 1, 35)); assertEquals(expected, tokens); }	public static List<Token> tokenize(final String str) { return new Tokenizer(str).tokenize(); }	Tokenizer { public static List<Token> tokenize(final String str) { return new Tokenizer(str).tokenize(); } }	Tokenizer { public static List<Token> tokenize(final String str) { return new Tokenizer(str).tokenize(); } private Tokenizer(final String str); }	Tokenizer { public static List<Token> tokenize(final String str) { return new Tokenizer(str).tokenize(); } private Tokenizer(final String str); static List<Token> tokenize(final String str); }	Tokenizer { public static List<Token> tokenize(final String str) { return new Tokenizer(str).tokenize(); } private Tokenizer(final String str); static List<Token> tokenize(final String str); }
@Test public void testSelectByNumber() { final List<Token> tokens = Tokenizer.tokenize("SELECT w FROM Widget w WHERE id = 123"); assertNotNull(tokens); assertEquals(9, tokens.size()); final List<Token> expected = Arrays.asList( new Token(TokenType.KEYWORD_SELECT, "SELECT", 1, 1), new Token(TokenType.SYMBOL, "w", 1, 8), new Token(TokenType.KEYWORD_FROM, "FROM", 1, 10), new Token(TokenType.SYMBOL, "Widget", 1, 15), new Token(TokenType.SYMBOL, "w", 1, 22), new Token(TokenType.KEYWORD_WHERE, "WHERE", 1, 24), new Token(TokenType.SYMBOL, "id", 1, 30), new Token(TokenType.EQUALS, "=", 1, 33), new Token(TokenType.NUMBER, "123", 1, 35)); assertEquals(expected, tokens); }	public static List<Token> tokenize(final String str) { return new Tokenizer(str).tokenize(); }	Tokenizer { public static List<Token> tokenize(final String str) { return new Tokenizer(str).tokenize(); } }	Tokenizer { public static List<Token> tokenize(final String str) { return new Tokenizer(str).tokenize(); } private Tokenizer(final String str); }	Tokenizer { public static List<Token> tokenize(final String str) { return new Tokenizer(str).tokenize(); } private Tokenizer(final String str); static List<Token> tokenize(final String str); }	Tokenizer { public static List<Token> tokenize(final String str) { return new Tokenizer(str).tokenize(); } private Tokenizer(final String str); static List<Token> tokenize(final String str); }

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