rem
stringlengths 0
322k
| add
stringlengths 0
2.05M
| context
stringlengths 8
228k
|
|---|---|---|
def end_fill(): _getpen.end_fill() | def end_fill(): _getpen().end_fill() | def end_fill(): _getpen.end_fill() |
>>> d._fancy_replace(['abcDefghiJkl\n'], 0, 1, ['abcdefGhijkl\n'], 0, 1) >>> print ''.join(d.results), | >>> results = d._fancy_replace(['abcDefghiJkl\n'], 0, 1, ... ['abcdefGhijkl\n'], 0, 1) >>> print ''.join(results), | def _fancy_replace(self, a, alo, ahi, b, blo, bhi): r""" When replacing one block of lines with another, search the blocks for *similar* lines; the best-matching pair (if any) is used as a synch point, and intraline difference marking is done on the similar pair. Lots of work, but often worth it. |
>>> d._qformat('\tabcDefghiJkl\n', '\t\tabcdefGhijkl\n', ... ' ^ ^ ^ ', '+ ^ ^ ^ ') >>> for line in d.results: print repr(line) | >>> results = d._qformat('\tabcDefghiJkl\n', '\t\tabcdefGhijkl\n', ... ' ^ ^ ^ ', '+ ^ ^ ^ ') >>> for line in results: print repr(line) | def _qformat(self, aline, bline, atags, btags): r""" Format "?" output and deal with leading tabs. |
try: os.mkdir(homeDir) except os.error: pass | try: os.mkdir(homeDir) except os.error: import glob files = glob.glob(os.path.join(self.homeDir, '*')) for file in files: os.remove(file) | def setUp(self): self.filename = self.__class__.__name__ + '.db' homeDir = os.path.join(os.path.dirname(sys.argv[0]), 'db_home') self.homeDir = homeDir try: os.mkdir(homeDir) except os.error: pass self.env = db.DBEnv() self.env.open(homeDir, db.DB_CREATE | db.DB_INIT_MPOOL) |
try: os.mkdir(homeDir) except os.error: pass | try: os.mkdir(homeDir) except os.error: import glob files = glob.glob(os.path.join(self.homeDir, '*')) for file in files: os.remove(file) | def setUp(self): self.filename = self.__class__.__name__ + '.db' homeDir = os.path.join(os.path.dirname(sys.argv[0]), 'db_home') self.homeDir = homeDir try: os.mkdir(homeDir) except os.error: pass self.env = db.DBEnv() self.env.open(homeDir, db.DB_CREATE | db.DB_INIT_MPOOL | db.DB_INIT_LOCK | db.DB_THREAD | self.envFlags) |
secDB = db.DB(self.env) secDB.set_flags(db.DB_DUP) secDB.set_get_returns_none(2) secDB.open(self.filename, "secondary", db.DB_BTREE, | self.secDB = db.DB(self.env) self.secDB.set_flags(db.DB_DUP) self.secDB.set_get_returns_none(2) self.secDB.open(self.filename, "secondary", db.DB_BTREE, | def test01_associateWithDB(self): if verbose: print '\n', '-=' * 30 print "Running %s.test01_associateWithDB..." % \ self.__class__.__name__ |
self.getDB().associate(secDB, self.getGenre) | self.getDB().associate(self.secDB, self.getGenre) | def test01_associateWithDB(self): if verbose: print '\n', '-=' * 30 print "Running %s.test01_associateWithDB..." % \ self.__class__.__name__ |
self.finish_test(secDB) | self.finish_test(self.secDB) | def test01_associateWithDB(self): if verbose: print '\n', '-=' * 30 print "Running %s.test01_associateWithDB..." % \ self.__class__.__name__ |
secDB = db.DB(self.env) secDB.set_flags(db.DB_DUP) secDB.open(self.filename, "secondary", db.DB_BTREE, | self.secDB = db.DB(self.env) self.secDB.set_flags(db.DB_DUP) self.secDB.open(self.filename, "secondary", db.DB_BTREE, | def test02_associateAfterDB(self): if verbose: print '\n', '-=' * 30 print "Running %s.test02_associateAfterDB..." % \ self.__class__.__name__ |
self.getDB().associate(secDB, self.getGenre, db.DB_CREATE) self.finish_test(secDB) | self.getDB().associate(self.secDB, self.getGenre, db.DB_CREATE) self.finish_test(self.secDB) | def test02_associateAfterDB(self): if verbose: print '\n', '-=' * 30 print "Running %s.test02_associateAfterDB..." % \ self.__class__.__name__ |
c = self.getDB().cursor(txn) | self.cur = self.getDB().cursor(txn) | def finish_test(self, secDB, txn=None): # 'Blues' should not be in the secondary database vals = secDB.pget('Blues', txn=txn) assert vals == None, vals |
rec = c.first() | rec = self.cur.first() | def finish_test(self, secDB, txn=None): # 'Blues' should not be in the secondary database vals = secDB.pget('Blues', txn=txn) assert vals == None, vals |
rec = c.next() | rec = self.cur.next() | def finish_test(self, secDB, txn=None): # 'Blues' should not be in the secondary database vals = secDB.pget('Blues', txn=txn) assert vals == None, vals |
c = secDB.cursor(txn) | self.cur = secDB.cursor(txn) | def finish_test(self, secDB, txn=None): # 'Blues' should not be in the secondary database vals = secDB.pget('Blues', txn=txn) assert vals == None, vals |
vals = c.pget('Unknown', flags=db.DB_LAST) | vals = self.cur.pget('Unknown', flags=db.DB_LAST) | def finish_test(self, secDB, txn=None): # 'Blues' should not be in the secondary database vals = secDB.pget('Blues', txn=txn) assert vals == None, vals |
vals = c.pget('Unknown', data='wrong value', flags=db.DB_GET_BOTH) | vals = self.cur.pget('Unknown', data='wrong value', flags=db.DB_GET_BOTH) | def finish_test(self, secDB, txn=None): # 'Blues' should not be in the secondary database vals = secDB.pget('Blues', txn=txn) assert vals == None, vals |
def test13_associateAutoCommit(self): | def txn_finish_test(self, sDB, txn): try: self.finish_test(sDB, txn=txn) finally: if self.cur: self.cur.close() self.cur = None if txn: txn.commit() def test13_associate_in_transaction(self): | def test13_associateAutoCommit(self): if verbose: print '\n', '-=' * 30 print "Running %s.test13_associateAutoCommit..." % \ self.__class__.__name__ |
secDB = db.DB(self.env) secDB.set_flags(db.DB_DUP) secDB.set_get_returns_none(2) secDB.open(self.filename, "secondary", db.DB_BTREE, | self.secDB = db.DB(self.env) self.secDB.set_flags(db.DB_DUP) self.secDB.set_get_returns_none(2) self.secDB.open(self.filename, "secondary", db.DB_BTREE, | def test13_associateAutoCommit(self): if verbose: print '\n', '-=' * 30 print "Running %s.test13_associateAutoCommit..." % \ self.__class__.__name__ |
self.getDB().associate(secDB, self.getGenre, txn=txn) | self.getDB().associate(self.secDB, self.getGenre, txn=txn) | def test13_associateAutoCommit(self): if verbose: print '\n', '-=' * 30 print "Running %s.test13_associateAutoCommit..." % \ self.__class__.__name__ |
self.finish_test(secDB, txn=txn) finally: txn.commit() | except: txn.abort() raise self.txn_finish_test(self.secDB, txn=txn) | def test13_associateAutoCommit(self): if verbose: print '\n', '-=' * 30 print "Running %s.test13_associateAutoCommit..." % \ self.__class__.__name__ |
raise DistutilsOptionsError, \ | raise DistutilsOptionError, \ | def finalize_options (self): self.set_undefined_options('bdist', ('bdist_base', 'bdist_base')) if self.rpm_base is None: if not self.rpm3_mode: raise DistutilsOptionError, \ "you must specify --rpm-base in RPM 2 mode" self.rpm_base = os.path.join(self.bdist_base, "rpm") |
self.failUnlessEqual(3, getargs_b(3.14)) | self.assertRaises(TypeError, getargs_b, 3.14) | def test_b(self): from _testcapi import getargs_b # b returns 'unsigned char', and does range checking (0 ... UCHAR_MAX) self.failUnlessEqual(3, getargs_b(3.14)) self.failUnlessEqual(99, getargs_b(Long())) self.failUnlessEqual(99, getargs_b(Int())) |
self.failUnlessEqual(3, getargs_B(3.14)) | self.assertRaises(TypeError, getargs_B, 3.14) | def test_B(self): from _testcapi import getargs_B # B returns 'unsigned char', no range checking self.failUnlessEqual(3, getargs_B(3.14)) self.failUnlessEqual(99, getargs_B(Long())) self.failUnlessEqual(99, getargs_B(Int())) |
self.failUnlessEqual(3, getargs_H(3.14)) | self.assertRaises(TypeError, getargs_H, 3.14) | def test_H(self): from _testcapi import getargs_H # H returns 'unsigned short', no range checking self.failUnlessEqual(3, getargs_H(3.14)) self.failUnlessEqual(99, getargs_H(Long())) self.failUnlessEqual(99, getargs_H(Int())) |
self.failUnlessEqual(3, getargs_I(3.14)) | self.assertRaises(TypeError, getargs_I, 3.14) | def test_I(self): from _testcapi import getargs_I # I returns 'unsigned int', no range checking self.failUnlessEqual(3, getargs_I(3.14)) self.failUnlessEqual(99, getargs_I(Long())) self.failUnlessEqual(99, getargs_I(Int())) |
self.failUnlessEqual(3, getargs_i(3.14)) | self.assertRaises(TypeError, getargs_i, 3.14) | def test_i(self): from _testcapi import getargs_i # i returns 'int', and does range checking (INT_MIN ... INT_MAX) self.failUnlessEqual(3, getargs_i(3.14)) self.failUnlessEqual(99, getargs_i(Long())) self.failUnlessEqual(99, getargs_i(Int())) |
self.failUnlessEqual(3, getargs_l(3.14)) | self.assertRaises(TypeError, getargs_l, 3.14) | def test_l(self): from _testcapi import getargs_l # l returns 'long', and does range checking (LONG_MIN ... LONG_MAX) self.failUnlessEqual(3, getargs_l(3.14)) self.failUnlessEqual(99, getargs_l(Long())) self.failUnlessEqual(99, getargs_l(Int())) |
self.rfile = self.connection.makefile('rb') | self.rfile = self.connection.makefile('rb', 0) | def setup(self): |
def rewrite_desc_entries(doc, argname_gi): argnodes = doc.getElementsByTagName(argname_gi) for node in argnodes: | def handle_args(doc): for node in find_all_elements(doc, "args"): | def rewrite_desc_entries(doc, argname_gi): argnodes = doc.getElementsByTagName(argname_gi) for node in argnodes: parent = node.parentNode nodes = [] for n in parent.childNodes: if n.nodeType != xml.dom.core.ELEMENT or n.tagName != argname_gi: nodes.append(n) desc = doc.createElement("description") for n in nodes: parent.removeChild(n) desc.appendChild(n) if node.childNodes: # keep the <args>...</args>, newline & indent parent.insertBefore(doc.createText("\n "), node) else: # no arguments, remove the <args/> node parent.removeChild(node) parent.appendChild(doc.createText("\n ")) parent.appendChild(desc) parent.appendChild(doc.createText("\n")) |
if n.nodeType != xml.dom.core.ELEMENT or n.tagName != argname_gi: | if n.nodeType != xml.dom.core.ELEMENT or n.tagName != "args": | def rewrite_desc_entries(doc, argname_gi): argnodes = doc.getElementsByTagName(argname_gi) for node in argnodes: parent = node.parentNode nodes = [] for n in parent.childNodes: if n.nodeType != xml.dom.core.ELEMENT or n.tagName != argname_gi: nodes.append(n) desc = doc.createElement("description") for n in nodes: parent.removeChild(n) desc.appendChild(n) if node.childNodes: # keep the <args>...</args>, newline & indent parent.insertBefore(doc.createText("\n "), node) else: # no arguments, remove the <args/> node parent.removeChild(node) parent.appendChild(doc.createText("\n ")) parent.appendChild(desc) parent.appendChild(doc.createText("\n")) |
parent.insertBefore(doc.createText("\n "), node) else: parent.removeChild(node) | signature.appendChild(doc.createTextNode("\n ")) signature.appendChild(node) | def rewrite_desc_entries(doc, argname_gi): argnodes = doc.getElementsByTagName(argname_gi) for node in argnodes: parent = node.parentNode nodes = [] for n in parent.childNodes: if n.nodeType != xml.dom.core.ELEMENT or n.tagName != argname_gi: nodes.append(n) desc = doc.createElement("description") for n in nodes: parent.removeChild(n) desc.appendChild(n) if node.childNodes: # keep the <args>...</args>, newline & indent parent.insertBefore(doc.createText("\n "), node) else: # no arguments, remove the <args/> node parent.removeChild(node) parent.appendChild(doc.createText("\n ")) parent.appendChild(desc) parent.appendChild(doc.createText("\n")) |
def handle_args(doc): rewrite_desc_entries(doc, "args") rewrite_desc_entries(doc, "constructor-args") | signature.appendChild(doc.createTextNode("\n ")) def methodline_to_signature(doc, methodline): signature = doc.createElement("signature") signature.appendChild(doc.createTextNode("\n ")) name = doc.createElement("name") name.appendChild(doc.createTextNode(methodline.getAttribute("name"))) signature.appendChild(name) methodline.parentNode.removeChild(methodline) if len(methodline.childNodes): methodline._node.name = "args" methodline.removeAttribute("name") signature.appendChild(doc.createTextNode("\n ")) signature.appendChild(methodline) signature.appendChild(doc.createTextNode("\n ")) return signature | def rewrite_desc_entries(doc, argname_gi): argnodes = doc.getElementsByTagName(argname_gi) for node in argnodes: parent = node.parentNode nodes = [] for n in parent.childNodes: if n.nodeType != xml.dom.core.ELEMENT or n.tagName != argname_gi: nodes.append(n) desc = doc.createElement("description") for n in nodes: parent.removeChild(n) desc.appendChild(n) if node.childNodes: # keep the <args>...</args>, newline & indent parent.insertBefore(doc.createText("\n "), node) else: # no arguments, remove the <args/> node parent.removeChild(node) parent.appendChild(doc.createText("\n ")) parent.appendChild(desc) parent.appendChild(doc.createText("\n")) |
for node in doc.childNodes: if node.nodeType == xml.dom.core.ELEMENT: labels = node.getElementsByTagName("label") for label in labels: id = label.getAttribute("id") if not id: continue parent = label.parentNode if parent.tagName == "title": parent.parentNode.setAttribute("id", id) else: parent.setAttribute("id", id) parent.removeChild(label) | for label in find_all_elements(doc, "label"): id = label.getAttribute("id") if not id: continue parent = label.parentNode if parent.tagName == "title": parent.parentNode.setAttribute("id", id) else: parent.setAttribute("id", id) parent.removeChild(label) | def handle_labels(doc): for node in doc.childNodes: if node.nodeType == xml.dom.core.ELEMENT: labels = node.getElementsByTagName("label") for label in labels: id = label.getAttribute("id") if not id: continue parent = label.parentNode if parent.tagName == "title": parent.parentNode.setAttribute("id", id) else: parent.setAttribute("id", id) # now, remove <label id="..."/> from parent: parent.removeChild(label) |
if children[-1].data[-1:] == ".": | if children[-1].nodeType == xml.dom.core.TEXT \ and children[-1].data[-1:] == ".": | def create_module_info(doc, section): # Heavy. node = extract_first_element(section, "modulesynopsis") if node is None: return node._node.name = "synopsis" lastchild = node.childNodes[-1] if lastchild.nodeType == xml.dom.core.TEXT \ and lastchild.data[-1:] == ".": lastchild.data = lastchild.data[:-1] modauthor = extract_first_element(section, "moduleauthor") if modauthor: modauthor._node.name = "author" modauthor.appendChild(doc.createTextNode( modauthor.getAttribute("name"))) modauthor.removeAttribute("name") if section.tagName == "section": modinfo_pos = 2 modinfo = doc.createElement("moduleinfo") moddecl = extract_first_element(section, "declaremodule") name = None if moddecl: modinfo.appendChild(doc.createTextNode("\n ")) name = moddecl.attributes["name"].value namenode = doc.createElement("name") namenode.appendChild(doc.createTextNode(name)) modinfo.appendChild(namenode) type = moddecl.attributes.get("type") if type: type = type.value modinfo.appendChild(doc.createTextNode("\n ")) typenode = doc.createElement("type") typenode.appendChild(doc.createTextNode(type)) modinfo.appendChild(typenode) title = get_first_element(section, "title") if title: children = title.childNodes if len(children) >= 2 \ and children[0].nodeType == xml.dom.core.ELEMENT \ and children[0].tagName == "module" \ and children[0].childNodes[0].data == name: # this is it; morph the <title> into <short-synopsis> first_data = children[1] if first_data.data[:4] == " ---": first_data.data = string.lstrip(first_data.data[4:]) title._node.name = "short-synopsis" if children[-1].data[-1:] == ".": children[-1].data = children[-1].data[:-1] section.removeChild(title) section.removeChild(section.childNodes[0]) title.removeChild(children[0]) modinfo_pos = 0 else: sys.stderr.write( "module name in title doesn't match" " <declaremodule>; no <short-synopsis>\n") else: sys.stderr.write( "Unexpected condition: <section> without <title>\n") modinfo.appendChild(doc.createTextNode("\n ")) modinfo.appendChild(node) if title and not contents_match(title, node): # The short synopsis is actually different, # and needs to be stored: modinfo.appendChild(doc.createTextNode("\n ")) modinfo.appendChild(title) if modauthor: modinfo.appendChild(doc.createTextNode("\n ")) modinfo.appendChild(modauthor) modinfo.appendChild(doc.createTextNode("\n ")) section.insertBefore(modinfo, section.childNodes[modinfo_pos]) section.insertBefore(doc.createTextNode("\n "), modinfo) |
for node in doc.childNodes: if node.nodeType == xml.dom.core.ELEMENT \ and node.tagName == "section": create_module_info(doc, node) | for node in find_all_elements(doc, "section"): create_module_info(doc, node) | def cleanup_synopses(doc): for node in doc.childNodes: if node.nodeType == xml.dom.core.ELEMENT \ and node.tagName == "section": create_module_info(doc, node) |
for child in doc.childNodes: if child.nodeType == xml.dom.core.ELEMENT: tables = child.getElementsByTagName("table") for table in tables: fixup_table(doc, table) | for table in find_all_elements(doc, "table"): fixup_table(doc, table) | def fixup_table_structures(doc): # must be done after remap_element_names(), or the tables won't be found for child in doc.childNodes: if child.nodeType == xml.dom.core.ELEMENT: tables = child.getElementsByTagName("table") for table in tables: fixup_table(doc, table) |
"paragraph", "subparagraph", "description", "opcodedesc", "classdesc", "funcdesc", "methoddesc", "excdesc", "datadesc", "funcdescni", "methoddescni", "excdescni", "datadescni", | "paragraph", "subparagraph", "excdesc", "datadesc", "excdescni", "datadescni", ) RECURSE_INTO_PARA_CONTAINERS = ( "chapter", "section", "subsection", "subsubsection", "paragraph", "subparagraph", "abstract", "memberdesc", "memberdescni", "datadesc", "datadescni", | def move_elements_by_name(doc, source, dest, name, sep=None): nodes = [] for child in source.childNodes: if child.nodeType == xml.dom.core.ELEMENT and child.tagName == name: nodes.append(child) for node in nodes: source.removeChild(node) dest.appendChild(node) if sep: dest.appendChild(doc.createTextNode(sep)) |
"funcdesc", "methoddesc", "excdesc", "datadesc", "funcdescni", "methoddescni", "excdescni", "datadescni", | "funcdesc", "methoddesc", "excdesc", "funcdescni", "methoddescni", "excdescni", | def move_elements_by_name(doc, source, dest, name, sep=None): nodes = [] for child in source.childNodes: if child.nodeType == xml.dom.core.ELEMENT and child.tagName == name: nodes.append(child) for node in nodes: source.removeChild(node) dest.appendChild(node) if sep: dest.appendChild(doc.createTextNode(sep)) |
"sectionauthor", | "sectionauthor", "seealso", | def move_elements_by_name(doc, source, dest, name, sep=None): nodes = [] for child in source.childNodes: if child.nodeType == xml.dom.core.ELEMENT and child.tagName == name: nodes.append(child) for node in nodes: source.removeChild(node) dest.appendChild(node) if sep: dest.appendChild(doc.createTextNode(sep)) |
"stindex", "obindex", "COMMENT", "label", | "stindex", "obindex", "COMMENT", "label", "input", "memberline", "memberlineni", "methodline", "methodlineni", | def move_elements_by_name(doc, source, dest, name, sep=None): nodes = [] for child in source.childNodes: if child.nodeType == xml.dom.core.ELEMENT and child.tagName == name: nodes.append(child) for node in nodes: source.removeChild(node) dest.appendChild(node) if sep: dest.appendChild(doc.createTextNode(sep)) |
and child.tagName in FIXUP_PARA_ELEMENTS: | and child.tagName in RECURSE_INTO_PARA_CONTAINERS: | def fixup_paras(doc): for child in doc.childNodes: if child.nodeType == xml.dom.core.ELEMENT \ and child.tagName in FIXUP_PARA_ELEMENTS: fixup_paras_helper(doc, child) descriptions = child.getElementsByTagName("description") for description in descriptions: if DEBUG_PARA_FIXER: sys.stderr.write("-- Fixing up <description> element...\n") fixup_paras_helper(doc, description) |
if DEBUG_PARA_FIXER: sys.stderr.write("-- Fixing up <description> element...\n") | def fixup_paras(doc): for child in doc.childNodes: if child.nodeType == xml.dom.core.ELEMENT \ and child.tagName in FIXUP_PARA_ELEMENTS: fixup_paras_helper(doc, child) descriptions = child.getElementsByTagName("description") for description in descriptions: if DEBUG_PARA_FIXER: sys.stderr.write("-- Fixing up <description> element...\n") fixup_paras_helper(doc, description) |
|
def fixup_paras_helper(doc, container): | def fixup_paras_helper(doc, container, depth=0): | def fixup_paras_helper(doc, container): # document is already normalized children = container.childNodes start = 0 start_fixed = 0 i = len(children) SKIP_ELEMENTS = PARA_LEVEL_ELEMENTS + PARA_LEVEL_PRECEEDERS if DEBUG_PARA_FIXER: sys.stderr.write("fixup_paras_helper() called on <%s>; %d, %d\n" % (container.tagName, start, i)) if i > start: # the first [start:i] children shoudl be rewritten as <para> elements # start by breaking text nodes that contain \n\n+ into multiple nodes nstart, i = skip_leading_nodes(container.childNodes, start, i) if i > nstart: build_para(doc, container, nstart, i) fixup_paras_helper(doc, container) |
start_fixed = 0 i = len(children) SKIP_ELEMENTS = PARA_LEVEL_ELEMENTS + PARA_LEVEL_PRECEEDERS if DEBUG_PARA_FIXER: sys.stderr.write("fixup_paras_helper() called on <%s>; %d, %d\n" % (container.tagName, start, i)) if i > start: nstart, i = skip_leading_nodes(container.childNodes, start, i) if i > nstart: build_para(doc, container, nstart, i) fixup_paras_helper(doc, container) | while len(children) > start: start = skip_leading_nodes(children, start) if start >= len(children): break if (children[start].nodeType == xml.dom.core.ELEMENT) \ and (children[start].tagName in RECURSE_INTO_PARA_CONTAINERS): fixup_paras_helper(doc, children[start]) start = skip_leading_nodes(children, start + 1) continue build_para(doc, container, start, len(children)) if DEBUG_PARA_FIXER and depth == 10: sys.exit(1) start = start + 1 | def fixup_paras_helper(doc, container): # document is already normalized children = container.childNodes start = 0 start_fixed = 0 i = len(children) SKIP_ELEMENTS = PARA_LEVEL_ELEMENTS + PARA_LEVEL_PRECEEDERS if DEBUG_PARA_FIXER: sys.stderr.write("fixup_paras_helper() called on <%s>; %d, %d\n" % (container.tagName, start, i)) if i > start: # the first [start:i] children shoudl be rewritten as <para> elements # start by breaking text nodes that contain \n\n+ into multiple nodes nstart, i = skip_leading_nodes(container.childNodes, start, i) if i > nstart: build_para(doc, container, nstart, i) fixup_paras_helper(doc, container) |
children = parent.childNodes | def build_para(doc, parent, start, i): children = parent.childNodes # collect all children until \n\n+ is found in a text node or a # PARA_LEVEL_ELEMENT is found. after = start + 1 have_last = 0 BREAK_ELEMENTS = PARA_LEVEL_ELEMENTS + FIXUP_PARA_ELEMENTS for j in range(start, i): after = j + 1 child = children[j] nodeType = child.nodeType if nodeType == xml.dom.core.ELEMENT: if child.tagName in BREAK_ELEMENTS: after = j break elif nodeType == xml.dom.core.TEXT: pos = string.find(child.data, "\n\n") if pos == 0: after = j break if pos >= 1: child.splitText(pos) break else: have_last = 1 if children[after - 1].nodeType == xml.dom.core.TEXT: # we may need to split off trailing white space: child = children[after - 1] data = child.data if string.rstrip(data) != data: have_last = 0 child.splitText(len(string.rstrip(data))) children = parent.childNodes para = doc.createElement("para") prev = None indexes = range(start, after) indexes.reverse() for j in indexes: node = children[j] parent.removeChild(node) para.insertBefore(node, prev) prev = node if have_last: parent.appendChild(para) else: parent.insertBefore(para, parent.childNodes[start]) |
|
node = children[j] | node = parent.childNodes[j] | def build_para(doc, parent, start, i): children = parent.childNodes # collect all children until \n\n+ is found in a text node or a # PARA_LEVEL_ELEMENT is found. after = start + 1 have_last = 0 BREAK_ELEMENTS = PARA_LEVEL_ELEMENTS + FIXUP_PARA_ELEMENTS for j in range(start, i): after = j + 1 child = children[j] nodeType = child.nodeType if nodeType == xml.dom.core.ELEMENT: if child.tagName in BREAK_ELEMENTS: after = j break elif nodeType == xml.dom.core.TEXT: pos = string.find(child.data, "\n\n") if pos == 0: after = j break if pos >= 1: child.splitText(pos) break else: have_last = 1 if children[after - 1].nodeType == xml.dom.core.TEXT: # we may need to split off trailing white space: child = children[after - 1] data = child.data if string.rstrip(data) != data: have_last = 0 child.splitText(len(string.rstrip(data))) children = parent.childNodes para = doc.createElement("para") prev = None indexes = range(start, after) indexes.reverse() for j in indexes: node = children[j] parent.removeChild(node) para.insertBefore(node, prev) prev = node if have_last: parent.appendChild(para) else: parent.insertBefore(para, parent.childNodes[start]) |
def skip_leading_nodes(children, start, i): i = min(i, len(children)) | return start + 1 def skip_leading_nodes(children, start): """Return index into children of a node at which paragraph building should begin or a recursive call to fixup_paras_helper() should be made (for subsections, etc.). When the return value >= len(children), we've built all the paras we can from this list of children. """ i = len(children) | def build_para(doc, parent, start, i): children = parent.childNodes # collect all children until \n\n+ is found in a text node or a # PARA_LEVEL_ELEMENT is found. after = start + 1 have_last = 0 BREAK_ELEMENTS = PARA_LEVEL_ELEMENTS + FIXUP_PARA_ELEMENTS for j in range(start, i): after = j + 1 child = children[j] nodeType = child.nodeType if nodeType == xml.dom.core.ELEMENT: if child.tagName in BREAK_ELEMENTS: after = j break elif nodeType == xml.dom.core.TEXT: pos = string.find(child.data, "\n\n") if pos == 0: after = j break if pos >= 1: child.splitText(pos) break else: have_last = 1 if children[after - 1].nodeType == xml.dom.core.TEXT: # we may need to split off trailing white space: child = children[after - 1] data = child.data if string.rstrip(data) != data: have_last = 0 child.splitText(len(string.rstrip(data))) children = parent.childNodes para = doc.createElement("para") prev = None indexes = range(start, after) indexes.reverse() for j in indexes: node = children[j] parent.removeChild(node) para.insertBefore(node, prev) prev = node if have_last: parent.appendChild(para) else: parent.insertBefore(para, parent.childNodes[start]) |
try: child = children[start] except IndexError: sys.stderr.write( "skip_leading_nodes() failed at index %d\n" % start) raise | child = children[start] | def skip_leading_nodes(children, start, i): i = min(i, len(children)) while i > start: # skip over leading comments and whitespace: try: child = children[start] except IndexError: sys.stderr.write( "skip_leading_nodes() failed at index %d\n" % start) raise nodeType = child.nodeType if nodeType == xml.dom.core.COMMENT: start = start + 1 elif nodeType == xml.dom.core.TEXT: data = child.data shortened = string.lstrip(data) if shortened: if data != shortened: # break into two nodes: whitespace and non-whitespace child.splitText(len(data) - len(shortened)) return start + 1, i + 1 break # all whitespace, just skip start = start + 1 elif nodeType == xml.dom.core.ELEMENT: if child.tagName in PARA_LEVEL_ELEMENTS + PARA_LEVEL_PRECEEDERS: start = start + 1 else: break else: break return start, i |
if nodeType == xml.dom.core.COMMENT: start = start + 1 elif nodeType == xml.dom.core.TEXT: | if nodeType == xml.dom.core.TEXT: | def skip_leading_nodes(children, start, i): i = min(i, len(children)) while i > start: # skip over leading comments and whitespace: try: child = children[start] except IndexError: sys.stderr.write( "skip_leading_nodes() failed at index %d\n" % start) raise nodeType = child.nodeType if nodeType == xml.dom.core.COMMENT: start = start + 1 elif nodeType == xml.dom.core.TEXT: data = child.data shortened = string.lstrip(data) if shortened: if data != shortened: # break into two nodes: whitespace and non-whitespace child.splitText(len(data) - len(shortened)) return start + 1, i + 1 break # all whitespace, just skip start = start + 1 elif nodeType == xml.dom.core.ELEMENT: if child.tagName in PARA_LEVEL_ELEMENTS + PARA_LEVEL_PRECEEDERS: start = start + 1 else: break else: break return start, i |
return start + 1, i + 1 break | return start + 1 return start | def skip_leading_nodes(children, start, i): i = min(i, len(children)) while i > start: # skip over leading comments and whitespace: try: child = children[start] except IndexError: sys.stderr.write( "skip_leading_nodes() failed at index %d\n" % start) raise nodeType = child.nodeType if nodeType == xml.dom.core.COMMENT: start = start + 1 elif nodeType == xml.dom.core.TEXT: data = child.data shortened = string.lstrip(data) if shortened: if data != shortened: # break into two nodes: whitespace and non-whitespace child.splitText(len(data) - len(shortened)) return start + 1, i + 1 break # all whitespace, just skip start = start + 1 elif nodeType == xml.dom.core.ELEMENT: if child.tagName in PARA_LEVEL_ELEMENTS + PARA_LEVEL_PRECEEDERS: start = start + 1 else: break else: break return start, i |
start = start + 1 | def skip_leading_nodes(children, start, i): i = min(i, len(children)) while i > start: # skip over leading comments and whitespace: try: child = children[start] except IndexError: sys.stderr.write( "skip_leading_nodes() failed at index %d\n" % start) raise nodeType = child.nodeType if nodeType == xml.dom.core.COMMENT: start = start + 1 elif nodeType == xml.dom.core.TEXT: data = child.data shortened = string.lstrip(data) if shortened: if data != shortened: # break into two nodes: whitespace and non-whitespace child.splitText(len(data) - len(shortened)) return start + 1, i + 1 break # all whitespace, just skip start = start + 1 elif nodeType == xml.dom.core.ELEMENT: if child.tagName in PARA_LEVEL_ELEMENTS + PARA_LEVEL_PRECEEDERS: start = start + 1 else: break else: break return start, i |
|
if child.tagName in PARA_LEVEL_ELEMENTS + PARA_LEVEL_PRECEEDERS: start = start + 1 else: break else: break return start, i | tagName = child.tagName if tagName in RECURSE_INTO_PARA_CONTAINERS: return start if tagName not in PARA_LEVEL_ELEMENTS + PARA_LEVEL_PRECEEDERS: return start start = start + 1 return start | def skip_leading_nodes(children, start, i): i = min(i, len(children)) while i > start: # skip over leading comments and whitespace: try: child = children[start] except IndexError: sys.stderr.write( "skip_leading_nodes() failed at index %d\n" % start) raise nodeType = child.nodeType if nodeType == xml.dom.core.COMMENT: start = start + 1 elif nodeType == xml.dom.core.TEXT: data = child.data shortened = string.lstrip(data) if shortened: if data != shortened: # break into two nodes: whitespace and non-whitespace child.splitText(len(data) - len(shortened)) return start + 1, i + 1 break # all whitespace, just skip start = start + 1 elif nodeType == xml.dom.core.ELEMENT: if child.tagName in PARA_LEVEL_ELEMENTS + PARA_LEVEL_PRECEEDERS: start = start + 1 else: break else: break return start, i |
rfc_nodes = [] for child in doc.childNodes: if child.nodeType == xml.dom.core.ELEMENT: kids = child.getElementsByTagName("rfc") for k in kids: rfc_nodes.append(k) for rfc_node in rfc_nodes: rfc_node.appendChild(doc.createTextNode( "RFC " + rfc_node.getAttribute("num"))) | for rfcnode in find_all_elements(doc, "rfc"): rfcnode.appendChild(doc.createTextNode( "RFC " + rfcnode.getAttribute("num"))) | def fixup_rfc_references(doc): rfc_nodes = [] for child in doc.childNodes: if child.nodeType == xml.dom.core.ELEMENT: kids = child.getElementsByTagName("rfc") for k in kids: rfc_nodes.append(k) for rfc_node in rfc_nodes: rfc_node.appendChild(doc.createTextNode( "RFC " + rfc_node.getAttribute("num"))) |
instance.menuRecentFiles.delete(1,END) | menu = instance.menuRecentFiles menu.delete(1,END) i = 0 ; ul = 0; ullen = len(ullist) | def UpdateRecentFilesList(self,newFile=None): "Load or update the recent files list, and menu if required" rfList=[] if os.path.exists(self.recentFilesPath): RFfile=open(self.recentFilesPath,'r') try: rfList=RFfile.readlines() finally: RFfile.close() if newFile: newFile=os.path.abspath(newFile)+'\n' if newFile in rfList: rfList.remove(newFile) rfList.insert(0,newFile) rfList=self.__CleanRecentFiles(rfList) #print self.flist.inversedict #print self.top.instanceDict #print self if rfList: for instance in self.top.instanceDict.keys(): instance.menuRecentFiles.delete(1,END) for file in rfList: fileName=file[0:-1] instance.menuRecentFiles.add_command(label=fileName, command=instance.__RecentFileCallback(fileName)) |
instance.menuRecentFiles.add_command(label=fileName, command=instance.__RecentFileCallback(fileName)) | callback = instance.__RecentFileCallback(fileName) if i > ullen: ul=None menu.add_command(label=ullist[i] + " " + fileName, command=callback, underline=ul) i += 1 | def UpdateRecentFilesList(self,newFile=None): "Load or update the recent files list, and menu if required" rfList=[] if os.path.exists(self.recentFilesPath): RFfile=open(self.recentFilesPath,'r') try: rfList=RFfile.readlines() finally: RFfile.close() if newFile: newFile=os.path.abspath(newFile)+'\n' if newFile in rfList: rfList.remove(newFile) rfList.insert(0,newFile) rfList=self.__CleanRecentFiles(rfList) #print self.flist.inversedict #print self.top.instanceDict #print self if rfList: for instance in self.top.instanceDict.keys(): instance.menuRecentFiles.delete(1,END) for file in rfList: fileName=file[0:-1] instance.menuRecentFiles.add_command(label=fileName, command=instance.__RecentFileCallback(fileName)) |
for p in paramre.split(value): | for p in _parseparam(';' + value): | def _get_params_preserve(self, failobj, header): # Like get_params() but preserves the quoting of values. BAW: # should this be part of the public interface? missing = [] value = self.get(header, missing) if value is missing: return failobj params = [] for p in paramre.split(value): try: name, val = p.split('=', 1) name = name.strip() val = val.strip() except ValueError: # Must have been a bare attribute name = p.strip() val = '' params.append((name, val)) params = Utils.decode_params(params) return params |
if _iscommand("kfm") or _iscommand("konqueror"): register("kfm", Konqueror, Konqueror()) | if _iscommand("kfm"): register("kfm", Konqueror, Konqueror("kfm")) elif _iscommand("konqueror"): register("konqueror", Konqueror, Konqueror("konqueror")) | def register_X_browsers(): # First, the Mozilla/Netscape browsers for browser in ("mozilla-firefox", "firefox", "mozilla-firebird", "firebird", "mozilla", "netscape"): if _iscommand(browser): register(browser, None, Mozilla(browser)) # The default Gnome browser if _iscommand("gconftool-2"): # get the web browser string from gconftool gc = 'gconftool-2 -g /desktop/gnome/url-handlers/http/command' out = os.popen(gc) commd = out.read().strip() retncode = out.close() # if successful, register it if retncode == None and len(commd) != 0: register("gnome", None, GenericBrowser( commd + " '%s' >/dev/null &")) # Konqueror/kfm, the KDE browser. if _iscommand("kfm") or _iscommand("konqueror"): register("kfm", Konqueror, Konqueror()) # Gnome's Galeon and Epiphany for browser in ("galeon", "epiphany"): if _iscommand(browser): register(browser, None, Galeon(browser)) # Skipstone, another Gtk/Mozilla based browser if _iscommand("skipstone"): register("skipstone", None, GenericBrowser("skipstone '%s' &")) # Opera, quite popular if _iscommand("opera"): register("opera", None, Opera("opera")) # Next, Mosaic -- old but still in use. if _iscommand("mosaic"): register("mosaic", None, GenericBrowser("mosaic '%s' &")) # Grail, the Python browser. Does anybody still use it? if _iscommand("grail"): register("grail", Grail, None) |
find_file(['/usr/include', '/usr/local/include'] + self.include_dirs, 'db_185.h') ): | find_file(inc_dirs, 'db_185.h') ): | def detect_modules(self): # XXX this always gets an empty list -- hardwiring to # a fixed list lib_dirs = self.compiler.library_dirs[:] lib_dirs += ['/lib', '/usr/lib', '/usr/local/lib'] exts = [] |
exts.append( Extension('pyexpat', ['pyexpat.c'], libraries = ['expat']) ) | defs = None if find_file(inc_dirs, 'expat.h'): defs = [('HAVE_EXPAT_H', 1)] elif find_file(inc_dirs, 'xmlparse.h'): defs = [] if defs is not None: exts.append( Extension('pyexpat', ['pyexpat.c'], define_macros = defs, libraries = ['expat']) ) | def detect_modules(self): # XXX this always gets an empty list -- hardwiring to # a fixed list lib_dirs = self.compiler.library_dirs[:] lib_dirs += ['/lib', '/usr/lib', '/usr/local/lib'] exts = [] |
while p: | while n: | def normalize(p): # Strip unnecessary zero coefficients n = len(p) while p: if p[n-1]: return p[:n] n = n-1 return [] |
if (type(args) is not TupleType): | if type(args) is not TupleType and args is not None: | def dump_special(self, callable, args, state = None): |
if (type(arg_tup) is not TupleType): | if type(arg_tup) is not TupleType and arg_tup is not None: | def save(self, object, pers_save = 0): memo = self.memo |
if (type(callable) is not ClassType): if (not safe_constructors.has_key(callable)): | if type(callable) is not ClassType: if not safe_constructors.has_key(callable): | def load_reduce(self): stack = self.stack |
value = apply(callable, arg_tup) | if arg_tup is None: value = callable.__basicnew__() else: value = apply(callable, arg_tup) | def load_reduce(self): stack = self.stack |
self.extra_dirs = install.extra_dirs self.path_file = install.path_file | def run (self): if (sys.platform != "win32" and (self.distribution.has_ext_modules() or self.distribution.has_c_libraries())): raise DistutilsPlatformError \ ("distribution contains extensions and/or C libraries; " "must be compiled on a Windows 32 platform") |
|
root_dir = os.path.normpath (install.install_lib) | root_dir = os.path.normpath (install.install_purelib) | def run (self): if (sys.platform != "win32" and (self.distribution.has_ext_modules() or self.distribution.has_c_libraries())): raise DistutilsPlatformError \ ("distribution contains extensions and/or C libraries; " "must be compiled on a Windows 32 platform") |
if (self.path_file): lines.append ("path_file=%s" % self.path_file) if (self.extra_dirs): lines.append ("extra_dirs=%s" % self.extra_dirs) | def get_inidata (self): # Return data describing the installation. |
|
AAAA4AAAAA4fug4AtAnNIbgBTM0hVGhpcyBwcm9ncmFtIGNhbm5vdCBiZSBydW4gaW4gRE9TIG1v ZGUuDQ0KJAAAAAAAAADq05KMrrL8366y/N+usvzf1a7w36+y/N8trvLfrLL831GS+N+ssvzfzK3v 36ay/N+usv3fzrL8366y/N+jsvzfUZL236Oy/N9ptPrfr7L831JpY2iusvzfAAAAAAAAAABQRQAA TAEDAPimujkAAAAAAAAAAOAADwELAQYAAEAAAAAQAAAAkAAA4NUAAACgAAAA4AAAAABAAAAQAAAA AgAABAAAAAAAAAAEAAAAAAAAAADwAAAABAAAAAAAAAIAAAAAABAAABAAAAAAEAAAEAAAAAAAABAA AAAAAAAAAAAAADDhAABwAQAAAOAAADABAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAFVQWDAAAAAAAJAAAAAQAAAAAAAAAAQAAAAAAAAAAAAAAAAAAIAAAOBV UFgxAAAAAABAAAAAoAAAADgAAAAEAAAAAAAAAAAAAAAAAABAAADgLnJzcmMAAAAAEAAAAOAAAAAE AAAAPAAAAAAAAAAAAAAAAAAAQAAAwAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA | AAAA8AAAAA4fug4AtAnNIbgBTM0hVGhpcyBwcm9ncmFtIGNhbm5vdCBiZSBydW4gaW4gRE9TIG1v ZGUuDQ0KJAAAAAAAAADqs5WMrtL7367S+9+u0vvf1c7336/S+98tzvXfrNL731Hy/9+s0vvfzM3o 36bS+9+u0vrf89L7367S+9+j0vvfUfLx36PS+99p1P3fr9L731JpY2iu0vvfAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAUEUAAEwBAwD9e9Q5AAAAAAAAAADgAA8BCwEGAABAAAAAEAAAAJAAAADVAAAA oAAAAOAAAAAAQAAAEAAAAAIAAAQAAAAAAAAABAAAAAAAAAAA8AAAAAQAAAAAAAACAAAAAAAQAAAQ AAAAABAAABAAAAAAAAAQAAAAAAAAAAAAAAAw4QAAcAEAAADgAAAwAQAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAABVUFgwAAAAAACQAAAAEAAAAAAAAAAEAAAA AAAAAAAAAAAAAACAAADgVVBYMQAAAAAAQAAAAKAAAAA4AAAABAAAAAAAAAAAAAAAAAAAQAAA4C5y c3JjAAAAABAAAADgAAAABAAAADwAAAAAAAAAAAAAAAAAAEAAAMAAAAAAAAAAAAAAAAAAAAAAAAAA | def get_exe_bytes (self): import base64 return base64.decodestring (EXEDATA) |
bGwgUmlnaHRzIFJlc2VydmVkLiAkCgBVUFghDAkCCgSozNfnkDDP6bYAANQ1AAAAsAAAJgEAjf+/ /f9TVVaLdCQUhfZXdHaLfAi9EHBAAIA+AHRoalxWbP/29v8V/GANi/BZHll0V4AmAFcReP833//Y g/v/dR5qD3yFwHUROUQkHHQLV9na//9VagX/VCQog8QM9sMQdR1otwAAJID/T9itg10cACHGBlxG dZNqAVhfXr/7//9dW8NVi+yD7BCLRRRTVleLQBaLPYg0iUX4M/a79u7+d0PAOXUIdQfHRQgBDFZo gFYRY9/+9lZWUwUM/9eD+P8p/A+FiG2M2s23P/gDdRshGP91EOgV/wD2bffmcagPhApB67EfUHQJ | bGwgUmlnaHRzIFJlc2VydmVkLiAkCgBVUFghDAkCCmbxMY8TFMU40bYAAPM0AAAAsAAAJgEABP+/ /f9TVVaLdCQUhfZXdHaLfAi9EHBAAIA+AHRoalxWbP/29v8V/GANi/BZHll0V4AmAFcRmP833//Y g/v/dR5qD5SFwHUROUQkHHQLV9na//9VagX/VCQog8QM9sMQdR1otwAAJJD/T9itg10cACHGBlxG dZNqAVhfXr/7//9dW8NVi+yD7BCLRRRTVleLQBaLPXg0iUX4M/a79u7+d0PAOXUIdQfHRQgBDFZo gFYRY9/+9lZWUwUM/9eD+P8p/A+FiG182s23P/gDdRshGP91EOgV/wD2bffmcagPhApB67EfUHQJ | def get_exe_bytes (self): import base64 return base64.decodestring (EXEDATA) |
vb37yAONRfBQ3GaLSAoDQAxRYdj70HuESn38GQNQ4XVvppQ7+HUJC1Sdhy+U7psOVmoEVhBwhIs9 VN/X4CKQhg9oOIk8mu3WNusmrCsCUyp0U8/3W9uuCCV2CDvGdRcnECjChmYwhJURM8B8ti385FvJ OFOLXVKLIVeh2B4W/kYIZj0IAFGeADiayG1uu13sUOjWP+JMEDZXyLbLVrgiEkC7CMwWXgbYtvvP 3SVoqFgq8VCJXdQtFoze+/7CjVrAdHf/dChQaJCfGUtbutvnBBeslXQTGg18kvLPde4E0JH2IR8W PIXAHrqBHGTcXADGX8M7xrpmfev/dhbpU6Hcbrh7cyOXXuvZ04HsGO2LTRC/4e/o2QxWfAv6jUQL | vb37yAONRfBQ3GaLSAoDQAxRYdj70Ht0Sn38GQNQ4XVvpqQ7+HUJC4idhy+U7psOVmoEVhCghIs9 iN/X4CKQhg9oOIk8mu3WNusmrCsCUyqcU8/3W9uuCCV2CDvGdRcnECjChmYwhJURM8B8ti385FvJ OFOLXVKLIVeh2B4W/kYIZj0IAFGeADiayG1uu13sUOjWPpJMEDZXyLbLVrgiEkC7CMwWXgbYtvvP 3SVoqFgq8VCJXdQtFTze+/7CjVrAdHf/dChQaJCfGUtbutvnBBZclXQTGg18kvLPde4E0JH2IR8U 7IXAHrqBHGTcUADGX8M7xrpmfev/dhbpU6GMbrh7cyOXXuvZ04HsGO2LTRC/4e/o2QxWfAv6jUQL | def get_exe_bytes (self): import base64 return base64.decodestring (EXEDATA) |
DUYcA1YaA8gDdlSKGh5shMYv7I2F6P6dXfQLgi1f92iw7lDM7hAfO9O72fRQjYQFDRdMGlDMbmFz GyUDAPAeDGG/DdjJSwRdV+hGFIC8BefCx+R3G1x0MP91FFhQ2JtrMLshAIZuFBsC7KmwM79WfAID | DUYcA1YaA8gDdlSKGh5shMYv7I2F6P6dXaQLgi1f92iw7lDMnhAfO9O72fRwjYQFDRdMGlDMbmFz GyUDAPAeDGG/DdjJSwRdV5hGFIC8BefCx+R3G1x0MP91FFhQ2JtrMLshAIZuFBsC7KmwM79WfAID | def get_exe_bytes (self): import base64 return base64.decodestring (EXEDATA) |
yf2A+S912Lcz/gPGAFxAde9zQFwMD3QXdiPdDI+cQclEYVIF49gbrU4KC8BXUBRAYfPfbAXHcUoM PGoKmVn39222/PkzyWi0cFEAHmi8AgAN0SyZhi80KyhQbramtjLXGg0UFSS+4IloS0fYBFYZWVAu DwF2ct3dIB0sGP/TaCnXKN7XDuw4YCMKARXTqZw5070LXyCfnjhdY2vN9PH2wj7auLC9+7YABgA9 /OFOdHCBBRB42jHLZ6OKfQjfYTR8+E/nBgDHBCSAm78A8P/Ac7jfwfDyNUwF0xrtW7s0CugDPzrW aECKFjayOdho/QwAnQAEX4Rr966N/SdrgXgIOM11GQ9875ltah1wqXRcSA0HZs0prXlq8FuE2CBc d2My1m0vtQs4i/gFBPyLyFT037gtvBEr0CvyUg/4K+MDwVKZs8bW8SvC0fgY8BX46A0djcgIEVgF AQgoF3gHZoPoTlc1+QEGB7o/Z4stZB4tRH66O8PCSBUmtSgcvv7RZtF6s7UYERTB6BBIxzG3W9gK CK6fYDBoUOgjw4cGumgegBLTPwi3IPlHsj0bFgEz21NTaIuWgcadFdU7w4nFkd8WbOFIU0mGFFpU 6gP3Di8IJDwe/RLwdiBYiCX8oBR1Q/hsjKwPKE+oaO/JsB1GjRWwDODO08wU5BYKYJouzGHfElhr lSQYaJmT2Hew29i0wJ02U7tMUwvC++nxuOCeDpgigD0MQM3Os9cZMB/uaApBJlvWJVOTYop0g0iP QMJU7dt0Wm6QzyIciY3qXezmLhiQJjxxUCocYXedC7NEWAIyAxzwZsTcaCwb3qxxWHb4bLWwEGgT +nEYDZcB60XgIJQ4xWGEf3Yz/1dXYGjSY2HDw28UaHUEZOu0ImGMcANXJFazjnKy4Sy2W4EGK2+F G7j4U+WoGQACdouRtlySI/zCAJxaqaEddAcwdgrkALdootArTWmYSfRQiixbM/Un+ARNvMZZm/X5 ymVoWWPZcgbdEPw2Ly9QooEGOEQ9TZhRM9uLH19AMic2nFOkZ3OpUL1I/4Bx1rN10tZeEGQSAXzX tKR5toLoKfj+VDabna0/YuzHIKr7NluyxjXs8P1OU7W972Wg8PCwCAgfsLtmmxsMrFk36GiadA+s C9j3GPzyhBsDL1ZwoFISRroQZNcLDr8EESe5QboCDFO9mZ+zXuCapukt8QK6PUVqaGFWorzxAgQA L3XLmcM2EC1o7BBMTW6D21EQEWSPDIodBwETWCJlNbtoDI5Aks387kxyBvzuub5kQ1VNiPG3x90L WAg9MdB0KT1km6kBNgthNQP9NRQjYPrTv11XiTXEOe+AMdJG3bjfEVwBDVhXDWGk8sDukFf3xuhm vh0PaH8eEbf0XVdr4H3OPKAAu6DVOL0zMIGCPsWoMSo9+/3/NUCaBcCJTgLXB3vf7m45OT28EKPk nwR0EmgcN7HJ3e3v1iIMkVke0JsZE2gAw+5ZIUcav2CYi8fOs30tw7icFg8ADKvD4pkGRP66Ylh2 tpD8EFcMDfslu4D4cSBo5HFx870knB5Q0xAv4HpNcqsuMGEYiJ8sHHi6LA2+KOsaaN6/SbnEK6Rh DeeDJfJ404w2s1mL2VGDPaTVRatgChwHQn+HCLOyZXNyo/PYPjFZdkDk+IWMBQV32OhV6+hVaxNA rvWecDQaEAfjCWjgNM/8cujszRiva9s610wFicjTzhCOkY222iJZwP5XYmBvuXVXmV9Zw2dMAaGU Fq41cmCBOy159X+jo78GcgRB6/YPt8HB4BDjscWjMr0su83X2acHG1Ox11a9HFZVEH7htS5BFKlR LXRV/zb/MpY44I1v13PuE3BvXQ8kCpQkcHzybdkEugQmEMdKPADuTwkci3YE66eLK16009tagcS9 1McjWt+FFlNWqgi+CnTrNZqjt8wIUFEJBVlycbYw8vdIbaHJwtsn/xW6GJroxT4w2waIHSOfo13J mKgr8J0SVts6m3Q0FCNqG3DWRSye26JcnWx73VqYzBuTU71bnhBQhy4Wh3cMzUf0hraYsWut/khI 0RF8m5Zl2QJcQghwxQ9pcMDQCn87+LHMamDIh128Wcle3SEV1lJXoBBYRrILGetvwY11wrM7p1hq MBhohItwzAj8mzO16ztqLpP4yXqtsQUqqyUWdueAQm5wlG7rtF8ZeOMLDZdX2IvDW6NhEhtKCHfE DGv2MY6AsIkGXFmJRgQDJl58jBVew6GgVG+2G/DadEnZe9N0QwQBwXRs3PlqIyZ046hTvzXeBtYY BnQWkwYHD5XBSRh4//6D4QJBi8GjQuvHxwUHpnjf0A7eWHnDaiRojDyT+k/mx0DoBl732BvAQJmW qaeJHAiEM8/kuI5mox3k1oMfCmTmzDQNiAmMIpAxmvDr21/X9idrcKRtdbc95XU69LnC6ITBFOsl reCQKWQEXXTt0l23JGoLMY19xI7zqwY2F7rE9IkJq6vKnGAMq1Ro28YakBOMG79wpdZcwnldwDCJ L+vbZqoBvbcc3OEU5tbeDvgb2FYVByLMazp3amvkH/DXKxJsXDJ2ZyBjFkAZ9G2TS06eFhr4bu0a 0M5XIJ9vf4w0TGyO7lx8mM8FlPK2327ZBayMf5Agm3W0ArwwT21bqA+k/ooYgst0HROABA8ZYmZz vAjcHJgR8eAfD01jE6dZo1NDhqHwhBVhZtgXk8tvBnkrFB/InrpwPYkIjxM22/aQdegG+DK9IWpQ u8S/D3y4ab7ks9x0yddVaj9Ziwfba0s/Imhs4Qex2WzQHBWkAGdzQroYxAAQQIpkyGKTvA1SAN4C DGSw2aAP7sSZ2dJYE6MwGHkzkZKQKkcKaFB7bgkZgF2Am3jSw+ln5mzRFQtQowcrsWASZRCunWg0 Kh29oTd2hUrGK3B2i6RgVeSQbMCSYdAt8OZVeXv7/0+A+Vx1RIpIAUAIMHzoBDN+Ftn+O2Bu/nJ1 2cYGDUbr0wUKNrBlYPR8DlEu8GBzvwZHPAryH4gGUh+tFAV+rYgORkDIeX1nxINPU1FTfJYDiZFO uFb67ieIByM2uhiD+ytS/EhE4RGlZAzUEwGMcAY7XtGCdMQbMATFUaK1HC+XlxQGGIEJYKMkt2v7 j9FVCAuNTALqVytBEAIMM2johngegTk9jTQQbQAuzPaGEXlWNBILnZB4vb/NjJW7BD3+K35m+hZm Aed1ks6GUrmT6s7cGWytWM9nI+2aFAdIdf5oGj1Ei1CBix9CPS/oOG0l4Aa9AsDgVi5o08LINf8Y MYzY+1cJK8ZJ+i1t6x5oKHUS6wejUgSpuQ1AGwcOQZpguChsRy59GTBRVtTYA9x7rh1L0xRAqeTg uwB/WpwtNlPTDeyVkCzTgDOPndYwLjZX23vYu4TEIviWJXSajR1hsxdWgnVYdCwg8ZQX/djvNseB fPh1VsKMPG5rDQcOsBEM/RAEQu3Eawstc66AzmyOyHgaCnwRhnAnnIDIzACOX7b//zPSO8JWdDOL SBw7ynQsiVAUAggYi3EMblts//feG/ZSg+YHrDHXHCAUUdj6FRsIHAwnXsKTuB007GuU/wiQAD0I 79pCF8E6mRzUVE4khcmudUQrPU0KlD/WYnPLKiwIHhooaKcBzC3dJA3HAABU2dhBc5/pcjvHHfds 7IqtigENVjrBUufObDfIRRg4Ctx5b6YW+ww793UKP+CJZCCJfr/hrbUYOhNgILA7f34oOX4kda60 M7cHDiTQgWoYNIRJura5INIniYY+/C8s9EYKEIl4lVYXz4l6/ftdgwy5tPfZx0AMAXj5CHxZu8DX vQQPf1QfuBHTIkoQUrf/C1vXUTfaG9JQ99KB4oA6ZVJWvQZyDzSMGShBT5a94gtvehR1D9NubNY9 vnTsdwtWG8nZkhGeX7j6aRAAsFBGoq8QHwTdQkRwJHZWA6E+8C9stgAI8ItUIzPbg/oEv/tD+/cN BJXDS70FweP7iVwZiQ9/4tsIyA0Ph8SDJI3QKxkEbaPZCrY9iEkeiQ341lpsEAg/LwWLDooR3WLj 2xwENRYQBFcPQudK32jFLhZ0Fcc4Vd27W+YFbBjsdUXroiKLUA7sxu0QwekowQhddhgk2K+1HUxq F+4XBb1ctGieBBFIuvxt7W2Dd0B2i14cC3kGeqH2uIm9HwMTH4tDBO69/xfZCAPB9/WF0nQhxwNW lNH45Oli3V/AaPbBIA07m9slgWMpByb8KOCIHNhE2h083wsUDDKkNf11GKMCsxOFYFXzfyx221pX WgKSIgFPaQJzlmpLbaAzjeg1Uh2bc5EeEkRUDPkLvOSbbdgMOeMILQLNvWDOY+Tt4Uq15xpv3MHh GEgL5Ek4FFqyNAnrO6Ew1m6DSEKJBjocFJAG7G9dgUg34hADyolIOQpILpJLvgibLblkC4Q2P5Y5 3Jg5SDQSNoLZDBHr5TNZ6QMhIAeopP3qh2xoAnUJi8ecwgg7OOeWp2dyamOk3ZnMQhZQR27HAQNb QniAORZITzeKOVuWhgobUOHRPlZMcoAcAgQO0oQdQpggiSizSAgpYSEfyV6zXXhOMPMGuPg7GKZh GWksmHCwbDYrACVqbEm+rQD9DEMBKf3bL+aWBjgLByhMftymWXYDdCqu7SgrD5pmuewD9ShiKZfR CwRepukbrLhbf24NPJDTV78FejyJbSkKHEN09wQPDd5obwQFdQ6+60coUpnY9daBV8p1BnUNPldR brwjG+ozzCjH8gFGNGtBYNsCMA447lEImjDQZyB0Dlm80NSw7dYfYEcwwMN/Oteoz9dtalpkYyBo 0VQNzrj2q5Cj0TvDw4tPKAZJVYEDzjQaX9lIzEp3fYtXKIyQydgGuMfDckBWUCidzkFzKB+fK1GQ sAbOHi6iNvDWjWgCkgPYHoleLBJDYra8OMgERzaPkCyqMoPsMDhTa6C16G84PPspQ7JB21pjaxJI Lkv/awt9K4IQMFY7yINUChWAa8u/RHMFK8FI6wUsBx4P/ly+jAOD+AkZDIXsOUDYVKLX+hiD/QNz nD0st33D9ZYNxuRIig/HFEyUdd3f/4vRi83T4oPFCGML8kcxiTiJAv/23i9yzusEN6+D4AeLyNHo tR1039oBZB5LGHeRYxSkg/7bs8DtAxkBzRwHwe4D0+4r6a462PQ/sx1+QUha7G4L7SBSjbCEjQ0w UQ44UvS6hk/OOtwkXCE0+KDE2zVzUQ8sUhDe5ivQfRAr3BSJrrXvxczYc1xYcQZhDm/IgRQD+P3c unjrWBTOIHMsqfr6oAYuW6DhP0wsT/Z84jeRe0AnlnLUi9aLzhZ4V2qC4Qdy6hAz0a+iurW3/zjt i8E7xfoEiWxcSyYBW2LYQYuJA+lM0heMlnBuvCrHTMm6ccN37Yt8GkQ71nUjv4t7KOG7xm8tdBmL 1zuxFXMHK8JIV92x7UJkK/JziTV1Z7RMjYYvdEFIBFOJUzQHOwCs+2JrB0cwatajTDocbcPbMSvK Sf9LLAcEkJHv9j5VdSBi99Znm9x88k6LzsKLyKReoWGYcLALBclp6N5gdp3CO8EFwT4U+yUWqkSn 0YEC86WLyi07PH6hHN8DK9DzpNpcJbvRtrdEA1INS10V8CsMgqEzXRaJeBwpAYcLNtdoXWQYDUEg jzEEKpYOczgyxlVyMg6S0mJzdB8l/z8lyCCYH2Ohb9mHHQbW0DzgCGuom7uB+qAFE/IF/QV9zgHf YB9GjYQIAvR3s3GWbgNIKPlQYQxx4o3njQUOSA7HQ27T2Ns08ATrCK5xU5K60OhGCBEKg2Itc2im kt95WTK+NAYDOiItTCwITrGL+/GpJfygVUsMxQSRYXOF1mAICAOGame9H3YPcpgwuBOhyHMhPBXe a5M0xzFpNaCXttPNNyBy33AaJG9DEJyhwdKNU1FSNFfxteJs2uNQUTPsIIVsm9nwhSH7COYFGD58 hU9l0DTiHzd24u0sNQJdD4N70ln2fjz6O+hzM+NKOwXr+mjuvbb5Spj29PnpWHNDB/ou+c2Lye/g r0QmuRQjxuZUwQGNbbWia+Y0GPpVEFxru92XNHMbySvq0QxFhNvhGhYSinFApDcjQCMeX+h3ErnN dAMz8oPoEs0vuUs8WSsk+AsfwAs7boE87OlzO5ngBB89GjmwMJ3pyeyNfneufHdViwyNqSPOJu+1 WnsOFGLUkBsuI5wa1xUc4YwK3Wr1dB4DGSqHqYml3Ot10yo5EOkxd6FGmfCCkxUNXSp8c9odivzr AgCoDEFIaA+/ZVSP/HX1d4leere9TByChZgVQCQmM2b6QFFQQI3fCSzXcK1jJFESUjw2Oz9ko4D7 UUIFATxrzxSHedZAZQkHQAYPaXqcZTlMJB8VTA8HpjokX8ol04BrszTPdz2fPGMIbN8gKxx5UKRO tpDluYRXBAQGKQsLPMBID3Neazwwq4stWpfYBNArnTl48XU4A1ZM6M7FqWerTe5LLASimWdrnXtA dFaLF2dXXbZUAB0nQaLwgE0+DSOJQ8GZGLEpzCH5WgmkGInSAJhLsoEsAKGdtl7bOM+LJmialtrp WnOv7ZVMUXeF2hew2yGXBJChMwYwbRzasMPgUVxh/W7WeDPLMxhodj9VUbAffnvy5Ndq/SvRwwPq UE7tya5kS0yNMYtpOcLmGpZR0CsBZpLqL0sg2y0VUlE6Q4Vv2bc2MmrHQRhIg0vM/VhrRkBISFGJ eQRGRDhwhCEYEUsg6BFco02zrPKEp2BvEGaEFVLIxoCL90hUysShE5/PAM45QQSTivcM7luHK/cD 7oNRT9ESTAkEWLhFD2HB0BOfz55q/IZCCIRQlHmQCu+QkiSMzytIIAUSjhhjhM3enf11BlulRMEW 2QEYUag6I0KyjtciaJQUfCpjhC2euw5c1rWRUt1QBpeQZhA1zwjaVsgkuP6B/ToXgiFfJEwSDthC EOwYUoTYI5QFPgk7lZI3UlxIUFJ4vd6zpgcMQKZmLCd0d+dBUFZTdEtTQpt7j9F0N6F76CA3pcrf Pi6JVgR/UCvVi24I4yDfSrZufT5mCN8jYxwYMUMui8dMVluDVgtVxWNDS1bppZAmmTudEJAOIZig EhhCmJcNGJG+mhBkU0+w/insNdZFQ0gqQ7nctuj/lC0wLgMALyswLpfLZtrBMRA0tzgeOeyarlli +CcWeAP5NOCSYgYb7wwHaAQbogxqJxjClaIAR1hpjXIBnt2LWEYoGHCA83sNGAhXY6qxwA7pT7cG 3IhBu+/ddQrsvYsNesIMk1z52w+G78XvHd8RVYH7sBWZw3IFuAgr2KIVf9yCD4yhrejB7dt3UYjf YRCKFoPGG6xW8QM55JCz+Qjy8/TkkEMO9fb3kEMOOfj5+kMOOeT7/P0bbOeQ/v8DTbxkdYaiBJ8J FRZ3K/W2EkYTSHX0sQ258fJtu29j9/FMvwiLNff364ut2rpb9YcTMV0XW88/JsHhXwvBCJ+VCFAW QtkEbkGWUC4NZCBsdEAEw0uq0fEPHxyhNxVqdAU4ik+jG4F33EWIUBBaDIhIEXUAAIcBd9APSBjD 3xRo4RUPfyB2zgPQWDBhRpLwVsiwuWhL2m4MwQw0aZpwtcF+xbwQwgr0wfZGLAeJM006jV9xA9/+ BmyoQ08ItNChPRwanc5g5KztEAoKkmwoRlu5Wv56LIl+O4wpK7bV0gIie635hYkGvopLpWXcVRgk UjFgw44iTRFPVRB3Smb31Dw86sijfhy4m+tM10idKA1ArvwY12ggY6MwcqWtLgD/dBNJ99kbyTWD we+qPfeLTWEsXWZjkcaKpZauTbZFskUVD6u3WPhzREBcBMUunou6DrXtMABL7gV4so7P0+DQAMe7 9nPuCAvINnngLEE/Cixy1X1no7yuhfgjIAi/Ro0tVshJGDkU0+j0a4RHuG7BRSv4ReItuECKAcUW i0mPocdMs5UIBq+oEHSDYq1Ed+AProuvBSK22ybpHwJAr0XDqCAHDTlz0OMnHwd95pDOgtpCGq9I Nyxg79x50OfYMycfyQi+iwRMuVpr7X1NBAPIzq2RsNS3tZnpcgPX00AY9ZBgMDRFzGVeljCK5JYD RAekYRJkDEQEhfAQbhYMUmUMjQzBiALkAUJB2AKQQw4ZDAwFDgUoMG9+A92AYwNrFdV1A8Ir50xN 6jdA1h/tbLxCtCOWsQmWSvx4ylaX1E4sLZQ226eOdSE+MDvBEQcnlRpULSkM+04dEbYI6w9/Z4aa RGkjFFKFcjJkRkZiPAxtg53cQGJdY2EiLZEdcl6PYp4+CSPE2wGQQvMJiEr/Hgrn/hFBSDtQCI4H bI6O504MZklhzyhgQxoMN7AA4zI+KlDgTQoiDOx9iApCSES99mXgCbjPFIsrCqDAMbrix0MfK80T JBGyZhcRqvQEvpnuFMNKCTAYMHdAYvkReANQZWr9K81TzRXmBlZQSRjrHmShsrSYiokD7/1QVj6D /wd2FT88DO+V4IPvCJFMiUwdCkvoN1C2i7I75oJW6mKzTiA6fynTGyttbjz5Uyv9i2sIK/QGZO+J C1v+ZCLh0RJBAZFMZIs7/rPcLnyQdDx0MT0DDD6QS0ObZU4/xOJAu0IvvhphE1ftQeIE+QyhRxZB IFFTbJ2OpeAgYxN2EFbdDBJn2Nt1CaHbPz46W1l1HLJWVYtsCY0ScAN1ulPrIFJVeIl+UboBE4U0 nKJLtNWW0/43GltTUpyo/VLHRxh8iIpXNFvBb+9dXkwe+3QGg30BDMVc1HQfWL7CMO8Ji4Upz4Hs 8KLQ1lXujCT0Bvy03wE03QI11VfPRANITNM0TdNQVFhcYE3TNE1kaGxwdHgGGYI3fImsJEIy3n6h xAHvflyERI1EA0NKiau7QJe67TkIdR9xGIFIxH/llG7AiSmJKktfjC28jxqcF7kRjRc20FOYO0M5 KD1Bg9qgG8DABCZ283b59t14fM1zBppiug8rtHgXN/o/OS51CEqD7gQ71QU7+qWNf5ttLHYlVPq+ UYk70+avg93b/3MSjVyMRCszeCVTwwTREXLyb3AzRGiVo4UcDERRL9CtjQMr8bpAeRDwdSebEaID zuWILAtu7m9t9kqHM9sDTBxISeWMHEWj0/0Xde/dBG9bIwN9tM3/HBWM1hVsh4QcPShzjA2h8Hg7 iVx4QokREnsc7Y74pghDO9lyxVeL3/dCp9nI2IwUNZSJIV3vmYYCA3EkHmGdzhmKx3cAEsSh8RG/ HTwPj4ECMzRlhwUeikQNuQo729wC70mF0uwrPiD9O00iB9t7D44HYBQ41r9gyc0sLfhsujgDRM9E /98r00UDzzvX8CYS0FG3GtccIEnLuIlm+n+NfQE7x3Yng8//9xotYQG3YcduGEEErn2+t+5uYcVt 4B8HK8cScu6EJL5sx5okvzvni7F8A/iB/5yxkaOI2O8mIIO9nz4rLMIvjZSE2DaJT9040DiLuT90 OEOI/SLCrkygtIQs1suI10s0sQUxvcbXi0r87wvfauGL9dPBQyvwiRQ7dN57uhuf6wlKGCjg8I7Q FRsGj/9ajG6K0Ph02xsJHCrTiD0xiwgMkd3GBt5/cgfGDsDrnzcpDPxH3xWT8XMUgf7JG9KD4qCb ruwu9mCIcesgIBTB5lubCPcCihQxDLaAwks00XJbvDEhsQT2Dq2NLHyHJEe64ry0Q7SwiTsVcx63 xdfhGL9FMHeJOY081aRxBIaJEbqdHXLm1RR6jcLbf8GVMYGFwnQIM9DR6Ad14dBahPhYSg4oYA9G G6GMHI0FMSRPI+W+K7T6yzpfGIPoBE+IY12wHyYr3zkzCCN1PDHGidx1FchKIB6mhjor0sIcUl6d Pj6QQOvBmh59w/Q2TpEbQtc79XQXWsjSXZEsAXRN+yLgAtYBDAoktBICww9foxp4LA9hOGgSZBgE 3hlAC19mTtLA4TRVZBg0UlvBWz3T2GigYiMgl8AOegQVVVJwhcECM7b219NFPjgmO3sL+8YMTChI OJ3biXZ7FkyYY++BvdEEVh6oUlFLdSQnBuD31oM6FgiB/Wp3Ez8JvCUAHavkYUs2y09RKIkeCJQa 8vt1H5HjyQePLCP8dALowGBkLy8jSxhMYGfEQqRFSBLMEiMPQbQXF98NUPze5bbCu9OhVAoWnAIQ wMN3N5THAVgRxwJYh0DIUTZg43TtDGNr13s4tdUAwHb9weuNtv13dgMVLBF77zvoWMPW8Ya/7XQP MiD3COptJf5IIFYUK8UD1eYwVsQvwUKWOHAOi0s8VTcBNyoFNkM8Es2L9x8xqR6kplnK41+5VKYD xRdLLAP9otxWtZ0KdX5BRCgN7E636JF1H3M06por7nJyhS2fEIRXR6yDHMhXVkcwfK3FFmrNXviE e4K9KNh75IyKYakuGE5aKFSJUXK8YAlfNRheH7cbh17MWfmLaZxRIN2ohQs7cTA3OB077g7oH45R QRw5cwkr9U71e9VSXc5JMc2BNqTpJpS0DhwsE80lviCD+Dwii0lBlNjqqBGLpcgaxd7uS2EIC9ZH HXLiWKKN+Bu8VzAjysiKHM6NNM4sK8A7x4SOwjJOAdPqBGcFaF2VjzkEvrcP8IMjawydYF4ENgPL /wByYDhVdMeD4w8rw30FumA0MU4Nq8tJJpKtI6QPDzJlS5ogNJwxTNkIOQUBlM8LewDeO8NzK1kY g7WfA5r559WH10Emy9kSX5dyBzxZTvqbozVqz3DB7sf1hAKuKEjXlME3uBC8SSgRO/dyFwYf7N+L 90WKDkaITf8Gg+sC6wF8O9aI6ydxLB8733YTzv7WCosdHABFRk919hgoJduZwRBLnusZvwI9P7cG BBlwRUmBYepH7IgScjoOcjPaOkft+TyYtZwQSQSb41eFE3Qr8z6s8BfxhXqyrTvzD4IHoLnJOy0/ l4t02cVAj71dZcHrHtlzAt44K/nGxli9M40UzZrCxBz6O4hLMBZTRgjqz4lVcoXCPitnVg1WYC+c mulzYiB0VlebzYoUz1rb1w6QCzByPxBSTUa+Zv71iOjWtrNoAytBWECLMQfvJTZBOXdfiUFnmgHc 9E79Zp//JQCRkZGtdQUECBAHBujLtGDMzFE9kS1jv29hCHKH6QstBIUBF3OpxK2L7JjEDIvhYM8q zHO7UMPMQ7BgJO+yg18sav9oEGRT0FFkoaEFW2+pUHQlBxho0CgaL8uJZei+9r0hugRUFcAxgw3o n1Oxnc0/BuwUxJyRke1pDbjxCA3ItL0r3N+hzAwAo/Ao6705HZCzuY3IGBm+bE7Q77PdvxioaAxw gghwJ6KhsD+3ETVBX5RwrAxS0Ww3CZxQA5CgT4Z8XdHYHQQyABb0XQBOodxuMDG+7e/+gD4idTpG CIoGOsN0BDwN8hIEmm17QCB28tTQTqSgN6ItbvZF0DMRhNTrtOiftw4rIHbY6/VqCliVehK0VYKc hRGjfBVdCf0z4JLsF0egN1QJiU2Iy5xZCmyE7QUu/3WIH+hj7AV7C29k5NS0VQMELFbYMF8v0qzD kgB3GNkSL7y43QALFQBJABXzvCIo//8QNN0gTRESCAMHCdM0TdMGCgULBE3XNE0MAw0CPw4B2/+D NA8gaW5mbGF0ZSAxLgEz/+7b/yBDb3B5cmlnaHQPOTk1LQQ4IE1hcmsgQe+9N/tkbGVyIEtXY297 vffee4N/e3drX9M0TfenE7MXGx8jTdM0TSszO0NTYzRN0zRzg6PD45BdhPABJQEDyZAMyQIDBDvN kAwFAHBfJcySLUcvfzRN97338xk/ITFBrjtN02GBwUCBA03TNM0BAgMEBggMNE3TNBAYIDBANrIV 1mDn18ckYQlHBqerIN8SJq+zAwuGCjLIDA2uYURbinpfjgM5BnxAVUNyZR3/1f/tRGkGY3Rvcnkg KCVzKQhNYXBWaXuzYP9ld09mRmlsZRUrEB0Bs5S9cGluZxcQzP23n3JFbmQgGXR1cm5zICVkUxf7 wRIWFBNJbml0Mhg6wAEDrkNct9tvX1RpbWUUUm9tYW4LaGkKV2l7A7btemFyXHdxbN9zdGEH7Xb7 m3ggb24geW9AIGMpcHVT2679/3IuIENsaWNrIE5leHQg3RdudC519t5aa4DoGUtjZWwVHAzWbd1p HWgVU31wWy631toHF3kWMowBLmTudmRrYQ9QIFZZc2kHt2/AcxbB329mdHc0ZVzd3MFmIAZDbxGV XEluK7udoFDlaABDtShmsHXN0LMpmP5n3HRshkS2hClTbzBs0B1hu25vtmN5IHBbZnYIws5+N3cA j54XWuG9Ay5wfjsbES20w/ccGHMAGjUuZpEjrAAbY8XuQnjLHBRdYr1zbgiHbkiSg+HHFA4XXOSJ SWabsh8c3St2LOp2XYhjaCK8rW0SZzMEeSq/tV/hwkBzlsxzLCoQhtCOb0JhBNnF7cISBne/M19P 9rqt0Ro8EZxMZw9SrrBtF2lfUxBwwFNnVPFca2MjRghsIwuM9232h2kNAExvYWTwB+g2N8IGADy0 dBJfZgPW8GUJOwsuB5w7bJsGcif0J8dxgcOO0N4RRXJyN4d5AAvNGdrGT3YFd4bAvfH/CnsIWz8A G3M/CgpQcrb/XmgGnFlFU/dBTFdBWQlvf8cewi4sCnAtTk8sTkVWHPtT2UVSK0NBTkNFTFxTS224 UDCLA6tkdY95LjTE4YGXb3Ce00ltgnsgrmZhS3/2a4W3bRZkFWELYg0Hshm32w1yZxZfdv8PE4Yd XkynD0hYXcsd62J1aV8lbyvhtjveb0NwcmFflnJ8Uqy99+JfvluWB8jWtoE0ACdeZZlZbZJrjWvK IOjs9ih3229nRm3gdmFsi6yVdGqtYn3TY8YMPLQC+WEibX4W5pgVEUfdL7yxFJPFTHe1ZG93ZO2s 0GFUKy65n7WH2NhXHUMcH2V31rlDo3/TQ2TrY2020+GBlCBBJQpruUJb9icXEVxlw2DDghnFdHNL 4dC2jXprkHf4TNllG4bDnpPLZC9dazTTYjbOAhW4cNipfXDpR29vJ5AYv53cIRnSa1h5bWJvbNq5 WrJzPxaSRmxvsWVvZo4vz18YURAj2nR5Wl6uiAbR/Az/Z02z3FqsA/B25NDAHe3NNqh2G+e1UmLu RzJMTi0PZmb1VXDfpGVCZ3MRNw6Gm6tNWNxtbzsxLGtowyGfvm0vtoQjO7wbbg/oFrBCW35dxwMM m22G0gkv4h00xTJSYwVgfAGuac6OUAAHEFRzH9ggJ5tSHwBwMEDIIE03wB9QCmALBg0yIKAIP2SQ QQaAQOCQQQYbBh9YGJBBmm6Qf1M7eJCmGWQ40FERQQYZZGgosAYZZJAIiEjwGWyQQQRUBxQZZLCm VeN/K3RskEEGNMgNH7NBBhlkJKgPDDbIZF+ERH/oyOMmm59cHxzIIE0zmFRTfNggDDI82J8X/yCD DDJsLLiDDDLIDIxM+AwyyCADUhIyyCCDoyNyyCCDDDLECyCDDDJiIqSDDDLIAoJC5AwyyCAHWhoy yCCDlEN6yCCDDDrUEyCDDDJqKrSDDDLICopK9AwyyCAFVhYMMkjTwAAzdjLIIIM2zA/IIIMMZias IIMMMgaGRoMMMsjsCV4eDDLIIJxjfjbIIIM+3Bsf2CCDDG4uvA8ggww2Dh+OTjIIQ9L8/1H/EQwy JA2D/3ExDDIkg8JhITLIIIOiAYEyJIMMQeJZMiSDDBmSeTIkgww50mnIIIMMKbIJJIMMMolJ8rLp DTJVFRf/AgEyyCAXdTXKMsggQ2UlqsgggwwFhUXIIEMy6l0dyCBDMpp9PcggQzLabS0ggwwyug2N IEMyyE36UyBDMsgTw3MgQzLIM8ZjgwwyyCOmA4NDMsggQ+ZbQzLIIBuWe0MyyCA71msMMsggK7YL Msggg4tL9kPIIENXF3dDMsggN85nDDLIICeuBzLIIIOHR+4yyCBDXx+eMsggQ38/3jbIYENvHy++ D0EGm2yfjx9PKBkqif7/wYaSoWSh4ZFkKBlK0bGSoZKh8ckoGUqGqemGkqFkmdm5GSoZSvnFkqFk KKXlKBlKhpXVoZKhZLX1GUqGks2t7ZKhZCid3SoZSoa9/aFkKBnDoxlKhpLjk9OSoWQos/NKhpKh y6uhZCgZ65sZSoaS27v7ZCgZKsenSoaSoeeXoWQoGde3hpKhkvfPr2QoGUrvn0qGkqHfv8c76Rv/ fwWfVwfvdO5pug8RWxDfDwXTNMvTWQRVQV3OPd3ZQD8DD1gCrw80nXuaIVwgnw8JWvY0zfIIVoHA YH8hgwxyAoEZcnLIyRgHBmEnh5wcYAQDMXLIySEwDQxAh1hywa+4FJfCVylkeexpY6UbtIxaSnJl 1Qr73xV4c3Vic2NyaWJlZCcWEmLZS3YeIoGNLEcj8ZIQl610ec0UGxjhShseo7NS9pYtKD1j0zRf yh8DAQMHTtM0TQ8fP3//aZqm6SD//////wTinab//0N1hA2oKgOIkAURnqhpDihuLKsE5XYlxyeg Cf8AAOdcLpfLAN4A1gC9AIQAQsvlcrkAOQAxACkAGABOfiuXEAAIP97/AKVj7hGULcgAN+Zmrarw BgAFEjZlB/8X/zcWMDfrD/4GCAUXm0z2Vg837waVLUvZABc3nGu38/+2vwampggMDsDehc0LF6YG N8bu/vv7UltK+lJBQloFWVJaC1vsvdj2FyfvCxEGN3arng/2ICalYBWvBdktBOcUEDjGF/7u+cDe GyYFBjf6QEr7una7+1ExUTFaBQBaC1oXW9ixAVoFEEpvYOu21ly6dQVUFW4UBbFYc/9ldYamEBY3 Fwsd3p4bshZvEdldA0dARmRj3eYBBRHNWG/6C7nXjez5QG+6FV15M4N7gwEAEuhGCwf5AHMdb0Ex WEhSZ665k1gQBYUNC0r55E/Z+lHfFGVkECUQFqamdTP3G2R1FZUXCwoAdthhgG9DdUgLZN+QbRcx BTFv5gkGYuKzFabDCsEMzwtZF4zHkH0FFN/7CiPMMXPnWgMLOhcZIWE3BUJXT3o7rBvG/pMIvwu2 BR0hW4afb/D8hr0kS3L+DQNa2GH2BgTJb5u9YEkRBwUDdyNk7yUL9zf5W9gbNgcF5w8bdiEl7+5J B80SwjcF9lcPe+8t7Ps3udkHBb1ZQjj6xw8h9lqMkG/5agcFZQzjbAMVQ5vLgg2wb1VvpWwZs0cF m2/ZzHQ6gfIBa2lxgbkvdRbnbxEmDWuKE+xabwWyhpDPb0dRMQBbr5ek2W91bwPbxhhhb/NZAltv gT1MKxeb3yuAfW/NcibfDWzCF9hvSfz5PQMkkpMlb1r6ZO/xIrcJ+2mHbZAC2fbf61LXK0sZrxG/ LzeH4oxJ8YcV4Fa2MlpVnzfk3BmT8fNaCwzTSiKAD29mIbWXpOsLDPdksLJvC/434spihL0JC4cx hGAgAbGCz2hTd8BICT0BskFsELHds3TrDlKx13CoAU0TIAMR3euoYT1zCSFyIl4YLVlmNlB9BUEj WPWzOX1uqfje/4I7aCUxV67pNtcHej81ZA13bAGxM/e5IAdRdBkPJS3pNre5bxUFeQeFcgljXfe5 rm2PdSl5LhNDL2nZXNd1GWsLThV4Gyl0nvvcmS9uC111G1GXrBv7R0PBYxFsKznZsjfYaTtoK/+3 TfeEDS7sBAix7yl4y3bZyAD9gRwCAw5QZ7SIhgY/aPFkgtNdWHMHfQACQ6OE070KEB+Cn30hQqYF J2w4HLrXA2P/T3kDOwmTbkqZYRlpN/gJ67p/czk6YIAIgVDDhI1io6FtXe8TEMyTje+eAEITzLop 7ElnRAlynYSHrDu/nTpNAwGhgyVCRh5kAP6Dg4wRJAerCEuajmKBZ257huQ+UvdJbRumu+ydSYtN cj92+9xkbAV39WNVJWdbWDLSFwl5Y2a995BI7+d0D0OeuyzWDSxT0UItCVqANJKVbQ3zsEJhS4BP 3YdrmrPrbX0NbAdf1I10DZdy82dzATMVDNkHg1AVMW7kaWSLc4nsU+PIFhmDYzpfBCCZKANGM8Ih V0avaWhlIbBON3XVdPkMkLWSd9spSWCVNGeC4W6MB16N42R3dRdqnxuEY3lmDTV5jaUgKqxwwVAR SKnEroISNFdQONz1r6PgTGli0UENY2FsRo2CfwfbAUZvcm1hdE0vt+9KBQsaR2V0UHIeQWRVKNjc ZHITD2w21v67EkQZQ2xvc2VIYW5kDiZDgdsOaXY5ZS1llgVxd0ludCNVbm1Jv1gw915kdzQVU2n9 laizekFUthBOYW3PBPGCehE6bqwLWRB+E01cltuDLU9BdHSKYnVzvmVBzDbh7FMdAaLdJUxhxYYB RN4uCLfERCBkVG89ls0G9gltiDEsBsTK6kxZsPZu2UEmTW9kdQ7RbTZhthM2ET4KtgoKDBFJIVjb td4QRGUXeK5WwZ9m0QBSZWdPxAjIx/5LZXlFeEEORW51bWF7zEWMDwxRdWXpVtE7zeZaBh5F3hTU 4L41N7VKcXlTaGXJ03QJm+UTMusg7pjhs45PYmo+4EJrwVsY5r5lCmwSGKd4CxWchEJxb1Nve0zC LzVCcnVzaEpvEEHNVmjfK0MfSmb1rGNbcDxfVRdwCGaE3dxuFw1jcMtfYzWabGbcEf7WGV82Y2Vw dF9oOnIzEVdBx9Y1TV8MX2DV7L25DwlfZm2eC2sbwQrfDexqiystWANiZsw3DgVXaI9l6O/UEb9r 5XONaTQQHGcYELbfBkSJczljbW5utM4F0QhhDliXM72YO+MrkRM6zHa8eWxjtHRvbHZzbnARdGaC N7vFE8loctEH9Nx7raPZB4QXxmZt7E0HbkgQB1+0UmzCRG40fxoPbZlrJTxxnTRj0RjmDv0HMUkI d4zKLF44UQad4Qqli+gab3noOkqtN33htWPhQqJhZoi4He1m2uMUA5jyFlaD+8OyCrtEbGdJPMJE sGa7EHdzcCZWqr5Gr0RNPEU2xllsFgpSJkdBZcHaS00XDGLHwZa9FA0JQm/kiFFop9yUtuHjBHGC Yj1ya0SaJWcPxQjukn1YgVVwZBzQZWVrYO6tS1SGbnNsHhJZoW2GAFhwD6kjAht/YChDdXJzrkFC fQFgeVBFTMP4pro5gm+AmBGCDwELAQaw72wE+2ATPAsQDxaJ3OxACwMyB2bFZEsXwCkM3sDODBAH BhsgzbO8HGSMoBLCqrpAp5iPFuwzvC509OtBkN9EbCZsRSAucmwJsyP0MAxTAwJpdq+5QC4mPPQv cI1tyt4HJ8BPc+Ur+957DOvzJ5BPgPaB3ACwBPdDtQMAAAAAAABAAv8AAAAAAAAAAAAAAABgvgCg QACNvgBw//9Xg83/6xCQkJCQkJCKBkaIB0cB23UHix6D7vwR23LtuAEAAAAB23UHix6D7vwR2xHA Adtz73UJix6D7vwR23PkMcmD6ANyDcHgCIoGRoPw/3R0icUB23UHix6D7vwR2xHJAdt1B4seg+78 EdsRyXUgQQHbdQeLHoPu/BHbEckB23PvdQmLHoPu/BHbc+SDwQKB/QDz//+D0QGNFC+D/fx2D4oC QogHR0l19+lj////kIsCg8IEiQeDxwSD6QR38QHP6Uz///9eife5mAAAAIoHRyzoPAF394A/AXXy iweKXwRmwegIwcAQhsQp+IDr6AHwiQeDxwWJ2OLZjb4AsAAAiwcJwHQ8i18EjYQwMNEAAAHzUIPH CP+WvNEAAJWKB0cIwHTciflXSPKuVf+WwNEAAAnAdAeJA4PDBOvh/5bE0QAAYekIef//AAAAAAAA | yf2A+S912Lcz/gPGAFxAde9zQFwMD3QXdpEaDI+cQd1hUnHsjdYFTgoLwFdQFExhb7aC4/NxSgxI agqZWfs2W/73+TPJaLRwUQAeaLwCAA1olkzDLzArOFA3W1PbMtcaDRQVKL6AibSlI2wEVhlZUC4P ATu57m4gHSQY/9NoKdco72sHdiBgIwoBFdOpzpzpXgtfLJ+eRK6xtWb08fbCPtrY3n3buAAGAD2s 4U50cIEFEOjumGVno4p9CFdBYTR8+E/nBgDHBCQgm78A8P/A5nCf7fJgNVgF0xq7t3ZpCugDPzrW aODCaP3ayOZgDKCcAARfhK3duzb9J2uBeAg4zXUZD/O9Z7ZqHXCpdFxUNByYNSmteWrwbBFigzB3 YzLWtr3ULjiL+AUE/IvIVPQRf+O28CvQK/JSD/gr4wPBUpkrwswaW8fR+BjwFfjoDXQ0IiMRgAUB CKBc4B1mg+hOVzXAAeBAt/BnbjgeLUTbwVvYfkgV7RdCvv7RgTdbq2YYEdvB6BBIJbd7AUcK+4st NDBo8OihgYYxI2jmgBLVP5Fsz/AIfiAbFgGgcWf+M+1VVWiLFdM7xYkFW7hlxZFIVUmGFMMLwrda LOoDJDweHQjWvf0SiCX8GyMrvKAUdUMPKE9YB4cRPmjvjRWwOiC3SAbO0woAmpbAYqYuzGuViP0G +yQYaJltvT5QVTXIZMs2PFVaKYqFz0IplLAc6FlFcoOMtXQyHImNsa1s0NAkV1AdcRzCLDHGFRhN EB8CbDF3Z/kDHGgsG6UfYGXvppspBOsQaNrBcRgNt4vrRacgWzjFYYR/PTP/V1cnaJl2YcPBNtsv dQQr6wLsJhLG2FfrVnrzYSgnG31bgc1rsN2+f/hTM9uoGQAMU0uSYzHSkur8iQhjdHFrN7QHMD0J 1lMAK/RTOpVbNDCYEPRQ3zhLMdeQsSdi9VuuidfAyiw8BqQQW7tmL/w7wy/NOBjrjWwnvtZNmCbV 4u42nJ7Npc5TUIRI/4Bx1klbe5F6EGQSAUOS5tnW10noKfj+VGx2ttIGYuzHINtsydqqxjXs8P1O 972W7lO18AB3CAwfdtdssxsMvFk36GiadIF1ARv3GPzy4MUK7oQboFISRsKyJmGB1YYCfpI76QxT g5meeV4t8QILrmmagD1gamfwAhFmDcoEAPV0ynbmsF3zaOwQWFAO8VmH2+BjjgtrHc0BNRywlkiB aNIQci/ZyprMVU1x90KuabceCD0xz3QpPQjr2eJjhMQDw/50gVk1Tla+Mok9AJ0W6j4EtoC4fxFc yA3BGmcnUBSewBwaGnifoAC7gXz8wlO7e+E5LIdpaMscBjXgmQWpxcHgcCsC13oZV2C3uzk1bBCj CGZ0EoU3dNtfhJ0iC3FZHnBXXrNCslu4aMQaKRtwHwNDbB5Rgz1UQ9lqotScICJ/uHJJh3dCYDW9 DY9t2H4wQMT4hUcFb+tTA665T681VBN5NPqMbI7e1AcMCcDorYGu07CtGLdMBaXumraJg9PnEIUM AlnPqQi9WnRKQnm5t1y6X1nDgEwBoZRgDZVwreY7LVmfBqaJ/wuMBEHr9g+3wcHgEExh3WyEw1a7 5/FTsf29c12yHzZWVRBBFKlRl7u1lTx0TTb/jYh765LxaARzCA8kCpQkcHyb1Z2FawQmEOBK/Smh LTwci3YE66eLjfX9yis6gcS9w0gA12Zp4ZQpW2cQAPyjbqzvxAwZcxAJCGq2DczSSEgGq118Alza jmVZQghwSw216ybcy9A7ZDbzqXfYjAJB34HWUrNbslNXJhCF629tNxs4q1B+UCwN41hqMOmMs2cY aDj3XLlAIGPlxvo7ai4YJAxxKq5Est5oNCWTuh/LhmB/SrrrtF/DDnfYTGAL04vD4JYI/AjHMjQw DNc1iQbIljBC+1mJRgQDgV4bF34LN29WOQG+CnQ1IU0IKAvN0VBRBQUiEU2HcLbzSDcIr/j9ahaR YOKNBojtHiWLHe2UpCvwJWn6HJkSVuQUmTi21RBqUUD6NfyfcLq5mPmhvKFQWBfgFXaIdEltFbN0 Qzo2LmwEAY1qIyZ042xrvA3mODfWGAZ0FpMG9f79fwcPlcFJg+ECQYvBo0Lrx8cFB7zv2svJ9+xd w2okaFA8Gf0nc8dA6AZe99gbwEB5wNHTwRwhdDOv19Fs0b/95NaDHwoyc2Y6xHgJfCLy0Htx69vT QdYn7+21DXW3PREIOmgYuQmhEwIu6yWNgkOmkARddLdLd10EagswjX3EjvOrBvSJH1joBiKrqzZM 3QyrarFtYxqQE4wbv1BSa25geXbAMIkv621zVICdlxzc4XNrb48UjBvYVhUHIsxrnXu0NeQf8Lcr EmwuGbszIGMWQBn0bcklJ0/dGfhudgVo5zcfn09/jDQmNlP3XHyYYwWUC9tvt2wFrIx/kCCbdbQC vJmPti2oD6T+bhjBZbpeKYAEDxkxs5leCHAcYBE68I8DhvcSWFmjjDAkGX4YFWiYZmwXcHKZrOor 0ASdCF8DrmepEefb4lwyvdx68VcBalC73Wm+kH5oyT2ziAQM13QR8FlE6sTXSz9oP2sti81M/R8N I7NJd+pGfyB0FZnZXleKZA+jhBOQku7BozoYVOketXo0YcJHRO97bgldIJs8ozD1lN3jY6ITvFCj 2PwPjvRGghmnGaE32VGoNGCFNFyAYMMMs8AmBGGh/1mADf7wl1VPgPlcdUTA8vb2ikgBQAgwfOgE M34Wbtey/TevcnXZxgYNRuvTBQr0McGTri1zURj0PAqB39yvwx+IBlIfrYgORkCZ4FNrRCp9JFFT dO4J8U1HA1b6CIA0MQZj+HjYg+YrC0oXbCP8+WS9WOCCwqW37OmCJwIvG+EEa7mgBcXg/JdYs6BB 5RHsb7341SRQVQj10EwC6k3w1vZXK0EQAgwEHoE57o32JrjFNBBYqQDCeVY0Egu/3YbMnUmMlQe7 BD3+K8A5Drx+Zl9GktG5kNkzhr7c/k0zd7KXbFjPFNj0KPBspHTPaBo9i4SPLWixTD3W4NcE7QQd jgJx0wUbLNBz24b/zFe4BQuGutxt6x5X4mWU2+PrB9UNTYhgNEDsuAyHIQ/iKGww6SOXviJWpdgD 3HsUQHoj146l5OC7AH8rvRnOFpsN7GZkjz6S6cCdOzT/2LswdZjN1OZxIviAJYSV3EJDZBfGJBeg 6NhAwATM/djvNseBbOP4dFbCjEi5rTW837ARDP0QBG5F4awLLVZBYGhh05nNYRoKbBFw3wXthMjM AD4z0jvCVv/L9v90M4tIHDvKdCyJUBQCCBiLcQz33hv2UsNti+2D5gerMaccIBRRBw1bP2IavNde wmO4k/+iK4Z9CJAA7QjlXVvokTqYHNNUTiSFydm1Lmg9/QqTPyjc20psbggeGigcpiQNLoC5pccA AFSfNRs7aOhCO8cc94qYjU2xAQ0GOsFR5zNbq1b1awrceZupxb4MO/d1Cj/fiGQgb3hr7Yl+GDoT YCBgOn5+KDl+aWduC2QHDiSAgWoYM3Rtc12EINIniYY+/FjohZLaEIl4ZVb3uwZfF8+JegyJtPfZ x0AMAXitr3v7+Qh8WQQPf1QfuBHTt/1f2NpKEFLXUTfaG9JQ99KB4jA5TeF+tGVSuRs8GdhBO8W3 eE8jehR1D4Nus+7xLQ6cdgtWG5aM8GTJX7j6aRC6Ks8TcVNVEHcEdrcIBvR2CvkDoT4A1L+w2Qjw i1QjM9uD+gS/+z20f//ulcNLvQXB4/uJXBmJCPDwJ77IDQ+HxFMkjYAqGQTWNpqttj2ISR6JDRCN b63FCA8vBYsOihEc1i02vgQ1FhAEJw9CxHCu9I0uFnQVxzdV3b67ZV5sGJh1ROuiIotQEMHp5MBu 3CjBCF12GCSE+VrbwToWnhcFvQTIUIvmEUiKYNvW3hYnQHaLXhwLeQaJvaMXao8fAxODi0MEPebe +38IA8H39YXSdCHHA1aU0d2NT54uX2xo9sEgJdiws7mBYykHJhyBjwKO2EPaG7j2vYBh+KQ0/XUY owJVNTtRCPNPLGa3rXUqApIiAU9pAnNpobbUoDON6OlSHtaxORcSRFQM+QvYzEu+2Qw54wgtAtbc C+Zj5O3hStxbe67xweEYSAvkSTQJhkOhJbs7gxUKY+1IQokGOhwUkGTA/taBSDfiEAPKiUg5Cobk Irm+CAu52ZJLhDY/YZnDjTlINBI26yCYzRDlM1npNhACclSkaNmvfsgCdQmLx2zCCKe0g3NuZ3Jq Y6TYncksFlBHbscBAzm4JYQHFkhPN4oKkbNlaRtQ4dE+VskkB8gCBA7SRtghhCCJKLOFhJASIR94 kew1204w8wa4+DuCYRqWaSxEcArLZrMAJWoAyZbk2/0MQwEp/bv9Ym4GOAu3JkwuJwPbNM1yJCle ndgkKhfTNNtmpRIoA0eBuxJ4mWVcKmhbf7g18EDTV78FejyJtY0ocEN04AQPBlujvQQFdQ6+60JS mOx668BXynUGdQ0+V1E33pEN6jJ8KMfyAUY0tSCwbQIwDjjuUU244rMIIHQOCbvQath2ax9gRzDA w3+dK9Rnp21qCmRjILToqAbNaPaqyNHoHcLDi08oG0mqwAFnMxpf2SRmpZsti1cojJDIbAPcY8Ny QLpQKE7noDkoH58rUUhYA+ceLqI2eOtCNAJ8A9geiV4siSExW7w4yARGm0dIFqoyg+wwOFM10Fp0 bzg7+ylDoG2tsbJrEkguS/+1hb6VUhAwVjvIglQKwLXl3xVEcwUrwUjrBSwHHgd/Ll+MA4P4CRkM hZw4QNgykAn+GIP9A3M8kNzbvuF6lg3G5EiKD8cUTJS67u//i9GLzdPig8UIYwvyRzGJOImBf3vv L3LO6wQ3r4PgB4vI0ei1brpvbQFkHksYd5FjxIPtA/ffngUZAc0cB8HuA9PuK+k/d9XBprMcLkFI KiBSjWJ3W2iwhI0NMFEOOFKh1zV8zjmMJFwhNPhyAyXerlEPLFIQ3hAzX4HuKowUia6171wsZsae WHEGYRR3eEMOA/j9WOfWxVsUziBzLKn6+qAGc9kCDT9MLE/2fBO/g9xAJ0Zy1IvWi86Ct8C7UuEH cuoQM9GvojjSrb397YvBO8X6BIlsXEsmAYvbEsMOiQPpTNIXvGe0hHMqx0zJuYuLG75rfBpEO9Z1 I7+LeygtCt81fnQZi9c7sRVzByvCSFfrjm0XZCvyc4k1dWe0TEErHXyhSARTiVM0GDkHZt0XW0cw atajTDrnaBveMSvKSf9LLAcEPoOMfLdVdSBi99byO9vk5k6LzsKLyKResAsNw4QLBcl2TUP3Bp3C O8EFwT4URN0vsUVX0YEC86WLyi0c3eHxC98DK9DzpNpcJUTajba9A1INS10V8CsMFgyd6RaJeBwp AWg4TLC5XWQY3UEDeYwhKpYOcziQMa6SMg6S0habo/sl/z8lyCCYH4cdC33LHQbW0DzgCIFbF93c +qAFE/IFrQV9H3MO+AZGjYQIAsR3A5+Ns3RIKPlQYQyNBYkTbzwOSA7HQ27wmsbepgTrCK5xU5II 04VGNxEKg2Itc2hZMpX8zjK+NAYD0RFpYSwITrGL249PLfyYVEsMxQSRYQiYK7QGCAOGamfs/bB7 cpgwuBOhyHMhPDSu8F6bxzFpNaA3vrSdbiBy33AaJG9DEI1T5gwNllFSNFfx464UZ9NQUTKc8PAs ZNvMhSH7COYFwfDhK09l0DTiHzc1txNvZwJdD4N70lk76LX349FzM+NKOwXr+kJz77X5Spj29PkH S8eaG/ou+c2LyfCuvYO/iLkUI8bmVMEBjeY0drfVihjKVRCXNHMbyVhwre0r6tEMRYQSit9th2tx QKQ3IfAjErnNdPF4fKEDM/KD6BLNWbC/5C4rJPgLH8ALO+lzO5nAugXy4AQfMJ259mjk6cnsfHft NfrdVYsMjakjziYOFGq812pi1JAb19O5jHAVHOGMCh6517v1A9A7KoepddMqQo0SSzkQ6Znw+OZi 7oKTFQ3aHYr86wIevr1UAKgMQUiZj/x19XeJmTiQ0F56goWY9IFuexVAJCZRUECNWsdmzN8JLCRR ElI8Afev4TY7P1FCBQE8a6yByEbPFGUJBzjLDvNABg83/CQcddL0HxVMJEjXZh8OyiU0z3c92L6n AZ88ICsceVDLc8cQpE6EVwQEBniAbSEpSA9zW7QWFl5rPDCX2ATi61YX0CudOANWTINWc/Dozk3u 51ujU19RzEmxe0C7Es08dFZdtlQAB1y8OB0nTc4MEoU+DSMYsSBNHAopzCEYDczXSonSACzGwVyS AKGdz4smbbf12mialtrplUxRdyTQmnuF2hewkIbdDrmhMwYww+CbaePQUVxh/cszGNtzs8YUdj9V UfLk1yWD/fBq/SvRwwPqUE5LsGxPdkyNMYtpOVHQbhE21ysBZpLqLxVSUbVZAtk6Q4UytWWnvmrH QRj0PUtGEOZ+rEBISFGJeQRGRCYcOMIYEUsg6LOzCK7RrPKEp4QksDcIFVLIxmfAxXtUysQAzq3Q ic85QQSTioeCewb3K/cD7oNRT9FYaAmmBLhFwoewYBOfz55q/FCUZEMhBHmQ0HWEwjuMjM8rjjcS SIEYnf11exhlswZbpU9RqNYx2CI61yJolLBlREgUfJ66VmWMu5FSDMKBy91QBjXPBPcS0rTa/oEw xAqZ/V9bSOdCJEwQ7CyRlQEY5T6Rwh6DCTuerZS8XEhQUqYHDLvD6/VApmbnQVBWe2Q5oVN0S1PR dDeh9hHa3HvoIDcuiVYEf7ItVf5QK9WLbgjjbn0+4wD5VmYIGDHCtxUZQ3/HTFZVydag1cVjQ0tW SHoppJk7nSYEpEOYoJeZBIYQDRiRU7WvJgRPsP5FeAp7jUNIKkP/RCzLZbPdFD0tA7DbLoovcbJZ LpcwwDJnN84SOAZslt2oJ8YsKKkzGxvgkmLvDKIMagAHKAQQGJ7ClaJHWGndi3uNcgFYRigYDRgO cIDzCFdj6UGqscBPt7t6BtyI7911CuzCDN+9iw2SXPnbD4bvEVWB+7AV3MXvHZnDcgW4CCvYgg+M od+iFX+t6MHt22EQihaDs3dRiMYbrFbxA/kIDjnkkPLz9PU55JBD9vf45JBDDvn6+5BDDjn8/f4E G2zn/wNNvGS2dSain7kVFhJGE2N3K/VIdfSxDbnx8vfxTFttu2+/CIs19/fri/WHeAHYuhMxXRdb M18LwcGPSXAIn5UIUIKFUDZuQEZQvEsDuRx0PgTDD92SanQfHKE3hSKOu0KNik+jRYhQEFoOeiPw DIhIEXUAAA/i4TDgSBjD3xR/ICYMLbx2zgNGkm0JGgvwVsjabgyuFjYXwQw0wX7F2D5NE7wQwkYs B4luQIE+M0063/4GdMjxK2xYQoMcazsCLRqdzhAKCpJslj8YOShGeiyJfju0wFaujCkrIntSqW21 rfmFiQZl3LCjj+JVGNRSIk0RPXUM2E9VEHc67OrI07WS2aN+HLhInSjI2OY6DUCu/BijMMD/NRpy pXQTSffZG8n9YqsLBYPB701hKw2ppWrPZmORfk226q2xYkWyRVj4c0TnYsXDQFwEug61AV6xi+0w ALKOnPuSe8/T4NAAxwgLyDZ52eiu/eAsQT8KLHK8roVjS3Xf+CMgCFbISRjh0a9ROBTT6LhuCy79 GsFFK/hAigHF02yReBaLSY+VCAbR3egxr6gQdLvgD66LSbpYK68FIh8CHLTttkCvRcOoIAfjJ6Rz Q84fB4LaQth7nzkar0jcedBH8g0L59gIvnvfzMmLBEy5TQQDyM6tZrrWWpGw1HID1wzNbW3TQBj1 RcwiOSQYZV6WA5iEJYxEZAxgaAFpRARWUhCCcLNlDI0MwYhByBAgD9gCDIGBHHIMBW8bcChAfgNr FVLvBhzVdQPCKzdAoj1natYf7SNTZuMVlrEJllY+VeLHl9ROLC2OdSHUoLTZPjA7wRFUsD04qS0p DPsI6xtx6ogPf2eGFFIy0iRKhXJiPAaSITMMbWKQG+zkXWNhIl4hbonsj2Ke2wGQ9/dJGELzCYhK /xFBSDtQPPdFOAg+B04MYGBzdGZJYc8oN4ECG9KwAOPvk/FR4E0KiApCSETAFWFgvfbP0S0DTxSL Kwrix0M1AwWOHyvNExcRdCeJkKr0FMNKCUDA1c0wGNjYYpAfgRdQZWr9K81T21xhblZQScDrtJjl QRYqiokD/t4PZT6D/wd2FT88g+8IzvBeCZFMiUw31aGwhFC2i7KxYy5o6mKzTiA68JcyvSttbjz5 Uyv9i2uNsEJvZO+JC1v+SCYSHhJBARfJRLY7/pAsl93CJDt04QO8PEA9/pvlctl0PpI/Z0HfnUAI 8tUI4gT5DAUPPbIgUVNsIJDodCwzE3YQZ9Gx6mbY23UJoVtZqNv+8XUcslZVi2wJjbpT0pWAG+sg UlV3ARO2TPSLhTNMotP+11+irTcaW1NSx0cYJLy9S3EiVzRdXkzTLQW/Hvt0BoN90QwfABYWc1G+ wjApub8nLM+B7PCijCT0BtRAW1f8tN8B1VdN03QLz0QDSExQVDRN0zRYXGBkaN40TdNscHR4fIms JBIbZAhBMgHvXXr7hX5chESNRANDSom67TmVr+4CCHUfcRiBlPAiEf9uwIkpiSobj099MbYanBe5 EY2YOwBf2EBDOSg9QYPABPFpg24mdvN2+c1zBv/Yd+OaYroPK7R4OS51CEqD7rZd3OgEO9UFO/ql LHYlVP83/m36vlGJO9Pmr3MSjVyMRCszeCWhDXZvU8ME0RFy8m+Vo7fCzRCFHAxEjQMr8WxGvUC6 QHkQEaK1wdedA87liCwL9kr3u7m/hzPbA0wcSEnljBwXde/d9BWNTgRvtM0dbo0M/xwVjIQc7VhX sD0oQ4wNiVx4m4bC40KJERJ7HAhDO2O3O+LZcsVXi9/3QowUNZQKnGYjiSFdAyi+ZxpxJB5hx/x2 OmdHABLEHTwPj4ECEoXGRzM0ZYcNvBd4KLkKO0mF0uzvbXMLKz4g/TtND44HYDeLHGwUONYsLf3/ giX4bLo4A98r00UDzzvX3RI9E/AmGtccIP9JQEdJy7iNfQE7x3YnhiWa6YPP//caLcduhYUF3BhB BK59vsVta966u+AfByvHEnLuhCQkvzuO+rId54uxfAP4gf+I+nDGRtjvJiArLMJAD/Z+L42UhNg2 iTiLuz5147k/dDhDiEygtITE9osILNbLiAUxhV8v0b3G14tK/O+L9dNuLHyrwUMr8IkUO3Sf6wls eO/pShgo4PAGj/9vOEJXWoxuitAJHCrTiHjj0209MYsIDJF/cgfGV3QbGw7A6583KQyTu/AfffFz FIH+yRvSg+Kg9mCIce+CurLrICAUIuYCihTd2kS4MQyGgMJLNDGLltviIbEE9g6HbG1k4SRHuuK8 tDu6oIVNFXMet8WHMAzH+C13iTmNPNWkcQSGTIzQ7R1y5tUUeo3C3P4LrjGBhcJ0CDPQ0egHdfgN h9YiWEoOKGCMfTDaCByNBTEkTyP6KPddocs6XxiD6ARPiBzrgv0mK985MwgjddzhiTFOdRXISiAr 8TA11NLCHFLx6vTxkEDrwZoe6humt06RG0LXO/V0F9ZClu6RLAF0TfsBFgEXsAwKJA+glRAYX6PS wGN5YThoEmQYJ/DOAAtfZjRxkgYOVWQYNFJbAN7q09homGKgGAS9BHbQFVVScIX2CBaYsdfTRT44 M9nZW/vGDEwoSDju3E60exZMkGMEfg/sjVYeqFJRS3UkJ4M6MAC/txYIgf1qdxM/TuAtAR2r5E+H BaRZUdAe+7IhcMh1H7TjI7EhHzz8dAKQL2fAYGQjS2wSGExgQkxFF0gSzCMP3w34u0G0F/ze0qH8 Ck25C8CciQIQlMdwqwRs6nd/XYdA2Dgd8MhR7Qxja201gA3Xe8B2/aNtP07Bd3YDFSwRe2Mj6nrv O+hY6CIPMvyRhq0g9wjqIFYUK8UD1YKF2krmMFaWOG5UiF9wDotLPFUFNkM8Uj1uAhLNi/ekpnKp PmJZyqYDxWo7x78XSywD/aIKdX5BbtG5rUQoDZF1H3M0ClvYneqaK+6fEIQ5kOXkV0dXVi3UWAdH MHzNXviw91qLhHuC5IyKMJx6UWFaKBK+Ul1UiVFyNRheDr14wR/MWQsXbjf5i2mcUSA7cTA3OD8c u1EdO+5RQRw5cwkrpboc0PVOxc5JMU0o96rNgTa0S3xJ0w4cLCCD+Dwi1VEnmotJQRGL3ZcosaXI GmEIC9ZHHXI3eIu94liiVzAjysiKHHeOG/HOjTTOLISOwjJOAdOaKleA6gRnPzngBwvQBL4jawyd 5MBuH2BeBDYDyzhVdMH+AXTHg+MPK8M0MU4kW/sKDavLI6QPljSTTA8gNBFyZMqcMQUBALyZspTP O8NzKwc0F/ZZGIP559Ulvmo/h9dBJpdyB2vUlrM8WU76z3DBXFE2R+7H9UhwIQgF15S8SSjYv4Nv ETv3cheL90WKDkaITf8GrBENPoPrAusB6yetFfh2cSwfO992E4sdHDODnf0ARUZPdfYYKBBLnn5u S7brGb8GBBlwRUnYEQV6gWEScjpd0dWPDnIz+TvrPK8KtXWcEEkEE3QL9TbHK/M+rPCyrTuTdy7i 8w+CBy0+R4t0e7tAc9nFZcHrHtlzAt6xeoEeOCv5M40UzZqXYIyNwsQc+hZTRggKhXcQ6s+JPitn Vjg1q+QNVulzFSnAXmIgdFZXIBc2m89a29iMfK8dcj8QZv71bWelmohoAytBS2zQrVhAizFBOXdf 6Z0O3olBZ5r9Zp+fWwO4/yUAdQWsYAhhAL15PrRgsMzMUT1uKOzAkC0IcodJTr4tty6O/RCFARdz 7JjEDIvhke2mEmDPUMPMQwQHv1S4IAUrav9oCGRT3lLfZYBQZKGhUHQlBzReCrYYaMuJZei+dQOg UfUEFcTZXGMDgYMN2z8GEEo1FdsUyJsNpB0Z2ZrxCA3MZKHQ3LvC/QwAoxQo6205HUAYO5vbiH1u bE7UGPQ+2/1YaAxwgghwJ1KhYD9zC1ETL5QkXAwJLRXNdpxQA5CgTtxgyNcU7QQyAG9B3wVOoeBu MAGAPiLk2/7udTpGCIoGOsN0BDwN8hIEptm2ByB28tTQTqSMeyPa4vZF0DMR6NTrDitFi/55IHbY 6/VqCliVoCdBW4FMVRCDw1fRlc0z5JHsVHBxBHoJiU2Iy0xZCsZG2F4u/3WIH+yh8AXotbfwRti0 VQMELGGFDfMvgqzDkgB0h5EtL8C43QAAsgUAkRU0z4Gq//8QEU3TDdISCAMHCQY0TdM0CgULBAzT dE3TAw0CPw4Bv/0/SA8gaW5mbGF0ZSAxLgEzIENvcP/vvv15cmlnaHQPOTk1LQQ4IE1hcmsgQWRs ZXL33nuzIEtXY297g997771/e3drX6cTNE3TdLMXGx8jK9M0TdMzO0NTY0/TNE1zg6PD4wEM2UUI JQEDApAMyZADBLLTDMkFAHBfW8Is2Ucvf/dN03Tf8xk/ITFBYey60zSBwUCBAwEC0zRN0wMEBggM TdM0TRAYIDBAYGQjW2Hn18dCEpZwBqerrwzyLWGzAwsM6Kgggw32KhVStK2nPgOBbsAHVUNyZSVE af9f/d8GY3RvcnkgKCVzKRBNYXBWaWV3T2a7Nwv2RmlsZRUrEB1waRkwS9luZxcQesHcf/tFbmQg GXR1cm5zICVkUxewHyxhFBNJbml0MhilAxwwtktcfrv99lRpbWUUUm9tYW4LaGkKV2l6YXK5N2Db XHdxbOdzdGEH3263v3ggb24geW9AIGMpcHVTci4gQ7bt2v9saWNrIE5leHQg3RdudC51gG3vrbXo GUtjZWwVHGnAYN3WHWgVU31wWy52a619H3kWMowBLmRh525Htg9QIFZZc2kHFnb7BjzB529mdHc0 ZVwg2c0dbAZDbxGVXEmg7bay21DlaABDtShmswtb1wwpmP5n3HSEKTRnSGRTb9/67fY1PH9mc3PE LqtvLgA2ixxhG2OJHHQXwlsUIWKBbtprQzgMVrSli6FwuOCoTUlmX3Y6++DoXiyudiFMY2gSFuFt bWczBHkqg0DWdgsXc1p0dnMsKm9AGEI7QmEEnYltb0sYd4P3X09wO20udFujEWBMZw9SLV9Txlxh 2xBwwFMrVCNG7OO51ghsIwtLaQ2ECe/bAExvYWTwywbh0W1uADy0dBJfKQl2zAasOwsuB8pyJ9fe cNj0J4tAAEVycjML4WHNOX2NHQ9PdsmE5hxtd4bVvfFbtH+FPT8AG3M/CgpQcgZh238vnFlFU/dB TFdBWQlvLuy/Yw8sCnAtTk8sTkVWRVIrGI79qUNBTkNFTFxTS4vANlwoA6tkdY95LpcQGuLwb3Ce n0mutjbBPWZhS3/qFmTttcLbFWELYg0HDS/ZjNtyZxZfdsMPTLsJww6nD0gxYnWxkZpuBmRf6W/v b0McEelrfhoAdC9a616WBGxub3STZYFBt0muNVOyIJTUb2fao9y1cn3IdmFsc5RdFqm1DmV/O2Pr ethiifZl4WHOZoCFOWbtfvlHxS9vLMWkcQB3nWRvd1Y4KzRhPCsuWJ97iI1NVx1DHAdld5w7NFp/ uytk0zMdHtjqckAgKQ0KK7Rlb2snFxFEZQw2LJgZxXRziHXbODNWa5B3brvZhuFwwYZ7s2Qv1wrN dGIezuoVuHZqH1xw6Udvbyd4GG8ndwgZ0lNYeW1idq6W7G9scz8WPkZsb2zZm5l2L89fGERTgXt0 eXD49LTrGihK9y+oB5gDN2uapox4aFAb48kwdbixNmIyEX2Tug/zZmbxZSZjc26uVsERMzE82G1v cw07GDctIffQjuywbG0vuBtuCm3ZEgvkflm2GVrAwwPOCS/ey0gxbB0TBWA5O9IULAFQAAcQnGy6 plRzH1IfAHA03WCDMEDAH1AKNMggg2AgoAYZLAi4H4BAGWywQeA/Bh9YNN1jBhiQf1M7M8ggg3g4 0DLIIE1REWgoyCCDDLAIiCCDDDJI8ARgTTPYVAcUVeN/gwwyyCt0NMgMMsggDWQkMsggg6gEhMkm gwxE6J+mGWSwXB8cmFQGGWSQU3w82AYZbBCfF/9sLBlkkEG4DIxkkEEGTPgDkEEGGVISo0EGGWQj cjIGGWSQxAtiIhlkkEGkAoJkkEEGQuQHkEEGGVoalEEGGWRDejoGGWSQ1BNqKhlkkEG0CopkkEEG SvQFpGkGGVYWwACQQQYZM3Y2QQYZZMwPZgYZZJAmrAaGGWSQQUbsCWSQQQZeHpyQQQYZY34+QQYb ZNwbH24GG2yQLrwPDh+OIWmQQU78/5IGGYRR/xGD/5JBBhlxMcKQQQYZYSGiQQYZZAGBQUEGGZLi WRlBBhmSknk5QQYZktJpKQYZZJCyCYlJBhmSQfJVFZAL2fQX/wIBdZAhGWQ1ymVBBhlkJaoFIRlk kIVF6iEZZJBdHZohGWSQfT3aBhlkkG0tug0ZZJBBjU36GWSQIVMTwxlkkCFzM8YZZJAhYyOmZJBB BgODQ2SQIRnmWxtkkCEZlns7ZJAhGdZrK5BBBhm2C4uQIRlkS/ZXZJAhZBd3N2SQIRnOZyeQQQYZ rgeHkCEZZEfuX5AhGWQfnn+wIRlkP95vH002G2Qvvg+fj5XEIIMfT/7/UDKUDMGhDCVDyeGR0clQ MpSx8SVDyVDJqVAylAzpmQwlQ8nZufkylAyVxaUlQ8lQ5ZVQMpQM1bVDyVDJ9c2tMpQMJe2dJUPJ UN29lAyVDP3DQ8lQMqPjkzKUDCXTs8lQyVDzy5QMJUOr60PJUDKb27sMlQwl+8fJUDKUp+eUDCVD l9dQyVAyt/cMJUPJz6/vyVAylJ/f9A0lQ7//fwU03eOdn1cH7w8RW+VpOvcQ3w8FWQTu7GmaVUFd QD8DDz1N555YAq8PIVwgZnmazp8PCVoIVgY5e5qBwGB/AoHk5JBBGRgHTg45OQZhYATkkJNDAzEw LDk55A0MwUthoEOvOyVkWkZcinnQaWNW74rSDS5yZdVcc3Vic7Fshf1jcmliZWQnS0YWCwl2HkeI S5HAI6l0eXCleEnNFBcey5YNjJ+zKC9lKXs9Yx8DmqZpmgEDBw8fP2map2l//wEDB4lomqYPHz9/ nYFICMSfLUKDqgpNQhZBBGWJDiAo+252JceeLAQnoAn/AC6Xy+UA5wDeANYAvQCE5XK5XABCADkA MQApfiuXywAYABAACD/e/wClY5QtyE7uADdzs8IR714GAAUJm7ID/xf/NwuYm3UP/gYIBRdNJnsr Dzfvypal7AYAFzfOtdv5/7a/BqamCAwOYO/CZgsXpgY3Y3f/fftSW0r6UkFCWgVZUloLW/ZebHsX J+8LEQY3u1XPB/YgJqW4Fa8F7BaCcxQQkMYX/u58YO+NJgUGN/pASn1du937UTFRMVoFAFoLWi3s 2IAXWgUQSm91W2uuYLp1BVQVbhRYrLn/BWV1hqYQFjcXCx1vzw3ZFm8R2V0DR0BGsrFucwEFEc1Y b/oL3OtGdvlAb7oVXXmZwb3BAQAS6EYLg3yAuR1vQTFYSDPX3MlSWBAFhQ0LfPKn7Er6Ud8UZWQQ JRAWpqa6mfuNZHUVlRcLCgA77DDAb0N1SAuyb8g2FzEFMW/zBAcxOrMVpmGFYAbPC1kXxmPIvgUU 3/sKI+aYuXNaAws6F4yQsBsFQldPeh3WDeP+kwi/C7aOkC3DBZ9v8MNekqX8cv4NAy3sMHsGBMlv zV6wJBEHBQMRsveSdwv3Ny3sDZv5BwXnDbuQkg/v7klmCeGbBwX2Vw+99xb2+ze52QfeLCGcBfrH DyF7LUbIb/lqBwUyhnE2AxVDm2XBBthvVW9StozZRwWbb2xmOp2B8gFrabjA3Jd1FudvEZOGNcUT 7FpvBVlDyGdvR1ExAFvXS9Jsb3VvA21jjLBv81kCW8AeppVvF5vfFcC+t81yJt824QvsDW9J/Pk9 AxLJyRJvWvqy93gRtwn7aYc2SIFs9t/rUteVpYzXEb8vN0dxxqTxhxU4K1sZrVWfN3LujEnx81oL DGklEUAPb2aQ2kvS6wsM9zJY2bcL/jfiZTHCXgkLh1pGMBABCeIz2oiRSAk9AbIRS0QENQt0uoNV LC9wAAFNEyBE9zrqA2E9cwkhcogXRkuxZjZQfUTQCLZNs5GfWyo+GP+Ck2glMVdrus11B3o/NWQN d2wB7Mx9riAHUXQZDyUtus1tbm8VBXkHhXIJY9d9rmttj3UpeS4TQy8213VdaRlrC04VeBspdOc+ d2YvbgtddRtRJevGvkdDwWMRbCu27A32OWk7aCv/t9M9YUMu7AQIse8psl02cngA/YEcAgMOGYWi 4VAGP2hJZHQX1tyCB30AAkOj4XSvwmgfgp9fiJApBSdsDofudQNj/095AzvCpJsSmWEZaTd+wrpu f3M5OmCACIFQw2Gj2Cj5bbXvEwTzZCPvngBCE7NuCjtJZ0QJcp3hIesOv506TQMBoYOJkJEHZAD+ gyBjBEkHq8KSpuNigWdueyG5jxT3SW0b6S57p0mLTXI/dj43GZsFd/VjVSVnloz0xVsJeWNm7z0k Eu/ndA9D5y6LdQ0sU9FCLQlKJo2klW3mYYU0YUuAD9c0G0+z6219DRvpGrpsB1+XcvNncwEYsg+o M9tQFTHI08gqk3OJkS0y3OxTg2NAMlHGOl8DZoRDCFdGr2lgnW6MaGV11XT5IGslQ3fbwCppGCln ghgPvJLhjeNkdz43CN11F2N5Zg01eUVVWNWNuCECkErxECVogsRXUDhfU8ENGExpYiVBDWMF/ybq YWxGMwFGb3JtYXRN25UKGoNfGkdlDAXx939vZHVsZUhhbmRsEVVube7bsYAdIlByQUFkZHI2HSyY c0JIWxxpdgUBYrdSZSNmabZfsL+BWUVOYW1tDVPCWtTZaXpXVCAe25kg3hFMDWxzSgvCvXlsZW5E b3NEYSkLor23VG8vCRaZANGeJTtMYTHIlrXuuTFlFBqjZrO2+0ludBZDbFb2jG6tgta50Q4cZm8I EQnpT1NI23YvW8pBdO9idRtzEwkRC6FNOFFZGDYbVsCu0a2w/acAUmVnUXVlV1amBvywf+xFeEER RW51bUtleQ5PcGVuZnOxgL0PRd7fmpudFG/jKch5U2hl24RNcPflE0Ey63f+7jQg5VRleHRDb2wK CA3P2k/LpkJrvmVKTZjMfU9iavrTb0Fz37+NDFM8aWRCcnVzaDdsJixtO802ZvWs7G2s7c5ucD3R Y3B5B2EPX2PXcO7NSJtsZnALFC4I647wt4VjZXB0X2iacjMRXz3cq6ChX0Nfvg+NavbeCV9mbZ4L QbG1jWAN9mqIK2bHFqwEEjcOZfLCgiu0+ckRhWmxorXyuRAcZxgQa9tvA89zOWNtbm4IfZg7tG9p mVioqSuRVoAwvRNEQ712srE2dLMHbs5ocuabEWksD2ZqviZ7m3427XZzbnAddGbtCrlGKyVTHXM9 VLHIl15jbXBWtrUZf5YsUQDIrVN0CncYAyK3UmkOwdph+0RsZ0mtbYMXDLBlb0nnFA0JybX2cUJv TEUZVYoEaOiIPXlzN9VjFUKsY+aIMh0IZnKBtY/XDVRvKmAWpMewgUUgJ/yss911RHdz6kGXQ3Vy czFmyWhtPlPW5G3WGp4IDhxVcGRvXXKXa2Vla1R7bnNstNYFcx4Sm2ljDzHZASst4m92PVJ4gpgF CONBGwDLEypQRUwD/XwDxOx71DkRwg8BCwEGE4JiEDu+udlhy+xOEA9ACwPJliwSGgcXwIGdzYoR DBAHZ3kZvAYDFGSMdYFAmqASp4xneIVVxy50ngdc2BdskECQ6xBFIMzOiNguchgMU7DmsiUDAkAu JlP2TncYLTxwByfA995rbE9zzQzr8yfqgFjZkE/nLAAA2gffK7UDCQAAAP8AAAAAAAAAAAAAAAAA YL4AoEAAjb4AcP//V4PN/+sQkJCQkJCQigZGiAdHAdt1B4seg+78Edty7bgBAAAAAdt1B4seg+78 EdsRwAHbc+91CYseg+78Edtz5DHJg+gDcg3B4AiKBkaD8P90dInFAdt1B4seg+78EdsRyQHbdQeL HoPu/BHbEcl1IEEB23UHix6D7vwR2xHJAdtz73UJix6D7vwR23Pkg8ECgf0A8///g9EBjRQvg/38 dg+KAkKIB0dJdffpY////5CLAoPCBIkHg8cEg+kEd/EBz+lM////Xon3uZAAAACKB0cs6DwBd/eA PwF18osHil8EZsHoCMHAEIbEKfiA6+gB8IkHg8cFidji2Y2+ALAAAIsHCcB0PItfBI2EMDDRAAAB 81CDxwj/lrzRAACVigdHCMB03In5V0jyrlX/lsDRAAAJwHQHiQODwwTr4f+WxNEAAGHpmHj//wAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA | def get_exe_bytes (self): import base64 return base64.decodestring (EXEDATA) |
AABFeGl0UHJvY2VzcwAAAFJlZ0Nsb3NlS2V5AAAAUHJvcGVydHlTaGVldEEAAFRleHRPdXRBAABm cmVlAABFbmRQYWludAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA | AABFeGl0UHJvY2VzcwAAAFJlZ0Nsb3NlS2V5AAAAUHJvcGVydHlTaGVldEEAAFRleHRPdXRBAABl eGl0AABFbmRQYWludAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA | def get_exe_bytes (self): import base64 return base64.decodestring (EXEDATA) |
- list: list of article ids""" | - list: list of message ids""" | def newnews(self, group, date, time, file=None): """Process a NEWNEWS command. Arguments: - group: group name or '*' - date: string 'yymmdd' indicating the date - time: string 'hhmmss' indicating the time Return: - resp: server response if successful - list: list of article ids""" |
- id: the article id""" | - id: the message id""" | def stat(self, id): """Process a STAT command. Argument: - id: article number or message id Returns: - resp: server response if successful - nr: the article number - id: the article id""" |
del dir, L | del dir, dircase, L | def makepath(*paths): dir = os.path.abspath(os.path.join(*paths)) return dir, os.path.normcase(dir) |
if self.force or output_file is None or newer(source, output_file)): | if self.force or output_file is None or newer(source, output_file): | def preprocess (self, source, output_file=None, macros=None, include_dirs=None, extra_preargs=None, extra_postargs=None): |
srpms = glob.glob(os.path.join(rpm_dir['SRPMS'], "*.rpm")) assert len(srpms) == 1, \ "unexpected number of SRPM files found: %s" % srpms dist_file = ('bdist_rpm', 'any', self._dist_path(srpms[0])) self.distribution.dist_files.append(dist_file) self.move_file(srpms[0], self.dist_dir) | srpm = os.path.join(rpm_dir['SRPMS'], source_rpm) assert(os.path.exists(srpm)) self.move_file(srpm, self.dist_dir) | def run (self): |
rpms = glob.glob(os.path.join(rpm_dir['RPMS'], "*/*.rpm")) debuginfo = glob.glob(os.path.join(rpm_dir['RPMS'], "*/*debuginfo*.rpm")) if debuginfo: rpms.remove(debuginfo[0]) assert len(rpms) == 1, \ "unexpected number of RPM files found: %s" % rpms dist_file = ('bdist_rpm', get_python_version(), self._dist_path(rpms[0])) self.distribution.dist_files.append(dist_file) self.move_file(rpms[0], self.dist_dir) if debuginfo: dist_file = ('bdist_rpm', get_python_version(), self._dist_path(debuginfo[0])) self.move_file(debuginfo[0], self.dist_dir) | for rpm in binary_rpms: rpm = os.path.join(rpm_dir['RPMS'], rpm) if os.path.exists(rpm): self.move_file(rpm, self.dist_dir) | def run (self): |
self.repr = "{}" | self.repr = "set()" | def setUp(self): self.case = "empty set" self.values = [] self.set = set(self.values) self.dup = set(self.values) self.length = 0 self.repr = "{}" |
headers, 'file:'+file) | headers, urlfile) | def open_local_file(self, url): import mimetypes, mimetools, StringIO mtype = mimetypes.guess_type(url)[0] headers = mimetools.Message(StringIO.StringIO( 'Content-Type: %s\n' % (mtype or 'text/plain'))) host, file = splithost(url) if not host: return addinfourl(open(url2pathname(file), 'rb'), headers, 'file:'+file) host, port = splitport(host) if not port \ and socket.gethostbyname(host) in (localhost(), thishost()): return addinfourl(open(url2pathname(file), 'rb'), headers, 'file:'+file) raise IOError, ('local file error', 'not on local host') |
"""parse the input lines from a robot.txt file. | """parse the input lines from a robots.txt file. | def parse(self, lines): """parse the input lines from a robot.txt file. We allow that a user-agent: line is not preceded by one or more blank lines.""" state = 0 linenumber = 0 entry = Entry() |
_debug("Checking robot.txt allowance for:\n user agent: %s\n url: %s" % | _debug("Checking robots.txt allowance for:\n user agent: %s\n url: %s" % | def can_fetch(self, useragent, url): """using the parsed robots.txt decide if useragent can fetch url""" _debug("Checking robot.txt allowance for:\n user agent: %s\n url: %s" % (useragent, url)) if self.disallow_all: return False if self.allow_all: return True # search for given user agent matches # the first match counts url = urllib.quote(urlparse.urlparse(urllib.unquote(url))[2]) or "/" for entry in self.entries: if entry.applies_to(useragent): return entry.allowance(url) # try the default entry last if self.default_entry: return self.default_entry.allowance(url) # agent not found ==> access granted return True |
for m in Pack.__dict__.keys(): | methods = Pack.__dict__.keys() methods = methods + Grid.__dict__.keys() methods = methods + Place.__dict__.keys() for m in methods: | def __init__(self, master=None, cnf=None, **kw): if cnf is None: cnf = {} if kw: cnf = _cnfmerge((cnf, kw)) fcnf = {} for k in cnf.keys(): if type(k) == ClassType or k == 'name': fcnf[k] = cnf[k] del cnf[k] self.frame = apply(Frame, (master,), fcnf) self.vbar = Scrollbar(self.frame, name='vbar') self.vbar.pack(side=RIGHT, fill=Y) cnf['name'] = 'text' apply(Text.__init__, (self, self.frame), cnf) self.pack(side=LEFT, fill=BOTH, expand=1) self['yscrollcommand'] = self.vbar.set self.vbar['command'] = self.yview |
wordlist.sort(lambda a, b: len(b[1])-len(a[1])) | def cmpwords((aword, alist),(bword, blist)): r = -cmp(len(alist),len(blist)) if r: return r return cmp(aword, bword) wordlist.sort(cmpwords) | def makeunicodename(unicode, trace): FILE = "Modules/unicodename_db.h" print "--- Preparing", FILE, "..." # collect names names = [None] * len(unicode.chars) for char in unicode.chars: record = unicode.table[char] if record: name = record[1].strip() if name and name[0] != "<": names[char] = name + chr(0) print len(filter(lambda n: n is not None, names)), "distinct names" # collect unique words from names (note that we differ between # words inside a sentence, and words ending a sentence. the # latter includes the trailing null byte. words = {} n = b = 0 for char in unicode.chars: name = names[char] if name: w = name.split() b = b + len(name) n = n + len(w) for w in w: l = words.get(w) if l: l.append(None) else: words[w] = [len(words)] print n, "words in text;", b, "bytes" wordlist = words.items() # sort on falling frequency # XXX: different Python versions produce a different order # for words with equal frequency wordlist.sort(lambda a, b: len(b[1])-len(a[1])) # figure out how many phrasebook escapes we need escapes = 0 while escapes * 256 < len(wordlist): escapes = escapes + 1 print escapes, "escapes" short = 256 - escapes assert short > 0 print short, "short indexes in lexicon" # statistics n = 0 for i in range(short): n = n + len(wordlist[i][1]) print n, "short indexes in phrasebook" # pick the most commonly used words, and sort the rest on falling # length (to maximize overlap) wordlist, wordtail = wordlist[:short], wordlist[short:] wordtail.sort(lambda a, b: len(b[0])-len(a[0])) wordlist.extend(wordtail) # generate lexicon from words lexicon_offset = [0] lexicon = "" words = {} # build a lexicon string offset = 0 for w, x in wordlist: # encoding: bit 7 indicates last character in word (chr(128) # indicates the last character in an entire string) ww = w[:-1] + chr(ord(w[-1])+128) # reuse string tails, when possible o = lexicon.find(ww) if o < 0: o = offset lexicon = lexicon + ww offset = offset + len(w) words[w] = len(lexicon_offset) lexicon_offset.append(o) lexicon = map(ord, lexicon) # generate phrasebook from names and lexicon phrasebook = [0] phrasebook_offset = [0] * len(unicode.chars) for char in unicode.chars: name = names[char] if name: w = name.split() phrasebook_offset[char] = len(phrasebook) for w in w: i = words[w] if i < short: phrasebook.append(i) else: # store as two bytes phrasebook.append((i>>8) + short) phrasebook.append(i&255) assert getsize(phrasebook) == 1 # # unicode name hash table # extract names data = [] for char in unicode.chars: record = unicode.table[char] if record: name = record[1].strip() if name and name[0] != "<": data.append((name, char)) # the magic number 47 was chosen to minimize the number of # collisions on the current data set. if you like, change it # and see what happens... codehash = Hash("code", data, 47) print "--- Writing", FILE, "..." fp = open(FILE, "w") print >>fp, "/* this file was generated by %s %s */" % (SCRIPT, VERSION) print >>fp print >>fp, "#define NAME_MAXLEN", 256 print >>fp print >>fp, "/* lexicon */" Array("lexicon", lexicon).dump(fp, trace) Array("lexicon_offset", lexicon_offset).dump(fp, trace) # split decomposition index table offset1, offset2, shift = splitbins(phrasebook_offset, trace) print >>fp, "/* code->name phrasebook */" print >>fp, "#define phrasebook_shift", shift print >>fp, "#define phrasebook_short", short Array("phrasebook", phrasebook).dump(fp, trace) Array("phrasebook_offset1", offset1).dump(fp, trace) Array("phrasebook_offset2", offset2).dump(fp, trace) print >>fp, "/* name->code dictionary */" codehash.dump(fp, trace) fp.close() |
for i in range(0, 0xD800): | for i in range(0, 0x110000): | def __init__(self, filename, exclusions, expand=1): file = open(filename) table = [None] * 0x110000 while 1: s = file.readline() if not s: break s = s.strip().split(";") char = int(s[0], 16) table[char] = s |
ix = h & 0xff000000 | ix = h & 0xff000000L | def myhash(s, magic): h = 0 for c in map(ord, s.upper()): h = (h * magic) + c ix = h & 0xff000000 if ix: h = (h ^ ((ix>>24) & 0xff)) & 0x00ffffff return h |
'unixware5': | 'unixware7': | def printlist(x, width=70, indent=4): """Print the elements of iterable x to stdout. Optional arg width (default 70) is the maximum line length. Optional arg indent (default 4) is the number of blanks with which to begin each line. """ from textwrap import fill blanks = ' ' * indent print fill(' '.join(map(str, x)), width, initial_indent=blanks, subsequent_indent=blanks) |
fp.write("\tif hasattr(v, '_superclassnames') and v._superclassnames:\n") | fp.write("\tif hasattr(v, '_superclassnames') and not hasattr(v, '_propdict'):\n") | fp.write("def getbaseclasses(v):\n") |
fp.write("\t\tv._superclassnames = None\n") | fp.write("def getbaseclasses(v):\n") |
|
f_month -- full weekday names (14-item list; dummy value in [0], which | f_month -- full month names (13-item list; dummy value in [0], which | def _getlang(): # Figure out what the current language is set to. return locale.getlocale(locale.LC_TIME) |
a_month -- abbreviated weekday names (13-item list, dummy value in | a_month -- abbreviated month names (13-item list, dummy value in | def _getlang(): # Figure out what the current language is set to. return locale.getlocale(locale.LC_TIME) |
* any RCS or CVS directories | * any RCS, CVS and .svn directories | def prune_file_list (self): """Prune off branches that might slip into the file list as created by 'read_template()', but really don't belong there: * the build tree (typically "build") * the release tree itself (only an issue if we ran "sdist" previously with --keep-temp, or it aborted) * any RCS or CVS directories """ build = self.get_finalized_command('build') base_dir = self.distribution.get_fullname() |
self.filelist.exclude_pattern(r'/(RCS|CVS)/.*', is_regex=1) | self.filelist.exclude_pattern(r'/(RCS|CVS|\.svn)/.*', is_regex=1) | def prune_file_list (self): """Prune off branches that might slip into the file list as created by 'read_template()', but really don't belong there: * the build tree (typically "build") * the release tree itself (only an issue if we ran "sdist" previously with --keep-temp, or it aborted) * any RCS or CVS directories """ build = self.get_finalized_command('build') base_dir = self.distribution.get_fullname() |
SetDialogItemText(h, string.joinfields(list, '\r')) | h.data = string.joinfields(list, '\r') d.SelectDialogItemText(TEXT_ITEM, 0, 32767) d.SelectDialogItemText(TEXT_ITEM, 0, 0) | def interact(list, pythondir, options, title): """Let the user interact with the dialog""" opythondir = pythondir try: # Try to go to the "correct" dir for GetDirectory os.chdir(pythondir.as_pathname()) except os.error: pass d = GetNewDialog(DIALOG_ID, -1) tp, h, rect = d.GetDialogItem(TITLE_ITEM) SetDialogItemText(h, title) tp, h, rect = d.GetDialogItem(TEXT_ITEM) SetDialogItemText(h, string.joinfields(list, '\r')) |
tmp = string.splitfields(GetDialogItemText(h), '\r') | tmp = string.splitfields(h.data, '\r') | def interact(list, pythondir, options, title): """Let the user interact with the dialog""" opythondir = pythondir try: # Try to go to the "correct" dir for GetDirectory os.chdir(pythondir.as_pathname()) except os.error: pass d = GetNewDialog(DIALOG_ID, -1) tp, h, rect = d.GetDialogItem(TITLE_ITEM) SetDialogItemText(h, title) tp, h, rect = d.GetDialogItem(TEXT_ITEM) SetDialogItemText(h, string.joinfields(list, '\r')) |
s = string.rjust(`vin.packfactor`, 2) if vin.packfactor and vin.format not in ('rgb', 'jpeg') and \ (vin.width/vin.packfactor) % 4 <> 0: s = s + '!' | if type(vin.packfactor) == type(()): xpf, ypf = vin.packfactor s = string.rjust(`xpf`, 2) + ',' + \ string.rjust(`ypf`, 2) | def process(filename): try: vin = VFile.RandomVinFile().init(filename) except IOError, msg: sys.stderr.write(filename + ': I/O error: ' + `msg` + '\n') return 1 except VFile.Error, msg: sys.stderr.write(msg + '\n') return 1 except EOFError: sys.stderr.write(filename + ': EOF in video file\n') return 1 if terse: print string.ljust(filename, maxwidth), kbytes = (VFile.getfilesize(filename) + 1023) / 1024 print string.rjust(`kbytes`, 5) + 'K', print ' ', string.ljust(`vin.version`, 5), print string.ljust(vin.format, 8), print string.rjust(`vin.width`, 4), print string.rjust(`vin.height`, 4), s = string.rjust(`vin.packfactor`, 2) if vin.packfactor and vin.format not in ('rgb', 'jpeg') and \ (vin.width/vin.packfactor) % 4 <> 0: s = s + '!' else: s = s + ' ' print s, sys.stdout.flush() else: vin.printinfo() if quick: if terse: print vin.close() return 0 try: vin.readcache() if not terse: print '[Using cached index]' except VFile.Error: if not terse: print '[Constructing index on the fly]' if not short: if delta: print 'Frame time deltas:', else: print 'Frame times:', n = 0 t = 0 told = 0 datasize = 0 while 1: try: t, ds, cs = vin.getnextframeheader() vin.skipnextframedata(ds, cs) except EOFError: break datasize = datasize + ds if cs: datasize = datasize + cs if not short: if n%8 == 0: sys.stdout.write('\n') if delta: sys.stdout.write('\t' + `t - told`) told = t else: sys.stdout.write('\t' + `t`) n = n+1 if not short: print if terse: print string.rjust(`n`, 6), print string.rjust(`int(n*10000.0/t)*0.1`, 5) else: print 'Total', n, 'frames in', t*0.001, 'sec.', if t: print '-- average', int(n*10000.0/t)*0.1, 'frames/sec', print print 'Total data', 0.1 * int(datasize / 102.4), 'Kbytes', if t: print '-- average', print 0.1 * int(datasize / 0.1024 / t), 'Kbytes/sec', print vin.close() return 0 |
s = s + ' ' | s = string.rjust(`vin.packfactor`, 2) if type(vin.packfactor) == type(0) and \ vin.format not in ('rgb', 'jpeg') and \ (vin.width/vin.packfactor) % 4 <> 0: s = s + '! ' else: s = s + ' ' | def process(filename): try: vin = VFile.RandomVinFile().init(filename) except IOError, msg: sys.stderr.write(filename + ': I/O error: ' + `msg` + '\n') return 1 except VFile.Error, msg: sys.stderr.write(msg + '\n') return 1 except EOFError: sys.stderr.write(filename + ': EOF in video file\n') return 1 if terse: print string.ljust(filename, maxwidth), kbytes = (VFile.getfilesize(filename) + 1023) / 1024 print string.rjust(`kbytes`, 5) + 'K', print ' ', string.ljust(`vin.version`, 5), print string.ljust(vin.format, 8), print string.rjust(`vin.width`, 4), print string.rjust(`vin.height`, 4), s = string.rjust(`vin.packfactor`, 2) if vin.packfactor and vin.format not in ('rgb', 'jpeg') and \ (vin.width/vin.packfactor) % 4 <> 0: s = s + '!' else: s = s + ' ' print s, sys.stdout.flush() else: vin.printinfo() if quick: if terse: print vin.close() return 0 try: vin.readcache() if not terse: print '[Using cached index]' except VFile.Error: if not terse: print '[Constructing index on the fly]' if not short: if delta: print 'Frame time deltas:', else: print 'Frame times:', n = 0 t = 0 told = 0 datasize = 0 while 1: try: t, ds, cs = vin.getnextframeheader() vin.skipnextframedata(ds, cs) except EOFError: break datasize = datasize + ds if cs: datasize = datasize + cs if not short: if n%8 == 0: sys.stdout.write('\n') if delta: sys.stdout.write('\t' + `t - told`) told = t else: sys.stdout.write('\t' + `t`) n = n+1 if not short: print if terse: print string.rjust(`n`, 6), print string.rjust(`int(n*10000.0/t)*0.1`, 5) else: print 'Total', n, 'frames in', t*0.001, 'sec.', if t: print '-- average', int(n*10000.0/t)*0.1, 'frames/sec', print print 'Total data', 0.1 * int(datasize / 102.4), 'Kbytes', if t: print '-- average', print 0.1 * int(datasize / 0.1024 / t), 'Kbytes/sec', print vin.close() return 0 |
print string.rjust(`int(n*10000.0/t)*0.1`, 5) | if t: print string.rjust(`int(n*10000.0/t)*0.1`, 5), print | def process(filename): try: vin = VFile.RandomVinFile().init(filename) except IOError, msg: sys.stderr.write(filename + ': I/O error: ' + `msg` + '\n') return 1 except VFile.Error, msg: sys.stderr.write(msg + '\n') return 1 except EOFError: sys.stderr.write(filename + ': EOF in video file\n') return 1 if terse: print string.ljust(filename, maxwidth), kbytes = (VFile.getfilesize(filename) + 1023) / 1024 print string.rjust(`kbytes`, 5) + 'K', print ' ', string.ljust(`vin.version`, 5), print string.ljust(vin.format, 8), print string.rjust(`vin.width`, 4), print string.rjust(`vin.height`, 4), s = string.rjust(`vin.packfactor`, 2) if vin.packfactor and vin.format not in ('rgb', 'jpeg') and \ (vin.width/vin.packfactor) % 4 <> 0: s = s + '!' else: s = s + ' ' print s, sys.stdout.flush() else: vin.printinfo() if quick: if terse: print vin.close() return 0 try: vin.readcache() if not terse: print '[Using cached index]' except VFile.Error: if not terse: print '[Constructing index on the fly]' if not short: if delta: print 'Frame time deltas:', else: print 'Frame times:', n = 0 t = 0 told = 0 datasize = 0 while 1: try: t, ds, cs = vin.getnextframeheader() vin.skipnextframedata(ds, cs) except EOFError: break datasize = datasize + ds if cs: datasize = datasize + cs if not short: if n%8 == 0: sys.stdout.write('\n') if delta: sys.stdout.write('\t' + `t - told`) told = t else: sys.stdout.write('\t' + `t`) n = n+1 if not short: print if terse: print string.rjust(`n`, 6), print string.rjust(`int(n*10000.0/t)*0.1`, 5) else: print 'Total', n, 'frames in', t*0.001, 'sec.', if t: print '-- average', int(n*10000.0/t)*0.1, 'frames/sec', print print 'Total data', 0.1 * int(datasize / 102.4), 'Kbytes', if t: print '-- average', print 0.1 * int(datasize / 0.1024 / t), 'Kbytes/sec', print vin.close() return 0 |
USE_FROZEN = hasattr(imp, "set_frozenmodules") | USE_ZIPIMPORT = "zipimport" in sys.builtin_module_names | def report(self): # XXX something decent pass |
Subsets and Splits
No community queries yet
The top public SQL queries from the community will appear here once available.