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VN-Housing-App

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"use strict";
// Licensed to the Apache Software Foundation (ASF) under one
// or more contributor license agreements.  See the NOTICE file
// distributed with this work for additional information
// regarding copyright ownership.  The ASF licenses this file
// to you under the Apache License, Version 2.0 (the
// "License"); you may not use this file except in compliance
// with the License.  You may obtain a copy of the License at
//
//   http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing,
// software distributed under the License is distributed on an
// "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
// KIND, either express or implied.  See the License for the
// specific language governing permissions and limitations
// under the License.
Object.defineProperty(exports, "__esModule", { value: true });
const enum_1 = require("../enum");
const flatbuffers_1 = require("flatbuffers");
var ByteBuffer = flatbuffers_1.flatbuffers.ByteBuffer;
const message_1 = require("./metadata/message");
const compat_1 = require("../util/compat");
const file_1 = require("../io/file");
const buffer_1 = require("../util/buffer");
const stream_1 = require("../io/stream");
const interfaces_1 = require("../io/interfaces");
/** @ignore */ const invalidMessageType = (type) => `Expected ${enum_1.MessageHeader[type]} Message in stream, but was null or length 0.`;
/** @ignore */ const nullMessage = (type) => `Header pointer of flatbuffer-encoded ${enum_1.MessageHeader[type]} Message is null or length 0.`;
/** @ignore */ const invalidMessageMetadata = (expected, actual) => `Expected to read ${expected} metadata bytes, but only read ${actual}.`;
/** @ignore */ const invalidMessageBodyLength = (expected, actual) => `Expected to read ${expected} bytes for message body, but only read ${actual}.`;
/** @ignore */
class MessageReader {
    constructor(source) {
        this.source = source instanceof stream_1.ByteStream ? source : new stream_1.ByteStream(source);
    }
    [Symbol.iterator]() { return this; }
    next() {
        let r;
        if ((r = this.readMetadataLength()).done) {
            return interfaces_1.ITERATOR_DONE;
        }
        // ARROW-6313: If the first 4 bytes are continuation indicator (-1), read
        // the next 4 for the 32-bit metadata length. Otherwise, assume this is a
        // pre-v0.15 message, where the first 4 bytes are the metadata length.
        if ((r.value === -1) &&
            (r = this.readMetadataLength()).done) {
            return interfaces_1.ITERATOR_DONE;
        }
        if ((r = this.readMetadata(r.value)).done) {
            return interfaces_1.ITERATOR_DONE;
        }
        return r;
    }
    throw(value) { return this.source.throw(value); }
    return(value) { return this.source.return(value); }
    readMessage(type) {
        let r;
        if ((r = this.next()).done) {
            return null;
        }
        if ((type != null) && r.value.headerType !== type) {
            throw new Error(invalidMessageType(type));
        }
        return r.value;
    }
    readMessageBody(bodyLength) {
        if (bodyLength <= 0) {
            return new Uint8Array(0);
        }
        const buf = buffer_1.toUint8Array(this.source.read(bodyLength));
        if (buf.byteLength < bodyLength) {
            throw new Error(invalidMessageBodyLength(bodyLength, buf.byteLength));
        }
        // 1. Work around bugs in fs.ReadStream's internal Buffer pooling, see: https://github.com/nodejs/node/issues/24817
        // 2. Work around https://github.com/whatwg/streams/blob/0ebe4b042e467d9876d80ae045de3843092ad797/reference-implementation/lib/helpers.js#L126
        return /* 1. */ (buf.byteOffset % 8 === 0) &&
            /* 2. */ (buf.byteOffset + buf.byteLength) <= buf.buffer.byteLength ? buf : buf.slice();
    }
    readSchema(throwIfNull = false) {
        const type = enum_1.MessageHeader.Schema;
        const message = this.readMessage(type);
        const schema = message && message.header();
        if (throwIfNull && !schema) {
            throw new Error(nullMessage(type));
        }
        return schema;
    }
    readMetadataLength() {
        const buf = this.source.read(exports.PADDING);
        const bb = buf && new ByteBuffer(buf);
        const len = bb && bb.readInt32(0) || 0;
        return { done: len === 0, value: len };
    }
    readMetadata(metadataLength) {
        const buf = this.source.read(metadataLength);
        if (!buf) {
            return interfaces_1.ITERATOR_DONE;
        }
        if (buf.byteLength < metadataLength) {
            throw new Error(invalidMessageMetadata(metadataLength, buf.byteLength));
        }
        return { done: false, value: message_1.Message.decode(buf) };
    }
}
exports.MessageReader = MessageReader;
/** @ignore */
class AsyncMessageReader {
    constructor(source, byteLength) {
        this.source = source instanceof stream_1.AsyncByteStream ? source
            : compat_1.isFileHandle(source)
                ? new file_1.AsyncRandomAccessFile(source, byteLength)
                : new stream_1.AsyncByteStream(source);
    }
    [Symbol.asyncIterator]() { return this; }
    async next() {
        let r;
        if ((r = await this.readMetadataLength()).done) {
            return interfaces_1.ITERATOR_DONE;
        }
        // ARROW-6313: If the first 4 bytes are continuation indicator (-1), read
        // the next 4 for the 32-bit metadata length. Otherwise, assume this is a
        // pre-v0.15 message, where the first 4 bytes are the metadata length.
        if ((r.value === -1) &&
            (r = await this.readMetadataLength()).done) {
            return interfaces_1.ITERATOR_DONE;
        }
        if ((r = await this.readMetadata(r.value)).done) {
            return interfaces_1.ITERATOR_DONE;
        }
        return r;
    }
    async throw(value) { return await this.source.throw(value); }
    async return(value) { return await this.source.return(value); }
    async readMessage(type) {
        let r;
        if ((r = await this.next()).done) {
            return null;
        }
        if ((type != null) && r.value.headerType !== type) {
            throw new Error(invalidMessageType(type));
        }
        return r.value;
    }
    async readMessageBody(bodyLength) {
        if (bodyLength <= 0) {
            return new Uint8Array(0);
        }
        const buf = buffer_1.toUint8Array(await this.source.read(bodyLength));
        if (buf.byteLength < bodyLength) {
            throw new Error(invalidMessageBodyLength(bodyLength, buf.byteLength));
        }
        // 1. Work around bugs in fs.ReadStream's internal Buffer pooling, see: https://github.com/nodejs/node/issues/24817
        // 2. Work around https://github.com/whatwg/streams/blob/0ebe4b042e467d9876d80ae045de3843092ad797/reference-implementation/lib/helpers.js#L126
        return /* 1. */ (buf.byteOffset % 8 === 0) &&
            /* 2. */ (buf.byteOffset + buf.byteLength) <= buf.buffer.byteLength ? buf : buf.slice();
    }
    async readSchema(throwIfNull = false) {
        const type = enum_1.MessageHeader.Schema;
        const message = await this.readMessage(type);
        const schema = message && message.header();
        if (throwIfNull && !schema) {
            throw new Error(nullMessage(type));
        }
        return schema;
    }
    async readMetadataLength() {
        const buf = await this.source.read(exports.PADDING);
        const bb = buf && new ByteBuffer(buf);
        const len = bb && bb.readInt32(0) || 0;
        return { done: len === 0, value: len };
    }
    async readMetadata(metadataLength) {
        const buf = await this.source.read(metadataLength);
        if (!buf) {
            return interfaces_1.ITERATOR_DONE;
        }
        if (buf.byteLength < metadataLength) {
            throw new Error(invalidMessageMetadata(metadataLength, buf.byteLength));
        }
        return { done: false, value: message_1.Message.decode(buf) };
    }
}
exports.AsyncMessageReader = AsyncMessageReader;
/** @ignore */
class JSONMessageReader extends MessageReader {
    constructor(source) {
        super(new Uint8Array(0));
        this._schema = false;
        this._body = [];
        this._batchIndex = 0;
        this._dictionaryIndex = 0;
        this._json = source instanceof interfaces_1.ArrowJSON ? source : new interfaces_1.ArrowJSON(source);
    }
    next() {
        const { _json } = this;
        if (!this._schema) {
            this._schema = true;
            const message = message_1.Message.fromJSON(_json.schema, enum_1.MessageHeader.Schema);
            return { done: false, value: message };
        }
        if (this._dictionaryIndex < _json.dictionaries.length) {
            const batch = _json.dictionaries[this._dictionaryIndex++];
            this._body = batch['data']['columns'];
            const message = message_1.Message.fromJSON(batch, enum_1.MessageHeader.DictionaryBatch);
            return { done: false, value: message };
        }
        if (this._batchIndex < _json.batches.length) {
            const batch = _json.batches[this._batchIndex++];
            this._body = batch['columns'];
            const message = message_1.Message.fromJSON(batch, enum_1.MessageHeader.RecordBatch);
            return { done: false, value: message };
        }
        this._body = [];
        return interfaces_1.ITERATOR_DONE;
    }
    readMessageBody(_bodyLength) {
        return flattenDataSources(this._body);
        function flattenDataSources(xs) {
            return (xs || []).reduce((buffers, column) => [
                ...buffers,
                ...(column['VALIDITY'] && [column['VALIDITY']] || []),
                ...(column['TYPE'] && [column['TYPE']] || []),
                ...(column['OFFSET'] && [column['OFFSET']] || []),
                ...(column['DATA'] && [column['DATA']] || []),
                ...flattenDataSources(column['children'])
            ], []);
        }
    }
    readMessage(type) {
        let r;
        if ((r = this.next()).done) {
            return null;
        }
        if ((type != null) && r.value.headerType !== type) {
            throw new Error(invalidMessageType(type));
        }
        return r.value;
    }
    readSchema() {
        const type = enum_1.MessageHeader.Schema;
        const message = this.readMessage(type);
        const schema = message && message.header();
        if (!message || !schema) {
            throw new Error(nullMessage(type));
        }
        return schema;
    }
}
exports.JSONMessageReader = JSONMessageReader;
/** @ignore */
exports.PADDING = 4;
/** @ignore */
exports.MAGIC_STR = 'ARROW1';
/** @ignore */
exports.MAGIC = new Uint8Array(exports.MAGIC_STR.length);
for (let i = 0; i < exports.MAGIC_STR.length; i += 1 | 0) {
    exports.MAGIC[i] = exports.MAGIC_STR.charCodeAt(i);
}
/** @ignore */
function checkForMagicArrowString(buffer, index = 0) {
    for (let i = -1, n = exports.MAGIC.length; ++i < n;) {
        if (exports.MAGIC[i] !== buffer[index + i]) {
            return false;
        }
    }
    return true;
}
exports.checkForMagicArrowString = checkForMagicArrowString;
/** @ignore */
exports.magicLength = exports.MAGIC.length;
/** @ignore */
exports.magicAndPadding = exports.magicLength + exports.PADDING;
/** @ignore */
exports.magicX2AndPadding = exports.magicLength * 2 + exports.PADDING;

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