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CRISPRTool / igv_component /node_modules /apache-arrow /bin /arrow2csv.js
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#! /usr/bin/env node
"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 tslib_1 = require("tslib");
/* eslint-disable unicorn/no-array-for-each */
const fs = tslib_1.__importStar(require("fs"));
const stream = tslib_1.__importStar(require("stream"));
const pretty_js_1 = require("../util/pretty.js");
const Arrow_node_js_1 = require("../Arrow.node.js");
const command_line_usage_1 = tslib_1.__importDefault(require("command-line-usage"));
const command_line_args_1 = tslib_1.__importDefault(require("command-line-args"));
const pad_left_1 = tslib_1.__importDefault(require("pad-left"));
// @ts-ignore
const json_bignum_1 = require("json-bignum");
const argv = (0, command_line_args_1.default)(cliOpts(), { partial: true });
const files = argv.help ? [] : [...(argv.file || []), ...(argv._unknown || [])].filter(Boolean);
const state = Object.assign(Object.assign({}, argv), { closed: false, maxColWidths: [10] });
(() => tslib_1.__awaiter(void 0, void 0, void 0, function* () {
var e_1, _a;
const sources = argv.help ? [] : [
...files.map((file) => () => fs.createReadStream(file)),
...(process.stdin.isTTY ? [] : [() => process.stdin])
].filter(Boolean);
let reader;
let hasReaders = false;
for (const source of sources) {
if (state.closed) {
break;
}
try {
for (var _b = (e_1 = void 0, tslib_1.__asyncValues(recordBatchReaders(source))), _c; _c = yield _b.next(), !_c.done;) {
reader = _c.value;
hasReaders = true;
const transformToString = batchesToString(state, reader.schema);
yield pipeTo(reader.pipe(transformToString), process.stdout, { end: false }).catch(() => state.closed = true); // Handle EPIPE errors
}
}
catch (e_1_1) { e_1 = { error: e_1_1 }; }
finally {
try {
if (_c && !_c.done && (_a = _b.return)) yield _a.call(_b);
}
finally { if (e_1) throw e_1.error; }
}
if (state.closed) {
break;
}
}
return hasReaders ? 0 : print_usage();
}))()
.then((x) => +x || 0, (err) => {
if (err) {
console.error(`${(err === null || err === void 0 ? void 0 : err.stack) || err}`);
}
return process.exitCode || 1;
}).then((code) => process.exit(code));
function pipeTo(source, sink, opts) {
return new Promise((resolve, reject) => {
source.on('end', onEnd).pipe(sink, opts).on('error', onErr);
function onEnd() { done(undefined, resolve); }
function onErr(err) { done(err, reject); }
function done(e, cb) {
source.removeListener('end', onEnd);
sink.removeListener('error', onErr);
cb(e);
}
});
}
function recordBatchReaders(createSourceStream) {
return tslib_1.__asyncGenerator(this, arguments, function* recordBatchReaders_1() {
var e_2, _a, e_3, _b;
const json = new Arrow_node_js_1.AsyncByteQueue();
const stream = new Arrow_node_js_1.AsyncByteQueue();
const source = createSourceStream();
let reader = null;
let readers = null;
// tee the input source, just in case it's JSON
source.on('end', () => [stream, json].forEach((y) => y.close()))
.on('data', (x) => [stream, json].forEach((y) => y.write(x)))
.on('error', (e) => [stream, json].forEach((y) => y.abort(e)));
try {
try {
for (var _c = tslib_1.__asyncValues(Arrow_node_js_1.RecordBatchReader.readAll(stream)), _d; _d = yield tslib_1.__await(_c.next()), !_d.done;) {
reader = _d.value;
reader && (yield yield tslib_1.__await(reader));
}
}
catch (e_2_1) { e_2 = { error: e_2_1 }; }
finally {
try {
if (_d && !_d.done && (_a = _c.return)) yield tslib_1.__await(_a.call(_c));
}
finally { if (e_2) throw e_2.error; }
}
if (reader)
return yield tslib_1.__await(void 0);
}
catch (_e) {
readers = null;
}
if (!readers) {
yield tslib_1.__await(json.closed);
if (source instanceof fs.ReadStream) {
source.close();
}
// If the data in the `json` ByteQueue parses to JSON, then assume it's Arrow JSON from a file or stdin
try {
try {
for (var _f = tslib_1.__asyncValues(Arrow_node_js_1.RecordBatchReader.readAll((0, json_bignum_1.parse)(yield tslib_1.__await(json.toString())))), _g; _g = yield tslib_1.__await(_f.next()), !_g.done;) {
reader = _g.value;
reader && (yield yield tslib_1.__await(reader));
}
}
catch (e_3_1) { e_3 = { error: e_3_1 }; }
finally {
try {
if (_g && !_g.done && (_b = _f.return)) yield tslib_1.__await(_b.call(_f));
}
finally { if (e_3) throw e_3.error; }
}
}
catch (_h) {
readers = null;
}
}
});
}
function batchesToString(state, schema) {
let rowId = 0;
let batchId = -1;
let maxColWidths = [10];
const { hr, sep, metadata } = state;
const header = ['row_id', ...schema.fields.map((f) => `${f}`)].map(val => (0, pretty_js_1.valueToString)(val));
state.maxColWidths = header.map((x, i) => Math.max(maxColWidths[i] || 0, x.length));
return new stream.Transform({
encoding: 'utf8',
writableObjectMode: true,
readableObjectMode: false,
final(cb) {
// if there were no batches, then print the Schema, and metadata
if (batchId === -1) {
hr && this.push(`${horizontalRule(state.maxColWidths, hr, sep)}\n\n`);
this.push(`${formatRow(header, maxColWidths, sep)}\n`);
if (metadata && schema.metadata.size > 0) {
this.push(`metadata:\n${formatMetadata(schema.metadata)}\n`);
}
}
hr && this.push(`${horizontalRule(state.maxColWidths, hr, sep)}\n\n`);
cb();
},
transform(batch, _enc, cb) {
var _a;
batch = !((_a = state.schema) === null || _a === void 0 ? void 0 : _a.length) ? batch : batch.select(state.schema);
if (state.closed) {
return cb(undefined, null);
}
// Pass one to convert to strings and count max column widths
state.maxColWidths = measureColumnWidths(rowId, batch, header.map((x, i) => Math.max(maxColWidths[i] || 0, x.length)));
// If this is the first batch in a stream, print a top horizontal rule, schema metadata, and
if (++batchId === 0) {
hr && this.push(`${horizontalRule(state.maxColWidths, hr, sep)}\n`);
if (metadata && batch.schema.metadata.size > 0) {
this.push(`metadata:\n${formatMetadata(batch.schema.metadata)}\n`);
hr && this.push(`${horizontalRule(state.maxColWidths, hr, sep)}\n`);
}
if (batch.numRows <= 0 || batch.numCols <= 0) {
this.push(`${formatRow(header, maxColWidths = state.maxColWidths, sep)}\n`);
}
}
if (batch.numRows > 0 && batch.numCols > 0) {
// If any of the column widths changed, print the header again
if (rowId % 350 !== 0 && JSON.stringify(state.maxColWidths) !== JSON.stringify(maxColWidths)) {
this.push(`${formatRow(header, state.maxColWidths, sep)}\n`);
}
maxColWidths = state.maxColWidths;
for (const row of batch) {
if (state.closed) {
break;
}
else if (!row) {
continue;
}
if (rowId % 350 === 0) {
this.push(`${formatRow(header, maxColWidths, sep)}\n`);
}
this.push(`${formatRow([rowId++, ...row.toArray()].map(v => (0, pretty_js_1.valueToString)(v)), maxColWidths, sep)}\n`);
}
}
cb();
}
});
}
function horizontalRule(maxColWidths, hr = '', sep = ' | ') {
return ` ${(0, pad_left_1.default)('', maxColWidths.reduce((x, y) => x + y, -2 + maxColWidths.length * sep.length), hr)}`;
}
function formatRow(row = [], maxColWidths = [], sep = ' | ') {
return `${row.map((x, j) => (0, pad_left_1.default)(x, maxColWidths[j])).join(sep)}`;
}
function formatMetadataValue(value = '') {
let parsed = value;
try {
parsed = JSON.stringify(JSON.parse(value), null, 2);
}
catch (_a) {
parsed = value;
}
return (0, pretty_js_1.valueToString)(parsed).split('\n').join('\n ');
}
function formatMetadata(metadata) {
return [...metadata].map(([key, val]) => ` ${key}: ${formatMetadataValue(val)}`).join(', \n');
}
function measureColumnWidths(rowId, batch, maxColWidths = []) {
let val, j = 0;
for (const row of batch) {
if (!row) {
continue;
}
maxColWidths[j = 0] = Math.max(maxColWidths[0] || 0, (`${rowId++}`).length);
for (val of row) {
if (val && typedArrayElementWidths.has(val.constructor) && (typeof val[Symbol.toPrimitive] !== 'function')) {
// If we're printing a column of TypedArrays, ensure the column is wide enough to accommodate
// the widest possible element for a given byte size, since JS omits leading zeroes. For example:
// 1 | [1137743649,2170567488,244696391,2122556476]
// 2 | null
// 3 | [637174007,2142281880,961736230,2912449282]
// 4 | [1035112265,21832886,412842672,2207710517]
// 5 | null
// 6 | null
// 7 | [2755142991,4192423256,2994359,467878370]
const elementWidth = typedArrayElementWidths.get(val.constructor);
maxColWidths[j + 1] = Math.max(maxColWidths[j + 1] || 0, 2 + // brackets on each end
(val.length - 1) + // commas between elements
(val.length * elementWidth) // width of stringified 2^N-1
);
}
else {
maxColWidths[j + 1] = Math.max(maxColWidths[j + 1] || 0, (0, pretty_js_1.valueToString)(val).length);
}
++j;
}
}
return maxColWidths;
}
// Measure the stringified representation of 2^N-1 for each TypedArray variant
const typedArrayElementWidths = (() => {
const maxElementWidth = (ArrayType) => {
const octets = Array.from({ length: ArrayType.BYTES_PER_ELEMENT - 1 }, _ => 255);
return `${new ArrayType(new Uint8Array([...octets, 254]).buffer)[0]}`.length;
};
return new Map([
[Int8Array, maxElementWidth(Int8Array)],
[Int16Array, maxElementWidth(Int16Array)],
[Int32Array, maxElementWidth(Int32Array)],
[Uint8Array, maxElementWidth(Uint8Array)],
[Uint16Array, maxElementWidth(Uint16Array)],
[Uint32Array, maxElementWidth(Uint32Array)],
[Float32Array, maxElementWidth(Float32Array)],
[Float64Array, maxElementWidth(Float64Array)],
[Uint8ClampedArray, maxElementWidth(Uint8ClampedArray)]
]);
})();
function cliOpts() {
return [
{
type: String,
name: 'schema', alias: 's',
optional: true, multiple: true,
typeLabel: '{underline columns}',
description: 'A space-delimited list of column names'
},
{
type: String,
name: 'file', alias: 'f',
optional: true, multiple: true,
description: 'The Arrow file to read'
},
{
type: String,
name: 'sep', optional: true, default: ' | ',
description: 'The column separator character (default: " | ")'
},
{
type: String,
name: 'hr', optional: true, default: '',
description: 'The horizontal border character (default: "")'
},
{
type: Boolean,
name: 'metadata', alias: 'm',
optional: true, default: false,
description: 'Flag to print Schema metadata (default: false)'
},
{
type: Boolean,
name: 'help', optional: true, default: false,
description: 'Print this usage guide.'
}
];
}
function print_usage() {
console.log((0, command_line_usage_1.default)([
{
header: 'arrow2csv',
content: 'Print a CSV from an Arrow file'
},
{
header: 'Synopsis',
content: [
'$ arrow2csv {underline file.arrow} [{bold --schema} column_name ...]',
'$ arrow2csv [{bold --schema} column_name ...] [{bold --file} {underline file.arrow}]',
'$ arrow2csv {bold -s} column_1 {bold -s} column_2 [{bold -f} {underline file.arrow}]',
'$ arrow2csv [{bold --help}]'
]
},
{
header: 'Options',
optionList: cliOpts()
},
{
header: 'Example',
content: [
'$ arrow2csv --schema foo baz --sep " , " -f simple.arrow',
'> "row_id", "foo: Int32", "baz: Utf8"',
'> 0, 1, "aa"',
'> 1, null, null',
'> 2, 3, null',
'> 3, 4, "bbb"',
'> 4, 5, "cccc"',
]
}
]));
return 1;
}
//# sourceMappingURL=arrow2csv.js.map