Issues in index.js - Fixed Issues - Inspection of "using bitdepth 1.0.2" - rochars/wavefile - Measure and Improve Code Quality continuously with Scrutinizer

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Push — master ( fddde1...99a577 )

by Rafael S.

created 2017-11-29 03:21 UTC

index.js (2 issues)

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/*!
 * wavefile
 * Read & write wave files with 8, 16, 24, 32 PCM, 32 IEEE & 64-bit data.
 * Copyright (c) 2017 Rafael da Silva Rocha.
 * https://github.com/rochars/wavefile
 *
 */

const bitDepthLib = require("bitdepth");
const waveFileReaderWriter = require("./src/wavefile-reader-writer");

/**
 * WaveFile
 */
class WaveFile extends waveFileReaderWriter.WaveFileReaderWriter {

    /**
     * @param {Uint8Array} bytes A wave file buffer.
     * @param {boolean} enforceFact True if it should throw a error

     *      if no "fact" chunk is found.
     * @param {boolean} enforceBext True if it should throw a error

     *      if no "bext" chunk is found.
     */
    constructor(bytes) {
        super();
        if(bytes) {
            this.fromBuffer(bytes);
        }
    }

    /**
     * Create a WaveFile object based on the arguments passed.
     * @param {number} numChannels The number of channels
     *     (Ints like 1 for mono, 2 stereo and so on).
     * @param {number} sampleRate The sample rate.
     *     Integer numbers like 8000, 44100, 48000, 96000, 192000.
     * @param {string} bitDepth The audio bit depth.
     *     One of "8", "16", "24", "32", "32f", "64".
     * @param {!Array<number>} samples Array of samples to be written.
     *     Samples must be in the correct range according to the bit depth.
     *     Samples of multi-channel data .
     */
    fromScratch(numChannels, sampleRate, bitDepth, samples, options={}) {
        if (!options.container) {
            options.container = "RIFF";
        }
        let bytes = parseInt(bitDepth, 10) / 8;
        this.chunkSize = 36 + samples.length * bytes;
        this.fmtChunkSize = 16;
        this.byteRate = (numChannels * bytes) * sampleRate;
        this.blockAlign = numChannels * bytes;
        this.chunkId = options.container;
        this.format = "WAVE";
        this.fmtChunkId = "fmt ";
        this.audioFormat = this.headerFormats_[bitDepth];
        this.numChannels = numChannels;
        this.sampleRate = sampleRate;
        this.bitsPerSample = parseInt(bitDepth, 10);
        this.dataChunkId = "data";
        this.dataChunkSize = samples.length * bytes;
        this.samples_ = samples;
        this.bitDepth_ = bitDepth;
    }
    
    /**
     * Turn the file to RIFF.
     * All values will be little-endian when writing.
     */
    toRIFF() {
        this.chunkId = "RIFF";
    }

    /**
     * Turn the file to RIFX.
     * All values but FourCCs will be big-endian when writing.
     */
    toRIFX() {
        this.chunkId = "RIFX";
    }

    /**
     * Change the bit depth of the data.
     * @param {string} bitDepth The new bit depth of the data.
     *      One of "8", "16", "24", "32", "32f", "64"
     */
    toBitDepth(bitDepth) {
        bitDepthLib.toBitDepth(this.samples_, this.bitDepth_, bitDepth);
        this.fromScratch(
            this.numChannels,
            this.sampleRate,
            bitDepth,
            this.samples_,
            {"container": this.chunkId}
        );
    }

    /**
     * Interleave multi-channel samples.
     */
    interleave() {
        let finalSamples = [];
        let i;
        let j;
        let numChannels = this.samples_[0].length;
        for (i = 0; i < numChannels; i++) {
            for (j = 0; j < this.samples_.length; j++) {
                finalSamples.push(this.samples_[j][i]);
            }
        }
        this.samples_ = finalSamples;
    }

    /**
     * De-interleave samples into multiple channels.
     */
    deInterleave() {
        let finalSamples = [];
        let i;
        for (i = 0; i < this.numChannels; i++) {
            finalSamples[i] = [];
        }
        i = 0;
        let j;
        while (i < this.samples_.length) {
            for (j = 0; j < this.numChannels; j++) {
                finalSamples[j].push(this.samples_[i+j]);
            }
            i += j;
        }
        this.samples_ = finalSamples;
    }
}

module.exports.WaveFile = WaveFile;



1			/*!
2			* wavefile
3			* Read & write wave files with 8, 16, 24, 32 PCM, 32 IEEE & 64-bit data.
4			* Copyright (c) 2017 Rafael da Silva Rocha.
5			* https://github.com/rochars/wavefile
6			*
7			*/
8
9			const bitDepthLib = require("bitdepth");
10			const waveFileReaderWriter = require("./src/wavefile-reader-writer");
11
12			/**
13			* WaveFile
14			*/
15			class WaveFile extends waveFileReaderWriter.WaveFileReaderWriter {
16
17			/**
18			* @param {Uint8Array} bytes A wave file buffer.
19			* @param {boolean} enforceFact True if it should throw a error
			0 ignored issues – show Documentation introduced 2017-11-29 01:36 UTC by Report Bug Copy Issue Report Show Similar Issues like this The parameter `enforceFact` does not exist. Did you maybe forget to remove this comment? Loading history...
20			* if no "fact" chunk is found.
21			* @param {boolean} enforceBext True if it should throw a error
			0 ignored issues – show Documentation introduced 2017-11-29 01:36 UTC by Report Bug Copy Issue Report Show Similar Issues like this The parameter `enforceBext` does not exist. Did you maybe forget to remove this comment? Loading history...
22			* if no "bext" chunk is found.
23			*/
24			constructor(bytes) {
25			super();
26			if(bytes) {
27			this.fromBuffer(bytes);
28			}
29			}
30
31			/**
32			* Create a WaveFile object based on the arguments passed.
33			* @param {number} numChannels The number of channels
34			* (Ints like 1 for mono, 2 stereo and so on).
35			* @param {number} sampleRate The sample rate.
36			* Integer numbers like 8000, 44100, 48000, 96000, 192000.
37			* @param {string} bitDepth The audio bit depth.
38			* One of "8", "16", "24", "32", "32f", "64".
39			* @param {!Array<number>} samples Array of samples to be written.
40			* Samples must be in the correct range according to the bit depth.
41			* Samples of multi-channel data .
42			*/
43			fromScratch(numChannels, sampleRate, bitDepth, samples, options={}) {
44			if (!options.container) {
45			options.container = "RIFF";
46			}
47			let bytes = parseInt(bitDepth, 10) / 8;
48			this.chunkSize = 36 + samples.length * bytes;
49			this.fmtChunkSize = 16;
50			this.byteRate = (numChannels * bytes) * sampleRate;
51			this.blockAlign = numChannels * bytes;
52			this.chunkId = options.container;
53			this.format = "WAVE";
54			this.fmtChunkId = "fmt ";
55			this.audioFormat = this.headerFormats_[bitDepth];
56			this.numChannels = numChannels;
57			this.sampleRate = sampleRate;
58			this.bitsPerSample = parseInt(bitDepth, 10);
59			this.dataChunkId = "data";
60			this.dataChunkSize = samples.length * bytes;
61			this.samples_ = samples;
62			this.bitDepth_ = bitDepth;
63			}
64
65			/**
66			* Turn the file to RIFF.
67			* All values will be little-endian when writing.
68			*/
69			toRIFF() {
70			this.chunkId = "RIFF";
71			}
72
73			/**
74			* Turn the file to RIFX.
75			* All values but FourCCs will be big-endian when writing.
76			*/
77			toRIFX() {
78			this.chunkId = "RIFX";
79			}
80
81			/**
82			* Change the bit depth of the data.
83			* @param {string} bitDepth The new bit depth of the data.
84			* One of "8", "16", "24", "32", "32f", "64"
85			*/
86			toBitDepth(bitDepth) {
87			bitDepthLib.toBitDepth(this.samples_, this.bitDepth_, bitDepth);
88			this.fromScratch(
89			this.numChannels,
90			this.sampleRate,
91			bitDepth,
92			this.samples_,
93			{"container": this.chunkId}
94			);
95			}
96
97			/**
98			* Interleave multi-channel samples.
99			*/
100			interleave() {
101			let finalSamples = [];
102			let i;
103			let j;
104			let numChannels = this.samples_[0].length;
105			for (i = 0; i < numChannels; i++) {
106			for (j = 0; j < this.samples_.length; j++) {
107			finalSamples.push(this.samples_[j][i]);
108			}
109			}
110			this.samples_ = finalSamples;
111			}
112
113			/**
114			* De-interleave samples into multiple channels.
115			*/
116			deInterleave() {
117			let finalSamples = [];
118			let i;
119			for (i = 0; i < this.numChannels; i++) {
120			finalSamples[i] = [];
121			}
122			i = 0;
123			let j;
124			while (i < this.samples_.length) {
125			for (j = 0; j < this.numChannels; j++) {
126			finalSamples[j].push(this.samples_[i+j]);
127			}
128			i += j;
129			}
130			this.samples_ = finalSamples;
131			}
132			}
133
134			module.exports.WaveFile = WaveFile;
135
136

rochars / wavefile

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index.js (2 issues)

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