32bitIEEE-from-scratch.js ➔ describe(ꞌcreate 32-bit IEEE wave file from scratchꞌ) - Code Metrics - Inspection of "create wave files from scratch" - rochars/wavefile - Measure and Improve Code Quality continuously with Scrutinizer

Passed

Branch — master (4064de)

by Rafael S.

created 2017-11-17 19:39 UTC

e 32-bit IEEE wave file from scratchꞌ) B

↳ Parent: test/from-scratch/32bitIEEE-from-scratch.js

Complexity

Conditions	1
Paths	1

Size

Total Lines

520

Duplication

Lines	520
Ratio	100 %

Importance

Changes	1
Bugs	0	Features	0

Metric	Value
cc	1
c	1
b	0
f	0
nc	1
nop	0
dl	520
loc	520
rs	8.2857

14 Functions

Rating	Name	Duplication	Size	Complexity
A	32bitIEEE-from-scratch.js ➔ ... ➔ it(ꞌsubChunk1Size should be 16ꞌ)	3	3	1
A	32bitIEEE-from-scratch.js ➔ ... ➔ it(ꞌbitDepth_ should be "24"ꞌ)	3	3	1
A	32bitIEEE-from-scratch.js ➔ ... ➔ it(ꞌbyteRate should be 176400ꞌ)	3	3	1
A	32bitIEEE-from-scratch.js ➔ ... ➔ it(ꞌblockAlign should be 4ꞌ)	3	3	1
A	32bitIEEE-from-scratch.js ➔ ... ➔ it(ꞌaudioFormat should be 3ꞌ)	3	3	1
A	32bitIEEE-from-scratch.js ➔ ... ➔ it(ꞌsubChunk2Size should be 16ꞌ)	3	3	1
A	32bitIEEE-from-scratch.js ➔ ... ➔ it(ꞌchunkId should be "RIFF"ꞌ)	3	3	1
A	32bitIEEE-from-scratch.js ➔ ... ➔ it(ꞌsubChunk2Id should be "data"ꞌ)	3	3	1
A	32bitIEEE-from-scratch.js ➔ ... ➔ it(ꞌbitsPerSample should be 32ꞌ)	3	3	1
A	32bitIEEE-from-scratch.js ➔ ... ➔ it(ꞌformat should be "WAVE"ꞌ)	3	3	1
A	32bitIEEE-from-scratch.js ➔ ... ➔ it(ꞌsamples_ should be the same as the argsꞌ)	3	3	1
A	32bitIEEE-from-scratch.js ➔ ... ➔ it(ꞌsampleRate should be 44100ꞌ)	3	3	1
A	32bitIEEE-from-scratch.js ➔ ... ➔ it(ꞌsubChunk1Id should be "fmt "ꞌ)	3	3	1
A	32bitIEEE-from-scratch.js ➔ ... ➔ it(ꞌnumChannels should be 1ꞌ)	3	3	1

How to fix Long Method

/*!
 * riffwave64
 * 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/riffwave64
 * https://tr2099.github.io
 *
 */
 
var assert = require('assert');


describe('create 32-bit IEEE wave file from scratch', function() {
    
    let wavefile = require('../../index.js');
    let wav = new wavefile.WaveFile();
    wav.fromScratch(1, 44100, '32f', [0, 0.04029441, -0.04029440, 1]);

    let fs = require('fs');
    fs.writeFileSync("./test/files/out/32-bitIEEE-441kHz-mono-fromScratch.wav", wav.toBytes());

    it('chunkId should be "RIFF"', function() {
        assert.equal(wav.chunkId, "RIFF");
    });

    it('format should be "WAVE"', function() {
        assert.equal(wav.format, "WAVE");
    });

    it('subChunk1Id should be "fmt "', function() {
        assert.equal(wav.subChunk1Id, "fmt ");
    });

    it('subChunk1Size should be 16', function() {
        assert.equal(wav.subChunk1Size, 16);
    });

    it('audioFormat should be 3', function() {
        assert.equal(wav.audioFormat, 3);
    });

    it('numChannels should be 1', function() {
        assert.equal(wav.numChannels, 1);
    });

    it('sampleRate should be 44100', function() {
        assert.equal(wav.sampleRate, 44100);
    });

    it('byteRate should be 176400', function() {
        assert.equal(wav.byteRate, 176400);
    });

    it('blockAlign should be 4', function() {
        assert.equal(wav.blockAlign, 4);
    });

    it('bitsPerSample should be 32', function() {
        assert.equal(wav.bitsPerSample, 32);
    });

    it('subChunk2Id should be "data"', function() {
        assert.equal(wav.subChunk2Id, "data");
    });

    it('subChunk2Size should be 16', function() {
        assert.equal(wav.subChunk2Size, 16);
    });

    it('samples_ should be the same as the args', function() {
        assert.deepEqual(wav.samples_, [0, 0.04029441, -0.04029440, 1]);
    });

    it('bitDepth_ should be "24"', function() {
        assert.equal(wav.bitDepth_, "32f");
    });

    /*
    it('should return a 8-bit wave file with an odd number of samples',
            function() {
        let wav = rw64.writeWavBytes(1, 48000, '8', [0, 255, 2]);
        let wavRead = rw64.readWavBytes(wav);

        assert.equal(wavRead.audioFormat, 1);
        assert.equal(wavRead.numChannels, 1);
        assert.equal(wavRead.blockAlign, 1);
        assert.equal(wavRead.sampleRate, 48000);
        assert.equal(wavRead.bitsPerSample, 8);
        assert.deepEqual(wavRead.samples, [0, 255, 2]);
    });

    it('should return a 16-bit wave file', function() {
        let wav = rw64.writeWavBytes(1, 48000, '16',
            [0, 1, -32768, 32767]);
        let wavRead = rw64.readWavBytes(wav);
        
        assert.equal(wavRead.audioFormat, 1);
        assert.equal(wavRead.numChannels, 1);
        assert.equal(wavRead.blockAlign, 2);
        assert.equal(wavRead.sampleRate, 48000);
        assert.equal(wavRead.bitsPerSample, 16);
        assert.deepEqual(wavRead.samples, [0, 1, -32768, 32767]);
    });

    it('should return a 16-bit wave file with a odd number of samples',
            function() {
        let wav = rw64.writeWavBytes(1, 48000, '16',
            [0, 1, -32768, 32767, 4]);
        let wavRead = rw64.readWavBytes(wav);
        
        assert.equal(wavRead.audioFormat, 1);
        assert.equal(wavRead.numChannels, 1);
        assert.equal(wavRead.blockAlign, 2);
        assert.equal(wavRead.sampleRate, 48000);
        assert.equal(wavRead.bitsPerSample, 16);
        assert.deepEqual(wavRead.samples, [0, 1, -32768, 32767, 4]);
    });

    it('should return a 24-bit wave file', function() {
        let wav = rw64.writeWavBytes(1, 48000, '24',
            [0, 1, -8388608, 8388607]);
        let wavRead = rw64.readWavBytes(wav);
        
        assert.equal(wavRead.audioFormat, 1);
        assert.equal(wavRead.numChannels, 1);
        assert.equal(wavRead.blockAlign, 3);
        assert.equal(wavRead.sampleRate, 48000);
        assert.equal(wavRead.bitsPerSample, 24);
        assert.equal(wavRead.subChunk2Size, 12); // 4 x 3
        assert.deepEqual(wavRead.samples, [0, 1, -8388608, 8388607]);
    });

    it('should return a 24-bit wave file with a odd number of samples',
            function() {
        let wav = rw64.writeWavBytes(1, 48000, '24',
            [0, 1, -8388608, 8388607, 4]);
        let wavRead = rw64.readWavBytes(wav);
        
        assert.equal(wavRead.audioFormat, 1);
        assert.equal(wavRead.numChannels, 1);
        assert.equal(wavRead.sampleRate, 48000);
        assert.equal(wavRead.bitsPerSample, 24);
        assert.equal(wavRead.blockAlign, 3);
        assert.equal(wavRead.subChunk2Size, 15); // 5 x 3
        assert.deepEqual(wavRead.samples, [0, 1, -8388608, 8388607, 4]);
    });

    it('should return a 32-bit PCM wave file', function() {
        let wav = rw64.writeWavBytes(1, 44100, '32',
            [0, -2147483648, 2147483647, 4]);
        let wavRead = rw64.readWavBytes(wav);
        
        assert.equal(wavRead.audioFormat, 1);
        assert.equal(wavRead.numChannels, 1);
        assert.equal(wavRead.sampleRate, 44100);
        assert.equal(wavRead.bitsPerSample, 32);
        assert.equal(wavRead.blockAlign, 4);
        assert.deepEqual(wavRead.samples, [0, -2147483648, 2147483647, 4]);
    });

    it('should return a 32-bit PCM wave file with a odd number of samples',
            function() {
        let wav = rw64.writeWavBytes(1, 44100, '32',
            [0, -2147483648, 45, 0, 1]);
        let wavRead = rw64.readWavBytes(wav);
        
        assert.equal(wavRead.audioFormat, 1);
        assert.equal(wavRead.numChannels, 1);
        assert.equal(wavRead.sampleRate, 44100);
        assert.equal(wavRead.bitsPerSample, 32);
        assert.equal(wavRead.blockAlign, 4);
        assert.deepEqual(wavRead.samples, [0, -2147483648, 45, 0, 1]);
    });

    it('should return a 32-bit IEEE wave file', function() {
        let wav = rw64.writeWavBytes(1, 48000, '32f',
            [0, 0.04029441, -0.04029440, 1, -1, 0]);
        let wavRead = rw64.readWavBytes(wav);
        
        assert.equal(wavRead.audioFormat, 3);
        assert.equal(wavRead.numChannels, 1);
        assert.equal(wavRead.sampleRate, 48000);
        assert.equal(wavRead.blockAlign, 4);
        assert.equal(wavRead.bitsPerSample, 32);
        for (let i=0; i<wavRead.samples.length; i++) {
            wavRead.samples[i] = Number((wavRead.samples[i]).toFixed(8));
        }
        assert.deepEqual(wavRead.samples,
            [0, 0.04029441, -0.04029440, 1, -1, 0]);
    });

    it('should return a 32-bit IEEE wave file ' +
        'with a odd number of samples',
            function() {
        let wav = rw64.writeWavBytes(1, 48000, '32f',
            [0, 0.04029441, -0.04029440, 1, -1, 0, 1]);
        let wavRead = rw64.readWavBytes(wav);
        
        assert.equal(wavRead.audioFormat, 3);
        assert.equal(wavRead.numChannels, 1);
        assert.equal(wavRead.sampleRate, 48000);
        assert.equal(wavRead.blockAlign, 4);
        assert.equal(wavRead.bitsPerSample, 32);
        for (let i=0; i<wavRead.samples.length; i++) {
            wavRead.samples[i] = Number((wavRead.samples[i]).toFixed(8));
        }
        assert.deepEqual(wavRead.samples,
            [0, 0.04029441, -0.04029440, 1, -1, 0, 1]);
    });

    it('should return a wave file with 64-bit audio', function() {
        let wav = rw64.writeWavBytes(1, 48000, '64',
            [0.0, 0.04029440055111987, -0.04029440055111987, 1.0]);
        let wavRead = rw64.readWavBytes(wav);

        assert.equal(wavRead.audioFormat, 3);
        assert.equal(wavRead.numChannels, 1);
        assert.equal(wavRead.sampleRate, 48000);
        assert.equal(wavRead.blockAlign, 8);
        assert.equal(wavRead.bitsPerSample, 64);
        assert.deepEqual(wavRead.samples,
            [0.0, 0.04029440055111987, -0.04029440055111987, 1.0]);
    });

    it('should return a wave file with 64-bit ' +
        'audio and a odd number of samples',
            function() {
        let wav = rw64.writeWavBytes(1, 48000, '64',
            [0.0, 0.04029440055111987, -0.04029440055111987, 1.0, 1]);
        let wavRead = rw64.readWavBytes(wav);

        assert.equal(wavRead.audioFormat, 3);
        assert.equal(wavRead.numChannels, 1);
        assert.equal(wavRead.sampleRate, 48000);
        assert.equal(wavRead.blockAlign, 8);
        assert.equal(wavRead.bitsPerSample, 64);
        assert.deepEqual(wavRead.samples,
            [0.0, 0.04029440055111987, -0.04029440055111987, 1, 1]);
    });

    it('check rouding for double values on read/write',
            function() {
        let wav = rw64.writeWavBytes(1, 48000, '64',
            [3.141592653589793]);
        let wavRead = rw64.readWavBytes(wav);
        
        assert.ok(wavRead.samples[0] ==
            3.141592653589793);

    });

    it('check rouding for double values on read/write (forced change)',
        function() {
        let wav = rw64.writeWavBytes(1, 48000, '64',
            [3.141592653589793]);
        let wavRead = rw64.readWavBytes(wav);
        
        assert.ok(wavRead.samples[0] !=
            3.141592653589792);
    });

    it('should return a wave file with 64-bit audio on max and min range',
            function() {
        let wav = rw64.writeWavBytes(1, 48000, '64', [0,1,0,-1]);
        let wavRead = rw64.readWavBytes(wav);

        assert.equal(wavRead.audioFormat, 3);
        assert.equal(wavRead.numChannels, 1);
        assert.equal(wavRead.sampleRate, 48000);
        assert.equal(wavRead.blockAlign, 8);
        assert.equal(wavRead.bitsPerSample, 64);
        assert.deepEqual(wavRead.samples, [0,1,0,-1]);
    });

    it('should return another wave file with 64-bit audio', function() {
        let wav = rw64.writeWavBytes(1, 48000, '64',
            [0.0, 0.99999999999999999, -0.00000000000000001, 1]);
        let wavRead = rw64.readWavBytes(wav);

        assert.equal(wavRead.audioFormat, 3);
        assert.equal(wavRead.numChannels, 1);
        assert.equal(wavRead.sampleRate, 48000);
        assert.equal(wavRead.blockAlign, 8);
        assert.equal(wavRead.bitsPerSample, 64);
        assert.deepEqual(wavRead.samples,
            [0, 0.99999999999999999, -0.00000000000000001, 1]);
    });

    it('should return one more wave file with 64-bit audio', function() {
        let wav = rw64.writeWavBytes(1, 48000, '64',
            [0, 1, 1, -1, 0, -1, 0.99999999999999999,
            -0.00000000000000001, 1]);
        let wavRead = rw64.readWavBytes(wav);

        assert.equal(wavRead.audioFormat, 3);
        assert.equal(wavRead.numChannels, 1);
        assert.equal(wavRead.sampleRate, 48000);
        assert.equal(wavRead.blockAlign, 8);
        assert.equal(wavRead.bitsPerSample, 64);
        assert.deepEqual(wavRead.samples,
            [0, 1, 1, -1, 0, -1, 0.99999999999999999,
            -0.00000000000000001, 1]);
    });

    it('should return a 24-bit wave file with 8 channels', function() {
        let wav = rw64.writeWavBytes(8, 48000, '24',
            [0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 1, 1]);
        let read = rw64.readWavBytes(wav);
        
        assert.equal(read.subChunk1Size, 16);
        assert.equal(read.audioFormat, 1);
        assert.equal(read.numChannels, 8);
        assert.equal(read.sampleRate, 48000);
        assert.equal(read.blockAlign, 24);
        assert.equal(read.bitsPerSample, 24);
    });

    it('should return a 32-bit PCM wave file with 7 channels', function() {
        let wav = rw64.writeWavBytes(7, 48000, '32',
            [0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 1, 1]);
        let read = rw64.readWavBytes(wav);
        
        assert.equal(read.subChunk1Size, 16);
        assert.equal(read.audioFormat, 1);
        assert.equal(read.numChannels, 7);
        assert.equal(read.sampleRate, 48000);
        assert.equal(read.blockAlign, 28);
        assert.equal(read.bitsPerSample, 32);
    });

    it('should return a 24-bit wave file encoded as a base 64 string',
            function() {
        assert.ok(rw64.writeWavBase64(1, 48000, '24',
            [0, 0.5, -0.5]));
    });

    it('should return a 32-bit IEEE wave file encoded as a base 64 string',
            function() {
        assert.ok(rw64.writeWavBase64(1, 48000, '32f',
            [0, 0.5, -0.5]));
    });

    it('should return a 64-bit wave file encoded as a base 64 string',
            function() {
        assert.ok(rw64.writeWavBase64(1, 48000, '64',
            [0, 0.5, -0.5]));
    });

    it('should return a 24-bit wave file encoded as a Data URI',
            function() {
        assert.ok(rw64.writeWavDataURI(1, 48000, '24',
            [0, 0.5, -0.5]));
    });

    it('should return a 32-bit IEEE wave file encoded as a Data URI',
            function() {
        assert.ok(rw64.writeWavDataURI(1, 48000, '32f',
            [0, 0.5, -0.5]));
    });

    it('should return a 64-bit wave file encoded as a Data URI',
            function() {
        assert.ok(rw64.writeWavDataURI(1, 48000, '64',
            [0, 0.5, -0.5]));
    });

    it('should return another 64-bit wave file encoded as a Data URI',
            function() {
        assert.ok(rw64.writeWavDataURI(1, 48000, '64',
            [0, 1, -1, 0, 1]));
    });

    it('should write a 8-bit wav file with 1 Hz sample rate',
            function() {
        let samples = [0,1];
        let wav = rw64.writeWavBytes(1, 1, '8', samples);
        let read = rw64.readWavBytes(wav);
        
        assert.equal(read.subChunk1Size, 16);
        assert.equal(read.audioFormat, 1);
        assert.equal(read.numChannels, 1);
        assert.equal(read.sampleRate, 1);
        assert.equal(read.blockAlign, 1);
        assert.equal(read.bitsPerSample, 8);
    });

    it('should write a 8-bit stereo wav file', function() {
        let channels = [
            [0,1,2],
            [0,1,2]
        ];
        let samples = rw64.interleave(channels);
        let wav = rw64.writeWavBytes(2, 44100, '8', samples);
        let read = rw64.readWavBytes(wav);
        
        assert.equal(read.subChunk1Size, 16);
        assert.equal(read.audioFormat, 1);
        assert.equal(read.numChannels, 2);
        assert.equal(read.sampleRate, 44100);
        assert.equal(read.blockAlign, 2);
        assert.equal(read.bitsPerSample, 8);
    });

    it('should write a 16-bit stereo wav file', function() {
        let channels = [
            [0,1,2],
            [0,1,2]
        ];
        let samples = rw64.interleave(channels);
        let wav = rw64.writeWavBytes(2, 44100, '16', samples);
        let read = rw64.readWavBytes(wav);
        
        assert.equal(read.subChunk1Size, 16);
        assert.equal(read.audioFormat, 1);
        assert.equal(read.numChannels, 2);
        assert.equal(read.sampleRate, 44100);
        assert.equal(read.blockAlign, 4);
        assert.equal(read.bitsPerSample, 16);
    });

    it('should write a 24-bit stereo wav file', function() {
        let channels = [
            [0,1,2],
            [0,1,2]
        ];
        let samples = rw64.interleave(channels);
        let wav = rw64.writeWavBytes(2, 44100, '24', samples);
        let read = rw64.readWavBytes(wav);
        
        assert.equal(read.subChunk1Size, 16);
        assert.equal(read.audioFormat, 1);
        assert.equal(read.numChannels, 2);
        assert.equal(read.sampleRate, 44100);
        assert.equal(read.blockAlign, 6);
        assert.equal(read.bitsPerSample, 24);
    });

    it('should write a 24-bit stereo wav file', function() {
        let channels = [
            [0,1,2],
            [0,1,2]
        ];
        let samples = rw64.interleave(channels);
        let wav = rw64.writeWavBytes(2, 44100, '24', samples);
        let read = rw64.readWavBytes(wav);
        
        assert.equal(read.subChunk1Size, 16);
        assert.equal(read.audioFormat, 1);
        assert.equal(read.numChannels, 2);
        assert.equal(read.sampleRate, 44100);
        assert.equal(read.blockAlign, 6);
        assert.equal(read.bitsPerSample, 24);
    });

    it('should write a 32-bit PCM stereo wav file', function() {
        let channels = [
            [0,1,2],
            [0,1,2]
        ];
        let samples = rw64.interleave(channels);
        let wav = rw64.writeWavBytes(2, 44100, '32', samples);
        let read = rw64.readWavBytes(wav);
        
        assert.equal(read.subChunk1Size, 16);
        assert.equal(read.audioFormat, 1);
        assert.equal(read.numChannels, 2);
        assert.equal(read.sampleRate, 44100);
        assert.equal(read.blockAlign, 8);
        assert.equal(read.bitsPerSample, 32);
    });

    it('should write a 32-bit IEEE stereo wav file', function() {
        let channels = [
            [0,1,-1],
            [0,1,-1]
        ];
        let samples = rw64.interleave(channels);
        let wav = rw64.writeWavBytes(2, 44100, '32f', samples);
        let read = rw64.readWavBytes(wav);
        
        assert.equal(read.subChunk1Size, 16);
        assert.equal(read.audioFormat, 3);
        assert.equal(read.numChannels, 2);
        assert.equal(read.sampleRate, 44100);
        assert.equal(read.blockAlign, 8);
        assert.equal(read.bitsPerSample, 32);
    });

    it('should write a 64-bit stereo wav file', function() {
        let channels = [
            [0,1,-1],
            [0,1,-1]
        ];
        let samples = rw64.interleave(channels);
        let wav = rw64.writeWavBytes(2, 44100, '64', samples);
        let read = rw64.readWavBytes(wav);
        
        assert.equal(read.subChunk1Size, 16);
        assert.equal(read.audioFormat, 3);
        assert.equal(read.numChannels, 2);
        assert.equal(read.sampleRate, 44100);
        assert.equal(read.blockAlign, 16);
        assert.equal(read.bitsPerSample, 64);
    });

    it('should return a 64-bit wave file with non-negative 0',
            function() {
        let wav = rw64.writeWavBytes(1, 48000, '64', [0, 1, -1, -0, 1]);
        let wavRead = rw64.readWavBytes(wav);
        assert.equal(wavRead.audioFormat, 3);
        assert.equal(wavRead.numChannels, 1);
        assert.equal(wavRead.sampleRate, 48000);
        assert.equal(wavRead.blockAlign, 8);
        assert.equal(wavRead.bitsPerSample, 64);
        assert.deepEqual(wavRead.samples, [0, 1, -1, 0, 1]);
    });

    it('should return a 32-bit PCM file with max possible sample value',
            function() {
        let wav = rw64.writeWavBytes(1, 16000, '32',
            [-2147483648, 2147483647, -1, 1, 0]);
        let wavRead = rw64.readWavBytes(wav);
        assert.equal(wavRead.audioFormat, 1);
        assert.equal(wavRead.numChannels, 1);
        assert.equal(wavRead.sampleRate, 16000);
        assert.equal(wavRead.blockAlign, 4);
        assert.equal(wavRead.bitsPerSample, 32);
        assert.deepEqual(wavRead.samples,
            [-2147483648, 2147483647, -1, 1, 0]);
    });
    */
});


1		/*!
2		* riffwave64
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/riffwave64
6		* https://tr2099.github.io
7		*
8		*/
9
10	View Code Duplication	var assert = require('assert');
		0 ignored issues – show Duplication introduced 2017-11-17 19:40 UTC by Report Bug Copy Issue Report This code seems to be duplicated in your project. Loading history...
11
12		describe('create 32-bit IEEE wave file from scratch', function() {
13
14		let wavefile = require('../../index.js');
15		let wav = new wavefile.WaveFile();
16		wav.fromScratch(1, 44100, '32f', [0, 0.04029441, -0.04029440, 1]);
17
18		let fs = require('fs');
19		fs.writeFileSync("./test/files/out/32-bitIEEE-441kHz-mono-fromScratch.wav", wav.toBytes());
20
21		it('chunkId should be "RIFF"', function() {
22		assert.equal(wav.chunkId, "RIFF");
23		});
24
25		it('format should be "WAVE"', function() {
26		assert.equal(wav.format, "WAVE");
27		});
28
29		it('subChunk1Id should be "fmt "', function() {
30		assert.equal(wav.subChunk1Id, "fmt ");
31		});
32
33		it('subChunk1Size should be 16', function() {
34		assert.equal(wav.subChunk1Size, 16);
35		});
36
37		it('audioFormat should be 3', function() {
38		assert.equal(wav.audioFormat, 3);
39		});
40
41		it('numChannels should be 1', function() {
42		assert.equal(wav.numChannels, 1);
43		});
44
45		it('sampleRate should be 44100', function() {
46		assert.equal(wav.sampleRate, 44100);
47		});
48
49		it('byteRate should be 176400', function() {
50		assert.equal(wav.byteRate, 176400);
51		});
52
53		it('blockAlign should be 4', function() {
54		assert.equal(wav.blockAlign, 4);
55		});
56
57		it('bitsPerSample should be 32', function() {
58		assert.equal(wav.bitsPerSample, 32);
59		});
60
61		it('subChunk2Id should be "data"', function() {
62		assert.equal(wav.subChunk2Id, "data");
63		});
64
65		it('subChunk2Size should be 16', function() {
66		assert.equal(wav.subChunk2Size, 16);
67		});
68
69		it('samples_ should be the same as the args', function() {
70		assert.deepEqual(wav.samples_, [0, 0.04029441, -0.04029440, 1]);
71		});
72
73		it('bitDepth_ should be "24"', function() {
74		assert.equal(wav.bitDepth_, "32f");
75		});
76
77		/*
78		it('should return a 8-bit wave file with an odd number of samples',
79		function() {
80		let wav = rw64.writeWavBytes(1, 48000, '8', [0, 255, 2]);
81		let wavRead = rw64.readWavBytes(wav);
82
83		assert.equal(wavRead.audioFormat, 1);
84		assert.equal(wavRead.numChannels, 1);
85		assert.equal(wavRead.blockAlign, 1);
86		assert.equal(wavRead.sampleRate, 48000);
87		assert.equal(wavRead.bitsPerSample, 8);
88		assert.deepEqual(wavRead.samples, [0, 255, 2]);
89		});
90
91		it('should return a 16-bit wave file', function() {
92		let wav = rw64.writeWavBytes(1, 48000, '16',
93		[0, 1, -32768, 32767]);
94		let wavRead = rw64.readWavBytes(wav);
95
96		assert.equal(wavRead.audioFormat, 1);
97		assert.equal(wavRead.numChannels, 1);
98		assert.equal(wavRead.blockAlign, 2);
99		assert.equal(wavRead.sampleRate, 48000);
100		assert.equal(wavRead.bitsPerSample, 16);
101		assert.deepEqual(wavRead.samples, [0, 1, -32768, 32767]);
102		});
103
104		it('should return a 16-bit wave file with a odd number of samples',
105		function() {
106		let wav = rw64.writeWavBytes(1, 48000, '16',
107		[0, 1, -32768, 32767, 4]);
108		let wavRead = rw64.readWavBytes(wav);
109
110		assert.equal(wavRead.audioFormat, 1);
111		assert.equal(wavRead.numChannels, 1);
112		assert.equal(wavRead.blockAlign, 2);
113		assert.equal(wavRead.sampleRate, 48000);
114		assert.equal(wavRead.bitsPerSample, 16);
115		assert.deepEqual(wavRead.samples, [0, 1, -32768, 32767, 4]);
116		});
117
118		it('should return a 24-bit wave file', function() {
119		let wav = rw64.writeWavBytes(1, 48000, '24',
120		[0, 1, -8388608, 8388607]);
121		let wavRead = rw64.readWavBytes(wav);
122
123		assert.equal(wavRead.audioFormat, 1);
124		assert.equal(wavRead.numChannels, 1);
125		assert.equal(wavRead.blockAlign, 3);
126		assert.equal(wavRead.sampleRate, 48000);
127		assert.equal(wavRead.bitsPerSample, 24);
128		assert.equal(wavRead.subChunk2Size, 12); // 4 x 3
129		assert.deepEqual(wavRead.samples, [0, 1, -8388608, 8388607]);
130		});
131
132		it('should return a 24-bit wave file with a odd number of samples',
133		function() {
134		let wav = rw64.writeWavBytes(1, 48000, '24',
135		[0, 1, -8388608, 8388607, 4]);
136		let wavRead = rw64.readWavBytes(wav);
137
138		assert.equal(wavRead.audioFormat, 1);
139		assert.equal(wavRead.numChannels, 1);
140		assert.equal(wavRead.sampleRate, 48000);
141		assert.equal(wavRead.bitsPerSample, 24);
142		assert.equal(wavRead.blockAlign, 3);
143		assert.equal(wavRead.subChunk2Size, 15); // 5 x 3
144		assert.deepEqual(wavRead.samples, [0, 1, -8388608, 8388607, 4]);
145		});
146
147		it('should return a 32-bit PCM wave file', function() {
148		let wav = rw64.writeWavBytes(1, 44100, '32',
149		[0, -2147483648, 2147483647, 4]);
150		let wavRead = rw64.readWavBytes(wav);
151
152		assert.equal(wavRead.audioFormat, 1);
153		assert.equal(wavRead.numChannels, 1);
154		assert.equal(wavRead.sampleRate, 44100);
155		assert.equal(wavRead.bitsPerSample, 32);
156		assert.equal(wavRead.blockAlign, 4);
157		assert.deepEqual(wavRead.samples, [0, -2147483648, 2147483647, 4]);
158		});
159
160		it('should return a 32-bit PCM wave file with a odd number of samples',
161		function() {
162		let wav = rw64.writeWavBytes(1, 44100, '32',
163		[0, -2147483648, 45, 0, 1]);
164		let wavRead = rw64.readWavBytes(wav);
165
166		assert.equal(wavRead.audioFormat, 1);
167		assert.equal(wavRead.numChannels, 1);
168		assert.equal(wavRead.sampleRate, 44100);
169		assert.equal(wavRead.bitsPerSample, 32);
170		assert.equal(wavRead.blockAlign, 4);
171		assert.deepEqual(wavRead.samples, [0, -2147483648, 45, 0, 1]);
172		});
173
174		it('should return a 32-bit IEEE wave file', function() {
175		let wav = rw64.writeWavBytes(1, 48000, '32f',
176		[0, 0.04029441, -0.04029440, 1, -1, 0]);
177		let wavRead = rw64.readWavBytes(wav);
178
179		assert.equal(wavRead.audioFormat, 3);
180		assert.equal(wavRead.numChannels, 1);
181		assert.equal(wavRead.sampleRate, 48000);
182		assert.equal(wavRead.blockAlign, 4);
183		assert.equal(wavRead.bitsPerSample, 32);
184		for (let i=0; i<wavRead.samples.length; i++) {
185		wavRead.samples[i] = Number((wavRead.samples[i]).toFixed(8));
186		}
187		assert.deepEqual(wavRead.samples,
188		[0, 0.04029441, -0.04029440, 1, -1, 0]);
189		});
190
191		it('should return a 32-bit IEEE wave file ' +
192		'with a odd number of samples',
193		function() {
194		let wav = rw64.writeWavBytes(1, 48000, '32f',
195		[0, 0.04029441, -0.04029440, 1, -1, 0, 1]);
196		let wavRead = rw64.readWavBytes(wav);
197
198		assert.equal(wavRead.audioFormat, 3);
199		assert.equal(wavRead.numChannels, 1);
200		assert.equal(wavRead.sampleRate, 48000);
201		assert.equal(wavRead.blockAlign, 4);
202		assert.equal(wavRead.bitsPerSample, 32);
203		for (let i=0; i<wavRead.samples.length; i++) {
204		wavRead.samples[i] = Number((wavRead.samples[i]).toFixed(8));
205		}
206		assert.deepEqual(wavRead.samples,
207		[0, 0.04029441, -0.04029440, 1, -1, 0, 1]);
208		});
209
210		it('should return a wave file with 64-bit audio', function() {
211		let wav = rw64.writeWavBytes(1, 48000, '64',
212		[0.0, 0.04029440055111987, -0.04029440055111987, 1.0]);
213		let wavRead = rw64.readWavBytes(wav);
214
215		assert.equal(wavRead.audioFormat, 3);
216		assert.equal(wavRead.numChannels, 1);
217		assert.equal(wavRead.sampleRate, 48000);
218		assert.equal(wavRead.blockAlign, 8);
219		assert.equal(wavRead.bitsPerSample, 64);
220		assert.deepEqual(wavRead.samples,
221		[0.0, 0.04029440055111987, -0.04029440055111987, 1.0]);
222		});
223
224		it('should return a wave file with 64-bit ' +
225		'audio and a odd number of samples',
226		function() {
227		let wav = rw64.writeWavBytes(1, 48000, '64',
228		[0.0, 0.04029440055111987, -0.04029440055111987, 1.0, 1]);
229		let wavRead = rw64.readWavBytes(wav);
230
231		assert.equal(wavRead.audioFormat, 3);
232		assert.equal(wavRead.numChannels, 1);
233		assert.equal(wavRead.sampleRate, 48000);
234		assert.equal(wavRead.blockAlign, 8);
235		assert.equal(wavRead.bitsPerSample, 64);
236		assert.deepEqual(wavRead.samples,
237		[0.0, 0.04029440055111987, -0.04029440055111987, 1, 1]);
238		});
239
240		it('check rouding for double values on read/write',
241		function() {
242		let wav = rw64.writeWavBytes(1, 48000, '64',
243		[3.141592653589793]);
244		let wavRead = rw64.readWavBytes(wav);
245
246		assert.ok(wavRead.samples[0] ==
247		3.141592653589793);
248
249		});
250
251		it('check rouding for double values on read/write (forced change)',
252		function() {
253		let wav = rw64.writeWavBytes(1, 48000, '64',
254		[3.141592653589793]);
255		let wavRead = rw64.readWavBytes(wav);
256
257		assert.ok(wavRead.samples[0] !=
258		3.141592653589792);
259		});
260
261		it('should return a wave file with 64-bit audio on max and min range',
262		function() {
263		let wav = rw64.writeWavBytes(1, 48000, '64', [0,1,0,-1]);
264		let wavRead = rw64.readWavBytes(wav);
265
266		assert.equal(wavRead.audioFormat, 3);
267		assert.equal(wavRead.numChannels, 1);
268		assert.equal(wavRead.sampleRate, 48000);
269		assert.equal(wavRead.blockAlign, 8);
270		assert.equal(wavRead.bitsPerSample, 64);
271		assert.deepEqual(wavRead.samples, [0,1,0,-1]);
272		});
273
274		it('should return another wave file with 64-bit audio', function() {
275		let wav = rw64.writeWavBytes(1, 48000, '64',
276		[0.0, 0.99999999999999999, -0.00000000000000001, 1]);
277		let wavRead = rw64.readWavBytes(wav);
278
279		assert.equal(wavRead.audioFormat, 3);
280		assert.equal(wavRead.numChannels, 1);
281		assert.equal(wavRead.sampleRate, 48000);
282		assert.equal(wavRead.blockAlign, 8);
283		assert.equal(wavRead.bitsPerSample, 64);
284		assert.deepEqual(wavRead.samples,
285		[0, 0.99999999999999999, -0.00000000000000001, 1]);
286		});
287
288		it('should return one more wave file with 64-bit audio', function() {
289		let wav = rw64.writeWavBytes(1, 48000, '64',
290		[0, 1, 1, -1, 0, -1, 0.99999999999999999,
291		-0.00000000000000001, 1]);
292		let wavRead = rw64.readWavBytes(wav);
293
294		assert.equal(wavRead.audioFormat, 3);
295		assert.equal(wavRead.numChannels, 1);
296		assert.equal(wavRead.sampleRate, 48000);
297		assert.equal(wavRead.blockAlign, 8);
298		assert.equal(wavRead.bitsPerSample, 64);
299		assert.deepEqual(wavRead.samples,
300		[0, 1, 1, -1, 0, -1, 0.99999999999999999,
301		-0.00000000000000001, 1]);
302		});
303
304		it('should return a 24-bit wave file with 8 channels', function() {
305		let wav = rw64.writeWavBytes(8, 48000, '24',
306		[0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 1, 1]);
307		let read = rw64.readWavBytes(wav);
308
309		assert.equal(read.subChunk1Size, 16);
310		assert.equal(read.audioFormat, 1);
311		assert.equal(read.numChannels, 8);
312		assert.equal(read.sampleRate, 48000);
313		assert.equal(read.blockAlign, 24);
314		assert.equal(read.bitsPerSample, 24);
315		});
316
317		it('should return a 32-bit PCM wave file with 7 channels', function() {
318		let wav = rw64.writeWavBytes(7, 48000, '32',
319		[0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 1, 1]);
320		let read = rw64.readWavBytes(wav);
321
322		assert.equal(read.subChunk1Size, 16);
323		assert.equal(read.audioFormat, 1);
324		assert.equal(read.numChannels, 7);
325		assert.equal(read.sampleRate, 48000);
326		assert.equal(read.blockAlign, 28);
327		assert.equal(read.bitsPerSample, 32);
328		});
329
330		it('should return a 24-bit wave file encoded as a base 64 string',
331		function() {
332		assert.ok(rw64.writeWavBase64(1, 48000, '24',
333		[0, 0.5, -0.5]));
334		});
335
336		it('should return a 32-bit IEEE wave file encoded as a base 64 string',
337		function() {
338		assert.ok(rw64.writeWavBase64(1, 48000, '32f',
339		[0, 0.5, -0.5]));
340		});
341
342		it('should return a 64-bit wave file encoded as a base 64 string',
343		function() {
344		assert.ok(rw64.writeWavBase64(1, 48000, '64',
345		[0, 0.5, -0.5]));
346		});
347
348		it('should return a 24-bit wave file encoded as a Data URI',
349		function() {
350		assert.ok(rw64.writeWavDataURI(1, 48000, '24',
351		[0, 0.5, -0.5]));
352		});
353
354		it('should return a 32-bit IEEE wave file encoded as a Data URI',
355		function() {
356		assert.ok(rw64.writeWavDataURI(1, 48000, '32f',
357		[0, 0.5, -0.5]));
358		});
359
360		it('should return a 64-bit wave file encoded as a Data URI',
361		function() {
362		assert.ok(rw64.writeWavDataURI(1, 48000, '64',
363		[0, 0.5, -0.5]));
364		});
365
366		it('should return another 64-bit wave file encoded as a Data URI',
367		function() {
368		assert.ok(rw64.writeWavDataURI(1, 48000, '64',
369		[0, 1, -1, 0, 1]));
370		});
371
372		it('should write a 8-bit wav file with 1 Hz sample rate',
373		function() {
374		let samples = [0,1];
375		let wav = rw64.writeWavBytes(1, 1, '8', samples);
376		let read = rw64.readWavBytes(wav);
377
378		assert.equal(read.subChunk1Size, 16);
379		assert.equal(read.audioFormat, 1);
380		assert.equal(read.numChannels, 1);
381		assert.equal(read.sampleRate, 1);
382		assert.equal(read.blockAlign, 1);
383		assert.equal(read.bitsPerSample, 8);
384		});
385
386		it('should write a 8-bit stereo wav file', function() {
387		let channels = [
388		[0,1,2],
389		[0,1,2]
390		];
391		let samples = rw64.interleave(channels);
392		let wav = rw64.writeWavBytes(2, 44100, '8', samples);
393		let read = rw64.readWavBytes(wav);
394
395		assert.equal(read.subChunk1Size, 16);
396		assert.equal(read.audioFormat, 1);
397		assert.equal(read.numChannels, 2);
398		assert.equal(read.sampleRate, 44100);
399		assert.equal(read.blockAlign, 2);
400		assert.equal(read.bitsPerSample, 8);
401		});
402
403		it('should write a 16-bit stereo wav file', function() {
404		let channels = [
405		[0,1,2],
406		[0,1,2]
407		];
408		let samples = rw64.interleave(channels);
409		let wav = rw64.writeWavBytes(2, 44100, '16', samples);
410		let read = rw64.readWavBytes(wav);
411
412		assert.equal(read.subChunk1Size, 16);
413		assert.equal(read.audioFormat, 1);
414		assert.equal(read.numChannels, 2);
415		assert.equal(read.sampleRate, 44100);
416		assert.equal(read.blockAlign, 4);
417		assert.equal(read.bitsPerSample, 16);
418		});
419
420		it('should write a 24-bit stereo wav file', function() {
421		let channels = [
422		[0,1,2],
423		[0,1,2]
424		];
425		let samples = rw64.interleave(channels);
426		let wav = rw64.writeWavBytes(2, 44100, '24', samples);
427		let read = rw64.readWavBytes(wav);
428
429		assert.equal(read.subChunk1Size, 16);
430		assert.equal(read.audioFormat, 1);
431		assert.equal(read.numChannels, 2);
432		assert.equal(read.sampleRate, 44100);
433		assert.equal(read.blockAlign, 6);
434		assert.equal(read.bitsPerSample, 24);
435		});
436
437		it('should write a 24-bit stereo wav file', function() {
438		let channels = [
439		[0,1,2],
440		[0,1,2]
441		];
442		let samples = rw64.interleave(channels);
443		let wav = rw64.writeWavBytes(2, 44100, '24', samples);
444		let read = rw64.readWavBytes(wav);
445
446		assert.equal(read.subChunk1Size, 16);
447		assert.equal(read.audioFormat, 1);
448		assert.equal(read.numChannels, 2);
449		assert.equal(read.sampleRate, 44100);
450		assert.equal(read.blockAlign, 6);
451		assert.equal(read.bitsPerSample, 24);
452		});
453
454		it('should write a 32-bit PCM stereo wav file', function() {
455		let channels = [
456		[0,1,2],
457		[0,1,2]
458		];
459		let samples = rw64.interleave(channels);
460		let wav = rw64.writeWavBytes(2, 44100, '32', samples);
461		let read = rw64.readWavBytes(wav);
462
463		assert.equal(read.subChunk1Size, 16);
464		assert.equal(read.audioFormat, 1);
465		assert.equal(read.numChannels, 2);
466		assert.equal(read.sampleRate, 44100);
467		assert.equal(read.blockAlign, 8);
468		assert.equal(read.bitsPerSample, 32);
469		});
470
471		it('should write a 32-bit IEEE stereo wav file', function() {
472		let channels = [
473		[0,1,-1],
474		[0,1,-1]
475		];
476		let samples = rw64.interleave(channels);
477		let wav = rw64.writeWavBytes(2, 44100, '32f', samples);
478		let read = rw64.readWavBytes(wav);
479
480		assert.equal(read.subChunk1Size, 16);
481		assert.equal(read.audioFormat, 3);
482		assert.equal(read.numChannels, 2);
483		assert.equal(read.sampleRate, 44100);
484		assert.equal(read.blockAlign, 8);
485		assert.equal(read.bitsPerSample, 32);
486		});
487
488		it('should write a 64-bit stereo wav file', function() {
489		let channels = [
490		[0,1,-1],
491		[0,1,-1]
492		];
493		let samples = rw64.interleave(channels);
494		let wav = rw64.writeWavBytes(2, 44100, '64', samples);
495		let read = rw64.readWavBytes(wav);
496
497		assert.equal(read.subChunk1Size, 16);
498		assert.equal(read.audioFormat, 3);
499		assert.equal(read.numChannels, 2);
500		assert.equal(read.sampleRate, 44100);
501		assert.equal(read.blockAlign, 16);
502		assert.equal(read.bitsPerSample, 64);
503		});
504
505		it('should return a 64-bit wave file with non-negative 0',
506		function() {
507		let wav = rw64.writeWavBytes(1, 48000, '64', [0, 1, -1, -0, 1]);
508		let wavRead = rw64.readWavBytes(wav);
509		assert.equal(wavRead.audioFormat, 3);
510		assert.equal(wavRead.numChannels, 1);
511		assert.equal(wavRead.sampleRate, 48000);
512		assert.equal(wavRead.blockAlign, 8);
513		assert.equal(wavRead.bitsPerSample, 64);
514		assert.deepEqual(wavRead.samples, [0, 1, -1, 0, 1]);
515		});
516
517		it('should return a 32-bit PCM file with max possible sample value',
518		function() {
519		let wav = rw64.writeWavBytes(1, 16000, '32',
520		[-2147483648, 2147483647, -1, 1, 0]);
521		let wavRead = rw64.readWavBytes(wav);
522		assert.equal(wavRead.audioFormat, 1);
523		assert.equal(wavRead.numChannels, 1);
524		assert.equal(wavRead.sampleRate, 16000);
525		assert.equal(wavRead.blockAlign, 4);
526		assert.equal(wavRead.bitsPerSample, 32);
527		assert.deepEqual(wavRead.samples,
528		[-2147483648, 2147483647, -1, 1, 0]);
529		});
530		*/
531		});
532

rochars / wavefile

Branch — master (4064de)

e 32-bit IEEE wave file from scratchꞌ) B

Complexity

Size

Duplication

Importance

14 Functions

How to fix Long Method

Long Method

Duplication Side-by-Side

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