'use strict'; const zlib = require('zlib'); const pako = require('../index'); const { testSamples, loadSamples } = require('./helpers'); const assert = require('assert'); const fs = require('fs'); const path = require('path'); const samples = loadSamples(); describe('Deflate defaults', () => { it('deflate, no options', () => { testSamples(zlib.deflateSync, pako.deflate, samples, {}); }); it('deflate raw, no options', () => { testSamples(zlib.deflateRawSync, pako.deflateRaw, samples, {}); }); // OS code in header can vary. Use hack flag to ignore it. it('gzip, no options', () => { testSamples(zlib.gzipSync, pako.gzip, samples, { ignore_os: true }); }); }); describe('Deflate levels', () => { it('level 9', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { level: 9 }); }); it('level 8', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { level: 8 }); }); it('level 7', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { level: 7 }); }); it('level 6', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { level: 6 }); }); it('level 5', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { level: 5 }); }); it('level 4', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { level: 4 }); }); it('level 3', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { level: 3 }); }); it('level 2', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { level: 2 }); }); it('level 1', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { level: 1 }); }); it.skip('level 0', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { level: 0 }); }); it('level -1 (implicit default)', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { level: -1 }); }); }); describe('Deflate windowBits', () => { it('windowBits 15', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { windowBits: 15 }); }); it('windowBits 14', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { windowBits: 14 }); }); it('windowBits 13', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { windowBits: 13 }); }); it('windowBits 12', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { windowBits: 12 }); }); it('windowBits 11', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { windowBits: 11 }); }); it('windowBits 10', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { windowBits: 10 }); }); it('windowBits 9', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { windowBits: 9 }); }); it('windowBits 8', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { windowBits: 8 }); }); it('windowBits -15 (implicit raw)', () => { testSamples(zlib.deflateRawSync, pako.deflate, samples, { windowBits: -15 }); }); }); describe('Deflate memLevel', () => { it('memLevel 9', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { memLevel: 9 }); }); it('memLevel 8', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { memLevel: 8 }); }); it('memLevel 7', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { memLevel: 7 }); }); it('memLevel 6', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { memLevel: 6 }); }); it('memLevel 5', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { memLevel: 5 }); }); it('memLevel 4', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { memLevel: 4 }); }); it('memLevel 3', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { memLevel: 3 }); }); it('memLevel 2', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { memLevel: 2 }); }); it('memLevel 1', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { memLevel: 1 }); }); }); describe('Deflate strategy', () => { it('Z_DEFAULT_STRATEGY', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { strategy: 0 }); }); it('Z_FILTERED', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { strategy: 1 }); }); it('Z_HUFFMAN_ONLY', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { strategy: 2 }); }); it('Z_RLE', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { strategy: 3 }); }); it('Z_FIXED', () => { testSamples(zlib.deflateSync, pako.deflate, samples, { strategy: 4 }); }); }); describe('Deflate RAW', () => { // Since difference is only in rwapper, test for store/fast/slow methods are enough it('level 4', () => { testSamples(zlib.deflateRawSync, pako.deflateRaw, samples, { level: 4 }); }); it('level 1', () => { testSamples(zlib.deflateRawSync, pako.deflateRaw, samples, { level: 1 }); }); it.skip('level 0', () => { testSamples(zlib.deflateRawSync, pako.deflateRaw, samples, { level: 0 }); }); }); describe('Deflate dictionary', () => { it('trivial dictionary', () => { const dict = Buffer.from('abcdefghijklmnoprstuvwxyz'); testSamples(zlib.deflateSync, pako.deflate, samples, { dictionary: dict }); }); it('spdy dictionary', () => { const spdyDict = require('fs').readFileSync(require('path').join(__dirname, 'fixtures', 'spdy_dict.txt')); testSamples(zlib.deflateSync, pako.deflate, samples, { dictionary: spdyDict }); }); it('handles multiple pushes', () => { const dict = Buffer.from('abcd'); const deflate = new pako.Deflate({ dictionary: dict }); deflate.push(Buffer.from('hello'), false); deflate.push(Buffer.from('hello'), false); deflate.push(Buffer.from(' world'), true); if (deflate.err) { throw new Error(deflate.err); } const uncompressed = pako.inflate(Buffer.from(deflate.result), { dictionary: dict }); assert.deepStrictEqual( new Uint8Array(Buffer.from('hellohello world')), uncompressed ); }); }); describe('Deflate issues', () => { it('#78', () => { const data = fs.readFileSync(path.join(__dirname, 'fixtures', 'issue_78.bin')); const deflatedPakoData = pako.deflate(data, { memLevel: 1 }); const inflatedPakoData = pako.inflate(deflatedPakoData); assert.strictEqual(data.length, inflatedPakoData.length); }); });