var inflate = require('../'); var zlib = require('zlib'); var fs = require('fs'); var assert = require('assert'); var uncompressed = fs.readFileSync(__dirname + '/lorem.txt'); describe('tiny-inflate', function() { var compressed, noCompression, fixed; function deflate(buf, options, fn) { var chunks = []; zlib.createDeflateRaw(options) .on('data', function(chunk) { chunks.push(chunk); }) .on('error', fn) .on('end', function() { fn(null, Buffer.concat(chunks)); }) .end(buf); } before(function(done) { zlib.deflateRaw(uncompressed, function(err, data) { compressed = data; done(); }); }); before(function(done) { deflate(uncompressed, { level: zlib.Z_NO_COMPRESSION }, function(err, data) { noCompression = data; done(); }); }); before(function(done) { deflate(uncompressed, { strategy: zlib.Z_FIXED }, function(err, data) { fixed = data; done(); }); }); it('should inflate some data', function() { var out = Buffer.alloc(uncompressed.length); inflate(compressed, out); assert.deepEqual(out, uncompressed); }); it('should slice output buffer', function() { var out = Buffer.alloc(uncompressed.length + 1024); var res = inflate(compressed, out); assert.deepEqual(res, uncompressed); assert.equal(res.length, uncompressed.length); }); it('should handle uncompressed blocks', function() { var out = Buffer.alloc(uncompressed.length); inflate(noCompression, out); assert.deepEqual(out, uncompressed); }); it('should handle fixed huffman blocks', function() { var out = Buffer.alloc(uncompressed.length); inflate(fixed, out); assert.deepEqual(out, uncompressed); }); it('should handle typed arrays', function() { var input = new Uint8Array(compressed); var out = new Uint8Array(uncompressed.length); inflate(input, out); assert.deepEqual(out, new Uint8Array(uncompressed)); }); });