import { uint8, uint16, uint16be, uint16le, uint24, uint24be, uint24le, uint32, uint32be, uint32le, int8, int16, int16be, int16le, int24, int24be, int24le, int32, int32be, int32le, float, floatbe, floatle, double, doublebe, doublele, fixed16, fixed16be, fixed16le, fixed32, fixed32be, fixed32le, DecodeStream, EncodeStream } from 'restructure'; import assert from 'assert'; describe('Number', function() { describe('uint8', function() { it('should decode', function() { const stream = new DecodeStream(new Uint8Array([0xab, 0xff])); assert.equal(uint8.decode(stream), 0xab); assert.equal(uint8.decode(stream), 0xff); }); it('should have a size', () => assert.equal(uint8.size(), 1)); it('should encode', function() { assert.deepEqual(uint8.toBuffer(0xab), new Uint8Array([0xab])); assert.deepEqual(uint8.toBuffer(0xff), new Uint8Array([0xff])); }); }); describe('uint16', () => it('is an alias for uint16be', () => assert.deepEqual(uint16, uint16be)) ); describe('uint16be', function() { it('should decode', function() { const stream = new DecodeStream(new Uint8Array([0xab, 0xff])); assert.equal(uint16be.decode(stream), 0xabff); }); it('should have a size', () => assert.equal(uint16be.size(), 2)); it('should encode', function() { assert.deepEqual(uint16be.toBuffer(0xabff), new Uint8Array([0xab, 0xff])); }); }); describe('uint16le', function() { it('should decode', function() { const stream = new DecodeStream(new Uint8Array([0xff, 0xab])); assert.equal(uint16le.decode(stream), 0xabff); }); it('should have a size', () => assert.equal(uint16le.size(), 2)); it('should encode', function() { assert.deepEqual(uint16le.toBuffer(0xabff), new Uint8Array([0xff, 0xab])); }); }); describe('uint24', () => it('is an alias for uint24be', () => assert.deepEqual(uint24, uint24be)) ); describe('uint24be', function() { it('should decode', function() { const stream = new DecodeStream(new Uint8Array([0xff, 0xab, 0x24])); assert.equal(uint24be.decode(stream), 0xffab24); }); it('should have a size', () => assert.equal(uint24be.size(), 3)); it('should encode', function() { assert.deepEqual(uint24be.toBuffer(0xffab24), new Uint8Array([0xff, 0xab, 0x24])); }); }); describe('uint24le', function() { it('should decode', function() { const stream = new DecodeStream(new Uint8Array([0x24, 0xab, 0xff])); assert.equal(uint24le.decode(stream), 0xffab24); }); it('should have a size', () => assert.equal(uint24le.size(), 3)); it('should encode', function() { assert.deepEqual(uint24le.toBuffer(0xffab24), new Uint8Array([0x24, 0xab, 0xff])); }); }); describe('uint32', () => it('is an alias for uint32be', () => assert.deepEqual(uint32, uint32be)) ); describe('uint32be', function() { it('should decode', function() { const stream = new DecodeStream(new Uint8Array([0xff, 0xab, 0x24, 0xbf])); assert.equal(uint32be.decode(stream), 0xffab24bf); }); it('should have a size', () => assert.equal(uint32be.size(), 4)); it('should encode', function() { assert.deepEqual(uint32be.toBuffer(0xffab24bf), new Uint8Array([0xff, 0xab, 0x24, 0xbf])); }); }); describe('uint32le', function() { it('should decode', function() { const stream = new DecodeStream(new Uint8Array([0xbf, 0x24, 0xab, 0xff])); assert.equal(uint32le.decode(stream), 0xffab24bf); }); it('should have a size', () => assert.equal(uint32le.size(), 4)); it('should encode', function() { assert.deepEqual(uint32le.toBuffer(0xffab24bf), new Uint8Array([0xbf, 0x24, 0xab, 0xff])); }); }); describe('int8', function() { it('should decode', function() { const stream = new DecodeStream(new Uint8Array([0x7f, 0xff])); assert.equal(int8.decode(stream), 127); assert.equal(int8.decode(stream), -1); }); it('should have a size', () => assert.equal(int8.size(), 1)); it('should encode', function() { assert.deepEqual(uint8.toBuffer(127), new Uint8Array([0x7f])); assert.deepEqual(uint8.toBuffer(-1), new Uint8Array([0xff])); }); }); describe('int16', () => it('is an alias for int16be', () => assert.deepEqual(int16, int16be)) ); describe('int16be', function() { it('should decode', function() { const stream = new DecodeStream(new Uint8Array([0xff, 0xab])); assert.equal(int16be.decode(stream), -85); }); it('should have a size', () => assert.equal(int16be.size(), 2)); it('should encode', function() { assert.deepEqual(int16be.toBuffer(-85), new Uint8Array([0xff, 0xab])); }); }); describe('int16le', function() { it('should decode', function() { const stream = new DecodeStream(new Uint8Array([0xab, 0xff])); assert.equal(int16le.decode(stream), -85); }); it('should have a size', () => assert.equal(int16le.size(), 2)); it('should encode', function() { assert.deepEqual(int16le.toBuffer(-85), new Uint8Array([0xab, 0xff])); }); }); describe('int24', () => it('is an alias for int24be', () => assert.deepEqual(int24, int24be)) ); describe('int24be', function() { it('should decode', function() { const stream = new DecodeStream(new Uint8Array([0xff, 0xab, 0x24])); assert.equal(int24be.decode(stream), -21724); }); it('should have a size', () => assert.equal(int24be.size(), 3)); it('should encode', function() { assert.deepEqual(int24be.toBuffer(-21724), new Uint8Array([0xff, 0xab, 0x24])); }); }); describe('int24le', function() { it('should decode', function() { const stream = new DecodeStream(new Uint8Array([0x24, 0xab, 0xff])); assert.equal(int24le.decode(stream), -21724); }); it('should have a size', () => assert.equal(int24le.size(), 3)); it('should encode', function() { assert.deepEqual(int24le.toBuffer(-21724), new Uint8Array([0x24, 0xab, 0xff])); }); }); describe('int32', () => it('is an alias for int32be', () => assert.deepEqual(int32, int32be)) ); describe('int32be', function() { it('should decode', function() { const stream = new DecodeStream(new Uint8Array([0xff, 0xab, 0x24, 0xbf])); assert.equal(int32be.decode(stream), -5561153); }); it('should have a size', () => assert.equal(int32be.size(), 4)); it('should encode', function() { assert.deepEqual(int32be.toBuffer(-5561153), new Uint8Array([0xff, 0xab, 0x24, 0xbf])); }); }); describe('int32le', function() { it('should decode', function() { const stream = new DecodeStream(new Uint8Array([0xbf, 0x24, 0xab, 0xff])); assert.equal(int32le.decode(stream), -5561153); }); it('should have a size', () => assert.equal(int32le.size(), 4)); it('should encode', function() { assert.deepEqual(int32le.toBuffer(-5561153), new Uint8Array([0xbf, 0x24, 0xab, 0xff])); }); }); describe('float', () => it('is an alias for floatbe', () => assert.deepEqual(float, floatbe)) ); describe('floatbe', function() { it('should decode', function() { const value = floatbe.fromBuffer(new Uint8Array([0x43, 0x7a, 0x8c, 0xcd])); assert(value >= 250.55 - 0.005); assert(value <= 250.55 + 0.005); }); it('should have a size', () => assert.equal(floatbe.size(), 4)); it('should encode', function() { assert.deepEqual(floatbe.toBuffer(250.55), new Uint8Array([0x43, 0x7a, 0x8c, 0xcd])); }); }); describe('floatle', function() { it('should decode', function() { const value = floatle.fromBuffer(new Uint8Array([0xcd, 0x8c, 0x7a, 0x43])); assert(value >= 250.55 - 0.005); assert(value <= 250.55 + 0.005); }); it('should have a size', () => assert.equal(floatle.size(), 4)); it('should encode', function() { assert.deepEqual(floatle.toBuffer(250.55), new Uint8Array([0xcd, 0x8c, 0x7a, 0x43])); }); }); describe('double', () => it('is an alias for doublebe', () => assert.deepEqual(double, doublebe)) ); describe('doublebe', function() { it('should decode', function() { const value = doublebe.fromBuffer(new Uint8Array([0x40, 0x93, 0x4a, 0x3d, 0x70, 0xa3, 0xd7, 0x0a])); assert(value >= 1234.56 - 0.005); assert(value <= 1234.56 + 0.005); }); it('should have a size', () => assert.equal(doublebe.size(), 8)); it('should encode', function() { assert.deepEqual(doublebe.toBuffer(1234.56), new Uint8Array([0x40, 0x93, 0x4a, 0x3d, 0x70, 0xa3, 0xd7, 0x0a])); }); }); describe('doublele', function() { it('should decode', function() { const value = doublele.fromBuffer(new Uint8Array([0x0a, 0xd7, 0xa3, 0x70, 0x3d, 0x4a, 0x93, 0x40])); assert(value >= 1234.56 - 0.005); assert(value <= 1234.56 + 0.005); }); it('should have a size', () => assert.equal(doublele.size(), 8)); it('should encode', function() { assert.deepEqual(doublele.toBuffer(1234.56), new Uint8Array([0x0a, 0xd7, 0xa3, 0x70, 0x3d, 0x4a, 0x93, 0x40])); }); }); describe('fixed16', () => it('is an alias for fixed16be', () => assert.deepEqual(fixed16, fixed16be)) ); describe('fixed16be', function() { it('should decode', function() { const value = fixed16be.fromBuffer(new Uint8Array([0x19, 0x57])); assert(value >= 25.34 - 0.005); assert(value <= 25.34 + 0.005); }); it('should have a size', () => assert.equal(fixed16be.size(), 2)); it('should encode', function() { assert.deepEqual(fixed16be.toBuffer(25.34), new Uint8Array([0x19, 0x57])); }); }); describe('fixed16le', function() { it('should decode', function() { const value = fixed16le.fromBuffer(new Uint8Array([0x57, 0x19])); assert(value >= 25.34 - 0.005); assert(value <= 25.34 + 0.005); }); it('should have a size', () => assert.equal(fixed16le.size(), 2)); it('should encode', function() { assert.deepEqual(fixed16le.toBuffer(25.34), new Uint8Array([0x57, 0x19])); }); }); describe('fixed32', () => it('is an alias for fixed32be', () => assert.deepEqual(fixed32, fixed32be)) ); describe('fixed32be', function() { it('should decode', function() { const value = fixed32be.fromBuffer(new Uint8Array([0x00, 0xfa, 0x8c, 0xcc])); assert(value >= 250.55 - 0.005); assert(value <= 250.55 + 0.005); }); it('should have a size', () => assert.equal(fixed32be.size(), 4)); it('should encode', function() { assert.deepEqual(fixed32be.toBuffer(250.55), new Uint8Array([0x00, 0xfa, 0x8c, 0xcc])); }); }); describe('fixed32le', function() { it('should decode', function() { const value = fixed32le.fromBuffer(new Uint8Array([0xcc, 0x8c, 0xfa, 0x00])); assert(value >= 250.55 - 0.005); assert(value <= 250.55 + 0.005); }); it('should have a size', () => assert.equal(fixed32le.size(), 4)); it('should encode', function() { assert.deepEqual(fixed32le.toBuffer(250.55), new Uint8Array([0xcc, 0x8c, 0xfa, 0x00])); }); }); });