'use strict'; var assert = require("assert"); // JavaScript is numerically challenged var SHIFT_LEFT_32 = (1 << 16) * (1 << 16); var SHIFT_RIGHT_32 = 1 / SHIFT_LEFT_32; // The maximum contiguous integer that can be held in a IEEE754 double var MAX_INT = 0x1fffffffffffff; function isContiguousInt(val) { return val <= MAX_INT && val >= -MAX_INT; } function assertContiguousInt(val) { assert(isContiguousInt(val), "number cannot be represented as a contiguous integer"); } module.exports.isContiguousInt = isContiguousInt; module.exports.assertContiguousInt = assertContiguousInt; // Fill in the regular procedures ['UInt', 'Int'].forEach(function (sign) { var suffix = sign + '8'; module.exports['read' + suffix] = Buffer.prototype['read' + suffix].call; module.exports['write' + suffix] = Buffer.prototype['write' + suffix].call; ['16', '32'].forEach(function (size) { ['LE', 'BE'].forEach(function (endian) { var suffix = sign + size + endian; var read = Buffer.prototype['read' + suffix]; module.exports['read' + suffix] = function (buf, offset, noAssert) { return read.call(buf, offset, noAssert); }; var write = Buffer.prototype['write' + suffix]; module.exports['write' + suffix] = function (buf, val, offset, noAssert) { return write.call(buf, val, offset, noAssert); }; }); }); }); // Check that a value is an integer within the given range function check_int(val, min, max) { assert.ok(typeof(val) == 'number' && val >= min && val <= max && Math.floor(val) === val, "not a number in the required range"); } function readUInt24BE(buf, offset, noAssert) { return buf.readUInt8(offset, noAssert) << 16 | buf.readUInt16BE(offset + 1, noAssert); } module.exports.readUInt24BE = readUInt24BE; function writeUInt24BE(buf, val, offset, noAssert) { if (!noAssert) { check_int(val, 0, 0xffffff); assert.ok(offset + 3 <= buf.length, "attempt to write beyond end of buffer"); } buf.writeUInt8(val >>> 16, offset, noAssert); buf.writeUInt16BE(val & 0xffff, offset + 1, noAssert); } module.exports.writeUInt24BE = writeUInt24BE; function readUInt40BE(buf, offset, noAssert) { return (buf.readUInt8(offset, noAssert) || 0) * SHIFT_LEFT_32 + buf.readUInt32BE(offset + 1, noAssert); } module.exports.readUInt40BE = readUInt40BE; function writeUInt40BE(buf, val, offset, noAssert) { if (!noAssert) { check_int(val, 0, 0xffffffffff); assert.ok(offset + 5 <= buf.length, "attempt to write beyond end of buffer"); } buf.writeUInt8(Math.floor(val * SHIFT_RIGHT_32), offset, noAssert); buf.writeInt32BE(val & -1, offset + 1, noAssert); } module.exports.writeUInt40BE = writeUInt40BE; function readUInt48BE(buf, offset, noAssert) { return buf.readUInt16BE(offset, noAssert) * SHIFT_LEFT_32 + buf.readUInt32BE(offset + 2, noAssert); } module.exports.readUInt48BE = readUInt48BE; function writeUInt48BE(buf, val, offset, noAssert) { if (!noAssert) { check_int(val, 0, 0xffffffffffff); assert.ok(offset + 6 <= buf.length, "attempt to write beyond end of buffer"); } buf.writeUInt16BE(Math.floor(val * SHIFT_RIGHT_32), offset, noAssert); buf.writeInt32BE(val & -1, offset + 2, noAssert); } module.exports.writeUInt48BE = writeUInt48BE; function readUInt56BE(buf, offset, noAssert) { return ((buf.readUInt8(offset, noAssert) || 0) << 16 | buf.readUInt16BE(offset + 1, noAssert)) * SHIFT_LEFT_32 + buf.readUInt32BE(offset + 3, noAssert); } module.exports.readUInt56BE = readUInt56BE; function writeUInt56BE(buf, val, offset, noAssert) { if (!noAssert) { check_int(val, 0, 0xffffffffffffff); assert.ok(offset + 7 <= buf.length, "attempt to write beyond end of buffer"); } if (val < 0x100000000000000) { var hi = Math.floor(val * SHIFT_RIGHT_32); buf.writeUInt8(hi >>> 16, offset, noAssert); buf.writeUInt16BE(hi & 0xffff, offset + 1, noAssert); buf.writeInt32BE(val & -1, offset + 3, noAssert); } else { // Special case because 2^56-1 gets rounded up to 2^56 buf[offset] = 0xff; buf[offset+1] = 0xff; buf[offset+2] = 0xff; buf[offset+3] = 0xff; buf[offset+4] = 0xff; buf[offset+5] = 0xff; buf[offset+6] = 0xff; } } module.exports.writeUInt56BE = writeUInt56BE; function readUInt64BE(buf, offset, noAssert) { return buf.readUInt32BE(offset, noAssert) * SHIFT_LEFT_32 + buf.readUInt32BE(offset + 4, noAssert); } module.exports.readUInt64BE = readUInt64BE; function writeUInt64BE(buf, val, offset, noAssert) { if (!noAssert) { check_int(val, 0, 0xffffffffffffffff); assert.ok(offset + 8 <= buf.length, "attempt to write beyond end of buffer"); } if (val < 0x10000000000000000) { buf.writeUInt32BE(Math.floor(val * SHIFT_RIGHT_32), offset, noAssert); buf.writeInt32BE(val & -1, offset + 4, noAssert); } else { // Special case because 2^64-1 gets rounded up to 2^64 buf[offset] = 0xff; buf[offset+1] = 0xff; buf[offset+2] = 0xff; buf[offset+3] = 0xff; buf[offset+4] = 0xff; buf[offset+5] = 0xff; buf[offset+6] = 0xff; buf[offset+7] = 0xff; } } module.exports.writeUInt64BE = writeUInt64BE; function readUInt24LE(buf, offset, noAssert) { return buf.readUInt8(offset + 2, noAssert) << 16 | buf.readUInt16LE(offset, noAssert); } module.exports.readUInt24LE = readUInt24LE; function writeUInt24LE(buf, val, offset, noAssert) { if (!noAssert) { check_int(val, 0, 0xffffff); assert.ok(offset + 3 <= buf.length, "attempt to write beyond end of buffer"); } buf.writeUInt16LE(val & 0xffff, offset, noAssert); buf.writeUInt8(val >>> 16, offset + 2, noAssert); } module.exports.writeUInt24LE = writeUInt24LE; function readUInt40LE(buf, offset, noAssert) { return (buf.readUInt8(offset + 4, noAssert) || 0) * SHIFT_LEFT_32 + buf.readUInt32LE(offset, noAssert); } module.exports.readUInt40LE = readUInt40LE; function writeUInt40LE(buf, val, offset, noAssert) { if (!noAssert) { check_int(val, 0, 0xffffffffff); assert.ok(offset + 5 <= buf.length, "attempt to write beyond end of buffer"); } buf.writeInt32LE(val & -1, offset, noAssert); buf.writeUInt8(Math.floor(val * SHIFT_RIGHT_32), offset + 4, noAssert); } module.exports.writeUInt40LE = writeUInt40LE; function readUInt48LE(buf, offset, noAssert) { return buf.readUInt16LE(offset + 4, noAssert) * SHIFT_LEFT_32 + buf.readUInt32LE(offset, noAssert); } module.exports.readUInt48LE = readUInt48LE; function writeUInt48LE(buf, val, offset, noAssert) { if (!noAssert) { check_int(val, 0, 0xffffffffffff); assert.ok(offset + 6 <= buf.length, "attempt to write beyond end of buffer"); } buf.writeInt32LE(val & -1, offset, noAssert); buf.writeUInt16LE(Math.floor(val * SHIFT_RIGHT_32), offset + 4, noAssert); } module.exports.writeUInt48LE = writeUInt48LE; function readUInt56LE(buf, offset, noAssert) { return ((buf.readUInt8(offset + 6, noAssert) || 0) << 16 | buf.readUInt16LE(offset + 4, noAssert)) * SHIFT_LEFT_32 + buf.readUInt32LE(offset, noAssert); } module.exports.readUInt56LE = readUInt56LE; function writeUInt56LE(buf, val, offset, noAssert) { if (!noAssert) { check_int(val, 0, 0xffffffffffffff); assert.ok(offset + 7 <= buf.length, "attempt to write beyond end of buffer"); } if (val < 0x100000000000000) { buf.writeInt32LE(val & -1, offset, noAssert); var hi = Math.floor(val * SHIFT_RIGHT_32); buf.writeUInt16LE(hi & 0xffff, offset + 4, noAssert); buf.writeUInt8(hi >>> 16, offset + 6, noAssert); } else { // Special case because 2^56-1 gets rounded up to 2^56 buf[offset] = 0xff; buf[offset+1] = 0xff; buf[offset+2] = 0xff; buf[offset+3] = 0xff; buf[offset+4] = 0xff; buf[offset+5] = 0xff; buf[offset+6] = 0xff; } } module.exports.writeUInt56LE = writeUInt56LE; function readUInt64LE(buf, offset, noAssert) { return buf.readUInt32LE(offset + 4, noAssert) * SHIFT_LEFT_32 + buf.readUInt32LE(offset, noAssert); } module.exports.readUInt64LE = readUInt64LE; function writeUInt64LE(buf, val, offset, noAssert) { if (!noAssert) { check_int(val, 0, 0xffffffffffffffff); assert.ok(offset + 8 <= buf.length, "attempt to write beyond end of buffer"); } if (val < 0x10000000000000000) { buf.writeInt32LE(val & -1, offset, noAssert); buf.writeUInt32LE(Math.floor(val * SHIFT_RIGHT_32), offset + 4, noAssert); } else { // Special case because 2^64-1 gets rounded up to 2^64 buf[offset] = 0xff; buf[offset+1] = 0xff; buf[offset+2] = 0xff; buf[offset+3] = 0xff; buf[offset+4] = 0xff; buf[offset+5] = 0xff; buf[offset+6] = 0xff; buf[offset+7] = 0xff; } } module.exports.writeUInt64LE = writeUInt64LE; function readInt24BE(buf, offset, noAssert) { return (buf.readInt8(offset, noAssert) << 16) + buf.readUInt16BE(offset + 1, noAssert); } module.exports.readInt24BE = readInt24BE; function writeInt24BE(buf, val, offset, noAssert) { if (!noAssert) { check_int(val, -0x800000, 0x7fffff); assert.ok(offset + 3 <= buf.length, "attempt to write beyond end of buffer"); } buf.writeInt8(val >> 16, offset, noAssert); buf.writeUInt16BE(val & 0xffff, offset + 1, noAssert); } module.exports.writeInt24BE = writeInt24BE; function readInt40BE(buf, offset, noAssert) { return (buf.readInt8(offset, noAssert) || 0) * SHIFT_LEFT_32 + buf.readUInt32BE(offset + 1, noAssert); } module.exports.readInt40BE = readInt40BE; function writeInt40BE(buf, val, offset, noAssert) { if (!noAssert) { check_int(val, -0x8000000000, 0x7fffffffff); assert.ok(offset + 5 <= buf.length, "attempt to write beyond end of buffer"); } buf.writeInt8(Math.floor(val * SHIFT_RIGHT_32), offset, noAssert); buf.writeInt32BE(val & -1, offset + 1, noAssert); } module.exports.writeInt40BE = writeInt40BE; function readInt48BE(buf, offset, noAssert) { return buf.readInt16BE(offset, noAssert) * SHIFT_LEFT_32 + buf.readUInt32BE(offset + 2, noAssert); } module.exports.readInt48BE = readInt48BE; function writeInt48BE(buf, val, offset, noAssert) { if (!noAssert) { check_int(val, -0x800000000000, 0x7fffffffffff); assert.ok(offset + 6 <= buf.length, "attempt to write beyond end of buffer"); } buf.writeInt16BE(Math.floor(val * SHIFT_RIGHT_32), offset, noAssert); buf.writeInt32BE(val & -1, offset + 2, noAssert); } module.exports.writeInt48BE = writeInt48BE; function readInt56BE(buf, offset, noAssert) { return (((buf.readInt8(offset, noAssert) || 0) << 16) + buf.readUInt16BE(offset + 1, noAssert)) * SHIFT_LEFT_32 + buf.readUInt32BE(offset + 3, noAssert); } module.exports.readInt56BE = readInt56BE; function writeInt56BE(buf, val, offset, noAssert) { if (!noAssert) { check_int(val, -0x800000000000000, 0x7fffffffffffff); assert.ok(offset + 7 <= buf.length, "attempt to write beyond end of buffer"); } if (val < 0x80000000000000) { var hi = Math.floor(val * SHIFT_RIGHT_32); buf.writeInt8(hi >> 16, offset, noAssert); buf.writeUInt16BE(hi & 0xffff, offset + 1, noAssert); buf.writeInt32BE(val & -1, offset + 3, noAssert); } else { // Special case because 2^55-1 gets rounded up to 2^55 buf[offset] = 0x7f; buf[offset+1] = 0xff; buf[offset+2] = 0xff; buf[offset+3] = 0xff; buf[offset+4] = 0xff; buf[offset+5] = 0xff; buf[offset+6] = 0xff; } } module.exports.writeInt56BE = writeInt56BE; function readInt64BE(buf, offset, noAssert) { return buf.readInt32BE(offset, noAssert) * SHIFT_LEFT_32 + buf.readUInt32BE(offset + 4, noAssert); } module.exports.readInt64BE = readInt64BE; function writeInt64BE(buf, val, offset, noAssert) { if (!noAssert) { check_int(val, -0x800000000000000000, 0x7fffffffffffffff); assert.ok(offset + 8 <= buf.length, "attempt to write beyond end of buffer"); } if (val < 0x8000000000000000) { buf.writeInt32BE(Math.floor(val * SHIFT_RIGHT_32), offset, noAssert); buf.writeInt32BE(val & -1, offset + 4, noAssert); } else { // Special case because 2^63-1 gets rounded up to 2^63 buf[offset] = 0x7f; buf[offset+1] = 0xff; buf[offset+2] = 0xff; buf[offset+3] = 0xff; buf[offset+4] = 0xff; buf[offset+5] = 0xff; buf[offset+6] = 0xff; buf[offset+7] = 0xff; } } module.exports.writeInt64BE = writeInt64BE; function readInt24LE(buf, offset, noAssert) { return (buf.readInt8(offset + 2, noAssert) << 16) + buf.readUInt16LE(offset, noAssert); } module.exports.readInt24LE = readInt24LE; function writeInt24LE(buf, val, offset, noAssert) { if (!noAssert) { check_int(val, -0x800000, 0x7fffff); assert.ok(offset + 3 <= buf.length, "attempt to write beyond end of buffer"); } buf.writeUInt16LE(val & 0xffff, offset, noAssert); buf.writeInt8(val >> 16, offset + 2, noAssert); } module.exports.writeInt24LE = writeInt24LE; function readInt40LE(buf, offset, noAssert) { return (buf.readInt8(offset + 4, noAssert) || 0) * SHIFT_LEFT_32 + buf.readUInt32LE(offset, noAssert); } module.exports.readInt40LE = readInt40LE; function writeInt40LE(buf, val, offset, noAssert) { if (!noAssert) { check_int(val, -0x8000000000, 0x7fffffffff); assert.ok(offset + 5 <= buf.length, "attempt to write beyond end of buffer"); } buf.writeInt32LE(val & -1, offset, noAssert); buf.writeInt8(Math.floor(val * SHIFT_RIGHT_32), offset + 4, noAssert); } module.exports.writeInt40LE = writeInt40LE; function readInt48LE(buf, offset, noAssert) { return buf.readInt16LE(offset + 4, noAssert) * SHIFT_LEFT_32 + buf.readUInt32LE(offset, noAssert); } module.exports.readInt48LE = readInt48LE; function writeInt48LE(buf, val, offset, noAssert) { if (!noAssert) { check_int(val, -0x800000000000, 0x7fffffffffff); assert.ok(offset + 6 <= buf.length, "attempt to write beyond end of buffer"); } buf.writeInt32LE(val & -1, offset, noAssert); buf.writeInt16LE(Math.floor(val * SHIFT_RIGHT_32), offset + 4, noAssert); } module.exports.writeInt48LE = writeInt48LE; function readInt56LE(buf, offset, noAssert) { return (((buf.readInt8(offset + 6, noAssert) || 0) << 16) + buf.readUInt16LE(offset + 4, noAssert)) * SHIFT_LEFT_32 + buf.readUInt32LE(offset, noAssert); } module.exports.readInt56LE = readInt56LE; function writeInt56LE(buf, val, offset, noAssert) { if (!noAssert) { check_int(val, -0x80000000000000, 0x7fffffffffffff); assert.ok(offset + 7 <= buf.length, "attempt to write beyond end of buffer"); } if (val < 0x80000000000000) { buf.writeInt32LE(val & -1, offset, noAssert); var hi = Math.floor(val * SHIFT_RIGHT_32); buf.writeUInt16LE(hi & 0xffff, offset + 4, noAssert); buf.writeInt8(hi >> 16, offset + 6, noAssert); } else { // Special case because 2^55-1 gets rounded up to 2^55 buf[offset] = 0xff; buf[offset+1] = 0xff; buf[offset+2] = 0xff; buf[offset+3] = 0xff; buf[offset+4] = 0xff; buf[offset+5] = 0xff; buf[offset+6] = 0x7f; } } module.exports.writeInt56LE = writeInt56LE; function readInt64LE(buf, offset, noAssert) { return buf.readInt32LE(offset + 4, noAssert) * SHIFT_LEFT_32 + buf.readUInt32LE(offset, noAssert); } module.exports.readInt64LE = readInt64LE; function writeInt64LE(buf, val, offset, noAssert) { if (!noAssert) { check_int(val, -0x8000000000000000, 0x7fffffffffffffff); assert.ok(offset + 8 <= buf.length, "attempt to write beyond end of buffer"); } if (val < 0x8000000000000000) { buf.writeInt32LE(val & -1, offset, noAssert); buf.writeInt32LE(Math.floor(val * SHIFT_RIGHT_32), offset + 4, noAssert); } else { // Special case because 2^55-1 gets rounded up to 2^55 buf[offset] = 0xff; buf[offset+1] = 0xff; buf[offset+2] = 0xff; buf[offset+3] = 0xff; buf[offset+4] = 0xff; buf[offset+5] = 0xff; buf[offset+6] = 0xff; buf[offset+7] = 0x7f; } } module.exports.writeInt64LE = writeInt64LE;