/* * Copyright (C)2005-2018 Haxe Foundation * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. */ package haxe.io; #if (!hl && !js && !eval) #if cpp using cpp.NativeArray; #end #if !macro @:autoBuild(lime._internal.macros.AssetsMacro.embedBytes()) // Enable @:bytes embed metadata #end #if !lime_debug @:fileXml('tags="haxe,release"') @:noDebug #end class Bytes { public var length(default, null):Int; var b:BytesData; function new(length, b) { this.length = length; this.b = b; #if flash b.endian = flash.utils.Endian.LITTLE_ENDIAN; #end } public inline function get(pos:Int):Int { #if neko return untyped $sget(b, pos); #elseif flash return b[pos]; #elseif cpp return untyped b[pos]; #elseif java return untyped b[pos] & 0xFF; #elseif python return python.Syntax.arrayAccess(b, pos); #else return b[pos]; #end } public inline function set(pos:Int, v:Int):Void { #if neko untyped $sset(b, pos, v); #elseif flash b[pos] = v; #elseif cpp untyped b[pos] = v; #elseif java b[pos] = cast v; #elseif cs b[pos] = cast v; #elseif python python.Syntax.arraySet(b, pos, v & 0xFF); #else b[pos] = v & 0xFF; #end } public function blit(pos:Int, src:Bytes, srcpos:Int, len:Int):Void { #if !neko if (pos < 0 || srcpos < 0 || len < 0 || pos + len > length || srcpos + len > src.length) throw Error.OutsideBounds; #end #if neko try untyped $sblit(b, pos, src.b, srcpos, len) catch (e:Dynamic) throw Error.OutsideBounds; #elseif flash b.position = pos; if (len > 0) b.writeBytes(src.b, srcpos, len); #elseif java java.lang.System.arraycopy(src.b, srcpos, b, pos, len); #elseif cs cs.system.Array.Copy(src.b, srcpos, b, pos, len); #elseif python python.Syntax.code("self.b[{0}:{0}+{1}] = src.b[srcpos:srcpos+{1}]", pos, len); #elseif cpp b.blit(pos, src.b, srcpos, len); #else var b1 = b; var b2 = src.b; if (b1 == b2 && pos > srcpos) { var i = len; while (i > 0) { i--; b1[i + pos] = b2[i + srcpos]; } return; } for (i in 0...len) b1[i + pos] = b2[i + srcpos]; #end } public function fill(pos:Int, len:Int, value:Int) { #if flash var v4 = value & 0xFF; v4 |= v4 << 8; v4 |= v4 << 16; b.position = pos; for (i in 0...len >> 2) b.writeUnsignedInt(v4); pos += len & ~3; for (i in 0...len & 3) set(pos++, value); #elseif cpp untyped __global__.__hxcpp_memory_memset(b, pos, len, value); #else for (i in 0...len) set(pos++, value); #end } public function sub(pos:Int, len:Int):Bytes { #if !neko if (pos < 0 || len < 0 || pos + len > length) throw Error.OutsideBounds; #end #if neko return try new Bytes(len, untyped __dollar__ssub(b, pos, len)) catch (e:Dynamic) throw Error.OutsideBounds; #elseif flash b.position = pos; var b2 = new flash.utils.ByteArray(); b.readBytes(b2, 0, len); return new Bytes(len, b2); #elseif java var newarr = new java.NativeArray(len); java.lang.System.arraycopy(b, pos, newarr, 0, len); return new Bytes(len, newarr); #elseif cs var newarr = new cs.NativeArray(len); cs.system.Array.Copy(b, pos, newarr, 0, len); return new Bytes(len, newarr); #elseif python return new Bytes(len, python.Syntax.arrayAccess(b, pos, pos + len)); #else return new Bytes(len, b.slice(pos, pos + len)); #end } public function compare(other:Bytes):Int { #if neko return untyped __dollar__compare(b, other.b); #elseif flash var len = (length < other.length) ? length : other.length; var b1 = b; var b2 = other.b; b1.position = 0; b2.position = 0; b1.endian = flash.utils.Endian.BIG_ENDIAN; b2.endian = flash.utils.Endian.BIG_ENDIAN; for (i in 0...len >> 2) if (b1.readUnsignedInt() != b2.readUnsignedInt()) { b1.position -= 4; b2.position -= 4; var d = b1.readUnsignedInt() - b2.readUnsignedInt(); b1.endian = flash.utils.Endian.LITTLE_ENDIAN; b2.endian = flash.utils.Endian.LITTLE_ENDIAN; return d; } for (i in 0...len & 3) if (b1.readUnsignedByte() != b2.readUnsignedByte()) { b1.endian = flash.utils.Endian.LITTLE_ENDIAN; b2.endian = flash.utils.Endian.LITTLE_ENDIAN; return b1[b1.position - 1] - b2[b2.position - 1]; } b1.endian = flash.utils.Endian.LITTLE_ENDIAN; b2.endian = flash.utils.Endian.LITTLE_ENDIAN; return length - other.length; // #elseif cs // TODO: memcmp if unsafe flag is on #elseif cpp return b.memcmp(other.b); #else var b1 = b; var b2 = other.b; var len = (length < other.length) ? length : other.length; for (i in 0...len) if (b1[i] != b2[i]) return untyped b1[i] - untyped b2[i]; return length - other.length; #end } /** Returns the IEEE double precision value at given position (in low endian encoding). Result is unspecified if reading outside of the bounds **/ #if (neko_v21 || (cpp && !cppia) || flash) inline #end public function getDouble(pos:Int):Float { #if neko_v21 return untyped $sgetd(b, pos, false); #elseif flash b.position = pos; return b.readDouble(); #elseif cpp if (pos < 0 || pos + 8 > length) throw Error.OutsideBounds; return untyped __global__.__hxcpp_memory_get_double(b, pos); #else return FPHelper.i64ToDouble(getInt32(pos), getInt32(pos + 4)); #end } /** Returns the IEEE single precision value at given position (in low endian encoding). Result is unspecified if reading outside of the bounds **/ #if (neko_v21 || (cpp && !cppia) || flash) inline #end public function getFloat(pos:Int):Float { #if neko_v21 return untyped $sgetf(b, pos, false); #elseif flash b.position = pos; return b.readFloat(); #elseif cpp if (pos < 0 || pos + 4 > length) throw Error.OutsideBounds; return untyped __global__.__hxcpp_memory_get_float(b, pos); #else return FPHelper.i32ToFloat(getInt32(pos)); #end } /** Store the IEEE double precision value at given position in low endian encoding. Result is unspecified if writing outside of the bounds. **/ #if (neko_v21 || flash) inline #end public function setDouble(pos:Int, v:Float):Void { #if neko_v21 untyped $ssetd(b, pos, v, false); #elseif neko untyped $sblit(b, pos, FPHelper._double_bytes(v, false), 0, 8); #elseif flash b.position = pos; b.writeDouble(v); #elseif cpp if (pos < 0 || pos + 8 > length) throw Error.OutsideBounds; untyped __global__.__hxcpp_memory_set_double(b, pos, v); #else var i = FPHelper.doubleToI64(v); setInt32(pos, i.low); setInt32(pos + 4, i.high); #end } /** Store the IEEE single precision value at given position in low endian encoding. Result is unspecified if writing outside of the bounds. **/ #if (neko_v21 || flash) inline #end public function setFloat(pos:Int, v:Float):Void { #if neko_v21 untyped $ssetf(b, pos, v, false); #elseif neko untyped $sblit(b, pos, FPHelper._float_bytes(v, false), 0, 4); #elseif flash b.position = pos; b.writeFloat(v); #elseif cpp if (pos < 0 || pos + 4 > length) throw Error.OutsideBounds; untyped __global__.__hxcpp_memory_set_float(b, pos, v); #else setInt32(pos, FPHelper.floatToI32(v)); #end } /** Returns the 16 bit unsigned integer at given position (in low endian encoding). **/ public inline function getUInt16(pos:Int):Int { #if neko_v21 return untyped $sget16(b, pos, false); #else return get(pos) | (get(pos + 1) << 8); #end } /** Store the 16 bit unsigned integer at given position (in low endian encoding). **/ public inline function setUInt16(pos:Int, v:Int):Void { #if neko_v21 untyped $sset16(b, pos, v, false); #else set(pos, v); set(pos + 1, v >> 8); #end } /** Returns the 32 bit integer at given position (in low endian encoding). **/ public inline function getInt32(pos:Int):Int { #if neko_v21 return untyped $sget32(b, pos, false); #elseif python var v = get(pos) | (get(pos + 1) << 8) | (get(pos + 2) << 16) | (get(pos + 3) << 24); return if (v & 0x80000000 != 0) v | 0x80000000 else v; #elseif lua var v = get(pos) | (get(pos + 1) << 8) | (get(pos + 2) << 16) | (get(pos + 3) << 24); return lua.Boot.clamp(if (v & 0x80000000 != 0) v | 0x80000000 else v); #else return get(pos) | (get(pos + 1) << 8) | (get(pos + 2) << 16) | (get(pos + 3) << 24); #end } /** Returns the 64 bit integer at given position (in low endian encoding). **/ public inline function getInt64(pos:Int):haxe.Int64 { return haxe.Int64.make(getInt32(pos + 4), getInt32(pos)); } /** Store the 32 bit integer at given position (in low endian encoding). **/ public inline function setInt32(pos:Int, v:Int):Void { #if neko_v21 untyped $sset32(b, pos, v, false); #else set(pos, v & 0xFF); set(pos + 1, v >> 8 & 0xFF); set(pos + 2, v >> 16 & 0xFF); set(pos + 3, v >>> 24 & 0xFF); #end } /** Store the 64 bit integer at given position (in low endian encoding). **/ public inline function setInt64(pos:Int, v:haxe.Int64):Void { setInt32(pos, v.low); setInt32(pos + 4, v.high); } public function getString(pos:Int, len:Int, ?encoding:#if (haxe_ver >= 4) haxe.io.Encoding #else Dynamic #end):String { #if !neko if (pos < 0 || len < 0 || pos + len > length) throw Error.OutsideBounds; #end #if neko return try new String(untyped __dollar__ssub(b, pos, len)) catch (e:Dynamic) throw Error.OutsideBounds; #elseif flash b.position = pos; return b.readUTFBytes(len); #elseif cpp var result:String = ""; untyped __global__.__hxcpp_string_of_bytes(b, result, pos, len); return result; #elseif cs return cs.system.text.Encoding.UTF8.GetString(b, pos, len); #elseif java try return new String(b, pos, len, "UTF-8") catch (e:Dynamic) throw e; #elseif python return python.Syntax.code("self.b[{0}:{0}+{1}].decode('UTF-8','replace')", pos, len); #elseif lua var begin = cast(Math.min(pos, b.length), Int); var end = cast(Math.min(pos + len, b.length), Int); return [for (i in begin...end) String.fromCharCode(b[i])].join(""); #else var s = ""; var b = b; var fcc = String.fromCharCode; var i = pos; var max = pos + len; // utf8-decode and utf16-encode while (i < max) { var c = b[i++]; if (c < 0x80) { if (c == 0) break; s += fcc(c); } else if (c < 0xE0) s += fcc(((c & 0x3F) << 6) | (b[i++] & 0x7F)); else if (c < 0xF0) { var c2 = b[i++]; s += fcc(((c & 0x1F) << 12) | ((c2 & 0x7F) << 6) | (b[i++] & 0x7F)); } else { var c2 = b[i++]; var c3 = b[i++]; var u = ((c & 0x0F) << 18) | ((c2 & 0x7F) << 12) | ((c3 & 0x7F) << 6) | (b[i++] & 0x7F); // surrogate pair s += fcc((u >> 10) + 0xD7C0); s += fcc((u & 0x3FF) | 0xDC00); } } return s; #end } @:deprecated("readString is deprecated, use getString instead") @:noCompletion public inline function readString(pos:Int, len:Int):String { return getString(pos, len); } /** Returns string representation of the bytes as UTF8 **/ public function toString():String { #if neko return new String(untyped __dollar__ssub(b, 0, length)); #elseif flash b.position = 0; return b.toString(); #elseif cs return cs.system.text.Encoding.UTF8.GetString(b, 0, length); #elseif java try { return new String(b, 0, length, "UTF-8"); } catch (e:Dynamic) throw e; #else return getString(0, length); #end } public function toHex():String { var s = new StringBuf(); var chars = []; var str = "0123456789abcdef"; for (i in 0...str.length) chars.push(str.charCodeAt(i)); for (i in 0...length) { var c = get(i); s.addChar(chars[c >> 4]); s.addChar(chars[c & 15]); } return s.toString(); } public inline function getData():BytesData { return b; } public static function alloc(length:Int):Bytes { #if neko return new Bytes(length, untyped __dollar__smake(length)); #elseif flash var b = new flash.utils.ByteArray(); b.length = length; return new Bytes(length, b); #elseif cpp var a = new BytesData(); if (length > 0) cpp.NativeArray.setSize(a, length); return new Bytes(length, a); #elseif cs return new Bytes(length, new cs.NativeArray(length)); #elseif java return new Bytes(length, new java.NativeArray(length)); #elseif python return new Bytes(length, new python.Bytearray(length)); #else var a = new Array(); for (i in 0...length) a.push(0); return new Bytes(length, a); #end } /** Returns bytes representation of the given String, using specific encoding (UTF-8 by default) **/ @:pure public static function ofString(s:String, ?encoding:#if (haxe_ver >= 4) haxe.io.Encoding #else Dynamic #end):Bytes { #if neko return new Bytes(s.length, untyped __dollar__ssub(s.__s, 0, s.length)); #elseif flash var b = new flash.utils.ByteArray(); b.writeUTFBytes(s); return new Bytes(b.length, b); #elseif cpp var a = new BytesData(); untyped __global__.__hxcpp_bytes_of_string(a, s); return new Bytes(a.length, a); #elseif cs var b = cs.system.text.Encoding.UTF8.GetBytes(s); return new Bytes(b.Length, b); #elseif java try { var b:BytesData = untyped s.getBytes("UTF-8"); return new Bytes(b.length, b); } catch (e:Dynamic) throw e; #elseif python var b:BytesData = new python.Bytearray(s, "UTF-8"); return new Bytes(b.length, b); #elseif lua var bytes = [for (c in 0...s.length) StringTools.fastCodeAt(s, c)]; return new Bytes(bytes.length, bytes); #else var a = new Array(); // utf16-decode and utf8-encode var i = 0; while (i < s.length) { var c:Int = StringTools.fastCodeAt(s, i++); // surrogate pair if (0xD800 <= c && c <= 0xDBFF) c = (c - 0xD7C0 << 10) | (StringTools.fastCodeAt(s, i++) & 0x3FF); if (c <= 0x7F) a.push(c); else if (c <= 0x7FF) { a.push(0xC0 | (c >> 6)); a.push(0x80 | (c & 63)); } else if (c <= 0xFFFF) { a.push(0xE0 | (c >> 12)); a.push(0x80 | ((c >> 6) & 63)); a.push(0x80 | (c & 63)); } else { a.push(0xF0 | (c >> 18)); a.push(0x80 | ((c >> 12) & 63)); a.push(0x80 | ((c >> 6) & 63)); a.push(0x80 | (c & 63)); } } return new Bytes(a.length, a); #end } public static function ofData(b:BytesData) { #if flash return new Bytes(b.length, b); #elseif neko return new Bytes(untyped __dollar__ssize(b), b); #elseif cs return new Bytes(b.Length, b); #else return new Bytes(b.length, b); #end } /** Convert hexadecimal string to Bytes. Support only straight hex string ( Example: "0FDA14058916052309" ) **/ public static function ofHex(s:String):Bytes { var len:Int = s.length; if ((len & 1) != 0) throw "Not a hex string (odd number of digits)"; var ret:Bytes = Bytes.alloc(len >> 1); for (i in 0...ret.length) { var high = StringTools.fastCodeAt(s, i * 2); var low = StringTools.fastCodeAt(s, i * 2 + 1); high = (high & 0xF) + ((high & 0x40) >> 6) * 9; low = (low & 0xF) + ((low & 0x40) >> 6) * 9; ret.set(i, ((high << 4) | low) & 0xFF); } return ret; } /** Read the most efficiently possible the n-th byte of the data. Behavior when reading outside of the available data is unspecified. **/ public inline static function fastGet(b:BytesData, pos:Int):Int { #if neko return untyped __dollar__sget(b, pos); #elseif flash return b[pos]; #elseif cpp return untyped b.unsafeGet(pos); #elseif java return untyped b[pos] & 0xFF; #else return b[pos]; #end } } #elseif js #if !nodejs #if haxe4 import js.lib.Uint8Array; import js.lib.DataView; #else import js.html.compat.Uint8Array; import js.html.compat.DataView; import js.html.Uint8Array; import js.html.DataView; #end #end #if !macro @:autoBuild(lime._internal.macros.AssetsMacro.embedBytes()) // Enable @:bytes embed metadata #end class Bytes { #if lime_bytes_length_getter public var length(get, set):Int; var l:Int; #else public var length(default, null):Int; #end var b:Uint8Array; var data:DataView; function new(data:BytesData) { this.length = data.byteLength; this.b = new Uint8Array(data); untyped { b.bufferValue = data; // some impl does not return the same instance in .buffer data.hxBytes = this; data.bytes = this.b; } } public inline function get(pos:Int):Int { return b[pos]; } public inline function set(pos:Int, v:Int):Void { b[pos] = v & 0xFF; // the &0xFF is necessary for js.html.compat support } public function blit(pos:Int, src:Bytes, srcpos:Int, len:Int):Void { if (pos < 0 || srcpos < 0 || len < 0 || pos + len > length || srcpos + len > src.length) throw Error.OutsideBounds; if (srcpos == 0 && len == src.b.byteLength) b.set(src.b, pos); else b.set(src.b.subarray(srcpos, srcpos + len), pos); } public function fill(pos:Int, len:Int, value:Int):Void { for (i in 0...len) set(pos++, value); } public function sub(pos:Int, len:Int):Bytes { if (pos < 0 || len < 0 || pos + len > length) throw Error.OutsideBounds; return new Bytes(b.buffer.slice(pos + b.byteOffset, pos + b.byteOffset + len)); } public function compare(other:Bytes):Int { var b1 = b; var b2 = other.b; var len = (length < other.length) ? length : other.length; for (i in 0...len) if (b1[i] != b2[i]) return b1[i] - b2[i]; return length - other.length; } inline function initData():Void { if (data == null) data = new DataView(b.buffer, b.byteOffset, b.byteLength); } public function getDouble(pos:Int):Float { initData(); return data.getFloat64(pos, true); } public function getFloat(pos:Int):Float { initData(); return data.getFloat32(pos, true); } public function setDouble(pos:Int, v:Float):Void { initData(); data.setFloat64(pos, v, true); } public function setFloat(pos:Int, v:Float):Void { initData(); data.setFloat32(pos, v, true); } public function getUInt16(pos:Int):Int { initData(); return data.getUint16(pos, true); } public function setUInt16(pos:Int, v:Int):Void { initData(); data.setUint16(pos, v, true); } public function getInt32(pos:Int):Int { initData(); return data.getInt32(pos, true); } public function setInt32(pos:Int, v:Int):Void { initData(); data.setInt32(pos, v, true); } public function getInt64(pos:Int):haxe.Int64 { return Int64.make(getInt32(pos + 4), getInt32(pos)); } public function setInt64(pos:Int, v:haxe.Int64):Void { setInt32(pos, v.low); setInt32(pos + 4, v.high); } public function getString(pos:Int, len:Int, ?encoding:#if (haxe_ver >= 4) haxe.io.Encoding #else Dynamic #end):String { if (pos < 0 || len < 0 || pos + len > length) throw Error.OutsideBounds; var s = ""; var b = b; var fcc = String.fromCharCode; var i = pos; var max = pos + len; // utf8-decode and utf16-encode while (i < max) { var c = b[i++]; if (c < 0x80) { if (c == 0) break; s += fcc(c); } else if (c < 0xE0) s += fcc(((c & 0x3F) << 6) | (b[i++] & 0x7F)); else if (c < 0xF0) { var c2 = b[i++]; s += fcc(((c & 0x1F) << 12) | ((c2 & 0x7F) << 6) | (b[i++] & 0x7F)); } else { var c2 = b[i++]; var c3 = b[i++]; var u = ((c & 0x0F) << 18) | ((c2 & 0x7F) << 12) | ((c3 & 0x7F) << 6) | (b[i++] & 0x7F); // surrogate pair s += fcc((u >> 10) + 0xD7C0); s += fcc((u & 0x3FF) | 0xDC00); } } return s; } @:deprecated("readString is deprecated, use getString instead") @:noCompletion public inline function readString(pos:Int, len:Int):String { return getString(pos, len); } public function toString():String { return getString(0, length); } public function toHex():String { var s = new StringBuf(); var chars = []; var str = "0123456789abcdef"; for (i in 0...str.length) chars.push(str.charCodeAt(i)); for (i in 0...length) { var c = get(i); s.addChar(chars[c >> 4]); s.addChar(chars[c & 15]); } return s.toString(); } public inline function getData():BytesData { return untyped b.bufferValue; } public static inline function alloc(length:Int):Bytes { return new Bytes(new BytesData(length)); } public static function ofString(s:String, ?encoding:#if (haxe_ver >= 4) haxe.io.Encoding #else Dynamic #end):Bytes { var a = new Array(); // utf16-decode and utf8-encode var i = 0; while (i < s.length) { var c:Int = StringTools.fastCodeAt(s, i++); // surrogate pair if (0xD800 <= c && c <= 0xDBFF) c = (c - 0xD7C0 << 10) | (StringTools.fastCodeAt(s, i++) & 0x3FF); if (c <= 0x7F) a.push(c); else if (c <= 0x7FF) { a.push(0xC0 | (c >> 6)); a.push(0x80 | (c & 63)); } else if (c <= 0xFFFF) { a.push(0xE0 | (c >> 12)); a.push(0x80 | ((c >> 6) & 63)); a.push(0x80 | (c & 63)); } else { a.push(0xF0 | (c >> 18)); a.push(0x80 | ((c >> 12) & 63)); a.push(0x80 | ((c >> 6) & 63)); a.push(0x80 | (c & 63)); } } return new Bytes(new Uint8Array(a).buffer); } public static function ofData(b:BytesData):Bytes { var hb = untyped b.hxBytes; if (hb != null) return hb; return new Bytes(b); } public static function ofHex(s:String):Bytes { if ((s.length & 1) != 0) throw "Not a hex string (odd number of digits)"; var a = new Array(); var i = 0; var len = s.length >> 1; while (i < len) { var high = StringTools.fastCodeAt(s, i * 2); var low = StringTools.fastCodeAt(s, i * 2 + 1); high = (high & 0xF) + ((high & 0x40) >> 6) * 9; low = (low & 0xF) + ((low & 0x40) >> 6) * 9; a.push(((high << 4) | low) & 0xFF); i++; } return new Bytes(new Uint8Array(a).buffer); } public inline static function fastGet(b:BytesData, pos:Int):Int { // this requires that we have wrapped it with haxe.io.Bytes beforehand return untyped b.bytes[pos]; } #if lime_bytes_length_getter private function get_length():Int { return l; } private function set_length(v:Int):Int { return l = v; } #end } #elseif hl #if !macro @:autoBuild(lime._internal.macros.AssetsMacro.embedBytesHL()) // Enable @:bytes embed metadata #end @:coreApi class Bytes { public var length(default, null):Int; var b:hl.Bytes; function new(b:hl.Bytes, length:Int):Void { this.b = b; this.length = length; } inline function out(pos:Int):Bool { return (pos : UInt) >= (length : UInt); } inline function outRange(pos:Int, len:Int):Bool { return pos < 0 || len < 0 || ((pos + len):UInt) > (length : UInt); } public function get(pos:Int):Int { return if (out(pos)) 0 else b[pos]; } public function set(pos:Int, v:Int):Void { if (out(pos)) throw Error.OutsideBounds; b[pos] = v; } public function blit(pos:Int, src:Bytes, srcpos:Int, len:Int):Void { if (outRange(pos, len) || src.outRange(srcpos, len)) throw Error.OutsideBounds; b.blit(pos, src.b, srcpos, len); } public function fill(pos:Int, len:Int, value:Int):Void { if (outRange(pos, len)) throw Error.OutsideBounds; b.fill(pos, len, value); } public function sub(pos:Int, len:Int):Bytes { if (outRange(pos, len)) throw Error.OutsideBounds; return new Bytes(b.sub(pos, len), len); } public function compare(other:Bytes):Int { var len = length < other.length ? length : other.length; var r = b.compare(0, other.b, 0, len); if (r == 0) r = length - other.length; return r; } public function getDouble(pos:Int):Float { return if (out(pos + 7)) 0. else b.getF64(pos); } public function getFloat(pos:Int):Float { return if (out(pos + 3)) 0. else b.getF32(pos); } public function setDouble(pos:Int, v:Float):Void { if (out(pos + 7)) throw Error.OutsideBounds; b.setF64(pos, v); } public function setFloat(pos:Int, v:Float):Void { if (out(pos + 3)) throw Error.OutsideBounds; b.setF32(pos, v); } public inline function getUInt16(pos:Int):Int { return if (out(pos + 1)) 0 else b.getUI16(pos); } public inline function setUInt16(pos:Int, v:Int):Void { if (out(pos + 1)) throw Error.OutsideBounds; b.setUI16(pos, v); } public function getInt32(pos:Int):Int { return if (out(pos + 3)) 0 else b.getI32(pos); } public function getInt64(pos:Int):haxe.Int64 { if (out(pos + 7)) return haxe.Int64.ofInt(0); return haxe.Int64.make(b.getI32(pos + 4), b.getI32(pos)); } public function setInt32(pos:Int, v:Int):Void { if (out(pos + 3)) throw Error.OutsideBounds; b.setI32(pos, v); } public inline function setInt64(pos:Int, v:haxe.Int64):Void { setInt32(pos + 4, v.high); setInt32(pos, v.low); } public function getString(pos:Int, len:Int #if (!hl || haxe_ver >= 4), ?encoding:#if (haxe_ver >= 4) haxe.io.Encoding #else Dynamic #end #end):String { if (outRange(pos, len)) throw Error.OutsideBounds; var b = new hl.Bytes(len + 1); b.blit(0, this.b, pos, len); b[len] = 0; return @:privateAccess String.fromUTF8(b); } @:deprecated("readString is deprecated, use getString instead") @:noCompletion public inline function readString(pos:Int, len:Int):String { return getString(pos, len); } public function toString():String { return getString(0, length); } public function toHex():String { var s = new StringBuf(); var chars = []; var str = "0123456789abcdef"; for (i in 0...str.length) chars.push(str.charCodeAt(i)); for (i in 0...length) { var c = get(i); s.addChar(chars[c >> 4]); s.addChar(chars[c & 15]); } return s.toString(); } public inline function getData():BytesData { return new haxe.io.BytesData(b, length); } public static function alloc(length:Int):Bytes { var b = new hl.Bytes(length); b.fill(0, length, 0); return new Bytes(b, length); } public static function ofString(s:String #if (!hl || haxe_ver >= 4) , ?encoding:#if (haxe_ver >= 4) haxe.io.Encoding #else Dynamic #end #end):Bytes@:privateAccess { var size = 0; var b = s.bytes.utf16ToUtf8(0, size); return new Bytes(b, size); } public static function ofData(b:BytesData):Bytes { return new Bytes(b.bytes, b.length); } #if (!hl || haxe_ver >= 4) public static function ofHex(s:String):Bytes { var len = s.length; if ((len & 1) != 0) throw "Not a hex string (odd number of digits)"; var l = len >> 1; var b = new hl.Bytes(l); for (i in 0...l) { var high = s.charCodeAt(i * 2); var low = s.charCodeAt(i * 2 + 1); high = (high & 0xf) + ((high & 0x40) >> 6) * 9; low = (low & 0xf) + ((low & 0x40) >> 6) * 9; b.setUI8(i, ((high << 4) | low) & 0xff); } return new Bytes(b, l); } #end public inline static function fastGet(b:BytesData, pos:Int):Int { return b[pos]; } } #elseif eval extern class Bytes { function new(length:Int, b:BytesData):Void; public var length(default, null):Int; public function get(pos:Int):Int; public function set(pos:Int, v:Int):Void; public function blit(pos:Int, src:Bytes, srcpos:Int, len:Int):Void; public function fill(pos:Int, len:Int, value:Int):Void; public function sub(pos:Int, len:Int):Bytes; public function compare(other:Bytes):Int; public function getDouble(pos:Int):Float; public function getFloat(pos:Int):Float; public function setDouble(pos:Int, v:Float):Void; public function setFloat(pos:Int, v:Float):Void; public function getUInt16(pos:Int):Int; public function setUInt16(pos:Int, v:Int):Void; public function getInt32(pos:Int):Int; public function getInt64(pos:Int):haxe.Int64; public function setInt32(pos:Int, v:Int):Void; public function setInt64(pos:Int, v:haxe.Int64):Void; public function getString(pos:Int, len:Int, ?encoding:#if (haxe_ver >= 4) haxe.io.Encoding #else Dynamic #end):String; public function toString():String; public function toHex():String; public function getData():BytesData; public static function alloc(length:Int):Bytes; @:pure public static function ofString(s:String, ?encoding:#if (haxe_ver >= 4) haxe.io.Encoding #else Dynamic #end):Bytes; public static function ofData(b:BytesData):Bytes; public static function ofHex(s:String):Bytes; public static function fastGet(b:BytesData, pos:Int):Int; static function __init__():Void { haxe.io.Error; } } #end