// Copyright 2013 the V8 project authors. All rights reserved. // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following // disclaimer in the documentation and/or other materials provided // with the distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived // from this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. "use strict"; // This file relies on the fact that the following declaration has been made // in runtime.js: // var $Array = global.Array; var $ArrayBuffer = global.ArrayBuffer; // --------------- Typed Arrays --------------------- macro TYPED_ARRAYS(FUNCTION) // arrayIds below should be synchronized with Runtime_TypedArrayInitialize. FUNCTION(1, Uint8Array, 1) FUNCTION(2, Int8Array, 1) FUNCTION(3, Uint16Array, 2) FUNCTION(4, Int16Array, 2) FUNCTION(5, Uint32Array, 4) FUNCTION(6, Int32Array, 4) FUNCTION(7, Float32Array, 4) FUNCTION(8, Float64Array, 8) FUNCTION(9, Uint8ClampedArray, 1) endmacro macro TYPED_ARRAY_CONSTRUCTOR(ARRAY_ID, NAME, ELEMENT_SIZE) function NAMEConstructByArrayBuffer(obj, buffer, byteOffset, length) { var bufferByteLength = buffer.byteLength; var offset; if (IS_UNDEFINED(byteOffset)) { offset = 0; } else { offset = ToPositiveInteger(byteOffset, "invalid_typed_array_length"); if (offset % ELEMENT_SIZE !== 0) { throw MakeRangeError("invalid_typed_array_alignment", ["start offset", "NAME", ELEMENT_SIZE]); } if (offset > bufferByteLength) { throw MakeRangeError("invalid_typed_array_offset"); } } var newByteLength; var newLength; if (IS_UNDEFINED(length)) { if (bufferByteLength % ELEMENT_SIZE !== 0) { throw MakeRangeError("invalid_typed_array_alignment", ["byte length", "NAME", ELEMENT_SIZE]); } newByteLength = bufferByteLength - offset; newLength = newByteLength / ELEMENT_SIZE; } else { var newLength = ToPositiveInteger(length, "invalid_typed_array_length"); newByteLength = newLength * ELEMENT_SIZE; } if ((offset + newByteLength > bufferByteLength) || (newLength > %MaxSmi())) { throw MakeRangeError("invalid_typed_array_length"); } %TypedArrayInitialize(obj, ARRAY_ID, buffer, offset, newByteLength); } function NAMEConstructByLength(obj, length) { var l = IS_UNDEFINED(length) ? 0 : ToPositiveInteger(length, "invalid_typed_array_length"); if (l > %MaxSmi()) { throw MakeRangeError("invalid_typed_array_length"); } var byteLength = l * ELEMENT_SIZE; var buffer = new $ArrayBuffer(byteLength); %TypedArrayInitialize(obj, ARRAY_ID, buffer, 0, byteLength); } function NAMEConstructByArrayLike(obj, arrayLike) { var length = arrayLike.length; var l = ToPositiveInteger(length, "invalid_typed_array_length"); if (l > %MaxSmi()) { throw MakeRangeError("invalid_typed_array_length"); } if(!%TypedArrayInitializeFromArrayLike(obj, ARRAY_ID, arrayLike, l)) { for (var i = 0; i < l; i++) { // It is crucial that we let any execptions from arrayLike[i] // propagate outside the function. obj[i] = arrayLike[i]; } } } function NAMEConstructor(arg1, arg2, arg3) { if (%_IsConstructCall()) { if (IS_ARRAYBUFFER(arg1)) { NAMEConstructByArrayBuffer(this, arg1, arg2, arg3); } else if (IS_NUMBER(arg1) || IS_STRING(arg1) || IS_BOOLEAN(arg1) || IS_UNDEFINED(arg1)) { NAMEConstructByLength(this, arg1); } else { NAMEConstructByArrayLike(this, arg1); } } else { throw MakeTypeError("constructor_not_function", ["NAME"]) } } endmacro TYPED_ARRAYS(TYPED_ARRAY_CONSTRUCTOR) function TypedArrayGetBuffer() { return %TypedArrayGetBuffer(this); } function TypedArrayGetByteLength() { return %TypedArrayGetByteLength(this); } function TypedArrayGetByteOffset() { return %TypedArrayGetByteOffset(this); } function TypedArrayGetLength() { return %TypedArrayGetLength(this); } function CreateSubArray(elementSize, constructor) { return function(begin, end) { var srcLength = %TypedArrayGetLength(this); var beginInt = TO_INTEGER(begin); if (beginInt < 0) { beginInt = MathMax(0, srcLength + beginInt); } else { beginInt = MathMin(srcLength, beginInt); } var endInt = IS_UNDEFINED(end) ? srcLength : TO_INTEGER(end); if (endInt < 0) { endInt = MathMax(0, srcLength + endInt); } else { endInt = MathMin(endInt, srcLength); } if (endInt < beginInt) { endInt = beginInt; } var newLength = endInt - beginInt; var beginByteOffset = %TypedArrayGetByteOffset(this) + beginInt * elementSize; return new constructor(%TypedArrayGetBuffer(this), beginByteOffset, newLength); } } function TypedArraySetFromArrayLike(target, source, sourceLength, offset) { if (offset > 0) { for (var i = 0; i < sourceLength; i++) { target[offset + i] = source[i]; } } else { for (var i = 0; i < sourceLength; i++) { target[i] = source[i]; } } } function TypedArraySetFromOverlappingTypedArray(target, source, offset) { var sourceElementSize = source.BYTES_PER_ELEMENT; var targetElementSize = target.BYTES_PER_ELEMENT; var sourceLength = source.length; // Copy left part. function CopyLeftPart() { // First un-mutated byte after the next write var targetPtr = target.byteOffset + (offset + 1) * targetElementSize; // Next read at sourcePtr. We do not care for memory changing before // sourcePtr - we have already copied it. var sourcePtr = source.byteOffset; for (var leftIndex = 0; leftIndex < sourceLength && targetPtr <= sourcePtr; leftIndex++) { target[offset + leftIndex] = source[leftIndex]; targetPtr += targetElementSize; sourcePtr += sourceElementSize; } return leftIndex; } var leftIndex = CopyLeftPart(); // Copy rigth part; function CopyRightPart() { // First unmutated byte before the next write var targetPtr = target.byteOffset + (offset + sourceLength - 1) * targetElementSize; // Next read before sourcePtr. We do not care for memory changing after // sourcePtr - we have already copied it. var sourcePtr = source.byteOffset + sourceLength * sourceElementSize; for(var rightIndex = sourceLength - 1; rightIndex >= leftIndex && targetPtr >= sourcePtr; rightIndex--) { target[offset + rightIndex] = source[rightIndex]; targetPtr -= targetElementSize; sourcePtr -= sourceElementSize; } return rightIndex; } var rightIndex = CopyRightPart(); var temp = new $Array(rightIndex + 1 - leftIndex); for (var i = leftIndex; i <= rightIndex; i++) { temp[i - leftIndex] = source[i]; } for (i = leftIndex; i <= rightIndex; i++) { target[offset + i] = temp[i - leftIndex]; } } function TypedArraySet(obj, offset) { var intOffset = IS_UNDEFINED(offset) ? 0 : TO_INTEGER(offset); if (intOffset < 0) { throw MakeTypeError("typed_array_set_negative_offset"); } if (intOffset > %MaxSmi()) { throw MakeRangeError("typed_array_set_source_too_large"); } switch (%TypedArraySetFastCases(this, obj, intOffset)) { // These numbers should be synchronized with runtime.cc. case 0: // TYPED_ARRAY_SET_TYPED_ARRAY_SAME_TYPE return; case 1: // TYPED_ARRAY_SET_TYPED_ARRAY_OVERLAPPING TypedArraySetFromOverlappingTypedArray(this, obj, intOffset); return; case 2: // TYPED_ARRAY_SET_TYPED_ARRAY_NONOVERLAPPING TypedArraySetFromArrayLike(this, obj, obj.length, intOffset); return; case 3: // TYPED_ARRAY_SET_NON_TYPED_ARRAY var l = obj.length; if (IS_UNDEFINED(l)) { if (IS_NUMBER(obj)) { // For number as a first argument, throw TypeError // instead of silently ignoring the call, so that // the user knows (s)he did something wrong. // (Consistent with Firefox and Blink/WebKit) throw MakeTypeError("invalid_argument"); } return; } if (intOffset + l > this.length) { throw MakeRangeError("typed_array_set_source_too_large"); } TypedArraySetFromArrayLike(this, obj, l, intOffset); return; } } // ------------------------------------------------------------------- function SetupTypedArray(constructor, fun, elementSize) { %CheckIsBootstrapping(); %SetCode(constructor, fun); %FunctionSetPrototype(constructor, new $Object()); %SetProperty(constructor, "BYTES_PER_ELEMENT", elementSize, READ_ONLY | DONT_ENUM | DONT_DELETE); %SetProperty(constructor.prototype, "constructor", constructor, DONT_ENUM); %SetProperty(constructor.prototype, "BYTES_PER_ELEMENT", elementSize, READ_ONLY | DONT_ENUM | DONT_DELETE); InstallGetter(constructor.prototype, "buffer", TypedArrayGetBuffer); InstallGetter(constructor.prototype, "byteOffset", TypedArrayGetByteOffset); InstallGetter(constructor.prototype, "byteLength", TypedArrayGetByteLength); InstallGetter(constructor.prototype, "length", TypedArrayGetLength); InstallFunctions(constructor.prototype, DONT_ENUM, $Array( "subarray", CreateSubArray(elementSize, constructor), "set", TypedArraySet )); } macro SETUP_TYPED_ARRAY(ARRAY_ID, NAME, ELEMENT_SIZE) SetupTypedArray (global.NAME, NAMEConstructor, ELEMENT_SIZE); endmacro TYPED_ARRAYS(SETUP_TYPED_ARRAY) // --------------------------- DataView ----------------------------- var $DataView = global.DataView; function DataViewConstructor(buffer, byteOffset, byteLength) { // length = 3 if (%_IsConstructCall()) { if (!IS_ARRAYBUFFER(buffer)) { throw MakeTypeError('data_view_not_array_buffer', []); } var bufferByteLength = buffer.byteLength; var offset = IS_UNDEFINED(byteOffset) ? 0 : ToPositiveInteger(byteOffset, 'invalid_data_view_offset'); if (offset > bufferByteLength) { throw MakeRangeError('invalid_data_view_offset'); } var length = IS_UNDEFINED(byteLength) ? bufferByteLength - offset : TO_INTEGER(byteLength); if (length < 0 || offset + length > bufferByteLength) { throw new MakeRangeError('invalid_data_view_length'); } %DataViewInitialize(this, buffer, offset, length); } else { throw MakeTypeError('constructor_not_function', ["DataView"]); } } function DataViewGetBuffer() { if (!IS_DATAVIEW(this)) { throw MakeTypeError('incompatible_method_receiver', ['DataView.buffer', this]); } return %DataViewGetBuffer(this); } function DataViewGetByteOffset() { if (!IS_DATAVIEW(this)) { throw MakeTypeError('incompatible_method_receiver', ['DataView.byteOffset', this]); } return %DataViewGetByteOffset(this); } function DataViewGetByteLength() { if (!IS_DATAVIEW(this)) { throw MakeTypeError('incompatible_method_receiver', ['DataView.byteLength', this]); } return %DataViewGetByteLength(this); } macro DATA_VIEW_TYPES(FUNCTION) FUNCTION(Int8) FUNCTION(Uint8) FUNCTION(Int16) FUNCTION(Uint16) FUNCTION(Int32) FUNCTION(Uint32) FUNCTION(Float32) FUNCTION(Float64) endmacro function ToPositiveDataViewOffset(offset) { return ToPositiveInteger(offset, 'invalid_data_view_accessor_offset'); } macro DATA_VIEW_GETTER_SETTER(TYPENAME) function DataViewGetTYPENAME(offset, little_endian) { if (!IS_DATAVIEW(this)) { throw MakeTypeError('incompatible_method_receiver', ['DataView.getTYPENAME', this]); } if (%_ArgumentsLength() < 1) { throw MakeTypeError('invalid_argument'); } return %DataViewGetTYPENAME(this, ToPositiveDataViewOffset(offset), !!little_endian); } function DataViewSetTYPENAME(offset, value, little_endian) { if (!IS_DATAVIEW(this)) { throw MakeTypeError('incompatible_method_receiver', ['DataView.setTYPENAME', this]); } if (%_ArgumentsLength() < 2) { throw MakeTypeError('invalid_argument'); } %DataViewSetTYPENAME(this, ToPositiveDataViewOffset(offset), TO_NUMBER_INLINE(value), !!little_endian); } endmacro DATA_VIEW_TYPES(DATA_VIEW_GETTER_SETTER) function SetupDataView() { %CheckIsBootstrapping(); // Setup the DataView constructor. %SetCode($DataView, DataViewConstructor); %FunctionSetPrototype($DataView, new $Object); // Set up constructor property on the DataView prototype. %SetProperty($DataView.prototype, "constructor", $DataView, DONT_ENUM); InstallGetter($DataView.prototype, "buffer", DataViewGetBuffer); InstallGetter($DataView.prototype, "byteOffset", DataViewGetByteOffset); InstallGetter($DataView.prototype, "byteLength", DataViewGetByteLength); InstallFunctions($DataView.prototype, DONT_ENUM, $Array( "getInt8", DataViewGetInt8, "setInt8", DataViewSetInt8, "getUint8", DataViewGetUint8, "setUint8", DataViewSetUint8, "getInt16", DataViewGetInt16, "setInt16", DataViewSetInt16, "getUint16", DataViewGetUint16, "setUint16", DataViewSetUint16, "getInt32", DataViewGetInt32, "setInt32", DataViewSetInt32, "getUint32", DataViewGetUint32, "setUint32", DataViewSetUint32, "getFloat32", DataViewGetFloat32, "setFloat32", DataViewSetFloat32, "getFloat64", DataViewGetFloat64, "setFloat64", DataViewSetFloat64 )); } SetupDataView();