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chromium/external/github.com/Microsoft/ChakraCore/builtins/./lib/Runtime/Library/SimdUint16x8Lib.cpp
blob: be3cfb38d4c8355670b0b27986176894445b6f8c [file]
//-------------------------------------------------------------------------------------------------------
// Copyright (C) Microsoft Corporation and contributors. All rights reserved.
// Licensed under the MIT license. See LICENSE.txt file in the project root for full license information.
//-------------------------------------------------------------------------------------------------------
#include "RuntimeLibraryPch.h"
namespace Js
{
Var SIMDUint16x8Lib::EntryUint16x8(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
Var undefinedVar = scriptContext->GetLibrary()->GetUndefined();
const uint LANES = 8;
uint16 values[LANES];
for (uint i = 0; i < LANES; i++)
{
values[i] = JavascriptConversion::ToUInt16(args.Info.Count >= (i + 2) ? args[i + 1] : undefinedVar, scriptContext);
}
SIMDValue lanes = SIMDUint16x8Operation::OpUint16x8(values);
return JavascriptSIMDUint16x8::New(&lanes, scriptContext);
}
Var SIMDUint16x8Lib::EntryCheck(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
if (args.Info.Count >= 2 && JavascriptSIMDUint16x8::Is(args[1]))
{
return args[1];
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("Uint16x8"));
}
Var SIMDUint16x8Lib::EntrySplat(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
Var undefinedVar = scriptContext->GetLibrary()->GetUndefined();
uint16 value = JavascriptConversion::ToUInt16(args.Info.Count >= 2 ? args[1] : undefinedVar, scriptContext);
SIMDValue lanes = SIMDInt16x8Operation::OpSplat(static_cast<int16>(value));;
return JavascriptSIMDUint16x8::New(&lanes, scriptContext);
}
Var SIMDUint16x8Lib::EntryFromFloat32x4Bits(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
if (args.Info.Count >= 2 && JavascriptSIMDFloat32x4::Is(args[1]))
{
JavascriptSIMDFloat32x4 *instance = JavascriptSIMDFloat32x4::FromVar(args[1]);
Assert(instance);
return SIMDUtils::SIMDConvertTypeFromBits<JavascriptSIMDFloat32x4, JavascriptSIMDUint16x8>(*instance, *scriptContext);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("fromFloat32x4Bits"));
}
Var SIMDUint16x8Lib::EntryFromInt32x4Bits(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
if (args.Info.Count >= 2 && JavascriptSIMDInt32x4::Is(args[1]))
{
JavascriptSIMDInt32x4 *instance = JavascriptSIMDInt32x4::FromVar(args[1]);
Assert(instance);
return SIMDUtils::SIMDConvertTypeFromBits<JavascriptSIMDInt32x4, JavascriptSIMDUint16x8>(*instance, *scriptContext);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("fromInt32x4Bits"));
}
Var SIMDUint16x8Lib::EntryFromInt16x8Bits(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
if (args.Info.Count >= 2 && JavascriptSIMDInt16x8::Is(args[1]))
{
JavascriptSIMDInt16x8 *instance = JavascriptSIMDInt16x8::FromVar(args[1]);
Assert(instance);
return SIMDUtils::SIMDConvertTypeFromBits<JavascriptSIMDInt16x8, JavascriptSIMDUint16x8>(*instance, *scriptContext);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("fromInt16x8Bits"));
}
Var SIMDUint16x8Lib::EntryFromInt8x16Bits(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
if (args.Info.Count >= 2 && JavascriptSIMDInt8x16::Is(args[1]))
{
JavascriptSIMDInt8x16 *instance = JavascriptSIMDInt8x16::FromVar(args[1]);
Assert(instance);
return SIMDUtils::SIMDConvertTypeFromBits<JavascriptSIMDInt8x16, JavascriptSIMDUint16x8>(*instance, *scriptContext);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("fromInt8x16Bits"));
}
Var SIMDUint16x8Lib::EntryFromUint32x4Bits(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
if (args.Info.Count >= 2 && JavascriptSIMDUint32x4::Is(args[1]))
{
JavascriptSIMDUint32x4 *instance = JavascriptSIMDUint32x4::FromVar(args[1]);
Assert(instance);
return SIMDUtils::SIMDConvertTypeFromBits<JavascriptSIMDUint32x4, JavascriptSIMDUint16x8>(*instance, *scriptContext);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("fromUint32x4Bits"));
}
Var SIMDUint16x8Lib::EntryFromUint8x16Bits(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
if (args.Info.Count >= 2 && JavascriptSIMDUint8x16::Is(args[1]))
{
JavascriptSIMDUint8x16 *instance = JavascriptSIMDUint8x16::FromVar(args[1]);
Assert(instance);
return SIMDUtils::SIMDConvertTypeFromBits<JavascriptSIMDUint8x16, JavascriptSIMDUint16x8>(*instance, *scriptContext);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("fromUint8x16Bits"));
}
Var SIMDUint16x8Lib::EntryMin(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
// If any of the args are missing, then it is Undefined type which causes TypeError exception.
if (args.Info.Count >= 3 && JavascriptSIMDUint16x8::Is(args[1]) && JavascriptSIMDUint16x8::Is(args[2]))
{
JavascriptSIMDUint16x8 *a = JavascriptSIMDUint16x8::FromVar(args[1]);
JavascriptSIMDUint16x8 *b = JavascriptSIMDUint16x8::FromVar(args[2]);
Assert(a && b);
SIMDValue result, aValue, bValue;
aValue = a->GetValue();
bValue = b->GetValue();
result = SIMDUint16x8Operation::OpMin(aValue, bValue);
return JavascriptSIMDUint16x8::New(&result, scriptContext);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("min"));
}
Var SIMDUint16x8Lib::EntryMax(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
// If any of the args are missing, then it is Undefined type which causes TypeError exception.
if (args.Info.Count >= 3 && JavascriptSIMDUint16x8::Is(args[1]) && JavascriptSIMDUint16x8::Is(args[2]))
{
JavascriptSIMDUint16x8 *a = JavascriptSIMDUint16x8::FromVar(args[1]);
JavascriptSIMDUint16x8 *b = JavascriptSIMDUint16x8::FromVar(args[2]);
Assert(a && b);
SIMDValue result, aValue, bValue;
aValue = a->GetValue();
bValue = b->GetValue();
result = SIMDUint16x8Operation::OpMax(aValue, bValue);
return JavascriptSIMDUint16x8::New(&result, scriptContext);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("max"));
}
Var SIMDUint16x8Lib::EntryLoad(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
Var tarray;
Var index;
if (args.Info.Count > 1)
{
tarray = args[1];
}
else
{
tarray = scriptContext->GetLibrary()->GetUndefined();
}
if (args.Info.Count > 2)
{
index = args[2];
}
else
{
index = scriptContext->GetLibrary()->GetUndefined();
}
return SIMDUtils::SIMD128TypedArrayLoad<JavascriptSIMDUint16x8>(tarray, index, 8 * INT16_SIZE, scriptContext);
}
Var SIMDUint16x8Lib::EntryStore(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
if (args.Info.Count >= 4 && JavascriptSIMDUint16x8::Is(args[3]))
{
SIMDUtils::SIMD128TypedArrayStore<JavascriptSIMDUint16x8>(args[1], args[2], args[3], 8 * INT16_SIZE, scriptContext);
return JavascriptSIMDUint16x8::FromVar(args[3]);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdInvalidArgType, _u("SIMD.Uint16x8.store"));
}
Var SIMDUint16x8Lib::EntryNeg(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
if (args.Info.Count >= 2 && JavascriptSIMDUint16x8::Is(args[1]))
{
JavascriptSIMDUint16x8 *a = JavascriptSIMDUint16x8::FromVar(args[1]);
Assert(a);
SIMDValue value, result;
value = a->GetValue();
result = SIMDInt16x8Operation::OpNeg(value);
return JavascriptSIMDUint16x8::New(&result, scriptContext);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("neg"));
}
Var SIMDUint16x8Lib::EntryNot(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
if (args.Info.Count >= 2 && JavascriptSIMDUint16x8::Is(args[1]))
{
JavascriptSIMDUint16x8 *a = JavascriptSIMDUint16x8::FromVar(args[1]);
Assert(a);
SIMDValue value, result;
value = a->GetValue();
result = SIMDInt32x4Operation::OpNot(value);
return JavascriptSIMDUint16x8::New(&result, scriptContext);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("not"));
}
Var SIMDUint16x8Lib::EntryAdd(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
// If any of the args are missing, then it is Undefined type which causes TypeError exception.
if (args.Info.Count >= 3 && JavascriptSIMDUint16x8::Is(args[1]) && JavascriptSIMDUint16x8::Is(args[2]))
{
JavascriptSIMDUint16x8 *a = JavascriptSIMDUint16x8::FromVar(args[1]);
JavascriptSIMDUint16x8 *b = JavascriptSIMDUint16x8::FromVar(args[2]);
Assert(a && b);
SIMDValue result, aValue, bValue;
aValue = a->GetValue();
bValue = b->GetValue();
result = SIMDInt16x8Operation::OpAdd(aValue, bValue);
return JavascriptSIMDUint16x8::New(&result, scriptContext);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("add"));
}
Var SIMDUint16x8Lib::EntrySub(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
// If any of the args are missing, then it is Undefined type which causes TypeError exception.
if (args.Info.Count >= 3 && JavascriptSIMDUint16x8::Is(args[1]) && JavascriptSIMDUint16x8::Is(args[2]))
{
JavascriptSIMDUint16x8 *a = JavascriptSIMDUint16x8::FromVar(args[1]);
JavascriptSIMDUint16x8 *b = JavascriptSIMDUint16x8::FromVar(args[2]);
Assert(a && b);
SIMDValue result, aValue, bValue;
aValue = a->GetValue();
bValue = b->GetValue();
result = SIMDInt16x8Operation::OpSub(aValue, bValue);
return JavascriptSIMDUint16x8::New(&result, scriptContext);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("sub"));
}
Var SIMDUint16x8Lib::EntryMul(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
// If any of the args are missing, then it is Undefined type which causes TypeError exception.
if (args.Info.Count >= 3 && JavascriptSIMDUint16x8::Is(args[1]) && JavascriptSIMDUint16x8::Is(args[2]))
{
JavascriptSIMDUint16x8 *a = JavascriptSIMDUint16x8::FromVar(args[1]);
JavascriptSIMDUint16x8 *b = JavascriptSIMDUint16x8::FromVar(args[2]);
Assert(a && b);
SIMDValue result, aValue, bValue;
aValue = a->GetValue();
bValue = b->GetValue();
result = SIMDInt16x8Operation::OpMul(aValue, bValue);
return JavascriptSIMDUint16x8::New(&result, scriptContext);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("mul"));
}
Var SIMDUint16x8Lib::EntryAnd(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
// If any of the args are missing, then it is Undefined type which causes TypeError exception.
if (args.Info.Count >= 3 && JavascriptSIMDUint16x8::Is(args[1]) && JavascriptSIMDUint16x8::Is(args[2]))
{
JavascriptSIMDUint16x8 *a = JavascriptSIMDUint16x8::FromVar(args[1]);
JavascriptSIMDUint16x8 *b = JavascriptSIMDUint16x8::FromVar(args[2]);
Assert(a && b);
SIMDValue result, aValue, bValue;
aValue = a->GetValue();
bValue = b->GetValue();
result = SIMDInt32x4Operation::OpAnd(aValue, bValue);
return JavascriptSIMDUint16x8::New(&result, scriptContext);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("and"));
}
Var SIMDUint16x8Lib::EntryOr(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
// If any of the args are missing, then it is Undefined type which causes TypeError exception.
if (args.Info.Count >= 3 && JavascriptSIMDUint16x8::Is(args[1]) && JavascriptSIMDUint16x8::Is(args[2]))
{
JavascriptSIMDUint16x8 *a = JavascriptSIMDUint16x8::FromVar(args[1]);
JavascriptSIMDUint16x8 *b = JavascriptSIMDUint16x8::FromVar(args[2]);
Assert(a && b);
SIMDValue result, aValue, bValue;
aValue = a->GetValue();
bValue = b->GetValue();
result = SIMDInt32x4Operation::OpOr(aValue, bValue);
return JavascriptSIMDUint16x8::New(&result, scriptContext);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("or"));
}
Var SIMDUint16x8Lib::EntryXor(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
// If any of the args are missing, then it is Undefined type which causes TypeError exception.
if (args.Info.Count >= 3 && JavascriptSIMDUint16x8::Is(args[1]) && JavascriptSIMDUint16x8::Is(args[2]))
{
JavascriptSIMDUint16x8 *a = JavascriptSIMDUint16x8::FromVar(args[1]);
JavascriptSIMDUint16x8 *b = JavascriptSIMDUint16x8::FromVar(args[2]);
Assert(a && b);
SIMDValue result, aValue, bValue;
aValue = a->GetValue();
bValue = b->GetValue();
result = SIMDInt32x4Operation::OpXor(aValue, bValue);
return JavascriptSIMDUint16x8::New(&result, scriptContext);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("xor"));
}
Var SIMDUint16x8Lib::EntryLessThan(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
// If any of the args are missing, then it is Undefined type which causes TypeError exception.
// strict type on both operands
if (args.Info.Count >= 3 && JavascriptSIMDUint16x8::Is(args[1]) && JavascriptSIMDUint16x8::Is(args[2]))
{
JavascriptSIMDUint16x8 *a = JavascriptSIMDUint16x8::FromVar(args[1]);
JavascriptSIMDUint16x8 *b = JavascriptSIMDUint16x8::FromVar(args[2]);
Assert(a && b);
SIMDValue result, aValue, bValue;
aValue = a->GetValue();
bValue = b->GetValue();
result = SIMDUint16x8Operation::OpLessThan(aValue, bValue);
return JavascriptSIMDBool16x8::New(&result, scriptContext);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("lessThan"));
}
Var SIMDUint16x8Lib::EntryLessThanOrEqual(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
// If any of the args are missing, then it is Undefined type which causes TypeError exception.
// strict type on both operands
if (args.Info.Count >= 3 && JavascriptSIMDUint16x8::Is(args[1]) && JavascriptSIMDUint16x8::Is(args[2]))
{
JavascriptSIMDUint16x8 *a = JavascriptSIMDUint16x8::FromVar(args[1]);
JavascriptSIMDUint16x8 *b = JavascriptSIMDUint16x8::FromVar(args[2]);
Assert(a && b);
SIMDValue result, aValue, bValue;
aValue = a->GetValue();
bValue = b->GetValue();
result = SIMDUint16x8Operation::OpLessThanOrEqual(aValue, bValue);
return JavascriptSIMDBool16x8::New(&result, scriptContext);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("lessThanOrEqual"));
}
Var SIMDUint16x8Lib::EntryEqual(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
// If any of the args are missing, then it is Undefined type which causes TypeError exception.
// strict type on both operands
if (args.Info.Count >= 3 && JavascriptSIMDUint16x8::Is(args[1]) && JavascriptSIMDUint16x8::Is(args[2]))
{
JavascriptSIMDUint16x8 *a = JavascriptSIMDUint16x8::FromVar(args[1]);
JavascriptSIMDUint16x8 *b = JavascriptSIMDUint16x8::FromVar(args[2]);
Assert(a && b);
SIMDValue result, aValue, bValue;
aValue = a->GetValue();
bValue = b->GetValue();
result = SIMDInt16x8Operation::OpEqual(aValue, bValue);
return JavascriptSIMDBool16x8::New(&result, scriptContext);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("equal"));
}
Var SIMDUint16x8Lib::EntryNotEqual(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
// If any of the args are missing, then it is Undefined type which causes TypeError exception.
// strict type on both operands
if (args.Info.Count >= 3 && JavascriptSIMDUint16x8::Is(args[1]) && JavascriptSIMDUint16x8::Is(args[2]))
{
JavascriptSIMDUint16x8 *a = JavascriptSIMDUint16x8::FromVar(args[1]);
JavascriptSIMDUint16x8 *b = JavascriptSIMDUint16x8::FromVar(args[2]);
Assert(a && b);
SIMDValue result, aValue, bValue;
aValue = a->GetValue();
bValue = b->GetValue();
result = SIMDInt16x8Operation::OpNotEqual(aValue, bValue);
return JavascriptSIMDBool16x8::New(&result, scriptContext);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("notEqual"));
}
Var SIMDUint16x8Lib::EntryGreaterThan(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
// If any of the args are missing, then it is Undefined type which causes TypeError exception.
// strict type on both operands
if (args.Info.Count >= 3 && JavascriptSIMDUint16x8::Is(args[1]) && JavascriptSIMDUint16x8::Is(args[2]))
{
JavascriptSIMDUint16x8 *a = JavascriptSIMDUint16x8::FromVar(args[1]);
JavascriptSIMDUint16x8 *b = JavascriptSIMDUint16x8::FromVar(args[2]);
Assert(a && b);
SIMDValue result, aValue, bValue;
aValue = a->GetValue();
bValue = b->GetValue();
result = SIMDUint16x8Operation::OpGreaterThan(aValue, bValue);
return JavascriptSIMDBool16x8::New(&result, scriptContext);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("greaterThan"));
}
Var SIMDUint16x8Lib::EntryGreaterThanOrEqual(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
// If any of the args are missing, then it is Undefined type which causes TypeError exception.
// strict type on both operands
if (args.Info.Count >= 3 && JavascriptSIMDUint16x8::Is(args[1]) && JavascriptSIMDUint16x8::Is(args[2]))
{
JavascriptSIMDUint16x8 *a = JavascriptSIMDUint16x8::FromVar(args[1]);
JavascriptSIMDUint16x8 *b = JavascriptSIMDUint16x8::FromVar(args[2]);
Assert(a && b);
SIMDValue result, aValue, bValue;
aValue = a->GetValue();
bValue = b->GetValue();
result = SIMDUint16x8Operation::OpGreaterThanOrEqual(aValue, bValue);
return JavascriptSIMDBool16x8::New(&result, scriptContext);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("greaterThanOrEqual"));
}
Var SIMDUint16x8Lib::EntryShiftLeftByScalar(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
if (args.Info.Count >= 3 && JavascriptSIMDUint16x8::Is(args[1]))
{
JavascriptSIMDUint16x8 *a = JavascriptSIMDUint16x8::FromVar(args[1]);
Assert(a);
SIMDValue result, aValue;
aValue = a->GetValue();
Var countVar = args[2]; // {int} bits Bit count
int8 count = JavascriptConversion::ToInt8(countVar, scriptContext);
result = SIMDInt16x8Operation::OpShiftLeftByScalar(aValue, count);
return JavascriptSIMDUint16x8::New(&result, scriptContext);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("shiftLeft"));
}
Var SIMDUint16x8Lib::EntryShiftRightByScalar(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
if (args.Info.Count >= 3 && JavascriptSIMDUint16x8::Is(args[1]))
{
JavascriptSIMDUint16x8 *a = JavascriptSIMDUint16x8::FromVar(args[1]);
Assert(a);
SIMDValue result, aValue;
aValue = a->GetValue();
Var countVar = args[2]; // {int} bits Bit count
int8 count = JavascriptConversion::ToInt8(countVar, scriptContext);
result = SIMDUint16x8Operation::OpShiftRightByScalar(aValue, count);
return JavascriptSIMDUint16x8::New(&result, scriptContext);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("shiftRightByScalar"));
}
Var SIMDUint16x8Lib::EntrySwizzle(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
if (args.Info.Count >= 2 && JavascriptSIMDUint16x8::Is(args[1]))
{
// type check on lane indices
if (args.Info.Count < 10)
{
// missing lane args
JavascriptError::ThrowTypeError(scriptContext, JSERR_NeedNumber, _u("Lane index"));
}
Var lanes[8];
for (uint i = 0; i < 8; ++i)
{
lanes[i] = args[i + 2];
}
return SIMDUtils::SIMD128SlowShuffle<JavascriptSIMDUint16x8>(args[1], args[1], lanes, 8, 8, scriptContext);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("swizzle"));
}
Var SIMDUint16x8Lib::EntryShuffle(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
// If any of the args are missing, then it is Undefined type which causes TypeError exception.
// strict type on both operands
if (args.Info.Count >= 3 && JavascriptSIMDUint16x8::Is(args[1]) && JavascriptSIMDUint16x8::Is(args[2]))
{
// type check on lane indices
if (args.Info.Count < 11)
{
// missing lane args
JavascriptError::ThrowTypeError(scriptContext, JSERR_NeedNumber, _u("Lane index"));
}
Var lanes[8];
for (uint i = 0; i < 8; ++i)
{
lanes[i] = args[i + 3];
}
return SIMDUtils::SIMD128SlowShuffle<JavascriptSIMDUint16x8>(args[1], args[2], lanes, 8, 16, scriptContext);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("shuffle"));
}
//Lane Access
Var SIMDUint16x8Lib::EntryExtractLane(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
// first arg has to be of type Uint16x8, so cannot be missing.
if (args.Info.Count >= 3 && JavascriptSIMDUint16x8::Is(args[1]))
{
// if value arg is missing, then it is undefined.
Var laneVar = args.Info.Count >= 3 ? args[2] : scriptContext->GetLibrary()->GetUndefined();
uint16 result = SIMDUtils::SIMD128ExtractLane<JavascriptSIMDUint16x8, 8, uint16>(args[1], laneVar, scriptContext);
return JavascriptNumber::ToVarNoCheck(result, scriptContext);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("ExtractLane"));
}
Var SIMDUint16x8Lib::EntryReplaceLane(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
// first arg has to be of type Uint16x8, so cannot be missing.
if (args.Info.Count >= 4 && JavascriptSIMDUint16x8::Is(args[1]))
{
// if value arg is missing, then it is undefined.
Var laneVar = args.Info.Count >= 4 ? args[2] : scriptContext->GetLibrary()->GetUndefined();
Var argVal = args.Info.Count >= 4 ? args[3] : scriptContext->GetLibrary()->GetUndefined();
uint16 value = JavascriptConversion::ToInt16(argVal, scriptContext);
SIMDValue result = SIMDUtils::SIMD128ReplaceLane<JavascriptSIMDUint16x8, 8, uint16>(args[1], laneVar, value, scriptContext);
return JavascriptSIMDUint16x8::New(&result, scriptContext);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("ReplaceLane"));
}
Var SIMDUint16x8Lib::EntryAddSaturate(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
// If any of the args are missing, then it is Undefined type which causes TypeError exception.
// strict type on both operands
if (args.Info.Count >= 3 && JavascriptSIMDUint16x8::Is(args[1]) && JavascriptSIMDUint16x8::Is(args[2]))
{
JavascriptSIMDUint16x8 *a = JavascriptSIMDUint16x8::FromVar(args[1]);
JavascriptSIMDUint16x8 *b = JavascriptSIMDUint16x8::FromVar(args[2]);
Assert(a && b);
SIMDValue result, aValue, bValue;
aValue = a->GetValue();
bValue = b->GetValue();
result = SIMDUint16x8Operation::OpAddSaturate(aValue, bValue);
return JavascriptSIMDUint16x8::New(&result, scriptContext);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("addSaturate"));
}
Var SIMDUint16x8Lib::EntrySubSaturate(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
// If any of the args are missing, then it is Undefined type which causes TypeError exception.
// strict type on both operands
if (args.Info.Count >= 3 && JavascriptSIMDUint16x8::Is(args[1]) && JavascriptSIMDUint16x8::Is(args[2]))
{
JavascriptSIMDUint16x8 *a = JavascriptSIMDUint16x8::FromVar(args[1]);
JavascriptSIMDUint16x8 *b = JavascriptSIMDUint16x8::FromVar(args[2]);
Assert(a && b);
SIMDValue result, aValue, bValue;
aValue = a->GetValue();
bValue = b->GetValue();
result = SIMDUint16x8Operation::OpSubSaturate(aValue, bValue);
return JavascriptSIMDUint16x8::New(&result, scriptContext);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("subSaturate"));
}
Var SIMDUint16x8Lib::EntrySelect(RecyclableObject* function, CallInfo callInfo, ...)
{
PROBE_STACK(function->GetScriptContext(), Js::Constants::MinStackDefault);
ARGUMENTS(args, callInfo);
ScriptContext* scriptContext = function->GetScriptContext();
AssertMsg(args.Info.Count > 0, "Should always have implicit 'this'");
Assert(!(callInfo.Flags & CallFlags_New));
if (args.Info.Count >= 4 && JavascriptSIMDBool16x8::Is(args[1]) &&
JavascriptSIMDUint16x8::Is(args[2]) && JavascriptSIMDUint16x8::Is(args[3]))
{
JavascriptSIMDBool16x8 *m = JavascriptSIMDBool16x8::FromVar(args[1]);
JavascriptSIMDUint16x8 *t = JavascriptSIMDUint16x8::FromVar(args[2]);
JavascriptSIMDUint16x8 *f = JavascriptSIMDUint16x8::FromVar(args[3]);
Assert(m && t && f);
SIMDValue result, maskValue, trueValue, falseValue;
maskValue = m->GetValue();
trueValue = t->GetValue();
falseValue = f->GetValue();
result = SIMDInt32x4Operation::OpSelect(maskValue, trueValue, falseValue);
return JavascriptSIMDUint16x8::New(&result, scriptContext);
}
JavascriptError::ThrowTypeError(scriptContext, JSERR_SimdUint16x8TypeMismatch, _u("select"));
}
}