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/*
* Copyright (C) 2015 Apple Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. 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.
*
* THIS SOFTWARE IS PROVIDED BY APPLE INC. ``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 APPLE INC. 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.
*/
#ifndef WASMFunctionSyntaxChecker_h
#define WASMFunctionSyntaxChecker_h
#if ENABLE(WEBASSEMBLY)
#define UNUSED 0
namespace JSC {
class WASMFunctionSyntaxChecker {
public:
typedef int Expression;
typedef int Statement;
typedef int ExpressionList;
struct MemoryAddress {
MemoryAddress(void*) { }
MemoryAddress(int, uint32_t) { }
};
typedef int JumpTarget;
enum class JumpCondition { Zero, NonZero };
void startFunction(const Vector<WASMType>& arguments, uint32_t numberOfI32LocalVariables, uint32_t numberOfF32LocalVariables, uint32_t numberOfF64LocalVariables)
{
m_numberOfLocals = arguments.size() + numberOfI32LocalVariables + numberOfF32LocalVariables + numberOfF64LocalVariables;
}
void endFunction()
{
ASSERT(!m_tempStackTop);
}
int buildSetLocal(WASMOpKind opKind, uint32_t, int, WASMType)
{
if (opKind == WASMOpKind::Statement)
m_tempStackTop--;
return UNUSED;
}
int buildSetGlobal(WASMOpKind opKind, uint32_t, int, WASMType)
{
if (opKind == WASMOpKind::Statement)
m_tempStackTop--;
return UNUSED;
}
void buildReturn(int, WASMExpressionType returnType)
{
if (returnType != WASMExpressionType::Void)
m_tempStackTop--;
}
int buildImmediateI32(uint32_t)
{
m_tempStackTop++;
updateTempStackHeight();
return UNUSED;
}
int buildImmediateF32(float)
{
m_tempStackTop++;
updateTempStackHeight();
return UNUSED;
}
int buildImmediateF64(double)
{
m_tempStackTop++;
updateTempStackHeight();
return UNUSED;
}
int buildGetLocal(uint32_t, WASMType)
{
m_tempStackTop++;
updateTempStackHeight();
return UNUSED;
}
int buildGetGlobal(uint32_t, WASMType)
{
m_tempStackTop++;
updateTempStackHeight();
return UNUSED;
}
int buildConvertType(int, WASMExpressionType, WASMExpressionType, WASMTypeConversion)
{
return UNUSED;
}
int buildLoad(const MemoryAddress&, WASMExpressionType, WASMMemoryType, MemoryAccessConversion)
{
return UNUSED;
}
int buildStore(WASMOpKind opKind, const MemoryAddress&, WASMExpressionType, WASMMemoryType, int)
{
m_tempStackTop -= 2;
if (opKind == WASMOpKind::Expression)
m_tempStackTop++;
return UNUSED;
}
int buildUnaryI32(int, WASMOpExpressionI32)
{
return UNUSED;
}
int buildUnaryF32(int, WASMOpExpressionF32)
{
return UNUSED;
}
int buildUnaryF64(int, WASMOpExpressionF64)
{
return UNUSED;
}
int buildBinaryI32(int, int, WASMOpExpressionI32)
{
m_tempStackTop--;
return UNUSED;
}
int buildBinaryF32(int, int, WASMOpExpressionF32)
{
m_tempStackTop--;
return UNUSED;
}
int buildBinaryF64(int, int, WASMOpExpressionF64)
{
m_tempStackTop--;
return UNUSED;
}
int buildRelationalI32(int, int, WASMOpExpressionI32)
{
m_tempStackTop--;
return UNUSED;
}
int buildRelationalF32(int, int, WASMOpExpressionI32)
{
m_tempStackTop--;
return UNUSED;
}
int buildRelationalF64(int, int, WASMOpExpressionI32)
{
m_tempStackTop--;
return UNUSED;
}
int buildMinOrMaxI32(int, int, WASMOpExpressionI32)
{
m_tempStackTop--;
return UNUSED;
}
int buildMinOrMaxF64(int, int, WASMOpExpressionF64)
{
m_tempStackTop--;
return UNUSED;
}
int buildCallInternal(uint32_t, int, const WASMSignature& signature, WASMExpressionType returnType)
{
size_t argumentCount = signature.arguments.size();
updateTempStackHeightForCall(argumentCount);
m_tempStackTop -= argumentCount;
if (returnType != WASMExpressionType::Void) {
m_tempStackTop++;
updateTempStackHeight();
}
return UNUSED;
}
int buildCallImport(uint32_t, int, const WASMSignature& signature, WASMExpressionType returnType)
{
size_t argumentCount = signature.arguments.size();
updateTempStackHeightForCall(argumentCount);
m_tempStackTop -= argumentCount;
if (returnType != WASMExpressionType::Void) {
m_tempStackTop++;
updateTempStackHeight();
}
return UNUSED;
}
int buildCallIndirect(uint32_t, int, int, const WASMSignature& signature, WASMExpressionType returnType)
{
size_t argumentCount = signature.arguments.size();
updateTempStackHeightForCall(argumentCount);
m_tempStackTop -= argumentCount + 1;
if (returnType != WASMExpressionType::Void)
m_tempStackTop++;
return UNUSED;
}
void appendExpressionList(int&, int) { }
void discard(int)
{
m_tempStackTop--;
}
void linkTarget(const int&) { }
void jumpToTarget(const int&) { }
void jumpToTargetIf(JumpCondition, int, const int&)
{
m_tempStackTop--;
}
void startLoop() { }
void endLoop() { }
void startSwitch() { }
void endSwitch() { }
void startLabel() { }
void endLabel() { }
int breakTarget() { return UNUSED; }
int continueTarget() { return UNUSED; }
int breakLabelTarget(uint32_t) { return UNUSED; }
int continueLabelTarget(uint32_t) { return UNUSED; }
void buildSwitch(int, const Vector<int64_t>&, const Vector<int>&, const int&)
{
m_tempStackTop--;
}
unsigned stackHeight()
{
return m_numberOfLocals + m_tempStackHeight;
}
private:
void updateTempStackHeight()
{
if (m_tempStackTop > m_tempStackHeight)
m_tempStackHeight = m_tempStackTop;
}
void updateTempStackHeightForCall(size_t argumentCount)
{
// Boxed arguments + this argument + call frame header + maximum padding.
m_tempStackTop += argumentCount + 1 + JSStack::CallFrameHeaderSize + 1;
updateTempStackHeight();
m_tempStackTop -= argumentCount + 1 + JSStack::CallFrameHeaderSize + 1;
}
unsigned m_numberOfLocals;
unsigned m_tempStackTop { 0 };
unsigned m_tempStackHeight { 0 };
};
} // namespace JSC
#endif // ENABLE(WEBASSEMBLY)
#endif // WASMFunctionSyntaxChecker_h
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