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webkit / WebKit / 44b42e43df7b445ca396546f504feb2128538221 / . / Source / JavaScriptCore / b3 / testb3_2.cpp
blob: 7cb34c8a0b7713b565165d69f2e7a664a04c9967 [file] [log] [blame]
/*
* Copyright (C) 2015-2019 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.
*/
#include "config.h"
#include "testb3.h"
#if ENABLE(B3_JIT)
void test42()
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* const42 = root->appendNew<Const32Value>(proc, Origin(), 42);
root->appendNewControlValue(proc, Return, Origin(), const42);
CHECK(compileAndRun<int>(proc) == 42);
}
void testLoad42()
{
Procedure proc;
BasicBlock* root = proc.addBlock();
int x = 42;
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<MemoryValue>(
proc, Load, Int32, Origin(),
root->appendNew<ConstPtrValue>(proc, Origin(), &x)));
CHECK(compileAndRun<int>(proc) == 42);
}
void testLoadAcq42()
{
Procedure proc;
BasicBlock* root = proc.addBlock();
int x = 42;
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<MemoryValue>(
proc, Load, Int32, Origin(),
root->appendNew<ConstPtrValue>(proc, Origin(), &x),
0, HeapRange(42), HeapRange(42)));
auto code = compileProc(proc);
if (isARM64())
checkUsesInstruction(*code, "lda");
CHECK(invoke<int>(*code) == 42);
}
void testLoadWithOffsetImpl(int32_t offset64, int32_t offset32)
{
{
Procedure proc;
BasicBlock* root = proc.addBlock();
int64_t x = -42;
Value* base = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<MemoryValue>(
proc, Load, Int64, Origin(),
base,
offset64));
char* address = reinterpret_cast<char*>(&x) - offset64;
CHECK(compileAndRun<int64_t>(proc, address) == -42);
}
{
Procedure proc;
BasicBlock* root = proc.addBlock();
int32_t x = -42;
Value* base = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<MemoryValue>(
proc, Load, Int32, Origin(),
base,
offset32));
char* address = reinterpret_cast<char*>(&x) - offset32;
CHECK(compileAndRun<int32_t>(proc, address) == -42);
}
}
void testLoadOffsetImm9Max()
{
testLoadWithOffsetImpl(255, 255);
}
void testLoadOffsetImm9MaxPlusOne()
{
testLoadWithOffsetImpl(256, 256);
}
void testLoadOffsetImm9MaxPlusTwo()
{
testLoadWithOffsetImpl(257, 257);
}
void testLoadOffsetImm9Min()
{
testLoadWithOffsetImpl(-256, -256);
}
void testLoadOffsetImm9MinMinusOne()
{
testLoadWithOffsetImpl(-257, -257);
}
void testLoadOffsetScaledUnsignedImm12Max()
{
testLoadWithOffsetImpl(32760, 16380);
}
void testLoadOffsetScaledUnsignedOverImm12Max()
{
testLoadWithOffsetImpl(32760, 32760);
testLoadWithOffsetImpl(32761, 16381);
testLoadWithOffsetImpl(32768, 16384);
}
static void testBitXorTreeArgs(int64_t a, int64_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argA = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
Value* argB = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1);
Value* node = root->appendNew<Value>(proc, BitXor, Origin(), argA, argB);
node = root->appendNew<Value>(proc, BitXor, Origin(), node, argB);
node = root->appendNew<Value>(proc, BitXor, Origin(), node, argA);
node = root->appendNew<Value>(proc, BitXor, Origin(), node, argB);
root->appendNew<Value>(proc, Return, Origin(), node);
CHECK_EQ(compileAndRun<int64_t>(proc, a, b), (((a ^ b) ^ b) ^ a) ^ b);
}
static void testBitXorTreeArgsEven(int64_t a, int64_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argA = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
Value* argB = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1);
Value* node = root->appendNew<Value>(proc, BitXor, Origin(), argA, argB);
node = root->appendNew<Value>(proc, BitXor, Origin(), node, argB);
node = root->appendNew<Value>(proc, BitXor, Origin(), node, argA);
root->appendNew<Value>(proc, Return, Origin(), node);
CHECK_EQ(compileAndRun<int64_t>(proc, a, b), ((a ^ b) ^ b) ^ a);
}
static void testBitXorTreeArgImm(int64_t a, int64_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argA = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
Value* immB = root->appendNew<Const64Value>(proc, Origin(), b);
Value* node = root->appendNew<Value>(proc, BitXor, Origin(), argA, immB);
node = root->appendNew<Value>(proc, BitXor, Origin(), argA, node);
node = root->appendNew<Value>(proc, BitXor, Origin(), argA, node);
node = root->appendNew<Value>(proc, BitXor, Origin(), immB, node);
root->appendNew<Value>(proc, Return, Origin(), node);
CHECK_EQ(compileAndRun<int64_t>(proc, a), b ^ (a ^ (a ^ (a ^ b))));
}
void testAddTreeArg32(int32_t a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argA = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
argA = root->appendNew<Value>(proc, Trunc, Origin(), argA);
Value* node = argA;
int32_t expectedResult = a;
for (unsigned i = 0; i < 20; ++i) {
Value* otherNode;
if (!(i % 3)) {
otherNode = root->appendNew<Const32Value>(proc, Origin(), i);
expectedResult += i;
} else {
otherNode = argA;
expectedResult += a;
}
node = root->appendNew<Value>(proc, Add, Origin(), node, otherNode);
}
root->appendNew<Value>(proc, Return, Origin(), node);
CHECK_EQ(compileAndRun<int32_t>(proc, a), expectedResult);
}
void testMulTreeArg32(int32_t a)
{
// Fibonacci-like expression tree with multiplication instead of addition.
// Verifies that we don't explode on heavily factored graphs.
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argA = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
argA = root->appendNew<Value>(proc, Trunc, Origin(), argA);
Value* nodeA = argA;
Value* nodeB = argA;
int32_t expectedA = a, expectedResult = a;
for (unsigned i = 0; i < 20; ++i) {
Value* newNodeB = root->appendNew<Value>(proc, Mul, Origin(), nodeA, nodeB);
nodeA = nodeB;
nodeB = newNodeB;
int32_t newExpectedResult = expectedA * expectedResult;
expectedA = expectedResult;
expectedResult = newExpectedResult;
}
root->appendNew<Value>(proc, Return, Origin(), nodeB);
CHECK_EQ(compileAndRun<int32_t>(proc, a), expectedResult);
}
static void testBitAndTreeArg32(int32_t a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argA = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
argA = root->appendNew<Value>(proc, Trunc, Origin(), argA);
Value* node = argA;
for (unsigned i = 0; i < 8; ++i) {
Value* constI = root->appendNew<Const32Value>(proc, Origin(), i | 42);
Value* newBitAnd = root->appendNew<Value>(proc, BitAnd, Origin(), argA, constI);
node = root->appendNew<Value>(proc, BitAnd, Origin(), node, newBitAnd);
}
root->appendNew<Value>(proc, Return, Origin(), node);
CHECK_EQ(compileAndRun<int32_t>(proc, a), a & 42);
}
static void testBitOrTreeArg32(int32_t a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argA = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
argA = root->appendNew<Value>(proc, Trunc, Origin(), argA);
Value* node = argA;
for (unsigned i = 0; i < 8; ++i) {
Value* constI = root->appendNew<Const32Value>(proc, Origin(), i);
Value* newBitAnd = root->appendNew<Value>(proc, BitOr, Origin(), argA, constI);
node = root->appendNew<Value>(proc, BitOr, Origin(), node, newBitAnd);
}
root->appendNew<Value>(proc, Return, Origin(), node);
CHECK_EQ(compileAndRun<int32_t>(proc, a), a | 7);
}
void testArg(int argument)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
CHECK(compileAndRun<int>(proc, argument) == argument);
}
void testReturnConst64(int64_t value)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Const64Value>(proc, Origin(), value));
CHECK(compileAndRun<int64_t>(proc) == value);
}
void testReturnVoid()
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(proc, Return, Origin());
compileAndRun<void>(proc);
}
void testAddArg(int a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* value = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Add, Origin(), value, value));
CHECK(compileAndRun<int>(proc, a) == a + a);
}
void testAddArgs(int a, int b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, Add, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1)));
CHECK(compileAndRun<int>(proc, a, b) == a + b);
}
void testAddArgImm(int a, int b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, Add, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0),
root->appendNew<Const64Value>(proc, Origin(), b)));
CHECK(compileAndRun<int>(proc, a) == a + b);
}
void testAddImmArg(int a, int b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, Add, Origin(),
root->appendNew<Const64Value>(proc, Origin(), a),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0)));
CHECK(compileAndRun<int>(proc, b) == a + b);
}
void testAddArgMem(int64_t a, int64_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* address = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1);
MemoryValue* load = root->appendNew<MemoryValue>(proc, Load, Int64, Origin(), address);
Value* result = root->appendNew<Value>(proc, Add, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0),
load);
root->appendNew<MemoryValue>(proc, Store, Origin(), result, address);
root->appendNewControlValue(proc, Return, Origin(), root->appendNew<Const32Value>(proc, Origin(), 0));
int64_t inputOutput = b;
CHECK(!compileAndRun<int64_t>(proc, a, &inputOutput));
CHECK(inputOutput == a + b);
}
void testAddMemArg(int64_t a, int64_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* address = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
MemoryValue* load = root->appendNew<MemoryValue>(proc, Load, Int64, Origin(), address);
Value* result = root->appendNew<Value>(proc, Add, Origin(),
load,
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1));
root->appendNewControlValue(proc, Return, Origin(), result);
CHECK(compileAndRun<int64_t>(proc, &a, b) == a + b);
}
void testAddImmMem(int64_t a, int64_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* address = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
MemoryValue* load = root->appendNew<MemoryValue>(proc, Load, Int64, Origin(), address);
Value* result = root->appendNew<Value>(proc, Add, Origin(),
root->appendNew<Const64Value>(proc, Origin(), a),
load);
root->appendNew<MemoryValue>(proc, Store, Origin(), result, address);
root->appendNewControlValue(proc, Return, Origin(), root->appendNew<Const32Value>(proc, Origin(), 0));
int64_t inputOutput = b;
CHECK(!compileAndRun<int>(proc, &inputOutput));
CHECK(inputOutput == a + b);
}
void testAddArg32(int a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* value = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Add, Origin(), value, value));
CHECK(compileAndRun<int>(proc, a) == a + a);
}
void testAddArgs32(int a, int b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, Add, Origin(),
root->appendNew<Value>(
proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0)),
root->appendNew<Value>(
proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1))));
CHECK(compileAndRun<int>(proc, a, b) == a + b);
}
void testAddArgMem32(int32_t a, int32_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* address = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1);
MemoryValue* load = root->appendNew<MemoryValue>(proc, Load, Int32, Origin(), address);
Value* argument = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* result = root->appendNew<Value>(proc, Add, Origin(), argument, load);
root->appendNew<MemoryValue>(proc, Store, Origin(), result, address);
root->appendNewControlValue(proc, Return, Origin(), root->appendNew<Const32Value>(proc, Origin(), 0));
int32_t inputOutput = b;
CHECK(!compileAndRun<int32_t>(proc, a, &inputOutput));
CHECK(inputOutput == a + b);
}
void testAddMemArg32(int32_t a, int32_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* address = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
MemoryValue* load = root->appendNew<MemoryValue>(proc, Load, Int32, Origin(), address);
Value* argument = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1));
Value* result = root->appendNew<Value>(proc, Add, Origin(), load, argument);
root->appendNewControlValue(proc, Return, Origin(), result);
CHECK(compileAndRun<int32_t>(proc, &a, b) == a + b);
}
void testAddImmMem32(int32_t a, int32_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* address = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
MemoryValue* load = root->appendNew<MemoryValue>(proc, Load, Int32, Origin(), address);
Value* result = root->appendNew<Value>(proc, Add, Origin(),
root->appendNew<Const32Value>(proc, Origin(), a),
load);
root->appendNew<MemoryValue>(proc, Store, Origin(), result, address);
root->appendNewControlValue(proc, Return, Origin(), root->appendNew<Const32Value>(proc, Origin(), 0));
int32_t inputOutput = b;
CHECK(!compileAndRun<int>(proc, &inputOutput));
CHECK(inputOutput == a + b);
}
void testAddNeg1(int a, int b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, Add, Origin(),
root->appendNew<Value>(proc, Neg, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0)),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1)));
CHECK(compileAndRun<int>(proc, a, b) == (- a) + b);
}
void testAddNeg2(int a, int b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, Add, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0),
root->appendNew<Value>(proc, Neg, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1))));
CHECK(compileAndRun<int>(proc, a, b) == a + (- b));
}
void testAddArgZeroImmZDef()
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* arg = root->appendNew<Value>(
proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* constZero = root->appendNew<Const32Value>(proc, Origin(), 0);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, Add, Origin(),
arg,
constZero));
auto code = compileProc(proc, 0);
CHECK(invoke<int64_t>(*code, 0x0123456789abcdef) == 0x89abcdef);
}
void testAddLoadTwice()
{
auto test = [&] () {
Procedure proc;
BasicBlock* root = proc.addBlock();
int32_t value = 42;
Value* load = root->appendNew<MemoryValue>(
proc, Load, Int32, Origin(),
root->appendNew<ConstPtrValue>(proc, Origin(), &value));
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Add, Origin(), load, load));
auto code = compileProc(proc);
CHECK(invoke<int32_t>(*code) == 42 * 2);
};
test();
}
void testAddArgDouble(double a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* value = root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR0);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Add, Origin(), value, value));
CHECK(isIdentical(compileAndRun<double>(proc, a), a + a));
}
void testAddArgsDouble(double a, double b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* valueA = root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR0);
Value* valueB = root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR1);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Add, Origin(), valueA, valueB));
CHECK(isIdentical(compileAndRun<double>(proc, a, b), a + b));
}
void testAddArgImmDouble(double a, double b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* valueA = root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR0);
Value* valueB = root->appendNew<ConstDoubleValue>(proc, Origin(), b);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Add, Origin(), valueA, valueB));
CHECK(isIdentical(compileAndRun<double>(proc, a), a + b));
}
void testAddImmArgDouble(double a, double b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* valueA = root->appendNew<ConstDoubleValue>(proc, Origin(), a);
Value* valueB = root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR0);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Add, Origin(), valueA, valueB));
CHECK(isIdentical(compileAndRun<double>(proc, b), a + b));
}
void testAddImmsDouble(double a, double b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* valueA = root->appendNew<ConstDoubleValue>(proc, Origin(), a);
Value* valueB = root->appendNew<ConstDoubleValue>(proc, Origin(), b);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Add, Origin(), valueA, valueB));
CHECK(isIdentical(compileAndRun<double>(proc), a + b));
}
void testAddArgFloat(float a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* floatValue = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument32);
Value* result = root->appendNew<Value>(proc, Add, Origin(), floatValue, floatValue);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), result);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(a)), bitwise_cast<int32_t>(a + a)));
}
void testAddArgsFloat(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument1int32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* argument2int32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1));
Value* floatValue1 = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument1int32);
Value* floatValue2 = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument2int32);
Value* result = root->appendNew<Value>(proc, Add, Origin(), floatValue1, floatValue2);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), result);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(a), bitwise_cast<int32_t>(b)), bitwise_cast<int32_t>(a + b)));
}
void testAddFPRArgsFloat(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument1 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR0));
Value* argument2 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR1));
Value* result = root->appendNew<Value>(proc, Add, Origin(), argument1, argument2);
root->appendNewControlValue(proc, Return, Origin(), result);
CHECK(isIdentical(compileAndRun<float>(proc, a, b), a + b));
}
void testAddArgImmFloat(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* floatValue = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument32);
Value* constValue = root->appendNew<ConstFloatValue>(proc, Origin(), b);
Value* result = root->appendNew<Value>(proc, Add, Origin(), floatValue, constValue);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), result);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(a)), bitwise_cast<int32_t>(a + b)));
}
void testAddImmArgFloat(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* floatValue = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument32);
Value* constValue = root->appendNew<ConstFloatValue>(proc, Origin(), a);
Value* result = root->appendNew<Value>(proc, Add, Origin(), constValue, floatValue);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), result);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(b)), bitwise_cast<int32_t>(a + b)));
}
void testAddImmsFloat(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* constValue1 = root->appendNew<ConstFloatValue>(proc, Origin(), a);
Value* constValue2 = root->appendNew<ConstFloatValue>(proc, Origin(), b);
Value* result = root->appendNew<Value>(proc, Add, Origin(), constValue1, constValue2);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), result);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc), bitwise_cast<int32_t>(a + b)));
}
void testAddArgFloatWithUselessDoubleConversion(float a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argumentInt32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* floatValue = root->appendNew<Value>(proc, BitwiseCast, Origin(), argumentInt32);
Value* asDouble = root->appendNew<Value>(proc, FloatToDouble, Origin(), floatValue);
Value* result = root->appendNew<Value>(proc, Add, Origin(), asDouble, asDouble);
Value* floatResult = root->appendNew<Value>(proc, DoubleToFloat, Origin(), result);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), floatResult);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(a)), bitwise_cast<int32_t>(a + a)));
}
void testAddArgsFloatWithUselessDoubleConversion(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument1int32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* argument2int32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1));
Value* floatValue1 = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument1int32);
Value* floatValue2 = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument2int32);
Value* asDouble1 = root->appendNew<Value>(proc, FloatToDouble, Origin(), floatValue1);
Value* asDouble2 = root->appendNew<Value>(proc, FloatToDouble, Origin(), floatValue2);
Value* result = root->appendNew<Value>(proc, Add, Origin(), asDouble1, asDouble2);
Value* floatResult = root->appendNew<Value>(proc, DoubleToFloat, Origin(), result);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), floatResult);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(a), bitwise_cast<int32_t>(b)), bitwise_cast<int32_t>(a + b)));
}
void testAddArgsFloatWithEffectfulDoubleConversion(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument1int32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* argument2int32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1));
Value* floatValue1 = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument1int32);
Value* floatValue2 = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument2int32);
Value* asDouble1 = root->appendNew<Value>(proc, FloatToDouble, Origin(), floatValue1);
Value* asDouble2 = root->appendNew<Value>(proc, FloatToDouble, Origin(), floatValue2);
Value* result = root->appendNew<Value>(proc, Add, Origin(), asDouble1, asDouble2);
Value* floatResult = root->appendNew<Value>(proc, DoubleToFloat, Origin(), result);
Value* doubleAddress = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR2);
root->appendNew<MemoryValue>(proc, Store, Origin(), result, doubleAddress);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), floatResult);
root->appendNewControlValue(proc, Return, Origin(), result32);
double effect = 0;
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(a), bitwise_cast<int32_t>(b), &effect), bitwise_cast<int32_t>(a + b)));
CHECK(isIdentical(effect, static_cast<double>(a) + static_cast<double>(b)));
}
void testAddMulMulArgs(int64_t a, int64_t b, int64_t c)
{
// We want to check every possible ordering of arguments (to properly check every path in B3ReduceStrength):
// ((a * b) + (a * c))
// ((a * b) + (c * a))
// ((b * a) + (a * c))
// ((b * a) + (c * a))
for (int i = 0; i < 4; ++i) {
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argA = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
Value* argB = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1);
Value* argC = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR2);
Value* mulAB = i & 2 ? root->appendNew<Value>(proc, Mul, Origin(), argA, argB)
: root->appendNew<Value>(proc, Mul, Origin(), argB, argA);
Value* mulAC = i & 1 ? root->appendNew<Value>(proc, Mul, Origin(), argA, argC)
: root->appendNew<Value>(proc, Mul, Origin(), argC, argA);
root->appendNew<Value>(proc, Return, Origin(),
root->appendNew<Value>(proc, Add, Origin(),
mulAB,
mulAC));
CHECK_EQ(compileAndRun<int64_t>(proc, a, b, c), ((a * b) + (a * c)));
}
}
void testMulArg(int a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* value = root->appendNew<Value>(
proc, Trunc, Origin(), root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Mul, Origin(), value, value));
CHECK(compileAndRun<int>(proc, a) == a * a);
}
void testMulArgStore(int a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
int mulSlot;
int valueSlot;
Value* value = root->appendNew<Value>(
proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* mul = root->appendNew<Value>(proc, Mul, Origin(), value, value);
root->appendNew<MemoryValue>(
proc, Store, Origin(), value,
root->appendNew<ConstPtrValue>(proc, Origin(), &valueSlot), 0);
root->appendNew<MemoryValue>(
proc, Store, Origin(), mul,
root->appendNew<ConstPtrValue>(proc, Origin(), &mulSlot), 0);
root->appendNewControlValue(
proc, Return, Origin(), root->appendNew<Const32Value>(proc, Origin(), 0));
CHECK(!compileAndRun<int>(proc, a));
CHECK(mulSlot == a * a);
CHECK(valueSlot == a);
}
void testMulAddArg(int a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* value = root->appendNew<Value>(
proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, Add, Origin(),
root->appendNew<Value>(proc, Mul, Origin(), value, value),
value));
CHECK(compileAndRun<int>(proc, a) == a * a + a);
}
void testMulArgs(int a, int b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, Mul, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1)));
CHECK(compileAndRun<int>(proc, a, b) == a * b);
}
void testMulArgNegArg(int a, int b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argA = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
Value* argB = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1);
Value* negB = root->appendNew<Value>(proc, Neg, Origin(), argB);
Value* result = root->appendNew<Value>(proc, Mul, Origin(), argA, negB);
root->appendNew<Value>(proc, Return, Origin(), result);
CHECK(compileAndRun<int>(proc, a, b) == a * (-b));
}
void testMulNegArgArg(int a, int b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argA = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
Value* argB = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1);
Value* negA = root->appendNew<Value>(proc, Neg, Origin(), argA);
Value* result = root->appendNew<Value>(proc, Mul, Origin(), negA, argB);
root->appendNew<Value>(proc, Return, Origin(), result);
CHECK(compileAndRun<int>(proc, a, b) == (-a) * b);
}
void testMulArgImm(int64_t a, int64_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, Mul, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0),
root->appendNew<Const64Value>(proc, Origin(), b)));
CHECK(compileAndRun<int64_t>(proc, a) == a * b);
}
void testMulImmArg(int a, int b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, Mul, Origin(),
root->appendNew<Const64Value>(proc, Origin(), a),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0)));
CHECK(compileAndRun<int>(proc, b) == a * b);
}
void testMulArgs32(int a, int b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, Mul, Origin(),
root->appendNew<Value>(
proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0)),
root->appendNew<Value>(
proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1))));
CHECK(compileAndRun<int>(proc, a, b) == a * b);
}
void testMulArgs32SignExtend(int a, int b)
{
Procedure proc;
if (proc.optLevel() < 1)
return;
BasicBlock* root = proc.addBlock();
Value* arg1 = root->appendNew<Value>(
proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* arg2 = root->appendNew<Value>(
proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1));
Value* arg164 = root->appendNew<Value>(proc, SExt32, Origin(), arg1);
Value* arg264 = root->appendNew<Value>(proc, SExt32, Origin(), arg2);
Value* mul = root->appendNew<Value>(proc, Mul, Origin(), arg164, arg264);
root->appendNewControlValue(proc, Return, Origin(), mul);
auto code = compileProc(proc);
CHECK(invoke<long int>(*code, a, b) == ((long int) a) * ((long int) b));
}
void testMulImm32SignExtend(const int a, int b)
{
Procedure proc;
if (proc.optLevel() < 1)
return;
BasicBlock* root = proc.addBlock();
Value* arg1 = root->appendNew<Const64Value>(proc, Origin(), a);
Value* arg2 = root->appendNew<Value>(
proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* arg264 = root->appendNew<Value>(proc, SExt32, Origin(), arg2);
Value* mul = root->appendNew<Value>(proc, Mul, Origin(), arg1, arg264);
root->appendNewControlValue(proc, Return, Origin(), mul);
auto code = compileProc(proc);
CHECK_EQ(invoke<long int>(*code, b), ((long int) a) * ((long int) b));
}
void testMulLoadTwice()
{
auto test = [&] () {
Procedure proc;
BasicBlock* root = proc.addBlock();
int32_t value = 42;
Value* load = root->appendNew<MemoryValue>(
proc, Load, Int32, Origin(),
root->appendNew<ConstPtrValue>(proc, Origin(), &value));
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Mul, Origin(), load, load));
auto code = compileProc(proc);
CHECK(invoke<int32_t>(*code) == 42 * 42);
};
test();
}
void testMulAddArgsLeft()
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* arg0 = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
Value* arg1 = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1);
Value* arg2 = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR2);
Value* multiplied = root->appendNew<Value>(proc, Mul, Origin(), arg0, arg1);
Value* added = root->appendNew<Value>(proc, Add, Origin(), multiplied, arg2);
root->appendNewControlValue(proc, Return, Origin(), added);
auto code = compileProc(proc);
auto testValues = int64Operands();
for (auto a : testValues) {
for (auto b : testValues) {
for (auto c : testValues) {
CHECK(invoke<int64_t>(*code, a.value, b.value, c.value) == a.value * b.value + c.value);
}
}
}
}
void testMulAddArgsRight()
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* arg0 = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
Value* arg1 = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1);
Value* arg2 = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR2);
Value* multiplied = root->appendNew<Value>(proc, Mul, Origin(), arg1, arg2);
Value* added = root->appendNew<Value>(proc, Add, Origin(), arg0, multiplied);
root->appendNewControlValue(proc, Return, Origin(), added);
auto code = compileProc(proc);
auto testValues = int64Operands();
for (auto a : testValues) {
for (auto b : testValues) {
for (auto c : testValues) {
CHECK(invoke<int64_t>(*code, a.value, b.value, c.value) == a.value + b.value * c.value);
}
}
}
}
void testMulAddArgsLeft32()
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* arg0 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* arg1 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1));
Value* arg2 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR2));
Value* multiplied = root->appendNew<Value>(proc, Mul, Origin(), arg0, arg1);
Value* added = root->appendNew<Value>(proc, Add, Origin(), multiplied, arg2);
root->appendNewControlValue(proc, Return, Origin(), added);
auto code = compileProc(proc);
auto testValues = int32Operands();
for (auto a : testValues) {
for (auto b : testValues) {
for (auto c : testValues) {
CHECK(invoke<int32_t>(*code, a.value, b.value, c.value) == a.value * b.value + c.value);
}
}
}
}
void testMulAddArgsRight32()
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* arg0 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* arg1 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1));
Value* arg2 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR2));
Value* multiplied = root->appendNew<Value>(proc, Mul, Origin(), arg1, arg2);
Value* added = root->appendNew<Value>(proc, Add, Origin(), arg0, multiplied);
root->appendNewControlValue(proc, Return, Origin(), added);
auto code = compileProc(proc);
auto testValues = int32Operands();
for (auto a : testValues) {
for (auto b : testValues) {
for (auto c : testValues) {
CHECK(invoke<int32_t>(*code, a.value, b.value, c.value) == a.value + b.value * c.value);
}
}
}
}
void testMulSubArgsLeft()
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* arg0 = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
Value* arg1 = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1);
Value* arg2 = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR2);
Value* multiplied = root->appendNew<Value>(proc, Mul, Origin(), arg0, arg1);
Value* added = root->appendNew<Value>(proc, Sub, Origin(), multiplied, arg2);
root->appendNewControlValue(proc, Return, Origin(), added);
auto code = compileProc(proc);
auto testValues = int64Operands();
for (auto a : testValues) {
for (auto b : testValues) {
for (auto c : testValues) {
CHECK(invoke<int64_t>(*code, a.value, b.value, c.value) == a.value * b.value - c.value);
}
}
}
}
void testMulSubArgsRight()
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* arg0 = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
Value* arg1 = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1);
Value* arg2 = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR2);
Value* multiplied = root->appendNew<Value>(proc, Mul, Origin(), arg1, arg2);
Value* added = root->appendNew<Value>(proc, Sub, Origin(), arg0, multiplied);
root->appendNewControlValue(proc, Return, Origin(), added);
auto code = compileProc(proc);
auto testValues = int64Operands();
for (auto a : testValues) {
for (auto b : testValues) {
for (auto c : testValues) {
CHECK(invoke<int64_t>(*code, a.value, b.value, c.value) == a.value - b.value * c.value);
}
}
}
}
void testMulSubArgsLeft32()
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* arg0 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* arg1 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1));
Value* arg2 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR2));
Value* multiplied = root->appendNew<Value>(proc, Mul, Origin(), arg0, arg1);
Value* added = root->appendNew<Value>(proc, Sub, Origin(), multiplied, arg2);
root->appendNewControlValue(proc, Return, Origin(), added);
auto code = compileProc(proc);
auto testValues = int32Operands();
for (auto a : testValues) {
for (auto b : testValues) {
for (auto c : testValues) {
CHECK(invoke<int32_t>(*code, a.value, b.value, c.value) == a.value * b.value - c.value);
}
}
}
}
void testMulSubArgsRight32()
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* arg0 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* arg1 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1));
Value* arg2 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR2));
Value* multiplied = root->appendNew<Value>(proc, Mul, Origin(), arg1, arg2);
Value* added = root->appendNew<Value>(proc, Sub, Origin(), arg0, multiplied);
root->appendNewControlValue(proc, Return, Origin(), added);
auto code = compileProc(proc);
auto testValues = int32Operands();
for (auto a : testValues) {
for (auto b : testValues) {
for (auto c : testValues) {
CHECK(invoke<int32_t>(*code, a.value, b.value, c.value) == a.value - b.value * c.value);
}
}
}
}
void testMulNegArgs()
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* arg0 = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
Value* arg1 = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1);
Value* multiplied = root->appendNew<Value>(proc, Mul, Origin(), arg0, arg1);
Value* zero = root->appendNew<Const64Value>(proc, Origin(), 0);
Value* added = root->appendNew<Value>(proc, Sub, Origin(), zero, multiplied);
root->appendNewControlValue(proc, Return, Origin(), added);
auto code = compileProc(proc);
auto testValues = int64Operands();
for (auto a : testValues) {
for (auto b : testValues) {
CHECK(invoke<int64_t>(*code, a.value, b.value) == -(a.value * b.value));
}
}
}
void testMulNegArgs32()
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* arg0 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* arg1 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1));
Value* multiplied = root->appendNew<Value>(proc, Mul, Origin(), arg0, arg1);
Value* zero = root->appendNew<Const32Value>(proc, Origin(), 0);
Value* added = root->appendNew<Value>(proc, Sub, Origin(), zero, multiplied);
root->appendNewControlValue(proc, Return, Origin(), added);
auto code = compileProc(proc);
auto testValues = int32Operands();
for (auto a : testValues) {
for (auto b : testValues) {
CHECK(invoke<int32_t>(*code, a.value, b.value) == -(a.value * b.value));
}
}
}
void testMulArgDouble(double a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* value = root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR0);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Mul, Origin(), value, value));
CHECK(isIdentical(compileAndRun<double>(proc, a), a * a));
}
void testMulArgsDouble(double a, double b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* valueA = root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR0);
Value* valueB = root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR1);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Mul, Origin(), valueA, valueB));
CHECK(isIdentical(compileAndRun<double>(proc, a, b), a * b));
}
void testMulArgImmDouble(double a, double b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* valueA = root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR0);
Value* valueB = root->appendNew<ConstDoubleValue>(proc, Origin(), b);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Mul, Origin(), valueA, valueB));
CHECK(isIdentical(compileAndRun<double>(proc, a), a * b));
}
void testMulImmArgDouble(double a, double b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* valueA = root->appendNew<ConstDoubleValue>(proc, Origin(), a);
Value* valueB = root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR0);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Mul, Origin(), valueA, valueB));
CHECK(isIdentical(compileAndRun<double>(proc, b), a * b));
}
void testMulImmsDouble(double a, double b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* valueA = root->appendNew<ConstDoubleValue>(proc, Origin(), a);
Value* valueB = root->appendNew<ConstDoubleValue>(proc, Origin(), b);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Mul, Origin(), valueA, valueB));
CHECK(isIdentical(compileAndRun<double>(proc), a * b));
}
void testMulArgFloat(float a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* floatValue = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument32);
Value* result = root->appendNew<Value>(proc, Mul, Origin(), floatValue, floatValue);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), result);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(a)), bitwise_cast<int32_t>(a * a)));
}
void testMulArgsFloat(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument1int32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* argument2int32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1));
Value* floatValue1 = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument1int32);
Value* floatValue2 = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument2int32);
Value* result = root->appendNew<Value>(proc, Mul, Origin(), floatValue1, floatValue2);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), result);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(a), bitwise_cast<int32_t>(b)), bitwise_cast<int32_t>(a * b)));
}
void testMulArgImmFloat(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* floatValue = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument32);
Value* constValue = root->appendNew<ConstFloatValue>(proc, Origin(), b);
Value* result = root->appendNew<Value>(proc, Mul, Origin(), floatValue, constValue);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), result);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(a)), bitwise_cast<int32_t>(a * b)));
}
void testMulImmArgFloat(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* floatValue = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument32);
Value* constValue = root->appendNew<ConstFloatValue>(proc, Origin(), a);
Value* result = root->appendNew<Value>(proc, Mul, Origin(), constValue, floatValue);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), result);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(b)), bitwise_cast<int32_t>(a * b)));
}
void testMulImmsFloat(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* constValue1 = root->appendNew<ConstFloatValue>(proc, Origin(), a);
Value* constValue2 = root->appendNew<ConstFloatValue>(proc, Origin(), b);
Value* result = root->appendNew<Value>(proc, Mul, Origin(), constValue1, constValue2);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), result);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc), bitwise_cast<int32_t>(a * b)));
}
void testMulArgFloatWithUselessDoubleConversion(float a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argumentInt32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* floatValue = root->appendNew<Value>(proc, BitwiseCast, Origin(), argumentInt32);
Value* asDouble = root->appendNew<Value>(proc, FloatToDouble, Origin(), floatValue);
Value* result = root->appendNew<Value>(proc, Mul, Origin(), asDouble, asDouble);
Value* floatResult = root->appendNew<Value>(proc, DoubleToFloat, Origin(), result);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), floatResult);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(a)), bitwise_cast<int32_t>(a * a)));
}
void testMulArgsFloatWithUselessDoubleConversion(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument1int32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* argument2int32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1));
Value* floatValue1 = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument1int32);
Value* floatValue2 = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument2int32);
Value* asDouble1 = root->appendNew<Value>(proc, FloatToDouble, Origin(), floatValue1);
Value* asDouble2 = root->appendNew<Value>(proc, FloatToDouble, Origin(), floatValue2);
Value* result = root->appendNew<Value>(proc, Mul, Origin(), asDouble1, asDouble2);
Value* floatResult = root->appendNew<Value>(proc, DoubleToFloat, Origin(), result);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), floatResult);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(a), bitwise_cast<int32_t>(b)), bitwise_cast<int32_t>(a * b)));
}
void testMulArgsFloatWithEffectfulDoubleConversion(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument1int32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* argument2int32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1));
Value* floatValue1 = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument1int32);
Value* floatValue2 = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument2int32);
Value* asDouble1 = root->appendNew<Value>(proc, FloatToDouble, Origin(), floatValue1);
Value* asDouble2 = root->appendNew<Value>(proc, FloatToDouble, Origin(), floatValue2);
Value* result = root->appendNew<Value>(proc, Mul, Origin(), asDouble1, asDouble2);
Value* floatResult = root->appendNew<Value>(proc, DoubleToFloat, Origin(), result);
Value* doubleMulress = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR2);
root->appendNew<MemoryValue>(proc, Store, Origin(), result, doubleMulress);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), floatResult);
root->appendNewControlValue(proc, Return, Origin(), result32);
double effect = 0;
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(a), bitwise_cast<int32_t>(b), &effect), bitwise_cast<int32_t>(a * b)));
CHECK(isIdentical(effect, static_cast<double>(a) * static_cast<double>(b)));
}
void testDivArgDouble(double a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* value = root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR0);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Div, Origin(), value, value));
CHECK(isIdentical(compileAndRun<double>(proc, a), a / a));
}
void testDivArgsDouble(double a, double b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* valueA = root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR0);
Value* valueB = root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR1);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Div, Origin(), valueA, valueB));
CHECK(isIdentical(compileAndRun<double>(proc, a, b), a / b));
}
void testDivArgImmDouble(double a, double b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* valueA = root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR0);
Value* valueB = root->appendNew<ConstDoubleValue>(proc, Origin(), b);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Div, Origin(), valueA, valueB));
CHECK(isIdentical(compileAndRun<double>(proc, a), a / b));
}
void testDivImmArgDouble(double a, double b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* valueA = root->appendNew<ConstDoubleValue>(proc, Origin(), a);
Value* valueB = root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR0);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Div, Origin(), valueA, valueB));
CHECK(isIdentical(compileAndRun<double>(proc, b), a / b));
}
void testDivImmsDouble(double a, double b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* valueA = root->appendNew<ConstDoubleValue>(proc, Origin(), a);
Value* valueB = root->appendNew<ConstDoubleValue>(proc, Origin(), b);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Div, Origin(), valueA, valueB));
CHECK(isIdentical(compileAndRun<double>(proc), a / b));
}
void testDivArgFloat(float a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* floatValue = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument32);
Value* result = root->appendNew<Value>(proc, Div, Origin(), floatValue, floatValue);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), result);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(a)), bitwise_cast<int32_t>(a / a)));
}
void testDivArgsFloat(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument1int32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* argument2int32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1));
Value* floatValue1 = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument1int32);
Value* floatValue2 = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument2int32);
Value* result = root->appendNew<Value>(proc, Div, Origin(), floatValue1, floatValue2);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), result);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(a), bitwise_cast<int32_t>(b)), bitwise_cast<int32_t>(a / b)));
}
void testDivArgImmFloat(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* floatValue = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument32);
Value* constValue = root->appendNew<ConstFloatValue>(proc, Origin(), b);
Value* result = root->appendNew<Value>(proc, Div, Origin(), floatValue, constValue);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), result);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(a)), bitwise_cast<int32_t>(a / b)));
}
void testDivImmArgFloat(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* floatValue = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument32);
Value* constValue = root->appendNew<ConstFloatValue>(proc, Origin(), a);
Value* result = root->appendNew<Value>(proc, Div, Origin(), constValue, floatValue);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), result);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(b)), bitwise_cast<int32_t>(a / b)));
}
void testDivImmsFloat(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* constValue1 = root->appendNew<ConstFloatValue>(proc, Origin(), a);
Value* constValue2 = root->appendNew<ConstFloatValue>(proc, Origin(), b);
Value* result = root->appendNew<Value>(proc, Div, Origin(), constValue1, constValue2);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), result);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc), bitwise_cast<int32_t>(a / b)));
}
void testModArgDouble(double a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* value = root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR0);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Mod, Origin(), value, value));
CHECK(isIdentical(compileAndRun<double>(proc, a), fmod(a, a)));
}
void testModArgsDouble(double a, double b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* valueA = root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR0);
Value* valueB = root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR1);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Mod, Origin(), valueA, valueB));
CHECK(isIdentical(compileAndRun<double>(proc, a, b), fmod(a, b)));
}
void testModArgImmDouble(double a, double b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* valueA = root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR0);
Value* valueB = root->appendNew<ConstDoubleValue>(proc, Origin(), b);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Mod, Origin(), valueA, valueB));
CHECK(isIdentical(compileAndRun<double>(proc, a), fmod(a, b)));
}
void testModImmArgDouble(double a, double b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* valueA = root->appendNew<ConstDoubleValue>(proc, Origin(), a);
Value* valueB = root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR0);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Mod, Origin(), valueA, valueB));
CHECK(isIdentical(compileAndRun<double>(proc, b), fmod(a, b)));
}
void testModImmsDouble(double a, double b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* valueA = root->appendNew<ConstDoubleValue>(proc, Origin(), a);
Value* valueB = root->appendNew<ConstDoubleValue>(proc, Origin(), b);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Mod, Origin(), valueA, valueB));
CHECK(isIdentical(compileAndRun<double>(proc), fmod(a, b)));
}
void testModArgFloat(float a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* floatValue = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument32);
Value* result = root->appendNew<Value>(proc, Mod, Origin(), floatValue, floatValue);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), result);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(a)), bitwise_cast<int32_t>(static_cast<float>(fmod(a, a)))));
}
void testModArgsFloat(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument1int32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* argument2int32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1));
Value* floatValue1 = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument1int32);
Value* floatValue2 = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument2int32);
Value* result = root->appendNew<Value>(proc, Mod, Origin(), floatValue1, floatValue2);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), result);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(a), bitwise_cast<int32_t>(b)), bitwise_cast<int32_t>(static_cast<float>(fmod(a, b)))));
}
void testModArgImmFloat(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* floatValue = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument32);
Value* constValue = root->appendNew<ConstFloatValue>(proc, Origin(), b);
Value* result = root->appendNew<Value>(proc, Mod, Origin(), floatValue, constValue);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), result);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(a)), bitwise_cast<int32_t>(static_cast<float>(fmod(a, b)))));
}
void testModImmArgFloat(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* floatValue = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument32);
Value* constValue = root->appendNew<ConstFloatValue>(proc, Origin(), a);
Value* result = root->appendNew<Value>(proc, Mod, Origin(), constValue, floatValue);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), result);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(b)), bitwise_cast<int32_t>(static_cast<float>(fmod(a, b)))));
}
void testModImmsFloat(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* constValue1 = root->appendNew<ConstFloatValue>(proc, Origin(), a);
Value* constValue2 = root->appendNew<ConstFloatValue>(proc, Origin(), b);
Value* result = root->appendNew<Value>(proc, Mod, Origin(), constValue1, constValue2);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), result);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc), bitwise_cast<int32_t>(static_cast<float>(fmod(a, b)))));
}
void testDivArgFloatWithUselessDoubleConversion(float a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argumentInt32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* floatValue = root->appendNew<Value>(proc, BitwiseCast, Origin(), argumentInt32);
Value* asDouble = root->appendNew<Value>(proc, FloatToDouble, Origin(), floatValue);
Value* result = root->appendNew<Value>(proc, Div, Origin(), asDouble, asDouble);
Value* floatResult = root->appendNew<Value>(proc, DoubleToFloat, Origin(), result);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), floatResult);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(a)), bitwise_cast<int32_t>(a / a)));
}
void testDivArgsFloatWithUselessDoubleConversion(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument1int32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* argument2int32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1));
Value* floatValue1 = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument1int32);
Value* floatValue2 = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument2int32);
Value* asDouble1 = root->appendNew<Value>(proc, FloatToDouble, Origin(), floatValue1);
Value* asDouble2 = root->appendNew<Value>(proc, FloatToDouble, Origin(), floatValue2);
Value* result = root->appendNew<Value>(proc, Div, Origin(), asDouble1, asDouble2);
Value* floatResult = root->appendNew<Value>(proc, DoubleToFloat, Origin(), result);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), floatResult);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(a), bitwise_cast<int32_t>(b)), bitwise_cast<int32_t>(a / b)));
}
void testDivArgsFloatWithEffectfulDoubleConversion(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument1int32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* argument2int32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1));
Value* floatValue1 = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument1int32);
Value* floatValue2 = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument2int32);
Value* asDouble1 = root->appendNew<Value>(proc, FloatToDouble, Origin(), floatValue1);
Value* asDouble2 = root->appendNew<Value>(proc, FloatToDouble, Origin(), floatValue2);
Value* result = root->appendNew<Value>(proc, Div, Origin(), asDouble1, asDouble2);
Value* floatResult = root->appendNew<Value>(proc, DoubleToFloat, Origin(), result);
Value* doubleDivress = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR2);
root->appendNew<MemoryValue>(proc, Store, Origin(), result, doubleDivress);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), floatResult);
root->appendNewControlValue(proc, Return, Origin(), result32);
double effect = 0;
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(a), bitwise_cast<int32_t>(b), &effect), bitwise_cast<int32_t>(a / b)));
CHECK(isIdentical(effect, static_cast<double>(a) / static_cast<double>(b)));
}
void testUDivArgsInt32(uint32_t a, uint32_t b)
{
// UDiv with denominator == 0 is invalid.
if (!b)
return;
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument1 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* argument2 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1));
Value* result = root->appendNew<Value>(proc, UDiv, Origin(), argument1, argument2);
root->appendNew<Value>(proc, Return, Origin(), result);
CHECK_EQ(compileAndRun<uint32_t>(proc, a, b), a / b);
}
void testUDivArgsInt64(uint64_t a, uint64_t b)
{
// UDiv with denominator == 0 is invalid.
if (!b)
return;
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument1 = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
Value* argument2 = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1);
Value* result = root->appendNew<Value>(proc, UDiv, Origin(), argument1, argument2);
root->appendNew<Value>(proc, Return, Origin(), result);
CHECK_EQ(compileAndRun<uint64_t>(proc, a, b), a / b);
}
void testUModArgsInt32(uint32_t a, uint32_t b)
{
// UMod with denominator == 0 is invalid.
if (!b)
return;
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument1 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* argument2 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1));
Value* result = root->appendNew<Value>(proc, UMod, Origin(), argument1, argument2);
root->appendNew<Value>(proc, Return, Origin(), result);
CHECK_EQ(compileAndRun<uint32_t>(proc, a, b), a % b);
}
void testUModArgsInt64(uint64_t a, uint64_t b)
{
// UMod with denominator == 0 is invalid.
if (!b)
return;
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument1 = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
Value* argument2 = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1);
Value* result = root->appendNew<Value>(proc, UMod, Origin(), argument1, argument2);
root->appendNew<Value>(proc, Return, Origin(), result);
CHECK_EQ(compileAndRun<uint64_t>(proc, a, b), a % b);
}
void testSubArg(int a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* value = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Sub, Origin(), value, value));
CHECK(!compileAndRun<int>(proc, a));
}
void testSubArgs(int a, int b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, Sub, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1)));
CHECK(compileAndRun<int>(proc, a, b) == a - b);
}
void testSubArgImm(int64_t a, int64_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, Sub, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0),
root->appendNew<Const64Value>(proc, Origin(), b)));
CHECK(compileAndRun<int64_t>(proc, a) == a - b);
}
void testSubNeg(int a, int b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, Sub, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0),
root->appendNew<Value>(proc, Neg, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1))));
CHECK(compileAndRun<int>(proc, a, b) == a - (- b));
}
void testNegSub(int a, int b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, Neg, Origin(),
root->appendNew<Value>(proc, Sub, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1))));
CHECK(compileAndRun<int>(proc, a, b) == -(a - b));
}
void testNegValueSubOne(int a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
Value* negArgument = root->appendNew<Value>(proc, Sub, Origin(),
root->appendNew<Const64Value>(proc, Origin(), 0),
argument);
Value* negArgumentMinusOne = root->appendNew<Value>(proc, Sub, Origin(),
negArgument,
root->appendNew<Const64Value>(proc, Origin(), 1));
root->appendNewControlValue(proc, Return, Origin(), negArgumentMinusOne);
CHECK(compileAndRun<int>(proc, a) == -a - 1);
}
void testSubSub(int a, int b, int c)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, Sub, Origin(),
root->appendNew<Value>(proc, Sub, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1)),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR2)));
CHECK(compileAndRun<int>(proc, a, b, c) == (a-b)-c);
}
void testSubSub2(int a, int b, int c)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, Sub, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0),
root->appendNew<Value>(proc, Sub, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR2))));
CHECK(compileAndRun<int>(proc, a, b, c) == a-(b-c));
}
void testSubAdd(int a, int b, int c)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, Sub, Origin(),
root->appendNew<Value>(proc, Add, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1)),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR2)));
CHECK(compileAndRun<int>(proc, a, b, c) == (a+b)-c);
}
void testSubFirstNeg(int a, int b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, Sub, Origin(),
root->appendNew<Value>(proc, Neg, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0)),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1)));
CHECK(compileAndRun<int>(proc, a, b) == (-a)-b);
}
void testSubImmArg(int a, int b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, Sub, Origin(),
root->appendNew<Const64Value>(proc, Origin(), a),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0)));
CHECK(compileAndRun<int>(proc, b) == a - b);
}
void testSubArgMem(int64_t a, int64_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* address = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1);
MemoryValue* load = root->appendNew<MemoryValue>(proc, Load, Int64, Origin(), address);
Value* result = root->appendNew<Value>(proc, Sub, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0),
load);
root->appendNewControlValue(proc, Return, Origin(), result);
CHECK(compileAndRun<int64_t>(proc, a, &b) == a - b);
}
void testSubMemArg(int64_t a, int64_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* address = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
MemoryValue* load = root->appendNew<MemoryValue>(proc, Load, Int64, Origin(), address);
Value* result = root->appendNew<Value>(proc, Sub, Origin(),
load,
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1));
root->appendNew<MemoryValue>(proc, Store, Origin(), result, address);
root->appendNewControlValue(proc, Return, Origin(), root->appendNew<Const32Value>(proc, Origin(), 0));
int64_t inputOutput = a;
CHECK(!compileAndRun<int64_t>(proc, &inputOutput, b));
CHECK(inputOutput == a - b);
}
void testSubImmMem(int64_t a, int64_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* address = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
MemoryValue* load = root->appendNew<MemoryValue>(proc, Load, Int64, Origin(), address);
Value* result = root->appendNew<Value>(proc, Sub, Origin(),
root->appendNew<Const64Value>(proc, Origin(), a),
load);
root->appendNew<MemoryValue>(proc, Store, Origin(), result, address);
root->appendNewControlValue(proc, Return, Origin(), root->appendNew<Const32Value>(proc, Origin(), 0));
int64_t inputOutput = b;
CHECK(!compileAndRun<int>(proc, &inputOutput));
CHECK(inputOutput == a - b);
}
void testSubMemImm(int64_t a, int64_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* address = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
MemoryValue* load = root->appendNew<MemoryValue>(proc, Load, Int64, Origin(), address);
Value* result = root->appendNew<Value>(proc, Sub, Origin(),
load,
root->appendNew<Const64Value>(proc, Origin(), b));
root->appendNew<MemoryValue>(proc, Store, Origin(), result, address);
root->appendNewControlValue(proc, Return, Origin(), root->appendNew<Const32Value>(proc, Origin(), 0));
int64_t inputOutput = a;
CHECK(!compileAndRun<int>(proc, &inputOutput));
CHECK(inputOutput == a - b);
}
void testSubArgs32(int a, int b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, Sub, Origin(),
root->appendNew<Value>(
proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0)),
root->appendNew<Value>(
proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1))));
CHECK(compileAndRun<int>(proc, a, b) == a - b);
}
void testSubArgImm32(int a, int b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, Sub, Origin(),
root->appendNew<Value>(
proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0)),
root->appendNew<Const32Value>(proc, Origin(), b)));
CHECK(compileAndRun<int>(proc, a) == a - b);
}
void testSubImmArg32(int a, int b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, Sub, Origin(),
root->appendNew<Const32Value>(proc, Origin(), a),
root->appendNew<Value>(
proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0))));
CHECK(compileAndRun<int>(proc, b) == a - b);
}
void testSubMemArg32(int32_t a, int32_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* address = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
MemoryValue* load = root->appendNew<MemoryValue>(proc, Load, Int32, Origin(), address);
Value* argument = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1));
Value* result = root->appendNew<Value>(proc, Sub, Origin(), load, argument);
root->appendNew<MemoryValue>(proc, Store, Origin(), result, address);
root->appendNewControlValue(proc, Return, Origin(), root->appendNew<Const32Value>(proc, Origin(), 0));
int32_t inputOutput = a;
CHECK(!compileAndRun<int32_t>(proc, &inputOutput, b));
CHECK(inputOutput == a - b);
}
void testSubArgMem32(int32_t a, int32_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* address = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1);
MemoryValue* load = root->appendNew<MemoryValue>(proc, Load, Int32, Origin(), address);
Value* argument = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* result = root->appendNew<Value>(proc, Sub, Origin(), argument, load);
root->appendNewControlValue(proc, Return, Origin(), result);
CHECK(compileAndRun<int32_t>(proc, a, &b) == a - b);
}
void testSubImmMem32(int32_t a, int32_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* address = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
MemoryValue* load = root->appendNew<MemoryValue>(proc, Load, Int32, Origin(), address);
Value* result = root->appendNew<Value>(proc, Sub, Origin(),
root->appendNew<Const32Value>(proc, Origin(), a),
load);
root->appendNew<MemoryValue>(proc, Store, Origin(), result, address);
root->appendNewControlValue(proc, Return, Origin(), root->appendNew<Const32Value>(proc, Origin(), 0));
int32_t inputOutput = b;
CHECK(!compileAndRun<int>(proc, &inputOutput));
CHECK(inputOutput == a - b);
}
void testSubMemImm32(int32_t a, int32_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* address = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
MemoryValue* load = root->appendNew<MemoryValue>(proc, Load, Int32, Origin(), address);
Value* result = root->appendNew<Value>(proc, Sub, Origin(),
load,
root->appendNew<Const32Value>(proc, Origin(), b));
root->appendNew<MemoryValue>(proc, Store, Origin(), result, address);
root->appendNewControlValue(proc, Return, Origin(), root->appendNew<Const32Value>(proc, Origin(), 0));
int32_t inputOutput = a;
CHECK(!compileAndRun<int>(proc, &inputOutput));
CHECK(inputOutput == a - b);
}
void testNegValueSubOne32(int a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* negArgument = root->appendNew<Value>(proc, Sub, Origin(),
root->appendNew<Const32Value>(proc, Origin(), 0),
argument);
Value* negArgumentMinusOne = root->appendNew<Value>(proc, Sub, Origin(),
negArgument,
root->appendNew<Const32Value>(proc, Origin(), 1));
root->appendNewControlValue(proc, Return, Origin(), negArgumentMinusOne);
CHECK(compileAndRun<int>(proc, a) == -a - 1);
}
void testNegMulArgImm(int64_t a, int64_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
Value* constant = root->appendNew<Const64Value>(proc, Origin(), b);
Value* mul = root->appendNew<Value>(proc, Mul, Origin(), argument, constant);
Value* result = root->appendNew<Value>(proc, Neg, Origin(), mul);
root->appendNew<Value>(proc, Return, Origin(), result);
CHECK(compileAndRun<int64_t>(proc, a) == -(a * b));
}
void testSubMulMulArgs(int64_t a, int64_t b, int64_t c)
{
// We want to check every possible ordering of arguments (to properly check every path in B3ReduceStrength):
// ((a * b) - (a * c))
// ((a * b) - (c * a))
// ((b * a) - (a * c))
// ((b * a) - (c * a))
for (int i = 0; i < 4; ++i) {
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argA = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
Value* argB = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1);
Value* argC = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR2);
Value* mulAB = i & 2 ? root->appendNew<Value>(proc, Mul, Origin(), argA, argB)
: root->appendNew<Value>(proc, Mul, Origin(), argB, argA);
Value* mulAC = i & 1 ? root->appendNew<Value>(proc, Mul, Origin(), argA, argC)
: root->appendNew<Value>(proc, Mul, Origin(), argC, argA);
root->appendNew<Value>(proc, Return, Origin(),
root->appendNew<Value>(proc, Sub, Origin(),
mulAB,
mulAC));
CHECK_EQ(compileAndRun<int64_t>(proc, a, b, c), ((a * b) - (a * c)));
}
}
void testSubArgDouble(double a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* value = root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR0);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Sub, Origin(), value, value));
CHECK(isIdentical(compileAndRun<double>(proc, a), a - a));
}
void testSubArgsDouble(double a, double b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* valueA = root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR0);
Value* valueB = root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR1);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Sub, Origin(), valueA, valueB));
CHECK(isIdentical(compileAndRun<double>(proc, a, b), a - b));
}
void testSubArgImmDouble(double a, double b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* valueA = root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR0);
Value* valueB = root->appendNew<ConstDoubleValue>(proc, Origin(), b);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Sub, Origin(), valueA, valueB));
CHECK(isIdentical(compileAndRun<double>(proc, a), a - b));
}
void testSubImmArgDouble(double a, double b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* valueA = root->appendNew<ConstDoubleValue>(proc, Origin(), a);
Value* valueB = root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR0);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Sub, Origin(), valueA, valueB));
CHECK(isIdentical(compileAndRun<double>(proc, b), a - b));
}
void testSubImmsDouble(double a, double b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* valueA = root->appendNew<ConstDoubleValue>(proc, Origin(), a);
Value* valueB = root->appendNew<ConstDoubleValue>(proc, Origin(), b);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Sub, Origin(), valueA, valueB));
CHECK(isIdentical(compileAndRun<double>(proc), a - b));
}
void testSubArgFloat(float a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* floatValue = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument32);
Value* result = root->appendNew<Value>(proc, Sub, Origin(), floatValue, floatValue);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), result);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(a)), bitwise_cast<int32_t>(a - a)));
}
void testSubArgsFloat(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument1int32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* argument2int32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1));
Value* floatValue1 = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument1int32);
Value* floatValue2 = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument2int32);
Value* result = root->appendNew<Value>(proc, Sub, Origin(), floatValue1, floatValue2);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), result);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(a), bitwise_cast<int32_t>(b)), bitwise_cast<int32_t>(a - b)));
}
void testSubArgImmFloat(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* floatValue = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument32);
Value* constValue = root->appendNew<ConstFloatValue>(proc, Origin(), b);
Value* result = root->appendNew<Value>(proc, Sub, Origin(), floatValue, constValue);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), result);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(a)), bitwise_cast<int32_t>(a - b)));
}
void testSubImmArgFloat(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* floatValue = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument32);
Value* constValue = root->appendNew<ConstFloatValue>(proc, Origin(), a);
Value* result = root->appendNew<Value>(proc, Sub, Origin(), constValue, floatValue);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), result);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(b)), bitwise_cast<int32_t>(a - b)));
}
void testSubImmsFloat(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* constValue1 = root->appendNew<ConstFloatValue>(proc, Origin(), a);
Value* constValue2 = root->appendNew<ConstFloatValue>(proc, Origin(), b);
Value* result = root->appendNew<Value>(proc, Sub, Origin(), constValue1, constValue2);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), result);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc), bitwise_cast<int32_t>(a - b)));
}
void testSubArgFloatWithUselessDoubleConversion(float a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argumentInt32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* floatValue = root->appendNew<Value>(proc, BitwiseCast, Origin(), argumentInt32);
Value* asDouble = root->appendNew<Value>(proc, FloatToDouble, Origin(), floatValue);
Value* result = root->appendNew<Value>(proc, Sub, Origin(), asDouble, asDouble);
Value* floatResult = root->appendNew<Value>(proc, DoubleToFloat, Origin(), result);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), floatResult);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(a)), bitwise_cast<int32_t>(a - a)));
}
void testSubArgsFloatWithUselessDoubleConversion(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument1int32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* argument2int32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1));
Value* floatValue1 = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument1int32);
Value* floatValue2 = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument2int32);
Value* asDouble1 = root->appendNew<Value>(proc, FloatToDouble, Origin(), floatValue1);
Value* asDouble2 = root->appendNew<Value>(proc, FloatToDouble, Origin(), floatValue2);
Value* result = root->appendNew<Value>(proc, Sub, Origin(), asDouble1, asDouble2);
Value* floatResult = root->appendNew<Value>(proc, DoubleToFloat, Origin(), result);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), floatResult);
root->appendNewControlValue(proc, Return, Origin(), result32);
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(a), bitwise_cast<int32_t>(b)), bitwise_cast<int32_t>(a - b)));
}
void testSubArgsFloatWithEffectfulDoubleConversion(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument1int32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* argument2int32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1));
Value* floatValue1 = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument1int32);
Value* floatValue2 = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument2int32);
Value* asDouble1 = root->appendNew<Value>(proc, FloatToDouble, Origin(), floatValue1);
Value* asDouble2 = root->appendNew<Value>(proc, FloatToDouble, Origin(), floatValue2);
Value* result = root->appendNew<Value>(proc, Sub, Origin(), asDouble1, asDouble2);
Value* floatResult = root->appendNew<Value>(proc, DoubleToFloat, Origin(), result);
Value* doubleSubress = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR2);
root->appendNew<MemoryValue>(proc, Store, Origin(), result, doubleSubress);
Value* result32 = root->appendNew<Value>(proc, BitwiseCast, Origin(), floatResult);
root->appendNewControlValue(proc, Return, Origin(), result32);
double effect = 0;
CHECK(isIdentical(compileAndRun<int32_t>(proc, bitwise_cast<int32_t>(a), bitwise_cast<int32_t>(b), &effect), bitwise_cast<int32_t>(a - b)));
CHECK(isIdentical(effect, static_cast<double>(a) - static_cast<double>(b)));
}
void testTernarySubInstructionSelection(B3::Opcode valueModifier, Type valueType, Air::Opcode expectedOpcode)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* left = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
Value* right = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1);
if (valueModifier == Trunc) {
left = root->appendNew<Value>(proc, valueModifier, valueType, Origin(), left);
right = root->appendNew<Value>(proc, valueModifier, valueType, Origin(), right);
}
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Sub, Origin(), left, right));
lowerToAirForTesting(proc);
auto block = proc.code()[0];
unsigned numberOfSubInstructions = 0;
for (auto instruction : *block) {
if (instruction.kind.opcode == expectedOpcode) {
CHECK_EQ(instruction.args.size(), 3ul);
CHECK_EQ(instruction.args[0].kind(), Air::Arg::Tmp);
CHECK_EQ(instruction.args[1].kind(), Air::Arg::Tmp);
CHECK_EQ(instruction.args[2].kind(), Air::Arg::Tmp);
numberOfSubInstructions++;
}
}
CHECK_EQ(numberOfSubInstructions, 1ul);
}
void testNegDouble(double a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, Neg, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR0)));
CHECK(isIdentical(compileAndRun<double>(proc, a), -a));
}
void testNegFloat(float a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* floatValue = root->appendNew<Value>(proc, BitwiseCast, Origin(), argument32);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(proc, Neg, Origin(), floatValue));
CHECK(isIdentical(compileAndRun<float>(proc, bitwise_cast<int32_t>(a)), -a));
}
void testNegFloatWithUselessDoubleConversion(float a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argumentInt32 = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* floatValue = root->appendNew<Value>(proc, BitwiseCast, Origin(), argumentInt32);
Value* asDouble = root->appendNew<Value>(proc, FloatToDouble, Origin(), floatValue);
Value* result = root->appendNew<Value>(proc, Neg, Origin(), asDouble);
Value* floatResult = root->appendNew<Value>(proc, DoubleToFloat, Origin(), result);
root->appendNewControlValue(proc, Return, Origin(), floatResult);
CHECK(isIdentical(compileAndRun<float>(proc, bitwise_cast<int32_t>(a)), -a));
}
static void testBitAndArgs(int64_t a, int64_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitAnd, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1)));
CHECK(compileAndRun<int64_t>(proc, a, b) == (a & b));
}
static void testBitAndSameArg(int64_t a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitAnd, Origin(),
argument,
argument));
CHECK(compileAndRun<int64_t>(proc, a) == a);
}
static void testBitAndNotNot(int64_t a, int64_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argA = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
Value* argB = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1);
Value* notA = root->appendNew<Value>(proc, BitXor, Origin(), argA, root->appendNew<Const64Value>(proc, Origin(), -1));
Value* notB = root->appendNew<Value>(proc, BitXor, Origin(), argB, root->appendNew<Const64Value>(proc, Origin(), -1));
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitAnd, Origin(),
notA,
notB));
CHECK_EQ(compileAndRun<int64_t>(proc, a, b), (~a & ~b));
}
static void testBitAndNotNot32(int32_t a, int32_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argA = root->appendNew<Value>(proc, Trunc, Origin(), root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* argB = root->appendNew<Value>(proc, Trunc, Origin(), root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1));
Value* notA = root->appendNew<Value>(proc, BitXor, Origin(), argA, root->appendNew<Const32Value>(proc, Origin(), -1));
Value* notB = root->appendNew<Value>(proc, BitXor, Origin(), argB, root->appendNew<Const32Value>(proc, Origin(), -1));
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitAnd, Origin(),
notA,
notB));
CHECK_EQ(compileAndRun<int32_t>(proc, a, b), (~a & ~b));
}
static void testBitAndNotImm(int64_t a, int64_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argA = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
Value* notA = root->appendNew<Value>(proc, BitXor, Origin(), argA, root->appendNew<Const64Value>(proc, Origin(), -1));
Value* cstB = root->appendNew<Const64Value>(proc, Origin(), b);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitAnd, Origin(),
notA,
cstB));
CHECK_EQ(compileAndRun<int64_t>(proc, a), (~a & b));
}
static void testBitAndNotImm32(int32_t a, int32_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argA = root->appendNew<Value>(proc, Trunc, Origin(), root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* notA = root->appendNew<Value>(proc, BitXor, Origin(), argA, root->appendNew<Const32Value>(proc, Origin(), -1));
Value* cstB = root->appendNew<Const32Value>(proc, Origin(), b);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitAnd, Origin(),
notA,
cstB));
CHECK_EQ(compileAndRun<int32_t>(proc, a), (~a & b));
}
static void testBitAndImms(int64_t a, int64_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitAnd, Origin(),
root->appendNew<Const64Value>(proc, Origin(), a),
root->appendNew<Const64Value>(proc, Origin(), b)));
CHECK(compileAndRun<int64_t>(proc) == (a & b));
}
static void testBitAndArgImm(int64_t a, int64_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitAnd, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0),
root->appendNew<Const64Value>(proc, Origin(), b)));
CHECK(compileAndRun<int64_t>(proc, a) == (a & b));
}
static void testBitAndImmArg(int64_t a, int64_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitAnd, Origin(),
root->appendNew<Const64Value>(proc, Origin(), a),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0)));
CHECK(compileAndRun<int64_t>(proc, b) == (a & b));
}
static void testBitAndBitAndArgImmImm(int64_t a, int64_t b, int64_t c)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* innerBitAnd = root->appendNew<Value>(
proc, BitAnd, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0),
root->appendNew<Const64Value>(proc, Origin(), b));
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitAnd, Origin(),
innerBitAnd,
root->appendNew<Const64Value>(proc, Origin(), c)));
CHECK(compileAndRun<int64_t>(proc, a) == ((a & b) & c));
}
static void testBitAndImmBitAndArgImm(int64_t a, int64_t b, int64_t c)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* innerBitAnd = root->appendNew<Value>(
proc, BitAnd, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0),
root->appendNew<Const64Value>(proc, Origin(), c));
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitAnd, Origin(),
root->appendNew<Const64Value>(proc, Origin(), a),
innerBitAnd));
CHECK(compileAndRun<int64_t>(proc, b) == (a & (b & c)));
}
static void testBitAndArgs32(int a, int b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitAnd, Origin(),
root->appendNew<Value>(
proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0)),
root->appendNew<Value>(
proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1))));
CHECK(compileAndRun<int>(proc, a, b) == (a & b));
}
static void testBitAndSameArg32(int a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument = root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitAnd, Origin(),
argument,
argument));
CHECK(compileAndRun<int>(proc, a) == a);
}
static void testBitAndImms32(int a, int b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitAnd, Origin(),
root->appendNew<Const32Value>(proc, Origin(), a),
root->appendNew<Const32Value>(proc, Origin(), b)));
CHECK(compileAndRun<int>(proc) == (a & b));
}
static void testBitAndArgImm32(int a, int b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitAnd, Origin(),
root->appendNew<Value>(
proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0)),
root->appendNew<Const32Value>(proc, Origin(), b)));
CHECK(compileAndRun<int>(proc, a) == (a & b));
}
static void testBitAndImmArg32(int a, int b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitAnd, Origin(),
root->appendNew<Const32Value>(proc, Origin(), a),
root->appendNew<Value>(
proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0))));
CHECK(compileAndRun<int>(proc, b) == (a & b));
}
static void testBitAndBitAndArgImmImm32(int a, int b, int c)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* innerBitAnd = root->appendNew<Value>(
proc, BitAnd, Origin(),
root->appendNew<Value>(
proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0)),
root->appendNew<Const32Value>(proc, Origin(), b));
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitAnd, Origin(),
innerBitAnd,
root->appendNew<Const32Value>(proc, Origin(), c)));
CHECK(compileAndRun<int>(proc, a) == ((a & b) & c));
}
static void testBitAndImmBitAndArgImm32(int a, int b, int c)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* innerBitAnd = root->appendNew<Value>(
proc, BitAnd, Origin(),
root->appendNew<Value>(
proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0)),
root->appendNew<Const32Value>(proc, Origin(), c));
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitAnd, Origin(),
root->appendNew<Const32Value>(proc, Origin(), a),
innerBitAnd));
CHECK(compileAndRun<int>(proc, b) == (a & (b & c)));
}
static void testBitAndWithMaskReturnsBooleans(int64_t a, int64_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* arg0 = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
Value* arg1 = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1);
Value* equal = root->appendNew<Value>(proc, Equal, Origin(), arg0, arg1);
Value* maskedEqual = root->appendNew<Value>(proc, BitAnd, Origin(),
root->appendNew<Const32Value>(proc, Origin(), 0x5),
equal);
Value* inverted = root->appendNew<Value>(proc, BitXor, Origin(),
root->appendNew<Const32Value>(proc, Origin(), 0x1),
maskedEqual);
Value* select = root->appendNew<Value>(proc, Select, Origin(), inverted,
root->appendNew<Const64Value>(proc, Origin(), 42),
root->appendNew<Const64Value>(proc, Origin(), -5));
root->appendNewControlValue(proc, Return, Origin(), select);
int64_t expected = (a == b) ? -5 : 42;
CHECK(compileAndRun<int64_t>(proc, a, b) == expected);
}
static double bitAndDouble(double a, double b)
{
return bitwise_cast<double>(bitwise_cast<uint64_t>(a) & bitwise_cast<uint64_t>(b));
}
static void testBitAndArgDouble(double a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument = root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR0);
Value* result = root->appendNew<Value>(proc, BitAnd, Origin(), argument, argument);
root->appendNewControlValue(proc, Return, Origin(), result);
CHECK(isIdentical(compileAndRun<double>(proc, a), bitAndDouble(a, a)));
}
static void testBitAndArgsDouble(double a, double b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argumentA = root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR0);
Value* argumentB = root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR1);
Value* result = root->appendNew<Value>(proc, BitAnd, Origin(), argumentA, argumentB);
root->appendNewControlValue(proc, Return, Origin(), result);
CHECK(isIdentical(compileAndRun<double>(proc, a, b), bitAndDouble(a, b)));
}
static void testBitAndArgImmDouble(double a, double b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argumentA = root->appendNew<ArgumentRegValue>(proc, Origin(), FPRInfo::argumentFPR0);
Value* argumentB = root->appendNew<ConstDoubleValue>(proc, Origin(), b);
Value* result = root->appendNew<Value>(proc, BitAnd, Origin(), argumentA, argumentB);
root->appendNewControlValue(proc, Return, Origin(), result);
CHECK(isIdentical(compileAndRun<double>(proc, a, b), bitAndDouble(a, b)));
}
static void testBitAndImmsDouble(double a, double b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argumentA = root->appendNew<ConstDoubleValue>(proc, Origin(), a);
Value* argumentB = root->appendNew<ConstDoubleValue>(proc, Origin(), b);
Value* result = root->appendNew<Value>(proc, BitAnd, Origin(), argumentA, argumentB);
root->appendNewControlValue(proc, Return, Origin(), result);
CHECK(isIdentical(compileAndRun<double>(proc), bitAndDouble(a, b)));
}
static float bitAndFloat(float a, float b)
{
return bitwise_cast<float>(bitwise_cast<uint32_t>(a) & bitwise_cast<uint32_t>(b));
}
static void testBitAndArgFloat(float a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument = root->appendNew<Value>(proc, BitwiseCast, Origin(),
root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0)));
Value* result = root->appendNew<Value>(proc, BitAnd, Origin(), argument, argument);
root->appendNewControlValue(proc, Return, Origin(), result);
CHECK(isIdentical(compileAndRun<float>(proc, bitwise_cast<int32_t>(a)), bitAndFloat(a, a)));
}
static void testBitAndArgsFloat(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argumentA = root->appendNew<Value>(proc, BitwiseCast, Origin(),
root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0)));
Value* argumentB = root->appendNew<Value>(proc, BitwiseCast, Origin(),
root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1)));
Value* result = root->appendNew<Value>(proc, BitAnd, Origin(), argumentA, argumentB);
root->appendNewControlValue(proc, Return, Origin(), result);
CHECK(isIdentical(compileAndRun<float>(proc, bitwise_cast<int32_t>(a), bitwise_cast<int32_t>(b)), bitAndFloat(a, b)));
}
static void testBitAndArgImmFloat(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argumentA = root->appendNew<Value>(proc, BitwiseCast, Origin(),
root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0)));
Value* argumentB = root->appendNew<ConstFloatValue>(proc, Origin(), b);
Value* result = root->appendNew<Value>(proc, BitAnd, Origin(), argumentA, argumentB);
root->appendNewControlValue(proc, Return, Origin(), result);
CHECK(isIdentical(compileAndRun<float>(proc, bitwise_cast<int32_t>(a), bitwise_cast<int32_t>(b)), bitAndFloat(a, b)));
}
static void testBitAndImmsFloat(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argumentA = root->appendNew<ConstFloatValue>(proc, Origin(), a);
Value* argumentB = root->appendNew<ConstFloatValue>(proc, Origin(), b);
Value* result = root->appendNew<Value>(proc, BitAnd, Origin(), argumentA, argumentB);
root->appendNewControlValue(proc, Return, Origin(), result);
CHECK(isIdentical(compileAndRun<float>(proc), bitAndFloat(a, b)));
}
static void testBitAndArgsFloatWithUselessDoubleConversion(float a, float b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argumentA = root->appendNew<Value>(proc, BitwiseCast, Origin(),
root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0)));
Value* argumentB = root->appendNew<Value>(proc, BitwiseCast, Origin(),
root->appendNew<Value>(proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1)));
Value* argumentAasDouble = root->appendNew<Value>(proc, FloatToDouble, Origin(), argumentA);
Value* argumentBasDouble = root->appendNew<Value>(proc, FloatToDouble, Origin(), argumentB);
Value* doubleResult = root->appendNew<Value>(proc, BitAnd, Origin(), argumentAasDouble, argumentBasDouble);
Value* floatResult = root->appendNew<Value>(proc, DoubleToFloat, Origin(), doubleResult);
root->appendNewControlValue(proc, Return, Origin(), floatResult);
double doubleA = a;
double doubleB = b;
float expected = static_cast<float>(bitAndDouble(doubleA, doubleB));
CHECK(isIdentical(compileAndRun<float>(proc, bitwise_cast<int32_t>(a), bitwise_cast<int32_t>(b)), expected));
}
static void testBitOrArgs(int64_t a, int64_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitOr, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1)));
CHECK(compileAndRun<int64_t>(proc, a, b) == (a | b));
}
static void testBitOrSameArg(int64_t a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitOr, Origin(),
argument,
argument));
CHECK(compileAndRun<int64_t>(proc, a) == a);
}
static void testBitOrAndAndArgs(int64_t a, int64_t b, int64_t c)
{
// We want to check every possible ordering of arguments (to properly check every path in B3ReduceStrength):
// ((a & b) | (a & c))
// ((a & b) | (c & a))
// ((b & a) | (a & c))
// ((b & a) | (c & a))
for (int i = 0; i < 4; ++i) {
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argA = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
Value* argB = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1);
Value* argC = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR2);
Value* andAB = i & 2 ? root->appendNew<Value>(proc, BitAnd, Origin(), argA, argB)
: root->appendNew<Value>(proc, BitAnd, Origin(), argB, argA);
Value* andAC = i & 1 ? root->appendNew<Value>(proc, BitAnd, Origin(), argA, argC)
: root->appendNew<Value>(proc, BitAnd, Origin(), argC, argA);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitOr, Origin(),
andAB,
andAC));
CHECK_EQ(compileAndRun<int64_t>(proc, a, b, c), ((a & b) | (a & c)));
}
}
static void testBitOrAndAndArgs32(int32_t a, int32_t b, int32_t c)
{
// We want to check every possible ordering of arguments (to properly check every path in B3ReduceStrength):
// ((a & b) | (a & c))
// ((a & b) | (c & a))
// ((b & a) | (a & c))
// ((b & a) | (c & a))
for (int i = 0; i < 4; ++i) {
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argA = root->appendNew<Value>(proc, Trunc, Origin(), root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* argB = root->appendNew<Value>(proc, Trunc, Origin(), root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1));
Value* argC = root->appendNew<Value>(proc, Trunc, Origin(), root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR2));
Value* andAB = i & 2 ? root->appendNew<Value>(proc, BitAnd, Origin(), argA, argB)
: root->appendNew<Value>(proc, BitAnd, Origin(), argB, argA);
Value* andAC = i & 1 ? root->appendNew<Value>(proc, BitAnd, Origin(), argA, argC)
: root->appendNew<Value>(proc, BitAnd, Origin(), argC, argA);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitOr, Origin(),
andAB,
andAC));
CHECK_EQ(compileAndRun<int32_t>(proc, a, b, c), ((a & b) | (a & c)));
}
}
static void testBitOrAndSameArgs(int64_t a, int64_t b)
{
// We want to check every possible ordering of arguments (to properly check every path in B3ReduceStrength):
// ((a & b) | a)
// ((b & a) | a)
// (a | (a & b))
// (a | (b & a))
for (int i = 0; i < 4; ++i) {
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argA = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
Value* argB = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1);
Value* andAB = i & 1 ? root->appendNew<Value>(proc, BitAnd, Origin(), argA, argB)
: root->appendNew<Value>(proc, BitAnd, Origin(), argB, argA);
Value* result = i & 2 ? root->appendNew<Value>(proc, BitOr, Origin(), andAB, argA)
: root->appendNew<Value>(proc, BitOr, Origin(), argA, andAB);
root->appendNewControlValue(proc, Return, Origin(), result);
CHECK_EQ(compileAndRun<int64_t>(proc, a, b), ((a & b) | a));
}
}
static void testBitOrAndSameArgs32(int32_t a, int32_t b)
{
// We want to check every possible ordering of arguments (to properly check every path in B3ReduceStrength):
// ((a & b) | a)
// ((b & a) | a)
// (a | (a & b))
// (a | (b & a))
for (int i = 0; i < 4; ++i) {
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argA = root->appendNew<Value>(proc, Trunc, Origin(), root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* argB = root->appendNew<Value>(proc, Trunc, Origin(), root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1));
Value* andAB = i & 1 ? root->appendNew<Value>(proc, BitAnd, Origin(), argA, argB)
: root->appendNew<Value>(proc, BitAnd, Origin(), argB, argA);
Value* result = i & 2 ? root->appendNew<Value>(proc, BitOr, Origin(), andAB, argA)
: root->appendNew<Value>(proc, BitOr, Origin(), argA, andAB);
root->appendNewControlValue(proc, Return, Origin(), result);
CHECK_EQ(compileAndRun<int32_t>(proc, a, b), ((a & b) | a));
}
}
static void testBitOrNotNot(int64_t a, int64_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argA = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
Value* argB = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1);
Value* notA = root->appendNew<Value>(proc, BitXor, Origin(), argA, root->appendNew<Const64Value>(proc, Origin(), -1));
Value* notB = root->appendNew<Value>(proc, BitXor, Origin(), argB, root->appendNew<Const64Value>(proc, Origin(), -1));
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitOr, Origin(),
notA,
notB));
CHECK_EQ(compileAndRun<int64_t>(proc, a, b), (~a | ~b));
}
static void testBitOrNotNot32(int32_t a, int32_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argA = root->appendNew<Value>(proc, Trunc, Origin(), root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* argB = root->appendNew<Value>(proc, Trunc, Origin(), root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1));
Value* notA = root->appendNew<Value>(proc, BitXor, Origin(), argA, root->appendNew<Const32Value>(proc, Origin(), -1));
Value* notB = root->appendNew<Value>(proc, BitXor, Origin(), argB, root->appendNew<Const32Value>(proc, Origin(), -1));
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitOr, Origin(),
notA,
notB));
CHECK_EQ(compileAndRun<int32_t>(proc, a, b), (~a | ~b));
}
static void testBitOrNotImm(int64_t a, int64_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argA = root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0);
Value* notA = root->appendNew<Value>(proc, BitXor, Origin(), argA, root->appendNew<Const64Value>(proc, Origin(), -1));
Value* cstB = root->appendNew<Const64Value>(proc, Origin(), b);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitOr, Origin(),
notA,
cstB));
CHECK_EQ(compileAndRun<int64_t>(proc, a, b), (~a | b));
}
static void testBitOrNotImm32(int32_t a, int32_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argA = root->appendNew<Value>(proc, Trunc, Origin(), root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
Value* notA = root->appendNew<Value>(proc, BitXor, Origin(), argA, root->appendNew<Const32Value>(proc, Origin(), -1));
Value* cstB = root->appendNew<Const32Value>(proc, Origin(), b);
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitOr, Origin(),
notA,
cstB));
CHECK_EQ(compileAndRun<int32_t>(proc, a), (~a | b));
}
static void testBitOrImms(int64_t a, int64_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitOr, Origin(),
root->appendNew<Const64Value>(proc, Origin(), a),
root->appendNew<Const64Value>(proc, Origin(), b)));
CHECK(compileAndRun<int64_t>(proc) == (a | b));
}
static void testBitOrArgImm(int64_t a, int64_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitOr, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0),
root->appendNew<Const64Value>(proc, Origin(), b)));
CHECK(compileAndRun<int64_t>(proc, a) == (a | b));
}
static void testBitOrImmArg(int64_t a, int64_t b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitOr, Origin(),
root->appendNew<Const64Value>(proc, Origin(), a),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0)));
CHECK(compileAndRun<int64_t>(proc, b) == (a | b));
}
static void testBitOrBitOrArgImmImm(int64_t a, int64_t b, int64_t c)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* innerBitOr = root->appendNew<Value>(
proc, BitOr, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0),
root->appendNew<Const64Value>(proc, Origin(), b));
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitOr, Origin(),
innerBitOr,
root->appendNew<Const64Value>(proc, Origin(), c)));
CHECK(compileAndRun<int64_t>(proc, a) == ((a | b) | c));
}
static void testBitOrImmBitOrArgImm(int64_t a, int64_t b, int64_t c)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* innerBitOr = root->appendNew<Value>(
proc, BitOr, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0),
root->appendNew<Const64Value>(proc, Origin(), c));
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitOr, Origin(),
root->appendNew<Const64Value>(proc, Origin(), a),
innerBitOr));
CHECK(compileAndRun<int64_t>(proc, b) == (a | (b | c)));
}
static void testBitOrArgs32(int a, int b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitOr, Origin(),
root->appendNew<Value>(
proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0)),
root->appendNew<Value>(
proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR1))));
CHECK(compileAndRun<int>(proc, a, b) == (a | b));
}
static void testBitOrSameArg32(int a)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
Value* argument = root->appendNew<Value>(
proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0));
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitOr, Origin(),
argument,
argument));
CHECK(compileAndRun<int>(proc, a) == a);
}
static void testBitOrImms32(int a, int b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitOr, Origin(),
root->appendNew<Const32Value>(proc, Origin(), a),
root->appendNew<Const32Value>(proc, Origin(), b)));
CHECK(compileAndRun<int>(proc) == (a | b));
}
static void testBitOrArgImm32(int a, int b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitOr, Origin(),
root->appendNew<Value>(
proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0)),
root->appendNew<Const32Value>(proc, Origin(), b)));
CHECK(compileAndRun<int>(proc, a) == (a | b));
}
static void testBitOrImmArg32(int a, int b)
{
Procedure proc;
BasicBlock* root = proc.addBlock();
root->appendNewControlValue(
proc, Return, Origin(),
root->appendNew<Value>(
proc, BitOr, Origin(),
root->appendNew<Const32Value>(proc, Origin(), a),
root->appendNew<Value>(
proc, Trunc, Origin(),
root->appendNew<ArgumentRegValue>(proc, Origin(), GPRInfo::argumentGPR0))));
CHECK(compileAndRun<int>(proc, b) == (a | b));
}
void addBitTests(const char* filter, Deque<RefPtr<SharedTask<void()>>>& tasks)
{
RUN(testBitAndArgs(43, 43));
RUN(testBitAndArgs(43, 0));
RUN(testBitAndArgs(10, 3));
RUN(testBitAndArgs(42, 0xffffffffffffffff));
RUN(testBitAndSameArg(43));
RUN(testBitAndSameArg(0));
RUN(testBitAndSameArg(3));
RUN(testBitAndSameArg(0xffffffffffffffff));
RUN(testBitAndImms(43, 43));
RUN(testBitAndImms(43, 0));
RUN(testBitAndImms(10, 3));
RUN(testBitAndImms(42, 0xffffffffffffffff));
RUN(testBitAndArgImm(43, 43));
RUN(testBitAndArgImm(43, 0));
RUN(testBitAndArgImm(10, 3));
RUN(testBitAndArgImm(42, 0xffffffffffffffff));
RUN(testBitAndArgImm(42, 0xff));
RUN(testBitAndArgImm(300, 0xff));
RUN(testBitAndArgImm(-300, 0xff));
RUN(testBitAndArgImm(42, 0xffff));
RUN(testBitAndArgImm(40000, 0xffff));
RUN(testBitAndArgImm(-40000, 0xffff));
RUN(testBitAndImmArg(43, 43));
RUN(testBitAndImmArg(43, 0));
RUN(testBitAndImmArg(10, 3));
RUN(testBitAndImmArg(42, 0xffffffffffffffff));
RUN(testBitAndBitAndArgImmImm(2, 7, 3));
RUN(testBitAndBitAndArgImmImm(1, 6, 6));
RUN(testBitAndBitAndArgImmImm(0xffff, 24, 7));
RUN(testBitAndImmBitAndArgImm(7, 2, 3));
RUN(testBitAndImmBitAndArgImm(6, 1, 6));
RUN(testBitAndImmBitAndArgImm(24, 0xffff, 7));
RUN(testBitAndArgs32(43, 43));
RUN(testBitAndArgs32(43, 0));
RUN(testBitAndArgs32(10, 3));
RUN(testBitAndArgs32(42, 0xffffffff));
RUN(testBitAndSameArg32(43));
RUN(testBitAndSameArg32(0));
RUN(testBitAndSameArg32(3));
RUN(testBitAndSameArg32(0xffffffff));
RUN(testBitAndImms32(43, 43));
RUN(testBitAndImms32(43, 0));
RUN(testBitAndImms32(10, 3));
RUN(testBitAndImms32(42, 0xffffffff));
RUN(testBitAndArgImm32(43, 43));
RUN(testBitAndArgImm32(43, 0));
RUN(testBitAndArgImm32(10, 3));
RUN(testBitAndArgImm32(42, 0xffffffff));
RUN(testBitAndImmArg32(43, 43));
RUN(testBitAndImmArg32(43, 0));
RUN(testBitAndImmArg32(10, 3));
RUN(testBitAndImmArg32(42, 0xffffffff));
RUN(testBitAndImmArg32(42, 0xff));
RUN(testBitAndImmArg32(300, 0xff));
RUN(testBitAndImmArg32(-300, 0xff));
RUN(testBitAndImmArg32(42, 0xffff));
RUN(testBitAndImmArg32(40000, 0xffff));
RUN(testBitAndImmArg32(-40000, 0xffff));
RUN(testBitAndBitAndArgImmImm32(2, 7, 3));
RUN(testBitAndBitAndArgImmImm32(1, 6, 6));
RUN(testBitAndBitAndArgImmImm32(0xffff, 24, 7));
RUN(testBitAndImmBitAndArgImm32(7, 2, 3));
RUN(testBitAndImmBitAndArgImm32(6, 1, 6));
RUN(testBitAndImmBitAndArgImm32(24, 0xffff, 7));
RUN_BINARY(testBitAndWithMaskReturnsBooleans, int64Operands(), int64Operands());
RUN_UNARY(testBitAndArgDouble, floatingPointOperands<double>());
RUN_BINARY(testBitAndArgsDouble, floatingPointOperands<double>(), floatingPointOperands<double>());
RUN_BINARY(testBitAndArgImmDouble, floatingPointOperands<double>(), floatingPointOperands<double>());
RUN_BINARY(testBitAndImmsDouble, floatingPointOperands<double>(), floatingPointOperands<double>());
RUN_UNARY(testBitAndArgFloat, floatingPointOperands<float>());
RUN_BINARY(testBitAndArgsFloat, floatingPointOperands<float>(), floatingPointOperands<float>());
RUN_BINARY(testBitAndArgImmFloat, floatingPointOperands<float>(), floatingPointOperands<float>());
RUN_BINARY(testBitAndImmsFloat, floatingPointOperands<float>(), floatingPointOperands<float>());
RUN_BINARY(testBitAndArgsFloatWithUselessDoubleConversion, floatingPointOperands<float>(), floatingPointOperands<float>());
RUN_BINARY(testBitAndNotNot, int64Operands(), int64Operands());
RUN_BINARY(testBitAndNotNot32, int32Operands(), int32Operands());
RUN_BINARY(testBitAndNotImm, int64Operands(), int64Operands());
RUN_BINARY(testBitAndNotImm32, int32Operands(), int32Operands());
RUN(testBitOrArgs(43, 43));
RUN(testBitOrArgs(43, 0));
RUN(testBitOrArgs(10, 3));
RUN(testBitOrArgs(42, 0xffffffffffffffff));
RUN(testBitOrSameArg(43));
RUN(testBitOrSameArg(0));
RUN(testBitOrSameArg(3));
RUN(testBitOrSameArg(0xffffffffffffffff));
RUN(testBitOrImms(43, 43));
RUN(testBitOrImms(43, 0));
RUN(testBitOrImms(10, 3));
RUN(testBitOrImms(42, 0xffffffffffffffff));
RUN(testBitOrArgImm(43, 43));
RUN(testBitOrArgImm(43, 0));
RUN(testBitOrArgImm(10, 3));
RUN(testBitOrArgImm(42, 0xffffffffffffffff));
RUN(testBitOrImmArg(43, 43));
RUN(testBitOrImmArg(43, 0));
RUN(testBitOrImmArg(10, 3));
RUN(testBitOrImmArg(42, 0xffffffffffffffff));
RUN(testBitOrBitOrArgImmImm(2, 7, 3));
RUN(testBitOrBitOrArgImmImm(1, 6, 6));
RUN(testBitOrBitOrArgImmImm(0xffff, 24, 7));
RUN(testBitOrImmBitOrArgImm(7, 2, 3));
RUN(testBitOrImmBitOrArgImm(6, 1, 6));
RUN(testBitOrImmBitOrArgImm(24, 0xffff, 7));
RUN(testBitOrArgs32(43, 43));
RUN(testBitOrArgs32(43, 0));
RUN(testBitOrArgs32(10, 3));
RUN(testBitOrArgs32(42, 0xffffffff));
RUN(testBitOrSameArg32(43));
RUN(testBitOrSameArg32(0));
RUN(testBitOrSameArg32(3));
RUN(testBitOrSameArg32(0xffffffff));
RUN(testBitOrImms32(43, 43));
RUN(testBitOrImms32(43, 0));
RUN(testBitOrImms32(10, 3));
RUN(testBitOrImms32(42, 0xffffffff));
RUN(testBitOrArgImm32(43, 43));
RUN(testBitOrArgImm32(43, 0));
RUN(testBitOrArgImm32(10, 3));
RUN(testBitOrArgImm32(42, 0xffffffff));
RUN(testBitOrImmArg32(43, 43));
RUN(testBitOrImmArg32(43, 0));
RUN(testBitOrImmArg32(10, 3));
RUN(testBitOrImmArg32(42, 0xffffffff));
RUN(testBitOrBitOrArgImmImm32(2, 7, 3));
RUN(testBitOrBitOrArgImmImm32(1, 6, 6));
RUN(testBitOrBitOrArgImmImm32(0xffff, 24, 7));
RUN(testBitOrImmBitOrArgImm32(7, 2, 3));
RUN(testBitOrImmBitOrArgImm32(6, 1, 6));
RUN(testBitOrImmBitOrArgImm32(24, 0xffff, 7));
RUN_UNARY(testBitOrArgDouble, floatingPointOperands<double>());
RUN_BINARY(testBitOrArgsDouble, floatingPointOperands<double>(), floatingPointOperands<double>());
RUN_BINARY(testBitOrArgImmDouble, floatingPointOperands<double>(), floatingPointOperands<double>());
RUN_BINARY(testBitOrImmsDouble, floatingPointOperands<double>(), floatingPointOperands<double>());
RUN_UNARY(testBitOrArgFloat, floatingPointOperands<float>());
RUN_BINARY(testBitOrArgsFloat, floatingPointOperands<float>(), floatingPointOperands<float>());
RUN_BINARY(testBitOrArgImmFloat, floatingPointOperands<float>(), floatingPointOperands<float>());
RUN_BINARY(testBitOrImmsFloat, floatingPointOperands<float>(), floatingPointOperands<float>());
RUN_BINARY(testBitOrArgsFloatWithUselessDoubleConversion, floatingPointOperands<float>(), floatingPointOperands<float>());
RUN_TERNARY(testBitOrAndAndArgs, int64Operands(), int64Operands(), int64Operands());
RUN_TERNARY(testBitOrAndAndArgs32, int32Operands(), int32Operands(), int32Operands());
RUN_BINARY(testBitOrAndSameArgs, int64Operands(), int64Operands());
RUN_BINARY(testBitOrAndSameArgs32, int32Operands(), int32Operands());
RUN_BINARY(testBitOrNotNot, int64Operands(), int64Operands());
RUN_BINARY(testBitOrNotNot32, int32Operands(), int32Operands());
RUN_BINARY(testBitOrNotImm, int64Operands(), int64Operands());
RUN_BINARY(testBitOrNotImm32, int32Operands(), int32Operands());
RUN_BINARY(testBitXorArgs, int64Operands(), int64Operands());
RUN_UNARY(testBitXorSameArg, int64Operands());
RUN_BINARY(testBitXorImms, int64Operands(), int64Operands());
RUN_BINARY(testBitXorArgImm, int64Operands(), int64Operands());
RUN_BINARY(testBitXorImmArg, int64Operands(), int64Operands());
RUN(testBitXorBitXorArgImmImm(2, 7, 3));
RUN(testBitXorBitXorArgImmImm(1, 6, 6));
RUN(testBitXorBitXorArgImmImm(0xffff, 24, 7));
RUN(testBitXorImmBitXorArgImm(7, 2, 3));
RUN(testBitXorImmBitXorArgImm(6, 1, 6));
RUN(testBitXorImmBitXorArgImm(24, 0xffff, 7));
RUN(testBitXorArgs32(43, 43));
RUN(testBitXorArgs32(43, 0));
RUN(testBitXorArgs32(10, 3));
RUN(testBitXorArgs32(42, 0xffffffff));
RUN(testBitXorSameArg32(43));
RUN(testBitXorSameArg32(0));
RUN(testBitXorSameArg32(3));
RUN(testBitXorSameArg32(0xffffffff));
RUN(testBitXorImms32(43, 43));
RUN(testBitXorImms32(43, 0));
RUN(testBitXorImms32(10, 3));
RUN(testBitXorImms32(42, 0xffffffff));
RUN(testBitXorArgImm32(43, 43));
RUN(testBitXorArgImm32(43, 0));
RUN(testBitXorArgImm32(10, 3));
RUN(testBitXorArgImm32(42, 0xffffffff));
RUN(testBitXorImmArg32(43, 43));
RUN(testBitXorImmArg32(43, 0));
RUN(testBitXorImmArg32(10, 3));
RUN(testBitXorImmArg32(42, 0xffffffff));
RUN(testBitXorBitXorArgImmImm32(2, 7, 3));
RUN(testBitXorBitXorArgImmImm32(1, 6, 6));
RUN(testBitXorBitXorArgImmImm32(0xffff, 24, 7));
RUN(testBitXorImmBitXorArgImm32(7, 2, 3));
RUN(testBitXorImmBitXorArgImm32(6, 1, 6));
RUN(testBitXorImmBitXorArgImm32(24, 0xffff, 7));
RUN_TERNARY(testBitXorAndAndArgs, int64Operands(), int64Operands(), int64Operands());
RUN_TERNARY(testBitXorAndAndArgs32, int32Operands(), int32Operands(), int32Operands());
RUN_BINARY(testBitXorAndSameArgs, int64Operands(), int64Operands());
RUN_BINARY(testBitXorAndSameArgs32, int32Operands(), int32Operands());
RUN_UNARY(testBitNotArg, int64Operands());
RUN_UNARY(testBitNotImm, int64Operands());
RUN_UNARY(testBitNotMem, int64Operands());
RUN_UNARY(testBitNotArg32, int32Operands());
RUN_UNARY(testBitNotImm32, int32Operands());
RUN_UNARY(testBitNotMem32, int32Operands());
RUN_BINARY(testNotOnBooleanAndBranch32, int32Operands(), int32Operands());
RUN_BINARY(testBitNotOnBooleanAndBranch32, int32Operands(), int32Operands());
RUN_BINARY(testBitXorTreeArgs, int64Operands(), int64Operands());
RUN_BINARY(testBitXorTreeArgsEven, int64Operands(), int64Operands());
RUN_BINARY(testBitXorTreeArgImm, int64Operands(), int64Operands());
RUN_UNARY(testBitAndTreeArg32, int32Operands());
RUN_UNARY(testBitOrTreeArg32, int32Operands());
}
#endif // ENABLE(B3_JIT)