#include "config.h"
#include "ArithProfile.h"
#include "CCallHelpers.h"
#include "JSCInlines.h"
namespace JSC {
#if ENABLE(JIT)
void ArithProfile::emitObserveResult(CCallHelpers& jit, JSValueRegs regs, TagRegistersMode mode)
{
if (!shouldEmitSetDouble() && !shouldEmitSetNonNumber())
return;
CCallHelpers::Jump isInt32 = jit.branchIfInt32(regs, mode);
CCallHelpers::Jump notDouble = jit.branchIfNotDoubleKnownNotInt32(regs, mode);
emitSetDouble(jit);
CCallHelpers::Jump done = jit.jump();
notDouble.link(&jit);
emitSetNonNumber(jit);
done.link(&jit);
isInt32.link(&jit);
}
bool ArithProfile::shouldEmitSetDouble() const
{
uint32_t mask = ArithProfile::Int32Overflow | ArithProfile::Int52Overflow | ArithProfile::NegZeroDouble | ArithProfile::NonNegZeroDouble;
return (m_bits & mask) != mask;
}
void ArithProfile::emitSetDouble(CCallHelpers& jit) const
{
if (shouldEmitSetDouble())
jit.or32(CCallHelpers::TrustedImm32(ArithProfile::Int32Overflow | ArithProfile::Int52Overflow | ArithProfile::NegZeroDouble | ArithProfile::NonNegZeroDouble), CCallHelpers::AbsoluteAddress(addressOfBits()));
}
bool ArithProfile::shouldEmitSetNonNumber() const
{
uint32_t mask = ArithProfile::NonNumber;
return (m_bits & mask) != mask;
}
void ArithProfile::emitSetNonNumber(CCallHelpers& jit) const
{
if (shouldEmitSetNonNumber())
jit.or32(CCallHelpers::TrustedImm32(ArithProfile::NonNumber), CCallHelpers::AbsoluteAddress(addressOfBits()));
}
#endif // ENABLE(JIT)
}
namespace WTF {
using namespace JSC;
void printInternal(PrintStream& out, const ArithProfile& profile)
{
const char* separator = "";
out.print("Result:<");
if (!profile.didObserveNonInt32()) {
out.print("Int32");
separator = "|";
} else {
if (profile.didObserveNegZeroDouble()) {
out.print(separator, "NegZeroDouble");
separator = "|";
}
if (profile.didObserveNonNegZeroDouble()) {
out.print(separator, "NonNegZeroDouble");
separator = "|";
}
if (profile.didObserveNonNumber()) {
out.print(separator, "NonNumber");
separator = "|";
}
if (profile.didObserveInt32Overflow()) {
out.print(separator, "Int32Overflow");
separator = "|";
}
if (profile.didObserveInt52Overflow()) {
out.print(separator, "Int52Overflow");
separator = "|";
}
}
if (profile.tookSpecialFastPath())
out.print(separator, "Took special fast path.");
out.print(">");
out.print(" LHS ObservedType:<");
out.print(profile.lhsObservedType());
out.print("> RHS ObservedType:<");
out.print(profile.rhsObservedType());
out.print(">");
out.print(" LHS ResultType:<", RawPointer(bitwise_cast<void*>(static_cast<uintptr_t>(profile.lhsResultType().bits()))));
out.print("> RHS ResultType:<", RawPointer(bitwise_cast<void*>(static_cast<uintptr_t>(profile.rhsResultType().bits()))));
out.print(">");
}
void printInternal(PrintStream& out, const JSC::ObservedType& observedType)
{
const char* separator = "";
if (observedType.sawInt32()) {
out.print(separator, "Int32");
separator = "|";
}
if (observedType.sawNumber()) {
out.print(separator, "Number");
separator = "|";
}
if (observedType.sawNonNumber()) {
out.print(separator, "NonNumber");
separator = "|";
}
}
}