MacroAssemblerCodeRef roundThunkGenerator(JSGlobalData* globalData) { SpecializedThunkJIT jit(1); if (!UnaryDoubleOpWrapper(jsRound) || !jit.supportsFloatingPoint()) return MacroAssemblerCodeRef::createSelfManagedCodeRef(globalData->jitStubs->ctiNativeCall()); MacroAssembler::Jump nonIntJump; jit.loadInt32Argument(0, SpecializedThunkJIT::regT0, nonIntJump); jit.returnInt32(SpecializedThunkJIT::regT0); nonIntJump.link(&jit); jit.loadDoubleArgument(0, SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::regT0); SpecializedThunkJIT::Jump intResult; SpecializedThunkJIT::JumpList doubleResult; if (jit.supportsFloatingPointTruncate()) { jit.loadDouble(&zeroConstant, SpecializedThunkJIT::fpRegT1); doubleResult.append(jit.branchDouble(MacroAssembler::DoubleEqual, SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::fpRegT1)); SpecializedThunkJIT::JumpList slowPath; // Handle the negative doubles in the slow path for now. slowPath.append(jit.branchDouble(MacroAssembler::DoubleLessThanOrUnordered, SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::fpRegT1)); jit.loadDouble(&halfConstant, SpecializedThunkJIT::fpRegT1); jit.addDouble(SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::fpRegT1); slowPath.append(jit.branchTruncateDoubleToInt32(SpecializedThunkJIT::fpRegT1, SpecializedThunkJIT::regT0)); intResult = jit.jump(); slowPath.link(&jit); } jit.callDoubleToDouble(UnaryDoubleOpWrapper(jsRound)); jit.branchConvertDoubleToInt32(SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::regT0, doubleResult, SpecializedThunkJIT::fpRegT1); if (jit.supportsFloatingPointTruncate()) intResult.link(&jit); jit.returnInt32(SpecializedThunkJIT::regT0); doubleResult.link(&jit); jit.returnDouble(SpecializedThunkJIT::fpRegT0); return jit.finalize(*globalData, globalData->jitStubs->ctiNativeCall(), "round"); }
MacroAssemblerCodePtr powThunkGenerator(JSGlobalData* globalData, ExecutablePool* pool) { #if USE(JSVALUE64) || USE(JSVALUE32_64) SpecializedThunkJIT jit(2, globalData, pool); if (!jit.supportsFloatingPoint()) return globalData->jitStubs->ctiNativeCall(); jit.loadDouble(&oneConstant, SpecializedThunkJIT::fpRegT1); jit.loadDoubleArgument(0, SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::regT0); MacroAssembler::Jump nonIntExponent; jit.loadInt32Argument(1, SpecializedThunkJIT::regT0, nonIntExponent); jit.appendFailure(jit.branch32(MacroAssembler::LessThan, SpecializedThunkJIT::regT0, MacroAssembler::Imm32(0))); MacroAssembler::Jump exponentIsZero = jit.branchTest32(MacroAssembler::Zero, SpecializedThunkJIT::regT0); MacroAssembler::Label startLoop(jit.label()); MacroAssembler::Jump exponentIsEven = jit.branchTest32(MacroAssembler::Zero, SpecializedThunkJIT::regT0, MacroAssembler::Imm32(1)); jit.mulDouble(SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::fpRegT1); exponentIsEven.link(&jit); jit.mulDouble(SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::fpRegT0); jit.rshift32(MacroAssembler::Imm32(1), SpecializedThunkJIT::regT0); jit.branchTest32(MacroAssembler::NonZero, SpecializedThunkJIT::regT0).linkTo(startLoop, &jit); exponentIsZero.link(&jit); { SpecializedThunkJIT::JumpList doubleResult; jit.branchConvertDoubleToInt32(SpecializedThunkJIT::fpRegT1, SpecializedThunkJIT::regT0, doubleResult, SpecializedThunkJIT::fpRegT0); jit.returnInt32(SpecializedThunkJIT::regT0); doubleResult.link(&jit); jit.returnDouble(SpecializedThunkJIT::fpRegT1); } if (jit.supportsFloatingPointSqrt()) { nonIntExponent.link(&jit); jit.loadDouble(&negativeHalfConstant, SpecializedThunkJIT::fpRegT3); jit.loadDoubleArgument(1, SpecializedThunkJIT::fpRegT2, SpecializedThunkJIT::regT0); jit.appendFailure(jit.branchDouble(MacroAssembler::DoubleLessThanOrEqual, SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::fpRegT1)); jit.appendFailure(jit.branchDouble(MacroAssembler::DoubleNotEqualOrUnordered, SpecializedThunkJIT::fpRegT2, SpecializedThunkJIT::fpRegT3)); jit.sqrtDouble(SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::fpRegT0); jit.divDouble(SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::fpRegT1); SpecializedThunkJIT::JumpList doubleResult; jit.branchConvertDoubleToInt32(SpecializedThunkJIT::fpRegT1, SpecializedThunkJIT::regT0, doubleResult, SpecializedThunkJIT::fpRegT0); jit.returnInt32(SpecializedThunkJIT::regT0); doubleResult.link(&jit); jit.returnDouble(SpecializedThunkJIT::fpRegT1); } else jit.appendFailure(nonIntExponent); return jit.finalize(globalData->jitStubs->ctiNativeCall()); #else UNUSED_PARAM(pool); return globalData->jitStubs->ctiNativeCall(); #endif }
MacroAssemblerCodeRef powThunkGenerator(JSGlobalData* globalData) { SpecializedThunkJIT jit(2); if (!jit.supportsFloatingPoint()) return MacroAssemblerCodeRef::createSelfManagedCodeRef(globalData->jitStubs->ctiNativeCall()); jit.loadDouble(&oneConstant, SpecializedThunkJIT::fpRegT1); jit.loadDoubleArgument(0, SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::regT0); MacroAssembler::Jump nonIntExponent; jit.loadInt32Argument(1, SpecializedThunkJIT::regT0, nonIntExponent); jit.appendFailure(jit.branch32(MacroAssembler::LessThan, SpecializedThunkJIT::regT0, MacroAssembler::TrustedImm32(0))); MacroAssembler::Jump exponentIsZero = jit.branchTest32(MacroAssembler::Zero, SpecializedThunkJIT::regT0); MacroAssembler::Label startLoop(jit.label()); MacroAssembler::Jump exponentIsEven = jit.branchTest32(MacroAssembler::Zero, SpecializedThunkJIT::regT0, MacroAssembler::TrustedImm32(1)); jit.mulDouble(SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::fpRegT1); exponentIsEven.link(&jit); jit.mulDouble(SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::fpRegT0); jit.rshift32(MacroAssembler::TrustedImm32(1), SpecializedThunkJIT::regT0); jit.branchTest32(MacroAssembler::NonZero, SpecializedThunkJIT::regT0).linkTo(startLoop, &jit); exponentIsZero.link(&jit); { SpecializedThunkJIT::JumpList doubleResult; jit.branchConvertDoubleToInt32(SpecializedThunkJIT::fpRegT1, SpecializedThunkJIT::regT0, doubleResult, SpecializedThunkJIT::fpRegT0); jit.returnInt32(SpecializedThunkJIT::regT0); doubleResult.link(&jit); jit.returnDouble(SpecializedThunkJIT::fpRegT1); } if (jit.supportsFloatingPointSqrt()) { nonIntExponent.link(&jit); jit.loadDouble(&negativeHalfConstant, SpecializedThunkJIT::fpRegT3); jit.loadDoubleArgument(1, SpecializedThunkJIT::fpRegT2, SpecializedThunkJIT::regT0); jit.appendFailure(jit.branchDouble(MacroAssembler::DoubleLessThanOrEqual, SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::fpRegT1)); jit.appendFailure(jit.branchDouble(MacroAssembler::DoubleNotEqualOrUnordered, SpecializedThunkJIT::fpRegT2, SpecializedThunkJIT::fpRegT3)); jit.sqrtDouble(SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::fpRegT0); jit.divDouble(SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::fpRegT1); SpecializedThunkJIT::JumpList doubleResult; jit.branchConvertDoubleToInt32(SpecializedThunkJIT::fpRegT1, SpecializedThunkJIT::regT0, doubleResult, SpecializedThunkJIT::fpRegT0); jit.returnInt32(SpecializedThunkJIT::regT0); doubleResult.link(&jit); jit.returnDouble(SpecializedThunkJIT::fpRegT1); } else jit.appendFailure(nonIntExponent); return jit.finalize(*globalData, globalData->jitStubs->ctiNativeCall(), "pow"); }
MacroAssemblerCodeRef floorThunkGenerator(VM* vm) { SpecializedThunkJIT jit(vm, 1); MacroAssembler::Jump nonIntJump; if (!UnaryDoubleOpWrapper(floor) || !jit.supportsFloatingPoint()) return MacroAssemblerCodeRef::createSelfManagedCodeRef(vm->jitStubs->ctiNativeCall(vm)); jit.loadInt32Argument(0, SpecializedThunkJIT::regT0, nonIntJump); jit.returnInt32(SpecializedThunkJIT::regT0); nonIntJump.link(&jit); jit.loadDoubleArgument(0, SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::regT0); #if CPU(ARM64) SpecializedThunkJIT::JumpList doubleResult; jit.floorDouble(SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::fpRegT0); jit.branchConvertDoubleToInt32(SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::regT0, doubleResult, SpecializedThunkJIT::fpRegT1); jit.returnInt32(SpecializedThunkJIT::regT0); doubleResult.link(&jit); jit.returnDouble(SpecializedThunkJIT::fpRegT0); #else SpecializedThunkJIT::Jump intResult; SpecializedThunkJIT::JumpList doubleResult; if (jit.supportsFloatingPointTruncate()) { jit.loadDouble(&zeroConstant, SpecializedThunkJIT::fpRegT1); doubleResult.append(jit.branchDouble(MacroAssembler::DoubleEqual, SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::fpRegT1)); SpecializedThunkJIT::JumpList slowPath; // Handle the negative doubles in the slow path for now. slowPath.append(jit.branchDouble(MacroAssembler::DoubleLessThanOrUnordered, SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::fpRegT1)); slowPath.append(jit.branchTruncateDoubleToInt32(SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::regT0)); intResult = jit.jump(); slowPath.link(&jit); } jit.callDoubleToDoublePreservingReturn(UnaryDoubleOpWrapper(floor)); jit.branchConvertDoubleToInt32(SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::regT0, doubleResult, SpecializedThunkJIT::fpRegT1); if (jit.supportsFloatingPointTruncate()) intResult.link(&jit); jit.returnInt32(SpecializedThunkJIT::regT0); doubleResult.link(&jit); jit.returnDouble(SpecializedThunkJIT::fpRegT0); #endif // CPU(ARM64) return jit.finalize(vm->jitStubs->ctiNativeTailCall(vm), "floor"); }
MacroAssemblerCodeRef ceilThunkGenerator(JSGlobalData* globalData) { SpecializedThunkJIT jit(1); if (!UnaryDoubleOpWrapper(ceil) || !jit.supportsFloatingPoint()) return MacroAssemblerCodeRef::createSelfManagedCodeRef(globalData->jitStubs->ctiNativeCall()); MacroAssembler::Jump nonIntJump; jit.loadInt32Argument(0, SpecializedThunkJIT::regT0, nonIntJump); jit.returnInt32(SpecializedThunkJIT::regT0); nonIntJump.link(&jit); jit.loadDoubleArgument(0, SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::regT0); jit.callDoubleToDouble(UnaryDoubleOpWrapper(ceil)); SpecializedThunkJIT::JumpList doubleResult; jit.branchConvertDoubleToInt32(SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::regT0, doubleResult, SpecializedThunkJIT::fpRegT1); jit.returnInt32(SpecializedThunkJIT::regT0); doubleResult.link(&jit); jit.returnDouble(SpecializedThunkJIT::fpRegT0); return jit.finalize(*globalData, globalData->jitStubs->ctiNativeCall(), "ceil"); }
MacroAssemblerCodeRef ceilThunkGenerator(VM* vm) { SpecializedThunkJIT jit(vm, 1); if (!UnaryDoubleOpWrapper(ceil) || !jit.supportsFloatingPoint()) return MacroAssemblerCodeRef::createSelfManagedCodeRef(vm->jitStubs->ctiNativeCall(vm)); MacroAssembler::Jump nonIntJump; jit.loadInt32Argument(0, SpecializedThunkJIT::regT0, nonIntJump); jit.returnInt32(SpecializedThunkJIT::regT0); nonIntJump.link(&jit); jit.loadDoubleArgument(0, SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::regT0); #if CPU(ARM64) jit.ceilDouble(SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::fpRegT0); #else jit.callDoubleToDoublePreservingReturn(UnaryDoubleOpWrapper(ceil)); #endif // CPU(ARM64) SpecializedThunkJIT::JumpList doubleResult; jit.branchConvertDoubleToInt32(SpecializedThunkJIT::fpRegT0, SpecializedThunkJIT::regT0, doubleResult, SpecializedThunkJIT::fpRegT1); jit.returnInt32(SpecializedThunkJIT::regT0); doubleResult.link(&jit); jit.returnDouble(SpecializedThunkJIT::fpRegT0); return jit.finalize(vm->jitStubs->ctiNativeTailCall(vm), "ceil"); }