gzdoom-gles/src/scripting/vm/jit_load.cpp


#include "jitintern.h"

/////////////////////////////////////////////////////////////////////////////
// Load constants.

void JitCompiler::EmitLI()
{
	cc.mov(regD[A], BCs);
}

void JitCompiler::EmitLK()
{
	cc.mov(regD[A], konstd[BC]);
}

void JitCompiler::EmitLKF()
{
	auto tmp = cc.newIntPtr();
	cc.mov(tmp, ToMemAddress(konstf + BC));
	cc.movsd(regF[A], asmjit::x86::qword_ptr(tmp));
}

void JitCompiler::EmitLKS()
{
	auto loadLambda = [] (FString* to, FString* from) -> void {
		*to = *from;
	};
	auto call = cc.call(ToMemAddress(reinterpret_cast<void*>(static_cast<void(*)(FString*, FString*)>(loadLambda))),
		                asmjit::FuncSignature2<void, FString*, FString*>(asmjit::CallConv::kIdHostCDecl));
	call->setArg(0, regS[A]);
	call->setArg(1, asmjit::imm(ToMemAddress(konsts + BC)));
}

void JitCompiler::EmitLKP()
{
	cc.mov(regA[A], (int64_t)konsta[BC].v);
}

void JitCompiler::EmitLK_R()
{
	cc.mov(regD[A], asmjit::x86::ptr(ToMemAddress(konstd), regD[B], 2, C * sizeof(int32_t)));
}

void JitCompiler::EmitLKF_R()
{
	auto tmp = cc.newIntPtr();
	cc.mov(tmp, ToMemAddress(konstf + BC));
	cc.movsd(regF[A], asmjit::x86::qword_ptr(tmp, regD[B], 3, C * sizeof(double)));
}

void JitCompiler::EmitLKS_R()
{
	I_FatalError("EmitLKS_R not implemented\n");
}

void JitCompiler::EmitLKP_R()
{
	cc.mov(regA[A], asmjit::x86::ptr(ToMemAddress(konsta), regD[B], 2, C * sizeof(void*)));
}

void JitCompiler::EmitLFP()
{
	I_FatalError("EmitLFP not implemented\n");
}

void JitCompiler::EmitMETA()
{
	typedef void*(*FuncPtr)(void*);

	auto label = cc.newLabel();
	cc.test(regA[B], regA[B]);
	cc.jne(label);
	EmitThrowException(X_READ_NIL);
	cc.bind(label);

	auto call = cc.call(ToMemAddress(reinterpret_cast<const void*>(static_cast<FuncPtr>([](void *o) -> void*
	{
		return static_cast<DObject*>(o)->GetClass()->Meta;
	}))), asmjit::FuncSignature1<void*, void*>());
	call->setRet(0, regA[A]);
	call->setArg(0, regA[B]);
}

void JitCompiler::EmitCLSS()
{
	typedef void*(*FuncPtr)(void*);

	auto label = cc.newLabel();
	cc.test(regA[B], regA[B]);
	cc.jne(label);
	EmitThrowException(X_READ_NIL);
	cc.bind(label);

	auto call = cc.call(ToMemAddress(reinterpret_cast<const void*>(static_cast<FuncPtr>([](void *o) -> void*
	{
		return static_cast<DObject*>(o)->GetClass();
	}))), asmjit::FuncSignature1<void*, void*>());
	call->setRet(0, regA[A]);
	call->setArg(0, regA[B]);
}

/////////////////////////////////////////////////////////////////////////////
// Load from memory. rA = *(rB + rkC)

void JitCompiler::EmitLB()
{
	EmitNullPointerThrow(B, X_READ_NIL);
	cc.movsx(regD[A], asmjit::x86::byte_ptr(regA[B], konstd[C]));
}

void JitCompiler::EmitLB_R()
{
	EmitNullPointerThrow(B, X_READ_NIL);
	cc.movsx(regD[A], asmjit::x86::byte_ptr(regA[B], regD[C]));
}

void JitCompiler::EmitLH()
{
	EmitNullPointerThrow(B, X_READ_NIL);
	cc.movsx(regD[A], asmjit::x86::word_ptr(regA[B], konstd[C]));
}

void JitCompiler::EmitLH_R()
{
	EmitNullPointerThrow(B, X_READ_NIL);
	cc.movsx(regD[A], asmjit::x86::word_ptr(regA[B], regD[C]));
}

void JitCompiler::EmitLW()
{
	EmitNullPointerThrow(B, X_READ_NIL);
	cc.mov(regD[A], asmjit::x86::dword_ptr(regA[B], konstd[C]));
}

void JitCompiler::EmitLW_R()
{
	EmitNullPointerThrow(B, X_READ_NIL);
	cc.mov(regD[A], asmjit::x86::dword_ptr(regA[B], regD[C]));
}

void JitCompiler::EmitLBU()
{
	EmitNullPointerThrow(B, X_READ_NIL);
	cc.movzx(regD[A], asmjit::x86::byte_ptr(regA[B], konstd[C]));
}

void JitCompiler::EmitLBU_R()
{
	EmitNullPointerThrow(B, X_READ_NIL);
	cc.movzx(regD[A].r8Lo(), asmjit::x86::byte_ptr(regA[B], regD[C]));
}

void JitCompiler::EmitLHU()
{
	EmitNullPointerThrow(B, X_READ_NIL);
	cc.movzx(regD[A].r16(), asmjit::x86::word_ptr(regA[B], konstd[C]));
}

void JitCompiler::EmitLHU_R()
{
	EmitNullPointerThrow(B, X_READ_NIL);
	cc.movzx(regD[A].r16(), asmjit::x86::word_ptr(regA[B], regD[C]));
}

void JitCompiler::EmitLSP()
{
	EmitNullPointerThrow(B, X_READ_NIL);
	cc.movss(regF[A], asmjit::x86::dword_ptr(regA[B], konstd[C]));
}

void JitCompiler::EmitLSP_R()
{
	EmitNullPointerThrow(B, X_READ_NIL);
	cc.movss(regF[A], asmjit::x86::dword_ptr(regA[B], regD[C]));
}

void JitCompiler::EmitLDP()
{
	EmitNullPointerThrow(B, X_READ_NIL);
	cc.movsd(regF[A], asmjit::x86::qword_ptr(regA[B], konstd[C]));
}

void JitCompiler::EmitLDP_R()
{
	EmitNullPointerThrow(B, X_READ_NIL);
	cc.movsd(regF[A], asmjit::x86::qword_ptr(regA[B], regD[C]));
}

void JitCompiler::EmitLS()
{
	EmitNullPointerThrow(B, X_READ_NIL);
	auto ptr = cc.newIntPtr();
	cc.mov(ptr, regA[B]);
	cc.add(ptr, konstd[C]);
	auto loadLambda = [](FString* to, FString* from) -> void {
		*to = *from;
	};
	auto call = cc.call(ToMemAddress(reinterpret_cast<void*>(static_cast<void(*)(FString*, FString*)>(loadLambda))),
		asmjit::FuncSignature2<void, FString*, FString*>(asmjit::CallConv::kIdHostCDecl));
	call->setArg(0, regS[A]);
	call->setArg(1, ptr);
}

void JitCompiler::EmitLS_R()
{
	EmitNullPointerThrow(B, X_READ_NIL);
	auto ptr = cc.newIntPtr();
	cc.mov(ptr, regA[B]);
	auto tmp = cc.newIntPtr();
	cc.mov(tmp, regD[C]);
	cc.add(ptr, tmp);
	auto loadLambda = [](FString* to, FString* from) -> void {
		*to = *from;
	};
	auto call = cc.call(ToMemAddress(reinterpret_cast<void*>(static_cast<void(*)(FString*, FString*)>(loadLambda))),
		asmjit::FuncSignature2<void, FString*, FString*>(asmjit::CallConv::kIdHostCDecl));
	call->setArg(0, regS[A]);
	call->setArg(1, ptr);
}

void JitCompiler::EmitLO()
{
	EmitNullPointerThrow(B, X_READ_NIL);

	auto ptr = cc.newIntPtr();
	cc.mov(ptr, asmjit::x86::ptr(regA[B], konstd[C]));

	typedef void*(*FuncPtr)(void*);
	auto call = cc.call(ToMemAddress(reinterpret_cast<const void*>(static_cast<FuncPtr>([](void *ptr) -> void*
	{
		DObject *p = static_cast<DObject *>(ptr);
		return GC::ReadBarrier(p);
	}))), asmjit::FuncSignature1<void*, void*>());
	call->setRet(0, regA[A]);
	call->setArg(0, ptr);
}

void JitCompiler::EmitLO_R()
{
	EmitNullPointerThrow(B, X_READ_NIL);

	auto ptr = cc.newIntPtr();
	cc.mov(ptr, asmjit::x86::ptr(regA[B], regD[C]));

	typedef void*(*FuncPtr)(void*);
	auto call = cc.call(ToMemAddress(reinterpret_cast<const void*>(static_cast<FuncPtr>([](void *ptr) -> void*
	{
		DObject *p = static_cast<DObject *>(ptr);
		return GC::ReadBarrier(p);
	}))), asmjit::FuncSignature1<void*, void*>());
	call->setRet(0, regA[A]);
	call->setArg(0, ptr);
}

void JitCompiler::EmitLP()
{
	EmitNullPointerThrow(B, X_READ_NIL);
	cc.mov(regA[A], asmjit::x86::ptr(regA[B], konstd[C]));
}

void JitCompiler::EmitLP_R()
{
	EmitNullPointerThrow(B, X_READ_NIL);
	cc.mov(regA[A], asmjit::x86::ptr(regA[B], regD[C]));
}

void JitCompiler::EmitLV2()
{
	EmitNullPointerThrow(B, X_READ_NIL);
	auto tmp = cc.newIntPtr();
	cc.mov(tmp, regA[B]);
	cc.add(tmp, konstd[C]);
	cc.movsd(regF[A], asmjit::x86::qword_ptr(tmp));
	cc.movsd(regF[A + 1], asmjit::x86::qword_ptr(tmp, 8));
}

void JitCompiler::EmitLV2_R()
{
	EmitNullPointerThrow(B, X_READ_NIL);
	auto tmp = cc.newIntPtr();
	cc.mov(tmp, regA[B]);
	cc.add(tmp, regD[C]);
	cc.movsd(regF[A], asmjit::x86::qword_ptr(tmp));
	cc.movsd(regF[A + 1], asmjit::x86::qword_ptr(tmp, 8));
}

void JitCompiler::EmitLV3()
{
	EmitNullPointerThrow(B, X_READ_NIL);
	auto tmp = cc.newIntPtr();
	cc.mov(tmp, regA[B]);
	cc.add(tmp, konstd[C]);
	cc.movsd(regF[A], asmjit::x86::qword_ptr(tmp));
	cc.movsd(regF[A + 1], asmjit::x86::qword_ptr(tmp, 8));
	cc.movsd(regF[A + 2], asmjit::x86::qword_ptr(tmp, 16));
}

void JitCompiler::EmitLV3_R()
{
	EmitNullPointerThrow(B, X_READ_NIL);
	auto tmp = cc.newIntPtr();
	cc.mov(tmp, regA[B]);
	cc.add(tmp, regD[C]);
	cc.movsd(regF[A], asmjit::x86::qword_ptr(tmp));
	cc.movsd(regF[A + 1], asmjit::x86::qword_ptr(tmp, 8));
	cc.movsd(regF[A + 2], asmjit::x86::qword_ptr(tmp, 16));
}

void JitCompiler::EmitLCS()
{
	EmitNullPointerThrow(B, X_READ_NIL);
	auto ptr = cc.newIntPtr();
	cc.mov(ptr, regA[B]);
	cc.add(ptr, konstd[C]);
	auto loadLambda = [](FString* to, char** from) -> void {
		*to = *from;
	};
	auto call = cc.call(ToMemAddress(reinterpret_cast<void*>(static_cast<void(*)(FString*, char**)>(loadLambda))),
		asmjit::FuncSignature2<void, FString*, char**>(asmjit::CallConv::kIdHostCDecl));
	call->setArg(0, regS[A]);
	call->setArg(1, ptr);
}

void JitCompiler::EmitLCS_R()
{
	I_FatalError("EmitLCS_R not implemented\n");
}

void JitCompiler::EmitLBIT()
{
	EmitNullPointerThrow(B, X_READ_NIL);
	cc.movsx(regD[A], asmjit::x86::byte_ptr(regA[B]));
	cc.and_(regD[A], C);
	cc.cmp(regD[A], 0);
	cc.setne(regD[A]);
}
- split JitCompiler into multiple files 2018-09-13 00:29:04 +00:00
			`#include "jitintern.h"`

			`/////////////////////////////////////////////////////////////////////////////`
			`// Load constants.`

			`void JitCompiler::EmitLI()`
			`{`
			`cc.mov(regD[A], BCs);`
			`}`

			`void JitCompiler::EmitLK()`
			`{`
			`cc.mov(regD[A], konstd[BC]);`
			`}`

			`void JitCompiler::EmitLKF()`
			`{`
			`auto tmp = cc.newIntPtr();`
			`cc.mov(tmp, ToMemAddress(konstf + BC));`
			`cc.movsd(regF[A], asmjit::x86::qword_ptr(tmp));`
			`}`

			`void JitCompiler::EmitLKS()`
			`{`
			`auto loadLambda = [] (FString* to, FString* from) -> void {`
			`to = from;`
			`};`
			`auto call = cc.call(ToMemAddress(reinterpret_cast<void>(static_cast<void()(FString, FString)>(loadLambda))),`
			`asmjit::FuncSignature2<void, FString, FString>(asmjit::CallConv::kIdHostCDecl));`
			`call->setArg(0, regS[A]);`
			`call->setArg(1, asmjit::imm(ToMemAddress(konsts + BC)));`
			`}`

			`void JitCompiler::EmitLKP()`
			`{`
			`cc.mov(regA[A], (int64_t)konsta[BC].v);`
			`}`

			`void JitCompiler::EmitLK_R()`
			`{`
			`cc.mov(regD[A], asmjit::x86::ptr(ToMemAddress(konstd), regD[B], 2, C * sizeof(int32_t)));`
			`}`

			`void JitCompiler::EmitLKF_R()`
			`{`
			`auto tmp = cc.newIntPtr();`
			`cc.mov(tmp, ToMemAddress(konstf + BC));`
			`cc.movsd(regF[A], asmjit::x86::qword_ptr(tmp, regD[B], 3, C * sizeof(double)));`
			`}`

			`void JitCompiler::EmitLKS_R()`
			`{`
			`I_FatalError("EmitLKS_R not implemented\n");`
			`}`

			`void JitCompiler::EmitLKP_R()`
			`{`
			`cc.mov(regA[A], asmjit::x86::ptr(ToMemAddress(konsta), regD[B], 2, C * sizeof(void*)));`
			`}`

			`void JitCompiler::EmitLFP()`
			`{`
			`I_FatalError("EmitLFP not implemented\n");`
			`}`

			`void JitCompiler::EmitMETA()`
			`{`
			`typedef void(FuncPtr)(void*);`

			`auto label = cc.newLabel();`
			`cc.test(regA[B], regA[B]);`
			`cc.jne(label);`
			`EmitThrowException(X_READ_NIL);`
			`cc.bind(label);`

			`auto call = cc.call(ToMemAddress(reinterpret_cast<const void>(static_cast<FuncPtr>([](void o) -> void*`
			`{`
			`return static_cast<DObject*>(o)->GetClass()->Meta;`
			`}))), asmjit::FuncSignature1<void, void>());`
			`call->setRet(0, regA[A]);`
			`call->setArg(0, regA[B]);`
			`}`

			`void JitCompiler::EmitCLSS()`
			`{`
			`typedef void(FuncPtr)(void*);`

			`auto label = cc.newLabel();`
			`cc.test(regA[B], regA[B]);`
			`cc.jne(label);`
			`EmitThrowException(X_READ_NIL);`
			`cc.bind(label);`

			`auto call = cc.call(ToMemAddress(reinterpret_cast<const void>(static_cast<FuncPtr>([](void o) -> void*`
			`{`
			`return static_cast<DObject*>(o)->GetClass();`
			`}))), asmjit::FuncSignature1<void, void>());`
			`call->setRet(0, regA[A]);`
			`call->setArg(0, regA[B]);`
			`}`

			`/////////////////////////////////////////////////////////////////////////////`
			`// Load from memory. rA = *(rB + rkC)`

			`void JitCompiler::EmitLB()`
			`{`
			`EmitNullPointerThrow(B, X_READ_NIL);`
			`cc.movsx(regD[A], asmjit::x86::byte_ptr(regA[B], konstd[C]));`
			`}`

			`void JitCompiler::EmitLB_R()`
			`{`
			`EmitNullPointerThrow(B, X_READ_NIL);`
			`cc.movsx(regD[A], asmjit::x86::byte_ptr(regA[B], regD[C]));`
			`}`

			`void JitCompiler::EmitLH()`
			`{`
			`EmitNullPointerThrow(B, X_READ_NIL);`
			`cc.movsx(regD[A], asmjit::x86::word_ptr(regA[B], konstd[C]));`
			`}`

			`void JitCompiler::EmitLH_R()`
			`{`
			`EmitNullPointerThrow(B, X_READ_NIL);`
			`cc.movsx(regD[A], asmjit::x86::word_ptr(regA[B], regD[C]));`
			`}`

			`void JitCompiler::EmitLW()`
			`{`
			`EmitNullPointerThrow(B, X_READ_NIL);`
			`cc.mov(regD[A], asmjit::x86::dword_ptr(regA[B], konstd[C]));`
			`}`

			`void JitCompiler::EmitLW_R()`
			`{`
			`EmitNullPointerThrow(B, X_READ_NIL);`
			`cc.mov(regD[A], asmjit::x86::dword_ptr(regA[B], regD[C]));`
			`}`

			`void JitCompiler::EmitLBU()`
			`{`
			`EmitNullPointerThrow(B, X_READ_NIL);`
			`cc.movzx(regD[A], asmjit::x86::byte_ptr(regA[B], konstd[C]));`
			`}`

			`void JitCompiler::EmitLBU_R()`
			`{`
			`EmitNullPointerThrow(B, X_READ_NIL);`
			`cc.movzx(regD[A].r8Lo(), asmjit::x86::byte_ptr(regA[B], regD[C]));`
			`}`

			`void JitCompiler::EmitLHU()`
			`{`
			`EmitNullPointerThrow(B, X_READ_NIL);`
			`cc.movzx(regD[A].r16(), asmjit::x86::word_ptr(regA[B], konstd[C]));`
			`}`

			`void JitCompiler::EmitLHU_R()`
			`{`
			`EmitNullPointerThrow(B, X_READ_NIL);`
			`cc.movzx(regD[A].r16(), asmjit::x86::word_ptr(regA[B], regD[C]));`
			`}`

			`void JitCompiler::EmitLSP()`
			`{`
			`EmitNullPointerThrow(B, X_READ_NIL);`
			`cc.movss(regF[A], asmjit::x86::dword_ptr(regA[B], konstd[C]));`
			`}`

			`void JitCompiler::EmitLSP_R()`
			`{`
			`EmitNullPointerThrow(B, X_READ_NIL);`
			`cc.movss(regF[A], asmjit::x86::dword_ptr(regA[B], regD[C]));`
			`}`

			`void JitCompiler::EmitLDP()`
			`{`
			`EmitNullPointerThrow(B, X_READ_NIL);`
			`cc.movsd(regF[A], asmjit::x86::qword_ptr(regA[B], konstd[C]));`
			`}`

			`void JitCompiler::EmitLDP_R()`
			`{`
			`EmitNullPointerThrow(B, X_READ_NIL);`
			`cc.movsd(regF[A], asmjit::x86::qword_ptr(regA[B], regD[C]));`
			`}`

			`void JitCompiler::EmitLS()`
			`{`
			`EmitNullPointerThrow(B, X_READ_NIL);`
			`auto ptr = cc.newIntPtr();`
			`cc.mov(ptr, regA[B]);`
			`cc.add(ptr, konstd[C]);`
			`auto loadLambda = [](FString* to, FString* from) -> void {`
			`to = from;`
			`};`
			`auto call = cc.call(ToMemAddress(reinterpret_cast<void>(static_cast<void()(FString, FString)>(loadLambda))),`
			`asmjit::FuncSignature2<void, FString, FString>(asmjit::CallConv::kIdHostCDecl));`
			`call->setArg(0, regS[A]);`
			`call->setArg(1, ptr);`
			`}`

			`void JitCompiler::EmitLS_R()`
			`{`
			`EmitNullPointerThrow(B, X_READ_NIL);`
			`auto ptr = cc.newIntPtr();`
			`cc.mov(ptr, regA[B]);`
			`auto tmp = cc.newIntPtr();`
			`cc.mov(tmp, regD[C]);`
			`cc.add(ptr, tmp);`
			`auto loadLambda = [](FString* to, FString* from) -> void {`
			`to = from;`
			`};`
			`auto call = cc.call(ToMemAddress(reinterpret_cast<void>(static_cast<void()(FString, FString)>(loadLambda))),`
			`asmjit::FuncSignature2<void, FString, FString>(asmjit::CallConv::kIdHostCDecl));`
			`call->setArg(0, regS[A]);`
			`call->setArg(1, ptr);`
			`}`

			`void JitCompiler::EmitLO()`
			`{`
			`EmitNullPointerThrow(B, X_READ_NIL);`

			`auto ptr = cc.newIntPtr();`
			`cc.mov(ptr, asmjit::x86::ptr(regA[B], konstd[C]));`

			`typedef void(FuncPtr)(void*);`
			`auto call = cc.call(ToMemAddress(reinterpret_cast<const void>(static_cast<FuncPtr>([](void ptr) -> void*`
			`{`
			`DObject p = static_cast<DObject >(ptr);`
			`return GC::ReadBarrier(p);`
			`}))), asmjit::FuncSignature1<void, void>());`
			`call->setRet(0, regA[A]);`
			`call->setArg(0, ptr);`
			`}`

			`void JitCompiler::EmitLO_R()`
			`{`
			`EmitNullPointerThrow(B, X_READ_NIL);`

			`auto ptr = cc.newIntPtr();`
			`cc.mov(ptr, asmjit::x86::ptr(regA[B], regD[C]));`

			`typedef void(FuncPtr)(void*);`
			`auto call = cc.call(ToMemAddress(reinterpret_cast<const void>(static_cast<FuncPtr>([](void ptr) -> void*`
			`{`
			`DObject p = static_cast<DObject >(ptr);`
			`return GC::ReadBarrier(p);`
			`}))), asmjit::FuncSignature1<void, void>());`
			`call->setRet(0, regA[A]);`
			`call->setArg(0, ptr);`
			`}`

			`void JitCompiler::EmitLP()`
			`{`
			`EmitNullPointerThrow(B, X_READ_NIL);`
			`cc.mov(regA[A], asmjit::x86::ptr(regA[B], konstd[C]));`
			`}`

			`void JitCompiler::EmitLP_R()`
			`{`
			`EmitNullPointerThrow(B, X_READ_NIL);`
			`cc.mov(regA[A], asmjit::x86::ptr(regA[B], regD[C]));`
			`}`

			`void JitCompiler::EmitLV2()`
			`{`
			`EmitNullPointerThrow(B, X_READ_NIL);`
			`auto tmp = cc.newIntPtr();`
			`cc.mov(tmp, regA[B]);`
			`cc.add(tmp, konstd[C]);`
			`cc.movsd(regF[A], asmjit::x86::qword_ptr(tmp));`
			`cc.movsd(regF[A + 1], asmjit::x86::qword_ptr(tmp, 8));`
			`}`

			`void JitCompiler::EmitLV2_R()`
			`{`
			`EmitNullPointerThrow(B, X_READ_NIL);`
			`auto tmp = cc.newIntPtr();`
			`cc.mov(tmp, regA[B]);`
			`cc.add(tmp, regD[C]);`
			`cc.movsd(regF[A], asmjit::x86::qword_ptr(tmp));`
			`cc.movsd(regF[A + 1], asmjit::x86::qword_ptr(tmp, 8));`
			`}`

			`void JitCompiler::EmitLV3()`
			`{`
			`EmitNullPointerThrow(B, X_READ_NIL);`
			`auto tmp = cc.newIntPtr();`
			`cc.mov(tmp, regA[B]);`
			`cc.add(tmp, konstd[C]);`
			`cc.movsd(regF[A], asmjit::x86::qword_ptr(tmp));`
			`cc.movsd(regF[A + 1], asmjit::x86::qword_ptr(tmp, 8));`
			`cc.movsd(regF[A + 2], asmjit::x86::qword_ptr(tmp, 16));`
			`}`

			`void JitCompiler::EmitLV3_R()`
			`{`
			`EmitNullPointerThrow(B, X_READ_NIL);`
			`auto tmp = cc.newIntPtr();`
			`cc.mov(tmp, regA[B]);`
			`cc.add(tmp, regD[C]);`
			`cc.movsd(regF[A], asmjit::x86::qword_ptr(tmp));`
			`cc.movsd(regF[A + 1], asmjit::x86::qword_ptr(tmp, 8));`
			`cc.movsd(regF[A + 2], asmjit::x86::qword_ptr(tmp, 16));`
			`}`

			`void JitCompiler::EmitLCS()`
			`{`
			`EmitNullPointerThrow(B, X_READ_NIL);`
			`auto ptr = cc.newIntPtr();`
			`cc.mov(ptr, regA[B]);`
			`cc.add(ptr, konstd[C]);`
			`auto loadLambda = [](FString* to, char** from) -> void {`
			`to = from;`
			`};`
			`auto call = cc.call(ToMemAddress(reinterpret_cast<void>(static_cast<void()(FString, char*)>(loadLambda))),`
			`asmjit::FuncSignature2<void, FString, char*>(asmjit::CallConv::kIdHostCDecl));`
			`call->setArg(0, regS[A]);`
			`call->setArg(1, ptr);`
			`}`

			`void JitCompiler::EmitLCS_R()`
			`{`
			`I_FatalError("EmitLCS_R not implemented\n");`
			`}`

			`void JitCompiler::EmitLBIT()`
			`{`
			`EmitNullPointerThrow(B, X_READ_NIL);`
			`cc.movsx(regD[A], asmjit::x86::byte_ptr(regA[B]));`
			`cc.and_(regD[A], C);`
			`cc.cmp(regD[A], 0);`
			`cc.setne(regD[A]);`
			`}`