Adding an option to disable register caching.
Until things work I'm not going to bother with that optimization.
This commit is contained in:
parent
b8323c3055
commit
8965caa833
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@ -24,6 +24,9 @@ using namespace AsmJit;
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DEFINE_bool(memory_address_verification, false,
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DEFINE_bool(memory_address_verification, false,
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"Whether to add additional checks to generated memory load/stores.");
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"Whether to add additional checks to generated memory load/stores.");
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DEFINE_bool(cache_registers, false,
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"Cache PPC registers inside of functions.");
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DEFINE_bool(log_codegen, false,
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DEFINE_bool(log_codegen, false,
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"Log codegen to stdout.");
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"Log codegen to stdout.");
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DEFINE_bool(annotate_disassembly, true,
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DEFINE_bool(annotate_disassembly, true,
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@ -259,7 +262,7 @@ int X64Emitter::MakeFunction(FunctionSymbol* symbol) {
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// Elevate the priority of ppc_state, as it's often used.
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// Elevate the priority of ppc_state, as it's often used.
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// TODO(benvanik): evaluate if this is a good idea.
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// TODO(benvanik): evaluate if this is a good idea.
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//compiler_.setPriority(compiler_.getGpArg(0), 100);
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compiler_.setPriority(compiler_.getGpArg(0), 100);
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switch (symbol->type) {
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switch (symbol->type) {
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case FunctionSymbol::Kernel:
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case FunctionSymbol::Kernel:
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@ -752,7 +755,7 @@ void X64Emitter::TraceInstruction(InstrData& i) {
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void X64Emitter::TraceInvalidInstruction(InstrData& i) {
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void X64Emitter::TraceInvalidInstruction(InstrData& i) {
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X86Compiler& c = compiler_;
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X86Compiler& c = compiler_;
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#if 0
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if (FLAGS_annotate_disassembly) {
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if (FLAGS_annotate_disassembly) {
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c.comment("XeInvalidInstruction (+spill)");
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c.comment("XeInvalidInstruction (+spill)");
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}
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}
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@ -770,6 +773,7 @@ void X64Emitter::TraceInvalidInstruction(InstrData& i) {
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call->setArgument(0, c.getGpArg(0));
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call->setArgument(0, c.getGpArg(0));
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call->setArgument(1, arg1);
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call->setArgument(1, arg1);
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call->setArgument(2, arg2);
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call->setArgument(2, arg2);
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#endif
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}
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}
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void X64Emitter::TraceBranch(uint32_t cia) {
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void X64Emitter::TraceBranch(uint32_t cia) {
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@ -918,6 +922,10 @@ void X64Emitter::TraceBranch(uint32_t cia) {
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void X64Emitter::SetupLocals() {
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void X64Emitter::SetupLocals() {
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X86Compiler& c = compiler_;
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X86Compiler& c = compiler_;
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if (!FLAGS_cache_registers) {
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return;
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}
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uint64_t spr_t = access_bits_.spr;
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uint64_t spr_t = access_bits_.spr;
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if (spr_t & 0x3) {
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if (spr_t & 0x3) {
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locals_.xer = c.newGpVar(kX86VarTypeGpq, "xer");
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locals_.xer = c.newGpVar(kX86VarTypeGpq, "xer");
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@ -966,6 +974,10 @@ void X64Emitter::SetupLocals() {
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void X64Emitter::FillRegisters() {
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void X64Emitter::FillRegisters() {
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X86Compiler& c = compiler_;
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X86Compiler& c = compiler_;
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if (!FLAGS_cache_registers) {
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return;
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}
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// This updates all of the local register values from the state memory.
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// This updates all of the local register values from the state memory.
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// It should be called on function entry for initial setup and after any
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// It should be called on function entry for initial setup and after any
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// calls that may modify the registers.
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// calls that may modify the registers.
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@ -1049,6 +1061,10 @@ void X64Emitter::FillRegisters() {
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void X64Emitter::SpillRegisters() {
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void X64Emitter::SpillRegisters() {
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X86Compiler& c = compiler_;
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X86Compiler& c = compiler_;
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if (!FLAGS_cache_registers) {
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return;
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}
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// This flushes all local registers (if written) to the register bank and
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// This flushes all local registers (if written) to the register bank and
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// resets their values.
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// resets their values.
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@ -1133,16 +1149,28 @@ void X64Emitter::SpillRegisters() {
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}
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}
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}
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}
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GpVar& X64Emitter::xer_value() {
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GpVar X64Emitter::xer_value() {
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X86Compiler& c = compiler_;
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X86Compiler& c = compiler_;
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XEASSERT(locals_.xer.getId() != kInvalidValue);
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if (FLAGS_cache_registers) {
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return locals_.xer;
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XEASSERT(locals_.xer.getId() != kInvalidValue);
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return locals_.xer;
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} else {
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GpVar value(c.newGpVar());
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c.mov(value,
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qword_ptr(c.getGpArg(0), offsetof(xe_ppc_state_t, xer)));
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return value;
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}
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}
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}
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void X64Emitter::update_xer_value(GpVar& value) {
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void X64Emitter::update_xer_value(GpVar& value) {
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X86Compiler& c = compiler_;
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X86Compiler& c = compiler_;
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XEASSERT(locals_.xer.getId() != kInvalidValue);
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if (FLAGS_cache_registers) {
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c.mov(locals_.xer, zero_extend(value, 8));
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XEASSERT(locals_.xer.getId() != kInvalidValue);
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c.mov(locals_.xer, zero_extend(value, 8));
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} else {
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c.mov(qword_ptr(c.getGpArg(0), offsetof(xe_ppc_state_t, xer)),
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zero_extend(value, 8));
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}
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}
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}
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#if 0
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#if 0
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@ -1199,48 +1227,103 @@ void X64Emitter::update_xer_with_overflow_and_carry(GpVar& value) {
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}
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}
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#endif
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#endif
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GpVar& X64Emitter::lr_value() {
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GpVar X64Emitter::lr_value() {
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X86Compiler& c = compiler_;
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X86Compiler& c = compiler_;
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XEASSERT(locals_.lr.getId() != kInvalidValue);
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if (FLAGS_cache_registers) {
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return locals_.lr;
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XEASSERT(locals_.lr.getId() != kInvalidValue);
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return locals_.lr;
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} else {
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GpVar value(c.newGpVar());
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c.mov(value,
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qword_ptr(c.getGpArg(0), offsetof(xe_ppc_state_t, lr)));
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return value;
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}
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}
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}
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void X64Emitter::update_lr_value(GpVar& value) {
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void X64Emitter::update_lr_value(GpVar& value) {
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X86Compiler& c = compiler_;
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X86Compiler& c = compiler_;
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XEASSERT(locals_.lr.getId() != kInvalidValue);
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if (FLAGS_cache_registers) {
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c.mov(locals_.lr, zero_extend(value, 8));
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XEASSERT(locals_.lr.getId() != kInvalidValue);
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c.mov(locals_.lr, zero_extend(value, 8));
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} else {
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c.mov(qword_ptr(c.getGpArg(0), offsetof(xe_ppc_state_t, lr)),
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zero_extend(value, 8));
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}
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}
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}
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void X64Emitter::update_lr_value(AsmJit::Imm& imm) {
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void X64Emitter::update_lr_value(AsmJit::Imm& imm) {
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X86Compiler& c = compiler_;
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X86Compiler& c = compiler_;
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XEASSERT(locals_.lr.getId() != kInvalidValue);
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if (FLAGS_cache_registers) {
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c.mov(locals_.lr, imm);
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XEASSERT(locals_.lr.getId() != kInvalidValue);
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c.mov(locals_.lr, imm);
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} else {
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c.mov(qword_ptr(c.getGpArg(0), offsetof(xe_ppc_state_t, lr)),
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imm);
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}
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}
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}
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GpVar& X64Emitter::ctr_value() {
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GpVar X64Emitter::ctr_value() {
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X86Compiler& c = compiler_;
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X86Compiler& c = compiler_;
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XEASSERT(locals_.ctr.getId() != kInvalidValue);
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if (FLAGS_cache_registers) {
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return locals_.ctr;
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XEASSERT(locals_.ctr.getId() != kInvalidValue);
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return locals_.ctr;
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} else {
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GpVar value(c.newGpVar());
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c.mov(value,
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qword_ptr(c.getGpArg(0), offsetof(xe_ppc_state_t, ctr)));
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return value;
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}
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}
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}
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void X64Emitter::update_ctr_value(GpVar& value) {
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void X64Emitter::update_ctr_value(GpVar& value) {
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X86Compiler& c = compiler_;
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X86Compiler& c = compiler_;
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XEASSERT(locals_.ctr.getId() != kInvalidValue);
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if (FLAGS_cache_registers) {
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c.mov(locals_.ctr, zero_extend(value, 8));
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XEASSERT(locals_.ctr.getId() != kInvalidValue);
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c.mov(locals_.ctr, zero_extend(value, 8));
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} else {
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c.mov(qword_ptr(c.getGpArg(0), offsetof(xe_ppc_state_t, ctr)),
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zero_extend(value, 8));
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}
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}
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}
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GpVar& X64Emitter::cr_value(uint32_t n) {
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GpVar X64Emitter::cr_value(uint32_t n) {
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X86Compiler& c = compiler_;
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X86Compiler& c = compiler_;
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XEASSERT(n >= 0 && n < 8);
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XEASSERT(n >= 0 && n < 8);
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XEASSERT(locals_.cr[n].getId() != kInvalidValue);
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if (FLAGS_cache_registers) {
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return locals_.cr[n];
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XEASSERT(locals_.cr[n].getId() != kInvalidValue);
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return locals_.cr[n];
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} else {
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// TODO(benvanik): this can most definitely be made more efficient.
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GpVar value(c.newGpVar());
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c.mov(value,
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qword_ptr(c.getGpArg(0), offsetof(xe_ppc_state_t, cr)));
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if (n < 4) {
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c.shr(value, imm(28 - n * 4));
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}
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c.and_(value, imm(0xF));
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return value;
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}
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}
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}
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void X64Emitter::update_cr_value(uint32_t n, GpVar& value) {
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void X64Emitter::update_cr_value(uint32_t n, GpVar& value) {
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X86Compiler& c = compiler_;
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X86Compiler& c = compiler_;
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XEASSERT(n >= 0 && n < 8);
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XEASSERT(n >= 0 && n < 8);
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XEASSERT(locals_.cr[n].getId() != kInvalidValue);
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if (FLAGS_cache_registers) {
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c.mov(locals_.cr[n], trunc(value, 1));
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XEASSERT(locals_.cr[n].getId() != kInvalidValue);
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c.mov(locals_.cr[n], trunc(value, 1));
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} else {
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// TODO(benvanik): this can most definitely be made more efficient.
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GpVar cr_tmp(c.newGpVar());
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c.mov(cr_tmp, qword_ptr(c.getGpArg(0), offsetof(xe_ppc_state_t, cr)));
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GpVar cr_n(c.newGpVar());
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c.mov(cr_n, value);
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if (n) {
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c.shl(cr_n, imm(n * 4));
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}
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c.and_(cr_tmp, imm(~(0xF << (n * 4))));
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c.or_(cr_tmp, cr_n);
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c.mov(qword_ptr(c.getGpArg(0), offsetof(xe_ppc_state_t, cr)), cr_tmp);
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}
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}
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}
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#if 0
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#if 0
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@ -1283,10 +1366,9 @@ void X64Emitter::update_cr_with_cond(
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}
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}
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#endif
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#endif
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GpVar& X64Emitter::gpr_value(uint32_t n) {
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GpVar X64Emitter::gpr_value(uint32_t n) {
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X86Compiler& c = compiler_;
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X86Compiler& c = compiler_;
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XEASSERT(n >= 0 && n < 32);
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XEASSERT(n >= 0 && n < 32);
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XEASSERT(locals_.gpr[n].getId() != kInvalidValue);
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// Actually r0 is writable, even though nobody should ever do that.
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// Actually r0 is writable, even though nobody should ever do that.
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// Perhaps we can check usage and enable this if safe?
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// Perhaps we can check usage and enable this if safe?
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@ -1294,35 +1376,59 @@ GpVar& X64Emitter::gpr_value(uint32_t n) {
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// return get_uint64(0);
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// return get_uint64(0);
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// }
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// }
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return locals_.gpr[n];
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if (FLAGS_cache_registers) {
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XEASSERT(locals_.gpr[n].getId() != kInvalidValue);
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return locals_.gpr[n];
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} else {
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GpVar value(c.newGpVar());
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c.mov(value,
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qword_ptr(c.getGpArg(0), offsetof(xe_ppc_state_t, r) + 8 * n));
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return value;
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}
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}
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}
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void X64Emitter::update_gpr_value(uint32_t n, GpVar& value) {
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void X64Emitter::update_gpr_value(uint32_t n, GpVar& value) {
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X86Compiler& c = compiler_;
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X86Compiler& c = compiler_;
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XEASSERT(n >= 0 && n < 32);
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XEASSERT(n >= 0 && n < 32);
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XEASSERT(locals_.gpr[n].getId() != kInvalidValue);
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// See above - r0 can be written.
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// See above - r0 can be written.
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// if (n == 0) {
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// if (n == 0) {
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// // Ignore writes to zero.
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// // Ignore writes to zero.
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// return;
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// return;
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// }
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// }
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c.mov(locals_.gpr[n], zero_extend(value, 8));
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if (FLAGS_cache_registers) {
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XEASSERT(locals_.gpr[n].getId() != kInvalidValue);
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c.mov(locals_.gpr[n], zero_extend(value, 8));
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} else {
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c.mov(qword_ptr(c.getGpArg(0), offsetof(xe_ppc_state_t, r) + 8 * n),
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zero_extend(value, 8));
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}
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}
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}
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GpVar& X64Emitter::fpr_value(uint32_t n) {
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GpVar X64Emitter::fpr_value(uint32_t n) {
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X86Compiler& c = compiler_;
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X86Compiler& c = compiler_;
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XEASSERT(n >= 0 && n < 32);
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XEASSERT(n >= 0 && n < 32);
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XEASSERT(locals_.fpr[n].getId() != kInvalidValue);
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if (FLAGS_cache_registers) {
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return locals_.fpr[n];
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XEASSERT(locals_.fpr[n].getId() != kInvalidValue);
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return locals_.fpr[n];
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} else {
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GpVar value(c.newGpVar());
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c.mov(value,
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qword_ptr(c.getGpArg(0), offsetof(xe_ppc_state_t, f) + 8 * n));
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return value;
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}
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}
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}
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void X64Emitter::update_fpr_value(uint32_t n, GpVar& value) {
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void X64Emitter::update_fpr_value(uint32_t n, GpVar& value) {
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X86Compiler& c = compiler_;
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X86Compiler& c = compiler_;
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XEASSERT(n >= 0 && n < 32);
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XEASSERT(n >= 0 && n < 32);
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XEASSERT(locals_.fpr[n].getId() != kInvalidValue);
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if (FLAGS_cache_registers) {
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c.mov(locals_.fpr[n], value);
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XEASSERT(locals_.fpr[n].getId() != kInvalidValue);
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c.mov(locals_.fpr[n], value);
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} else {
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c.mov(qword_ptr(c.getGpArg(0), offsetof(xe_ppc_state_t, f) + 8 * n),
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value);
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}
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}
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}
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// GpVar& X64Emitter::TouchMemoryAddress(uint32_t cia, GpVar& addr) {
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// GpVar& X64Emitter::TouchMemoryAddress(uint32_t cia, GpVar& addr) {
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@ -1455,21 +1561,12 @@ void X64Emitter::update_fpr_value(uint32_t n, GpVar& value) {
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// jit_insn_store_relative(fn_, address, 0, value);
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// jit_insn_store_relative(fn_, address, 0, value);
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// }
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// }
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// jit_value_t X64Emitter::get_int32(int32_t value) {
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GpVar X64Emitter::get_uint64(uint64_t value) {
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// return jit_value_create_nint_constant(fn_, jit_type_int, value);
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X86Compiler& c = compiler_;
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// }
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GpVar v(c.newGpVar());
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c.mov(v, imm(value));
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// jit_value_t X64Emitter::get_uint32(uint32_t value) {
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return v;
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// return jit_value_create_nint_constant(fn_, jit_type_uint, value);
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}
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// }
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||||||
// jit_value_t X64Emitter::get_int64(int64_t value) {
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||||||
// return jit_value_create_nint_constant(fn_, jit_type_nint, value);
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|
||||||
// }
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||||||
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||||||
// jit_value_t X64Emitter::get_uint64(uint64_t value) {
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|
||||||
// return jit_value_create_nint_constant(fn_, jit_type_nuint, value);
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|
||||||
// }
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||||||
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|
||||||
GpVar X64Emitter::sign_extend(GpVar& value, int size) {
|
GpVar X64Emitter::sign_extend(GpVar& value, int size) {
|
||||||
X86Compiler& c = compiler_;
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X86Compiler& c = compiler_;
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||||||
|
|
|
@ -61,27 +61,27 @@ public:
|
||||||
void FillRegisters();
|
void FillRegisters();
|
||||||
void SpillRegisters();
|
void SpillRegisters();
|
||||||
|
|
||||||
AsmJit::GpVar& xer_value();
|
AsmJit::GpVar xer_value();
|
||||||
void update_xer_value(AsmJit::GpVar& value);
|
void update_xer_value(AsmJit::GpVar& value);
|
||||||
void update_xer_with_overflow(AsmJit::GpVar& value);
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void update_xer_with_overflow(AsmJit::GpVar& value);
|
||||||
void update_xer_with_carry(AsmJit::GpVar& value);
|
void update_xer_with_carry(AsmJit::GpVar& value);
|
||||||
void update_xer_with_overflow_and_carry(AsmJit::GpVar& value);
|
void update_xer_with_overflow_and_carry(AsmJit::GpVar& value);
|
||||||
|
|
||||||
AsmJit::GpVar& lr_value();
|
AsmJit::GpVar lr_value();
|
||||||
void update_lr_value(AsmJit::GpVar& value);
|
void update_lr_value(AsmJit::GpVar& value);
|
||||||
void update_lr_value(AsmJit::Imm& imm);
|
void update_lr_value(AsmJit::Imm& imm);
|
||||||
|
|
||||||
AsmJit::GpVar& ctr_value();
|
AsmJit::GpVar ctr_value();
|
||||||
void update_ctr_value(AsmJit::GpVar& value);
|
void update_ctr_value(AsmJit::GpVar& value);
|
||||||
|
|
||||||
AsmJit::GpVar& cr_value(uint32_t n);
|
AsmJit::GpVar cr_value(uint32_t n);
|
||||||
void update_cr_value(uint32_t n, AsmJit::GpVar& value);
|
void update_cr_value(uint32_t n, AsmJit::GpVar& value);
|
||||||
void update_cr_with_cond(uint32_t n, AsmJit::GpVar& lhs, AsmJit::GpVar& rhs,
|
void update_cr_with_cond(uint32_t n, AsmJit::GpVar& lhs, AsmJit::GpVar& rhs,
|
||||||
bool is_signed);
|
bool is_signed);
|
||||||
|
|
||||||
AsmJit::GpVar& gpr_value(uint32_t n);
|
AsmJit::GpVar gpr_value(uint32_t n);
|
||||||
void update_gpr_value(uint32_t n, AsmJit::GpVar& value);
|
void update_gpr_value(uint32_t n, AsmJit::GpVar& value);
|
||||||
AsmJit::GpVar& fpr_value(uint32_t n);
|
AsmJit::GpVar fpr_value(uint32_t n);
|
||||||
void update_fpr_value(uint32_t n, AsmJit::GpVar& value);
|
void update_fpr_value(uint32_t n, AsmJit::GpVar& value);
|
||||||
|
|
||||||
AsmJit::GpVar& TouchMemoryAddress(uint32_t cia, AsmJit::GpVar& addr);
|
AsmJit::GpVar& TouchMemoryAddress(uint32_t cia, AsmJit::GpVar& addr);
|
||||||
|
@ -91,10 +91,7 @@ public:
|
||||||
uint32_t cia, AsmJit::GpVar& addr, uint32_t size, AsmJit::GpVar& value,
|
uint32_t cia, AsmJit::GpVar& addr, uint32_t size, AsmJit::GpVar& value,
|
||||||
bool release = false);
|
bool release = false);
|
||||||
|
|
||||||
// jit_value_t get_int32(int32_t value);
|
AsmJit::GpVar get_uint64(uint64_t value);
|
||||||
// jit_value_t get_uint32(uint32_t value);
|
|
||||||
// jit_value_t get_int64(int64_t value);
|
|
||||||
// jit_value_t get_uint64(uint64_t value);
|
|
||||||
AsmJit::GpVar sign_extend(AsmJit::GpVar& value, int size);
|
AsmJit::GpVar sign_extend(AsmJit::GpVar& value, int size);
|
||||||
AsmJit::GpVar zero_extend(AsmJit::GpVar& value, int size);
|
AsmJit::GpVar zero_extend(AsmJit::GpVar& value, int size);
|
||||||
AsmJit::GpVar trunc(AsmJit::GpVar& value, int size);
|
AsmJit::GpVar trunc(AsmJit::GpVar& value, int size);
|
||||||
|
|
Loading…
Reference in New Issue