src/v8/src/s390/codegen-s390.cc - cobalt - Git at Google

 // Copyright 2015 the V8 project authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "src/s390/codegen-s390.h"

 #if V8_TARGET_ARCH_S390

 #include <memory>

 #include "src/codegen.h"
 #include "src/macro-assembler.h"
 #include "src/s390/simulator-s390.h"

 namespace v8 {
 namespace internal {

 #define __ masm.

 UnaryMathFunctionWithIsolate CreateSqrtFunction(Isolate* isolate) {
 #if defined(USE_SIMULATOR)
   return nullptr;
 #else
   size_t actual_size;
   byte* buffer =
       static_cast<byte*>(base::OS::Allocate(1 * KB, &actual_size, true));
   if (buffer == nullptr) return nullptr;

   MacroAssembler masm(isolate, buffer, static_cast<int>(actual_size),
                       CodeObjectRequired::kNo);

   __ MovFromFloatParameter(d0);
   __ sqdbr(d0, d0);
   __ MovToFloatResult(d0);
   __ Ret();

   CodeDesc desc;
   masm.GetCode(isolate, &desc);
   DCHECK(ABI_USES_FUNCTION_DESCRIPTORS ||
          !RelocInfo::RequiresRelocation(isolate, desc));

   Assembler::FlushICache(isolate, buffer, actual_size);
   base::OS::ProtectCode(buffer, actual_size);
   return FUNCTION_CAST<UnaryMathFunctionWithIsolate>(buffer);
 #endif
 }

 #undef __

 // -------------------------------------------------------------------------
 // Code generators

 #define __ ACCESS_MASM(masm)

 // assume ip can be used as a scratch register below
 void StringCharLoadGenerator::Generate(MacroAssembler* masm, Register string,
                                        Register index, Register result,
                                        Label* call_runtime) {
   Label indirect_string_loaded;
   __ bind(&indirect_string_loaded);

   // Fetch the instance type of the receiver into result register.
   __ LoadP(result, FieldMemOperand(string, HeapObject::kMapOffset));
   __ LoadlB(result, FieldMemOperand(result, Map::kInstanceTypeOffset));

   // We need special handling for indirect strings.
   Label check_sequential;
   __ mov(r0, Operand(kIsIndirectStringMask));
   __ AndP(r0, result);
   __ beq(&check_sequential, Label::kNear /*, cr0*/);

   // Dispatch on the indirect string shape: slice or cons.
   Label cons_string, thin_string;
   __ LoadRR(ip, result);
   __ nilf(ip, Operand(kStringRepresentationMask));
   __ CmpP(ip, Operand(kConsStringTag));
   __ beq(&cons_string);
   __ CmpP(ip, Operand(kThinStringTag));
   __ beq(&thin_string);

   // Handle slices.
   __ LoadP(result, FieldMemOperand(string, SlicedString::kOffsetOffset));
   __ LoadP(string, FieldMemOperand(string, SlicedString::kParentOffset));
   __ SmiUntag(ip, result);
   __ AddP(index, ip);
   __ b(&indirect_string_loaded);

   // Handle thin strings.
   __ bind(&thin_string);
   __ LoadP(string, FieldMemOperand(string, ThinString::kActualOffset));
   __ b(&indirect_string_loaded);

   // Handle cons strings.
   // Check whether the right hand side is the empty string (i.e. if
   // this is really a flat string in a cons string). If that is not
   // the case we would rather go to the runtime system now to flatten
   // the string.
   __ bind(&cons_string);
   __ LoadP(result, FieldMemOperand(string, ConsString::kSecondOffset));
   __ CompareRoot(result, Heap::kempty_stringRootIndex);
   __ bne(call_runtime);
   // Get the first of the two strings and load its instance type.
   __ LoadP(string, FieldMemOperand(string, ConsString::kFirstOffset));
   __ b(&indirect_string_loaded);

   // Distinguish sequential and external strings. Only these two string
   // representations can reach here (slices and flat cons strings have been
   // reduced to the underlying sequential or external string).
   Label external_string, check_encoding;
   __ bind(&check_sequential);
   STATIC_ASSERT(kSeqStringTag == 0);
   __ mov(r0, Operand(kStringRepresentationMask));
   __ AndP(r0, result);
   __ bne(&external_string, Label::kNear);

   // Prepare sequential strings
   STATIC_ASSERT(SeqTwoByteString::kHeaderSize == SeqOneByteString::kHeaderSize);
   __ AddP(string, Operand(SeqTwoByteString::kHeaderSize - kHeapObjectTag));
   __ b(&check_encoding, Label::kNear);

   // Handle external strings.
   __ bind(&external_string);
   if (FLAG_debug_code) {
     // Assert that we do not have a cons or slice (indirect strings) here.
     // Sequential strings have already been ruled out.
     __ mov(r0, Operand(kIsIndirectStringMask));
     __ AndP(r0, result);
     __ Assert(eq, kExternalStringExpectedButNotFound, cr0);
   }
   // Rule out short external strings.
   STATIC_ASSERT(kShortExternalStringTag != 0);
   __ mov(r0, Operand(kShortExternalStringMask));
   __ AndP(r0, result);
   __ bne(call_runtime /*, cr0*/);
   __ LoadP(string,
            FieldMemOperand(string, ExternalString::kResourceDataOffset));

   Label one_byte, done;
   __ bind(&check_encoding);
   STATIC_ASSERT(kTwoByteStringTag == 0);
   __ mov(r0, Operand(kStringEncodingMask));
   __ AndP(r0, result);
   __ bne(&one_byte, Label::kNear);
   // Two-byte string.
   __ ShiftLeftP(result, index, Operand(1));
   __ LoadLogicalHalfWordP(result, MemOperand(string, result));
   __ b(&done, Label::kNear);
   __ bind(&one_byte);
   // One-byte string.
   __ LoadlB(result, MemOperand(string, index));
   __ bind(&done);
 }

 #undef __

 }  // namespace internal
 }  // namespace v8

 #endif  // V8_TARGET_ARCH_S390
	// Copyright 2015 the V8 project authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "src/s390/codegen-s390.h"

	#if V8_TARGET_ARCH_S390

	#include <memory>

	#include "src/codegen.h"
	#include "src/macro-assembler.h"
	#include "src/s390/simulator-s390.h"

	namespace v8 {
	namespace internal {

	#define __ masm.

	UnaryMathFunctionWithIsolate CreateSqrtFunction(Isolate* isolate) {
	#if defined(USE_SIMULATOR)
	return nullptr;
	#else
	size_t actual_size;
	byte* buffer =
	static_cast<byte>(base::OS::Allocate(1 KB, &actual_size, true));
	if (buffer == nullptr) return nullptr;

	MacroAssembler masm(isolate, buffer, static_cast<int>(actual_size),
	CodeObjectRequired::kNo);

	__ MovFromFloatParameter(d0);
	__ sqdbr(d0, d0);
	__ MovToFloatResult(d0);
	__ Ret();

	CodeDesc desc;
	masm.GetCode(isolate, &desc);
	DCHECK(ABI_USES_FUNCTION_DESCRIPTORS \|\|
	!RelocInfo::RequiresRelocation(isolate, desc));

	Assembler::FlushICache(isolate, buffer, actual_size);
	base::OS::ProtectCode(buffer, actual_size);
	return FUNCTION_CAST<UnaryMathFunctionWithIsolate>(buffer);
	#endif
	}

	#undef __

	// -------------------------------------------------------------------------
	// Code generators

	#define __ ACCESS_MASM(masm)

	// assume ip can be used as a scratch register below
	void StringCharLoadGenerator::Generate(MacroAssembler* masm, Register string,
	Register index, Register result,
	Label* call_runtime) {
	Label indirect_string_loaded;
	__ bind(&indirect_string_loaded);

	// Fetch the instance type of the receiver into result register.
	__ LoadP(result, FieldMemOperand(string, HeapObject::kMapOffset));
	__ LoadlB(result, FieldMemOperand(result, Map::kInstanceTypeOffset));

	// We need special handling for indirect strings.
	Label check_sequential;
	__ mov(r0, Operand(kIsIndirectStringMask));
	__ AndP(r0, result);
	__ beq(&check_sequential, Label::kNear /, cr0/);

	// Dispatch on the indirect string shape: slice or cons.
	Label cons_string, thin_string;
	__ LoadRR(ip, result);
	__ nilf(ip, Operand(kStringRepresentationMask));
	__ CmpP(ip, Operand(kConsStringTag));
	__ beq(&cons_string);
	__ CmpP(ip, Operand(kThinStringTag));
	__ beq(&thin_string);

	// Handle slices.
	__ LoadP(result, FieldMemOperand(string, SlicedString::kOffsetOffset));
	__ LoadP(string, FieldMemOperand(string, SlicedString::kParentOffset));
	__ SmiUntag(ip, result);
	__ AddP(index, ip);
	__ b(&indirect_string_loaded);

	// Handle thin strings.
	__ bind(&thin_string);
	__ LoadP(string, FieldMemOperand(string, ThinString::kActualOffset));
	__ b(&indirect_string_loaded);

	// Handle cons strings.
	// Check whether the right hand side is the empty string (i.e. if
	// this is really a flat string in a cons string). If that is not
	// the case we would rather go to the runtime system now to flatten
	// the string.
	__ bind(&cons_string);
	__ LoadP(result, FieldMemOperand(string, ConsString::kSecondOffset));
	__ CompareRoot(result, Heap::kempty_stringRootIndex);
	__ bne(call_runtime);
	// Get the first of the two strings and load its instance type.
	__ LoadP(string, FieldMemOperand(string, ConsString::kFirstOffset));
	__ b(&indirect_string_loaded);

	// Distinguish sequential and external strings. Only these two string
	// representations can reach here (slices and flat cons strings have been
	// reduced to the underlying sequential or external string).
	Label external_string, check_encoding;
	__ bind(&check_sequential);
	STATIC_ASSERT(kSeqStringTag == 0);
	__ mov(r0, Operand(kStringRepresentationMask));
	__ AndP(r0, result);
	__ bne(&external_string, Label::kNear);

	// Prepare sequential strings
	STATIC_ASSERT(SeqTwoByteString::kHeaderSize == SeqOneByteString::kHeaderSize);
	__ AddP(string, Operand(SeqTwoByteString::kHeaderSize - kHeapObjectTag));
	__ b(&check_encoding, Label::kNear);

	// Handle external strings.
	__ bind(&external_string);
	if (FLAG_debug_code) {
	// Assert that we do not have a cons or slice (indirect strings) here.
	// Sequential strings have already been ruled out.
	__ mov(r0, Operand(kIsIndirectStringMask));
	__ AndP(r0, result);
	__ Assert(eq, kExternalStringExpectedButNotFound, cr0);
	}
	// Rule out short external strings.
	STATIC_ASSERT(kShortExternalStringTag != 0);
	__ mov(r0, Operand(kShortExternalStringMask));
	__ AndP(r0, result);
	__ bne(call_runtime /, cr0/);
	__ LoadP(string,
	FieldMemOperand(string, ExternalString::kResourceDataOffset));

	Label one_byte, done;
	__ bind(&check_encoding);
	STATIC_ASSERT(kTwoByteStringTag == 0);
	__ mov(r0, Operand(kStringEncodingMask));
	__ AndP(r0, result);
	__ bne(&one_byte, Label::kNear);
	// Two-byte string.
	__ ShiftLeftP(result, index, Operand(1));
	__ LoadLogicalHalfWordP(result, MemOperand(string, result));
	__ b(&done, Label::kNear);
	__ bind(&one_byte);
	// One-byte string.
	__ LoadlB(result, MemOperand(string, index));
	__ bind(&done);
	}

	#undef __

	} // namespace internal
	} // namespace v8

	#endif // V8_TARGET_ARCH_S390