// Copyright 2021 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. #ifndef V8_BASELINE_RISCV64_BASELINE_COMPILER_RISCV64_INL_H_ #define V8_BASELINE_RISCV64_BASELINE_COMPILER_RISCV64_INL_H_ #include "src/baseline/baseline-compiler.h" namespace v8 { namespace internal { namespace baseline { #define __ basm_. void BaselineCompiler::Prologue() { ASM_CODE_COMMENT(&masm_); // Enter the frame here, since CallBuiltin will override lr. __ masm()->EnterFrame(StackFrame::BASELINE); DCHECK_EQ(kJSFunctionRegister, kJavaScriptCallTargetRegister); int max_frame_size = bytecode_->frame_size() + max_call_args_; CallBuiltin( kContextRegister, kJSFunctionRegister, kJavaScriptCallArgCountRegister, max_frame_size, kJavaScriptCallNewTargetRegister, bytecode_); PrologueFillFrame(); } void BaselineCompiler::PrologueFillFrame() { ASM_CODE_COMMENT(&masm_); // Inlined register frame fill interpreter::Register new_target_or_generator_register = bytecode_->incoming_new_target_or_generator_register(); __ LoadRoot(kInterpreterAccumulatorRegister, RootIndex::kUndefinedValue); int register_count = bytecode_->register_count(); // Magic value const int kLoopUnrollSize = 8; const int new_target_index = new_target_or_generator_register.index(); const bool has_new_target = new_target_index != kMaxInt; // BaselineOutOfLinePrologue already pushed one undefined. register_count -= 1; if (has_new_target) { if (new_target_index == 0) { // Oops, need to fix up that undefined that BaselineOutOfLinePrologue // pushed. __ masm()->Sd(kJavaScriptCallNewTargetRegister, MemOperand(sp)); } else { DCHECK_LE(new_target_index, register_count); int index = 1; for (; index + 2 <= new_target_index; index += 2) { __ masm()->Push(kInterpreterAccumulatorRegister, kInterpreterAccumulatorRegister); } if (index == new_target_index) { __ masm()->Push(kJavaScriptCallNewTargetRegister, kInterpreterAccumulatorRegister); } else { DCHECK_EQ(index, new_target_index - 1); __ masm()->Push(kInterpreterAccumulatorRegister, kJavaScriptCallNewTargetRegister); } // We pushed "index" registers, minus the one the prologue pushed, plus // the two registers that included new_target. register_count -= (index - 1 + 2); } } if (register_count < 2 * kLoopUnrollSize) { // If the frame is small enough, just unroll the frame fill completely. for (int i = 0; i < register_count; i += 2) { __ masm()->Push(kInterpreterAccumulatorRegister, kInterpreterAccumulatorRegister); } } else { BaselineAssembler::ScratchRegisterScope temps(&basm_); Register scratch = temps.AcquireScratch(); // Extract the first few registers to round to the unroll size. int first_registers = register_count % kLoopUnrollSize; for (int i = 0; i < first_registers; i += 2) { __ masm()->Push(kInterpreterAccumulatorRegister, kInterpreterAccumulatorRegister); } __ Move(scratch, register_count / kLoopUnrollSize); // We enter the loop unconditionally, so make sure we need to loop at least // once. DCHECK_GT(register_count / kLoopUnrollSize, 0); Label loop; __ Bind(&loop); for (int i = 0; i < kLoopUnrollSize; i += 2) { __ masm()->Push(kInterpreterAccumulatorRegister, kInterpreterAccumulatorRegister); } __ masm()->Branch(&loop, gt, scratch, Operand(1)); } } void BaselineCompiler::VerifyFrameSize() { ASM_CODE_COMMENT(&masm_); __ masm()->Add64(kScratchReg, sp, RoundUp(InterpreterFrameConstants::kFixedFrameSizeFromFp + bytecode_->frame_size(), 2 * kSystemPointerSize)); __ masm()->Assert(eq, AbortReason::kUnexpectedStackPointer, kScratchReg, Operand(fp)); } #undef __ } // namespace baseline } // namespace internal } // namespace v8 #endif // V8_BASELINE_RISCV64_BASELINE_COMPILER_RISCV64_INL_H_