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- /*
- * Copyright (c) 2023, Andreas Kling <kling@serenityos.org>
- * Copyright (c) 2023, Simon Wanner <simon@skyrising.xyz>
- *
- * SPDX-License-Identifier: BSD-2-Clause
- */
- #include <AK/OwnPtr.h>
- #include <AK/Platform.h>
- #include <LibJS/Bytecode/CommonImplementations.h>
- #include <LibJS/Bytecode/Instruction.h>
- #include <LibJS/Bytecode/Interpreter.h>
- #include <LibJS/Bytecode/RegexTable.h>
- #include <LibJS/JIT/Compiler.h>
- #include <LibJS/Runtime/AbstractOperations.h>
- #include <LibJS/Runtime/Array.h>
- #include <LibJS/Runtime/DeclarativeEnvironment.h>
- #include <LibJS/Runtime/ECMAScriptFunctionObject.h>
- #include <LibJS/Runtime/FunctionEnvironment.h>
- #include <LibJS/Runtime/VM.h>
- #include <LibJS/Runtime/ValueInlines.h>
- #include <sys/mman.h>
- #include <unistd.h>
- #ifdef JIT_ARCH_SUPPORTED
- # define LOG_JIT_SUCCESS 0
- # define LOG_JIT_FAILURE 1
- # define DUMP_JIT_MACHINE_CODE_TO_STDOUT 0
- # define DUMP_JIT_DISASSEMBLY 0
- # define TRY_OR_SET_EXCEPTION(expression) \
- ({ \
- /* Ignore -Wshadow to allow nesting the macro. */ \
- AK_IGNORE_DIAGNOSTIC("-Wshadow", \
- auto&& _temporary_result = (expression)); \
- static_assert(!::AK::Detail::IsLvalueReference<decltype(_temporary_result.release_value())>, \
- "Do not return a reference from a fallible expression"); \
- if (_temporary_result.is_error()) [[unlikely]] { \
- vm.bytecode_interpreter().reg(Bytecode::Register::exception()) = _temporary_result.release_error().value().value(); \
- return {}; \
- } \
- _temporary_result.release_value(); \
- })
- namespace JS::JIT {
- void Compiler::store_vm_register(Bytecode::Register dst, Assembler::Reg src)
- {
- m_assembler.mov(
- Assembler::Operand::Mem64BaseAndOffset(REGISTER_ARRAY_BASE, dst.index() * sizeof(Value)),
- Assembler::Operand::Register(src));
- }
- void Compiler::load_vm_register(Assembler::Reg dst, Bytecode::Register src)
- {
- m_assembler.mov(
- Assembler::Operand::Register(dst),
- Assembler::Operand::Mem64BaseAndOffset(REGISTER_ARRAY_BASE, src.index() * sizeof(Value)));
- }
- void Compiler::load_accumulator(Assembler::Reg dst)
- {
- m_assembler.mov(
- Assembler::Operand::Register(dst),
- Assembler::Operand::Register(CACHED_ACCUMULATOR));
- }
- void Compiler::store_accumulator(Assembler::Reg src)
- {
- m_assembler.mov(
- Assembler::Operand::Register(CACHED_ACCUMULATOR),
- Assembler::Operand::Register(src));
- }
- void Compiler::reload_cached_accumulator()
- {
- m_assembler.mov(
- Assembler::Operand::Register(CACHED_ACCUMULATOR),
- Assembler::Operand::Mem64BaseAndOffset(REGISTER_ARRAY_BASE, Bytecode::Register::accumulator_index * sizeof(Value)));
- }
- void Compiler::flush_cached_accumulator()
- {
- m_assembler.mov(
- Assembler::Operand::Mem64BaseAndOffset(REGISTER_ARRAY_BASE, Bytecode::Register::accumulator_index * sizeof(Value)),
- Assembler::Operand::Register(CACHED_ACCUMULATOR));
- }
- void Compiler::store_vm_local(size_t dst, Assembler::Reg src)
- {
- m_assembler.mov(
- Assembler::Operand::Mem64BaseAndOffset(LOCALS_ARRAY_BASE, dst * sizeof(Value)),
- Assembler::Operand::Register(src));
- }
- void Compiler::load_vm_local(Assembler::Reg dst, size_t src)
- {
- m_assembler.mov(
- Assembler::Operand::Register(dst),
- Assembler::Operand::Mem64BaseAndOffset(LOCALS_ARRAY_BASE, src * sizeof(Value)));
- }
- void Compiler::compile_load_immediate(Bytecode::Op::LoadImmediate const& op)
- {
- m_assembler.mov(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Imm(op.value().encoded()));
- store_accumulator(GPR0);
- }
- void Compiler::compile_load(Bytecode::Op::Load const& op)
- {
- load_vm_register(GPR0, op.src());
- store_accumulator(GPR0);
- }
- void Compiler::compile_store(Bytecode::Op::Store const& op)
- {
- load_accumulator(GPR0);
- store_vm_register(op.dst(), GPR0);
- }
- static Value cxx_throw_binding_not_initialized(VM& vm, size_t index)
- {
- auto const& variable_name = vm.running_execution_context().function->local_variables_names()[index];
- TRY_OR_SET_EXCEPTION(vm.throw_completion<ReferenceError>(ErrorType::BindingNotInitialized, variable_name));
- return {};
- }
- void Compiler::compile_get_local(Bytecode::Op::GetLocal const& op)
- {
- load_vm_local(GPR0, op.index());
- // if (GPR0 == <empty>) throw ReferenceError(BindingNotInitialized)
- Assembler::Label not_empty {};
- m_assembler.mov(
- Assembler::Operand::Register(GPR1),
- Assembler::Operand::Imm(Value().encoded()));
- m_assembler.jump_if(
- Assembler::Operand::Register(GPR0),
- Assembler::Condition::NotEqualTo,
- Assembler::Operand::Register(GPR1),
- not_empty);
- m_assembler.mov(Assembler::Operand::Register(ARG1), Assembler::Operand::Imm(op.index()));
- native_call((void*)cxx_throw_binding_not_initialized);
- check_exception();
- not_empty.link(m_assembler);
- store_accumulator(GPR0);
- }
- void Compiler::compile_set_local(Bytecode::Op::SetLocal const& op)
- {
- load_accumulator(GPR0);
- store_vm_local(op.index(), GPR0);
- }
- static Value cxx_typeof_local(VM& vm, Value value)
- {
- return PrimitiveString::create(vm, value.typeof());
- }
- void Compiler::compile_typeof_local(Bytecode::Op::TypeofLocal const& op)
- {
- load_vm_local(ARG1, op.index());
- native_call((void*)cxx_typeof_local);
- store_accumulator(GPR0);
- }
- void Compiler::compile_jump(Bytecode::Op::Jump const& op)
- {
- m_assembler.jump(label_for(op.true_target()->block()));
- }
- static bool cxx_to_boolean(VM&, Value value)
- {
- return value.to_boolean_slow_case();
- }
- void Compiler::compile_to_boolean(Assembler::Reg dst, Assembler::Reg src)
- {
- // dst = src;
- m_assembler.mov(
- Assembler::Operand::Register(dst),
- Assembler::Operand::Register(src));
- // dst >>= 48;
- m_assembler.shift_right(
- Assembler::Operand::Register(dst),
- Assembler::Operand::Imm(48));
- // if (dst != BOOLEAN_TAG) goto slow_case;
- Assembler::Label slow_case {};
- m_assembler.jump_if(
- Assembler::Operand::Register(dst),
- Assembler::Condition::NotEqualTo,
- Assembler::Operand::Imm(BOOLEAN_TAG),
- slow_case);
- // Fast path for JS::Value booleans.
- // dst = src;
- m_assembler.mov(
- Assembler::Operand::Register(dst),
- Assembler::Operand::Register(src));
- // goto end;
- auto end = m_assembler.jump();
- // slow_case: // call C++ helper
- slow_case.link(m_assembler);
- m_assembler.mov(
- Assembler::Operand::Register(ARG1),
- Assembler::Operand::Register(src));
- native_call((void*)cxx_to_boolean);
- m_assembler.mov(
- Assembler::Operand::Register(dst),
- Assembler::Operand::Register(RET));
- // end:
- end.link(m_assembler);
- // dst &= 1;
- m_assembler.bitwise_and(
- Assembler::Operand::Register(dst),
- Assembler::Operand::Imm(1));
- }
- void Compiler::compile_jump_conditional(Bytecode::Op::JumpConditional const& op)
- {
- load_accumulator(GPR1);
- compile_to_boolean(GPR0, GPR1);
- m_assembler.jump_if(
- Assembler::Operand::Register(GPR0),
- Assembler::Condition::EqualTo,
- Assembler::Operand::Imm(0),
- label_for(op.false_target()->block()));
- m_assembler.jump(label_for(op.true_target()->block()));
- }
- void Compiler::compile_jump_nullish(Bytecode::Op::JumpNullish const& op)
- {
- load_accumulator(GPR0);
- m_assembler.shift_right(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Imm(48));
- m_assembler.bitwise_and(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Imm(IS_NULLISH_EXTRACT_PATTERN));
- m_assembler.jump_if(
- Assembler::Operand::Register(GPR0),
- Assembler::Condition::EqualTo,
- Assembler::Operand::Imm(IS_NULLISH_PATTERN),
- label_for(op.true_target()->block()));
- m_assembler.jump(label_for(op.false_target()->block()));
- }
- void Compiler::compile_jump_undefined(Bytecode::Op::JumpUndefined const& op)
- {
- load_accumulator(GPR0);
- m_assembler.shift_right(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Imm(48));
- m_assembler.jump_if(
- Assembler::Operand::Register(GPR0),
- Assembler::Condition::EqualTo,
- Assembler::Operand::Imm(UNDEFINED_TAG),
- label_for(op.true_target()->block()));
- m_assembler.jump(label_for(op.false_target()->block()));
- }
- [[maybe_unused]] static Value cxx_increment(VM& vm, Value value)
- {
- auto old_value = TRY_OR_SET_EXCEPTION(value.to_numeric(vm));
- if (old_value.is_number())
- return Value(old_value.as_double() + 1);
- return BigInt::create(vm, old_value.as_bigint().big_integer().plus(Crypto::SignedBigInteger { 1 }));
- }
- void Compiler::jump_if_int32(Assembler::Reg reg, Assembler::Label& label)
- {
- // GPR0 = reg >> 48;
- m_assembler.mov(Assembler::Operand::Register(GPR0), Assembler::Operand::Register(reg));
- m_assembler.shift_right(Assembler::Operand::Register(GPR0), Assembler::Operand::Imm(48));
- m_assembler.jump_if(
- Assembler::Operand::Register(GPR0),
- Assembler::Condition::EqualTo,
- Assembler::Operand::Imm(INT32_TAG),
- label);
- }
- template<typename Codegen>
- void Compiler::branch_if_type(Assembler::Reg reg, u16 type_tag, Codegen codegen)
- {
- // GPR0 = reg >> 48;
- m_assembler.mov(Assembler::Operand::Register(GPR0), Assembler::Operand::Register(reg));
- m_assembler.shift_right(Assembler::Operand::Register(GPR0), Assembler::Operand::Imm(48));
- Assembler::Label not_type_case {};
- m_assembler.jump_if(
- Assembler::Operand::Register(GPR0),
- Assembler::Condition::NotEqualTo,
- Assembler::Operand::Imm(type_tag),
- not_type_case);
- codegen();
- not_type_case.link(m_assembler);
- }
- template<typename Codegen>
- void Compiler::branch_if_both_int32(Assembler::Reg lhs, Assembler::Reg rhs, Codegen codegen)
- {
- // GPR0 = lhs >> 48;
- m_assembler.mov(Assembler::Operand::Register(GPR0), Assembler::Operand::Register(lhs));
- m_assembler.shift_right(Assembler::Operand::Register(GPR0), Assembler::Operand::Imm(48));
- // GPR1 = rhs >> 48;
- m_assembler.mov(Assembler::Operand::Register(GPR1), Assembler::Operand::Register(rhs));
- m_assembler.shift_right(Assembler::Operand::Register(GPR1), Assembler::Operand::Imm(48));
- Assembler::Label not_int32_case {};
- m_assembler.jump_if(
- Assembler::Operand::Register(GPR0),
- Assembler::Condition::NotEqualTo,
- Assembler::Operand::Imm(INT32_TAG),
- not_int32_case);
- m_assembler.jump_if(
- Assembler::Operand::Register(GPR1),
- Assembler::Condition::NotEqualTo,
- Assembler::Operand::Imm(INT32_TAG),
- not_int32_case);
- codegen();
- not_int32_case.link(m_assembler);
- }
- void Compiler::jump_if_not_double(Assembler::Reg reg, Assembler::Reg nan, Assembler::Reg temp, Assembler::Label& label)
- {
- Assembler::Label is_double {};
- // if (reg == nan) goto is_double
- m_assembler.jump_if(
- Assembler::Operand::Register(reg),
- Assembler::Condition::EqualTo,
- Assembler::Operand::Register(nan),
- is_double);
- // temp = reg
- m_assembler.mov(Assembler::Operand::Register(temp), Assembler::Operand::Register(reg));
- // if (temp & CANON_NAN_BITS == CANON_NAN_BITS) goto label
- m_assembler.bitwise_and(
- Assembler::Operand::Register(temp),
- Assembler::Operand::Register(nan));
- m_assembler.jump_if(
- Assembler::Operand::Register(temp),
- Assembler::Condition::EqualTo,
- Assembler::Operand::Register(nan),
- label);
- is_double.link(m_assembler);
- }
- void Compiler::convert_to_double(Assembler::Reg dst, Assembler::Reg src, Assembler::Reg nan, Assembler::Reg temp, Assembler::Label& not_number)
- {
- Assembler::Label is_i32;
- Assembler::Label end;
- jump_if_int32(src, is_i32);
- jump_if_not_double(src, nan, temp, not_number);
- m_assembler.mov(
- Assembler::Operand::FloatRegister(dst),
- Assembler::Operand::Register(src));
- m_assembler.jump(end);
- is_i32.link(m_assembler);
- m_assembler.convert_i32_to_double(
- Assembler::Operand::FloatRegister(dst),
- Assembler::Operand::Register(src));
- end.link(m_assembler);
- }
- template<typename CodegenI32, typename CodegenDouble, typename CodegenValue>
- void Compiler::branch_if_both_numbers(Assembler::Reg lhs, Assembler::Reg rhs, CodegenI32 codegen_i32, CodegenDouble codegen_double, CodegenValue codegen_value)
- {
- Assembler::Label end {};
- Assembler::Label slow_case {};
- // The only case where we can take the int32 fastpath
- branch_if_both_int32(lhs, rhs, [&] {
- // use GPR0 to preserve lhs for the slow case
- m_assembler.mov32(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Register(lhs));
- store_accumulator(codegen_i32(GPR0, rhs, slow_case));
- // accumulator |= SHIFTED_INT32_TAG;
- m_assembler.mov(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Imm(SHIFTED_INT32_TAG));
- m_assembler.bitwise_or(
- Assembler::Operand::Register(CACHED_ACCUMULATOR),
- Assembler::Operand::Register(GPR0));
- m_assembler.jump(end);
- });
- // accumulator = op_double(lhs.to_double(), rhs.to_double()) [if not numeric goto slow_case]
- auto temp_register = GPR0;
- auto nan_register = GPR1;
- m_assembler.mov(Assembler::Operand::Register(nan_register), Assembler::Operand::Imm(CANON_NAN_BITS));
- convert_to_double(FPR0, ARG1, nan_register, temp_register, slow_case);
- convert_to_double(FPR1, ARG2, nan_register, temp_register, slow_case);
- auto result_fp_register = codegen_double(FPR0, FPR1);
- // if result != result then result = nan (canonical)
- Assembler::Label nan_case;
- m_assembler.jump_if(
- Assembler::Operand::FloatRegister(result_fp_register),
- Assembler::Condition::Unordered,
- Assembler::Operand::FloatRegister(result_fp_register),
- nan_case);
- m_assembler.mov(
- Assembler::Operand::Register(CACHED_ACCUMULATOR),
- Assembler::Operand::FloatRegister(result_fp_register));
- m_assembler.jump(end);
- nan_case.link(m_assembler);
- m_assembler.mov(
- Assembler::Operand::Register(CACHED_ACCUMULATOR),
- Assembler::Operand::Register(nan_register));
- m_assembler.jump(end);
- slow_case.link(m_assembler);
- // accumulator = TRY(op_value(lhs, rhs))
- store_accumulator(codegen_value(lhs, rhs));
- check_exception();
- end.link(m_assembler);
- }
- void Compiler::compile_increment(Bytecode::Op::Increment const&)
- {
- load_accumulator(ARG1);
- Assembler::Label end {};
- Assembler::Label slow_case {};
- branch_if_int32(ARG1, [&] {
- // GPR0 = ARG1
- m_assembler.mov(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Register(ARG1));
- // GPR0++;
- m_assembler.inc32(
- Assembler::Operand::Register(GPR0),
- slow_case);
- // accumulator = GPR0 | SHIFTED_INT32_TAG;
- m_assembler.mov(
- Assembler::Operand::Register(GPR1),
- Assembler::Operand::Imm(SHIFTED_INT32_TAG));
- m_assembler.bitwise_or(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Register(GPR1));
- store_accumulator(GPR0);
- m_assembler.jump(end);
- });
- slow_case.link(m_assembler);
- native_call((void*)cxx_increment);
- store_accumulator(RET);
- check_exception();
- end.link(m_assembler);
- }
- static Value cxx_decrement(VM& vm, Value value)
- {
- auto old_value = TRY_OR_SET_EXCEPTION(value.to_numeric(vm));
- if (old_value.is_number())
- return Value(old_value.as_double() - 1);
- return BigInt::create(vm, old_value.as_bigint().big_integer().minus(Crypto::SignedBigInteger { 1 }));
- }
- void Compiler::compile_decrement(Bytecode::Op::Decrement const&)
- {
- load_accumulator(ARG1);
- Assembler::Label end {};
- Assembler::Label slow_case {};
- branch_if_int32(ARG1, [&] {
- // GPR0 = ARG1;
- m_assembler.mov(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Register(ARG1));
- // GPR0--;
- m_assembler.dec32(
- Assembler::Operand::Register(GPR0),
- slow_case);
- // accumulator = GPR0 | SHIFTED_INT32_TAG;
- m_assembler.mov(
- Assembler::Operand::Register(GPR1),
- Assembler::Operand::Imm(SHIFTED_INT32_TAG));
- m_assembler.bitwise_or(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Register(GPR1));
- // accumulator = GPR0;
- store_accumulator(GPR0);
- m_assembler.jump(end);
- });
- slow_case.link(m_assembler);
- native_call((void*)cxx_decrement);
- store_accumulator(RET);
- check_exception();
- end.link(m_assembler);
- }
- void Compiler::check_exception()
- {
- load_vm_register(GPR0, Bytecode::Register::exception());
- m_assembler.mov(Assembler::Operand::Register(GPR1), Assembler::Operand::Imm(Value().encoded()));
- if (auto const* handler = current_block().handler(); handler) {
- Assembler::Label no_exception;
- m_assembler.jump_if(
- Assembler::Operand::Register(GPR0),
- Assembler::Condition::EqualTo,
- Assembler::Operand::Register(GPR1),
- no_exception);
- store_accumulator(GPR0);
- store_vm_register(Bytecode::Register::exception(), GPR1);
- m_assembler.jump(label_for(*handler));
- no_exception.link(m_assembler);
- } else if (auto const* finalizer = current_block().finalizer(); finalizer) {
- store_vm_register(Bytecode::Register::saved_exception(), GPR0);
- store_vm_register(Bytecode::Register::exception(), GPR1);
- m_assembler.jump_if(Assembler::Operand::Register(GPR0),
- Assembler::Condition::NotEqualTo,
- Assembler::Operand::Register(GPR1),
- label_for(*finalizer));
- } else {
- m_assembler.jump_if(Assembler::Operand::Register(GPR0),
- Assembler::Condition::NotEqualTo,
- Assembler::Operand::Register(GPR1),
- m_exit_label);
- }
- }
- void Compiler::compile_enter_unwind_context(Bytecode::Op::EnterUnwindContext const& op)
- {
- m_assembler.jump(label_for(op.entry_point().block()));
- }
- void Compiler::compile_leave_unwind_context(Bytecode::Op::LeaveUnwindContext const&)
- {
- /* Nothing */
- }
- void Compiler::compile_throw(Bytecode::Op::Throw const&)
- {
- load_accumulator(GPR0);
- store_vm_register(Bytecode::Register::exception(), GPR0);
- check_exception();
- }
- static ThrowCompletionOr<Value> loosely_inequals(VM& vm, Value src1, Value src2)
- {
- return Value(!TRY(is_loosely_equal(vm, src1, src2)));
- }
- static ThrowCompletionOr<Value> loosely_equals(VM& vm, Value src1, Value src2)
- {
- return Value(TRY(is_loosely_equal(vm, src1, src2)));
- }
- static ThrowCompletionOr<Value> strict_inequals(VM&, Value src1, Value src2)
- {
- return Value(!is_strictly_equal(src1, src2));
- }
- static ThrowCompletionOr<Value> strict_equals(VM&, Value src1, Value src2)
- {
- return Value(is_strictly_equal(src1, src2));
- }
- # define DO_COMPILE_COMMON_BINARY_OP(TitleCaseName, snake_case_name) \
- static Value cxx_##snake_case_name(VM& vm, Value lhs, Value rhs) \
- { \
- return TRY_OR_SET_EXCEPTION(snake_case_name(vm, lhs, rhs)); \
- } \
- \
- void Compiler::compile_##snake_case_name(Bytecode::Op::TitleCaseName const& op) \
- { \
- load_vm_register(ARG1, op.lhs()); \
- load_accumulator(ARG2); \
- native_call((void*)cxx_##snake_case_name); \
- store_accumulator(RET); \
- check_exception(); \
- }
- JS_ENUMERATE_COMMON_BINARY_OPS_WITHOUT_FAST_PATH(DO_COMPILE_COMMON_BINARY_OP)
- # undef DO_COMPILE_COMMON_BINARY_OP
- static Value cxx_add(VM& vm, Value lhs, Value rhs)
- {
- return TRY_OR_SET_EXCEPTION(add(vm, lhs, rhs));
- }
- void Compiler::compile_add(Bytecode::Op::Add const& op)
- {
- load_vm_register(ARG1, op.lhs());
- load_accumulator(ARG2);
- branch_if_both_numbers(
- ARG1, ARG2,
- [&](auto lhs, auto rhs, auto& slow_case) {
- m_assembler.add32(
- Assembler::Operand::Register(lhs),
- Assembler::Operand::Register(rhs),
- slow_case);
- return lhs; },
- [&](auto lhs, auto rhs) {
- m_assembler.add(
- Assembler::Operand::FloatRegister(lhs),
- Assembler::Operand::FloatRegister(rhs));
- return lhs; },
- [&](auto lhs, auto rhs) {
- m_assembler.mov(
- Assembler::Operand::Register(ARG1),
- Assembler::Operand::Register(lhs));
- m_assembler.mov(
- Assembler::Operand::Register(ARG2),
- Assembler::Operand::Register(rhs));
- native_call((void*)cxx_add);
- return RET;
- });
- }
- static Value cxx_sub(VM& vm, Value lhs, Value rhs)
- {
- return TRY_OR_SET_EXCEPTION(sub(vm, lhs, rhs));
- }
- void Compiler::compile_sub(Bytecode::Op::Sub const& op)
- {
- load_vm_register(ARG1, op.lhs());
- load_accumulator(ARG2);
- branch_if_both_numbers(
- ARG1, ARG2,
- [&](auto lhs, auto rhs, auto& slow_case) {
- m_assembler.sub32(
- Assembler::Operand::Register(lhs),
- Assembler::Operand::Register(rhs),
- slow_case);
- return lhs; },
- [&](auto lhs, auto rhs) {
- m_assembler.sub(
- Assembler::Operand::FloatRegister(lhs),
- Assembler::Operand::FloatRegister(rhs));
- return lhs; },
- [&](auto lhs, auto rhs) {
- m_assembler.mov(
- Assembler::Operand::Register(ARG1),
- Assembler::Operand::Register(lhs));
- m_assembler.mov(
- Assembler::Operand::Register(ARG2),
- Assembler::Operand::Register(rhs));
- native_call((void*)cxx_sub);
- return RET;
- });
- }
- static Value cxx_mul(VM& vm, Value lhs, Value rhs)
- {
- return TRY_OR_SET_EXCEPTION(mul(vm, lhs, rhs));
- }
- void Compiler::compile_mul(Bytecode::Op::Mul const& op)
- {
- load_vm_register(ARG1, op.lhs());
- load_accumulator(ARG2);
- branch_if_both_numbers(
- ARG1, ARG2,
- [&](auto lhs, auto rhs, auto& slow_case) {
- m_assembler.mul32(
- Assembler::Operand::Register(lhs),
- Assembler::Operand::Register(rhs),
- slow_case);
- return lhs; },
- [&](auto lhs, auto rhs) {
- m_assembler.mul(
- Assembler::Operand::FloatRegister(lhs),
- Assembler::Operand::FloatRegister(rhs));
- return lhs; },
- [&](auto lhs, auto rhs) {
- m_assembler.mov(
- Assembler::Operand::Register(ARG1),
- Assembler::Operand::Register(lhs));
- m_assembler.mov(
- Assembler::Operand::Register(ARG2),
- Assembler::Operand::Register(rhs));
- native_call((void*)cxx_mul);
- return RET;
- });
- }
- # define DO_COMPILE_COMPARISON_OP(TitleCaseName, snake_case_name, AssemblerCondition) \
- static Value cxx_##snake_case_name(VM& vm, Value lhs, Value rhs) \
- { \
- return TRY_OR_SET_EXCEPTION(snake_case_name(vm, lhs, rhs)); \
- } \
- \
- void Compiler::compile_##snake_case_name(Bytecode::Op::TitleCaseName const& op) \
- { \
- load_vm_register(ARG1, op.lhs()); \
- load_accumulator(ARG2); \
- \
- Assembler::Label end {}; \
- \
- branch_if_both_int32(ARG1, ARG2, [&] { \
- Assembler::Label true_case {}; \
- \
- m_assembler.sign_extend_32_to_64_bits(ARG1); \
- m_assembler.sign_extend_32_to_64_bits(ARG2); \
- \
- m_assembler.jump_if( \
- Assembler::Operand::Register(ARG1), \
- Assembler::Condition::AssemblerCondition, \
- Assembler::Operand::Register(ARG2), \
- true_case); \
- \
- m_assembler.mov( \
- Assembler::Operand::Register(GPR0), \
- Assembler::Operand::Imm(Value(false).encoded())); \
- store_accumulator(GPR0); \
- m_assembler.jump(end); \
- \
- true_case.link(m_assembler); \
- m_assembler.mov( \
- Assembler::Operand::Register(GPR0), \
- Assembler::Operand::Imm(Value(true).encoded())); \
- store_accumulator(GPR0); \
- \
- m_assembler.jump(end); \
- }); \
- \
- native_call((void*)cxx_##snake_case_name); \
- store_accumulator(RET); \
- check_exception(); \
- end.link(m_assembler); \
- }
- JS_ENUMERATE_COMPARISON_OPS(DO_COMPILE_COMPARISON_OP)
- # undef DO_COMPILE_COMPARISON_OP
- static Value cxx_bitwise_and(VM& vm, Value lhs, Value rhs)
- {
- return TRY_OR_SET_EXCEPTION(bitwise_and(vm, lhs, rhs));
- }
- void Compiler::compile_bitwise_and(Bytecode::Op::BitwiseAnd const& op)
- {
- load_vm_register(ARG1, op.lhs());
- load_accumulator(ARG2);
- Assembler::Label end {};
- branch_if_both_int32(ARG1, ARG2, [&] {
- // NOTE: Since both sides are Int32, we know that the upper 32 bits are nothing but the INT32_TAG.
- // This means we can get away with just a simple 64-bit bitwise and.
- m_assembler.bitwise_and(
- Assembler::Operand::Register(ARG1),
- Assembler::Operand::Register(ARG2));
- store_accumulator(ARG1);
- m_assembler.jump(end);
- });
- native_call((void*)cxx_bitwise_and);
- store_accumulator(RET);
- check_exception();
- end.link(m_assembler);
- }
- static Value cxx_bitwise_or(VM& vm, Value lhs, Value rhs)
- {
- return TRY_OR_SET_EXCEPTION(bitwise_or(vm, lhs, rhs));
- }
- void Compiler::compile_bitwise_or(Bytecode::Op::BitwiseOr const& op)
- {
- load_vm_register(ARG1, op.lhs());
- load_accumulator(ARG2);
- Assembler::Label end {};
- branch_if_both_int32(ARG1, ARG2, [&] {
- // NOTE: Since both sides are Int32, we know that the upper 32 bits are nothing but the INT32_TAG.
- // This means we can get away with just a simple 64-bit bitwise or.
- m_assembler.bitwise_or(
- Assembler::Operand::Register(ARG1),
- Assembler::Operand::Register(ARG2));
- store_accumulator(ARG1);
- m_assembler.jump(end);
- });
- native_call((void*)cxx_bitwise_or);
- store_accumulator(RET);
- check_exception();
- end.link(m_assembler);
- }
- static Value cxx_bitwise_xor(VM& vm, Value lhs, Value rhs)
- {
- return TRY_OR_SET_EXCEPTION(bitwise_xor(vm, lhs, rhs));
- }
- void Compiler::compile_bitwise_xor(Bytecode::Op::BitwiseXor const& op)
- {
- load_vm_register(ARG1, op.lhs());
- load_accumulator(ARG2);
- Assembler::Label end {};
- branch_if_both_int32(ARG1, ARG2, [&] {
- // ARG1 ^= ARG2 (32-bit)
- m_assembler.bitwise_xor32(
- Assembler::Operand::Register(ARG1),
- Assembler::Operand::Register(ARG2));
- // accumulator = ARG1 | SHIFTED_INT32_TAG;
- m_assembler.mov(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Imm(SHIFTED_INT32_TAG));
- m_assembler.bitwise_or(
- Assembler::Operand::Register(ARG1),
- Assembler::Operand::Register(GPR0));
- store_accumulator(ARG1);
- m_assembler.jump(end);
- });
- native_call((void*)cxx_bitwise_xor);
- store_accumulator(RET);
- check_exception();
- end.link(m_assembler);
- }
- static Value cxx_left_shift(VM& vm, Value lhs, Value rhs)
- {
- return TRY_OR_SET_EXCEPTION(left_shift(vm, lhs, rhs));
- }
- void Compiler::compile_left_shift(Bytecode::Op::LeftShift const& op)
- {
- load_vm_register(ARG1, op.lhs());
- load_accumulator(ARG2);
- Assembler::Label end {};
- branch_if_both_int32(ARG1, ARG2, [&] {
- // RCX = ARG2
- m_assembler.mov(
- Assembler::Operand::Register(Assembler::Reg::RCX),
- Assembler::Operand::Register(ARG2));
- // ARG1 <<= CL (32-bit)
- m_assembler.shift_left32(Assembler::Operand::Register(ARG1), {});
- // accumulator = ARG1 | SHIFTED_INT32_TAG;
- m_assembler.mov(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Imm(SHIFTED_INT32_TAG));
- m_assembler.bitwise_or(
- Assembler::Operand::Register(ARG1),
- Assembler::Operand::Register(GPR0));
- store_accumulator(ARG1);
- m_assembler.jump(end);
- });
- native_call((void*)cxx_left_shift);
- store_accumulator(RET);
- check_exception();
- end.link(m_assembler);
- }
- static Value cxx_right_shift(VM& vm, Value lhs, Value rhs)
- {
- return TRY_OR_SET_EXCEPTION(right_shift(vm, lhs, rhs));
- }
- void Compiler::compile_right_shift(Bytecode::Op::RightShift const& op)
- {
- load_vm_register(ARG1, op.lhs());
- load_accumulator(ARG2);
- Assembler::Label end {};
- branch_if_both_int32(ARG1, ARG2, [&] {
- // RCX = ARG2
- m_assembler.mov(
- Assembler::Operand::Register(Assembler::Reg::RCX),
- Assembler::Operand::Register(ARG2));
- // ARG1 >>= CL (32-bit)
- m_assembler.arithmetic_right_shift32(Assembler::Operand::Register(ARG1), {});
- // accumulator = ARG1 | SHIFTED_INT32_TAG;
- m_assembler.mov(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Imm(SHIFTED_INT32_TAG));
- m_assembler.bitwise_or(
- Assembler::Operand::Register(ARG1),
- Assembler::Operand::Register(GPR0));
- store_accumulator(ARG1);
- m_assembler.jump(end);
- });
- native_call((void*)cxx_right_shift);
- store_accumulator(RET);
- check_exception();
- end.link(m_assembler);
- }
- static Value cxx_unsigned_right_shift(VM& vm, Value lhs, Value rhs)
- {
- return TRY_OR_SET_EXCEPTION(unsigned_right_shift(vm, lhs, rhs));
- }
- void Compiler::compile_unsigned_right_shift(Bytecode::Op::UnsignedRightShift const& op)
- {
- load_vm_register(ARG1, op.lhs());
- load_accumulator(ARG2);
- Assembler::Label end {};
- Assembler::Label slow_case {};
- branch_if_both_int32(ARG1, ARG2, [&] {
- // GPR0 = ARG1
- m_assembler.mov(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Register(ARG1));
- // RCX = ARG2
- m_assembler.mov(
- Assembler::Operand::Register(Assembler::Reg::RCX),
- Assembler::Operand::Register(ARG2));
- // GPR0 >>>= CL (32-bit)
- m_assembler.shift_right32(Assembler::Operand::Register(GPR0), {});
- // GPR1 = sign_extended(GPR0)
- m_assembler.mov32(
- Assembler::Operand::Register(GPR1),
- Assembler::Operand::Register(GPR0),
- Assembler::Extension::SignExtend);
- // if (GPR1 < 0) goto slow_case;
- m_assembler.jump_if(
- Assembler::Operand::Register(GPR1),
- Assembler::Condition::SignedLessThan,
- Assembler::Operand::Imm(0),
- slow_case);
- // accumulator = GPR0 | SHIFTED_INT32_TAG;
- m_assembler.mov(
- Assembler::Operand::Register(GPR1),
- Assembler::Operand::Imm(SHIFTED_INT32_TAG));
- m_assembler.bitwise_or(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Register(GPR1));
- store_accumulator(GPR0);
- m_assembler.jump(end);
- });
- slow_case.link(m_assembler);
- native_call((void*)cxx_unsigned_right_shift);
- store_accumulator(RET);
- check_exception();
- end.link(m_assembler);
- }
- static ThrowCompletionOr<Value> not_(VM&, Value value)
- {
- return Value(!value.to_boolean());
- }
- static ThrowCompletionOr<Value> typeof_(VM& vm, Value value)
- {
- return PrimitiveString::create(vm, value.typeof());
- }
- # define DO_COMPILE_COMMON_UNARY_OP(TitleCaseName, snake_case_name) \
- static Value cxx_##snake_case_name(VM& vm, Value value) \
- { \
- return TRY_OR_SET_EXCEPTION(snake_case_name(vm, value)); \
- } \
- \
- void Compiler::compile_##snake_case_name(Bytecode::Op::TitleCaseName const&) \
- { \
- load_accumulator(ARG1); \
- native_call((void*)cxx_##snake_case_name); \
- store_accumulator(RET); \
- check_exception(); \
- }
- JS_ENUMERATE_COMMON_UNARY_OPS(DO_COMPILE_COMMON_UNARY_OP)
- # undef DO_COMPILE_COMMON_UNARY_OP
- void Compiler::compile_return(Bytecode::Op::Return const&)
- {
- load_accumulator(GPR0);
- if (auto const* finalizer = current_block().finalizer(); finalizer) {
- store_vm_register(Bytecode::Register::saved_return_value(), GPR0);
- m_assembler.jump(label_for(*finalizer));
- } else {
- store_vm_register(Bytecode::Register::return_value(), GPR0);
- jump_to_exit();
- }
- }
- static Value cxx_new_string(VM& vm, DeprecatedString const& string)
- {
- return PrimitiveString::create(vm, string);
- }
- void Compiler::compile_new_string(Bytecode::Op::NewString const& op)
- {
- auto const& string = m_bytecode_executable.string_table->get(op.index());
- m_assembler.mov(
- Assembler::Operand::Register(ARG1),
- Assembler::Operand::Imm(bit_cast<u64>(&string)));
- native_call((void*)cxx_new_string);
- store_accumulator(RET);
- }
- void Compiler::compile_new_regexp(Bytecode::Op::NewRegExp const& op)
- {
- auto const& parsed_regex = m_bytecode_executable.regex_table->get(op.regex_index());
- auto const& pattern = m_bytecode_executable.string_table->get(op.source_index());
- auto const& flags = m_bytecode_executable.string_table->get(op.flags_index());
- m_assembler.mov(
- Assembler::Operand::Register(ARG1),
- Assembler::Operand::Imm(bit_cast<u64>(&parsed_regex)));
- m_assembler.mov(
- Assembler::Operand::Register(ARG2),
- Assembler::Operand::Imm(bit_cast<u64>(&pattern)));
- m_assembler.mov(
- Assembler::Operand::Register(ARG3),
- Assembler::Operand::Imm(bit_cast<u64>(&flags)));
- native_call((void*)Bytecode::new_regexp);
- store_accumulator(RET);
- }
- static Value cxx_new_bigint(VM& vm, Crypto::SignedBigInteger const& bigint)
- {
- return BigInt::create(vm, bigint);
- }
- void Compiler::compile_new_bigint(Bytecode::Op::NewBigInt const& op)
- {
- m_assembler.mov(
- Assembler::Operand::Register(ARG1),
- Assembler::Operand::Imm(bit_cast<u64>(&op.bigint())));
- native_call((void*)cxx_new_bigint);
- store_accumulator(RET);
- }
- static Value cxx_new_object(VM& vm)
- {
- auto& realm = *vm.current_realm();
- return Object::create(realm, realm.intrinsics().object_prototype());
- }
- void Compiler::compile_new_object(Bytecode::Op::NewObject const&)
- {
- native_call((void*)cxx_new_object);
- store_accumulator(RET);
- }
- static Value cxx_new_array(VM& vm, size_t element_count, u32 first_register_index)
- {
- auto& realm = *vm.current_realm();
- auto array = MUST(Array::create(realm, 0));
- for (size_t i = 0; i < element_count; ++i) {
- auto& value = vm.bytecode_interpreter().reg(Bytecode::Register(first_register_index + i));
- array->indexed_properties().put(i, value, default_attributes);
- }
- return array;
- }
- void Compiler::compile_new_array(Bytecode::Op::NewArray const& op)
- {
- m_assembler.mov(
- Assembler::Operand::Register(ARG1),
- Assembler::Operand::Imm(op.element_count()));
- m_assembler.mov(
- Assembler::Operand::Register(ARG2),
- Assembler::Operand::Imm(op.element_count() ? op.start().index() : 0));
- native_call((void*)cxx_new_array);
- store_accumulator(RET);
- }
- void Compiler::compile_new_function(Bytecode::Op::NewFunction const& op)
- {
- m_assembler.mov(
- Assembler::Operand::Register(ARG1),
- Assembler::Operand::Imm(bit_cast<u64>(&op.function_node())));
- m_assembler.mov(
- Assembler::Operand::Register(ARG2),
- Assembler::Operand::Imm(bit_cast<u64>(&op.lhs_name())));
- m_assembler.mov(
- Assembler::Operand::Register(ARG3),
- Assembler::Operand::Imm(bit_cast<u64>(&op.home_object())));
- native_call((void*)Bytecode::new_function);
- store_accumulator(RET);
- }
- static Value cxx_new_class(VM& vm, Value super_class, ClassExpression const& class_expression, Optional<Bytecode::IdentifierTableIndex> const& lhs_name)
- {
- return TRY_OR_SET_EXCEPTION(Bytecode::new_class(vm, super_class, class_expression, lhs_name));
- }
- void Compiler::compile_new_class(Bytecode::Op::NewClass const& op)
- {
- load_accumulator(ARG1);
- m_assembler.mov(
- Assembler::Operand::Register(ARG2),
- Assembler::Operand::Imm(bit_cast<u64>(&op.class_expression())));
- m_assembler.mov(
- Assembler::Operand::Register(ARG3),
- Assembler::Operand::Imm(bit_cast<u64>(&op.lhs_name())));
- native_call((void*)cxx_new_class);
- store_accumulator(RET);
- }
- static Value cxx_get_by_id(VM& vm, Value base, DeprecatedFlyString const& property, Bytecode::PropertyLookupCache& cache)
- {
- return TRY_OR_SET_EXCEPTION(Bytecode::get_by_id(vm, property, base, base, cache));
- }
- void Compiler::compile_get_by_id(Bytecode::Op::GetById const& op)
- {
- auto& cache = m_bytecode_executable.property_lookup_caches[op.cache_index()];
- Assembler::Label end;
- Assembler::Label slow_case;
- m_assembler.mov(
- Assembler::Operand::Register(ARG5),
- Assembler::Operand::Imm(bit_cast<u64>(&cache)));
- load_accumulator(ARG1);
- branch_if_object(ARG1, [&] {
- extract_object_pointer(GPR0, ARG1);
- // if (cache.shape != &object->shape()) goto slow_case;
- m_assembler.mov(
- Assembler::Operand::Register(GPR2),
- Assembler::Operand::Mem64BaseAndOffset(GPR0, Object::shape_offset()));
- m_assembler.mov(
- Assembler::Operand::Register(GPR1),
- Assembler::Operand::Mem64BaseAndOffset(ARG5, Bytecode::PropertyLookupCache::shape_offset()));
- m_assembler.jump_if(
- Assembler::Operand::Register(GPR1),
- Assembler::Condition::EqualTo,
- Assembler::Operand::Imm(0),
- slow_case);
- m_assembler.mov(
- Assembler::Operand::Register(GPR1),
- Assembler::Operand::Mem64BaseAndOffset(GPR1, AK::WeakLink::ptr_offset()));
- m_assembler.jump_if(
- Assembler::Operand::Register(GPR2),
- Assembler::Condition::NotEqualTo,
- Assembler::Operand::Register(GPR1),
- slow_case);
- // (!object->shape().is_unique() || object->shape().unique_shape_serial_number() == cache.unique_shape_serial_number)) {
- Assembler::Label fast_case;
- // GPR1 = object->shape().is_unique()
- m_assembler.mov8(
- Assembler::Operand::Register(GPR1),
- Assembler::Operand::Mem64BaseAndOffset(GPR2, Shape::is_unique_offset()));
- m_assembler.jump_if(
- Assembler::Operand::Register(GPR1),
- Assembler::Condition::EqualTo,
- Assembler::Operand::Imm(0),
- fast_case);
- // GPR1 = object->shape().unique_shape_serial_number()
- m_assembler.mov(
- Assembler::Operand::Register(GPR1),
- Assembler::Operand::Mem64BaseAndOffset(GPR2, Shape::unique_shape_serial_number_offset()));
- // GPR2 = cache.unique_shape_serial_number
- m_assembler.mov(
- Assembler::Operand::Register(GPR2),
- Assembler::Operand::Mem64BaseAndOffset(ARG5, Bytecode::PropertyLookupCache::unique_shape_serial_number_offset()));
- // if (GPR1 != GPR2) goto slow_case;
- m_assembler.jump_if(
- Assembler::Operand::Register(GPR1),
- Assembler::Condition::NotEqualTo,
- Assembler::Operand::Register(GPR2),
- slow_case);
- fast_case.link(m_assembler);
- // return object->get_direct(*cache.property_offset);
- // GPR0 = object
- // GPR1 = *cache.property_offset * sizeof(Value)
- m_assembler.mov(
- Assembler::Operand::Register(GPR1),
- Assembler::Operand::Mem64BaseAndOffset(ARG5, Bytecode::PropertyLookupCache::property_offset_offset() + decltype(cache.property_offset)::value_offset()));
- m_assembler.mul32(
- Assembler::Operand::Register(GPR1),
- Assembler::Operand::Imm(sizeof(Value)),
- slow_case);
- // GPR0 = object->m_storage.outline_buffer
- m_assembler.mov(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Mem64BaseAndOffset(GPR0, Object::storage_offset() + Vector<Value>::outline_buffer_offset()));
- // GPR0 = &object->m_storage.outline_buffer[*cache.property_offset]
- m_assembler.add(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Register(GPR1));
- // *GPR0 = value
- m_assembler.mov(
- Assembler::Operand::Register(GPR1),
- Assembler::Operand::Mem64BaseAndOffset(GPR0, 0));
- store_accumulator(GPR1);
- m_assembler.jump(end);
- });
- slow_case.link(m_assembler);
- m_assembler.mov(
- Assembler::Operand::Register(ARG2),
- Assembler::Operand::Imm(bit_cast<u64>(&m_bytecode_executable.get_identifier(op.property()))));
- m_assembler.mov(
- Assembler::Operand::Register(ARG3),
- Assembler::Operand::Imm(bit_cast<u64>(&cache)));
- native_call((void*)cxx_get_by_id);
- store_accumulator(RET);
- check_exception();
- end.link(m_assembler);
- }
- static Value cxx_get_by_value(VM& vm, Value base, Value property)
- {
- return TRY_OR_SET_EXCEPTION(Bytecode::get_by_value(vm, base, property));
- }
- void Compiler::compile_get_by_value(Bytecode::Op::GetByValue const& op)
- {
- load_vm_register(ARG1, op.base());
- load_accumulator(ARG2);
- Assembler::Label end {};
- Assembler::Label slow_case {};
- branch_if_object(ARG1, [&] {
- branch_if_int32(ARG2, [&] {
- // if (ARG2 < 0) goto slow_case;
- m_assembler.mov(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Register(ARG2));
- m_assembler.sign_extend_32_to_64_bits(GPR0);
- m_assembler.jump_if(
- Assembler::Operand::Register(GPR0),
- Assembler::Condition::SignedLessThan,
- Assembler::Operand::Imm(0),
- slow_case);
- // GPR0 = extract_pointer(ARG1)
- extract_object_pointer(GPR0, ARG1);
- // if (object->may_interfere_with_indexed_property_access()) goto slow_case;
- m_assembler.mov8(
- Assembler::Operand::Register(GPR1),
- Assembler::Operand::Mem64BaseAndOffset(GPR0, Object::may_interfere_with_indexed_property_access_offset()));
- m_assembler.jump_if(
- Assembler::Operand::Register(GPR1),
- Assembler::Condition::NotEqualTo,
- Assembler::Operand::Imm(0),
- slow_case);
- // GPR0 = object->indexed_properties().storage()
- m_assembler.mov(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Mem64BaseAndOffset(GPR0, Object::indexed_properties_offset() + IndexedProperties::storage_offset()));
- // if (GPR0 == nullptr) goto slow_case;
- m_assembler.jump_if(
- Assembler::Operand::Register(GPR0),
- Assembler::Condition::EqualTo,
- Assembler::Operand::Imm(0),
- slow_case);
- // if (!GPR0->is_simple_storage()) goto slow_case;
- m_assembler.mov8(
- Assembler::Operand::Register(GPR1),
- Assembler::Operand::Mem64BaseAndOffset(GPR0, IndexedPropertyStorage::is_simple_storage_offset()));
- m_assembler.jump_if(
- Assembler::Operand::Register(GPR1),
- Assembler::Condition::EqualTo,
- Assembler::Operand::Imm(0),
- slow_case);
- // GPR2 = extract_int32(ARG2)
- m_assembler.mov32(
- Assembler::Operand::Register(GPR2),
- Assembler::Operand::Register(ARG2));
- // if (GPR2 >= GPR0->array_like_size()) goto slow_case;
- m_assembler.mov(
- Assembler::Operand::Register(GPR1),
- Assembler::Operand::Mem64BaseAndOffset(GPR0, SimpleIndexedPropertyStorage::array_size_offset()));
- m_assembler.jump_if(
- Assembler::Operand::Register(GPR2),
- Assembler::Condition::SignedGreaterThanOrEqualTo,
- Assembler::Operand::Register(GPR1),
- slow_case);
- // GPR0 = GPR0->elements().outline_buffer()
- m_assembler.mov(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Mem64BaseAndOffset(GPR0, SimpleIndexedPropertyStorage::elements_offset() + Vector<Value>::outline_buffer_offset()));
- // GPR2 *= sizeof(Value)
- m_assembler.mul32(
- Assembler::Operand::Register(GPR2),
- Assembler::Operand::Imm(sizeof(Value)),
- slow_case);
- // GPR0 = GPR0[GPR2]
- m_assembler.add(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Register(GPR2));
- m_assembler.mov(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Mem64BaseAndOffset(GPR0, 0));
- // if (GPR0.is_empty()) goto slow_case;
- m_assembler.mov(Assembler::Operand::Register(GPR1), Assembler::Operand::Register(GPR0));
- m_assembler.shift_right(Assembler::Operand::Register(GPR1), Assembler::Operand::Imm(TAG_SHIFT));
- m_assembler.jump_if(
- Assembler::Operand::Register(GPR1),
- Assembler::Condition::EqualTo,
- Assembler::Operand::Imm(EMPTY_TAG),
- slow_case);
- // if (GPR0.is_accessor()) goto slow_case;
- m_assembler.mov(Assembler::Operand::Register(GPR1), Assembler::Operand::Register(GPR0));
- m_assembler.shift_right(Assembler::Operand::Register(GPR1), Assembler::Operand::Imm(TAG_SHIFT));
- m_assembler.jump_if(
- Assembler::Operand::Register(GPR1),
- Assembler::Condition::EqualTo,
- Assembler::Operand::Imm(ACCESSOR_TAG),
- slow_case);
- // accumulator = GPR0;
- store_accumulator(GPR0);
- m_assembler.jump(end);
- });
- });
- slow_case.link(m_assembler);
- native_call((void*)cxx_get_by_value);
- store_accumulator(RET);
- check_exception();
- end.link(m_assembler);
- }
- static Value cxx_get_global(VM& vm, DeprecatedFlyString const& identifier, Bytecode::GlobalVariableCache& cache)
- {
- return TRY_OR_SET_EXCEPTION(Bytecode::get_global(vm.bytecode_interpreter(), identifier, cache));
- }
- void Compiler::compile_get_global(Bytecode::Op::GetGlobal const& op)
- {
- m_assembler.mov(
- Assembler::Operand::Register(ARG1),
- Assembler::Operand::Imm(bit_cast<u64>(&m_bytecode_executable.get_identifier(op.identifier()))));
- m_assembler.mov(
- Assembler::Operand::Register(ARG2),
- Assembler::Operand::Imm(bit_cast<u64>(&m_bytecode_executable.global_variable_caches[op.cache_index()])));
- native_call((void*)cxx_get_global);
- store_accumulator(RET);
- check_exception();
- }
- static Value cxx_get_variable(VM& vm, DeprecatedFlyString const& name, Bytecode::EnvironmentVariableCache& cache)
- {
- return TRY_OR_SET_EXCEPTION(Bytecode::get_variable(vm.bytecode_interpreter(), name, cache));
- }
- void Compiler::compile_get_variable(Bytecode::Op::GetVariable const& op)
- {
- Assembler::Label slow_case;
- // if (!cache.has_value()) goto slow_case;
- m_assembler.mov(
- Assembler::Operand::Register(ARG2),
- Assembler::Operand::Imm(bit_cast<u64>(&m_bytecode_executable.environment_variable_caches[op.cache_index()])));
- m_assembler.mov8(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Mem64BaseAndOffset(ARG2, Bytecode::EnvironmentVariableCache::has_value_offset()));
- m_assembler.jump_if(
- Assembler::Operand::Register(GPR0),
- Assembler::Condition::EqualTo,
- Assembler::Operand::Imm(0),
- slow_case);
- // auto environment = vm.running_execution_context().lexical_environment;
- // GPR1 = current lexical environment
- m_assembler.mov(
- Assembler::Operand::Register(GPR1),
- Assembler::Operand::Mem64BaseAndOffset(RUNNING_EXECUTION_CONTEXT_BASE, ExecutionContext::lexical_environment_offset()));
- // for (size_t i = 0; i < cache->hops; ++i)
- // environment = environment->outer_environment();
- // GPR0 = hops
- m_assembler.mov32(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Mem64BaseAndOffset(ARG2, Bytecode::EnvironmentVariableCache::value_offset() + EnvironmentCoordinate::hops_offset()));
- {
- // while (GPR0--)
- // GPR1 = GPR1->outer_environment()
- Assembler::Label loop_start;
- Assembler::Label loop_end;
- loop_start.link(m_assembler);
- m_assembler.jump_if(
- Assembler::Operand::Register(GPR0),
- Assembler::Condition::EqualTo,
- Assembler::Operand::Imm(0),
- loop_end);
- m_assembler.sub(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Imm(1));
- m_assembler.mov(
- Assembler::Operand::Register(GPR1),
- Assembler::Operand::Mem64BaseAndOffset(GPR1, Environment::outer_environment_offset()));
- m_assembler.jump(loop_start);
- loop_end.link(m_assembler);
- }
- // GPR1 now points to the environment holding our binding.
- // if (environment->is_permanently_screwed_by_eval()) goto slow_case;
- m_assembler.mov8(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Mem64BaseAndOffset(GPR1, Environment::is_permanently_screwed_by_eval_offset()));
- m_assembler.jump_if(
- Assembler::Operand::Register(GPR0),
- Assembler::Condition::NotEqualTo,
- Assembler::Operand::Imm(0),
- slow_case);
- // GPR1 = environment->m_bindings.outline_buffer()
- m_assembler.mov(
- Assembler::Operand::Register(GPR1),
- Assembler::Operand::Mem64BaseAndOffset(GPR1, DeclarativeEnvironment::bindings_offset() + Vector<DeclarativeEnvironment::Binding>::outline_buffer_offset()));
- // GPR0 = index
- m_assembler.mov32(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Mem64BaseAndOffset(ARG2, Bytecode::EnvironmentVariableCache::value_offset() + EnvironmentCoordinate::index_offset()));
- // GPR0 *= sizeof(DeclarativeEnvironment::Binding)
- m_assembler.mul32(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Imm(sizeof(DeclarativeEnvironment::Binding)),
- slow_case);
- // GPR1 = &binding
- m_assembler.add(
- Assembler::Operand::Register(GPR1),
- Assembler::Operand::Register(GPR0));
- // if (!binding.initialized) goto slow_case;
- m_assembler.mov(
- Assembler ::Operand::Register(GPR0),
- Assembler::Operand::Mem64BaseAndOffset(GPR1, DeclarativeEnvironment::Binding::initialized_offset()));
- m_assembler.bitwise_and(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Imm(0xff));
- m_assembler.jump_if(
- Assembler::Operand::Register(GPR0),
- Assembler::Condition::EqualTo,
- Assembler::Operand::Imm(0),
- slow_case);
- // accumulator = binding.value;
- m_assembler.mov(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Mem64BaseAndOffset(GPR1, DeclarativeEnvironment::Binding::value_offset()));
- store_accumulator(GPR0);
- Assembler::Label end;
- m_assembler.jump(end);
- // Slow case: Uncached access. Call C++ helper.
- slow_case.link(m_assembler);
- m_assembler.mov(
- Assembler::Operand::Register(ARG1),
- Assembler::Operand::Imm(bit_cast<u64>(&m_bytecode_executable.get_identifier(op.identifier()))));
- native_call((void*)cxx_get_variable);
- store_accumulator(RET);
- check_exception();
- end.link(m_assembler);
- }
- static Value cxx_get_callee_and_this_from_environment(VM& vm, DeprecatedFlyString const& name, Bytecode::Register callee_reg, Bytecode::Register this_reg, Bytecode::EnvironmentVariableCache& cache)
- {
- auto& bytecode_interpreter = vm.bytecode_interpreter();
- auto callee_and_this = TRY_OR_SET_EXCEPTION(Bytecode::get_callee_and_this_from_environment(
- bytecode_interpreter,
- name,
- cache));
- bytecode_interpreter.reg(callee_reg) = callee_and_this.callee;
- bytecode_interpreter.reg(this_reg) = callee_and_this.this_value;
- return {};
- }
- void Compiler::compile_get_callee_and_this_from_environment(Bytecode::Op::GetCalleeAndThisFromEnvironment const& op)
- {
- m_assembler.mov(
- Assembler::Operand::Register(ARG1),
- Assembler::Operand::Imm(bit_cast<u64>(&m_bytecode_executable.get_identifier(op.identifier()))));
- m_assembler.mov(
- Assembler::Operand::Register(ARG2),
- Assembler::Operand::Imm(op.callee().index()));
- m_assembler.mov(
- Assembler::Operand::Register(ARG3),
- Assembler::Operand::Imm(op.this_().index()));
- m_assembler.mov(
- Assembler::Operand::Register(ARG4),
- Assembler::Operand::Imm(bit_cast<u64>(&m_bytecode_executable.environment_variable_caches[op.cache_index()])));
- native_call((void*)cxx_get_callee_and_this_from_environment);
- check_exception();
- }
- static Value cxx_to_numeric(VM& vm, Value value)
- {
- return TRY_OR_SET_EXCEPTION(value.to_numeric(vm));
- }
- void Compiler::compile_to_numeric(Bytecode::Op::ToNumeric const&)
- {
- Assembler::Label fast_case {};
- load_accumulator(ARG1);
- jump_if_int32(ARG1, fast_case);
- native_call((void*)cxx_to_numeric);
- store_accumulator(RET);
- check_exception();
- fast_case.link(m_assembler);
- }
- static Value cxx_resolve_this_binding(VM& vm)
- {
- auto this_value = TRY_OR_SET_EXCEPTION(vm.resolve_this_binding());
- vm.bytecode_interpreter().reg(Bytecode::Register::this_value()) = this_value;
- return this_value;
- }
- void Compiler::compile_resolve_this_binding(Bytecode::Op::ResolveThisBinding const&)
- {
- // OPTIMIZATION: We cache the `this` value in a special VM register.
- // So first we check if the cache is non-empty, and if so,
- // we can avoid calling out to C++ at all. :^)
- load_vm_register(GPR0, Bytecode::Register::this_value());
- m_assembler.mov(
- Assembler::Operand::Register(GPR1),
- Assembler::Operand::Imm(Value().encoded()));
- Assembler::Label slow_case {};
- m_assembler.jump_if(
- Assembler::Operand::Register(GPR0),
- Assembler::Condition::EqualTo,
- Assembler::Operand::Register(GPR1),
- slow_case);
- // Fast case: We have a cached `this` value!
- store_accumulator(GPR0);
- auto end = m_assembler.jump();
- slow_case.link(m_assembler);
- native_call((void*)cxx_resolve_this_binding);
- store_accumulator(RET);
- check_exception();
- end.link(m_assembler);
- }
- static Value cxx_put_by_id(VM& vm, Value base, DeprecatedFlyString const& property, Value value, Bytecode::Op::PropertyKind kind, Bytecode::PropertyLookupCache& cache)
- {
- TRY_OR_SET_EXCEPTION(Bytecode::put_by_property_key(vm, base, base, value, property, kind, &cache));
- return value;
- }
- void Compiler::extract_object_pointer(Assembler::Reg dst_object, Assembler::Reg src_value)
- {
- // This is basically Value::as_object() where src_value is the Value.
- m_assembler.mov(
- Assembler::Operand::Register(dst_object),
- Assembler::Operand::Register(src_value));
- m_assembler.shift_left(
- Assembler::Operand::Register(dst_object),
- Assembler::Operand::Imm(16));
- m_assembler.arithmetic_right_shift(
- Assembler::Operand::Register(dst_object),
- Assembler::Operand::Imm(16));
- }
- void Compiler::compile_put_by_id(Bytecode::Op::PutById const& op)
- {
- auto& cache = m_bytecode_executable.property_lookup_caches[op.cache_index()];
- load_vm_register(ARG1, op.base());
- m_assembler.mov(
- Assembler::Operand::Register(ARG5),
- Assembler::Operand::Imm(bit_cast<u64>(&cache)));
- Assembler::Label end;
- Assembler::Label slow_case;
- if (op.kind() == Bytecode::Op::PropertyKind::KeyValue) {
- branch_if_object(ARG1, [&] {
- extract_object_pointer(GPR0, ARG1);
- // if (cache.shape != &object->shape()) goto slow_case;
- m_assembler.mov(
- Assembler::Operand::Register(GPR2),
- Assembler::Operand::Mem64BaseAndOffset(GPR0, Object::shape_offset()));
- m_assembler.mov(
- Assembler::Operand::Register(GPR1),
- Assembler::Operand::Mem64BaseAndOffset(ARG5, Bytecode::PropertyLookupCache::shape_offset()));
- m_assembler.jump_if(
- Assembler::Operand::Register(GPR1),
- Assembler::Condition::EqualTo,
- Assembler::Operand::Imm(0),
- slow_case);
- m_assembler.mov(
- Assembler::Operand::Register(GPR1),
- Assembler::Operand::Mem64BaseAndOffset(GPR1, AK::WeakLink::ptr_offset()));
- m_assembler.jump_if(
- Assembler::Operand::Register(GPR2),
- Assembler::Condition::NotEqualTo,
- Assembler::Operand::Register(GPR1),
- slow_case);
- // (!object->shape().is_unique() || object->shape().unique_shape_serial_number() == cache.unique_shape_serial_number)) {
- Assembler::Label fast_case;
- // GPR1 = object->shape().is_unique()
- m_assembler.mov8(
- Assembler::Operand::Register(GPR1),
- Assembler::Operand::Mem64BaseAndOffset(GPR2, Shape::is_unique_offset()));
- m_assembler.jump_if(
- Assembler::Operand::Register(GPR1),
- Assembler::Condition::EqualTo,
- Assembler::Operand::Imm(0),
- fast_case);
- // GPR1 = object->shape().unique_shape_serial_number()
- m_assembler.mov(
- Assembler::Operand::Register(GPR1),
- Assembler::Operand::Mem64BaseAndOffset(GPR2, Shape::unique_shape_serial_number_offset()));
- // GPR2 = cache.unique_shape_serial_number
- m_assembler.mov(
- Assembler::Operand::Register(GPR2),
- Assembler::Operand::Mem64BaseAndOffset(ARG5, Bytecode::PropertyLookupCache::unique_shape_serial_number_offset()));
- // if (GPR1 != GPR2) goto slow_case;
- m_assembler.jump_if(
- Assembler::Operand::Register(GPR1),
- Assembler::Condition::NotEqualTo,
- Assembler::Operand::Register(GPR2),
- slow_case);
- fast_case.link(m_assembler);
- // object->put_direct(*cache.property_offset, value);
- // GPR0 = object
- // GPR1 = *cache.property_offset * sizeof(Value)
- m_assembler.mov(
- Assembler::Operand::Register(GPR1),
- Assembler::Operand::Mem64BaseAndOffset(ARG5, Bytecode::PropertyLookupCache::property_offset_offset() + decltype(cache.property_offset)::value_offset()));
- m_assembler.mul32(
- Assembler::Operand::Register(GPR1),
- Assembler::Operand::Imm(sizeof(Value)),
- slow_case);
- // GPR0 = object->m_storage.outline_buffer
- m_assembler.mov(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Mem64BaseAndOffset(GPR0, Object::storage_offset() + Vector<Value>::outline_buffer_offset()));
- // GPR0 = &object->m_storage.outline_buffer[*cache.property_offset]
- m_assembler.add(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Register(GPR1));
- // *GPR0 = value
- load_accumulator(GPR1);
- m_assembler.mov(
- Assembler::Operand::Mem64BaseAndOffset(GPR0, 0),
- Assembler::Operand::Register(GPR1));
- m_assembler.jump(end);
- });
- }
- slow_case.link(m_assembler);
- m_assembler.mov(
- Assembler::Operand::Register(ARG2),
- Assembler::Operand::Imm(bit_cast<u64>(&m_bytecode_executable.get_identifier(op.property()))));
- load_accumulator(ARG3);
- m_assembler.mov(
- Assembler::Operand::Register(ARG4),
- Assembler::Operand::Imm(to_underlying(op.kind())));
- native_call((void*)cxx_put_by_id);
- store_accumulator(RET);
- check_exception();
- end.link(m_assembler);
- }
- static Value cxx_put_by_value(VM& vm, Value base, Value property, Value value, Bytecode::Op::PropertyKind kind)
- {
- TRY_OR_SET_EXCEPTION(Bytecode::put_by_value(vm, base, property, value, kind));
- return value;
- }
- void Compiler::compile_put_by_value(Bytecode::Op::PutByValue const& op)
- {
- load_vm_register(ARG1, op.base());
- load_vm_register(ARG2, op.property());
- load_accumulator(ARG3);
- m_assembler.mov(
- Assembler::Operand::Register(ARG4),
- Assembler::Operand::Imm(to_underlying(op.kind())));
- native_call((void*)cxx_put_by_value);
- store_accumulator(RET);
- check_exception();
- }
- static Value cxx_call(VM& vm, Value callee, u32 first_argument_index, u32 argument_count, Value this_value, Bytecode::Op::CallType call_type, Optional<Bytecode::StringTableIndex> const& expression_string)
- {
- TRY_OR_SET_EXCEPTION(throw_if_needed_for_call(vm.bytecode_interpreter(), callee, call_type, expression_string));
- MarkedVector<Value> argument_values(vm.heap());
- argument_values.ensure_capacity(argument_count);
- for (u32 i = 0; i < argument_count; ++i) {
- argument_values.unchecked_append(vm.bytecode_interpreter().reg(Bytecode::Register { first_argument_index + i }));
- }
- return TRY_OR_SET_EXCEPTION(perform_call(vm.bytecode_interpreter(), this_value, call_type, callee, move(argument_values)));
- }
- void Compiler::compile_call(Bytecode::Op::Call const& op)
- {
- load_vm_register(ARG1, op.callee());
- m_assembler.mov(
- Assembler::Operand::Register(ARG2),
- Assembler::Operand::Imm(op.first_argument().index()));
- m_assembler.mov(
- Assembler::Operand::Register(ARG3),
- Assembler::Operand::Imm(op.argument_count()));
- load_vm_register(ARG4, op.this_value());
- m_assembler.mov(
- Assembler::Operand::Register(ARG5),
- Assembler::Operand::Imm(to_underlying(op.call_type())));
- m_assembler.mov(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Imm(bit_cast<u64>(&op.expression_string())));
- native_call((void*)cxx_call, { Assembler::Operand::Register(GPR0) });
- store_accumulator(RET);
- check_exception();
- }
- static Value cxx_call_with_argument_array(VM& vm, Value arguments, Value callee, Value this_value, Bytecode::Op::CallType call_type, Optional<Bytecode::StringTableIndex> const& expression_string)
- {
- TRY_OR_SET_EXCEPTION(throw_if_needed_for_call(vm.bytecode_interpreter(), callee, call_type, expression_string));
- auto argument_values = Bytecode::argument_list_evaluation(vm, arguments);
- return TRY_OR_SET_EXCEPTION(perform_call(vm.bytecode_interpreter(), this_value, call_type, callee, move(argument_values)));
- }
- void Compiler::compile_call_with_argument_array(Bytecode::Op::CallWithArgumentArray const& op)
- {
- load_accumulator(ARG1);
- load_vm_register(ARG2, op.callee());
- load_vm_register(ARG3, op.this_value());
- m_assembler.mov(
- Assembler::Operand::Register(ARG4),
- Assembler::Operand::Imm(to_underlying(op.call_type())));
- m_assembler.mov(
- Assembler::Operand::Register(ARG5),
- Assembler::Operand::Imm(bit_cast<u64>(&op.expression_string())));
- native_call((void*)cxx_call_with_argument_array);
- store_accumulator(RET);
- check_exception();
- }
- static Value cxx_typeof_variable(VM& vm, DeprecatedFlyString const& identifier)
- {
- return TRY_OR_SET_EXCEPTION(Bytecode::typeof_variable(vm, identifier));
- }
- void Compiler::compile_typeof_variable(Bytecode::Op::TypeofVariable const& op)
- {
- m_assembler.mov(
- Assembler::Operand::Register(ARG1),
- Assembler::Operand::Imm(bit_cast<u64>(&m_bytecode_executable.get_identifier(op.identifier().value()))));
- native_call((void*)cxx_typeof_variable);
- store_accumulator(RET);
- check_exception();
- }
- static Value cxx_create_variable(
- VM& vm,
- DeprecatedFlyString const& name,
- Bytecode::Op::EnvironmentMode mode,
- bool is_global,
- bool is_immutable,
- bool is_strict)
- {
- TRY_OR_SET_EXCEPTION(Bytecode::create_variable(vm, name, mode, is_global, is_immutable, is_strict));
- return {};
- }
- void Compiler::compile_create_variable(Bytecode::Op::CreateVariable const& op)
- {
- m_assembler.mov(
- Assembler::Operand::Register(ARG1),
- Assembler::Operand::Imm(bit_cast<u64>(&m_bytecode_executable.get_identifier(op.identifier().value()))));
- m_assembler.mov(
- Assembler::Operand::Register(ARG2),
- Assembler::Operand::Imm(to_underlying(op.mode())));
- m_assembler.mov(
- Assembler::Operand::Register(ARG3),
- Assembler::Operand::Imm(static_cast<u64>(op.is_global())));
- m_assembler.mov(
- Assembler::Operand::Register(ARG4),
- Assembler::Operand::Imm(static_cast<u64>(op.is_immutable())));
- m_assembler.mov(
- Assembler::Operand::Register(ARG5),
- Assembler::Operand::Imm(static_cast<u64>(op.is_strict())));
- native_call((void*)cxx_create_variable);
- check_exception();
- }
- static Value cxx_set_variable(
- VM& vm,
- DeprecatedFlyString const& identifier,
- Value value,
- Bytecode::Op::EnvironmentMode environment_mode,
- Bytecode::Op::SetVariable::InitializationMode initialization_mode)
- {
- TRY_OR_SET_EXCEPTION(Bytecode::set_variable(vm, identifier, value, environment_mode, initialization_mode));
- return {};
- }
- void Compiler::compile_set_variable(Bytecode::Op::SetVariable const& op)
- {
- m_assembler.mov(
- Assembler::Operand::Register(ARG1),
- Assembler::Operand::Imm(bit_cast<u64>(&m_bytecode_executable.get_identifier(op.identifier().value()))));
- load_accumulator(ARG2);
- m_assembler.mov(
- Assembler::Operand::Register(ARG3),
- Assembler::Operand::Imm(to_underlying(op.mode())));
- m_assembler.mov(
- Assembler::Operand::Register(ARG4),
- Assembler::Operand::Imm(to_underlying(op.initialization_mode())));
- native_call((void*)cxx_set_variable);
- check_exception();
- }
- void Compiler::compile_continue_pending_unwind(Bytecode::Op::ContinuePendingUnwind const& op)
- {
- // re-throw the exception if we reached the end of the finally block and there was no catch block to handle it
- load_vm_register(GPR0, Bytecode::Register::saved_exception());
- store_vm_register(Bytecode::Register::exception(), GPR0);
- m_assembler.mov(Assembler::Operand::Register(GPR1), Assembler::Operand::Imm(Value().encoded()));
- store_vm_register(Bytecode::Register::saved_exception(), GPR1);
- check_exception();
- // if (saved_return_value.is_empty()) goto resume_block;
- load_vm_register(GPR0, Bytecode::Register::saved_return_value());
- m_assembler.jump_if(
- Assembler::Operand::Register(GPR0),
- Assembler::Condition::EqualTo,
- Assembler::Operand::Register(GPR1),
- label_for(op.resume_target().block()));
- // finish the pending return from the try block
- store_vm_register(Bytecode::Register::return_value(), GPR0);
- jump_to_exit();
- }
- static void cxx_create_lexical_environment(VM& vm)
- {
- auto make_and_swap_envs = [&](auto& old_environment) {
- GCPtr<Environment> environment = new_declarative_environment(*old_environment).ptr();
- swap(old_environment, environment);
- return environment;
- };
- vm.bytecode_interpreter().saved_lexical_environment_stack().append(make_and_swap_envs(vm.running_execution_context().lexical_environment));
- }
- void Compiler::compile_create_lexical_environment(Bytecode::Op::CreateLexicalEnvironment const&)
- {
- native_call((void*)cxx_create_lexical_environment);
- }
- static void cxx_leave_lexical_environment(VM& vm)
- {
- vm.running_execution_context().lexical_environment = vm.bytecode_interpreter().saved_lexical_environment_stack().take_last();
- }
- void Compiler::compile_leave_lexical_environment(Bytecode::Op::LeaveLexicalEnvironment const&)
- {
- native_call((void*)cxx_leave_lexical_environment);
- }
- static Value cxx_concat_string(VM& vm, Value lhs, Value rhs)
- {
- auto string = TRY_OR_SET_EXCEPTION(rhs.to_primitive_string(vm));
- return PrimitiveString::create(vm, lhs.as_string(), string);
- }
- void Compiler::compile_concat_string(Bytecode::Op::ConcatString const& op)
- {
- load_vm_register(ARG1, op.lhs());
- load_accumulator(ARG2);
- native_call((void*)cxx_concat_string);
- store_vm_register(op.lhs(), RET);
- check_exception();
- }
- static void cxx_block_declaration_instantiation(VM& vm, ScopeNode const& scope_node)
- {
- auto old_environment = vm.running_execution_context().lexical_environment;
- vm.bytecode_interpreter().saved_lexical_environment_stack().append(old_environment);
- vm.running_execution_context().lexical_environment = new_declarative_environment(*old_environment);
- scope_node.block_declaration_instantiation(vm, vm.running_execution_context().lexical_environment);
- }
- void Compiler::compile_block_declaration_instantiation(Bytecode::Op::BlockDeclarationInstantiation const& op)
- {
- m_assembler.mov(
- Assembler::Operand::Register(ARG1),
- Assembler::Operand::Imm(bit_cast<u64>(&op.scope_node())));
- native_call((void*)cxx_block_declaration_instantiation);
- }
- static Value cxx_super_call_with_argument_array(VM& vm, Value argument_array, bool is_synthetic)
- {
- return TRY_OR_SET_EXCEPTION(Bytecode::super_call_with_argument_array(vm, argument_array, is_synthetic));
- }
- void Compiler::compile_super_call_with_argument_array(Bytecode::Op::SuperCallWithArgumentArray const& op)
- {
- load_accumulator(ARG1);
- m_assembler.mov(
- Assembler::Operand::Register(ARG2),
- Assembler::Operand::Imm(static_cast<u64>(op.is_synthetic())));
- native_call((void*)cxx_super_call_with_argument_array);
- store_accumulator(RET);
- check_exception();
- }
- static Value cxx_get_iterator(VM& vm, Value value, IteratorHint hint)
- {
- auto iterator = TRY_OR_SET_EXCEPTION(get_iterator(vm, value, hint));
- return Bytecode::iterator_to_object(vm, iterator);
- }
- void Compiler::compile_get_iterator(Bytecode::Op::GetIterator const& op)
- {
- load_accumulator(ARG1);
- m_assembler.mov(
- Assembler::Operand::Register(ARG2),
- Assembler::Operand::Imm(to_underlying(op.hint())));
- native_call((void*)cxx_get_iterator);
- store_accumulator(RET);
- check_exception();
- }
- static Value cxx_iterator_next(VM& vm, Value iterator)
- {
- auto iterator_object = TRY_OR_SET_EXCEPTION(iterator.to_object(vm));
- auto iterator_record = Bytecode::object_to_iterator(vm, iterator_object);
- return TRY_OR_SET_EXCEPTION(iterator_next(vm, iterator_record));
- }
- void Compiler::compile_iterator_next(Bytecode::Op::IteratorNext const&)
- {
- load_accumulator(ARG1);
- native_call((void*)cxx_iterator_next);
- store_accumulator(RET);
- check_exception();
- }
- static Value cxx_iterator_result_done(VM& vm, Value iterator)
- {
- auto iterator_result = TRY_OR_SET_EXCEPTION(iterator.to_object(vm));
- return Value(TRY_OR_SET_EXCEPTION(iterator_complete(vm, iterator_result)));
- }
- void Compiler::compile_iterator_result_done(Bytecode::Op::IteratorResultDone const&)
- {
- load_accumulator(ARG1);
- native_call((void*)cxx_iterator_result_done);
- store_accumulator(RET);
- check_exception();
- }
- static Value cxx_throw_if_not_object(VM& vm, Value value)
- {
- if (!value.is_object())
- TRY_OR_SET_EXCEPTION(vm.throw_completion<TypeError>(ErrorType::NotAnObject, value.to_string_without_side_effects()));
- return {};
- }
- void Compiler::compile_throw_if_not_object(Bytecode::Op::ThrowIfNotObject const&)
- {
- load_accumulator(ARG1);
- native_call((void*)cxx_throw_if_not_object);
- check_exception();
- }
- static Value cxx_throw_if_nullish(VM& vm, Value value)
- {
- if (value.is_nullish())
- TRY_OR_SET_EXCEPTION(vm.throw_completion<TypeError>(ErrorType::NotObjectCoercible, value.to_string_without_side_effects()));
- return {};
- }
- void Compiler::compile_throw_if_nullish(Bytecode::Op::ThrowIfNullish const&)
- {
- load_accumulator(ARG1);
- native_call((void*)cxx_throw_if_nullish);
- check_exception();
- }
- static Value cxx_iterator_result_value(VM& vm, Value iterator)
- {
- auto iterator_result = TRY_OR_SET_EXCEPTION(iterator.to_object(vm));
- return TRY_OR_SET_EXCEPTION(iterator_value(vm, iterator_result));
- }
- void Compiler::compile_iterator_result_value(Bytecode::Op::IteratorResultValue const&)
- {
- load_accumulator(ARG1);
- native_call((void*)cxx_iterator_result_value);
- store_accumulator(RET);
- check_exception();
- }
- static Value cxx_iterator_close(VM& vm, Value iterator, Completion::Type completion_type, Optional<Value> const& completion_value)
- {
- auto iterator_object = TRY_OR_SET_EXCEPTION(iterator.to_object(vm));
- auto iterator_record = Bytecode::object_to_iterator(vm, iterator_object);
- // FIXME: Return the value of the resulting completion. (Note that m_completion_value can be empty!)
- TRY_OR_SET_EXCEPTION(iterator_close(vm, iterator_record, Completion { completion_type, completion_value, {} }));
- return {};
- }
- void Compiler::compile_iterator_close(Bytecode::Op::IteratorClose const& op)
- {
- load_accumulator(ARG1);
- m_assembler.mov(
- Assembler::Operand::Register(ARG2),
- Assembler::Operand::Imm(to_underlying(op.completion_type())));
- m_assembler.mov(
- Assembler::Operand::Register(ARG3),
- Assembler::Operand::Imm(bit_cast<u64>(&op.completion_value())));
- native_call((void*)cxx_iterator_close);
- check_exception();
- }
- static Value iterator_to_array(VM& vm, Value iterator)
- {
- return TRY_OR_SET_EXCEPTION(Bytecode::iterator_to_array(vm, iterator));
- }
- void Compiler::compile_iterator_to_array(Bytecode::Op::IteratorToArray const&)
- {
- load_accumulator(ARG1);
- native_call((void*)iterator_to_array);
- store_accumulator(RET);
- check_exception();
- }
- static Value cxx_append(VM& vm, Value lhs, Value rhs, bool is_spread)
- {
- TRY_OR_SET_EXCEPTION(Bytecode::append(vm, lhs, rhs, is_spread));
- return {};
- }
- void Compiler::compile_append(Bytecode::Op::Append const& op)
- {
- load_vm_register(ARG1, op.lhs());
- load_accumulator(ARG2);
- m_assembler.mov(
- Assembler::Operand::Register(ARG3),
- Assembler::Operand::Imm(static_cast<u64>(op.is_spread())));
- native_call((void*)cxx_append);
- check_exception();
- }
- static Value cxx_delete_by_id(VM& vm, Value base, Bytecode::IdentifierTableIndex property)
- {
- return TRY_OR_SET_EXCEPTION(Bytecode::delete_by_id(vm.bytecode_interpreter(), base, property));
- }
- void Compiler::compile_delete_by_id(Bytecode::Op::DeleteById const& op)
- {
- load_accumulator(ARG1);
- m_assembler.mov(
- Assembler::Operand::Register(ARG2),
- Assembler::Operand::Imm(op.property().value()));
- native_call((void*)cxx_delete_by_id);
- store_accumulator(RET);
- check_exception();
- }
- static Value cxx_delete_by_value(VM& vm, Value base_value, Value property_key_value)
- {
- return TRY_OR_SET_EXCEPTION(Bytecode::delete_by_value(vm.bytecode_interpreter(), base_value, property_key_value));
- }
- void Compiler::compile_delete_by_value(Bytecode::Op::DeleteByValue const& op)
- {
- load_vm_register(ARG1, op.base());
- load_accumulator(ARG2);
- native_call((void*)cxx_delete_by_value);
- store_accumulator(RET);
- check_exception();
- }
- static Value cxx_delete_by_value_with_this(VM& vm, Value base_value, Value property_key_value, Value this_value)
- {
- return TRY_OR_SET_EXCEPTION(Bytecode::delete_by_value_with_this(vm.bytecode_interpreter(), base_value, property_key_value, this_value));
- }
- void Compiler::compile_delete_by_value_with_this(Bytecode::Op::DeleteByValueWithThis const& op)
- {
- load_vm_register(ARG1, op.base());
- load_accumulator(ARG2);
- load_vm_register(ARG3, op.this_value());
- native_call((void*)cxx_delete_by_value_with_this);
- store_accumulator(RET);
- check_exception();
- }
- static Value cxx_get_object_property_iterator(VM& vm, Value object)
- {
- return TRY_OR_SET_EXCEPTION(Bytecode::get_object_property_iterator(vm, object));
- }
- void Compiler::compile_get_object_property_iterator(Bytecode::Op::GetObjectPropertyIterator const&)
- {
- load_accumulator(ARG1);
- native_call((void*)cxx_get_object_property_iterator);
- store_accumulator(RET);
- check_exception();
- }
- static Value cxx_get_private_by_id(VM& vm, Value base_value, DeprecatedFlyString& name)
- {
- auto private_reference = make_private_reference(vm, base_value, name);
- return TRY_OR_SET_EXCEPTION(private_reference.get_value(vm));
- }
- void Compiler::compile_get_private_by_id(Bytecode::Op::GetPrivateById const& op)
- {
- load_accumulator(ARG1);
- m_assembler.mov(
- Assembler::Operand::Register(ARG2),
- Assembler::Operand::Imm(bit_cast<u64>(&m_bytecode_executable.get_identifier(op.property()))));
- native_call((void*)cxx_get_private_by_id);
- store_accumulator(RET);
- check_exception();
- }
- static Value cxx_resolve_super_base(VM& vm)
- {
- // 1. Let env be GetThisEnvironment().
- auto& env = verify_cast<FunctionEnvironment>(*get_this_environment(vm));
- // 2. Assert: env.HasSuperBinding() is true.
- VERIFY(env.has_super_binding());
- // 3. Let baseValue be ? env.GetSuperBase().
- return TRY_OR_SET_EXCEPTION(env.get_super_base());
- }
- void Compiler::compile_resolve_super_base(Bytecode::Op::ResolveSuperBase const&)
- {
- native_call((void*)cxx_resolve_super_base);
- store_accumulator(RET);
- check_exception();
- }
- static Value cxx_get_by_id_with_this(VM& vm, DeprecatedFlyString const& property, Value base_value, Value this_value, Bytecode::PropertyLookupCache& cache)
- {
- return TRY_OR_SET_EXCEPTION(Bytecode::get_by_id(vm, property, base_value, this_value, cache));
- }
- void Compiler::compile_get_by_id_with_this(Bytecode::Op::GetByIdWithThis const& op)
- {
- m_assembler.mov(
- Assembler::Operand::Register(ARG1),
- Assembler::Operand::Imm(bit_cast<u64>(&m_bytecode_executable.get_identifier(op.property()))));
- load_accumulator(ARG2);
- load_vm_register(ARG3, op.this_value());
- m_assembler.mov(
- Assembler::Operand::Register(ARG4),
- Assembler::Operand::Imm(bit_cast<u64>(&m_bytecode_executable.property_lookup_caches[op.cache_index()])));
- native_call((void*)cxx_get_by_id_with_this);
- store_accumulator(RET);
- check_exception();
- }
- static Value cxx_get_by_value_with_this(VM& vm, Value property_key_value, Value base, Value this_value)
- {
- auto object = TRY_OR_SET_EXCEPTION(base.to_object(vm));
- auto property_key = TRY_OR_SET_EXCEPTION(property_key_value.to_property_key(vm));
- return TRY_OR_SET_EXCEPTION(object->internal_get(property_key, this_value));
- }
- void Compiler::compile_get_by_value_with_this(Bytecode::Op::GetByValueWithThis const& op)
- {
- load_accumulator(ARG1);
- load_vm_register(ARG2, op.base());
- load_vm_register(ARG3, op.this_value());
- native_call((void*)cxx_get_by_value_with_this);
- store_accumulator(RET);
- check_exception();
- }
- static Value cxx_delete_by_id_with_this(VM& vm, Value base_value, DeprecatedFlyString const& identifier, Value this_value)
- {
- auto reference = Reference { base_value, identifier, this_value, vm.in_strict_mode() };
- return Value(TRY_OR_SET_EXCEPTION(reference.delete_(vm)));
- }
- void Compiler::compile_delete_by_id_with_this(Bytecode::Op::DeleteByIdWithThis const& op)
- {
- load_accumulator(ARG1);
- m_assembler.mov(
- Assembler::Operand::Register(ARG2),
- Assembler::Operand::Imm(bit_cast<u64>(&m_bytecode_executable.get_identifier(op.property()))));
- load_vm_register(ARG3, op.this_value());
- native_call((void*)cxx_delete_by_id_with_this);
- store_accumulator(RET);
- }
- static Value cxx_put_by_id_with_this(VM& vm, Value base, Value value, DeprecatedFlyString const& name, Value this_value, Bytecode::Op::PropertyKind kind, Bytecode::PropertyLookupCache& cache)
- {
- TRY_OR_SET_EXCEPTION(Bytecode::put_by_property_key(vm, base, this_value, value, name, kind, &cache));
- return {};
- }
- void Compiler::compile_put_by_id_with_this(Bytecode::Op::PutByIdWithThis const& op)
- {
- load_vm_register(ARG1, op.base());
- load_accumulator(ARG2);
- m_assembler.mov(
- Assembler::Operand::Register(ARG3),
- Assembler::Operand::Imm(bit_cast<u64>(&m_bytecode_executable.get_identifier(op.property()))));
- load_vm_register(ARG4, op.this_value());
- m_assembler.mov(
- Assembler::Operand::Register(ARG5),
- Assembler::Operand::Imm(to_underlying(op.kind())));
- m_assembler.mov(
- Assembler::Operand::Register(GPR0),
- Assembler::Operand::Imm(bit_cast<u64>(&m_bytecode_executable.property_lookup_caches[op.cache_index()])));
- native_call((void*)cxx_put_by_id_with_this, { Assembler::Operand::Register(GPR0) });
- check_exception();
- }
- static Value cxx_put_private_by_id(VM& vm, Value base, Value value, DeprecatedFlyString const& name)
- {
- auto object = TRY_OR_SET_EXCEPTION(base.to_object(vm));
- auto private_reference = make_private_reference(vm, object, name);
- TRY_OR_SET_EXCEPTION(private_reference.put_value(vm, value));
- return value;
- }
- void Compiler::compile_put_private_by_id(Bytecode::Op::PutPrivateById const& op)
- {
- load_vm_register(ARG1, op.base());
- load_accumulator(ARG2);
- m_assembler.mov(
- Assembler::Operand::Register(ARG3),
- Assembler::Operand::Imm(bit_cast<u64>(&m_bytecode_executable.get_identifier(op.property()))));
- native_call((void*)cxx_put_private_by_id);
- store_accumulator(RET);
- check_exception();
- }
- static Value cxx_import_call(VM& vm, Value specifier, Value options)
- {
- return TRY_OR_SET_EXCEPTION(perform_import_call(vm, specifier, options));
- }
- void Compiler::compile_import_call(Bytecode::Op::ImportCall const& op)
- {
- load_vm_register(ARG1, op.specifier());
- load_vm_register(ARG2, op.options());
- native_call((void*)cxx_import_call);
- store_accumulator(RET);
- check_exception();
- }
- static Value cxx_get_import_meta(VM& vm)
- {
- return vm.get_import_meta();
- }
- void Compiler::compile_get_import_meta(Bytecode::Op::GetImportMeta const&)
- {
- native_call((void*)cxx_get_import_meta);
- store_accumulator(RET);
- }
- static Value cxx_delete_variable(VM& vm, DeprecatedFlyString const& identifier)
- {
- auto reference = TRY_OR_SET_EXCEPTION(vm.resolve_binding(identifier));
- return Value(TRY_OR_SET_EXCEPTION(reference.delete_(vm)));
- }
- void Compiler::compile_delete_variable(Bytecode::Op::DeleteVariable const& op)
- {
- m_assembler.mov(
- Assembler::Operand::Register(ARG1),
- Assembler::Operand::Imm(bit_cast<u64>(&m_bytecode_executable.get_identifier(op.identifier().value()))));
- native_call((void*)cxx_delete_variable);
- store_accumulator(RET);
- check_exception();
- }
- static Value cxx_get_method(VM& vm, Value value, DeprecatedFlyString const& identifier)
- {
- auto method = TRY_OR_SET_EXCEPTION(value.get_method(vm, identifier));
- return method ?: js_undefined();
- }
- void Compiler::compile_get_method(Bytecode::Op::GetMethod const& op)
- {
- load_accumulator(ARG1);
- m_assembler.mov(
- Assembler::Operand::Register(ARG2),
- Assembler::Operand::Imm(bit_cast<u64>(&m_bytecode_executable.get_identifier(op.property()))));
- native_call((void*)cxx_get_method);
- store_accumulator(RET);
- check_exception();
- }
- static Value cxx_get_new_target(VM& vm)
- {
- return vm.get_new_target();
- }
- void Compiler::compile_get_new_target(Bytecode::Op::GetNewTarget const&)
- {
- native_call((void*)cxx_get_new_target);
- store_accumulator(RET);
- }
- static Value cxx_has_private_id(VM& vm, Value object, DeprecatedFlyString const& identifier)
- {
- if (!object.is_object())
- TRY_OR_SET_EXCEPTION(vm.throw_completion<TypeError>(ErrorType::InOperatorWithObject));
- auto private_environment = vm.running_execution_context().private_environment;
- VERIFY(private_environment);
- auto private_name = private_environment->resolve_private_identifier(identifier);
- return Value(object.as_object().private_element_find(private_name) != nullptr);
- }
- void Compiler::compile_has_private_id(Bytecode::Op::HasPrivateId const& op)
- {
- load_accumulator(ARG1);
- m_assembler.mov(
- Assembler::Operand::Register(ARG2),
- Assembler::Operand::Imm(bit_cast<u64>(&m_bytecode_executable.get_identifier(op.property()))));
- native_call((void*)cxx_has_private_id);
- store_accumulator(RET);
- check_exception();
- }
- # define COMPILE_NEW_BUILTIN_ERROR_OP(NewErrorName, new_error_name, ErrorName) \
- static Value cxx_##new_error_name(VM& vm, DeprecatedString const& error_string) \
- { \
- return ErrorName::create(*vm.current_realm(), error_string); \
- } \
- \
- void Compiler::compile_##new_error_name(Bytecode::Op::NewErrorName const& op) \
- { \
- m_assembler.mov( \
- Assembler::Operand::Register(ARG1), \
- Assembler::Operand::Imm(bit_cast<u64>(&m_bytecode_executable.get_string(op.error_string())))); \
- native_call((void*)cxx_##new_error_name); \
- store_accumulator(RET); \
- }
- JS_ENUMERATE_NEW_BUILTIN_ERROR_BYTECODE_OPS(COMPILE_NEW_BUILTIN_ERROR_OP)
- # undef COMPILE_NEW_BUILTIN_ERROR_OP
- static Value cxx_put_by_value_with_this(VM& vm, Value base, Value value, Value name, Value this_value, Bytecode::Op::PropertyKind kind)
- {
- auto property_key = kind != Bytecode::Op::PropertyKind::Spread ? TRY_OR_SET_EXCEPTION(name.to_property_key(vm)) : PropertyKey {};
- TRY_OR_SET_EXCEPTION(Bytecode::put_by_property_key(vm, base, this_value, value, property_key, kind));
- return value;
- }
- void Compiler::compile_put_by_value_with_this(Bytecode::Op::PutByValueWithThis const& op)
- {
- load_vm_register(ARG1, op.base());
- load_accumulator(ARG2);
- if (op.kind() != Bytecode::Op::PropertyKind::Spread) {
- load_vm_register(ARG3, op.property());
- } else {
- m_assembler.mov(
- Assembler::Operand::Register(ARG3),
- Assembler::Operand::Imm(Value().encoded()));
- }
- load_vm_register(ARG4, op.this_value());
- m_assembler.mov(
- Assembler::Operand::Register(ARG5),
- Assembler::Operand::Imm(to_underlying(op.kind())));
- native_call((void*)cxx_put_by_value_with_this);
- store_accumulator(RET);
- check_exception();
- }
- static Value cxx_copy_object_excluding_properties(VM& vm, Value from_object, u64 excluded_names_count, Value* excluded_names)
- {
- auto& realm = *vm.current_realm();
- auto to_object = Object::create(realm, realm.intrinsics().object_prototype());
- HashTable<PropertyKey> excluded_names_table;
- for (size_t i = 0; i < excluded_names_count; ++i) {
- excluded_names_table.set(TRY_OR_SET_EXCEPTION(excluded_names[i].to_property_key(vm)));
- }
- TRY_OR_SET_EXCEPTION(to_object->copy_data_properties(vm, from_object, excluded_names_table));
- return to_object;
- }
- void Compiler::compile_copy_object_excluding_properties(Bytecode::Op::CopyObjectExcludingProperties const& op)
- {
- load_vm_register(ARG1, op.from_object());
- m_assembler.mov(
- Assembler::Operand::Register(ARG2),
- Assembler::Operand::Imm(op.excluded_names_count()));
- // Build `Value arg3[op.excluded_names_count()] {...}` on the stack.
- auto stack_space = align_up_to(op.excluded_names_count() * sizeof(Value), 16);
- m_assembler.sub(Assembler::Operand::Register(STACK_POINTER), Assembler::Operand::Imm(stack_space));
- m_assembler.mov(Assembler::Operand::Register(ARG3), Assembler::Operand::Register(STACK_POINTER));
- for (size_t i = 0; i < op.excluded_names_count(); ++i) {
- load_vm_register(GPR0, op.excluded_names()[i]);
- m_assembler.mov(Assembler::Operand::Mem64BaseAndOffset(ARG3, i * sizeof(Value)), Assembler::Operand::Register(GPR0));
- }
- native_call((void*)cxx_copy_object_excluding_properties);
- // Restore the stack pointer / discard array.
- m_assembler.add(Assembler::Operand::Register(STACK_POINTER), Assembler::Operand::Imm(stack_space));
- store_accumulator(RET);
- check_exception();
- }
- static Value cxx_async_iterator_close(VM& vm, Value iterator, Completion::Type completion_type, Optional<Value> const& completion_value)
- {
- auto iterator_object = TRY_OR_SET_EXCEPTION(iterator.to_object(vm));
- auto iterator_record = Bytecode::object_to_iterator(vm, iterator_object);
- // FIXME: Return the value of the resulting completion. (Note that completion_value can be empty!)
- TRY_OR_SET_EXCEPTION(async_iterator_close(vm, iterator_record, Completion { completion_type, completion_value, {} }));
- return {};
- }
- void Compiler::compile_async_iterator_close(Bytecode::Op::AsyncIteratorClose const& op)
- {
- load_accumulator(ARG1);
- m_assembler.mov(
- Assembler::Operand::Register(ARG2),
- Assembler::Operand::Imm(to_underlying(op.completion_type())));
- m_assembler.mov(
- Assembler::Operand::Register(ARG3),
- Assembler::Operand::Imm(bit_cast<u64>(&op.completion_value())));
- native_call((void*)cxx_async_iterator_close);
- check_exception();
- }
- static Value cxx_continuation(VM& vm, Value value, Value continuation, Value is_await)
- {
- auto object = Object::create(*vm.current_realm(), nullptr);
- object->define_direct_property("result", value.value_or(js_undefined()), JS::default_attributes);
- object->define_direct_property("continuation", continuation, JS::default_attributes);
- object->define_direct_property("isAwait", is_await, JS::default_attributes);
- return object;
- }
- void Compiler::compile_continuation(Optional<Bytecode::Label> continuation, bool is_await)
- {
- load_accumulator(ARG1);
- if (continuation.has_value()) {
- // FIXME: If we get a pointer, which is not accurately representable as a double
- // will cause this to explode
- auto continuation_value = Value(static_cast<double>(bit_cast<u64>(&continuation->block())));
- m_assembler.mov(
- Assembler::Operand::Register(ARG2),
- Assembler::Operand::Imm(continuation_value.encoded()));
- } else {
- m_assembler.mov(
- Assembler::Operand::Register(ARG2),
- Assembler::Operand::Imm(Value(0).encoded()));
- }
- m_assembler.mov(
- Assembler::Operand::Register(ARG3),
- Assembler::Operand::Imm(Value(is_await).encoded()));
- native_call((void*)cxx_continuation);
- store_vm_register(Bytecode::Register::return_value(), RET);
- // FIXME: This should run the finalizer if it is a return
- jump_to_exit();
- }
- void Compiler::compile_yield(Bytecode::Op::Yield const& op)
- {
- compile_continuation(op.continuation(), false);
- }
- void Compiler::compile_await(Bytecode::Op::Await const& op)
- {
- compile_continuation(op.continuation(), true);
- }
- void Compiler::jump_to_exit()
- {
- m_assembler.jump(m_exit_label);
- }
- void Compiler::native_call(void* function_address, Vector<Assembler::Operand> const& stack_arguments)
- {
- // NOTE: We don't preserve caller-saved registers when making a native call.
- // This means that they may have changed after we return from the call.
- m_assembler.native_call(bit_cast<u64>(function_address), { Assembler::Operand::Register(ARG0) }, stack_arguments);
- }
- OwnPtr<NativeExecutable> Compiler::compile(Bytecode::Executable& bytecode_executable)
- {
- if (!getenv("LIBJS_JIT"))
- return nullptr;
- Compiler compiler { bytecode_executable };
- Vector<BytecodeMapping> mapping;
- mapping.append({
- .native_offset = compiler.m_output.size(),
- .block_index = BytecodeMapping::EXECUTABLE,
- .bytecode_offset = 0,
- });
- compiler.m_assembler.enter();
- compiler.m_assembler.mov(
- Assembler::Operand::Register(REGISTER_ARRAY_BASE),
- Assembler::Operand::Register(ARG1));
- compiler.m_assembler.mov(
- Assembler::Operand::Register(LOCALS_ARRAY_BASE),
- Assembler::Operand::Register(ARG2));
- compiler.m_assembler.mov(
- Assembler::Operand::Register(RUNNING_EXECUTION_CONTEXT_BASE),
- Assembler::Operand::Register(ARG4));
- compiler.reload_cached_accumulator();
- Assembler::Label normal_entry {};
- compiler.m_assembler.jump_if(
- Assembler::Operand::Register(ARG3),
- Assembler::Condition::EqualTo,
- Assembler::Operand::Imm(0),
- normal_entry);
- compiler.m_assembler.jump(Assembler::Operand::Register(ARG3));
- normal_entry.link(compiler.m_assembler);
- for (size_t block_index = 0; block_index < bytecode_executable.basic_blocks.size(); block_index++) {
- auto& block = bytecode_executable.basic_blocks[block_index];
- compiler.block_data_for(*block).start_offset = compiler.m_output.size();
- compiler.set_current_block(*block);
- auto it = Bytecode::InstructionStreamIterator(block->instruction_stream());
- if (it.at_end()) {
- mapping.append({
- .native_offset = compiler.m_output.size(),
- .block_index = block_index,
- .bytecode_offset = 0,
- });
- }
- while (!it.at_end()) {
- auto const& op = *it;
- mapping.append({
- .native_offset = compiler.m_output.size(),
- .block_index = block_index,
- .bytecode_offset = it.offset(),
- });
- switch (op.type()) {
- # define CASE_BYTECODE_OP(OpTitleCase, op_snake_case, ...) \
- case Bytecode::Instruction::Type::OpTitleCase: \
- compiler.compile_##op_snake_case(static_cast<Bytecode::Op::OpTitleCase const&>(op)); \
- break;
- JS_ENUMERATE_IMPLEMENTED_JIT_OPS(CASE_BYTECODE_OP)
- # undef CASE_BYTECODE_OP
- default:
- if constexpr (LOG_JIT_FAILURE) {
- dbgln("\033[31;1mJIT compilation failed\033[0m: {}", bytecode_executable.name);
- dbgln("Unsupported bytecode op: {}", op.to_deprecated_string(bytecode_executable));
- }
- return nullptr;
- }
- ++it;
- }
- if (!block->is_terminated())
- compiler.jump_to_exit();
- }
- mapping.append({
- .native_offset = compiler.m_output.size(),
- .block_index = BytecodeMapping::EXECUTABLE,
- .bytecode_offset = 1,
- });
- compiler.m_exit_label.link(compiler.m_assembler);
- compiler.flush_cached_accumulator();
- compiler.m_assembler.exit();
- auto* executable_memory = mmap(nullptr, compiler.m_output.size(), PROT_READ | PROT_WRITE, MAP_ANONYMOUS | MAP_PRIVATE, 0, 0);
- if (executable_memory == MAP_FAILED) {
- dbgln("mmap: {}", strerror(errno));
- return nullptr;
- }
- for (auto& block : bytecode_executable.basic_blocks) {
- auto& block_data = compiler.block_data_for(*block);
- block_data.label.link_to(compiler.m_assembler, block_data.start_offset);
- }
- if constexpr (DUMP_JIT_MACHINE_CODE_TO_STDOUT) {
- (void)write(STDOUT_FILENO, compiler.m_output.data(), compiler.m_output.size());
- }
- memcpy(executable_memory, compiler.m_output.data(), compiler.m_output.size());
- if (mprotect(executable_memory, compiler.m_output.size(), PROT_READ | PROT_EXEC) < 0) {
- dbgln("mprotect: {}", strerror(errno));
- return nullptr;
- }
- if constexpr (LOG_JIT_SUCCESS) {
- dbgln("\033[32;1mJIT compilation succeeded!\033[0m {}", bytecode_executable.name);
- }
- auto executable = make<NativeExecutable>(executable_memory, compiler.m_output.size(), mapping);
- if constexpr (DUMP_JIT_DISASSEMBLY)
- executable->dump_disassembly(bytecode_executable);
- return executable;
- }
- }
- #endif
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