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ladybird/Userland/Libraries/LibJS/Bytecode/Interpreter.cpp
Ali Mohammad Pur 1414c7b049 LibJS: Add a basic pass manager and add some basic passes 
This commit adds a bunch of passes, the most interesting of which is a
pass that merges blocks together, and a pass that places blocks that
flow into each other next to each other, and a very simply pass that
removes duplicate basic blocks.
Note that this does not remove the jump at the end of each block in that
pass to avoid scope creep in the passes.
2021-06-15 22:06:33 +04:30

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/*
* Copyright (c) 2021, Andreas Kling <kling@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/Debug.h>
#include <AK/TemporaryChange.h>
#include <LibJS/Bytecode/BasicBlock.h>
#include <LibJS/Bytecode/Instruction.h>
#include <LibJS/Bytecode/Interpreter.h>
#include <LibJS/Bytecode/Op.h>
#include <LibJS/Runtime/GlobalObject.h>
namespace JS::Bytecode {
static Interpreter* s_current;
Interpreter* Interpreter::current()
{
return s_current;
}
Interpreter::Interpreter(GlobalObject& global_object)
: m_vm(global_object.vm())
, m_global_object(global_object)
{
VERIFY(!s_current);
s_current = this;
}
Interpreter::~Interpreter()
{
VERIFY(s_current == this);
s_current = nullptr;
}
Value Interpreter::run(Executable const& executable, BasicBlock const* entry_point)
{
dbgln_if(JS_BYTECODE_DEBUG, "Bytecode::Interpreter will run unit {:p}", &executable);
TemporaryChange restore_executable { m_current_executable, &executable };
vm().set_last_value(Badge<Interpreter> {}, {});
CallFrame global_call_frame;
if (vm().call_stack().is_empty()) {
global_call_frame.this_value = &global_object();
static FlyString global_execution_context_name = "(*BC* global execution context)";
global_call_frame.function_name = global_execution_context_name;
global_call_frame.scope = &global_object();
VERIFY(!vm().exception());
// FIXME: How do we know if we're in strict mode? Maybe the Bytecode::Block should know this?
// global_call_frame.is_strict_mode = ???;
vm().push_call_frame(global_call_frame, global_object());
VERIFY(!vm().exception());
}
auto block = entry_point ?: &executable.basic_blocks.first();
if (m_manually_entered_frames) {
VERIFY(registers().size() >= executable.number_of_registers);
} else {
m_register_windows.append(make<RegisterWindow>());
registers().resize(executable.number_of_registers);
registers()[Register::global_object_index] = Value(&global_object());
}
for (;;) {
Bytecode::InstructionStreamIterator pc(block->instruction_stream());
bool will_jump = false;
bool will_return = false;
while (!pc.at_end()) {
auto& instruction = *pc;
instruction.execute(*this);
if (vm().exception()) {
m_saved_exception = {};
if (m_unwind_contexts.is_empty())
break;
auto& unwind_context = m_unwind_contexts.last();
if (unwind_context.handler) {
block = unwind_context.handler;
unwind_context.handler = nullptr;
accumulator() = vm().exception()->value();
vm().clear_exception();
will_jump = true;
} else if (unwind_context.finalizer) {
block = unwind_context.finalizer;
m_unwind_contexts.take_last();
will_jump = true;
m_saved_exception = Handle<Exception>::create(vm().exception());
vm().clear_exception();
}
}
if (m_pending_jump.has_value()) {
block = m_pending_jump.release_value();
will_jump = true;
break;
}
if (!m_return_value.is_empty()) {
will_return = true;
break;
}
++pc;
}
if (will_return)
break;
if (pc.at_end() && !will_jump)
break;
if (vm().exception())
break;
}
dbgln_if(JS_BYTECODE_DEBUG, "Bytecode::Interpreter did run unit {:p}", &executable);
if constexpr (JS_BYTECODE_DEBUG) {
for (size_t i = 0; i < registers().size(); ++i) {
String value_string;
if (registers()[i].is_empty())
value_string = "(empty)";
else
value_string = registers()[i].to_string_without_side_effects();
dbgln("[{:3}] {}", i, value_string);
}
}
vm().set_last_value(Badge<Interpreter> {}, accumulator());
if (!m_manually_entered_frames)
m_register_windows.take_last();
auto return_value = m_return_value.value_or(js_undefined());
m_return_value = {};
// NOTE: The return value from a called function is put into $0 in the caller context.
if (!m_register_windows.is_empty())
m_register_windows.last()[0] = return_value;
if (vm().call_stack().size() == 1)
vm().pop_call_frame();
vm().finish_execution_generation();
return return_value;
}
void Interpreter::enter_unwind_context(Optional<Label> handler_target, Optional<Label> finalizer_target)
{
m_unwind_contexts.empend(handler_target.has_value() ? &handler_target->block() : nullptr, finalizer_target.has_value() ? &finalizer_target->block() : nullptr);
}
void Interpreter::leave_unwind_context()
{
m_unwind_contexts.take_last();
}
void Interpreter::continue_pending_unwind(Label const& resume_label)
{
if (!m_saved_exception.is_null()) {
vm().set_exception(*m_saved_exception.cell());
m_saved_exception = {};
} else {
jump(resume_label);
}
}
AK::Array<OwnPtr<PassManager>, static_cast<UnderlyingType<Interpreter::OptimizationLevel>>(Interpreter::OptimizationLevel::__Count)> Interpreter::s_optimization_pipelines {};
Bytecode::PassManager& Interpreter::optimization_pipeline(Interpreter::OptimizationLevel level)
{
auto underlying_level = to_underlying(level);
VERIFY(underlying_level <= to_underlying(Interpreter::OptimizationLevel::__Count));
auto& entry = s_optimization_pipelines[underlying_level];
if (entry)
return *entry;
auto pm = make<PassManager>();
if (level == OptimizationLevel::Default) {
pm->add<Passes::GenerateCFG>();
pm->add<Passes::UnifySameBlocks>();
pm->add<Passes::GenerateCFG>();
pm->add<Passes::MergeBlocks>();
pm->add<Passes::GenerateCFG>();
pm->add<Passes::UnifySameBlocks>();
pm->add<Passes::GenerateCFG>();
pm->add<Passes::MergeBlocks>();
pm->add<Passes::GenerateCFG>();
pm->add<Passes::PlaceBlocks>();
} else {
VERIFY_NOT_REACHED();
}
auto& passes = *pm;
entry = move(pm);
return passes;
}
}
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