virtualx-engine/modules/gdscript/gdscript_byte_codegen.h
George Marques 4a7d49a89a
GDScript: Replace ptrcalls on MethodBind to validated calls
This improves the performance of typed calls to engine methods when the
argument types are exact.

Using validated calls delegate more of the work the core instead of
doing argument unpacking in the VM. It also does not need different
instructions for each return type, simplifying the code.
2023-10-06 11:15:44 -03:00

547 lines
22 KiB
C++

/**************************************************************************/
/* gdscript_byte_codegen.h */
/**************************************************************************/
/* This file is part of: */
/* GODOT ENGINE */
/* https://godotengine.org */
/**************************************************************************/
/* Copyright (c) 2014-present Godot Engine contributors (see AUTHORS.md). */
/* Copyright (c) 2007-2014 Juan Linietsky, Ariel Manzur. */
/* */
/* Permission is hereby granted, free of charge, to any person obtaining */
/* a copy of this software and associated documentation files (the */
/* "Software"), to deal in the Software without restriction, including */
/* without limitation the rights to use, copy, modify, merge, publish, */
/* distribute, sublicense, and/or sell copies of the Software, and to */
/* permit persons to whom the Software is furnished to do so, subject to */
/* the following conditions: */
/* */
/* The above copyright notice and this permission notice shall be */
/* included in all copies or substantial portions of the Software. */
/* */
/* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */
/* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF */
/* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. */
/* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY */
/* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, */
/* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE */
/* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
/**************************************************************************/
#ifndef GDSCRIPT_BYTE_CODEGEN_H
#define GDSCRIPT_BYTE_CODEGEN_H
#include "gdscript_codegen.h"
#include "gdscript_function.h"
#include "gdscript_utility_functions.h"
class GDScriptByteCodeGenerator : public GDScriptCodeGenerator {
struct StackSlot {
Variant::Type type = Variant::NIL;
Vector<int> bytecode_indices;
StackSlot() = default;
StackSlot(Variant::Type p_type) :
type(p_type) {}
};
const static int RESERVED_STACK = 3; // For self, class, and nil.
struct CallTarget {
Address target;
bool is_new_temporary = false;
GDScriptByteCodeGenerator *codegen = nullptr;
#ifdef DEV_ENABLED
bool cleaned = false;
#endif
void cleanup() {
DEV_ASSERT(!cleaned);
if (is_new_temporary) {
codegen->pop_temporary();
}
#ifdef DEV_ENABLED
cleaned = true;
#endif
}
CallTarget(Address p_target, bool p_is_new_temporary, GDScriptByteCodeGenerator *p_codegen) :
target(p_target),
is_new_temporary(p_is_new_temporary),
codegen(p_codegen) {}
~CallTarget() { DEV_ASSERT(cleaned); }
CallTarget(const CallTarget &) = delete;
CallTarget &operator=(CallTarget &) = delete;
};
bool ended = false;
GDScriptFunction *function = nullptr;
bool debug_stack = false;
Vector<int> opcodes;
List<RBMap<StringName, int>> stack_id_stack;
RBMap<StringName, int> stack_identifiers;
List<int> stack_identifiers_counts;
RBMap<StringName, int> local_constants;
Vector<StackSlot> locals;
Vector<StackSlot> temporaries;
List<int> used_temporaries;
List<int> temporaries_pending_clear;
RBMap<Variant::Type, List<int>> temporaries_pool;
List<GDScriptFunction::StackDebug> stack_debug;
List<RBMap<StringName, int>> block_identifier_stack;
RBMap<StringName, int> block_identifiers;
int max_locals = 0;
int current_line = 0;
int instr_args_max = 0;
#ifdef DEBUG_ENABLED
List<int> temp_stack;
#endif
HashMap<Variant, int, VariantHasher, VariantComparator> constant_map;
RBMap<StringName, int> name_map;
#ifdef TOOLS_ENABLED
Vector<StringName> named_globals;
#endif
RBMap<Variant::ValidatedOperatorEvaluator, int> operator_func_map;
RBMap<Variant::ValidatedSetter, int> setters_map;
RBMap<Variant::ValidatedGetter, int> getters_map;
RBMap<Variant::ValidatedKeyedSetter, int> keyed_setters_map;
RBMap<Variant::ValidatedKeyedGetter, int> keyed_getters_map;
RBMap<Variant::ValidatedIndexedSetter, int> indexed_setters_map;
RBMap<Variant::ValidatedIndexedGetter, int> indexed_getters_map;
RBMap<Variant::ValidatedBuiltInMethod, int> builtin_method_map;
RBMap<Variant::ValidatedConstructor, int> constructors_map;
RBMap<Variant::ValidatedUtilityFunction, int> utilities_map;
RBMap<GDScriptUtilityFunctions::FunctionPtr, int> gds_utilities_map;
RBMap<MethodBind *, int> method_bind_map;
RBMap<GDScriptFunction *, int> lambdas_map;
#if DEBUG_ENABLED
// Keep method and property names for pointer and validated operations.
// Used when disassembling the bytecode.
Vector<String> operator_names;
Vector<String> setter_names;
Vector<String> getter_names;
Vector<String> builtin_methods_names;
Vector<String> constructors_names;
Vector<String> utilities_names;
Vector<String> gds_utilities_names;
void add_debug_name(Vector<String> &vector, int index, const String &name) {
if (index >= vector.size()) {
vector.resize(index + 1);
}
vector.write[index] = name;
}
#endif
// Lists since these can be nested.
List<int> if_jmp_addrs;
List<int> for_jmp_addrs;
List<Address> for_counter_variables;
List<Address> for_container_variables;
List<int> while_jmp_addrs;
List<int> continue_addrs;
// Used to patch jumps with `and` and `or` operators with short-circuit.
List<int> logic_op_jump_pos1;
List<int> logic_op_jump_pos2;
List<Address> ternary_result;
List<int> ternary_jump_fail_pos;
List<int> ternary_jump_skip_pos;
List<List<int>> current_breaks_to_patch;
void add_stack_identifier(const StringName &p_id, int p_stackpos) {
if (locals.size() > max_locals) {
max_locals = locals.size();
}
stack_identifiers[p_id] = p_stackpos;
if (debug_stack) {
block_identifiers[p_id] = p_stackpos;
GDScriptFunction::StackDebug sd;
sd.added = true;
sd.line = current_line;
sd.identifier = p_id;
sd.pos = p_stackpos;
stack_debug.push_back(sd);
}
}
void push_stack_identifiers() {
stack_identifiers_counts.push_back(locals.size());
stack_id_stack.push_back(stack_identifiers);
if (debug_stack) {
RBMap<StringName, int> block_ids(block_identifiers);
block_identifier_stack.push_back(block_ids);
block_identifiers.clear();
}
}
void pop_stack_identifiers() {
int current_locals = stack_identifiers_counts.back()->get();
stack_identifiers_counts.pop_back();
stack_identifiers = stack_id_stack.back()->get();
stack_id_stack.pop_back();
#ifdef DEBUG_ENABLED
if (!used_temporaries.is_empty()) {
ERR_PRINT("Leaving block with non-zero temporary variables: " + itos(used_temporaries.size()));
}
#endif
locals.resize(current_locals);
if (debug_stack) {
for (const KeyValue<StringName, int> &E : block_identifiers) {
GDScriptFunction::StackDebug sd;
sd.added = false;
sd.identifier = E.key;
sd.line = current_line;
sd.pos = E.value;
stack_debug.push_back(sd);
}
block_identifiers = block_identifier_stack.back()->get();
block_identifier_stack.pop_back();
}
}
int get_name_map_pos(const StringName &p_identifier) {
int ret;
if (!name_map.has(p_identifier)) {
ret = name_map.size();
name_map[p_identifier] = ret;
} else {
ret = name_map[p_identifier];
}
return ret;
}
int get_constant_pos(const Variant &p_constant) {
if (constant_map.has(p_constant)) {
return constant_map[p_constant];
}
int pos = constant_map.size();
constant_map[p_constant] = pos;
return pos;
}
int get_operation_pos(const Variant::ValidatedOperatorEvaluator p_operation) {
if (operator_func_map.has(p_operation)) {
return operator_func_map[p_operation];
}
int pos = operator_func_map.size();
operator_func_map[p_operation] = pos;
return pos;
}
int get_setter_pos(const Variant::ValidatedSetter p_setter) {
if (setters_map.has(p_setter)) {
return setters_map[p_setter];
}
int pos = setters_map.size();
setters_map[p_setter] = pos;
return pos;
}
int get_getter_pos(const Variant::ValidatedGetter p_getter) {
if (getters_map.has(p_getter)) {
return getters_map[p_getter];
}
int pos = getters_map.size();
getters_map[p_getter] = pos;
return pos;
}
int get_keyed_setter_pos(const Variant::ValidatedKeyedSetter p_keyed_setter) {
if (keyed_setters_map.has(p_keyed_setter)) {
return keyed_setters_map[p_keyed_setter];
}
int pos = keyed_setters_map.size();
keyed_setters_map[p_keyed_setter] = pos;
return pos;
}
int get_keyed_getter_pos(const Variant::ValidatedKeyedGetter p_keyed_getter) {
if (keyed_getters_map.has(p_keyed_getter)) {
return keyed_getters_map[p_keyed_getter];
}
int pos = keyed_getters_map.size();
keyed_getters_map[p_keyed_getter] = pos;
return pos;
}
int get_indexed_setter_pos(const Variant::ValidatedIndexedSetter p_indexed_setter) {
if (indexed_setters_map.has(p_indexed_setter)) {
return indexed_setters_map[p_indexed_setter];
}
int pos = indexed_setters_map.size();
indexed_setters_map[p_indexed_setter] = pos;
return pos;
}
int get_indexed_getter_pos(const Variant::ValidatedIndexedGetter p_indexed_getter) {
if (indexed_getters_map.has(p_indexed_getter)) {
return indexed_getters_map[p_indexed_getter];
}
int pos = indexed_getters_map.size();
indexed_getters_map[p_indexed_getter] = pos;
return pos;
}
int get_builtin_method_pos(const Variant::ValidatedBuiltInMethod p_method) {
if (builtin_method_map.has(p_method)) {
return builtin_method_map[p_method];
}
int pos = builtin_method_map.size();
builtin_method_map[p_method] = pos;
return pos;
}
int get_constructor_pos(const Variant::ValidatedConstructor p_constructor) {
if (constructors_map.has(p_constructor)) {
return constructors_map[p_constructor];
}
int pos = constructors_map.size();
constructors_map[p_constructor] = pos;
return pos;
}
int get_utility_pos(const Variant::ValidatedUtilityFunction p_utility) {
if (utilities_map.has(p_utility)) {
return utilities_map[p_utility];
}
int pos = utilities_map.size();
utilities_map[p_utility] = pos;
return pos;
}
int get_gds_utility_pos(const GDScriptUtilityFunctions::FunctionPtr p_gds_utility) {
if (gds_utilities_map.has(p_gds_utility)) {
return gds_utilities_map[p_gds_utility];
}
int pos = gds_utilities_map.size();
gds_utilities_map[p_gds_utility] = pos;
return pos;
}
int get_method_bind_pos(MethodBind *p_method) {
if (method_bind_map.has(p_method)) {
return method_bind_map[p_method];
}
int pos = method_bind_map.size();
method_bind_map[p_method] = pos;
return pos;
}
int get_lambda_function_pos(GDScriptFunction *p_lambda_function) {
if (lambdas_map.has(p_lambda_function)) {
return lambdas_map[p_lambda_function];
}
int pos = lambdas_map.size();
lambdas_map[p_lambda_function] = pos;
return pos;
}
CallTarget get_call_target(const Address &p_target, Variant::Type p_type = Variant::NIL);
int address_of(const Address &p_address) {
switch (p_address.mode) {
case Address::SELF:
return GDScriptFunction::ADDR_SELF;
case Address::CLASS:
return GDScriptFunction::ADDR_CLASS;
case Address::MEMBER:
return p_address.address | (GDScriptFunction::ADDR_TYPE_MEMBER << GDScriptFunction::ADDR_BITS);
case Address::CONSTANT:
return p_address.address | (GDScriptFunction::ADDR_TYPE_CONSTANT << GDScriptFunction::ADDR_BITS);
case Address::LOCAL_VARIABLE:
case Address::FUNCTION_PARAMETER:
return p_address.address | (GDScriptFunction::ADDR_TYPE_STACK << GDScriptFunction::ADDR_BITS);
case Address::TEMPORARY:
temporaries.write[p_address.address].bytecode_indices.push_back(opcodes.size());
return -1;
case Address::NIL:
return GDScriptFunction::ADDR_NIL;
}
return -1; // Unreachable.
}
void append_opcode(GDScriptFunction::Opcode p_code) {
opcodes.push_back(p_code);
}
void append_opcode_and_argcount(GDScriptFunction::Opcode p_code, int p_argument_count) {
opcodes.push_back(p_code);
opcodes.push_back(p_argument_count);
instr_args_max = MAX(instr_args_max, p_argument_count);
}
void append(int p_code) {
opcodes.push_back(p_code);
}
void append(const Address &p_address) {
opcodes.push_back(address_of(p_address));
}
void append(const StringName &p_name) {
opcodes.push_back(get_name_map_pos(p_name));
}
void append(const Variant::ValidatedOperatorEvaluator p_operation) {
opcodes.push_back(get_operation_pos(p_operation));
}
void append(const Variant::ValidatedSetter p_setter) {
opcodes.push_back(get_setter_pos(p_setter));
}
void append(const Variant::ValidatedGetter p_getter) {
opcodes.push_back(get_getter_pos(p_getter));
}
void append(const Variant::ValidatedKeyedSetter p_keyed_setter) {
opcodes.push_back(get_keyed_setter_pos(p_keyed_setter));
}
void append(const Variant::ValidatedKeyedGetter p_keyed_getter) {
opcodes.push_back(get_keyed_getter_pos(p_keyed_getter));
}
void append(const Variant::ValidatedIndexedSetter p_indexed_setter) {
opcodes.push_back(get_indexed_setter_pos(p_indexed_setter));
}
void append(const Variant::ValidatedIndexedGetter p_indexed_getter) {
opcodes.push_back(get_indexed_getter_pos(p_indexed_getter));
}
void append(const Variant::ValidatedBuiltInMethod p_method) {
opcodes.push_back(get_builtin_method_pos(p_method));
}
void append(const Variant::ValidatedConstructor p_constructor) {
opcodes.push_back(get_constructor_pos(p_constructor));
}
void append(const Variant::ValidatedUtilityFunction p_utility) {
opcodes.push_back(get_utility_pos(p_utility));
}
void append(const GDScriptUtilityFunctions::FunctionPtr p_gds_utility) {
opcodes.push_back(get_gds_utility_pos(p_gds_utility));
}
void append(MethodBind *p_method) {
opcodes.push_back(get_method_bind_pos(p_method));
}
void append(GDScriptFunction *p_lambda_function) {
opcodes.push_back(get_lambda_function_pos(p_lambda_function));
}
void patch_jump(int p_address) {
opcodes.write[p_address] = opcodes.size();
}
public:
virtual uint32_t add_parameter(const StringName &p_name, bool p_is_optional, const GDScriptDataType &p_type) override;
virtual uint32_t add_local(const StringName &p_name, const GDScriptDataType &p_type) override;
virtual uint32_t add_local_constant(const StringName &p_name, const Variant &p_constant) override;
virtual uint32_t add_or_get_constant(const Variant &p_constant) override;
virtual uint32_t add_or_get_name(const StringName &p_name) override;
virtual uint32_t add_temporary(const GDScriptDataType &p_type) override;
virtual void pop_temporary() override;
virtual void clean_temporaries() override;
virtual void start_parameters() override;
virtual void end_parameters() override;
virtual void start_block() override;
virtual void end_block() override;
virtual void write_start(GDScript *p_script, const StringName &p_function_name, bool p_static, Variant p_rpc_config, const GDScriptDataType &p_return_type) override;
virtual GDScriptFunction *write_end() override;
#ifdef DEBUG_ENABLED
virtual void set_signature(const String &p_signature) override;
#endif
virtual void set_initial_line(int p_line) override;
virtual void write_type_adjust(const Address &p_target, Variant::Type p_new_type) override;
virtual void write_unary_operator(const Address &p_target, Variant::Operator p_operator, const Address &p_left_operand) override;
virtual void write_binary_operator(const Address &p_target, Variant::Operator p_operator, const Address &p_left_operand, const Address &p_right_operand) override;
virtual void write_type_test(const Address &p_target, const Address &p_source, const GDScriptDataType &p_type) override;
virtual void write_and_left_operand(const Address &p_left_operand) override;
virtual void write_and_right_operand(const Address &p_right_operand) override;
virtual void write_end_and(const Address &p_target) override;
virtual void write_or_left_operand(const Address &p_left_operand) override;
virtual void write_or_right_operand(const Address &p_right_operand) override;
virtual void write_end_or(const Address &p_target) override;
virtual void write_start_ternary(const Address &p_target) override;
virtual void write_ternary_condition(const Address &p_condition) override;
virtual void write_ternary_true_expr(const Address &p_expr) override;
virtual void write_ternary_false_expr(const Address &p_expr) override;
virtual void write_end_ternary() override;
virtual void write_set(const Address &p_target, const Address &p_index, const Address &p_source) override;
virtual void write_get(const Address &p_target, const Address &p_index, const Address &p_source) override;
virtual void write_set_named(const Address &p_target, const StringName &p_name, const Address &p_source) override;
virtual void write_get_named(const Address &p_target, const StringName &p_name, const Address &p_source) override;
virtual void write_set_member(const Address &p_value, const StringName &p_name) override;
virtual void write_get_member(const Address &p_target, const StringName &p_name) override;
virtual void write_set_static_variable(const Address &p_value, const Address &p_class, int p_index) override;
virtual void write_get_static_variable(const Address &p_target, const Address &p_class, int p_index) override;
virtual void write_assign(const Address &p_target, const Address &p_source) override;
virtual void write_assign_with_conversion(const Address &p_target, const Address &p_source) override;
virtual void write_assign_true(const Address &p_target) override;
virtual void write_assign_false(const Address &p_target) override;
virtual void write_assign_default_parameter(const Address &p_dst, const Address &p_src, bool p_use_conversion) override;
virtual void write_store_global(const Address &p_dst, int p_global_index) override;
virtual void write_store_named_global(const Address &p_dst, const StringName &p_global) override;
virtual void write_cast(const Address &p_target, const Address &p_source, const GDScriptDataType &p_type) override;
virtual void write_call(const Address &p_target, const Address &p_base, const StringName &p_function_name, const Vector<Address> &p_arguments) override;
virtual void write_super_call(const Address &p_target, const StringName &p_function_name, const Vector<Address> &p_arguments) override;
virtual void write_call_async(const Address &p_target, const Address &p_base, const StringName &p_function_name, const Vector<Address> &p_arguments) override;
virtual void write_call_utility(const Address &p_target, const StringName &p_function, const Vector<Address> &p_arguments) override;
void write_call_builtin_type(const Address &p_target, const Address &p_base, Variant::Type p_type, const StringName &p_method, bool p_is_static, const Vector<Address> &p_arguments);
virtual void write_call_gdscript_utility(const Address &p_target, const StringName &p_function, const Vector<Address> &p_arguments) override;
virtual void write_call_builtin_type(const Address &p_target, const Address &p_base, Variant::Type p_type, const StringName &p_method, const Vector<Address> &p_arguments) override;
virtual void write_call_builtin_type_static(const Address &p_target, Variant::Type p_type, const StringName &p_method, const Vector<Address> &p_arguments) override;
virtual void write_call_native_static(const Address &p_target, const StringName &p_class, const StringName &p_method, const Vector<Address> &p_arguments) override;
virtual void write_call_method_bind(const Address &p_target, const Address &p_base, MethodBind *p_method, const Vector<Address> &p_arguments) override;
virtual void write_call_method_bind_validated(const Address &p_target, const Address &p_base, MethodBind *p_method, const Vector<Address> &p_arguments) override;
virtual void write_call_self(const Address &p_target, const StringName &p_function_name, const Vector<Address> &p_arguments) override;
virtual void write_call_self_async(const Address &p_target, const StringName &p_function_name, const Vector<Address> &p_arguments) override;
virtual void write_call_script_function(const Address &p_target, const Address &p_base, const StringName &p_function_name, const Vector<Address> &p_arguments) override;
virtual void write_lambda(const Address &p_target, GDScriptFunction *p_function, const Vector<Address> &p_captures, bool p_use_self) override;
virtual void write_construct(const Address &p_target, Variant::Type p_type, const Vector<Address> &p_arguments) override;
virtual void write_construct_array(const Address &p_target, const Vector<Address> &p_arguments) override;
virtual void write_construct_typed_array(const Address &p_target, const GDScriptDataType &p_element_type, const Vector<Address> &p_arguments) override;
virtual void write_construct_dictionary(const Address &p_target, const Vector<Address> &p_arguments) override;
virtual void write_await(const Address &p_target, const Address &p_operand) override;
virtual void write_if(const Address &p_condition) override;
virtual void write_else() override;
virtual void write_endif() override;
virtual void write_jump_if_shared(const Address &p_value) override;
virtual void write_end_jump_if_shared() override;
virtual void start_for(const GDScriptDataType &p_iterator_type, const GDScriptDataType &p_list_type) override;
virtual void write_for_assignment(const Address &p_list) override;
virtual void write_for(const Address &p_variable, bool p_use_conversion) override;
virtual void write_endfor() override;
virtual void start_while_condition() override;
virtual void write_while(const Address &p_condition) override;
virtual void write_endwhile() override;
virtual void write_break() override;
virtual void write_continue() override;
virtual void write_breakpoint() override;
virtual void write_newline(int p_line) override;
virtual void write_return(const Address &p_return_value) override;
virtual void write_assert(const Address &p_test, const Address &p_message) override;
virtual ~GDScriptByteCodeGenerator();
};
#endif // GDSCRIPT_BYTE_CODEGEN_H