#!/usr/bin/env python
from __future__ import print_function
import json
import os
import errno
from pathlib import Path
# Convenience function for using template get_node
def correct_method_name(method_list):
for method in method_list:
if method["name"] == "get_node":
method["name"] = "get_node_internal"
classes = []
def print_file_list(api_filepath, output_dir, headers=False, sources=False):
global classes
end = ";"
with open(api_filepath) as api_file:
classes = json.load(api_file)
include_gen_folder = Path(output_dir) / "include" / "gen"
source_gen_folder = Path(output_dir) / "src" / "gen"
for _class in classes:
header_filename = include_gen_folder / (strip_name(_class["name"]) + ".hpp")
source_filename = source_gen_folder / (strip_name(_class["name"]) + ".cpp")
if headers:
print(str(header_filename.as_posix()), end=end)
if sources:
print(str(source_filename.as_posix()), end=end)
icall_header_filename = include_gen_folder / "__icalls.hpp"
register_types_filename = source_gen_folder / "__register_types.cpp"
init_method_bindings_filename = source_gen_folder / "__init_method_bindings.cpp"
if headers:
print(str(icall_header_filename.as_posix()), end=end)
if sources:
print(str(register_types_filename.as_posix()), end=end)
print(str(init_method_bindings_filename.as_posix()), end=end)
def generate_bindings(api_filepath, use_template_get_node, output_dir="."):
global classes
with open(api_filepath) as api_file:
classes = json.load(api_file)
icalls = set()
include_gen_folder = Path(output_dir) / "include" / "gen"
source_gen_folder = Path(output_dir) / "src" / "gen"
try:
include_gen_folder.mkdir(parents=True)
except os.error as e:
if e.errno == errno.EEXIST:
print(str(source_gen_folder) + ": " + os.strerror(e.errno))
else:
exit(1)
try:
source_gen_folder.mkdir(parents=True)
except os.error as e:
if e.errno == errno.EEXIST:
print(str(source_gen_folder) + ": " + os.strerror(e.errno))
else:
exit(1)
for c in classes:
# print(c['name'])
used_classes = get_used_classes(c)
if use_template_get_node and c["name"] == "Node":
correct_method_name(c["methods"])
header = generate_class_header(used_classes, c, use_template_get_node)
impl = generate_class_implementation(icalls, used_classes, c, use_template_get_node)
header_filename = include_gen_folder / (strip_name(c["name"]) + ".hpp")
with header_filename.open("w+") as header_file:
header_file.write(header)
source_filename = source_gen_folder / (strip_name(c["name"]) + ".cpp")
with source_filename.open("w+") as source_file:
source_file.write(impl)
icall_header_filename = include_gen_folder / "__icalls.hpp"
with icall_header_filename.open("w+") as icall_header_file:
icall_header_file.write(generate_icall_header(icalls))
register_types_filename = source_gen_folder / "__register_types.cpp"
with register_types_filename.open("w+") as register_types_file:
register_types_file.write(generate_type_registry(classes))
init_method_bindings_filename = source_gen_folder / "__init_method_bindings.cpp"
with init_method_bindings_filename.open("w+") as init_method_bindings_file:
init_method_bindings_file.write(generate_init_method_bindings(classes))
def is_reference_type(t):
for c in classes:
if c["name"] != t:
continue
if c["is_reference"]:
return True
return False
def make_gdnative_type(t, ref_allowed):
if is_enum(t):
return remove_enum_prefix(t) + " "
elif is_class_type(t):
if is_reference_type(t) and ref_allowed:
return "Ref<" + strip_name(t) + "> "
else:
return strip_name(t) + " *"
else:
if t == "int":
return "int64_t "
if t == "float" or t == "real":
return "real_t "
return strip_name(t) + " "
def generate_class_header(used_classes, c, use_template_get_node):
source = []
source.append("#ifndef GODOT_CPP_" + strip_name(c["name"]).upper() + "_HPP")
source.append("#define GODOT_CPP_" + strip_name(c["name"]).upper() + "_HPP")
source.append("")
source.append("")
source.append("#include <gdnative_api_struct.gen.h>")
source.append("#include <cstdint>")
source.append("")
source.append("#include <core/CoreTypes.hpp>")
class_name = strip_name(c["name"])
# Ref<T> is not included in object.h in Godot either,
# so don't include it here because it's not needed
if class_name != "Object" and class_name != "Reference":
source.append("#include <core/Ref.hpp>")
ref_allowed = True
else:
source.append("#include <core/TagDB.hpp>")
ref_allowed = False
included = []
for used_class in used_classes:
if is_enum(used_class) and is_nested_type(used_class):
used_class_name = remove_enum_prefix(extract_nested_type(used_class))
if used_class_name not in included:
included.append(used_class_name)
source.append('#include "' + used_class_name + '.hpp"')
elif is_enum(used_class) and is_nested_type(used_class) and not is_nested_type(used_class, class_name):
used_class_name = remove_enum_prefix(used_class)
if used_class_name not in included:
included.append(used_class_name)
source.append('#include "' + used_class_name + '.hpp"')
source.append("")
if c["base_class"] != "":
source.append('#include "' + strip_name(c["base_class"]) + '.hpp"')
source.append("namespace godot {")
source.append("")
for used_type in used_classes:
if is_enum(used_type) or is_nested_type(used_type, class_name):
continue
else:
source.append("class " + strip_name(used_type) + ";")
source.append("")
vararg_templates = ""
# generate the class definition here
source.append(
"class "
+ class_name
+ (" : public _Wrapped" if c["base_class"] == "" else (" : public " + strip_name(c["base_class"])))
+ " {"
)
if c["base_class"] == "":
source.append("public: enum { ___CLASS_IS_SCRIPT = 0, };")
source.append("")
source.append("private:")
if c["singleton"]:
source.append("\tstatic " + class_name + " *_singleton;")
source.append("")
source.append("\t" + class_name + "();")
source.append("")
# Generate method table
source.append("\tstruct ___method_bindings {")
for method in c["methods"]:
source.append("\t\tgodot_method_bind *mb_" + method["name"] + ";")
source.append("\t};")
source.append("\tstatic ___method_bindings ___mb;")
source.append("\tstatic void *_detail_class_tag;")
source.append("")
source.append("public:")
source.append("\tstatic void ___init_method_bindings();")
# class id from core engine for casting
source.append("\tinline static size_t ___get_id() { return (size_t)_detail_class_tag; }")
source.append("")
if c["singleton"]:
source.append("\tstatic inline " + class_name + " *get_singleton()")
source.append("\t{")
source.append("\t\tif (!" + class_name + "::_singleton) {")
source.append("\t\t\t" + class_name + "::_singleton = new " + class_name + ";")
source.append("\t\t}")
source.append("\t\treturn " + class_name + "::_singleton;")
source.append("\t}")
source.append("")
# godot::api->godot_global_get_singleton((char *) \"" + strip_name(c["name"]) + "\");"
# class name:
# Two versions needed needed because when the user implements a custom class,
# we want to override `___get_class_name` while `___get_godot_class_name` can keep returning the base name
source.append(
'\tstatic inline const char *___get_class_name() { return (const char *) "' + strip_name(c["name"]) + '"; }'
)
source.append(
'\tstatic inline const char *___get_godot_class_name() { return (const char *) "'
+ strip_name(c["name"])
+ '"; }'
)
source.append(
"\tstatic inline Object *___get_from_variant(Variant a) { godot_object *o = (godot_object*) a; return (o) ? (Object *) godot::nativescript_1_1_api->godot_nativescript_get_instance_binding_data(godot::_RegisterState::language_index, o) : nullptr; }"
)
enum_values = []
source.append("\n\t// enums")
for enum in c["enums"]:
source.append("\tenum " + strip_name(enum["name"]) + " {")
for value in enum["values"]:
source.append("\t\t" + remove_nested_type_prefix(value) + " = " + str(enum["values"][value]) + ",")
enum_values.append(value)
source.append("\t};")
source.append("\n\t// constants")
for name in c["constants"]:
if name not in enum_values:
source.append("\tconst static int " + name + " = " + str(c["constants"][name]) + ";")
if c["instanciable"]:
source.append("")
source.append("")
source.append("\tstatic " + class_name + " *_new();")
source.append("\n\t// methods")
if class_name == "Object":
source.append("#ifndef GODOT_CPP_NO_OBJECT_CAST")
source.append("\ttemplate<class T>")
source.append("\tstatic T *cast_to(const Object *obj);")
source.append("#endif")
source.append("")
for method in c["methods"]:
method_signature = ""
# TODO decide what to do about virtual methods
# method_signature += "virtual " if method["is_virtual"] else ""
method_signature += make_gdnative_type(method["return_type"], ref_allowed)
method_name = escape_cpp(method["name"])
method_signature += method_name + "("
has_default_argument = False
method_arguments = ""
for i, argument in enumerate(method["arguments"]):
method_signature += "const " + make_gdnative_type(argument["type"], ref_allowed)
argument_name = escape_cpp(argument["name"])
method_signature += argument_name
method_arguments += argument_name
# default arguments
def escape_default_arg(_type, default_value):
if _type == "Color":
return "Color(" + default_value + ")"
if _type == "bool" or _type == "int":
return default_value.lower()
if _type == "Array":
return "Array()"
if _type in [
"PoolVector2Array",
"PoolStringArray",
"PoolVector3Array",
"PoolColorArray",
"PoolIntArray",
"PoolRealArray",
"PoolByteArray",
]:
return _type + "()"
if _type == "Vector2":
return "Vector2" + default_value
if _type == "Vector3":
return "Vector3" + default_value
if _type == "Transform":
return "Transform()"
if _type == "Transform2D":
return "Transform2D()"
if _type == "Rect2":
return "Rect2" + default_value
if _type == "Variant":
return "Variant()" if default_value == "Null" else default_value
if _type == "String" or _type == "NodePath":
return '"' + default_value + '"'
if _type == "RID":
return "RID()"
if default_value == "Null" or default_value == "[Object:null]":
return "nullptr"
return default_value
if argument["has_default_value"] or has_default_argument:
method_signature += " = " + escape_default_arg(argument["type"], argument["default_value"])
has_default_argument = True
if i != len(method["arguments"]) - 1:
method_signature += ", "
method_arguments += ","
if method["has_varargs"]:
if len(method["arguments"]) > 0:
method_signature += ", "
method_arguments += ", "
vararg_templates += (
"\ttemplate <class... Args> "
+ method_signature
+ "Args... args){\n\t\treturn "
+ method_name
+ "("
+ method_arguments
+ "Array::make(args...));\n\t}\n"
""
)
method_signature += "const Array& __var_args = Array()"
method_signature += ")" + (" const" if method["is_const"] else "")
source.append("\t" + method_signature + ";")
source.append(vararg_templates)
if use_template_get_node and class_name == "Node":
# Extra definition for template get_node that calls the renamed get_node_internal; has a default template parameter for backwards compatibility.
source.append("\ttemplate <class T = Node>")
source.append("\tT *get_node(const NodePath path) const {")
source.append("\t\treturn Object::cast_to<T>(get_node_internal(path));")
source.append("\t}")
source.append("};")
source.append("")
# ...And a specialized version so we don't unnecessarily cast when using the default.
source.append("template <>")
source.append("inline Node *Node::get_node<Node>(const NodePath path) const {")
source.append("\treturn get_node_internal(path);")
source.append("}")
source.append("")
else:
source.append("};")
source.append("")
source.append("}")
source.append("")
source.append("#endif")
return "\n".join(source)
def generate_class_implementation(icalls, used_classes, c, use_template_get_node):
class_name = strip_name(c["name"])
ref_allowed = class_name != "Object" and class_name != "Reference"
source = []
source.append('#include "' + class_name + '.hpp"')
source.append("")
source.append("")
source.append("#include <core/GodotGlobal.hpp>")
source.append("#include <core/CoreTypes.hpp>")
source.append("#include <core/Ref.hpp>")
source.append("#include <core/Godot.hpp>")
source.append("")
source.append('#include "__icalls.hpp"')
source.append("")
source.append("")
for used_class in used_classes:
if is_enum(used_class):
continue
else:
source.append('#include "' + strip_name(used_class) + '.hpp"')
source.append("")
source.append("")
source.append("namespace godot {")
core_object_name = "this"
source.append("")
source.append("")
if c["singleton"]:
source.append("" + class_name + " *" + class_name + "::_singleton = NULL;")
source.append("")
source.append("")
# FIXME Test if inlining has a huge impact on binary size
source.append(class_name + "::" + class_name + "() {")
source.append('\t_owner = godot::api->godot_global_get_singleton((char *) "' + strip_name(c["name"]) + '");')
source.append("}")
source.append("")
source.append("")
# Method table initialization
source.append(class_name + "::___method_bindings " + class_name + "::___mb = {};")
source.append("")
source.append("void *" + class_name + "::_detail_class_tag = nullptr;")
source.append("")
source.append("void " + class_name + "::___init_method_bindings() {")
for method in c["methods"]:
source.append(
"\t___mb.mb_"
+ method["name"]
+ ' = godot::api->godot_method_bind_get_method("'
+ c["name"]
+ '", "'
+ ("get_node" if use_template_get_node and method["name"] == "get_node_internal" else method["name"])
+ '");'
)
source.append("\tgodot_string_name class_name;")
source.append('\tgodot::api->godot_string_name_new_data(&class_name, "' + c["name"] + '");')
source.append("\t_detail_class_tag = godot::core_1_2_api->godot_get_class_tag(&class_name);")
source.append("\tgodot::api->godot_string_name_destroy(&class_name);")
source.append("}")
source.append("")
if c["instanciable"]:
source.append(class_name + " *" + strip_name(c["name"]) + "::_new()")
source.append("{")
source.append(
"\treturn ("
+ class_name
+ ' *) godot::nativescript_1_1_api->godot_nativescript_get_instance_binding_data(godot::_RegisterState::language_index, godot::api->godot_get_class_constructor((char *)"'
+ c["name"]
+ '")());'
)
source.append("}")
for method in c["methods"]:
method_signature = ""
method_signature += make_gdnative_type(method["return_type"], ref_allowed)
method_signature += strip_name(c["name"]) + "::" + escape_cpp(method["name"]) + "("
for i, argument in enumerate(method["arguments"]):
method_signature += "const " + make_gdnative_type(argument["type"], ref_allowed)
method_signature += escape_cpp(argument["name"])
if i != len(method["arguments"]) - 1:
method_signature += ", "
if method["has_varargs"]:
if len(method["arguments"]) > 0:
method_signature += ", "
method_signature += "const Array& __var_args"
method_signature += ")" + (" const" if method["is_const"] else "")
source.append(method_signature + " {")
if method["name"] == "free":
# dirty hack because Object::free is marked virtual but doesn't actually exist...
source.append("\tgodot::api->godot_object_destroy(_owner);")
source.append("}")
source.append("")
continue
return_statement = ""
return_type_is_ref = is_reference_type(method["return_type"]) and ref_allowed
if method["return_type"] != "void":
if is_class_type(method["return_type"]):
if is_enum(method["return_type"]):
return_statement += "return (" + remove_enum_prefix(method["return_type"]) + ") "
elif return_type_is_ref:
return_statement += "return Ref<" + strip_name(method["return_type"]) + ">::__internal_constructor("
else:
return_statement += "return " + (
"(" + strip_name(method["return_type"]) + " *) " if is_class_type(method["return_type"]) else ""
)
else:
return_statement += "return "
def get_icall_type_name(name):
if is_enum(name):
return "int"
if is_class_type(name):
return "Object"
return name
if method["has_varargs"]:
if len(method["arguments"]) != 0:
source.append("\tVariant __given_args[" + str(len(method["arguments"])) + "];")
for i, argument in enumerate(method["arguments"]):
source.append("\tgodot::api->godot_variant_new_nil((godot_variant *) &__given_args[" + str(i) + "]);")
source.append("")
for i, argument in enumerate(method["arguments"]):
source.append("\t__given_args[" + str(i) + "] = " + escape_cpp(argument["name"]) + ";")
source.append("")
size = ""
if method["has_varargs"]:
size = "(__var_args.size() + " + str(len(method["arguments"])) + ")"
else:
size = "(" + str(len(method["arguments"])) + ")"
source.append(
"\tgodot_variant **__args = (godot_variant **) alloca(sizeof(godot_variant *) * " + size + ");"
)
source.append("")
for i, argument in enumerate(method["arguments"]):
source.append("\t__args[" + str(i) + "] = (godot_variant *) &__given_args[" + str(i) + "];")
source.append("")
if method["has_varargs"]:
source.append("\tfor (int i = 0; i < __var_args.size(); i++) {")
source.append(
"\t\t__args[i + "
+ str(len(method["arguments"]))
+ "] = (godot_variant *) &((Array &) __var_args)[i];"
)
source.append("\t}")
source.append("")
source.append("\tVariant __result;")
source.append(
"\t*(godot_variant *) &__result = godot::api->godot_method_bind_call(___mb.mb_"
+ method["name"]
+ ", ((const Object *) "
+ core_object_name
+ ")->_owner, (const godot_variant **) __args, "
+ size
+ ", nullptr);"
)
source.append("")
if is_class_type(method["return_type"]):
source.append("\tObject *obj = Object::___get_from_variant(__result);")
source.append('\tif (obj->has_method("reference"))')
source.append('\t\tobj->callv("reference", Array());')
source.append("")
for i, argument in enumerate(method["arguments"]):
source.append("\tgodot::api->godot_variant_destroy((godot_variant *) &__given_args[" + str(i) + "]);")
source.append("")
if method["return_type"] != "void":
cast = ""
if is_class_type(method["return_type"]):
if return_type_is_ref:
cast += "Ref<" + strip_name(method["return_type"]) + ">::__internal_constructor(__result);"
else:
cast += (
"("
+ strip_name(method["return_type"])
+ " *) "
+ strip_name(method["return_type"] + "::___get_from_variant(")
+ "__result);"
)
else:
cast += "__result;"
source.append("\treturn " + cast)
else:
args = []
for arg in method["arguments"]:
args.append(get_icall_type_name(arg["type"]))
icall_ret_type = get_icall_type_name(method["return_type"])
icall_sig = tuple((icall_ret_type, tuple(args)))
icalls.add(icall_sig)
icall_name = get_icall_name(icall_sig)
return_statement += icall_name + "(___mb.mb_" + method["name"] + ", (const Object *) " + core_object_name
for arg in method["arguments"]:
arg_is_ref = is_reference_type(arg["type"]) and ref_allowed
return_statement += ", " + escape_cpp(arg["name"]) + (".ptr()" if arg_is_ref else "")
return_statement += ")"
if return_type_is_ref:
return_statement += ")"
source.append("\t" + return_statement + ";")
source.append("}")
source.append("")
source.append("}")
return "\n".join(source)
def generate_icall_header(icalls):
source = []
source.append("#ifndef GODOT_CPP__ICALLS_HPP")
source.append("#define GODOT_CPP__ICALLS_HPP")
source.append("")
source.append("#include <gdnative_api_struct.gen.h>")
source.append("#include <stdint.h>")
source.append("")
source.append("#include <core/GodotGlobal.hpp>")
source.append("#include <core/CoreTypes.hpp>")
source.append('#include "Object.hpp"')
source.append("")
source.append("")
source.append("namespace godot {")
source.append("")
for icall in icalls:
ret_type = icall[0]
args = icall[1]
method_signature = "static inline "
method_signature += (
get_icall_return_type(ret_type) + get_icall_name(icall) + "(godot_method_bind *mb, const Object *inst"
)
for i, arg in enumerate(args):
method_signature += ", const "
if is_core_type(arg):
method_signature += arg + "&"
elif arg == "int":
method_signature += "int64_t "
elif arg == "float":
method_signature += "double "
elif is_primitive(arg):
method_signature += arg + " "
else:
method_signature += "Object *"
method_signature += "arg" + str(i)
method_signature += ")"
source.append(method_signature + " {")
if ret_type != "void":
source.append(
"\t" + ("godot_object *" if is_class_type(ret_type) else get_icall_return_type(ret_type)) + "ret;"
)
if is_class_type(ret_type):
source.append("\tret = nullptr;")
source.append("\tconst void *args[" + ("1" if len(args) == 0 else "") + "] = {")
for i, arg in enumerate(args):
wrapped_argument = "\t\t"
if is_primitive(arg) or is_core_type(arg):
wrapped_argument += "(void *) &arg" + str(i)
else:
wrapped_argument += "(void *) (arg" + str(i) + ") ? arg" + str(i) + "->_owner : nullptr"
wrapped_argument += ","
source.append(wrapped_argument)
source.append("\t};")
source.append("")
source.append(
"\tgodot::api->godot_method_bind_ptrcall(mb, inst->_owner, args, "
+ ("nullptr" if ret_type == "void" else "&ret")
+ ");"
)
if ret_type != "void":
if is_class_type(ret_type):
source.append("\tif (ret) {")
source.append(
"\t\treturn (Object *) godot::nativescript_1_1_api->godot_nativescript_get_instance_binding_data(godot::_RegisterState::language_index, ret);"
)
source.append("\t}")
source.append("")
source.append("\treturn (Object *) ret;")
else:
source.append("\treturn ret;")
source.append("}")
source.append("")
source.append("}")
source.append("")
source.append("#endif")
return "\n".join(source)
def generate_type_registry(classes):
source = []
source.append('#include "TagDB.hpp"')
source.append("#include <typeinfo>")
source.append("\n")
for c in classes:
source.append("#include <" + strip_name(c["name"]) + ".hpp>")
source.append("")
source.append("")
source.append("namespace godot {")
source.append("void ___register_types()")
source.append("{")
for c in classes:
class_name = strip_name(c["name"])
base_class_name = strip_name(c["base_class"])
class_type_hash = "typeid(" + class_name + ").hash_code()"
base_class_type_hash = "typeid(" + base_class_name + ").hash_code()"
if base_class_name == "":
base_class_type_hash = "0"
source.append(
'\tgodot::_TagDB::register_global_type("'
+ c["name"]
+ '", '
+ class_type_hash
+ ", "
+ base_class_type_hash
+ ");"
)
source.append("}")
source.append("")
source.append("}")
return "\n".join(source)
def generate_init_method_bindings(classes):
source = []
for c in classes:
source.append("#include <" + strip_name(c["name"]) + ".hpp>")
source.append("")
source.append("")
source.append("namespace godot {")
source.append("void ___init_method_bindings()")
source.append("{")
for c in classes:
source.append("\t" + strip_name(c["name"]) + "::___init_method_bindings();")
source.append("}")
source.append("")
source.append("}")
return "\n".join(source)
def get_icall_return_type(t):
if is_class_type(t):
return "Object *"
if t == "int":
return "int64_t "
if t == "float" or t == "real":
return "double "
return t + " "
def get_icall_name(sig):
ret_type = sig[0]
args = sig[1]
name = "___godot_icall_"
name += strip_name(ret_type)
for arg in args:
name += "_" + strip_name(arg)
return name
def get_used_classes(c):
classes = []
for method in c["methods"]:
if is_class_type(method["return_type"]) and not (method["return_type"] in classes):
classes.append(method["return_type"])
for arg in method["arguments"]:
if is_class_type(arg["type"]) and not (arg["type"] in classes):
classes.append(arg["type"])
return classes
def strip_name(name):
if len(name) == 0:
return name
if name[0] == "_":
return name[1:]
return name
def extract_nested_type(nested_type):
return strip_name(nested_type[: nested_type.find("::")])
def remove_nested_type_prefix(name):
return name if name.find("::") == -1 else strip_name(name[name.find("::") + 2 :])
def remove_enum_prefix(name):
return strip_name(name[name.find("enum.") + 5 :])
def is_nested_type(name, type=""):
return name.find(type + "::") != -1
def is_enum(name):
return name.find("enum.") == 0
def is_class_type(name):
return not is_core_type(name) and not is_primitive(name)
def is_core_type(name):
core_types = [
"Array",
"Basis",
"Color",
"Dictionary",
"Error",
"NodePath",
"Plane",
"PoolByteArray",
"PoolIntArray",
"PoolRealArray",
"PoolStringArray",
"PoolVector2Array",
"PoolVector3Array",
"PoolColorArray",
"PoolIntArray",
"PoolRealArray",
"Quat",
"Rect2",
"AABB",
"RID",
"String",
"Transform",
"Transform2D",
"Variant",
"Vector2",
"Vector3",
]
return name in core_types
def is_primitive(name):
core_types = ["int", "bool", "real", "float", "void"]
return name in core_types
def escape_cpp(name):
escapes = {
"class": "_class",
"enum": "_enum",
"char": "_char",
"short": "_short",
"bool": "_bool",
"int": "_int",
"default": "_default",
"case": "_case",
"switch": "_switch",
"export": "_export",
"template": "_template",
"new": "new_",
"operator": "_operator",
"typename": "_typename",
}
if name in escapes:
return escapes[name]
return name