prosperon/source/engine/thirdparty/sokol/bindgen/gen_rust.py

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# -------------------------------------------------------------------------------
# Generate rust bindings.
#
# rust coding style:
# - types are PascalCase
# - otherwise snake_case
# -------------------------------------------------------------------------------
import gen_ir
import os, shutil, sys
import gen_util as util
module_names = {
"slog_": "log",
"sg_": "gfx",
"sapp_": "app",
"stm_": "time",
"saudio_": "audio",
"sgl_": "gl",
"sdtx_": "debugtext",
"sshape_": "shape",
"simgui_": "imgui",
"sglue_": "glue",
}
module_requires_rust_feature = {
module_names["simgui_"]: "imgui",
}
c_source_paths = {
"slog_": "sokol-rust/src/sokol/c/sokol_log.c",
"sg_": "sokol-rust/src/sokol/c/sokol_gfx.c",
"sapp_": "sokol-rust/src/sokol/c/sokol_app.c",
"stm_": "sokol-rust/src/sokol/c/sokol_time.c",
"saudio_": "sokol-rust/src/sokol/c/sokol_audio.c",
"sgl_": "sokol-rust/src/sokol/c/sokol_gl.c",
"sdtx_": "sokol-rust/src/sokol/c/sokol_debugtext.c",
"sshape_": "sokol-rust/src/sokol/c/sokol_shape.c",
"simgui_": "sokol-rust/src/sokol/c/sokol_imgui.c",
"sglue_": "sokol-rust/src/sokol/c/sokol_glue.c",
}
ignores = [
"sdtx_printf",
"sdtx_vprintf",
"simgui_add_key_event",
# "sg_install_trace_hooks",
# "sg_trace_hooks",
]
range_struct_name = "Range"
# functions that need to be exposed as 'raw' C callbacks without a rust wrapper function
c_callbacks = ["slog_func"]
# NOTE: syntax for function results: "func_name.RESULT"
overrides = {
"type": "_type",
"ref": "_ref",
"sg_apply_uniforms.ub_index": "uintptr_t",
"sg_draw.base_element": "uintptr_t",
"sg_draw.num_elements": "uintptr_t",
"sg_draw.num_instances": "uintptr_t",
"sshape_element_range_t.base_element": "uintptr_t",
"sshape_element_range_t.num_elements": "uintptr_t",
"sdtx_font.font_index": "uintptr_t",
"sdtx_move": "sdtx_move_cursor",
"sdtx_move_x": "sdtx_move_cursor_x",
"sdtx_move_y": "sdtx_move_cursor_y",
"sg_image_type::SG_IMAGETYPE_2D": "SG_IMAGEYPE_DIM2",
"sg_image_type::SG_IMAGETYPE_3D": "SG_IMAGETYPE_DIM3",
"sapp_keycode::SAPP_KEYCODE_0": "SAPP_KEYCODE_NUM0",
"sapp_keycode::SAPP_KEYCODE_1": "SAPP_KEYCODE_NUM1",
"sapp_keycode::SAPP_KEYCODE_2": "SAPP_KEYCODE_NUM2",
"sapp_keycode::SAPP_KEYCODE_3": "SAPP_KEYCODE_NUM3",
"sapp_keycode::SAPP_KEYCODE_4": "SAPP_KEYCODE_NUM4",
"sapp_keycode::SAPP_KEYCODE_5": "SAPP_KEYCODE_NUM5",
"sapp_keycode::SAPP_KEYCODE_6": "SAPP_KEYCODE_NUM6",
"sapp_keycode::SAPP_KEYCODE_7": "SAPP_KEYCODE_NUM7",
"sapp_keycode::SAPP_KEYCODE_8": "SAPP_KEYCODE_NUM8",
"sapp_keycode::SAPP_KEYCODE_9": "SAPP_KEYCODE_NUM9",
# "sgl_error": "sgl_get_error", # 'error' is reserved in zig
# "sgl_deg": "sgl_as_degrees",
# "sgl_rad": "sgl_as_radians",
# "sg_context_desc.color_format": "int",
# "SGL_NO_ERROR": "SGL_ERROR_NO_ERROR",
# "sg_context_desc.depth_format": "int",
}
prim_types = {
"int": "i32",
"bool": "bool",
"char": "core::ffi::c_char",
"int8_t": "i8",
"uint8_t": "u8",
"int16_t": "i16",
"uint16_t": "u16",
"int32_t": "i32",
"uint32_t": "u32",
"int64_t": "i64",
"uint64_t": "u64",
"float": "f32",
"double": "f64",
"uintptr_t": "usize",
"intptr_t": "isize",
"size_t": "usize",
}
prim_defaults = {
"int": "0",
"bool": "false",
"int8_t": "0",
"uint8_t": "0",
"int16_t": "0",
"uint16_t": "0",
"int32_t": "0",
"uint32_t": "0",
"int64_t": "0",
"uint64_t": "0",
"float": "0.0",
"double": "0.0",
"uintptr_t": "0",
"intptr_t": "0",
"size_t": "0",
"char": "0",
}
special_constant_types = {
"SG_INVALID_ID": "u32",
"SAPP_MODIFIER_SHIFT": "u32",
"SAPP_MODIFIER_CTRL": "u32",
"SAPP_MODIFIER_ALT": "u32",
"SAPP_MODIFIER_SUPER": "u32",
"SAPP_MODIFIER_LMB": "u32",
"SAPP_MODIFIER_RMB": "u32",
"SAPP_MODIFIER_MMB": "u32",
}
struct_types = []
enum_types = []
enum_items = {}
out_lines = ""
def reset_globals():
global struct_types
global enum_types
global enum_items
global out_lines
struct_types = []
enum_types = []
enum_items = {}
out_lines = ""
def l(s):
global out_lines
out_lines += s + "\n"
def as_rust_prim_type(s):
return prim_types[s]
def as_upper_snake_case(s, prefix):
outp = s.lower()
if outp.startswith(prefix):
outp = outp[len(prefix):]
return outp.upper()
# prefix_bla_blub(_t) => (dep::)BlaBlub
def as_rust_struct_type(s, prefix):
parts = s.lower().split("_")
outp = "" if s.startswith(prefix) else f"{parts[0]}::"
for part in parts[1:]:
# ignore '_t' type postfix
if part != "t":
outp += part.capitalize()
return outp
# prefix_bla_blub(_t) => (dep::)BlaBlub
def as_rust_enum_type(s, prefix):
parts = s.lower().split("_")
outp = "" if s.startswith(prefix) else f"{parts[0]}::"
for part in parts[1:]:
# ignore '_t' type postfix
if part != "t":
outp += part.capitalize()
return outp
def check_override(name, default=None):
if name in overrides:
return overrides[name]
elif default is None:
return name
else:
return default
def check_ignore(name):
return name in ignores
# PREFIX_ENUM_BLA_BLA => BlaBla, _PREFIX_ENUM_BLA_BLA => BlaBla
def as_enum_item_name(s):
parts = s.lstrip("_").split("_")
outp = ""
for i, part in enumerate(parts[2:]):
# TODO: What to do with enum fields starting with numbers?
outp += part.capitalize()
return outp
def enum_default_item(enum_name):
return enum_items[enum_name][0]
def is_prim_type(s):
return s in prim_types
def is_struct_type(s):
return s in struct_types
def is_enum_type(s):
return s in enum_types
def is_const_prim_ptr(s):
for prim_type in prim_types:
if s == f"const {prim_type} *":
return True
return False
def is_prim_ptr(s):
for prim_type in prim_types:
if s == f"{prim_type} *":
return True
return False
def is_const_struct_ptr(s):
for struct_type in struct_types:
if s == f"const {struct_type} *":
return True
return False
def is_struct_ptr(s):
for struct_type in struct_types:
if s == f"{struct_type} *":
return True
return False
def type_default_value(s):
return prim_defaults[s]
def as_c_arg_type(arg_prefix, arg_type, prefix):
# NOTE: if arg_prefix is None, the result is used as return value
pre = "" if arg_prefix is None else arg_prefix
if arg_type == "void":
return ""
elif is_prim_type(arg_type):
return pre + as_rust_prim_type(arg_type)
elif is_struct_type(arg_type):
return pre + as_rust_struct_type(arg_type, prefix)
elif is_enum_type(arg_type):
return pre + as_rust_enum_type(arg_type, prefix)
elif util.is_void_ptr(arg_type):
return pre + "*mut core::ffi::c_void"
elif util.is_const_void_ptr(arg_type):
return pre + "*const core::ffi::c_void"
elif util.is_string_ptr(arg_type):
return pre + "*const core::ffi::c_char"
elif is_const_struct_ptr(arg_type):
return pre + f"*const {as_rust_struct_type(util.extract_ptr_type(arg_type), prefix)}"
elif is_struct_ptr(arg_type):
return pre + f"*mut {as_rust_struct_type(util.extract_ptr_type(arg_type), prefix)}"
elif is_prim_ptr(arg_type):
return pre + f"*mut {as_rust_prim_type(util.extract_ptr_type(arg_type))}"
elif is_const_prim_ptr(arg_type):
return pre + f"*const {as_rust_prim_type(util.extract_ptr_type(arg_type))}"
else:
sys.exit(f"ERROR as_c_arg_type(): {arg_type}")
def as_rust_arg_type(arg_prefix, arg_type, prefix):
# NOTE: if arg_prefix is None, the result is used as return value
pre = "" if arg_prefix is None else arg_prefix
if arg_type == "void":
return ""
elif is_prim_type(arg_type):
return pre + as_rust_prim_type(arg_type)
elif is_struct_type(arg_type):
return pre + as_rust_struct_type(arg_type, prefix)
elif is_enum_type(arg_type):
return pre + as_rust_enum_type(arg_type, prefix)
elif util.is_void_ptr(arg_type):
return pre + "*mut core::ffi::c_void"
elif util.is_const_void_ptr(arg_type):
return pre + "*const core::ffi::c_void"
elif util.is_string_ptr(arg_type):
return pre + "&str"
elif is_const_struct_ptr(arg_type):
return pre + f"&{as_rust_struct_type(util.extract_ptr_type(arg_type), prefix)}"
elif is_struct_ptr(arg_type):
return pre + f"&mut {as_rust_struct_type(util.extract_ptr_type(arg_type), prefix)}"
elif is_prim_ptr(arg_type):
return pre + f"&mut {as_rust_prim_type(util.extract_ptr_type(arg_type))}"
elif is_const_prim_ptr(arg_type):
return pre + f"&{as_rust_prim_type(util.extract_ptr_type(arg_type))}"
else:
sys.exit(f"ERROR as_rust_arg_type(): {arg_type}")
def is_rust_string(rust_type):
return rust_type == "&str" or rust_type == " -> &'static str"
# get C-style arguments of a function pointer as string
def funcptr_args_c(field_type, prefix):
tokens = field_type[field_type.index("(*)") + 4: -1].split(",")
s = ""
for token in tokens:
arg_type = token.strip()
if s != "":
s += ", "
c_arg = as_c_arg_type(None, arg_type, prefix)
if c_arg == "void":
return ""
else:
s += c_arg
return s
# get C-style result of a function pointer as string
def funcptr_result_c(field_type):
res_type = field_type[: field_type.index("(*)")].strip()
if res_type == "void":
return ""
elif is_prim_type(res_type):
return f" -> {as_rust_prim_type(res_type)}"
elif util.is_const_void_ptr(res_type):
return " -> *const core::ffi::c_void"
elif util.is_void_ptr(res_type):
return " -> *mut core::ffi::c_void"
else:
sys.exit(f"ERROR funcptr_result_c(): {field_type}")
def funcdecl_args_c(decl, prefix):
s = ""
func_name = decl["name"]
for param_decl in decl["params"]:
if s != "":
s += ", "
param_name = param_decl["name"]
param_type = check_override(
f"{func_name}.{param_name}", default=param_decl["type"]
)
s += f"{as_c_arg_type(f'{param_name}: ', param_type, prefix)}"
return s
def funcdecl_args_rust(decl, prefix):
s = ""
func_name = decl["name"]
for param_decl in decl["params"]:
if s != "":
s += ", "
param_name = param_decl["name"]
param_type = check_override(
f"{func_name}.{param_name}", default=param_decl["type"]
)
s += f"{as_rust_arg_type(f'{param_name}: ', param_type, prefix)}"
return s
def funcdecl_result_c(decl, prefix):
func_name = decl["name"]
decl_type = decl["type"]
result_type = check_override(
f"{func_name}.RESULT", default=decl_type[: decl_type.index("(")].strip()
)
it = as_c_arg_type(None, result_type, prefix)
if it == "()" or it == "":
return ""
else:
return f" -> {it}"
def funcdecl_result_rust(decl, prefix):
func_name = decl["name"]
decl_type = decl["type"]
result_type = check_override(
f"{func_name}.RESULT", default=decl_type[: decl_type.index("(")].strip()
)
rust_res_type = as_rust_arg_type(None, result_type, prefix)
if is_rust_string(rust_res_type):
rust_res_type = "&'static str"
if rust_res_type == "":
return ""
else:
return f" -> {rust_res_type }"
def gen_struct(decl, prefix):
struct_name = check_override(decl["name"])
rust_type = as_rust_struct_type(struct_name, prefix)
rust_struct_type = rust_type
struct_lines = []
default_lines = []
for field in decl["fields"]:
field_name = check_override(field["name"])
field_type = check_override(
f"{struct_name}.{field_name}", default=field["type"]
)
if is_prim_type(field_type):
struct_lines.append(
f"pub {field_name}: {as_rust_prim_type(field_type)}"
)
default_lines.append(
f"{field_name}: {type_default_value(field_type)}"
)
elif is_struct_type(field_type):
struct_lines.append(
f"pub {field_name}: {as_rust_struct_type(field_type, prefix)}"
)
default_lines.append(
f"{field_name}: {as_rust_struct_type(field_type, prefix)}::new()"
)
elif is_enum_type(field_type):
struct_lines.append(
f"pub {field_name}: {as_rust_enum_type(field_type, prefix)}"
)
default_lines.append(
f"{field_name}: {as_rust_enum_type(field_type, prefix)}::new()"
)
elif util.is_string_ptr(field_type):
struct_lines.append(
f"pub {field_name}: *const core::ffi::c_char"
)
default_lines.append(
f"{field_name}: core::ptr::null()"
)
elif util.is_const_void_ptr(field_type):
struct_lines.append(
f"pub {field_name}: *const core::ffi::c_void"
)
default_lines.append(
f"{field_name}: core::ptr::null()"
)
elif util.is_void_ptr(field_type):
struct_lines.append(
f"pub {field_name}: *mut core::ffi::c_void"
)
default_lines.append(
f"{field_name}: core::ptr::null_mut()"
)
elif is_const_prim_ptr(field_type):
struct_lines.append(
f"pub {field_name}: *const {as_rust_prim_type(util.extract_ptr_type(field_type))}"
)
default_lines.append(
f"{field_name}: core::ptr::null()"
)
elif is_prim_ptr(field_type):
struct_lines.append(
f"pub {field_name}: *mut {as_rust_prim_type(util.extract_ptr_type(field_type))}"
)
default_lines.append(
f"{field_name}: core::ptr::null_mut()"
)
elif is_const_struct_ptr(field_type):
struct_lines.append(
f"pub {field_name}: *const {as_rust_struct_type(util.extract_ptr_type(field_type), prefix)}"
)
default_lines.append(
f"{field_name}: core::ptr::null()"
)
elif is_struct_ptr(field_type):
struct_lines.append(
f"pub {field_name}: *mut {as_rust_struct_type(util.extract_ptr_type(field_type), prefix)}"
)
default_lines.append(
f"{field_name}: core::ptr::null_mut()"
)
elif util.is_func_ptr(field_type):
struct_lines.append(
f"pub {field_name}: Option<extern \"C\" fn({funcptr_args_c(field_type, prefix)}){funcptr_result_c(field_type)}>"
)
default_lines.append(
f"{field_name}: None"
)
elif util.is_1d_array_type(field_type):
array_type = util.extract_array_type(field_type)
array_sizes = util.extract_array_sizes(field_type)
if is_prim_type(array_type) or is_struct_type(array_type):
if is_prim_type(array_type):
rust_type = as_rust_prim_type(array_type)
def_val = type_default_value(array_type)
elif is_struct_type(array_type) or is_enum_type(array_type):
rust_type = as_rust_struct_type(array_type, prefix)
def_val = f"{rust_type}::new()"
else:
sys.exit(f"ERROR gen_struct is_1d_array_type: {array_type}")
t0 = f"[{rust_type}; {array_sizes[0]}]"
# t1 = f"&{rust_type}"
struct_lines.append(
f"pub {field_name}: {t0}"
)
default_lines.append(
f"{field_name}: [{def_val}; {array_sizes[0]}]"
)
elif util.is_const_void_ptr(array_type):
struct_lines.append(
f"pub {field_name}: [*const core::ffi::c_void; {array_sizes[0]}]"
)
default_lines.append(
f"{field_name}: [core::ptr::null(); {array_sizes[0]}]"
)
else:
sys.exit(
f"ERROR gen_struct: array {field_name}: {field_type} => [{array_type}: {array_sizes[0]}]"
)
elif util.is_2d_array_type(field_type):
array_type = util.extract_array_type(field_type)
array_sizes = util.extract_array_sizes(field_type)
if is_prim_type(array_type):
rust_type = as_rust_prim_type(array_type)
def_val = type_default_value(array_type)
elif is_struct_type(array_type):
rust_type = as_rust_struct_type(array_type, prefix)
def_val = f"{rust_type}::new()"
else:
sys.exit(f"ERROR gen_struct is_2d_array_type: {array_type}")
struct_lines.append(
f"pub {field_name}: [[{rust_type}; {array_sizes[1]}]; {array_sizes[0]}]"
)
default_lines.append(
f"{field_name}: [[{def_val}; {array_sizes[1]}]; {array_sizes[0]}]"
)
else:
sys.exit(f"ERROR gen_struct: {field_name}: {field_type};")
#
# TODO: Is this the best way to have zero-initialization with support for constants?
# core::mem::zeroed() cleaner?
#
l("#[repr(C)]")
l("#[derive(Copy, Clone, Debug)]")
l(f"pub struct {rust_struct_type} {{")
for line in struct_lines:
l(f" {line},")
l("}")
l(f"impl {rust_struct_type} {{")
l(" pub const fn new() -> Self {")
l(" Self {")
for line in default_lines:
l(f" {line},")
l(" }")
l(" }")
l("}")
l(f"impl Default for {rust_struct_type} {{")
l(" fn default() -> Self {")
l(" Self::new()")
l(" }")
l("}")
def gen_consts(decl, prefix):
for item in decl["items"]:
#
# TODO: What type should these constants have? Currently giving all `usize`
# unless specifically overridden by `special_constant_types`
#
item_name = check_override(item["name"])
if item_name in special_constant_types:
special_type = special_constant_types[item_name]
l(f"pub const {as_upper_snake_case(item_name, prefix)}: {special_type} = {item['value']};")
else:
l(f"pub const {as_upper_snake_case(item_name, prefix)}: usize = {item['value']};")
def gen_enum(decl, prefix):
enum_name = check_override(decl["name"])
names = [
as_enum_item_name(check_override(f"{decl['name']}::{item['name']}", item['name'])) for item in decl["items"]
]
is_u32 = False
for name in names:
if name == "ForceU32":
is_u32 = True
break
l("#[derive(Copy, Clone, Debug, PartialEq, Eq, PartialOrd, Ord, Hash)]")
if is_u32:
l("#[repr(u32)]")
else:
l("#[repr(i32)]")
rust_enum_name = as_rust_enum_type(enum_name, prefix)
l(f"pub enum {rust_enum_name} {{")
for item_name, item in zip(names, decl["items"]):
if item_name != "ForceU32":
if "value" in item:
l(f" {item_name} = {item['value']},")
else:
l(f" {item_name},")
l("}")
default_item = enum_default_item(enum_name)
l(f"impl {rust_enum_name} {{")
l(" pub const fn new() -> Self {")
l(f" Self::{default_item}")
l(" }")
l("}")
l(f"impl Default for {rust_enum_name} {{")
l(" fn default() -> Self {")
l(f" Self::{default_item}")
l(" }")
l("}")
def gen_func_c(decl, prefix):
l("pub extern \"C\" {")
l(f" fn {decl['name']}({funcdecl_args_c(decl, prefix)}){funcdecl_result_c(decl, prefix)};")
l("}")
def gen_c_funcs(funcs):
l("pub mod ffi {")
l(" #![allow(unused_imports)]")
l(" use super::*;")
l(" extern \"C\" {")
for decl, prefix in funcs:
l(f" pub fn {decl['name']}({funcdecl_args_c(decl, prefix)}){funcdecl_result_c(decl, prefix)};")
l(" }")
l("}")
def gen_rust_funcs(funcs):
for decl, prefix in funcs:
gen_func_rust(decl, prefix)
def gen_func_rust(decl, prefix):
c_func_name = decl["name"]
rust_func_name = util.as_lower_snake_case(check_override(decl["name"]), prefix)
rust_res_type = funcdecl_result_rust(decl, prefix)
if c_func_name in c_callbacks:
c_res_type = funcdecl_result_c(decl, prefix)
l("#[inline]")
l(f'pub extern "C" fn {c_func_name}({funcdecl_args_c(decl, prefix)}){c_res_type} {{')
l(" unsafe {")
s = f" ffi::{c_func_name}("
for i, param_decl in enumerate(decl["params"]):
if i > 0:
s += ", "
arg_name = param_decl["name"]
s += arg_name
s += ")"
l(s)
l(" }")
l("}")
else:
l("#[inline]")
l(f"pub fn {rust_func_name}({funcdecl_args_rust(decl, prefix)}){rust_res_type} {{")
for i, param_decl in enumerate(decl["params"]):
arg_name = param_decl["name"]
arg_type = param_decl["type"]
if util.is_string_ptr(arg_type):
l(f" let tmp_{i} = std::ffi::CString::new({arg_name}).unwrap();")
l(" unsafe {")
if is_rust_string(rust_res_type):
# special case: convert C string to rust string slice
s = f" c_char_ptr_to_rust_str(ffi::{c_func_name}("
else:
s = f" ffi::{c_func_name}("
for i, param_decl in enumerate(decl["params"]):
if i > 0:
s += ", "
arg_name = param_decl["name"]
arg_type = param_decl["type"]
if util.is_string_ptr(arg_type):
s += f"tmp_{i}.as_ptr()"
else:
s += arg_name
if is_rust_string(rust_res_type):
s += ")"
s += ")"
l(s)
l(" }")
l("}")
def pre_parse(inp):
global struct_types
global enum_types
for decl in inp["decls"]:
kind = decl["kind"]
if kind == "struct":
struct_types.append(decl["name"])
elif kind == "enum":
enum_name = decl["name"]
enum_types.append(enum_name)
enum_items[enum_name] = []
for item in decl["items"]:
enum_items[enum_name].append(as_enum_item_name(item["name"]))
def gen_imports(inp, dep_prefixes):
for dep_prefix in dep_prefixes:
dep_module_name = module_names[dep_prefix]
# l(f'const {dep_prefix[:-1]} = @import("{dep_module_name}.rs");')
l(f'use crate::{dep_module_name} as {dep_prefix[:-1]};')
l("")
def gen_helpers(inp):
l("/// Helper function to convert a C string to a rust string slice")
l("#[inline]")
l("fn c_char_ptr_to_rust_str(c_char_ptr: *const core::ffi::c_char) -> &'static str {")
l(" let c_str = unsafe { core::ffi::CStr::from_ptr(c_char_ptr) };")
l(" c_str.to_str().expect(\"c_char_ptr contained invalid Utf8 Data\")")
l("}")
l("")
if inp['prefix'] in ['sg_', 'sdtx_', 'sshape_', 'sapp_']:
l("/// Helper function to cast a rust slice into a sokol Range")
l(f"pub fn slice_as_range<T>(data: &[T]) -> {range_struct_name} {{")
l(f" {range_struct_name} {{ size: std::mem::size_of_val(data), ptr: data.as_ptr() as *const _ }}")
l("}")
l("/// Helper function to cast a rust reference into a sokol Range")
l(f"pub fn value_as_range<T>(value: &T) -> {range_struct_name} {{")
l(f" {range_struct_name} {{ size: std::mem::size_of::<T>(), ptr: value as *const T as *const _ }}")
l("}")
l("")
l(f"impl<T> From<&[T]> for {range_struct_name} {{")
l(" #[inline]")
l(" fn from(data: &[T]) -> Self {")
l(" slice_as_range(data)")
l(" }")
l("}")
l(f"impl<T> From<&T> for {range_struct_name} {{")
l(" #[inline]")
l(" fn from(value: &T) -> Self {")
l(" value_as_range(value)")
l(" }")
l("}")
l("")
# if inp["prefix"] == "sdtx_":
# l("/// std.fmt compatible Writer")
# l("pub const Writer = struct {")
# l(" pub const Error = error { };")
# l(" pub fn writeAll(self: Writer, bytes: []const u8) Error!void {")
# l(" _ = self;")
# l(" for (bytes) |byte| {")
# l(" putc(byte);")
# l(" }")
# l(" }")
# l(" pub fn writeByteNTimes(self: Writer, byte: u8, n: u64) Error!void {")
# l(" _ = self;")
# l(" var i: u64 = 0;")
# l(" while (i < n): (i += 1) {")
# l(" putc(byte);")
# l(" }")
# l(" }")
# l("};")
# l("// std.fmt-style formatted print")
# l("pub fn print(comptime fmt: anytype, args: anytype) void {")
# l(" var writer: Writer = .{};")
# l(' @import("std").fmt.format(writer, fmt, args) catch {};')
# l("}")
# l("")
def gen_module(inp, dep_prefixes):
module = inp['module']
if module in module_requires_rust_feature:
feature = module_requires_rust_feature[module]
l(f"//! To use this module, enable the feature \"{feature}\"")
l("// machine generated, do not edit")
l("")
l("#![allow(dead_code)]")
l("#![allow(unused_imports)]")
l("")
gen_imports(inp, dep_prefixes)
gen_helpers(inp)
pre_parse(inp)
prefix = inp["prefix"]
funcs = []
for decl in inp["decls"]:
#
# HACK: gen_ir.py accidentally marks all sg_imgui_ declarations as is_dep since sg_imgui
# depends on sg_a but also starts with sg_... Fix gen_ir.py to remove this hack
#
dep_hack = False
if module == "gfx_imgui":
dep_hack = "name" in decl and decl["name"].startswith("sg_imgui_")
if not decl["is_dep"] or dep_hack:
kind = decl["kind"]
if kind == "consts":
gen_consts(decl, prefix)
elif not check_ignore(decl["name"]):
if kind == "struct":
gen_struct(decl, prefix)
elif kind == "enum":
gen_enum(decl, prefix)
elif kind == "func":
funcs.append((decl, prefix))
gen_c_funcs(funcs)
gen_rust_funcs(funcs)
def prepare():
print("=== Generating Rust bindings:")
if not os.path.isdir("sokol-rust/src/sokol"):
os.makedirs("sokol-rust/src/sokol")
if not os.path.isdir("sokol-rust/src/sokol/c"):
os.makedirs("sokol-rust/src/sokol/c")
with open("sokol-rust/src/lib.rs", "w", newline="\n") as f_outp:
f_outp.write("//! Automatically generated sokol bindings for Rust\n\n")
def gen(c_header_path, c_prefix, dep_c_prefixes):
if c_prefix not in module_names:
print(f' >> warning: skipping generation for {c_prefix} prefix...')
return
module_name = module_names[c_prefix]
c_source_path = c_source_paths[c_prefix]
print(f' {c_header_path} => {module_name}')
reset_globals()
c_path_in_project = f'sokol-rust/src/sokol/c/{os.path.basename(c_header_path)}'
shutil.copyfile(c_header_path, c_path_in_project)
ir = gen_ir.gen(c_header_path, c_source_path, module_name, c_prefix, dep_c_prefixes)
gen_module(ir, dep_c_prefixes)
output_path = f"sokol-rust/src/{ir['module']}.rs"
with open(output_path, 'w', newline='\n') as f_outp:
f_outp.write(out_lines)
with open("sokol-rust/src/lib.rs", "a", newline="\n") as f_outp:
module = ir['module']
if module in module_requires_rust_feature:
feature = module_requires_rust_feature[module]
f_outp.write(f"/// Enable feature \"{feature}\" to use\n")
f_outp.write(f"#[cfg(feature=\"{feature}\")]\n")
f_outp.write(f"pub mod {module};\n")