Proton/vrclient_x64/gen_wrapper.py
Paul Gofman a50dbef090 vrclient: Revert "vrclient: HACK: Fixup digital action 'bChange' parameter on 32 bit."
By removing manual handling of IVRInput::GetDigitalActionData().

CW-Bug-Id: #19067
CW-Bug-Id: #24440
2024-11-06 11:29:12 -06:00

1696 lines
57 KiB
Python
Executable File

#!/usr/bin/env python
#NOTE: If you make modifications here, consider whether they should
#be duplicated in ../lsteamclient/gen_wrapper.py
CLANG_PATH='/usr/lib/clang/15'
from clang.cindex import Cursor, CursorKind, Index, TypeKind
import concurrent.futures
import os
import re
SDK_VERSIONS = [
"v2.2.3",
"v2.0.10",
"v1.26.7",
"v1.23.7",
"v1.16.8",
"v1.14.15",
"v1.13.10",
"v1.12.5",
"v1.11.11",
"v1.10.30",
"v1.9.16",
"v1.8.19",
"v1.7.15",
"v1.6.10",
"v1.5.17",
"v1.4.18",
"v1.3.22",
"v1.2.10",
"v1.1.3b",
"v1.0.17",
"v1.0.16",
"v1.0.15",
"v1.0.14",
"v1.0.13",
"v1.0.12",
"v1.0.11",
"v1.0.10",
"v1.0.9",
"v1.0.8",
"v1.0.7",
"v1.0.6",
"v1.0.5",
"v1.0.4",
"v1.0.3a", #non-public build used by The Lab, see Proton github PR#2075
"v1.0.3",
"v1.0.2",
"v1.0.1",
"v1.0.0",
"v0.9.20",
"v0.9.19",
"v0.9.18",
"v0.9.17",
"v0.9.16",
"v0.9.15",
"v0.9.14",
"v0.9.13",
"v0.9.12",
# "v0.9.11", problematic GetComponentState, may cause crash since we don't implement it
"v0.9.10",
"v0.9.9",
"v0.9.8",
"v0.9.7",
"v0.9.6",
# "v0.9.5", doesn't compile, fixed in 0.9.6
"v0.9.4",
"0.9.3",
"0.9.2",
"0.9.1",
"0.9.0",
]
ABIS = ['u32', 'u64', 'w32', 'w64']
SDK_SOURCES = {
"ivrclientcore.h": [
[ #classes
"IVRApplications",
"IVRChaperone",
"IVRChaperoneSetup",
"IVRCompositor",
"IVRControlPanel",
"IVRDriverManager",
"IVRExtendedDisplay",
"IVRNotifications",
"IVRInput",
"IVRIOBuffer",
"IVRMailbox",
"IVROverlay",
"IVRRenderModels",
"IVRResources",
"IVRScreenshots",
"IVRSettings",
"IVRSystem",
"IVRTrackedCamera",
"IVRHeadsetView",
"IVROverlayView",
"IVRClientCore",
]
],
}
SDK_CLASSES = {klass: source for source, value in SDK_SOURCES.items()
for klass in value[0]}
# these structs are manually confirmed to be equivalent
EXEMPT_STRUCTS = {
"HmdColor_t",
"HmdMatrix33_t",
"HmdMatrix34_t",
"HmdMatrix44_t",
"HmdQuad_t",
"HmdQuaternion_t",
"HmdQuaternionf_t",
"HmdVector2_t",
"HmdVector3_t",
"HmdVector3d_t",
"HmdVector4_t",
"IntersectionMaskCircle_t",
"IntersectionMaskRectangle_t",
"CVRSettingHelper",
}
# structs for which the size is important, either because of arrays or size parameters
SIZED_STRUCTS = {
"CameraVideoStreamFrameHeader_t",
"Compositor_BenchmarkResults",
"Compositor_CumulativeStats",
"Compositor_StageRenderSettings",
"InputAnalogActionData_t",
"InputBindingInfo_t",
"InputDigitalActionData_t",
"InputOriginInfo_t",
"InputPoseActionData_t",
"InputSkeletalActionData_t",
"InputSkeletonActionData_t",
"Texture_t",
"TrackedDevicePose_t",
"VRActiveActionSet_t",
"VRBoneTransform_t",
"VRControllerState001_t",
"VREvent_t",
"VROverlayIntersectionMaskPrimitive_t",
"VROverlayView_t",
}
STRUCTS_NEXT_IS_SIZE = [
"VREvent_t",
"VRControllerState001_t",
"InputAnalogActionData_t",
"InputDigitalActionData_t",
"InputPoseActionData_t",
"InputSkeletalActionData_t",
"CameraVideoStreamFrameHeader_t",
"Compositor_CumulativeStats",
"VRActiveActionSet_t",
"InputOriginInfo_t",
"InputBindingInfo_t",
]
STRUCTS_IS_INPUT_ARRAY = [
"VRActiveActionSet_t",
]
STRUCTS_NEXT_IS_SIZE_UNHANDLED = [
"VROverlayIntersectionMaskPrimitive_t" # not next, but next-next uint32 is the size
]
STRUCTS_SIZE_FIELD = {
"Compositor_OverlaySettings": ["size"],
"Compositor_FrameTiming": ["size", "m_nSize"],
"DriverDirectMode_FrameTiming": ["m_nSize"],
}
PATH_CONV_METHODS_UTOW = {
"IVRScreenshots_GetScreenshotPropertyFilename": {
"pchFilename": {"len": "cchFilename"},
"ret_size": True,
},
# maybe?
# "IVRRenderModels_GetRenderModelOriginalPath": {
# "pchOriginalPath": {"len": unOriginalPathLen},
# },
# "IVRResources_GetResourceFullPath": {
# "pchPathBuffer": {"len": unBufferLen},
# },
# IVRInput::GetInputSourceHandle
# IVRIOBuffer::Open
# TODO: LaunchInternalProcess, need steam cooperation
}
PATH_CONV_METHODS_WTOU = {
"IVRInput_SetActionManifestPath": {"pchActionManifestPath"},
"IVRCompositor_SetOverlayFromFile": {"pchFilePath"},
"IVROverlay_SetOverlayFromFile": {"pchFilePath"},
"IVRApplications_AddApplicationManifest": {"pchApplicationManifestFullPath"},
"IVRApplications_RemoveApplicationManifest": {"pchApplicationManifestFullPath"},
"IVRScreenshots_RequestScreenshot": {"pchVRFilename", "pchPreviewFilename"},
"IVRScreenshots_TakeStereoScreenshot": {"pchVRFilename", "pchPreviewFilename"},
"IVRScreenshots_SubmitScreenshot": {"pchSourcePreviewFilename", "pchSourceVRFilename"},
"IVRControlPanel_undoc23": {"a"},
"IVRControlPanel_undoc27": {"a"},
"IVRCompositor_SetStageOverride_Async": {"pchRenderModelPath"},
# maybe?
# "IVRResources_GetResourceFullPath": {"pchResourceTypeDirectory"},
# IVRInput::GetInputSourceHandle
# IVRIOBuffer::Open
# TODO: LaunchInternalProcess, need steam cooperation
}
all_classes = {}
all_records = {}
all_structs = {}
all_sources = {}
all_versions = {}
unique_structs = []
UNIX_FUNCS = [
'vrclient_init',
'vrclient_HmdSystemFactory',
'vrclient_VRClientCoreFactory',
'vrclient_unload',
]
MANUAL_METHODS = {
"IVRClientCore_BIsHmdPresent": lambda ver, abi: abi == 'w',
"IVRClientCore_Init": lambda ver, abi: True,
"IVRClientCore_GetGenericInterface": lambda ver, abi: abi == 'w',
"IVRClientCore_Cleanup": lambda ver, abi: abi == 'w',
"IVRSystem_GetDXGIOutputInfo": lambda ver, abi: abi == 'w',
"IVRSystem_GetOutputDevice": lambda ver, abi: abi == 'u' and ver > 16,
"IVRCompositor_Submit": lambda ver, abi: ver > 8,
"IVRCompositor_SubmitWithArrayIndex": lambda ver, abi: ver > 8,
"IVRCompositor_SetSkyboxOverride": lambda ver, abi: ver > 8,
"IVRCompositor_PostPresentHandoff": lambda ver, abi: abi == 'w',
"IVRCompositor_WaitGetPoses": lambda ver, abi: abi == 'w' and ver > 15,
"IVRCompositor_GetVulkanDeviceExtensionsRequired": lambda ver, abi: abi == 'u',
"IVRRenderModels_LoadTextureD3D11_Async": lambda ver, abi: abi == 'w',
"IVRRenderModels_FreeTextureD3D11": lambda ver, abi: abi == 'w',
"IVRRenderModels_LoadIntoTextureD3D11_Async": lambda ver, abi: abi == 'w',
"IVRRenderModels_LoadTexture": True,
"IVRRenderModels_LoadTexture_Async": True,
"IVRRenderModels_FreeTexture": True,
"IVRRenderModels_LoadRenderModel": lambda ver, abi: ver > 1,
"IVRRenderModels_LoadRenderModel_Async": True,
"IVRRenderModels_FreeRenderModel": lambda ver, abi: ver > 1,
"IVRMailbox_undoc3": lambda ver, abi: abi == 'u',
"IVROverlay_SetOverlayTexture": True,
"IVRTrackedCamera_GetVideoStreamFrame": True,
}
def is_manual_method(klass, method, abi):
version = re.search(r'(\d+)$', klass.version)
key = f'{klass.name}_{method.name}'
needs_manual = MANUAL_METHODS.get(key, False)
if callable(needs_manual) and version:
return needs_manual(int(version[0]), abi)
return needs_manual
class Padding:
def __init__(self, offset, size):
self.offset = offset
self.size = size
class Field:
def __init__(self, cursor, struct, type, offset, name=None):
self._cursor = cursor
self._type = type
self.name = cursor.spelling if not name else name
self.type = cursor.type
self.size = self.type.get_size()
self.offset = offset
def needs_conversion(self, other):
return self._type.needs_conversion(other._type)
class BasicType:
def __init__(self, type, abi):
self._type = type.get_canonical()
self._abi = abi
self._decl_order = 0
self._conv_cache = {}
self.size = self._type.get_size()
self.id = self._type.spelling
@property
def order(self):
return self._decl_order
def set_used(self, order=-1):
if self._decl_order <= order:
return
self._decl_order = order
def needs_conversion(self, other):
if self._type.kind == TypeKind.POINTER and self._type.get_pointee().kind == TypeKind.FUNCTIONPROTO:
return self._abi != other._abi
return False
class Struct:
def __init__(self, sdkver, abi, cursor):
self._cursor = cursor
self._sdkver = sdkver
self._abi = abi
self._fields = None
self._decl_order = 0
self._conv_cache = {}
self.name = canonical_typename(self._cursor)
self.name = self.name.removeprefix("vr::")
self.type = self._cursor.type.get_canonical()
self.size = self.type.get_size()
self.align = self.type.get_align()
self.id = f'{abi}_{self.name}_{sdkver}'
if self._cursor.spelling in EXEMPT_STRUCTS:
self._fields = [Padding(0, self.size)]
@property
def order(self):
return self._decl_order
def set_used(self, order=-1):
if self._decl_order <= order:
return
self._decl_order = order
[f._type.set_used(order - 1) for f in self.fields]
@property
def padded_fields(self):
if self._fields: return self._fields
size, self._fields = 0, []
for cursor in self._cursor.get_children():
if cursor.kind == CursorKind.CXX_BASE_SPECIFIER \
and len(list(cursor.type.get_fields())) > 0:
base_type = Type(cursor.type, self._sdkver, self._abi)
self._fields += base_type.padded_fields
size = cursor.type.get_size()
break
for cursor in self.type.get_fields():
assert not cursor.is_bitfield()
offset = self.type.get_offset(cursor.spelling)
assert offset % 8 == 0
offset = offset // 8
# assert offset >= size or type(self) is Union
if size < offset: self._fields.append(Padding(size, offset - size))
field_type = Type(cursor.type, self._sdkver, self._abi)
self._fields.append(Field(cursor, self, field_type, offset))
size = max(size, offset + cursor.type.get_size())
if size < self.size: self._fields.append(Padding(size, self.size - size))
return self._fields
@property
def fields(self):
return [f for f in self.padded_fields if type(f) is not Padding]
def write_definition(self, out, prefix, converters):
version = all_versions[sdkver][self.name]
kind = 'union' if type(self) is Union else 'struct'
wrapped = len(prefix) > 0
out(f'#pragma pack( push, {self.align} )\n')
out(f'{kind} {prefix}{version}\n')
out(u'{\n')
for f in self.padded_fields:
if type(f) is Field:
out(f' {declspec(f._cursor, f.name, prefix, wrapped)};\n')
else:
out(f' uint8_t __pad_{f.offset}[{f.size}];\n')
for conv in converters:
out(u'#ifdef __cplusplus\n')
out(f' operator {conv}{version}() const;\n')
out(u'#endif /* __cplusplus */\n')
out(u'};\n')
out(u'#pragma pack( pop )\n\n')
def write_checks(self, out, prefix):
version = all_versions[sdkver][self.name]
out(f'C_ASSERT( sizeof({prefix}{version}) >= {self.size} );\n')
for f in self.fields:
out(f'C_ASSERT( offsetof({prefix}{version}, {f.name}) == {f.offset} );\n')
out(f'C_ASSERT( sizeof({prefix}{version}().{f.name}) >= {f.size} );\n')
out(u'\n')
def write_converter(self, prefix):
version = all_versions[sdkver][self.name]
out(f'{self._abi}_{version}::operator {prefix}{version}() const\n')
out(u'{\n')
out(f' {prefix}{version} ret;\n')
for field in self.fields:
out(f' ret.{field.name} = this->{field.name};\n')
out(u' return ret;\n')
out(u'}\n')
def needs_conversion(self, other):
if other.id in self._conv_cache:
return self._conv_cache[other.id]
self._conv_cache[other.id] = other._conv_cache[self.id] = True
if self.name in SIZED_STRUCTS and self.size != other.size:
return True
if len(self.fields) != len(other.fields):
return True
if any([a.offset != b.offset or a.needs_conversion(b)
for a, b in zip(self.fields, other.fields)]):
return True
self._conv_cache[other.id] = other._conv_cache[self.id] = False
return False
def get_children(self):
return self._cursor.get_children()
class Union(Struct):
def __init__(self, sdkver, abi, cursor):
super().__init__(sdkver, abi, cursor)
class Method:
def __init__(self, sdkver, abi, cursor, klass, index, override):
self._sdkver = sdkver
self._abi = abi
self._cursor = cursor
self._klass = klass
self._index = index
self._override = override
self.result_type = cursor.result_type
self.spelling = cursor.spelling
@property
def name(self):
if self._override > 1: return f'{self.spelling}_{self._override}'
return self.spelling
@property
def full_name(self):
return f'{self._klass.full_name}_{self.name}'
def get_arguments(self):
return self._cursor.get_arguments()
def write_params(self, out):
returns_record = self.result_type.get_canonical().kind == TypeKind.RECORD
ret = "*_ret" if returns_record else "_ret"
ret = f'{declspec(self.result_type, ret, "w_")}'
names = [p.spelling if p.spelling != "" else f'_{chr(0x61 + i)}'
for i, p in enumerate(self.get_arguments())]
params = [declspec(p, names[i], "w_") for i, p in enumerate(self.get_arguments())]
if self.result_type.kind != TypeKind.VOID:
params = [ret] + params
names = ['_ret'] + names
params = ['void *linux_side'] + params
names = ['linux_side'] + names
out(f'struct {self.full_name}_params\n')
out(u'{\n')
for param in params:
out(f' {param};\n')
out(u'};\n\n')
def get_children(self):
return self._cursor.get_children()
class Destructor(Method):
def __init__(self, sdkver, abi, cursor, klass, index, override):
super().__init__(sdkver, abi, cursor, klass, index, override)
@property
def name(self):
if self._override > 1: return f'destructor_{self._override}'
return 'destructor'
def write_params(self, out):
pass
class Class:
def __init__(self, sdkver, abi, cursor):
self._cursor = cursor
self._sdkver = sdkver
self._abi = abi
self._methods = None
self._decl_order = 0
self.name = cursor.spelling
self.filename = SDK_CLASSES.get(self.name, None)
versions = all_versions[sdkver]
self.version = versions.get(self.name, "")
self.type = self._cursor.type.get_canonical()
self.id = f'{abi}_{self.name}_{sdkver}'
@property
def methods(self):
if self._methods:
return self._methods
overrides = {}
is_method = lambda c: c.kind == CursorKind.CXX_METHOD and c.is_virtual_method()
in_vtable = lambda c: is_method(c) or c.kind == CursorKind.DESTRUCTOR
self._methods = []
for i, method in enumerate(filter(in_vtable, self._cursor.get_children())):
index, override = overrides.get(method.spelling, (i, 1))
overrides[method.spelling] = (index, override + 1)
if method.kind == CursorKind.DESTRUCTOR:
self._methods.append(Destructor(self._sdkver, self._abi, method, self, index, override))
else:
self._methods.append(Method(self._sdkver, self._abi, method, self, index, override))
return self._methods
@property
def full_name(self):
if len(self.version) == 0:
return self.name
return f'{self.name}_{self.version}'
@property
def order(self):
return self._decl_order
def set_used(self, order=-1):
if self._decl_order <= order:
return
self._decl_order = order
def needs_conversion(self, other):
return self._abi[0] != other._abi[0]
def __eq__(self, other):
return self._abi[0] == other._abi[0]
def write_definition(self, out, prefix):
out(f'struct {prefix}{self.full_name}\n')
out(u'{\n')
out(u'#ifdef __cplusplus\n')
for method in self.methods:
types = [declspec(p, "", prefix) for p in method.get_arguments()]
if type(method) is Destructor:
out(f' virtual ~{prefix}{self.full_name}( {", ".join(types)} ) = 0;\n')
else:
method_name = f'{declspec(method.result_type, "", prefix)} {method.spelling}'
out(f' virtual {method_name}( {", ".join(types)} ) = 0;\n')
out(u'#endif /* __cplusplus */\n')
out(u'};\n\n')
def get_children(self):
return self._cursor.get_children()
def Record(sdkver, abi, cursor):
if cursor.type.get_declaration().kind == CursorKind.UNION_DECL:
return Union(sdkver, abi, cursor)
method_kinds = (CursorKind.CXX_METHOD, CursorKind.DESTRUCTOR)
is_method = lambda c: c.kind in method_kinds and c.is_virtual_method()
for _ in filter(is_method, cursor.get_children()):
return Class(sdkver, abi, cursor)
return Struct(sdkver, abi, cursor)
def Type(decl, sdkver, abi):
name = strip_ns(canonical_typename(decl))
if name not in all_structs:
return BasicType(decl, abi)
return all_structs[name][sdkver][abi]
def display_sdkver(s):
if s.startswith("v"):
s = s[1:]
return s.replace(".", "")
def strip_ns(name):
return name.replace("vr::","")
def underlying_type(decl):
if type(decl) is Cursor:
decl = decl.type
decl = decl.get_canonical()
if decl.kind == TypeKind.LVALUEREFERENCE: return underlying_type(decl.get_pointee())
if decl.kind == TypeKind.CONSTANTARRAY: return underlying_type(decl.element_type)
if decl.kind == TypeKind.POINTER: return underlying_type(decl.get_pointee())
return decl
def param_needs_conversion(decl):
decl = underlying_type(decl)
return decl.kind == TypeKind.RECORD and \
struct_needs_conversion(decl)
def callconv(cursor, prefix):
if type(cursor) is not Cursor:
return ''
canon = cursor.type.get_canonical()
if canon.kind != TypeKind.POINTER:
return ''
canon = canon.get_pointee()
if canon.kind != TypeKind.FUNCTIONPROTO:
return ''
if cursor.type.kind == TypeKind.TYPEDEF:
cursor = cursor.type.get_declaration()
tokens = cursor.get_tokens()
while next(tokens).spelling != '(': pass
token = next(tokens).spelling.strip('_')
token = token.replace('*', 'cdecl')
token = token.replace('S_CALLTYPE', 'cdecl')
return f'{prefix[0].upper()}_{token.upper()} '
def declspec_func(decl, name, prefix):
ret = declspec(decl.get_result(), "", prefix, False)
params = [declspec(a, "", prefix, False) for a in decl.argument_types()]
params = ", ".join(params) if len(params) else "void"
return f'{ret} ({name})({params})'
def declspec(decl, name, prefix, wrapped=False):
call = callconv(decl, prefix)
if type(decl) is Cursor:
decl = decl.type
decl = decl.get_canonical()
const = 'const ' if decl.is_const_qualified() else ''
if decl.kind == TypeKind.FUNCTIONPROTO:
return declspec_func(decl, name, prefix)
if decl.kind in (TypeKind.POINTER, TypeKind.LVALUEREFERENCE):
decl = decl.get_pointee()
spec = declspec(decl, f"*{call}{const}{name}", prefix, False)
if wrapped:
return f'{prefix.upper()}PTR({spec}, {name})'
return spec
if decl.kind == TypeKind.CONSTANTARRAY:
decl, count = decl.element_type, decl.element_count
if wrapped:
spec = declspec(decl, const, prefix, False)
return f'{prefix.upper()}ARRAY({spec}, {count}, {name})'
return declspec(decl, f"({const}{name})[{count}]", prefix, False)
if len(name):
name = f' {name}'
if decl.kind in (TypeKind.UNEXPOSED, TypeKind.FUNCTIONPROTO):
return f'void{name}'
if decl.kind == TypeKind.ENUM:
return f'uint{decl.get_size() * 8}_t{name}'
type_name = decl.spelling
type_name = type_name.removeprefix("const ")
type_name = type_name.removeprefix("vr::")
if type_name.startswith(('IVR', 'ID3D')):
return f'{const}void /*{type_name}*/{name}'
if decl.kind == TypeKind.RECORD \
and type_name in all_versions[sdkver] \
and type_name not in EXEMPT_STRUCTS:
if type_name in unique_structs:
return f'{const}{all_versions[sdkver][type_name]}{name}'
return f'{const}{prefix}{all_versions[sdkver][type_name]}{name}'
real_name = canonical_typename(decl)
real_name = real_name.removeprefix("const ")
real_name = real_name.removeprefix("vr::")
if type_name in ('void', 'char', 'float', 'double'):
return f'{const}{type_name}{name}'
if type_name.startswith(('bool', 'int', 'long', 'short', 'signed')):
return f'{const}int{decl.get_size() * 8}_t{name}'
if type_name.startswith(('uint', 'unsigned')):
return f'{const}uint{decl.get_size() * 8}_t{name}'
return f'{const}{type_name}{name}'
def handle_method_cpp(method, classname, out):
returns_void = method.result_type.kind == TypeKind.VOID
returns_record = method.result_type.get_canonical().kind == TypeKind.RECORD
names = [p.spelling if p.spelling != "" else f'_{chr(0x61 + i)}'
for i, p in enumerate(method.get_arguments())]
need_convert = {n: p for n, p in zip(names, method.get_arguments())
if param_needs_conversion(p)}
names = ['linux_side'] + names
out(f'NTSTATUS {method.full_name}( void *args )\n')
out(u'{\n')
out(f' struct {method.full_name}_params *params = (struct {method.full_name}_params *)args;\n')
out(f' struct u_{klass.full_name} *iface = (struct u_{klass.full_name} *)params->linux_side;\n')
params = list(zip(names[1:], method.get_arguments()))
for i, (name, param) in enumerate(params[:-1]):
if underlying_type(param).kind != TypeKind.RECORD:
continue
next_name, next_param = params[i + 1]
if not any(w in next_name.lower() for w in ('count', 'len', 'size', 'num')):
continue
assert strip_ns(underlying_typename(param)) in SIZED_STRUCTS | EXEMPT_STRUCTS
for i, (name, param) in enumerate(params[1:]):
if underlying_type(param).kind != TypeKind.RECORD:
continue
prev_name, prev_param = params[i - 1]
if not any(w in prev_name.lower() for w in ('count', 'len', 'size', 'num')):
continue
if strip_ns(underlying_typename(param)) not in SIZED_STRUCTS | EXEMPT_STRUCTS:
print('Warning:', strip_ns(underlying_typename(param)), name, 'following', prev_name)
path_conv_wtou = PATH_CONV_METHODS_WTOU.get(f'{klass.name}_{method.spelling}', {})
for name in filter(lambda x: x in names, sorted(path_conv_wtou)):
out(f' char *u_{name} = vrclient_dos_to_unix_path( params->{name} );\n')
need_output = {}
for name, param in sorted(need_convert.items()):
if param.type.kind != TypeKind.POINTER:
out(f' {declspec(param, f"u_{name}", "u_")} = params->{name};\n')
continue
pointee = param.type.get_pointee()
if pointee.kind == TypeKind.POINTER:
need_output[name] = param
out(f' {declspec(pointee, f"u_{name}", "u_")};\n')
continue
if not pointee.is_const_qualified():
need_output[name] = param
out(f' {declspec(pointee, f"u_{name}", "u_").removeprefix("const ")};\n')
out(f' if (params->{name}) u_{name} = *params->{name};\n')
size_fixup = {}
size_param = {}
size_fixup = {}
params = list(zip(names[1:], method.get_arguments()))
params += [(None, None)] # for next_name, next_param
for i, (name, param) in enumerate(params[:-1]):
real_type = underlying_type(param)
if strip_ns(real_type.spelling) not in STRUCTS_NEXT_IS_SIZE:
continue
next_name, next_param = params[i + 1]
if not next_param or next_param.type.spelling != "uint32_t":
size_param[name] = ', -1'
elif name in need_convert:
assert name not in STRUCTS_NEXT_IS_SIZE_UNHANDLED
out(f' uint32_t u_{next_name} = params->{next_name} ? sizeof(u_{name}) : 0;\n')
size_param[name] = f', params->{next_name}'
size_fixup[next_name] = True
if returns_void:
out(u' ')
elif returns_record:
out(u' *params->_ret = ')
else:
out(u' params->_ret = ')
def param_call(name, param):
pfx = '&' if param.type.kind == TypeKind.POINTER else ''
if name in size_fixup: return f"u_{name}"
if name in path_conv_wtou: return f"u_{name}"
if name in need_convert: return f"params->{name} ? {pfx}u_{name} : nullptr"
return f'params->{name}'
params = [param_call(n, p) for n, p in zip(names[1:], method.get_arguments())]
out(f'iface->{method.spelling}( {", ".join(params)} );\n')
for name, param in sorted(need_output.items()):
out(f' if (params->{name}) *params->{name} = u_{name};\n')
path_conv_utow = PATH_CONV_METHODS_UTOW.get(f'{klass.name}_{method.spelling}', {})
for name, conv in filter(lambda x: x[0] in names, path_conv_utow.items()):
out(u' ')
if "ret_size" in path_conv_utow:
out(u'params->_ret = ')
out(f'vrclient_unix_path_to_dos_path( params->_ret, params->{name}, params->{name}, params->{conv["len"]} );\n')
for name in filter(lambda x: x in names, sorted(path_conv_wtou)):
out(f' vrclient_free_path( u_{name} );\n')
out(u' return 0;\n')
out(u'}\n\n')
def handle_thiscall_wrapper(klass, method, out):
returns_record = method.result_type.get_canonical().kind == TypeKind.RECORD
def param_stack_size(param):
if param.type.kind == TypeKind.LVALUEREFERENCE: return 4
return ((param.type.get_size() + 3) // 4) * 4
size = 4 + sum(param_stack_size(p) for p in method.get_arguments())
if returns_record: size += 4
name = f'win{klass.full_name}_{method.name}'
out(f'DEFINE_THISCALL_WRAPPER({name}, {size})\n')
def handle_method_c(klass, method, winclassname, out):
returns_void = method.result_type.kind == TypeKind.VOID
returns_record = method.result_type.get_canonical().kind == TypeKind.RECORD
ret = "*" if returns_record else ""
ret = f'{declspec(method.result_type, ret, "w_")} '
names = [p.spelling if p.spelling != "" else f'_{chr(0x61 + i)}'
for i, p in enumerate(method.get_arguments())]
params = [declspec(p, names[i], "w_") for i, p in enumerate(method.get_arguments())]
need_convert = {n: p for n, p in zip(names, method.get_arguments())
if param_needs_conversion(p)}
if returns_record:
params = [f'{declspec(method.result_type, "*_ret", "w_")}'] + params
names = ['_ret'] + names
params = ['struct w_steam_iface *_this'] + params
names = ['_this'] + names
if is_manual_method(klass, method, 'w'):
out(f'extern {ret}__thiscall {winclassname}_{method.name}({", ".join(params)});\n\n')
return
out(f'{ret}__thiscall {winclassname}_{method.name}({", ".join(params)})\n')
out(u'{\n')
names = names[2:] if returns_record else names[1:]
params = list(zip(names, method.get_arguments()))
params += [(None, None)]
param_sizes = {}
for i, (name, param) in enumerate(params[:-1]):
if name not in need_convert:
continue
real_type = underlying_type(param)
if strip_ns(real_type.spelling) not in STRUCTS_NEXT_IS_SIZE:
continue
assert name not in STRUCTS_IS_INPUT_ARRAY
assert name not in STRUCTS_NEXT_IS_SIZE_UNHANDLED
next_name, next_param = params[i + 1]
if next_param and next_param.type.spelling == "uint32_t":
out(f' {declspec(param.type.get_pointee(), f"w_{name}", "w_")};\n')
param_sizes[name] = next_name
out(f' struct {method.full_name}_params params =\n')
out(u' {\n')
out(u' .linux_side = _this->u_iface,\n')
if returns_record:
out(u' ._ret = _ret,\n')
for name, param in params[:-1]:
if name in param_sizes:
out(f' .{name} = {name} ? &w_{name} : NULL,\n')
else:
out(f' .{name} = {name},\n')
out(u' };\n')
out(u' TRACE("%p\\n", _this);\n')
if 'eTextureType' in names:
out(u' if (eTextureType == TextureType_DirectX) FIXME( "Not implemented Direct3D API!\\n" );\n')
for name, size in param_sizes.items():
out(f' {size} = min( {size}, sizeof(w_{name}) );\n')
out(f' if ({name}) memcpy( &w_{name}, {name}, {size} );\n')
out(f' VRCLIENT_CALL( {method.full_name}, &params );\n')
for name, size in param_sizes.items():
out(f' if ({name}) memcpy( {name}, &w_{name}, {size} );\n')
if not returns_void:
out(u' return params._ret;\n')
out(u'}\n\n')
max_c_api_param_count = 0
def get_capi_thunk_params(method):
def toBOOL(x):
return "TRUE" if x else "FALSE"
returns_record = method.result_type.get_canonical().kind == TypeKind.RECORD
param_types = [x.type for x in method.get_arguments()]
if returns_record:
param_types.insert(0, method.result_type)
param_count = len(param_types)
has_float_params = any(x.spelling == "float" for x in param_types)
is_4th_float = param_count >= 4 and param_types[3].spelling == "float"
return "%s, %s, %s" % (param_count, toBOOL(has_float_params), toBOOL(is_4th_float))
def handle_class(klass):
cppname = f"cpp{klass.full_name}"
with open(f"{cppname}.cpp", "w") as file:
out = file.write
out(u'/* This file is auto-generated, do not edit. */\n')
out(u'#include "unix_private.h"\n\n')
out(u'#if 0\n')
out(u'#pragma makedep unix\n')
out(u'#endif\n\n')
for method in klass.methods:
if type(method) is Destructor:
continue
if is_manual_method(klass, method, "u"):
continue
handle_method_cpp(method, klass.name, out)
winclassname = f'win{klass.full_name}'
with open(f'win{klass.name}.c', 'a') as file:
out = file.write
for method in klass.methods:
handle_thiscall_wrapper(klass, method, out)
out('\n')
for method in klass.methods:
if type(method) is Destructor:
continue
handle_method_c(klass, method, winclassname, out)
out(f'extern vtable_ptr {winclassname}_vtable;\n')
out(u'\n')
out(f'DEFINE_RTTI_DATA0({winclassname}, 0, \".?AV{klass.name}@@\")\n')
out(u'\n')
out(f'__ASM_BLOCK_BEGIN({winclassname}_vtables)\n')
out(f' __ASM_VTABLE({winclassname},\n')
for method in sorted(klass.methods, key=lambda x: (x._index, -x._override)):
out(f' VTABLE_ADD_FUNC({winclassname}_{method.name})\n')
out(u' );\n')
out(u'__ASM_BLOCK_END\n')
out(u'\n')
out(f'struct w_steam_iface *create_{winclassname}(void *u_iface)\n')
out(u'{\n')
out(u' struct w_steam_iface *r = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, sizeof(*r));\n')
out(u' TRACE("-> %p\\n", r);\n')
out(f' r->vtable = &{winclassname}_vtable;\n')
out(u' r->u_iface = u_iface;\n')
out(u' return r;\n')
out(u'}\n\n')
out(f'void destroy_{winclassname}(struct w_steam_iface *object)\n')
out(u'{\n')
out(u' TRACE("%p\\n", object);\n')
out(u' HeapFree(GetProcessHeap(), 0, object);\n')
out(u'}\n\n')
# flat (FnTable) API
out(f'struct w_steam_iface *create_{winclassname}_FnTable(void *u_iface)\n')
out(u'{\n')
out(u' struct w_steam_iface *r = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, sizeof(*r));\n')
out(f' struct thunk *thunks = alloc_thunks({len(klass.methods)});\n')
out(f' struct thunk **vtable = HeapAlloc(GetProcessHeap(), 0, {len(klass.methods)} * sizeof(*vtable));\n')
out(u' int i;\n\n')
out(u' TRACE("-> %p, vtable %p, thunks %p\\n", r, vtable, thunks);\n')
for i, method in enumerate(klass.methods):
thunk_params = get_capi_thunk_params(method)
arguments = list(method.get_arguments())
global max_c_api_param_count
max_c_api_param_count = max(len(arguments), max_c_api_param_count)
out(f' init_thunk(&thunks[{i}], r, {winclassname}_{method.name}, {thunk_params});\n')
out(f' for (i = 0; i < {len(klass.methods)}; i++)\n')
out(u' vtable[i] = &thunks[i];\n')
out(u' r->u_iface = u_iface;\n')
out(u' r->vtable = (void *)vtable;\n')
out(u' return r;\n')
out(u'}\n\n')
out(f'void destroy_{winclassname}_FnTable(struct w_steam_iface *object)\n')
out(u'{\n')
out(u' TRACE("%p\\n", object);\n')
out(u' VirtualFree(object->vtable[0], 0, MEM_RELEASE);\n')
out(u' HeapFree(GetProcessHeap(), 0, object->vtable);\n')
out(u' HeapFree(GetProcessHeap(), 0, object);\n')
out(u'}\n\n')
def canonical_typename(cursor):
if type(cursor) in (Cursor, Struct):
return canonical_typename(cursor.type)
name = cursor.get_canonical().spelling
return name.removeprefix("const ")
def underlying_typename(decl):
return canonical_typename(underlying_type(decl))
def find_struct_abis(name):
name = strip_ns(name)
if not name in all_structs:
return None
structs = all_structs[name]
if not sdkver in structs:
return None
return structs[sdkver]
def struct_needs_conversion(struct):
name = canonical_typename(struct)
abis = find_struct_abis(name)
if abis is None:
return False
if abis['w32'].needs_conversion(abis['u32']):
return True
if abis['w64'].needs_conversion(abis['u64']):
return True
assert abis['u32'].size <= abis['w32'].size
if abis['u32'].size < abis['w32'].size:
return False
assert abis['u64'].size <= abis['w64'].size
if abis['u64'].size < abis['w64'].size:
return False
return False
def get_field_attribute_str(field):
ftype = field.type.get_canonical()
if ftype.kind != TypeKind.RECORD:
return ""
name = canonical_typename(ftype)
abis = find_struct_abis(name)
if not abis:
return " __attribute__((aligned(8)))"
return f" __attribute__((aligned({abis['w32'].align})))"
def generate_x64_call_flat_method(cfile, param_count, has_floats, is_4th_float):
assert param_count >= 4
if is_4th_float:
assert has_floats
def l(line):
cfile.write(line + '\n')
stack_space = 0x20 # shadow register space
stack_space += 0x8 * (param_count - 3)
stack_space |= 0x8
src_offset = 0x20 + 0x8 + stack_space # shadow register space + ret
dst_offset = 0x20
name = "call_flat_method%s%s%s" % (param_count, "_f" if has_floats else "", "_f" if is_4th_float else "")
l(r"__ASM_GLOBAL_FUNC(%s," % name)
l(r' "subq $0x%x, %%rsp\n\t"' % stack_space);
l(r' __ASM_CFI(".cfi_adjust_cfa_offset %d\n\t")' % stack_space)
if is_4th_float:
l(r' "movq %%xmm3, 0x%x(%%rsp)\n\t"' % dst_offset)
else:
l(r' "movq %%r9, 0x%x(%%rsp)\n\t"' % dst_offset)
dst_offset += 8
for i in range(5, param_count + 1):
l(r' "movq 0x%x(%%rsp), %%rax\n\t" // copy parameter' % src_offset)
l(r' "movq %%rax, 0x%x(%%rsp)\n\t"' % dst_offset)
src_offset += 8
dst_offset += 8
l(r' "movq %r8, %r9\n\t" // shift over arguments')
l(r' "movq %rdx, %r8\n\t"')
l(r' "movq %rcx, %rdx\n\t"')
l(r' "movq %r10, %rcx\n\t" // add This pointer')
if has_floats:
l(r' "movaps %xmm2, %xmm3\n\t"')
l(r' "movaps %xmm1, %xmm2\n\t"')
l(r' "movaps %xmm0, %xmm1\n\t"')
l(r' "call *%r11\n\t"')
l(r' "addq $0x%x, %%rsp\n\t"' % stack_space);
l(r' __ASM_CFI(".cfi_adjust_cfa_offset -%d\n\t")' % stack_space)
l(r' "ret");')
l(r'extern void %s(void);' % name);
def generate_flatapi_c():
with open("flatapi.c", "w") as f:
f.write(r"""/* This file is auto-generated, do not edit. */
#include <stdarg.h>
#include "windef.h"
#include "winbase.h"
#include "cxx.h"
#include "flatapi.h"
#ifdef __i386__
__ASM_GLOBAL_FUNC(call_flat_method,
"popl %eax\n\t"
"pushl %ecx\n\t"
"pushl %eax\n\t"
"jmp *%edx");
#else
// handles "this" and up to 3 parameters
__ASM_GLOBAL_FUNC(call_flat_method,
"movq %r8, %r9\n\t" // shift over arguments
"movq %rdx, %r8\n\t"
"movq %rcx, %rdx\n\t"
"movq %r10, %rcx\n\t" // add This pointer
"jmp *%r11");
extern void call_flat_method(void);
__ASM_GLOBAL_FUNC(call_flat_method_f,
"movq %r8, %r9\n\t" // shift over arguments
"movq %rdx, %r8\n\t"
"movq %rcx, %rdx\n\t"
"movq %r10, %rcx\n\t" // add This pointer
"movaps %xmm2, %xmm3\n\t"
"movaps %xmm1, %xmm2\n\t"
"movaps %xmm0, %xmm1\n\t"
"jmp *%r11");
extern void call_flat_method_f(void);
""")
for i in range(4, max_c_api_param_count + 1):
f.write("\n")
generate_x64_call_flat_method(f, i, False, False)
for i in range(4, max_c_api_param_count + 1):
f.write("\n")
generate_x64_call_flat_method(f, i, True, False)
f.write("\n")
generate_x64_call_flat_method(f, i, True, True)
f.write('\npfn_call_flat_method\n')
f.write('get_call_flat_method_pfn( int param_count, BOOL has_floats, BOOL is_4th_float )\n{\n')
f.write(' if (!has_floats)\n')
f.write(' {\n')
f.write(' if (param_count <= 3) return call_flat_method;\n')
for i in range(4, max_c_api_param_count):
f.write(' if (param_count == %s) return call_flat_method%s;\n' % (i, i))
f.write(' return call_flat_method%s;\n' % max_c_api_param_count)
f.write(' }\n')
f.write(' if (is_4th_float)\n')
f.write(' {\n')
f.write(' if (param_count <= 3) return call_flat_method_f;\n')
for i in range(4, max_c_api_param_count):
f.write(' if (param_count == %s) return call_flat_method%s_f_f;\n' % (i, i))
f.write(' return call_flat_method%s_f_f;\n' % max_c_api_param_count)
f.write(' }\n')
f.write(' if (param_count <= 3) return call_flat_method_f;\n')
for i in range(4, max_c_api_param_count):
f.write(' if (param_count == %s) return call_flat_method%s_f;\n' % (i, i))
f.write(' return call_flat_method%s_f;\n' % max_c_api_param_count)
f.write('}\n')
f.write("#endif\n")
def enumerate_structs(cursor, vr_only=False):
for child in cursor.get_children():
if child.kind == CursorKind.NAMESPACE \
and child.displayname == "vr":
yield from child.get_children()
elif not vr_only:
yield child
def parse(sources, sdkver, abi):
args = [f'-m{abi[1:]}', '-I' + CLANG_PATH + '/include/']
if abi[0] == 'w':
args += ["-D_WIN32", "-U__linux__"]
args += ["-fms-extensions", "-mms-bitfields"]
args += ["-Wno-ignored-attributes", "-Wno-incompatible-ms-struct"]
if abi[0] == 'u':
args += ["-DGNUC"]
index = Index.create()
build = index.parse("source.cpp", args=args, unsaved_files=sources.items())
diagnostics = list(build.diagnostics)
for diag in diagnostics: print(diag)
assert len(diagnostics) == 0
return sdkver, abi, build
def load(sdkver):
prog = re.compile("^.*const\s*char.* \*?(\w*)_Version.*\"(.*)\"")
sdkdir = f'openvr_{sdkver}'
sources = {}
versions = {}
has_vrclientcore = False
for file in os.listdir(sdkdir):
x = open(f"{sdkdir}/{file}", "r")
if file == "ivrclientcore.h":
has_vrclientcore = True
for l in x:
if "_Version" in l:
result = prog.match(l)
if result:
iface, version = result.group(1, 2)
versions[iface] = version
if not has_vrclientcore:
source = [f'#include "{sdkdir}/openvr.h"']
else:
source = [f'#include "{sdkdir}/{file}"'
for file in SDK_SOURCES.keys()]
sources["source.cpp"] = "\n".join(source)
return versions, sources
def classify_struct(name):
if name in EXEMPT_STRUCTS:
return None
structs = all_structs[name]
prev = []
versions = {}
unique = True
for sdkver in filter(lambda v: v in structs, reversed(SDK_VERSIONS)):
abis = [structs[sdkver][a] for a in ABIS]
if any(abis[0].needs_conversion(a) for a in abis[1:]):
unique = False
def is_always_compatible(other):
for a, b in zip(abis, other):
if a.needs_conversion(b):
return False
return True
compat = next((k for k, v in prev if is_always_compatible(v)), None)
if compat:
versions[sdkver] = versions[compat]
else:
[abi.set_used() for abi in abis] # make sure order is computed
versions[sdkver] = f"{name}_{display_sdkver(sdkver)}"
prev += [(sdkver, abis)]
if unique:
unique_structs.append(name)
if len(set(versions.values())) == 1:
versions = {sdkver: name for sdkver in versions.keys()}
return versions
for i, sdkver in enumerate(SDK_VERSIONS):
print(f'loading SDKs... {i * 100 // len(SDK_VERSIONS)}%', end='\r')
all_versions[sdkver], all_sources[sdkver] = load(sdkver)
print(u'loading SDKs... 100%')
tmp_classes = {}
with concurrent.futures.ThreadPoolExecutor() as executor:
arg0 = [sdkver for sdkver in SDK_VERSIONS for abi in ABIS]
arg1 = [abi for sdkver in SDK_VERSIONS for abi in ABIS]
def parse_map(sdkver, abi):
return parse(all_sources[sdkver], sdkver, abi)
results = executor.map(parse_map, arg0, arg1)
for i, result in enumerate(results):
print(f'parsing SDKs... {i * 100 // len(arg0)}%', end='\r')
sdkver, abi, build = result
if sdkver not in all_records: all_records[sdkver] = {}
if sdkver not in tmp_classes: tmp_classes[sdkver] = {}
versions = all_versions[sdkver]
structs = enumerate_structs(build.cursor, vr_only=True)
structs = filter(lambda c: c.is_definition(), structs)
structs = filter(lambda c: c.type.get_canonical().kind == TypeKind.RECORD, structs)
structs = filter(lambda c: c.kind != CursorKind.TYPEDEF_DECL, structs)
structs = filter(lambda c: c.spelling not in SDK_CLASSES, structs)
structs = [Record(sdkver, abi, c) for c in structs]
structs = {c.name: c for c in structs}
classes = enumerate_structs(build.cursor, vr_only=True)
classes = filter(lambda c: c.is_definition(), classes)
classes = filter(lambda c: c.kind == CursorKind.CLASS_DECL, classes)
classes = filter(lambda c: c.spelling in SDK_CLASSES, classes)
classes = filter(lambda c: c.spelling in versions, classes)
classes = [Class(sdkver, abi, c) for c in classes]
classes = {c.version: c for c in classes}
all_records[sdkver][abi] = structs
tmp_classes[sdkver][abi] = classes
for name, struct in structs.items():
if name not in all_structs:
all_structs[name] = {}
if sdkver not in all_structs[name]:
all_structs[name][sdkver] = {}
all_structs[name][sdkver][abi] = struct
for i, sdkver in enumerate(reversed(SDK_VERSIONS)):
all_classes.update(tmp_classes[sdkver]['u32'])
print('parsing SDKs... 100%')
tmp_structs = {}
for i, name in enumerate(all_structs.keys()):
print(f'classifying structs... {i * 100 // len(all_structs.keys())}%', end='\r')
versions = classify_struct(name)
for sdkver in SDK_VERSIONS:
if not versions or sdkver not in versions: continue
all_versions[sdkver][name] = versions[sdkver]
def struct_order(x):
name, structs = x if type(x) is tuple else (x, all_structs[x])
order = (struct.order for abis in structs.values()
for struct in abis.values())
return (min(order), name)
for name, structs in sorted(all_structs.items(), key=struct_order):
tmp_structs[name] = {}
for sdkver in filter(lambda v: v in structs, SDK_VERSIONS):
tmp_structs[name][sdkver] = {a: structs[sdkver][a] for a in ABIS}
all_structs = tmp_structs
print('classifying structs... 100%')
for klass in all_classes.values():
with open(f"win{klass.name}.c", "w") as file:
out = file.write
out(u'/* This file is auto-generated, do not edit. */\n')
out(u'#include <stdarg.h>\n')
out(u'#include <stdint.h>\n')
out(u'\n')
out(u'#include "vrclient_private.h"\n')
out(u'\n')
out(u'#include "flatapi.h"\n')
out(u'\n')
out(u'WINE_DEFAULT_DEBUG_CHANNEL(vrclient);\n')
out(u'\n')
for _, klass in sorted(all_classes.items()):
sdkver = klass._sdkver
handle_class(klass)
generate_flatapi_c()
for name in sorted(set(k.name for k in all_classes.values())):
with open(f"win{name}.c", "a") as file:
out = file.write
out(f'void init_win{name}_rtti( char *base )\n')
out(u'{\n')
out(u'#ifdef __x86_64__\n')
for _, klass in sorted(all_classes.items()):
with open(f"win{klass.name}.c", "a") as file:
out = file.write
out(f' init_win{klass.full_name}_rtti( base );\n')
for name in sorted(set(k.name for k in all_classes.values())):
with open(f"win{name}.c", "a") as file:
out = file.write
out(u'#endif /* __x86_64__ */\n')
out(u'}\n')
with open("vrclient_generated.h", "w") as file:
out = file.write
out(u'/* This file is auto-generated, do not edit. */\n\n')
for _, klass in sorted(all_classes.items()):
out(f"extern struct w_steam_iface *create_win{klass.full_name}(void *);\n")
out(f"extern struct w_steam_iface *create_win{klass.full_name}_FnTable(void *);\n")
out(f"extern void destroy_win{klass.full_name}(struct w_steam_iface *);\n")
out(f"extern void destroy_win{klass.full_name}_FnTable(struct w_steam_iface *);\n")
with open("vrclient_generated.c", "w") as file:
out = file.write
out(u'/* This file is auto-generated, do not edit. */\n\n')
out(u'#include "vrclient_private.h"\n\n')
out(u'static const struct { const char *iface_version; iface_constructor ctor; } constructors[] =\n')
out(u'{\n')
for _, klass in sorted(all_classes.items()):
out(f' {{"{klass.version}", create_win{klass.full_name}}},\n')
out(f' {{"FnTable:{klass.version}", create_win{klass.full_name}_FnTable}},\n')
out(u'};\n')
out(u'\n')
out(u'iface_constructor find_iface_constructor( const char *iface_version )\n')
out(u'{\n')
out(u' int i;\n')
out(u' for (i = 0; i < ARRAYSIZE(constructors); ++i)\n')
out(u' if (!strcmp( iface_version, constructors[i].iface_version ))\n')
out(u' return constructors[i].ctor;\n')
out(u' return NULL;\n')
out(u'}\n')
out(u'\n')
out(u'static const struct { const char *iface_version; iface_destructor dtor; } destructors[] =\n')
out(u'{\n')
for _, klass in sorted(all_classes.items()):
out(f' {{"{klass.version}", destroy_win{klass.full_name}}},\n')
out(f' {{"FnTable:{klass.version}", destroy_win{klass.full_name}_FnTable}},\n')
out(u'};\n')
out(u'\n')
out(u'iface_destructor find_iface_destructor( const char *iface_version )\n')
out(u'{\n')
out(u' int i;\n')
out(u' for (i = 0; i < ARRAYSIZE(destructors); ++i)\n')
out(u' if (!strcmp( iface_version, destructors[i].iface_version ))\n')
out(u' return destructors[i].dtor;\n')
out(u' return NULL;\n')
out(u'}\n\n')
for name in sorted(set(k.name for k in all_classes.values())):
out(f'extern void init_win{name}_rtti( char * );\n')
out(u'\n')
out(u'void init_rtti( char *base )\n')
out(u'{\n')
for name in sorted(set(k.name for k in all_classes.values())):
out(f' init_win{name}_rtti( base );\n')
out(u'}\n')
for name, klasses in all_classes.items():
if name not in SDK_CLASSES: continue
for sdkver, klass in klasses.items():
version = all_versions[sdkver][name[1:].upper()]
handle_class(sdkver, klass, version, SDK_CLASSES[name])
declared = {}
with open('vrclient_structs_generated.h', 'w') as file:
out = file.write
for name in sorted(unique_structs, key=struct_order):
if name in EXEMPT_STRUCTS: continue
for sdkver, abis in all_structs[name].items():
if name not in all_versions[sdkver]: continue
version = all_versions[sdkver][name]
if f'struct {version}' in declared: continue
declared[f'struct {version}'] = True
kind = 'union' if type(abis['w64']) is Union else 'struct'
out(f'typedef {kind} {version} {version};\n')
abis['w64'].write_definition(out, "", [])
for name, structs in all_structs.items():
if name in EXEMPT_STRUCTS: continue
if name in unique_structs: continue
for sdkver, abis in structs.items():
if name not in all_versions[sdkver]: continue
version = all_versions[sdkver][name]
if f'typedef {version}' in declared: continue
declared[f'typedef {version}'] = True
kind = 'union' if type(abis['w64']) is Union else 'struct'
if type(abis['w64']) is Class:
out(f'typedef {kind} u_{version} u_{version};\n')
out(f'typedef {kind} u_{version} u64_{version};\n')
out(f'typedef {kind} u_{version} u32_{version};\n')
out(f'typedef {kind} w_{version} w_{version};\n')
out(f'typedef {kind} w_{version} w64_{version};\n')
out(f'typedef {kind} w_{version} w32_{version};\n')
continue
if abis["w64"].needs_conversion(abis["u64"]):
out(f'typedef {kind} u64_{version} u64_{version};\n')
else:
out(f'typedef {kind} w64_{version} u64_{version};\n')
out(f'typedef {kind} w64_{version} w64_{version};\n')
if abis["w32"].needs_conversion(abis["u32"]):
out(f'typedef {kind} u32_{version} u32_{version};\n')
else:
out(f'typedef {kind} w32_{version} u32_{version};\n')
out(f'typedef {kind} w32_{version} w32_{version};\n')
for name, structs in all_structs.items():
if name in EXEMPT_STRUCTS: continue
if name in unique_structs: continue
for sdkver, abis in structs.items():
if name not in all_versions[sdkver]: continue
version = all_versions[sdkver][name]
if f'struct {version}' in declared: continue
declared[f'struct {version}'] = True
kind = 'union' if type(abis['w64']) is Union else 'struct'
if type(abis['w64']) is Class:
abis['w64'].write_definition(out, "w_")
abis['u64'].write_definition(out, "u_")
continue
if not abis["w64"].needs_conversion(abis["u64"]):
abis['w64'].write_definition(out, "w64_", [])
else:
abis['w64'].write_definition(out, "w64_", ["u64_"])
abis['u64'].write_definition(out, "u64_", ["w64_"])
if not abis["w32"].needs_conversion(abis["u32"]):
abis['w32'].write_definition(out, "w32_", [])
else:
abis['w32'].write_definition(out, "w32_", ["u32_"])
abis['u32'].write_definition(out, "u32_", ["w32_"])
out(u'#ifdef __i386__\n')
out(f'typedef w32_{version} w_{version};\n')
out(f'typedef u32_{version} u_{version};\n')
out(u'#endif\n')
out(u'#ifdef __x86_64__\n')
out(f'typedef w64_{version} w_{version};\n')
out(f'typedef u64_{version} u_{version};\n')
out(u'#endif\n')
out(u'\n')
all_methods = [(k, m) for _, k in sorted(all_classes.items())
for m in k.methods]
with open("unix_private_generated.h", "w") as file:
out = file.write
out(u'/* This file is auto-generated, do not edit. */\n\n')
out(u'#ifdef __cplusplus\n')
out(u'extern "C" {\n')
out(u'#endif /* __cplusplus */\n')
out(u'\n')
for klass in all_classes.values():
sdkver = klass._sdkver
klass.write_definition(out, "u_")
out(u'\n')
for klass, method in all_methods:
sdkver = klass._sdkver
if type(method) is Destructor:
continue
out(f'NTSTATUS {method.full_name}( void * );\n')
out(u'\n')
out(u'#ifdef __cplusplus\n')
out(u'} /* extern "C" */\n')
out(u'#endif /* __cplusplus */\n')
with open(u"unixlib_generated.h", "w") as file:
out = file.write
out(u'/* This file is auto-generated, do not edit. */\n')
out(u'#include <stdarg.h>\n')
out(u'#include <stddef.h>\n')
out(u'#include <stdint.h>\n')
out(u'\n')
out(u'#ifdef __cplusplus\n')
out(u'extern "C" {\n')
out(u'#endif /* __cplusplus */\n')
out(u'\n')
out(u'#include <pshpack1.h>\n\n')
for klass, method in all_methods:
sdkver = klass._sdkver
method.write_params(out)
out(u'#include <poppack.h>\n\n')
out(u'enum unix_funcs\n')
out(u'{\n')
for func in UNIX_FUNCS:
out(f' unix_{func},\n')
for klass, method in all_methods:
sdkver = klass._sdkver
if type(method) is Destructor:
continue
out(f' unix_{method.full_name},\n')
out(u'};\n')
out(u'\n')
out(u'#ifdef __cplusplus\n')
out(u'} /* extern "C" */\n')
out(u'#endif /* __cplusplus */\n')
with open('unixlib_generated.cpp', 'w') as file:
out = file.write
out(u'/* This file is auto-generated, do not edit. */\n')
out(u'#include "unix_private.h"\n\n')
out(u'#if 0\n')
out(u'#pragma makedep unix\n')
out(u'#endif\n\n')
out(u'extern "C" const unixlib_entry_t __wine_unix_call_funcs[] =\n')
out(u'{\n')
for func in UNIX_FUNCS:
out(f' {func},\n')
for klass, method in all_methods:
sdkver = klass._sdkver
if type(method) is Destructor:
continue
out(f' {method.full_name},\n')
out(u'};\n')
out(u'\n')
for name in sorted(unique_structs, key=struct_order):
for sdkver, abis in all_structs[name].items():
if name not in all_versions[sdkver]: continue
version = all_versions[sdkver][name]
if f'checks {version}' in declared: continue
declared[f'checks {version}'] = True
abis['w64'].write_checks(out, "")
for name, structs in all_structs.items():
if name in EXEMPT_STRUCTS: continue
if name in unique_structs: continue
for sdkver, abis in structs.items():
if name not in all_versions[sdkver]: continue
version = all_versions[sdkver][name]
if f'checks {version}' in declared: continue
declared[f'checks {version}'] = True
if type(abis['w64']) is Class:
continue
abis['w64'].write_checks(out, "w64_")
abis['u64'].write_checks(out, "u64_")
abis['w32'].write_checks(out, "w32_")
abis['u32'].write_checks(out, "u32_")
for sdkver, abis in structs.items():
if name not in all_versions[sdkver]: continue
version = all_versions[sdkver][name]
if f'struct {version} convert' in declared: continue
declared[f'struct {version} convert'] = True
if type(abis['w64']) in (Class, Union):
continue
if abis["w64"].needs_conversion(abis["u64"]):
out(u'#ifdef __x86_64__\n')
abis['w64'].write_converter('u64_')
out(u'\n')
abis['u64'].write_converter('w64_')
out(u'#endif\n\n')
if abis["w32"].needs_conversion(abis["u32"]):
out(u'#ifdef __i386__\n')
abis['w32'].write_converter('u32_')
out(u'\n')
abis['u32'].write_converter('w32_')
out(u'#endif\n\n')