| #!/usr/bin/env python |
| # |
| # Copyright (c) 2015-2016 The Khronos Group Inc. |
| # Copyright (c) 2015-2016 Valve Corporation |
| # Copyright (c) 2015-2016 LunarG, Inc. |
| # Copyright (c) 2015-2016 Google Inc. |
| # |
| # Licensed under the Apache License, Version 2.0 (the "License"); |
| # you may not use this file except in compliance with the License. |
| # You may obtain a copy of the License at |
| # |
| # http://www.apache.org/licenses/LICENSE-2.0 |
| # |
| # Unless required by applicable law or agreed to in writing, software |
| # distributed under the License is distributed on an "AS IS" BASIS, |
| # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
| # See the License for the specific language governing permissions and |
| # limitations under the License. |
| # |
| # Author: Courtney Goeltzenleuchter <courtney@LunarG.com> |
| # Author: Tobin Ehlis <tobin@lunarg.com> |
| |
| import argparse |
| import os |
| import sys |
| import re |
| import vulkan |
| from source_line_info import sourcelineinfo |
| |
| # vk_helper.py overview |
| # This script generates code based on vulkan input header |
| # It generate wrappers functions that can be used to display |
| # structs in a human-readable txt format, as well as utility functions |
| # to print enum values as strings |
| |
| def handle_args(): |
| parser = argparse.ArgumentParser(description='Perform analysis of vogl trace.') |
| parser.add_argument('input_file', help='The input header file from which code will be generated.') |
| parser.add_argument('--rel_out_dir', required=False, default='vktrace_gen', help='Path relative to exec path to write output files. Will be created if needed.') |
| parser.add_argument('--abs_out_dir', required=False, default=None, help='Absolute path to write output files. Will be created if needed.') |
| parser.add_argument('--gen_struct_wrappers', required=False, action='store_true', default=False, help='Enable generation of struct wrapper classes.') |
| parser.add_argument('--gen_struct_sizes', required=False, action='store_true', default=False, help='Enable generation of struct sizes.') |
| parser.add_argument('--quiet', required=False, action='store_true', default=False, help='Suppress output from running the script.') |
| #parser.add_argument('--test', action='store_true', default=False, help='Run simple test.') |
| return parser.parse_args() |
| |
| # TODO : Ideally these data structs would be opaque to user and could be wrapped |
| # in their own class(es) to make them friendly for data look-up |
| # Dicts for Data storage |
| # enum_val_dict[value_name] = dict keys are the string enum value names for all enums |
| # |-------->['type'] = the type of enum class into which the value falls |
| # |-------->['val'] = the value assigned to this particular value_name |
| # '-------->['unique'] = bool designating if this enum 'val' is unique within this enum 'type' |
| enum_val_dict = {} |
| # enum_type_dict['type'] = the type or class of of enum |
| # '----->['val_name1', 'val_name2'...] = each type references a list of val_names within this type |
| enum_type_dict = {} |
| # struct_dict['struct_basename'] = the base (non-typedef'd) name of the struct |
| # |->[<member_num>] = members are stored via their integer placement in the struct |
| # | |->['name'] = string name of this struct member |
| # ... |->['full_type'] = complete type qualifier for this member |
| # |->['type'] = base type for this member |
| # |->['ptr'] = bool indicating if this member is ptr |
| # |->['const'] = bool indicating if this member is const |
| # |->['struct'] = bool indicating if this member is a struct type |
| # |->['array'] = bool indicating if this member is an array |
| # |->['dyn_array'] = bool indicating if member is a dynamically sized array |
| # '->['array_size'] = For dyn_array, member name used to size array, else int size for static array |
| struct_dict = {} |
| struct_order_list = [] # struct names in order they're declared |
| # Store struct names that require #ifdef guards |
| # dict stores struct and enum definitions that are guarded by ifdef as the key |
| # and the txt of the ifdef is the value |
| ifdef_dict = {} |
| # typedef_fwd_dict stores mapping from orig_type_name -> new_type_name |
| typedef_fwd_dict = {} |
| # typedef_rev_dict stores mapping from new_type_name -> orig_type_name |
| typedef_rev_dict = {} # store new_name -> orig_name mapping |
| # types_dict['id_name'] = identifier name will map to it's type |
| # '---->'type' = currently either 'struct' or 'enum' |
| types_dict = {} # store orig_name -> type mapping |
| |
| |
| # Class that parses header file and generates data structures that can |
| # Then be used for other tasks |
| class HeaderFileParser: |
| def __init__(self, header_file=None): |
| self.header_file = header_file |
| # store header data in various formats, see above for more info |
| self.enum_val_dict = {} |
| self.enum_type_dict = {} |
| self.struct_dict = {} |
| self.typedef_fwd_dict = {} |
| self.typedef_rev_dict = {} |
| self.types_dict = {} |
| self.last_struct_count_name = '' |
| |
| def setHeaderFile(self, header_file): |
| self.header_file = header_file |
| |
| def get_enum_val_dict(self): |
| return self.enum_val_dict |
| |
| def get_enum_type_dict(self): |
| return self.enum_type_dict |
| |
| def get_struct_dict(self): |
| return self.struct_dict |
| |
| def get_typedef_fwd_dict(self): |
| return self.typedef_fwd_dict |
| |
| def get_typedef_rev_dict(self): |
| return self.typedef_rev_dict |
| |
| def get_types_dict(self): |
| return self.types_dict |
| |
| # Parse header file into data structures |
| def parse(self): |
| # parse through the file, identifying different sections |
| parse_enum = False |
| parse_struct = False |
| member_num = 0 |
| # TODO : Comment parsing is very fragile but handles 2 known files |
| block_comment = False |
| prev_count_name = '' |
| ifdef_txt = '' |
| ifdef_active = 0 |
| exclude_struct_list = ['VkPlatformHandleXcbKHR', 'VkPlatformHandleX11KHR'] |
| with open(self.header_file) as f: |
| for line in f: |
| if True in [ifd_txt in line for ifd_txt in ['#ifdef ', '#ifndef ']]: |
| ifdef_txt = line.split()[1] |
| ifdef_active = ifdef_active + 1 |
| continue |
| if ifdef_active != 0 and '#endif' in line: |
| ifdef_active = ifdef_active - 1 |
| if block_comment: |
| if '*/' in line: |
| block_comment = False |
| continue |
| if '/*' in line: |
| if '*/' in line: # single line block comment |
| continue |
| block_comment = True |
| elif 0 == len(line.split()): |
| #print("Skipping empty line") |
| continue |
| elif line.split()[0].strip().startswith("//"): |
| #print("Skipping commented line %s" % line) |
| continue |
| elif 'typedef enum' in line: |
| (ty_txt, en_txt, base_type) = line.strip().split(None, 2) |
| #print("Found ENUM type %s" % base_type) |
| if '{' == base_type: |
| base_type = 'tmp_enum' |
| parse_enum = True |
| default_enum_val = 0 |
| self.types_dict[base_type] = 'enum' |
| elif 'typedef struct' in line or 'typedef union' in line: |
| if True in [ex_type in line for ex_type in exclude_struct_list]: |
| continue |
| |
| (ty_txt, st_txt, base_type) = line.strip().split(None, 2) |
| if ' ' in base_type: |
| (ignored, base_type) = base_type.strip().split(None, 1) |
| |
| #print("Found STRUCT type: %s" % base_type) |
| # Note: This really needs to be updated to handle one line struct definition, like |
| # typedef struct obj##_T { uint64_t handle; } obj; |
| if ('{' == base_type or not (' ' in base_type)): |
| base_type = 'tmp_struct' |
| parse_struct = True |
| self.types_dict[base_type] = 'struct' |
| # elif 'typedef union' in line: |
| # (ty_txt, st_txt, base_type) = line.strip().split(None, 2) |
| # print("Found UNION type: %s" % base_type) |
| # parse_struct = True |
| # self.types_dict[base_type] = 'struct' |
| elif '}' in line and (parse_enum or parse_struct): |
| if len(line.split()) > 1: # deals with embedded union in one struct |
| parse_enum = False |
| parse_struct = False |
| self.last_struct_count_name = '' |
| member_num = 0 |
| (cur_char, targ_type) = line.strip().split(None, 1) |
| if 'tmp_struct' == base_type: |
| base_type = targ_type.strip(';') |
| if True in [ex_type in base_type for ex_type in exclude_struct_list]: |
| del self.struct_dict['tmp_struct'] |
| continue |
| #print("Found Actual Struct type %s" % base_type) |
| self.struct_dict[base_type] = self.struct_dict['tmp_struct'] |
| self.struct_dict.pop('tmp_struct', 0) |
| struct_order_list.append(base_type) |
| self.types_dict[base_type] = 'struct' |
| self.types_dict.pop('tmp_struct', 0) |
| elif 'tmp_enum' == base_type: |
| base_type = targ_type.strip(';') |
| #print("Found Actual ENUM type %s" % base_type) |
| for n in self.enum_val_dict: |
| if 'tmp_enum' == self.enum_val_dict[n]['type']: |
| self.enum_val_dict[n]['type'] = base_type |
| # self.enum_val_dict[base_type] = self.enum_val_dict['tmp_enum'] |
| # self.enum_val_dict.pop('tmp_enum', 0) |
| self.enum_type_dict[base_type] = self.enum_type_dict['tmp_enum'] |
| self.enum_type_dict.pop('tmp_enum', 0) |
| self.types_dict[base_type] = 'enum' |
| self.types_dict.pop('tmp_enum', 0) |
| if ifdef_active: |
| ifdef_dict[base_type] = ifdef_txt |
| self.typedef_fwd_dict[base_type] = targ_type.strip(';') |
| self.typedef_rev_dict[targ_type.strip(';')] = base_type |
| #print("fwd_dict: %s = %s" % (base_type, targ_type)) |
| elif parse_enum: |
| #if 'VK_MAX_ENUM' not in line and '{' not in line: |
| if True not in [ens in line for ens in ['{', '_MAX_ENUM', '_BEGIN_RANGE', '_END_RANGE', '_NUM = ', '_ENUM_RANGE']]: |
| self._add_enum(line, base_type, default_enum_val) |
| default_enum_val += 1 |
| elif parse_struct: |
| if ';' in line: |
| self._add_struct(line, base_type, member_num) |
| member_num = member_num + 1 |
| |
| # populate enum dicts based on enum lines |
| def _add_enum(self, line_txt, enum_type, def_enum_val): |
| #print("Parsing enum line %s" % line_txt) |
| if '=' in line_txt: |
| (enum_name, eq_char, enum_val) = line_txt.split(None, 2) |
| else: |
| enum_name = line_txt.split(',')[0] |
| enum_val = str(def_enum_val) |
| self.enum_val_dict[enum_name] = {} |
| self.enum_val_dict[enum_name]['type'] = enum_type |
| # strip comma and comment, then extra split in case of no comma w/ comments |
| enum_val = enum_val.strip().split(',', 1)[0] |
| self.enum_val_dict[enum_name]['val'] = enum_val.split()[0] |
| # Perform conversion of VK_BIT macro |
| if 'VK_BIT' in self.enum_val_dict[enum_name]['val']: |
| vk_bit_val = self.enum_val_dict[enum_name]['val'] |
| bit_shift = int(vk_bit_val[vk_bit_val.find('(')+1:vk_bit_val.find(')')], 0) |
| self.enum_val_dict[enum_name]['val'] = str(1 << bit_shift) |
| else: |
| # account for negative values surrounded by parens |
| self.enum_val_dict[enum_name]['val'] = self.enum_val_dict[enum_name]['val'].strip(')').replace('-(', '-') |
| # Try to cast to int to determine if enum value is unique |
| try: |
| #print("ENUM val:", self.enum_val_dict[enum_name]['val']) |
| int(self.enum_val_dict[enum_name]['val'], 0) |
| self.enum_val_dict[enum_name]['unique'] = True |
| #print("ENUM has num value") |
| except ValueError: |
| self.enum_val_dict[enum_name]['unique'] = False |
| #print("ENUM is not a number value") |
| # Update enum_type_dict as well |
| if not enum_type in self.enum_type_dict: |
| self.enum_type_dict[enum_type] = [] |
| self.enum_type_dict[enum_type].append(enum_name) |
| |
| # Return True if struct member is a dynamic array |
| # RULES : This is a bit quirky based on the API |
| # NOTE : Changes in API spec may cause these rules to change |
| # 1. There must be a previous uint var w/ 'count' in the name in the struct |
| # 2. Dynam array must have 'const' and '*' qualifiers |
| # 3a. Name of dynam array must end in 's' char OR |
| # 3b. Name of count var minus 'count' must be contained in name of dynamic array |
| def _is_dynamic_array(self, full_type, name): |
| exceptions = ['pEnabledFeatures', 'pWaitDstStageMask', 'pSampleMask'] |
| if name in exceptions: |
| return False |
| if '' != self.last_struct_count_name: |
| if 'const' in full_type and '*' in full_type: |
| if name.endswith('s') or self.last_struct_count_name.lower().replace('count', '') in name.lower(): |
| return True |
| |
| # VkWriteDescriptorSet |
| if self.last_struct_count_name == "descriptorCount": |
| return True |
| |
| return False |
| |
| # populate struct dicts based on struct lines |
| # TODO : Handle ":" bitfield, "**" ptr->ptr and "const type*const*" |
| def _add_struct(self, line_txt, struct_type, num): |
| #print("Parsing struct line %s" % line_txt) |
| if '{' == struct_type: |
| print("Parsing struct '{' w/ line %s" % line_txt) |
| if not struct_type in self.struct_dict: |
| self.struct_dict[struct_type] = {} |
| members = line_txt.strip().split(';', 1)[0] # first strip semicolon & comments |
| # TODO : Handle bitfields more correctly |
| members = members.strip().split(':', 1)[0] # strip bitfield element |
| (member_type, member_name) = members.rsplit(None, 1) |
| # Store counts to help recognize and size dynamic arrays |
| # Add special case for pObjectEntryCounts -- though it meets the criteria for a 'count', it should not |
| # replace the previously identified (and correct) objectCount. |
| # TODO: convert to using vk.xml and avoid parsing the header |
| if 'count' in member_name.lower() and 'samplecount' != member_name.lower() and 'uint' in member_type and member_name != "pObjectEntryCounts": |
| self.last_struct_count_name = member_name |
| self.struct_dict[struct_type][num] = {} |
| self.struct_dict[struct_type][num]['full_type'] = member_type |
| self.struct_dict[struct_type][num]['dyn_array'] = False |
| if '*' in member_type: |
| self.struct_dict[struct_type][num]['ptr'] = True |
| # TODO : Need more general purpose way here to reduce down to basic type |
| member_type = member_type.replace(' const*', '') |
| member_type = member_type.strip('*') |
| else: |
| self.struct_dict[struct_type][num]['ptr'] = False |
| if 'const' in member_type: |
| self.struct_dict[struct_type][num]['const'] = True |
| member_type = member_type.replace('const', '').strip() |
| else: |
| self.struct_dict[struct_type][num]['const'] = False |
| # TODO : There is a bug here where it seems that at the time we do this check, |
| # the data is not in the types or typedef_rev_dict, so we never pass this if check |
| if is_type(member_type, 'struct'): |
| self.struct_dict[struct_type][num]['struct'] = True |
| else: |
| self.struct_dict[struct_type][num]['struct'] = False |
| self.struct_dict[struct_type][num]['type'] = member_type |
| if '[' in member_name: |
| (member_name, array_size) = member_name.split('[', 1) |
| #if 'char' in member_type: |
| # self.struct_dict[struct_type][num]['array'] = False |
| # self.struct_dict[struct_type][num]['array_size'] = 0 |
| # self.struct_dict[struct_type][num]['ptr'] = True |
| #else: |
| self.struct_dict[struct_type][num]['array'] = True |
| self.struct_dict[struct_type][num]['array_size'] = array_size.strip(']') |
| elif self._is_dynamic_array(self.struct_dict[struct_type][num]['full_type'], member_name): |
| #print("Found dynamic array %s of size %s" % (member_name, self.last_struct_count_name)) |
| self.struct_dict[struct_type][num]['array'] = True |
| self.struct_dict[struct_type][num]['dyn_array'] = True |
| self.struct_dict[struct_type][num]['array_size'] = self.last_struct_count_name |
| elif not 'array' in self.struct_dict[struct_type][num]: |
| self.struct_dict[struct_type][num]['array'] = False |
| self.struct_dict[struct_type][num]['array_size'] = 0 |
| self.struct_dict[struct_type][num]['name'] = member_name |
| |
| # check if given identifier is of specified type_to_check |
| def is_type(identifier, type_to_check): |
| if identifier in types_dict and type_to_check == types_dict[identifier]: |
| return True |
| if identifier in typedef_rev_dict: |
| new_id = typedef_rev_dict[identifier] |
| if new_id in types_dict and type_to_check == types_dict[new_id]: |
| return True |
| return False |
| |
| # This is a validation function to verify that we can reproduce the original structs |
| def recreate_structs(): |
| for struct_name in struct_dict: |
| sys.stdout.write("typedef struct %s\n{\n" % struct_name) |
| for mem_num in sorted(struct_dict[struct_name]): |
| sys.stdout.write(" ") |
| if struct_dict[struct_name][mem_num]['const']: |
| sys.stdout.write("const ") |
| #if struct_dict[struct_name][mem_num]['struct']: |
| # sys.stdout.write("struct ") |
| sys.stdout.write (struct_dict[struct_name][mem_num]['type']) |
| if struct_dict[struct_name][mem_num]['ptr']: |
| sys.stdout.write("*") |
| sys.stdout.write(" ") |
| sys.stdout.write(struct_dict[struct_name][mem_num]['name']) |
| if struct_dict[struct_name][mem_num]['array']: |
| sys.stdout.write("[") |
| sys.stdout.write(struct_dict[struct_name][mem_num]['array_size']) |
| sys.stdout.write("]") |
| sys.stdout.write(";\n") |
| sys.stdout.write("} ") |
| sys.stdout.write(typedef_fwd_dict[struct_name]) |
| sys.stdout.write(";\n\n") |
| |
| # |
| # TODO: Fix construction of struct name |
| def get_struct_name_from_struct_type(struct_type): |
| # Note: All struct types are now camel-case |
| # Debug Report has an inconsistency - so need special case. |
| caps_struct_name = struct_type.replace("_STRUCTURE_TYPE", "") |
| char_idx = 0 |
| struct_name = '' |
| for char in caps_struct_name: |
| if (0 == char_idx) or (caps_struct_name[char_idx-1] == '_'): |
| struct_name += caps_struct_name[char_idx] |
| elif (caps_struct_name[char_idx] == '_'): |
| pass |
| else: |
| struct_name += caps_struct_name[char_idx].lower() |
| char_idx += 1 |
| |
| # Vendor extension structs ending in vendor TLA need to be uppercase. |
| if (caps_struct_name[-2:] == "NV"): |
| struct_name = struct_name[:-2] + caps_struct_name[-2:] |
| if ((caps_struct_name[-3:] == "AMD") or (caps_struct_name[-3:] == "IMG") or (caps_struct_name[-3:] == "EXT")): |
| struct_name = struct_name[:-3] + caps_struct_name[-3:] |
| |
| return struct_name |
| |
| # Emit an ifdef if incoming func matches a platform identifier |
| def add_platform_wrapper_entry(list, func): |
| if (re.match(r'.*Xlib.*', func)): |
| list.append("#ifdef VK_USE_PLATFORM_XLIB_KHR") |
| if (re.match(r'.*Xcb.*', func)): |
| list.append("#ifdef VK_USE_PLATFORM_XCB_KHR") |
| if (re.match(r'.*Wayland.*', func)): |
| list.append("#ifdef VK_USE_PLATFORM_WAYLAND_KHR") |
| if (re.match(r'.*Mir.*', func)): |
| list.append("#ifdef VK_USE_PLATFORM_MIR_KHR") |
| if (re.match(r'.*Android.*', func)): |
| list.append("#ifdef VK_USE_PLATFORM_ANDROID_KHR") |
| if (re.match(r'.*Win32.*', func)): |
| list.append("#ifdef VK_USE_PLATFORM_WIN32_KHR") |
| |
| # Emit an endif if incoming func matches a platform identifier |
| def add_platform_wrapper_exit(list, func): |
| if (re.match(r'.*Xlib.*', func)): |
| list.append("#endif //VK_USE_PLATFORM_XLIB_KHR") |
| if (re.match(r'.*Xcb.*', func)): |
| list.append("#endif //VK_USE_PLATFORM_XCB_KHR") |
| if (re.match(r'.*Wayland.*', func)): |
| list.append("#endif //VK_USE_PLATFORM_WAYLAND_KHR") |
| if (re.match(r'.*Mir.*', func)): |
| list.append("#endif //VK_USE_PLATFORM_MIR_KHR") |
| if (re.match(r'.*Android.*', func)): |
| list.append("#endif //VK_USE_PLATFORM_ANDROID_KHR") |
| if (re.match(r'.*Win32.*', func)): |
| list.append("#endif //VK_USE_PLATFORM_WIN32_KHR") |
| |
| # class for writing common file elements |
| # Here's how this class lays out a file: |
| # COPYRIGHT |
| # HEADER |
| # BODY |
| # FOOTER |
| # |
| # For each of these sections, there's a "set*" function |
| # The class as a whole has a generate function which will write each section in order |
| class CommonFileGen: |
| def __init__(self, filename=None, copyright_txt="", header_txt="", body_txt="", footer_txt=""): |
| self.filename = filename |
| self.contents = {'copyright': copyright_txt, 'header': header_txt, 'body': body_txt, 'footer': footer_txt} |
| # TODO : Set a default copyright & footer at least |
| |
| def setFilename(self, filename): |
| self.filename = filename |
| |
| def setCopyright(self, c): |
| self.contents['copyright'] = c |
| |
| def setHeader(self, h): |
| self.contents['header'] = h |
| |
| def setBody(self, b): |
| self.contents['body'] = b |
| |
| def setFooter(self, f): |
| self.contents['footer'] = f |
| |
| def generate(self): |
| #print("Generate to file %s" % self.filename) |
| with open(self.filename, "w") as f: |
| f.write(self.contents['copyright']) |
| f.write(self.contents['header']) |
| f.write(self.contents['body']) |
| f.write(self.contents['footer']) |
| |
| # class for writing a wrapper class for structures |
| # The wrapper class wraps the structs and includes utility functions for |
| # setting/getting member values and displaying the struct data in various formats |
| class StructWrapperGen: |
| def __init__(self, in_struct_dict, prefix, out_dir, quiet): |
| self.struct_dict = in_struct_dict |
| self.include_headers = [] |
| self.lineinfo = sourcelineinfo() |
| self.api = prefix |
| if prefix.lower() == "vulkan": |
| self.api_prefix = "vk" |
| else: |
| self.api_prefix = prefix |
| self.safe_struct_header_filename = os.path.join(out_dir, self.api_prefix+"_safe_struct.h") |
| self.safe_struct_source_filename = os.path.join(out_dir, self.api_prefix+"_safe_struct.cpp") |
| # Safe Struct (ss) header and source files |
| self.ssh = CommonFileGen(self.safe_struct_header_filename) |
| self.sss = CommonFileGen(self.safe_struct_source_filename) |
| self.size_helper_filename = os.path.join(out_dir, self.api_prefix+"_struct_size_helper.h") |
| self.size_helper_c_filename = os.path.join(out_dir, self.api_prefix+"_struct_size_helper.c") |
| self.size_helper_gen = CommonFileGen(self.size_helper_filename) |
| self.size_helper_c_gen = CommonFileGen(self.size_helper_c_filename) |
| self.header_txt = "" |
| self.definition_txt = "" |
| self.quiet = quiet |
| |
| def set_include_headers(self, include_headers): |
| self.include_headers = include_headers |
| |
| # Return class name for given struct name |
| def get_class_name(self, struct_name): |
| class_name = struct_name.strip('_').lower() + "_struct_wrapper" |
| return class_name |
| |
| def get_file_list(self): |
| return [os.path.basename(self.header_filename), os.path.basename(self.class_filename), os.path.basename(self.string_helper_filename)] |
| |
| # Safe Structs are versions of vulkan structs with non-const safe ptrs |
| # that make shadowing structures and clean-up of shadowed structures very simple |
| def generateSafeStructHeader(self): |
| self.ssh.setCopyright(self._generateCopyright()) |
| self.ssh.setHeader(self._generateSafeStructHeader()) |
| self.ssh.setBody(self._generateSafeStructDecls()) |
| self.ssh.generate() |
| |
| def generateSafeStructs(self): |
| self.sss.setCopyright(self._generateCopyright()) |
| self.sss.setHeader(self._generateSafeStructSourceHeader()) |
| self.sss.setBody(self._generateSafeStructSource()) |
| self.sss.generate() |
| |
| def generateSizeHelper(self): |
| if not self.quiet: |
| print("Generating struct size helper") |
| self.size_helper_gen.setCopyright(self._generateCopyright()) |
| self.size_helper_gen.setHeader(self._generateSizeHelperHeader()) |
| self.size_helper_gen.setBody(self._generateSizeHelperFunctions()) |
| self.size_helper_gen.setFooter(self._generateSizeHelperFooter()) |
| self.size_helper_gen.generate() |
| |
| def generateSizeHelperC(self): |
| if not self.quiet: |
| print("Generating struct size helper c") |
| self.size_helper_c_gen.setCopyright(self._generateCopyright()) |
| self.size_helper_c_gen.setHeader(self._generateSizeHelperHeaderC()) |
| self.size_helper_c_gen.setBody(self._generateSizeHelperFunctionsC()) |
| self.size_helper_c_gen.generate() |
| |
| def _generateCopyright(self): |
| copyright = [] |
| copyright.append('/* THIS FILE IS GENERATED. DO NOT EDIT. */'); |
| copyright.append(''); |
| copyright.append('/*'); |
| copyright.append(' * Vulkan'); |
| copyright.append(' *'); |
| copyright.append(' * Copyright (c) 2015-2016 The Khronos Group Inc.'); |
| copyright.append(' * Copyright (c) 2015-2016 Valve Corporation.'); |
| copyright.append(' * Copyright (c) 2015-2016 LunarG, Inc.'); |
| copyright.append(' * Copyright (c) 2015-2016 Google Inc.'); |
| copyright.append(' *'); |
| copyright.append(' * Licensed under the Apache License, Version 2.0 (the "License");'); |
| copyright.append(' * you may not use this file except in compliance with the License.'); |
| copyright.append(' * You may obtain a copy of the License at'); |
| copyright.append(' *'); |
| copyright.append(' * http://www.apache.org/licenses/LICENSE-2.0'); |
| copyright.append(' *'); |
| copyright.append(' * Unless required by applicable law or agreed to in writing, software'); |
| copyright.append(' * distributed under the License is distributed on an "AS IS" BASIS,'); |
| copyright.append(' * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.'); |
| copyright.append(' * See the License for the specific language governing permissions and'); |
| copyright.append(' * limitations under the License.'); |
| copyright.append(' *'); |
| copyright.append(' * Author: Courtney Goeltzenleuchter <courtney@LunarG.com>'); |
| copyright.append(' * Author: Tobin Ehlis <tobin@lunarg.com>'); |
| copyright.append(' */'); |
| copyright.append(''); |
| return "\n".join(copyright) |
| |
| def _generateCppHeader(self): |
| header = [] |
| header.append("//#includes, #defines, globals and such...\n") |
| header.append("#include <stdio.h>\n#include <%s>\n#include <%s_enum_string_helper.h>\n" % (os.path.basename(self.header_filename), self.api_prefix)) |
| return "".join(header) |
| |
| def _get_func_name(self, struct, mid_str): |
| return "%s_%s_%s" % (self.api_prefix, mid_str, struct.lower().strip("_")) |
| |
| def _get_size_helper_func_name(self, struct): |
| return self._get_func_name(struct, 'size') |
| |
| def _generateSizeHelperFunctions(self): |
| sh_funcs = [] |
| # just generates prototypes for all the functions |
| for s in sorted(self.struct_dict): |
| |
| # Wrap this in platform check since it may contain undefined structs or functions |
| add_platform_wrapper_entry(sh_funcs, typedef_fwd_dict[s]) |
| sh_funcs.append('size_t %s(const %s* pStruct);' % (self._get_size_helper_func_name(s), typedef_fwd_dict[s])) |
| add_platform_wrapper_exit(sh_funcs, typedef_fwd_dict[s]) |
| |
| return "\n".join(sh_funcs) |
| |
| def _generateSizeHelperFunctionsC(self): |
| sh_funcs = [] |
| # generate function definitions |
| for s in sorted(self.struct_dict): |
| |
| # Wrap this in platform check since it may contain undefined structs or functions |
| add_platform_wrapper_entry(sh_funcs, typedef_fwd_dict[s]) |
| |
| skip_list = [] # Used when struct elements need to be skipped because size already accounted for |
| sh_funcs.append('size_t %s(const %s* pStruct)\n{' % (self._get_size_helper_func_name(s), typedef_fwd_dict[s])) |
| indent = ' ' |
| sh_funcs.append('%ssize_t structSize = 0;' % (indent)) |
| sh_funcs.append('%sif (pStruct) {' % (indent)) |
| indent = ' ' |
| sh_funcs.append('%sstructSize = sizeof(%s);' % (indent, typedef_fwd_dict[s])) |
| i_decl = False |
| for m in sorted(self.struct_dict[s]): |
| if m in skip_list: |
| continue |
| if self.struct_dict[s][m]['dyn_array']: |
| if self.struct_dict[s][m]['full_type'].count('*') > 1: |
| if not is_type(self.struct_dict[s][m]['type'], 'struct') and not 'char' in self.struct_dict[s][m]['type'].lower(): |
| if 'ppMemoryBarriers' == self.struct_dict[s][m]['name']: |
| # TODO : For now be conservative and consider all memBarrier ptrs as largest possible struct |
| sh_funcs.append('%sstructSize += pStruct->%s*(sizeof(%s*) + sizeof(VkImageMemoryBarrier));' % (indent, self.struct_dict[s][m]['array_size'], self.struct_dict[s][m]['type'])) |
| else: |
| sh_funcs.append('%sstructSize += pStruct->%s*(sizeof(%s*) + sizeof(%s));' % (indent, self.struct_dict[s][m]['array_size'], self.struct_dict[s][m]['type'], self.struct_dict[s][m]['type'])) |
| else: # This is an array of char* or array of struct ptrs |
| if not i_decl: |
| sh_funcs.append('%suint32_t i = 0;' % (indent)) |
| i_decl = True |
| sh_funcs.append('%sfor (i = 0; i < pStruct->%s; i++) {' % (indent, self.struct_dict[s][m]['array_size'])) |
| indent = ' ' |
| if is_type(self.struct_dict[s][m]['type'], 'struct'): |
| sh_funcs.append('%sstructSize += (sizeof(%s*) + %s(pStruct->%s[i]));' % (indent, self.struct_dict[s][m]['type'], self._get_size_helper_func_name(self.struct_dict[s][m]['type']), self.struct_dict[s][m]['name'])) |
| else: |
| sh_funcs.append('%sstructSize += (sizeof(char*) + (sizeof(char) * (1 + strlen(pStruct->%s[i]))));' % (indent, self.struct_dict[s][m]['name'])) |
| indent = ' ' |
| sh_funcs.append('%s}' % (indent)) |
| else: |
| if is_type(self.struct_dict[s][m]['type'], 'struct'): |
| if not i_decl: |
| sh_funcs.append('%suint32_t i = 0;' % (indent)) |
| i_decl = True |
| sh_funcs.append('%sfor (i = 0; i < pStruct->%s; i++) {' % (indent, self.struct_dict[s][m]['array_size'])) |
| indent = ' ' |
| sh_funcs.append('%sstructSize += %s(&pStruct->%s[i]);' % (indent, self._get_size_helper_func_name(self.struct_dict[s][m]['type']), self.struct_dict[s][m]['name'])) |
| indent = ' ' |
| sh_funcs.append('%s}' % (indent)) |
| else: |
| sh_funcs.append('%sstructSize += pStruct->%s*sizeof(%s);' % (indent, self.struct_dict[s][m]['array_size'], self.struct_dict[s][m]['type'])) |
| elif self.struct_dict[s][m]['ptr'] and 'pNext' != self.struct_dict[s][m]['name'] and 'dpy' != self.struct_dict[s][m]['name']: |
| if 'char' in self.struct_dict[s][m]['type'].lower(): |
| sh_funcs.append('%sstructSize += (pStruct->%s != NULL) ? sizeof(%s)*(1+strlen(pStruct->%s)) : 0;' % (indent, self.struct_dict[s][m]['name'], self.struct_dict[s][m]['type'], self.struct_dict[s][m]['name'])) |
| elif is_type(self.struct_dict[s][m]['type'], 'struct'): |
| sh_funcs.append('%sstructSize += %s(pStruct->%s);' % (indent, self._get_size_helper_func_name(self.struct_dict[s][m]['type']), self.struct_dict[s][m]['name'])) |
| elif 'void' not in self.struct_dict[s][m]['type'].lower(): |
| if (self.struct_dict[s][m]['type'] != 'xcb_connection_t'): |
| sh_funcs.append('%sstructSize += sizeof(%s);' % (indent, self.struct_dict[s][m]['type'])) |
| elif 'size_t' == self.struct_dict[s][m]['type'].lower(): |
| sh_funcs.append('%sstructSize += pStruct->%s;' % (indent, self.struct_dict[s][m]['name'])) |
| skip_list.append(m+1) |
| indent = ' ' |
| sh_funcs.append('%s}' % (indent)) |
| sh_funcs.append("%sreturn structSize;\n}" % (indent)) |
| |
| # End of platform wrapped section |
| add_platform_wrapper_exit(sh_funcs, typedef_fwd_dict[s]) |
| |
| # Now generate generic functions to loop over entire struct chain (or just handle single generic structs) |
| for follow_chain in [True, False]: |
| sh_funcs.append('%s' % self.lineinfo.get()) |
| if follow_chain: |
| sh_funcs.append('size_t get_struct_chain_size(const void* pStruct)\n{') |
| else: |
| sh_funcs.append('size_t get_dynamic_struct_size(const void* pStruct)\n{') |
| indent = ' ' |
| sh_funcs.append('%s// Just use VkApplicationInfo as struct until actual type is resolved' % (indent)) |
| sh_funcs.append('%sVkApplicationInfo* pNext = (VkApplicationInfo*)pStruct;' % (indent)) |
| sh_funcs.append('%ssize_t structSize = 0;' % (indent)) |
| if follow_chain: |
| sh_funcs.append('%swhile (pNext) {' % (indent)) |
| indent = ' ' |
| sh_funcs.append('%sswitch (pNext->sType) {' % (indent)) |
| indent += ' ' |
| for e in enum_type_dict: |
| if 'StructureType' in e: |
| for v in sorted(enum_type_dict[e]): |
| struct_name = get_struct_name_from_struct_type(v) |
| if struct_name not in self.struct_dict: |
| continue |
| |
| if 'WIN32' in v: |
| sh_funcs.append("#ifdef VK_USE_PLATFORM_WIN32_KHR") |
| sh_funcs.append('%scase %s:' % (indent, v)) |
| sh_funcs.append('%s{' % (indent)) |
| indent += ' ' |
| sh_funcs.append('%sstructSize += %s((%s*)pNext);' % (indent, self._get_size_helper_func_name(struct_name), struct_name)) |
| sh_funcs.append('%sbreak;' % (indent)) |
| indent = indent[:-4] |
| sh_funcs.append('%s}' % (indent)) |
| if 'WIN32' in v: |
| sh_funcs.append("#endif // VK_USE_PLATFORM_WIN32_KHR") |
| sh_funcs.append('%sdefault:' % (indent)) |
| indent += ' ' |
| sh_funcs.append('%sassert(0);' % (indent)) |
| sh_funcs.append('%sstructSize += 0;' % (indent)) |
| indent = indent[:-4] |
| indent = indent[:-4] |
| sh_funcs.append('%s}' % (indent)) |
| if follow_chain: |
| sh_funcs.append('%spNext = (VkApplicationInfo*)pNext->pNext;' % (indent)) |
| indent = indent[:-4] |
| sh_funcs.append('%s}' % (indent)) |
| sh_funcs.append('%sreturn structSize;\n}' % indent) |
| return "\n".join(sh_funcs) |
| |
| def _generateSizeHelperHeader(self): |
| header = [] |
| header.append('\n#ifdef __cplusplus\n') |
| header.append('extern "C" {\n') |
| header.append('#endif\n') |
| header.append("\n") |
| header.append("//#includes, #defines, globals and such...\n") |
| for f in self.include_headers: |
| header.append("#include <%s>\n" % f) |
| header.append('\n// Function Prototypes\n') |
| header.append("size_t get_struct_chain_size(const void* pStruct);\n") |
| header.append("size_t get_dynamic_struct_size(const void* pStruct);\n") |
| return "".join(header) |
| |
| def _generateSizeHelperHeaderC(self): |
| header = [] |
| header.append('#include "vk_struct_size_helper.h"') |
| header.append('#include <string.h>') |
| header.append('#include <assert.h>') |
| header.append('\n// Function definitions\n') |
| return "\n".join(header) |
| |
| def _generateSizeHelperFooter(self): |
| footer = [] |
| footer.append('\n\n#ifdef __cplusplus') |
| footer.append('}') |
| footer.append('#endif') |
| return "\n".join(footer) |
| |
| def _generateHeader(self): |
| header = [] |
| header.append("//#includes, #defines, globals and such...\n") |
| for f in self.include_headers: |
| header.append("#include <%s>\n" % f) |
| return "".join(header) |
| |
| # Declarations |
| def _generateConstructorDeclarations(self, s): |
| constructors = [] |
| constructors.append(" %s();\n" % self.get_class_name(s)) |
| constructors.append(" %s(%s* pInStruct);\n" % (self.get_class_name(s), typedef_fwd_dict[s])) |
| constructors.append(" %s(const %s* pInStruct);\n" % (self.get_class_name(s), typedef_fwd_dict[s])) |
| return "".join(constructors) |
| |
| def _generateDestructorDeclarations(self, s): |
| return " virtual ~%s();\n" % self.get_class_name(s) |
| |
| def _generateDisplayDeclarations(self, s): |
| return " void display_txt();\n void display_single_txt();\n void display_full_txt();\n" |
| |
| def _generateGetSetDeclarations(self, s): |
| get_set = [] |
| get_set.append(" void set_indent(uint32_t indent) { m_indent = indent; }\n") |
| for member in sorted(self.struct_dict[s]): |
| # TODO : Skipping array set/get funcs for now |
| if self.struct_dict[s][member]['array']: |
| continue |
| get_set.append(" %s get_%s() { return m_struct.%s; }\n" % (self.struct_dict[s][member]['full_type'], self.struct_dict[s][member]['name'], self.struct_dict[s][member]['name'])) |
| if not self.struct_dict[s][member]['const']: |
| get_set.append(" void set_%s(%s inValue) { m_struct.%s = inValue; }\n" % (self.struct_dict[s][member]['name'], self.struct_dict[s][member]['full_type'], self.struct_dict[s][member]['name'])) |
| return "".join(get_set) |
| |
| def _generatePrivateMembers(self, s): |
| priv = [] |
| priv.append("\nprivate:\n") |
| priv.append(" %s m_struct;\n" % typedef_fwd_dict[s]) |
| priv.append(" const %s* m_origStructAddr;\n" % typedef_fwd_dict[s]) |
| priv.append(" uint32_t m_indent;\n") |
| priv.append(" const char m_dummy_prefix;\n") |
| priv.append(" void display_struct_members();\n") |
| return "".join(priv) |
| |
| def _generateClassDeclaration(self): |
| class_decl = [] |
| for s in sorted(self.struct_dict): |
| class_decl.append("\n//class declaration") |
| class_decl.append("class %s\n{\npublic:" % self.get_class_name(s)) |
| class_decl.append(self._generateConstructorDeclarations(s)) |
| class_decl.append(self._generateDestructorDeclarations(s)) |
| class_decl.append(self._generateDisplayDeclarations(s)) |
| class_decl.append(self._generateGetSetDeclarations(s)) |
| class_decl.append(self._generatePrivateMembers(s)) |
| class_decl.append("};\n") |
| return "\n".join(class_decl) |
| |
| def _generateFooter(self): |
| return "\n//any footer info for class\n" |
| |
| def _getSafeStructName(self, struct): |
| return "safe_%s" % (struct) |
| |
| # If struct has sType or ptr members, generate safe type |
| def _hasSafeStruct(self, s): |
| exceptions = ['VkPhysicalDeviceFeatures'] |
| if s in exceptions: |
| return False |
| if 'sType' == self.struct_dict[s][0]['name']: |
| return True |
| for m in self.struct_dict[s]: |
| if self.struct_dict[s][m]['ptr']: |
| return True |
| inclusions = ['VkDisplayPlanePropertiesKHR', 'VkDisplayModePropertiesKHR', 'VkDisplayPropertiesKHR'] |
| if s in inclusions: |
| return True |
| return False |
| |
| def _generateSafeStructHeader(self): |
| header = [] |
| header.append("//#includes, #defines, globals and such...\n") |
| header.append('#pragma once\n') |
| header.append('#include "vulkan/vulkan.h"') |
| return "".join(header) |
| |
| # If given ty is in obj list, or is a struct that contains anything in obj list, return True |
| def _typeHasObject(self, ty, obj): |
| if ty in obj: |
| return True |
| if is_type(ty, 'struct'): |
| for m in self.struct_dict[ty]: |
| if self.struct_dict[ty][m]['type'] in obj: |
| return True |
| return False |
| |
| def _generateSafeStructDecls(self): |
| ss_decls = [] |
| for s in struct_order_list: |
| if not self._hasSafeStruct(s): |
| continue |
| if s in ifdef_dict: |
| ss_decls.append('#ifdef %s' % ifdef_dict[s]) |
| ss_name = self._getSafeStructName(s) |
| ss_decls.append("\nstruct %s {" % (ss_name)) |
| for m in sorted(self.struct_dict[s]): |
| m_type = self.struct_dict[s][m]['type'] |
| if is_type(m_type, 'struct') and self._hasSafeStruct(m_type): |
| m_type = self._getSafeStructName(m_type) |
| if self.struct_dict[s][m]['array_size'] != 0 and not self.struct_dict[s][m]['dyn_array']: |
| ss_decls.append(" %s %s[%s];" % (m_type, self.struct_dict[s][m]['name'], self.struct_dict[s][m]['array_size'])) |
| elif self.struct_dict[s][m]['ptr'] and 'safe_' not in m_type and not self._typeHasObject(m_type, vulkan.object_non_dispatch_list):#m_type in ['char', 'float', 'uint32_t', 'void', 'VkPhysicalDeviceFeatures']: # We'll never overwrite char* so it can remain const |
| ss_decls.append(" %s %s;" % (self.struct_dict[s][m]['full_type'], self.struct_dict[s][m]['name'])) |
| elif self.struct_dict[s][m]['array']: |
| ss_decls.append(" %s* %s;" % (m_type, self.struct_dict[s][m]['name'])) |
| elif self.struct_dict[s][m]['ptr']: |
| ss_decls.append(" %s* %s;" % (m_type, self.struct_dict[s][m]['name'])) |
| else: |
| ss_decls.append(" %s %s;" % (m_type, self.struct_dict[s][m]['name'])) |
| ss_decls.append(" %s(const %s* pInStruct);" % (ss_name, s)) |
| ss_decls.append(" %s(const %s& src);" % (ss_name, ss_name)) # Copy constructor |
| ss_decls.append(" %s();" % (ss_name)) # Default constructor |
| ss_decls.append(" ~%s();" % (ss_name)) |
| ss_decls.append(" void initialize(const %s* pInStruct);" % (s)) |
| ss_decls.append(" void initialize(const %s* src);" % (ss_name)) |
| ss_decls.append(" %s *ptr() { return reinterpret_cast<%s *>(this); }" % (s, s)) |
| ss_decls.append(" %s const *ptr() const { return reinterpret_cast<%s const *>(this); }" % (s, s)) |
| ss_decls.append("};") |
| if s in ifdef_dict: |
| ss_decls.append('#endif') |
| return "\n".join(ss_decls) |
| |
| def _generateSafeStructSourceHeader(self): |
| header = [] |
| header.append("//#includes, #defines, globals and such...\n") |
| header.append('#include "vk_safe_struct.h"\n#include <string.h>\n\n') |
| return "".join(header) |
| |
| def _generateSafeStructSource(self): |
| ss_src = [] |
| for s in struct_order_list: |
| if not self._hasSafeStruct(s): |
| continue |
| if s in ifdef_dict: |
| ss_src.append('#ifdef %s' % ifdef_dict[s]) |
| ss_name = self._getSafeStructName(s) |
| init_list = '' # list of members in struct constructor initializer |
| default_init_list = '' # Default constructor just inits ptrs to nullptr in initializer |
| init_func_txt = '' # Txt for initialize() function that takes struct ptr and inits members |
| construct_txt = '' # Body of constuctor as well as body of initialize() func following init_func_txt |
| destruct_txt = '' |
| # VkWriteDescriptorSet is special case because pointers may be non-null but ignored |
| # TODO : This is ugly, figure out better way to do this |
| custom_construct_txt = {'VkWriteDescriptorSet' : |
| ' switch (descriptorType) {\n' |
| ' case VK_DESCRIPTOR_TYPE_SAMPLER:\n' |
| ' case VK_DESCRIPTOR_TYPE_COMBINED_IMAGE_SAMPLER:\n' |
| ' case VK_DESCRIPTOR_TYPE_SAMPLED_IMAGE:\n' |
| ' case VK_DESCRIPTOR_TYPE_STORAGE_IMAGE:\n' |
| ' case VK_DESCRIPTOR_TYPE_INPUT_ATTACHMENT:\n' |
| ' if (descriptorCount && pInStruct->pImageInfo) {\n' |
| ' pImageInfo = new VkDescriptorImageInfo[descriptorCount];\n' |
| ' for (uint32_t i=0; i<descriptorCount; ++i) {\n' |
| ' pImageInfo[i] = pInStruct->pImageInfo[i];\n' |
| ' }\n' |
| ' }\n' |
| ' break;\n' |
| ' case VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER:\n' |
| ' case VK_DESCRIPTOR_TYPE_STORAGE_BUFFER:\n' |
| ' case VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER_DYNAMIC:\n' |
| ' case VK_DESCRIPTOR_TYPE_STORAGE_BUFFER_DYNAMIC:\n' |
| ' if (descriptorCount && pInStruct->pBufferInfo) {\n' |
| ' pBufferInfo = new VkDescriptorBufferInfo[descriptorCount];\n' |
| ' for (uint32_t i=0; i<descriptorCount; ++i) {\n' |
| ' pBufferInfo[i] = pInStruct->pBufferInfo[i];\n' |
| ' }\n' |
| ' }\n' |
| ' break;\n' |
| ' case VK_DESCRIPTOR_TYPE_UNIFORM_TEXEL_BUFFER:\n' |
| ' case VK_DESCRIPTOR_TYPE_STORAGE_TEXEL_BUFFER:\n' |
| ' if (descriptorCount && pInStruct->pTexelBufferView) {\n' |
| ' pTexelBufferView = new VkBufferView[descriptorCount];\n' |
| ' for (uint32_t i=0; i<descriptorCount; ++i) {\n' |
| ' pTexelBufferView[i] = pInStruct->pTexelBufferView[i];\n' |
| ' }\n' |
| ' }\n' |
| ' break;\n' |
| ' default:\n' |
| ' break;\n' |
| ' }\n'} |
| for m in self.struct_dict[s]: |
| m_name = self.struct_dict[s][m]['name'] |
| m_type = self.struct_dict[s][m]['type'] |
| if is_type(m_type, 'struct') and self._hasSafeStruct(m_type): |
| m_type = self._getSafeStructName(m_type) |
| if self.struct_dict[s][m]['ptr'] and 'safe_' not in m_type and not self._typeHasObject(m_type, vulkan.object_non_dispatch_list):# in ['char', 'float', 'uint32_t', 'void', 'VkPhysicalDeviceFeatures']) or 'pp' == self.struct_dict[s][m]['name'][0:1]: |
| # Ptr types w/o a safe_struct, for non-null case need to allocate new ptr and copy data in |
| if 'KHR' in ss_name or m_type in ['void', 'char']: |
| # For these exceptions just copy initial value over for now |
| init_list += '\n\t%s(pInStruct->%s),' % (m_name, m_name) |
| init_func_txt += ' %s = pInStruct->%s;\n' % (m_name, m_name) |
| else: |
| default_init_list += '\n\t%s(nullptr),' % (m_name) |
| init_list += '\n\t%s(nullptr),' % (m_name) |
| init_func_txt += ' %s = nullptr;\n' % (m_name) |
| if 'pNext' != m_name and 'void' not in m_type: |
| if not self.struct_dict[s][m]['array']: |
| construct_txt += ' if (pInStruct->%s) {\n' % (m_name) |
| construct_txt += ' %s = new %s(*pInStruct->%s);\n' % (m_name, m_type, m_name) |
| construct_txt += ' }\n' |
| destruct_txt += ' if (%s)\n' % (m_name) |
| destruct_txt += ' delete %s;\n' % (m_name) |
| else: # new array and then init each element |
| construct_txt += ' if (pInStruct->%s) {\n' % (m_name) |
| construct_txt += ' %s = new %s[pInStruct->%s];\n' % (m_name, m_type, self.struct_dict[s][m]['array_size']) |
| #construct_txt += ' std::copy (pInStruct->%s, pInStruct->%s+pInStruct->%s, %s);\n' % (m_name, m_name, self.struct_dict[s][m]['array_size'], m_name) |
| construct_txt += ' memcpy ((void *)%s, (void *)pInStruct->%s, sizeof(%s)*pInStruct->%s);\n' % (m_name, m_name, m_type, self.struct_dict[s][m]['array_size']) |
| construct_txt += ' }\n' |
| destruct_txt += ' if (%s)\n' % (m_name) |
| destruct_txt += ' delete[] %s;\n' % (m_name) |
| elif self.struct_dict[s][m]['array']: |
| if not self.struct_dict[s][m]['dyn_array']: |
| # Handle static array case |
| construct_txt += ' for (uint32_t i=0; i<%s; ++i) {\n' % (self.struct_dict[s][m]['array_size']) |
| construct_txt += ' %s[i] = pInStruct->%s[i];\n' % (m_name, m_name) |
| construct_txt += ' }\n' |
| else: |
| # Init array ptr to NULL |
| default_init_list += '\n\t%s(nullptr),' % (m_name) |
| init_list += '\n\t%s(nullptr),' % (m_name) |
| init_func_txt += ' %s = nullptr;\n' % (m_name) |
| array_element = 'pInStruct->%s[i]' % (m_name) |
| if is_type(self.struct_dict[s][m]['type'], 'struct') and self._hasSafeStruct(self.struct_dict[s][m]['type']): |
| array_element = '%s(&pInStruct->%s[i])' % (self._getSafeStructName(self.struct_dict[s][m]['type']), m_name) |
| construct_txt += ' if (%s && pInStruct->%s) {\n' % (self.struct_dict[s][m]['array_size'], m_name) |
| construct_txt += ' %s = new %s[%s];\n' % (m_name, m_type, self.struct_dict[s][m]['array_size']) |
| destruct_txt += ' if (%s)\n' % (m_name) |
| destruct_txt += ' delete[] %s;\n' % (m_name) |
| construct_txt += ' for (uint32_t i=0; i<%s; ++i) {\n' % (self.struct_dict[s][m]['array_size']) |
| if 'safe_' in m_type: |
| construct_txt += ' %s[i].initialize(&pInStruct->%s[i]);\n' % (m_name, m_name) |
| else: |
| construct_txt += ' %s[i] = %s;\n' % (m_name, array_element) |
| construct_txt += ' }\n' |
| construct_txt += ' }\n' |
| elif self.struct_dict[s][m]['ptr']: |
| construct_txt += ' if (pInStruct->%s)\n' % (m_name) |
| construct_txt += ' %s = new %s(pInStruct->%s);\n' % (m_name, m_type, m_name) |
| construct_txt += ' else\n' |
| construct_txt += ' %s = NULL;\n' % (m_name) |
| destruct_txt += ' if (%s)\n' % (m_name) |
| destruct_txt += ' delete %s;\n' % (m_name) |
| elif 'safe_' in m_type: # inline struct, need to pass in reference for constructor |
| init_list += '\n\t%s(&pInStruct->%s),' % (m_name, m_name) |
| init_func_txt += ' %s.initialize(&pInStruct->%s);\n' % (m_name, m_name) |
| else: |
| init_list += '\n\t%s(pInStruct->%s),' % (m_name, m_name) |
| init_func_txt += ' %s = pInStruct->%s;\n' % (m_name, m_name) |
| if '' != init_list: |
| init_list = init_list[:-1] # hack off final comma |
| if s in custom_construct_txt: |
| construct_txt = custom_construct_txt[s] |
| ss_src.append("\n%s::%s(const %s* pInStruct) :%s\n{\n%s}" % (ss_name, ss_name, s, init_list, construct_txt)) |
| if '' != default_init_list: |
| default_init_list = " :%s" % (default_init_list[:-1]) |
| ss_src.append("\n%s::%s()%s\n{}" % (ss_name, ss_name, default_init_list)) |
| # Create slight variation of init and construct txt for copy constructor that takes a src object reference vs. struct ptr |
| copy_construct_init = init_func_txt.replace('pInStruct->', 'src.') |
| copy_construct_txt = construct_txt.replace(' (pInStruct->', ' (src.') # Exclude 'if' blocks from next line |
| copy_construct_txt = copy_construct_txt.replace('(pInStruct->', '(*src.') # Pass object to copy constructors |
| copy_construct_txt = copy_construct_txt.replace('pInStruct->', 'src.') # Modify remaining struct refs for src object |
| ss_src.append("\n%s::%s(const %s& src)\n{\n%s%s}" % (ss_name, ss_name, ss_name, copy_construct_init, copy_construct_txt)) # Copy constructor |
| ss_src.append("\n%s::~%s()\n{\n%s}" % (ss_name, ss_name, destruct_txt)) |
| ss_src.append("\nvoid %s::initialize(const %s* pInStruct)\n{\n%s%s}" % (ss_name, s, init_func_txt, construct_txt)) |
| # Copy initializer uses same txt as copy constructor but has a ptr and not a reference |
| init_copy = copy_construct_init.replace('src.', 'src->') |
| init_construct = copy_construct_txt.replace('src.', 'src->') |
| ss_src.append("\nvoid %s::initialize(const %s* src)\n{\n%s%s}" % (ss_name, ss_name, init_copy, init_construct)) |
| if s in ifdef_dict: |
| ss_src.append('#endif') |
| return "\n".join(ss_src) |
| |
| def main(argv=None): |
| opts = handle_args() |
| # Parse input file and fill out global dicts |
| hfp = HeaderFileParser(opts.input_file) |
| hfp.parse() |
| # TODO : Don't want these to be global, see note at top about wrapper classes |
| global enum_val_dict |
| global enum_type_dict |
| global struct_dict |
| global typedef_fwd_dict |
| global typedef_rev_dict |
| global types_dict |
| enum_val_dict = hfp.get_enum_val_dict() |
| enum_type_dict = hfp.get_enum_type_dict() |
| struct_dict = hfp.get_struct_dict() |
| # TODO : Would like to validate struct data here to verify that all of the bools for struct members are correct at this point |
| typedef_fwd_dict = hfp.get_typedef_fwd_dict() |
| typedef_rev_dict = hfp.get_typedef_rev_dict() |
| types_dict = hfp.get_types_dict() |
| #print(enum_val_dict) |
| #print(typedef_dict) |
| #print(struct_dict) |
| input_header = os.path.basename(opts.input_file) |
| if 'vulkan.h' == input_header: |
| input_header = "vulkan/vulkan.h" |
| |
| prefix = os.path.basename(opts.input_file).strip(".h") |
| if prefix == "vulkan": |
| prefix = "vk" |
| if (opts.abs_out_dir is not None): |
| enum_sh_filename = os.path.join(opts.abs_out_dir, prefix+"_enum_string_helper.h") |
| else: |
| enum_sh_filename = os.path.join(os.getcwd(), opts.rel_out_dir, prefix+"_enum_string_helper.h") |
| enum_sh_filename = os.path.abspath(enum_sh_filename) |
| if not os.path.exists(os.path.dirname(enum_sh_filename)): |
| if not opts.quiet: |
| print("Creating output dir %s" % os.path.dirname(enum_sh_filename)) |
| os.mkdir(os.path.dirname(enum_sh_filename)) |
| if opts.gen_struct_wrappers: |
| sw = StructWrapperGen(struct_dict, os.path.basename(opts.input_file).strip(".h"), os.path.dirname(enum_sh_filename), opts.quiet) |
| #print(sw.get_class_name(struct)) |
| sw.set_include_headers([input_header,os.path.basename(enum_sh_filename),"stdint.h","cinttypes", "stdio.h","stdlib.h"]) |
| sw.set_include_headers(["stdio.h", "stdlib.h", input_header]) |
| sw.generateSizeHelper() |
| sw.generateSizeHelperC() |
| sw.generateSafeStructHeader() |
| sw.generateSafeStructs() |
| if opts.gen_struct_sizes: |
| st = StructWrapperGen(struct_dict, os.path.basename(opts.input_file).strip(".h"), os.path.dirname(enum_sh_filename), opts.quiet) |
| st.set_include_headers(["stdio.h", "stdlib.h", input_header]) |
| st.generateSizeHelper() |
| st.generateSizeHelperC() |
| if not opts.quiet: |
| print("DONE!") |
| #print(typedef_rev_dict) |
| #print(types_dict) |
| #recreate_structs() |
| |
| if __name__ == "__main__": |
| sys.exit(main()) |