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| author | Mark Lobodzinski <mark@lunarg.com> | 2018-04-12 09:19:17 -0600 |
|---|---|---|
| committer | Mark Lobodzinski <mark@lunarg.com> | 2018-05-11 20:11:02 -0600 |
| commit | 4ef18fc1d4fdfe93970b4d9a558226e254d65a69 (patch) | |
| tree | 5f19e4ce51b8113dfe88c4fa811eedd1aae39990 /scripts/unique_objects_generator.py | |
| parent | 749319c818674839d56039ba3cdc830b08a0e713 (diff) | |
| download | usermoji-4ef18fc1d4fdfe93970b4d9a558226e254d65a69.tar.xz | |
repo: Delete unused code generators
Change-Id: I1ef619a117c6ec9c2befe0458eb8502894ecff6c
Diffstat (limited to 'scripts/unique_objects_generator.py')
| -rw-r--r-- | scripts/unique_objects_generator.py | 922 |
1 files changed, 0 insertions, 922 deletions
diff --git a/scripts/unique_objects_generator.py b/scripts/unique_objects_generator.py deleted file mode 100644 index abe8df4b..00000000 --- a/scripts/unique_objects_generator.py +++ /dev/null @@ -1,922 +0,0 @@ -#!/usr/bin/python3 -i -# -# 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: Tobin Ehlis <tobine@google.com> -# Author: Mark Lobodzinski <mark@lunarg.com> - -import os,re,sys -import xml.etree.ElementTree as etree -from generator import * -from collections import namedtuple -from common_codegen import * - -# UniqueObjectsGeneratorOptions - subclass of GeneratorOptions. -# -# Adds options used by UniqueObjectsOutputGenerator objects during -# unique objects layer generation. -# -# Additional members -# prefixText - list of strings to prefix generated header with -# (usually a copyright statement + calling convention macros). -# protectFile - True if multiple inclusion protection should be -# generated (based on the filename) around the entire header. -# protectFeature - True if #ifndef..#endif protection should be -# generated around a feature interface in the header file. -# genFuncPointers - True if function pointer typedefs should be -# generated -# protectProto - If conditional protection should be generated -# around prototype declarations, set to either '#ifdef' -# to require opt-in (#ifdef protectProtoStr) or '#ifndef' -# to require opt-out (#ifndef protectProtoStr). Otherwise -# set to None. -# protectProtoStr - #ifdef/#ifndef symbol to use around prototype -# declarations, if protectProto is set -# apicall - string to use for the function declaration prefix, -# such as APICALL on Windows. -# apientry - string to use for the calling convention macro, -# in typedefs, such as APIENTRY. -# apientryp - string to use for the calling convention macro -# in function pointer typedefs, such as APIENTRYP. -# indentFuncProto - True if prototype declarations should put each -# parameter on a separate line -# indentFuncPointer - True if typedefed function pointers should put each -# parameter on a separate line -# alignFuncParam - if nonzero and parameters are being put on a -# separate line, align parameter names at the specified column -class UniqueObjectsGeneratorOptions(GeneratorOptions): - def __init__(self, - filename = None, - directory = '.', - apiname = None, - profile = None, - versions = '.*', - emitversions = '.*', - defaultExtensions = None, - addExtensions = None, - removeExtensions = None, - emitExtensions = None, - sortProcedure = regSortFeatures, - prefixText = "", - genFuncPointers = True, - protectFile = True, - protectFeature = True, - apicall = '', - apientry = '', - apientryp = '', - indentFuncProto = True, - indentFuncPointer = False, - alignFuncParam = 0, - expandEnumerants = True): - GeneratorOptions.__init__(self, filename, directory, apiname, profile, - versions, emitversions, defaultExtensions, - addExtensions, removeExtensions, emitExtensions, sortProcedure) - self.prefixText = prefixText - self.genFuncPointers = genFuncPointers - self.protectFile = protectFile - self.protectFeature = protectFeature - self.apicall = apicall - self.apientry = apientry - self.apientryp = apientryp - self.indentFuncProto = indentFuncProto - self.indentFuncPointer = indentFuncPointer - self.alignFuncParam = alignFuncParam - self.expandEnumerants = expandEnumerants - - -# UniqueObjectsOutputGenerator - subclass of OutputGenerator. -# Generates unique objects layer non-dispatchable handle-wrapping code. -# -# ---- methods ---- -# UniqueObjectsOutputGenerator(errFile, warnFile, diagFile) - args as for OutputGenerator. Defines additional internal state. -# ---- methods overriding base class ---- -# beginFile(genOpts) -# endFile() -# beginFeature(interface, emit) -# endFeature() -# genCmd(cmdinfo) -# genStruct() -# genType() -class UniqueObjectsOutputGenerator(OutputGenerator): - """Generate UniqueObjects code based on XML element attributes""" - # This is an ordered list of sections in the header file. - ALL_SECTIONS = ['command'] - def __init__(self, - errFile = sys.stderr, - warnFile = sys.stderr, - diagFile = sys.stdout): - OutputGenerator.__init__(self, errFile, warnFile, diagFile) - self.INDENT_SPACES = 4 - self.intercepts = [] - self.instance_extensions = [] - self.device_extensions = [] - # Commands which are not autogenerated but still intercepted - self.no_autogen_list = [ - 'vkGetDeviceProcAddr', - 'vkGetInstanceProcAddr', - 'vkCreateInstance', - 'vkDestroyInstance', - 'vkCreateDevice', - 'vkDestroyDevice', - 'vkCreateComputePipelines', - 'vkCreateGraphicsPipelines', - 'vkCreateSwapchainKHR', - 'vkCreateSharedSwapchainsKHR', - 'vkGetSwapchainImagesKHR', - 'vkDestroySwapchainKHR', - 'vkQueuePresentKHR', - 'vkEnumerateInstanceLayerProperties', - 'vkEnumerateDeviceLayerProperties', - 'vkEnumerateInstanceExtensionProperties', - 'vkCreateDescriptorUpdateTemplate', - 'vkCreateDescriptorUpdateTemplateKHR', - 'vkDestroyDescriptorUpdateTemplate', - 'vkDestroyDescriptorUpdateTemplateKHR', - 'vkUpdateDescriptorSetWithTemplate', - 'vkUpdateDescriptorSetWithTemplateKHR', - 'vkCmdPushDescriptorSetWithTemplateKHR', - 'vkDebugMarkerSetObjectTagEXT', - 'vkDebugMarkerSetObjectNameEXT', - 'vkCreateRenderPass', - 'vkDestroyRenderPass', - 'vkSetDebugUtilsObjectNameEXT', - 'vkSetDebugUtilsObjectTagEXT', - ] - # Commands shadowed by interface functions and are not implemented - self.interface_functions = [ - 'vkGetPhysicalDeviceDisplayPropertiesKHR', - 'vkGetPhysicalDeviceDisplayPlanePropertiesKHR', - 'vkGetDisplayPlaneSupportedDisplaysKHR', - 'vkGetDisplayModePropertiesKHR', - 'vkGetDisplayPlaneCapabilitiesKHR', - # VK_EXT_debug_report APIs are hooked, but handled separately in the source file - 'vkCreateDebugReportCallbackEXT', - 'vkDestroyDebugReportCallbackEXT', - 'vkDebugReportMessageEXT', - # VK_EXT_debug_utils APIs are hooked, but handled separately in the source file - 'vkCreateDebugUtilsMessengerEXT', - 'vkDestroyDebugUtilsMessengerEXT', - 'vkSubmitDebugUtilsMessageEXT', - ] - self.headerVersion = None - # Internal state - accumulators for different inner block text - self.sections = dict([(section, []) for section in self.ALL_SECTIONS]) - - self.cmdMembers = [] - self.cmd_feature_protect = [] # Save ifdef's for each command - self.cmd_info_data = [] # Save the cmdinfo data for wrapping the handles when processing is complete - self.structMembers = [] # List of StructMemberData records for all Vulkan structs - self.extension_structs = [] # List of all structs or sister-structs containing handles - # A sister-struct may contain no handles but shares a structextends attribute with one that does - self.structTypes = dict() # Map of Vulkan struct typename to required VkStructureType - self.struct_member_dict = dict() - # Named tuples to store struct and command data - self.StructType = namedtuple('StructType', ['name', 'value']) - self.CmdMemberData = namedtuple('CmdMemberData', ['name', 'members']) - self.CmdInfoData = namedtuple('CmdInfoData', ['name', 'cmdinfo']) - self.CmdExtraProtect = namedtuple('CmdExtraProtect', ['name', 'extra_protect']) - - self.CommandParam = namedtuple('CommandParam', ['type', 'name', 'ispointer', 'isconst', 'iscount', 'len', 'extstructs', 'cdecl', 'islocal', 'iscreate', 'isdestroy', 'feature_protect']) - self.StructMemberData = namedtuple('StructMemberData', ['name', 'members']) - # - def incIndent(self, indent): - inc = ' ' * self.INDENT_SPACES - if indent: - return indent + inc - return inc - # - def decIndent(self, indent): - if indent and (len(indent) > self.INDENT_SPACES): - return indent[:-self.INDENT_SPACES] - return '' - # - # Override makeProtoName to drop the "vk" prefix - def makeProtoName(self, name, tail): - return self.genOpts.apientry + name[2:] + tail - # - # Check if the parameter passed in is a pointer to an array - def paramIsArray(self, param): - return param.attrib.get('len') is not None - # - def beginFile(self, genOpts): - OutputGenerator.beginFile(self, genOpts) - # User-supplied prefix text, if any (list of strings) - if (genOpts.prefixText): - for s in genOpts.prefixText: - write(s, file=self.outFile) - # Namespace - self.newline() - write('namespace unique_objects {', file = self.outFile) - # Now that the data is all collected and complete, generate and output the wrapping/unwrapping routines - def endFile(self): - - self.struct_member_dict = dict(self.structMembers) - - # Generate the list of APIs that might need to handle wrapped extension structs - self.GenerateCommandWrapExtensionList() - # Write out wrapping/unwrapping functions - self.WrapCommands() - # Build and write out pNext processing function - extension_proc = self.build_extension_processing_func() - self.newline() - write('// Unique Objects pNext extension handling function', file=self.outFile) - write('%s' % extension_proc, file=self.outFile) - - # Actually write the interface to the output file. - if (self.emit): - self.newline() - if (self.featureExtraProtect != None): - write('#ifdef', self.featureExtraProtect, file=self.outFile) - # Write the unique_objects code to the file - if (self.sections['command']): - write('\n'.join(self.sections['command']), end=u'', file=self.outFile) - if (self.featureExtraProtect != None): - write('\n#endif //', self.featureExtraProtect, file=self.outFile) - else: - self.newline() - - # Record intercepted procedures - write('// Map of all APIs to be intercepted by this layer', file=self.outFile) - write('static const std::unordered_map<std::string, void*> name_to_funcptr_map = {', file=self.outFile) - write('\n'.join(self.intercepts), file=self.outFile) - write('};\n', file=self.outFile) - self.newline() - write('} // namespace unique_objects', file=self.outFile) - # Finish processing in superclass - OutputGenerator.endFile(self) - # - def beginFeature(self, interface, emit): - # Start processing in superclass - OutputGenerator.beginFeature(self, interface, emit) - self.headerVersion = None - self.featureExtraProtect = GetFeatureProtect(interface) - if self.featureName != 'VK_VERSION_1_0' and self.featureName != 'VK_VERSION_1_1': - white_list_entry = [] - if (self.featureExtraProtect != None): - white_list_entry += [ '#ifdef %s' % self.featureExtraProtect ] - white_list_entry += [ '"%s"' % self.featureName ] - if (self.featureExtraProtect != None): - white_list_entry += [ '#endif' ] - featureType = interface.get('type') - if featureType == 'instance': - self.instance_extensions += white_list_entry - elif featureType == 'device': - self.device_extensions += white_list_entry - # - def endFeature(self): - # Finish processing in superclass - OutputGenerator.endFeature(self) - # - def genType(self, typeinfo, name, alias): - OutputGenerator.genType(self, typeinfo, name, alias) - typeElem = typeinfo.elem - # If the type is a struct type, traverse the imbedded <member> tags generating a structure. - # Otherwise, emit the tag text. - category = typeElem.get('category') - if (category == 'struct' or category == 'union'): - self.genStruct(typeinfo, name, alias) - # - # Append a definition to the specified section - def appendSection(self, section, text): - # self.sections[section].append('SECTION: ' + section + '\n') - self.sections[section].append(text) - # - # Check if the parameter passed in is a pointer - def paramIsPointer(self, param): - ispointer = False - for elem in param: - if ((elem.tag is not 'type') and (elem.tail is not None)) and '*' in elem.tail: - ispointer = True - return ispointer - # - # Get the category of a type - def getTypeCategory(self, typename): - types = self.registry.tree.findall("types/type") - for elem in types: - if (elem.find("name") is not None and elem.find('name').text == typename) or elem.attrib.get('name') == typename: - return elem.attrib.get('category') - # - # Check if a parent object is dispatchable or not - def isHandleTypeNonDispatchable(self, handletype): - handle = self.registry.tree.find("types/type/[name='" + handletype + "'][@category='handle']") - if handle is not None and handle.find('type').text == 'VK_DEFINE_NON_DISPATCHABLE_HANDLE': - return True - else: - return False - # - # Retrieve the type and name for a parameter - def getTypeNameTuple(self, param): - type = '' - name = '' - for elem in param: - if elem.tag == 'type': - type = noneStr(elem.text) - elif elem.tag == 'name': - name = noneStr(elem.text) - return (type, name) - # - # Retrieve the value of the len tag - def getLen(self, param): - result = None - len = param.attrib.get('len') - if len and len != 'null-terminated': - # For string arrays, 'len' can look like 'count,null-terminated', indicating that we - # have a null terminated array of strings. We strip the null-terminated from the - # 'len' field and only return the parameter specifying the string count - if 'null-terminated' in len: - result = len.split(',')[0] - else: - result = len - # Spec has now notation for len attributes, using :: instead of platform specific pointer symbol - result = str(result).replace('::', '->') - return result - # - # Generate a VkStructureType based on a structure typename - def genVkStructureType(self, typename): - # Add underscore between lowercase then uppercase - value = re.sub('([a-z0-9])([A-Z])', r'\1_\2', typename) - # Change to uppercase - value = value.upper() - # Add STRUCTURE_TYPE_ - return re.sub('VK_', 'VK_STRUCTURE_TYPE_', value) - # - # Struct parameter check generation. - # This is a special case of the <type> tag where the contents are interpreted as a set of - # <member> tags instead of freeform C type declarations. The <member> tags are just like - # <param> tags - they are a declaration of a struct or union member. Only simple member - # declarations are supported (no nested structs etc.) - def genStruct(self, typeinfo, typeName, alias): - OutputGenerator.genStruct(self, typeinfo, typeName, alias) - members = typeinfo.elem.findall('.//member') - # Iterate over members once to get length parameters for arrays - lens = set() - for member in members: - len = self.getLen(member) - if len: - lens.add(len) - # Generate member info - membersInfo = [] - for member in members: - # Get the member's type and name - info = self.getTypeNameTuple(member) - type = info[0] - name = info[1] - cdecl = self.makeCParamDecl(member, 0) - # Process VkStructureType - if type == 'VkStructureType': - # Extract the required struct type value from the comments - # embedded in the original text defining the 'typeinfo' element - rawXml = etree.tostring(typeinfo.elem).decode('ascii') - result = re.search(r'VK_STRUCTURE_TYPE_\w+', rawXml) - if result: - value = result.group(0) - else: - value = self.genVkStructureType(typeName) - # Store the required type value - self.structTypes[typeName] = self.StructType(name=name, value=value) - # Store pointer/array/string info - extstructs = self.registry.validextensionstructs[typeName] if name == 'pNext' else None - membersInfo.append(self.CommandParam(type=type, - name=name, - ispointer=self.paramIsPointer(member), - isconst=True if 'const' in cdecl else False, - iscount=True if name in lens else False, - len=self.getLen(member), - extstructs=extstructs, - cdecl=cdecl, - islocal=False, - iscreate=False, - isdestroy=False, - feature_protect=self.featureExtraProtect)) - self.structMembers.append(self.StructMemberData(name=typeName, members=membersInfo)) - - # - # Insert a lock_guard line - def lock_guard(self, indent): - return '%sstd::lock_guard<std::mutex> lock(global_lock);\n' % indent - # - # Determine if a struct has an NDO as a member or an embedded member - def struct_contains_ndo(self, struct_item): - struct_member_dict = dict(self.structMembers) - struct_members = struct_member_dict[struct_item] - - for member in struct_members: - if self.isHandleTypeNonDispatchable(member.type): - return True - elif member.type in struct_member_dict: - if self.struct_contains_ndo(member.type) == True: - return True - return False - # - # Return list of struct members which contain, or which sub-structures contain - # an NDO in a given list of parameters or members - def getParmeterStructsWithNdos(self, item_list): - struct_list = set() - for item in item_list: - paramtype = item.find('type') - typecategory = self.getTypeCategory(paramtype.text) - if typecategory == 'struct': - if self.struct_contains_ndo(paramtype.text) == True: - struct_list.add(item) - return struct_list - # - # Return list of non-dispatchable objects from a given list of parameters or members - def getNdosInParameterList(self, item_list, create_func): - ndo_list = set() - if create_func == True: - member_list = item_list[0:-1] - else: - member_list = item_list - for item in member_list: - if self.isHandleTypeNonDispatchable(paramtype.text): - ndo_list.add(item) - return ndo_list - # - # Construct list of extension structs containing handles, or extension structs that share a structextends attribute - # WITH an extension struct containing handles. All extension structs in any pNext chain will have to be copied. - # TODO: make this recursive -- structs buried three or more levels deep are not searched for extensions - def GenerateCommandWrapExtensionList(self): - for struct in self.structMembers: - if (len(struct.members) > 1) and struct.members[1].extstructs is not None: - found = False; - for item in struct.members[1].extstructs: - if item != '' and self.struct_contains_ndo(item) == True: - found = True - if found == True: - for item in struct.members[1].extstructs: - if item != '' and item not in self.extension_structs: - self.extension_structs.append(item) - # - # Returns True if a struct may have a pNext chain containing an NDO - def StructWithExtensions(self, struct_type): - if struct_type in self.struct_member_dict: - param_info = self.struct_member_dict[struct_type] - if (len(param_info) > 1) and param_info[1].extstructs is not None: - for item in param_info[1].extstructs: - if item in self.extension_structs: - return True - return False - # - # Generate pNext handling function - def build_extension_processing_func(self): - # Construct helper functions to build and free pNext extension chains - pnext_proc = '' - pnext_proc += 'void *CreateUnwrappedExtensionStructs(const void *pNext) {\n' - pnext_proc += ' void *cur_pnext = const_cast<void *>(pNext);\n' - pnext_proc += ' void *head_pnext = NULL;\n' - pnext_proc += ' void *prev_ext_struct = NULL;\n' - pnext_proc += ' void *cur_ext_struct = NULL;\n\n' - pnext_proc += ' while (cur_pnext != NULL) {\n' - pnext_proc += ' GenericHeader *header = reinterpret_cast<GenericHeader *>(cur_pnext);\n\n' - pnext_proc += ' switch (header->sType) {\n' - for item in self.extension_structs: - struct_info = self.struct_member_dict[item] - if struct_info[0].feature_protect is not None: - pnext_proc += '#ifdef %s \n' % struct_info[0].feature_protect - pnext_proc += ' case %s: {\n' % self.structTypes[item].value - pnext_proc += ' safe_%s *safe_struct = new safe_%s;\n' % (item, item) - pnext_proc += ' safe_struct->initialize(reinterpret_cast<const %s *>(cur_pnext));\n' % item - # Generate code to unwrap the handles - indent = ' ' - (tmp_decl, tmp_pre, tmp_post) = self.uniquify_members(struct_info, indent, 'safe_struct->', 0, False, False, False, False) - pnext_proc += tmp_pre - pnext_proc += ' cur_ext_struct = reinterpret_cast<void *>(safe_struct);\n' - pnext_proc += ' } break;\n' - if struct_info[0].feature_protect is not None: - pnext_proc += '#endif // %s \n' % struct_info[0].feature_protect - pnext_proc += '\n' - pnext_proc += ' default:\n' - pnext_proc += ' break;\n' - pnext_proc += ' }\n\n' - pnext_proc += ' // Save pointer to the first structure in the pNext chain\n' - pnext_proc += ' head_pnext = (head_pnext ? head_pnext : cur_ext_struct);\n\n' - pnext_proc += ' // For any extension structure but the first, link the last struct\'s pNext to the current ext struct\n' - pnext_proc += ' if (prev_ext_struct) {\n' - pnext_proc += ' (reinterpret_cast<GenericHeader *>(prev_ext_struct))->pNext = cur_ext_struct;\n' - pnext_proc += ' }\n' - pnext_proc += ' prev_ext_struct = cur_ext_struct;\n\n' - pnext_proc += ' // Process the next structure in the chain\n' - pnext_proc += ' cur_pnext = const_cast<void *>(header->pNext);\n' - pnext_proc += ' }\n' - pnext_proc += ' return head_pnext;\n' - pnext_proc += '}\n\n' - pnext_proc += '// Free a pNext extension chain\n' - pnext_proc += 'void FreeUnwrappedExtensionStructs(void *head) {\n' - pnext_proc += ' GenericHeader *curr_ptr = reinterpret_cast<GenericHeader *>(head);\n' - pnext_proc += ' while (curr_ptr) {\n' - pnext_proc += ' GenericHeader *header = curr_ptr;\n' - pnext_proc += ' curr_ptr = reinterpret_cast<GenericHeader *>(header->pNext);\n\n' - pnext_proc += ' switch (header->sType) {\n'; - for item in self.extension_structs: - struct_info = self.struct_member_dict[item] - if struct_info[0].feature_protect is not None: - pnext_proc += '#ifdef %s \n' % struct_info[0].feature_protect - pnext_proc += ' case %s:\n' % self.structTypes[item].value - pnext_proc += ' delete reinterpret_cast<safe_%s *>(header);\n' % item - pnext_proc += ' break;\n' - if struct_info[0].feature_protect is not None: - pnext_proc += '#endif // %s \n' % struct_info[0].feature_protect - pnext_proc += '\n' - pnext_proc += ' default:\n' - pnext_proc += ' assert(0);\n' - pnext_proc += ' }\n' - pnext_proc += ' }\n' - pnext_proc += '}\n' - return pnext_proc - - # - # Generate source for creating a non-dispatchable object - def generate_create_ndo_code(self, indent, proto, params, cmd_info): - create_ndo_code = '' - handle_type = params[-1].find('type') - if self.isHandleTypeNonDispatchable(handle_type.text): - # Check for special case where multiple handles are returned - ndo_array = False - if cmd_info[-1].len is not None: - ndo_array = True; - handle_name = params[-1].find('name') - create_ndo_code += '%sif (VK_SUCCESS == result) {\n' % (indent) - indent = self.incIndent(indent) - create_ndo_code += '%sstd::lock_guard<std::mutex> lock(global_lock);\n' % (indent) - ndo_dest = '*%s' % handle_name.text - if ndo_array == True: - create_ndo_code += '%sfor (uint32_t index0 = 0; index0 < %s; index0++) {\n' % (indent, cmd_info[-1].len) - indent = self.incIndent(indent) - ndo_dest = '%s[index0]' % cmd_info[-1].name - create_ndo_code += '%s%s = WrapNew(%s);\n' % (indent, ndo_dest, ndo_dest) - if ndo_array == True: - indent = self.decIndent(indent) - create_ndo_code += '%s}\n' % indent - indent = self.decIndent(indent) - create_ndo_code += '%s}\n' % (indent) - return create_ndo_code - # - # Generate source for destroying a non-dispatchable object - def generate_destroy_ndo_code(self, indent, proto, cmd_info): - destroy_ndo_code = '' - ndo_array = False - if True in [destroy_txt in proto.text for destroy_txt in ['Destroy', 'Free']]: - # Check for special case where multiple handles are returned - if cmd_info[-1].len is not None: - ndo_array = True; - param = -1 - else: - param = -2 - if self.isHandleTypeNonDispatchable(cmd_info[param].type) == True: - if ndo_array == True: - # This API is freeing an array of handles. Remove them from the unique_id map. - destroy_ndo_code += '%sif ((VK_SUCCESS == result) && (%s)) {\n' % (indent, cmd_info[param].name) - indent = self.incIndent(indent) - destroy_ndo_code += '%sstd::unique_lock<std::mutex> lock(global_lock);\n' % (indent) - destroy_ndo_code += '%sfor (uint32_t index0 = 0; index0 < %s; index0++) {\n' % (indent, cmd_info[param].len) - indent = self.incIndent(indent) - destroy_ndo_code += '%s%s handle = %s[index0];\n' % (indent, cmd_info[param].type, cmd_info[param].name) - destroy_ndo_code += '%suint64_t unique_id = reinterpret_cast<uint64_t &>(handle);\n' % (indent) - destroy_ndo_code += '%sunique_id_mapping.erase(unique_id);\n' % (indent) - indent = self.decIndent(indent); - destroy_ndo_code += '%s}\n' % indent - indent = self.decIndent(indent); - destroy_ndo_code += '%s}\n' % indent - else: - # Remove a single handle from the map - destroy_ndo_code += '%sstd::unique_lock<std::mutex> lock(global_lock);\n' % (indent) - destroy_ndo_code += '%suint64_t %s_id = reinterpret_cast<uint64_t &>(%s);\n' % (indent, cmd_info[param].name, cmd_info[param].name) - destroy_ndo_code += '%s%s = (%s)unique_id_mapping[%s_id];\n' % (indent, cmd_info[param].name, cmd_info[param].type, cmd_info[param].name) - destroy_ndo_code += '%sunique_id_mapping.erase(%s_id);\n' % (indent, cmd_info[param].name) - destroy_ndo_code += '%slock.unlock();\n' % (indent) - return ndo_array, destroy_ndo_code - - # - # Clean up local declarations - def cleanUpLocalDeclarations(self, indent, prefix, name, len, index, process_pnext): - cleanup = '%sif (local_%s%s) {\n' % (indent, prefix, name) - if len is not None: - if process_pnext: - cleanup += '%s for (uint32_t %s = 0; %s < %s%s; ++%s) {\n' % (indent, index, index, prefix, len, index) - cleanup += '%s FreeUnwrappedExtensionStructs(const_cast<void *>(local_%s%s[%s].pNext));\n' % (indent, prefix, name, index) - cleanup += '%s }\n' % indent - cleanup += '%s delete[] local_%s%s;\n' % (indent, prefix, name) - else: - if process_pnext: - cleanup += '%s FreeUnwrappedExtensionStructs(const_cast<void *>(local_%s%s->pNext));\n' % (indent, prefix, name) - cleanup += '%s delete local_%s%s;\n' % (indent, prefix, name) - cleanup += "%s}\n" % (indent) - return cleanup - # - # Output UO code for a single NDO (ndo_count is NULL) or a counted list of NDOs - def outputNDOs(self, ndo_type, ndo_name, ndo_count, prefix, index, indent, destroy_func, destroy_array, top_level): - decl_code = '' - pre_call_code = '' - post_call_code = '' - if ndo_count is not None: - if top_level == True: - decl_code += '%s%s *local_%s%s = NULL;\n' % (indent, ndo_type, prefix, ndo_name) - pre_call_code += '%s if (%s%s) {\n' % (indent, prefix, ndo_name) - indent = self.incIndent(indent) - if top_level == True: - pre_call_code += '%s local_%s%s = new %s[%s];\n' % (indent, prefix, ndo_name, ndo_type, ndo_count) - pre_call_code += '%s for (uint32_t %s = 0; %s < %s; ++%s) {\n' % (indent, index, index, ndo_count, index) - indent = self.incIndent(indent) - pre_call_code += '%s local_%s%s[%s] = Unwrap(%s[%s]);\n' % (indent, prefix, ndo_name, index, ndo_name, index) - else: - pre_call_code += '%s for (uint32_t %s = 0; %s < %s; ++%s) {\n' % (indent, index, index, ndo_count, index) - indent = self.incIndent(indent) - pre_call_code += '%s %s%s[%s] = Unwrap(%s%s[%s]);\n' % (indent, prefix, ndo_name, index, prefix, ndo_name, index) - indent = self.decIndent(indent) - pre_call_code += '%s }\n' % indent - indent = self.decIndent(indent) - pre_call_code += '%s }\n' % indent - if top_level == True: - post_call_code += '%sif (local_%s%s)\n' % (indent, prefix, ndo_name) - indent = self.incIndent(indent) - post_call_code += '%sdelete[] local_%s;\n' % (indent, ndo_name) - else: - if top_level == True: - if (destroy_func == False) or (destroy_array == True): - pre_call_code += '%s %s = Unwrap(%s);\n' % (indent, ndo_name, ndo_name) - else: - # Make temp copy of this var with the 'local' removed. It may be better to not pass in 'local_' - # as part of the string and explicitly print it - fix = str(prefix).strip('local_'); - pre_call_code += '%s if (%s%s) {\n' % (indent, fix, ndo_name) - indent = self.incIndent(indent) - pre_call_code += '%s %s%s = Unwrap(%s%s);\n' % (indent, prefix, ndo_name, fix, ndo_name) - indent = self.decIndent(indent) - pre_call_code += '%s }\n' % indent - return decl_code, pre_call_code, post_call_code - # - # first_level_param indicates if elements are passed directly into the function else they're below a ptr/struct - # create_func means that this is API creates or allocates NDOs - # destroy_func indicates that this API destroys or frees NDOs - # destroy_array means that the destroy_func operated on an array of NDOs - def uniquify_members(self, members, indent, prefix, array_index, create_func, destroy_func, destroy_array, first_level_param): - decls = '' - pre_code = '' - post_code = '' - index = 'index%s' % str(array_index) - array_index += 1 - # Process any NDOs in this structure and recurse for any sub-structs in this struct - for member in members: - process_pnext = self.StructWithExtensions(member.type) - # Handle NDOs - if self.isHandleTypeNonDispatchable(member.type) == True: - count_name = member.len - if (count_name is not None): - if first_level_param == False: - count_name = '%s%s' % (prefix, member.len) - - if (first_level_param == False) or (create_func == False): - (tmp_decl, tmp_pre, tmp_post) = self.outputNDOs(member.type, member.name, count_name, prefix, index, indent, destroy_func, destroy_array, first_level_param) - decls += tmp_decl - pre_code += tmp_pre - post_code += tmp_post - # Handle Structs that contain NDOs at some level - elif member.type in self.struct_member_dict: - # Structs at first level will have an NDO, OR, we need a safe_struct for the pnext chain - if self.struct_contains_ndo(member.type) == True or process_pnext: - struct_info = self.struct_member_dict[member.type] - # Struct Array - if member.len is not None: - # Update struct prefix - if first_level_param == True: - new_prefix = 'local_%s' % member.name - # Declare safe_VarType for struct - decls += '%ssafe_%s *%s = NULL;\n' % (indent, member.type, new_prefix) - else: - new_prefix = '%s%s' % (prefix, member.name) - pre_code += '%s if (%s%s) {\n' % (indent, prefix, member.name) - indent = self.incIndent(indent) - if first_level_param == True: - pre_code += '%s %s = new safe_%s[%s];\n' % (indent, new_prefix, member.type, member.len) - pre_code += '%s for (uint32_t %s = 0; %s < %s%s; ++%s) {\n' % (indent, index, index, prefix, member.len, index) - indent = self.incIndent(indent) - if first_level_param == True: - pre_code += '%s %s[%s].initialize(&%s[%s]);\n' % (indent, new_prefix, index, member.name, index) - if process_pnext: - pre_code += '%s %s[%s].pNext = CreateUnwrappedExtensionStructs(%s[%s].pNext);\n' % (indent, new_prefix, index, new_prefix, index) - local_prefix = '%s[%s].' % (new_prefix, index) - # Process sub-structs in this struct - (tmp_decl, tmp_pre, tmp_post) = self.uniquify_members(struct_info, indent, local_prefix, array_index, create_func, destroy_func, destroy_array, False) - decls += tmp_decl - pre_code += tmp_pre - post_code += tmp_post - indent = self.decIndent(indent) - pre_code += '%s }\n' % indent - indent = self.decIndent(indent) - pre_code += '%s }\n' % indent - if first_level_param == True: - post_code += self.cleanUpLocalDeclarations(indent, prefix, member.name, member.len, index, process_pnext) - # Single Struct - else: - # Update struct prefix - if first_level_param == True: - new_prefix = 'local_%s->' % member.name - decls += '%ssafe_%s *local_%s%s = NULL;\n' % (indent, member.type, prefix, member.name) - else: - new_prefix = '%s%s->' % (prefix, member.name) - # Declare safe_VarType for struct - pre_code += '%s if (%s%s) {\n' % (indent, prefix, member.name) - indent = self.incIndent(indent) - if first_level_param == True: - pre_code += '%s local_%s%s = new safe_%s(%s);\n' % (indent, prefix, member.name, member.type, member.name) - # Process sub-structs in this struct - (tmp_decl, tmp_pre, tmp_post) = self.uniquify_members(struct_info, indent, new_prefix, array_index, create_func, destroy_func, destroy_array, False) - decls += tmp_decl - pre_code += tmp_pre - post_code += tmp_post - if process_pnext: - pre_code += '%s local_%s%s->pNext = CreateUnwrappedExtensionStructs(local_%s%s->pNext);\n' % (indent, prefix, member.name, prefix, member.name) - indent = self.decIndent(indent) - pre_code += '%s }\n' % indent - if first_level_param == True: - post_code += self.cleanUpLocalDeclarations(indent, prefix, member.name, member.len, index, process_pnext) - return decls, pre_code, post_code - # - # For a particular API, generate the non-dispatchable-object wrapping/unwrapping code - def generate_wrapping_code(self, cmd): - indent = ' ' - proto = cmd.find('proto/name') - params = cmd.findall('param') - - if proto.text is not None: - cmd_member_dict = dict(self.cmdMembers) - cmd_info = cmd_member_dict[proto.text] - # Handle ndo create/allocate operations - if cmd_info[0].iscreate: - create_ndo_code = self.generate_create_ndo_code(indent, proto, params, cmd_info) - else: - create_ndo_code = '' - # Handle ndo destroy/free operations - if cmd_info[0].isdestroy: - (destroy_array, destroy_ndo_code) = self.generate_destroy_ndo_code(indent, proto, cmd_info) - else: - destroy_array = False - destroy_ndo_code = '' - paramdecl = '' - param_pre_code = '' - param_post_code = '' - create_func = True if create_ndo_code else False - destroy_func = True if destroy_ndo_code else False - (paramdecl, param_pre_code, param_post_code) = self.uniquify_members(cmd_info, indent, '', 0, create_func, destroy_func, destroy_array, True) - param_post_code += create_ndo_code - if destroy_ndo_code: - if destroy_array == True: - param_post_code += destroy_ndo_code - else: - param_pre_code += destroy_ndo_code - if param_pre_code: - if (not destroy_func) or (destroy_array): - param_pre_code = '%s{\n%s%s%s%s}\n' % (' ', indent, self.lock_guard(indent), param_pre_code, indent) - return paramdecl, param_pre_code, param_post_code - # - # Capture command parameter info needed to wrap NDOs as well as handling some boilerplate code - def genCmd(self, cmdinfo, cmdname, alias): - - # Add struct-member type information to command parameter information - OutputGenerator.genCmd(self, cmdinfo, cmdname, alias) - members = cmdinfo.elem.findall('.//param') - # Iterate over members once to get length parameters for arrays - lens = set() - for member in members: - len = self.getLen(member) - if len: - lens.add(len) - struct_member_dict = dict(self.structMembers) - # Generate member info - membersInfo = [] - constains_extension_structs = False - for member in members: - # Get type and name of member - info = self.getTypeNameTuple(member) - type = info[0] - name = info[1] - cdecl = self.makeCParamDecl(member, 0) - # Check for parameter name in lens set - iscount = True if name in lens else False - len = self.getLen(member) - isconst = True if 'const' in cdecl else False - ispointer = self.paramIsPointer(member) - # Mark param as local if it is an array of NDOs - islocal = False; - if self.isHandleTypeNonDispatchable(type) == True: - if (len is not None) and (isconst == True): - islocal = True - # Or if it's a struct that contains an NDO - elif type in struct_member_dict: - if self.struct_contains_ndo(type) == True: - islocal = True - isdestroy = True if True in [destroy_txt in cmdname for destroy_txt in ['Destroy', 'Free']] else False - iscreate = True if True in [create_txt in cmdname for create_txt in ['Create', 'Allocate', 'GetRandROutputDisplayEXT', 'RegisterDeviceEvent', 'RegisterDisplayEvent']] else False - extstructs = self.registry.validextensionstructs[type] if name == 'pNext' else None - membersInfo.append(self.CommandParam(type=type, - name=name, - ispointer=ispointer, - isconst=isconst, - iscount=iscount, - len=len, - extstructs=extstructs, - cdecl=cdecl, - islocal=islocal, - iscreate=iscreate, - isdestroy=isdestroy, - feature_protect=self.featureExtraProtect)) - self.cmdMembers.append(self.CmdMemberData(name=cmdname, members=membersInfo)) - self.cmd_info_data.append(self.CmdInfoData(name=cmdname, cmdinfo=cmdinfo)) - self.cmd_feature_protect.append(self.CmdExtraProtect(name=cmdname, extra_protect=self.featureExtraProtect)) - # - # Create code to wrap NDOs as well as handling some boilerplate code - def WrapCommands(self): - cmd_member_dict = dict(self.cmdMembers) - cmd_info_dict = dict(self.cmd_info_data) - cmd_protect_dict = dict(self.cmd_feature_protect) - - for api_call in self.cmdMembers: - cmdname = api_call.name - cmdinfo = cmd_info_dict[api_call.name] - if cmdname in self.interface_functions: - continue - if cmdname in self.no_autogen_list: - decls = self.makeCDecls(cmdinfo.elem) - self.appendSection('command', '') - self.appendSection('command', '// Declare only') - self.appendSection('command', decls[0]) - self.intercepts += [ ' {"%s", (void *)%s},' % (cmdname,cmdname[2:]) ] - continue - # Generate NDO wrapping/unwrapping code for all parameters - (api_decls, api_pre, api_post) = self.generate_wrapping_code(cmdinfo.elem) - # If API doesn't contain an NDO's, don't fool with it - if not api_decls and not api_pre and not api_post: - continue - feature_extra_protect = cmd_protect_dict[api_call.name] - if (feature_extra_protect != None): - self.appendSection('command', '') - self.appendSection('command', '#ifdef '+ feature_extra_protect) - self.intercepts += [ '#ifdef %s' % feature_extra_protect ] - # Add intercept to procmap - self.intercepts += [ ' {"%s", (void*)%s},' % (cmdname,cmdname[2:]) ] - decls = self.makeCDecls(cmdinfo.elem) - self.appendSection('command', '') - self.appendSection('command', decls[0][:-1]) - self.appendSection('command', '{') - # Setup common to call wrappers, first parameter is always dispatchable - dispatchable_type = cmdinfo.elem.find('param/type').text - dispatchable_name = cmdinfo.elem.find('param/name').text - # Generate local instance/pdev/device data lookup - if dispatchable_type in ["VkPhysicalDevice", "VkInstance"]: - self.appendSection('command', ' instance_layer_data *dev_data = GetLayerDataPtr(get_dispatch_key('+dispatchable_name+'), instance_layer_data_map);') - else: - self.appendSection('command', ' layer_data *dev_data = GetLayerDataPtr(get_dispatch_key('+dispatchable_name+'), layer_data_map);') - # Handle return values, if any - resulttype = cmdinfo.elem.find('proto/type') - if (resulttype != None and resulttype.text == 'void'): - resulttype = None - if (resulttype != None): - assignresult = resulttype.text + ' result = ' - else: - assignresult = '' - # Pre-pend declarations and pre-api-call codegen - if api_decls: - self.appendSection('command', "\n".join(str(api_decls).rstrip().split("\n"))) - if api_pre: - self.appendSection('command', "\n".join(str(api_pre).rstrip().split("\n"))) - # Generate the API call itself - # Gather the parameter items - params = cmdinfo.elem.findall('param/name') - # Pull out the text for each of the parameters, separate them by commas in a list - paramstext = ', '.join([str(param.text) for param in params]) - # If any of these paramters has been replaced by a local var, fix up the list - params = cmd_member_dict[cmdname] - for param in params: - if param.islocal == True or self.StructWithExtensions(param.type): - if param.ispointer == True: - paramstext = paramstext.replace(param.name, '(%s %s*)local_%s' % ('const', param.type, param.name)) - else: - paramstext = paramstext.replace(param.name, '(%s %s)local_%s' % ('const', param.type, param.name)) - # Use correct dispatch table - API = cmdinfo.elem.attrib.get('name').replace('vk','dev_data->dispatch_table.',1) - # Put all this together for the final down-chain call - self.appendSection('command', ' ' + assignresult + API + '(' + paramstext + ');') - # And add the post-API-call codegen - self.appendSection('command', "\n".join(str(api_post).rstrip().split("\n"))) - # Handle the return result variable, if any - if (resulttype != None): - self.appendSection('command', ' return result;') - self.appendSection('command', '}') - if (feature_extra_protect != None): - self.appendSection('command', '#endif // '+ feature_extra_protect) - self.intercepts += [ '#endif' ] |