//* Copyright 2017 The Dawn Authors //* //* 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. {% set Prefix = metadata.proc_table_prefix %} {% set prefix = Prefix.lower() %} {% set impl_dir = metadata.impl_dir + "/" if metadata.impl_dir else "" %} {% set namespace_name = Name(metadata.native_namespace) %} {% set native_namespace = namespace_name.namespace_case() %} {% set native_dir = impl_dir + namespace_name.Dirs() %} #include "{{native_dir}}/{{prefix}}_platform.h" #include "{{native_dir}}/{{Prefix}}Native.h" #include #include {% for type in by_category["object"] %} {% if type.name.canonical_case() not in ["texture view"] %} #include "{{native_dir}}/{{type.name.CamelCase()}}.h" {% endif %} {% endfor %} namespace {{native_namespace}} { {% for type in by_category["object"] %} {% for method in c_methods(type) %} {% set suffix = as_MethodSuffix(type.name, method.name) %} {{as_cType(method.return_type.name)}} Native{{suffix}}( {{-as_cType(type.name)}} cSelf {%- for arg in method.arguments -%} , {{as_annotated_cType(arg)}} {%- endfor -%} ) { //* Perform conversion between C types and frontend types auto self = FromAPI(cSelf); {% for arg in method.arguments %} {% set varName = as_varName(arg.name) %} {% if arg.type.category in ["enum", "bitmask"] and arg.annotation == "value" %} auto {{varName}}_ = static_cast<{{as_frontendType(arg.type)}}>({{varName}}); {% elif arg.annotation != "value" or arg.type.category == "object" %} auto {{varName}}_ = reinterpret_cast<{{decorate("", as_frontendType(arg.type), arg)}}>({{varName}}); {% else %} auto {{varName}}_ = {{as_varName(arg.name)}}; {% endif %} {%- endfor-%} {% if method.return_type.name.canonical_case() != "void" %} auto result = {%- endif %} self->API{{method.name.CamelCase()}}( {%- for arg in method.arguments -%} {%- if not loop.first %}, {% endif -%} {{as_varName(arg.name)}}_ {%- endfor -%} ); {% if method.return_type.name.canonical_case() != "void" %} {% if method.return_type.category == "object" %} return ToAPI(result); {% else %} return result; {% endif %} {% endif %} } {% endfor %} {% endfor %} {% for function in by_category["function"] if function.name.canonical_case() != "get proc address" %} {{as_cType(function.return_type.name)}} Native{{function.name.CamelCase()}}( {%- for arg in function.arguments -%} {%- if not loop.first %}, {% endif -%} {{as_annotated_cType(arg)}} {%- endfor -%} ) { {% for arg in function.arguments %} {% set varName = as_varName(arg.name) %} {% if arg.type.category in ["enum", "bitmask"] and arg.annotation == "value" %} auto {{varName}}_ = static_cast<{{as_frontendType(arg.type)}}>({{varName}}); {% elif arg.annotation != "value" or arg.type.category == "object" %} auto {{varName}}_ = reinterpret_cast<{{decorate("", as_frontendType(arg.type), arg)}}>({{varName}}); {% else %} auto {{varName}}_ = {{as_varName(arg.name)}}; {% endif %} {%- endfor-%} {% if function.return_type.name.canonical_case() != "void" %} auto result = {%- endif %} API{{function.name.CamelCase()}}( {%- for arg in function.arguments -%} {%- if not loop.first %}, {% endif -%} {{as_varName(arg.name)}}_ {%- endfor -%} ); {% if function.return_type.name.canonical_case() != "void" %} {% if function.return_type.category == "object" %} return ToAPI(result); {% else %} return result; {% endif %} {% endif %} } {% endfor %} namespace { {% set c_prefix = metadata.c_prefix %} struct ProcEntry { {{c_prefix}}Proc proc; const char* name; }; static const ProcEntry sProcMap[] = { {% for (type, method) in c_methods_sorted_by_name %} { reinterpret_cast<{{c_prefix}}Proc>(Native{{as_MethodSuffix(type.name, method.name)}}), "{{as_cMethod(type.name, method.name)}}" }, {% endfor %} }; static constexpr size_t sProcMapSize = sizeof(sProcMap) / sizeof(sProcMap[0]); } // anonymous namespace WGPUProc NativeGetProcAddress(WGPUDevice, const char* procName) { if (procName == nullptr) { return nullptr; } const ProcEntry* entry = std::lower_bound(&sProcMap[0], &sProcMap[sProcMapSize], procName, [](const ProcEntry &a, const char *b) -> bool { return strcmp(a.name, b) < 0; } ); if (entry != &sProcMap[sProcMapSize] && strcmp(entry->name, procName) == 0) { return entry->proc; } // Special case the free-standing functions of the API. // TODO(dawn:1238) Checking string one by one is slow, it needs to be optimized. {% for function in by_category["function"] %} if (strcmp(procName, "{{as_cMethod(None, function.name)}}") == 0) { return reinterpret_cast<{{c_prefix}}Proc>(Native{{as_cppType(function.name)}}); } {% endfor %} return nullptr; } std::vector GetProcMapNamesForTestingInternal() { std::vector result; result.reserve(sProcMapSize); for (const ProcEntry& entry : sProcMap) { result.push_back(entry.name); } return result; } static {{Prefix}}ProcTable gProcTable = { {% for function in by_category["function"] %} Native{{as_cppType(function.name)}}, {% endfor %} {% for type in by_category["object"] %} {% for method in c_methods(type) %} Native{{as_MethodSuffix(type.name, method.name)}}, {% endfor %} {% endfor %} }; const {{Prefix}}ProcTable& GetProcsAutogen() { return gProcTable; } }