//* 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. #include "dawn/webgpu_cpp.h" namespace wgpu { {% for type in by_category["enum"] %} {% set CppType = as_cppType(type.name) %} {% set CType = as_cType(type.name) %} static_assert(sizeof({{CppType}}) == sizeof({{CType}}), "sizeof mismatch for {{CppType}}"); static_assert(alignof({{CppType}}) == alignof({{CType}}), "alignof mismatch for {{CppType}}"); {% for value in type.values %} static_assert(static_cast({{CppType}}::{{as_cppEnum(value.name)}}) == {{as_cEnum(type.name, value.name)}}, "value mismatch for {{CppType}}::{{as_cppEnum(value.name)}}"); {% endfor %} {% endfor %} {% for type in by_category["bitmask"] %} {% set CppType = as_cppType(type.name) %} {% set CType = as_cType(type.name) + "Flags" %} static_assert(sizeof({{CppType}}) == sizeof({{CType}}), "sizeof mismatch for {{CppType}}"); static_assert(alignof({{CppType}}) == alignof({{CType}}), "alignof mismatch for {{CppType}}"); {% for value in type.values %} static_assert(static_cast({{CppType}}::{{as_cppEnum(value.name)}}) == {{as_cEnum(type.name, value.name)}}, "value mismatch for {{CppType}}::{{as_cppEnum(value.name)}}"); {% endfor %} {% endfor %} static_assert(sizeof(ChainedStruct) == sizeof(WGPUChainedStruct), "sizeof mismatch for ChainedStruct"); static_assert(alignof(ChainedStruct) == alignof(WGPUChainedStruct), "alignof mismatch for ChainedStruct"); static_assert(offsetof(ChainedStruct, nextInChain) == offsetof(WGPUChainedStruct, nextInChain), "offsetof mismatch for ChainedStruct::nextInChain"); static_assert(offsetof(ChainedStruct, sType) == offsetof(WGPUChainedStruct, sType), "offsetof mismatch for ChainedStruct::sType"); {% for type in by_category["structure"] %} {% set CppType = as_cppType(type.name) %} {% set CType = as_cType(type.name) %} static_assert(sizeof({{CppType}}) == sizeof({{CType}}), "sizeof mismatch for {{CppType}}"); static_assert(alignof({{CppType}}) == alignof({{CType}}), "alignof mismatch for {{CppType}}"); {% if type.extensible %} static_assert(offsetof({{CppType}}, nextInChain) == offsetof({{CType}}, nextInChain), "offsetof mismatch for {{CppType}}::nextInChain"); {% endif %} {% for member in type.members %} {% set memberName = member.name.camelCase() %} static_assert(offsetof({{CppType}}, {{memberName}}) == offsetof({{CType}}, {{memberName}}), "offsetof mismatch for {{CppType}}::{{memberName}}"); {% endfor %} {% endfor %} {% for type in by_category["object"] %} {% set CppType = as_cppType(type.name) %} {% set CType = as_cType(type.name) %} static_assert(sizeof({{CppType}}) == sizeof({{CType}}), "sizeof mismatch for {{CppType}}"); static_assert(alignof({{CppType}}) == alignof({{CType}}), "alignof mismatch for {{CppType}}"); {% macro render_cpp_method_declaration(type, method) %} {% set CppType = as_cppType(type.name) %} {{as_cppType(method.return_type.name)}} {{CppType}}::{{method.name.CamelCase()}}( {%- for arg in method.arguments -%} {%- if not loop.first %}, {% endif -%} {%- if arg.type.category == "object" and arg.annotation == "value" -%} {{as_cppType(arg.type.name)}} const& {{as_varName(arg.name)}} {%- else -%} {{as_annotated_cppType(arg)}} {%- endif -%} {%- endfor -%} ) const {%- endmacro %} {% macro render_cpp_to_c_method_call(type, method) -%} {{as_cMethod(type.name, method.name)}}(Get() {%- for arg in method.arguments -%},{{" "}} {%- if arg.annotation == "value" -%} {%- if arg.type.category == "object" -%} {{as_varName(arg.name)}}.Get() {%- elif arg.type.category == "enum" or arg.type.category == "bitmask" -%} static_cast<{{as_cType(arg.type.name)}}>({{as_varName(arg.name)}}) {%- elif arg.type.category in ["callback", "native"] -%} {{as_varName(arg.name)}} {%- else -%} UNHANDLED {%- endif -%} {%- else -%} reinterpret_cast<{{decorate("", as_cType(arg.type.name), arg)}}>({{as_varName(arg.name)}}) {%- endif -%} {%- endfor -%} ) {%- endmacro %} {% for method in type.methods %} {{render_cpp_method_declaration(type, method)}} { {% if method.return_type.name.concatcase() == "void" %} {{render_cpp_to_c_method_call(type, method)}}; {% else %} auto result = {{render_cpp_to_c_method_call(type, method)}}; return {{convert_cType_to_cppType(method.return_type, 'value', 'result') | indent(8)}}; {% endif %} } {% endfor %} void {{CppType}}::WGPUReference({{CType}} handle) { if (handle != nullptr) { {{as_cMethod(type.name, Name("reference"))}}(handle); } } void {{CppType}}::WGPURelease({{CType}} handle) { if (handle != nullptr) { {{as_cMethod(type.name, Name("release"))}}(handle); } } {% endfor %} Instance CreateInstance(const InstanceDescriptor* descriptor) { const WGPUInstanceDescriptor* cDescriptor = reinterpret_cast(descriptor); return Instance::Acquire(wgpuCreateInstance(cDescriptor)); } Proc GetProcAddress(Device const& device, const char* procName) { return reinterpret_cast(wgpuGetProcAddress(device.Get(), procName)); } }