//* 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 API = metadata.api.upper() %} {% set api = API.lower() %} {% if 'dawn' not in enabled_tags %} #ifdef __EMSCRIPTEN__ #error "Do not include this header. Emscripten already provides headers needed for {{metadata.api}}." #endif {% endif %} #ifndef {{API}}_CPP_H_ #define {{API}}_CPP_H_ #include "dawn/{{api}}.h" #include "dawn/EnumClassBitmasks.h" #include namespace {{metadata.namespace}} { namespace detail { constexpr size_t ConstexprMax(size_t a, size_t b) { return a > b ? a : b; } } // namespace detail {% set c_prefix = metadata.c_prefix %} {% for constant in by_category["constant"] %} {% set type = as_cppType(constant.type.name) %} {% set value = c_prefix + "_" + constant.name.SNAKE_CASE() %} static constexpr {{type}} k{{as_cppType(constant.name)}} = {{ value }}; {% endfor %} {% for type in by_category["enum"] %} enum class {{as_cppType(type.name)}} : uint32_t { {% for value in type.values %} {{as_cppEnum(value.name)}} = 0x{{format(value.value, "08X")}}, {% endfor %} }; {% endfor %} // Special case definition of MipmapFilterMode for Dawn side. // TODO(lokokung) Remove once Chromium side is updated. {% if 'dawn' in enabled_tags %} using MipmapFilterMode = FilterMode; {% endif %} {% for type in by_category["bitmask"] %} enum class {{as_cppType(type.name)}} : uint32_t { {% for value in type.values %} {{as_cppEnum(value.name)}} = 0x{{format(value.value, "08X")}}, {% endfor %} }; {% endfor %} {% for type in by_category["function pointer"] %} using {{as_cppType(type.name)}} = {{as_cType(type.name)}}; {% endfor %} {% for type in by_category["object"] %} class {{as_cppType(type.name)}}; {% endfor %} {% for type in by_category["structure"] %} struct {{as_cppType(type.name)}}; {% endfor %} {% for typeDef in by_category["typedef"] %} // {{as_cppType(typeDef.name)}} is deprecated. // Use {{as_cppType(typeDef.type.name)}} instead. using {{as_cppType(typeDef.name)}} = {{as_cppType(typeDef.type.name)}}; {% endfor %} template class ObjectBase { public: ObjectBase() = default; ObjectBase(CType handle): mHandle(handle) { if (mHandle) Derived::{{c_prefix}}Reference(mHandle); } ~ObjectBase() { if (mHandle) Derived::{{c_prefix}}Release(mHandle); } ObjectBase(ObjectBase const& other) : ObjectBase(other.Get()) { } Derived& operator=(ObjectBase const& other) { if (&other != this) { if (mHandle) Derived::{{c_prefix}}Release(mHandle); mHandle = other.mHandle; if (mHandle) Derived::{{c_prefix}}Reference(mHandle); } return static_cast(*this); } ObjectBase(ObjectBase&& other) { mHandle = other.mHandle; other.mHandle = 0; } Derived& operator=(ObjectBase&& other) { if (&other != this) { if (mHandle) Derived::{{c_prefix}}Release(mHandle); mHandle = other.mHandle; other.mHandle = 0; } return static_cast(*this); } ObjectBase(std::nullptr_t) {} Derived& operator=(std::nullptr_t) { if (mHandle != nullptr) { Derived::{{c_prefix}}Release(mHandle); mHandle = nullptr; } return static_cast(*this); } bool operator==(std::nullptr_t) const { return mHandle == nullptr; } bool operator!=(std::nullptr_t) const { return mHandle != nullptr; } explicit operator bool() const { return mHandle != nullptr; } CType Get() const { return mHandle; } CType Release() { CType result = mHandle; mHandle = 0; return result; } static Derived Acquire(CType handle) { Derived result; result.mHandle = handle; return result; } protected: CType mHandle = nullptr; }; {% macro render_cpp_default_value(member, is_struct=True) -%} {%- if member.json_data.get("no_default", false) -%} {%- elif member.annotation in ["*", "const*"] and member.optional or member.default_value == "nullptr" -%} {{" "}}= nullptr {%- elif member.type.category == "object" and member.optional and is_struct -%} {{" "}}= nullptr {%- elif member.type.category in ["enum", "bitmask"] and member.default_value != None -%} {{" "}}= {{as_cppType(member.type.name)}}::{{as_cppEnum(Name(member.default_value))}} {%- elif member.type.category == "native" and member.default_value != None -%} {{" "}}= {{member.default_value}} {%- elif member.default_value != None -%} {{" "}}= {{member.default_value}} {%- else -%} {{assert(member.default_value == None)}} {%- endif -%} {%- endmacro %} {% macro render_cpp_method_declaration(type, method) %} {% set CppType = as_cppType(type.name) %} {{as_cppType(method.return_type.name)}} {{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 -%} {{render_cpp_default_value(arg, False)}} {%- endfor -%} ) const {%- endmacro %} {% for type in by_category["object"] %} {% set CppType = as_cppType(type.name) %} {% set CType = as_cType(type.name) %} class {{CppType}} : public ObjectBase<{{CppType}}, {{CType}}> { public: using ObjectBase::ObjectBase; using ObjectBase::operator=; {% for method in type.methods %} {{render_cpp_method_declaration(type, method)}}; {% endfor %} private: friend ObjectBase<{{CppType}}, {{CType}}>; static void {{c_prefix}}Reference({{CType}} handle); static void {{c_prefix}}Release({{CType}} handle); }; {% endfor %} {% for function in by_category["function"] %} {{as_cppType(function.return_type.name)}} {{as_cppType(function.name)}}( {%- for arg in function.arguments -%} {%- if not loop.first %}, {% endif -%} {{as_annotated_cppType(arg)}}{{render_cpp_default_value(arg, False)}} {%- endfor -%} ); {% endfor %} struct ChainedStruct { ChainedStruct const * nextInChain = nullptr; SType sType = SType::Invalid; }; struct ChainedStructOut { ChainedStruct * nextInChain = nullptr; SType sType = SType::Invalid; }; {% for type in by_category["structure"] %} {% set Out = "Out" if type.output else "" %} {% set const = "const" if not type.output else "" %} {% if type.chained %} {% for root in type.chain_roots %} // Can be chained in {{as_cppType(root.name)}} {% endfor %} struct {{as_cppType(type.name)}} : ChainedStruct{{Out}} { {{as_cppType(type.name)}}() { sType = SType::{{type.name.CamelCase()}}; } {% else %} struct {{as_cppType(type.name)}} { {% endif %} {% if type.extensible %} ChainedStruct{{Out}} {{const}} * nextInChain = nullptr; {% endif %} {% for member in type.members %} {% set member_declaration = as_annotated_cppType(member) + render_cpp_default_value(member) %} {% if type.chained and loop.first %} //* Align the first member after ChainedStruct to match the C struct layout. //* It has to be aligned both to its natural and ChainedStruct's alignment. static constexpr size_t kFirstMemberAlignment = detail::ConstexprMax(alignof(ChainedStruct{{out}}), alignof({{decorate("", as_cppType(member.type.name), member)}})); alignas(kFirstMemberAlignment) {{member_declaration}}; {% else %} {{member_declaration}}; {% endif %} {% endfor %} }; {% endfor %} // The operators of EnumClassBitmmasks in the dawn:: namespace need to be imported // in the {{metadata.namespace}} namespace for Argument Dependent Lookup. DAWN_IMPORT_BITMASK_OPERATORS } // namespace {{metadata.namespace}} namespace dawn { {% for type in by_category["bitmask"] %} template<> struct IsDawnBitmask<{{metadata.namespace}}::{{as_cppType(type.name)}}> { static constexpr bool enable = true; }; {% endfor %} } // namespace dawn #endif // {{API}}_CPP_H_