blob: edb96898b1460a44cfbe29ab02206ad914341896 [file] [log] [blame]
//* 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 "mock_webgpu.h"
using namespace testing;
namespace {
{% for type in by_category["object"] %}
{% for method in c_methods(type) if len(method.arguments) < 10 %}
{{as_cType(method.return_type.name)}} Forward{{as_MethodSuffix(type.name, method.name)}}(
{{-as_cType(type.name)}} self
{%- for arg in method.arguments -%}
, {{as_annotated_cType(arg)}}
{%- endfor -%}
) {
auto object = reinterpret_cast<ProcTableAsClass::Object*>(self);
return object->procs->{{as_MethodSuffix(type.name, method.name)}}(self
{%- for arg in method.arguments -%}
, {{as_varName(arg.name)}}
{%- endfor -%}
);
}
{% endfor %}
{% endfor %}
}
ProcTableAsClass::~ProcTableAsClass() {
}
void ProcTableAsClass::GetProcTableAndDevice(DawnProcTable* table, WGPUDevice* device) {
*device = GetNewDevice();
{% for type in by_category["object"] %}
{% for method in c_methods(type) if len(method.arguments) < 10 %}
table->{{as_varName(type.name, method.name)}} = reinterpret_cast<{{as_cProc(type.name, method.name)}}>(Forward{{as_MethodSuffix(type.name, method.name)}});
{% endfor %}
{% endfor %}
}
void ProcTableAsClass::DeviceSetUncapturedErrorCallback(WGPUDevice self,
WGPUErrorCallback callback,
void* userdata) {
auto object = reinterpret_cast<ProcTableAsClass::Object*>(self);
object->deviceErrorCallback = callback;
object->userdata = userdata;
OnDeviceSetUncapturedErrorCallback(self, callback, userdata);
}
void ProcTableAsClass::DeviceSetDeviceLostCallback(WGPUDevice self,
WGPUDeviceLostCallback callback,
void* userdata) {
auto object = reinterpret_cast<ProcTableAsClass::Object*>(self);
object->deviceLostCallback = callback;
object->userdata = userdata;
OnDeviceSetDeviceLostCallback(self, callback, userdata);
}
bool ProcTableAsClass::DevicePopErrorScope(WGPUDevice self,
WGPUErrorCallback callback,
void* userdata) {
return OnDevicePopErrorScopeCallback(self, callback, userdata);
}
void ProcTableAsClass::DeviceCreateBufferMappedAsync(WGPUDevice self,
const WGPUBufferDescriptor* descriptor,
WGPUBufferCreateMappedCallback callback,
void* userdata) {
auto object = reinterpret_cast<ProcTableAsClass::Object*>(self);
object->createBufferMappedCallback = callback;
object->userdata = userdata;
OnDeviceCreateBufferMappedAsyncCallback(self, descriptor, callback, userdata);
}
void ProcTableAsClass::BufferMapReadAsync(WGPUBuffer self,
WGPUBufferMapReadCallback callback,
void* userdata) {
auto object = reinterpret_cast<ProcTableAsClass::Object*>(self);
object->mapReadCallback = callback;
object->userdata = userdata;
OnBufferMapReadAsyncCallback(self, callback, userdata);
}
void ProcTableAsClass::BufferMapWriteAsync(WGPUBuffer self,
WGPUBufferMapWriteCallback callback,
void* userdata) {
auto object = reinterpret_cast<ProcTableAsClass::Object*>(self);
object->mapWriteCallback = callback;
object->userdata = userdata;
OnBufferMapWriteAsyncCallback(self, callback, userdata);
}
void ProcTableAsClass::FenceOnCompletion(WGPUFence self,
uint64_t value,
WGPUFenceOnCompletionCallback callback,
void* userdata) {
auto object = reinterpret_cast<ProcTableAsClass::Object*>(self);
object->fenceOnCompletionCallback = callback;
object->userdata = userdata;
OnFenceOnCompletionCallback(self, value, callback, userdata);
}
void ProcTableAsClass::CallDeviceErrorCallback(WGPUDevice device,
WGPUErrorType type,
const char* message) {
auto object = reinterpret_cast<ProcTableAsClass::Object*>(device);
object->deviceErrorCallback(type, message, object->userdata);
}
void ProcTableAsClass::CallDeviceLostCallback(WGPUDevice device, const char* message) {
auto object = reinterpret_cast<ProcTableAsClass::Object*>(device);
object->deviceLostCallback(message, object->userdata);
}
void ProcTableAsClass::CallCreateBufferMappedCallback(WGPUDevice device,
WGPUBufferMapAsyncStatus status,
WGPUCreateBufferMappedResult result) {
auto object = reinterpret_cast<ProcTableAsClass::Object*>(device);
object->createBufferMappedCallback(status, result, object->userdata);
}
void ProcTableAsClass::CallMapReadCallback(WGPUBuffer buffer,
WGPUBufferMapAsyncStatus status,
const void* data,
uint64_t dataLength) {
auto object = reinterpret_cast<ProcTableAsClass::Object*>(buffer);
object->mapReadCallback(status, data, dataLength, object->userdata);
}
void ProcTableAsClass::CallMapWriteCallback(WGPUBuffer buffer,
WGPUBufferMapAsyncStatus status,
void* data,
uint64_t dataLength) {
auto object = reinterpret_cast<ProcTableAsClass::Object*>(buffer);
object->mapWriteCallback(status, data, dataLength, object->userdata);
}
void ProcTableAsClass::CallFenceOnCompletionCallback(WGPUFence fence,
WGPUFenceCompletionStatus status) {
auto object = reinterpret_cast<ProcTableAsClass::Object*>(fence);
object->fenceOnCompletionCallback(status, object->userdata);
}
{% for type in by_category["object"] %}
{{as_cType(type.name)}} ProcTableAsClass::GetNew{{type.name.CamelCase()}}() {
mObjects.emplace_back(new Object);
mObjects.back()->procs = this;
return reinterpret_cast<{{as_cType(type.name)}}>(mObjects.back().get());
}
{% endfor %}
MockProcTable::MockProcTable() {
}
void MockProcTable::IgnoreAllReleaseCalls() {
{% for type in by_category["object"] %}
EXPECT_CALL(*this, {{as_MethodSuffix(type.name, Name("release"))}}(_)).Times(AnyNumber());
{% endfor %}
}