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/*
* Copyright 2020 The Android Open Source Project
*
* 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.
*/
#define LOG_TAG "IOModule"
#include "ConfigReader.h"
#include "ConfigReaderUtil.h"
#include "core_lib.h"
#include <android-base/logging.h>
#include <tinyxml2.h>
#include <sstream>
#include <string>
#include <utility>
namespace android {
namespace hardware {
namespace automotive {
namespace sv {
namespace V1_0 {
namespace implementation {
using tinyxml2::XML_SUCCESS;
using tinyxml2::XMLDocument;
using tinyxml2::XMLElement;
using android_auto::surround_view::SurroundView2dParams;
using android_auto::surround_view::SurroundView3dParams;
namespace {
// Macro returning IoStatus::ERROR_CONFIG_FILE_FORMAT if condition evaluates to false.
#define RETURN_ERROR_STATUS_IF_FALSE(cond) \
do { \
if (!(cond)) { \
return IOStatus::ERROR_CONFIG_FILE_FORMAT; \
} \
} while (0)
// ReadValue for SurroundView2dParams::BlendingType.
bool ReadValue2dBlendType(const XMLElement* parent, const char* elementName,
SurroundView2dParams::BlendingType* value) {
const XMLElement* element = nullptr;
RETURN_IF_FALSE(GetElement(parent, elementName, &element));
RETURN_IF_FALSE(ElementHasText(element));
const std::string blendingTypeStr(element->GetText());
if (blendingTypeStr == "multiband") {
*value = SurroundView2dParams::BlendingType::MULTIBAND;
} else if (blendingTypeStr == "alpha") {
*value = SurroundView2dParams::BlendingType::ALPHA;
} else {
LOG(ERROR) << "Unknown BlendingType specified: " << blendingTypeStr;
return false;
}
return true;
}
bool ReadSvConfig2d(const XMLElement* parent, SvConfig2d* sv2dConfig) {
LOG(INFO) << "Seraching elem:"
<< "Sv2dEnabled"
<< "in parent: " << parent->Name();
RETURN_IF_FALSE(ReadValue(parent, "Sv2dEnabled", &sv2dConfig->sv2dEnabled));
if (!sv2dConfig->sv2dEnabled) {
return true;
}
SurroundView2dParams* sv2dParams = &sv2dConfig->sv2dParams;
const XMLElement* param2dElem = nullptr;
RETURN_IF_FALSE(GetElement(parent, "Sv2dParams", &param2dElem));
{
// OutputResolution
const XMLElement* outputResolutionElem = nullptr;
RETURN_IF_FALSE(GetElement(param2dElem, "OutputResolution", &outputResolutionElem));
{
RETURN_IF_FALSE(
ReadValue(outputResolutionElem, "Width", &sv2dParams->resolution.width));
RETURN_IF_FALSE(
ReadValue(outputResolutionElem, "Height", &sv2dParams->resolution.height));
}
// GroundMapping
const XMLElement* groundMappingElem = nullptr;
RETURN_IF_FALSE(GetElement(param2dElem, "GroundMapping", &groundMappingElem));
{
RETURN_IF_FALSE(
ReadValue(groundMappingElem, "Width", &sv2dParams->physical_size.width));
RETURN_IF_FALSE(
ReadValue(groundMappingElem, "Height", &sv2dParams->physical_size.height));
// Center
const XMLElement* centerElem = nullptr;
RETURN_IF_FALSE(GetElement(groundMappingElem, "Center", &centerElem));
{
RETURN_IF_FALSE(ReadValue(centerElem, "X", &sv2dParams->physical_center.x));
RETURN_IF_FALSE(ReadValue(centerElem, "Y", &sv2dParams->physical_center.y));
}
}
// Car Bounding Box
const XMLElement* carBoundingBoxElem = nullptr;
RETURN_IF_FALSE(GetElement(param2dElem, "CarBoundingBox", &carBoundingBoxElem));
{
RETURN_IF_FALSE(
ReadValue(carBoundingBoxElem, "Width", &sv2dConfig->carBoundingBox.width));
RETURN_IF_FALSE(
ReadValue(carBoundingBoxElem, "Height", &sv2dConfig->carBoundingBox.height));
// Center
const XMLElement* leftTopCornerElem = nullptr;
RETURN_IF_FALSE(GetElement(carBoundingBoxElem, "LeftTopCorner", &leftTopCornerElem));
{
RETURN_IF_FALSE(ReadValue(leftTopCornerElem, "X", &sv2dConfig->carBoundingBox.x));
RETURN_IF_FALSE(ReadValue(leftTopCornerElem, "Y", &sv2dConfig->carBoundingBox.y));
}
}
// Blending type
const XMLElement* blendingTypeElem = nullptr;
RETURN_IF_FALSE(GetElement(param2dElem, "BlendingType", &blendingTypeElem));
{
RETURN_IF_FALSE(ReadValue2dBlendType(blendingTypeElem, "HighQuality",
&sv2dParams->high_quality_blending));
RETURN_IF_FALSE(ReadValue2dBlendType(blendingTypeElem, "LowQuality",
&sv2dParams->low_quality_blending));
}
}
return true;
}
bool ReadSvConfig3d(const XMLElement* parent, SvConfig3d* sv3dConfig) {
RETURN_IF_FALSE(ReadValue(parent, "Sv3dEnabled", &sv3dConfig->sv3dEnabled));
if (!sv3dConfig->sv3dEnabled) {
return true;
}
RETURN_IF_FALSE(ReadValue(parent, "Sv3dAnimationsEnabled", &sv3dConfig->sv3dAnimationsEnabled));
if (sv3dConfig->sv3dAnimationsEnabled) {
RETURN_IF_FALSE(ReadValue(parent, "CarModelConfigFile", &sv3dConfig->carModelConfigFile));
}
RETURN_IF_FALSE(ReadValue(parent, "CarModelObjFile", &sv3dConfig->carModelObjFile));
SurroundView3dParams* sv3dParams = &sv3dConfig->sv3dParams;
const XMLElement* param3dElem = nullptr;
RETURN_IF_FALSE(GetElement(parent, "Sv3dParams", &param3dElem));
{
// OutputResolution
const XMLElement* outputResolutionElem = nullptr;
RETURN_IF_FALSE(GetElement(param3dElem, "OutputResolution", &outputResolutionElem));
{
RETURN_IF_FALSE(
ReadValue(outputResolutionElem, "Width", &sv3dParams->resolution.width));
RETURN_IF_FALSE(
ReadValue(outputResolutionElem, "Height", &sv3dParams->resolution.height));
}
// Bowl Params
const XMLElement* bowlParamsElem = nullptr;
RETURN_IF_FALSE(GetElement(param3dElem, "BowlParams", &bowlParamsElem));
{
RETURN_IF_FALSE(ReadValue(bowlParamsElem, "PlaneRadius", &sv3dParams->plane_radius));
RETURN_IF_FALSE(
ReadValue(bowlParamsElem, "PlaneDivisions", &sv3dParams->plane_divisions));
RETURN_IF_FALSE(ReadValue(bowlParamsElem, "CurveHeight", &sv3dParams->curve_height));
RETURN_IF_FALSE(
ReadValue(bowlParamsElem, "CurveDivisions", &sv3dParams->curve_divisions));
RETURN_IF_FALSE(
ReadValue(bowlParamsElem, "AngularDivisions", &sv3dParams->angular_divisions));
RETURN_IF_FALSE(
ReadValue(bowlParamsElem, "CurveCoefficient", &sv3dParams->curve_coefficient));
}
// High Quality details
const XMLElement* highQualityDetailsElem = nullptr;
GetElement(param3dElem, "HighQualityDetails", &highQualityDetailsElem);
{
RETURN_IF_FALSE(ReadValue(highQualityDetailsElem, "Shadows",
&sv3dParams->high_details_shadows));
RETURN_IF_FALSE(ReadValue(highQualityDetailsElem, "Reflections",
&sv3dParams->high_details_reflections));
}
}
return true;
}
bool ReadCameraConfig(const XMLElement* parent, CameraConfig* cameraConfig) {
const XMLElement* cameraConfigElem = nullptr;
RETURN_IF_FALSE(GetElement(parent, "CameraConfig", &cameraConfigElem));
{
// Evs Group Id
RETURN_IF_FALSE(ReadValue(cameraConfigElem, "EvsGroupId", &cameraConfig->evsGroupId));
// Evs Cameras Ids
const XMLElement* cameraIdsElem = nullptr;
RETURN_IF_FALSE(GetElement(cameraConfigElem, "EvsCameraIds", &cameraIdsElem));
{
cameraConfig->evsCameraIds.resize(4);
RETURN_IF_FALSE(ReadValue(cameraIdsElem, "Front", &cameraConfig->evsCameraIds[0]));
RETURN_IF_FALSE(ReadValue(cameraIdsElem, "Right", &cameraConfig->evsCameraIds[1]));
RETURN_IF_FALSE(ReadValue(cameraIdsElem, "Rear", &cameraConfig->evsCameraIds[2]));
RETURN_IF_FALSE(ReadValue(cameraIdsElem, "Left", &cameraConfig->evsCameraIds[3]));
}
// Masks (Optional).
const XMLElement* masksElem = nullptr;
GetElement(cameraConfigElem, "Masks", &masksElem);
if (masksElem != nullptr) {
cameraConfig->maskFilenames.resize(4);
RETURN_IF_FALSE(ReadValue(masksElem, "Front", &cameraConfig->maskFilenames[0]));
RETURN_IF_FALSE(ReadValue(masksElem, "Right", &cameraConfig->maskFilenames[1]));
RETURN_IF_FALSE(ReadValue(masksElem, "Rear", &cameraConfig->maskFilenames[2]));
RETURN_IF_FALSE(ReadValue(masksElem, "Left", &cameraConfig->maskFilenames[3]));
}
}
return true;
}
} // namespace
IOStatus ReadSurroundViewConfig(const std::string& configFile, SurroundViewConfig* svConfig) {
XMLDocument xmlDoc;
/* load and parse a configuration file */
xmlDoc.LoadFile(configFile.c_str());
if (xmlDoc.ErrorID() != XML_SUCCESS) {
LOG(ERROR) << "Failed to load and/or parse a configuration file, " << xmlDoc.ErrorStr();
return IOStatus::ERROR_READ_CONFIG_FILE;
}
const XMLElement* rootElem = xmlDoc.RootElement();
if (strcmp(rootElem->Name(), "SurroundViewConfig")) {
LOG(ERROR) << "A configuration file is not in the required format. "
<< "See /etc/automotive/sv/sv_config.dtd";
return IOStatus::ERROR_READ_CONFIG_FILE;
}
// version
RETURN_ERROR_STATUS_IF_FALSE(ReadValue(rootElem, "Version", &svConfig->version));
// CameraConfig
RETURN_ERROR_STATUS_IF_FALSE(ReadCameraConfig(rootElem, &svConfig->cameraConfig));
// Surround View 2D
RETURN_ERROR_STATUS_IF_FALSE(ReadSvConfig2d(rootElem, &svConfig->sv2dConfig));
// Surround View 3D
RETURN_ERROR_STATUS_IF_FALSE(ReadSvConfig3d(rootElem, &svConfig->sv3dConfig));
return IOStatus::OK;
}
} // namespace implementation
} // namespace V1_0
} // namespace sv
} // namespace automotive
} // namespace hardware
} // namespace android