evs/apps/default/ConfigManager.cpp - platform/packages/services/Car - Git at Google

 /*
  * Copyright (C) 2017 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.
  */
 #include "ConfigManager.h"

 #include "json/json.h"

 #include <fstream>
 #include <math.h>
 #include <assert.h>


 static const float kDegreesToRadians = M_PI / 180.0f;


 static float normalizeToPlusMinus180degrees(float theta) {
     const float wraps = floor((theta+180.0f) / 360.0f);
     return theta - wraps*360.0f;
 }


 static bool readChildNodeAsFloat(const char* groupName,
                                  const Json::Value& parentNode,
                                  const char* childName,
                                  float* value) {
     // Must have a place to put the value!
     assert(value);

     Json::Value childNode = parentNode[childName];
     if (!childNode.isNumeric()) {
         printf("Missing or invalid field %s in record %s", childName, groupName);
         return false;
     }

     *value = childNode.asFloat();
     return true;
 }


 bool ConfigManager::initialize(const char* configFileName)
 {
     bool complete = true;

     // Set up a stream to read in the input file
     std::ifstream configStream(configFileName);

     // Parse the stream into JSON objects
     Json::Reader reader;
     Json::Value rootNode;
     bool parseOk = reader.parse(configStream, rootNode, false /* don't need comments */);
     if (!parseOk) {
         printf("Failed to read configuration file %s\n", configFileName);
         printf("%s\n", reader.getFormatedErrorMessages().c_str());
         return false;
     }


     //
     // Read car information
     //
     {
         Json::Value car = rootNode["car"];
         if (!car.isObject()) {
             printf("Invalid configuration format -- we expect a car description\n");
             return false;
         }
         complete &= readChildNodeAsFloat("car", car, "width",       &mCarWidth);
         complete &= readChildNodeAsFloat("car", car, "wheelBase",   &mWheelBase);
         complete &= readChildNodeAsFloat("car", car, "frontExtent", &mFrontExtent);
         complete &= readChildNodeAsFloat("car", car, "rearExtent",  &mRearExtent);
     }


     //
     // Read display layout information
     //
     {
         Json::Value displayArray = rootNode["displays"];
         if (!displayArray.isArray()) {
             printf("Invalid configuration format -- we expect an array of displays\n");
             return false;
         }

         mDisplays.reserve(displayArray.size());
         for (auto&& node : displayArray) {
             DisplayInfo info;
             info.port = node.get("displayPort", 0).asUInt();
             info.function = node.get("function", "").asCString();
             info.frontRangeInCarSpace = node.get("frontRange", -1).asFloat();
             info.rearRangeInCarSpace = node.get("rearRange", -1).asFloat();

             mDisplays.emplace_back(info);
         }
     }


     //
     // Car top view texture properties for top down view
     //
     {
         Json::Value graphicNode = rootNode["graphic"];
         if (!graphicNode.isObject()) {
             printf("Invalid configuration format -- we expect a graphic description\n");
             return false;
         }
         complete &= readChildNodeAsFloat("graphic", graphicNode, "frontPixel", &mCarGraphicFrontPixel);
         complete &= readChildNodeAsFloat("display", graphicNode, "rearPixel",  &mCarGraphicRearPixel);
     }


     //
     // Read camera information
     // NOTE:  Missing positions and angles are not reported, but instead default to zero
     //
     {
         Json::Value cameraArray = rootNode["cameras"];
         if (!cameraArray.isArray()) {
             printf("Invalid configuration format -- we expect an array of cameras\n");
             return false;
         }

         mCameras.reserve(cameraArray.size());
         for (auto&& node: cameraArray) {
             // Get data from the configuration file
             Json::Value nameNode = node.get("cameraId", "MISSING");
             const char *cameraId = nameNode.asCString();

             Json::Value usageNode = node.get("function", "");
             const char *function = usageNode.asCString();

             float yaw   = node.get("yaw", 0).asFloat();
             float pitch = node.get("pitch", 0).asFloat();
             float roll  = node.get("roll", 0).asFloat();
             float hfov  = node.get("hfov", 0).asFloat();
             float vfov  = node.get("vfov", 0).asFloat();
             bool  hflip = node.get("hflip", false).asBool();
             bool  vflip = node.get("vflip", false).asBool();

             // Wrap the direction angles to be in the 180deg to -180deg range
             // Rotate 180 in yaw if necessary to flip the pitch into the +/-90degree range
             pitch = normalizeToPlusMinus180degrees(pitch);
             if (pitch > 90.0f) {
                 yaw += 180.0f;
                 pitch = 180.0f - pitch;
             }
             if (pitch < -90.0f) {
                 yaw += 180.0f;
                 pitch = -180.0f + pitch;
             }
             yaw = normalizeToPlusMinus180degrees(yaw);
             roll = normalizeToPlusMinus180degrees(roll);

             // Range check the FOV values to ensure they are postive and less than 180degrees
             if (hfov > 179.0f) {
                 printf("Pathological horizontal field of view %f clamped to 179 degrees\n", hfov);
                 hfov = 179.0f;
             }
             if (hfov < 1.0f) {
                 printf("Pathological horizontal field of view %f clamped to 1 degree\n", hfov);
                 hfov = 1.0f;
             }
             if (vfov > 179.0f) {
                 printf("Pathological horizontal field of view %f clamped to 179 degrees\n", vfov);
                 vfov = 179.0f;
             }
             if (vfov < 1.0f) {
                 printf("Pathological horizontal field of view %f clamped to 1 degree\n", vfov);
                 vfov = 1.0f;
             }

             // Store the camera info (converting degrees to radians in the process)
             CameraInfo info;
             info.position[0] = node.get("x", 0).asFloat();
             info.position[1] = node.get("y", 0).asFloat();
             info.position[2] = node.get("z", 0).asFloat();
             info.yaw         = yaw   * kDegreesToRadians;
             info.pitch       = pitch * kDegreesToRadians;
             info.roll        = roll  * kDegreesToRadians;
             info.hfov        = hfov  * kDegreesToRadians;
             info.vfov        = vfov  * kDegreesToRadians;
             info.hflip       = hflip;
             info.vflip       = vflip;
             info.cameraId    = cameraId;
             info.function    = function;

             mCameras.emplace_back(info);
         }
     }

     // If we got this far, we were successful as long as we found all our child fields
     return complete;
 }
	/*
	* Copyright (C) 2017 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.
	*/
	#include "ConfigManager.h"

	#include "json/json.h"

	#include <fstream>
	#include <math.h>
	#include <assert.h>


	static const float kDegreesToRadians = M_PI / 180.0f;


	static float normalizeToPlusMinus180degrees(float theta) {
	const float wraps = floor((theta+180.0f) / 360.0f);
	return theta - wraps*360.0f;
	}


	static bool readChildNodeAsFloat(const char* groupName,
	const Json::Value& parentNode,
	const char* childName,
	float* value) {
	// Must have a place to put the value!
	assert(value);

	Json::Value childNode = parentNode[childName];
	if (!childNode.isNumeric()) {
	printf("Missing or invalid field %s in record %s", childName, groupName);
	return false;
	}

	*value = childNode.asFloat();
	return true;
	}


	bool ConfigManager::initialize(const char* configFileName)
	{
	bool complete = true;

	// Set up a stream to read in the input file
	std::ifstream configStream(configFileName);

	// Parse the stream into JSON objects
	Json::Reader reader;
	Json::Value rootNode;
	bool parseOk = reader.parse(configStream, rootNode, false /* don't need comments */);
	if (!parseOk) {
	printf("Failed to read configuration file %s\n", configFileName);
	printf("%s\n", reader.getFormatedErrorMessages().c_str());
	return false;
	}


	//
	// Read car information
	//
	{
	Json::Value car = rootNode["car"];
	if (!car.isObject()) {
	printf("Invalid configuration format -- we expect a car description\n");
	return false;
	}
	complete &= readChildNodeAsFloat("car", car, "width", &mCarWidth);
	complete &= readChildNodeAsFloat("car", car, "wheelBase", &mWheelBase);
	complete &= readChildNodeAsFloat("car", car, "frontExtent", &mFrontExtent);
	complete &= readChildNodeAsFloat("car", car, "rearExtent", &mRearExtent);
	}


	//
	// Read display layout information
	//
	{
	Json::Value displayArray = rootNode["displays"];
	if (!displayArray.isArray()) {
	printf("Invalid configuration format -- we expect an array of displays\n");
	return false;
	}

	mDisplays.reserve(displayArray.size());
	for (auto&& node : displayArray) {
	DisplayInfo info;
	info.port = node.get("displayPort", 0).asUInt();
	info.function = node.get("function", "").asCString();
	info.frontRangeInCarSpace = node.get("frontRange", -1).asFloat();
	info.rearRangeInCarSpace = node.get("rearRange", -1).asFloat();

	mDisplays.emplace_back(info);
	}
	}


	//
	// Car top view texture properties for top down view
	//
	{
	Json::Value graphicNode = rootNode["graphic"];
	if (!graphicNode.isObject()) {
	printf("Invalid configuration format -- we expect a graphic description\n");
	return false;
	}
	complete &= readChildNodeAsFloat("graphic", graphicNode, "frontPixel", &mCarGraphicFrontPixel);
	complete &= readChildNodeAsFloat("display", graphicNode, "rearPixel", &mCarGraphicRearPixel);
	}


	//
	// Read camera information
	// NOTE: Missing positions and angles are not reported, but instead default to zero
	//
	{
	Json::Value cameraArray = rootNode["cameras"];
	if (!cameraArray.isArray()) {
	printf("Invalid configuration format -- we expect an array of cameras\n");
	return false;
	}

	mCameras.reserve(cameraArray.size());
	for (auto&& node: cameraArray) {
	// Get data from the configuration file
	Json::Value nameNode = node.get("cameraId", "MISSING");
	const char *cameraId = nameNode.asCString();

	Json::Value usageNode = node.get("function", "");
	const char *function = usageNode.asCString();

	float yaw = node.get("yaw", 0).asFloat();
	float pitch = node.get("pitch", 0).asFloat();
	float roll = node.get("roll", 0).asFloat();
	float hfov = node.get("hfov", 0).asFloat();
	float vfov = node.get("vfov", 0).asFloat();
	bool hflip = node.get("hflip", false).asBool();
	bool vflip = node.get("vflip", false).asBool();

	// Wrap the direction angles to be in the 180deg to -180deg range
	// Rotate 180 in yaw if necessary to flip the pitch into the +/-90degree range
	pitch = normalizeToPlusMinus180degrees(pitch);
	if (pitch > 90.0f) {
	yaw += 180.0f;
	pitch = 180.0f - pitch;
	}
	if (pitch < -90.0f) {
	yaw += 180.0f;
	pitch = -180.0f + pitch;
	}
	yaw = normalizeToPlusMinus180degrees(yaw);
	roll = normalizeToPlusMinus180degrees(roll);

	// Range check the FOV values to ensure they are postive and less than 180degrees
	if (hfov > 179.0f) {
	printf("Pathological horizontal field of view %f clamped to 179 degrees\n", hfov);
	hfov = 179.0f;
	}
	if (hfov < 1.0f) {
	printf("Pathological horizontal field of view %f clamped to 1 degree\n", hfov);
	hfov = 1.0f;
	}
	if (vfov > 179.0f) {
	printf("Pathological horizontal field of view %f clamped to 179 degrees\n", vfov);
	vfov = 179.0f;
	}
	if (vfov < 1.0f) {
	printf("Pathological horizontal field of view %f clamped to 1 degree\n", vfov);
	vfov = 1.0f;
	}

	// Store the camera info (converting degrees to radians in the process)
	CameraInfo info;
	info.position[0] = node.get("x", 0).asFloat();
	info.position[1] = node.get("y", 0).asFloat();
	info.position[2] = node.get("z", 0).asFloat();
	info.yaw = yaw * kDegreesToRadians;
	info.pitch = pitch * kDegreesToRadians;
	info.roll = roll * kDegreesToRadians;
	info.hfov = hfov * kDegreesToRadians;
	info.vfov = vfov * kDegreesToRadians;
	info.hflip = hflip;
	info.vflip = vflip;
	info.cameraId = cameraId;
	info.function = function;

	mCameras.emplace_back(info);
	}
	}

	// If we got this far, we were successful as long as we found all our child fields
	return complete;
	}