evs/apps/default/ConfigManager.h - platform/packages/services/Car - Gitiles

 /*
  * 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.
  */
 #ifndef CONFIG_MANAGER_H
 #define CONFIG_MANAGER_H

 #include <cerrno>
 #include <string>
 #include <vector>

 #include <system/graphics-base.h>


 class ConfigManager {
 public:
     struct CameraInfo {
         std::string cameraId = "";  // The name of the camera from the point of view of the HAL
         std::string function = "";  // The expected use for this camera ("reverse", "left", "right")
         float position[3] = {0};    // x, y, z -> right, fwd, up in the units of car space
         float yaw   = 0;    // radians positive to the left (right hand rule about global z axis)
         float pitch = 0;    // positive upward (ie: right hand rule about local x axis)
         float hfov  = 0;    // radians
         float vfov  = 0;    // radians
     };

     struct DisplayInfo {
         uint8_t port = 0;           // Display port number to use
         std::string function = "";  // The expected use for this display.
         float frontRangeInCarSpace; // How far the display extends in front of the car
         float rearRangeInCarSpace;  // How far the display extends behind the car
     };

     bool initialize(const char* configFileName);

     // World space dimensions of the car
     float getCarWidth() const   { return mCarWidth; };
     float getCarLength() const  { return mWheelBase + mFrontExtent + mRearExtent; };
     float getWheelBase() const  { return mWheelBase; };

     // Car space (world space centered on the rear axel) edges of the car
     float getFrontLocation() const  { return mWheelBase + mFrontExtent; };
     float getRearLocation() const   { return -mRearExtent; };
     float getRightLocation() const  { return mCarWidth*0.5f; };
     float getLeftLocation() const   { return -mCarWidth*0.5f; };

     // Where are the edges of the top down display in car space?
     float getDisplayTopLocation() const {
         // From the rear axel (origin) to the front bumper, and then beyond by the front range
         return mWheelBase + mFrontExtent + mDisplays[mActiveDisplayId].frontRangeInCarSpace;
     };
     float getDisplayBottomLocation() const {
         // From the rear axel (origin) to the back bumper, and then beyond by the back range
         return -mRearExtent - mDisplays[mActiveDisplayId].rearRangeInCarSpace;
     };
     float getDisplayRightLocation(float aspectRatio) const   {
         // Given the display aspect ratio (width over height), how far can we see to the right?
         return (getDisplayTopLocation() - getDisplayBottomLocation()) * 0.5f * aspectRatio;
     };
     float getDisplayLeftLocation(float aspectRatio) const {
         // Given the display aspect ratio (width over height), how far can we see to the left?
         return -getDisplayRightLocation(aspectRatio);
     };

     // At which texel (vertically in the image) are the front and rear bumpers of the car?
     float carGraphicFrontPixel() const      { return mCarGraphicFrontPixel; };
     float carGraphicRearPixel() const       { return mCarGraphicRearPixel; };

     const std::vector<CameraInfo>& getCameras() const   { return mCameras; };

     int  setActiveDisplayId(int displayId) {
         if (displayId == -1) {
             // -1 is reserved for the default display, which is the first
             // display in config.json's display list
             printf("Uses a display with id %d", mDisplays[0].port);
             mActiveDisplayId = mDisplays[0].port;
             return mActiveDisplayId;
         } else if (displayId < 0) {
             printf("Display %d is invalid.", displayId);
             return -ENOENT;
         } else {
             for (auto display : mDisplays) {
                 if (display.port == displayId) {
                     mActiveDisplayId = displayId;
                     return mActiveDisplayId;
                 }
             }

             printf("Display %d does not exist.", displayId);
             return -ENOENT;
         }
     }
     const std::vector<DisplayInfo>& getDisplays() const { return mDisplays; };
     const DisplayInfo& getActiveDisplay() const { return mDisplays[mActiveDisplayId]; };
     void  useExternalMemory(bool flag) { mUseExternalMemory = flag; }
     bool  getUseExternalMemory() const { return mUseExternalMemory; }
     void  setExternalMemoryFormat(android_pixel_format_t format) {
         mExternalMemoryFormat = format;
     }
     android_pixel_format_t getExternalMemoryFormat() const {
         return mExternalMemoryFormat;
     }

 private:
     // Camera information
     std::vector<CameraInfo> mCameras;

     // Display information
     std::vector<DisplayInfo> mDisplays;
     int mActiveDisplayId;

     // Memory management
     bool mUseExternalMemory;

     // Format of external memory
     android_pixel_format_t mExternalMemoryFormat;

     // Car body information (assumes front wheel steering and origin at center of rear axel)
     // Note that units aren't specified and don't matter as long as all length units are consistent
     // within the JSON file from which we parse.  That is, if everything is in meters, that's fine.
     // Everything in mm?  That's fine too.
     float mCarWidth;
     float mWheelBase;
     float mFrontExtent;
     float mRearExtent;

     // Top view car image information
     float mCarGraphicFrontPixel;    // How many pixels from the top of the image does the car start
     float mCarGraphicRearPixel;     // How many pixels from the top of the image does the car end
 };

 #endif // CONFIG_MANAGER_H
	/*
	* 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.
	*/
	#ifndef CONFIG_MANAGER_H
	#define CONFIG_MANAGER_H

	#include <cerrno>
	#include <string>
	#include <vector>

	#include <system/graphics-base.h>


	class ConfigManager {
	public:
	struct CameraInfo {
	std::string cameraId = ""; // The name of the camera from the point of view of the HAL
	std::string function = ""; // The expected use for this camera ("reverse", "left", "right")
	float position[3] = {0}; // x, y, z -> right, fwd, up in the units of car space
	float yaw = 0; // radians positive to the left (right hand rule about global z axis)
	float pitch = 0; // positive upward (ie: right hand rule about local x axis)
	float hfov = 0; // radians
	float vfov = 0; // radians
	};

	struct DisplayInfo {
	uint8_t port = 0; // Display port number to use
	std::string function = ""; // The expected use for this display.
	float frontRangeInCarSpace; // How far the display extends in front of the car
	float rearRangeInCarSpace; // How far the display extends behind the car
	};

	bool initialize(const char* configFileName);

	// World space dimensions of the car
	float getCarWidth() const { return mCarWidth; };
	float getCarLength() const { return mWheelBase + mFrontExtent + mRearExtent; };
	float getWheelBase() const { return mWheelBase; };

	// Car space (world space centered on the rear axel) edges of the car
	float getFrontLocation() const { return mWheelBase + mFrontExtent; };
	float getRearLocation() const { return -mRearExtent; };
	float getRightLocation() const { return mCarWidth*0.5f; };
	float getLeftLocation() const { return -mCarWidth*0.5f; };

	// Where are the edges of the top down display in car space?
	float getDisplayTopLocation() const {
	// From the rear axel (origin) to the front bumper, and then beyond by the front range
	return mWheelBase + mFrontExtent + mDisplays[mActiveDisplayId].frontRangeInCarSpace;
	};
	float getDisplayBottomLocation() const {
	// From the rear axel (origin) to the back bumper, and then beyond by the back range
	return -mRearExtent - mDisplays[mActiveDisplayId].rearRangeInCarSpace;
	};
	float getDisplayRightLocation(float aspectRatio) const {
	// Given the display aspect ratio (width over height), how far can we see to the right?
	return (getDisplayTopLocation() - getDisplayBottomLocation()) * 0.5f * aspectRatio;
	};
	float getDisplayLeftLocation(float aspectRatio) const {
	// Given the display aspect ratio (width over height), how far can we see to the left?
	return -getDisplayRightLocation(aspectRatio);
	};

	// At which texel (vertically in the image) are the front and rear bumpers of the car?
	float carGraphicFrontPixel() const { return mCarGraphicFrontPixel; };
	float carGraphicRearPixel() const { return mCarGraphicRearPixel; };

	const std::vector<CameraInfo>& getCameras() const { return mCameras; };

	int setActiveDisplayId(int displayId) {
	if (displayId == -1) {
	// -1 is reserved for the default display, which is the first
	// display in config.json's display list
	printf("Uses a display with id %d", mDisplays[0].port);
	mActiveDisplayId = mDisplays[0].port;
	return mActiveDisplayId;
	} else if (displayId < 0) {
	printf("Display %d is invalid.", displayId);
	return -ENOENT;
	} else {
	for (auto display : mDisplays) {
	if (display.port == displayId) {
	mActiveDisplayId = displayId;
	return mActiveDisplayId;
	}
	}

	printf("Display %d does not exist.", displayId);
	return -ENOENT;
	}
	}
	const std::vector<DisplayInfo>& getDisplays() const { return mDisplays; };
	const DisplayInfo& getActiveDisplay() const { return mDisplays[mActiveDisplayId]; };
	void useExternalMemory(bool flag) { mUseExternalMemory = flag; }
	bool getUseExternalMemory() const { return mUseExternalMemory; }
	void setExternalMemoryFormat(android_pixel_format_t format) {
	mExternalMemoryFormat = format;
	}
	android_pixel_format_t getExternalMemoryFormat() const {
	return mExternalMemoryFormat;
	}

	private:
	// Camera information
	std::vector<CameraInfo> mCameras;

	// Display information
	std::vector<DisplayInfo> mDisplays;
	int mActiveDisplayId;

	// Memory management
	bool mUseExternalMemory;

	// Format of external memory
	android_pixel_format_t mExternalMemoryFormat;

	// Car body information (assumes front wheel steering and origin at center of rear axel)
	// Note that units aren't specified and don't matter as long as all length units are consistent
	// within the JSON file from which we parse. That is, if everything is in meters, that's fine.
	// Everything in mm? That's fine too.
	float mCarWidth;
	float mWheelBase;
	float mFrontExtent;
	float mRearExtent;

	// Top view car image information
	float mCarGraphicFrontPixel; // How many pixels from the top of the image does the car start
	float mCarGraphicRearPixel; // How many pixels from the top of the image does the car end
	};

	#endif // CONFIG_MANAGER_H