tools/emulator/system/camera/fake-pipeline2/Scene.h - platform/development - Git at Google

 /*
  * Copyright (C) 2012 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.
  */

 /**
  * The Scene class implements a simple physical simulation of a scene, using the
  * CIE 1931 colorspace to represent light in physical units (lux).
  *
  * It's fairly approximate, but does provide a scene with realistic widely
  * variable illumination levels and colors over time.
  *
  */

 #ifndef HW_EMULATOR_CAMERA2_SCENE_H
 #define HW_EMULATOR_CAMERA2_SCENE_H

 #include "utils/Timers.h"

 namespace android {

 class Scene {
   public:
     Scene(int sensorWidthPx,
             int sensorHeightPx,
             float sensorSensitivity);
     ~Scene();

     // Set the filter coefficients for the red, green, and blue filters on the
     // sensor. Used as an optimization to pre-calculate various illuminance
     // values. Two different green filters can be provided, to account for
     // possible cross-talk on a Bayer sensor. Must be called before
     // calculateScene.
     void setColorFilterXYZ(
         float rX, float rY, float rZ,
         float grX, float grY, float grZ,
         float gbX, float gbY, float gbZ,
         float bX, float bY, float bZ);

     // Set time of day (24-hour clock). This controls the general light levels
     // in the scene. Must be called before calculateScene
     void setHour(int hour);
     // Get current hour
     int getHour();

     // Set the duration of exposure for determining luminous exposure.
     // Must be called before calculateScene
     void setExposureDuration(float seconds);

     // Calculate scene information for current hour and the time offset since
     // the hour. Must be called at least once before calling getLuminousExposure.
     // Resets pixel readout location to 0,0
     void calculateScene(nsecs_t time);

     // Set sensor pixel readout location.
     void setReadoutPixel(int x, int y);

     // Get sensor response in physical units (electrons) for light hitting the
     // current readout pixel, after passing through color filters. The readout
     // pixel will be auto-incremented. The returned array can be indexed with
     // ColorChannels.
     const uint32_t* getPixelElectrons();

     enum ColorChannels {
         R = 0,
         Gr,
         Gb,
         B,
         Y,
         Cb,
         Cr,
         NUM_CHANNELS
     };

   private:
     // Sensor color filtering coefficients in XYZ
     float mFilterR[3];
     float mFilterGr[3];
     float mFilterGb[3];
     float mFilterB[3];

     int mOffsetX, mOffsetY;
     int mMapDiv;

     int mHandshakeX, mHandshakeY;

     int mSensorWidth;
     int mSensorHeight;
     int mCurrentX;
     int mCurrentY;
     int mSubX;
     int mSubY;
     int mSceneX;
     int mSceneY;
     int mSceneIdx;
     uint32_t *mCurrentSceneMaterial;

     int mHour;
     float mExposureDuration;
     float mSensorSensitivity;

     enum Materials {
         GRASS = 0,
         GRASS_SHADOW,
         HILL,
         WALL,
         ROOF,
         DOOR,
         CHIMNEY,
         WINDOW,
         SUN,
         SKY,
         MOON,
         NUM_MATERIALS
     };

     uint32_t mCurrentColors[NUM_MATERIALS*NUM_CHANNELS];

     /**
      * Constants for scene definition. These are various degrees of approximate.
      */

     // RGB->YUV conversion
     static const float kRgb2Yuv[12];

     // Aperture of imaging lens
     static const float kAperture;

     // Sun, moon illuminance levels in 2-hour increments. These don't match any
     // real day anywhere.
     static const uint32_t kTimeStep = 2;
     static const float kSunlight[];
     static const float kMoonlight[];
     static const int kSunOverhead;
     static const int kMoonOverhead;

     // Illumination levels for various conditions, in lux
     static const float kDirectSunIllum;
     static const float kDaylightShadeIllum;
     static const float kSunsetIllum;
     static const float kTwilightIllum;
     static const float kFullMoonIllum;
     static const float kClearNightIllum;
     static const float kStarIllum;
     static const float kLivingRoomIllum;

     // Chromaticity of various illumination sources
     static const float kIncandescentXY[2];
     static const float kDirectSunlightXY[2];
     static const float kDaylightXY[2];
     static const float kNoonSkyXY[2];
     static const float kMoonlightXY[2];
     static const float kSunsetXY[2];

     static const uint8_t kSelfLit;
     static const uint8_t kShadowed;
     static const uint8_t kSky;

     static const float kMaterials_xyY[NUM_MATERIALS][3];
     static const uint8_t kMaterialsFlags[NUM_MATERIALS];

     static const int kSceneWidth;
     static const int kSceneHeight;
     static const uint8_t kScene[];
 };

 }

 #endif // HW_EMULATOR_CAMERA2_SCENE_H
	/*
	* Copyright (C) 2012 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.
	*/

	/**
	* The Scene class implements a simple physical simulation of a scene, using the
	* CIE 1931 colorspace to represent light in physical units (lux).
	*
	* It's fairly approximate, but does provide a scene with realistic widely
	* variable illumination levels and colors over time.
	*
	*/

	#ifndef HW_EMULATOR_CAMERA2_SCENE_H
	#define HW_EMULATOR_CAMERA2_SCENE_H

	#include "utils/Timers.h"

	namespace android {

	class Scene {
	public:
	Scene(int sensorWidthPx,
	int sensorHeightPx,
	float sensorSensitivity);
	~Scene();

	// Set the filter coefficients for the red, green, and blue filters on the
	// sensor. Used as an optimization to pre-calculate various illuminance
	// values. Two different green filters can be provided, to account for
	// possible cross-talk on a Bayer sensor. Must be called before
	// calculateScene.
	void setColorFilterXYZ(
	float rX, float rY, float rZ,
	float grX, float grY, float grZ,
	float gbX, float gbY, float gbZ,
	float bX, float bY, float bZ);

	// Set time of day (24-hour clock). This controls the general light levels
	// in the scene. Must be called before calculateScene
	void setHour(int hour);
	// Get current hour
	int getHour();

	// Set the duration of exposure for determining luminous exposure.
	// Must be called before calculateScene
	void setExposureDuration(float seconds);

	// Calculate scene information for current hour and the time offset since
	// the hour. Must be called at least once before calling getLuminousExposure.
	// Resets pixel readout location to 0,0
	void calculateScene(nsecs_t time);

	// Set sensor pixel readout location.
	void setReadoutPixel(int x, int y);

	// Get sensor response in physical units (electrons) for light hitting the
	// current readout pixel, after passing through color filters. The readout
	// pixel will be auto-incremented. The returned array can be indexed with
	// ColorChannels.
	const uint32_t* getPixelElectrons();

	enum ColorChannels {
	R = 0,
	Gr,
	Gb,
	B,
	Y,
	Cb,
	Cr,
	NUM_CHANNELS
	};

	private:
	// Sensor color filtering coefficients in XYZ
	float mFilterR[3];
	float mFilterGr[3];
	float mFilterGb[3];
	float mFilterB[3];

	int mOffsetX, mOffsetY;
	int mMapDiv;

	int mHandshakeX, mHandshakeY;

	int mSensorWidth;
	int mSensorHeight;
	int mCurrentX;
	int mCurrentY;
	int mSubX;
	int mSubY;
	int mSceneX;
	int mSceneY;
	int mSceneIdx;
	uint32_t *mCurrentSceneMaterial;

	int mHour;
	float mExposureDuration;
	float mSensorSensitivity;

	enum Materials {
	GRASS = 0,
	GRASS_SHADOW,
	HILL,
	WALL,
	ROOF,
	DOOR,
	CHIMNEY,
	WINDOW,
	SUN,
	SKY,
	MOON,
	NUM_MATERIALS
	};

	uint32_t mCurrentColors[NUM_MATERIALS*NUM_CHANNELS];

	/**
	* Constants for scene definition. These are various degrees of approximate.
	*/

	// RGB->YUV conversion
	static const float kRgb2Yuv[12];

	// Aperture of imaging lens
	static const float kAperture;

	// Sun, moon illuminance levels in 2-hour increments. These don't match any
	// real day anywhere.
	static const uint32_t kTimeStep = 2;
	static const float kSunlight[];
	static const float kMoonlight[];
	static const int kSunOverhead;
	static const int kMoonOverhead;

	// Illumination levels for various conditions, in lux
	static const float kDirectSunIllum;
	static const float kDaylightShadeIllum;
	static const float kSunsetIllum;
	static const float kTwilightIllum;
	static const float kFullMoonIllum;
	static const float kClearNightIllum;
	static const float kStarIllum;
	static const float kLivingRoomIllum;

	// Chromaticity of various illumination sources
	static const float kIncandescentXY[2];
	static const float kDirectSunlightXY[2];
	static const float kDaylightXY[2];
	static const float kNoonSkyXY[2];
	static const float kMoonlightXY[2];
	static const float kSunsetXY[2];

	static const uint8_t kSelfLit;
	static const uint8_t kShadowed;
	static const uint8_t kSky;

	static const float kMaterials_xyY[NUM_MATERIALS][3];
	static const uint8_t kMaterialsFlags[NUM_MATERIALS];

	static const int kSceneWidth;
	static const int kSceneHeight;
	static const uint8_t kScene[];
	};

	}

	#endif // HW_EMULATOR_CAMERA2_SCENE_H