apps/CtsVerifier/include/colorchecker/vec3.h - platform/cts - Git at Google

 /*
  * Copyright (C) 2011 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 VEC3_H
 #define VEC3_H

 #include <assert.h>
 #include <cmath>

 // Implementes a class to represent the pixel value in a 3-dimensional color
 // space. The colors are all represented by int as it is mostly used as RGB.
 template <class T>
 class Vec3{
   public:
     Vec3(T inputRed, T inputGreen, T inputBlue) {
         mRed = inputRed;
         mGreen = inputGreen;
         mBlue = inputBlue;
     }

     Vec3() {}

     template <class U>
     inline Vec3<T> operator+ (const Vec3<U> &param) const {
         Vec3<T> temp(mRed + param.r(), mGreen + param.g(), mBlue + param.b());
         return temp;
     }

     inline Vec3<T> operator- (const Vec3<T> &param) const {
         Vec3<T> temp(mRed - param.r(), mGreen - param.g(), mBlue - param.b());
         return temp;
     }

     inline Vec3<T> operator* (const int param) const {
         Vec3<T> temp(mRed * param, mGreen * param, mBlue * param);
         return temp;
     }

     template <class U>
     inline Vec3<float> operator* (const Vec3<U> &param) const {
         Vec3<float> temp(mRed * static_cast<U>(param.r()),
                          mGreen * static_cast<U>(param.g()),
                          mBlue * static_cast<U>(param.b()));
         return temp;
     }


     inline Vec3<float> operator/ (const int param) const {
         Vec3<float> temp;
         assert(param != 0);
         temp.set(static_cast<float>(mRed) / static_cast<float>(param),
                  static_cast<float>(mGreen) / static_cast<float>(param),
                  static_cast<float>(mBlue) / static_cast<float>(param));
         return temp;
     }

     template <class U>
     inline Vec3<float> operator/ (const Vec3<U> &param) const {
         Vec3<float> temp;
         assert((param.r() != 0.f) && (param.g() != 0.f) && (param.b() != 0.f));
         temp.set(static_cast<float>(mRed) / static_cast<float>(param.r()),
                  static_cast<float>(mGreen) / static_cast<float>(param.g()),
                  static_cast<float>(mBlue) / static_cast<float>(param.b()));
         return temp;
     }

     template <class U>
     float squareDistance(const Vec3<U> &param) const {
         float difference = 0.f;
         difference = static_cast<float>(mRed - param.r()) *
                 static_cast<float>(mRed - param.r()) +
                 static_cast<float>(mGreen - param.g()) *
                 static_cast<float>(mGreen - param.g()) +
                 static_cast<float>(mBlue - param.b()) *
                 static_cast<float>(mBlue - param.b());
         return difference;
     }

     // Assumes conversion from sRGB to luminance.
     float convertToLuminance() const {
         return (0.299 * static_cast<float>(mRed) +
                 0.587 * static_cast<float>(mGreen) +
                 0.114 * static_cast<float>(mBlue));
     }

     inline T r() const { return mRed; }
     inline T g() const { return mGreen; }
     inline T b() const { return mBlue; }

     inline void set(const T inputRed, const T inputGreen, const T inputBlue){
         mRed = inputRed;
         mGreen = inputGreen;
         mBlue = inputBlue;
     }

   private:
     T mRed;
     T mGreen;
     T mBlue;
 };

 typedef Vec3<int> Vec3i;
 typedef Vec3<float> Vec3f;
 #endif
	/*
	* Copyright (C) 2011 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 VEC3_H
	#define VEC3_H

	#include <assert.h>
	#include <cmath>

	// Implementes a class to represent the pixel value in a 3-dimensional color
	// space. The colors are all represented by int as it is mostly used as RGB.
	template <class T>
	class Vec3{
	public:
	Vec3(T inputRed, T inputGreen, T inputBlue) {
	mRed = inputRed;
	mGreen = inputGreen;
	mBlue = inputBlue;
	}

	Vec3() {}

	template <class U>
	inline Vec3<T> operator+ (const Vec3<U> &param) const {
	Vec3<T> temp(mRed + param.r(), mGreen + param.g(), mBlue + param.b());
	return temp;
	}

	inline Vec3<T> operator- (const Vec3<T> &param) const {
	Vec3<T> temp(mRed - param.r(), mGreen - param.g(), mBlue - param.b());
	return temp;
	}

	inline Vec3<T> operator* (const int param) const {
	Vec3<T> temp(mRed * param, mGreen * param, mBlue * param);
	return temp;
	}

	template <class U>
	inline Vec3<float> operator* (const Vec3<U> &param) const {
	Vec3<float> temp(mRed * static_cast<U>(param.r()),
	mGreen * static_cast<U>(param.g()),
	mBlue * static_cast<U>(param.b()));
	return temp;
	}


	inline Vec3<float> operator/ (const int param) const {
	Vec3<float> temp;
	assert(param != 0);
	temp.set(static_cast<float>(mRed) / static_cast<float>(param),
	static_cast<float>(mGreen) / static_cast<float>(param),
	static_cast<float>(mBlue) / static_cast<float>(param));
	return temp;
	}

	template <class U>
	inline Vec3<float> operator/ (const Vec3<U> &param) const {
	Vec3<float> temp;
	assert((param.r() != 0.f) && (param.g() != 0.f) && (param.b() != 0.f));
	temp.set(static_cast<float>(mRed) / static_cast<float>(param.r()),
	static_cast<float>(mGreen) / static_cast<float>(param.g()),
	static_cast<float>(mBlue) / static_cast<float>(param.b()));
	return temp;
	}

	template <class U>
	float squareDistance(const Vec3<U> &param) const {
	float difference = 0.f;
	difference = static_cast<float>(mRed - param.r()) *
	static_cast<float>(mRed - param.r()) +
	static_cast<float>(mGreen - param.g()) *
	static_cast<float>(mGreen - param.g()) +
	static_cast<float>(mBlue - param.b()) *
	static_cast<float>(mBlue - param.b());
	return difference;
	}

	// Assumes conversion from sRGB to luminance.
	float convertToLuminance() const {
	return (0.299 * static_cast<float>(mRed) +
	0.587 * static_cast<float>(mGreen) +
	0.114 * static_cast<float>(mBlue));
	}

	inline T r() const { return mRed; }
	inline T g() const { return mGreen; }
	inline T b() const { return mBlue; }

	inline void set(const T inputRed, const T inputGreen, const T inputBlue){
	mRed = inputRed;
	mGreen = inputGreen;
	mBlue = inputBlue;
	}

	private:
	T mRed;
	T mGreen;
	T mBlue;
	};

	typedef Vec3<int> Vec3i;
	typedef Vec3<float> Vec3f;
	#endif