libs/hwui/Matrix.h - LeafOS-Project/android_frameworks_base - Gitiles

 /*
  * Copyright (C) 2010 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.
  */

 #pragma once

 #include "Rect.h"

 #include <SkMatrix.h>
 #include <cutils/compiler.h>
 #include <iomanip>
 #include <ostream>

 namespace android {
 namespace uirenderer {

 #define SK_MATRIX_STRING "[%.2f %.2f %.2f] [%.2f %.2f %.2f] [%.2f %.2f %.2f]"
 #define SK_MATRIX_STRING_V "[%.9f %.9f %.9f] [%.9f %.9f %.9f] [%.9f %.9f %.9f]"
 #define SK_MATRIX_ARGS(m)                                                                      \
     (m)->get(0), (m)->get(1), (m)->get(2), (m)->get(3), (m)->get(4), (m)->get(5), (m)->get(6), \
             (m)->get(7), (m)->get(8)

 #define MATRIX_4_STRING                           \
     "[%.2f %.2f %.2f %.2f] [%.2f %.2f %.2f %.2f]" \
     " [%.2f %.2f %.2f %.2f] [%.2f %.2f %.2f %.2f]"
 #define MATRIX_4_ARGS(m)                                                                           \
     (m)->data[0], (m)->data[4], (m)->data[8], (m)->data[12], (m)->data[1], (m)->data[5],           \
             (m)->data[9], (m)->data[13], (m)->data[2], (m)->data[6], (m)->data[10], (m)->data[14], \
             (m)->data[3], (m)->data[7], (m)->data[11], (m)->data[15]

 ///////////////////////////////////////////////////////////////////////////////
 // Classes
 ///////////////////////////////////////////////////////////////////////////////

 class Matrix4 {
 public:
     float data[16];

     enum Entry {
         kScaleX = 0,
         kSkewY = 1,
         kPerspective0 = 3,
         kSkewX = 4,
         kScaleY = 5,
         kPerspective1 = 7,
         kScaleZ = 10,
         kTranslateX = 12,
         kTranslateY = 13,
         kTranslateZ = 14,
         kPerspective2 = 15
     };

     // NOTE: The flags from kTypeIdentity to kTypePerspective
     //       must be kept in sync with the type flags found
     //       in SkMatrix
     enum Type {
         kTypeIdentity = 0,
         kTypeTranslate = 0x1,
         kTypeScale = 0x2,
         kTypeAffine = 0x4,
         kTypePerspective = 0x8,
         kTypeRectToRect = 0x10,
         kTypeUnknown = 0x20,
     };

     static const int sGeometryMask = 0xf;

     Matrix4() { loadIdentity(); }

     explicit Matrix4(const float* v) { load(v); }

     Matrix4(const SkMatrix& v) {  // NOLINT(google-explicit-constructor)
         load(v);
     }

     float operator[](int index) const { return data[index]; }

     float& operator[](int index) {
         mType = kTypeUnknown;
         return data[index];
     }

     Matrix4& operator=(const SkMatrix& v) {
         load(v);
         return *this;
     }

     friend bool operator==(const Matrix4& a, const Matrix4& b) {
         return !memcmp(&a.data[0], &b.data[0], 16 * sizeof(float));
     }

     friend bool operator!=(const Matrix4& a, const Matrix4& b) { return !(a == b); }

     void loadIdentity();

     void load(const float* v);
     void load(const SkMatrix& v);

     void loadInverse(const Matrix4& v);

     void loadTranslate(float x, float y, float z);
     void loadScale(float sx, float sy, float sz);
     void loadSkew(float sx, float sy);
     void loadRotate(float angle);
     void loadRotate(float angle, float x, float y, float z);
     void loadMultiply(const Matrix4& u, const Matrix4& v);

     void loadOrtho(float left, float right, float bottom, float top, float near, float far);
     void loadOrtho(int width, int height) { loadOrtho(0, width, height, 0, -1, 1); }

     uint8_t getType() const;

     void multiplyInverse(const Matrix4& v) {
         Matrix4 inv;
         inv.loadInverse(v);
         multiply(inv);
     }

     void multiply(const Matrix4& v) {
         if (!v.isIdentity()) {
             Matrix4 u;
             u.loadMultiply(*this, v);
             *this = u;
         }
     }

     void multiply(float v);

     void translate(float x, float y, float z = 0) {
         if ((getType() & sGeometryMask) <= kTypeTranslate) {
             data[kTranslateX] += x;
             data[kTranslateY] += y;
             data[kTranslateZ] += z;
             mType |= kTypeUnknown;
         } else {
             // Doing a translation will only affect the translate bit of the type
             // Save the type
             uint8_t type = mType;

             Matrix4 u;
             u.loadTranslate(x, y, z);
             multiply(u);

             // Restore the type and fix the translate bit
             mType = type;
             if (data[kTranslateX] != 0.0f || data[kTranslateY] != 0.0f) {
                 mType |= kTypeTranslate;
             } else {
                 mType &= ~kTypeTranslate;
             }
         }
     }

     void scale(float sx, float sy, float sz) {
         Matrix4 u;
         u.loadScale(sx, sy, sz);
         multiply(u);
     }

     void skew(float sx, float sy) {
         Matrix4 u;
         u.loadSkew(sx, sy);
         multiply(u);
     }

     void rotate(float angle, float x, float y, float z) {
         Matrix4 u;
         u.loadRotate(angle, x, y, z);
         multiply(u);
     }

     /**
      * If the matrix is identity or translate and/or scale.
      */
     bool isSimple() const;
     bool isPureTranslate() const;
     bool isIdentity() const;
     bool isPerspective() const;
     bool rectToRect() const;
     bool positiveScale() const;

     bool changesBounds() const;

     void copyTo(float* v) const;
     void copyTo(SkMatrix& v) const;

     float mapZ(const Vector3& orig) const;
     void mapPoint3d(Vector3& vec) const;
     void mapPoint(float& x, float& y) const;  // 2d only
     void mapRect(Rect& r) const;              // 2d only

     float getTranslateX() const;
     float getTranslateY() const;

     void decomposeScale(float& sx, float& sy) const;

     void dump(const char* label = nullptr) const;

     friend std::ostream& operator<<(std::ostream& os, const Matrix4& matrix) {
         if (matrix.isSimple()) {
             os << "offset " << matrix.getTranslateX() << "x" << matrix.getTranslateY();
             if (!matrix.isPureTranslate()) {
                 os << ", scale " << matrix[kScaleX] << "x" << matrix[kScaleY];
             }
         } else {
             os << "[" << matrix[0];
             for (int i = 1; i < 16; i++) {
                 os << ", " << matrix[i];
             }
             os << "]";
         }
         return os;
     }

     static const Matrix4& identity();

     void invalidateType() { mType = kTypeUnknown; }

 private:
     mutable uint8_t mType;

     inline float get(int i, int j) const { return data[i * 4 + j]; }

     inline void set(int i, int j, float v) { data[i * 4 + j] = v; }

     uint8_t getGeometryType() const;

 };  // class Matrix4

 ///////////////////////////////////////////////////////////////////////////////
 // Types
 ///////////////////////////////////////////////////////////////////////////////

 typedef Matrix4 mat4;

 }  // namespace uirenderer
 }  // namespace android
	/*
	* Copyright (C) 2010 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.
	*/

	#pragma once

	#include "Rect.h"

	#include <SkMatrix.h>
	#include <cutils/compiler.h>
	#include <iomanip>
	#include <ostream>

	namespace android {
	namespace uirenderer {

	#define SK_MATRIX_STRING "[%.2f %.2f %.2f] [%.2f %.2f %.2f] [%.2f %.2f %.2f]"
	#define SK_MATRIX_STRING_V "[%.9f %.9f %.9f] [%.9f %.9f %.9f] [%.9f %.9f %.9f]"
	#define SK_MATRIX_ARGS(m) \
	(m)->get(0), (m)->get(1), (m)->get(2), (m)->get(3), (m)->get(4), (m)->get(5), (m)->get(6), \
	(m)->get(7), (m)->get(8)

	#define MATRIX_4_STRING \
	"[%.2f %.2f %.2f %.2f] [%.2f %.2f %.2f %.2f]" \
	" [%.2f %.2f %.2f %.2f] [%.2f %.2f %.2f %.2f]"
	#define MATRIX_4_ARGS(m) \
	(m)->data[0], (m)->data[4], (m)->data[8], (m)->data[12], (m)->data[1], (m)->data[5], \
	(m)->data[9], (m)->data[13], (m)->data[2], (m)->data[6], (m)->data[10], (m)->data[14], \
	(m)->data[3], (m)->data[7], (m)->data[11], (m)->data[15]

	///////////////////////////////////////////////////////////////////////////////
	// Classes
	///////////////////////////////////////////////////////////////////////////////

	class Matrix4 {
	public:
	float data[16];

	enum Entry {
	kScaleX = 0,
	kSkewY = 1,
	kPerspective0 = 3,
	kSkewX = 4,
	kScaleY = 5,
	kPerspective1 = 7,
	kScaleZ = 10,
	kTranslateX = 12,
	kTranslateY = 13,
	kTranslateZ = 14,
	kPerspective2 = 15
	};

	// NOTE: The flags from kTypeIdentity to kTypePerspective
	// must be kept in sync with the type flags found
	// in SkMatrix
	enum Type {
	kTypeIdentity = 0,
	kTypeTranslate = 0x1,
	kTypeScale = 0x2,
	kTypeAffine = 0x4,
	kTypePerspective = 0x8,
	kTypeRectToRect = 0x10,
	kTypeUnknown = 0x20,
	};

	static const int sGeometryMask = 0xf;

	Matrix4() { loadIdentity(); }

	explicit Matrix4(const float* v) { load(v); }

	Matrix4(const SkMatrix& v) { // NOLINT(google-explicit-constructor)
	load(v);
	}

	float operator[](int index) const { return data[index]; }

	float& operator[](int index) {
	mType = kTypeUnknown;
	return data[index];
	}

	Matrix4& operator=(const SkMatrix& v) {
	load(v);
	return *this;
	}

	friend bool operator==(const Matrix4& a, const Matrix4& b) {
	return !memcmp(&a.data[0], &b.data[0], 16 * sizeof(float));
	}

	friend bool operator!=(const Matrix4& a, const Matrix4& b) { return !(a == b); }

	void loadIdentity();

	void load(const float* v);
	void load(const SkMatrix& v);

	void loadInverse(const Matrix4& v);

	void loadTranslate(float x, float y, float z);
	void loadScale(float sx, float sy, float sz);
	void loadSkew(float sx, float sy);
	void loadRotate(float angle);
	void loadRotate(float angle, float x, float y, float z);
	void loadMultiply(const Matrix4& u, const Matrix4& v);

	void loadOrtho(float left, float right, float bottom, float top, float near, float far);
	void loadOrtho(int width, int height) { loadOrtho(0, width, height, 0, -1, 1); }

	uint8_t getType() const;

	void multiplyInverse(const Matrix4& v) {
	Matrix4 inv;
	inv.loadInverse(v);
	multiply(inv);
	}

	void multiply(const Matrix4& v) {
	if (!v.isIdentity()) {
	Matrix4 u;
	u.loadMultiply(*this, v);
	*this = u;
	}
	}

	void multiply(float v);

	void translate(float x, float y, float z = 0) {
	if ((getType() & sGeometryMask) <= kTypeTranslate) {
	data[kTranslateX] += x;
	data[kTranslateY] += y;
	data[kTranslateZ] += z;
	mType \|= kTypeUnknown;
	} else {
	// Doing a translation will only affect the translate bit of the type
	// Save the type
	uint8_t type = mType;

	Matrix4 u;
	u.loadTranslate(x, y, z);
	multiply(u);

	// Restore the type and fix the translate bit
	mType = type;
	if (data[kTranslateX] != 0.0f \|\| data[kTranslateY] != 0.0f) {
	mType \|= kTypeTranslate;
	} else {
	mType &= ~kTypeTranslate;
	}
	}
	}

	void scale(float sx, float sy, float sz) {
	Matrix4 u;
	u.loadScale(sx, sy, sz);
	multiply(u);
	}

	void skew(float sx, float sy) {
	Matrix4 u;
	u.loadSkew(sx, sy);
	multiply(u);
	}

	void rotate(float angle, float x, float y, float z) {
	Matrix4 u;
	u.loadRotate(angle, x, y, z);
	multiply(u);
	}

	/**
	* If the matrix is identity or translate and/or scale.
	*/
	bool isSimple() const;
	bool isPureTranslate() const;
	bool isIdentity() const;
	bool isPerspective() const;
	bool rectToRect() const;
	bool positiveScale() const;

	bool changesBounds() const;

	void copyTo(float* v) const;
	void copyTo(SkMatrix& v) const;

	float mapZ(const Vector3& orig) const;
	void mapPoint3d(Vector3& vec) const;
	void mapPoint(float& x, float& y) const; // 2d only
	void mapRect(Rect& r) const; // 2d only

	float getTranslateX() const;
	float getTranslateY() const;

	void decomposeScale(float& sx, float& sy) const;

	void dump(const char* label = nullptr) const;

	friend std::ostream& operator<<(std::ostream& os, const Matrix4& matrix) {
	if (matrix.isSimple()) {
	os << "offset " << matrix.getTranslateX() << "x" << matrix.getTranslateY();
	if (!matrix.isPureTranslate()) {
	os << ", scale " << matrix[kScaleX] << "x" << matrix[kScaleY];
	}
	} else {
	os << "[" << matrix[0];
	for (int i = 1; i < 16; i++) {
	os << ", " << matrix[i];
	}
	os << "]";
	}
	return os;
	}

	static const Matrix4& identity();

	void invalidateType() { mType = kTypeUnknown; }

	private:
	mutable uint8_t mType;

	inline float get(int i, int j) const { return data[i * 4 + j]; }

	inline void set(int i, int j, float v) { data[i * 4 + j] = v; }

	uint8_t getGeometryType() const;

	}; // class Matrix4

	///////////////////////////////////////////////////////////////////////////////
	// Types
	///////////////////////////////////////////////////////////////////////////////

	typedef Matrix4 mat4;

	} // namespace uirenderer
	} // namespace android