1cb93a386Sopenharmony_ci/* 2cb93a386Sopenharmony_ci * Copyright 2006 The Android Open Source Project 3cb93a386Sopenharmony_ci * 4cb93a386Sopenharmony_ci * Use of this source code is governed by a BSD-style license that can be 5cb93a386Sopenharmony_ci * found in the LICENSE file. 6cb93a386Sopenharmony_ci */ 7cb93a386Sopenharmony_ci 8cb93a386Sopenharmony_ci#ifndef SkMatrix_DEFINED 9cb93a386Sopenharmony_ci#define SkMatrix_DEFINED 10cb93a386Sopenharmony_ci 11cb93a386Sopenharmony_ci#include "include/core/SkRect.h" 12cb93a386Sopenharmony_ci#include "include/private/SkMacros.h" 13cb93a386Sopenharmony_ci#include "include/private/SkTo.h" 14cb93a386Sopenharmony_ci 15cb93a386Sopenharmony_cistruct SkRSXform; 16cb93a386Sopenharmony_cistruct SkPoint3; 17cb93a386Sopenharmony_ci 18cb93a386Sopenharmony_ci// Remove when clients are updated to live without this 19cb93a386Sopenharmony_ci#define SK_SUPPORT_LEGACY_MATRIX_RECTTORECT 20cb93a386Sopenharmony_ci 21cb93a386Sopenharmony_ci/** 22cb93a386Sopenharmony_ci * When we transform points through a matrix containing perspective (the bottom row is something 23cb93a386Sopenharmony_ci * other than 0,0,1), the bruteforce math can produce confusing results (since we might divide 24cb93a386Sopenharmony_ci * by 0, or a negative w value). By default, methods that map rects and paths will apply 25cb93a386Sopenharmony_ci * perspective clipping, but this can be changed by specifying kYes to those methods. 26cb93a386Sopenharmony_ci */ 27cb93a386Sopenharmony_cienum class SkApplyPerspectiveClip { 28cb93a386Sopenharmony_ci kNo, //!< Don't pre-clip the geometry before applying the (perspective) matrix 29cb93a386Sopenharmony_ci kYes, //!< Do pre-clip the geometry before applying the (perspective) matrix 30cb93a386Sopenharmony_ci}; 31cb93a386Sopenharmony_ci 32cb93a386Sopenharmony_ci/** \class SkMatrix 33cb93a386Sopenharmony_ci SkMatrix holds a 3x3 matrix for transforming coordinates. This allows mapping 34cb93a386Sopenharmony_ci SkPoint and vectors with translation, scaling, skewing, rotation, and 35cb93a386Sopenharmony_ci perspective. 36cb93a386Sopenharmony_ci 37cb93a386Sopenharmony_ci SkMatrix elements are in row major order. 38cb93a386Sopenharmony_ci SkMatrix constexpr default constructs to identity. 39cb93a386Sopenharmony_ci 40cb93a386Sopenharmony_ci SkMatrix includes a hidden variable that classifies the type of matrix to 41cb93a386Sopenharmony_ci improve performance. SkMatrix is not thread safe unless getType() is called first. 42cb93a386Sopenharmony_ci 43cb93a386Sopenharmony_ci example: https://fiddle.skia.org/c/@Matrix_063 44cb93a386Sopenharmony_ci*/ 45cb93a386Sopenharmony_ciSK_BEGIN_REQUIRE_DENSE 46cb93a386Sopenharmony_ciclass SK_API SkMatrix { 47cb93a386Sopenharmony_cipublic: 48cb93a386Sopenharmony_ci 49cb93a386Sopenharmony_ci /** Creates an identity SkMatrix: 50cb93a386Sopenharmony_ci 51cb93a386Sopenharmony_ci | 1 0 0 | 52cb93a386Sopenharmony_ci | 0 1 0 | 53cb93a386Sopenharmony_ci | 0 0 1 | 54cb93a386Sopenharmony_ci */ 55cb93a386Sopenharmony_ci constexpr SkMatrix() : SkMatrix(1,0,0, 0,1,0, 0,0,1, kIdentity_Mask | kRectStaysRect_Mask) {} 56cb93a386Sopenharmony_ci 57cb93a386Sopenharmony_ci /** Sets SkMatrix to scale by (sx, sy). Returned matrix is: 58cb93a386Sopenharmony_ci 59cb93a386Sopenharmony_ci | sx 0 0 | 60cb93a386Sopenharmony_ci | 0 sy 0 | 61cb93a386Sopenharmony_ci | 0 0 1 | 62cb93a386Sopenharmony_ci 63cb93a386Sopenharmony_ci @param sx horizontal scale factor 64cb93a386Sopenharmony_ci @param sy vertical scale factor 65cb93a386Sopenharmony_ci @return SkMatrix with scale 66cb93a386Sopenharmony_ci */ 67cb93a386Sopenharmony_ci static SkMatrix SK_WARN_UNUSED_RESULT Scale(SkScalar sx, SkScalar sy) { 68cb93a386Sopenharmony_ci SkMatrix m; 69cb93a386Sopenharmony_ci m.setScale(sx, sy); 70cb93a386Sopenharmony_ci return m; 71cb93a386Sopenharmony_ci } 72cb93a386Sopenharmony_ci 73cb93a386Sopenharmony_ci /** Sets SkMatrix to translate by (dx, dy). Returned matrix is: 74cb93a386Sopenharmony_ci 75cb93a386Sopenharmony_ci | 1 0 dx | 76cb93a386Sopenharmony_ci | 0 1 dy | 77cb93a386Sopenharmony_ci | 0 0 1 | 78cb93a386Sopenharmony_ci 79cb93a386Sopenharmony_ci @param dx horizontal translation 80cb93a386Sopenharmony_ci @param dy vertical translation 81cb93a386Sopenharmony_ci @return SkMatrix with translation 82cb93a386Sopenharmony_ci */ 83cb93a386Sopenharmony_ci static SkMatrix SK_WARN_UNUSED_RESULT Translate(SkScalar dx, SkScalar dy) { 84cb93a386Sopenharmony_ci SkMatrix m; 85cb93a386Sopenharmony_ci m.setTranslate(dx, dy); 86cb93a386Sopenharmony_ci return m; 87cb93a386Sopenharmony_ci } 88cb93a386Sopenharmony_ci static SkMatrix SK_WARN_UNUSED_RESULT Translate(SkVector t) { return Translate(t.x(), t.y()); } 89cb93a386Sopenharmony_ci static SkMatrix SK_WARN_UNUSED_RESULT Translate(SkIVector t) { return Translate(t.x(), t.y()); } 90cb93a386Sopenharmony_ci 91cb93a386Sopenharmony_ci /** Sets SkMatrix to rotate by |deg| about a pivot point at (0, 0). 92cb93a386Sopenharmony_ci 93cb93a386Sopenharmony_ci @param deg rotation angle in degrees (positive rotates clockwise) 94cb93a386Sopenharmony_ci @return SkMatrix with rotation 95cb93a386Sopenharmony_ci */ 96cb93a386Sopenharmony_ci static SkMatrix SK_WARN_UNUSED_RESULT RotateDeg(SkScalar deg) { 97cb93a386Sopenharmony_ci SkMatrix m; 98cb93a386Sopenharmony_ci m.setRotate(deg); 99cb93a386Sopenharmony_ci return m; 100cb93a386Sopenharmony_ci } 101cb93a386Sopenharmony_ci static SkMatrix SK_WARN_UNUSED_RESULT RotateDeg(SkScalar deg, SkPoint pt) { 102cb93a386Sopenharmony_ci SkMatrix m; 103cb93a386Sopenharmony_ci m.setRotate(deg, pt.x(), pt.y()); 104cb93a386Sopenharmony_ci return m; 105cb93a386Sopenharmony_ci } 106cb93a386Sopenharmony_ci static SkMatrix SK_WARN_UNUSED_RESULT RotateRad(SkScalar rad) { 107cb93a386Sopenharmony_ci return RotateDeg(SkRadiansToDegrees(rad)); 108cb93a386Sopenharmony_ci } 109cb93a386Sopenharmony_ci 110cb93a386Sopenharmony_ci /** Sets SkMatrix to skew by (kx, ky) about pivot point (0, 0). 111cb93a386Sopenharmony_ci 112cb93a386Sopenharmony_ci @param kx horizontal skew factor 113cb93a386Sopenharmony_ci @param ky vertical skew factor 114cb93a386Sopenharmony_ci @return SkMatrix with skew 115cb93a386Sopenharmony_ci */ 116cb93a386Sopenharmony_ci static SkMatrix SK_WARN_UNUSED_RESULT Skew(SkScalar kx, SkScalar ky) { 117cb93a386Sopenharmony_ci SkMatrix m; 118cb93a386Sopenharmony_ci m.setSkew(kx, ky); 119cb93a386Sopenharmony_ci return m; 120cb93a386Sopenharmony_ci } 121cb93a386Sopenharmony_ci 122cb93a386Sopenharmony_ci /** \enum SkMatrix::ScaleToFit 123cb93a386Sopenharmony_ci ScaleToFit describes how SkMatrix is constructed to map one SkRect to another. 124cb93a386Sopenharmony_ci ScaleToFit may allow SkMatrix to have unequal horizontal and vertical scaling, 125cb93a386Sopenharmony_ci or may restrict SkMatrix to square scaling. If restricted, ScaleToFit specifies 126cb93a386Sopenharmony_ci how SkMatrix maps to the side or center of the destination SkRect. 127cb93a386Sopenharmony_ci */ 128cb93a386Sopenharmony_ci enum ScaleToFit { 129cb93a386Sopenharmony_ci kFill_ScaleToFit, //!< scales in x and y to fill destination SkRect 130cb93a386Sopenharmony_ci kStart_ScaleToFit, //!< scales and aligns to left and top 131cb93a386Sopenharmony_ci kCenter_ScaleToFit, //!< scales and aligns to center 132cb93a386Sopenharmony_ci kEnd_ScaleToFit, //!< scales and aligns to right and bottom 133cb93a386Sopenharmony_ci }; 134cb93a386Sopenharmony_ci 135cb93a386Sopenharmony_ci /** Returns SkMatrix set to scale and translate src to dst. ScaleToFit selects 136cb93a386Sopenharmony_ci whether mapping completely fills dst or preserves the aspect ratio, and how to 137cb93a386Sopenharmony_ci align src within dst. Returns the identity SkMatrix if src is empty. If dst is 138cb93a386Sopenharmony_ci empty, returns SkMatrix set to: 139cb93a386Sopenharmony_ci 140cb93a386Sopenharmony_ci | 0 0 0 | 141cb93a386Sopenharmony_ci | 0 0 0 | 142cb93a386Sopenharmony_ci | 0 0 1 | 143cb93a386Sopenharmony_ci 144cb93a386Sopenharmony_ci @param src SkRect to map from 145cb93a386Sopenharmony_ci @param dst SkRect to map to 146cb93a386Sopenharmony_ci @param mode How to handle the mapping 147cb93a386Sopenharmony_ci @return SkMatrix mapping src to dst 148cb93a386Sopenharmony_ci */ 149cb93a386Sopenharmony_ci static SkMatrix SK_WARN_UNUSED_RESULT RectToRect(const SkRect& src, const SkRect& dst, 150cb93a386Sopenharmony_ci ScaleToFit mode = kFill_ScaleToFit) { 151cb93a386Sopenharmony_ci return MakeRectToRect(src, dst, mode); 152cb93a386Sopenharmony_ci } 153cb93a386Sopenharmony_ci 154cb93a386Sopenharmony_ci /** Sets SkMatrix to: 155cb93a386Sopenharmony_ci 156cb93a386Sopenharmony_ci | scaleX skewX transX | 157cb93a386Sopenharmony_ci | skewY scaleY transY | 158cb93a386Sopenharmony_ci | pers0 pers1 pers2 | 159cb93a386Sopenharmony_ci 160cb93a386Sopenharmony_ci @param scaleX horizontal scale factor 161cb93a386Sopenharmony_ci @param skewX horizontal skew factor 162cb93a386Sopenharmony_ci @param transX horizontal translation 163cb93a386Sopenharmony_ci @param skewY vertical skew factor 164cb93a386Sopenharmony_ci @param scaleY vertical scale factor 165cb93a386Sopenharmony_ci @param transY vertical translation 166cb93a386Sopenharmony_ci @param pers0 input x-axis perspective factor 167cb93a386Sopenharmony_ci @param pers1 input y-axis perspective factor 168cb93a386Sopenharmony_ci @param pers2 perspective scale factor 169cb93a386Sopenharmony_ci @return SkMatrix constructed from parameters 170cb93a386Sopenharmony_ci */ 171cb93a386Sopenharmony_ci static SkMatrix SK_WARN_UNUSED_RESULT MakeAll(SkScalar scaleX, SkScalar skewX, SkScalar transX, 172cb93a386Sopenharmony_ci SkScalar skewY, SkScalar scaleY, SkScalar transY, 173cb93a386Sopenharmony_ci SkScalar pers0, SkScalar pers1, SkScalar pers2) { 174cb93a386Sopenharmony_ci SkMatrix m; 175cb93a386Sopenharmony_ci m.setAll(scaleX, skewX, transX, skewY, scaleY, transY, pers0, pers1, pers2); 176cb93a386Sopenharmony_ci return m; 177cb93a386Sopenharmony_ci } 178cb93a386Sopenharmony_ci 179cb93a386Sopenharmony_ci /** \enum SkMatrix::TypeMask 180cb93a386Sopenharmony_ci Enum of bit fields for mask returned by getType(). 181cb93a386Sopenharmony_ci Used to identify the complexity of SkMatrix, to optimize performance. 182cb93a386Sopenharmony_ci */ 183cb93a386Sopenharmony_ci enum TypeMask { 184cb93a386Sopenharmony_ci kIdentity_Mask = 0, //!< identity SkMatrix; all bits clear 185cb93a386Sopenharmony_ci kTranslate_Mask = 0x01, //!< translation SkMatrix 186cb93a386Sopenharmony_ci kScale_Mask = 0x02, //!< scale SkMatrix 187cb93a386Sopenharmony_ci kAffine_Mask = 0x04, //!< skew or rotate SkMatrix 188cb93a386Sopenharmony_ci kPerspective_Mask = 0x08, //!< perspective SkMatrix 189cb93a386Sopenharmony_ci }; 190cb93a386Sopenharmony_ci 191cb93a386Sopenharmony_ci /** Returns a bit field describing the transformations the matrix may 192cb93a386Sopenharmony_ci perform. The bit field is computed conservatively, so it may include 193cb93a386Sopenharmony_ci false positives. For example, when kPerspective_Mask is set, all 194cb93a386Sopenharmony_ci other bits are set. 195cb93a386Sopenharmony_ci 196cb93a386Sopenharmony_ci @return kIdentity_Mask, or combinations of: kTranslate_Mask, kScale_Mask, 197cb93a386Sopenharmony_ci kAffine_Mask, kPerspective_Mask 198cb93a386Sopenharmony_ci */ 199cb93a386Sopenharmony_ci TypeMask getType() const { 200cb93a386Sopenharmony_ci if (fTypeMask & kUnknown_Mask) { 201cb93a386Sopenharmony_ci fTypeMask = this->computeTypeMask(); 202cb93a386Sopenharmony_ci } 203cb93a386Sopenharmony_ci // only return the public masks 204cb93a386Sopenharmony_ci return (TypeMask)(fTypeMask & 0xF); 205cb93a386Sopenharmony_ci } 206cb93a386Sopenharmony_ci 207cb93a386Sopenharmony_ci /** Returns true if SkMatrix is identity. Identity matrix is: 208cb93a386Sopenharmony_ci 209cb93a386Sopenharmony_ci | 1 0 0 | 210cb93a386Sopenharmony_ci | 0 1 0 | 211cb93a386Sopenharmony_ci | 0 0 1 | 212cb93a386Sopenharmony_ci 213cb93a386Sopenharmony_ci @return true if SkMatrix has no effect 214cb93a386Sopenharmony_ci */ 215cb93a386Sopenharmony_ci bool isIdentity() const { 216cb93a386Sopenharmony_ci return this->getType() == 0; 217cb93a386Sopenharmony_ci } 218cb93a386Sopenharmony_ci 219cb93a386Sopenharmony_ci /** Returns true if SkMatrix at most scales and translates. SkMatrix may be identity, 220cb93a386Sopenharmony_ci contain only scale elements, only translate elements, or both. SkMatrix form is: 221cb93a386Sopenharmony_ci 222cb93a386Sopenharmony_ci | scale-x 0 translate-x | 223cb93a386Sopenharmony_ci | 0 scale-y translate-y | 224cb93a386Sopenharmony_ci | 0 0 1 | 225cb93a386Sopenharmony_ci 226cb93a386Sopenharmony_ci @return true if SkMatrix is identity; or scales, translates, or both 227cb93a386Sopenharmony_ci */ 228cb93a386Sopenharmony_ci bool isScaleTranslate() const { 229cb93a386Sopenharmony_ci return !(this->getType() & ~(kScale_Mask | kTranslate_Mask)); 230cb93a386Sopenharmony_ci } 231cb93a386Sopenharmony_ci 232cb93a386Sopenharmony_ci /** Returns true if SkMatrix is identity, or translates. SkMatrix form is: 233cb93a386Sopenharmony_ci 234cb93a386Sopenharmony_ci | 1 0 translate-x | 235cb93a386Sopenharmony_ci | 0 1 translate-y | 236cb93a386Sopenharmony_ci | 0 0 1 | 237cb93a386Sopenharmony_ci 238cb93a386Sopenharmony_ci @return true if SkMatrix is identity, or translates 239cb93a386Sopenharmony_ci */ 240cb93a386Sopenharmony_ci bool isTranslate() const { return !(this->getType() & ~(kTranslate_Mask)); } 241cb93a386Sopenharmony_ci 242cb93a386Sopenharmony_ci /** Returns true SkMatrix maps SkRect to another SkRect. If true, SkMatrix is identity, 243cb93a386Sopenharmony_ci or scales, or rotates a multiple of 90 degrees, or mirrors on axes. In all 244cb93a386Sopenharmony_ci cases, SkMatrix may also have translation. SkMatrix form is either: 245cb93a386Sopenharmony_ci 246cb93a386Sopenharmony_ci | scale-x 0 translate-x | 247cb93a386Sopenharmony_ci | 0 scale-y translate-y | 248cb93a386Sopenharmony_ci | 0 0 1 | 249cb93a386Sopenharmony_ci 250cb93a386Sopenharmony_ci or 251cb93a386Sopenharmony_ci 252cb93a386Sopenharmony_ci | 0 rotate-x translate-x | 253cb93a386Sopenharmony_ci | rotate-y 0 translate-y | 254cb93a386Sopenharmony_ci | 0 0 1 | 255cb93a386Sopenharmony_ci 256cb93a386Sopenharmony_ci for non-zero values of scale-x, scale-y, rotate-x, and rotate-y. 257cb93a386Sopenharmony_ci 258cb93a386Sopenharmony_ci Also called preservesAxisAlignment(); use the one that provides better inline 259cb93a386Sopenharmony_ci documentation. 260cb93a386Sopenharmony_ci 261cb93a386Sopenharmony_ci @return true if SkMatrix maps one SkRect into another 262cb93a386Sopenharmony_ci */ 263cb93a386Sopenharmony_ci bool rectStaysRect() const { 264cb93a386Sopenharmony_ci if (fTypeMask & kUnknown_Mask) { 265cb93a386Sopenharmony_ci fTypeMask = this->computeTypeMask(); 266cb93a386Sopenharmony_ci } 267cb93a386Sopenharmony_ci return (fTypeMask & kRectStaysRect_Mask) != 0; 268cb93a386Sopenharmony_ci } 269cb93a386Sopenharmony_ci 270cb93a386Sopenharmony_ci /** Returns true SkMatrix maps SkRect to another SkRect. If true, SkMatrix is identity, 271cb93a386Sopenharmony_ci or scales, or rotates a multiple of 90 degrees, or mirrors on axes. In all 272cb93a386Sopenharmony_ci cases, SkMatrix may also have translation. SkMatrix form is either: 273cb93a386Sopenharmony_ci 274cb93a386Sopenharmony_ci | scale-x 0 translate-x | 275cb93a386Sopenharmony_ci | 0 scale-y translate-y | 276cb93a386Sopenharmony_ci | 0 0 1 | 277cb93a386Sopenharmony_ci 278cb93a386Sopenharmony_ci or 279cb93a386Sopenharmony_ci 280cb93a386Sopenharmony_ci | 0 rotate-x translate-x | 281cb93a386Sopenharmony_ci | rotate-y 0 translate-y | 282cb93a386Sopenharmony_ci | 0 0 1 | 283cb93a386Sopenharmony_ci 284cb93a386Sopenharmony_ci for non-zero values of scale-x, scale-y, rotate-x, and rotate-y. 285cb93a386Sopenharmony_ci 286cb93a386Sopenharmony_ci Also called rectStaysRect(); use the one that provides better inline 287cb93a386Sopenharmony_ci documentation. 288cb93a386Sopenharmony_ci 289cb93a386Sopenharmony_ci @return true if SkMatrix maps one SkRect into another 290cb93a386Sopenharmony_ci */ 291cb93a386Sopenharmony_ci bool preservesAxisAlignment() const { return this->rectStaysRect(); } 292cb93a386Sopenharmony_ci 293cb93a386Sopenharmony_ci /** Returns true if the matrix contains perspective elements. SkMatrix form is: 294cb93a386Sopenharmony_ci 295cb93a386Sopenharmony_ci | -- -- -- | 296cb93a386Sopenharmony_ci | -- -- -- | 297cb93a386Sopenharmony_ci | perspective-x perspective-y perspective-scale | 298cb93a386Sopenharmony_ci 299cb93a386Sopenharmony_ci where perspective-x or perspective-y is non-zero, or perspective-scale is 300cb93a386Sopenharmony_ci not one. All other elements may have any value. 301cb93a386Sopenharmony_ci 302cb93a386Sopenharmony_ci @return true if SkMatrix is in most general form 303cb93a386Sopenharmony_ci */ 304cb93a386Sopenharmony_ci bool hasPerspective() const { 305cb93a386Sopenharmony_ci return SkToBool(this->getPerspectiveTypeMaskOnly() & 306cb93a386Sopenharmony_ci kPerspective_Mask); 307cb93a386Sopenharmony_ci } 308cb93a386Sopenharmony_ci 309cb93a386Sopenharmony_ci /** Returns true if SkMatrix contains only translation, rotation, reflection, and 310cb93a386Sopenharmony_ci uniform scale. 311cb93a386Sopenharmony_ci Returns false if SkMatrix contains different scales, skewing, perspective, or 312cb93a386Sopenharmony_ci degenerate forms that collapse to a line or point. 313cb93a386Sopenharmony_ci 314cb93a386Sopenharmony_ci Describes that the SkMatrix makes rendering with and without the matrix are 315cb93a386Sopenharmony_ci visually alike; a transformed circle remains a circle. Mathematically, this is 316cb93a386Sopenharmony_ci referred to as similarity of a Euclidean space, or a similarity transformation. 317cb93a386Sopenharmony_ci 318cb93a386Sopenharmony_ci Preserves right angles, keeping the arms of the angle equal lengths. 319cb93a386Sopenharmony_ci 320cb93a386Sopenharmony_ci @param tol to be deprecated 321cb93a386Sopenharmony_ci @return true if SkMatrix only rotates, uniformly scales, translates 322cb93a386Sopenharmony_ci 323cb93a386Sopenharmony_ci example: https://fiddle.skia.org/c/@Matrix_isSimilarity 324cb93a386Sopenharmony_ci */ 325cb93a386Sopenharmony_ci bool isSimilarity(SkScalar tol = SK_ScalarNearlyZero) const; 326cb93a386Sopenharmony_ci 327cb93a386Sopenharmony_ci /** Returns true if SkMatrix contains only translation, rotation, reflection, and 328cb93a386Sopenharmony_ci scale. Scale may differ along rotated axes. 329cb93a386Sopenharmony_ci Returns false if SkMatrix skewing, perspective, or degenerate forms that collapse 330cb93a386Sopenharmony_ci to a line or point. 331cb93a386Sopenharmony_ci 332cb93a386Sopenharmony_ci Preserves right angles, but not requiring that the arms of the angle 333cb93a386Sopenharmony_ci retain equal lengths. 334cb93a386Sopenharmony_ci 335cb93a386Sopenharmony_ci @param tol to be deprecated 336cb93a386Sopenharmony_ci @return true if SkMatrix only rotates, scales, translates 337cb93a386Sopenharmony_ci 338cb93a386Sopenharmony_ci example: https://fiddle.skia.org/c/@Matrix_preservesRightAngles 339cb93a386Sopenharmony_ci */ 340cb93a386Sopenharmony_ci bool preservesRightAngles(SkScalar tol = SK_ScalarNearlyZero) const; 341cb93a386Sopenharmony_ci 342cb93a386Sopenharmony_ci /** SkMatrix organizes its values in row-major order. These members correspond to 343cb93a386Sopenharmony_ci each value in SkMatrix. 344cb93a386Sopenharmony_ci */ 345cb93a386Sopenharmony_ci static constexpr int kMScaleX = 0; //!< horizontal scale factor 346cb93a386Sopenharmony_ci static constexpr int kMSkewX = 1; //!< horizontal skew factor 347cb93a386Sopenharmony_ci static constexpr int kMTransX = 2; //!< horizontal translation 348cb93a386Sopenharmony_ci static constexpr int kMSkewY = 3; //!< vertical skew factor 349cb93a386Sopenharmony_ci static constexpr int kMScaleY = 4; //!< vertical scale factor 350cb93a386Sopenharmony_ci static constexpr int kMTransY = 5; //!< vertical translation 351cb93a386Sopenharmony_ci static constexpr int kMPersp0 = 6; //!< input x perspective factor 352cb93a386Sopenharmony_ci static constexpr int kMPersp1 = 7; //!< input y perspective factor 353cb93a386Sopenharmony_ci static constexpr int kMPersp2 = 8; //!< perspective bias 354cb93a386Sopenharmony_ci 355cb93a386Sopenharmony_ci /** Affine arrays are in column-major order to match the matrix used by 356cb93a386Sopenharmony_ci PDF and XPS. 357cb93a386Sopenharmony_ci */ 358cb93a386Sopenharmony_ci static constexpr int kAScaleX = 0; //!< horizontal scale factor 359cb93a386Sopenharmony_ci static constexpr int kASkewY = 1; //!< vertical skew factor 360cb93a386Sopenharmony_ci static constexpr int kASkewX = 2; //!< horizontal skew factor 361cb93a386Sopenharmony_ci static constexpr int kAScaleY = 3; //!< vertical scale factor 362cb93a386Sopenharmony_ci static constexpr int kATransX = 4; //!< horizontal translation 363cb93a386Sopenharmony_ci static constexpr int kATransY = 5; //!< vertical translation 364cb93a386Sopenharmony_ci 365cb93a386Sopenharmony_ci /** Returns one matrix value. Asserts if index is out of range and SK_DEBUG is 366cb93a386Sopenharmony_ci defined. 367cb93a386Sopenharmony_ci 368cb93a386Sopenharmony_ci @param index one of: kMScaleX, kMSkewX, kMTransX, kMSkewY, kMScaleY, kMTransY, 369cb93a386Sopenharmony_ci kMPersp0, kMPersp1, kMPersp2 370cb93a386Sopenharmony_ci @return value corresponding to index 371cb93a386Sopenharmony_ci */ 372cb93a386Sopenharmony_ci SkScalar operator[](int index) const { 373cb93a386Sopenharmony_ci SkASSERT((unsigned)index < 9); 374cb93a386Sopenharmony_ci return fMat[index]; 375cb93a386Sopenharmony_ci } 376cb93a386Sopenharmony_ci 377cb93a386Sopenharmony_ci /** Returns one matrix value. Asserts if index is out of range and SK_DEBUG is 378cb93a386Sopenharmony_ci defined. 379cb93a386Sopenharmony_ci 380cb93a386Sopenharmony_ci @param index one of: kMScaleX, kMSkewX, kMTransX, kMSkewY, kMScaleY, kMTransY, 381cb93a386Sopenharmony_ci kMPersp0, kMPersp1, kMPersp2 382cb93a386Sopenharmony_ci @return value corresponding to index 383cb93a386Sopenharmony_ci */ 384cb93a386Sopenharmony_ci SkScalar get(int index) const { 385cb93a386Sopenharmony_ci SkASSERT((unsigned)index < 9); 386cb93a386Sopenharmony_ci return fMat[index]; 387cb93a386Sopenharmony_ci } 388cb93a386Sopenharmony_ci 389cb93a386Sopenharmony_ci /** Returns one matrix value from a particular row/column. Asserts if index is out 390cb93a386Sopenharmony_ci of range and SK_DEBUG is defined. 391cb93a386Sopenharmony_ci 392cb93a386Sopenharmony_ci @param r matrix row to fetch 393cb93a386Sopenharmony_ci @param c matrix column to fetch 394cb93a386Sopenharmony_ci @return value at the given matrix position 395cb93a386Sopenharmony_ci */ 396cb93a386Sopenharmony_ci SkScalar rc(int r, int c) const { 397cb93a386Sopenharmony_ci SkASSERT(r >= 0 && r <= 2); 398cb93a386Sopenharmony_ci SkASSERT(c >= 0 && c <= 2); 399cb93a386Sopenharmony_ci return fMat[r*3 + c]; 400cb93a386Sopenharmony_ci } 401cb93a386Sopenharmony_ci 402cb93a386Sopenharmony_ci /** Returns scale factor multiplied by x-axis input, contributing to x-axis output. 403cb93a386Sopenharmony_ci With mapPoints(), scales SkPoint along the x-axis. 404cb93a386Sopenharmony_ci 405cb93a386Sopenharmony_ci @return horizontal scale factor 406cb93a386Sopenharmony_ci */ 407cb93a386Sopenharmony_ci SkScalar getScaleX() const { return fMat[kMScaleX]; } 408cb93a386Sopenharmony_ci 409cb93a386Sopenharmony_ci /** Returns scale factor multiplied by y-axis input, contributing to y-axis output. 410cb93a386Sopenharmony_ci With mapPoints(), scales SkPoint along the y-axis. 411cb93a386Sopenharmony_ci 412cb93a386Sopenharmony_ci @return vertical scale factor 413cb93a386Sopenharmony_ci */ 414cb93a386Sopenharmony_ci SkScalar getScaleY() const { return fMat[kMScaleY]; } 415cb93a386Sopenharmony_ci 416cb93a386Sopenharmony_ci /** Returns scale factor multiplied by x-axis input, contributing to y-axis output. 417cb93a386Sopenharmony_ci With mapPoints(), skews SkPoint along the y-axis. 418cb93a386Sopenharmony_ci Skewing both axes can rotate SkPoint. 419cb93a386Sopenharmony_ci 420cb93a386Sopenharmony_ci @return vertical skew factor 421cb93a386Sopenharmony_ci */ 422cb93a386Sopenharmony_ci SkScalar getSkewY() const { return fMat[kMSkewY]; } 423cb93a386Sopenharmony_ci 424cb93a386Sopenharmony_ci /** Returns scale factor multiplied by y-axis input, contributing to x-axis output. 425cb93a386Sopenharmony_ci With mapPoints(), skews SkPoint along the x-axis. 426cb93a386Sopenharmony_ci Skewing both axes can rotate SkPoint. 427cb93a386Sopenharmony_ci 428cb93a386Sopenharmony_ci @return horizontal scale factor 429cb93a386Sopenharmony_ci */ 430cb93a386Sopenharmony_ci SkScalar getSkewX() const { return fMat[kMSkewX]; } 431cb93a386Sopenharmony_ci 432cb93a386Sopenharmony_ci /** Returns translation contributing to x-axis output. 433cb93a386Sopenharmony_ci With mapPoints(), moves SkPoint along the x-axis. 434cb93a386Sopenharmony_ci 435cb93a386Sopenharmony_ci @return horizontal translation factor 436cb93a386Sopenharmony_ci */ 437cb93a386Sopenharmony_ci SkScalar getTranslateX() const { return fMat[kMTransX]; } 438cb93a386Sopenharmony_ci 439cb93a386Sopenharmony_ci /** Returns translation contributing to y-axis output. 440cb93a386Sopenharmony_ci With mapPoints(), moves SkPoint along the y-axis. 441cb93a386Sopenharmony_ci 442cb93a386Sopenharmony_ci @return vertical translation factor 443cb93a386Sopenharmony_ci */ 444cb93a386Sopenharmony_ci SkScalar getTranslateY() const { return fMat[kMTransY]; } 445cb93a386Sopenharmony_ci 446cb93a386Sopenharmony_ci /** Returns factor scaling input x-axis relative to input y-axis. 447cb93a386Sopenharmony_ci 448cb93a386Sopenharmony_ci @return input x-axis perspective factor 449cb93a386Sopenharmony_ci */ 450cb93a386Sopenharmony_ci SkScalar getPerspX() const { return fMat[kMPersp0]; } 451cb93a386Sopenharmony_ci 452cb93a386Sopenharmony_ci /** Returns factor scaling input y-axis relative to input x-axis. 453cb93a386Sopenharmony_ci 454cb93a386Sopenharmony_ci @return input y-axis perspective factor 455cb93a386Sopenharmony_ci */ 456cb93a386Sopenharmony_ci SkScalar getPerspY() const { return fMat[kMPersp1]; } 457cb93a386Sopenharmony_ci 458cb93a386Sopenharmony_ci /** Returns writable SkMatrix value. Asserts if index is out of range and SK_DEBUG is 459cb93a386Sopenharmony_ci defined. Clears internal cache anticipating that caller will change SkMatrix value. 460cb93a386Sopenharmony_ci 461cb93a386Sopenharmony_ci Next call to read SkMatrix state may recompute cache; subsequent writes to SkMatrix 462cb93a386Sopenharmony_ci value must be followed by dirtyMatrixTypeCache(). 463cb93a386Sopenharmony_ci 464cb93a386Sopenharmony_ci @param index one of: kMScaleX, kMSkewX, kMTransX, kMSkewY, kMScaleY, kMTransY, 465cb93a386Sopenharmony_ci kMPersp0, kMPersp1, kMPersp2 466cb93a386Sopenharmony_ci @return writable value corresponding to index 467cb93a386Sopenharmony_ci */ 468cb93a386Sopenharmony_ci SkScalar& operator[](int index) { 469cb93a386Sopenharmony_ci SkASSERT((unsigned)index < 9); 470cb93a386Sopenharmony_ci this->setTypeMask(kUnknown_Mask); 471cb93a386Sopenharmony_ci return fMat[index]; 472cb93a386Sopenharmony_ci } 473cb93a386Sopenharmony_ci 474cb93a386Sopenharmony_ci /** Sets SkMatrix value. Asserts if index is out of range and SK_DEBUG is 475cb93a386Sopenharmony_ci defined. Safer than operator[]; internal cache is always maintained. 476cb93a386Sopenharmony_ci 477cb93a386Sopenharmony_ci @param index one of: kMScaleX, kMSkewX, kMTransX, kMSkewY, kMScaleY, kMTransY, 478cb93a386Sopenharmony_ci kMPersp0, kMPersp1, kMPersp2 479cb93a386Sopenharmony_ci @param value scalar to store in SkMatrix 480cb93a386Sopenharmony_ci */ 481cb93a386Sopenharmony_ci SkMatrix& set(int index, SkScalar value) { 482cb93a386Sopenharmony_ci SkASSERT((unsigned)index < 9); 483cb93a386Sopenharmony_ci fMat[index] = value; 484cb93a386Sopenharmony_ci this->setTypeMask(kUnknown_Mask); 485cb93a386Sopenharmony_ci return *this; 486cb93a386Sopenharmony_ci } 487cb93a386Sopenharmony_ci 488cb93a386Sopenharmony_ci /** Sets horizontal scale factor. 489cb93a386Sopenharmony_ci 490cb93a386Sopenharmony_ci @param v horizontal scale factor to store 491cb93a386Sopenharmony_ci */ 492cb93a386Sopenharmony_ci SkMatrix& setScaleX(SkScalar v) { return this->set(kMScaleX, v); } 493cb93a386Sopenharmony_ci 494cb93a386Sopenharmony_ci /** Sets vertical scale factor. 495cb93a386Sopenharmony_ci 496cb93a386Sopenharmony_ci @param v vertical scale factor to store 497cb93a386Sopenharmony_ci */ 498cb93a386Sopenharmony_ci SkMatrix& setScaleY(SkScalar v) { return this->set(kMScaleY, v); } 499cb93a386Sopenharmony_ci 500cb93a386Sopenharmony_ci /** Sets vertical skew factor. 501cb93a386Sopenharmony_ci 502cb93a386Sopenharmony_ci @param v vertical skew factor to store 503cb93a386Sopenharmony_ci */ 504cb93a386Sopenharmony_ci SkMatrix& setSkewY(SkScalar v) { return this->set(kMSkewY, v); } 505cb93a386Sopenharmony_ci 506cb93a386Sopenharmony_ci /** Sets horizontal skew factor. 507cb93a386Sopenharmony_ci 508cb93a386Sopenharmony_ci @param v horizontal skew factor to store 509cb93a386Sopenharmony_ci */ 510cb93a386Sopenharmony_ci SkMatrix& setSkewX(SkScalar v) { return this->set(kMSkewX, v); } 511cb93a386Sopenharmony_ci 512cb93a386Sopenharmony_ci /** Sets horizontal translation. 513cb93a386Sopenharmony_ci 514cb93a386Sopenharmony_ci @param v horizontal translation to store 515cb93a386Sopenharmony_ci */ 516cb93a386Sopenharmony_ci SkMatrix& setTranslateX(SkScalar v) { return this->set(kMTransX, v); } 517cb93a386Sopenharmony_ci 518cb93a386Sopenharmony_ci /** Sets vertical translation. 519cb93a386Sopenharmony_ci 520cb93a386Sopenharmony_ci @param v vertical translation to store 521cb93a386Sopenharmony_ci */ 522cb93a386Sopenharmony_ci SkMatrix& setTranslateY(SkScalar v) { return this->set(kMTransY, v); } 523cb93a386Sopenharmony_ci 524cb93a386Sopenharmony_ci /** Sets input x-axis perspective factor, which causes mapXY() to vary input x-axis values 525cb93a386Sopenharmony_ci inversely proportional to input y-axis values. 526cb93a386Sopenharmony_ci 527cb93a386Sopenharmony_ci @param v perspective factor 528cb93a386Sopenharmony_ci */ 529cb93a386Sopenharmony_ci SkMatrix& setPerspX(SkScalar v) { return this->set(kMPersp0, v); } 530cb93a386Sopenharmony_ci 531cb93a386Sopenharmony_ci /** Sets input y-axis perspective factor, which causes mapXY() to vary input y-axis values 532cb93a386Sopenharmony_ci inversely proportional to input x-axis values. 533cb93a386Sopenharmony_ci 534cb93a386Sopenharmony_ci @param v perspective factor 535cb93a386Sopenharmony_ci */ 536cb93a386Sopenharmony_ci SkMatrix& setPerspY(SkScalar v) { return this->set(kMPersp1, v); } 537cb93a386Sopenharmony_ci 538cb93a386Sopenharmony_ci /** Sets all values from parameters. Sets matrix to: 539cb93a386Sopenharmony_ci 540cb93a386Sopenharmony_ci | scaleX skewX transX | 541cb93a386Sopenharmony_ci | skewY scaleY transY | 542cb93a386Sopenharmony_ci | persp0 persp1 persp2 | 543cb93a386Sopenharmony_ci 544cb93a386Sopenharmony_ci @param scaleX horizontal scale factor to store 545cb93a386Sopenharmony_ci @param skewX horizontal skew factor to store 546cb93a386Sopenharmony_ci @param transX horizontal translation to store 547cb93a386Sopenharmony_ci @param skewY vertical skew factor to store 548cb93a386Sopenharmony_ci @param scaleY vertical scale factor to store 549cb93a386Sopenharmony_ci @param transY vertical translation to store 550cb93a386Sopenharmony_ci @param persp0 input x-axis values perspective factor to store 551cb93a386Sopenharmony_ci @param persp1 input y-axis values perspective factor to store 552cb93a386Sopenharmony_ci @param persp2 perspective scale factor to store 553cb93a386Sopenharmony_ci */ 554cb93a386Sopenharmony_ci SkMatrix& setAll(SkScalar scaleX, SkScalar skewX, SkScalar transX, 555cb93a386Sopenharmony_ci SkScalar skewY, SkScalar scaleY, SkScalar transY, 556cb93a386Sopenharmony_ci SkScalar persp0, SkScalar persp1, SkScalar persp2) { 557cb93a386Sopenharmony_ci fMat[kMScaleX] = scaleX; 558cb93a386Sopenharmony_ci fMat[kMSkewX] = skewX; 559cb93a386Sopenharmony_ci fMat[kMTransX] = transX; 560cb93a386Sopenharmony_ci fMat[kMSkewY] = skewY; 561cb93a386Sopenharmony_ci fMat[kMScaleY] = scaleY; 562cb93a386Sopenharmony_ci fMat[kMTransY] = transY; 563cb93a386Sopenharmony_ci fMat[kMPersp0] = persp0; 564cb93a386Sopenharmony_ci fMat[kMPersp1] = persp1; 565cb93a386Sopenharmony_ci fMat[kMPersp2] = persp2; 566cb93a386Sopenharmony_ci this->setTypeMask(kUnknown_Mask); 567cb93a386Sopenharmony_ci return *this; 568cb93a386Sopenharmony_ci } 569cb93a386Sopenharmony_ci 570cb93a386Sopenharmony_ci /** Copies nine scalar values contained by SkMatrix into buffer, in member value 571cb93a386Sopenharmony_ci ascending order: kMScaleX, kMSkewX, kMTransX, kMSkewY, kMScaleY, kMTransY, 572cb93a386Sopenharmony_ci kMPersp0, kMPersp1, kMPersp2. 573cb93a386Sopenharmony_ci 574cb93a386Sopenharmony_ci @param buffer storage for nine scalar values 575cb93a386Sopenharmony_ci */ 576cb93a386Sopenharmony_ci void get9(SkScalar buffer[9]) const { 577cb93a386Sopenharmony_ci memcpy(buffer, fMat, 9 * sizeof(SkScalar)); 578cb93a386Sopenharmony_ci } 579cb93a386Sopenharmony_ci 580cb93a386Sopenharmony_ci /** Sets SkMatrix to nine scalar values in buffer, in member value ascending order: 581cb93a386Sopenharmony_ci kMScaleX, kMSkewX, kMTransX, kMSkewY, kMScaleY, kMTransY, kMPersp0, kMPersp1, 582cb93a386Sopenharmony_ci kMPersp2. 583cb93a386Sopenharmony_ci 584cb93a386Sopenharmony_ci Sets matrix to: 585cb93a386Sopenharmony_ci 586cb93a386Sopenharmony_ci | buffer[0] buffer[1] buffer[2] | 587cb93a386Sopenharmony_ci | buffer[3] buffer[4] buffer[5] | 588cb93a386Sopenharmony_ci | buffer[6] buffer[7] buffer[8] | 589cb93a386Sopenharmony_ci 590cb93a386Sopenharmony_ci In the future, set9 followed by get9 may not return the same values. Since SkMatrix 591cb93a386Sopenharmony_ci maps non-homogeneous coordinates, scaling all nine values produces an equivalent 592cb93a386Sopenharmony_ci transformation, possibly improving precision. 593cb93a386Sopenharmony_ci 594cb93a386Sopenharmony_ci @param buffer nine scalar values 595cb93a386Sopenharmony_ci */ 596cb93a386Sopenharmony_ci SkMatrix& set9(const SkScalar buffer[9]); 597cb93a386Sopenharmony_ci 598cb93a386Sopenharmony_ci /** Sets SkMatrix to identity; which has no effect on mapped SkPoint. Sets SkMatrix to: 599cb93a386Sopenharmony_ci 600cb93a386Sopenharmony_ci | 1 0 0 | 601cb93a386Sopenharmony_ci | 0 1 0 | 602cb93a386Sopenharmony_ci | 0 0 1 | 603cb93a386Sopenharmony_ci 604cb93a386Sopenharmony_ci Also called setIdentity(); use the one that provides better inline 605cb93a386Sopenharmony_ci documentation. 606cb93a386Sopenharmony_ci */ 607cb93a386Sopenharmony_ci SkMatrix& reset(); 608cb93a386Sopenharmony_ci 609cb93a386Sopenharmony_ci /** Sets SkMatrix to identity; which has no effect on mapped SkPoint. Sets SkMatrix to: 610cb93a386Sopenharmony_ci 611cb93a386Sopenharmony_ci | 1 0 0 | 612cb93a386Sopenharmony_ci | 0 1 0 | 613cb93a386Sopenharmony_ci | 0 0 1 | 614cb93a386Sopenharmony_ci 615cb93a386Sopenharmony_ci Also called reset(); use the one that provides better inline 616cb93a386Sopenharmony_ci documentation. 617cb93a386Sopenharmony_ci */ 618cb93a386Sopenharmony_ci SkMatrix& setIdentity() { return this->reset(); } 619cb93a386Sopenharmony_ci 620cb93a386Sopenharmony_ci /** Sets SkMatrix to translate by (dx, dy). 621cb93a386Sopenharmony_ci 622cb93a386Sopenharmony_ci @param dx horizontal translation 623cb93a386Sopenharmony_ci @param dy vertical translation 624cb93a386Sopenharmony_ci */ 625cb93a386Sopenharmony_ci SkMatrix& setTranslate(SkScalar dx, SkScalar dy); 626cb93a386Sopenharmony_ci 627cb93a386Sopenharmony_ci /** Sets SkMatrix to translate by (v.fX, v.fY). 628cb93a386Sopenharmony_ci 629cb93a386Sopenharmony_ci @param v vector containing horizontal and vertical translation 630cb93a386Sopenharmony_ci */ 631cb93a386Sopenharmony_ci SkMatrix& setTranslate(const SkVector& v) { return this->setTranslate(v.fX, v.fY); } 632cb93a386Sopenharmony_ci 633cb93a386Sopenharmony_ci /** Sets SkMatrix to scale by sx and sy, about a pivot point at (px, py). 634cb93a386Sopenharmony_ci The pivot point is unchanged when mapped with SkMatrix. 635cb93a386Sopenharmony_ci 636cb93a386Sopenharmony_ci @param sx horizontal scale factor 637cb93a386Sopenharmony_ci @param sy vertical scale factor 638cb93a386Sopenharmony_ci @param px pivot on x-axis 639cb93a386Sopenharmony_ci @param py pivot on y-axis 640cb93a386Sopenharmony_ci */ 641cb93a386Sopenharmony_ci SkMatrix& setScale(SkScalar sx, SkScalar sy, SkScalar px, SkScalar py); 642cb93a386Sopenharmony_ci 643cb93a386Sopenharmony_ci /** Sets SkMatrix to scale by sx and sy about at pivot point at (0, 0). 644cb93a386Sopenharmony_ci 645cb93a386Sopenharmony_ci @param sx horizontal scale factor 646cb93a386Sopenharmony_ci @param sy vertical scale factor 647cb93a386Sopenharmony_ci */ 648cb93a386Sopenharmony_ci SkMatrix& setScale(SkScalar sx, SkScalar sy); 649cb93a386Sopenharmony_ci 650cb93a386Sopenharmony_ci /** Sets SkMatrix to rotate by degrees about a pivot point at (px, py). 651cb93a386Sopenharmony_ci The pivot point is unchanged when mapped with SkMatrix. 652cb93a386Sopenharmony_ci 653cb93a386Sopenharmony_ci Positive degrees rotates clockwise. 654cb93a386Sopenharmony_ci 655cb93a386Sopenharmony_ci @param degrees angle of axes relative to upright axes 656cb93a386Sopenharmony_ci @param px pivot on x-axis 657cb93a386Sopenharmony_ci @param py pivot on y-axis 658cb93a386Sopenharmony_ci */ 659cb93a386Sopenharmony_ci SkMatrix& setRotate(SkScalar degrees, SkScalar px, SkScalar py); 660cb93a386Sopenharmony_ci 661cb93a386Sopenharmony_ci /** Sets SkMatrix to rotate by degrees about a pivot point at (0, 0). 662cb93a386Sopenharmony_ci Positive degrees rotates clockwise. 663cb93a386Sopenharmony_ci 664cb93a386Sopenharmony_ci @param degrees angle of axes relative to upright axes 665cb93a386Sopenharmony_ci */ 666cb93a386Sopenharmony_ci SkMatrix& setRotate(SkScalar degrees); 667cb93a386Sopenharmony_ci 668cb93a386Sopenharmony_ci /** Sets SkMatrix to rotate by sinValue and cosValue, about a pivot point at (px, py). 669cb93a386Sopenharmony_ci The pivot point is unchanged when mapped with SkMatrix. 670cb93a386Sopenharmony_ci 671cb93a386Sopenharmony_ci Vector (sinValue, cosValue) describes the angle of rotation relative to (0, 1). 672cb93a386Sopenharmony_ci Vector length specifies scale. 673cb93a386Sopenharmony_ci 674cb93a386Sopenharmony_ci @param sinValue rotation vector x-axis component 675cb93a386Sopenharmony_ci @param cosValue rotation vector y-axis component 676cb93a386Sopenharmony_ci @param px pivot on x-axis 677cb93a386Sopenharmony_ci @param py pivot on y-axis 678cb93a386Sopenharmony_ci */ 679cb93a386Sopenharmony_ci SkMatrix& setSinCos(SkScalar sinValue, SkScalar cosValue, 680cb93a386Sopenharmony_ci SkScalar px, SkScalar py); 681cb93a386Sopenharmony_ci 682cb93a386Sopenharmony_ci /** Sets SkMatrix to rotate by sinValue and cosValue, about a pivot point at (0, 0). 683cb93a386Sopenharmony_ci 684cb93a386Sopenharmony_ci Vector (sinValue, cosValue) describes the angle of rotation relative to (0, 1). 685cb93a386Sopenharmony_ci Vector length specifies scale. 686cb93a386Sopenharmony_ci 687cb93a386Sopenharmony_ci @param sinValue rotation vector x-axis component 688cb93a386Sopenharmony_ci @param cosValue rotation vector y-axis component 689cb93a386Sopenharmony_ci */ 690cb93a386Sopenharmony_ci SkMatrix& setSinCos(SkScalar sinValue, SkScalar cosValue); 691cb93a386Sopenharmony_ci 692cb93a386Sopenharmony_ci /** Sets SkMatrix to rotate, scale, and translate using a compressed matrix form. 693cb93a386Sopenharmony_ci 694cb93a386Sopenharmony_ci Vector (rsxForm.fSSin, rsxForm.fSCos) describes the angle of rotation relative 695cb93a386Sopenharmony_ci to (0, 1). Vector length specifies scale. Mapped point is rotated and scaled 696cb93a386Sopenharmony_ci by vector, then translated by (rsxForm.fTx, rsxForm.fTy). 697cb93a386Sopenharmony_ci 698cb93a386Sopenharmony_ci @param rsxForm compressed SkRSXform matrix 699cb93a386Sopenharmony_ci @return reference to SkMatrix 700cb93a386Sopenharmony_ci 701cb93a386Sopenharmony_ci example: https://fiddle.skia.org/c/@Matrix_setRSXform 702cb93a386Sopenharmony_ci */ 703cb93a386Sopenharmony_ci SkMatrix& setRSXform(const SkRSXform& rsxForm); 704cb93a386Sopenharmony_ci 705cb93a386Sopenharmony_ci /** Sets SkMatrix to skew by kx and ky, about a pivot point at (px, py). 706cb93a386Sopenharmony_ci The pivot point is unchanged when mapped with SkMatrix. 707cb93a386Sopenharmony_ci 708cb93a386Sopenharmony_ci @param kx horizontal skew factor 709cb93a386Sopenharmony_ci @param ky vertical skew factor 710cb93a386Sopenharmony_ci @param px pivot on x-axis 711cb93a386Sopenharmony_ci @param py pivot on y-axis 712cb93a386Sopenharmony_ci */ 713cb93a386Sopenharmony_ci SkMatrix& setSkew(SkScalar kx, SkScalar ky, SkScalar px, SkScalar py); 714cb93a386Sopenharmony_ci 715cb93a386Sopenharmony_ci /** Sets SkMatrix to skew by kx and ky, about a pivot point at (0, 0). 716cb93a386Sopenharmony_ci 717cb93a386Sopenharmony_ci @param kx horizontal skew factor 718cb93a386Sopenharmony_ci @param ky vertical skew factor 719cb93a386Sopenharmony_ci */ 720cb93a386Sopenharmony_ci SkMatrix& setSkew(SkScalar kx, SkScalar ky); 721cb93a386Sopenharmony_ci 722cb93a386Sopenharmony_ci /** Sets SkMatrix to SkMatrix a multiplied by SkMatrix b. Either a or b may be this. 723cb93a386Sopenharmony_ci 724cb93a386Sopenharmony_ci Given: 725cb93a386Sopenharmony_ci 726cb93a386Sopenharmony_ci | A B C | | J K L | 727cb93a386Sopenharmony_ci a = | D E F |, b = | M N O | 728cb93a386Sopenharmony_ci | G H I | | P Q R | 729cb93a386Sopenharmony_ci 730cb93a386Sopenharmony_ci sets SkMatrix to: 731cb93a386Sopenharmony_ci 732cb93a386Sopenharmony_ci | A B C | | J K L | | AJ+BM+CP AK+BN+CQ AL+BO+CR | 733cb93a386Sopenharmony_ci a * b = | D E F | * | M N O | = | DJ+EM+FP DK+EN+FQ DL+EO+FR | 734cb93a386Sopenharmony_ci | G H I | | P Q R | | GJ+HM+IP GK+HN+IQ GL+HO+IR | 735cb93a386Sopenharmony_ci 736cb93a386Sopenharmony_ci @param a SkMatrix on left side of multiply expression 737cb93a386Sopenharmony_ci @param b SkMatrix on right side of multiply expression 738cb93a386Sopenharmony_ci */ 739cb93a386Sopenharmony_ci SkMatrix& setConcat(const SkMatrix& a, const SkMatrix& b); 740cb93a386Sopenharmony_ci 741cb93a386Sopenharmony_ci /** Sets SkMatrix to SkMatrix multiplied by SkMatrix constructed from translation (dx, dy). 742cb93a386Sopenharmony_ci This can be thought of as moving the point to be mapped before applying SkMatrix. 743cb93a386Sopenharmony_ci 744cb93a386Sopenharmony_ci Given: 745cb93a386Sopenharmony_ci 746cb93a386Sopenharmony_ci | A B C | | 1 0 dx | 747cb93a386Sopenharmony_ci Matrix = | D E F |, T(dx, dy) = | 0 1 dy | 748cb93a386Sopenharmony_ci | G H I | | 0 0 1 | 749cb93a386Sopenharmony_ci 750cb93a386Sopenharmony_ci sets SkMatrix to: 751cb93a386Sopenharmony_ci 752cb93a386Sopenharmony_ci | A B C | | 1 0 dx | | A B A*dx+B*dy+C | 753cb93a386Sopenharmony_ci Matrix * T(dx, dy) = | D E F | | 0 1 dy | = | D E D*dx+E*dy+F | 754cb93a386Sopenharmony_ci | G H I | | 0 0 1 | | G H G*dx+H*dy+I | 755cb93a386Sopenharmony_ci 756cb93a386Sopenharmony_ci @param dx x-axis translation before applying SkMatrix 757cb93a386Sopenharmony_ci @param dy y-axis translation before applying SkMatrix 758cb93a386Sopenharmony_ci */ 759cb93a386Sopenharmony_ci SkMatrix& preTranslate(SkScalar dx, SkScalar dy); 760cb93a386Sopenharmony_ci 761cb93a386Sopenharmony_ci /** Sets SkMatrix to SkMatrix multiplied by SkMatrix constructed from scaling by (sx, sy) 762cb93a386Sopenharmony_ci about pivot point (px, py). 763cb93a386Sopenharmony_ci This can be thought of as scaling about a pivot point before applying SkMatrix. 764cb93a386Sopenharmony_ci 765cb93a386Sopenharmony_ci Given: 766cb93a386Sopenharmony_ci 767cb93a386Sopenharmony_ci | A B C | | sx 0 dx | 768cb93a386Sopenharmony_ci Matrix = | D E F |, S(sx, sy, px, py) = | 0 sy dy | 769cb93a386Sopenharmony_ci | G H I | | 0 0 1 | 770cb93a386Sopenharmony_ci 771cb93a386Sopenharmony_ci where 772cb93a386Sopenharmony_ci 773cb93a386Sopenharmony_ci dx = px - sx * px 774cb93a386Sopenharmony_ci dy = py - sy * py 775cb93a386Sopenharmony_ci 776cb93a386Sopenharmony_ci sets SkMatrix to: 777cb93a386Sopenharmony_ci 778cb93a386Sopenharmony_ci | A B C | | sx 0 dx | | A*sx B*sy A*dx+B*dy+C | 779cb93a386Sopenharmony_ci Matrix * S(sx, sy, px, py) = | D E F | | 0 sy dy | = | D*sx E*sy D*dx+E*dy+F | 780cb93a386Sopenharmony_ci | G H I | | 0 0 1 | | G*sx H*sy G*dx+H*dy+I | 781cb93a386Sopenharmony_ci 782cb93a386Sopenharmony_ci @param sx horizontal scale factor 783cb93a386Sopenharmony_ci @param sy vertical scale factor 784cb93a386Sopenharmony_ci @param px pivot on x-axis 785cb93a386Sopenharmony_ci @param py pivot on y-axis 786cb93a386Sopenharmony_ci */ 787cb93a386Sopenharmony_ci SkMatrix& preScale(SkScalar sx, SkScalar sy, SkScalar px, SkScalar py); 788cb93a386Sopenharmony_ci 789cb93a386Sopenharmony_ci /** Sets SkMatrix to SkMatrix multiplied by SkMatrix constructed from scaling by (sx, sy) 790cb93a386Sopenharmony_ci about pivot point (0, 0). 791cb93a386Sopenharmony_ci This can be thought of as scaling about the origin before applying SkMatrix. 792cb93a386Sopenharmony_ci 793cb93a386Sopenharmony_ci Given: 794cb93a386Sopenharmony_ci 795cb93a386Sopenharmony_ci | A B C | | sx 0 0 | 796cb93a386Sopenharmony_ci Matrix = | D E F |, S(sx, sy) = | 0 sy 0 | 797cb93a386Sopenharmony_ci | G H I | | 0 0 1 | 798cb93a386Sopenharmony_ci 799cb93a386Sopenharmony_ci sets SkMatrix to: 800cb93a386Sopenharmony_ci 801cb93a386Sopenharmony_ci | A B C | | sx 0 0 | | A*sx B*sy C | 802cb93a386Sopenharmony_ci Matrix * S(sx, sy) = | D E F | | 0 sy 0 | = | D*sx E*sy F | 803cb93a386Sopenharmony_ci | G H I | | 0 0 1 | | G*sx H*sy I | 804cb93a386Sopenharmony_ci 805cb93a386Sopenharmony_ci @param sx horizontal scale factor 806cb93a386Sopenharmony_ci @param sy vertical scale factor 807cb93a386Sopenharmony_ci */ 808cb93a386Sopenharmony_ci SkMatrix& preScale(SkScalar sx, SkScalar sy); 809cb93a386Sopenharmony_ci 810cb93a386Sopenharmony_ci /** Sets SkMatrix to SkMatrix multiplied by SkMatrix constructed from rotating by degrees 811cb93a386Sopenharmony_ci about pivot point (px, py). 812cb93a386Sopenharmony_ci This can be thought of as rotating about a pivot point before applying SkMatrix. 813cb93a386Sopenharmony_ci 814cb93a386Sopenharmony_ci Positive degrees rotates clockwise. 815cb93a386Sopenharmony_ci 816cb93a386Sopenharmony_ci Given: 817cb93a386Sopenharmony_ci 818cb93a386Sopenharmony_ci | A B C | | c -s dx | 819cb93a386Sopenharmony_ci Matrix = | D E F |, R(degrees, px, py) = | s c dy | 820cb93a386Sopenharmony_ci | G H I | | 0 0 1 | 821cb93a386Sopenharmony_ci 822cb93a386Sopenharmony_ci where 823cb93a386Sopenharmony_ci 824cb93a386Sopenharmony_ci c = cos(degrees) 825cb93a386Sopenharmony_ci s = sin(degrees) 826cb93a386Sopenharmony_ci dx = s * py + (1 - c) * px 827cb93a386Sopenharmony_ci dy = -s * px + (1 - c) * py 828cb93a386Sopenharmony_ci 829cb93a386Sopenharmony_ci sets SkMatrix to: 830cb93a386Sopenharmony_ci 831cb93a386Sopenharmony_ci | A B C | | c -s dx | | Ac+Bs -As+Bc A*dx+B*dy+C | 832cb93a386Sopenharmony_ci Matrix * R(degrees, px, py) = | D E F | | s c dy | = | Dc+Es -Ds+Ec D*dx+E*dy+F | 833cb93a386Sopenharmony_ci | G H I | | 0 0 1 | | Gc+Hs -Gs+Hc G*dx+H*dy+I | 834cb93a386Sopenharmony_ci 835cb93a386Sopenharmony_ci @param degrees angle of axes relative to upright axes 836cb93a386Sopenharmony_ci @param px pivot on x-axis 837cb93a386Sopenharmony_ci @param py pivot on y-axis 838cb93a386Sopenharmony_ci */ 839cb93a386Sopenharmony_ci SkMatrix& preRotate(SkScalar degrees, SkScalar px, SkScalar py); 840cb93a386Sopenharmony_ci 841cb93a386Sopenharmony_ci /** Sets SkMatrix to SkMatrix multiplied by SkMatrix constructed from rotating by degrees 842cb93a386Sopenharmony_ci about pivot point (0, 0). 843cb93a386Sopenharmony_ci This can be thought of as rotating about the origin before applying SkMatrix. 844cb93a386Sopenharmony_ci 845cb93a386Sopenharmony_ci Positive degrees rotates clockwise. 846cb93a386Sopenharmony_ci 847cb93a386Sopenharmony_ci Given: 848cb93a386Sopenharmony_ci 849cb93a386Sopenharmony_ci | A B C | | c -s 0 | 850cb93a386Sopenharmony_ci Matrix = | D E F |, R(degrees, px, py) = | s c 0 | 851cb93a386Sopenharmony_ci | G H I | | 0 0 1 | 852cb93a386Sopenharmony_ci 853cb93a386Sopenharmony_ci where 854cb93a386Sopenharmony_ci 855cb93a386Sopenharmony_ci c = cos(degrees) 856cb93a386Sopenharmony_ci s = sin(degrees) 857cb93a386Sopenharmony_ci 858cb93a386Sopenharmony_ci sets SkMatrix to: 859cb93a386Sopenharmony_ci 860cb93a386Sopenharmony_ci | A B C | | c -s 0 | | Ac+Bs -As+Bc C | 861cb93a386Sopenharmony_ci Matrix * R(degrees, px, py) = | D E F | | s c 0 | = | Dc+Es -Ds+Ec F | 862cb93a386Sopenharmony_ci | G H I | | 0 0 1 | | Gc+Hs -Gs+Hc I | 863cb93a386Sopenharmony_ci 864cb93a386Sopenharmony_ci @param degrees angle of axes relative to upright axes 865cb93a386Sopenharmony_ci */ 866cb93a386Sopenharmony_ci SkMatrix& preRotate(SkScalar degrees); 867cb93a386Sopenharmony_ci 868cb93a386Sopenharmony_ci /** Sets SkMatrix to SkMatrix multiplied by SkMatrix constructed from skewing by (kx, ky) 869cb93a386Sopenharmony_ci about pivot point (px, py). 870cb93a386Sopenharmony_ci This can be thought of as skewing about a pivot point before applying SkMatrix. 871cb93a386Sopenharmony_ci 872cb93a386Sopenharmony_ci Given: 873cb93a386Sopenharmony_ci 874cb93a386Sopenharmony_ci | A B C | | 1 kx dx | 875cb93a386Sopenharmony_ci Matrix = | D E F |, K(kx, ky, px, py) = | ky 1 dy | 876cb93a386Sopenharmony_ci | G H I | | 0 0 1 | 877cb93a386Sopenharmony_ci 878cb93a386Sopenharmony_ci where 879cb93a386Sopenharmony_ci 880cb93a386Sopenharmony_ci dx = -kx * py 881cb93a386Sopenharmony_ci dy = -ky * px 882cb93a386Sopenharmony_ci 883cb93a386Sopenharmony_ci sets SkMatrix to: 884cb93a386Sopenharmony_ci 885cb93a386Sopenharmony_ci | A B C | | 1 kx dx | | A+B*ky A*kx+B A*dx+B*dy+C | 886cb93a386Sopenharmony_ci Matrix * K(kx, ky, px, py) = | D E F | | ky 1 dy | = | D+E*ky D*kx+E D*dx+E*dy+F | 887cb93a386Sopenharmony_ci | G H I | | 0 0 1 | | G+H*ky G*kx+H G*dx+H*dy+I | 888cb93a386Sopenharmony_ci 889cb93a386Sopenharmony_ci @param kx horizontal skew factor 890cb93a386Sopenharmony_ci @param ky vertical skew factor 891cb93a386Sopenharmony_ci @param px pivot on x-axis 892cb93a386Sopenharmony_ci @param py pivot on y-axis 893cb93a386Sopenharmony_ci */ 894cb93a386Sopenharmony_ci SkMatrix& preSkew(SkScalar kx, SkScalar ky, SkScalar px, SkScalar py); 895cb93a386Sopenharmony_ci 896cb93a386Sopenharmony_ci /** Sets SkMatrix to SkMatrix multiplied by SkMatrix constructed from skewing by (kx, ky) 897cb93a386Sopenharmony_ci about pivot point (0, 0). 898cb93a386Sopenharmony_ci This can be thought of as skewing about the origin before applying SkMatrix. 899cb93a386Sopenharmony_ci 900cb93a386Sopenharmony_ci Given: 901cb93a386Sopenharmony_ci 902cb93a386Sopenharmony_ci | A B C | | 1 kx 0 | 903cb93a386Sopenharmony_ci Matrix = | D E F |, K(kx, ky) = | ky 1 0 | 904cb93a386Sopenharmony_ci | G H I | | 0 0 1 | 905cb93a386Sopenharmony_ci 906cb93a386Sopenharmony_ci sets SkMatrix to: 907cb93a386Sopenharmony_ci 908cb93a386Sopenharmony_ci | A B C | | 1 kx 0 | | A+B*ky A*kx+B C | 909cb93a386Sopenharmony_ci Matrix * K(kx, ky) = | D E F | | ky 1 0 | = | D+E*ky D*kx+E F | 910cb93a386Sopenharmony_ci | G H I | | 0 0 1 | | G+H*ky G*kx+H I | 911cb93a386Sopenharmony_ci 912cb93a386Sopenharmony_ci @param kx horizontal skew factor 913cb93a386Sopenharmony_ci @param ky vertical skew factor 914cb93a386Sopenharmony_ci */ 915cb93a386Sopenharmony_ci SkMatrix& preSkew(SkScalar kx, SkScalar ky); 916cb93a386Sopenharmony_ci 917cb93a386Sopenharmony_ci /** Sets SkMatrix to SkMatrix multiplied by SkMatrix other. 918cb93a386Sopenharmony_ci This can be thought of mapping by other before applying SkMatrix. 919cb93a386Sopenharmony_ci 920cb93a386Sopenharmony_ci Given: 921cb93a386Sopenharmony_ci 922cb93a386Sopenharmony_ci | A B C | | J K L | 923cb93a386Sopenharmony_ci Matrix = | D E F |, other = | M N O | 924cb93a386Sopenharmony_ci | G H I | | P Q R | 925cb93a386Sopenharmony_ci 926cb93a386Sopenharmony_ci sets SkMatrix to: 927cb93a386Sopenharmony_ci 928cb93a386Sopenharmony_ci | A B C | | J K L | | AJ+BM+CP AK+BN+CQ AL+BO+CR | 929cb93a386Sopenharmony_ci Matrix * other = | D E F | * | M N O | = | DJ+EM+FP DK+EN+FQ DL+EO+FR | 930cb93a386Sopenharmony_ci | G H I | | P Q R | | GJ+HM+IP GK+HN+IQ GL+HO+IR | 931cb93a386Sopenharmony_ci 932cb93a386Sopenharmony_ci @param other SkMatrix on right side of multiply expression 933cb93a386Sopenharmony_ci */ 934cb93a386Sopenharmony_ci SkMatrix& preConcat(const SkMatrix& other); 935cb93a386Sopenharmony_ci 936cb93a386Sopenharmony_ci /** Sets SkMatrix to SkMatrix constructed from translation (dx, dy) multiplied by SkMatrix. 937cb93a386Sopenharmony_ci This can be thought of as moving the point to be mapped after applying SkMatrix. 938cb93a386Sopenharmony_ci 939cb93a386Sopenharmony_ci Given: 940cb93a386Sopenharmony_ci 941cb93a386Sopenharmony_ci | J K L | | 1 0 dx | 942cb93a386Sopenharmony_ci Matrix = | M N O |, T(dx, dy) = | 0 1 dy | 943cb93a386Sopenharmony_ci | P Q R | | 0 0 1 | 944cb93a386Sopenharmony_ci 945cb93a386Sopenharmony_ci sets SkMatrix to: 946cb93a386Sopenharmony_ci 947cb93a386Sopenharmony_ci | 1 0 dx | | J K L | | J+dx*P K+dx*Q L+dx*R | 948cb93a386Sopenharmony_ci T(dx, dy) * Matrix = | 0 1 dy | | M N O | = | M+dy*P N+dy*Q O+dy*R | 949cb93a386Sopenharmony_ci | 0 0 1 | | P Q R | | P Q R | 950cb93a386Sopenharmony_ci 951cb93a386Sopenharmony_ci @param dx x-axis translation after applying SkMatrix 952cb93a386Sopenharmony_ci @param dy y-axis translation after applying SkMatrix 953cb93a386Sopenharmony_ci */ 954cb93a386Sopenharmony_ci SkMatrix& postTranslate(SkScalar dx, SkScalar dy); 955cb93a386Sopenharmony_ci 956cb93a386Sopenharmony_ci /** Sets SkMatrix to SkMatrix constructed from scaling by (sx, sy) about pivot point 957cb93a386Sopenharmony_ci (px, py), multiplied by SkMatrix. 958cb93a386Sopenharmony_ci This can be thought of as scaling about a pivot point after applying SkMatrix. 959cb93a386Sopenharmony_ci 960cb93a386Sopenharmony_ci Given: 961cb93a386Sopenharmony_ci 962cb93a386Sopenharmony_ci | J K L | | sx 0 dx | 963cb93a386Sopenharmony_ci Matrix = | M N O |, S(sx, sy, px, py) = | 0 sy dy | 964cb93a386Sopenharmony_ci | P Q R | | 0 0 1 | 965cb93a386Sopenharmony_ci 966cb93a386Sopenharmony_ci where 967cb93a386Sopenharmony_ci 968cb93a386Sopenharmony_ci dx = px - sx * px 969cb93a386Sopenharmony_ci dy = py - sy * py 970cb93a386Sopenharmony_ci 971cb93a386Sopenharmony_ci sets SkMatrix to: 972cb93a386Sopenharmony_ci 973cb93a386Sopenharmony_ci | sx 0 dx | | J K L | | sx*J+dx*P sx*K+dx*Q sx*L+dx+R | 974cb93a386Sopenharmony_ci S(sx, sy, px, py) * Matrix = | 0 sy dy | | M N O | = | sy*M+dy*P sy*N+dy*Q sy*O+dy*R | 975cb93a386Sopenharmony_ci | 0 0 1 | | P Q R | | P Q R | 976cb93a386Sopenharmony_ci 977cb93a386Sopenharmony_ci @param sx horizontal scale factor 978cb93a386Sopenharmony_ci @param sy vertical scale factor 979cb93a386Sopenharmony_ci @param px pivot on x-axis 980cb93a386Sopenharmony_ci @param py pivot on y-axis 981cb93a386Sopenharmony_ci */ 982cb93a386Sopenharmony_ci SkMatrix& postScale(SkScalar sx, SkScalar sy, SkScalar px, SkScalar py); 983cb93a386Sopenharmony_ci 984cb93a386Sopenharmony_ci /** Sets SkMatrix to SkMatrix constructed from scaling by (sx, sy) about pivot point 985cb93a386Sopenharmony_ci (0, 0), multiplied by SkMatrix. 986cb93a386Sopenharmony_ci This can be thought of as scaling about the origin after applying SkMatrix. 987cb93a386Sopenharmony_ci 988cb93a386Sopenharmony_ci Given: 989cb93a386Sopenharmony_ci 990cb93a386Sopenharmony_ci | J K L | | sx 0 0 | 991cb93a386Sopenharmony_ci Matrix = | M N O |, S(sx, sy) = | 0 sy 0 | 992cb93a386Sopenharmony_ci | P Q R | | 0 0 1 | 993cb93a386Sopenharmony_ci 994cb93a386Sopenharmony_ci sets SkMatrix to: 995cb93a386Sopenharmony_ci 996cb93a386Sopenharmony_ci | sx 0 0 | | J K L | | sx*J sx*K sx*L | 997cb93a386Sopenharmony_ci S(sx, sy) * Matrix = | 0 sy 0 | | M N O | = | sy*M sy*N sy*O | 998cb93a386Sopenharmony_ci | 0 0 1 | | P Q R | | P Q R | 999cb93a386Sopenharmony_ci 1000cb93a386Sopenharmony_ci @param sx horizontal scale factor 1001cb93a386Sopenharmony_ci @param sy vertical scale factor 1002cb93a386Sopenharmony_ci */ 1003cb93a386Sopenharmony_ci SkMatrix& postScale(SkScalar sx, SkScalar sy); 1004cb93a386Sopenharmony_ci 1005cb93a386Sopenharmony_ci /** Sets SkMatrix to SkMatrix constructed from rotating by degrees about pivot point 1006cb93a386Sopenharmony_ci (px, py), multiplied by SkMatrix. 1007cb93a386Sopenharmony_ci This can be thought of as rotating about a pivot point after applying SkMatrix. 1008cb93a386Sopenharmony_ci 1009cb93a386Sopenharmony_ci Positive degrees rotates clockwise. 1010cb93a386Sopenharmony_ci 1011cb93a386Sopenharmony_ci Given: 1012cb93a386Sopenharmony_ci 1013cb93a386Sopenharmony_ci | J K L | | c -s dx | 1014cb93a386Sopenharmony_ci Matrix = | M N O |, R(degrees, px, py) = | s c dy | 1015cb93a386Sopenharmony_ci | P Q R | | 0 0 1 | 1016cb93a386Sopenharmony_ci 1017cb93a386Sopenharmony_ci where 1018cb93a386Sopenharmony_ci 1019cb93a386Sopenharmony_ci c = cos(degrees) 1020cb93a386Sopenharmony_ci s = sin(degrees) 1021cb93a386Sopenharmony_ci dx = s * py + (1 - c) * px 1022cb93a386Sopenharmony_ci dy = -s * px + (1 - c) * py 1023cb93a386Sopenharmony_ci 1024cb93a386Sopenharmony_ci sets SkMatrix to: 1025cb93a386Sopenharmony_ci 1026cb93a386Sopenharmony_ci |c -s dx| |J K L| |cJ-sM+dx*P cK-sN+dx*Q cL-sO+dx+R| 1027cb93a386Sopenharmony_ci R(degrees, px, py) * Matrix = |s c dy| |M N O| = |sJ+cM+dy*P sK+cN+dy*Q sL+cO+dy*R| 1028cb93a386Sopenharmony_ci |0 0 1| |P Q R| | P Q R| 1029cb93a386Sopenharmony_ci 1030cb93a386Sopenharmony_ci @param degrees angle of axes relative to upright axes 1031cb93a386Sopenharmony_ci @param px pivot on x-axis 1032cb93a386Sopenharmony_ci @param py pivot on y-axis 1033cb93a386Sopenharmony_ci */ 1034cb93a386Sopenharmony_ci SkMatrix& postRotate(SkScalar degrees, SkScalar px, SkScalar py); 1035cb93a386Sopenharmony_ci 1036cb93a386Sopenharmony_ci /** Sets SkMatrix to SkMatrix constructed from rotating by degrees about pivot point 1037cb93a386Sopenharmony_ci (0, 0), multiplied by SkMatrix. 1038cb93a386Sopenharmony_ci This can be thought of as rotating about the origin after applying SkMatrix. 1039cb93a386Sopenharmony_ci 1040cb93a386Sopenharmony_ci Positive degrees rotates clockwise. 1041cb93a386Sopenharmony_ci 1042cb93a386Sopenharmony_ci Given: 1043cb93a386Sopenharmony_ci 1044cb93a386Sopenharmony_ci | J K L | | c -s 0 | 1045cb93a386Sopenharmony_ci Matrix = | M N O |, R(degrees, px, py) = | s c 0 | 1046cb93a386Sopenharmony_ci | P Q R | | 0 0 1 | 1047cb93a386Sopenharmony_ci 1048cb93a386Sopenharmony_ci where 1049cb93a386Sopenharmony_ci 1050cb93a386Sopenharmony_ci c = cos(degrees) 1051cb93a386Sopenharmony_ci s = sin(degrees) 1052cb93a386Sopenharmony_ci 1053cb93a386Sopenharmony_ci sets SkMatrix to: 1054cb93a386Sopenharmony_ci 1055cb93a386Sopenharmony_ci | c -s dx | | J K L | | cJ-sM cK-sN cL-sO | 1056cb93a386Sopenharmony_ci R(degrees, px, py) * Matrix = | s c dy | | M N O | = | sJ+cM sK+cN sL+cO | 1057cb93a386Sopenharmony_ci | 0 0 1 | | P Q R | | P Q R | 1058cb93a386Sopenharmony_ci 1059cb93a386Sopenharmony_ci @param degrees angle of axes relative to upright axes 1060cb93a386Sopenharmony_ci */ 1061cb93a386Sopenharmony_ci SkMatrix& postRotate(SkScalar degrees); 1062cb93a386Sopenharmony_ci 1063cb93a386Sopenharmony_ci /** Sets SkMatrix to SkMatrix constructed from skewing by (kx, ky) about pivot point 1064cb93a386Sopenharmony_ci (px, py), multiplied by SkMatrix. 1065cb93a386Sopenharmony_ci This can be thought of as skewing about a pivot point after applying SkMatrix. 1066cb93a386Sopenharmony_ci 1067cb93a386Sopenharmony_ci Given: 1068cb93a386Sopenharmony_ci 1069cb93a386Sopenharmony_ci | J K L | | 1 kx dx | 1070cb93a386Sopenharmony_ci Matrix = | M N O |, K(kx, ky, px, py) = | ky 1 dy | 1071cb93a386Sopenharmony_ci | P Q R | | 0 0 1 | 1072cb93a386Sopenharmony_ci 1073cb93a386Sopenharmony_ci where 1074cb93a386Sopenharmony_ci 1075cb93a386Sopenharmony_ci dx = -kx * py 1076cb93a386Sopenharmony_ci dy = -ky * px 1077cb93a386Sopenharmony_ci 1078cb93a386Sopenharmony_ci sets SkMatrix to: 1079cb93a386Sopenharmony_ci 1080cb93a386Sopenharmony_ci | 1 kx dx| |J K L| |J+kx*M+dx*P K+kx*N+dx*Q L+kx*O+dx+R| 1081cb93a386Sopenharmony_ci K(kx, ky, px, py) * Matrix = |ky 1 dy| |M N O| = |ky*J+M+dy*P ky*K+N+dy*Q ky*L+O+dy*R| 1082cb93a386Sopenharmony_ci | 0 0 1| |P Q R| | P Q R| 1083cb93a386Sopenharmony_ci 1084cb93a386Sopenharmony_ci @param kx horizontal skew factor 1085cb93a386Sopenharmony_ci @param ky vertical skew factor 1086cb93a386Sopenharmony_ci @param px pivot on x-axis 1087cb93a386Sopenharmony_ci @param py pivot on y-axis 1088cb93a386Sopenharmony_ci */ 1089cb93a386Sopenharmony_ci SkMatrix& postSkew(SkScalar kx, SkScalar ky, SkScalar px, SkScalar py); 1090cb93a386Sopenharmony_ci 1091cb93a386Sopenharmony_ci /** Sets SkMatrix to SkMatrix constructed from skewing by (kx, ky) about pivot point 1092cb93a386Sopenharmony_ci (0, 0), multiplied by SkMatrix. 1093cb93a386Sopenharmony_ci This can be thought of as skewing about the origin after applying SkMatrix. 1094cb93a386Sopenharmony_ci 1095cb93a386Sopenharmony_ci Given: 1096cb93a386Sopenharmony_ci 1097cb93a386Sopenharmony_ci | J K L | | 1 kx 0 | 1098cb93a386Sopenharmony_ci Matrix = | M N O |, K(kx, ky) = | ky 1 0 | 1099cb93a386Sopenharmony_ci | P Q R | | 0 0 1 | 1100cb93a386Sopenharmony_ci 1101cb93a386Sopenharmony_ci sets SkMatrix to: 1102cb93a386Sopenharmony_ci 1103cb93a386Sopenharmony_ci | 1 kx 0 | | J K L | | J+kx*M K+kx*N L+kx*O | 1104cb93a386Sopenharmony_ci K(kx, ky) * Matrix = | ky 1 0 | | M N O | = | ky*J+M ky*K+N ky*L+O | 1105cb93a386Sopenharmony_ci | 0 0 1 | | P Q R | | P Q R | 1106cb93a386Sopenharmony_ci 1107cb93a386Sopenharmony_ci @param kx horizontal skew factor 1108cb93a386Sopenharmony_ci @param ky vertical skew factor 1109cb93a386Sopenharmony_ci */ 1110cb93a386Sopenharmony_ci SkMatrix& postSkew(SkScalar kx, SkScalar ky); 1111cb93a386Sopenharmony_ci 1112cb93a386Sopenharmony_ci /** Sets SkMatrix to SkMatrix other multiplied by SkMatrix. 1113cb93a386Sopenharmony_ci This can be thought of mapping by other after applying SkMatrix. 1114cb93a386Sopenharmony_ci 1115cb93a386Sopenharmony_ci Given: 1116cb93a386Sopenharmony_ci 1117cb93a386Sopenharmony_ci | J K L | | A B C | 1118cb93a386Sopenharmony_ci Matrix = | M N O |, other = | D E F | 1119cb93a386Sopenharmony_ci | P Q R | | G H I | 1120cb93a386Sopenharmony_ci 1121cb93a386Sopenharmony_ci sets SkMatrix to: 1122cb93a386Sopenharmony_ci 1123cb93a386Sopenharmony_ci | A B C | | J K L | | AJ+BM+CP AK+BN+CQ AL+BO+CR | 1124cb93a386Sopenharmony_ci other * Matrix = | D E F | * | M N O | = | DJ+EM+FP DK+EN+FQ DL+EO+FR | 1125cb93a386Sopenharmony_ci | G H I | | P Q R | | GJ+HM+IP GK+HN+IQ GL+HO+IR | 1126cb93a386Sopenharmony_ci 1127cb93a386Sopenharmony_ci @param other SkMatrix on left side of multiply expression 1128cb93a386Sopenharmony_ci */ 1129cb93a386Sopenharmony_ci SkMatrix& postConcat(const SkMatrix& other); 1130cb93a386Sopenharmony_ci 1131cb93a386Sopenharmony_ci#ifndef SK_SUPPORT_LEGACY_MATRIX_RECTTORECT 1132cb93a386Sopenharmony_ciprivate: 1133cb93a386Sopenharmony_ci#endif 1134cb93a386Sopenharmony_ci /** Sets SkMatrix to scale and translate src SkRect to dst SkRect. stf selects whether 1135cb93a386Sopenharmony_ci mapping completely fills dst or preserves the aspect ratio, and how to align 1136cb93a386Sopenharmony_ci src within dst. Returns false if src is empty, and sets SkMatrix to identity. 1137cb93a386Sopenharmony_ci Returns true if dst is empty, and sets SkMatrix to: 1138cb93a386Sopenharmony_ci 1139cb93a386Sopenharmony_ci | 0 0 0 | 1140cb93a386Sopenharmony_ci | 0 0 0 | 1141cb93a386Sopenharmony_ci | 0 0 1 | 1142cb93a386Sopenharmony_ci 1143cb93a386Sopenharmony_ci @param src SkRect to map from 1144cb93a386Sopenharmony_ci @param dst SkRect to map to 1145cb93a386Sopenharmony_ci @return true if SkMatrix can represent SkRect mapping 1146cb93a386Sopenharmony_ci 1147cb93a386Sopenharmony_ci example: https://fiddle.skia.org/c/@Matrix_setRectToRect 1148cb93a386Sopenharmony_ci */ 1149cb93a386Sopenharmony_ci bool setRectToRect(const SkRect& src, const SkRect& dst, ScaleToFit stf); 1150cb93a386Sopenharmony_ci 1151cb93a386Sopenharmony_ci /** Returns SkMatrix set to scale and translate src SkRect to dst SkRect. stf selects 1152cb93a386Sopenharmony_ci whether mapping completely fills dst or preserves the aspect ratio, and how to 1153cb93a386Sopenharmony_ci align src within dst. Returns the identity SkMatrix if src is empty. If dst is 1154cb93a386Sopenharmony_ci empty, returns SkMatrix set to: 1155cb93a386Sopenharmony_ci 1156cb93a386Sopenharmony_ci | 0 0 0 | 1157cb93a386Sopenharmony_ci | 0 0 0 | 1158cb93a386Sopenharmony_ci | 0 0 1 | 1159cb93a386Sopenharmony_ci 1160cb93a386Sopenharmony_ci @param src SkRect to map from 1161cb93a386Sopenharmony_ci @param dst SkRect to map to 1162cb93a386Sopenharmony_ci @return SkMatrix mapping src to dst 1163cb93a386Sopenharmony_ci */ 1164cb93a386Sopenharmony_ci static SkMatrix MakeRectToRect(const SkRect& src, const SkRect& dst, ScaleToFit stf) { 1165cb93a386Sopenharmony_ci SkMatrix m; 1166cb93a386Sopenharmony_ci m.setRectToRect(src, dst, stf); 1167cb93a386Sopenharmony_ci return m; 1168cb93a386Sopenharmony_ci } 1169cb93a386Sopenharmony_ci#ifndef SK_SUPPORT_LEGACY_MATRIX_RECTTORECT 1170cb93a386Sopenharmony_cipublic: 1171cb93a386Sopenharmony_ci#endif 1172cb93a386Sopenharmony_ci 1173cb93a386Sopenharmony_ci /** Sets SkMatrix to map src to dst. count must be zero or greater, and four or less. 1174cb93a386Sopenharmony_ci 1175cb93a386Sopenharmony_ci If count is zero, sets SkMatrix to identity and returns true. 1176cb93a386Sopenharmony_ci If count is one, sets SkMatrix to translate and returns true. 1177cb93a386Sopenharmony_ci If count is two or more, sets SkMatrix to map SkPoint if possible; returns false 1178cb93a386Sopenharmony_ci if SkMatrix cannot be constructed. If count is four, SkMatrix may include 1179cb93a386Sopenharmony_ci perspective. 1180cb93a386Sopenharmony_ci 1181cb93a386Sopenharmony_ci @param src SkPoint to map from 1182cb93a386Sopenharmony_ci @param dst SkPoint to map to 1183cb93a386Sopenharmony_ci @param count number of SkPoint in src and dst 1184cb93a386Sopenharmony_ci @return true if SkMatrix was constructed successfully 1185cb93a386Sopenharmony_ci 1186cb93a386Sopenharmony_ci example: https://fiddle.skia.org/c/@Matrix_setPolyToPoly 1187cb93a386Sopenharmony_ci */ 1188cb93a386Sopenharmony_ci bool setPolyToPoly(const SkPoint src[], const SkPoint dst[], int count); 1189cb93a386Sopenharmony_ci 1190cb93a386Sopenharmony_ci /** Sets inverse to reciprocal matrix, returning true if SkMatrix can be inverted. 1191cb93a386Sopenharmony_ci Geometrically, if SkMatrix maps from source to destination, inverse SkMatrix 1192cb93a386Sopenharmony_ci maps from destination to source. If SkMatrix can not be inverted, inverse is 1193cb93a386Sopenharmony_ci unchanged. 1194cb93a386Sopenharmony_ci 1195cb93a386Sopenharmony_ci @param inverse storage for inverted SkMatrix; may be nullptr 1196cb93a386Sopenharmony_ci @return true if SkMatrix can be inverted 1197cb93a386Sopenharmony_ci */ 1198cb93a386Sopenharmony_ci bool SK_WARN_UNUSED_RESULT invert(SkMatrix* inverse) const { 1199cb93a386Sopenharmony_ci // Allow the trivial case to be inlined. 1200cb93a386Sopenharmony_ci if (this->isIdentity()) { 1201cb93a386Sopenharmony_ci if (inverse) { 1202cb93a386Sopenharmony_ci inverse->reset(); 1203cb93a386Sopenharmony_ci } 1204cb93a386Sopenharmony_ci return true; 1205cb93a386Sopenharmony_ci } 1206cb93a386Sopenharmony_ci return this->invertNonIdentity(inverse); 1207cb93a386Sopenharmony_ci } 1208cb93a386Sopenharmony_ci 1209cb93a386Sopenharmony_ci /** Fills affine with identity values in column major order. 1210cb93a386Sopenharmony_ci Sets affine to: 1211cb93a386Sopenharmony_ci 1212cb93a386Sopenharmony_ci | 1 0 0 | 1213cb93a386Sopenharmony_ci | 0 1 0 | 1214cb93a386Sopenharmony_ci 1215cb93a386Sopenharmony_ci Affine 3 by 2 matrices in column major order are used by OpenGL and XPS. 1216cb93a386Sopenharmony_ci 1217cb93a386Sopenharmony_ci @param affine storage for 3 by 2 affine matrix 1218cb93a386Sopenharmony_ci 1219cb93a386Sopenharmony_ci example: https://fiddle.skia.org/c/@Matrix_SetAffineIdentity 1220cb93a386Sopenharmony_ci */ 1221cb93a386Sopenharmony_ci static void SetAffineIdentity(SkScalar affine[6]); 1222cb93a386Sopenharmony_ci 1223cb93a386Sopenharmony_ci /** Fills affine in column major order. Sets affine to: 1224cb93a386Sopenharmony_ci 1225cb93a386Sopenharmony_ci | scale-x skew-x translate-x | 1226cb93a386Sopenharmony_ci | skew-y scale-y translate-y | 1227cb93a386Sopenharmony_ci 1228cb93a386Sopenharmony_ci If SkMatrix contains perspective, returns false and leaves affine unchanged. 1229cb93a386Sopenharmony_ci 1230cb93a386Sopenharmony_ci @param affine storage for 3 by 2 affine matrix; may be nullptr 1231cb93a386Sopenharmony_ci @return true if SkMatrix does not contain perspective 1232cb93a386Sopenharmony_ci */ 1233cb93a386Sopenharmony_ci bool SK_WARN_UNUSED_RESULT asAffine(SkScalar affine[6]) const; 1234cb93a386Sopenharmony_ci 1235cb93a386Sopenharmony_ci /** Sets SkMatrix to affine values, passed in column major order. Given affine, 1236cb93a386Sopenharmony_ci column, then row, as: 1237cb93a386Sopenharmony_ci 1238cb93a386Sopenharmony_ci | scale-x skew-x translate-x | 1239cb93a386Sopenharmony_ci | skew-y scale-y translate-y | 1240cb93a386Sopenharmony_ci 1241cb93a386Sopenharmony_ci SkMatrix is set, row, then column, to: 1242cb93a386Sopenharmony_ci 1243cb93a386Sopenharmony_ci | scale-x skew-x translate-x | 1244cb93a386Sopenharmony_ci | skew-y scale-y translate-y | 1245cb93a386Sopenharmony_ci | 0 0 1 | 1246cb93a386Sopenharmony_ci 1247cb93a386Sopenharmony_ci @param affine 3 by 2 affine matrix 1248cb93a386Sopenharmony_ci */ 1249cb93a386Sopenharmony_ci SkMatrix& setAffine(const SkScalar affine[6]); 1250cb93a386Sopenharmony_ci 1251cb93a386Sopenharmony_ci /** 1252cb93a386Sopenharmony_ci * A matrix is categorized as 'perspective' if the bottom row is not [0, 0, 1]. 1253cb93a386Sopenharmony_ci * However, for most uses (e.g. mapPoints) a bottom row of [0, 0, X] behaves like a 1254cb93a386Sopenharmony_ci * non-perspective matrix, though it will be categorized as perspective. Calling 1255cb93a386Sopenharmony_ci * normalizePerspective() will change the matrix such that, if its bottom row was [0, 0, X], 1256cb93a386Sopenharmony_ci * it will be changed to [0, 0, 1] by scaling the rest of the matrix by 1/X. 1257cb93a386Sopenharmony_ci * 1258cb93a386Sopenharmony_ci * | A B C | | A/X B/X C/X | 1259cb93a386Sopenharmony_ci * | D E F | -> | D/X E/X F/X | for X != 0 1260cb93a386Sopenharmony_ci * | 0 0 X | | 0 0 1 | 1261cb93a386Sopenharmony_ci */ 1262cb93a386Sopenharmony_ci void normalizePerspective() { 1263cb93a386Sopenharmony_ci if (fMat[8] != 1) { 1264cb93a386Sopenharmony_ci this->doNormalizePerspective(); 1265cb93a386Sopenharmony_ci } 1266cb93a386Sopenharmony_ci } 1267cb93a386Sopenharmony_ci 1268cb93a386Sopenharmony_ci /** Maps src SkPoint array of length count to dst SkPoint array of equal or greater 1269cb93a386Sopenharmony_ci length. SkPoint are mapped by multiplying each SkPoint by SkMatrix. Given: 1270cb93a386Sopenharmony_ci 1271cb93a386Sopenharmony_ci | A B C | | x | 1272cb93a386Sopenharmony_ci Matrix = | D E F |, pt = | y | 1273cb93a386Sopenharmony_ci | G H I | | 1 | 1274cb93a386Sopenharmony_ci 1275cb93a386Sopenharmony_ci where 1276cb93a386Sopenharmony_ci 1277cb93a386Sopenharmony_ci for (i = 0; i < count; ++i) { 1278cb93a386Sopenharmony_ci x = src[i].fX 1279cb93a386Sopenharmony_ci y = src[i].fY 1280cb93a386Sopenharmony_ci } 1281cb93a386Sopenharmony_ci 1282cb93a386Sopenharmony_ci each dst SkPoint is computed as: 1283cb93a386Sopenharmony_ci 1284cb93a386Sopenharmony_ci |A B C| |x| Ax+By+C Dx+Ey+F 1285cb93a386Sopenharmony_ci Matrix * pt = |D E F| |y| = |Ax+By+C Dx+Ey+F Gx+Hy+I| = ------- , ------- 1286cb93a386Sopenharmony_ci |G H I| |1| Gx+Hy+I Gx+Hy+I 1287cb93a386Sopenharmony_ci 1288cb93a386Sopenharmony_ci src and dst may point to the same storage. 1289cb93a386Sopenharmony_ci 1290cb93a386Sopenharmony_ci @param dst storage for mapped SkPoint 1291cb93a386Sopenharmony_ci @param src SkPoint to transform 1292cb93a386Sopenharmony_ci @param count number of SkPoint to transform 1293cb93a386Sopenharmony_ci 1294cb93a386Sopenharmony_ci example: https://fiddle.skia.org/c/@Matrix_mapPoints 1295cb93a386Sopenharmony_ci */ 1296cb93a386Sopenharmony_ci void mapPoints(SkPoint dst[], const SkPoint src[], int count) const; 1297cb93a386Sopenharmony_ci 1298cb93a386Sopenharmony_ci /** Maps pts SkPoint array of length count in place. SkPoint are mapped by multiplying 1299cb93a386Sopenharmony_ci each SkPoint by SkMatrix. Given: 1300cb93a386Sopenharmony_ci 1301cb93a386Sopenharmony_ci | A B C | | x | 1302cb93a386Sopenharmony_ci Matrix = | D E F |, pt = | y | 1303cb93a386Sopenharmony_ci | G H I | | 1 | 1304cb93a386Sopenharmony_ci 1305cb93a386Sopenharmony_ci where 1306cb93a386Sopenharmony_ci 1307cb93a386Sopenharmony_ci for (i = 0; i < count; ++i) { 1308cb93a386Sopenharmony_ci x = pts[i].fX 1309cb93a386Sopenharmony_ci y = pts[i].fY 1310cb93a386Sopenharmony_ci } 1311cb93a386Sopenharmony_ci 1312cb93a386Sopenharmony_ci each resulting pts SkPoint is computed as: 1313cb93a386Sopenharmony_ci 1314cb93a386Sopenharmony_ci |A B C| |x| Ax+By+C Dx+Ey+F 1315cb93a386Sopenharmony_ci Matrix * pt = |D E F| |y| = |Ax+By+C Dx+Ey+F Gx+Hy+I| = ------- , ------- 1316cb93a386Sopenharmony_ci |G H I| |1| Gx+Hy+I Gx+Hy+I 1317cb93a386Sopenharmony_ci 1318cb93a386Sopenharmony_ci @param pts storage for mapped SkPoint 1319cb93a386Sopenharmony_ci @param count number of SkPoint to transform 1320cb93a386Sopenharmony_ci */ 1321cb93a386Sopenharmony_ci void mapPoints(SkPoint pts[], int count) const { 1322cb93a386Sopenharmony_ci this->mapPoints(pts, pts, count); 1323cb93a386Sopenharmony_ci } 1324cb93a386Sopenharmony_ci 1325cb93a386Sopenharmony_ci /** Maps src SkPoint3 array of length count to dst SkPoint3 array, which must of length count or 1326cb93a386Sopenharmony_ci greater. SkPoint3 array is mapped by multiplying each SkPoint3 by SkMatrix. Given: 1327cb93a386Sopenharmony_ci 1328cb93a386Sopenharmony_ci | A B C | | x | 1329cb93a386Sopenharmony_ci Matrix = | D E F |, src = | y | 1330cb93a386Sopenharmony_ci | G H I | | z | 1331cb93a386Sopenharmony_ci 1332cb93a386Sopenharmony_ci each resulting dst SkPoint is computed as: 1333cb93a386Sopenharmony_ci 1334cb93a386Sopenharmony_ci |A B C| |x| 1335cb93a386Sopenharmony_ci Matrix * src = |D E F| |y| = |Ax+By+Cz Dx+Ey+Fz Gx+Hy+Iz| 1336cb93a386Sopenharmony_ci |G H I| |z| 1337cb93a386Sopenharmony_ci 1338cb93a386Sopenharmony_ci @param dst storage for mapped SkPoint3 array 1339cb93a386Sopenharmony_ci @param src SkPoint3 array to transform 1340cb93a386Sopenharmony_ci @param count items in SkPoint3 array to transform 1341cb93a386Sopenharmony_ci 1342cb93a386Sopenharmony_ci example: https://fiddle.skia.org/c/@Matrix_mapHomogeneousPoints 1343cb93a386Sopenharmony_ci */ 1344cb93a386Sopenharmony_ci void mapHomogeneousPoints(SkPoint3 dst[], const SkPoint3 src[], int count) const; 1345cb93a386Sopenharmony_ci 1346cb93a386Sopenharmony_ci /** 1347cb93a386Sopenharmony_ci * Returns homogeneous points, starting with 2D src points (with implied w = 1). 1348cb93a386Sopenharmony_ci */ 1349cb93a386Sopenharmony_ci void mapHomogeneousPoints(SkPoint3 dst[], const SkPoint src[], int count) const; 1350cb93a386Sopenharmony_ci 1351cb93a386Sopenharmony_ci /** Returns SkPoint pt multiplied by SkMatrix. Given: 1352cb93a386Sopenharmony_ci 1353cb93a386Sopenharmony_ci | A B C | | x | 1354cb93a386Sopenharmony_ci Matrix = | D E F |, pt = | y | 1355cb93a386Sopenharmony_ci | G H I | | 1 | 1356cb93a386Sopenharmony_ci 1357cb93a386Sopenharmony_ci result is computed as: 1358cb93a386Sopenharmony_ci 1359cb93a386Sopenharmony_ci |A B C| |x| Ax+By+C Dx+Ey+F 1360cb93a386Sopenharmony_ci Matrix * pt = |D E F| |y| = |Ax+By+C Dx+Ey+F Gx+Hy+I| = ------- , ------- 1361cb93a386Sopenharmony_ci |G H I| |1| Gx+Hy+I Gx+Hy+I 1362cb93a386Sopenharmony_ci 1363cb93a386Sopenharmony_ci @param p SkPoint to map 1364cb93a386Sopenharmony_ci @return mapped SkPoint 1365cb93a386Sopenharmony_ci */ 1366cb93a386Sopenharmony_ci SkPoint mapPoint(SkPoint pt) const { 1367cb93a386Sopenharmony_ci SkPoint result; 1368cb93a386Sopenharmony_ci this->mapXY(pt.x(), pt.y(), &result); 1369cb93a386Sopenharmony_ci return result; 1370cb93a386Sopenharmony_ci } 1371cb93a386Sopenharmony_ci 1372cb93a386Sopenharmony_ci /** Maps SkPoint (x, y) to result. SkPoint is mapped by multiplying by SkMatrix. Given: 1373cb93a386Sopenharmony_ci 1374cb93a386Sopenharmony_ci | A B C | | x | 1375cb93a386Sopenharmony_ci Matrix = | D E F |, pt = | y | 1376cb93a386Sopenharmony_ci | G H I | | 1 | 1377cb93a386Sopenharmony_ci 1378cb93a386Sopenharmony_ci result is computed as: 1379cb93a386Sopenharmony_ci 1380cb93a386Sopenharmony_ci |A B C| |x| Ax+By+C Dx+Ey+F 1381cb93a386Sopenharmony_ci Matrix * pt = |D E F| |y| = |Ax+By+C Dx+Ey+F Gx+Hy+I| = ------- , ------- 1382cb93a386Sopenharmony_ci |G H I| |1| Gx+Hy+I Gx+Hy+I 1383cb93a386Sopenharmony_ci 1384cb93a386Sopenharmony_ci @param x x-axis value of SkPoint to map 1385cb93a386Sopenharmony_ci @param y y-axis value of SkPoint to map 1386cb93a386Sopenharmony_ci @param result storage for mapped SkPoint 1387cb93a386Sopenharmony_ci 1388cb93a386Sopenharmony_ci example: https://fiddle.skia.org/c/@Matrix_mapXY 1389cb93a386Sopenharmony_ci */ 1390cb93a386Sopenharmony_ci void mapXY(SkScalar x, SkScalar y, SkPoint* result) const; 1391cb93a386Sopenharmony_ci 1392cb93a386Sopenharmony_ci /** Returns SkPoint (x, y) multiplied by SkMatrix. Given: 1393cb93a386Sopenharmony_ci 1394cb93a386Sopenharmony_ci | A B C | | x | 1395cb93a386Sopenharmony_ci Matrix = | D E F |, pt = | y | 1396cb93a386Sopenharmony_ci | G H I | | 1 | 1397cb93a386Sopenharmony_ci 1398cb93a386Sopenharmony_ci result is computed as: 1399cb93a386Sopenharmony_ci 1400cb93a386Sopenharmony_ci |A B C| |x| Ax+By+C Dx+Ey+F 1401cb93a386Sopenharmony_ci Matrix * pt = |D E F| |y| = |Ax+By+C Dx+Ey+F Gx+Hy+I| = ------- , ------- 1402cb93a386Sopenharmony_ci |G H I| |1| Gx+Hy+I Gx+Hy+I 1403cb93a386Sopenharmony_ci 1404cb93a386Sopenharmony_ci @param x x-axis value of SkPoint to map 1405cb93a386Sopenharmony_ci @param y y-axis value of SkPoint to map 1406cb93a386Sopenharmony_ci @return mapped SkPoint 1407cb93a386Sopenharmony_ci */ 1408cb93a386Sopenharmony_ci SkPoint mapXY(SkScalar x, SkScalar y) const { 1409cb93a386Sopenharmony_ci SkPoint result; 1410cb93a386Sopenharmony_ci this->mapXY(x,y, &result); 1411cb93a386Sopenharmony_ci return result; 1412cb93a386Sopenharmony_ci } 1413cb93a386Sopenharmony_ci 1414cb93a386Sopenharmony_ci 1415cb93a386Sopenharmony_ci /** Returns (0, 0) multiplied by SkMatrix. Given: 1416cb93a386Sopenharmony_ci 1417cb93a386Sopenharmony_ci | A B C | | 0 | 1418cb93a386Sopenharmony_ci Matrix = | D E F |, pt = | 0 | 1419cb93a386Sopenharmony_ci | G H I | | 1 | 1420cb93a386Sopenharmony_ci 1421cb93a386Sopenharmony_ci result is computed as: 1422cb93a386Sopenharmony_ci 1423cb93a386Sopenharmony_ci |A B C| |0| C F 1424cb93a386Sopenharmony_ci Matrix * pt = |D E F| |0| = |C F I| = - , - 1425cb93a386Sopenharmony_ci |G H I| |1| I I 1426cb93a386Sopenharmony_ci 1427cb93a386Sopenharmony_ci @return mapped (0, 0) 1428cb93a386Sopenharmony_ci */ 1429cb93a386Sopenharmony_ci SkPoint mapOrigin() const { 1430cb93a386Sopenharmony_ci SkScalar x = this->getTranslateX(), 1431cb93a386Sopenharmony_ci y = this->getTranslateY(); 1432cb93a386Sopenharmony_ci if (this->hasPerspective()) { 1433cb93a386Sopenharmony_ci SkScalar w = fMat[kMPersp2]; 1434cb93a386Sopenharmony_ci if (w) { w = 1 / w; } 1435cb93a386Sopenharmony_ci x *= w; 1436cb93a386Sopenharmony_ci y *= w; 1437cb93a386Sopenharmony_ci } 1438cb93a386Sopenharmony_ci return {x, y}; 1439cb93a386Sopenharmony_ci } 1440cb93a386Sopenharmony_ci 1441cb93a386Sopenharmony_ci /** Maps src vector array of length count to vector SkPoint array of equal or greater 1442cb93a386Sopenharmony_ci length. Vectors are mapped by multiplying each vector by SkMatrix, treating 1443cb93a386Sopenharmony_ci SkMatrix translation as zero. Given: 1444cb93a386Sopenharmony_ci 1445cb93a386Sopenharmony_ci | A B 0 | | x | 1446cb93a386Sopenharmony_ci Matrix = | D E 0 |, src = | y | 1447cb93a386Sopenharmony_ci | G H I | | 1 | 1448cb93a386Sopenharmony_ci 1449cb93a386Sopenharmony_ci where 1450cb93a386Sopenharmony_ci 1451cb93a386Sopenharmony_ci for (i = 0; i < count; ++i) { 1452cb93a386Sopenharmony_ci x = src[i].fX 1453cb93a386Sopenharmony_ci y = src[i].fY 1454cb93a386Sopenharmony_ci } 1455cb93a386Sopenharmony_ci 1456cb93a386Sopenharmony_ci each dst vector is computed as: 1457cb93a386Sopenharmony_ci 1458cb93a386Sopenharmony_ci |A B 0| |x| Ax+By Dx+Ey 1459cb93a386Sopenharmony_ci Matrix * src = |D E 0| |y| = |Ax+By Dx+Ey Gx+Hy+I| = ------- , ------- 1460cb93a386Sopenharmony_ci |G H I| |1| Gx+Hy+I Gx+Hy+I 1461cb93a386Sopenharmony_ci 1462cb93a386Sopenharmony_ci src and dst may point to the same storage. 1463cb93a386Sopenharmony_ci 1464cb93a386Sopenharmony_ci @param dst storage for mapped vectors 1465cb93a386Sopenharmony_ci @param src vectors to transform 1466cb93a386Sopenharmony_ci @param count number of vectors to transform 1467cb93a386Sopenharmony_ci 1468cb93a386Sopenharmony_ci example: https://fiddle.skia.org/c/@Matrix_mapVectors 1469cb93a386Sopenharmony_ci */ 1470cb93a386Sopenharmony_ci void mapVectors(SkVector dst[], const SkVector src[], int count) const; 1471cb93a386Sopenharmony_ci 1472cb93a386Sopenharmony_ci /** Maps vecs vector array of length count in place, multiplying each vector by 1473cb93a386Sopenharmony_ci SkMatrix, treating SkMatrix translation as zero. Given: 1474cb93a386Sopenharmony_ci 1475cb93a386Sopenharmony_ci | A B 0 | | x | 1476cb93a386Sopenharmony_ci Matrix = | D E 0 |, vec = | y | 1477cb93a386Sopenharmony_ci | G H I | | 1 | 1478cb93a386Sopenharmony_ci 1479cb93a386Sopenharmony_ci where 1480cb93a386Sopenharmony_ci 1481cb93a386Sopenharmony_ci for (i = 0; i < count; ++i) { 1482cb93a386Sopenharmony_ci x = vecs[i].fX 1483cb93a386Sopenharmony_ci y = vecs[i].fY 1484cb93a386Sopenharmony_ci } 1485cb93a386Sopenharmony_ci 1486cb93a386Sopenharmony_ci each result vector is computed as: 1487cb93a386Sopenharmony_ci 1488cb93a386Sopenharmony_ci |A B 0| |x| Ax+By Dx+Ey 1489cb93a386Sopenharmony_ci Matrix * vec = |D E 0| |y| = |Ax+By Dx+Ey Gx+Hy+I| = ------- , ------- 1490cb93a386Sopenharmony_ci |G H I| |1| Gx+Hy+I Gx+Hy+I 1491cb93a386Sopenharmony_ci 1492cb93a386Sopenharmony_ci @param vecs vectors to transform, and storage for mapped vectors 1493cb93a386Sopenharmony_ci @param count number of vectors to transform 1494cb93a386Sopenharmony_ci */ 1495cb93a386Sopenharmony_ci void mapVectors(SkVector vecs[], int count) const { 1496cb93a386Sopenharmony_ci this->mapVectors(vecs, vecs, count); 1497cb93a386Sopenharmony_ci } 1498cb93a386Sopenharmony_ci 1499cb93a386Sopenharmony_ci /** Maps vector (dx, dy) to result. Vector is mapped by multiplying by SkMatrix, 1500cb93a386Sopenharmony_ci treating SkMatrix translation as zero. Given: 1501cb93a386Sopenharmony_ci 1502cb93a386Sopenharmony_ci | A B 0 | | dx | 1503cb93a386Sopenharmony_ci Matrix = | D E 0 |, vec = | dy | 1504cb93a386Sopenharmony_ci | G H I | | 1 | 1505cb93a386Sopenharmony_ci 1506cb93a386Sopenharmony_ci each result vector is computed as: 1507cb93a386Sopenharmony_ci 1508cb93a386Sopenharmony_ci |A B 0| |dx| A*dx+B*dy D*dx+E*dy 1509cb93a386Sopenharmony_ci Matrix * vec = |D E 0| |dy| = |A*dx+B*dy D*dx+E*dy G*dx+H*dy+I| = ----------- , ----------- 1510cb93a386Sopenharmony_ci |G H I| | 1| G*dx+H*dy+I G*dx+*dHy+I 1511cb93a386Sopenharmony_ci 1512cb93a386Sopenharmony_ci @param dx x-axis value of vector to map 1513cb93a386Sopenharmony_ci @param dy y-axis value of vector to map 1514cb93a386Sopenharmony_ci @param result storage for mapped vector 1515cb93a386Sopenharmony_ci */ 1516cb93a386Sopenharmony_ci void mapVector(SkScalar dx, SkScalar dy, SkVector* result) const { 1517cb93a386Sopenharmony_ci SkVector vec = { dx, dy }; 1518cb93a386Sopenharmony_ci this->mapVectors(result, &vec, 1); 1519cb93a386Sopenharmony_ci } 1520cb93a386Sopenharmony_ci 1521cb93a386Sopenharmony_ci /** Returns vector (dx, dy) multiplied by SkMatrix, treating SkMatrix translation as zero. 1522cb93a386Sopenharmony_ci Given: 1523cb93a386Sopenharmony_ci 1524cb93a386Sopenharmony_ci | A B 0 | | dx | 1525cb93a386Sopenharmony_ci Matrix = | D E 0 |, vec = | dy | 1526cb93a386Sopenharmony_ci | G H I | | 1 | 1527cb93a386Sopenharmony_ci 1528cb93a386Sopenharmony_ci each result vector is computed as: 1529cb93a386Sopenharmony_ci 1530cb93a386Sopenharmony_ci |A B 0| |dx| A*dx+B*dy D*dx+E*dy 1531cb93a386Sopenharmony_ci Matrix * vec = |D E 0| |dy| = |A*dx+B*dy D*dx+E*dy G*dx+H*dy+I| = ----------- , ----------- 1532cb93a386Sopenharmony_ci |G H I| | 1| G*dx+H*dy+I G*dx+*dHy+I 1533cb93a386Sopenharmony_ci 1534cb93a386Sopenharmony_ci @param dx x-axis value of vector to map 1535cb93a386Sopenharmony_ci @param dy y-axis value of vector to map 1536cb93a386Sopenharmony_ci @return mapped vector 1537cb93a386Sopenharmony_ci */ 1538cb93a386Sopenharmony_ci SkVector mapVector(SkScalar dx, SkScalar dy) const { 1539cb93a386Sopenharmony_ci SkVector vec = { dx, dy }; 1540cb93a386Sopenharmony_ci this->mapVectors(&vec, &vec, 1); 1541cb93a386Sopenharmony_ci return vec; 1542cb93a386Sopenharmony_ci } 1543cb93a386Sopenharmony_ci 1544cb93a386Sopenharmony_ci /** Sets dst to bounds of src corners mapped by SkMatrix. 1545cb93a386Sopenharmony_ci Returns true if mapped corners are dst corners. 1546cb93a386Sopenharmony_ci 1547cb93a386Sopenharmony_ci Returned value is the same as calling rectStaysRect(). 1548cb93a386Sopenharmony_ci 1549cb93a386Sopenharmony_ci @param dst storage for bounds of mapped SkPoint 1550cb93a386Sopenharmony_ci @param src SkRect to map 1551cb93a386Sopenharmony_ci @param pc whether to apply perspective clipping 1552cb93a386Sopenharmony_ci @return true if dst is equivalent to mapped src 1553cb93a386Sopenharmony_ci 1554cb93a386Sopenharmony_ci example: https://fiddle.skia.org/c/@Matrix_mapRect 1555cb93a386Sopenharmony_ci */ 1556cb93a386Sopenharmony_ci bool mapRect(SkRect* dst, const SkRect& src, 1557cb93a386Sopenharmony_ci SkApplyPerspectiveClip pc = SkApplyPerspectiveClip::kYes) const; 1558cb93a386Sopenharmony_ci 1559cb93a386Sopenharmony_ci /** Sets rect to bounds of rect corners mapped by SkMatrix. 1560cb93a386Sopenharmony_ci Returns true if mapped corners are computed rect corners. 1561cb93a386Sopenharmony_ci 1562cb93a386Sopenharmony_ci Returned value is the same as calling rectStaysRect(). 1563cb93a386Sopenharmony_ci 1564cb93a386Sopenharmony_ci @param rect rectangle to map, and storage for bounds of mapped corners 1565cb93a386Sopenharmony_ci @param pc whether to apply perspective clipping 1566cb93a386Sopenharmony_ci @return true if result is equivalent to mapped rect 1567cb93a386Sopenharmony_ci */ 1568cb93a386Sopenharmony_ci bool mapRect(SkRect* rect, SkApplyPerspectiveClip pc = SkApplyPerspectiveClip::kYes) const { 1569cb93a386Sopenharmony_ci return this->mapRect(rect, *rect, pc); 1570cb93a386Sopenharmony_ci } 1571cb93a386Sopenharmony_ci 1572cb93a386Sopenharmony_ci /** Returns bounds of src corners mapped by SkMatrix. 1573cb93a386Sopenharmony_ci 1574cb93a386Sopenharmony_ci @param src rectangle to map 1575cb93a386Sopenharmony_ci @return mapped bounds 1576cb93a386Sopenharmony_ci */ 1577cb93a386Sopenharmony_ci SkRect mapRect(const SkRect& src, 1578cb93a386Sopenharmony_ci SkApplyPerspectiveClip pc = SkApplyPerspectiveClip::kYes) const { 1579cb93a386Sopenharmony_ci SkRect dst; 1580cb93a386Sopenharmony_ci (void)this->mapRect(&dst, src, pc); 1581cb93a386Sopenharmony_ci return dst; 1582cb93a386Sopenharmony_ci } 1583cb93a386Sopenharmony_ci 1584cb93a386Sopenharmony_ci /** Maps four corners of rect to dst. SkPoint are mapped by multiplying each 1585cb93a386Sopenharmony_ci rect corner by SkMatrix. rect corner is processed in this order: 1586cb93a386Sopenharmony_ci (rect.fLeft, rect.fTop), (rect.fRight, rect.fTop), (rect.fRight, rect.fBottom), 1587cb93a386Sopenharmony_ci (rect.fLeft, rect.fBottom). 1588cb93a386Sopenharmony_ci 1589cb93a386Sopenharmony_ci rect may be empty: rect.fLeft may be greater than or equal to rect.fRight; 1590cb93a386Sopenharmony_ci rect.fTop may be greater than or equal to rect.fBottom. 1591cb93a386Sopenharmony_ci 1592cb93a386Sopenharmony_ci Given: 1593cb93a386Sopenharmony_ci 1594cb93a386Sopenharmony_ci | A B C | | x | 1595cb93a386Sopenharmony_ci Matrix = | D E F |, pt = | y | 1596cb93a386Sopenharmony_ci | G H I | | 1 | 1597cb93a386Sopenharmony_ci 1598cb93a386Sopenharmony_ci where pt is initialized from each of (rect.fLeft, rect.fTop), 1599cb93a386Sopenharmony_ci (rect.fRight, rect.fTop), (rect.fRight, rect.fBottom), (rect.fLeft, rect.fBottom), 1600cb93a386Sopenharmony_ci each dst SkPoint is computed as: 1601cb93a386Sopenharmony_ci 1602cb93a386Sopenharmony_ci |A B C| |x| Ax+By+C Dx+Ey+F 1603cb93a386Sopenharmony_ci Matrix * pt = |D E F| |y| = |Ax+By+C Dx+Ey+F Gx+Hy+I| = ------- , ------- 1604cb93a386Sopenharmony_ci |G H I| |1| Gx+Hy+I Gx+Hy+I 1605cb93a386Sopenharmony_ci 1606cb93a386Sopenharmony_ci @param dst storage for mapped corner SkPoint 1607cb93a386Sopenharmony_ci @param rect SkRect to map 1608cb93a386Sopenharmony_ci 1609cb93a386Sopenharmony_ci Note: this does not perform perspective clipping (as that might result in more than 1610cb93a386Sopenharmony_ci 4 points, so results are suspect if the matrix contains perspective. 1611cb93a386Sopenharmony_ci */ 1612cb93a386Sopenharmony_ci void mapRectToQuad(SkPoint dst[4], const SkRect& rect) const { 1613cb93a386Sopenharmony_ci // This could potentially be faster if we only transformed each x and y of the rect once. 1614cb93a386Sopenharmony_ci rect.toQuad(dst); 1615cb93a386Sopenharmony_ci this->mapPoints(dst, 4); 1616cb93a386Sopenharmony_ci } 1617cb93a386Sopenharmony_ci 1618cb93a386Sopenharmony_ci /** Sets dst to bounds of src corners mapped by SkMatrix. If matrix contains 1619cb93a386Sopenharmony_ci elements other than scale or translate: asserts if SK_DEBUG is defined; 1620cb93a386Sopenharmony_ci otherwise, results are undefined. 1621cb93a386Sopenharmony_ci 1622cb93a386Sopenharmony_ci @param dst storage for bounds of mapped SkPoint 1623cb93a386Sopenharmony_ci @param src SkRect to map 1624cb93a386Sopenharmony_ci 1625cb93a386Sopenharmony_ci example: https://fiddle.skia.org/c/@Matrix_mapRectScaleTranslate 1626cb93a386Sopenharmony_ci */ 1627cb93a386Sopenharmony_ci void mapRectScaleTranslate(SkRect* dst, const SkRect& src) const; 1628cb93a386Sopenharmony_ci 1629cb93a386Sopenharmony_ci /** Returns geometric mean radius of ellipse formed by constructing circle of 1630cb93a386Sopenharmony_ci size radius, and mapping constructed circle with SkMatrix. The result squared is 1631cb93a386Sopenharmony_ci equal to the major axis length times the minor axis length. 1632cb93a386Sopenharmony_ci Result is not meaningful if SkMatrix contains perspective elements. 1633cb93a386Sopenharmony_ci 1634cb93a386Sopenharmony_ci @param radius circle size to map 1635cb93a386Sopenharmony_ci @return average mapped radius 1636cb93a386Sopenharmony_ci 1637cb93a386Sopenharmony_ci example: https://fiddle.skia.org/c/@Matrix_mapRadius 1638cb93a386Sopenharmony_ci */ 1639cb93a386Sopenharmony_ci SkScalar mapRadius(SkScalar radius) const; 1640cb93a386Sopenharmony_ci 1641cb93a386Sopenharmony_ci /** Compares a and b; returns true if a and b are numerically equal. Returns true 1642cb93a386Sopenharmony_ci even if sign of zero values are different. Returns false if either SkMatrix 1643cb93a386Sopenharmony_ci contains NaN, even if the other SkMatrix also contains NaN. 1644cb93a386Sopenharmony_ci 1645cb93a386Sopenharmony_ci @param a SkMatrix to compare 1646cb93a386Sopenharmony_ci @param b SkMatrix to compare 1647cb93a386Sopenharmony_ci @return true if SkMatrix a and SkMatrix b are numerically equal 1648cb93a386Sopenharmony_ci */ 1649cb93a386Sopenharmony_ci friend SK_API bool operator==(const SkMatrix& a, const SkMatrix& b); 1650cb93a386Sopenharmony_ci 1651cb93a386Sopenharmony_ci /** Compares a and b; returns true if a and b are not numerically equal. Returns false 1652cb93a386Sopenharmony_ci even if sign of zero values are different. Returns true if either SkMatrix 1653cb93a386Sopenharmony_ci contains NaN, even if the other SkMatrix also contains NaN. 1654cb93a386Sopenharmony_ci 1655cb93a386Sopenharmony_ci @param a SkMatrix to compare 1656cb93a386Sopenharmony_ci @param b SkMatrix to compare 1657cb93a386Sopenharmony_ci @return true if SkMatrix a and SkMatrix b are numerically not equal 1658cb93a386Sopenharmony_ci */ 1659cb93a386Sopenharmony_ci friend SK_API bool operator!=(const SkMatrix& a, const SkMatrix& b) { 1660cb93a386Sopenharmony_ci return !(a == b); 1661cb93a386Sopenharmony_ci } 1662cb93a386Sopenharmony_ci 1663cb93a386Sopenharmony_ci /** Writes text representation of SkMatrix to standard output. Floating point values 1664cb93a386Sopenharmony_ci are written with limited precision; it may not be possible to reconstruct 1665cb93a386Sopenharmony_ci original SkMatrix from output. 1666cb93a386Sopenharmony_ci 1667cb93a386Sopenharmony_ci example: https://fiddle.skia.org/c/@Matrix_dump 1668cb93a386Sopenharmony_ci */ 1669cb93a386Sopenharmony_ci void dump() const; 1670cb93a386Sopenharmony_ci 1671cb93a386Sopenharmony_ci /** Writes text representation of SkMatrix to string. 1672cb93a386Sopenharmony_ci 1673cb93a386Sopenharmony_ci @param desc the string storing a description of parameters. 1674cb93a386Sopenharmony_ci @param depth the number of tabs preceding each line. 1675cb93a386Sopenharmony_ci */ 1676cb93a386Sopenharmony_ci void dump(std::string& desc, int depth) const; 1677cb93a386Sopenharmony_ci 1678cb93a386Sopenharmony_ci /** Returns the minimum scaling factor of SkMatrix by decomposing the scaling and 1679cb93a386Sopenharmony_ci skewing elements. 1680cb93a386Sopenharmony_ci Returns -1 if scale factor overflows or SkMatrix contains perspective. 1681cb93a386Sopenharmony_ci 1682cb93a386Sopenharmony_ci @return minimum scale factor 1683cb93a386Sopenharmony_ci 1684cb93a386Sopenharmony_ci example: https://fiddle.skia.org/c/@Matrix_getMinScale 1685cb93a386Sopenharmony_ci */ 1686cb93a386Sopenharmony_ci SkScalar getMinScale() const; 1687cb93a386Sopenharmony_ci 1688cb93a386Sopenharmony_ci /** Returns the maximum scaling factor of SkMatrix by decomposing the scaling and 1689cb93a386Sopenharmony_ci skewing elements. 1690cb93a386Sopenharmony_ci Returns -1 if scale factor overflows or SkMatrix contains perspective. 1691cb93a386Sopenharmony_ci 1692cb93a386Sopenharmony_ci @return maximum scale factor 1693cb93a386Sopenharmony_ci 1694cb93a386Sopenharmony_ci example: https://fiddle.skia.org/c/@Matrix_getMaxScale 1695cb93a386Sopenharmony_ci */ 1696cb93a386Sopenharmony_ci SkScalar getMaxScale() const; 1697cb93a386Sopenharmony_ci 1698cb93a386Sopenharmony_ci /** Sets scaleFactors[0] to the minimum scaling factor, and scaleFactors[1] to the 1699cb93a386Sopenharmony_ci maximum scaling factor. Scaling factors are computed by decomposing 1700cb93a386Sopenharmony_ci the SkMatrix scaling and skewing elements. 1701cb93a386Sopenharmony_ci 1702cb93a386Sopenharmony_ci Returns true if scaleFactors are found; otherwise, returns false and sets 1703cb93a386Sopenharmony_ci scaleFactors to undefined values. 1704cb93a386Sopenharmony_ci 1705cb93a386Sopenharmony_ci @param scaleFactors storage for minimum and maximum scale factors 1706cb93a386Sopenharmony_ci @return true if scale factors were computed correctly 1707cb93a386Sopenharmony_ci */ 1708cb93a386Sopenharmony_ci bool SK_WARN_UNUSED_RESULT getMinMaxScales(SkScalar scaleFactors[2]) const; 1709cb93a386Sopenharmony_ci 1710cb93a386Sopenharmony_ci /** Decomposes SkMatrix into scale components and whatever remains. Returns false if 1711cb93a386Sopenharmony_ci SkMatrix could not be decomposed. 1712cb93a386Sopenharmony_ci 1713cb93a386Sopenharmony_ci Sets scale to portion of SkMatrix that scale axes. Sets remaining to SkMatrix 1714cb93a386Sopenharmony_ci with scaling factored out. remaining may be passed as nullptr 1715cb93a386Sopenharmony_ci to determine if SkMatrix can be decomposed without computing remainder. 1716cb93a386Sopenharmony_ci 1717cb93a386Sopenharmony_ci Returns true if scale components are found. scale and remaining are 1718cb93a386Sopenharmony_ci unchanged if SkMatrix contains perspective; scale factors are not finite, or 1719cb93a386Sopenharmony_ci are nearly zero. 1720cb93a386Sopenharmony_ci 1721cb93a386Sopenharmony_ci On success: Matrix = Remaining * scale. 1722cb93a386Sopenharmony_ci 1723cb93a386Sopenharmony_ci @param scale axes scaling factors; may be nullptr 1724cb93a386Sopenharmony_ci @param remaining SkMatrix without scaling; may be nullptr 1725cb93a386Sopenharmony_ci @return true if scale can be computed 1726cb93a386Sopenharmony_ci 1727cb93a386Sopenharmony_ci example: https://fiddle.skia.org/c/@Matrix_decomposeScale 1728cb93a386Sopenharmony_ci */ 1729cb93a386Sopenharmony_ci bool decomposeScale(SkSize* scale, SkMatrix* remaining = nullptr) const; 1730cb93a386Sopenharmony_ci 1731cb93a386Sopenharmony_ci /** Returns reference to const identity SkMatrix. Returned SkMatrix is set to: 1732cb93a386Sopenharmony_ci 1733cb93a386Sopenharmony_ci | 1 0 0 | 1734cb93a386Sopenharmony_ci | 0 1 0 | 1735cb93a386Sopenharmony_ci | 0 0 1 | 1736cb93a386Sopenharmony_ci 1737cb93a386Sopenharmony_ci @return const identity SkMatrix 1738cb93a386Sopenharmony_ci 1739cb93a386Sopenharmony_ci example: https://fiddle.skia.org/c/@Matrix_I 1740cb93a386Sopenharmony_ci */ 1741cb93a386Sopenharmony_ci static const SkMatrix& I(); 1742cb93a386Sopenharmony_ci 1743cb93a386Sopenharmony_ci /** Returns reference to a const SkMatrix with invalid values. Returned SkMatrix is set 1744cb93a386Sopenharmony_ci to: 1745cb93a386Sopenharmony_ci 1746cb93a386Sopenharmony_ci | SK_ScalarMax SK_ScalarMax SK_ScalarMax | 1747cb93a386Sopenharmony_ci | SK_ScalarMax SK_ScalarMax SK_ScalarMax | 1748cb93a386Sopenharmony_ci | SK_ScalarMax SK_ScalarMax SK_ScalarMax | 1749cb93a386Sopenharmony_ci 1750cb93a386Sopenharmony_ci @return const invalid SkMatrix 1751cb93a386Sopenharmony_ci 1752cb93a386Sopenharmony_ci example: https://fiddle.skia.org/c/@Matrix_InvalidMatrix 1753cb93a386Sopenharmony_ci */ 1754cb93a386Sopenharmony_ci static const SkMatrix& InvalidMatrix(); 1755cb93a386Sopenharmony_ci 1756cb93a386Sopenharmony_ci /** Returns SkMatrix a multiplied by SkMatrix b. 1757cb93a386Sopenharmony_ci 1758cb93a386Sopenharmony_ci Given: 1759cb93a386Sopenharmony_ci 1760cb93a386Sopenharmony_ci | A B C | | J K L | 1761cb93a386Sopenharmony_ci a = | D E F |, b = | M N O | 1762cb93a386Sopenharmony_ci | G H I | | P Q R | 1763cb93a386Sopenharmony_ci 1764cb93a386Sopenharmony_ci sets SkMatrix to: 1765cb93a386Sopenharmony_ci 1766cb93a386Sopenharmony_ci | A B C | | J K L | | AJ+BM+CP AK+BN+CQ AL+BO+CR | 1767cb93a386Sopenharmony_ci a * b = | D E F | * | M N O | = | DJ+EM+FP DK+EN+FQ DL+EO+FR | 1768cb93a386Sopenharmony_ci | G H I | | P Q R | | GJ+HM+IP GK+HN+IQ GL+HO+IR | 1769cb93a386Sopenharmony_ci 1770cb93a386Sopenharmony_ci @param a SkMatrix on left side of multiply expression 1771cb93a386Sopenharmony_ci @param b SkMatrix on right side of multiply expression 1772cb93a386Sopenharmony_ci @return SkMatrix computed from a times b 1773cb93a386Sopenharmony_ci */ 1774cb93a386Sopenharmony_ci static SkMatrix Concat(const SkMatrix& a, const SkMatrix& b) { 1775cb93a386Sopenharmony_ci SkMatrix result; 1776cb93a386Sopenharmony_ci result.setConcat(a, b); 1777cb93a386Sopenharmony_ci return result; 1778cb93a386Sopenharmony_ci } 1779cb93a386Sopenharmony_ci 1780cb93a386Sopenharmony_ci friend SkMatrix operator*(const SkMatrix& a, const SkMatrix& b) { 1781cb93a386Sopenharmony_ci return Concat(a, b); 1782cb93a386Sopenharmony_ci } 1783cb93a386Sopenharmony_ci 1784cb93a386Sopenharmony_ci /** Sets internal cache to unknown state. Use to force update after repeated 1785cb93a386Sopenharmony_ci modifications to SkMatrix element reference returned by operator[](int index). 1786cb93a386Sopenharmony_ci */ 1787cb93a386Sopenharmony_ci void dirtyMatrixTypeCache() { 1788cb93a386Sopenharmony_ci this->setTypeMask(kUnknown_Mask); 1789cb93a386Sopenharmony_ci } 1790cb93a386Sopenharmony_ci 1791cb93a386Sopenharmony_ci /** Initializes SkMatrix with scale and translate elements. 1792cb93a386Sopenharmony_ci 1793cb93a386Sopenharmony_ci | sx 0 tx | 1794cb93a386Sopenharmony_ci | 0 sy ty | 1795cb93a386Sopenharmony_ci | 0 0 1 | 1796cb93a386Sopenharmony_ci 1797cb93a386Sopenharmony_ci @param sx horizontal scale factor to store 1798cb93a386Sopenharmony_ci @param sy vertical scale factor to store 1799cb93a386Sopenharmony_ci @param tx horizontal translation to store 1800cb93a386Sopenharmony_ci @param ty vertical translation to store 1801cb93a386Sopenharmony_ci */ 1802cb93a386Sopenharmony_ci void setScaleTranslate(SkScalar sx, SkScalar sy, SkScalar tx, SkScalar ty) { 1803cb93a386Sopenharmony_ci fMat[kMScaleX] = sx; 1804cb93a386Sopenharmony_ci fMat[kMSkewX] = 0; 1805cb93a386Sopenharmony_ci fMat[kMTransX] = tx; 1806cb93a386Sopenharmony_ci 1807cb93a386Sopenharmony_ci fMat[kMSkewY] = 0; 1808cb93a386Sopenharmony_ci fMat[kMScaleY] = sy; 1809cb93a386Sopenharmony_ci fMat[kMTransY] = ty; 1810cb93a386Sopenharmony_ci 1811cb93a386Sopenharmony_ci fMat[kMPersp0] = 0; 1812cb93a386Sopenharmony_ci fMat[kMPersp1] = 0; 1813cb93a386Sopenharmony_ci fMat[kMPersp2] = 1; 1814cb93a386Sopenharmony_ci 1815cb93a386Sopenharmony_ci int mask = 0; 1816cb93a386Sopenharmony_ci if (sx != 1 || sy != 1) { 1817cb93a386Sopenharmony_ci mask |= kScale_Mask; 1818cb93a386Sopenharmony_ci } 1819cb93a386Sopenharmony_ci if (tx != 0.0f || ty != 0.0f) { 1820cb93a386Sopenharmony_ci mask |= kTranslate_Mask; 1821cb93a386Sopenharmony_ci } 1822cb93a386Sopenharmony_ci this->setTypeMask(mask | kRectStaysRect_Mask); 1823cb93a386Sopenharmony_ci } 1824cb93a386Sopenharmony_ci 1825cb93a386Sopenharmony_ci /** Returns true if all elements of the matrix are finite. Returns false if any 1826cb93a386Sopenharmony_ci element is infinity, or NaN. 1827cb93a386Sopenharmony_ci 1828cb93a386Sopenharmony_ci @return true if matrix has only finite elements 1829cb93a386Sopenharmony_ci */ 1830cb93a386Sopenharmony_ci bool isFinite() const { return SkScalarsAreFinite(fMat, 9); } 1831cb93a386Sopenharmony_ci 1832cb93a386Sopenharmony_ciprivate: 1833cb93a386Sopenharmony_ci /** Set if the matrix will map a rectangle to another rectangle. This 1834cb93a386Sopenharmony_ci can be true if the matrix is scale-only, or rotates a multiple of 1835cb93a386Sopenharmony_ci 90 degrees. 1836cb93a386Sopenharmony_ci 1837cb93a386Sopenharmony_ci This bit will be set on identity matrices 1838cb93a386Sopenharmony_ci */ 1839cb93a386Sopenharmony_ci static constexpr int kRectStaysRect_Mask = 0x10; 1840cb93a386Sopenharmony_ci 1841cb93a386Sopenharmony_ci /** Set if the perspective bit is valid even though the rest of 1842cb93a386Sopenharmony_ci the matrix is Unknown. 1843cb93a386Sopenharmony_ci */ 1844cb93a386Sopenharmony_ci static constexpr int kOnlyPerspectiveValid_Mask = 0x40; 1845cb93a386Sopenharmony_ci 1846cb93a386Sopenharmony_ci static constexpr int kUnknown_Mask = 0x80; 1847cb93a386Sopenharmony_ci 1848cb93a386Sopenharmony_ci static constexpr int kORableMasks = kTranslate_Mask | 1849cb93a386Sopenharmony_ci kScale_Mask | 1850cb93a386Sopenharmony_ci kAffine_Mask | 1851cb93a386Sopenharmony_ci kPerspective_Mask; 1852cb93a386Sopenharmony_ci 1853cb93a386Sopenharmony_ci static constexpr int kAllMasks = kTranslate_Mask | 1854cb93a386Sopenharmony_ci kScale_Mask | 1855cb93a386Sopenharmony_ci kAffine_Mask | 1856cb93a386Sopenharmony_ci kPerspective_Mask | 1857cb93a386Sopenharmony_ci kRectStaysRect_Mask; 1858cb93a386Sopenharmony_ci 1859cb93a386Sopenharmony_ci SkScalar fMat[9]; 1860cb93a386Sopenharmony_ci mutable int32_t fTypeMask; 1861cb93a386Sopenharmony_ci 1862cb93a386Sopenharmony_ci constexpr SkMatrix(SkScalar sx, SkScalar kx, SkScalar tx, 1863cb93a386Sopenharmony_ci SkScalar ky, SkScalar sy, SkScalar ty, 1864cb93a386Sopenharmony_ci SkScalar p0, SkScalar p1, SkScalar p2, int typeMask) 1865cb93a386Sopenharmony_ci : fMat{sx, kx, tx, 1866cb93a386Sopenharmony_ci ky, sy, ty, 1867cb93a386Sopenharmony_ci p0, p1, p2} 1868cb93a386Sopenharmony_ci , fTypeMask(typeMask) {} 1869cb93a386Sopenharmony_ci 1870cb93a386Sopenharmony_ci static void ComputeInv(SkScalar dst[9], const SkScalar src[9], double invDet, bool isPersp); 1871cb93a386Sopenharmony_ci 1872cb93a386Sopenharmony_ci uint8_t computeTypeMask() const; 1873cb93a386Sopenharmony_ci uint8_t computePerspectiveTypeMask() const; 1874cb93a386Sopenharmony_ci 1875cb93a386Sopenharmony_ci void setTypeMask(int mask) { 1876cb93a386Sopenharmony_ci // allow kUnknown or a valid mask 1877cb93a386Sopenharmony_ci SkASSERT(kUnknown_Mask == mask || (mask & kAllMasks) == mask || 1878cb93a386Sopenharmony_ci ((kUnknown_Mask | kOnlyPerspectiveValid_Mask) & mask) 1879cb93a386Sopenharmony_ci == (kUnknown_Mask | kOnlyPerspectiveValid_Mask)); 1880cb93a386Sopenharmony_ci fTypeMask = mask; 1881cb93a386Sopenharmony_ci } 1882cb93a386Sopenharmony_ci 1883cb93a386Sopenharmony_ci void orTypeMask(int mask) { 1884cb93a386Sopenharmony_ci SkASSERT((mask & kORableMasks) == mask); 1885cb93a386Sopenharmony_ci fTypeMask |= mask; 1886cb93a386Sopenharmony_ci } 1887cb93a386Sopenharmony_ci 1888cb93a386Sopenharmony_ci void clearTypeMask(int mask) { 1889cb93a386Sopenharmony_ci // only allow a valid mask 1890cb93a386Sopenharmony_ci SkASSERT((mask & kAllMasks) == mask); 1891cb93a386Sopenharmony_ci fTypeMask &= ~mask; 1892cb93a386Sopenharmony_ci } 1893cb93a386Sopenharmony_ci 1894cb93a386Sopenharmony_ci TypeMask getPerspectiveTypeMaskOnly() const { 1895cb93a386Sopenharmony_ci if ((fTypeMask & kUnknown_Mask) && 1896cb93a386Sopenharmony_ci !(fTypeMask & kOnlyPerspectiveValid_Mask)) { 1897cb93a386Sopenharmony_ci fTypeMask = this->computePerspectiveTypeMask(); 1898cb93a386Sopenharmony_ci } 1899cb93a386Sopenharmony_ci return (TypeMask)(fTypeMask & 0xF); 1900cb93a386Sopenharmony_ci } 1901cb93a386Sopenharmony_ci 1902cb93a386Sopenharmony_ci /** Returns true if we already know that the matrix is identity; 1903cb93a386Sopenharmony_ci false otherwise. 1904cb93a386Sopenharmony_ci */ 1905cb93a386Sopenharmony_ci bool isTriviallyIdentity() const { 1906cb93a386Sopenharmony_ci if (fTypeMask & kUnknown_Mask) { 1907cb93a386Sopenharmony_ci return false; 1908cb93a386Sopenharmony_ci } 1909cb93a386Sopenharmony_ci return ((fTypeMask & 0xF) == 0); 1910cb93a386Sopenharmony_ci } 1911cb93a386Sopenharmony_ci 1912cb93a386Sopenharmony_ci inline void updateTranslateMask() { 1913cb93a386Sopenharmony_ci if ((fMat[kMTransX] != 0) | (fMat[kMTransY] != 0)) { 1914cb93a386Sopenharmony_ci fTypeMask |= kTranslate_Mask; 1915cb93a386Sopenharmony_ci } else { 1916cb93a386Sopenharmony_ci fTypeMask &= ~kTranslate_Mask; 1917cb93a386Sopenharmony_ci } 1918cb93a386Sopenharmony_ci } 1919cb93a386Sopenharmony_ci 1920cb93a386Sopenharmony_ci typedef void (*MapXYProc)(const SkMatrix& mat, SkScalar x, SkScalar y, 1921cb93a386Sopenharmony_ci SkPoint* result); 1922cb93a386Sopenharmony_ci 1923cb93a386Sopenharmony_ci static MapXYProc GetMapXYProc(TypeMask mask) { 1924cb93a386Sopenharmony_ci SkASSERT((mask & ~kAllMasks) == 0); 1925cb93a386Sopenharmony_ci return gMapXYProcs[mask & kAllMasks]; 1926cb93a386Sopenharmony_ci } 1927cb93a386Sopenharmony_ci 1928cb93a386Sopenharmony_ci MapXYProc getMapXYProc() const { 1929cb93a386Sopenharmony_ci return GetMapXYProc(this->getType()); 1930cb93a386Sopenharmony_ci } 1931cb93a386Sopenharmony_ci 1932cb93a386Sopenharmony_ci typedef void (*MapPtsProc)(const SkMatrix& mat, SkPoint dst[], 1933cb93a386Sopenharmony_ci const SkPoint src[], int count); 1934cb93a386Sopenharmony_ci 1935cb93a386Sopenharmony_ci static MapPtsProc GetMapPtsProc(TypeMask mask) { 1936cb93a386Sopenharmony_ci SkASSERT((mask & ~kAllMasks) == 0); 1937cb93a386Sopenharmony_ci return gMapPtsProcs[mask & kAllMasks]; 1938cb93a386Sopenharmony_ci } 1939cb93a386Sopenharmony_ci 1940cb93a386Sopenharmony_ci MapPtsProc getMapPtsProc() const { 1941cb93a386Sopenharmony_ci return GetMapPtsProc(this->getType()); 1942cb93a386Sopenharmony_ci } 1943cb93a386Sopenharmony_ci 1944cb93a386Sopenharmony_ci bool SK_WARN_UNUSED_RESULT invertNonIdentity(SkMatrix* inverse) const; 1945cb93a386Sopenharmony_ci 1946cb93a386Sopenharmony_ci static bool Poly2Proc(const SkPoint[], SkMatrix*); 1947cb93a386Sopenharmony_ci static bool Poly3Proc(const SkPoint[], SkMatrix*); 1948cb93a386Sopenharmony_ci static bool Poly4Proc(const SkPoint[], SkMatrix*); 1949cb93a386Sopenharmony_ci 1950cb93a386Sopenharmony_ci static void Identity_xy(const SkMatrix&, SkScalar, SkScalar, SkPoint*); 1951cb93a386Sopenharmony_ci static void Trans_xy(const SkMatrix&, SkScalar, SkScalar, SkPoint*); 1952cb93a386Sopenharmony_ci static void Scale_xy(const SkMatrix&, SkScalar, SkScalar, SkPoint*); 1953cb93a386Sopenharmony_ci static void ScaleTrans_xy(const SkMatrix&, SkScalar, SkScalar, SkPoint*); 1954cb93a386Sopenharmony_ci static void Rot_xy(const SkMatrix&, SkScalar, SkScalar, SkPoint*); 1955cb93a386Sopenharmony_ci static void RotTrans_xy(const SkMatrix&, SkScalar, SkScalar, SkPoint*); 1956cb93a386Sopenharmony_ci static void Persp_xy(const SkMatrix&, SkScalar, SkScalar, SkPoint*); 1957cb93a386Sopenharmony_ci 1958cb93a386Sopenharmony_ci static const MapXYProc gMapXYProcs[]; 1959cb93a386Sopenharmony_ci 1960cb93a386Sopenharmony_ci static void Identity_pts(const SkMatrix&, SkPoint[], const SkPoint[], int); 1961cb93a386Sopenharmony_ci static void Trans_pts(const SkMatrix&, SkPoint dst[], const SkPoint[], int); 1962cb93a386Sopenharmony_ci static void Scale_pts(const SkMatrix&, SkPoint dst[], const SkPoint[], int); 1963cb93a386Sopenharmony_ci static void ScaleTrans_pts(const SkMatrix&, SkPoint dst[], const SkPoint[], 1964cb93a386Sopenharmony_ci int count); 1965cb93a386Sopenharmony_ci static void Persp_pts(const SkMatrix&, SkPoint dst[], const SkPoint[], int); 1966cb93a386Sopenharmony_ci 1967cb93a386Sopenharmony_ci static void Affine_vpts(const SkMatrix&, SkPoint dst[], const SkPoint[], int); 1968cb93a386Sopenharmony_ci 1969cb93a386Sopenharmony_ci static const MapPtsProc gMapPtsProcs[]; 1970cb93a386Sopenharmony_ci 1971cb93a386Sopenharmony_ci // return the number of bytes written, whether or not buffer is null 1972cb93a386Sopenharmony_ci size_t writeToMemory(void* buffer) const; 1973cb93a386Sopenharmony_ci /** 1974cb93a386Sopenharmony_ci * Reads data from the buffer parameter 1975cb93a386Sopenharmony_ci * 1976cb93a386Sopenharmony_ci * @param buffer Memory to read from 1977cb93a386Sopenharmony_ci * @param length Amount of memory available in the buffer 1978cb93a386Sopenharmony_ci * @return number of bytes read (must be a multiple of 4) or 1979cb93a386Sopenharmony_ci * 0 if there was not enough memory available 1980cb93a386Sopenharmony_ci */ 1981cb93a386Sopenharmony_ci size_t readFromMemory(const void* buffer, size_t length); 1982cb93a386Sopenharmony_ci 1983cb93a386Sopenharmony_ci // legacy method -- still needed? why not just postScale(1/divx, ...)? 1984cb93a386Sopenharmony_ci bool postIDiv(int divx, int divy); 1985cb93a386Sopenharmony_ci void doNormalizePerspective(); 1986cb93a386Sopenharmony_ci 1987cb93a386Sopenharmony_ci friend class SkPerspIter; 1988cb93a386Sopenharmony_ci friend class SkMatrixPriv; 1989cb93a386Sopenharmony_ci friend class SerializationTest; 1990cb93a386Sopenharmony_ci}; 1991cb93a386Sopenharmony_ciSK_END_REQUIRE_DENSE 1992cb93a386Sopenharmony_ci 1993cb93a386Sopenharmony_ci#endif 1994