415caceb11
Change-Id: I7dedf2c8724256cf6889d8a608b425cb9188c030 Reviewed-on: https://skia-review.googlesource.com/c/skia/+/272597 Reviewed-by: Florin Malita <fmalita@chromium.org> Commit-Queue: Mike Reed <reed@google.com>
394 lines
12 KiB
C++
394 lines
12 KiB
C++
/*
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* Copyright 2020 Google Inc.
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*
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* Use of this source code is governed by a BSD-style license that can be
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* found in the LICENSE file.
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*/
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#ifndef SkM44_DEFINED
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#define SkM44_DEFINED
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#include "include/core/SkMatrix.h"
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#include "include/core/SkScalar.h"
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struct SkV2 {
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float x, y;
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bool operator==(const SkV2 v) const { return x == v.x && y == v.y; }
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bool operator!=(const SkV2 v) const { return !(*this == v); }
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static SkScalar Dot(SkV2 a, SkV2 b) { return a.x * b.x + a.y * b.y; }
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static SkScalar Cross(SkV2 a, SkV2 b) { return a.x * b.y - a.y * b.x; }
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static SkV2 Normalize(SkV2 v) { return v * (1.0f / v.length()); }
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SkV2 operator-() const { return {-x, -y}; }
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SkV2 operator+(SkV2 v) const { return {x+v.x, y+v.y}; }
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SkV2 operator-(SkV2 v) const { return {x-v.x, y-v.y}; }
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SkV2 operator*(SkV2 v) const { return {x*v.x, y*v.y}; }
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friend SkV2 operator*(SkV2 v, SkScalar s) { return {v.x*s, v.y*s}; }
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friend SkV2 operator*(SkScalar s, SkV2 v) { return {v.x*s, v.y*s}; }
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void operator+=(SkV2 v) { *this = *this + v; }
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void operator-=(SkV2 v) { *this = *this - v; }
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void operator*=(SkV2 v) { *this = *this * v; }
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void operator*=(SkScalar s) { *this = *this * s; }
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SkScalar lengthSquared() const { return Dot(*this, *this); }
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SkScalar length() const { return SkScalarSqrt(this->lengthSquared()); }
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SkScalar dot(SkV2 v) const { return Dot(*this, v); }
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SkScalar cross(SkV2 v) const { return Cross(*this, v); }
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SkV2 normalize() const { return Normalize(*this); }
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const float* ptr() const { return &x; }
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float* ptr() { return &x; }
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};
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struct SkV3 {
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float x, y, z;
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bool operator==(const SkV3& v) const {
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return x == v.x && y == v.y && z == v.z;
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}
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bool operator!=(const SkV3& v) const { return !(*this == v); }
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static SkScalar Dot(const SkV3& a, const SkV3& b) { return a.x*b.x + a.y*b.y + a.z*b.z; }
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static SkV3 Cross(const SkV3& a, const SkV3& b) {
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return { a.y*b.z - a.z*b.y, a.z*b.x - a.x*b.z, a.x*b.y - a.y*b.x };
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}
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static SkV3 Normalize(const SkV3& v) { return v * (1.0f / v.length()); }
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SkV3 operator-() const { return {-x, -y, -z}; }
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SkV3 operator+(const SkV3& v) const { return { x + v.x, y + v.y, z + v.z }; }
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SkV3 operator-(const SkV3& v) const { return { x - v.x, y - v.y, z - v.z }; }
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SkV3 operator*(const SkV3& v) const {
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return { x*v.x, y*v.y, z*v.z };
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}
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friend SkV3 operator*(const SkV3& v, SkScalar s) {
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return { v.x*s, v.y*s, v.z*s };
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}
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friend SkV3 operator*(SkScalar s, const SkV3& v) { return v*s; }
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SkScalar lengthSquared() const { return Dot(*this, *this); }
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SkScalar length() const { return SkScalarSqrt(Dot(*this, *this)); }
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SkScalar dot(const SkV3& v) const { return Dot(*this, v); }
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SkV3 cross(const SkV3& v) const { return Cross(*this, v); }
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SkV3 normalize() const { return Normalize(*this); }
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const float* ptr() const { return &x; }
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float* ptr() { return &x; }
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};
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struct SkV4 {
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float x, y, z, w;
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bool operator==(const SkV4& v) const {
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return x == v.x && y == v.y && z == v.z && w == v.w;
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}
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bool operator!=(const SkV4& v) const { return !(*this == v); }
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SkV4 operator-() const { return {-x, -y, -z, -w}; }
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SkV4 operator+(const SkV4& v) const { return { x + v.x, y + v.y, z + v.z, w + v.w }; }
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SkV4 operator-(const SkV4& v) const { return { x - v.x, y - v.y, z - v.z, w - v.w }; }
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SkV4 operator*(const SkV4& v) const {
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return { x*v.x, y*v.y, z*v.z, w*v.w };
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}
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friend SkV4 operator*(const SkV4& v, SkScalar s) {
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return { v.x*s, v.y*s, v.z*s, v.w*s };
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}
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friend SkV4 operator*(SkScalar s, const SkV4& v) { return v*s; }
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const float* ptr() const { return &x; }
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float* ptr() { return &x; }
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};
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/**
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* 4x4 matrix used by SkCanvas and other parts of Skia.
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*
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* Skia assumes a right-handed coordinate system:
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* +X goes to the right
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* +Y goes down
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* +Z goes into the screen (away from the viewer)
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*/
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class SkM44 {
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public:
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SkM44(const SkM44& src) = default;
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SkM44& operator=(const SkM44& src) = default;
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constexpr SkM44()
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: fMat{1, 0, 0, 0,
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0, 1, 0, 0,
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0, 0, 1, 0,
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0, 0, 0, 1}
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{}
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SkM44(const SkM44& a, const SkM44& b) {
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this->setConcat(a, b);
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}
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enum Uninitialized_Constructor {
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kUninitialized_Constructor
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};
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SkM44(Uninitialized_Constructor) {}
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enum NaN_Constructor {
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kNaN_Constructor
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};
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SkM44(NaN_Constructor)
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: fMat{SK_ScalarNaN, SK_ScalarNaN, SK_ScalarNaN, SK_ScalarNaN,
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SK_ScalarNaN, SK_ScalarNaN, SK_ScalarNaN, SK_ScalarNaN,
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SK_ScalarNaN, SK_ScalarNaN, SK_ScalarNaN, SK_ScalarNaN,
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SK_ScalarNaN, SK_ScalarNaN, SK_ScalarNaN, SK_ScalarNaN}
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{}
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/**
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* Parameters are treated as row-major.
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*/
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SkM44(SkScalar m0, SkScalar m4, SkScalar m8, SkScalar m12,
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SkScalar m1, SkScalar m5, SkScalar m9, SkScalar m13,
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SkScalar m2, SkScalar m6, SkScalar m10, SkScalar m14,
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SkScalar m3, SkScalar m7, SkScalar m11, SkScalar m15)
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{
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this->set44(m0, m4, m8, m12,
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m1, m5, m9, m13,
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m2, m6, m10, m14,
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m3, m7, m11, m15);
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}
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static SkM44 Rows(const SkV4& r0, const SkV4& r1, const SkV4& r2, const SkV4& r3) {
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SkM44 m(kUninitialized_Constructor);
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m.setRow(0, r0);
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m.setRow(1, r1);
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m.setRow(2, r2);
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m.setRow(3, r3);
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return m;
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}
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static SkM44 Cols(const SkV4& c0, const SkV4& c1, const SkV4& c2, const SkV4& c3) {
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SkM44 m(kUninitialized_Constructor);
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m.setCol(0, c0);
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m.setCol(1, c1);
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m.setCol(2, c2);
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m.setCol(3, c3);
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return m;
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}
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static SkM44 Translate(SkScalar x, SkScalar y, SkScalar z = 0) {
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return SkM44(1, 0, 0, x,
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0, 1, 0, y,
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0, 0, 1, z,
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0, 0, 0, 1);
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}
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static SkM44 Scale(SkScalar x, SkScalar y, SkScalar z = 1) {
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return SkM44(x, 0, 0, 0,
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0, y, 0, 0,
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0, 0, z, 0,
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0, 0, 0, 1);
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}
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static SkM44 Rotate(SkV3 axis, SkScalar radians) {
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SkM44 m(kUninitialized_Constructor);
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m.setRotate(axis, radians);
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return m;
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}
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bool operator==(const SkM44& other) const;
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bool operator!=(const SkM44& other) const {
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return !(other == *this);
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}
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void getColMajor(SkScalar v[]) const {
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memcpy(v, fMat, sizeof(fMat));
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}
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void getRowMajor(SkScalar v[]) const;
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SkM44& setColMajor(const SkScalar v[]) {
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memcpy(fMat, v, sizeof(fMat));
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return *this;
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}
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SkM44& setRowMajor(const SkScalar v[]);
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/* Parameters in same order as constructor.
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*/
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SkM44& set44(SkScalar m0, SkScalar m4, SkScalar m8, SkScalar m12,
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SkScalar m1, SkScalar m5, SkScalar m9, SkScalar m13,
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SkScalar m2, SkScalar m6, SkScalar m10, SkScalar m14,
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SkScalar m3, SkScalar m7, SkScalar m11, SkScalar m15) {
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fMat[0] = m0; fMat[4] = m4; fMat[8] = m8; fMat[12] = m12;
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fMat[1] = m1; fMat[5] = m5; fMat[9] = m9; fMat[13] = m13;
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fMat[2] = m2; fMat[6] = m6; fMat[10] = m10; fMat[14] = m14;
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fMat[3] = m3; fMat[7] = m7; fMat[11] = m11; fMat[15] = m15;
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return *this;
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}
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SkScalar rc(int r, int c) const {
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SkASSERT(r >= 0 && r <= 3);
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SkASSERT(c >= 0 && c <= 3);
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return fMat[c*4 + r];
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}
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void setRC(int r, int c, SkScalar value) {
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SkASSERT(r >= 0 && r <= 3);
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SkASSERT(c >= 0 && c <= 3);
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fMat[c*4 + r] = value;
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}
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SkV4 row(int i) const {
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SkASSERT(i >= 0 && i <= 3);
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return {fMat[i + 0], fMat[i + 4], fMat[i + 8], fMat[i + 12]};
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}
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SkV4 col(int i) const {
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SkASSERT(i >= 0 && i <= 3);
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return {fMat[i*4 + 0], fMat[i*4 + 1], fMat[i*4 + 2], fMat[i*4 + 3]};
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}
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void setRow(int i, const SkV4& v) {
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SkASSERT(i >= 0 && i <= 3);
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fMat[i + 0] = v.x;
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fMat[i + 4] = v.y;
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fMat[i + 8] = v.z;
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fMat[i + 12] = v.w;
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}
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void setCol(int i, const SkV4& v) {
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SkASSERT(i >= 0 && i <= 3);
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memcpy(&fMat[i*4], v.ptr(), sizeof(v));
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}
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SkM44& setIdentity() {
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return this->set44(1, 0, 0, 0,
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0, 1, 0, 0,
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0, 0, 1, 0,
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0, 0, 0, 1);
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}
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SkM44& setTranslate(SkScalar x, SkScalar y, SkScalar z = 0) {
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return this->set44(1, 0, 0, x,
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0, 1, 0, y,
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0, 0, 1, z,
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0, 0, 0, 1);
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}
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SkM44& setScale(SkScalar x, SkScalar y, SkScalar z = 1) {
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return this->set44(x, 0, 0, 0,
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0, y, 0, 0,
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0, 0, z, 0,
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0, 0, 0, 1);
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}
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/**
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* Set this matrix to rotate about the specified unit-length axis vector,
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* by an angle specified by its sin() and cos().
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*
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* This does not attempt to verify that axis.length() == 1 or that the sin,cos values
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* are correct.
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*/
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SkM44& setRotateUnitSinCos(SkV3 axis, SkScalar sinAngle, SkScalar cosAngle);
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/**
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* Set this matrix to rotate about the specified unit-length axis vector,
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* by an angle specified in radians.
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*
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* This does not attempt to verify that axis.length() == 1.
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*/
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SkM44& setRotateUnit(SkV3 axis, SkScalar radians) {
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return this->setRotateUnitSinCos(axis, SkScalarSin(radians), SkScalarCos(radians));
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}
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/**
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* Set this matrix to rotate about the specified axis vector,
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* by an angle specified in radians.
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*
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* Note: axis is not assumed to be unit-length, so it will be normalized internally.
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* If axis is already unit-length, call setRotateAboutUnitRadians() instead.
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*/
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SkM44& setRotate(SkV3 axis, SkScalar radians);
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SkM44& setConcat16(const SkM44& a, const SkScalar colMajor[16]);
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SkM44& setConcat(const SkM44& a, const SkM44& b) {
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return this->setConcat16(a, b.fMat);
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}
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friend SkM44 operator*(const SkM44& a, const SkM44& b) {
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return SkM44(a, b);
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}
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SkM44& preConcat16(const SkScalar colMajor[16]) {
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return this->setConcat16(*this, colMajor);
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}
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/** If this is invertible, return that in inverse and return true. If it is
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* not invertible, return false and leave the inverse parameter unchanged.
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*/
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bool SK_WARN_UNUSED_RESULT invert(SkM44* inverse) const;
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SkM44 transpose() const;
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void dump() const;
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////////////
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SkV4 map(float x, float y, float z, float w) const;
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SkV4 operator*(const SkV4& v) const {
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return this->map(v.x, v.y, v.z, v.w);
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}
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SkV3 operator*(SkV3 v) const {
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auto v4 = this->map(v.x, v.y, v.z, 0);
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return {v4.x, v4.y, v4.z};
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}
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////////////////////// Converting to/from SkMatrix
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/* When converting from SkM44 to SkMatrix, the third row and
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* column is dropped. When converting from SkMatrix to SkM44
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* the third row and column remain as identity:
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* [ a b c ] [ a b 0 c ]
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* [ d e f ] -> [ d e 0 f ]
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* [ g h i ] [ 0 0 1 0 ]
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* [ g h 0 i ]
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*/
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SkMatrix asM33() const {
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return SkMatrix::MakeAll(fMat[0], fMat[4], fMat[12],
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fMat[1], fMat[5], fMat[13],
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fMat[3], fMat[7], fMat[15]);
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}
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SkM44(const SkMatrix& src)
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: SkM44(src[SkMatrix::kMScaleX], src[SkMatrix::kMSkewX], 0, src[SkMatrix::kMTransX],
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src[SkMatrix::kMSkewY], src[SkMatrix::kMScaleY], 0, src[SkMatrix::kMTransY],
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0, 0, 1, 0,
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src[SkMatrix::kMPersp0], src[SkMatrix::kMPersp1], 0, src[SkMatrix::kMPersp2])
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{}
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SkM44& operator=(const SkMatrix& src) {
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*this = SkM44(src);
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return *this;
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}
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SkM44& preTranslate(SkScalar x, SkScalar y);
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SkM44& preScale(SkScalar x, SkScalar y);
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SkM44& preConcat(const SkMatrix&);
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private:
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/* Stored in column-major.
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* Indices
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* 0 4 8 12 1 0 0 trans_x
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* 1 5 9 13 e.g. 0 1 0 trans_y
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* 2 6 10 14 0 0 1 trans_z
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* 3 7 11 15 0 0 0 1
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*/
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SkScalar fMat[16];
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double determinant() const;
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friend class SkMatrixPriv;
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};
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SkM44 Sk3LookAt(const SkV3& eye, const SkV3& center, const SkV3& up);
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SkM44 Sk3Perspective(float near, float far, float angle);
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#endif
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