/* -*- Mode: C++; tab-width: 20; indent-tabs-mode: nil; c-basic-offset: 4 -*- * ***** BEGIN LICENSE BLOCK ***** * Version: MPL 1.1/GPL 2.0/LGPL 2.1 * * The contents of this file are subject to the Mozilla Public License Version * 1.1 (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * http://www.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License * for the specific language governing rights and limitations under the * License. * * The Original Code is Mozilla Corporation code. * * The Initial Developer of the Original Code is Oracle Corporation. * Portions created by the Initial Developer are Copyright (C) 2005 * the Initial Developer. All Rights Reserved. * * Contributor(s): * Bas Schouten #include #include /** * This class represents a 3D transformation. The matrix is laid * out as follows: * * _11 _12 _13 _14 * _21 _22 _23 _24 * _31 _32 _33 _34 * _41 _42 _43 _44 * * This matrix is treated as row-major. Assuming we consider our vectors row * vectors, this matrix type will be identical in memory to the OpenGL and D3D * matrices. OpenGL matrices are column-major, however OpenGL also treats * vectors as column vectors, the double transposition makes everything work * out nicely. */ class THEBES_API gfx3DMatrix { public: /** * Create matrix. */ inline gfx3DMatrix(void); /** * Matrix multiplication. */ inline gfx3DMatrix operator*(const gfx3DMatrix &aMatrix); /** * Create a 3D matrix from a gfxMatrix 2D affine transformation. * * \param aMatrix gfxMatrix 2D affine transformation. */ static inline gfx3DMatrix From2D(const gfxMatrix &aMatrix); /** * Returns true if the matrix is isomorphic to a 2D affine transformation * (i.e. as obtained by From2D). If it is, optionally returns the 2D * matrix in aMatrix. */ PRBool Is2D(gfxMatrix* aMatrix = nsnull) const; /** * Returns true if the matrix is the identity matrix. The most important * property we require is that gfx3DMatrix().IsIdentity() returns true. */ inline PRBool IsIdentity() const; /** * Create a translation matrix. * * \param aX Translation on X-axis. * \param aY Translation on Y-axis. * \param aZ Translation on Z-axis. */ static inline gfx3DMatrix Translation(float aX, float aY, float aZ); /** * Create a scale matrix. Scales uniformly along all axes. * * \param aScale Scale factor */ static inline gfx3DMatrix Scale(float aFactor); /** * Create a scale matrix. */ static inline gfx3DMatrix Scale(float aX, float aY, float aZ); /** Matrix elements */ float _11, _12, _13, _14; float _21, _22, _23, _24; float _31, _32, _33, _34; float _41, _42, _43, _44; }; inline gfx3DMatrix::gfx3DMatrix(void) { _11 = _22 = _33 = _44 = 1.0f; _12 = _13 = _14 = 0.0f; _21 = _23 = _24 = 0.0f; _31 = _32 = _34 = 0.0f; _41 = _42 = _43 = 0.0f; } inline gfx3DMatrix gfx3DMatrix::operator*(const gfx3DMatrix &aMatrix) { gfx3DMatrix matrix; matrix._11 = _11 * aMatrix._11 + _12 * aMatrix._21 + _13 * aMatrix._31 + _14 * aMatrix._41; matrix._21 = _21 * aMatrix._11 + _22 * aMatrix._21 + _23 * aMatrix._31 + _24 * aMatrix._41; matrix._31 = _31 * aMatrix._11 + _32 * aMatrix._21 + _33 * aMatrix._31 + _34 * aMatrix._41; matrix._41 = _41 * aMatrix._11 + _42 * aMatrix._21 + _43 * aMatrix._31 + _44 * aMatrix._41; matrix._12 = _11 * aMatrix._12 + _12 * aMatrix._22 + _13 * aMatrix._32 + _14 * aMatrix._42; matrix._22 = _21 * aMatrix._12 + _22 * aMatrix._22 + _23 * aMatrix._32 + _24 * aMatrix._42; matrix._32 = _31 * aMatrix._12 + _32 * aMatrix._22 + _33 * aMatrix._32 + _34 * aMatrix._42; matrix._42 = _41 * aMatrix._12 + _42 * aMatrix._22 + _43 * aMatrix._32 + _44 * aMatrix._42; matrix._13 = _11 * aMatrix._13 + _12 * aMatrix._23 + _13 * aMatrix._33 + _14 * aMatrix._43; matrix._23 = _21 * aMatrix._13 + _22 * aMatrix._23 + _23 * aMatrix._33 + _24 * aMatrix._43; matrix._33 = _31 * aMatrix._13 + _32 * aMatrix._23 + _33 * aMatrix._33 + _34 * aMatrix._43; matrix._43 = _41 * aMatrix._13 + _42 * aMatrix._23 + _43 * aMatrix._33 + _44 * aMatrix._43; matrix._14 = _11 * aMatrix._14 + _12 * aMatrix._24 + _13 * aMatrix._34 + _14 * aMatrix._44; matrix._24 = _21 * aMatrix._14 + _22 * aMatrix._24 + _23 * aMatrix._34 + _24 * aMatrix._44; matrix._34 = _31 * aMatrix._14 + _32 * aMatrix._24 + _33 * aMatrix._34 + _34 * aMatrix._44; matrix._44 = _41 * aMatrix._14 + _42 * aMatrix._24 + _43 * aMatrix._34 + _44 * aMatrix._44; return matrix; } inline gfx3DMatrix gfx3DMatrix::From2D(const gfxMatrix &aMatrix) { gfx3DMatrix matrix; matrix._11 = (float)aMatrix.xx; matrix._12 = (float)aMatrix.yx; matrix._21 = (float)aMatrix.xy; matrix._22 = (float)aMatrix.yy; matrix._41 = (float)aMatrix.x0; matrix._42 = (float)aMatrix.y0; return matrix; } inline PRBool gfx3DMatrix::IsIdentity() const { return _11 == 1.0f && _12 == 0.0f && _13 == 0.0f && _14 == 0.0f && _21 == 0.0f && _22 == 1.0f && _23 == 0.0f && _24 == 0.0f && _31 == 0.0f && _32 == 0.0f && _33 == 1.0f && _34 == 0.0f && _41 == 0.0f && _42 == 0.0f && _43 == 0.0f && _44 == 1.0f; } inline gfx3DMatrix gfx3DMatrix::Translation(float aX, float aY, float aZ) { gfx3DMatrix matrix; matrix._41 = aX; matrix._42 = aY; matrix._43 = aZ; return matrix; } inline gfx3DMatrix gfx3DMatrix::Scale(float aFactor) { gfx3DMatrix matrix; matrix._11 = matrix._22 = matrix._33 = aFactor; return matrix; } inline gfx3DMatrix gfx3DMatrix::Scale(float aX, float aY, float aZ) { gfx3DMatrix matrix; matrix._11 = aX; matrix._22 = aY; matrix._33 = aZ; return matrix; } #endif /* GFX_3DMATRIX_H */