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The JUCE cross-platform C++ framework, with DISTRHO/KXStudio specific changes
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JUCE/modules/juce_box2d/box2d/Common/b2Math.cpp

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  1. /*

  2. * Copyright (c) 2007-2009 Erin Catto http://www.box2d.org

  3. *

  4. * This software is provided 'as-is', without any express or implied

  5. * warranty.  In no event will the authors be held liable for any damages

  6. * arising from the use of this software.

  7. * Permission is granted to anyone to use this software for any purpose,

  8. * including commercial applications, and to alter it and redistribute it

  9. * freely, subject to the following restrictions:

  10. * 1. The origin of this software must not be misrepresented; you must not

  11. * claim that you wrote the original software. If you use this software

  12. * in a product, an acknowledgment in the product documentation would be

  13. * appreciated but is not required.

  14. * 2. Altered source versions must be plainly marked as such, and must not be

  15. * misrepresented as being the original software.

  16. * 3. This notice may not be removed or altered from any source distribution.

  17. */

  18. 

  19. #include "b2Math.h"

  20. 

  21. const b2Vec2 b2Vec2_zero(0.0f, 0.0f);

  22. 

  23. /// Solve A * x = b, where b is a column vector. This is more efficient

  24. /// than computing the inverse in one-shot cases.

  25. b2Vec3 b2Mat33::Solve33(const b2Vec3& b) const

  26. {

  27. 	float32 det = b2Dot(ex, b2Cross(ey, ez));

  28. 	if (det != 0.0f)

  29. 	{

  30. 		det = 1.0f / det;

  31. 	}

  32. 	b2Vec3 x;

  33. 	x.x = det * b2Dot(b, b2Cross(ey, ez));

  34. 	x.y = det * b2Dot(ex, b2Cross(b, ez));

  35. 	x.z = det * b2Dot(ex, b2Cross(ey, b));

  36. 	return x;

  37. }

  38. 

  39. /// Solve A * x = b, where b is a column vector. This is more efficient

  40. /// than computing the inverse in one-shot cases.

  41. b2Vec2 b2Mat33::Solve22(const b2Vec2& b) const

  42. {

  43. 	float32 a11 = ex.x, a12 = ey.x, a21 = ex.y, a22 = ey.y;

  44. 	float32 det = a11 * a22 - a12 * a21;

  45. 	if (det != 0.0f)

  46. 	{

  47. 		det = 1.0f / det;

  48. 	}

  49. 	b2Vec2 x;

  50. 	x.x = det * (a22 * b.x - a12 * b.y);

  51. 	x.y = det * (a11 * b.y - a21 * b.x);

  52. 	return x;

  53. }

  54. 

  55. ///

  56. void b2Mat33::GetInverse22(b2Mat33* M) const

  57. {

  58. 	float32 a = ex.x, b = ey.x, c = ex.y, d = ey.y;

  59. 	float32 det = a * d - b * c;

  60. 	if (det != 0.0f)

  61. 	{

  62. 		det = 1.0f / det;

  63. 	}

  64. 

  65. 	M->ex.x =  det * d;	M->ey.x = -det * b; M->ex.z = 0.0f;

  66. 	M->ex.y = -det * c;	M->ey.y =  det * a; M->ey.z = 0.0f;

  67. 	M->ez.x = 0.0f; M->ez.y = 0.0f; M->ez.z = 0.0f;

  68. }

  69. 

  70. /// Returns the zero matrix if singular.

  71. void b2Mat33::GetSymInverse33(b2Mat33* M) const

  72. {

  73. 	float32 det = b2Dot(ex, b2Cross(ey, ez));

  74. 	if (det != 0.0f)

  75. 	{

  76. 		det = 1.0f / det;

  77. 	}

  78. 

  79. 	float32 a11 = ex.x, a12 = ey.x, a13 = ez.x;

  80. 	float32 a22 = ey.y, a23 = ez.y;

  81. 	float32 a33 = ez.z;

  82. 

  83. 	M->ex.x = det * (a22 * a33 - a23 * a23);

  84. 	M->ex.y = det * (a13 * a23 - a12 * a33);

  85. 	M->ex.z = det * (a12 * a23 - a13 * a22);

  86. 

  87. 	M->ey.x = M->ex.y;

  88. 	M->ey.y = det * (a11 * a33 - a13 * a13);

  89. 	M->ey.z = det * (a13 * a12 - a11 * a23);

  90. 

  91. 	M->ez.x = M->ex.z;

  92. 	M->ez.y = M->ey.z;

  93. 	M->ez.z = det * (a11 * a22 - a12 * a12);

  94. }