tests/glbook/Common/esTransform.c - external/github.com/kripken/emscripten - Git at Google

 //
 // Book:      OpenGL(R) ES 2.0 Programming Guide
 // Authors:   Aaftab Munshi, Dan Ginsburg, Dave Shreiner
 // ISBN-10:   0321502795
 // ISBN-13:   9780321502797
 // Publisher: Addison-Wesley Professional
 // URLs:      http://safari.informit.com/9780321563835
 //            http://www.opengles-book.com
 //

 // ESUtil.c
 //
 //    A utility library for OpenGL ES.  This library provides a
 //    basic common framework for the example applications in the
 //    OpenGL ES 2.0 Programming Guide.
 //

 ///
 //  Includes
 //
 #include "esUtil.h"
 #include <math.h>
 #include <string.h>

 #define PI 3.1415926535897932384626433832795f

 void ESUTIL_API
 esScale(ESMatrix *result, GLfloat sx, GLfloat sy, GLfloat sz)
 {
     result->m[0][0] *= sx;
     result->m[0][1] *= sx;
     result->m[0][2] *= sx;
     result->m[0][3] *= sx;

     result->m[1][0] *= sy;
     result->m[1][1] *= sy;
     result->m[1][2] *= sy;
     result->m[1][3] *= sy;

     result->m[2][0] *= sz;
     result->m[2][1] *= sz;
     result->m[2][2] *= sz;
     result->m[2][3] *= sz;
 }

 void ESUTIL_API
 esTranslate(ESMatrix *result, GLfloat tx, GLfloat ty, GLfloat tz)
 {
     result->m[3][0] += (result->m[0][0] * tx + result->m[1][0] * ty + result->m[2][0] * tz);
     result->m[3][1] += (result->m[0][1] * tx + result->m[1][1] * ty + result->m[2][1] * tz);
     result->m[3][2] += (result->m[0][2] * tx + result->m[1][2] * ty + result->m[2][2] * tz);
     result->m[3][3] += (result->m[0][3] * tx + result->m[1][3] * ty + result->m[2][3] * tz);
 }

 void ESUTIL_API
 esRotate(ESMatrix *result, GLfloat angle, GLfloat x, GLfloat y, GLfloat z)
 {
    GLfloat sinAngle, cosAngle;
    GLfloat mag = sqrtf(x * x + y * y + z * z);

    sinAngle = sinf ( angle * PI / 180.0f );
    cosAngle = cosf ( angle * PI / 180.0f );
    if ( mag > 0.0f )
    {
       GLfloat xx, yy, zz, xy, yz, zx, xs, ys, zs;
       GLfloat oneMinusCos;
       ESMatrix rotMat;

       x /= mag;
       y /= mag;
       z /= mag;

       xx = x * x;
       yy = y * y;
       zz = z * z;
       xy = x * y;
       yz = y * z;
       zx = z * x;
       xs = x * sinAngle;
       ys = y * sinAngle;
       zs = z * sinAngle;
       oneMinusCos = 1.0f - cosAngle;

       rotMat.m[0][0] = (oneMinusCos * xx) + cosAngle;
       rotMat.m[0][1] = (oneMinusCos * xy) - zs;
       rotMat.m[0][2] = (oneMinusCos * zx) + ys;
       rotMat.m[0][3] = 0.0F;

       rotMat.m[1][0] = (oneMinusCos * xy) + zs;
       rotMat.m[1][1] = (oneMinusCos * yy) + cosAngle;
       rotMat.m[1][2] = (oneMinusCos * yz) - xs;
       rotMat.m[1][3] = 0.0F;

       rotMat.m[2][0] = (oneMinusCos * zx) - ys;
       rotMat.m[2][1] = (oneMinusCos * yz) + xs;
       rotMat.m[2][2] = (oneMinusCos * zz) + cosAngle;
       rotMat.m[2][3] = 0.0F;

       rotMat.m[3][0] = 0.0F;
       rotMat.m[3][1] = 0.0F;
       rotMat.m[3][2] = 0.0F;
       rotMat.m[3][3] = 1.0F;

       esMatrixMultiply( result, &rotMat, result );
    }
 }

 void ESUTIL_API
 esFrustum(ESMatrix *result, float left, float right, float bottom, float top, float nearZ, float farZ)
 {
     float       deltaX = right - left;
     float       deltaY = top - bottom;
     float       deltaZ = farZ - nearZ;
     ESMatrix    frust;

     if ( (nearZ <= 0.0f) || (farZ <= 0.0f) ||
          (deltaX <= 0.0f) || (deltaY <= 0.0f) || (deltaZ <= 0.0f) )
          return;

     frust.m[0][0] = 2.0f * nearZ / deltaX;
     frust.m[0][1] = frust.m[0][2] = frust.m[0][3] = 0.0f;

     frust.m[1][1] = 2.0f * nearZ / deltaY;
     frust.m[1][0] = frust.m[1][2] = frust.m[1][3] = 0.0f;

     frust.m[2][0] = (right + left) / deltaX;
     frust.m[2][1] = (top + bottom) / deltaY;
     frust.m[2][2] = -(nearZ + farZ) / deltaZ;
     frust.m[2][3] = -1.0f;

     frust.m[3][2] = -2.0f * nearZ * farZ / deltaZ;
     frust.m[3][0] = frust.m[3][1] = frust.m[3][3] = 0.0f;

     esMatrixMultiply(result, &frust, result);
 }


 void ESUTIL_API
 esPerspective(ESMatrix *result, float fovy, float aspect, float nearZ, float farZ)
 {
    GLfloat frustumW, frustumH;

    frustumH = tanf( fovy / 360.0f * PI ) * nearZ;
    frustumW = frustumH * aspect;

    esFrustum( result, -frustumW, frustumW, -frustumH, frustumH, nearZ, farZ );
 }

 void ESUTIL_API
 esOrtho(ESMatrix *result, float left, float right, float bottom, float top, float nearZ, float farZ)
 {
     float       deltaX = right - left;
     float       deltaY = top - bottom;
     float       deltaZ = farZ - nearZ;
     ESMatrix    ortho;

     if ( (deltaX == 0.0f) || (deltaY == 0.0f) || (deltaZ == 0.0f) )
         return;

     esMatrixLoadIdentity(&ortho);
     ortho.m[0][0] = 2.0f / deltaX;
     ortho.m[3][0] = -(right + left) / deltaX;
     ortho.m[1][1] = 2.0f / deltaY;
     ortho.m[3][1] = -(top + bottom) / deltaY;
     ortho.m[2][2] = -2.0f / deltaZ;
     ortho.m[3][2] = -(nearZ + farZ) / deltaZ;

     esMatrixMultiply(result, &ortho, result);
 }


 void ESUTIL_API
 esMatrixMultiply(ESMatrix *result, ESMatrix *srcA, ESMatrix *srcB)
 {
     ESMatrix    tmp;
     int         i;

 	for (i=0; i<4; i++)
 	{
 		tmp.m[i][0] =	(srcA->m[i][0] * srcB->m[0][0]) +
 						(srcA->m[i][1] * srcB->m[1][0]) +
 						(srcA->m[i][2] * srcB->m[2][0]) +
 						(srcA->m[i][3] * srcB->m[3][0]) ;

 		tmp.m[i][1] =	(srcA->m[i][0] * srcB->m[0][1]) +
 						(srcA->m[i][1] * srcB->m[1][1]) +
 						(srcA->m[i][2] * srcB->m[2][1]) +
 						(srcA->m[i][3] * srcB->m[3][1]) ;

 		tmp.m[i][2] =	(srcA->m[i][0] * srcB->m[0][2]) +
 						(srcA->m[i][1] * srcB->m[1][2]) +
 						(srcA->m[i][2] * srcB->m[2][2]) +
 						(srcA->m[i][3] * srcB->m[3][2]) ;

 		tmp.m[i][3] =	(srcA->m[i][0] * srcB->m[0][3]) +
 						(srcA->m[i][1] * srcB->m[1][3]) +
 						(srcA->m[i][2] * srcB->m[2][3]) +
 						(srcA->m[i][3] * srcB->m[3][3]) ;
 	}
     memcpy(result, &tmp, sizeof(ESMatrix));
 }


 void ESUTIL_API
 esMatrixLoadIdentity(ESMatrix *result)
 {
     memset(result, 0x0, sizeof(ESMatrix));
     result->m[0][0] = 1.0f;
     result->m[1][1] = 1.0f;
     result->m[2][2] = 1.0f;
     result->m[3][3] = 1.0f;
 }
	//
	// Book: OpenGL(R) ES 2.0 Programming Guide
	// Authors: Aaftab Munshi, Dan Ginsburg, Dave Shreiner
	// ISBN-10: 0321502795
	// ISBN-13: 9780321502797
	// Publisher: Addison-Wesley Professional
	// URLs: http://safari.informit.com/9780321563835
	// http://www.opengles-book.com
	//

	// ESUtil.c
	//
	// A utility library for OpenGL ES. This library provides a
	// basic common framework for the example applications in the
	// OpenGL ES 2.0 Programming Guide.
	//

	///
	// Includes
	//
	#include "esUtil.h"
	#include <math.h>
	#include <string.h>

	#define PI 3.1415926535897932384626433832795f

	void ESUTIL_API
	esScale(ESMatrix *result, GLfloat sx, GLfloat sy, GLfloat sz)
	{
	result->m[0][0] *= sx;
	result->m[0][1] *= sx;
	result->m[0][2] *= sx;
	result->m[0][3] *= sx;

	result->m[1][0] *= sy;
	result->m[1][1] *= sy;
	result->m[1][2] *= sy;
	result->m[1][3] *= sy;

	result->m[2][0] *= sz;
	result->m[2][1] *= sz;
	result->m[2][2] *= sz;
	result->m[2][3] *= sz;
	}

	void ESUTIL_API
	esTranslate(ESMatrix *result, GLfloat tx, GLfloat ty, GLfloat tz)
	{
	result->m[3][0] += (result->m[0][0] * tx + result->m[1][0] * ty + result->m[2][0] * tz);
	result->m[3][1] += (result->m[0][1] * tx + result->m[1][1] * ty + result->m[2][1] * tz);
	result->m[3][2] += (result->m[0][2] * tx + result->m[1][2] * ty + result->m[2][2] * tz);
	result->m[3][3] += (result->m[0][3] * tx + result->m[1][3] * ty + result->m[2][3] * tz);
	}

	void ESUTIL_API
	esRotate(ESMatrix *result, GLfloat angle, GLfloat x, GLfloat y, GLfloat z)
	{
	GLfloat sinAngle, cosAngle;
	GLfloat mag = sqrtf(x * x + y * y + z * z);

	sinAngle = sinf ( angle * PI / 180.0f );
	cosAngle = cosf ( angle * PI / 180.0f );
	if ( mag > 0.0f )
	{
	GLfloat xx, yy, zz, xy, yz, zx, xs, ys, zs;
	GLfloat oneMinusCos;
	ESMatrix rotMat;

	x /= mag;
	y /= mag;
	z /= mag;

	xx = x * x;
	yy = y * y;
	zz = z * z;
	xy = x * y;
	yz = y * z;
	zx = z * x;
	xs = x * sinAngle;
	ys = y * sinAngle;
	zs = z * sinAngle;
	oneMinusCos = 1.0f - cosAngle;

	rotMat.m[0][0] = (oneMinusCos * xx) + cosAngle;
	rotMat.m[0][1] = (oneMinusCos * xy) - zs;
	rotMat.m[0][2] = (oneMinusCos * zx) + ys;
	rotMat.m[0][3] = 0.0F;

	rotMat.m[1][0] = (oneMinusCos * xy) + zs;
	rotMat.m[1][1] = (oneMinusCos * yy) + cosAngle;
	rotMat.m[1][2] = (oneMinusCos * yz) - xs;
	rotMat.m[1][3] = 0.0F;

	rotMat.m[2][0] = (oneMinusCos * zx) - ys;
	rotMat.m[2][1] = (oneMinusCos * yz) + xs;
	rotMat.m[2][2] = (oneMinusCos * zz) + cosAngle;
	rotMat.m[2][3] = 0.0F;

	rotMat.m[3][0] = 0.0F;
	rotMat.m[3][1] = 0.0F;
	rotMat.m[3][2] = 0.0F;
	rotMat.m[3][3] = 1.0F;

	esMatrixMultiply( result, &rotMat, result );
	}
	}

	void ESUTIL_API
	esFrustum(ESMatrix *result, float left, float right, float bottom, float top, float nearZ, float farZ)
	{
	float deltaX = right - left;
	float deltaY = top - bottom;
	float deltaZ = farZ - nearZ;
	ESMatrix frust;

	if ( (nearZ <= 0.0f) \|\| (farZ <= 0.0f) \|\|
	(deltaX <= 0.0f) \|\| (deltaY <= 0.0f) \|\| (deltaZ <= 0.0f) )
	return;

	frust.m[0][0] = 2.0f * nearZ / deltaX;
	frust.m[0][1] = frust.m[0][2] = frust.m[0][3] = 0.0f;

	frust.m[1][1] = 2.0f * nearZ / deltaY;
	frust.m[1][0] = frust.m[1][2] = frust.m[1][3] = 0.0f;

	frust.m[2][0] = (right + left) / deltaX;
	frust.m[2][1] = (top + bottom) / deltaY;
	frust.m[2][2] = -(nearZ + farZ) / deltaZ;
	frust.m[2][3] = -1.0f;

	frust.m[3][2] = -2.0f * nearZ * farZ / deltaZ;
	frust.m[3][0] = frust.m[3][1] = frust.m[3][3] = 0.0f;

	esMatrixMultiply(result, &frust, result);
	}


	void ESUTIL_API
	esPerspective(ESMatrix *result, float fovy, float aspect, float nearZ, float farZ)
	{
	GLfloat frustumW, frustumH;

	frustumH = tanf( fovy / 360.0f * PI ) * nearZ;
	frustumW = frustumH * aspect;

	esFrustum( result, -frustumW, frustumW, -frustumH, frustumH, nearZ, farZ );
	}

	void ESUTIL_API
	esOrtho(ESMatrix *result, float left, float right, float bottom, float top, float nearZ, float farZ)
	{
	float deltaX = right - left;
	float deltaY = top - bottom;
	float deltaZ = farZ - nearZ;
	ESMatrix ortho;

	if ( (deltaX == 0.0f) \|\| (deltaY == 0.0f) \|\| (deltaZ == 0.0f) )
	return;

	esMatrixLoadIdentity(&ortho);
	ortho.m[0][0] = 2.0f / deltaX;
	ortho.m[3][0] = -(right + left) / deltaX;
	ortho.m[1][1] = 2.0f / deltaY;
	ortho.m[3][1] = -(top + bottom) / deltaY;
	ortho.m[2][2] = -2.0f / deltaZ;
	ortho.m[3][2] = -(nearZ + farZ) / deltaZ;

	esMatrixMultiply(result, &ortho, result);
	}


	void ESUTIL_API
	esMatrixMultiply(ESMatrix result, ESMatrix srcA, ESMatrix *srcB)
	{
	ESMatrix tmp;
	int i;

	for (i=0; i<4; i++)
	{
	tmp.m[i][0] = (srcA->m[i][0] * srcB->m[0][0]) +
	(srcA->m[i][1] * srcB->m[1][0]) +
	(srcA->m[i][2] * srcB->m[2][0]) +
	(srcA->m[i][3] * srcB->m[3][0]) ;

	tmp.m[i][1] = (srcA->m[i][0] * srcB->m[0][1]) +
	(srcA->m[i][1] * srcB->m[1][1]) +
	(srcA->m[i][2] * srcB->m[2][1]) +
	(srcA->m[i][3] * srcB->m[3][1]) ;

	tmp.m[i][2] = (srcA->m[i][0] * srcB->m[0][2]) +
	(srcA->m[i][1] * srcB->m[1][2]) +
	(srcA->m[i][2] * srcB->m[2][2]) +
	(srcA->m[i][3] * srcB->m[3][2]) ;

	tmp.m[i][3] = (srcA->m[i][0] * srcB->m[0][3]) +
	(srcA->m[i][1] * srcB->m[1][3]) +
	(srcA->m[i][2] * srcB->m[2][3]) +
	(srcA->m[i][3] * srcB->m[3][3]) ;
	}
	memcpy(result, &tmp, sizeof(ESMatrix));
	}


	void ESUTIL_API
	esMatrixLoadIdentity(ESMatrix *result)
	{
	memset(result, 0x0, sizeof(ESMatrix));
	result->m[0][0] = 1.0f;
	result->m[1][1] = 1.0f;
	result->m[2][2] = 1.0f;
	result->m[3][3] = 1.0f;
	}