From: Diederick Niehorster Date: Sun, 18 Mar 2012 10:02:54 +0000 (+0000) Subject: All doubles now GLdoubles (important for GLES later) X-Git-Url: http://git.mutantstargoat.com/user/nuclear/?a=commitdiff_plain;h=ee7bbd68f288bee1bf90734568422cb15cb7723e;p=freeglut All doubles now GLdoubles (important for GLES later) Other general cleanup in prep for porting geometry code involving circles. no longer computing a larger circle table when only need half of it git-svn-id: svn+ssh://svn.code.sf.net/p/freeglut/code/trunk/freeglut/freeglut@1192 7f0cb862-5218-0410-a997-914c9d46530a --- diff --git a/src/fg_geometry.c b/src/fg_geometry.c index 2c6f344..c74cac4 100644 --- a/src/fg_geometry.c +++ b/src/fg_geometry.c @@ -566,6 +566,7 @@ static void fghSierpinskiSpongeGenerate ( int numLevels, GLdouble offset[3], GLd /* -- Now the various shapes involving circles -- */ /* * Compute lookup table of cos and sin values forming a circle + * (or half circle if halfCircle==TRUE) * * Notes: * It is the responsibility of the caller to free these tables @@ -573,25 +574,21 @@ static void fghSierpinskiSpongeGenerate ( int numLevels, GLdouble offset[3], GLd * The last entry is exactly the same as the first * The sign of n can be flipped to get the reverse loop */ -static void fghCircleTable(double **sint,double **cost,const int n) +static void fghCircleTable(GLdouble **sint, GLdouble **cost, const int n, const GLboolean halfCircle) { int i; - + /* Table size, the sign of n flips the circle direction */ - const int size = abs(n); /* Determine the angle between samples */ - - const double angle = 2*M_PI/(double)( ( n == 0 ) ? 1 : n ); + const GLdouble angle = (halfCircle?1:2)*M_PI/(GLdouble)( ( n == 0 ) ? 1 : n ); /* Allocate memory for n samples, plus duplicate of first entry at the end */ - - *sint = (double *) calloc(sizeof(double), size+1); - *cost = (double *) calloc(sizeof(double), size+1); + *sint = malloc(sizeof(GLdouble) * (size+1)); + *cost = malloc(sizeof(GLdouble) * (size+1)); /* Bail out if memory allocation fails, fgError never returns */ - if (!(*sint) || !(*cost)) { free(*sint); @@ -600,7 +597,6 @@ static void fghCircleTable(double **sint,double **cost,const int n) } /* Compute cos and sin around the circle */ - (*sint)[0] = 0.0; (*cost)[0] = 1.0; @@ -610,10 +606,18 @@ static void fghCircleTable(double **sint,double **cost,const int n) (*cost)[i] = cos(angle*i); } - /* Last sample is duplicate of the first */ - - (*sint)[size] = (*sint)[0]; - (*cost)[size] = (*cost)[0]; + + if (halfCircle) + { + (*sint)[size] = 0.0; /* sin PI */ + (*cost)[size] = -1.0; /* cos PI */ + } + else + { + /* Last sample is duplicate of the first (sin or cos of 2 PI) */ + (*sint)[size] = (*sint)[0]; + (*cost)[size] = (*cost)[0]; + } } @@ -672,9 +676,9 @@ static void fghCube( GLdouble dSize, GLboolean useWireMode ) vertices = cube_verts; if (useWireMode) - fghDrawGeometryWire (vertices ,cube_norms, CUBE_NUM_FACES,CUBE_NUM_EDGE_PER_FACE); + fghDrawGeometryWire (vertices,cube_norms, CUBE_NUM_FACES,CUBE_NUM_EDGE_PER_FACE); else - fghDrawGeometrySolid(vertices ,cube_norms,cube_vertIdxs,CUBE_VERT_PER_OBJ_TRI, CUBE_NUM_EDGE_PER_FACE); + fghDrawGeometrySolid(vertices,cube_norms,cube_vertIdxs,CUBE_VERT_PER_OBJ_TRI, CUBE_NUM_EDGE_PER_FACE); if (dSize!=1.) /* cleanup allocated memory */ @@ -735,18 +739,18 @@ void FGAPIENTRY glutSolidSphere(GLdouble radius, GLint slices, GLint stacks) /* Adjust z and radius as stacks are drawn. */ - double z0,z1; - double r0,r1; + GLdouble z0,z1; + GLdouble r0,r1; /* Pre-computed circle */ - double *sint1,*cost1; - double *sint2,*cost2; + GLdouble *sint1,*cost1; + GLdouble *sint2,*cost2; FREEGLUT_EXIT_IF_NOT_INITIALISED ( "glutSolidSphere" ); - fghCircleTable(&sint1,&cost1,-slices); - fghCircleTable(&sint2,&cost2,stacks*2); + fghCircleTable(&sint1,&cost1,-slices,FALSE); + fghCircleTable(&sint2,&cost2, stacks,TRUE); /* The top stack is covered with a triangle fan */ @@ -823,18 +827,18 @@ void FGAPIENTRY glutWireSphere(GLdouble radius, GLint slices, GLint stacks) /* Adjust z and radius as stacks and slices are drawn. */ - double r; - double x,y,z; + GLdouble r; + GLdouble x,y,z; /* Pre-computed circle */ - double *sint1,*cost1; - double *sint2,*cost2; + GLdouble *sint1,*cost1; + GLdouble *sint2,*cost2; FREEGLUT_EXIT_IF_NOT_INITIALISED ( "glutWireSphere" ); - fghCircleTable(&sint1,&cost1,-slices ); - fghCircleTable(&sint2,&cost2, stacks*2); + fghCircleTable(&sint1,&cost1,-slices,FALSE); + fghCircleTable(&sint2,&cost2, stacks,TRUE); /* Draw a line loop for each stack */ @@ -868,6 +872,7 @@ void FGAPIENTRY glutWireSphere(GLdouble radius, GLint slices, GLint stacks) x = cost1[i]*sint2[j]; y = sint1[i]*sint2[j]; z = cost2[j]; + printf("j(%i):%1.3f\n",j,z); glNormal3d(x,y,z); glVertex3d(x*radius,y*radius,z*radius); @@ -893,24 +898,24 @@ void FGAPIENTRY glutSolidCone( GLdouble base, GLdouble height, GLint slices, GLi /* Step in z and radius as stacks are drawn. */ - double z0,z1; - double r0,r1; + GLdouble z0,z1; + GLdouble r0,r1; - const double zStep = height / ( ( stacks > 0 ) ? stacks : 1 ); - const double rStep = base / ( ( stacks > 0 ) ? stacks : 1 ); + const GLdouble zStep = height / ( ( stacks > 0 ) ? stacks : 1 ); + const GLdouble rStep = base / ( ( stacks > 0 ) ? stacks : 1 ); /* Scaling factors for vertex normals */ - const double cosn = ( height / sqrt ( height * height + base * base )); - const double sinn = ( base / sqrt ( height * height + base * base )); + const GLdouble cosn = ( height / sqrt ( height * height + base * base )); + const GLdouble sinn = ( base / sqrt ( height * height + base * base )); /* Pre-computed circle */ - double *sint,*cost; + GLdouble *sint,*cost; FREEGLUT_EXIT_IF_NOT_INITIALISED ( "glutSolidCone" ); - fghCircleTable(&sint,&cost,-slices); + fghCircleTable(&sint,&cost,-slices,FALSE); /* Cover the circular base with a triangle fan... */ @@ -980,24 +985,24 @@ void FGAPIENTRY glutWireCone( GLdouble base, GLdouble height, GLint slices, GLin /* Step in z and radius as stacks are drawn. */ - double z = 0.0; - double r = base; + GLdouble z = 0.0; + GLdouble r = base; - const double zStep = height / ( ( stacks > 0 ) ? stacks : 1 ); - const double rStep = base / ( ( stacks > 0 ) ? stacks : 1 ); + const GLdouble zStep = height / ( ( stacks > 0 ) ? stacks : 1 ); + const GLdouble rStep = base / ( ( stacks > 0 ) ? stacks : 1 ); /* Scaling factors for vertex normals */ - const double cosn = ( height / sqrt ( height * height + base * base )); - const double sinn = ( base / sqrt ( height * height + base * base )); + const GLdouble cosn = ( height / sqrt ( height * height + base * base )); + const GLdouble sinn = ( base / sqrt ( height * height + base * base )); /* Pre-computed circle */ - double *sint,*cost; + GLdouble *sint,*cost; FREEGLUT_EXIT_IF_NOT_INITIALISED ( "glutWireCone" ); - fghCircleTable(&sint,&cost,-slices); + fghCircleTable(&sint,&cost,-slices,FALSE); /* Draw the stacks... */ @@ -1048,16 +1053,16 @@ void FGAPIENTRY glutSolidCylinder(GLdouble radius, GLdouble height, GLint slices /* Step in z and radius as stacks are drawn. */ - double z0,z1; - const double zStep = height / ( ( stacks > 0 ) ? stacks : 1 ); + GLdouble z0,z1; + const GLdouble zStep = height / ( ( stacks > 0 ) ? stacks : 1 ); /* Pre-computed circle */ - double *sint,*cost; + GLdouble *sint,*cost; FREEGLUT_EXIT_IF_NOT_INITIALISED ( "glutSolidCylinder" ); - fghCircleTable(&sint,&cost,-slices); + fghCircleTable(&sint,&cost,-slices,FALSE); /* Cover the base and top */ @@ -1112,16 +1117,16 @@ void FGAPIENTRY glutWireCylinder(GLdouble radius, GLdouble height, GLint slices, /* Step in z and radius as stacks are drawn. */ - double z = 0.0; - const double zStep = height / ( ( stacks > 0 ) ? stacks : 1 ); + GLdouble z = 0.0; + const GLdouble zStep = height / ( ( stacks > 0 ) ? stacks : 1 ); /* Pre-computed circle */ - double *sint,*cost; + GLdouble *sint,*cost; FREEGLUT_EXIT_IF_NOT_INITIALISED ( "glutWireCylinder" ); - fghCircleTable(&sint,&cost,-slices); + fghCircleTable(&sint,&cost,-slices,FALSE); /* Draw the stacks... */ @@ -1167,10 +1172,10 @@ void FGAPIENTRY glutWireCylinder(GLdouble radius, GLdouble height, GLint slices, */ void FGAPIENTRY glutWireTorus( GLdouble dInnerRadius, GLdouble dOuterRadius, GLint nSides, GLint nRings ) { - double iradius = dInnerRadius, oradius = dOuterRadius, phi, psi, dpsi, dphi; - double *vertex, *normal; + GLdouble iradius = dInnerRadius, oradius = dOuterRadius, phi, psi, dpsi, dphi; + GLdouble *vertex, *normal; int i, j; - double spsi, cpsi, sphi, cphi ; + GLdouble spsi, cpsi, sphi, cphi ; FREEGLUT_EXIT_IF_NOT_INITIALISED ( "glutWireTorus" ); @@ -1178,13 +1183,13 @@ void FGAPIENTRY glutWireTorus( GLdouble dInnerRadius, GLdouble dOuterRadius, GLi if ( nRings < 1 ) nRings = 1; /* Allocate the vertices array */ - vertex = (double *)calloc( sizeof(double), 3 * nSides * nRings ); - normal = (double *)calloc( sizeof(double), 3 * nSides * nRings ); + vertex = (GLdouble *)calloc( sizeof(GLdouble), 3 * nSides * nRings ); + normal = (GLdouble *)calloc( sizeof(GLdouble), 3 * nSides * nRings ); glPushMatrix(); - dpsi = 2.0 * M_PI / (double)nRings ; - dphi = -2.0 * M_PI / (double)nSides ; + dpsi = 2.0 * M_PI / (GLdouble)nRings ; + dphi = -2.0 * M_PI / (GLdouble)nSides ; psi = 0.0; for( j=0; j