ported sphere. Drawing code is still in the sphere function, that and
the vertex index generating code can hopefully be abstracted away. But first need to port the other shapes so I have a better idea of the overlap. (sorry Sylvain! Just don't touch the sphere for now) git-svn-id: https://svn.code.sf.net/p/freeglut/code/trunk@1209 7f0cb862-5218-0410-a997-914c9d46530a
This commit is contained in:
parent
9de1264e80
commit
92f52b5f41
@ -60,8 +60,8 @@ static void fghDrawGeometryWire(GLfloat *vertices, GLfloat *normals, GLsizei num
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glDisableClientState(GL_VERTEX_ARRAY);
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glDisableClientState(GL_NORMAL_ARRAY);
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}
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/**
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* Draw the geometric shape with filled triangles
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/* Draw the geometric shape with filled triangles
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*
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* - If the shape is naturally triangulated (numEdgePerFace==3), each
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* vertex+normal pair is used only once, so no vertex indices.
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@ -86,6 +86,8 @@ static void fghDrawGeometrySolid(GLfloat *vertices, GLfloat *normals, GLubyte *v
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glDisableClientState(GL_NORMAL_ARRAY);
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}
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/* Shape decomposition to triangles
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* We'll use glDrawElements to draw all shapes that are not naturally
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* composed of triangles, so generate an index vector here, using the
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@ -632,6 +634,81 @@ static void fghCircleTable(GLfloat **sint, GLfloat **cost, const int n, const GL
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}
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}
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static void fghGenerateSphere(GLfloat radius, GLint slices, GLint stacks, GLfloat **vertices, GLfloat **normals, int* nVert)
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{
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int i,j;
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int idx = 0; /* idx into vertex/normal buffer */
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GLfloat x,y,z;
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/* Pre-computed circle */
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GLfloat *sint1,*cost1;
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GLfloat *sint2,*cost2;
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/* number of unique vertices */
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if (slices==0 || stacks<2)
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{
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/* nothing to generate */
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*nVert = 0;
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return;
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}
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*nVert = slices*(stacks-1)+2;
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/* precompute values on unit circle */
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fghCircleTable(&sint1,&cost1,-slices,FALSE);
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fghCircleTable(&sint2,&cost2, stacks,TRUE);
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/* Allocate vertex and normal buffers, bail out if memory allocation fails */
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*vertices = malloc((*nVert)*3*sizeof(GLfloat));
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*normals = malloc((*nVert)*3*sizeof(GLfloat));
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if (!(vertices) || !(normals))
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{
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free(*vertices);
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free(*normals);
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fgError("Failed to allocate memory in fghGenerateSphere");
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}
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/* top */
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(*vertices)[0] = 0.f;
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(*vertices)[1] = 0.f;
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(*vertices)[2] = radius;
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(*normals )[0] = 0.f;
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(*normals )[1] = 0.f;
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(*normals )[2] = 1.f;
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idx = 3;
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/* each stack */
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for( i=1; i<stacks; i++ )
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{
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for(j=0; j<slices; j++, idx+=3)
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{
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x = cost1[j]*sint2[i];
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y = sint1[j]*sint2[i];
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z = cost2[i];
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(*vertices)[idx ] = x*radius;
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(*vertices)[idx+1] = y*radius;
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(*vertices)[idx+2] = z*radius;
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(*normals )[idx ] = x;
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(*normals )[idx+1] = y;
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(*normals )[idx+2] = z;
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}
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}
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/* bottom */
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(*vertices)[idx ] = 0.f;
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(*vertices)[idx+1] = 0.f;
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(*vertices)[idx+2] = -radius;
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(*normals )[idx ] = 0.f;
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(*normals )[idx+1] = 0.f;
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(*normals )[idx+2] = -1.f;
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/* Done creating vertices, release sin and cos tables */
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free(sint1);
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free(cost1);
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free(sint2);
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free(cost2);
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}
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/* -- INTERNAL DRAWING functions --------------------------------------- */
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#define _DECLARE_INTERNAL_DRAW_DO_DECLARE(name,nameICaps,nameCaps,vertIdxs)\
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@ -739,6 +816,147 @@ static void fghSierpinskiSponge ( int numLevels, double offset[3], GLfloat scale
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free(normals );
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}
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}
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static void fghSphere( double radius, GLint slices, GLint stacks, GLboolean useWireMode )
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{
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int i,j,idx, nVert;
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GLfloat *vertices, *normals;
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/* Generate vertices and normals */
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fghGenerateSphere((GLfloat)radius,slices,stacks,&vertices,&normals,&nVert);
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if (nVert==0)
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/* nothing to draw */
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return;
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if (useWireMode)
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{
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GLuint *sliceIdx, *stackIdx;
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/* First, generate vertex index arrays for drawing with glDrawElements
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* We have a bunch of line_loops to draw for each stack, and a
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* bunch for each slice.
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*/
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sliceIdx = malloc(slices*(stacks+1)*sizeof(GLuint));
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stackIdx = malloc(slices*(stacks-1)*sizeof(GLuint));
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/* generate for each stack */
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for (i=0,idx=0; i<slices; i++)
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{
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GLuint offset = 1+i; /* start at 1 (0 is top vertex), and we advance one slice as we go along */
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sliceIdx[idx++] = 0; /* vertex on top */
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for (j=0; j<stacks-1; j++, idx++)
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{
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sliceIdx[idx] = offset+j*slices;
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}
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sliceIdx[idx++] = nVert-1; /* zero based index, last element in array... */
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}
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/* generate for each stack */
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for (i=0,idx=0; i<stacks-1; i++)
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{
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GLuint offset = 1+i*slices; /* start at 1 (0 is top vertex), and we advance one stack down as we go along */
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for (j=0; j<slices; j++, idx++)
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{
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stackIdx[idx] = offset+j;
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}
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}
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/* draw */
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glEnableClientState(GL_VERTEX_ARRAY);
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glEnableClientState(GL_NORMAL_ARRAY);
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glVertexPointer(3, GL_FLOAT, 0, vertices);
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glNormalPointer(GL_FLOAT, 0, normals);
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/*draw slices*/
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for (i=0; i<slices; i++)
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glDrawElements(GL_LINE_STRIP,stacks+1,GL_UNSIGNED_INT,sliceIdx+i*(stacks+1));
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/*draw stacks*/
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for (i=0; i<stacks-1; i++)
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glDrawElements(GL_LINE_LOOP, slices,GL_UNSIGNED_INT,stackIdx+i*slices);
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glDisableClientState(GL_VERTEX_ARRAY);
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glDisableClientState(GL_NORMAL_ARRAY);
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/* cleanup allocated memory */
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free(sliceIdx);
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free(stackIdx);
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}
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else
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{
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GLuint *topIdx, *bottomIdx, *stripIdx;
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/* First, generate vertex index arrays for drawing with glDrawElements
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* Top and bottom are covered with a triangle fan
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* Each other stack with triangle strip. Only need to generate on
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* of those as we'll have to draw each stack separately, and can
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* just use different offsets in glDrawElements.
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*/
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/* Allocate buffers for indices, bail out if memory allocation fails */
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topIdx = malloc((slices+2)*sizeof(GLuint));
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bottomIdx = malloc((slices+2)*sizeof(GLuint));
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stripIdx = malloc((slices+1)*2*(stacks-2)*sizeof(GLuint));
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if (!(topIdx) || !(bottomIdx) || !(stripIdx))
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{
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free(topIdx);
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free(bottomIdx);
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free(stripIdx);
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fgError("Failed to allocate memory in fghGenerateSphere");
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}
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topIdx[0]=0;
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topIdx[1] = 1; /* repeat first slice's idx for closing off shape */
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for (j=slices, idx=2; j>0; j--, idx++)
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topIdx[idx] = j;
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bottomIdx[0]=nVert-1; /* zero based index, last element in array... */
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for (j=0, idx=1; j<slices; j++, idx++)
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bottomIdx[idx] = nVert-(slices+1)+j;
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bottomIdx[idx] = nVert-(slices+1); /* repeat first slice's idx for closing off shape */
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/* Strip indices are relative to first index belonging to strip, NOT relative to first vertex/normal pair in array */
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for (i=0,idx=0; i<stacks-2; i++, idx+=2)
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{
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GLuint offset = 1+i*slices; /* triangle_strip indices start at 1 (0 is top vertex), and we advance one stack down as we go along */
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for (j=0; j<slices; j++, idx+=2)
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{
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stripIdx[idx ] = offset+j+slices;
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stripIdx[idx+1] = offset+j;
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}
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stripIdx[idx ] = offset+slices; /* repeat first slice's idx for closing off shape */
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stripIdx[idx+1] = offset+0;
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}
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/* draw */
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glEnableClientState(GL_VERTEX_ARRAY);
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glEnableClientState(GL_NORMAL_ARRAY);
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glVertexPointer(3, GL_FLOAT, 0, vertices);
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glNormalPointer(GL_FLOAT, 0, normals);
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/*draw top*/
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glDrawElements(GL_TRIANGLE_FAN,slices+2,GL_UNSIGNED_INT,topIdx);
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/*draw stacks*/
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for (i=0; i<stacks-2; i++)
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glDrawElements(GL_TRIANGLE_STRIP,(slices+1)*2,GL_UNSIGNED_INT,stripIdx+i*(slices+1)*2);
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/*draw bottom*/
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glDrawElements(GL_TRIANGLE_FAN,slices+2,GL_UNSIGNED_INT,bottomIdx);
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glDisableClientState(GL_VERTEX_ARRAY);
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glDisableClientState(GL_NORMAL_ARRAY);
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/* cleanup allocated memory */
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free(topIdx);
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free(bottomIdx);
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free(stripIdx);
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}
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/* cleanup allocated memory */
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free(vertices);
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free(normals);
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}
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#endif /* GL_ES_VERSION_2_0 */
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@ -751,87 +969,9 @@ static void fghSierpinskiSponge ( int numLevels, double offset[3], GLfloat scale
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*/
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void FGAPIENTRY glutSolidSphere(double radius, GLint slices, GLint stacks)
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{
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int i,j;
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/* Adjust z and radius as stacks are drawn. */
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GLfloat radf = (GLfloat)radius;
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GLfloat z0,z1;
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GLfloat r0,r1;
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/* Pre-computed circle */
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GLfloat *sint1,*cost1;
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GLfloat *sint2,*cost2;
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FREEGLUT_EXIT_IF_NOT_INITIALISED ( "glutSolidSphere" );
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fghCircleTable(&sint1,&cost1,-slices,FALSE);
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fghCircleTable(&sint2,&cost2, stacks,TRUE);
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/* The top stack is covered with a triangle fan */
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z0 = 1;
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z1 = cost2[(stacks>0)?1:0];
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r0 = 0;
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r1 = sint2[(stacks>0)?1:0];
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glBegin(GL_TRIANGLE_FAN);
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glNormal3f(0,0,1);
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glVertex3f(0,0,radf);
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for (j=slices; j>=0; j--)
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{
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glNormal3f(cost1[j]*r1, sint1[j]*r1, z1 );
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glVertex3f(cost1[j]*r1*radf, sint1[j]*r1*radf, z1*radf);
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}
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glEnd();
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/* Cover each stack with a quad strip, except the top and bottom stacks */
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for( i=1; i<stacks-1; i++ )
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{
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z0 = z1; z1 = cost2[i+1];
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r0 = r1; r1 = sint2[i+1];
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glBegin(GL_QUAD_STRIP);
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for(j=0; j<=slices; j++)
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{
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glNormal3d(cost1[j]*r1, sint1[j]*r1, z1 );
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glVertex3d(cost1[j]*r1*radf, sint1[j]*r1*radf, z1*radf);
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glNormal3d(cost1[j]*r0, sint1[j]*r0, z0 );
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glVertex3d(cost1[j]*r0*radf, sint1[j]*r0*radf, z0*radf);
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}
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glEnd();
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}
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/* The bottom stack is covered with a triangle fan */
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z0 = z1;
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r0 = r1;
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glBegin(GL_TRIANGLE_FAN);
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glNormal3d(0,0,-1);
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glVertex3d(0,0,-radius);
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for (j=0; j<=slices; j++)
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{
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glNormal3d(cost1[j]*r0, sint1[j]*r0, z0 );
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glVertex3d(cost1[j]*r0*radf, sint1[j]*r0*radf, z0*radf);
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}
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glEnd();
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/* Release sin and cos tables */
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free(sint1);
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free(cost1);
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free(sint2);
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free(cost2);
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fghSphere( radius, slices, stacks, FALSE );
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}
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/*
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@ -839,69 +979,10 @@ void FGAPIENTRY glutSolidSphere(double radius, GLint slices, GLint stacks)
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*/
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void FGAPIENTRY glutWireSphere(double radius, GLint slices, GLint stacks)
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{
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int i,j;
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/* Adjust z and radius as stacks and slices are drawn. */
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GLfloat radf = (GLfloat)radius;
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GLfloat r;
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GLfloat x,y,z;
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/* Pre-computed circle */
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GLfloat *sint1,*cost1;
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GLfloat *sint2,*cost2;
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FREEGLUT_EXIT_IF_NOT_INITIALISED ( "glutWireSphere" );
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fghCircleTable(&sint1,&cost1,-slices,FALSE);
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fghCircleTable(&sint2,&cost2, stacks,TRUE);
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/* Draw a line loop for each stack */
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for (i=1; i<stacks; i++)
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{
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z = cost2[i];
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r = sint2[i];
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glBegin(GL_LINE_LOOP);
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for(j=0; j<=slices; j++)
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{
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x = cost1[j];
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y = sint1[j];
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glNormal3f(x,y,z);
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glVertex3f(x*r*radf,y*r*radf,z*radf);
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}
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glEnd();
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}
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/* Draw a line loop for each slice */
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for (i=0; i<slices; i++)
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{
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glBegin(GL_LINE_STRIP);
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for(j=0; j<=stacks; j++)
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{
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x = cost1[i]*sint2[j];
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y = sint1[i]*sint2[j];
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z = cost2[j];
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glNormal3f(x,y,z);
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glVertex3f(x*radf,y*radf,z*radf);
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}
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glEnd();
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}
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/* Release sin and cos tables */
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free(sint1);
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free(cost1);
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free(sint2);
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free(cost2);
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fghSphere( radius, slices, stacks, TRUE );
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}
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/*
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Reference in New Issue
Block a user