/* $Id: points.c,v 1.8 2000/05/07 23:18:54 brianp Exp $ */ /* * Mesa 3-D graphics library * Version: 3.3 * * Copyright (C) 1999-2000 Brian Paul All Rights Reserved. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included * in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * BRIAN PAUL BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN * AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #ifdef PC_HEADER #include "all.h" #else #include "glheader.h" #include "context.h" #include "feedback.h" #include "macros.h" #include "mmath.h" #include "pb.h" #include "points.h" #include "span.h" #include "texstate.h" #include "types.h" #include "vb.h" #endif void _mesa_PointSize( GLfloat size ) { GET_CURRENT_CONTEXT(ctx); ASSERT_OUTSIDE_BEGIN_END_AND_FLUSH(ctx, "glPointSize"); if (size <= 0.0) { gl_error( ctx, GL_INVALID_VALUE, "glPointSize" ); return; } if (ctx->Point.UserSize != size) { ctx->Point.UserSize = size; ctx->Point.Size = CLAMP(size, ctx->Const.MinPointSize, ctx->Const.MaxPointSize); ctx->TriangleCaps &= ~DD_POINT_SIZE; if (size != 1.0) ctx->TriangleCaps |= DD_POINT_SIZE; ctx->NewState |= NEW_RASTER_OPS; } } void _mesa_PointParameterfEXT( GLenum pname, GLfloat param) { _mesa_PointParameterfvEXT(pname, ¶m); } void _mesa_PointParameterfvEXT( GLenum pname, const GLfloat *params) { GET_CURRENT_CONTEXT(ctx); ASSERT_OUTSIDE_BEGIN_END_AND_FLUSH(ctx, "glPointParameterfvEXT"); switch (pname) { case GL_DISTANCE_ATTENUATION_EXT: { const GLboolean tmp = ctx->Point.Attenuated; COPY_3V(ctx->Point.Params, params); ctx->Point.Attenuated = (params[0] != 1.0 || params[1] != 0.0 || params[2] != 0.0); if (tmp != ctx->Point.Attenuated) { ctx->Enabled ^= ENABLE_POINT_ATTEN; ctx->TriangleCaps ^= DD_POINT_ATTEN; ctx->NewState |= NEW_RASTER_OPS; } } break; case GL_POINT_SIZE_MIN_EXT: if (*params < 0.0F) { gl_error( ctx, GL_INVALID_VALUE, "glPointParameterfvEXT" ); return; } ctx->Point.MinSize = *params; break; case GL_POINT_SIZE_MAX_EXT: if (*params < 0.0F) { gl_error( ctx, GL_INVALID_VALUE, "glPointParameterfvEXT" ); return; } ctx->Point.MaxSize = *params; break; case GL_POINT_FADE_THRESHOLD_SIZE_EXT: if (*params < 0.0F) { gl_error( ctx, GL_INVALID_VALUE, "glPointParameterfvEXT" ); return; } ctx->Point.Threshold = *params; break; default: gl_error( ctx, GL_INVALID_ENUM, "glPointParameterfvEXT" ); return; } ctx->NewState |= NEW_RASTER_OPS; } /**********************************************************************/ /***** Rasterization *****/ /**********************************************************************/ /* * There are 3 pairs (RGBA, CI) of point rendering functions: * 1. simple: size=1 and no special rasterization functions (fastest) * 2. size1: size=1 and any rasterization functions * 3. general: any size and rasterization functions (slowest) * * All point rendering functions take the same two arguments: first and * last which specify that the points specified by VB[first] through * VB[last] are to be rendered. */ /* * CI points with size == 1.0 */ static void size1_ci_points( GLcontext *ctx, GLuint first, GLuint last ) { struct vertex_buffer *VB = ctx->VB; struct pixel_buffer *PB = ctx->PB; GLfloat *win; GLint *pbx = PB->x, *pby = PB->y; GLdepth *pbz = PB->z; GLuint *pbi = PB->i; GLuint pbcount = PB->count; GLuint i; win = &VB->Win.data[first][0]; for (i = first; i <= last; i++) { if (VB->ClipMask[i] == 0) { pbx[pbcount] = (GLint) win[0]; pby[pbcount] = (GLint) win[1]; pbz[pbcount] = (GLint) (win[2] + ctx->PointZoffset); pbi[pbcount] = VB->IndexPtr->data[i]; pbcount++; } win += 3; } PB->count = pbcount; PB_CHECK_FLUSH(ctx, PB); } /* * RGBA points with size == 1.0 */ static void size1_rgba_points( GLcontext *ctx, GLuint first, GLuint last ) { struct vertex_buffer *VB = ctx->VB; struct pixel_buffer *PB = ctx->PB; GLuint i; for (i = first; i <= last; i++) { if (VB->ClipMask[i] == 0) { GLint x, y, z; GLint red, green, blue, alpha; x = (GLint) VB->Win.data[i][0]; y = (GLint) VB->Win.data[i][1]; z = (GLint) (VB->Win.data[i][2] + ctx->PointZoffset); red = VB->ColorPtr->data[i][0]; green = VB->ColorPtr->data[i][1]; blue = VB->ColorPtr->data[i][2]; alpha = VB->ColorPtr->data[i][3]; PB_WRITE_RGBA_PIXEL( PB, x, y, z, red, green, blue, alpha ); } } PB_CHECK_FLUSH(ctx, PB); } /* * General CI points. */ static void general_ci_points( GLcontext *ctx, GLuint first, GLuint last ) { struct vertex_buffer *VB = ctx->VB; struct pixel_buffer *PB = ctx->PB; const GLint isize = (GLint) (ctx->Point.Size + 0.5F); GLint radius = isize >> 1; GLuint i; for (i = first; i <= last; i++) { if (VB->ClipMask[i] == 0) { GLint x0, x1, y0, y1; GLint ix, iy; GLint x = (GLint) VB->Win.data[i][0]; GLint y = (GLint) VB->Win.data[i][1]; GLint z = (GLint) (VB->Win.data[i][2] + ctx->PointZoffset); if (isize & 1) { /* odd size */ x0 = x - radius; x1 = x + radius; y0 = y - radius; y1 = y + radius; } else { /* even size */ x0 = (GLint) (x + 1.5F) - radius; x1 = x0 + isize - 1; y0 = (GLint) (y + 1.5F) - radius; y1 = y0 + isize - 1; } PB_SET_INDEX( ctx, PB, VB->IndexPtr->data[i] ); for (iy = y0; iy <= y1; iy++) { for (ix = x0; ix <= x1; ix++) { PB_WRITE_PIXEL( PB, ix, iy, z ); } } PB_CHECK_FLUSH(ctx,PB); } } } /* * General RGBA points. */ static void general_rgba_points( GLcontext *ctx, GLuint first, GLuint last ) { struct vertex_buffer *VB = ctx->VB; struct pixel_buffer *PB = ctx->PB; GLint isize = (GLint) (ctx->Point.Size + 0.5F); GLint radius = isize >> 1; GLuint i; for (i = first; i <= last; i++) { if (VB->ClipMask[i] == 0) { GLint x0, x1, y0, y1; GLint ix, iy; GLint x = (GLint) VB->Win.data[i][0]; GLint y = (GLint) VB->Win.data[i][1]; GLint z = (GLint) (VB->Win.data[i][2] + ctx->PointZoffset); if (isize & 1) { /* odd size */ x0 = x - radius; x1 = x + radius; y0 = y - radius; y1 = y + radius; } else { /* even size */ x0 = (GLint) (x + 1.5F) - radius; x1 = x0 + isize - 1; y0 = (GLint) (y + 1.5F) - radius; y1 = y0 + isize - 1; } PB_SET_COLOR( ctx, PB, VB->ColorPtr->data[i][0], VB->ColorPtr->data[i][1], VB->ColorPtr->data[i][2], VB->ColorPtr->data[i][3] ); for (iy = y0; iy <= y1; iy++) { for (ix = x0; ix <= x1; ix++) { PB_WRITE_PIXEL( PB, ix, iy, z ); } } PB_CHECK_FLUSH(ctx,PB); } } } /* * Textured RGBA points. */ static void textured_rgba_points( GLcontext *ctx, GLuint first, GLuint last ) { struct vertex_buffer *VB = ctx->VB; struct pixel_buffer *PB = ctx->PB; GLuint i; for (i = first; i <= last; i++) { if (VB->ClipMask[i] == 0) { GLint x0, x1, y0, y1; GLint ix, iy, radius; GLint red, green, blue, alpha; GLfloat s, t, u; GLint x = (GLint) VB->Win.data[i][0]; GLint y = (GLint) VB->Win.data[i][1]; GLint z = (GLint) (VB->Win.data[i][2] + ctx->PointZoffset); GLint isize = (GLint) (ctx->Point.Size + 0.5F); if (isize < 1) { isize = 1; } radius = isize >> 1; if (isize & 1) { /* odd size */ x0 = x - radius; x1 = x + radius; y0 = y - radius; y1 = y + radius; } else { /* even size */ x0 = (GLint) (x + 1.5F) - radius; x1 = x0 + isize - 1; y0 = (GLint) (y + 1.5F) - radius; y1 = y0 + isize - 1; } red = VB->ColorPtr->data[i][0]; green = VB->ColorPtr->data[i][1]; blue = VB->ColorPtr->data[i][2]; alpha = VB->ColorPtr->data[i][3]; switch (VB->TexCoordPtr[0]->size) { case 4: s = VB->TexCoordPtr[0]->data[i][0]/VB->TexCoordPtr[0]->data[i][3]; t = VB->TexCoordPtr[0]->data[i][1]/VB->TexCoordPtr[0]->data[i][3]; u = VB->TexCoordPtr[0]->data[i][2]/VB->TexCoordPtr[0]->data[i][3]; break; case 3: s = VB->TexCoordPtr[0]->data[i][0]; t = VB->TexCoordPtr[0]->data[i][1]; u = VB->TexCoordPtr[0]->data[i][2]; break; case 2: s = VB->TexCoordPtr[0]->data[i][0]; t = VB->TexCoordPtr[0]->data[i][1]; u = 0.0; break; case 1: s = VB->TexCoordPtr[0]->data[i][0]; t = 0.0; u = 0.0; break; default: /* should never get here */ s = t = u = 0.0; gl_problem(ctx, "unexpected texcoord size in textured_rgba_points()"); } /* don't think this is needed PB_SET_COLOR( red, green, blue, alpha ); */ for (iy = y0; iy <= y1; iy++) { for (ix = x0; ix <= x1; ix++) { PB_WRITE_TEX_PIXEL( PB, ix, iy, z, red, green, blue, alpha, s, t, u ); } } PB_CHECK_FLUSH(ctx, PB); } } } /* * Multitextured RGBA points. */ static void multitextured_rgba_points( GLcontext *ctx, GLuint first, GLuint last ) { struct vertex_buffer *VB = ctx->VB; struct pixel_buffer *PB = ctx->PB; GLuint i; for (i = first; i <= last; i++) { if (VB->ClipMask[i] == 0) { GLint x0, x1, y0, y1; GLint ix, iy; GLint radius; GLint red, green, blue, alpha; GLfloat s, t, u; GLfloat s1, t1, u1; GLint x = (GLint) VB->Win.data[i][0]; GLint y = (GLint) VB->Win.data[i][1]; GLint z = (GLint) (VB->Win.data[i][2] + ctx->PointZoffset); GLint isize = (GLint) (ctx->Point.Size + 0.5F); if (isize < 1) { isize = 1; } radius = isize >> 1; if (isize & 1) { /* odd size */ x0 = x - radius; x1 = x + radius; y0 = y - radius; y1 = y + radius; } else { /* even size */ x0 = (GLint) (x + 1.5F) - radius; x1 = x0 + isize - 1; y0 = (GLint) (y + 1.5F) - radius; y1 = y0 + isize - 1; } red = VB->ColorPtr->data[i][0]; green = VB->ColorPtr->data[i][1]; blue = VB->ColorPtr->data[i][2]; alpha = VB->ColorPtr->data[i][3]; switch (VB->TexCoordPtr[0]->size) { case 4: s = VB->TexCoordPtr[0]->data[i][0]/VB->TexCoordPtr[0]->data[i][3]; t = VB->TexCoordPtr[0]->data[i][1]/VB->TexCoordPtr[0]->data[i][3]; u = VB->TexCoordPtr[0]->data[i][2]/VB->TexCoordPtr[0]->data[i][3]; break; case 3: s = VB->TexCoordPtr[0]->data[i][0]; t = VB->TexCoordPtr[0]->data[i][1]; u = VB->TexCoordPtr[0]->data[i][2]; break; case 2: s = VB->TexCoordPtr[0]->data[i][0]; t = VB->TexCoordPtr[0]->data[i][1]; u = 0.0; break; case 1: s = VB->TexCoordPtr[0]->data[i][0]; t = 0.0; u = 0.0; break; default: /* should never get here */ s = t = u = 0.0; gl_problem(ctx, "unexpected texcoord size in multitextured_rgba_points()"); } switch (VB->TexCoordPtr[1]->size) { case 4: s1 = VB->TexCoordPtr[1]->data[i][0]/VB->TexCoordPtr[1]->data[i][3]; t1 = VB->TexCoordPtr[1]->data[i][1]/VB->TexCoordPtr[1]->data[i][3]; u1 = VB->TexCoordPtr[1]->data[i][2]/VB->TexCoordPtr[1]->data[i][3]; break; case 3: s1 = VB->TexCoordPtr[1]->data[i][0]; t1 = VB->TexCoordPtr[1]->data[i][1]; u1 = VB->TexCoordPtr[1]->data[i][2]; break; case 2: s1 = VB->TexCoordPtr[1]->data[i][0]; t1 = VB->TexCoordPtr[1]->data[i][1]; u1 = 0.0; break; case 1: s1 = VB->TexCoordPtr[1]->data[i][0]; t1 = 0.0; u1 = 0.0; break; default: /* should never get here */ s1 = t1 = u1 = 0.0; gl_problem(ctx, "unexpected texcoord size in multitextured_rgba_points()"); } for (iy=y0;iy<=y1;iy++) { for (ix=x0;ix<=x1;ix++) { PB_WRITE_MULTITEX_PIXEL( PB, ix, iy, z, red, green, blue, alpha, s, t, u, s1, t1, u1 ); } } PB_CHECK_FLUSH(ctx, PB); } } } /* * Antialiased points with or without texture mapping. */ static void antialiased_rgba_points( GLcontext *ctx, GLuint first, GLuint last ) { struct vertex_buffer *VB = ctx->VB; struct pixel_buffer *PB = ctx->PB; const GLfloat radius = ctx->Point.Size * 0.5F; const GLfloat rmin = radius - 0.7071F; /* 0.7071 = sqrt(2)/2 */ const GLfloat rmax = radius + 0.7071F; const GLfloat rmin2 = rmin * rmin; const GLfloat rmax2 = rmax * rmax; const GLfloat cscale = 256.0F / (rmax2 - rmin2); GLuint i; if (ctx->Texture.ReallyEnabled) { for (i = first; i <= last; i++) { if (VB->ClipMask[i] == 0) { GLint x, y; GLint red, green, blue, alpha; GLfloat s, t, u; GLfloat s1, t1, u1; GLint xmin = (GLint) (VB->Win.data[i][0] - radius); GLint xmax = (GLint) (VB->Win.data[i][0] + radius); GLint ymin = (GLint) (VB->Win.data[i][1] - radius); GLint ymax = (GLint) (VB->Win.data[i][1] + radius); GLint z = (GLint) (VB->Win.data[i][2] + ctx->PointZoffset); red = VB->ColorPtr->data[i][0]; green = VB->ColorPtr->data[i][1]; blue = VB->ColorPtr->data[i][2]; switch (VB->TexCoordPtr[0]->size) { case 4: s = (VB->TexCoordPtr[0]->data[i][0]/ VB->TexCoordPtr[0]->data[i][3]); t = (VB->TexCoordPtr[0]->data[i][1]/ VB->TexCoordPtr[0]->data[i][3]); u = (VB->TexCoordPtr[0]->data[i][2]/ VB->TexCoordPtr[0]->data[i][3]); break; case 3: s = VB->TexCoordPtr[0]->data[i][0]; t = VB->TexCoordPtr[0]->data[i][1]; u = VB->TexCoordPtr[0]->data[i][2]; break; case 2: s = VB->TexCoordPtr[0]->data[i][0]; t = VB->TexCoordPtr[0]->data[i][1]; u = 0.0; break; case 1: s = VB->TexCoordPtr[0]->data[i][0]; t = 0.0; u = 0.0; break; default: /* should never get here */ s = t = u = 0.0; gl_problem(ctx, "unexpected texcoord size in antialiased_rgba_points()"); } if (ctx->Texture.ReallyEnabled >= TEXTURE1_1D) { /* Multitextured! This is probably a slow enough path that there's no reason to specialize the multitexture case. */ switch (VB->TexCoordPtr[1]->size) { case 4: s1 = ( VB->TexCoordPtr[1]->data[i][0] / VB->TexCoordPtr[1]->data[i][3]); t1 = ( VB->TexCoordPtr[1]->data[i][1] / VB->TexCoordPtr[1]->data[i][3]); u1 = ( VB->TexCoordPtr[1]->data[i][2] / VB->TexCoordPtr[1]->data[i][3]); break; case 3: s1 = VB->TexCoordPtr[1]->data[i][0]; t1 = VB->TexCoordPtr[1]->data[i][1]; u1 = VB->TexCoordPtr[1]->data[i][2]; break; case 2: s1 = VB->TexCoordPtr[1]->data[i][0]; t1 = VB->TexCoordPtr[1]->data[i][1]; u1 = 0.0; break; case 1: s1 = VB->TexCoordPtr[1]->data[i][0]; t1 = 0.0; u1 = 0.0; break; default: /* should never get here */ s1 = t1 = u1 = 0.0; gl_problem(ctx, "unexpected texcoord size in antialiased_rgba_points()"); } } for (y=ymin;y<=ymax;y++) { for (x=xmin;x<=xmax;x++) { GLfloat dx = x/*+0.5F*/ - VB->Win.data[i][0]; GLfloat dy = y/*+0.5F*/ - VB->Win.data[i][1]; GLfloat dist2 = dx*dx + dy*dy; if (dist2ColorPtr->data[i][3]; if (dist2>=rmin2) { GLint coverage = (GLint) (256.0F-(dist2-rmin2)*cscale); /* coverage is in [0,256] */ alpha = (alpha * coverage) >> 8; } if (ctx->Texture.ReallyEnabled >= TEXTURE1_1D) { PB_WRITE_MULTITEX_PIXEL( PB, x,y,z, red, green, blue, alpha, s, t, u, s1, t1, u1 ); } else { PB_WRITE_TEX_PIXEL( PB, x,y,z, red, green, blue, alpha, s, t, u ); } } } } PB_CHECK_FLUSH(ctx,PB); } } } else { /* Not texture mapped */ for (i=first;i<=last;i++) { if (VB->ClipMask[i]==0) { GLint xmin, ymin, xmax, ymax; GLint x, y, z; GLint red, green, blue, alpha; xmin = (GLint) (VB->Win.data[i][0] - radius); xmax = (GLint) (VB->Win.data[i][0] + radius); ymin = (GLint) (VB->Win.data[i][1] - radius); ymax = (GLint) (VB->Win.data[i][1] + radius); z = (GLint) (VB->Win.data[i][2] + ctx->PointZoffset); red = VB->ColorPtr->data[i][0]; green = VB->ColorPtr->data[i][1]; blue = VB->ColorPtr->data[i][2]; for (y=ymin;y<=ymax;y++) { for (x=xmin;x<=xmax;x++) { GLfloat dx = x/*+0.5F*/ - VB->Win.data[i][0]; GLfloat dy = y/*+0.5F*/ - VB->Win.data[i][1]; GLfloat dist2 = dx*dx + dy*dy; if (dist2ColorPtr->data[i][3]; if (dist2>=rmin2) { GLint coverage = (GLint) (256.0F-(dist2-rmin2)*cscale); /* coverage is in [0,256] */ alpha = (alpha * coverage) >> 8; } PB_WRITE_RGBA_PIXEL( PB, x, y, z, red, green, blue, alpha ); } } } PB_CHECK_FLUSH(ctx,PB); } } } } /* * Null rasterizer for measuring transformation speed. */ static void null_points( GLcontext *ctx, GLuint first, GLuint last ) { (void) ctx; (void) first; (void) last; } /* Definition of the functions for GL_EXT_point_parameters */ /* Calculates the distance attenuation formula of a vector of points in * eye space coordinates */ static void dist3(GLfloat *out, GLuint first, GLuint last, const GLcontext *ctx, const GLvector4f *v) { GLuint stride = v->stride; const GLfloat *p = VEC_ELT(v, GLfloat, first); GLuint i; for (i = first ; i <= last ; i++, STRIDE_F(p, stride) ) { GLfloat dist = GL_SQRT(p[0]*p[0]+p[1]*p[1]+p[2]*p[2]); out[i] = 1.0F / (ctx->Point.Params[0] + dist * (ctx->Point.Params[1] + dist * ctx->Point.Params[2])); } } static void dist2(GLfloat *out, GLuint first, GLuint last, const GLcontext *ctx, const GLvector4f *v) { GLuint stride = v->stride; const GLfloat *p = VEC_ELT(v, GLfloat, first); GLuint i; for (i = first ; i <= last ; i++, STRIDE_F(p, stride) ) { GLfloat dist = GL_SQRT(p[0]*p[0]+p[1]*p[1]); out[i] = 1.0F / (ctx->Point.Params[0] + dist * (ctx->Point.Params[1] + dist * ctx->Point.Params[2])); } } typedef void (*dist_func)(GLfloat *out, GLuint first, GLuint last, const GLcontext *ctx, const GLvector4f *v); static dist_func eye_dist_tab[5] = { 0, 0, dist2, dist3, dist3 }; static void clip_dist(GLfloat *out, GLuint first, GLuint last, const GLcontext *ctx, GLvector4f *clip) { /* this is never called */ gl_problem(NULL, "clip_dist() called - dead code!\n"); (void) out; (void) first; (void) last; (void) ctx; (void) clip; #if 0 GLuint i; const GLfloat *from = (GLfloat *)clip_vec->start; const GLuint stride = clip_vec->stride; for (i = first ; i <= last ; i++ ) { GLfloat dist = win[i][2]; out[i] = 1/(ctx->Point.Params[0]+ dist * (ctx->Point.Params[1] + dist * ctx->Point.Params[2])); } #endif } /* * Distance Attenuated General CI points. */ static void dist_atten_general_ci_points( GLcontext *ctx, GLuint first, GLuint last ) { struct vertex_buffer *VB = ctx->VB; struct pixel_buffer *PB = ctx->PB; GLfloat dist[VB_SIZE]; const GLfloat psize = ctx->Point.Size; GLuint i; if (ctx->NeedEyeCoords) (eye_dist_tab[VB->EyePtr->size])( dist, first, last, ctx, VB->EyePtr ); else clip_dist( dist, first, last, ctx, VB->ClipPtr ); for (i=first;i<=last;i++) { if (VB->ClipMask[i]==0) { GLint x0, x1, y0, y1; GLint ix, iy; GLint isize, radius; GLint x = (GLint) VB->Win.data[i][0]; GLint y = (GLint) VB->Win.data[i][1]; GLint z = (GLint) (VB->Win.data[i][2] + ctx->PointZoffset); GLfloat dsize = psize * dist[i]; if (dsize >= ctx->Point.Threshold) { isize = (GLint) (MIN2(dsize, ctx->Point.MaxSize) + 0.5F); } else { isize = (GLint) (MAX2(ctx->Point.Threshold, ctx->Point.MinSize) + 0.5F); } radius = isize >> 1; if (isize & 1) { /* odd size */ x0 = x - radius; x1 = x + radius; y0 = y - radius; y1 = y + radius; } else { /* even size */ x0 = (GLint) (x + 1.5F) - radius; x1 = x0 + isize - 1; y0 = (GLint) (y + 1.5F) - radius; y1 = y0 + isize - 1; } PB_SET_INDEX( ctx, PB, VB->IndexPtr->data[i] ); for (iy=y0;iy<=y1;iy++) { for (ix=x0;ix<=x1;ix++) { PB_WRITE_PIXEL( PB, ix, iy, z ); } } PB_CHECK_FLUSH(ctx,PB); } } } /* * Distance Attenuated General RGBA points. */ static void dist_atten_general_rgba_points( GLcontext *ctx, GLuint first, GLuint last ) { struct vertex_buffer *VB = ctx->VB; struct pixel_buffer *PB = ctx->PB; GLfloat dist[VB_SIZE]; const GLfloat psize = ctx->Point.Size; GLuint i; if (ctx->NeedEyeCoords) (eye_dist_tab[VB->EyePtr->size])( dist, first, last, ctx, VB->EyePtr ); else clip_dist( dist, first, last, ctx, VB->ClipPtr ); for (i=first;i<=last;i++) { if (VB->ClipMask[i]==0) { GLint x0, x1, y0, y1; GLint ix, iy; GLint isize, radius; GLint x = (GLint) VB->Win.data[i][0]; GLint y = (GLint) VB->Win.data[i][1]; GLint z = (GLint) (VB->Win.data[i][2] + ctx->PointZoffset); GLfloat dsize=psize*dist[i]; GLubyte alpha; if (dsize >= ctx->Point.Threshold) { isize = (GLint) (MIN2(dsize,ctx->Point.MaxSize)+0.5F); alpha = VB->ColorPtr->data[i][3]; } else { isize = (GLint) (MAX2(ctx->Point.Threshold,ctx->Point.MinSize)+0.5F); dsize /= ctx->Point.Threshold; alpha = (GLint) (VB->ColorPtr->data[i][3]* (dsize*dsize)); } radius = isize >> 1; if (isize & 1) { /* odd size */ x0 = x - radius; x1 = x + radius; y0 = y - radius; y1 = y + radius; } else { /* even size */ x0 = (GLint) (x + 1.5F) - radius; x1 = x0 + isize - 1; y0 = (GLint) (y + 1.5F) - radius; y1 = y0 + isize - 1; } PB_SET_COLOR( ctx, PB, VB->ColorPtr->data[i][0], VB->ColorPtr->data[i][1], VB->ColorPtr->data[i][2], alpha ); for (iy=y0;iy<=y1;iy++) { for (ix=x0;ix<=x1;ix++) { PB_WRITE_PIXEL( PB, ix, iy, z ); } } PB_CHECK_FLUSH(ctx,PB); } } } /* * Distance Attenuated Textured RGBA points. */ static void dist_atten_textured_rgba_points( GLcontext *ctx, GLuint first, GLuint last ) { struct vertex_buffer *VB = ctx->VB; struct pixel_buffer *PB = ctx->PB; GLfloat dist[VB_SIZE]; const GLfloat psize = ctx->Point.Size; GLuint i; if (ctx->NeedEyeCoords) (eye_dist_tab[VB->EyePtr->size])( dist, first, last, ctx, VB->EyePtr ); else clip_dist( dist, first, last, ctx, VB->ClipPtr ); for (i=first;i<=last;i++) { if (VB->ClipMask[i]==0) { GLint x0, x1, y0, y1; GLint ix, iy; GLint isize, radius; GLint red, green, blue, alpha; GLfloat s, t, u; GLfloat s1, t1, u1; GLint x = (GLint) VB->Win.data[i][0]; GLint y = (GLint) VB->Win.data[i][1]; GLint z = (GLint) (VB->Win.data[i][2] + ctx->PointZoffset); GLfloat dsize = psize*dist[i]; if(dsize >= ctx->Point.Threshold) { isize = (GLint) (MIN2(dsize, ctx->Point.MaxSize) + 0.5F); alpha = VB->ColorPtr->data[i][3]; } else { isize = (GLint) (MAX2(ctx->Point.Threshold, ctx->Point.MinSize) + 0.5F); dsize /= ctx->Point.Threshold; alpha = (GLint) (VB->ColorPtr->data[i][3] * (dsize * dsize)); } if (isize < 1) { isize = 1; } radius = isize >> 1; if (isize & 1) { /* odd size */ x0 = x - radius; x1 = x + radius; y0 = y - radius; y1 = y + radius; } else { /* even size */ x0 = (GLint) (x + 1.5F) - radius; x1 = x0 + isize - 1; y0 = (GLint) (y + 1.5F) - radius; y1 = y0 + isize - 1; } red = VB->ColorPtr->data[i][0]; green = VB->ColorPtr->data[i][1]; blue = VB->ColorPtr->data[i][2]; switch (VB->TexCoordPtr[0]->size) { case 4: s = (VB->TexCoordPtr[0]->data[i][0]/ VB->TexCoordPtr[0]->data[i][3]); t = (VB->TexCoordPtr[0]->data[i][1]/ VB->TexCoordPtr[0]->data[i][3]); u = (VB->TexCoordPtr[0]->data[i][2]/ VB->TexCoordPtr[0]->data[i][3]); break; case 3: s = VB->TexCoordPtr[0]->data[i][0]; t = VB->TexCoordPtr[0]->data[i][1]; u = VB->TexCoordPtr[0]->data[i][2]; break; case 2: s = VB->TexCoordPtr[0]->data[i][0]; t = VB->TexCoordPtr[0]->data[i][1]; u = 0.0; break; case 1: s = VB->TexCoordPtr[0]->data[i][0]; t = 0.0; u = 0.0; break; default: /* should never get here */ s = t = u = 0.0; gl_problem(ctx, "unexpected texcoord size in dist_atten_textured_rgba_points()"); } if (ctx->Texture.ReallyEnabled >= TEXTURE1_1D) { /* Multitextured! This is probably a slow enough path that there's no reason to specialize the multitexture case. */ switch (VB->TexCoordPtr[1]->size) { case 4: s1 = ( VB->TexCoordPtr[1]->data[i][0] / VB->TexCoordPtr[1]->data[i][3] ); t1 = ( VB->TexCoordPtr[1]->data[i][1] / VB->TexCoordPtr[1]->data[i][3] ); u1 = ( VB->TexCoordPtr[1]->data[i][2] / VB->TexCoordPtr[1]->data[i][3] ); break; case 3: s1 = VB->TexCoordPtr[1]->data[i][0]; t1 = VB->TexCoordPtr[1]->data[i][1]; u1 = VB->TexCoordPtr[1]->data[i][2]; break; case 2: s1 = VB->TexCoordPtr[1]->data[i][0]; t1 = VB->TexCoordPtr[1]->data[i][1]; u1 = 0.0; break; case 1: s1 = VB->TexCoordPtr[1]->data[i][0]; t1 = 0.0; u1 = 0.0; break; default: /* should never get here */ s1 = t1 = u1 = 0.0; gl_problem(ctx, "unexpected texcoord size in dist_atten_textured_rgba_points()"); } } /* don't think this is needed PB_SET_COLOR( red, green, blue, alpha ); */ for (iy=y0;iy<=y1;iy++) { for (ix=x0;ix<=x1;ix++) { if (ctx->Texture.ReallyEnabled >= TEXTURE1_1D) { PB_WRITE_MULTITEX_PIXEL( PB, ix, iy, z, red, green, blue, alpha, s, t, u, s1, t1, u1 ); } else { PB_WRITE_TEX_PIXEL( PB, ix, iy, z, red, green, blue, alpha, s, t, u ); } } } PB_CHECK_FLUSH(ctx,PB); } } } /* * Distance Attenuated Antialiased points with or without texture mapping. */ static void dist_atten_antialiased_rgba_points( GLcontext *ctx, GLuint first, GLuint last ) { struct vertex_buffer *VB = ctx->VB; struct pixel_buffer *PB = ctx->PB; GLfloat dist[VB_SIZE]; const GLfloat psize = ctx->Point.Size; GLuint i; if (ctx->NeedEyeCoords) (eye_dist_tab[VB->EyePtr->size])( dist, first, last, ctx, VB->EyePtr ); else clip_dist( dist, first, last, ctx, VB->ClipPtr ); if (ctx->Texture.ReallyEnabled) { for (i=first;i<=last;i++) { if (VB->ClipMask[i]==0) { GLfloat radius, rmin, rmax, rmin2, rmax2, cscale, alphaf; GLint xmin, ymin, xmax, ymax; GLint x, y, z; GLint red, green, blue, alpha; GLfloat s, t, u; GLfloat s1, t1, u1; GLfloat dsize = psize * dist[i]; if (dsize >= ctx->Point.Threshold) { radius = MIN2(dsize, ctx->Point.MaxSize) * 0.5F; alphaf = 1.0F; } else { radius = (MAX2(ctx->Point.Threshold, ctx->Point.MinSize) * 0.5F); dsize /= ctx->Point.Threshold; alphaf = (dsize*dsize); } rmin = radius - 0.7071F; /* 0.7071 = sqrt(2)/2 */ rmax = radius + 0.7071F; rmin2 = rmin*rmin; rmax2 = rmax*rmax; cscale = 256.0F / (rmax2-rmin2); xmin = (GLint) (VB->Win.data[i][0] - radius); xmax = (GLint) (VB->Win.data[i][0] + radius); ymin = (GLint) (VB->Win.data[i][1] - radius); ymax = (GLint) (VB->Win.data[i][1] + radius); z = (GLint) (VB->Win.data[i][2] + ctx->PointZoffset); red = VB->ColorPtr->data[i][0]; green = VB->ColorPtr->data[i][1]; blue = VB->ColorPtr->data[i][2]; switch (VB->TexCoordPtr[0]->size) { case 4: s = (VB->TexCoordPtr[0]->data[i][0]/ VB->TexCoordPtr[0]->data[i][3]); t = (VB->TexCoordPtr[0]->data[i][1]/ VB->TexCoordPtr[0]->data[i][3]); u = (VB->TexCoordPtr[0]->data[i][2]/ VB->TexCoordPtr[0]->data[i][3]); break; case 3: s = VB->TexCoordPtr[0]->data[i][0]; t = VB->TexCoordPtr[0]->data[i][1]; u = VB->TexCoordPtr[0]->data[i][2]; break; case 2: s = VB->TexCoordPtr[0]->data[i][0]; t = VB->TexCoordPtr[0]->data[i][1]; u = 0.0; break; case 1: s = VB->TexCoordPtr[0]->data[i][0]; t = 0.0; u = 0.0; break; default: /* should never get here */ s = t = u = 0.0; gl_problem(ctx, "unexpected texcoord size in dist_atten_antialiased_rgba_points()"); } if (ctx->Texture.ReallyEnabled >= TEXTURE1_1D) { /* Multitextured! This is probably a slow enough path that there's no reason to specialize the multitexture case. */ switch (VB->TexCoordPtr[1]->size) { case 4: s1 = ( VB->TexCoordPtr[1]->data[i][0] / VB->TexCoordPtr[1]->data[i][3] ); t1 = ( VB->TexCoordPtr[1]->data[i][1] / VB->TexCoordPtr[1]->data[i][3] ); u1 = ( VB->TexCoordPtr[1]->data[i][2] / VB->TexCoordPtr[1]->data[i][3] ); break; case 3: s1 = VB->TexCoordPtr[1]->data[i][0]; t1 = VB->TexCoordPtr[1]->data[i][1]; u1 = VB->TexCoordPtr[1]->data[i][2]; break; case 2: s1 = VB->TexCoordPtr[1]->data[i][0]; t1 = VB->TexCoordPtr[1]->data[i][1]; u1 = 0.0; break; case 1: s1 = VB->TexCoordPtr[1]->data[i][0]; t1 = 0.0; u1 = 0.0; break; default: /* should never get here */ s = t = u = 0.0; gl_problem(ctx, "unexpected texcoord size in dist_atten_antialiased_rgba_points()"); } } for (y = ymin; y <= ymax; y++) { for (x = xmin; x <= xmax; x++) { GLfloat dx = x/*+0.5F*/ - VB->Win.data[i][0]; GLfloat dy = y/*+0.5F*/ - VB->Win.data[i][1]; GLfloat dist2 = dx*dx + dy*dy; if (dist2 < rmax2) { alpha = VB->ColorPtr->data[i][3]; if (dist2 >= rmin2) { GLint coverage = (GLint) (256.0F - (dist2 - rmin2) * cscale); /* coverage is in [0,256] */ alpha = (alpha * coverage) >> 8; } alpha = (GLint) (alpha * alphaf); if (ctx->Texture.ReallyEnabled >= TEXTURE1_1D) { PB_WRITE_MULTITEX_PIXEL( PB, x,y,z, red, green, blue, alpha, s, t, u, s1, t1, u1 ); } else { PB_WRITE_TEX_PIXEL( PB, x,y,z, red, green, blue, alpha, s, t, u ); } } } } PB_CHECK_FLUSH(ctx,PB); } } } else { /* Not texture mapped */ for (i = first; i <= last; i++) { if (VB->ClipMask[i] == 0) { GLfloat radius, rmin, rmax, rmin2, rmax2, cscale, alphaf; GLint xmin, ymin, xmax, ymax; GLint x, y, z; GLint red, green, blue, alpha; GLfloat dsize = psize * dist[i]; if (dsize >= ctx->Point.Threshold) { radius = MIN2(dsize, ctx->Point.MaxSize) * 0.5F; alphaf = 1.0F; } else { radius = (MAX2(ctx->Point.Threshold, ctx->Point.MinSize) * 0.5F); dsize /= ctx->Point.Threshold; alphaf = dsize * dsize; } rmin = radius - 0.7071F; /* 0.7071 = sqrt(2)/2 */ rmax = radius + 0.7071F; rmin2 = rmin * rmin; rmax2 = rmax * rmax; cscale = 256.0F / (rmax2 - rmin2); xmin = (GLint) (VB->Win.data[i][0] - radius); xmax = (GLint) (VB->Win.data[i][0] + radius); ymin = (GLint) (VB->Win.data[i][1] - radius); ymax = (GLint) (VB->Win.data[i][1] + radius); z = (GLint) (VB->Win.data[i][2] + ctx->PointZoffset); red = VB->ColorPtr->data[i][0]; green = VB->ColorPtr->data[i][1]; blue = VB->ColorPtr->data[i][2]; for (y = ymin; y <= ymax; y++) { for (x = xmin; x <= xmax; x++) { GLfloat dx = x/*+0.5F*/ - VB->Win.data[i][0]; GLfloat dy = y/*+0.5F*/ - VB->Win.data[i][1]; GLfloat dist2 = dx * dx + dy * dy; if (dist2 < rmax2) { alpha = VB->ColorPtr->data[i][3]; if (dist2 >= rmin2) { GLint coverage = (GLint) (256.0F - (dist2 - rmin2) * cscale); /* coverage is in [0,256] */ alpha = (alpha * coverage) >> 8; } alpha = (GLint) (alpha * alphaf); PB_WRITE_RGBA_PIXEL(PB, x, y, z, red, green, blue, alpha); } } } PB_CHECK_FLUSH(ctx,PB); } } } } /* * Examine the current context to determine which point drawing function * should be used. */ void gl_set_point_function( GLcontext *ctx ) { GLboolean rgbmode = ctx->Visual->RGBAflag; if (ctx->RenderMode==GL_RENDER) { if (ctx->NoRaster) { ctx->Driver.PointsFunc = null_points; return; } if (ctx->Driver.PointsFunc) { /* Device driver will draw points. */ ctx->IndirectTriangles &= ~DD_POINT_SW_RASTERIZE; return; } if (!ctx->Point.Attenuated) { if (ctx->Point.SmoothFlag && rgbmode) { ctx->Driver.PointsFunc = antialiased_rgba_points; } else if (ctx->Texture.ReallyEnabled) { if (ctx->Texture.ReallyEnabled >= TEXTURE1_1D) { ctx->Driver.PointsFunc = multitextured_rgba_points; } else { ctx->Driver.PointsFunc = textured_rgba_points; } } else if (ctx->Point.Size==1.0) { /* size=1, any raster ops */ if (rgbmode) ctx->Driver.PointsFunc = size1_rgba_points; else ctx->Driver.PointsFunc = size1_ci_points; } else { /* every other kind of point rendering */ if (rgbmode) ctx->Driver.PointsFunc = general_rgba_points; else ctx->Driver.PointsFunc = general_ci_points; } } else if(ctx->Point.SmoothFlag && rgbmode) { ctx->Driver.PointsFunc = dist_atten_antialiased_rgba_points; } else if (ctx->Texture.ReallyEnabled) { ctx->Driver.PointsFunc = dist_atten_textured_rgba_points; } else { /* every other kind of point rendering */ if (rgbmode) ctx->Driver.PointsFunc = dist_atten_general_rgba_points; else ctx->Driver.PointsFunc = dist_atten_general_ci_points; } } else if (ctx->RenderMode==GL_FEEDBACK) { ctx->Driver.PointsFunc = gl_feedback_points; } else { /* GL_SELECT mode */ ctx->Driver.PointsFunc = gl_select_points; } }