/* Copyright (C) 2001-2002 Charles Hollemeersch This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. PENTA: the whole file is freakin penta... Abstracts the different paths that exist for different 3d-cards. Idea: Write a new R_DrawLightEntitys* and do whatever you want in it. adapt R_DrawLightEntitys to call your new code if the requirements are met. */ /* DrawLightEntities, draws lit bumpmapped entities, calls apropriate function for the user's 3d card. NOTE: This should not draw sprites, sprites are drawn separately. */ #include "quakedef.h" bumpdriver_t gl_bumpdriver; /* Some material definitions. */ float gl_Light_Ambience2[4] = {0.03,0.03,0.03,0.03}; float gl_Light_Diffuse2[4] = {0.03,0.03,0.03,0.03}; float gl_Light_Specular2[4] = {0,0,0,0}; float gl_Material_Color2[4] = {0.9, 0.9, 0.9, 0.9}; void R_DrawLightEntitiesGF3 (shadowlight_t *l); void R_DrawLightEntitiesGF (shadowlight_t *l); void R_DrawLightEntitiesGEN (shadowlight_t *l); void R_DrawLightEntitiesRadeon (shadowlight_t *l); //PA: void R_DrawLightEntitiesParhelia (shadowlight_t *l); //PA: void R_DrawLightEntitiesARB (shadowlight_t *l); //PA: /************************* Temp backwards compatibility **************************/ void R_DrawTangents (vertexdef_t *def, int num) { float* vert; float* normal; float* binormal; float* tangent; int vstr, nstr, tstr, bstr; vec3_t extr; int i; vert = def->vertices; normal = def->normals; binormal = def->binormals; tangent = def->tangents; vstr = (def->vertexstride == 0) ? 3 : def->vertexstride/4; nstr = (def->normalstride == 0) ? 3 : def->normalstride/4; tstr = (def->tangentstride == 0) ? 3 : def->tangentstride/4; bstr = (def->binormalstride == 0) ? 3 : def->binormalstride/4; for (i=0; ifirstvertex].position[0]; def.vertexstride = sizeof(mmvertex_t); def.texcoords = &globalVertexTable[mesh->firstvertex].texture[0]; def.texcoordstride = sizeof(mmvertex_t); def.tangents = &mesh->tangents[0][0]; def.tangentstride = 0; def.binormals = &mesh->binormals[0][0]; def.binormalstride = 0; def.normals = &mesh->normals[0][0]; def.normalstride = 0; def.lightmapcoords = &globalVertexTable[mesh->firstvertex].lightmap[0]; // no lightmaps on aliasses def.lightmapstride = sizeof(mmvertex_t); def.colors = &globalVertexTable[mesh->firstvertex].color[0]; def.colorstride = sizeof(mmvertex_t); c_alias_polys += mesh->numtriangles; if (gl_occlusiontest && sh_occlusiontest.value) { glEnable(GL_OCCLUSION_TEST_HP); gl_bumpdriver.drawTriangleListBase(&def, mesh->indecies, mesh->numindecies, mesh->shader->shader, mesh->lightmapIndex); glDisable(GL_OCCLUSION_TEST_HP); glGetIntegerv(GL_OCCLUSION_TEST_RESULT_HP,&res); if (!res) { mesh->visframe = r_framecount - 10; //make it invisible this frame occlusion_cut_meshes++; } } else { gl_bumpdriver.drawTriangleListBase(&def, mesh->indecies, mesh->numindecies, mesh->shader->shader, mesh->lightmapIndex); } if (sh_showtangent.value) { R_DrawTangents(&def, mesh->numvertices); } } void R_DrawMeshBumped(mesh_t *mesh) { vertexdef_t def; if (mesh->visframe != r_framecount) return; def.vertices = &globalVertexTable[mesh->firstvertex].position[0]; def.vertexstride = sizeof(mmvertex_t); def.texcoords = &globalVertexTable[mesh->firstvertex].texture[0]; def.texcoordstride = sizeof(mmvertex_t); def.tangents = &mesh->tangents[0][0]; def.tangentstride = 0; def.binormals = &mesh->binormals[0][0]; def.binormalstride = 0; def.normals = &mesh->normals[0][0]; def.normalstride = 0; def.lightmapcoords = NULL; // no lightmaps on aliasses c_alias_polys += mesh->numtriangles; gl_bumpdriver.drawTriangleListBump(&def, mesh->indecies, mesh->numindecies, mesh->shader->shader, &mesh->trans); } void R_DrawAliasAmbient(aliashdr_t *paliashdr, aliasframeinstant_t *instant) { vertexdef_t def; transform_t trans; def.vertices = &instant->vertices[0][0]; def.vertexstride = 0; def.texcoords = (float *)((byte *)paliashdr + paliashdr->texcoords); def.texcoordstride = 0; def.tangents = &instant->tangents[0][0]; def.tangentstride = 0; def.binormals = &instant->binomials[0][0]; def.binormalstride = 0; def.normals = &instant->normals[0][0]; def.normalstride = 0; def.lightmapcoords = NULL; // no lightmaps on aliasses def.colors = NULL; def.colorstride = 0; c_alias_polys += paliashdr->numtris; gl_bumpdriver.drawTriangleListBase(&def, (int *)((byte *)paliashdr + paliashdr->indecies),paliashdr->numtris*3,paliashdr->shader, -1); if (sh_showtangent.value) { R_DrawTangents(&def, paliashdr->numtris*3); } } void R_DrawAliasBumped(aliashdr_t *paliashdr, aliasframeinstant_t *instant) { vertexdef_t def; transform_t trans; aliaslightinstant_t *linstant = instant->lightinstant; def.vertices = &instant->vertices[0][0]; def.vertexstride = 0; def.texcoords = (float *)((byte *)paliashdr + paliashdr->texcoords); def.texcoordstride = 0; def.tangents = &instant->tangents[0][0]; def.tangentstride = 0; def.binormals = &instant->binomials[0][0]; def.binormalstride = 0; def.normals = &instant->normals[0][0]; def.normalstride = 0; def.colors = NULL; def.colorstride = 0; VectorCopy(currententity->origin,trans.origin); VectorCopy(currententity->angles,trans.angles); trans.scale[0] = trans.scale[1] = trans.scale[2] = 1.0f; c_alias_polys += paliashdr->numtris; gl_bumpdriver.drawTriangleListBump(&def,&linstant->indecies[0],linstant->numtris*3,paliashdr->shader, &trans); } void R_SetupWorldVertexDef(vertexdef_t *def) { def->vertices = &globalVertexTable[0].position[0]; def->vertexstride = sizeof(mmvertex_t); def->texcoords = &globalVertexTable[0].texture[0]; def->texcoordstride = sizeof(mmvertex_t); def->tangents = NULL; def->tangentstride = 0; def->binormals = NULL; def->binormalstride = 0; def->normals = NULL; def->normalstride = 0; def->lightmapcoords = &globalVertexTable[0].lightmap[0]; def->lightmapstride = sizeof(mmvertex_t); } msurface_t *surfArray[1024]; void R_DrawBrushAmbient (entity_t *e) { int runlength, i; msurface_t *surf; vertexdef_t def; shader_t *runshader , *s; model_t *model; model = e->model; R_SetupWorldVertexDef(&def); runshader = NULL; runlength = 0; surf = &model->surfaces[model->firstmodelsurface]; glColor3f(sh_lightmapbright.value, sh_lightmapbright.value, sh_lightmapbright.value); for (i=0; inummodelsurfaces; i++, surf++) { s = surf->shader->shader; surf->visframe = r_framecount; if (s != runshader) { //a run has finished, draw it if (runshader && runlength) gl_bumpdriver.drawSurfaceListBase(&def, surfArray, runlength, runshader); //start a new one runshader = s; runlength = 1; surfArray[0] = surf; } else { if (runlength < 1024) { surfArray[runlength] = surf; runlength++; } } } if (runshader && runlength) { c_brush_polys += runlength; gl_bumpdriver.drawSurfaceListBase(&def, surfArray, runlength, runshader); } } void R_DrawBrushBumped (entity_t *e) { int runlength, i; msurface_t *surf; vertexdef_t def; shader_t *runshader , *s; model_t *model; transform_t trans; model = e->model; R_SetupWorldVertexDef(&def); runshader = NULL; runlength = 0; surf = &model->surfaces[model->firstmodelsurface]; for (i=0; inummodelsurfaces; i++, surf++) { if (runlength < 1024) { surfArray[runlength] = surf; runlength++; } } VectorCopy(e->origin,trans.origin); VectorCopy(e->angles,trans.angles); trans.scale[0] = trans.scale[1] = trans.scale[2] = 1.0f; c_brush_polys += runlength; gl_bumpdriver.drawSurfaceListBump(&def, surfArray, runlength, &trans); } void R_DrawWorldAmbientChain(msurface_t *first) { vertexdef_t def; int numsurf; msurface_t *s; R_SetupWorldVertexDef(&def); numsurf = 0; s = first; while (s) { if (numsurf < 1024) { surfArray[numsurf] = s; numsurf++; } else { gl_bumpdriver.drawSurfaceListBase(&def, surfArray, numsurf, first->shader->shader); numsurf = 0; } s = s->texturechain; } if (numsurf) { c_brush_polys += numsurf; gl_bumpdriver.drawSurfaceListBase(&def, surfArray, numsurf, first->shader->shader); numsurf = 0; } } void R_DrawWorldBumped() { vertexdef_t def; transform_t trans; int i; if (!currentshadowlight->visible) return; R_SetupWorldVertexDef(&def); glDepthMask (0); glShadeModel (GL_SMOOTH); glDepthFunc(GL_EQUAL); trans.angles[0] = trans.angles[1] = trans.angles[2] = 0.0f; trans.origin[0] = trans.origin[1] = trans.origin[2] = 0.0f; trans.scale[0] = trans.scale[1] = trans.scale[2] = 1.0f; c_brush_polys += (currentshadowlight->numlightcmds-1); gl_bumpdriver.drawSurfaceListBump(&def, (msurface_t **)(¤tshadowlight->lightCmds[0]), currentshadowlight->numlightcmds-1, &trans); for (i=0; inumlightcmdsmesh-1; i++) { R_DrawMeshBumped((mesh_t *)currentshadowlight->lightCmdsMesh[i].asVoid); } glColor3f (1,1,1); glDisable (GL_BLEND); glBlendFunc (GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA); glDepthFunc(GL_LEQUAL); glDepthMask (1); } /* void R_DrawWorldBumped () // Function should not have parameters. { switch(gl_cardtype ) { case GEFORCE3: R_DrawWorldBumpedGF3(); // Function has no parameters. break; case GEFORCE: R_DrawWorldBumpedGF(); // Function has no parameters. break; case RADEON: R_DrawWorldBumpedRadeon(); break; #ifndef __glx__ case PARHELIA: R_DrawWorldBumpedParhelia(); break; #endif case ARB: R_DrawWorldBumpedARB(); break; default: R_DrawWorldBumpedGEN(); break; } } *//* void R_DrawLightEntities (shadowlight_t *l) { switch(gl_cardtype ) { case GEFORCE3: R_DrawLightEntitiesGF3( l ); break; case GEFORCE: R_DrawLightEntitiesGF( l ); break; case RADEON: R_DrawLightEntitiesRadeon( l ); break; #ifndef __glx__ case PARHELIA: R_DrawLightEntitiesParhelia( l ); break; #endif case ARB: R_DrawLightEntitiesARB( l ); break; default: R_DrawLightEntitiesGEN( l ); break; } } */ /* void R_DrawLightEntitiesGF (shadowlight_t *l) { int i; float pos[4]; if (!cg_showentities.value) return; if (!currentshadowlight->visible) return; glDepthMask (0); glShadeModel (GL_SMOOTH); //Meshes: Atten & selfshadow via vertex ligting glEnable(GL_LIGHT0); glEnable(GL_NORMALIZE); pos[0] = l->origin[0]; pos[1] = l->origin[1]; pos[2] = l->origin[2]; pos[3] = 1; glLightfv(GL_LIGHT0, GL_POSITION,&pos[0]); glLightfv(GL_LIGHT0, GL_DIFFUSE, &l->color[0]); glLightfv(GL_LIGHT0, GL_AMBIENT, &gl_Light_Ambience2[0]); glLightfv(GL_LIGHT0, GL_SPECULAR, &gl_Light_Specular2[0]); glEnable(GL_COLOR_MATERIAL); for (i=0 ; imodel->type == mod_alias) { //these models are full bright if (currententity->model->flags & EF_FULLBRIGHT) continue; if (!currententity->aliasframeinstant) continue; if ( ((aliasframeinstant_t *)currententity->aliasframeinstant)->shadowonly) continue; R_DrawAliasObjectLight(currententity, R_DrawAliasBumped); } } if (R_ShouldDrawViewModel()) { R_DrawAliasObjectLight(&cl.viewent, R_DrawAliasBumped); } glDisable(GL_COLOR_MATERIAL); glDisable(GL_LIGHTING); glDisable(GL_LIGHT0); // Brushes: we use the same thecnique as the world //glEnable(GL_TEXTURE_2D); //GL_Bind(glow_texture_object); //glTexEnvf(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_MODULATE); //glShadeModel (GL_SMOOTH); //glEnable(GL_ALPHA_TEST); //glAlphaFunc(GL_GREATER,0.2); for (i=0 ; imodel->type == mod_brush) { if (!currententity->brushlightinstant) continue; if ( ((brushlightinstant_t *)currententity->brushlightinstant)->shadowonly) continue; R_DrawBrushObjectLight(currententity, R_DrawBrushBumped); } } //reset gl state //glAlphaFunc(GL_GREATER,0.666);//Satan! //glDisable(GL_ALPHA_TEST); glColor3f (1,1,1); glDepthMask (1); glTexEnvf(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_REPLACE); glDisable (GL_BLEND); glBlendFunc (GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA); } void R_DrawLightEntitiesGEN (shadowlight_t *l) { //Currently this is merged with the geforce2 path R_DrawLightEntitiesGF(l); } */ void R_DrawLightEntities (shadowlight_t *l) { int i; if (!cg_showentities.value) return; if (!currentshadowlight->visible) return; glDepthMask (0); glShadeModel (GL_SMOOTH); //Alias models for (i=0 ; imodel->type == mod_alias) { //these models are full bright if (currententity->model->flags & EF_FULLBRIGHT) continue; if (!currententity->aliasframeinstant) continue; if ( ((aliasframeinstant_t *)currententity->aliasframeinstant)->shadowonly) continue; R_DrawAliasObjectLight(currententity, R_DrawAliasBumped); } } if (R_ShouldDrawViewModel()) { R_DrawAliasObjectLight(&cl.viewent, R_DrawAliasBumped); } //Brush models for (i=0 ; imodel->type == mod_brush) { if (!currententity->brushlightinstant) continue; if ( ((brushlightinstant_t *)currententity->brushlightinstant)->shadowonly) continue; R_DrawBrushObjectLight(currententity, R_DrawBrushBumped); } } //Cleanup state glColor3f (1,1,1); glTexEnvf(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_REPLACE); glDisable (GL_BLEND); glBlendFunc (GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA); glDepthMask (1); } /* //PA: void R_DrawLightEntitiesRadeon (shadowlight_t *l) { int i; if (!cg_showentities.value) return; if (!currentshadowlight->visible) return; glDepthMask (0); glShadeModel (GL_SMOOTH); //Alias models for (i=0 ; imodel->type == mod_alias) { //these models are full bright if (currententity->model->flags & EF_FULLBRIGHT) continue; if (!currententity->aliasframeinstant) continue; if ( ((aliasframeinstant_t *)currententity->aliasframeinstant)->shadowonly) continue; R_DrawAliasObjectLight(currententity, R_DrawAliasBumpedRadeon); } } if (R_ShouldDrawViewModel()) { R_DrawAliasObjectLight(&cl.viewent, R_DrawAliasBumpedRadeon); } //Brush models for (i=0 ; imodel->type == mod_brush) { if (!currententity->brushlightinstant) continue; if ( ((brushlightinstant_t *)currententity->brushlightinstant)->shadowonly) continue; R_DrawBrushObjectLight(currententity, R_DrawBrushBumpedRadeon); } } //Cleanup state glColor3f (1,1,1); glTexEnvf(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_REPLACE); glDisable (GL_BLEND); glBlendFunc (GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA); glDepthMask (1); } #ifndef __glx__ //PA: void R_DrawLightEntitiesParhelia (shadowlight_t *l) { int i; if (!cg_showentities.value) return; if (!currentshadowlight->visible) return; glDepthMask (0); glShadeModel (GL_SMOOTH); //Alias models for (i=0 ; imodel->type == mod_alias) { //these models are full bright if (currententity->model->flags & EF_FULLBRIGHT) continue; if (!currententity->aliasframeinstant) continue; if ( ((aliasframeinstant_t *)currententity->aliasframeinstant)->shadowonly) continue; R_DrawAliasObjectLight(currententity, R_DrawAliasBumpedParhelia); } } if (R_ShouldDrawViewModel()) { R_DrawAliasObjectLight(&cl.viewent, R_DrawAliasBumpedParhelia); } //Brush models for (i=0 ; imodel->type == mod_brush) { if (!currententity->brushlightinstant) continue; if ( ((brushlightinstant_t *)currententity->brushlightinstant)->shadowonly) continue; R_DrawBrushObjectLight(currententity, R_DrawBrushBumpedParhelia); } } //Cleanup state glColor3f (1,1,1); glTexEnvf(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_REPLACE); glDisable (GL_BLEND); glBlendFunc (GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA); glDepthMask (1); } #endif void R_DrawLightEntitiesARB (shadowlight_t *l) { int i; if (!cg_showentities.value) return; if (!currentshadowlight->visible) return; glDepthMask (0); glShadeModel (GL_SMOOTH); //Alias models for (i=0 ; imodel->type == mod_alias) { //these models are full bright if (currententity->model->flags & EF_FULLBRIGHT) continue; if (!currententity->aliasframeinstant) continue; if ( ((aliasframeinstant_t *)currententity->aliasframeinstant)->shadowonly) continue; R_DrawAliasObjectLight(currententity, R_DrawAliasBumpedARB); } } if (R_ShouldDrawViewModel()) { R_DrawAliasObjectLight(&cl.viewent, R_DrawAliasBumpedARB); } //Brush models for (i=0 ; imodel->type == mod_brush) { if (!currententity->brushlightinstant) continue; if ( ((brushlightinstant_t *)currententity->brushlightinstant)->shadowonly) continue; R_DrawBrushObjectLight(currententity, R_DrawBrushBumpedARB); } } //Cleanup state glColor3f (1,1,1); glTexEnvf(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_REPLACE); glDisable (GL_BLEND); glBlendFunc (GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA); glDepthMask (1); } */