#include "../../quakedef.h" void R_SpawnDecal (vec3_t center, vec3_t normal, vec3_t tangent, int tex, int size, int isbsp) { // naievil -- fixme /* int a; float width, height, depth, d, one_over_w, one_over_h; vec3_t binormal, test = {0.5, 0.5, 0.5}; decal_t *dec; if (!qmb_initialized) return; // allocate decal if (!free_decals) return; dec = free_decals; free_decals = dec->next; dec->next = active_decals; active_decals = dec; VectorNormalize (test); CrossProduct (normal, test, tangent); VectorCopy (center, dec->origin); VectorCopy (tangent, dec->tangent); VectorCopy (normal, dec->normal); VectorNormalize (tangent); VectorNormalize (normal); CrossProduct (normal, tangent, binormal); VectorNormalize (binormal); width = RandomMinMax (size * 0.5, size); height = width; depth = width * 0.5; dec->radius = fmax(fmax(width, height), depth); dec->starttime = cl.time; dec->bspdecal = isbsp; dec->die = (isbsp ? 0 : cl.time + r_decaltime.value); dec->texture = tex; // Calculate boundary planes d = DotProduct (center, tangent); VectorCopy (tangent, leftPlane.normal); leftPlane.dist = -(width * 0.5 - d); VectorNegate (tangent, tangent); VectorCopy (tangent, rightPlane.normal); VectorNegate (tangent, tangent); rightPlane.dist = -(width * 0.5 + d); d = DotProduct (center, binormal); VectorCopy (binormal, bottomPlane.normal); bottomPlane.dist = -(height * 0.5 - d); VectorNegate (binormal, binormal); VectorCopy (binormal, topPlane.normal); VectorNegate (binormal, binormal); topPlane.dist = -(height * 0.5 + d); d = DotProduct (center, normal); VectorCopy (normal, backPlane.normal); backPlane.dist = -(depth - d); VectorNegate (normal, normal); VectorCopy (normal, frontPlane.normal); VectorNegate (normal, normal); frontPlane.dist = -(depth + d); // Begin with empty mesh dec->vertexCount = 0; dec->triangleCount = 0; // Clip decal to bsp DecalWalkBsp_R (dec, cl.worldmodel->nodes); // This happens when a decal is to far from any surface or the surface is to steeply sloped if (dec->triangleCount == 0) { // deallocate decal active_decals = dec->next; dec->next = free_decals; free_decals = dec; return; } // Assign texture mapping coordinates one_over_w = 1.0F / width; one_over_h = 1.0F / height; for (a = 0 ; a < dec->vertexCount ; a++) { float s, t; vec3_t v; VectorSubtract (dec->vertexArray[a], center, v); s = DotProduct (v, tangent) * one_over_w + 0.5F; t = DotProduct (v, binormal) * one_over_h + 0.5F; dec->texcoordArray[a][0] = s; dec->texcoordArray[a][1] = t; } */ } //Revamped by blubs void R_SpawnDecalStatic (vec3_t org, int tex, int size) { /* int i; float frac, bestfrac; vec3_t tangent, v, bestorg, normal, bestnormal, org2; vec3_t tempVec; if (!qmb_initialized) return; VectorClear (bestorg); VectorClear (bestnormal); VectorClear(tempVec); bestfrac = 10; for (i = 0 ; i < 26 ; i++) { //Reference: i = 0: check straight up, i = 1: check straight down //1 < i < 10: Check sideways in increments of 45 degrees //9 < i < 18: Check angled 45 degrees down in increments of 45 degrees //17 < i : Check angled 45 degrees up in increments of 45 degrees org2[0] = (((((i - 2) % 8) < 2) || (((i - 2) % 8) == 7)) ? 1 : 0 ) + ((((i - 2) % 8) > 2 && ((i - 2) % 8) < 6) ? -1 : 0 ); org2[1] = ((((i - 2) % 8) > 0 && ((i - 2) % 8) < 4) ? 1 : 0 ) + ((((i - 2) % 8) > 4 && ((i - 2) % 8) < 7) ? -1 : 0 ); org2[2] = ((i == 0) ? 1 : 0) + ((i == 1) ? -1 : 0) + (((i > 9) && (i < 18)) ? 1 : 0) + ((i > 17) ? -1 : 0); VectorCopy(org,tempVec); VectorMA(tempVec, -0.1,org2,tempVec); VectorMA (org, 20, org2, org2); TraceLineN (tempVec, org2, v, normal); VectorSubtract(org2,tempVec,org2);//goal VectorSubtract(v,tempVec,tempVec);//collision if(VectorLength(org2) == 0) return; frac = VectorLength(tempVec) / VectorLength(org2); if(frac < 1 && frac < bestfrac) { bestfrac = frac; VectorCopy(v,bestorg); VectorCopy(normal, bestnormal); CrossProduct(normal,bestnormal,tangent); } } if (bestfrac < 1) R_SpawnDecal (bestorg, bestnormal, tangent, tex, size, 0); */ }