diff --git a/polymer/eduke32/build/include/polymer.h b/polymer/eduke32/build/include/polymer.h index 48be3aaf7..8b7bb8097 100644 --- a/polymer/eduke32/build/include/polymer.h +++ b/polymer/eduke32/build/include/polymer.h @@ -94,7 +94,7 @@ typedef struct s_prmaterial { GLuint detailmap; GLfloat detailscale[2]; // PR_BIT_DIFFUSE_MODULATION - GLfloat diffusemodulation[4]; + GLubyte diffusemodulation[4]; // PR_BIT_SPECULAR_MAP GLuint specmap; // PR_BIT_SPECULAR_MATERIAL @@ -289,12 +289,6 @@ typedef struct s_pranimatespritesinfo { int32_t x, y, a, smoothratio; } _pranimatespritesinfo; -// MEMORY POOL -/* -#define POLYMER_POOL_SIZE (128 * 1048576) -extern nedpool* polymer_pool; -*/ - // EXTERNAL FUNCTIONS int32_t polymer_init(void); void polymer_uninit(void); @@ -302,6 +296,7 @@ void polymer_glinit(void); void polymer_loadboard(void); void polymer_drawrooms(int32_t daposx, int32_t daposy, int32_t daposz, int16_t daang, int32_t dahoriz, int16_t dacursectnum); void polymer_drawmasks(void); +void polymer_editorpick(void); void polymer_rotatesprite(int32_t sx, int32_t sy, int32_t z, int16_t a, int16_t picnum, int8_t dashade, char dapalnum, char dastat, int32_t cx1, int32_t cy1, int32_t cx2, int32_t cy2); void polymer_drawmaskwall(int32_t damaskwallcnt); void polymer_drawsprite(int32_t snum); diff --git a/polymer/eduke32/build/src/build.c b/polymer/eduke32/build/src/build.c index 37e55cc58..a4db06c6d 100644 --- a/polymer/eduke32/build/src/build.c +++ b/polymer/eduke32/build/src/build.c @@ -512,11 +512,12 @@ CANCEL: #endif drawmasks(); #ifdef POLYMER - if (rendmode == 4) + if (rendmode == 4 && searchit == 2) { - extern void polymer_alt_editorselect(void); - if (searchit==2) - polymer_alt_editorselect(); + polymer_editorpick(); + drawrooms(pos.x,pos.y,pos.z,ang,horiz,cursectnum); + ExtAnalyzeSprites(); + drawmasks(); } #endif diff --git a/polymer/eduke32/build/src/polymer.c b/polymer/eduke32/build/src/polymer.c index c67f9ed53..7a3b01a14 100644 --- a/polymer/eduke32/build/src/polymer.c +++ b/polymer/eduke32/build/src/polymer.c @@ -4,7 +4,6 @@ #define POLYMER_C #include "polymer.h" #include "engine_priv.h" -#include // CVARS int32_t pr_lighting = 1; @@ -541,6 +540,7 @@ _prprogrambit prprogrambits[PR_BIT_COUNT] = { _prprograminfo prprograms[1 << PR_BIT_COUNT]; int32_t overridematerial; +int32_t globaloldoverridematerial; // RENDER TARGETS _prrt *prrts; @@ -571,15 +571,7 @@ int8_t curskyshade; _pranimatespritesinfo asi; -void polymer_alt_editorselect(void); -static int32_t m32_numdrawnsprites = 0; -static struct -{ - GLfloat verts[4*3]; - GLfloat plane[4]; - int16_t owner; - int8_t type; // 0: planar sprite, 1: model sprite -} m32_drawnsprites[MAXSPRITESONSCREEN]; +int32_t polymersearching; // EXTERNAL FUNCTIONS int32_t polymer_init(void) @@ -645,9 +637,12 @@ int32_t polymer_init(void) overridematerial = 0xFFFFFFFF; + polymersearching = FALSE; + polymer_initrendertargets(pr_shadowcount + 1); if (pr_verbosity >= 1) OSD_Printf("PR : Initialization complete.\n"); + return (1); } @@ -756,8 +751,6 @@ void polymer_drawrooms(int32_t daposx, int32_t daposy, int32_t da horizang = (float)(-getangle(128, dahoriz-100)) / (2048.0f / 360.0f); tiltang = (gtang * 90.0f); -// if (searchit == 2) polymer_editorselect(); - pos[0] = (float)daposy; pos[1] = -(float)(daposz) / 16.0f; pos[2] = -(float)daposx; @@ -835,6 +828,17 @@ void polymer_drawrooms(int32_t daposx, int32_t daposy, int32_t da i--; } + if (searchit == 2 && !polymersearching) + { + globaloldoverridematerial = overridematerial; + overridematerial = prprogrambits[PR_BIT_DIFFUSE_MODULATION].bit; + polymersearching = TRUE; + } + if (!searchit && polymersearching) { + overridematerial = globaloldoverridematerial; + polymersearching = FALSE; + } + getzsofslope(dacursectnum, daposx, daposy, &cursectceilz, &cursectflorz); // external view (editor) @@ -903,6 +907,35 @@ void polymer_drawmasks(void) bglDisable(GL_ALPHA_TEST); } +void polymer_editorpick(void) +{ + GLubyte picked[3]; + int16_t num; + + bglReadPixels(searchx, ydim - searchy, 1, 1, GL_RGB, GL_UNSIGNED_BYTE, picked); + + num = *(int16_t *)(&picked[1]); + + searchstat = picked[0]; + + switch (searchstat) { + case 0: // wall + case 4: // 1-way/masked wall + searchbottomwall = searchwall = num; + break; + case 1: // floor + case 2: // ceiling + searchsector = num; + break; + case 3: + // sprite + searchwall = num; + break; + } + + searchit = 0; +} + void polymer_rotatesprite(int32_t sx, int32_t sy, int32_t z, int16_t a, int16_t picnum, int8_t dashade, char dapalnum, char dastat, int32_t cx1, int32_t cy1, int32_t cx2, int32_t cy2) { UNREFERENCED_PARAMETER(sx); @@ -924,6 +957,7 @@ void polymer_drawmaskwall(int32_t damaskwallcnt) sectortype *sec; walltype *wal; _prwall *w; + GLubyte oldcolor[4]; if (pr_verbosity >= 3) OSD_Printf("PR : Masked wall %i...\n", damaskwallcnt); @@ -937,8 +971,20 @@ void polymer_drawmaskwall(int32_t damaskwallcnt) bglEnable(GL_CULL_FACE); + if (searchit == 2) { + memcpy(oldcolor, w->mask.material.diffusemodulation, sizeof(GLubyte) * 4); + + w->mask.material.diffusemodulation[0] = 0x04; + w->mask.material.diffusemodulation[1] = ((GLubyte *)(&maskwall[damaskwallcnt]))[0]; + w->mask.material.diffusemodulation[2] = ((GLubyte *)(&maskwall[damaskwallcnt]))[1]; + w->mask.material.diffusemodulation[3] = 0xFF; + } + polymer_drawplane(&w->mask); + if (searchit == 2) + memcpy(w->mask.material.diffusemodulation, oldcolor, sizeof(GLubyte) * 4); + bglDisable(GL_CULL_FACE); } @@ -980,13 +1026,21 @@ void polymer_drawsprite(int32_t snum) if (tspr->cstat & 2) { if (tspr->cstat & 512) - spriteplane.material.diffusemodulation[3] = 0.33f; + spriteplane.material.diffusemodulation[3] = 0x55; else - spriteplane.material.diffusemodulation[3] = 0.66f; + spriteplane.material.diffusemodulation[3] = 0xAA; } spriteplane.material.diffusemodulation[3] *= (1.0f - spriteext[tspr->owner].alpha); + if (searchit == 2) + { + spriteplane.material.diffusemodulation[0] = 0x03; + spriteplane.material.diffusemodulation[1] = ((GLubyte *)(&tspr->owner))[0]; + spriteplane.material.diffusemodulation[2] = ((GLubyte *)(&tspr->owner))[1]; + spriteplane.material.diffusemodulation[3] = 0xFF; + } + if (((tspr->cstat>>4) & 3) == 0) xratio = (float)(tspr->xrepeat) * 0.20f; // 32 / 160 else @@ -1027,7 +1081,7 @@ void polymer_drawsprite(int32_t snum) inbuffer = vertsprite; - flipu = flipv = 0; + flipu = flipv = 0; if (pr_billboardingmode && !((tspr->cstat>>4) & 3)) { @@ -1095,20 +1149,20 @@ void polymer_drawsprite(int32_t snum) Bmemcpy(spriteplane.buffer, inbuffer, sizeof(GLfloat) * 4 * 5); - if (flipu || flipv) - { - i = 0; - while (i < 4) - { - if (flipu) - spriteplane.buffer[(i * 5) + 3] = - (spriteplane.buffer[(i * 5) + 3] - 1.0f) * -1.0f; - if (flipv) - spriteplane.buffer[(i * 5) + 4] = - (spriteplane.buffer[(i * 5) + 4] - 1.0f) * -1.0f; - i++; - } - } + if (flipu || flipv) + { + i = 0; + while (i < 4) + { + if (flipu) + spriteplane.buffer[(i * 5) + 3] = + (spriteplane.buffer[(i * 5) + 3] - 1.0f) * -1.0f; + if (flipv) + spriteplane.buffer[(i * 5) + 4] = + (spriteplane.buffer[(i * 5) + 4] - 1.0f) * -1.0f; + i++; + } + } i = 0; while (i < 4) @@ -1119,21 +1173,6 @@ void polymer_drawsprite(int32_t snum) polymer_computeplane(&spriteplane); - if (searchit==2) - { - if (m32_numdrawnspritesowner&(MAXSPRITES-1)); - m32_drawnsprites[m32_numdrawnsprites].type = 0; - m32_numdrawnsprites++; - } - } - spriteplane.lightcount = 0; curpriority = 0; @@ -1599,40 +1638,6 @@ static void polymer_displayrooms(int16_t dacursectnum) return; } -#ifdef M32_SHOWDEBUG -#define QNUM 128 -GLfloat qverts[QNUM*3]; -GLfloat qcolors[QNUM*3]; -int qvertcount = 0; - -static void polymer_m32_debug() -{ - // debug code for new Mapster32 mouse aim - if (qvertcount > 0) - { - int ii; - bglPushAttrib(GL_ENABLE_BIT); - bglDisable(GL_TEXTURE_2D); - bglDisable(GL_DEPTH_TEST); - bglBegin(GL_LINE_LOOP); - for (ii=0; ii>1)-ghoriz); - gshang = r/sqrt(r*r+ghalfx*ghalfx); - gchang = sqrt(1.0-gshang*gshang); - ghoriz = (double)(ydimen>>1); - - //global cos/sin tilt angle - gctang = cos(gtang); - gstang = sin(gtang); - if (fabs(gstang) < .001) //This hack avoids nasty precision bugs in domost() - { gstang = 0; if (gctang > 0) gctang = 1.0; else gctang = -1.0; } - - if (searchit == 2) - { - int32_t vx, vy, vz; - int32_t cz, fz; - hitdata_t hitinfo; - vec3_t vect; - - ox2 = searchx-ghalfx; oy2 = searchy-ghoriz; oz2 = ghalfx; - - //Tilt rotation - ox = ox2*gctang + oy2*gstang; - oy = oy2*gctang - ox2*gstang; - oz = oz2; - - //Up/down rotation - ox2 = oz*gchang - oy*gshang; - oy2 = ox; - oz2 = oy*gchang + oz*gshang; - - //Standard Left/right rotation - vx = (int32_t)(ox2*((float)cosglobalang) - oy2*((float)singlobalang)); - vy = (int32_t)(ox2*((float)singlobalang) + oy2*((float)cosglobalang)); - vz = (int32_t)(oz2*16384.0); - - vect.x = globalposx; - vect.y = globalposy; - vect.z = globalposz; - - hitallsprites = 1; - hitscan((const vec3_t *)&vect,globalcursectnum, //Start position - vx>>12,vy>>12,vz>>8,&hitinfo,0xffff0030); - getzsofslope(hitinfo.hitsect,hitinfo.pos.x,hitinfo.pos.y,&cz,&fz); - hitallsprites = 0; - - searchsector = hitinfo.hitsect; - if (hitinfo.pos.zfz) searchstat = 2; else if (hitinfo.hitwall >= 0) - { - searchbottomwall = searchwall = hitinfo.hitwall; searchstat = 0; - if (wall[hitinfo.hitwall].nextwall >= 0) - { - int32_t cz, fz; - getzsofslope(wall[hitinfo.hitwall].nextsector,hitinfo.pos.x,hitinfo.pos.y,&cz,&fz); - if (hitinfo.pos.z > fz) - { - if (wall[hitinfo.hitwall].cstat&2) //'2' bottoms of walls - searchbottomwall = wall[hitinfo.hitwall].nextwall; - } - else if ((hitinfo.pos.z > cz) && (wall[hitinfo.hitwall].cstat&(16+32))) //masking or 1-way - searchstat = 4; - } - } - else if (hitinfo.hitsprite >= 0) { searchwall = hitinfo.hitsprite; searchstat = 3; } - else - { - int32_t cz, fz; - getzsofslope(hitinfo.hitsect,hitinfo.pos.x,hitinfo.pos.y,&cz,&fz); - if ((hitinfo.pos.z<<1) < cz+fz) searchstat = 1; else searchstat = 2; - //if (vz < 0) searchstat = 1; else searchstat = 2; //Won't work for slopes :/ - } - searchit = 0; - } -} -#endif // 0 - - -// vvv --- improved editor aiming -static inline GLfloat dot2f(GLfloat *v1, GLfloat *v2) -{ - return v1[0]*v2[0] + v1[1]*v2[1]; -} -static inline GLfloat dot3f(GLfloat *v1, GLfloat *v2) -{ - return v1[0]*v2[0] + v1[1]*v2[1] + v1[2]*v2[2]; -} -static inline void relvec2f(GLfloat *v1, GLfloat *v2, GLfloat *out) -{ - out[0] = v2[0]-v1[0]; - out[1] = v2[1]-v1[1]; -} -static inline void relvec3f(GLfloat *v1, GLfloat *v2, GLfloat *out) -{ - out[0] = v2[0]-v1[0]; - out[1] = v2[1]-v1[1]; - out[2] = v2[2]-v1[2]; -} -static inline void addvec3f(GLfloat *v1, GLfloat *v2, GLfloat *out) -{ - out[0] = v1[0]+v2[0]; - out[1] = v1[1]+v2[1]; - out[2] = v1[2]+v2[2]; -} -static void cross3f(GLfloat* va, GLfloat* vb, GLfloat* out) -{ - GLfloat out0 = va[1]*vb[2] - va[2]*vb[1]; - GLfloat out1 = va[2]*vb[0] - va[0]*vb[2]; - GLfloat out2 = va[0]*vb[1] - va[1]*vb[0]; - out[0]=out0, out[1]=out1, out[2]=out2; -} - -#ifdef M32_SHOWDEBUG -char m32_debugstr[64][128]; -int32_t m32_numdebuglines=0; -#endif - -void polymer_alt_editorselect(void) -{ - int i,j; - - GLdouble model[16]; - GLdouble proj[16]; - GLint view[4]; - - GLdouble x,y,z; - GLdouble scrx,scry,scrz; - GLfloat scr[3], scrv[3]; - GLfloat dadepth; - - int8_t bestwhat = -1; - int16_t bestsec = -1; - int16_t bestbottomwall = -1, bestwall = -1; - GLfloat bestdist = FLT_MAX; - -#ifdef M32_SHOWDEBUG - GLfloat col1[3]={1.0,0.0,0.0}; - GLfloat col2[3]={0.0,1.0,0.0}; - GLfloat col3[3]={0.0,0.0,1.0}; - GLfloat col4[3]={0.0,1.0,1.0}; - GLfloat dummyvert[3] = {0,0,0}; - qvertcount=0; -#endif - - bglGetDoublev(GL_MODELVIEW_MATRIX, model); - bglGetDoublev(GL_PROJECTION_MATRIX, proj); - bglGetIntegerv(GL_VIEWPORT, view); - - bglReadPixels(searchx, ydimen-searchy, 1,1, GL_DEPTH_COMPONENT, GL_FLOAT, &dadepth); - bgluUnProject(searchx, ydimen-searchy, dadepth, model, proj, view, &x, &y, &z); - bgluUnProject(searchx, ydimen-searchy, 0.0, model, proj, view, &scrx, &scry, &scrz); - -#ifdef M32_SHOWDEBUG - if (m32_numdebuglines < 64) - Bsprintf(m32_debugstr[m32_numdebuglines++], "x=%.02f, y=%.02f, z/16=%.02f (BUILD)", -z, x, -y); -#endif - - scr[0]=scrx, scr[1]=scry, scr[2]=scrz; - - scrv[0] = x-scrx; - scrv[1] = y-scry; - scrv[2] = z-scrz; - - for (i=0; iflags.uptodate) - continue; - - { - int8_t what; - - GLfloat *pl = NULL; - GLfloat nnormsq, nnorm, npl[3]; - GLfloat t, svcoeff, dist; - - j = 0; - do - { - if (j==0 && (w->underover&1)) - pl = w->wall.plane; - else if (j==1 && (w->underover&2)) - pl = w->over.plane; - else if (j==2 && ((wal->cstat&16) || (wal->cstat&32))) - pl = w->mask.plane; - j++; - } - while (j<3 && (!pl || dot3f(pl,pl)==0.0)); - - if (!pl || (nnormsq = dot3f(pl,pl))==0.0) - continue; - - nnorm = sqrt(nnormsq); - npl[0]=pl[0]/nnorm; - npl[1]=pl[1]/nnorm; - npl[2]=pl[2]/nnorm; - - t = dot3f(pl,scrv); - if (t==0) - continue; - - svcoeff = -(dot3f(pl,scr)+pl[3])/t; - if (svcoeff < 0) - continue; - - dist = svcoeff * sqrt(dot3f(scrv,scrv)); - if (dist > bestdist) - continue; - - for (what=(wal->nextsector>=0?2:0); what>=0; what--) - { - GLfloat v1[3], v2[3], v3[3], v4[3], v12[3], v34[3], v1p_r[3], v3p_r[3]; - GLfloat v23[3], v41[3], v2p_r[3], v4p_r[3]; - GLfloat tp[3]; - _prplane *pp; - - tp[0] = scrx + svcoeff*scrv[0]; - tp[1] = scry + svcoeff*scrv[1]; - tp[2] = scrz + svcoeff*scrv[2]; - - pp=&w->wall; - if (what==0) - { - if (!(w->underover&1)) - continue; - } - else if (what==1) - { - if (!(w->underover&2)) - continue; - pp=&w->over; - } - else if (what==2) - { - if (!(wal->cstat&16) && !(wal->cstat&32)) - continue; - pp=&w->mask; - } - - if (-t<0 && !(what==2 && (wal->cstat&16))) - goto nextwall; - - Bmemcpy(v1, &pp->buffer[0], 3*sizeof(GLfloat)); - Bmemcpy(v2, &pp->buffer[5], 3*sizeof(GLfloat)); - Bmemcpy(v3, &pp->buffer[10], 3*sizeof(GLfloat)); - Bmemcpy(v4, &pp->buffer[15], 3*sizeof(GLfloat)); - relvec3f(v1,v2, v12); - relvec3f(v3,v4, v34); - relvec3f(v1,tp, v1p_r); - relvec3f(v3,tp, v3p_r); - cross3f(npl,v1p_r, v1p_r); - cross3f(npl,v3p_r, v3p_r); - - relvec3f(v2,v3, v23); - relvec3f(v4,v1, v41); - - relvec3f(v2,tp, v2p_r); - relvec3f(v4,tp, v4p_r); - cross3f(npl,v2p_r, v2p_r); - cross3f(npl,v4p_r, v4p_r); - - if (dot3f(v12,v12)>0.25 && dot3f(v34,v34)>0.25 - && (v23[1]<0 || dot3f(v23,v23)<=0.25 || dot3f(v23,v2p_r) <= 0) - && (dot3f(v41,v41)<=0.25 || dot3f(v41,v4p_r) <= 0) - && dot3f(v12,v1p_r) <= 0 && dot3f(v34,v3p_r) <= 0) - { - bestwhat = (what==2)?4:0; - bestbottomwall = bestwall = i; - if (what==0 && (wal->cstat&2)) - bestbottomwall = wal->nextwall; - bestdist = dist; -#ifdef M32_SHOWDEBUG - if (m32_numdebuglines<64) - { - Bsprintf(m32_debugstr[m32_numdebuglines++], "what=wall %d, dist=%.02f, sec=%d", - bestwall, bestdist, bestsec); - } - if (qvertcountflags.uptodate) - continue; - - for (what=1; what<=2; what++) - { - GLfloat *pl; - GLfloat t, svcoeff, dist, p[2]; - - if (what==1) - cfp = &s->ceil; - else - cfp = &s->floor; - - pl = cfp->plane; - - t = dot3f(pl,scrv); - if (-t<=0) - continue; - - svcoeff = -(dot3f(pl,scr)+pl[3])/t; - if (svcoeff < 0) - continue; - - dist = svcoeff * sqrt(dot3f(scrv,scrv)); - if (dist > bestdist) - continue; - - // point on plane (x and z) - p[0] = scrx + svcoeff*scrv[0]; - p[1] = scrz + svcoeff*scrv[2]; - - // implementation using a loop over all triangles - for (j=0; jindicescount; j+=3) - { - GLushort idx[3] = {cfp->indices[j], cfp->indices[j+1], cfp->indices[j+2]}; - GLfloat v1[2] = {cfp->buffer[(idx[0]*5)], cfp->buffer[(idx[0]*5)+2]}; - GLfloat v2[2] = {cfp->buffer[(idx[1]*5)], cfp->buffer[(idx[1]*5)+2]}; - GLfloat v3[2] = {cfp->buffer[(idx[2]*5)], cfp->buffer[(idx[2]*5)+2]}; - GLfloat v12[2] = {v2[0]-v1[0], v2[1]-v1[1]}; - GLfloat v23[2] = {v3[0]-v2[0], v3[1]-v2[1]}; - GLfloat v31[2] = {v1[0]-v3[0], v1[1]-v3[1]}; - int rotsign = (what==1)?-1:1; - GLfloat v1p_r[2] = {rotsign*(p[1]-v1[1]), -rotsign*(p[0]-v1[0])}; - GLfloat v2p_r[2] = {rotsign*(p[1]-v2[1]), -rotsign*(p[0]-v2[0])}; - GLfloat v3p_r[2] = {rotsign*(p[1]-v3[1]), -rotsign*(p[0]-v3[0])}; - - if (dot2f(v12,v12)>0.25 && dot2f(v23,v23)>0.25 && dot2f(v31,v31)>0.25 - && dot2f(v12,v1p_r) < 0 && dot2f(v23,v2p_r) < 0 && dot2f(v31,v3p_r) < 0) - { - bestwhat = what; - bestsec = i; - bestdist = dist; -#ifdef M32_SHOWDEBUG - if (qvertcountbuffer[(idx[0]*5+1)]; - qverts[(3*qvertcount)+2] = v1[1]; - qvertcount++; - - Bmemcpy(&qcolors[3*qvertcount],col2,sizeof(col1)); - qverts[(3*qvertcount)+0] = v2[0]; - qverts[(3*qvertcount)+1] = cfp->buffer[(idx[1]*5+1)]; - qverts[(3*qvertcount)+2] = v2[1]; - qvertcount++; - - Bmemcpy(&qcolors[3*qvertcount],col3,sizeof(col1)); - qverts[(3*qvertcount)+0] = v3[0]; - qverts[(3*qvertcount)+1] = cfp->buffer[(idx[2]*5+1)]; - qverts[(3*qvertcount)+2] = v3[1]; - qvertcount++; - - Bmemcpy(&qverts[3*qvertcount++],dummyvert, 3*sizeof(GLfloat)); - } -#endif - goto nextsector; - } - } // loop over triangles - /* - // implementation using inside() (less precise) - if (inside(-p[1],p[0],i)) - { - bestwhat = what; - bestsec = i; - bestdist = dist; - } - */ -nextsector: - if (bestsec==i) - { - int16_t k, bestk=0; - GLfloat bestwdistsq = FLT_MAX, wdistsq; - GLfloat w1[2], w2[2], w21[2], pw1[2], pw2[2]; - GLfloat ptonline[2]; - GLfloat scrvxz[2]={scrv[0],scrv[2]}; - GLfloat scrvxznorm, scrvxzn[2], scrpxz[2]; - GLfloat w1d, w2d; - walltype *wal = &wall[sec->wallptr]; - for (k=0; kwallnum; k++) - { - w1[1] = -(float)wal[k].x; - w1[0] = (float)wal[k].y; - w2[1] = -(float)wall[wal[k].point2].x; - w2[0] = (float)wall[wal[k].point2].y; - - scrvxznorm = sqrt(dot2f(scrvxz,scrvxz)); - scrvxzn[0] = scrvxz[1]/scrvxznorm; - scrvxzn[1] = -scrvxz[0]/scrvxznorm; - - relvec2f(p,w1, pw1); - relvec2f(p,w2, pw2); - relvec2f(w2,w1, w21); - w1d = dot2f(scrvxzn,pw1); - w2d = dot2f(scrvxzn,pw2); - w2d = -w2d; - if (w1d <= 0 || w2d <= 0) - continue; - ptonline[0] = w2[0]+(w2d/(w1d+w2d))*w21[0]; - ptonline[1] = w2[1]+(w2d/(w1d+w2d))*w21[1]; - relvec2f(p,ptonline, scrpxz); - if (dot2f(scrvxz,scrpxz)<0) - continue; - wdistsq = dot2f(scrpxz,scrpxz); - if (wdistsq < bestwdistsq) - { - bestk = k; - bestwdistsq = wdistsq; - } - } - bestwall = sec->wallptr+bestk; -#ifdef M32_SHOWDEBUG - if (m32_numdebuglines<64) - Bsprintf(m32_debugstr[m32_numdebuglines++], "what=sec %d, dist=%.02f, wall=%d", bestsec, bestdist, bestwall); -#endif - } // determine searchwall - } // ceiling or floor - } // loop over sectors - - for (i=0; i bestdist+1.01) - continue; - - { - GLfloat *v = m32_drawnsprites[i].verts; - GLfloat v12_r[3], v23_r[3], v34_r[3], v41_r[3]; - GLfloat v1p[3], v2p[3], v3p[3], v4p[3]; - GLfloat tp[3]; - - tp[0] = scrx + svcoeff*scrv[0]; - tp[1] = scry + svcoeff*scrv[1]; - tp[2] = scrz + svcoeff*scrv[2]; - - relvec3f(&v[3*3],&v[0*3], v12_r); - relvec3f(&v[0*3],&v[1*3], v23_r); - relvec3f(&v[1*3],&v[2*3], v34_r); - relvec3f(&v[2*3],&v[3*3], v41_r); - relvec3f(&v[0*3],tp, v1p); - relvec3f(&v[1*3],tp, v2p); - relvec3f(&v[2*3],tp, v3p); - relvec3f(&v[3*3],tp, v4p); - if (dot3f(v1p,v12_r)<=0 && dot3f(v2p,v23_r)<=0 - && dot3f(v3p,v34_r)<=0 && dot3f(v4p,v41_r)<=0) - { - bestwhat = 3; - bestdist = dist; - bestwall = m32_drawnsprites[i].owner; -#ifdef M32_SHOWDEBUG - if (m32_numdebuglines<64) - { - Bsprintf(m32_debugstr[m32_numdebuglines++], "what=spr %d, dist=%.02f", - bestwall, bestdist); - } - if (qvertcount 0) - pl[3] = -dot3f(pl, &verts[3*j]); - else - pl[3] = -dot3f(pl, &verts[0]); - - svcoeff = -(dot3f(pl,scr)+pl[3])/t; - if (svcoeff < 0) - continue; - - dist = svcoeff * sqrt(dot3f(scrv,scrv)); - if (dist > bestdist) - continue; - - { - GLfloat vrel[3*2]; - GLfloat v[3*4]; - GLfloat v1p[3], v2p[3], v3p[3], v4p[3]; - GLfloat tp[3]; - int k, l=0; - - for (k=1; k<=3; k++) - { - if (k==j) - continue; - relvec3f(&verts[0], &verts[3*k], &vrel[3*l]); - l++; - } - - if (-t > 0) - Bmemcpy(&v[0], &verts[3*j], 3*sizeof(GLfloat)); - else - Bmemcpy(&v[0], &verts[0], 3*sizeof(GLfloat)); - - addvec3f(&v[3*0], &vrel[3*0], &v[3*1]); - addvec3f(&v[3*1], &vrel[3*1], &v[3*2]); - relvec3f(&vrel[0], &v[3*2], &v[3*3]); - - tp[0] = scrx + svcoeff*scrv[0]; - tp[1] = scry + svcoeff*scrv[1]; - tp[2] = scrz + svcoeff*scrv[2]; - - relvec3f(&v[0*3],tp, v1p); - relvec3f(&v[1*3],tp, v2p); - relvec3f(&v[2*3],tp, v3p); - relvec3f(&v[3*3],tp, v4p); - - if (dot3f(&vrel[3*1], v1p)>0 && dot3f(&vrel[3*1], v3p)<0 - && dot3f(&vrel[0], v2p)<0 && dot3f(&vrel[0], v4p)>0) - { - bestwhat = 3; - bestdist = dist; - bestwall = m32_drawnsprites[i].owner; -#ifdef M32_SHOWDEBUG - if (m32_numdebuglines<64) - { - Bsprintf(m32_debugstr[m32_numdebuglines++], "what=spr %d (model), dist=%.02f", - bestwall, bestdist); - } - if (qvertcount= 0) - { - searchstat = bestwhat; - searchwall = bestwall; - searchbottomwall = bestbottomwall; - if (searchstat==0 || searchstat==4) - searchsector = sectorofwall(searchwall); - else - searchsector = bestsec; - searchit = 0; - } - -#ifdef M32_SHOWDEBUG - polymer_m32_debug(); -#endif -} - // SECTORS static int32_t polymer_initsector(int16_t sectnum) { @@ -2851,6 +2222,7 @@ static void polymer_drawsector(int16_t sectnum) { sectortype *sec; _prsector* s; + GLubyte oldcolor[4]; if (pr_verbosity >= 3) OSD_Printf("PR : Drawing sector %i...\n", sectnum); @@ -2861,16 +2233,40 @@ static void polymer_drawsector(int16_t sectnum) bglFogf(GL_FOG_DENSITY,fogresult); bglFogfv(GL_FOG_COLOR,fogcol); - if (!(sec->floorstat & 1)) + if (!(sec->floorstat & 1) || (searchit == 2)) { + if (searchit == 2) { + memcpy(oldcolor, s->floor.material.diffusemodulation, sizeof(GLubyte) * 4); + + s->floor.material.diffusemodulation[0] = 0x02; + s->floor.material.diffusemodulation[1] = ((GLubyte *)(§num))[0]; + s->floor.material.diffusemodulation[2] = ((GLubyte *)(§num))[1]; + s->floor.material.diffusemodulation[3] = 0xFF; + } polymer_drawplane(&s->floor); + if (searchit == 2) + memcpy(s->floor.material.diffusemodulation, oldcolor, sizeof(GLubyte) * 4); + } + fogcalc(sec->ceilingshade,sec->visibility,sec->ceilingpal); bglFogf(GL_FOG_DENSITY,fogresult); bglFogfv(GL_FOG_COLOR,fogcol); - if (!(sec->ceilingstat & 1)) + if (!(sec->ceilingstat & 1) || (searchit == 2)) { + if (searchit == 2) { + memcpy(oldcolor, s->ceil.material.diffusemodulation, sizeof(GLubyte) * 4); + + s->ceil.material.diffusemodulation[0] = 0x01; + s->ceil.material.diffusemodulation[1] = ((GLubyte *)(§num))[0]; + s->ceil.material.diffusemodulation[2] = ((GLubyte *)(§num))[1]; + s->ceil.material.diffusemodulation[3] = 0xFF; + } polymer_drawplane(&s->ceil); + if (searchit == 2) + memcpy(s->ceil.material.diffusemodulation, oldcolor, sizeof(GLubyte) * 4); + } + if (pr_verbosity >= 3) OSD_Printf("PR : Finished drawing sector %i...\n", sectnum); } @@ -2945,8 +2341,8 @@ static void polymer_updatewall(int16_t wallnum) sec = §or[sectofwall]; if (sectofwall < 0 || sectofwall > numsectors || - wallnum < 0 || wallnum > numwalls || - sec->wallptr > wallnum || wallnum >= (sec->wallptr + sec->wallnum)) + wallnum < 0 || wallnum > numwalls || + sec->wallptr > wallnum || wallnum >= (sec->wallptr + sec->wallnum)) return; // yay, corrupt map wal = &wall[wallnum]; @@ -3205,12 +2601,13 @@ static void polymer_updatewall(int16_t wallnum) { // mask polymer_getbuildmaterial(&w->mask.material, walloverpicnum, wal->pal, wal->shade); + if (wal->cstat & 128) { if (wal->cstat & 512) - w->mask.material.diffusemodulation[3] = 0.33f; + w->mask.material.diffusemodulation[3] = 0x55; else - w->mask.material.diffusemodulation[3] = 0.66f; + w->mask.material.diffusemodulation[3] = 0xAA; } } @@ -3353,6 +2750,7 @@ static void polymer_drawwall(int16_t sectnum, int16_t wallnum) sectortype *sec; walltype *wal; _prwall *w; + GLubyte oldcolor[4]; if (pr_verbosity >= 3) OSD_Printf("PR : Drawing wall %i...\n", wallnum); @@ -3364,20 +2762,65 @@ static void polymer_drawwall(int16_t sectnum, int16_t wallnum) bglFogf(GL_FOG_DENSITY,fogresult); bglFogfv(GL_FOG_COLOR,fogcol); - if ((w->underover & 1) && !(w->underover & 4)) + if ((w->underover & 1) && (!(w->underover & 4) || (searchit == 2))) { + if (searchit == 2) { + int16_t pickwallnum; + + memcpy(oldcolor, w->wall.material.diffusemodulation, sizeof(GLubyte) * 4); + + pickwallnum = wallnum; + // if the bottom of the walls are inverted + // we're going to hit the nextwall instead + if (wall[wallnum].cstat & 2) + pickwallnum = wall[wallnum].nextwall; + + w->wall.material.diffusemodulation[0] = 0x00; + w->wall.material.diffusemodulation[1] = ((GLubyte *)(&pickwallnum))[0]; + w->wall.material.diffusemodulation[2] = ((GLubyte *)(&pickwallnum))[1]; + w->wall.material.diffusemodulation[3] = 0xFF; + } + polymer_drawplane(&w->wall); + + if (searchit == 2) + memcpy(w->wall.material.diffusemodulation, oldcolor, sizeof(GLubyte) * 4); } - if ((w->underover & 2) && !(w->underover & 8)) + if ((w->underover & 2) && (!(w->underover & 8) || (searchit == 2))) { + if (searchit == 2) { + memcpy(oldcolor, w->over.material.diffusemodulation, sizeof(GLubyte) * 4); + + w->over.material.diffusemodulation[0] = 0x00; + w->over.material.diffusemodulation[1] = ((GLubyte *)(&wallnum))[0]; + w->over.material.diffusemodulation[2] = ((GLubyte *)(&wallnum))[1]; + w->over.material.diffusemodulation[3] = 0xFF; + } + polymer_drawplane(&w->over); + + if (searchit == 2) + memcpy(w->over.material.diffusemodulation, oldcolor, sizeof(GLubyte) * 4); } - if ((wall[wallnum].cstat & 32) && (wall[wallnum].nextsector >= 0)) + if ((wall[wallnum].cstat & 32) && (wall[wallnum].nextsector >= 0)) { + if (searchit == 2) { + memcpy(oldcolor, w->mask.material.diffusemodulation, sizeof(GLubyte) * 4); + + w->mask.material.diffusemodulation[0] = 0x04; + w->mask.material.diffusemodulation[1] = ((GLubyte *)(&wallnum))[0]; + w->mask.material.diffusemodulation[2] = ((GLubyte *)(&wallnum))[1]; + w->mask.material.diffusemodulation[3] = 0xFF; + } + polymer_drawplane(&w->mask); - if ((sector[sectnum].ceilingstat & 1) && + if (searchit == 2) + memcpy(w->mask.material.diffusemodulation, oldcolor, sizeof(GLubyte) * 4); + } + + if (!searchit && (sector[sectnum].ceilingstat & 1) && ((wall[wallnum].nextsector < 0) || !(sector[wall[wallnum].nextsector].ceilingstat & 1))) { @@ -3853,7 +3296,7 @@ static void polymer_drawmdsprite(spritetype *tspr) float ang; float scale; int32_t surfi, i, j; - GLfloat* color; + GLubyte* color; int32_t materialbits; float sradius, lradius; int16_t modellights[PR_MAXLIGHTS]; @@ -3961,36 +3404,12 @@ static void polymer_drawmdsprite(spritetype *tspr) // bglEnd(); // bglEnable(GL_TEXTURE_2D); - if (searchit == 2) - { - if (m32_numdrawnsprites < MAXSPRITESONSCREEN) - { - point3d *mi = &m->head.frames[m->cframe].min; - point3d *ma = &m->head.frames[m->cframe].max; - float fverts[3*4] = {mi->x,mi->y,mi->z, ma->x,mi->y,mi->z, - mi->x,ma->y,mi->z, mi->x,mi->y,ma->z}; - float tfverts[3*4]; - GLfloat gtfverts[3*4]; - int i; - - for (i=0; i<4; i++) - polymer_transformpoint(&fverts[i*3], &tfverts[i*3], spritemodelview); - for (i=0; i<12; i++) - gtfverts[i] = tfverts[i]; - - Bmemcpy(m32_drawnsprites[m32_numdrawnsprites].verts, gtfverts, 12*sizeof(GLfloat)); - m32_drawnsprites[m32_numdrawnsprites].type = 1; - m32_drawnsprites[m32_numdrawnsprites].owner = (tspr->owner&(MAXSPRITES-1)); - m32_numdrawnsprites++; - } - } - polymer_getscratchmaterial(&mdspritematerial); color = mdspritematerial.diffusemodulation; color[0] = color[1] = color[2] = - ((float)(numpalookups-min(max((tspr->shade*shadescale)+m->shadeoff,0),numpalookups)))/((float)numpalookups); + ((float)(numpalookups-min(max((tspr->shade*shadescale)+m->shadeoff,0),numpalookups)))/((float)numpalookups) * 0xFF; if (!(hictinting[tspr->pal].f&4)) { @@ -4016,16 +3435,25 @@ static void polymer_drawmdsprite(spritetype *tspr) if (tspr->cstat & 2) { if (!(tspr->cstat&512)) - color[3] = 0.66f; + color[3] = 0xAA; else - color[3] = 0.33f; + color[3] = 0x55; } else - color[3] = 1.0f; + color[3] = 0xFF; color[3] *= (1.0f - spriteext[tspr->owner].alpha); + // XXX fix that if (tspr->cstat & 16384) color[3] = 0.0f; + if (searchit == 2) + { + color[0] = 0x03; + color[1] = ((GLubyte *)(&tspr->owner))[0]; + color[2] = ((GLubyte *)(&tspr->owner))[1]; + color[3] = 0xFF; + } + if (pr_gpusmoothing) mdspritematerial.frameprogress = m->interpol; @@ -4213,7 +3641,7 @@ static void polymer_drawmdsprite(spritetype *tspr) bglPopMatrix(); - globalnoeffect=0; + globalnoeffect = 0; } static void polymer_loadmodelvbos(md3model_t* m) @@ -4273,7 +3701,7 @@ static void polymer_getscratchmaterial(_prmaterial* material) material->diffusemodulation[0] = material->diffusemodulation[1] = material->diffusemodulation[2] = - material->diffusemodulation[3] = 1.0f; + material->diffusemodulation[3] = 0xFF; // PR_BIT_SPECULAR_MAP material->specmap = 0; // PR_BIT_SPECULAR_MATERIAL @@ -4316,7 +3744,7 @@ static void polymer_getbuildmaterial(_prmaterial* material, int16_t tile material->diffusemodulation[0] = material->diffusemodulation[1] = material->diffusemodulation[2] = - ((float)(numpalookups-min(max(shade*shadescale,0),numpalookups)))/((float)numpalookups); + ((float)(numpalookups-min(max(shade*shadescale,0),numpalookups)))/((float)numpalookups) * 0xFF; if (pth->flags & 2) { @@ -4544,10 +3972,10 @@ static int32_t polymer_bindmaterial(_prmaterial material, int16_t* lights, // PR_BIT_DIFFUSE_MODULATION if (programbits & prprogrambits[PR_BIT_DIFFUSE_MODULATION].bit) { - bglColor4f(material.diffusemodulation[0], - material.diffusemodulation[1], - material.diffusemodulation[2], - material.diffusemodulation[3]); + bglColor4ub(material.diffusemodulation[0], + material.diffusemodulation[1], + material.diffusemodulation[2], + material.diffusemodulation[3]); } // PR_BIT_SPECULAR_MAP