raze-gles/polymer/build/src/polymer.c

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// blah
#ifdef POLYMOST
#define POLYMER_C
#include "polymer.h"
// CVARS
int pr_occlusionculling = 50;
int pr_fov = 426; // appears to be the classic setting.
int pr_billboardingmode = 1;
int pr_verbosity = 1; // 0: silent, 1: errors and one-times, 2: multiple-times, 3: flood
int pr_wireframe = 0;
int pr_mirrordepth = 1;
int glerror;
// DATA
_prsector *prsectors[MAXSECTORS];
_prwall *prwalls[MAXWALLS];
GLfloat skybox[16];
GLfloat vertsprite[4 * 5] = {
-0.5f, 0.0f, 0.0f,
0.0f, 1.0f,
0.5f, 0.0f, 0.0f,
1.0f, 1.0f,
0.5f, 1.0f, 0.0f,
1.0f, 0.0f,
-0.5f, 1.0f, 0.0f,
0.0f, 0.0f,
};
GLfloat horizsprite[4 * 5] = {
-0.5f, 0.0f, -0.5f,
0.0f, 1.0f,
0.5f, 0.0f, -0.5f,
1.0f, 1.0f,
0.5f, 0.0f, 0.5f,
1.0f, 0.0f,
-0.5f, 0.0f, 0.5f,
0.0f, 0.0f,
};
// CONTROL
GLdouble spritemodelview[16];
GLdouble rootmodelviewmatrix[16];
GLdouble *curmodelviewmatrix;
GLdouble projectionmatrix[16];
int updatesectors = 1;
int depth;
int mirrorfrom[10]; // -3: no mirror; -2: floor; -1: ceiling; >=0: wallnum
GLUtesselator* prtess;
short cursky;
short viewangle;
int rootsectnum;
_pranimatespritesinfo asi;
// EXTERNAL FUNCTIONS
int polymer_init(void)
{
int i, j;
if (pr_verbosity >= 1) OSD_Printf("Initalizing Polymer subsystem...\n");
i = 0;
while (i < MAXSECTORS)
{
prsectors[i] = NULL;
i++;
}
i = 0;
while (i < MAXWALLS)
{
prwalls[i] = NULL;
i++;
}
prtess = bgluNewTess();
if (prtess == 0)
{
if (pr_verbosity >= 1) OSD_Printf("PR : Tesselator initialization failed.\n");
return (0);
}
polymer_loadboard();
polymer_initskybox();
// init the face sprite modelview to identity
i = 0;
while (i < 4)
{
j = 0;
while (j < 4)
{
if (i == j)
spritemodelview[(i * 4) + j] = 1.0;
else
spritemodelview[(i * 4) + j] = 0.0;
j++;
}
i++;
}
if (pr_verbosity >= 1) OSD_Printf("PR : Initialization complete.\n");
return (1);
}
void polymer_glinit(void)
{
float a;
bglClearColor(0.0f, 0.0f, 0.0f, 1.0f);
bglClearStencil(0);
bglClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT | GL_STENCIL_BUFFER_BIT);
bglViewport(0, 0, xdim, ydim);
// texturing
bglEnable(GL_TEXTURE_2D);
bglTexParameteri(GL_TEXTURE_2D,GL_TEXTURE_WRAP_S,GL_REPEAT);
bglTexParameteri(GL_TEXTURE_2D,GL_TEXTURE_WRAP_T,GL_REPEAT);
bglEnable(GL_DEPTH_TEST);
bglDepthFunc(GL_LEQUAL);
if (pr_wireframe)
bglPolygonMode(GL_FRONT_AND_BACK, GL_LINE);
else
bglPolygonMode(GL_FRONT_AND_BACK, GL_FILL);
bglMatrixMode(GL_PROJECTION);
bglLoadIdentity();
bgluPerspective((float)(pr_fov) / (2048.0f / 360.0f), (float)xdim / (float)ydim, 0.01f, 100.0f);
// get the new projection matrix
bglGetDoublev(GL_PROJECTION_MATRIX, projectionmatrix);
bglMatrixMode(GL_MODELVIEW);
bglLoadIdentity();
bglEnableClientState(GL_VERTEX_ARRAY);
bglEnableClientState(GL_TEXTURE_COORD_ARRAY);
bglDisable(GL_FOG);
bglFogi(GL_FOG_MODE, GL_EXP2);
//glFogfv(GL_FOG_COLOR, fogColor);
bglEnable(GL_FOG);
a = (1 - ((float)(visibility) / 512.0f)) / 10.0f;
bglFogf(GL_FOG_DENSITY, 0.1f - a);
bglFogf(GL_FOG_START, 0.0f);
bglFogf(GL_FOG_END, 1000000.0f);
bglEnable(GL_CULL_FACE);
bglCullFace(GL_BACK);
}
void polymer_loadboard(void)
{
int i;
i = 0;
while (i < numsectors)
{
polymer_initsector(i);
polymer_updatesector(i);
i++;
}
i = 0;
while (i < numwalls)
{
polymer_initwall(i);
polymer_updatewall(i);
i++;
}
polymer_getsky();
if (pr_verbosity >= 1) OSD_Printf("PR : Board loaded.\n");
}
void polymer_drawrooms(int daposx, int daposy, int daposz, short daang, int dahoriz, short dacursectnum)
{
short cursectnum;
int i;
float ang, horizang, tiltang;
float pos[3];
if (pr_verbosity >= 3) OSD_Printf("PR : Drawing rooms...\n");
ang = (float)(daang) / (2048.0f / 360.0f);
horizang = (float)(100 - dahoriz) / (512.0f / 180.0f);
tiltang = (gtang * 90.0f);
pos[0] = daposy;
pos[1] = -(float)(daposz) / 16.0f;
pos[2] = -daposx;
bglMatrixMode(GL_MODELVIEW);
bglLoadIdentity();
bglRotatef(tiltang, 0.0f, 0.0f, -1.0f);
bglRotatef(horizang, 1.0f, 0.0f, 0.0f);
bglRotatef(ang, 0.0f, 1.0f, 0.0f);
bglDisable(GL_DEPTH_TEST);
bglColor4f(1.0f, 1.0f, 1.0f, 1.0f);
polymer_drawartsky(cursky);
bglEnable(GL_DEPTH_TEST);
bglScalef(1.0f / 1000.0f, 1.0f / 1000.0f, 1.0f / 1000.0f);
bglTranslatef(-pos[0], -pos[1], -pos[2]);
bglGetDoublev(GL_MODELVIEW_MATRIX, rootmodelviewmatrix);
cursectnum = dacursectnum;
updatesector(daposx, daposy, &cursectnum);
if ((cursectnum >= 0) && (cursectnum < numsectors))
dacursectnum = cursectnum;
// external view (editor)
if ((dacursectnum < 0) || (dacursectnum >= numsectors))
{
i = 0;
while (i < numsectors)
{
polymer_updatesector(i);
polymer_drawsector(i);
polymer_scansprites(i, tsprite, &spritesortcnt);
i++;
}
i = 0;
while (i < numwalls)
{
polymer_updatewall(i);
polymer_drawwall(sectorofwall(i), i);
i++;
}
viewangle = daang;
return;
}
rootsectnum = dacursectnum;
// unflag all sectors
i = 0;
while (i < numsectors)
{
prsectors[i]->controlstate = 0;
prsectors[i]->wallsproffset = 0.0f;
prsectors[i]->floorsproffset = 0.0f;
i++;
}
i = 0;
while (i < numwalls)
{
prwalls[i]->controlstate = 0;
i++;
}
// GO!
depth = 0;
mirrorfrom[0] = -3; // no mirror
polymer_displayrooms(dacursectnum);
viewangle = daang;
curmodelviewmatrix = rootmodelviewmatrix;
cosglobalang = sintable[(viewangle+512)&2047];
singlobalang = sintable[viewangle&2047];
cosviewingrangeglobalang = mulscale16(cosglobalang,viewingrange);
sinviewingrangeglobalang = mulscale16(singlobalang,viewingrange);
if (pr_verbosity >= 3) OSD_Printf("PR : Rooms drawn.\n");
}
void polymer_drawmasks(void)
{
bglEnable(GL_ALPHA_TEST);
bglEnable(GL_BLEND);
bglEnable(GL_POLYGON_OFFSET_FILL);
while (spritesortcnt)
{
spritesortcnt--;
tspriteptr[spritesortcnt] = &tsprite[spritesortcnt];
polymer_drawsprite(spritesortcnt);
}
bglDisable(GL_POLYGON_OFFSET_FILL);
bglDisable(GL_BLEND);
bglDisable(GL_ALPHA_TEST);
}
void polymer_rotatesprite(int sx, int sy, int z, short a, short picnum, signed char dashade, char dapalnum, char dastat, int cx1, int cy1, int cx2, int cy2)
{
UNREFERENCED_PARAMETER(sx);
UNREFERENCED_PARAMETER(sy);
UNREFERENCED_PARAMETER(z);
UNREFERENCED_PARAMETER(a);
UNREFERENCED_PARAMETER(picnum);
UNREFERENCED_PARAMETER(dashade);
UNREFERENCED_PARAMETER(dapalnum);
UNREFERENCED_PARAMETER(dastat);
UNREFERENCED_PARAMETER(cx1);
UNREFERENCED_PARAMETER(cy1);
UNREFERENCED_PARAMETER(cx2);
UNREFERENCED_PARAMETER(cy2);
}
void polymer_drawmaskwall(int damaskwallcnt)
{
_prwall *w;
if (pr_verbosity >= 3) OSD_Printf("PR : Masked wall %i...\n", damaskwallcnt);
w = prwalls[maskwall[damaskwallcnt]];
polymer_drawplane(-1, -3, w->maskglpic, w->maskcolor, w->portal, NULL, 0, NULL);
}
void polymer_drawsprite(int snum)
{
int curpicnum, glpic, xsize, ysize, tilexoff, tileyoff, xoff, yoff;
spritetype *tspr;
pthtyp* pth;
float color[4], xratio, yratio, ang, *curspritedata;
float spos[3];
if (pr_verbosity >= 3) OSD_Printf("PR : Sprite %i...\n", snum);
tspr = tspriteptr[snum];
curpicnum = tspr->picnum;
if (picanm[curpicnum]&192) curpicnum += animateoffs(curpicnum,tspr->owner+32768);
if (!waloff[curpicnum])
loadtile(curpicnum);
pth = gltexcache(curpicnum, tspr->pal, 0);
color[0] = color[1] = color[2] = ((float)(numpalookups-min(max(tspr->shade,0),numpalookups)))/((float)numpalookups);
if (pth && (pth->flags & 2) && (pth->palnum != tspr->pal))
{
color[0] *= (float)hictinting[tspr->pal].r / 255.0;
color[1] *= (float)hictinting[tspr->pal].g / 255.0;
color[2] *= (float)hictinting[tspr->pal].b / 255.0;
}
if (tspr->cstat & 2)
{
if (tspr->cstat & 512)
color[3] = 0.33f;
else
color[3] = 0.66f;
}
else
color[3] = 1.0f;
glpic = (pth) ? pth->glpic : 0;
if (((tspr->cstat>>4) & 3) == 0)
xratio = (float)(tspr->xrepeat) * 32.0f / 160.0f;
else
xratio = (float)(tspr->xrepeat) / 4.0f;
yratio = (float)(tspr->yrepeat) / 4.0f;
xsize = tilesizx[curpicnum] * xratio;
ysize = tilesizy[curpicnum] * yratio;
tilexoff = (int)tspr->xoffset;
tileyoff = (int)tspr->yoffset;
tilexoff += (signed char)((usehightile&&h_xsize[curpicnum])?(h_xoffs[curpicnum]):((picanm[curpicnum]>>8)&255));
tileyoff += (signed char)((usehightile&&h_xsize[curpicnum])?(h_yoffs[curpicnum]):((picanm[curpicnum]>>16)&255));
xoff = tilexoff * xratio;
yoff = tileyoff * yratio;
if (tspr->cstat & 128)
yoff -= ysize / 2;
spos[0] = tspr->y;
spos[1] = -(float)(tspr->z) / 16.0f;
spos[2] = -tspr->x;
curspritedata = vertsprite;
if (pr_billboardingmode && !((tspr->cstat>>4) & 3))
{
// do surgery on the face tspr to make it look like a wall sprite
tspr->cstat |= 16;
tspr->ang = (viewangle + 1024) & 2047;
}
switch ((tspr->cstat>>4) & 3)
{
case 0:
bglMatrixMode(GL_MODELVIEW);
bglPushMatrix();
spritemodelview[12] = curmodelviewmatrix[0] * spos[0] +
curmodelviewmatrix[4] * spos[1] +
curmodelviewmatrix[8] * spos[2] +
curmodelviewmatrix[12];
spritemodelview[13] = curmodelviewmatrix[1] * spos[0] +
curmodelviewmatrix[5] * spos[1] +
curmodelviewmatrix[9] * spos[2] +
curmodelviewmatrix[13];
spritemodelview[14] = curmodelviewmatrix[2] * spos[0] +
curmodelviewmatrix[6] * spos[1] +
curmodelviewmatrix[10] * spos[2] +
curmodelviewmatrix[14];
bglLoadMatrixd(spritemodelview);
bglRotatef((gtang * 90.0f), 0.0f, 0.0f, -1.0f);
bglTranslatef((float)(-xoff)/1000.0f, (float)(yoff)/1000.0f, 0.0f);
bglScalef((float)(xsize) / 1000.0f, (float)(ysize) / 1000.0f, 1.0f / 1000.0f);
bglPolygonOffset(0.0f, 0.0f);
break;
case 1:
bglMatrixMode(GL_MODELVIEW);
bglPushMatrix();
ang = (float)((tspr->ang + 1024) & 2047) / (2048.0f / 360.0f);
bglTranslatef(spos[0], spos[1], spos[2]);
bglRotatef(-ang, 0.0f, 1.0f, 0.0f);
bglTranslatef((float)(-xoff), (float)(yoff), 0.0f);
bglScalef((float)(xsize), (float)(ysize), 1.0f);
prsectors[tspr->sectnum]->wallsproffset += 0.5f;
bglPolygonOffset(-prsectors[tspr->sectnum]->wallsproffset,
-prsectors[tspr->sectnum]->wallsproffset);
break;
case 2:
bglMatrixMode(GL_MODELVIEW);
bglPushMatrix();
ang = (float)((tspr->ang + 1024) & 2047) / (2048.0f / 360.0f);
bglTranslatef(spos[0], spos[1], spos[2]);
bglRotatef(-ang, 0.0f, 1.0f, 0.0f);
bglTranslatef((float)(-xoff), 1.0f, (float)(yoff));
bglScalef((float)(xsize), 1.0f, (float)(ysize));
curspritedata = horizsprite;
prsectors[tspr->sectnum]->floorsproffset += 0.5f;
bglPolygonOffset(-prsectors[tspr->sectnum]->floorsproffset,
-prsectors[tspr->sectnum]->floorsproffset);
break;
}
bglMatrixMode(GL_TEXTURE);
bglLoadIdentity();
if ((tspr->cstat & 4) || (((tspr->cstat>>4) & 3) == 2))
bglScalef(-1.0f, 1.0f, 1.0f);
if (tspr->cstat & 8)
bglScalef(1.0f, -1.0f, 1.0f);
if ((tspr->cstat & 64) && (((tspr->cstat>>4) & 3) == 1))
bglEnable(GL_CULL_FACE);
polymer_drawplane(-1, -3, glpic, color, curspritedata, NULL, 0, NULL);
if ((tspr->cstat & 64) && (((tspr->cstat>>4) & 3) == 1))
bglDisable(GL_CULL_FACE);
bglLoadIdentity();
bglMatrixMode(GL_MODELVIEW);
bglPopMatrix();
}
void polymer_setanimatesprites(animatespritesptr animatesprites, int x, int y, int a, int smoothratio)
{
asi.animatesprites = animatesprites;
asi.x = x;
asi.y = y;
asi.a = a;
asi.smoothratio = smoothratio;
}
// CORE
static void polymer_displayrooms(short dacursectnum)
{
sectortype *sec, *nextsec;
walltype *wal, *nextwal;
_prwall *w;
int i, j;
GLint result;
int front;
int back;
int firstback;
short sectorqueue[MAXSECTORS];
short querydelay[MAXSECTORS];
GLuint queryid[MAXSECTORS];
short drawingstate[MAXSECTORS];
GLdouble localmodelviewmatrix[16];
float frustum[5 * 4];
int localspritesortcnt;
spritetype localtsprite[MAXSPRITESONSCREEN];
short localmaskwall[MAXWALLSB], localmaskwallcnt;
if (depth)
{
curmodelviewmatrix = localmodelviewmatrix;
bglGetDoublev(GL_MODELVIEW_MATRIX, localmodelviewmatrix);
}
else
curmodelviewmatrix = rootmodelviewmatrix;
polymer_extractfrustum(curmodelviewmatrix, projectionmatrix, frustum);
memset(querydelay, 0, sizeof(short) * MAXSECTORS);
memset(queryid, 0, sizeof(GLuint) * MAXSECTORS);
memset(drawingstate, 0, sizeof(short) * MAXSECTORS);
front = 0;
back = 0;
localspritesortcnt = localmaskwallcnt = 0;
polymer_pokesector(dacursectnum);
polymer_drawsector(dacursectnum);
polymer_scansprites(dacursectnum, localtsprite, &localspritesortcnt);
drawingstate[dacursectnum] = 1;
sec = &sector[dacursectnum];
wal = &wall[sec->wallptr];
i = 0;
while (i < sec->wallnum)
{
if (((wallvisible(sec->wallptr + i))) &&
(polymer_portalinfrustum(sec->wallptr + i, frustum)))
{
if (mirrorfrom[depth] != (sec->wallptr + i))
polymer_drawwall(dacursectnum, sec->wallptr + i);
// mask
if ((wal->cstat&48) == 16) localmaskwall[localmaskwallcnt++] = sec->wallptr + i;
if ((wal->nextsector != -1) &&
(drawingstate[wal->nextsector] == 0))
{
sectorqueue[back++] = wal->nextsector;
drawingstate[wal->nextsector] = 1;
}
}
i++;
wal = &wall[sec->wallptr + i];
}
mirrorfrom[depth] = -3;
firstback = back;
while (front != back)
{
if ((front >= firstback) && (pr_occlusionculling))
{
if (querydelay[sectorqueue[front]] == 0)
{
bglGetQueryObjectivARB(queryid[sectorqueue[front]],
GL_QUERY_RESULT_ARB,
&result);
bglDeleteQueriesARB(1, &queryid[sectorqueue[front]]);
if (!result)
{
front++;
continue;
}
else
querydelay[sectorqueue[front]] = pr_occlusionculling-1;
}
else if (querydelay[sectorqueue[front]] == -1)
querydelay[sectorqueue[front]] = pr_occlusionculling-1;
else if (querydelay[sectorqueue[front]])
querydelay[sectorqueue[front]]--;
}
polymer_pokesector(sectorqueue[front]);
polymer_drawsector(sectorqueue[front]);
polymer_scansprites(sectorqueue[front], localtsprite, &localspritesortcnt);
// scan sectors
sec = &sector[sectorqueue[front]];
wal = &wall[sec->wallptr];
i = 0;
while (i < sec->wallnum)
{
if ((wallvisible(sec->wallptr + i)) &&
(polymer_portalinfrustum(sec->wallptr + i, frustum)))
{
polymer_drawwall(sectorqueue[front], sec->wallptr + i);
// mask
if ((wal->cstat&48) == 16) localmaskwall[localmaskwallcnt++] = sec->wallptr + i;
if ((wal->nextsector != -1) &&
(drawingstate[wal->nextsector] == 0))
{
polymer_pokesector(wal->nextsector);
sectorqueue[back++] = wal->nextsector;
drawingstate[wal->nextsector] = 1;
if (pr_occlusionculling && !querydelay[wal->nextsector])
{
nextsec = &sector[wal->nextsector];
nextwal = &wall[nextsec->wallptr];
if ((nextsec->ceilingstat & 1) &&
(nextsec->floorz == nextsec->ceilingz))
{
querydelay[wal->nextsector] = -1;
i++;
wal = &wall[sec->wallptr + i];
continue;
}
bglDisable(GL_TEXTURE_2D);
bglDisable(GL_FOG);
bglColorMask(GL_FALSE, GL_FALSE, GL_FALSE, GL_FALSE);
bglDepthMask(GL_FALSE);
bglGenQueriesARB(1, &queryid[wal->nextsector]);
bglBeginQueryARB(GL_SAMPLES_PASSED_ARB, queryid[wal->nextsector]);
j = 0;
while (j < nextsec->wallnum)
{
if ((nextwal->nextwall == (sec->wallptr + i)) ||
((nextwal->nextwall != -1) &&
(wallvisible(nextwal->nextwall)) &&
(polymer_portalinfrustum(nextwal->nextwall, frustum))))
{
w = prwalls[nextwal->nextwall];
bglVertexPointer(3, GL_FLOAT, 5 * sizeof(GLfloat), w->portal);
bglDrawArrays(GL_QUADS, 0, 4);
if ((w->underover & 1) && (w->underover & 4))
{
bglVertexPointer(3, GL_FLOAT, 5 * sizeof(GLfloat), w->wallbuffer);
bglDrawArrays(GL_QUADS, 0, 4);
}
if ((w->underover & 2) && (w->underover & 8))
{
bglVertexPointer(3, GL_FLOAT, 5 * sizeof(GLfloat), w->overbuffer);
bglDrawArrays(GL_QUADS, 0, 4);
}
}
j++;
nextwal = &wall[nextsec->wallptr + j];
}
bglEndQueryARB(GL_SAMPLES_PASSED_ARB);
bglDepthMask(GL_TRUE);
bglColorMask(GL_TRUE, GL_TRUE, GL_TRUE, GL_TRUE);
bglEnable(GL_FOG);
bglEnable(GL_TEXTURE_2D);
}
}
}
i++;
wal = &wall[sec->wallptr + i];
}
front++;
}
spritesortcnt = localspritesortcnt;
memcpy(tsprite, localtsprite, sizeof(spritetype) * MAXSPRITESONSCREEN);
maskwallcnt = localmaskwallcnt;
memcpy(maskwall, localmaskwall, sizeof(short) * MAXWALLSB);
if (depth)
{
cosglobalang = sintable[(viewangle+512)&2047];
singlobalang = sintable[viewangle&2047];
cosviewingrangeglobalang = mulscale16(cosglobalang,viewingrange);
sinviewingrangeglobalang = mulscale16(singlobalang,viewingrange);
display_mirror = 1;
polymer_animatesprites();
display_mirror = 0;
bglDisable(GL_CULL_FACE);
drawmasks();
bglEnable(GL_CULL_FACE);
bglEnable(GL_BLEND);
}
}
#define OMGDRAWSHIT \
bglVertexPointer(3, GL_FLOAT, 5 * sizeof(GLfloat), buffer); \
bglTexCoordPointer(2, GL_FLOAT, 5 * sizeof(GLfloat), &buffer[3]); \
if (!indices) \
bglDrawArrays(GL_QUADS, 0, 4); \
else \
bglDrawElements(GL_TRIANGLES, indicecount, GL_UNSIGNED_SHORT, indices)
static void polymer_drawplane(short sectnum, short wallnum, GLuint glpic, GLfloat* color, GLfloat* buffer, GLushort* indices, int indicecount, GLdouble* plane)
{
if ((depth < 1) && (plane != NULL) &&
(wallnum >= 0) && (wall[wallnum].overpicnum == 560)) // insert mirror condition here
{
int gx, gy, gz, px, py, pz;
float coeff;
// set the stencil to 1 and clear the area to black where the sector floor is
bglDisable(GL_TEXTURE_2D);
bglDisable(GL_FOG);
bglColor4f(0.0f, 1.0f, 0.0f, 1.0f);
bglDepthMask(GL_FALSE);
bglEnable(GL_STENCIL_TEST);
bglStencilOp(GL_KEEP, GL_KEEP, GL_INCR);
bglStencilFunc(GL_EQUAL, 0, 0xffffffff);
OMGDRAWSHIT;
bglDepthMask(GL_TRUE);
// set the depth to 1 where we put the stencil by drawing a screen aligned quad
bglStencilFunc(GL_EQUAL, 1, 0xffffffff);
bglStencilOp(GL_KEEP, GL_KEEP, GL_KEEP);
bglDepthFunc(GL_ALWAYS);
bglMatrixMode(GL_PROJECTION);
bglPushMatrix();
bglLoadIdentity();
bglMatrixMode(GL_MODELVIEW);
bglPushMatrix();
bglLoadIdentity();
bglColor4f(0.0f, 0.0f, 0.0f, 1.0f);
bglBegin(GL_QUADS);
bglVertex3f(-1.0f, -1.0f, 1.0f);
bglVertex3f(1.0f, -1.0f, 1.0f);
bglVertex3f(1.0f, 1.0f, 1.0f);
bglVertex3f(-1.0f, 1.0f, 1.0f);
bglEnd();
bglMatrixMode(GL_PROJECTION);
bglPopMatrix();
bglMatrixMode(GL_MODELVIEW);
bglPopMatrix();
bglDepthFunc(GL_LEQUAL);
bglEnable(GL_TEXTURE_2D);
bglEnable(GL_FOG);
// finally draw the shit
bglPushMatrix();
bglClipPlane(GL_CLIP_PLANE0, plane);
polymer_inb4mirror(buffer, plane);
bglCullFace(GL_FRONT);
bglEnable(GL_CLIP_PLANE0);
if (wallnum >= 0)
preparemirror(globalposx, globalposy, 0, globalang,
0, wallnum, 0, &gx, &gy, &viewangle);
gx = globalposx;
gy = globalposy;
gz = globalposz;
// map the player pos from build to polymer
px = globalposy;
py = -globalposz / 16;
pz = -globalposx;
// calculate new player position on the other side of the mirror
// this way the basic build visibility shit can be used (wallvisible)
coeff = -plane[0] * px +
-plane[1] * py +
-plane[2] * pz +
-plane[3];
coeff /= (float)(plane[0] * plane[0] +
plane[1] * plane[1] +
plane[2] * plane[2]);
px = coeff*plane[0]*2 + px;
py = coeff*plane[1]*2 + py;
pz = coeff*plane[2]*2 + pz;
// map back from polymer to build
globalposx = -pz;
globalposy = px;
globalposz = -py * 16;
depth++;
mirrorfrom[depth] = wallnum;
polymer_displayrooms(sectnum);
depth--;
globalposx = gx;
globalposy = gy;
globalposz = gz;
bglDisable(GL_CLIP_PLANE0);
bglCullFace(GL_BACK);
bglMatrixMode(GL_MODELVIEW);
bglPopMatrix();
bglColor4f(color[0], color[1], color[2], 0.0f);
}
else
bglColor4f(color[0], color[1], color[2], color[3]);
bglBindTexture(GL_TEXTURE_2D, glpic);
OMGDRAWSHIT;
if ((depth < 1) && (plane != NULL) &&
(wallnum >= 0) && (wall[wallnum].overpicnum == 560)) // insert mirror condition here
{
bglDisable(GL_STENCIL_TEST);
bglClear(GL_STENCIL_BUFFER_BIT);
}
}
static void polymer_inb4mirror(GLfloat* buffer, GLdouble* plane)
{
float pv;
float reflectionmatrix[16];
pv = buffer[0] * plane[0] +
buffer[1] * plane[1] +
buffer[2] * plane[2];
reflectionmatrix[0] = 1 - (2 * plane[0] * plane[0]);
reflectionmatrix[1] = -2 * plane[0] * plane[1];
reflectionmatrix[2] = -2 * plane[0] * plane[2];
reflectionmatrix[3] = 0;
reflectionmatrix[4] = -2 * plane[0] * plane[1];
reflectionmatrix[5] = 1 - (2 * plane[1] * plane[1]);
reflectionmatrix[6] = -2 * plane[1] * plane[2];
reflectionmatrix[7] = 0;
reflectionmatrix[8] = -2 * plane[0] * plane[2];
reflectionmatrix[9] = -2 * plane[1] * plane[2];
reflectionmatrix[10] = 1 - (2 * plane[2] * plane[2]);
reflectionmatrix[11] = 0;
reflectionmatrix[12] = 2 * pv * plane[0];
reflectionmatrix[13] = 2 * pv * plane[1];
reflectionmatrix[14] = 2 * pv * plane[2];
reflectionmatrix[15] = 1;
bglMultMatrixf(reflectionmatrix);
}
static void polymer_animatesprites(void)
{
asi.animatesprites(globalposx, globalposy, viewangle, asi.smoothratio);
}
// SECTORS
static int polymer_initsector(short sectnum)
{
sectortype *sec;
_prsector* s;
if (pr_verbosity >= 2) OSD_Printf("PR : Initalizing sector %i...\n", sectnum);
sec = &sector[sectnum];
s = calloc(1, sizeof(_prsector));
if (s == NULL)
{
if (pr_verbosity >= 1) OSD_Printf("PR : Cannot initialize sector %i : malloc failed.\n", sectnum);
return (0);
}
s->verts = calloc(sec->wallnum, sizeof(GLdouble) * 3);
s->floorbuffer = calloc(sec->wallnum, sizeof(GLfloat) * 5);
s->ceilbuffer = calloc(sec->wallnum, sizeof(GLfloat) * 5);
if ((s->verts == NULL) || (s->floorbuffer == NULL) || (s->ceilbuffer == NULL))
{
if (pr_verbosity >= 1) OSD_Printf("PR : Cannot initialize geometry of sector %i : malloc failed.\n", sectnum);
return (0);
}
s->controlstate = 2; // let updatesector know that everything needs to go
prsectors[sectnum] = s;
if (pr_verbosity >= 2) OSD_Printf("PR : Initalized sector %i.\n", sectnum);
return (1);
}
static int polymer_updatesector(short sectnum)
{
_prsector* s;
sectortype *sec;
walltype *wal;
int i, j;
int ceilz, florz;
int tex, tey;
float secangcos, secangsin, scalecoef;
int ang, needfloor, wallinvalidate;
short curstat, curpicnum, floorpicnum, ceilingpicnum;
char curxpanning, curypanning;
GLfloat* curbuffer;
GLuint *curglpic, *curfbglpic;
pthtyp* pth;
s = prsectors[sectnum];
sec = &sector[sectnum];
secangcos = secangsin = 2;
if (s == NULL)
{
if (pr_verbosity >= 1) OSD_Printf("PR : Can't update uninitialized sector %i.\n", sectnum);
return (-1);
}
needfloor = wallinvalidate = 0;
// geometry
wal = &wall[sec->wallptr];
i = 0;
while (i < sec->wallnum)
{
if ((-wal->x != s->verts[(i*3)+2]))
{
s->verts[(i*3)+2] = s->floorbuffer[(i*5)+2] = s->ceilbuffer[(i*5)+2] = -wal->x;
needfloor = wallinvalidate = 1;
}
if ((wal->y != s->verts[i*3]))
{
s->verts[i*3] = s->floorbuffer[i*5] = s->ceilbuffer[i*5] = wal->y;
needfloor = wallinvalidate = 1;
}
i++;
wal = &wall[sec->wallptr + i];
}
if ((s->controlstate == 2) ||
(sec->floorz != s->floorz) ||
(sec->ceilingz != s->ceilingz) ||
(sec->floorheinum != s->floorheinum) ||
(sec->ceilingheinum != s->ceilingheinum))
{
wallinvalidate = 1;
wal = &wall[sec->wallptr];
i = 0;
while (i < sec->wallnum)
{
getzsofslope(sectnum, wal->x, wal->y, &ceilz, &florz);
s->floorbuffer[(i*5)+1] = -(float)(florz) / 16.0f;
s->ceilbuffer[(i*5)+1] = -(float)(ceilz) / 16.0f;
i++;
wal = &wall[sec->wallptr + i];
}
s->floorz = sec->floorz;
s->ceilingz = sec->ceilingz;
s->floorheinum = sec->floorheinum;
s->ceilingheinum = sec->ceilingheinum;
}
floorpicnum = sec->floorpicnum;
if (picanm[floorpicnum]&192) floorpicnum += animateoffs(floorpicnum,sectnum);
ceilingpicnum = sec->ceilingpicnum;
if (picanm[ceilingpicnum]&192) ceilingpicnum += animateoffs(ceilingpicnum,sectnum);
if ((s->controlstate != 2) && (!needfloor) &&
(sec->floorstat == s->floorstat) &&
(sec->ceilingstat == s->ceilingstat) &&
(floorpicnum == s->floorpicnum) &&
(ceilingpicnum == s->ceilingpicnum) &&
(sec->floorxpanning == s->floorxpanning) &&
(sec->ceilingxpanning == s->ceilingxpanning) &&
(sec->floorypanning == s->floorypanning) &&
(sec->ceilingypanning == s->ceilingypanning))
goto attributes;
wal = &wall[sec->wallptr];
i = 0;
while (i < sec->wallnum)
{
j = 2;
curstat = sec->floorstat;
curbuffer = s->floorbuffer;
curpicnum = floorpicnum;
curxpanning = sec->floorxpanning;
curypanning = sec->floorypanning;
while (j)
{
if (j == 1)
{
curstat = sec->ceilingstat;
curbuffer = s->ceilbuffer;
curpicnum = ceilingpicnum;
curxpanning = sec->ceilingxpanning;
curypanning = sec->ceilingypanning;
}
if (!waloff[curpicnum])
loadtile(curpicnum);
if (((sec->floorstat & 64) || (sec->ceilingstat & 64)) &&
((secangcos == 2) && (secangsin == 2)))
{
ang = (getangle(wall[wal->point2].x - wal->x, wall[wal->point2].y - wal->y) + 512) & 2047;
secangcos = (float)(sintable[(ang+512)&2047]) / 16383.0f;
secangsin = (float)(sintable[ang&2047]) / 16383.0f;
}
tex = (curstat & 64) ? ((wal->x - wall[sec->wallptr].x) * secangsin) + ((-wal->y - -wall[sec->wallptr].y) * secangcos) : wal->x;
tey = (curstat & 64) ? ((wal->x - wall[sec->wallptr].x) * secangcos) - ((wall[sec->wallptr].y - wal->y) * secangsin) : -wal->y;
if (curstat & 4)
swaplong(&tex, &tey);
if (curstat & 16) tex = -tex;
if (curstat & 32) tey = -tey;
scalecoef = (curstat & 8) ? 8.0f : 16.0f;
curbuffer[(i*5)+3] = ((float)(tex) / (scalecoef * tilesizx[curpicnum])) + ((float)(curxpanning) / 256.0f);
curbuffer[(i*5)+4] = ((float)(tey) / (scalecoef * tilesizy[curpicnum])) + ((float)(curypanning) / 256.0f);
j--;
}
i++;
wal = &wall[sec->wallptr + i];
}
s->floorstat = sec->floorstat;
s->ceilingstat = sec->ceilingstat;
s->floorxpanning = sec->floorxpanning;
s->ceilingxpanning = sec->ceilingxpanning;
s->floorypanning = sec->floorypanning;
s->ceilingypanning = sec->ceilingypanning;
attributes:
if ((s->controlstate != 2) &&
(sec->floorshade == s->floorshade) &&
(sec->floorpal == s->floorpal) &&
(floorpicnum == s->floorpicnum) &&
(ceilingpicnum == s->ceilingpicnum))
goto finish;
i = 0;
while (i < sec->wallnum)
{
//attributes
j = 2;
curbuffer = s->floorcolor;
curstat = sec->floorshade;
curxpanning = sec->floorpal;
curpicnum = floorpicnum;
curglpic = &s->floorglpic;
curfbglpic = &s->floorfbglpic;
while (j > 0)
{
if (j == 1)
{
curbuffer = s->ceilcolor;
curstat = sec->ceilingshade;
curxpanning = sec->ceilingpal;
curpicnum = ceilingpicnum;
curglpic = &s->ceilglpic;
curfbglpic = &s->ceilfbglpic;
}
if (!waloff[curpicnum])
loadtile(curpicnum);
curbuffer[0] = curbuffer[1] = curbuffer[2] = ((float)(numpalookups-min(max(curstat,0),numpalookups)))/((float)numpalookups);
curbuffer[3] = 1.0f;
pth = gltexcache(curpicnum,curxpanning,0);
if (pth && (pth->flags & 2) && (pth->palnum != curxpanning))
{
curbuffer[0] *= (float)hictinting[curxpanning].r / 255.0;
curbuffer[1] *= (float)hictinting[curxpanning].g / 255.0;
curbuffer[2] *= (float)hictinting[curxpanning].b / 255.0;
}
*curglpic = (pth) ? pth->glpic : 0;
if (pth && (pth->flags & 16))
*curfbglpic = pth->ofb->glpic;
else
*curfbglpic = 0;
j--;
}
i++;
}
s->floorshade = sec->floorshade;
s->floorpal = sec->floorpal;
s->floorpicnum = floorpicnum;
s->ceilingpicnum = ceilingpicnum;
finish:
if (needfloor)
polymer_buildfloor(sectnum);
if (wallinvalidate)
{
s->invalidid++;
polymer_buffertoplane(s->floorbuffer, s->floorindices, s->indicescount, s->floorplane);
polymer_buffertoplane(s->ceilbuffer, s->ceilindices, s->indicescount, s->ceilplane);
}
s->controlstate = 1;
if (pr_verbosity >= 3) OSD_Printf("PR : Updated sector %i.\n", sectnum);
return (0);
}
void PR_CALLBACK polymer_tesserror(GLenum error)
{
// This callback is called by the tesselator whenever it raises an error.
if (pr_verbosity >= 1) OSD_Printf("PR : Tesselation error number %i reported : %s.\n", error, bgluErrorString(errno));
}
void PR_CALLBACK polymer_tessedgeflag(GLenum error)
{
// Passing an edgeflag callback forces the tesselator to output a triangle list
UNREFERENCED_PARAMETER(error);
return;
}
void PR_CALLBACK polymer_tessvertex(void* vertex, void* sector)
{
_prsector* s;
s = (_prsector*)sector;
if (s->curindice >= s->indicescount)
{
if (pr_verbosity >= 2) OSD_Printf("PR : Indice overflow, extending the indices list... !\n");
s->indicescount++;
s->floorindices = realloc(s->floorindices, s->indicescount * sizeof(GLushort));
s->ceilindices = realloc(s->ceilindices, s->indicescount * sizeof(GLushort));
}
s->ceilindices[s->curindice] = (int)vertex;
s->curindice++;
}
static int polymer_buildfloor(short sectnum)
{
// This function tesselates the floor/ceiling of a sector and stores the triangles in a display list.
_prsector* s;
sectortype *sec;
int i;
if (pr_verbosity >= 2) OSD_Printf("PR : Tesselating floor of sector %i...\n", sectnum);
s = prsectors[sectnum];
sec = &sector[sectnum];
if (s == NULL)
return (-1);
if (s->floorindices == NULL)
{
s->indicescount = (sec->wallnum - 2) * 3;
s->floorindices = calloc(s->indicescount, sizeof(GLushort));
s->ceilindices = calloc(s->indicescount, sizeof(GLushort));
}
s->curindice = 0;
bgluTessCallback(prtess, GLU_TESS_VERTEX_DATA, polymer_tessvertex);
bgluTessCallback(prtess, GLU_TESS_EDGE_FLAG, polymer_tessedgeflag);
bgluTessCallback(prtess, GLU_TESS_ERROR, polymer_tesserror);
bgluTessProperty(prtess, GLU_TESS_WINDING_RULE, GLU_TESS_WINDING_POSITIVE);
bgluTessBeginPolygon(prtess, s);
bgluTessBeginContour(prtess);
i = 0;
while (i < sec->wallnum)
{
bgluTessVertex(prtess, s->verts + (3 * i), (void *)i);
if ((i != (sec->wallnum - 1)) && ((sec->wallptr + i) > wall[sec->wallptr + i].point2))
{
bgluTessEndContour(prtess);
bgluTessBeginContour(prtess);
}
i++;
}
bgluTessEndContour(prtess);
bgluTessEndPolygon(prtess);
i = 0;
while (i < s->indicescount)
{
s->floorindices[s->indicescount - i - 1] = s->ceilindices[i];
i++;
}
if (pr_verbosity >= 2) OSD_Printf("PR : Tesselated floor of sector %i.\n", sectnum);
return (1);
}
static void polymer_drawsector(short sectnum)
{
sectortype *sec;
_prsector* s;
if (pr_verbosity >= 3) OSD_Printf("PR : Drawing sector %i...\n", sectnum);
sec = &sector[sectnum];
s = prsectors[sectnum];
if (!(sec->floorstat & 1) && (mirrorfrom[depth] != -2))
polymer_drawplane(sectnum, -2, s->floorglpic, s->floorcolor,
s->floorbuffer, s->floorindices, s->indicescount,
s->floorplane);
if (!(sec->ceilingstat & 1) && (mirrorfrom[depth] != -1))
polymer_drawplane(sectnum, -1, s->ceilglpic, s->ceilcolor,
s->ceilbuffer, s->ceilindices, s->indicescount,
s->ceilplane);
if (pr_verbosity >= 3) OSD_Printf("PR : Finished drawing sector %i...\n", sectnum);
}
// WALLS
static int polymer_initwall(short wallnum)
{
_prwall *w;
if (pr_verbosity >= 2) OSD_Printf("PR : Initalizing wall %i...\n", wallnum);
w = calloc(1, sizeof(_prwall));
if (w == NULL)
{
if (pr_verbosity >= 1) OSD_Printf("PR : Cannot initialize wall %i : malloc failed.\n", wallnum);
return (0);
}
if (w->portal == NULL)
w->portal = calloc(4, sizeof(GLfloat) * 5);
if (w->bigportal == NULL)
w->bigportal = calloc(4, sizeof(GLfloat) * 3);
if (w->cap == NULL)
w->cap = calloc(4, sizeof(GLfloat) * 3);
w->controlstate = 2;
prwalls[wallnum] = w;
if (pr_verbosity >= 2) OSD_Printf("PR : Initalized wall %i.\n", wallnum);
return (1);
}
static void polymer_updatewall(short wallnum)
{
short nwallnum, nnwallnum, curpicnum, wallpicnum, walloverpicnum, nwallpicnum;
char curxpanning, curypanning, underwall, overwall;
walltype *wal;
sectortype *sec, *nsec;
_prwall *w;
_prsector *s, *ns;
pthtyp* pth;
int xref, yref;
float ypancoef, dist;
int i;
unsigned int invalid;
// yes, this function is messy and unefficient
// it also works, bitches
wal = &wall[wallnum];
nwallnum = wal->nextwall;
sec = &sector[sectorofwall(wallnum)];
w = prwalls[wallnum];
s = prsectors[sectorofwall(wallnum)];
invalid = s->invalidid;
if (nwallnum != -1)
{
ns = prsectors[wal->nextsector];
invalid += ns->invalidid;
nsec = &sector[wal->nextsector];
}
else
{
ns = NULL;
nsec = NULL;
}
if (w->wallbuffer == NULL)
w->wallbuffer = calloc(4, sizeof(GLfloat) * 5);
wallpicnum = wal->picnum;
if (picanm[wallpicnum]&192) wallpicnum += animateoffs(wallpicnum,wallnum+16384);
walloverpicnum = wal->overpicnum;
if (picanm[walloverpicnum]&192) walloverpicnum += animateoffs(walloverpicnum,wallnum+16384);
if (nwallnum != -1)
{
nwallpicnum = wall[nwallnum].picnum;
if (picanm[nwallpicnum]&192) nwallpicnum += animateoffs(nwallpicnum,wallnum+16384);
}
else
nwallpicnum = 0;
if ((w->controlstate != 2) &&
(w->invalidid == invalid) &&
(wal->cstat == w->cstat) &&
(wallpicnum == w->picnum) &&
(wal->pal == w->pal) &&
(wal->xpanning == w->xpanning) &&
(wal->ypanning == w->ypanning) &&
(wal->xrepeat == w->xrepeat) &&
(wal->yrepeat == w->yrepeat) &&
(walloverpicnum == w->overpicnum) &&
(wal->shade == w->shade) &&
((nwallnum == -1) ||
((nwallpicnum == w->nwallpicnum) &&
(wall[nwallnum].xpanning == w->nwallxpanning) &&
(wall[nwallnum].ypanning == w->nwallypanning) &&
(wall[nwallnum].cstat == w->nwallcstat))))
{
w->controlstate = 1;
return; // screw you guys I'm going home
}
else
{
w->invalidid = invalid;
w->cstat = wal->cstat;
w->picnum = wallpicnum;
w->pal = wal->pal;
w->xpanning = wal->xpanning;
w->ypanning = wal->ypanning;
w->xrepeat = wal->xrepeat;
w->yrepeat = wal->yrepeat;
w->overpicnum = walloverpicnum;
w->shade = wal->shade;
if (nwallnum != -1)
{
w->nwallpicnum = nwallpicnum;
w->nwallxpanning = wall[nwallnum].xpanning;
w->nwallypanning = wall[nwallnum].ypanning;
w->nwallcstat = wall[nwallnum].cstat;
}
}
w->underover = underwall = overwall = 0;
w->wallcolor[0] = w->wallcolor[1] = w->wallcolor[2] = ((float)(numpalookups-min(max(wal->shade,0),numpalookups)))/((float)numpalookups);
w->wallcolor[3] = 1.0f;
if (wal->cstat & 8)
xref = 1;
else
xref = 0;
if ((wal->nextsector == -1) || (wal->cstat & 32))
{
memcpy(w->wallbuffer, &s->floorbuffer[(wallnum - sec->wallptr) * 5], sizeof(GLfloat) * 3);
memcpy(&w->wallbuffer[5], &s->floorbuffer[(wal->point2 - sec->wallptr) * 5], sizeof(GLfloat) * 3);
memcpy(&w->wallbuffer[10], &s->ceilbuffer[(wal->point2 - sec->wallptr) * 5], sizeof(GLfloat) * 3);
memcpy(&w->wallbuffer[15], &s->ceilbuffer[(wallnum - sec->wallptr) * 5], sizeof(GLfloat) * 3);
curpicnum = wallpicnum;
if (!waloff[curpicnum])
loadtile(curpicnum);
pth = gltexcache(curpicnum, wal->pal, 0);
w->wallglpic = pth ? pth->glpic : 0;
if (pth && (pth->flags & 16))
w->wallfbglpic = pth->ofb->glpic;
else
w->wallfbglpic = 0;
if (pth && (pth->flags & 2) && (pth->palnum != wal->pal))
{
w->wallcolor[0] *= (float)hictinting[wal->pal].r / 255.0;
w->wallcolor[1] *= (float)hictinting[wal->pal].g / 255.0;
w->wallcolor[2] *= (float)hictinting[wal->pal].b / 255.0;
}
if (wal->cstat & 4)
yref = sec->floorz;
else
yref = sec->ceilingz;
if ((wal->cstat & 32) && (wal->nextsector != -1))
{
if ((!(wal->cstat & 2) && (wal->cstat & 4)) || ((wal->cstat & 2) && (wall[nwallnum].cstat & 4)))
yref = sec->ceilingz;
else
yref = nsec->floorz;
}
if (wal->ypanning)
{
ypancoef = (float)(pow2long[picsiz[curpicnum] >> 4]);
if (ypancoef < tilesizy[curpicnum])
ypancoef *= 2;
ypancoef *= (float)(wal->ypanning) / (256.0f * (float)(tilesizy[curpicnum]));
}
else
ypancoef = 0;
i = 0;
while (i < 4)
{
if ((i == 0) || (i == 3))
dist = xref;
else
dist = (xref == 0);
w->wallbuffer[(i * 5) + 3] = ((dist * 8.0f * wal->xrepeat) + wal->xpanning) / (float)(tilesizx[curpicnum]);
w->wallbuffer[(i * 5) + 4] = (-(float)(yref + (w->wallbuffer[(i * 5) + 1] * 16)) / ((tilesizy[curpicnum] * 2048.0f) / (float)(wal->yrepeat))) + ypancoef;
if (wal->cstat & 256) w->wallbuffer[(i * 5) + 4] = -w->wallbuffer[(i * 5) + 4];
i++;
}
w->underover |= 1;
}
else
{
nnwallnum = wall[nwallnum].point2;
if (((s->floorbuffer[((wallnum - sec->wallptr) * 5) + 1] != ns->floorbuffer[((nnwallnum - nsec->wallptr) * 5) + 1]) ||
(s->floorbuffer[((wal->point2 - sec->wallptr) * 5) + 1] != ns->floorbuffer[((nwallnum - nsec->wallptr) * 5) + 1])) &&
((s->floorbuffer[((wallnum - sec->wallptr) * 5) + 1] <= ns->floorbuffer[((nnwallnum - nsec->wallptr) * 5) + 1]) ||
(s->floorbuffer[((wal->point2 - sec->wallptr) * 5) + 1] <= ns->floorbuffer[((nwallnum - nsec->wallptr) * 5) + 1])))
underwall = 1;
if ((underwall) || (wal->cstat & 16))
{
memcpy(w->wallbuffer, &s->floorbuffer[(wallnum - sec->wallptr) * 5], sizeof(GLfloat) * 3);
memcpy(&w->wallbuffer[5], &s->floorbuffer[(wal->point2 - sec->wallptr) * 5], sizeof(GLfloat) * 3);
memcpy(&w->wallbuffer[10], &ns->floorbuffer[(nwallnum - nsec->wallptr) * 5], sizeof(GLfloat) * 3);
memcpy(&w->wallbuffer[15], &ns->floorbuffer[(nnwallnum - nsec->wallptr) * 5], sizeof(GLfloat) * 3);
if (wal->cstat & 2)
{
curpicnum = nwallpicnum;
curxpanning = wall[nwallnum].xpanning;
curypanning = wall[nwallnum].ypanning;
}
else
{
curpicnum = wallpicnum;
curxpanning = wal->xpanning;
curypanning = wal->ypanning;
}
if (!waloff[curpicnum])
loadtile(curpicnum);
pth = gltexcache(curpicnum, wal->pal, 0);
w->wallglpic = pth ? pth->glpic : 0;
if (pth && (pth->flags & 16))
w->wallfbglpic = pth->ofb->glpic;
else
w->wallfbglpic = 0;
if (pth && (pth->flags & 2) && (pth->palnum != wal->pal))
{
w->wallcolor[0] *= (float)hictinting[wal->pal].r / 255.0;
w->wallcolor[1] *= (float)hictinting[wal->pal].g / 255.0;
w->wallcolor[2] *= (float)hictinting[wal->pal].b / 255.0;
}
if ((!(wal->cstat & 2) && (wal->cstat & 4)) || ((wal->cstat & 2) && (wall[nwallnum].cstat & 4)))
yref = sec->ceilingz;
else
yref = nsec->floorz;
if (curypanning)
{
ypancoef = (float)(pow2long[picsiz[curpicnum] >> 4]);
if (ypancoef < tilesizy[curpicnum])
ypancoef *= 2;
ypancoef *= (float)(curypanning) / (256.0f * (float)(tilesizy[curpicnum]));
}
else
ypancoef = 0;
i = 0;
while (i < 4)
{
if ((i == 0) || (i == 3))
dist = xref;
else
dist = (xref == 0);
w->wallbuffer[(i * 5) + 3] = ((dist * 8.0f * wal->xrepeat) + curxpanning) / (float)(tilesizx[curpicnum]);
w->wallbuffer[(i * 5) + 4] = (-(float)(yref + (w->wallbuffer[(i * 5) + 1] * 16)) / ((tilesizy[curpicnum] * 2048.0f) / (float)(wal->yrepeat))) + ypancoef;
if (wal->cstat & 256) w->wallbuffer[(i * 5) + 4] = -w->wallbuffer[(i * 5) + 4];
i++;
}
if (underwall)
{
w->underover |= 1;
if ((sec->floorstat & 1) && (nsec->floorstat & 1))
w->underover |= 4;
}
memcpy(w->portal, &w->wallbuffer[15], sizeof(GLfloat) * 5);
memcpy(&w->portal[5], &w->wallbuffer[10], sizeof(GLfloat) * 5);
}
else
{
memcpy(w->portal, &s->floorbuffer[(wallnum - sec->wallptr) * 5], sizeof(GLfloat) * 5);
memcpy(&w->portal[5], &s->floorbuffer[(wal->point2 - sec->wallptr) * 5], sizeof(GLfloat) * 5);
}
if (((s->ceilbuffer[((wallnum - sec->wallptr) * 5) + 1] != ns->ceilbuffer[((nnwallnum - nsec->wallptr) * 5) + 1]) ||
(s->ceilbuffer[((wal->point2 - sec->wallptr) * 5) + 1] != ns->ceilbuffer[((nwallnum - nsec->wallptr) * 5) + 1])) &&
((s->ceilbuffer[((wallnum - sec->wallptr) * 5) + 1] >= ns->ceilbuffer[((nnwallnum - nsec->wallptr) * 5) + 1]) ||
(s->ceilbuffer[((wal->point2 - sec->wallptr) * 5) + 1] >= ns->ceilbuffer[((nwallnum - nsec->wallptr) * 5) + 1])))
overwall = 1;
if ((overwall) || (wal->cstat & 16))
{
if (w->overbuffer == NULL)
w->overbuffer = calloc(4, sizeof(GLfloat) * 5);
memcpy(w->overbuffer, &ns->ceilbuffer[(nnwallnum - nsec->wallptr) * 5], sizeof(GLfloat) * 3);
memcpy(&w->overbuffer[5], &ns->ceilbuffer[(nwallnum - nsec->wallptr) * 5], sizeof(GLfloat) * 3);
memcpy(&w->overbuffer[10], &s->ceilbuffer[(wal->point2 - sec->wallptr) * 5], sizeof(GLfloat) * 3);
memcpy(&w->overbuffer[15], &s->ceilbuffer[(wallnum - sec->wallptr) * 5], sizeof(GLfloat) * 3);
if ((wal->cstat & 16) || (wal->overpicnum == 0))
curpicnum = wallpicnum;
else
curpicnum = wallpicnum;
if (!waloff[curpicnum])
loadtile(curpicnum);
if (wal->cstat & 16)
{
// mask glpic and color
if (!waloff[wal->overpicnum])
loadtile(wal->overpicnum);
pth = gltexcache(wal->overpicnum, wal->pal, 0);
w->maskglpic = pth ? pth->glpic : 0;
memcpy(w->maskcolor, w->wallcolor, sizeof(GLfloat) * 3);
if (pth && (pth->flags & 2) && (pth->palnum != wal->pal))
{
w->maskcolor[0] *= (float)hictinting[wal->pal].r / 255.0;
w->maskcolor[1] *= (float)hictinting[wal->pal].g / 255.0;
w->maskcolor[2] *= (float)hictinting[wal->pal].b / 255.0;
}
if (wal->cstat & 128)
{
if (wal->cstat & 512)
w->maskcolor[3] = 0.33f;
else
w->maskcolor[3] = 0.66f;
}
else
w->maskcolor[3] = 1.0f;
}
pth = gltexcache(curpicnum, wal->pal, 0);
w->overglpic = pth ? pth->glpic : 0;
if (pth && (pth->flags & 16))
w->overfbglpic = pth->ofb->glpic;
else
w->overfbglpic = 0;
memcpy(w->overcolor, w->wallcolor, sizeof(GLfloat) * 4);
if (pth && (pth->flags & 2) && (pth->palnum != wal->pal))
{
w->overcolor[0] *= (float)hictinting[wal->pal].r / 255.0;
w->overcolor[1] *= (float)hictinting[wal->pal].g / 255.0;
w->overcolor[2] *= (float)hictinting[wal->pal].b / 255.0;
}
if (wal->cstat & 4)
yref = sec->ceilingz;
else
yref = nsec->ceilingz;
if (wal->ypanning)
{
ypancoef = (float)(pow2long[picsiz[curpicnum] >> 4]);
if (ypancoef < tilesizy[curpicnum])
ypancoef *= 2;
ypancoef *= (float)(wal->ypanning) / (256.0f * (float)(tilesizy[curpicnum]));
}
else
ypancoef = 0;
i = 0;
while (i < 4)
{
if ((i == 0) || (i == 3))
dist = xref;
else
dist = (xref == 0);
w->overbuffer[(i * 5) + 3] = ((dist * 8.0f * wal->xrepeat) + wal->xpanning) / (float)(tilesizx[curpicnum]);
w->overbuffer[(i * 5) + 4] = (-(float)(yref + (w->overbuffer[(i * 5) + 1] * 16)) / ((tilesizy[curpicnum] * 2048.0f) / (float)(wal->yrepeat))) + ypancoef;
if (wal->cstat & 256) w->overbuffer[(i * 5) + 4] = -w->overbuffer[(i * 5) + 4];
i++;
}
if (overwall)
{
w->underover |= 2;
if ((sec->ceilingstat & 1) && (nsec->ceilingstat & 1))
w->underover |= 8;
}
memcpy(&w->portal[10], &w->overbuffer[5], sizeof(GLfloat) * 5);
memcpy(&w->portal[15], &w->overbuffer[0], sizeof(GLfloat) * 5);
if (wal->cstat & 16)
{
// mask wall pass
if (wal->cstat & 4)
yref = min(sec->floorz, nsec->floorz);
else
yref = max(sec->ceilingz, nsec->ceilingz);
curpicnum = wal->overpicnum;
if (wal->ypanning)
{
ypancoef = (float)(pow2long[picsiz[curpicnum] >> 4]);
if (ypancoef < tilesizy[curpicnum])
ypancoef *= 2;
ypancoef *= (float)(wal->ypanning) / (256.0f * (float)(tilesizy[curpicnum]));
}
else
ypancoef = 0;
i = 0;
while (i < 4)
{
if ((i == 0) || (i == 3))
dist = xref;
else
dist = (xref == 0);
w->portal[(i * 5) + 3] = ((dist * 8.0f * wal->xrepeat) + wal->xpanning) / (float)(tilesizx[curpicnum]);
w->portal[(i * 5) + 4] = (-(float)(yref + (w->portal[(i * 5) + 1] * 16)) / ((tilesizy[curpicnum] * 2048.0f) / (float)(wal->yrepeat))) + ypancoef;
if (wal->cstat & 256) w->portal[(i * 5) + 4] = -w->portal[(i * 5) + 4];
i++;
}
}
}
else
{
memcpy(&w->portal[10], &s->ceilbuffer[(wal->point2 - sec->wallptr) * 5], sizeof(GLfloat) * 5);
memcpy(&w->portal[15], &s->ceilbuffer[(wallnum - sec->wallptr) * 5], sizeof(GLfloat) * 5);
}
}
if ((wal->nextsector == -1) || (wal->cstat & 32))
memcpy(w->portal, w->wallbuffer, sizeof(GLfloat) * 4 * 5);
memcpy(w->bigportal, &s->floorbuffer[(wallnum - sec->wallptr) * 5], sizeof(GLfloat) * 3);
memcpy(&w->bigportal[3], &s->floorbuffer[(wal->point2 - sec->wallptr) * 5], sizeof(GLfloat) * 3);
memcpy(&w->bigportal[6], &s->ceilbuffer[(wal->point2 - sec->wallptr) * 5], sizeof(GLfloat) * 3);
memcpy(&w->bigportal[9], &s->ceilbuffer[(wallnum - sec->wallptr) * 5], sizeof(GLfloat) * 3);
memcpy(&w->cap[0], &s->ceilbuffer[(wallnum - sec->wallptr) * 5], sizeof(GLfloat) * 3);
memcpy(&w->cap[3], &s->ceilbuffer[(wal->point2 - sec->wallptr) * 5], sizeof(GLfloat) * 3);
memcpy(&w->cap[6], &s->ceilbuffer[(wal->point2 - sec->wallptr) * 5], sizeof(GLfloat) * 3);
memcpy(&w->cap[9], &s->ceilbuffer[(wallnum - sec->wallptr) * 5], sizeof(GLfloat) * 3);
w->cap[7] += 1048576; // this number is the result of 1048574 + 2
w->cap[10] += 1048576; // this one is arbitrary
polymer_buffertoplane(w->bigportal, NULL, 4, w->plane);
w->controlstate = 1;
if (pr_verbosity >= 3) OSD_Printf("PR : Updated wall %i.\n", wallnum);
}
static void polymer_drawwall(short sectnum, short wallnum)
{
_prwall *w;
if (pr_verbosity >= 3) OSD_Printf("PR : Drawing wall %i...\n", wallnum);
w = prwalls[wallnum];
if ((w->underover & 1) && !(w->underover & 4))
{
polymer_drawplane(sectnum, wallnum, w->wallglpic, w->wallcolor,
w->wallbuffer, NULL, 0, w->plane);
}
if ((w->underover & 2) && !(w->underover & 8))
{
polymer_drawplane(sectnum, wallnum, w->overglpic, w->overcolor,
w->overbuffer, NULL, 0, w->plane);
}
if ((sector[sectnum].ceilingstat & 1) &&
((wall[wallnum].nextsector == -1) ||
!(sector[wall[wallnum].nextsector].ceilingstat & 1)))
{
bglColorMask(GL_FALSE, GL_FALSE, GL_FALSE, GL_FALSE);
bglVertexPointer(3, GL_FLOAT, 0, w->cap);
bglDrawArrays(GL_QUADS, 0, 4);
bglColorMask(GL_TRUE, GL_TRUE, GL_TRUE, GL_TRUE);
}
if (pr_verbosity >= 3) OSD_Printf("PR : Finished drawing wall %i...\n", wallnum);
}
#define INDICE(n) ((indices) ? (indices[i+n]*5) : ((i+n)*3))
// HSR
static void polymer_buffertoplane(GLfloat* buffer, GLushort* indices, int indicecount, GLdouble* plane)
{
GLfloat vec1[3], vec2[3];
int i;
i = 0;
do {
vec1[0] = buffer[(INDICE(1)) + 0] - buffer[(INDICE(0)) + 0];
vec1[1] = buffer[(INDICE(1)) + 1] - buffer[(INDICE(0)) + 1];
vec1[2] = buffer[(INDICE(1)) + 2] - buffer[(INDICE(0)) + 2];
vec2[0] = buffer[(INDICE(2)) + 0] - buffer[(INDICE(1)) + 0];
vec2[1] = buffer[(INDICE(2)) + 1] - buffer[(INDICE(1)) + 1];
vec2[2] = buffer[(INDICE(2)) + 2] - buffer[(INDICE(1)) + 2];
polymer_crossproduct(vec2, vec1, plane);
// normalize
vec1[0] = plane[0] * plane[0] + plane[1] * plane[1] + plane[2] * plane[2];
i+= 3;
}
while ((i < indicecount) && (vec1[0] == 0));
vec1[0] = sqrt(vec1[0]);
plane[0] /= vec1[0];
plane[1] /= vec1[0];
plane[2] /= vec1[0];
plane[3] = -(plane[0] * buffer[0] + plane[1] * buffer[1] + plane[2] * buffer[2]);
}
static void polymer_crossproduct(GLfloat* in_a, GLfloat* in_b, GLdouble* out)
{
out[0] = in_a[1] * in_b[2] - in_a[2] * in_b[1];
out[1] = in_a[2] * in_b[0] - in_a[0] * in_b[2];
out[2] = in_a[0] * in_b[1] - in_a[1] * in_b[0];
}
static void polymer_pokesector(short sectnum)
{
sectortype *sec;
_prsector *s;
walltype *wal;
int i;
sec = &sector[sectnum];
s = prsectors[sectnum];
wal = &wall[sec->wallptr];
if (!s->controlstate)
polymer_updatesector(sectnum);
i = 0;
while (i < sec->wallnum)
{
if ((wal->nextsector != -1) && (!prsectors[wal->nextsector]->controlstate))
polymer_updatesector(wal->nextsector);
if (!prwalls[sec->wallptr + i]->controlstate)
polymer_updatewall(sec->wallptr + i);
i++;
wal = &wall[sec->wallptr + i];
}
}
static void polymer_extractfrustum(GLdouble* modelview, GLdouble* projection, float* frustum)
{
GLdouble matrix[16];
int i;
bglMatrixMode(GL_TEXTURE);
bglLoadMatrixd(projection);
bglMultMatrixd(modelview);
bglGetDoublev(GL_TEXTURE_MATRIX, matrix);
bglLoadIdentity();
bglMatrixMode(GL_MODELVIEW);
i = 0;
while (i < 4)
{
frustum[i] = matrix[(4 * i) + 3] + matrix[4 * i]; // left
frustum[i + 4] = matrix[(4 * i) + 3] - matrix[4 * i]; // right
frustum[i + 8] = matrix[(4 * i) + 3] - matrix[(4 * i) + 1]; // top
frustum[i + 12] = matrix[(4 * i) + 3] + matrix[(4 * i) + 1]; // bottom
frustum[i + 16] = matrix[(4 * i) + 3] + matrix[(4 * i) + 2]; // near
i++;
}
i = 0;
if (pr_verbosity >= 3) OSD_Printf("PR : Frustum extracted.\n");
}
static int polymer_portalinfrustum(short wallnum, float* frustum)
{
int i, j, k;
float sqdist;
_prwall *w;
w = prwalls[wallnum];
i = 0;
while (i < 4)
{
j = k = 0;
while (j < 4)
{
sqdist = frustum[(i * 4) + 0] * w->bigportal[(j * 3) + 0] +
frustum[(i * 4) + 1] * w->bigportal[(j * 3) + 1] +
frustum[(i * 4) + 2] * w->bigportal[(j * 3) + 2] +
frustum[(i * 4) + 3];
if (sqdist < 0)
k++;
j++;
}
if (k == 4)
return (0); // OUT !
i++;
}
return (1);
}
static void polymer_scansprites(short sectnum, spritetype* localtsprite, int* localspritesortcnt)
{
int i;
spritetype *spr;
for (i = headspritesect[sectnum];i >=0;i = nextspritesect[i])
{
spr = &sprite[i];
if ((((spr->cstat&0x8000) == 0) || (showinvisibility)) &&
(spr->xrepeat > 0) && (spr->yrepeat > 0) &&
(*localspritesortcnt < MAXSPRITESONSCREEN))
{
copybufbyte(spr,&localtsprite[*localspritesortcnt],sizeof(spritetype));
localtsprite[(*localspritesortcnt)++].owner = i;
}
}
}
// SKIES
static void polymer_initskybox(void)
{
GLfloat halfsqrt2 = 0.70710678f;
skybox[0] = -1.0f; skybox[1] = 0.0f; // 0
skybox[2] = -halfsqrt2; skybox[3] = halfsqrt2; // 1
skybox[4] = 0.0f; skybox[5] = 1.0f; // 2
skybox[6] = halfsqrt2; skybox[7] = halfsqrt2; // 3
skybox[8] = 1.0f; skybox[9] = 0.0f; // 4
skybox[10] = halfsqrt2; skybox[11] = -halfsqrt2; // 5
skybox[12] = 0.0f; skybox[13] = -1.0f; // 6
skybox[14] = -halfsqrt2; skybox[15] = -halfsqrt2; // 7
/*skybox[0] = -1.0f; skybox[1] = 0.0f; // 0
skybox[2] = -1.0f; skybox[3] = 1.0; // 1
skybox[4] = 0.0f; skybox[5] = 1.0f; // 2
skybox[6] = 1.0f; skybox[7] = 1.0f; // 3
skybox[8] = 1.0f; skybox[9] = 0.0f; // 4
skybox[10] = 1.0; skybox[11] = -1.0; // 5
skybox[12] = 0.0f; skybox[13] = -1.0f; // 6
skybox[14] = -1.0; skybox[15] = -1.0; // 7*/
}
static void polymer_getsky(void)
{
int i;
i = 0;
while (i < numsectors)
{
if (sector[i].ceilingstat & 1)
{
cursky = sector[i].ceilingpicnum;
return;
}
i++;
}
}
static void polymer_drawskyquad(int p1, int p2, GLfloat height)
{
bglBegin(GL_QUADS);
bglTexCoord2f(0.0f, 0.0f);
//OSD_Printf("PR: drawing %f %f %f\n", skybox[(p1 * 2) + 1], height, skybox[p1 * 2]);
bglVertex3f(skybox[(p1 * 2) + 1], height, skybox[p1 * 2]);
bglTexCoord2f(0.0f, 1.0f);
//OSD_Printf("PR: drawing %f %f %f\n", skybox[(p1 * 2) + 1], -height, skybox[p1 * 2]);
bglVertex3f(skybox[(p1 * 2) + 1], -height, skybox[p1 * 2]);
bglTexCoord2f(1.0f, 1.0f);
//OSD_Printf("PR: drawing %f %f %f\n", skybox[(p2 * 2) + 1], -height, skybox[p2 * 2]);
bglVertex3f(skybox[(p2 * 2) + 1], -height, skybox[p2 * 2]);
bglTexCoord2f(1.0f, 0.0f);
//OSD_Printf("PR: drawing %f %f %f\n", skybox[(p2 * 2) + 1], height, skybox[p2 * 2]);
bglVertex3f(skybox[(p2 * 2) + 1], height, skybox[p2 * 2]);
bglEnd();
}
static void polymer_drawartsky(short tilenum)
{
pthtyp* pth;
GLuint glpics[5];
int i, j;
GLfloat height = 2.45f / 2.0f;
i = 0;
while (i < 5)
{
if (!waloff[tilenum + i])
loadtile(tilenum + i);
pth = gltexcache(tilenum + i, 0, 0);
glpics[i] = pth ? pth->glpic : 0;
i++;
}
i = 0;
j = (1<<pskybits);
while (i < j)
{
bglBindTexture(GL_TEXTURE_2D, glpics[pskyoff[i]]);
polymer_drawskyquad(i, (i + 1) & (j - 1), height);
i++;
}
}
#endif