#include "quakedef.h"
#include "cl_collision.h"
#include "cl_video.h"
+#include "image.h"
// we need to declare some mouse variables here, because the menu system
// references them even when on a unix system.
cvar_t cl_beams_polygons = {CVAR_SAVE, "cl_beams_polygons", "1"};
cvar_t cl_beams_relative = {CVAR_SAVE, "cl_beams_relative", "1"};
+cvar_t cl_beams_lightatend = {CVAR_SAVE, "cl_beams_lightatend", "0"};
+
+cvar_t cl_noplayershadow = {CVAR_SAVE, "cl_noplayershadow", "0"};
mempool_t *cl_scores_mempool;
mempool_t *cl_refdef_mempool;
}
}
-static const vec3_t nomodelmins = {-16, -16, -16};
-static const vec3_t nomodelmaxs = {16, 16, 16};
+//static const vec3_t nomodelmins = {-16, -16, -16};
+//static const vec3_t nomodelmaxs = {16, 16, 16};
void CL_BoundingBoxForEntity(entity_render_t *ent)
{
if (ent->model)
{
- if (ent->angles[0] || ent->angles[2])
+ //if (ent->angles[0] || ent->angles[2])
+ if (ent->matrix.m[2][0] != 0 || ent->matrix.m[2][1] != 0)
{
// pitch or roll
- VectorAdd(ent->origin, ent->model->rotatedmins, ent->mins);
- VectorAdd(ent->origin, ent->model->rotatedmaxs, ent->maxs);
+ ent->mins[0] = ent->matrix.m[0][3] + ent->model->rotatedmins[0];
+ ent->mins[1] = ent->matrix.m[1][3] + ent->model->rotatedmins[1];
+ ent->mins[2] = ent->matrix.m[2][3] + ent->model->rotatedmins[2];
+ ent->maxs[0] = ent->matrix.m[0][3] + ent->model->rotatedmaxs[0];
+ ent->maxs[1] = ent->matrix.m[1][3] + ent->model->rotatedmaxs[1];
+ ent->maxs[2] = ent->matrix.m[2][3] + ent->model->rotatedmaxs[2];
+ //VectorAdd(ent->origin, ent->model->rotatedmins, ent->mins);
+ //VectorAdd(ent->origin, ent->model->rotatedmaxs, ent->maxs);
}
- else if (ent->angles[1])
+ //else if (ent->angles[1])
+ else if (ent->matrix.m[0][1] != 0 || ent->matrix.m[1][0] != 0)
{
// yaw
- VectorAdd(ent->origin, ent->model->yawmins, ent->mins);
- VectorAdd(ent->origin, ent->model->yawmaxs, ent->maxs);
+ ent->mins[0] = ent->matrix.m[0][3] + ent->model->yawmins[0];
+ ent->mins[1] = ent->matrix.m[1][3] + ent->model->yawmins[1];
+ ent->mins[2] = ent->matrix.m[2][3] + ent->model->yawmins[2];
+ ent->maxs[0] = ent->matrix.m[0][3] + ent->model->yawmaxs[0];
+ ent->maxs[1] = ent->matrix.m[1][3] + ent->model->yawmaxs[1];
+ ent->maxs[2] = ent->matrix.m[2][3] + ent->model->yawmaxs[2];
+ //VectorAdd(ent->origin, ent->model->yawmins, ent->mins);
+ //VectorAdd(ent->origin, ent->model->yawmaxs, ent->maxs);
}
else
{
- VectorAdd(ent->origin, ent->model->normalmins, ent->mins);
- VectorAdd(ent->origin, ent->model->normalmaxs, ent->maxs);
+ ent->mins[0] = ent->matrix.m[0][3] + ent->model->normalmins[0];
+ ent->mins[1] = ent->matrix.m[1][3] + ent->model->normalmins[1];
+ ent->mins[2] = ent->matrix.m[2][3] + ent->model->normalmins[2];
+ ent->maxs[0] = ent->matrix.m[0][3] + ent->model->normalmaxs[0];
+ ent->maxs[1] = ent->matrix.m[1][3] + ent->model->normalmaxs[1];
+ ent->maxs[2] = ent->matrix.m[2][3] + ent->model->normalmaxs[2];
+ //VectorAdd(ent->origin, ent->model->normalmins, ent->mins);
+ //VectorAdd(ent->origin, ent->model->normalmaxs, ent->maxs);
}
}
else
{
- VectorAdd(ent->origin, nomodelmins, ent->mins);
- VectorAdd(ent->origin, nomodelmaxs, ent->maxs);
+ ent->mins[0] = ent->matrix.m[0][3] - 16;
+ ent->mins[1] = ent->matrix.m[1][3] - 16;
+ ent->mins[2] = ent->matrix.m[2][3] - 16;
+ ent->maxs[0] = ent->matrix.m[0][3] + 16;
+ ent->maxs[1] = ent->matrix.m[1][3] + 16;
+ ent->maxs[2] = ent->matrix.m[2][3] + 16;
+ //VectorAdd(ent->origin, nomodelmins, ent->mins);
+ //VectorAdd(ent->origin, nomodelmaxs, ent->maxs);
}
}
//Con_Printf("dlight %i : %f %f %f : %f %f %f\n", i, org[0], org[1], org[2], red * radius, green * radius, blue * radius);
memset (dl, 0, sizeof(*dl));
dl->ent = ent;
- VectorCopy(org, dl->origin);
+ Mod_FindNonSolidLocation(org, dl->origin, cl.worldmodel, 6);
+ //VectorCopy(org, dl->origin);
dl->radius = radius;
dl->color[0] = red;
dl->color[1] = green;
void CL_RelinkWorld (void)
{
+ entity_t *ent = &cl_entities[0];
if (cl_num_entities < 1)
cl_num_entities = 1;
- cl_brushmodel_entities[cl_num_brushmodel_entities++] = &cl_entities[0].render;
- CL_BoundingBoxForEntity(&cl_entities[0].render);
+ cl_brushmodel_entities[cl_num_brushmodel_entities++] = &ent->render;
+ Matrix4x4_CreateIdentity(&ent->render.matrix);
+ Matrix4x4_CreateIdentity(&ent->render.inversematrix);
+ CL_BoundingBoxForEntity(&ent->render);
}
static void CL_RelinkStaticEntities(void)
===============
*/
extern qboolean Nehahrademcompatibility;
+#define MAXVIEWMODELS 32
+entity_t *viewmodels[MAXVIEWMODELS];
+int numviewmodels;
static void CL_RelinkNetworkEntities(void)
{
entity_t *ent;
float d, bobjrotate, bobjoffset, lerp;
vec3_t oldorg, neworg, delta, dlightcolor, v, v2, mins, maxs;
+ numviewmodels = 0;
+
bobjrotate = ANGLEMOD(100*cl.time);
if (cl_itembobheight.value)
bobjoffset = (cos(cl.time * cl_itembobspeed.value * (2.0 * M_PI)) + 1.0) * 0.5 * cl_itembobheight.value;
}
}
+ if (!ent->render.model || ent->render.model->type != mod_brush)
+ ent->render.angles[0] = -ent->render.angles[0];
+
VectorCopy (neworg, ent->persistent.trail_origin);
// persistent.modelindex will be updated by CL_LerpUpdate
if (ent->state_current.modelindex != ent->persistent.modelindex || !ent->state_previous.active)
ent->render.alpha = ent->state_current.alpha * (1.0f / 255.0f); // FIXME: interpolate?
ent->render.scale = ent->state_current.scale * (1.0f / 16.0f); // FIXME: interpolate?
+ if (ent->render.model && ent->render.model->flags & EF_ROTATE)
+ {
+ ent->render.angles[1] = bobjrotate;
+ ent->render.origin[2] += bobjoffset;
+ }
+
+ Matrix4x4_CreateFromQuakeEntity(&ent->render.matrix, ent->render.origin[0], ent->render.origin[1], ent->render.origin[2], ent->render.angles[0], ent->render.angles[1], ent->render.angles[2], ent->render.scale);
+
// update interpolation info
CL_LerpUpdate(ent);
{
if (effects & EF_BRIGHTFIELD)
{
- if (gamemode == GAME_NEXIUZ)
+ if (gamemode == GAME_NEXUIZ)
{
dlightcolor[0] += 100.0f;
dlightcolor[1] += 200.0f;
if (ent->persistent.muzzleflash > 0)
{
- AngleVectors (ent->render.angles, v, NULL, NULL);
-
- v2[0] = v[0] * 18 + neworg[0];
- v2[1] = v[1] * 18 + neworg[1];
- v2[2] = v[2] * 18 + neworg[2] + 16;
+ v2[0] = ent->render.matrix.m[0][0] * 18 + neworg[0];
+ v2[1] = ent->render.matrix.m[0][1] * 18 + neworg[1];
+ v2[2] = ent->render.matrix.m[0][2] * 18 + neworg[2] + 16;
CL_TraceLine(neworg, v2, v, NULL, 0, true, NULL);
CL_AllocDlight (NULL, v, ent->persistent.muzzleflash, 1, 1, 1, 0, 0);
// LordHavoc: if the model has no flags, don't check each
if (ent->render.model && ent->render.model->flags)
{
- if (ent->render.model->flags & EF_ROTATE)
- {
- ent->render.angles[1] = bobjrotate;
- ent->render.origin[2] += bobjoffset;
- }
+ // note: EF_ROTATE handled above, above matrix calculation
// only do trails if present in the previous frame as well
if (ent->state_previous.active)
{
if (effects & EF_NODRAW)
continue;
+ // store a list of view-relative entities for later adjustment in view code
+ if (ent->render.flags & RENDER_VIEWMODEL)
+ {
+ if (numviewmodels < MAXVIEWMODELS)
+ viewmodels[numviewmodels++] = ent;
+ continue;
+ }
+
+ Matrix4x4_Invert_Simple(&ent->render.inversematrix, &ent->render.matrix);
+
CL_BoundingBoxForEntity(&ent->render);
if (ent->render.model && ent->render.model->name[0] == '*' && ent->render.model->type == mod_brush)
cl_brushmodel_entities[cl_num_brushmodel_entities++] = &ent->render;
&& !(ent->state_current.effects & EF_ADDITIVE)
&& (ent->state_current.alpha == 255)
&& !(ent->render.flags & RENDER_VIEWMODEL)
- && (i != cl.viewentity || (!cl.intermission && !Nehahrademcompatibility)))
+ && (i != cl.viewentity || (!cl.intermission && !Nehahrademcompatibility && !cl_noplayershadow.integer)))
ent->render.flags |= RENDER_SHADOW;
if (r_refdef.numentities < r_refdef.maxentities)
ent->render.frame2time = e->frame2time;
// normal stuff
- VectorCopy(e->origin, ent->render.origin);
+ //VectorCopy(e->origin, ent->render.origin);
ent->render.model = cl.model_precache[e->modelindex];
ent->render.frame = ent->render.frame2;
ent->render.colormap = -1; // no special coloring
- ent->render.scale = 1;
+ //ent->render.scale = 1;
ent->render.alpha = 1;
+ Matrix4x4_CreateFromQuakeEntity(&ent->render.matrix, e->origin[0], e->origin[1], e->origin[2], 0, 0, 0, 1);
+ Matrix4x4_Invert_Simple(&ent->render.inversematrix, &ent->render.matrix);
CL_BoundingBoxForEntity(&ent->render);
}
}
// have some lag in it's location, so compare to the
// previous player state, not the latest
if (b->entity == cl.viewentity)
- Matrix4x4_CreateFromQuakeEntity(&matrix, cl.viewentoriginold[0], cl.viewentoriginold[1], cl.viewentoriginold[2] + 16, cl.viewangles[0], cl.viewangles[1], cl.viewangles[2], 1);
+ Matrix4x4_CreateFromQuakeEntity(&matrix, p->origin[0], p->origin[1], p->origin[2] + 16, cl.viewangles[0], cl.viewangles[1], cl.viewangles[2], 1);
else
Matrix4x4_CreateFromQuakeEntity(&matrix, p->origin[0], p->origin[1], p->origin[2] + 16, p->angles[0], p->angles[1], p->angles[2], 1);
Matrix4x4_Invert_Simple(&imatrix, &matrix);
else
{
if (b->entity == cl.viewentity)
- Matrix4x4_CreateFromQuakeEntity(&matrix, cl.viewentorigin[0], cl.viewentorigin[1], cl.viewentorigin[2] + 16, cl.viewangles[0], cl.viewangles[1], cl.viewangles[2], 1);
+ Matrix4x4_CreateFromQuakeEntity(&matrix, r->origin[0], r->origin[1], r->origin[2] + 16, cl.viewangles[0], cl.viewangles[1], cl.viewangles[2], 1);
else
Matrix4x4_CreateFromQuakeEntity(&matrix, r->origin[0], r->origin[1], r->origin[2] + 16, r->angles[0], r->angles[1], r->angles[2], 1);
Matrix4x4_Transform(&matrix, b->relativestart, b->start);
}
}
- if (b->lightning && cl_beams_polygons.integer)
- continue;
+ if (b->lightning)
+ {
+ if (cl_beams_lightatend.integer)
+ CL_AllocDlight (NULL, b->end, 200, 0.3, 0.7, 1, 0, 0);
+ if (cl_beams_polygons.integer)
+ continue;
+ }
// calculate pitch and yaw
VectorSubtract (b->end, b->start, dist);
ent = CL_NewTempEntity ();
if (!ent)
return;
- VectorCopy (org, ent->render.origin);
+ //VectorCopy (org, ent->render.origin);
ent->render.model = b->model;
ent->render.effects = EF_FULLBRIGHT;
- ent->render.angles[0] = pitch;
- ent->render.angles[1] = yaw;
- ent->render.angles[2] = rand()%360;
+ //ent->render.angles[0] = pitch;
+ //ent->render.angles[1] = yaw;
+ //ent->render.angles[2] = rand()%360;
+ Matrix4x4_CreateFromQuakeEntity(&ent->render.matrix, org[0], org[1], org[2], -pitch, yaw, lhrandom(0, 360), 1);
+ Matrix4x4_Invert_Simple(&ent->render.inversematrix, &ent->render.matrix);
CL_BoundingBoxForEntity(&ent->render);
VectorMA(org, 30, dist, org);
d -= 30;
cvar_t r_lightningbeam_color_red = {CVAR_SAVE, "r_lightningbeam_color_red", "1"};
cvar_t r_lightningbeam_color_green = {CVAR_SAVE, "r_lightningbeam_color_green", "1"};
cvar_t r_lightningbeam_color_blue = {CVAR_SAVE, "r_lightningbeam_color_blue", "1"};
+cvar_t r_lightningbeam_qmbtexture = {CVAR_SAVE, "r_lightningbeam_qmbtexture", "0"};
rtexture_t *r_lightningbeamtexture;
+rtexture_t *r_lightningbeamqmbtexture;
rtexturepool_t *r_lightningbeamtexturepool;
int r_lightningbeamelements[18] = {0, 1, 2, 0, 2, 3, 4, 5, 6, 4, 6, 7, 8, 9, 10, 8, 10, 11};
void r_lightningbeams_start(void)
{
+ r_lightningbeamtexturepool = R_AllocTexturePool();
+ r_lightningbeamtexture = NULL;
+ r_lightningbeamqmbtexture = NULL;
+}
+
+void r_lightningbeams_setupqmbtexture(void)
+{
+ r_lightningbeamqmbtexture = loadtextureimage(r_lightningbeamtexturepool, "textures/particles/lightning.pcx", 0, 0, false, TEXF_ALPHA | TEXF_PRECACHE);
+ if (r_lightningbeamqmbtexture == NULL)
+ Cvar_SetValueQuick(&r_lightningbeam_qmbtexture, false);
+}
+
+void r_lightningbeams_setuptexture(void)
+{
+#if 0
+#define BEAMWIDTH 128
+#define BEAMHEIGHT 64
+#define PATHPOINTS 8
+ int i, j, px, py, nearestpathindex, imagenumber;
+ float particlex, particley, particlexv, particleyv, dx, dy, s, maxpathstrength;
+ qbyte *pixels;
+ int *image;
+ struct {float x, y, strength;} path[PATHPOINTS], temppath;
+
+ image = Mem_Alloc(tempmempool, BEAMWIDTH * BEAMHEIGHT * sizeof(int));
+ pixels = Mem_Alloc(tempmempool, BEAMWIDTH * BEAMHEIGHT * sizeof(qbyte[4]));
+
+ for (imagenumber = 0, maxpathstrength = 0.0339476;maxpathstrength < 0.5;imagenumber++, maxpathstrength += 0.01)
+ {
+ for (i = 0;i < PATHPOINTS;i++)
+ {
+ path[i].x = lhrandom(0, 1);
+ path[i].y = lhrandom(0.2, 0.8);
+ path[i].strength = lhrandom(0, 1);
+ }
+ for (i = 0;i < PATHPOINTS;i++)
+ {
+ for (j = i + 1;j < PATHPOINTS;j++)
+ {
+ if (path[j].x < path[i].x)
+ {
+ temppath = path[j];
+ path[j] = path[i];
+ path[i] = temppath;
+ }
+ }
+ }
+ particlex = path[0].x;
+ particley = path[0].y;
+ particlexv = lhrandom(0, 0.02);
+ particlexv = lhrandom(-0.02, 0.02);
+ memset(image, 0, BEAMWIDTH * BEAMHEIGHT * sizeof(int));
+ for (i = 0;i < 65536;i++)
+ {
+ for (nearestpathindex = 0;nearestpathindex < PATHPOINTS;nearestpathindex++)
+ if (path[nearestpathindex].x > particlex)
+ break;
+ nearestpathindex %= PATHPOINTS;
+ dx = path[nearestpathindex].x + lhrandom(-0.01, 0.01);dx = bound(0, dx, 1) - particlex;if (dx < 0) dx += 1;
+ dy = path[nearestpathindex].y + lhrandom(-0.01, 0.01);dy = bound(0, dy, 1) - particley;
+ s = path[nearestpathindex].strength / sqrt(dx*dx+dy*dy);
+ particlexv = particlexv /* (1 - lhrandom(0.08, 0.12))*/ + dx * s;
+ particleyv = particleyv /* (1 - lhrandom(0.08, 0.12))*/ + dy * s;
+ particlex += particlexv * maxpathstrength;particlex -= (int) particlex;
+ particley += particleyv * maxpathstrength;particley = bound(0, particley, 1);
+ px = particlex * BEAMWIDTH;
+ py = particley * BEAMHEIGHT;
+ if (px >= 0 && py >= 0 && px < BEAMWIDTH && py < BEAMHEIGHT)
+ image[py*BEAMWIDTH+px] += 16;
+ }
+
+ for (py = 0;py < BEAMHEIGHT;py++)
+ {
+ for (px = 0;px < BEAMWIDTH;px++)
+ {
+ pixels[(py*BEAMWIDTH+px)*4+0] = bound(0, image[py*BEAMWIDTH+px] * 1.0f, 255.0f);
+ pixels[(py*BEAMWIDTH+px)*4+1] = bound(0, image[py*BEAMWIDTH+px] * 1.0f, 255.0f);
+ pixels[(py*BEAMWIDTH+px)*4+2] = bound(0, image[py*BEAMWIDTH+px] * 1.0f, 255.0f);
+ pixels[(py*BEAMWIDTH+px)*4+3] = 255;
+ }
+ }
+
+ Image_WriteTGARGBA(va("lightningbeam%i.tga", imagenumber), BEAMWIDTH, BEAMHEIGHT, pixels);
+ }
+
+ r_lightningbeamtexture = R_LoadTexture2D(r_lightningbeamtexturepool, "lightningbeam", BEAMWIDTH, BEAMHEIGHT, pixels, TEXTYPE_RGBA, TEXF_PRECACHE, NULL);
+
+ Mem_Free(pixels);
+ Mem_Free(image);
+#else
+#define BEAMWIDTH 64
+#define BEAMHEIGHT 128
float r, g, b, intensity, fx, width, center;
int x, y;
qbyte *data, *noise1, *noise2;
- data = Mem_Alloc(tempmempool, 32 * 512 * 4);
- noise1 = Mem_Alloc(tempmempool, 512 * 512);
- noise2 = Mem_Alloc(tempmempool, 512 * 512);
- fractalnoise(noise1, 512, 8);
- fractalnoise(noise2, 512, 16);
- for (y = 0;y < 512;y++)
+ data = Mem_Alloc(tempmempool, BEAMWIDTH * BEAMHEIGHT * 4);
+ noise1 = Mem_Alloc(tempmempool, BEAMHEIGHT * BEAMHEIGHT);
+ noise2 = Mem_Alloc(tempmempool, BEAMHEIGHT * BEAMHEIGHT);
+ fractalnoise(noise1, BEAMHEIGHT, BEAMHEIGHT / 8);
+ fractalnoise(noise2, BEAMHEIGHT, BEAMHEIGHT / 16);
+
+ for (y = 0;y < BEAMHEIGHT;y++)
{
- width = noise1[y * 512] * (1.0f / 256.0f) * 3.0f + 3.0f;
- center = (noise1[y * 512 + 64] / 256.0f) * (32.0f - (width + 1.0f) * 2.0f) + (width + 1.0f);
- for (x = 0;x < 32;x++, fx++)
+ width = 0.15;//((noise1[y * BEAMHEIGHT] * (1.0f / 256.0f)) * 0.1f + 0.1f);
+ center = (noise1[y * BEAMHEIGHT + (BEAMHEIGHT / 2)] / 256.0f) * (1.0f - width * 2.0f) + width;
+ for (x = 0;x < BEAMWIDTH;x++, fx++)
{
- fx = (x - center) / width;
- intensity = (1.0f - fx * fx) * (noise2[y*512+x] * (1.0f / 256.0f) * 0.33f + 0.66f);
+ fx = (((float) x / BEAMWIDTH) - center) / width;
+ intensity = 1.0f - sqrt(fx * fx);
+ if (intensity > 0)
+ intensity = pow(intensity, 2) * ((noise2[y * BEAMHEIGHT + x] * (1.0f / 256.0f)) * 0.33f + 0.66f);
intensity = bound(0, intensity, 1);
- r = intensity * 2.0f - 1.0f;
- g = intensity * 3.0f - 1.0f;
- b = intensity * 3.0f;
- data[(y * 32 + x) * 4 + 0] = (qbyte)(bound(0, r, 1) * 255.0f);
- data[(y * 32 + x) * 4 + 1] = (qbyte)(bound(0, g, 1) * 255.0f);
- data[(y * 32 + x) * 4 + 2] = (qbyte)(bound(0, b, 1) * 255.0f);
- data[(y * 32 + x) * 4 + 3] = (qbyte)255;
+ r = intensity * 1.0f;
+ g = intensity * 1.0f;
+ b = intensity * 1.0f;
+ data[(y * BEAMWIDTH + x) * 4 + 0] = (qbyte)(bound(0, r, 1) * 255.0f);
+ data[(y * BEAMWIDTH + x) * 4 + 1] = (qbyte)(bound(0, g, 1) * 255.0f);
+ data[(y * BEAMWIDTH + x) * 4 + 2] = (qbyte)(bound(0, b, 1) * 255.0f);
+ data[(y * BEAMWIDTH + x) * 4 + 3] = (qbyte)255;
}
}
- r_lightningbeamtexturepool = R_AllocTexturePool();
- r_lightningbeamtexture = R_LoadTexture2D(r_lightningbeamtexturepool, "lightningbeam", 32, 512, data, TEXTYPE_RGBA, TEXF_PRECACHE, NULL);
+ r_lightningbeamtexture = R_LoadTexture2D(r_lightningbeamtexturepool, "lightningbeam", BEAMWIDTH, BEAMHEIGHT, data, TEXTYPE_RGBA, TEXF_PRECACHE, NULL);
Mem_Free(noise1);
Mem_Free(noise2);
Mem_Free(data);
+#endif
}
void r_lightningbeams_shutdown(void)
{
r_lightningbeamtexture = NULL;
+ r_lightningbeamqmbtexture = NULL;
R_FreeTexturePool(&r_lightningbeamtexturepool);
}
Cvar_RegisterVariable(&r_lightningbeam_color_red);
Cvar_RegisterVariable(&r_lightningbeam_color_green);
Cvar_RegisterVariable(&r_lightningbeam_color_blue);
+ Cvar_RegisterVariable(&r_lightningbeam_qmbtexture);
R_RegisterModule("R_LightningBeams", r_lightningbeams_start, r_lightningbeams_shutdown, r_lightningbeams_newmap);
}
-void R_CalcLightningBeamPolygonVertices(float *v, float *tc, const float *start, const float *end, const float *offset, float t1, float t2)
+void R_CalcLightningBeamPolygonVertex3f(float *v, const float *start, const float *end, const float *offset)
{
// near right corner
- VectorAdd (start, offset, (v + 0));tc[ 0] = 0;tc[ 1] = t1;
+ VectorAdd (start, offset, (v + 0));
// near left corner
- VectorSubtract(start, offset, (v + 4));tc[ 4] = 1;tc[ 5] = t1;
+ VectorSubtract(start, offset, (v + 3));
// far left corner
- VectorSubtract(end , offset, (v + 8));tc[ 8] = 1;tc[ 9] = t2;
+ VectorSubtract(end , offset, (v + 6));
// far right corner
- VectorAdd (end , offset, (v + 12));tc[12] = 0;tc[13] = t2;
+ VectorAdd (end , offset, (v + 9));
}
-void R_FogLightningBeamColors(const float *v, float *c, int numverts, float r, float g, float b, float a)
+void R_CalcLightningBeamPolygonTexCoord2f(float *tc, float t1, float t2)
+{
+ if (r_lightningbeam_qmbtexture.integer)
+ {
+ // near right corner
+ tc[0] = t1;tc[1] = 0;
+ // near left corner
+ tc[2] = t1;tc[3] = 1;
+ // far left corner
+ tc[4] = t2;tc[5] = 1;
+ // far right corner
+ tc[6] = t2;tc[7] = 0;
+ }
+ else
+ {
+ // near right corner
+ tc[0] = 0;tc[1] = t1;
+ // near left corner
+ tc[2] = 1;tc[3] = t1;
+ // far left corner
+ tc[4] = 1;tc[5] = t2;
+ // far right corner
+ tc[6] = 0;tc[7] = t2;
+ }
+}
+
+void R_FogLightningBeam_Vertex3f_Color4f(const float *v, float *c, int numverts, float r, float g, float b, float a)
{
int i;
vec3_t fogvec;
float ifog;
- for (i = 0;i < numverts;i++, v += 4, c += 4)
+ for (i = 0;i < numverts;i++, v += 3, c += 4)
{
VectorSubtract(v, r_origin, fogvec);
ifog = 1 - exp(fogdensity/DotProduct(fogvec,fogvec));
memset(&m, 0, sizeof(m));
m.blendfunc1 = GL_SRC_ALPHA;
m.blendfunc2 = GL_ONE;
- m.tex[0] = R_GetTexture(r_lightningbeamtexture);
+ if (r_lightningbeam_qmbtexture.integer && r_lightningbeamqmbtexture == NULL)
+ r_lightningbeams_setupqmbtexture();
+ if (!r_lightningbeam_qmbtexture.integer && r_lightningbeamtexture == NULL)
+ r_lightningbeams_setuptexture();
+ if (r_lightningbeam_qmbtexture.integer)
+ m.tex[0] = R_GetTexture(r_lightningbeamqmbtexture);
+ else
+ m.tex[0] = R_GetTexture(r_lightningbeamtexture);
R_Mesh_State(&m);
R_Mesh_Matrix(&r_identitymatrix);
CrossProduct(beamdir, up, right);
// calculate T coordinate scrolling (start and end texcoord along the beam)
- t1 = cl.time * -r_lightningbeam_scroll.value + beamrepeatscale * DotProduct(b->start, beamdir);
+ t1 = cl.time * -r_lightningbeam_scroll.value;// + beamrepeatscale * DotProduct(b->start, beamdir);
t1 = t1 - (int) t1;
t2 = t1 + beamrepeatscale * length;
// (and realize that the whole polygon assembly orients itself to face
// the viewer)
+ R_Mesh_GetSpace(12);
+
// polygon 1, verts 0-3
VectorScale(right, r_lightningbeam_thickness.value, offset);
- R_CalcLightningBeamPolygonVertices(varray_vertex, varray_texcoord[0], b->start, b->end, offset, t1, t2);
+ R_CalcLightningBeamPolygonVertex3f(varray_vertex3f, b->start, b->end, offset);
+ R_CalcLightningBeamPolygonTexCoord2f(varray_texcoord2f[0], t1, t2);
// polygon 2, verts 4-7
VectorAdd(right, up, offset);
VectorScale(offset, r_lightningbeam_thickness.value * 0.70710681f, offset);
- R_CalcLightningBeamPolygonVertices(varray_vertex + 16, varray_texcoord[0] + 16, b->start, b->end, offset, t1 + 0.33, t2 + 0.33);
+ R_CalcLightningBeamPolygonVertex3f(varray_vertex3f + 12, b->start, b->end, offset);
+ R_CalcLightningBeamPolygonTexCoord2f(varray_texcoord2f[0] + 8, t1 + 0.33, t2 + 0.33);
// polygon 3, verts 8-11
VectorSubtract(right, up, offset);
VectorScale(offset, r_lightningbeam_thickness.value * 0.70710681f, offset);
- R_CalcLightningBeamPolygonVertices(varray_vertex + 32, varray_texcoord[0] + 32, b->start, b->end, offset, t1 + 0.66, t2 + 0.66);
+ R_CalcLightningBeamPolygonVertex3f(varray_vertex3f + 24, b->start, b->end, offset);
+ R_CalcLightningBeamPolygonTexCoord2f(varray_texcoord2f[0] + 16, t1 + 0.66, t2 + 0.66);
if (fogenabled)
{
// per vertex colors if fog is used
GL_UseColorArray();
- R_FogLightningBeamColors(varray_vertex, varray_color, 12, r_lightningbeam_color_red.value, r_lightningbeam_color_green.value, r_lightningbeam_color_blue.value, 1);
+ R_FogLightningBeam_Vertex3f_Color4f(varray_vertex3f, varray_color4f, 12, r_lightningbeam_color_red.value, r_lightningbeam_color_green.value, r_lightningbeam_color_blue.value, 1);
}
else
{
int i;
float d;
- if (cl.entitydatabase.numframes && cl.viewentity == cl.playerentity)
- {
- cl.viewentorigin[0] = cl.viewentoriginold[0] + frac * (cl.viewentoriginnew[0] - cl.viewentoriginold[0]);
- cl.viewentorigin[1] = cl.viewentoriginold[1] + frac * (cl.viewentoriginnew[1] - cl.viewentoriginold[1]);
- cl.viewentorigin[2] = cl.viewentoriginold[2] + frac * (cl.viewentoriginnew[2] - cl.viewentoriginold[2]);
- }
- else
- {
- VectorCopy (cl_entities[cl.viewentity].state_previous.origin, cl.viewentoriginold);
- VectorCopy (cl_entities[cl.viewentity].state_current.origin, cl.viewentoriginnew);
- VectorCopy (cl_entities[cl.viewentity].render.origin, cl.viewentorigin);
- }
-
cl.viewzoom = cl.viewzoomold + frac * (cl.viewzoomnew - cl.viewzoomold);
for (i = 0;i < 3;i++)
}
host_client->pmodel = i;
- if ((val = GETEDICTFIELDVALUE(host_client->edict, eval_pmodel)))
+ if ((val = GETEDICTFIELDVALUE(sv_player, eval_pmodel)))
val->_float = i;
}
Cvar_RegisterVariable(&cl_stainmaps);
Cvar_RegisterVariable(&cl_beams_polygons);
Cvar_RegisterVariable(&cl_beams_relative);
+ Cvar_RegisterVariable(&cl_beams_lightatend);
+ Cvar_RegisterVariable(&cl_noplayershadow);
R_LightningBeams_Init();