//cvar_t r_subdivide_size = {CVAR_SAVE, "r_subdivide_size", "128", "how large water polygons should be (smaller values produce more polygons which give better warping effects)"};
-cvar_t halflifebsp = {0, "halflifebsp", "0", "indicates the current map is hlbsp format (useful to know because of different bounding box sizes)"};
-cvar_t mcbsp = {0, "mcbsp", "0", "indicates the current map is mcbsp format (useful to know because of different bounding box sizes)"};
+cvar_t mod_bsp_portalize = {0, "mod_bsp_portalize", "1", "enables portal generation from BSP tree (may take several seconds per map), used by r_drawportals, r_useportalculling, r_shadow_realtime_world_compileportalculling, sv_cullentities_portal"};
cvar_t r_novis = {0, "r_novis", "0", "draws whole level, see also sv_cullentities_pvs 0"};
-cvar_t r_lightmaprgba = {0, "r_lightmaprgba", "1", "whether to use RGBA (32bit) or RGB (24bit) lightmaps"};
cvar_t r_nosurftextures = {0, "r_nosurftextures", "0", "pretends there was no texture lump found in the q1bsp/hlbsp loading (useful for debugging this rare case)"};
cvar_t r_subdivisions_tolerance = {0, "r_subdivisions_tolerance", "4", "maximum error tolerance on curve subdivision for rendering purposes (in other words, the curves will be given as many polygons as necessary to represent curves at this quality)"};
-cvar_t r_subdivisions_mintess = {0, "r_subdivisions_mintess", "1", "minimum number of subdivisions (values above 1 will smooth curves that don't need it)"};
+cvar_t r_subdivisions_mintess = {0, "r_subdivisions_mintess", "0", "minimum number of subdivisions (values above 0 will smooth curves that don't need it)"};
cvar_t r_subdivisions_maxtess = {0, "r_subdivisions_maxtess", "1024", "maximum number of subdivisions (prevents curves beyond a certain detail level, limits smoothing)"};
cvar_t r_subdivisions_maxvertices = {0, "r_subdivisions_maxvertices", "65536", "maximum vertices allowed per subdivided curve"};
cvar_t r_subdivisions_collision_tolerance = {0, "r_subdivisions_collision_tolerance", "15", "maximum error tolerance on curve subdivision for collision purposes (usually a larger error tolerance than for rendering)"};
-cvar_t r_subdivisions_collision_mintess = {0, "r_subdivisions_collision_mintess", "1", "minimum number of subdivisions (values above 1 will smooth curves that don't need it)"};
+cvar_t r_subdivisions_collision_mintess = {0, "r_subdivisions_collision_mintess", "0", "minimum number of subdivisions (values above 0 will smooth curves that don't need it)"};
cvar_t r_subdivisions_collision_maxtess = {0, "r_subdivisions_collision_maxtess", "1024", "maximum number of subdivisions (prevents curves beyond a certain detail level, limits smoothing)"};
cvar_t r_subdivisions_collision_maxvertices = {0, "r_subdivisions_collision_maxvertices", "4225", "maximum vertices allowed per subdivided curve"};
+cvar_t r_trippy = {0, "r_trippy", "0", "easter egg"};
+cvar_t mod_noshader_default_offsetmapping = {CVAR_SAVE, "mod_noshader_default_offsetmapping", "1", "use offsetmapping by default on all surfaces that are not using q3 shader files"};
cvar_t mod_q3bsp_curves_collisions = {0, "mod_q3bsp_curves_collisions", "1", "enables collisions with curves (SLOW)"};
+cvar_t mod_q3bsp_curves_collisions_stride = {0, "mod_q3bsp_curves_collisions_stride", "16", "collisions against curves: optimize performance by doing a combined collision check for this triangle amount first (-1 avoids any box tests)"};
+cvar_t mod_q3bsp_curves_stride = {0, "mod_q3bsp_curves_stride", "16", "particle effect collisions against curves: optimize performance by doing a combined collision check for this triangle amount first (-1 avoids any box tests)"};
cvar_t mod_q3bsp_optimizedtraceline = {0, "mod_q3bsp_optimizedtraceline", "1", "whether to use optimized traceline code for line traces (as opposed to tracebox code)"};
cvar_t mod_q3bsp_debugtracebrush = {0, "mod_q3bsp_debugtracebrush", "0", "selects different tracebrush bsp recursion algorithms (for debugging purposes only)"};
+cvar_t mod_q3bsp_lightmapmergepower = {CVAR_SAVE, "mod_q3bsp_lightmapmergepower", "4", "merges the quake3 128x128 lightmap textures into larger lightmap group textures to speed up rendering, 1 = 256x256, 2 = 512x512, 3 = 1024x1024, 4 = 2048x2048, 5 = 4096x4096, ..."};
+cvar_t mod_q3bsp_nolightmaps = {CVAR_SAVE, "mod_q3bsp_nolightmaps", "0", "do not load lightmaps in Q3BSP maps (to save video RAM, but be warned: it looks ugly)"};
+cvar_t mod_q3bsp_tracelineofsight_brushes = {0, "mod_q3bsp_tracelineofsight_brushes", "0", "enables culling of entities behind detail brushes, curves, etc"};
+cvar_t mod_q3shader_default_offsetmapping = {CVAR_SAVE, "mod_q3shader_default_offsetmapping", "1", "use offsetmapping by default on all surfaces that are using q3 shader files"};
+cvar_t mod_q3shader_default_polygonfactor = {0, "mod_q3shader_default_polygonfactor", "0", "biases depth values of 'polygonoffset' shaders to prevent z-fighting artifacts"};
+cvar_t mod_q3shader_default_polygonoffset = {0, "mod_q3shader_default_polygonoffset", "-2", "biases depth values of 'polygonoffset' shaders to prevent z-fighting artifacts"};
+
+cvar_t mod_q1bsp_polygoncollisions = {0, "mod_q1bsp_polygoncollisions", "0", "disables use of precomputed cliphulls and instead collides with polygons (uses Bounding Interval Hierarchy optimizations)"};
+cvar_t mod_collision_bih = {0, "mod_collision_bih", "1", "enables use of generated Bounding Interval Hierarchy tree instead of compiled bsp tree in collision code"};
+cvar_t mod_recalculatenodeboxes = {0, "mod_recalculatenodeboxes", "1", "enables use of generated node bounding boxes based on BSP tree portal reconstruction, rather than the node boxes supplied by the map compiler"};
static texture_t mod_q1bsp_texture_solid;
static texture_t mod_q1bsp_texture_sky;
void Mod_BrushInit(void)
{
// Cvar_RegisterVariable(&r_subdivide_size);
- Cvar_RegisterVariable(&halflifebsp);
- Cvar_RegisterVariable(&mcbsp);
+ Cvar_RegisterVariable(&mod_bsp_portalize);
Cvar_RegisterVariable(&r_novis);
- Cvar_RegisterVariable(&r_lightmaprgba);
Cvar_RegisterVariable(&r_nosurftextures);
Cvar_RegisterVariable(&r_subdivisions_tolerance);
Cvar_RegisterVariable(&r_subdivisions_mintess);
Cvar_RegisterVariable(&r_subdivisions_collision_mintess);
Cvar_RegisterVariable(&r_subdivisions_collision_maxtess);
Cvar_RegisterVariable(&r_subdivisions_collision_maxvertices);
+ Cvar_RegisterVariable(&r_trippy);
+ Cvar_RegisterVariable(&mod_noshader_default_offsetmapping);
Cvar_RegisterVariable(&mod_q3bsp_curves_collisions);
+ Cvar_RegisterVariable(&mod_q3bsp_curves_collisions_stride);
+ Cvar_RegisterVariable(&mod_q3bsp_curves_stride);
Cvar_RegisterVariable(&mod_q3bsp_optimizedtraceline);
Cvar_RegisterVariable(&mod_q3bsp_debugtracebrush);
+ Cvar_RegisterVariable(&mod_q3bsp_lightmapmergepower);
+ Cvar_RegisterVariable(&mod_q3bsp_nolightmaps);
+ Cvar_RegisterVariable(&mod_q3bsp_tracelineofsight_brushes);
+ Cvar_RegisterVariable(&mod_q3shader_default_offsetmapping);
+ Cvar_RegisterVariable(&mod_q3shader_default_polygonfactor);
+ Cvar_RegisterVariable(&mod_q3shader_default_polygonoffset);
+ Cvar_RegisterVariable(&mod_q1bsp_polygoncollisions);
+ Cvar_RegisterVariable(&mod_collision_bih);
+ Cvar_RegisterVariable(&mod_recalculatenodeboxes);
memset(&mod_q1bsp_texture_solid, 0, sizeof(mod_q1bsp_texture_solid));
strlcpy(mod_q1bsp_texture_solid.name, "solid" , sizeof(mod_q1bsp_texture_solid.name));
mod_q1bsp_texture_water.supercontents = SUPERCONTENTS_WATER;
}
-static mleaf_t *Mod_Q1BSP_PointInLeaf(model_t *model, const vec3_t p)
+static mleaf_t *Mod_Q1BSP_PointInLeaf(dp_model_t *model, const vec3_t p)
{
mnode_t *node;
return (mleaf_t *)node;
}
-static void Mod_Q1BSP_AmbientSoundLevelsForPoint(model_t *model, const vec3_t p, unsigned char *out, int outsize)
+static void Mod_Q1BSP_AmbientSoundLevelsForPoint(dp_model_t *model, const vec3_t p, unsigned char *out, int outsize)
{
int i;
mleaf_t *leaf;
memset(out, 0, outsize);
}
-static int Mod_Q1BSP_FindBoxClusters(model_t *model, const vec3_t mins, const vec3_t maxs, int maxclusters, int *clusterlist)
+static int Mod_Q1BSP_FindBoxClusters(dp_model_t *model, const vec3_t mins, const vec3_t maxs, int maxclusters, int *clusterlist)
{
int numclusters = 0;
int nodestackindex = 0;
mnode_t *node, *nodestack[1024];
if (!model->brush.num_pvsclusters)
return -1;
- node = model->brush.data_nodes;
+ node = model->brush.data_nodes + model->brushq1.hulls[0].firstclipnode;
for (;;)
{
#if 1
return numclusters;
}
-static int Mod_Q1BSP_BoxTouchingPVS(model_t *model, const unsigned char *pvs, const vec3_t mins, const vec3_t maxs)
+static int Mod_Q1BSP_BoxTouchingPVS(dp_model_t *model, const unsigned char *pvs, const vec3_t mins, const vec3_t maxs)
{
int nodestackindex = 0;
mnode_t *node, *nodestack[1024];
if (!model->brush.num_pvsclusters)
return true;
- node = model->brush.data_nodes;
+ node = model->brush.data_nodes + model->brushq1.hulls[0].firstclipnode;
for (;;)
{
#if 1
return false;
}
-static int Mod_Q1BSP_BoxTouchingLeafPVS(model_t *model, const unsigned char *pvs, const vec3_t mins, const vec3_t maxs)
+static int Mod_Q1BSP_BoxTouchingLeafPVS(dp_model_t *model, const unsigned char *pvs, const vec3_t mins, const vec3_t maxs)
{
int nodestackindex = 0;
mnode_t *node, *nodestack[1024];
if (!model->brush.num_leafs)
return true;
- node = model->brush.data_nodes;
+ node = model->brush.data_nodes + model->brushq1.hulls[0].firstclipnode;
for (;;)
{
#if 1
return false;
}
-static int Mod_Q1BSP_BoxTouchingVisibleLeafs(model_t *model, const unsigned char *visibleleafs, const vec3_t mins, const vec3_t maxs)
+static int Mod_Q1BSP_BoxTouchingVisibleLeafs(dp_model_t *model, const unsigned char *visibleleafs, const vec3_t mins, const vec3_t maxs)
{
int nodestackindex = 0;
mnode_t *node, *nodestack[1024];
if (!model->brush.num_leafs)
return true;
- node = model->brush.data_nodes;
+ node = model->brush.data_nodes + model->brushq1.hulls[0].firstclipnode;
for (;;)
{
#if 1
typedef struct findnonsolidlocationinfo_s
{
vec3_t center;
+ vec3_t absmin, absmax;
vec_t radius;
vec3_t nudge;
vec_t bestdist;
- model_t *model;
+ dp_model_t *model;
}
findnonsolidlocationinfo_t;
-static void Mod_Q1BSP_FindNonSolidLocation_r_Leaf(findnonsolidlocationinfo_t *info, mleaf_t *leaf)
+static void Mod_Q1BSP_FindNonSolidLocation_r_Triangle(findnonsolidlocationinfo_t *info, msurface_t *surface, int k)
{
- int i, surfacenum, k, *tri, *mark;
+ int i, *tri;
float dist, f, vert[3][3], edge[3][3], facenormal[3], edgenormal[3][3], point[3];
+
+ tri = (info->model->surfmesh.data_element3i + 3 * surface->num_firsttriangle) + k * 3;
+ VectorCopy((info->model->surfmesh.data_vertex3f + tri[0] * 3), vert[0]);
+ VectorCopy((info->model->surfmesh.data_vertex3f + tri[1] * 3), vert[1]);
+ VectorCopy((info->model->surfmesh.data_vertex3f + tri[2] * 3), vert[2]);
+ VectorSubtract(vert[1], vert[0], edge[0]);
+ VectorSubtract(vert[2], vert[1], edge[1]);
+ CrossProduct(edge[1], edge[0], facenormal);
+ if (facenormal[0] || facenormal[1] || facenormal[2])
+ {
+ VectorNormalize(facenormal);
+ f = DotProduct(info->center, facenormal) - DotProduct(vert[0], facenormal);
+ if (f <= info->bestdist && f >= -info->bestdist)
+ {
+ VectorSubtract(vert[0], vert[2], edge[2]);
+ VectorNormalize(edge[0]);
+ VectorNormalize(edge[1]);
+ VectorNormalize(edge[2]);
+ CrossProduct(facenormal, edge[0], edgenormal[0]);
+ CrossProduct(facenormal, edge[1], edgenormal[1]);
+ CrossProduct(facenormal, edge[2], edgenormal[2]);
+ // face distance
+ if (DotProduct(info->center, edgenormal[0]) < DotProduct(vert[0], edgenormal[0])
+ && DotProduct(info->center, edgenormal[1]) < DotProduct(vert[1], edgenormal[1])
+ && DotProduct(info->center, edgenormal[2]) < DotProduct(vert[2], edgenormal[2]))
+ {
+ // we got lucky, the center is within the face
+ dist = DotProduct(info->center, facenormal) - DotProduct(vert[0], facenormal);
+ if (dist < 0)
+ {
+ dist = -dist;
+ if (info->bestdist > dist)
+ {
+ info->bestdist = dist;
+ VectorScale(facenormal, (info->radius - -dist), info->nudge);
+ }
+ }
+ else
+ {
+ if (info->bestdist > dist)
+ {
+ info->bestdist = dist;
+ VectorScale(facenormal, (info->radius - dist), info->nudge);
+ }
+ }
+ }
+ else
+ {
+ // check which edge or vertex the center is nearest
+ for (i = 0;i < 3;i++)
+ {
+ f = DotProduct(info->center, edge[i]);
+ if (f >= DotProduct(vert[0], edge[i])
+ && f <= DotProduct(vert[1], edge[i]))
+ {
+ // on edge
+ VectorMA(info->center, -f, edge[i], point);
+ dist = sqrt(DotProduct(point, point));
+ if (info->bestdist > dist)
+ {
+ info->bestdist = dist;
+ VectorScale(point, (info->radius / dist), info->nudge);
+ }
+ // skip both vertex checks
+ // (both are further away than this edge)
+ i++;
+ }
+ else
+ {
+ // not on edge, check first vertex of edge
+ VectorSubtract(info->center, vert[i], point);
+ dist = sqrt(DotProduct(point, point));
+ if (info->bestdist > dist)
+ {
+ info->bestdist = dist;
+ VectorScale(point, (info->radius / dist), info->nudge);
+ }
+ }
+ }
+ }
+ }
+ }
+}
+
+static void Mod_Q1BSP_FindNonSolidLocation_r_Leaf(findnonsolidlocationinfo_t *info, mleaf_t *leaf)
+{
+ int surfacenum, k, *mark;
msurface_t *surface;
for (surfacenum = 0, mark = leaf->firstleafsurface;surfacenum < leaf->numleafsurfaces;surfacenum++, mark++)
{
surface = info->model->data_surfaces + *mark;
if (surface->texture->supercontents & SUPERCONTENTS_SOLID)
{
- for (k = 0;k < surface->num_triangles;k++)
+ if(surface->deprecatedq3num_bboxstride > 0)
{
- tri = (info->model->surfmesh.data_element3i + 3 * surface->num_firsttriangle) + k * 3;
- VectorCopy((info->model->surfmesh.data_vertex3f + tri[0] * 3), vert[0]);
- VectorCopy((info->model->surfmesh.data_vertex3f + tri[1] * 3), vert[1]);
- VectorCopy((info->model->surfmesh.data_vertex3f + tri[2] * 3), vert[2]);
- VectorSubtract(vert[1], vert[0], edge[0]);
- VectorSubtract(vert[2], vert[1], edge[1]);
- CrossProduct(edge[1], edge[0], facenormal);
- if (facenormal[0] || facenormal[1] || facenormal[2])
+ int i, cnt, tri;
+ cnt = (surface->num_triangles + surface->deprecatedq3num_bboxstride - 1) / surface->deprecatedq3num_bboxstride;
+ for(i = 0; i < cnt; ++i)
{
- VectorNormalize(facenormal);
- f = DotProduct(info->center, facenormal) - DotProduct(vert[0], facenormal);
- if (f <= info->bestdist && f >= -info->bestdist)
+ if(BoxesOverlap(surface->deprecatedq3data_bbox6f + i * 6, surface->deprecatedq3data_bbox6f + i * 6 + 3, info->absmin, info->absmax))
{
- VectorSubtract(vert[0], vert[2], edge[2]);
- VectorNormalize(edge[0]);
- VectorNormalize(edge[1]);
- VectorNormalize(edge[2]);
- CrossProduct(facenormal, edge[0], edgenormal[0]);
- CrossProduct(facenormal, edge[1], edgenormal[1]);
- CrossProduct(facenormal, edge[2], edgenormal[2]);
- // face distance
- if (DotProduct(info->center, edgenormal[0]) < DotProduct(vert[0], edgenormal[0])
- && DotProduct(info->center, edgenormal[1]) < DotProduct(vert[1], edgenormal[1])
- && DotProduct(info->center, edgenormal[2]) < DotProduct(vert[2], edgenormal[2]))
- {
- // we got lucky, the center is within the face
- dist = DotProduct(info->center, facenormal) - DotProduct(vert[0], facenormal);
- if (dist < 0)
- {
- dist = -dist;
- if (info->bestdist > dist)
- {
- info->bestdist = dist;
- VectorScale(facenormal, (info->radius - -dist), info->nudge);
- }
- }
- else
- {
- if (info->bestdist > dist)
- {
- info->bestdist = dist;
- VectorScale(facenormal, (info->radius - dist), info->nudge);
- }
- }
- }
- else
+ for(k = 0; k < surface->deprecatedq3num_bboxstride; ++k)
{
- // check which edge or vertex the center is nearest
- for (i = 0;i < 3;i++)
- {
- f = DotProduct(info->center, edge[i]);
- if (f >= DotProduct(vert[0], edge[i])
- && f <= DotProduct(vert[1], edge[i]))
- {
- // on edge
- VectorMA(info->center, -f, edge[i], point);
- dist = sqrt(DotProduct(point, point));
- if (info->bestdist > dist)
- {
- info->bestdist = dist;
- VectorScale(point, (info->radius / dist), info->nudge);
- }
- // skip both vertex checks
- // (both are further away than this edge)
- i++;
- }
- else
- {
- // not on edge, check first vertex of edge
- VectorSubtract(info->center, vert[i], point);
- dist = sqrt(DotProduct(point, point));
- if (info->bestdist > dist)
- {
- info->bestdist = dist;
- VectorScale(point, (info->radius / dist), info->nudge);
- }
- }
- }
+ tri = i * surface->deprecatedq3num_bboxstride + k;
+ if(tri >= surface->num_triangles)
+ break;
+ Mod_Q1BSP_FindNonSolidLocation_r_Triangle(info, surface, tri);
}
}
}
}
+ else
+ {
+ for (k = 0;k < surface->num_triangles;k++)
+ {
+ Mod_Q1BSP_FindNonSolidLocation_r_Triangle(info, surface, k);
+ }
+ }
}
}
}
}
}
-static void Mod_Q1BSP_FindNonSolidLocation(model_t *model, const vec3_t in, vec3_t out, float radius)
+static void Mod_Q1BSP_FindNonSolidLocation(dp_model_t *model, const vec3_t in, vec3_t out, float radius)
{
int i;
findnonsolidlocationinfo_t info;
{
VectorClear(info.nudge);
info.bestdist = radius;
+ VectorCopy(info.center, info.absmin);
+ VectorCopy(info.center, info.absmax);
+ info.absmin[0] -= info.radius + 1;
+ info.absmin[1] -= info.radius + 1;
+ info.absmin[2] -= info.radius + 1;
+ info.absmax[0] += info.radius + 1;
+ info.absmax[1] += info.radius + 1;
+ info.absmax[2] += info.radius + 1;
Mod_Q1BSP_FindNonSolidLocation_r(&info, model->brush.data_nodes + model->brushq1.hulls[0].firstclipnode);
VectorAdd(info.center, info.nudge, info.center);
}
VectorCopy(info.center, out);
}
-int Mod_Q1BSP_SuperContentsFromNativeContents(model_t *model, int nativecontents)
+int Mod_Q1BSP_SuperContentsFromNativeContents(dp_model_t *model, int nativecontents)
{
switch(nativecontents)
{
case CONTENTS_EMPTY:
return 0;
case CONTENTS_SOLID:
- return SUPERCONTENTS_SOLID;
+ return SUPERCONTENTS_SOLID | SUPERCONTENTS_OPAQUE;
case CONTENTS_WATER:
return SUPERCONTENTS_WATER;
case CONTENTS_SLIME:
case CONTENTS_LAVA:
return SUPERCONTENTS_LAVA | SUPERCONTENTS_NODROP;
case CONTENTS_SKY:
- return SUPERCONTENTS_SKY | SUPERCONTENTS_NODROP;
+ return SUPERCONTENTS_SKY | SUPERCONTENTS_NODROP | SUPERCONTENTS_OPAQUE; // to match behaviour of Q3 maps, let sky count as opaque
}
return 0;
}
-int Mod_Q1BSP_NativeContentsFromSuperContents(model_t *model, int supercontents)
+int Mod_Q1BSP_NativeContentsFromSuperContents(dp_model_t *model, int supercontents)
{
if (supercontents & (SUPERCONTENTS_SOLID | SUPERCONTENTS_BODY))
return CONTENTS_SOLID;
#define HULLCHECKSTATE_SOLID 1
#define HULLCHECKSTATE_DONE 2
+extern cvar_t collision_prefernudgedfraction;
static int Mod_Q1BSP_RecursiveHullCheck(RecursiveHullCheckTraceInfo_t *t, int num, double p1f, double p2f, double p1[3], double p2[3])
{
// status variables, these don't need to be saved on the stack when
double t1, t2;
// variables that need to be stored on the stack when recursing
- dclipnode_t *node;
+ mclipnode_t *node;
int side;
double midf, mid[3];
midf = (t1 - DIST_EPSILON) / (t1 - t2);
t->trace->fraction = bound(0, midf, 1);
+ if (collision_prefernudgedfraction.integer)
+ t->trace->realfraction = t->trace->fraction;
+
#if COLLISIONPARANOID >= 3
Con_Print("D");
#endif
//#if COLLISIONPARANOID < 2
static int Mod_Q1BSP_RecursiveHullCheckPoint(RecursiveHullCheckTraceInfo_t *t, int num)
{
+ mplane_t *plane;
+ mclipnode_t *nodes = t->hull->clipnodes;
+ mplane_t *planes = t->hull->planes;
+ vec3_t point;
+ VectorCopy(t->start, point);
while (num >= 0)
- num = t->hull->clipnodes[num].children[(t->hull->planes[t->hull->clipnodes[num].planenum].type < 3 ? t->start[t->hull->planes[t->hull->clipnodes[num].planenum].type] : DotProduct(t->hull->planes[t->hull->clipnodes[num].planenum].normal, t->start)) < t->hull->planes[t->hull->clipnodes[num].planenum].dist];
+ {
+ plane = planes + nodes[num].planenum;
+ num = nodes[num].children[(plane->type < 3 ? point[plane->type] : DotProduct(plane->normal, point)) < plane->dist];
+ }
num = Mod_Q1BSP_SuperContentsFromNativeContents(NULL, num);
t->trace->startsupercontents |= num;
if (num & SUPERCONTENTS_LIQUIDSMASK)
}
//#endif
-static void Mod_Q1BSP_TraceBox(struct model_s *model, int frame, trace_t *trace, const vec3_t start, const vec3_t boxmins, const vec3_t boxmaxs, const vec3_t end, int hitsupercontentsmask)
+static void Mod_Q1BSP_TracePoint(struct model_s *model, const frameblend_t *frameblend, const skeleton_t *skeleton, trace_t *trace, const vec3_t start, int hitsupercontentsmask)
+{
+ RecursiveHullCheckTraceInfo_t rhc;
+
+ memset(&rhc, 0, sizeof(rhc));
+ memset(trace, 0, sizeof(trace_t));
+ rhc.trace = trace;
+ rhc.trace->fraction = 1;
+ rhc.trace->realfraction = 1;
+ rhc.trace->allsolid = true;
+ rhc.hull = &model->brushq1.hulls[0]; // 0x0x0
+ VectorCopy(start, rhc.start);
+ VectorCopy(start, rhc.end);
+ Mod_Q1BSP_RecursiveHullCheckPoint(&rhc, rhc.hull->firstclipnode);
+}
+
+static void Mod_Q1BSP_TraceLine(struct model_s *model, const frameblend_t *frameblend, const skeleton_t *skeleton, trace_t *trace, const vec3_t start, const vec3_t end, int hitsupercontentsmask)
+{
+ RecursiveHullCheckTraceInfo_t rhc;
+
+ if (VectorCompare(start, end))
+ {
+ Mod_Q1BSP_TracePoint(model, frameblend, skeleton, trace, start, hitsupercontentsmask);
+ return;
+ }
+
+ memset(&rhc, 0, sizeof(rhc));
+ memset(trace, 0, sizeof(trace_t));
+ rhc.trace = trace;
+ rhc.trace->hitsupercontentsmask = hitsupercontentsmask;
+ rhc.trace->fraction = 1;
+ rhc.trace->realfraction = 1;
+ rhc.trace->allsolid = true;
+ rhc.hull = &model->brushq1.hulls[0]; // 0x0x0
+ VectorCopy(start, rhc.start);
+ VectorCopy(end, rhc.end);
+ VectorSubtract(rhc.end, rhc.start, rhc.dist);
+#if COLLISIONPARANOID >= 2
+ Con_Printf("t(%f %f %f,%f %f %f)", rhc.start[0], rhc.start[1], rhc.start[2], rhc.end[0], rhc.end[1], rhc.end[2]);
+ Mod_Q1BSP_RecursiveHullCheck(&rhc, rhc.hull->firstclipnode, 0, 1, rhc.start, rhc.end);
+ {
+
+ double test[3];
+ trace_t testtrace;
+ VectorLerp(rhc.start, rhc.trace->fraction, rhc.end, test);
+ memset(&testtrace, 0, sizeof(trace_t));
+ rhc.trace = &testtrace;
+ rhc.trace->hitsupercontentsmask = hitsupercontentsmask;
+ rhc.trace->fraction = 1;
+ rhc.trace->realfraction = 1;
+ rhc.trace->allsolid = true;
+ VectorCopy(test, rhc.start);
+ VectorCopy(test, rhc.end);
+ VectorClear(rhc.dist);
+ Mod_Q1BSP_RecursiveHullCheckPoint(&rhc, rhc.hull->firstclipnode);
+ //Mod_Q1BSP_RecursiveHullCheck(&rhc, rhc.hull->firstclipnode, 0, 1, test, test);
+ if (!trace->startsolid && testtrace.startsolid)
+ Con_Printf(" - ended in solid!\n");
+ }
+ Con_Print("\n");
+#else
+ if (VectorLength2(rhc.dist))
+ Mod_Q1BSP_RecursiveHullCheck(&rhc, rhc.hull->firstclipnode, 0, 1, rhc.start, rhc.end);
+ else
+ Mod_Q1BSP_RecursiveHullCheckPoint(&rhc, rhc.hull->firstclipnode);
+#endif
+}
+
+static void Mod_Q1BSP_TraceBox(struct model_s *model, const frameblend_t *frameblend, const skeleton_t *skeleton, trace_t *trace, const vec3_t start, const vec3_t boxmins, const vec3_t boxmaxs, const vec3_t end, int hitsupercontentsmask)
{
// this function currently only supports same size start and end
double boxsize[3];
RecursiveHullCheckTraceInfo_t rhc;
+ if (VectorCompare(boxmins, boxmaxs))
+ {
+ if (VectorCompare(start, end))
+ Mod_Q1BSP_TracePoint(model, frameblend, skeleton, trace, start, hitsupercontentsmask);
+ else
+ Mod_Q1BSP_TraceLine(model, frameblend, skeleton, trace, start, end, hitsupercontentsmask);
+ return;
+ }
+
memset(&rhc, 0, sizeof(rhc));
memset(trace, 0, sizeof(trace_t));
rhc.trace = trace;
VectorSubtract(boxmaxs, boxmins, boxsize);
if (boxsize[0] < 3)
rhc.hull = &model->brushq1.hulls[0]; // 0x0x0
- else if (model->brush.ismcbsp)
- {
- if (boxsize[2] < 48) // pick the nearest of 40 or 56
- rhc.hull = &model->brushq1.hulls[2]; // 16x16x40
- else
- rhc.hull = &model->brushq1.hulls[1]; // 16x16x56
- }
else if (model->brush.ishlbsp)
{
// LordHavoc: this has to have a minor tolerance (the .1) because of
#endif
}
-void Collision_ClipTrace_Box(trace_t *trace, const vec3_t cmins, const vec3_t cmaxs, const vec3_t start, const vec3_t mins, const vec3_t maxs, const vec3_t end, int hitsupercontentsmask, int boxsupercontents, int boxq3surfaceflags, texture_t *boxtexture)
+static int Mod_Q1BSP_PointSuperContents(struct model_s *model, int frame, const vec3_t point)
+{
+ int num = model->brushq1.hulls[0].firstclipnode;
+ mplane_t *plane;
+ mclipnode_t *nodes = model->brushq1.hulls[0].clipnodes;
+ mplane_t *planes = model->brushq1.hulls[0].planes;
+ while (num >= 0)
+ {
+ plane = planes + nodes[num].planenum;
+ num = nodes[num].children[(plane->type < 3 ? point[plane->type] : DotProduct(plane->normal, point)) < plane->dist];
+ }
+ return Mod_Q1BSP_SuperContentsFromNativeContents(NULL, num);
+}
+
+void Collision_ClipTrace_Box(trace_t *trace, const vec3_t cmins, const vec3_t cmaxs, const vec3_t start, const vec3_t mins, const vec3_t maxs, const vec3_t end, int hitsupercontentsmask, int boxsupercontents, int boxq3surfaceflags, const texture_t *boxtexture)
{
#if 1
colbrushf_t cbox;
colplanef_t cbox_planes[6];
+ cbox.isaabb = true;
+ cbox.hasaabbplanes = true;
cbox.supercontents = boxsupercontents;
cbox.numplanes = 6;
cbox.numpoints = 0;
#else
RecursiveHullCheckTraceInfo_t rhc;
static hull_t box_hull;
- static dclipnode_t box_clipnodes[6];
+ static mclipnode_t box_clipnodes[6];
static mplane_t box_planes[6];
// fill in a default trace
memset(&rhc, 0, sizeof(rhc));
#endif
}
-static int Mod_Q1BSP_LightPoint_RecursiveBSPNode(model_t *model, vec3_t ambientcolor, vec3_t diffusecolor, vec3_t diffusenormal, const mnode_t *node, float x, float y, float startz, float endz)
+void Collision_ClipTrace_Point(trace_t *trace, const vec3_t cmins, const vec3_t cmaxs, const vec3_t start, int hitsupercontentsmask, int boxsupercontents, int boxq3surfaceflags, const texture_t *boxtexture)
+{
+ memset(trace, 0, sizeof(trace_t));
+ trace->fraction = 1;
+ trace->realfraction = 1;
+ if (BoxesOverlap(start, start, cmins, cmaxs))
+ {
+ trace->startsupercontents |= boxsupercontents;
+ if (hitsupercontentsmask & boxsupercontents)
+ {
+ trace->startsolid = true;
+ trace->allsolid = true;
+ }
+ }
+}
+
+static qboolean Mod_Q1BSP_TraceLineOfSight(struct model_s *model, const vec3_t start, const vec3_t end)
+{
+ trace_t trace;
+ Mod_Q1BSP_TraceLine(model, NULL, NULL, &trace, start, end, SUPERCONTENTS_VISBLOCKERMASK);
+ return trace.fraction == 1;
+}
+
+static int Mod_Q1BSP_LightPoint_RecursiveBSPNode(dp_model_t *model, vec3_t ambientcolor, vec3_t diffusecolor, vec3_t diffusenormal, const mnode_t *node, float x, float y, float startz, float endz)
{
int side;
float front, back;
// check for impact on this node
if (node->numsurfaces)
{
- int i, ds, dt;
+ int i, dsi, dti, lmwidth, lmheight;
+ float ds, dt;
msurface_t *surface;
+ unsigned char *lightmap;
+ int maps, line3, size3;
+ float dsfrac;
+ float dtfrac;
+ float scale, w, w00, w01, w10, w11;
surface = model->data_surfaces + node->firstsurface;
for (i = 0;i < node->numsurfaces;i++, surface++)
{
- if (!(surface->texture->basematerialflags & MATERIALFLAG_WALL) || !surface->lightmapinfo->samples)
+ if (!(surface->texture->basematerialflags & MATERIALFLAG_WALL) || !surface->lightmapinfo || !surface->lightmapinfo->samples)
continue; // no lightmaps
- ds = (int) (x * surface->lightmapinfo->texinfo->vecs[0][0] + y * surface->lightmapinfo->texinfo->vecs[0][1] + mid * surface->lightmapinfo->texinfo->vecs[0][2] + surface->lightmapinfo->texinfo->vecs[0][3]) - surface->lightmapinfo->texturemins[0];
- dt = (int) (x * surface->lightmapinfo->texinfo->vecs[1][0] + y * surface->lightmapinfo->texinfo->vecs[1][1] + mid * surface->lightmapinfo->texinfo->vecs[1][2] + surface->lightmapinfo->texinfo->vecs[1][3]) - surface->lightmapinfo->texturemins[1];
+ // location we want to sample in the lightmap
+ ds = ((x * surface->lightmapinfo->texinfo->vecs[0][0] + y * surface->lightmapinfo->texinfo->vecs[0][1] + mid * surface->lightmapinfo->texinfo->vecs[0][2] + surface->lightmapinfo->texinfo->vecs[0][3]) - surface->lightmapinfo->texturemins[0]) * 0.0625f;
+ dt = ((x * surface->lightmapinfo->texinfo->vecs[1][0] + y * surface->lightmapinfo->texinfo->vecs[1][1] + mid * surface->lightmapinfo->texinfo->vecs[1][2] + surface->lightmapinfo->texinfo->vecs[1][3]) - surface->lightmapinfo->texturemins[1]) * 0.0625f;
+
+ // check the bounds
+ dsi = (int)ds;
+ dti = (int)dt;
+ lmwidth = ((surface->lightmapinfo->extents[0]>>4)+1);
+ lmheight = ((surface->lightmapinfo->extents[1]>>4)+1);
- if (ds >= 0 && ds < surface->lightmapinfo->extents[0] && dt >= 0 && dt < surface->lightmapinfo->extents[1])
+ // is it in bounds?
+ if (dsi >= 0 && dsi < lmwidth-1 && dti >= 0 && dti < lmheight-1)
{
- unsigned char *lightmap;
- int lmwidth, lmheight, maps, line3, size3, dsfrac = ds & 15, dtfrac = dt & 15, scale = 0, r00 = 0, g00 = 0, b00 = 0, r01 = 0, g01 = 0, b01 = 0, r10 = 0, g10 = 0, b10 = 0, r11 = 0, g11 = 0, b11 = 0;
- lmwidth = ((surface->lightmapinfo->extents[0]>>4)+1);
- lmheight = ((surface->lightmapinfo->extents[1]>>4)+1);
+ // calculate bilinear interpolation factors
+ // and also multiply by fixedpoint conversion factors
+ dsfrac = ds - dsi;
+ dtfrac = dt - dti;
+ w00 = (1 - dsfrac) * (1 - dtfrac) * (1.0f / 32768.0f);
+ w01 = ( dsfrac) * (1 - dtfrac) * (1.0f / 32768.0f);
+ w10 = (1 - dsfrac) * ( dtfrac) * (1.0f / 32768.0f);
+ w11 = ( dsfrac) * ( dtfrac) * (1.0f / 32768.0f);
+
+ // values for pointer math
line3 = lmwidth * 3; // LordHavoc: *3 for colored lighting
size3 = lmwidth * lmheight * 3; // LordHavoc: *3 for colored lighting
- lightmap = surface->lightmapinfo->samples + ((dt>>4) * lmwidth + (ds>>4))*3; // LordHavoc: *3 for colored lighting
+ // look up the pixel
+ lightmap = surface->lightmapinfo->samples + dti * line3 + dsi*3; // LordHavoc: *3 for colored lighting
+ // bilinear filter each lightmap style, and sum them
for (maps = 0;maps < MAXLIGHTMAPS && surface->lightmapinfo->styles[maps] != 255;maps++)
{
- scale = r_refdef.lightstylevalue[surface->lightmapinfo->styles[maps]];
- r00 += lightmap[ 0] * scale;g00 += lightmap[ 1] * scale;b00 += lightmap[ 2] * scale;
- r01 += lightmap[ 3] * scale;g01 += lightmap[ 4] * scale;b01 += lightmap[ 5] * scale;
- r10 += lightmap[line3+0] * scale;g10 += lightmap[line3+1] * scale;b10 += lightmap[line3+2] * scale;
- r11 += lightmap[line3+3] * scale;g11 += lightmap[line3+4] * scale;b11 += lightmap[line3+5] * scale;
+ scale = r_refdef.scene.lightstylevalue[surface->lightmapinfo->styles[maps]];
+ w = w00 * scale;VectorMA(ambientcolor, w, lightmap , ambientcolor);
+ w = w01 * scale;VectorMA(ambientcolor, w, lightmap + 3 , ambientcolor);
+ w = w10 * scale;VectorMA(ambientcolor, w, lightmap + line3 , ambientcolor);
+ w = w11 * scale;VectorMA(ambientcolor, w, lightmap + line3 + 3, ambientcolor);
lightmap += size3;
}
-/*
-LordHavoc: here's the readable version of the interpolation
-code, not quite as easy for the compiler to optimize...
-
-dsfrac is the X position in the lightmap pixel, * 16
-dtfrac is the Y position in the lightmap pixel, * 16
-r00 is top left corner, r01 is top right corner
-r10 is bottom left corner, r11 is bottom right corner
-g and b are the same layout.
-r0 and r1 are the top and bottom intermediate results
-
-first we interpolate the top two points, to get the top
-edge sample
-
- r0 = (((r01-r00) * dsfrac) >> 4) + r00;
- g0 = (((g01-g00) * dsfrac) >> 4) + g00;
- b0 = (((b01-b00) * dsfrac) >> 4) + b00;
-
-then we interpolate the bottom two points, to get the
-bottom edge sample
-
- r1 = (((r11-r10) * dsfrac) >> 4) + r10;
- g1 = (((g11-g10) * dsfrac) >> 4) + g10;
- b1 = (((b11-b10) * dsfrac) >> 4) + b10;
-
-then we interpolate the top and bottom samples to get the
-middle sample (the one which was requested)
-
- r = (((r1-r0) * dtfrac) >> 4) + r0;
- g = (((g1-g0) * dtfrac) >> 4) + g0;
- b = (((b1-b0) * dtfrac) >> 4) + b0;
-*/
-
- ambientcolor[0] += (float) ((((((((r11-r10) * dsfrac) >> 4) + r10)-((((r01-r00) * dsfrac) >> 4) + r00)) * dtfrac) >> 4) + ((((r01-r00) * dsfrac) >> 4) + r00)) * (1.0f / 32768.0f);
- ambientcolor[1] += (float) ((((((((g11-g10) * dsfrac) >> 4) + g10)-((((g01-g00) * dsfrac) >> 4) + g00)) * dtfrac) >> 4) + ((((g01-g00) * dsfrac) >> 4) + g00)) * (1.0f / 32768.0f);
- ambientcolor[2] += (float) ((((((((b11-b10) * dsfrac) >> 4) + b10)-((((b01-b00) * dsfrac) >> 4) + b00)) * dtfrac) >> 4) + ((((b01-b00) * dsfrac) >> 4) + b00)) * (1.0f / 32768.0f);
return true; // success
}
}
}
}
-void Mod_Q1BSP_LightPoint(model_t *model, const vec3_t p, vec3_t ambientcolor, vec3_t diffusecolor, vec3_t diffusenormal)
+void Mod_Q1BSP_LightPoint(dp_model_t *model, const vec3_t p, vec3_t ambientcolor, vec3_t diffusecolor, vec3_t diffusenormal)
{
+ // pretend lighting is coming down from above (due to lack of a lightgrid to know primary lighting direction)
+ VectorSet(diffusenormal, 0, 0, 1);
+
+ if (!model->brushq1.lightdata)
+ {
+ VectorSet(ambientcolor, 1, 1, 1);
+ VectorSet(diffusecolor, 0, 0, 0);
+ return;
+ }
+
Mod_Q1BSP_LightPoint_RecursiveBSPNode(model, ambientcolor, diffusecolor, diffusenormal, model->brush.data_nodes + model->brushq1.hulls[0].firstclipnode, p[0], p[1], p[2] + 0.125, p[2] - 65536);
- VectorSet(diffusenormal, 0, 0, -1);
+}
+
+static const texture_t *Mod_Q1BSP_TraceLineAgainstSurfacesFindTextureOnNode(RecursiveHullCheckTraceInfo_t *t, const dp_model_t *model, const mnode_t *node, double mid[3])
+{
+ int i;
+ int j;
+ int k;
+ const msurface_t *surface;
+ float normal[3];
+ float v0[3];
+ float v1[3];
+ float edgedir[3];
+ float edgenormal[3];
+ float p[4];
+ float midf;
+ float t1;
+ float t2;
+ VectorCopy(mid, p);
+ p[3] = 1;
+ surface = model->data_surfaces + node->firstsurface;
+ for (i = 0;i < node->numsurfaces;i++, surface++)
+ {
+ // skip surfaces whose bounding box does not include the point
+// if (!BoxesOverlap(mid, mid, surface->mins, surface->maxs))
+// continue;
+ // skip faces with contents we don't care about
+ if (!(t->trace->hitsupercontentsmask & surface->texture->supercontents))
+ continue;
+ // get the surface normal - since it is flat we know any vertex normal will suffice
+ VectorCopy(model->surfmesh.data_normal3f + 3 * surface->num_firstvertex, normal);
+ // skip backfaces
+ if (DotProduct(t->dist, normal) > 0)
+ continue;
+ // iterate edges and see if the point is outside one of them
+ for (j = 0, k = surface->num_vertices - 1;j < surface->num_vertices;k = j, j++)
+ {
+ VectorCopy(model->surfmesh.data_vertex3f + 3 * (surface->num_firstvertex + k), v0);
+ VectorCopy(model->surfmesh.data_vertex3f + 3 * (surface->num_firstvertex + j), v1);
+ VectorSubtract(v0, v1, edgedir);
+ CrossProduct(edgedir, normal, edgenormal);
+ if (DotProduct(edgenormal, p) > DotProduct(edgenormal, v0))
+ break;
+ }
+ // if the point is outside one of the edges, it is not within the surface
+ if (j < surface->num_vertices)
+ continue;
+
+ // we hit a surface, this is the impact point...
+ VectorCopy(normal, t->trace->plane.normal);
+ t->trace->plane.dist = DotProduct(normal, p);
+
+ // calculate the true fraction
+ t1 = DotProduct(t->start, t->trace->plane.normal) - t->trace->plane.dist;
+ t2 = DotProduct(t->end, t->trace->plane.normal) - t->trace->plane.dist;
+ midf = t1 / (t1 - t2);
+ t->trace->realfraction = midf;
+
+ // calculate the return fraction which is nudged off the surface a bit
+ midf = (t1 - DIST_EPSILON) / (t1 - t2);
+ t->trace->fraction = bound(0, midf, 1);
+
+ if (collision_prefernudgedfraction.integer)
+ t->trace->realfraction = t->trace->fraction;
+
+ t->trace->hittexture = surface->texture->currentframe;
+ t->trace->hitq3surfaceflags = t->trace->hittexture->surfaceflags;
+ t->trace->hitsupercontents = t->trace->hittexture->supercontents;
+ return surface->texture->currentframe;
+ }
+ return NULL;
+}
+
+static int Mod_Q1BSP_TraceLineAgainstSurfacesRecursiveBSPNode(RecursiveHullCheckTraceInfo_t *t, const dp_model_t *model, const mnode_t *node, const double p1[3], const double p2[3])
+{
+ const mplane_t *plane;
+ double t1, t2;
+ int side;
+ double midf, mid[3];
+ const mleaf_t *leaf;
+
+ while (node->plane)
+ {
+ plane = node->plane;
+ if (plane->type < 3)
+ {
+ t1 = p1[plane->type] - plane->dist;
+ t2 = p2[plane->type] - plane->dist;
+ }
+ else
+ {
+ t1 = DotProduct (plane->normal, p1) - plane->dist;
+ t2 = DotProduct (plane->normal, p2) - plane->dist;
+ }
+ if (t1 < 0)
+ {
+ if (t2 < 0)
+ {
+ node = node->children[1];
+ continue;
+ }
+ side = 1;
+ }
+ else
+ {
+ if (t2 >= 0)
+ {
+ node = node->children[0];
+ continue;
+ }
+ side = 0;
+ }
+
+ // the line intersects, find intersection point
+ // LordHavoc: this uses the original trace for maximum accuracy
+ if (plane->type < 3)
+ {
+ t1 = t->start[plane->type] - plane->dist;
+ t2 = t->end[plane->type] - plane->dist;
+ }
+ else
+ {
+ t1 = DotProduct (plane->normal, t->start) - plane->dist;
+ t2 = DotProduct (plane->normal, t->end) - plane->dist;
+ }
+
+ midf = t1 / (t1 - t2);
+ VectorMA(t->start, midf, t->dist, mid);
+
+ // recurse both sides, front side first, return if we hit a surface
+ if (Mod_Q1BSP_TraceLineAgainstSurfacesRecursiveBSPNode(t, model, node->children[side], p1, mid) == HULLCHECKSTATE_DONE)
+ return HULLCHECKSTATE_DONE;
+
+ // test each surface on the node
+ Mod_Q1BSP_TraceLineAgainstSurfacesFindTextureOnNode(t, model, node, mid);
+ if (t->trace->hittexture)
+ return HULLCHECKSTATE_DONE;
+
+ // recurse back side
+ return Mod_Q1BSP_TraceLineAgainstSurfacesRecursiveBSPNode(t, model, node->children[side ^ 1], mid, p2);
+ }
+ leaf = (const mleaf_t *)node;
+ side = Mod_Q1BSP_SuperContentsFromNativeContents(NULL, leaf->contents);
+ if (!t->trace->startfound)
+ {
+ t->trace->startfound = true;
+ t->trace->startsupercontents |= side;
+ }
+ if (side & SUPERCONTENTS_LIQUIDSMASK)
+ t->trace->inwater = true;
+ if (side == 0)
+ t->trace->inopen = true;
+ if (side & t->trace->hitsupercontentsmask)
+ {
+ // if the first leaf is solid, set startsolid
+ if (t->trace->allsolid)
+ t->trace->startsolid = true;
+ return HULLCHECKSTATE_SOLID;
+ }
+ else
+ {
+ t->trace->allsolid = false;
+ return HULLCHECKSTATE_EMPTY;
+ }
+}
+
+static void Mod_Q1BSP_TraceLineAgainstSurfaces(struct model_s *model, const frameblend_t *frameblend, const skeleton_t *skeleton, trace_t *trace, const vec3_t start, const vec3_t end, int hitsupercontentsmask)
+{
+ RecursiveHullCheckTraceInfo_t rhc;
+
+ memset(&rhc, 0, sizeof(rhc));
+ memset(trace, 0, sizeof(trace_t));
+ rhc.trace = trace;
+ rhc.trace->hitsupercontentsmask = hitsupercontentsmask;
+ rhc.trace->fraction = 1;
+ rhc.trace->realfraction = 1;
+ rhc.trace->allsolid = true;
+ rhc.hull = &model->brushq1.hulls[0]; // 0x0x0
+ VectorCopy(start, rhc.start);
+ VectorCopy(end, rhc.end);
+ VectorSubtract(rhc.end, rhc.start, rhc.dist);
+ Mod_Q1BSP_TraceLineAgainstSurfacesRecursiveBSPNode(&rhc, model, model->brush.data_nodes + rhc.hull->firstclipnode, rhc.start, rhc.end);
+ VectorMA(rhc.start, rhc.trace->fraction, rhc.dist, rhc.trace->endpos);
}
static void Mod_Q1BSP_DecompressVis(const unsigned char *in, const unsigned char *inend, unsigned char *out, unsigned char *outend)
{
if (in == inend)
{
- Con_Printf("Mod_Q1BSP_DecompressVis: input underrun on model \"%s\" (decompressed %i of %i output bytes)\n", loadmodel->name, out - outstart, outend - outstart);
+ Con_Printf("Mod_Q1BSP_DecompressVis: input underrun on model \"%s\" (decompressed %i of %i output bytes)\n", loadmodel->name, (int)(out - outstart), (int)(outend - outstart));
return;
}
c = *in++;
{
if (in == inend)
{
- Con_Printf("Mod_Q1BSP_DecompressVis: input underrun (during zero-run) on model \"%s\" (decompressed %i of %i output bytes)\n", loadmodel->name, out - outstart, outend - outstart);
+ Con_Printf("Mod_Q1BSP_DecompressVis: input underrun (during zero-run) on model \"%s\" (decompressed %i of %i output bytes)\n", loadmodel->name, (int)(out - outstart), (int)(outend - outstart));
return;
}
for (c = *in++;c > 0;c--)
{
if (out == outend)
{
- Con_Printf("Mod_Q1BSP_DecompressVis: output overrun on model \"%s\" (decompressed %i of %i output bytes)\n", loadmodel->name, out - outstart, outend - outstart);
+ Con_Printf("Mod_Q1BSP_DecompressVis: output overrun on model \"%s\" (decompressed %i of %i output bytes)\n", loadmodel->name, (int)(out - outstart), (int)(outend - outstart));
return;
}
*out++ = 0;
*/
void R_Q1BSP_LoadSplitSky (unsigned char *src, int width, int height, int bytesperpixel)
{
- int i, j;
- unsigned solidpixels[128*128], alphapixels[128*128];
+ int x, y;
+ int w = width/2;
+ int h = height;
+ unsigned int *solidpixels = (unsigned int *)Mem_Alloc(tempmempool, w*h*sizeof(unsigned char[4]));
+ unsigned int *alphapixels = (unsigned int *)Mem_Alloc(tempmempool, w*h*sizeof(unsigned char[4]));
- // if sky isn't the right size, just use it as a solid layer
- if (width != 256 || height != 128)
- {
- loadmodel->brush.solidskytexture = R_LoadTexture2D(loadmodel->texturepool, "sky_solidtexture", width, height, src, bytesperpixel == 4 ? TEXTYPE_RGBA : TEXTYPE_PALETTE, TEXF_PRECACHE, bytesperpixel == 1 ? palette_complete : NULL);
- loadmodel->brush.alphaskytexture = NULL;
- return;
- }
+ // allocate a texture pool if we need it
+ if (loadmodel->texturepool == NULL && cls.state != ca_dedicated)
+ loadmodel->texturepool = R_AllocTexturePool();
if (bytesperpixel == 4)
{
- for (i = 0;i < 128;i++)
+ for (y = 0;y < h;y++)
{
- for (j = 0;j < 128;j++)
+ for (x = 0;x < w;x++)
{
- solidpixels[(i*128) + j] = ((unsigned *)src)[i*256+j+128];
- alphapixels[(i*128) + j] = ((unsigned *)src)[i*256+j];
+ solidpixels[y*w+x] = ((unsigned *)src)[y*width+x+w];
+ alphapixels[y*w+x] = ((unsigned *)src)[y*width+x];
}
}
}
unsigned int i;
unsigned char b[4];
}
- rgba;
+ bgra;
r = g = b = 0;
- for (i = 0;i < 128;i++)
+ for (y = 0;y < h;y++)
{
- for (j = 0;j < 128;j++)
+ for (x = 0;x < w;x++)
{
- rgba.i = palette_complete[src[i*256 + j + 128]];
- r += rgba.b[0];
- g += rgba.b[1];
- b += rgba.b[2];
+ p = src[x*width+y+w];
+ r += palette_rgb[p][0];
+ g += palette_rgb[p][1];
+ b += palette_rgb[p][2];
}
}
- rgba.b[0] = r/(128*128);
- rgba.b[1] = g/(128*128);
- rgba.b[2] = b/(128*128);
- rgba.b[3] = 0;
- for (i = 0;i < 128;i++)
+ bgra.b[2] = r/(w*h);
+ bgra.b[1] = g/(w*h);
+ bgra.b[0] = b/(w*h);
+ bgra.b[3] = 0;
+ for (y = 0;y < h;y++)
{
- for (j = 0;j < 128;j++)
+ for (x = 0;x < w;x++)
{
- solidpixels[(i*128) + j] = palette_complete[src[i*256 + j + 128]];
- alphapixels[(i*128) + j] = (p = src[i*256 + j]) ? palette_complete[p] : rgba.i;
+ solidpixels[y*w+x] = palette_bgra_complete[src[y*width+x+w]];
+ p = src[y*width+x];
+ alphapixels[y*w+x] = p ? palette_bgra_complete[p] : bgra.i;
}
}
}
- loadmodel->brush.solidskytexture = R_LoadTexture2D(loadmodel->texturepool, "sky_solidtexture", 128, 128, (unsigned char *) solidpixels, TEXTYPE_RGBA, TEXF_PRECACHE, NULL);
- loadmodel->brush.alphaskytexture = R_LoadTexture2D(loadmodel->texturepool, "sky_alphatexture", 128, 128, (unsigned char *) alphapixels, TEXTYPE_RGBA, TEXF_ALPHA | TEXF_PRECACHE, NULL);
+ loadmodel->brush.solidskyskinframe = R_SkinFrame_LoadInternalBGRA("sky_solidtexture", 0 , (unsigned char *) solidpixels, w, h, vid.sRGB3D);
+ loadmodel->brush.alphaskyskinframe = R_SkinFrame_LoadInternalBGRA("sky_alphatexture", TEXF_ALPHA, (unsigned char *) alphapixels, w, h, vid.sRGB3D);
+ Mem_Free(solidpixels);
+ Mem_Free(alphapixels);
}
static void Mod_Q1BSP_LoadTextures(lump_t *l)
{
int i, j, k, num, max, altmax, mtwidth, mtheight, *dofs, incomplete;
+ skinframe_t *skinframe;
miptex_t *dmiptex;
texture_t *tx, *tx2, *anims[10], *altanims[10];
+ texture_t backuptex;
dmiptexlump_t *m;
unsigned char *data, *mtdata;
const char *s;
char mapname[MAX_QPATH], name[MAX_QPATH];
+ unsigned char zeroopaque[4], zerotrans[4];
+ Vector4Set(zeroopaque, 0, 0, 0, 255);
+ Vector4Set(zerotrans, 0, 0, 0, 128);
loadmodel->data_textures = NULL;
m = (dmiptexlump_t *)(mod_base + l->fileofs);
m->nummiptex = LittleLong (m->nummiptex);
loadmodel->num_textures = m->nummiptex + 2;
+ loadmodel->num_texturesperskin = loadmodel->num_textures;
}
else
{
m = NULL;
loadmodel->num_textures = 2;
+ loadmodel->num_texturesperskin = loadmodel->num_textures;
}
loadmodel->data_textures = (texture_t *)Mem_Alloc(loadmodel->mempool, loadmodel->num_textures * sizeof(texture_t));
// fill out all slots with notexture
+ if (cls.state != ca_dedicated)
+ skinframe = R_SkinFrame_LoadMissing();
+ else
+ skinframe = NULL;
for (i = 0, tx = loadmodel->data_textures;i < loadmodel->num_textures;i++, tx++)
{
- strcpy(tx->name, "NO TEXTURE FOUND");
+ strlcpy(tx->name, "NO TEXTURE FOUND", sizeof(tx->name));
tx->width = 16;
tx->height = 16;
- tx->skin.base = r_texture_notexture;
- tx->basematerialflags = 0;
+ if (cls.state != ca_dedicated)
+ {
+ tx->numskinframes = 1;
+ tx->skinframerate = 1;
+ tx->skinframes[0] = skinframe;
+ tx->currentskinframe = tx->skinframes[0];
+ }
+ tx->basematerialflags = MATERIALFLAG_WALL;
if (i == loadmodel->num_textures - 1)
{
- tx->basematerialflags |= MATERIALFLAG_WATER | MATERIALFLAG_LIGHTBOTHSIDES;
+ tx->basematerialflags |= MATERIALFLAG_WATERSCROLL | MATERIALFLAG_LIGHTBOTHSIDES | MATERIALFLAG_NOSHADOW;
tx->supercontents = mod_q1bsp_texture_water.supercontents;
tx->surfaceflags = mod_q1bsp_texture_water.surfaceflags;
}
else
{
- tx->basematerialflags |= MATERIALFLAG_WALL;
tx->supercontents = mod_q1bsp_texture_solid.supercontents;
tx->surfaceflags = mod_q1bsp_texture_solid.surfaceflags;
}
tx->currentframe = tx;
+
+ // clear water settings
+ tx->reflectmin = 0;
+ tx->reflectmax = 1;
+ tx->refractfactor = 1;
+ Vector4Set(tx->refractcolor4f, 1, 1, 1, 1);
+ tx->reflectfactor = 1;
+ Vector4Set(tx->reflectcolor4f, 1, 1, 1, 1);
+ tx->r_water_wateralpha = 1;
+ tx->offsetmapping = OFFSETMAPPING_DEFAULT;
+ tx->offsetscale = 1;
+ tx->specularscalemod = 1;
+ tx->specularpowermod = 1;
}
if (!m)
+ {
+ Con_Printf("%s: no miptex lump to load textures from\n", loadmodel->name);
return;
+ }
s = loadmodel->name;
if (!strncasecmp(s, "maps/", 5))
for (i = 0;i < m->nummiptex;i++)
{
dofs[i] = LittleLong(dofs[i]);
- if (dofs[i] == -1 || r_nosurftextures.integer)
+ if (r_nosurftextures.integer)
+ continue;
+ if (dofs[i] == -1)
+ {
+ Con_DPrintf("%s: miptex #%i missing\n", loadmodel->name, i);
continue;
+ }
dmiptex = (miptex_t *)((unsigned char *)m + dofs[i]);
- // make sure name is no more than 15 characters
- for (j = 0;dmiptex->name[j] && j < 15;j++)
+ // copy name, but only up to 16 characters
+ // (the output buffer can hold more than this, but the input buffer is
+ // only 16)
+ for (j = 0;j < 16 && dmiptex->name[j];j++)
name[j] = dmiptex->name[j];
name[j] = 0;
+ if (!name[0])
+ {
+ dpsnprintf(name, sizeof(name), "unnamed%i", i);
+ Con_DPrintf("%s: warning: renaming unnamed texture to %s\n", loadmodel->name, name);
+ }
+
mtwidth = LittleLong(dmiptex->width);
mtheight = LittleLong(dmiptex->height);
mtdata = NULL;
// texture included
if (j < 40 || j + mtwidth * mtheight > l->filelen)
{
- Con_Printf("Texture \"%s\" in \"%s\"is corrupt or incomplete\n", dmiptex->name, loadmodel->name);
+ Con_Printf("%s: Texture \"%s\" is corrupt or incomplete\n", loadmodel->name, dmiptex->name);
continue;
}
mtdata = (unsigned char *)dmiptex + j;
}
if ((mtwidth & 15) || (mtheight & 15))
- Con_Printf("warning: texture \"%s\" in \"%s\" is not 16 aligned\n", dmiptex->name, loadmodel->name);
+ Con_DPrintf("%s: warning: texture \"%s\" is not 16 aligned\n", loadmodel->name, dmiptex->name);
// LordHavoc: force all names to lowercase
for (j = 0;name[j];j++)
if (name[j] >= 'A' && name[j] <= 'Z')
name[j] += 'a' - 'A';
+ // LordHavoc: backup the texture_t because q3 shader loading overwrites it
+ backuptex = loadmodel->data_textures[i];
+ if (dmiptex->name[0] && Mod_LoadTextureFromQ3Shader(loadmodel->data_textures + i, name, false, false, 0))
+ continue;
+ loadmodel->data_textures[i] = backuptex;
+
tx = loadmodel->data_textures + i;
- strcpy(tx->name, name);
+ strlcpy(tx->name, name, sizeof(tx->name));
tx->width = mtwidth;
tx->height = mtheight;
- if (!tx->name[0])
+ if (tx->name[0] == '*')
+ {
+ if (!strncmp(tx->name, "*lava", 5))
+ {
+ tx->supercontents = mod_q1bsp_texture_lava.supercontents;
+ tx->surfaceflags = mod_q1bsp_texture_lava.surfaceflags;
+ }
+ else if (!strncmp(tx->name, "*slime", 6))
+ {
+ tx->supercontents = mod_q1bsp_texture_slime.supercontents;
+ tx->surfaceflags = mod_q1bsp_texture_slime.surfaceflags;
+ }
+ else
+ {
+ tx->supercontents = mod_q1bsp_texture_water.supercontents;
+ tx->surfaceflags = mod_q1bsp_texture_water.surfaceflags;
+ }
+ }
+ else if (!strncmp(tx->name, "sky", 3))
+ {
+ tx->supercontents = mod_q1bsp_texture_sky.supercontents;
+ tx->surfaceflags = mod_q1bsp_texture_sky.surfaceflags;
+ }
+ else
{
- sprintf(tx->name, "unnamed%i", i);
- Con_Printf("warning: unnamed texture in %s, renaming to %s\n", loadmodel->name, tx->name);
+ tx->supercontents = mod_q1bsp_texture_solid.supercontents;
+ tx->surfaceflags = mod_q1bsp_texture_solid.surfaceflags;
}
if (cls.state != ca_dedicated)
{
// LordHavoc: HL sky textures are entirely different than quake
- if (!loadmodel->brush.ishlbsp && !strncmp(tx->name, "sky", 3) && mtwidth == 256 && mtheight == 128)
+ if (!loadmodel->brush.ishlbsp && !strncmp(tx->name, "sky", 3) && mtwidth == mtheight * 2)
{
- if (loadmodel->isworldmodel)
+ data = loadimagepixelsbgra(gamemode == GAME_TENEBRAE ? tx->name : va("textures/%s/%s", mapname, tx->name), false, false, false, NULL);
+ if (!data)
+ data = loadimagepixelsbgra(gamemode == GAME_TENEBRAE ? tx->name : va("textures/%s", tx->name), false, false, false, NULL);
+ if (data && image_width == image_height * 2)
{
- data = loadimagepixels(tx->name, false, 0, 0);
- if (data)
- {
- R_Q1BSP_LoadSplitSky(data, image_width, image_height, 4);
- Mem_Free(data);
- }
- else if (mtdata != NULL)
- R_Q1BSP_LoadSplitSky(mtdata, mtwidth, mtheight, 1);
+ R_Q1BSP_LoadSplitSky(data, image_width, image_height, 4);
+ Mem_Free(data);
}
+ else if (mtdata != NULL)
+ R_Q1BSP_LoadSplitSky(mtdata, mtwidth, mtheight, 1);
}
else
{
- if (!Mod_LoadSkinFrame(&tx->skin, gamemode == GAME_TENEBRAE ? tx->name : va("textures/%s/%s", mapname, tx->name), TEXF_MIPMAP | TEXF_ALPHA | TEXF_PRECACHE | TEXF_PICMIP, false, true)
- && !Mod_LoadSkinFrame(&tx->skin, gamemode == GAME_TENEBRAE ? tx->name : va("textures/%s", tx->name), TEXF_MIPMAP | TEXF_ALPHA | TEXF_PRECACHE | TEXF_PICMIP, false, true))
+ skinframe = R_SkinFrame_LoadExternal(gamemode == GAME_TENEBRAE ? tx->name : va("textures/%s/%s", mapname, tx->name), TEXF_ALPHA | TEXF_MIPMAP | TEXF_ISWORLD | TEXF_PICMIP | TEXF_COMPRESS, false);
+ if (!skinframe)
+ skinframe = R_SkinFrame_LoadExternal(gamemode == GAME_TENEBRAE ? tx->name : va("textures/%s", tx->name), TEXF_ALPHA | TEXF_MIPMAP | TEXF_ISWORLD | TEXF_PICMIP | TEXF_COMPRESS, false);
+ if (skinframe)
+ tx->offsetmapping = OFFSETMAPPING_DEFAULT; // allow offsetmapping on external textures without a q3 shader
+ if (!skinframe)
{
// did not find external texture, load it from the bsp or wad3
if (loadmodel->brush.ishlbsp)
unsigned char *pixels, *freepixels;
pixels = freepixels = NULL;
if (mtdata)
- pixels = W_ConvertWAD3Texture(dmiptex);
+ pixels = W_ConvertWAD3TextureBGRA(dmiptex);
if (pixels == NULL)
- pixels = freepixels = W_GetTexture(tx->name);
+ pixels = freepixels = W_GetTextureBGRA(tx->name);
if (pixels != NULL)
{
tx->width = image_width;
tx->height = image_height;
- Mod_LoadSkinFrame_Internal(&tx->skin, tx->name, TEXF_MIPMAP | TEXF_ALPHA | TEXF_PRECACHE | TEXF_PICMIP, false, false, pixels, image_width, image_height, 32, NULL, NULL);
+ skinframe = R_SkinFrame_LoadInternalBGRA(tx->name, TEXF_ALPHA | TEXF_MIPMAP | TEXF_ISWORLD | TEXF_PICMIP, pixels, image_width, image_height, true);
}
if (freepixels)
Mem_Free(freepixels);
}
else if (mtdata) // texture included
- Mod_LoadSkinFrame_Internal(&tx->skin, tx->name, TEXF_MIPMAP | TEXF_PRECACHE | TEXF_PICMIP, false, r_fullbrights.integer, mtdata, tx->width, tx->height, 8, NULL, NULL);
+ skinframe = R_SkinFrame_LoadInternalQuake(tx->name, TEXF_MIPMAP | TEXF_ISWORLD | TEXF_PICMIP, false, r_fullbrights.integer, mtdata, tx->width, tx->height);
}
+ // if skinframe is still NULL the "missing" texture will be used
+ if (skinframe)
+ tx->skinframes[0] = skinframe;
}
- if (tx->skin.base == NULL)
- {
- // no texture found
- tx->width = 16;
- tx->height = 16;
- tx->skin.base = r_texture_notexture;
- }
+ // LordHavoc: some Tenebrae textures get replaced by black
+ if (!strncmp(tx->name, "*glassmirror", 12)) // Tenebrae
+ tx->skinframes[0] = R_SkinFrame_LoadInternalBGRA(tx->name, TEXF_MIPMAP | TEXF_ALPHA, zerotrans, 1, 1, false);
+ else if (!strncmp(tx->name, "mirror", 6)) // Tenebrae
+ tx->skinframes[0] = R_SkinFrame_LoadInternalBGRA(tx->name, 0, zeroopaque, 1, 1, false);
}
- tx->basematerialflags = 0;
+ tx->basematerialflags = MATERIALFLAG_WALL;
if (tx->name[0] == '*')
{
// LordHavoc: some turbulent textures should not be affected by wateralpha
- if (strncmp(tx->name,"*lava",5)
- && strncmp(tx->name,"*teleport",9)
- && strncmp(tx->name,"*rift",5)) // Scourge of Armagon texture
- tx->basematerialflags |= MATERIALFLAG_WATERALPHA;
- if (!strncmp(tx->name, "*lava", 5))
- {
- tx->supercontents = mod_q1bsp_texture_lava.supercontents;
- tx->surfaceflags = mod_q1bsp_texture_lava.surfaceflags;
- }
- else if (!strncmp(tx->name, "*slime", 6))
- {
- tx->supercontents = mod_q1bsp_texture_slime.supercontents;
- tx->surfaceflags = mod_q1bsp_texture_slime.surfaceflags;
- }
+ if (!strncmp(tx->name, "*glassmirror", 12)) // Tenebrae
+ tx->basematerialflags |= MATERIALFLAG_NOSHADOW | MATERIALFLAG_ADD | MATERIALFLAG_BLENDED | MATERIALFLAG_REFLECTION;
+ else if (!strncmp(tx->name,"*lava",5)
+ || !strncmp(tx->name,"*teleport",9)
+ || !strncmp(tx->name,"*rift",5)) // Scourge of Armagon texture
+ tx->basematerialflags |= MATERIALFLAG_WATERSCROLL | MATERIALFLAG_LIGHTBOTHSIDES | MATERIALFLAG_NOSHADOW;
else
- {
- tx->supercontents = mod_q1bsp_texture_water.supercontents;
- tx->surfaceflags = mod_q1bsp_texture_water.surfaceflags;
- }
- tx->basematerialflags |= MATERIALFLAG_WATER | MATERIALFLAG_LIGHTBOTHSIDES;
- }
- else if (tx->name[0] == 's' && tx->name[1] == 'k' && tx->name[2] == 'y')
- {
- tx->supercontents = mod_q1bsp_texture_sky.supercontents;
- tx->surfaceflags = mod_q1bsp_texture_sky.surfaceflags;
- tx->basematerialflags |= MATERIALFLAG_SKY;
+ tx->basematerialflags |= MATERIALFLAG_WATERSCROLL | MATERIALFLAG_LIGHTBOTHSIDES | MATERIALFLAG_NOSHADOW | MATERIALFLAG_WATERALPHA | MATERIALFLAG_WATERSHADER;
+ if (tx->skinframes[0] && tx->skinframes[0]->hasalpha)
+ tx->basematerialflags |= MATERIALFLAG_ALPHA | MATERIALFLAG_BLENDED | MATERIALFLAG_NOSHADOW;
}
- else
+ else if (!strncmp(tx->name, "mirror", 6)) // Tenebrae
{
- tx->supercontents = mod_q1bsp_texture_solid.supercontents;
- tx->surfaceflags = mod_q1bsp_texture_solid.surfaceflags;
- tx->basematerialflags |= MATERIALFLAG_WALL;
+ // replace the texture with black
+ tx->basematerialflags |= MATERIALFLAG_REFLECTION;
}
- if (tx->skin.fog)
- tx->basematerialflags |= MATERIALFLAG_ALPHA | MATERIALFLAG_BLENDED | MATERIALFLAG_TRANSPARENT;
+ else if (!strncmp(tx->name, "sky", 3))
+ tx->basematerialflags = MATERIALFLAG_SKY | MATERIALFLAG_NOSHADOW;
+ else if (!strcmp(tx->name, "caulk"))
+ tx->basematerialflags = MATERIALFLAG_NODRAW | MATERIALFLAG_NOSHADOW;
+ else if (tx->skinframes[0] && tx->skinframes[0]->hasalpha)
+ tx->basematerialflags |= MATERIALFLAG_ALPHA | MATERIALFLAG_BLENDED | MATERIALFLAG_NOSHADOW;
// start out with no animation
tx->currentframe = tx;
+ tx->currentskinframe = tx->skinframes[0];
+ tx->currentmaterialflags = tx->basematerialflags;
}
// sequence the animations
for (i=0; i<l->filelen; i++)
loadmodel->brushq1.lightdata[i] = mod_base[l->fileofs+i] >>= 1;
}
- else if (loadmodel->brush.ismcbsp)
- {
- loadmodel->brushq1.lightdata = (unsigned char *)Mem_Alloc(loadmodel->mempool, l->filelen);
- memcpy(loadmodel->brushq1.lightdata, mod_base + l->fileofs, l->filelen);
- }
else // LordHavoc: bsp version 29 (normal white lighting)
{
// LordHavoc: hope is not lost yet, check for a .lit file to load
i = LittleLong(((int *)data)[1]);
if (i == 1)
{
- Con_DPrintf("loaded %s\n", litfilename);
+ if (developer_loading.integer)
+ Con_Printf("loaded %s\n", litfilename);
loadmodel->brushq1.lightdata = (unsigned char *)Mem_Alloc(loadmodel->mempool, filesize - 8);
memcpy(loadmodel->brushq1.lightdata, data + 8, filesize - 8);
Mem_Free(data);
i = LittleLong(((int *)data)[1]);
if (i == 1)
{
- Con_DPrintf("loaded %s\n", dlitfilename);
+ if (developer_loading.integer)
+ Con_Printf("loaded %s\n", dlitfilename);
loadmodel->brushq1.nmaplightdata = (unsigned char *)Mem_Alloc(loadmodel->mempool, filesize - 8);
memcpy(loadmodel->brushq1.nmaplightdata, data + 8, filesize - 8);
loadmodel->brushq3.deluxemapping_modelspace = false;
else if (filesize == 8)
Con_Print("Empty .lit file, ignoring\n");
else
- Con_Printf("Corrupt .lit file (file size %i bytes, should be %i bytes), ignoring\n", filesize, 8 + l->filelen * 3);
+ Con_Printf("Corrupt .lit file (file size %i bytes, should be %i bytes), ignoring\n", (int) filesize, (int) (8 + l->filelen * 3));
if (data)
{
Mem_Free(data);
static void Mod_Q1BSP_ParseWadsFromEntityLump(const char *data)
{
char key[128], value[4096];
- char wadname[128];
int i, j, k;
if (!data)
return;
- if (!COM_ParseTokenConsole(&data))
+ if (!COM_ParseToken_Simple(&data, false, false))
return; // error
if (com_token[0] != '{')
return; // error
while (1)
{
- if (!COM_ParseTokenConsole(&data))
+ if (!COM_ParseToken_Simple(&data, false, false))
return; // error
if (com_token[0] == '}')
break; // end of worldspawn
if (com_token[0] == '_')
- strcpy(key, com_token + 1);
+ strlcpy(key, com_token + 1, sizeof(key));
else
- strcpy(key, com_token);
+ strlcpy(key, com_token, sizeof(key));
while (key[strlen(key)-1] == ' ') // remove trailing spaces
key[strlen(key)-1] = 0;
- if (!COM_ParseTokenConsole(&data))
+ if (!COM_ParseToken_Simple(&data, false, false))
return; // error
dpsnprintf(value, sizeof(value), "%s", com_token);
if (!strcmp("wad", key)) // for HalfLife maps
{
k = value[i];
value[i] = 0;
- strcpy(wadname, "textures/");
- strcat(wadname, &value[j]);
- W_LoadTextureWadFile(wadname, false);
+ W_LoadTextureWadFile(&value[j], false);
j = i+1;
if (!k)
break;
loadmodel->brush.entities = NULL;
if (!l->filelen)
return;
- loadmodel->brush.entities = (char *)Mem_Alloc(loadmodel->mempool, l->filelen);
+ loadmodel->brush.entities = (char *)Mem_Alloc(loadmodel->mempool, l->filelen + 1);
memcpy(loadmodel->brush.entities, mod_base + l->fileofs, l->filelen);
+ loadmodel->brush.entities[l->filelen] = 0;
if (loadmodel->brush.ishlbsp)
Mod_Q1BSP_ParseWadsFromEntityLump(loadmodel->brush.entities);
}
if (out->v[0] >= loadmodel->brushq1.numvertexes || out->v[1] >= loadmodel->brushq1.numvertexes)
{
Con_Printf("Mod_Q1BSP_LoadEdges: %s has invalid vertex indices in edge %i (vertices %i %i >= numvertices %i)\n", loadmodel->name, i, out->v[0], out->v[1], loadmodel->brushq1.numvertexes);
+ if(!loadmodel->brushq1.numvertexes)
+ Host_Error("Mod_Q1BSP_LoadEdges: %s has edges but no vertexes, cannot fix\n", loadmodel->name);
+
out->v[0] = 0;
out->v[1] = 0;
}
{
// if texture chosen is NULL or the shader needs a lightmap,
// force to notexture water shader
- if (out->texture == NULL || out->texture->basematerialflags & MATERIALFLAG_WALL)
+ if (out->texture == NULL)
out->texture = loadmodel->data_textures + (loadmodel->num_textures - 1);
}
else
}
#endif
-static qboolean Mod_Q1BSP_AllocLightmapBlock(int *lineused, int totalwidth, int totalheight, int blockwidth, int blockheight, int *outx, int *outy)
-{
- int y, x2, y2;
- int bestx = totalwidth, besty = 0;
- // find the left-most space we can find
- for (y = 0;y <= totalheight - blockheight;y++)
- {
- x2 = 0;
- for (y2 = 0;y2 < blockheight;y2++)
- x2 = max(x2, lineused[y+y2]);
- if (bestx > x2)
- {
- bestx = x2;
- besty = y;
- }
- }
- // if the best was not good enough, return failure
- if (bestx > totalwidth - blockwidth)
- return false;
- // we found a good spot
- if (outx)
- *outx = bestx;
- if (outy)
- *outy = besty;
- // now mark the space used
- for (y2 = 0;y2 < blockheight;y2++)
- lineused[besty+y2] = bestx + blockwidth;
- // return success
- return true;
-}
-
+extern cvar_t gl_max_lightmapsize;
static void Mod_Q1BSP_LoadFaces(lump_t *l)
{
dface_t *in;
msurface_t *surface;
- int i, j, count, surfacenum, planenum, smax, tmax, ssize, tsize, firstedge, numedges, totalverts, totaltris, lightmapnumber;
- float texmins[2], texmaxs[2], val, lightmaptexcoordscale;
-#define LIGHTMAPSIZE 256
+ int i, j, count, surfacenum, planenum, smax, tmax, ssize, tsize, firstedge, numedges, totalverts, totaltris, lightmapnumber, lightmapsize, totallightmapsamples;
+ float texmins[2], texmaxs[2], val;
rtexture_t *lightmaptexture, *deluxemaptexture;
- int lightmap_lineused[LIGHTMAPSIZE];
in = (dface_t *)(mod_base + l->fileofs);
if (l->filelen % sizeof(*in))
loadmodel->num_surfaces = count;
+ loadmodel->brushq1.firstrender = true;
+ loadmodel->brushq1.lightmapupdateflags = (unsigned char *)Mem_Alloc(loadmodel->mempool, count*sizeof(unsigned char));
+
totalverts = 0;
totaltris = 0;
for (surfacenum = 0, in = (dface_t *)(mod_base + l->fileofs);surfacenum < count;surfacenum++, in++)
{
- numedges = LittleShort(in->numedges);
+ numedges = (unsigned short)LittleShort(in->numedges);
totalverts += numedges;
totaltris += numedges - 2;
}
lightmaptexture = NULL;
deluxemaptexture = r_texture_blanknormalmap;
- lightmapnumber = 1;
- lightmaptexcoordscale = 1.0f / (float)LIGHTMAPSIZE;
+ lightmapnumber = 0;
+ lightmapsize = bound(256, gl_max_lightmapsize.integer, (int)vid.maxtexturesize_2d);
+ totallightmapsamples = 0;
totalverts = 0;
totaltris = 0;
// FIXME: validate edges, texinfo, etc?
firstedge = LittleLong(in->firstedge);
- numedges = LittleShort(in->numedges);
+ numedges = (unsigned short)LittleShort(in->numedges);
if ((unsigned int) firstedge > (unsigned int) loadmodel->brushq1.numsurfedges || (unsigned int) numedges > (unsigned int) loadmodel->brushq1.numsurfedges || (unsigned int) firstedge + (unsigned int) numedges > (unsigned int) loadmodel->brushq1.numsurfedges)
Host_Error("Mod_Q1BSP_LoadFaces: invalid edge range (firstedge %i, numedges %i, model edges %i)", firstedge, numedges, loadmodel->brushq1.numsurfedges);
- i = LittleShort(in->texinfo);
+ i = (unsigned short)LittleShort(in->texinfo);
if ((unsigned int) i >= (unsigned int) loadmodel->brushq1.numtexinfo)
Host_Error("Mod_Q1BSP_LoadFaces: invalid texinfo index %i(model has %i texinfos)", i, loadmodel->brushq1.numtexinfo);
surface->lightmapinfo->texinfo = loadmodel->brushq1.texinfo + i;
surface->texture = surface->lightmapinfo->texinfo->texture;
- planenum = LittleShort(in->planenum);
+ planenum = (unsigned short)LittleShort(in->planenum);
if ((unsigned int) planenum >= (unsigned int) loadmodel->brush.num_planes)
Host_Error("Mod_Q1BSP_LoadFaces: invalid plane index %i (model has %i planes)", planenum, loadmodel->brush.num_planes);
{
int lindex = loadmodel->brushq1.surfedges[firstedge + i];
float s, t;
- if (lindex > 0)
+ // note: the q1bsp format does not allow a 0 surfedge (it would have no negative counterpart)
+ if (lindex >= 0)
VectorCopy(loadmodel->brushq1.vertexes[loadmodel->brushq1.edges[lindex].v[0]].position, (loadmodel->surfmesh.data_vertex3f + 3 * surface->num_firstvertex) + i * 3);
else
VectorCopy(loadmodel->brushq1.vertexes[loadmodel->brushq1.edges[-lindex].v[1]].position, (loadmodel->surfmesh.data_vertex3f + 3 * surface->num_firstvertex) + i * 3);
}
// compile additional data about the surface geometry
- Mod_BuildNormals(surface->num_firstvertex, surface->num_vertices, surface->num_triangles, loadmodel->surfmesh.data_vertex3f, (loadmodel->surfmesh.data_element3i + 3 * surface->num_firsttriangle), loadmodel->surfmesh.data_normal3f, true);
- Mod_BuildTextureVectorsFromNormals(surface->num_firstvertex, surface->num_vertices, surface->num_triangles, loadmodel->surfmesh.data_vertex3f, loadmodel->surfmesh.data_texcoordtexture2f, loadmodel->surfmesh.data_normal3f, (loadmodel->surfmesh.data_element3i + 3 * surface->num_firsttriangle), loadmodel->surfmesh.data_svector3f, loadmodel->surfmesh.data_tvector3f, true);
+ Mod_BuildNormals(surface->num_firstvertex, surface->num_vertices, surface->num_triangles, loadmodel->surfmesh.data_vertex3f, (loadmodel->surfmesh.data_element3i + 3 * surface->num_firsttriangle), loadmodel->surfmesh.data_normal3f, r_smoothnormals_areaweighting.integer != 0);
+ Mod_BuildTextureVectorsFromNormals(surface->num_firstvertex, surface->num_vertices, surface->num_triangles, loadmodel->surfmesh.data_vertex3f, loadmodel->surfmesh.data_texcoordtexture2f, loadmodel->surfmesh.data_normal3f, (loadmodel->surfmesh.data_element3i + 3 * surface->num_firsttriangle), loadmodel->surfmesh.data_svector3f, loadmodel->surfmesh.data_tvector3f, r_smoothnormals_areaweighting.integer != 0);
BoxFromPoints(surface->mins, surface->maxs, surface->num_vertices, (loadmodel->surfmesh.data_vertex3f + 3 * surface->num_firstvertex));
// generate surface extents information
if (i == -1)
{
surface->lightmapinfo->samples = NULL;
+#if 1
// give non-lightmapped water a 1x white lightmap
- if ((surface->texture->basematerialflags & MATERIALFLAG_WATER) && (surface->lightmapinfo->texinfo->flags & TEX_SPECIAL) && ssize <= 256 && tsize <= 256)
+ if (surface->texture->name[0] == '*' && (surface->lightmapinfo->texinfo->flags & TEX_SPECIAL) && ssize <= 256 && tsize <= 256)
{
surface->lightmapinfo->samples = (unsigned char *)Mem_Alloc(loadmodel->mempool, ssize * tsize * 3);
surface->lightmapinfo->styles[0] = 0;
memset(surface->lightmapinfo->samples, 128, ssize * tsize * 3);
}
+#endif
}
else if (loadmodel->brush.ishlbsp) // LordHavoc: HalfLife map (bsp version 30)
surface->lightmapinfo->samples = loadmodel->brushq1.lightdata + i;
// check if we should apply a lightmap to this
if (!(surface->lightmapinfo->texinfo->flags & TEX_SPECIAL) || surface->lightmapinfo->samples)
{
- int i, iu, iv, lightmapx, lightmapy;
- float u, v, ubase, vbase, uscale, vscale;
-
if (ssize > 256 || tsize > 256)
Host_Error("Bad surface extents");
+
+ if (lightmapsize < ssize)
+ lightmapsize = ssize;
+ if (lightmapsize < tsize)
+ lightmapsize = tsize;
+
+ totallightmapsamples += ssize*tsize;
+
// force lightmap upload on first time seeing the surface
- surface->cached_dlight = true;
- // stainmap for permanent marks on walls
- surface->lightmapinfo->stainsamples = (unsigned char *)Mem_Alloc(loadmodel->mempool, ssize * tsize * 3);
- // clear to white
- memset(surface->lightmapinfo->stainsamples, 255, ssize * tsize * 3);
-
- // find a place for this lightmap
- if (!lightmaptexture || !Mod_Q1BSP_AllocLightmapBlock(lightmap_lineused, LIGHTMAPSIZE, LIGHTMAPSIZE, ssize, tsize, &lightmapx, &lightmapy))
+ //
+ // additionally this is used by the later code to see if a
+ // lightmap is needed on this surface (rather than duplicating the
+ // logic above)
+ loadmodel->brushq1.lightmapupdateflags[surfacenum] = true;
+ loadmodel->lit = true;
+ }
+ }
+
+ // small maps (such as ammo boxes especially) don't need big lightmap
+ // textures, so this code tries to guess a good size based on
+ // totallightmapsamples (size of the lightmaps lump basically), as well as
+ // trying to max out the size if there is a lot of lightmap data to store
+ // additionally, never choose a lightmapsize that is smaller than the
+ // largest surface encountered (as it would fail)
+ i = lightmapsize;
+ for (lightmapsize = 64; (lightmapsize < i) && (lightmapsize < bound(128, gl_max_lightmapsize.integer, (int)vid.maxtexturesize_2d)) && (totallightmapsamples > lightmapsize*lightmapsize); lightmapsize*=2)
+ ;
+
+ // now that we've decided the lightmap texture size, we can do the rest
+ if (cls.state != ca_dedicated)
+ {
+ int stainmapsize = 0;
+ mod_alloclightmap_state_t allocState;
+
+ Mod_AllocLightmap_Init(&allocState, lightmapsize, lightmapsize);
+ for (surfacenum = 0, surface = loadmodel->data_surfaces;surfacenum < count;surfacenum++, surface++)
+ {
+ int i, iu, iv, lightmapx = 0, lightmapy = 0;
+ float u, v, ubase, vbase, uscale, vscale;
+
+ if (!loadmodel->brushq1.lightmapupdateflags[surfacenum])
+ continue;
+
+ smax = surface->lightmapinfo->extents[0] >> 4;
+ tmax = surface->lightmapinfo->extents[1] >> 4;
+ ssize = (surface->lightmapinfo->extents[0] >> 4) + 1;
+ tsize = (surface->lightmapinfo->extents[1] >> 4) + 1;
+ stainmapsize += ssize * tsize * 3;
+
+ if (!lightmaptexture || !Mod_AllocLightmap_Block(&allocState, ssize, tsize, &lightmapx, &lightmapy))
{
+ // allocate a texture pool if we need it
+ if (loadmodel->texturepool == NULL)
+ loadmodel->texturepool = R_AllocTexturePool();
// could not find room, make a new lightmap
- lightmaptexture = R_LoadTexture2D(loadmodel->texturepool, va("lightmap%i", lightmapnumber), LIGHTMAPSIZE, LIGHTMAPSIZE, NULL, loadmodel->brushq1.lightmaprgba ? TEXTYPE_RGBA : TEXTYPE_RGB, TEXF_FORCELINEAR | TEXF_PRECACHE, NULL);
+ loadmodel->brushq3.num_mergedlightmaps = lightmapnumber + 1;
+ loadmodel->brushq3.data_lightmaps = (rtexture_t **)Mem_Realloc(loadmodel->mempool, loadmodel->brushq3.data_lightmaps, loadmodel->brushq3.num_mergedlightmaps * sizeof(loadmodel->brushq3.data_lightmaps[0]));
+ loadmodel->brushq3.data_deluxemaps = (rtexture_t **)Mem_Realloc(loadmodel->mempool, loadmodel->brushq3.data_deluxemaps, loadmodel->brushq3.num_mergedlightmaps * sizeof(loadmodel->brushq3.data_deluxemaps[0]));
+ loadmodel->brushq3.data_lightmaps[lightmapnumber] = lightmaptexture = R_LoadTexture2D(loadmodel->texturepool, va("lightmap%i", lightmapnumber), lightmapsize, lightmapsize, NULL, TEXTYPE_BGRA, TEXF_FORCELINEAR | TEXF_ALLOWUPDATES, -1, NULL);
if (loadmodel->brushq1.nmaplightdata)
- deluxemaptexture = R_LoadTexture2D(loadmodel->texturepool, va("deluxemap%i", lightmapnumber), LIGHTMAPSIZE, LIGHTMAPSIZE, NULL, loadmodel->brushq1.lightmaprgba ? TEXTYPE_RGBA : TEXTYPE_RGB, TEXF_FORCELINEAR | TEXF_PRECACHE, NULL);
+ loadmodel->brushq3.data_deluxemaps[lightmapnumber] = deluxemaptexture = R_LoadTexture2D(loadmodel->texturepool, va("deluxemap%i", lightmapnumber), lightmapsize, lightmapsize, NULL, TEXTYPE_BGRA, TEXF_FORCELINEAR | TEXF_ALLOWUPDATES, -1, NULL);
lightmapnumber++;
- memset(lightmap_lineused, 0, sizeof(lightmap_lineused));
- Mod_Q1BSP_AllocLightmapBlock(lightmap_lineused, LIGHTMAPSIZE, LIGHTMAPSIZE, ssize, tsize, &lightmapx, &lightmapy);
+ Mod_AllocLightmap_Reset(&allocState);
+ Mod_AllocLightmap_Block(&allocState, ssize, tsize, &lightmapx, &lightmapy);
}
-
surface->lightmaptexture = lightmaptexture;
surface->deluxemaptexture = deluxemaptexture;
surface->lightmapinfo->lightmaporigin[0] = lightmapx;
surface->lightmapinfo->lightmaporigin[1] = lightmapy;
- ubase = lightmapx * lightmaptexcoordscale;
- vbase = lightmapy * lightmaptexcoordscale;
- uscale = lightmaptexcoordscale;
- vscale = lightmaptexcoordscale;
+ uscale = 1.0f / (float)lightmapsize;
+ vscale = 1.0f / (float)lightmapsize;
+ ubase = lightmapx * uscale;
+ vbase = lightmapy * vscale;
for (i = 0;i < surface->num_vertices;i++)
{
(loadmodel->surfmesh.data_lightmapoffsets + surface->num_firstvertex)[i] = (bound(0, iv, tmax) * ssize + bound(0, iu, smax)) * 3;
}
}
+
+ if (cl_stainmaps.integer)
+ {
+ // allocate stainmaps for permanent marks on walls and clear white
+ unsigned char *stainsamples = NULL;
+ stainsamples = (unsigned char *)Mem_Alloc(loadmodel->mempool, stainmapsize);
+ memset(stainsamples, 255, stainmapsize);
+ // assign pointers
+ for (surfacenum = 0, surface = loadmodel->data_surfaces;surfacenum < count;surfacenum++, surface++)
+ {
+ if (!loadmodel->brushq1.lightmapupdateflags[surfacenum])
+ continue;
+ ssize = (surface->lightmapinfo->extents[0] >> 4) + 1;
+ tsize = (surface->lightmapinfo->extents[1] >> 4) + 1;
+ surface->lightmapinfo->stainsamples = stainsamples;
+ stainsamples += ssize * tsize * 3;
+ }
+ }
}
+
+ // generate ushort elements array if possible
+ if (loadmodel->surfmesh.data_element3s)
+ for (i = 0;i < loadmodel->surfmesh.num_triangles*3;i++)
+ loadmodel->surfmesh.data_element3s[i] = loadmodel->surfmesh.data_element3i[i];
}
static void Mod_Q1BSP_LoadNodes_RecursiveSetParent(mnode_t *node, mnode_t *parent)
node->parent = parent;
if (node->plane)
{
+ // this is a node, recurse to children
Mod_Q1BSP_LoadNodes_RecursiveSetParent(node->children[0], node);
Mod_Q1BSP_LoadNodes_RecursiveSetParent(node->children[1], node);
+ // combine supercontents of children
+ node->combinedsupercontents = node->children[0]->combinedsupercontents | node->children[1]->combinedsupercontents;
+ }
+ else
+ {
+ int j;
+ mleaf_t *leaf = (mleaf_t *)node;
+ // if this is a leaf, calculate supercontents mask from all collidable
+ // primitives in the leaf (brushes and collision surfaces)
+ // also flag if the leaf contains any collision surfaces
+ leaf->combinedsupercontents = 0;
+ // combine the supercontents values of all brushes in this leaf
+ for (j = 0;j < leaf->numleafbrushes;j++)
+ leaf->combinedsupercontents |= loadmodel->brush.data_brushes[leaf->firstleafbrush[j]].texture->supercontents;
+ // check if this leaf contains any collision surfaces (q3 patches)
+ for (j = 0;j < leaf->numleafsurfaces;j++)
+ {
+ msurface_t *surface = loadmodel->data_surfaces + leaf->firstleafsurface[j];
+ if (surface->num_collisiontriangles)
+ {
+ leaf->containscollisionsurfaces = true;
+ leaf->combinedsupercontents |= surface->texture->supercontents;
+ }
+ }
}
}
if (l->filelen % sizeof(*in))
Host_Error("Mod_Q1BSP_LoadNodes: funny lump size in %s",loadmodel->name);
count = l->filelen / sizeof(*in);
+ if (count == 0)
+ Host_Error("Mod_Q1BSP_LoadNodes: missing BSP tree in %s",loadmodel->name);
out = (mnode_t *)Mem_Alloc(loadmodel->mempool, count*sizeof(*out));
loadmodel->brush.data_nodes = out;
p = LittleLong(in->planenum);
out->plane = loadmodel->brush.data_planes + p;
- out->firstsurface = LittleShort(in->firstface);
- out->numsurfaces = LittleShort(in->numfaces);
+ out->firstsurface = (unsigned short)LittleShort(in->firstface);
+ out->numsurfaces = (unsigned short)LittleShort(in->numfaces);
for (j=0 ; j<2 ; j++)
{
- p = LittleShort(in->children[j]);
- if (p >= 0)
- out->children[j] = loadmodel->brush.data_nodes + p;
+ // LordHavoc: this code supports broken bsp files produced by
+ // arguire qbsp which can produce more than 32768 nodes, any value
+ // below count is assumed to be a node number, any other value is
+ // assumed to be a leaf number
+ p = (unsigned short)LittleShort(in->children[j]);
+ if (p < count)
+ {
+ if (p < loadmodel->brush.num_nodes)
+ out->children[j] = loadmodel->brush.data_nodes + p;
+ else
+ {
+ Con_Printf("Mod_Q1BSP_LoadNodes: invalid node index %i (file has only %i nodes)\n", p, loadmodel->brush.num_nodes);
+ // map it to the solid leaf
+ out->children[j] = (mnode_t *)loadmodel->brush.data_leafs;
+ }
+ }
else
- out->children[j] = (mnode_t *)(loadmodel->brush.data_leafs + (-1 - p));
+ {
+ // note this uses 65535 intentionally, -1 is leaf 0
+ p = 65535 - p;
+ if (p < loadmodel->brush.num_leafs)
+ out->children[j] = (mnode_t *)(loadmodel->brush.data_leafs + p);
+ else
+ {
+ Con_Printf("Mod_Q1BSP_LoadNodes: invalid leaf index %i (file has only %i leafs)\n", p, loadmodel->brush.num_leafs);
+ // map it to the solid leaf
+ out->children[j] = (mnode_t *)loadmodel->brush.data_leafs;
+ }
+ }
}
}
out->contents = LittleLong(in->contents);
- out->firstleafsurface = loadmodel->brush.data_leafsurfaces + LittleShort(in->firstmarksurface);
- out->numleafsurfaces = LittleShort(in->nummarksurfaces);
- if (out->firstleafsurface < 0 || LittleShort(in->firstmarksurface) + out->numleafsurfaces > loadmodel->brush.num_leafsurfaces)
+ out->firstleafsurface = loadmodel->brush.data_leafsurfaces + (unsigned short)LittleShort(in->firstmarksurface);
+ out->numleafsurfaces = (unsigned short)LittleShort(in->nummarksurfaces);
+ if ((unsigned short)LittleShort(in->firstmarksurface) + out->numleafsurfaces > loadmodel->brush.num_leafsurfaces)
{
- Con_Printf("Mod_Q1BSP_LoadLeafs: invalid leafsurface range %i:%i outside range %i:%i\n", out->firstleafsurface, out->firstleafsurface + out->numleafsurfaces, 0, loadmodel->brush.num_leafsurfaces);
+ Con_Printf("Mod_Q1BSP_LoadLeafs: invalid leafsurface range %i:%i outside range %i:%i\n", (int)(out->firstleafsurface - loadmodel->brush.data_leafsurfaces), (int)(out->firstleafsurface + out->numleafsurfaces - loadmodel->brush.data_leafsurfaces), 0, loadmodel->brush.num_leafsurfaces);
out->firstleafsurface = NULL;
out->numleafsurfaces = 0;
}
}
}
+qboolean Mod_Q1BSP_CheckWaterAlphaSupport(void)
+{
+ int i, j;
+ mleaf_t *leaf;
+ const unsigned char *pvs;
+ // if there's no vis data, assume supported (because everything is visible all the time)
+ if (!loadmodel->brush.data_pvsclusters)
+ return true;
+ // check all liquid leafs to see if they can see into empty leafs, if any
+ // can we can assume this map supports r_wateralpha
+ for (i = 0, leaf = loadmodel->brush.data_leafs;i < loadmodel->brush.num_leafs;i++, leaf++)
+ {
+ if ((leaf->contents == CONTENTS_WATER || leaf->contents == CONTENTS_SLIME) && leaf->clusterindex >= 0)
+ {
+ pvs = loadmodel->brush.data_pvsclusters + leaf->clusterindex * loadmodel->brush.num_pvsclusterbytes;
+ for (j = 0;j < loadmodel->brush.num_leafs;j++)
+ if (CHECKPVSBIT(pvs, loadmodel->brush.data_leafs[j].clusterindex) && loadmodel->brush.data_leafs[j].contents == CONTENTS_EMPTY)
+ return true;
+ }
+ }
+ return false;
+}
+
static void Mod_Q1BSP_LoadClipnodes(lump_t *l, hullinfo_t *hullinfo)
{
- dclipnode_t *in, *out;
+ dclipnode_t *in;
+ mclipnode_t *out;
int i, count;
hull_t *hull;
if (l->filelen % sizeof(*in))
Host_Error("Mod_Q1BSP_LoadClipnodes: funny lump size in %s",loadmodel->name);
count = l->filelen / sizeof(*in);
- out = (dclipnode_t *)Mem_Alloc(loadmodel->mempool, count*sizeof(*out));
+ out = (mclipnode_t *)Mem_Alloc(loadmodel->mempool, count*sizeof(*out));
loadmodel->brushq1.clipnodes = out;
loadmodel->brushq1.numclipnodes = count;
- for (i = 1; i < hullinfo->numhulls; i++)
+ for (i = 1; i < MAX_MAP_HULLS; i++)
{
hull = &loadmodel->brushq1.hulls[i];
hull->clipnodes = out;
for (i=0 ; i<count ; i++, out++, in++)
{
out->planenum = LittleLong(in->planenum);
- out->children[0] = LittleShort(in->children[0]);
- out->children[1] = LittleShort(in->children[1]);
+ // LordHavoc: this code supports arguire qbsp's broken clipnodes indices (more than 32768 clipnodes), values above count are assumed to be contents values
+ out->children[0] = (unsigned short)LittleShort(in->children[0]);
+ out->children[1] = (unsigned short)LittleShort(in->children[1]);
+ if (out->children[0] >= count)
+ out->children[0] -= 65536;
+ if (out->children[1] >= count)
+ out->children[1] -= 65536;
if (out->planenum < 0 || out->planenum >= loadmodel->brush.num_planes)
Host_Error("Corrupt clipping hull(out of range planenum)");
- if (out->children[0] >= count || out->children[1] >= count)
- Host_Error("Corrupt clipping hull(out of range child)");
}
}
static void Mod_Q1BSP_MakeHull0(void)
{
mnode_t *in;
- dclipnode_t *out;
+ mclipnode_t *out;
int i;
hull_t *hull;
hull = &loadmodel->brushq1.hulls[0];
in = loadmodel->brush.data_nodes;
- out = (dclipnode_t *)Mem_Alloc(loadmodel->mempool, loadmodel->brush.num_nodes * sizeof(dclipnode_t));
+ out = (mclipnode_t *)Mem_Alloc(loadmodel->mempool, loadmodel->brush.num_nodes * sizeof(*out));
hull->clipnodes = out;
hull->firstclipnode = 0;
for (i = 0;i < loadmodel->brush.num_leafsurfaces;i++)
{
- j = (unsigned) LittleShort(in[i]);
+ j = (unsigned short) LittleShort(in[i]);
if (j >= loadmodel->num_surfaces)
Host_Error("Mod_Q1BSP_LoadLeaffaces: bad surface number");
loadmodel->brush.data_leafsurfaces[i] = j;
if (!maptext)
return;
text = maptext;
- if (!COM_ParseTokenConsole(&data))
+ if (!COM_ParseToken_Simple(&data, false, false))
return; // error
submodel = 0;
for (;;)
{
- if (!COM_ParseTokenConsole(&data))
+ if (!COM_ParseToken_Simple(&data, false, false))
break;
if (com_token[0] != '{')
return; // error
brushes = Mem_Alloc(loadmodel->mempool, maxbrushes * sizeof(mbrush_t));
for (;;)
{
- if (!COM_ParseTokenConsole(&data))
+ if (!COM_ParseToken_Simple(&data, false, false))
return; // error
if (com_token[0] == '}')
break; // end of entity
}
for (;;)
{
- if (!COM_ParseTokenConsole(&data))
+ if (!COM_ParseToken_Simple(&data, false, false))
return; // error
if (com_token[0] == '}')
break; // end of brush
// FIXME: support hl .map format
for (pointnum = 0;pointnum < 3;pointnum++)
{
- COM_ParseTokenConsole(&data);
+ COM_ParseToken_Simple(&data, false, false);
for (componentnum = 0;componentnum < 3;componentnum++)
{
- COM_ParseTokenConsole(&data);
+ COM_ParseToken_Simple(&data, false, false);
point[pointnum][componentnum] = atof(com_token);
}
- COM_ParseTokenConsole(&data);
+ COM_ParseToken_Simple(&data, false, false);
}
- COM_ParseTokenConsole(&data);
+ COM_ParseToken_Simple(&data, false, false);
strlcpy(facetexture, com_token, sizeof(facetexture));
- COM_ParseTokenConsole(&data);
+ COM_ParseToken_Simple(&data, false, false);
//scroll_s = atof(com_token);
- COM_ParseTokenConsole(&data);
+ COM_ParseToken_Simple(&data, false, false);
//scroll_t = atof(com_token);
- COM_ParseTokenConsole(&data);
+ COM_ParseToken_Simple(&data, false, false);
//rotate = atof(com_token);
- COM_ParseTokenConsole(&data);
+ COM_ParseToken_Simple(&data, false, false);
//scale_s = atof(com_token);
- COM_ParseTokenConsole(&data);
+ COM_ParseToken_Simple(&data, false, false);
//scale_t = atof(com_token);
TriangleNormal(point[0], point[1], point[2], planenormal);
VectorNormalizeDouble(planenormal);
}
portal_t;
-static portal_t *portalchain;
-
-/*
-===========
-AllocPortal
-===========
-*/
-static portal_t *AllocPortal(void)
-{
- portal_t *p;
- p = (portal_t *)Mem_Alloc(loadmodel->mempool, sizeof(portal_t));
- p->chain = portalchain;
- portalchain = p;
- return p;
-}
-
-static void FreePortal(portal_t *p)
-{
- Mem_Free(p);
-}
+static memexpandablearray_t portalarray;
static void Mod_Q1BSP_RecursiveRecalcNodeBBox(mnode_t *node)
{
static void Mod_Q1BSP_FinalizePortals(void)
{
- int i, j, numportals, numpoints;
- portal_t *p, *pnext;
+ int i, j, numportals, numpoints, portalindex, portalrange = Mem_ExpandableArray_IndexRange(&portalarray);
+ portal_t *p;
mportal_t *portal;
mvertex_t *point;
mleaf_t *leaf, *endleaf;
// leafs (because qbsp is very sloppy)
leaf = loadmodel->brush.data_leafs;
endleaf = leaf + loadmodel->brush.num_leafs;
- for (;leaf < endleaf;leaf++)
+ if (mod_recalculatenodeboxes.integer)
{
- VectorSet(leaf->mins, 2000000000, 2000000000, 2000000000);
- VectorSet(leaf->maxs, -2000000000, -2000000000, -2000000000);
+ for (;leaf < endleaf;leaf++)
+ {
+ VectorSet(leaf->mins, 2000000000, 2000000000, 2000000000);
+ VectorSet(leaf->maxs, -2000000000, -2000000000, -2000000000);
+ }
}
- p = portalchain;
numportals = 0;
numpoints = 0;
- while (p)
+ for (portalindex = 0;portalindex < portalrange;portalindex++)
{
+ p = (portal_t*)Mem_ExpandableArray_RecordAtIndex(&portalarray, portalindex);
+ if (!p)
+ continue;
// note: this check must match the one below or it will usually corrupt memory
// the nodes[0] != nodes[1] check is because leaf 0 is the shared solid leaf, it can have many portals inside with leaf 0 on both sides
if (p->numpoints >= 3 && p->nodes[0] != p->nodes[1] && ((mleaf_t *)p->nodes[0])->clusterindex >= 0 && ((mleaf_t *)p->nodes[1])->clusterindex >= 0)
numportals += 2;
numpoints += p->numpoints * 2;
}
- p = p->chain;
}
loadmodel->brush.data_portals = (mportal_t *)Mem_Alloc(loadmodel->mempool, numportals * sizeof(mportal_t) + numpoints * sizeof(mvertex_t));
loadmodel->brush.num_portals = numportals;
// process all portals in the global portal chain, while freeing them
portal = loadmodel->brush.data_portals;
point = loadmodel->brush.data_portalpoints;
- p = portalchain;
- portalchain = NULL;
- while (p)
+ for (portalindex = 0;portalindex < portalrange;portalindex++)
{
- pnext = p->chain;
-
+ p = (portal_t*)Mem_ExpandableArray_RecordAtIndex(&portalarray, portalindex);
+ if (!p)
+ continue;
if (p->numpoints >= 3 && p->nodes[0] != p->nodes[1])
{
// note: this check must match the one above or it will usually corrupt memory
portal++;
}
// add the portal's polygon points to the leaf bounding boxes
- for (i = 0;i < 2;i++)
+ if (mod_recalculatenodeboxes.integer)
{
- leaf = (mleaf_t *)p->nodes[i];
- for (j = 0;j < p->numpoints;j++)
+ for (i = 0;i < 2;i++)
{
- if (leaf->mins[0] > p->points[j*3+0]) leaf->mins[0] = p->points[j*3+0];
- if (leaf->mins[1] > p->points[j*3+1]) leaf->mins[1] = p->points[j*3+1];
- if (leaf->mins[2] > p->points[j*3+2]) leaf->mins[2] = p->points[j*3+2];
- if (leaf->maxs[0] < p->points[j*3+0]) leaf->maxs[0] = p->points[j*3+0];
- if (leaf->maxs[1] < p->points[j*3+1]) leaf->maxs[1] = p->points[j*3+1];
- if (leaf->maxs[2] < p->points[j*3+2]) leaf->maxs[2] = p->points[j*3+2];
+ leaf = (mleaf_t *)p->nodes[i];
+ for (j = 0;j < p->numpoints;j++)
+ {
+ if (leaf->mins[0] > p->points[j*3+0]) leaf->mins[0] = p->points[j*3+0];
+ if (leaf->mins[1] > p->points[j*3+1]) leaf->mins[1] = p->points[j*3+1];
+ if (leaf->mins[2] > p->points[j*3+2]) leaf->mins[2] = p->points[j*3+2];
+ if (leaf->maxs[0] < p->points[j*3+0]) leaf->maxs[0] = p->points[j*3+0];
+ if (leaf->maxs[1] < p->points[j*3+1]) leaf->maxs[1] = p->points[j*3+1];
+ if (leaf->maxs[2] < p->points[j*3+2]) leaf->maxs[2] = p->points[j*3+2];
+ }
}
}
}
- FreePortal(p);
- p = pnext;
}
// now recalculate the node bounding boxes from the leafs
- Mod_Q1BSP_RecursiveRecalcNodeBBox(loadmodel->brush.data_nodes);
+ if (mod_recalculatenodeboxes.integer)
+ Mod_Q1BSP_RecursiveRecalcNodeBBox(loadmodel->brush.data_nodes + loadmodel->brushq1.hulls[0].firstclipnode);
}
/*
}
#define PORTAL_DIST_EPSILON (1.0 / 32.0)
+static double *portalpointsbuffer;
+static int portalpointsbufferoffset;
+static int portalpointsbuffersize;
static void Mod_Q1BSP_RecursiveNodePortals(mnode_t *node)
{
int i, side;
mplane_t clipplane, *plane;
portal_t *portal, *nextportal, *nodeportal, *splitportal, *temp;
int numfrontpoints, numbackpoints;
- double frontpoints[3*MAX_PORTALPOINTS], backpoints[3*MAX_PORTALPOINTS];
+ double *frontpoints, *backpoints;
// if a leaf, we're done
if (!node->plane)
return;
+ // get some space for our clipping operations to use
+ if (portalpointsbuffersize < portalpointsbufferoffset + 6*MAX_PORTALPOINTS)
+ {
+ portalpointsbuffersize = portalpointsbufferoffset * 2;
+ portalpointsbuffer = (double *)Mem_Realloc(loadmodel->mempool, portalpointsbuffer, portalpointsbuffersize * sizeof(*portalpointsbuffer));
+ }
+ frontpoints = portalpointsbuffer + portalpointsbufferoffset;
+ portalpointsbufferoffset += 3*MAX_PORTALPOINTS;
+ backpoints = portalpointsbuffer + portalpointsbufferoffset;
+ portalpointsbufferoffset += 3*MAX_PORTALPOINTS;
+
plane = node->plane;
front = node->children[0];
// create the new portal by generating a polygon for the node plane,
// and clipping it by all of the other portals(which came from nodes above this one)
- nodeportal = AllocPortal();
+ nodeportal = (portal_t *)Mem_ExpandableArray_AllocRecord(&portalarray);
nodeportal->plane = *plane;
// TODO: calculate node bounding boxes during recursion and calculate a maximum plane size accordingly to improve precision (as most maps do not need 1 billion unit plane polygons)
}
// the portal is split
- splitportal = AllocPortal();
+ splitportal = (portal_t *)Mem_ExpandableArray_AllocRecord(&portalarray);
temp = splitportal->chain;
*splitportal = *portal;
splitportal->chain = temp;
Mod_Q1BSP_RecursiveNodePortals(front);
Mod_Q1BSP_RecursiveNodePortals(back);
+
+ portalpointsbufferoffset -= 6*MAX_PORTALPOINTS;
}
static void Mod_Q1BSP_MakePortals(void)
{
- portalchain = NULL;
- Mod_Q1BSP_RecursiveNodePortals(loadmodel->brush.data_nodes);
+ Mem_ExpandableArray_NewArray(&portalarray, loadmodel->mempool, sizeof(portal_t), 1020*1024/sizeof(portal_t));
+ portalpointsbufferoffset = 0;
+ portalpointsbuffersize = 6*MAX_PORTALPOINTS*128;
+ portalpointsbuffer = (double *)Mem_Alloc(loadmodel->mempool, portalpointsbuffersize * sizeof(*portalpointsbuffer));
+ Mod_Q1BSP_RecursiveNodePortals(loadmodel->brush.data_nodes + loadmodel->brushq1.hulls[0].firstclipnode);
+ Mem_Free(portalpointsbuffer);
+ portalpointsbuffer = NULL;
+ portalpointsbufferoffset = 0;
+ portalpointsbuffersize = 0;
Mod_Q1BSP_FinalizePortals();
-}
-
-static void Mod_Q1BSP_BuildLightmapUpdateChains(mempool_t *mempool, model_t *model)
-{
- int i, j, stylecounts[256], totalcount, remapstyles[256];
- msurface_t *surface;
- memset(stylecounts, 0, sizeof(stylecounts));
- for (i = 0;i < model->nummodelsurfaces;i++)
- {
- surface = model->data_surfaces + model->firstmodelsurface + i;
- for (j = 0;j < MAXLIGHTMAPS;j++)
- stylecounts[surface->lightmapinfo->styles[j]]++;
- }
- totalcount = 0;
- model->brushq1.light_styles = 0;
- for (i = 0;i < 255;i++)
- {
- if (stylecounts[i])
- {
- remapstyles[i] = model->brushq1.light_styles++;
- totalcount += stylecounts[i] + 1;
- }
- }
- if (!totalcount)
- return;
- model->brushq1.light_style = (unsigned char *)Mem_Alloc(mempool, model->brushq1.light_styles * sizeof(unsigned char));
- model->brushq1.light_stylevalue = (int *)Mem_Alloc(mempool, model->brushq1.light_styles * sizeof(int));
- model->brushq1.light_styleupdatechains = (msurface_t ***)Mem_Alloc(mempool, model->brushq1.light_styles * sizeof(msurface_t **));
- model->brushq1.light_styleupdatechainsbuffer = (msurface_t **)Mem_Alloc(mempool, totalcount * sizeof(msurface_t *));
- model->brushq1.light_styles = 0;
- for (i = 0;i < 255;i++)
- if (stylecounts[i])
- model->brushq1.light_style[model->brushq1.light_styles++] = i;
- j = 0;
- for (i = 0;i < model->brushq1.light_styles;i++)
- {
- model->brushq1.light_styleupdatechains[i] = model->brushq1.light_styleupdatechainsbuffer + j;
- j += stylecounts[model->brushq1.light_style[i]] + 1;
- }
- for (i = 0;i < model->nummodelsurfaces;i++)
- {
- surface = model->data_surfaces + model->firstmodelsurface + i;
- for (j = 0;j < MAXLIGHTMAPS;j++)
- if (surface->lightmapinfo->styles[j] != 255)
- *model->brushq1.light_styleupdatechains[remapstyles[surface->lightmapinfo->styles[j]]]++ = surface;
- }
- j = 0;
- for (i = 0;i < model->brushq1.light_styles;i++)
- {
- *model->brushq1.light_styleupdatechains[i] = NULL;
- model->brushq1.light_styleupdatechains[i] = model->brushq1.light_styleupdatechainsbuffer + j;
- j += stylecounts[model->brushq1.light_style[i]] + 1;
- }
+ Mem_ExpandableArray_FreeArray(&portalarray);
}
//Returns PVS data for a given point
//(note: can return NULL)
-static unsigned char *Mod_Q1BSP_GetPVS(model_t *model, const vec3_t p)
+static unsigned char *Mod_Q1BSP_GetPVS(dp_model_t *model, const vec3_t p)
{
mnode_t *node;
- node = model->brush.data_nodes;
+ node = model->brush.data_nodes + model->brushq1.hulls[0].firstclipnode;
while (node->plane)
node = node->children[(node->plane->type < 3 ? p[node->plane->type] : DotProduct(p,node->plane->normal)) < node->plane->dist];
if (((mleaf_t *)node)->clusterindex >= 0)
return NULL;
}
-static void Mod_Q1BSP_FatPVS_RecursiveBSPNode(model_t *model, const vec3_t org, vec_t radius, unsigned char *pvsbuffer, int pvsbytes, mnode_t *node)
+static void Mod_Q1BSP_FatPVS_RecursiveBSPNode(dp_model_t *model, const vec3_t org, vec_t radius, unsigned char *pvsbuffer, int pvsbytes, mnode_t *node)
{
while (node->plane)
{
//Calculates a PVS that is the inclusive or of all leafs within radius pixels
//of the given point.
-static int Mod_Q1BSP_FatPVS(model_t *model, const vec3_t org, vec_t radius, unsigned char *pvsbuffer, int pvsbufferlength)
+static int Mod_Q1BSP_FatPVS(dp_model_t *model, const vec3_t org, vec_t radius, unsigned char *pvsbuffer, int pvsbufferlength, qboolean merge)
{
int bytes = model->brush.num_pvsclusterbytes;
bytes = min(bytes, pvsbufferlength);
- if (r_novis.integer || !model->brush.num_pvsclusters || !Mod_Q1BSP_GetPVS(model, org))
+ if (r_novis.integer || r_trippy.integer || !model->brush.num_pvsclusters || !Mod_Q1BSP_GetPVS(model, org))
{
memset(pvsbuffer, 0xFF, bytes);
return bytes;
}
- memset(pvsbuffer, 0, bytes);
- Mod_Q1BSP_FatPVS_RecursiveBSPNode(model, org, radius, pvsbuffer, bytes, model->brush.data_nodes);
+ if (!merge)
+ memset(pvsbuffer, 0, bytes);
+ Mod_Q1BSP_FatPVS_RecursiveBSPNode(model, org, radius, pvsbuffer, bytes, model->brush.data_nodes + model->brushq1.hulls[0].firstclipnode);
return bytes;
}
-static void Mod_Q1BSP_RoundUpToHullSize(model_t *cmodel, const vec3_t inmins, const vec3_t inmaxs, vec3_t outmins, vec3_t outmaxs)
+static void Mod_Q1BSP_RoundUpToHullSize(dp_model_t *cmodel, const vec3_t inmins, const vec3_t inmaxs, vec3_t outmins, vec3_t outmaxs)
{
vec3_t size;
const hull_t *hull;
VectorSubtract(inmaxs, inmins, size);
- if (cmodel->brush.ismcbsp)
- {
- if (size[0] < 3)
- hull = &cmodel->brushq1.hulls[0]; // 0x0x0
- else if (size[2] < 48) // pick the nearest of 40 or 56
- hull = &cmodel->brushq1.hulls[2]; // 16x16x40
- else
- hull = &cmodel->brushq1.hulls[1]; // 16x16x56
- }
- else if (cmodel->brush.ishlbsp)
+ if (cmodel->brush.ishlbsp)
{
if (size[0] < 3)
hull = &cmodel->brushq1.hulls[0]; // 0x0x0
VectorAdd(inmins, hull->clip_size, outmaxs);
}
-void Mod_Q1BSP_Load(model_t *mod, void *buffer, void *bufferend)
+static int Mod_Q1BSP_CreateShadowMesh(dp_model_t *mod)
+{
+ int j;
+ int numshadowmeshtriangles = 0;
+ msurface_t *surface;
+ if (cls.state == ca_dedicated)
+ return 0;
+ // make a single combined shadow mesh to allow optimized shadow volume creation
+
+ for (j = 0, surface = mod->data_surfaces;j < mod->num_surfaces;j++, surface++)
+ {
+ surface->num_firstshadowmeshtriangle = numshadowmeshtriangles;
+ numshadowmeshtriangles += surface->num_triangles;
+ }
+ mod->brush.shadowmesh = Mod_ShadowMesh_Begin(mod->mempool, numshadowmeshtriangles * 3, numshadowmeshtriangles, NULL, NULL, NULL, false, false, true);
+ for (j = 0, surface = mod->data_surfaces;j < mod->num_surfaces;j++, surface++)
+ if (surface->num_triangles > 0)
+ Mod_ShadowMesh_AddMesh(mod->mempool, mod->brush.shadowmesh, NULL, NULL, NULL, mod->surfmesh.data_vertex3f, NULL, NULL, NULL, NULL, surface->num_triangles, (mod->surfmesh.data_element3i + 3 * surface->num_firsttriangle));
+ mod->brush.shadowmesh = Mod_ShadowMesh_Finish(mod->mempool, mod->brush.shadowmesh, false, r_enableshadowvolumes.integer != 0, false);
+ if (mod->brush.shadowmesh && mod->brush.shadowmesh->neighbor3i)
+ Mod_BuildTriangleNeighbors(mod->brush.shadowmesh->neighbor3i, mod->brush.shadowmesh->element3i, mod->brush.shadowmesh->numtriangles);
+
+ return numshadowmeshtriangles;
+}
+
+void Mod_CollisionBIH_TraceLineAgainstSurfaces(dp_model_t *model, const frameblend_t *frameblend, const skeleton_t *skeleton, trace_t *trace, const vec3_t start, const vec3_t end, int hitsupercontentsmask);
+
+void Mod_Q1BSP_Load(dp_model_t *mod, void *buffer, void *bufferend)
{
int i, j, k;
dheader_t *header;
dmodel_t *bm;
- mempool_t *mainmempool;
- float dist, modelyawradius, modelradius, *vec;
+ float dist, modelyawradius, modelradius;
msurface_t *surface;
- int numshadowmeshtriangles;
- dheader_t _header;
hullinfo_t hullinfo;
+ int totalstylesurfaces, totalstyles, stylecounts[256], remapstyles[256];
+ model_brush_lightstyleinfo_t styleinfo[256];
+ unsigned char *datapointer;
- mod->type = mod_brushq1;
-
- if (!memcmp (buffer, "MCBSPpad", 8))
- {
- unsigned char *index;
-
- mod->brush.ismcbsp = true;
- mod->brush.ishlbsp = false;
+ mod->modeldatatypestring = "Q1BSP";
- mod_base = (unsigned char*)buffer;
+ mod->type = mod_brushq1;
- index = mod_base;
- index += 8;
- i = SB_ReadInt (&index);
- if (i != MCBSPVERSION)
- Host_Error("Mod_Q1BSP_Load: %s has wrong version number(%i should be %i)", mod->name, i, MCBSPVERSION);
+ header = (dheader_t *)buffer;
- // read hull info
- hullinfo.numhulls = LittleLong(*(int*)index); index += 4;
- hullinfo.filehulls = hullinfo.numhulls;
- VectorClear (hullinfo.hullsizes[0][0]);
- VectorClear (hullinfo.hullsizes[0][1]);
- for (i = 1; i < hullinfo.numhulls; i++)
- {
- hullinfo.hullsizes[i][0][0] = SB_ReadFloat (&index);
- hullinfo.hullsizes[i][0][1] = SB_ReadFloat (&index);
- hullinfo.hullsizes[i][0][2] = SB_ReadFloat (&index);
- hullinfo.hullsizes[i][1][0] = SB_ReadFloat (&index);
- hullinfo.hullsizes[i][1][1] = SB_ReadFloat (&index);
- hullinfo.hullsizes[i][1][2] = SB_ReadFloat (&index);
- }
+ i = LittleLong(header->version);
+ if (i != BSPVERSION && i != 30)
+ Host_Error("Mod_Q1BSP_Load: %s has wrong version number(%i should be %i(Quake) or 30(HalfLife)", mod->name, i, BSPVERSION);
+ mod->brush.ishlbsp = i == 30;
- // read lumps
- _header.version = 0;
- for (i = 0; i < HEADER_LUMPS; i++)
- {
- _header.lumps[i].fileofs = SB_ReadInt (&index);
- _header.lumps[i].filelen = SB_ReadInt (&index);
- }
+// fill in hull info
+ VectorClear (hullinfo.hullsizes[0][0]);
+ VectorClear (hullinfo.hullsizes[0][1]);
+ if (mod->brush.ishlbsp)
+ {
+ mod->modeldatatypestring = "HLBSP";
- header = &_header;
+ hullinfo.filehulls = 4;
+ VectorSet (hullinfo.hullsizes[1][0], -16, -16, -36);
+ VectorSet (hullinfo.hullsizes[1][1], 16, 16, 36);
+ VectorSet (hullinfo.hullsizes[2][0], -32, -32, -32);
+ VectorSet (hullinfo.hullsizes[2][1], 32, 32, 32);
+ VectorSet (hullinfo.hullsizes[3][0], -16, -16, -18);
+ VectorSet (hullinfo.hullsizes[3][1], 16, 16, 18);
}
else
{
- header = (dheader_t *)buffer;
-
- i = LittleLong(header->version);
- if (i != BSPVERSION && i != 30)
- Host_Error("Mod_Q1BSP_Load: %s has wrong version number(%i should be %i(Quake) or 30(HalfLife)", mod->name, i, BSPVERSION);
- mod->brush.ishlbsp = i == 30;
- mod->brush.ismcbsp = false;
-
- // fill in hull info
- VectorClear (hullinfo.hullsizes[0][0]);
- VectorClear (hullinfo.hullsizes[0][1]);
- if (mod->brush.ishlbsp)
- {
- hullinfo.numhulls = 4;
- hullinfo.filehulls = 4;
- VectorSet (hullinfo.hullsizes[1][0], -16, -16, -36);
- VectorSet (hullinfo.hullsizes[1][1], 16, 16, 36);
- VectorSet (hullinfo.hullsizes[2][0], -32, -32, -32);
- VectorSet (hullinfo.hullsizes[2][1], 32, 32, 32);
- VectorSet (hullinfo.hullsizes[3][0], -16, -16, -18);
- VectorSet (hullinfo.hullsizes[3][1], 16, 16, 18);
- }
- else
- {
- hullinfo.numhulls = 3;
- hullinfo.filehulls = 4;
- VectorSet (hullinfo.hullsizes[1][0], -16, -16, -24);
- VectorSet (hullinfo.hullsizes[1][1], 16, 16, 32);
- VectorSet (hullinfo.hullsizes[2][0], -32, -32, -24);
- VectorSet (hullinfo.hullsizes[2][1], 32, 32, 64);
- }
+ hullinfo.filehulls = 4;
+ VectorSet (hullinfo.hullsizes[1][0], -16, -16, -24);
+ VectorSet (hullinfo.hullsizes[1][1], 16, 16, 32);
+ VectorSet (hullinfo.hullsizes[2][0], -32, -32, -24);
+ VectorSet (hullinfo.hullsizes[2][1], 32, 32, 64);
+ }
- // read lumps
- mod_base = (unsigned char*)buffer;
- for (i = 0; i < HEADER_LUMPS; i++)
- {
- header->lumps[i].fileofs = LittleLong(header->lumps[i].fileofs);
- header->lumps[i].filelen = LittleLong(header->lumps[i].filelen);
- }
+// read lumps
+ mod_base = (unsigned char*)buffer;
+ for (i = 0; i < HEADER_LUMPS; i++)
+ {
+ header->lumps[i].fileofs = LittleLong(header->lumps[i].fileofs);
+ header->lumps[i].filelen = LittleLong(header->lumps[i].filelen);
}
mod->soundfromcenter = true;
mod->TraceBox = Mod_Q1BSP_TraceBox;
+ if (sv_gameplayfix_q1bsptracelinereportstexture.integer)
+ mod->TraceLine = Mod_Q1BSP_TraceLineAgainstSurfaces; // LordHavoc: use the surface-hitting version of TraceLine in all cases
+ else
+ mod->TraceLine = Mod_Q1BSP_TraceLine;
+ mod->TracePoint = Mod_Q1BSP_TracePoint;
+ mod->PointSuperContents = Mod_Q1BSP_PointSuperContents;
+ mod->TraceLineAgainstSurfaces = Mod_Q1BSP_TraceLineAgainstSurfaces;
+ mod->brush.TraceLineOfSight = Mod_Q1BSP_TraceLineOfSight;
mod->brush.SuperContentsFromNativeContents = Mod_Q1BSP_SuperContentsFromNativeContents;
mod->brush.NativeContentsFromSuperContents = Mod_Q1BSP_NativeContentsFromSuperContents;
mod->brush.GetPVS = Mod_Q1BSP_GetPVS;
mod->brush.AmbientSoundLevelsForPoint = Mod_Q1BSP_AmbientSoundLevelsForPoint;
mod->brush.RoundUpToHullSize = Mod_Q1BSP_RoundUpToHullSize;
mod->brush.PointInLeaf = Mod_Q1BSP_PointInLeaf;
-
- if (loadmodel->isworldmodel)
- {
- Cvar_SetValue("halflifebsp", mod->brush.ishlbsp);
- Cvar_SetValue("mcbsp", mod->brush.ismcbsp);
- }
+ mod->Draw = R_Q1BSP_Draw;
+ mod->DrawDepth = R_Q1BSP_DrawDepth;
+ mod->DrawDebug = R_Q1BSP_DrawDebug;
+ mod->DrawPrepass = R_Q1BSP_DrawPrepass;
+ mod->GetLightInfo = R_Q1BSP_GetLightInfo;
+ mod->CompileShadowMap = R_Q1BSP_CompileShadowMap;
+ mod->DrawShadowMap = R_Q1BSP_DrawShadowMap;
+ mod->CompileShadowVolume = R_Q1BSP_CompileShadowVolume;
+ mod->DrawShadowVolume = R_Q1BSP_DrawShadowVolume;
+ mod->DrawLight = R_Q1BSP_DrawLight;
// load into heap
- // store which lightmap format to use
- mod->brushq1.lightmaprgba = r_lightmaprgba.integer;
-
mod->brush.qw_md4sum = 0;
mod->brush.qw_md4sum2 = 0;
for (i = 0;i < HEADER_LUMPS;i++)
{
+ int temp;
if (i == LUMP_ENTITIES)
continue;
- mod->brush.qw_md4sum ^= LittleLong(Com_BlockChecksum(mod_base + header->lumps[i].fileofs, header->lumps[i].filelen));
+ temp = Com_BlockChecksum(mod_base + header->lumps[i].fileofs, header->lumps[i].filelen);
+ mod->brush.qw_md4sum ^= LittleLong(temp);
if (i == LUMP_VISIBILITY || i == LUMP_LEAFS || i == LUMP_NODES)
continue;
- mod->brush.qw_md4sum2 ^= LittleLong(Com_BlockChecksum(mod_base + header->lumps[i].fileofs, header->lumps[i].filelen));
+ temp = Com_BlockChecksum(mod_base + header->lumps[i].fileofs, header->lumps[i].filelen);
+ mod->brush.qw_md4sum2 ^= LittleLong(temp);
}
Mod_Q1BSP_LoadEntities(&header->lumps[LUMP_ENTITIES]);
Mod_Q1BSP_LoadNodes(&header->lumps[LUMP_NODES]);
Mod_Q1BSP_LoadClipnodes(&header->lumps[LUMP_CLIPNODES], &hullinfo);
- if (!mod->brushq1.lightdata)
- mod->brush.LightPoint = NULL;
+ // check if the map supports transparent water rendering
+ loadmodel->brush.supportwateralpha = Mod_Q1BSP_CheckWaterAlphaSupport();
if (mod->brushq1.data_compressedpvs)
Mem_Free(mod->brushq1.data_compressedpvs);
mod->brushq1.num_compressedpvs = 0;
Mod_Q1BSP_MakeHull0();
- Mod_Q1BSP_MakePortals();
+ if (mod_bsp_portalize.integer)
+ Mod_Q1BSP_MakePortals();
mod->numframes = 2; // regular and alternate animation
mod->numskins = 1;
- mainmempool = mod->mempool;
-
// make a single combined shadow mesh to allow optimized shadow volume creation
- numshadowmeshtriangles = 0;
- for (j = 0, surface = loadmodel->data_surfaces;j < loadmodel->num_surfaces;j++, surface++)
- {
- surface->num_firstshadowmeshtriangle = numshadowmeshtriangles;
- numshadowmeshtriangles += surface->num_triangles;
- }
- loadmodel->brush.shadowmesh = Mod_ShadowMesh_Begin(loadmodel->mempool, numshadowmeshtriangles * 3, numshadowmeshtriangles, NULL, NULL, NULL, false, false, true);
- for (j = 0, surface = loadmodel->data_surfaces;j < loadmodel->num_surfaces;j++, surface++)
- Mod_ShadowMesh_AddMesh(loadmodel->mempool, loadmodel->brush.shadowmesh, NULL, NULL, NULL, loadmodel->surfmesh.data_vertex3f, NULL, NULL, NULL, NULL, surface->num_triangles, (loadmodel->surfmesh.data_element3i + 3 * surface->num_firsttriangle));
- loadmodel->brush.shadowmesh = Mod_ShadowMesh_Finish(loadmodel->mempool, loadmodel->brush.shadowmesh, false, true);
- Mod_BuildTriangleNeighbors(loadmodel->brush.shadowmesh->neighbor3i, loadmodel->brush.shadowmesh->element3i, loadmodel->brush.shadowmesh->numtriangles);
+ Mod_Q1BSP_CreateShadowMesh(loadmodel);
if (loadmodel->brush.numsubmodels)
- loadmodel->brush.submodels = (model_t **)Mem_Alloc(loadmodel->mempool, loadmodel->brush.numsubmodels * sizeof(model_t *));
-
- if (loadmodel->isworldmodel)
- {
- // clear out any stale submodels or worldmodels lying around
- // if we did this clear before now, an error might abort loading and
- // leave things in a bad state
- Mod_RemoveStaleWorldModels(loadmodel);
- }
+ loadmodel->brush.submodels = (dp_model_t **)Mem_Alloc(loadmodel->mempool, loadmodel->brush.numsubmodels * sizeof(dp_model_t *));
// LordHavoc: to clear the fog around the original quake submodel code, I
// will explain:
// LordHavoc: now the explanation of my sane way (which works identically):
// set up the world model, then on each submodel copy from the world model
// and set up the submodel with the respective model info.
+ totalstylesurfaces = 0;
+ totalstyles = 0;
+ for (i = 0;i < mod->brush.numsubmodels;i++)
+ {
+ memset(stylecounts, 0, sizeof(stylecounts));
+ for (k = 0;k < mod->brushq1.submodels[i].numfaces;k++)
+ {
+ surface = mod->data_surfaces + mod->brushq1.submodels[i].firstface + k;
+ for (j = 0;j < MAXLIGHTMAPS;j++)
+ stylecounts[surface->lightmapinfo->styles[j]]++;
+ }
+ for (k = 0;k < 255;k++)
+ {
+ totalstyles++;
+ if (stylecounts[k])
+ totalstylesurfaces += stylecounts[k];
+ }
+ }
+ datapointer = (unsigned char *)Mem_Alloc(mod->mempool, mod->num_surfaces * sizeof(int) + totalstyles * sizeof(model_brush_lightstyleinfo_t) + totalstylesurfaces * sizeof(int *));
for (i = 0;i < mod->brush.numsubmodels;i++)
{
// LordHavoc: this code was originally at the end of this loop, but
if (i > 0)
{
char name[10];
- // LordHavoc: only register submodels if it is the world
- // (prevents external bsp models from replacing world submodels with
- // their own)
- if (!loadmodel->isworldmodel)
- continue;
// duplicate the basic information
- sprintf(name, "*%i", i);
- mod = Mod_FindName(name);
+ dpsnprintf(name, sizeof(name), "*%i", i);
+ mod = Mod_FindName(name, loadmodel->name);
// copy the base model to this one
*mod = *loadmodel;
// rename the clone back to its proper name
- strcpy(mod->name, name);
+ strlcpy(mod->name, name, sizeof(mod->name));
+ mod->brush.parentmodel = loadmodel;
// textures and memory belong to the main model
mod->texturepool = NULL;
mod->mempool = NULL;
+ mod->brush.GetPVS = NULL;
+ mod->brush.FatPVS = NULL;
+ mod->brush.BoxTouchingPVS = NULL;
+ mod->brush.BoxTouchingLeafPVS = NULL;
+ mod->brush.BoxTouchingVisibleLeafs = NULL;
+ mod->brush.FindBoxClusters = NULL;
+ mod->brush.LightPoint = NULL;
+ mod->brush.AmbientSoundLevelsForPoint = NULL;
}
mod->brush.submodel = i;
mod->firstmodelsurface = bm->firstface;
mod->nummodelsurfaces = bm->numfaces;
+ // set node/leaf parents for this submodel
+ Mod_Q1BSP_LoadNodes_RecursiveSetParent(mod->brush.data_nodes + mod->brushq1.hulls[0].firstclipnode, NULL);
+
// make the model surface list (used by shadowing/lighting)
- mod->surfacelist = (int *)Mem_Alloc(loadmodel->mempool, mod->nummodelsurfaces * sizeof(*mod->surfacelist));
- for (j = 0;j < mod->nummodelsurfaces;j++)
- mod->surfacelist[j] = mod->firstmodelsurface + j;
+ mod->sortedmodelsurfaces = (int *)datapointer;datapointer += mod->nummodelsurfaces * sizeof(int);
+ Mod_MakeSortedSurfaces(mod);
+
+ // copy the submodel bounds, then enlarge the yaw and rotated bounds according to radius
+ // (previously this code measured the radius of the vertices of surfaces in the submodel, but that broke submodels that contain only CLIP brushes, which do not produce surfaces)
+ VectorCopy(bm->mins, mod->normalmins);
+ VectorCopy(bm->maxs, mod->normalmaxs);
+ dist = max(fabs(mod->normalmins[0]), fabs(mod->normalmaxs[0]));
+ modelyawradius = max(fabs(mod->normalmins[1]), fabs(mod->normalmaxs[1]));
+ modelyawradius = dist*dist+modelyawradius*modelyawradius;
+ modelradius = max(fabs(mod->normalmins[2]), fabs(mod->normalmaxs[2]));
+ modelradius = modelyawradius + modelradius * modelradius;
+ modelyawradius = sqrt(modelyawradius);
+ modelradius = sqrt(modelradius);
+ mod->yawmins[0] = mod->yawmins[1] = -modelyawradius;
+ mod->yawmins[2] = mod->normalmins[2];
+ mod->yawmaxs[0] = mod->yawmaxs[1] = modelyawradius;
+ mod->yawmaxs[2] = mod->normalmaxs[2];
+ mod->rotatedmins[0] = mod->rotatedmins[1] = mod->rotatedmins[2] = -modelradius;
+ mod->rotatedmaxs[0] = mod->rotatedmaxs[1] = mod->rotatedmaxs[2] = modelradius;
+ mod->radius = modelradius;
+ mod->radius2 = modelradius * modelradius;
- // this gets altered below if sky is used
+ // this gets altered below if sky or water is used
mod->DrawSky = NULL;
- mod->Draw = R_Q1BSP_Draw;
- mod->GetLightInfo = R_Q1BSP_GetLightInfo;
- mod->CompileShadowVolume = R_Q1BSP_CompileShadowVolume;
- mod->DrawShadowVolume = R_Q1BSP_DrawShadowVolume;
- mod->DrawLight = R_Q1BSP_DrawLight;
- if (i != 0)
+ mod->DrawAddWaterPlanes = NULL;
+
+ // scan surfaces for sky and water and flag the submodel as possessing these features or not
+ // build lightstyle lists for quick marking of dirty lightmaps when lightstyles flicker
+ if (mod->nummodelsurfaces)
{
- mod->brush.GetPVS = NULL;
- mod->brush.FatPVS = NULL;
- mod->brush.BoxTouchingPVS = NULL;
- mod->brush.BoxTouchingLeafPVS = NULL;
- mod->brush.BoxTouchingVisibleLeafs = NULL;
- mod->brush.FindBoxClusters = NULL;
- mod->brush.LightPoint = NULL;
- mod->brush.AmbientSoundLevelsForPoint = NULL;
- }
- Mod_Q1BSP_BuildLightmapUpdateChains(loadmodel->mempool, mod);
- if (mod->nummodelsurfaces)
- {
- // LordHavoc: calculate bmodel bounding box rather than trusting what it says
- mod->normalmins[0] = mod->normalmins[1] = mod->normalmins[2] = 1000000000.0f;
- mod->normalmaxs[0] = mod->normalmaxs[1] = mod->normalmaxs[2] = -1000000000.0f;
- modelyawradius = 0;
- modelradius = 0;
for (j = 0, surface = &mod->data_surfaces[mod->firstmodelsurface];j < mod->nummodelsurfaces;j++, surface++)
- {
- // we only need to have a drawsky function if it is used(usually only on world model)
if (surface->texture->basematerialflags & MATERIALFLAG_SKY)
- mod->DrawSky = R_Q1BSP_DrawSky;
- // calculate bounding shapes
- for (k = 0, vec = (loadmodel->surfmesh.data_vertex3f + 3 * surface->num_firstvertex);k < surface->num_vertices;k++, vec += 3)
+ break;
+ if (j < mod->nummodelsurfaces)
+ mod->DrawSky = R_Q1BSP_DrawSky;
+
+ for (j = 0, surface = &mod->data_surfaces[mod->firstmodelsurface];j < mod->nummodelsurfaces;j++, surface++)
+ if (surface->texture->basematerialflags & (MATERIALFLAG_WATERSHADER | MATERIALFLAG_REFRACTION | MATERIALFLAG_REFLECTION | MATERIALFLAG_CAMERA))
+ break;
+ if (j < mod->nummodelsurfaces)
+ mod->DrawAddWaterPlanes = R_Q1BSP_DrawAddWaterPlanes;
+
+ // build lightstyle update chains
+ // (used to rapidly mark lightmapupdateflags on many surfaces
+ // when d_lightstylevalue changes)
+ memset(stylecounts, 0, sizeof(stylecounts));
+ for (k = 0;k < mod->nummodelsurfaces;k++)
+ {
+ surface = mod->data_surfaces + mod->firstmodelsurface + k;
+ for (j = 0;j < MAXLIGHTMAPS;j++)
+ stylecounts[surface->lightmapinfo->styles[j]]++;
+ }
+ mod->brushq1.num_lightstyles = 0;
+ for (k = 0;k < 255;k++)
+ {
+ if (stylecounts[k])
+ {
+ styleinfo[mod->brushq1.num_lightstyles].style = k;
+ styleinfo[mod->brushq1.num_lightstyles].value = 0;
+ styleinfo[mod->brushq1.num_lightstyles].numsurfaces = 0;
+ styleinfo[mod->brushq1.num_lightstyles].surfacelist = (int *)datapointer;datapointer += stylecounts[k] * sizeof(int);
+ remapstyles[k] = mod->brushq1.num_lightstyles;
+ mod->brushq1.num_lightstyles++;
+ }
+ }
+ for (k = 0;k < mod->nummodelsurfaces;k++)
+ {
+ surface = mod->data_surfaces + mod->firstmodelsurface + k;
+ for (j = 0;j < MAXLIGHTMAPS;j++)
{
- if (mod->normalmins[0] > vec[0]) mod->normalmins[0] = vec[0];
- if (mod->normalmins[1] > vec[1]) mod->normalmins[1] = vec[1];
- if (mod->normalmins[2] > vec[2]) mod->normalmins[2] = vec[2];
- if (mod->normalmaxs[0] < vec[0]) mod->normalmaxs[0] = vec[0];
- if (mod->normalmaxs[1] < vec[1]) mod->normalmaxs[1] = vec[1];
- if (mod->normalmaxs[2] < vec[2]) mod->normalmaxs[2] = vec[2];
- dist = vec[0]*vec[0]+vec[1]*vec[1];
- if (modelyawradius < dist)
- modelyawradius = dist;
- dist += vec[2]*vec[2];
- if (modelradius < dist)
- modelradius = dist;
+ if (surface->lightmapinfo->styles[j] != 255)
+ {
+ int r = remapstyles[surface->lightmapinfo->styles[j]];
+ styleinfo[r].surfacelist[styleinfo[r].numsurfaces++] = mod->firstmodelsurface + k;
+ }
}
}
- modelyawradius = sqrt(modelyawradius);
- modelradius = sqrt(modelradius);
- mod->yawmins[0] = mod->yawmins[1] = - (mod->yawmaxs[0] = mod->yawmaxs[1] = modelyawradius);
- mod->yawmins[2] = mod->normalmins[2];
- mod->yawmaxs[2] = mod->normalmaxs[2];
- mod->rotatedmins[0] = mod->rotatedmins[1] = mod->rotatedmins[2] = -modelradius;
- mod->rotatedmaxs[0] = mod->rotatedmaxs[1] = mod->rotatedmaxs[2] = modelradius;
- mod->radius = modelradius;
- mod->radius2 = modelradius * modelradius;
+ mod->brushq1.data_lightstyleinfo = (model_brush_lightstyleinfo_t *)datapointer;datapointer += mod->brushq1.num_lightstyles * sizeof(model_brush_lightstyleinfo_t);
+ memcpy(mod->brushq1.data_lightstyleinfo, styleinfo, mod->brushq1.num_lightstyles * sizeof(model_brush_lightstyleinfo_t));
}
else
{
Con_Printf("warning: empty submodel *%i in %s\n", i+1, loadmodel->name);
}
//mod->brushq1.num_visleafs = bm->visleafs;
- }
- Mod_Q1BSP_LoadMapBrushes();
+ // build a Bounding Interval Hierarchy for culling triangles in light rendering
+ Mod_MakeCollisionBIH(mod, true, &mod->render_bih);
+
+ if (mod_q1bsp_polygoncollisions.integer)
+ {
+ mod->collision_bih = mod->render_bih;
+ // point traces and contents checks still use the bsp tree
+ mod->TraceLine = Mod_CollisionBIH_TraceLine;
+ mod->TraceBox = Mod_CollisionBIH_TraceBox;
+ mod->TraceBrush = Mod_CollisionBIH_TraceBrush;
+ mod->TraceLineAgainstSurfaces = Mod_CollisionBIH_TraceLineAgainstSurfaces;
+ }
- //Mod_Q1BSP_ProcessLightList();
+ // generate VBOs and other shared data before cloning submodels
+ if (i == 0)
+ {
+ Mod_BuildVBOs();
+ Mod_Q1BSP_LoadMapBrushes();
+ //Mod_Q1BSP_ProcessLightList();
+ }
+ }
- if (developer.integer >= 10)
- Con_Printf("Some stats for q1bsp model \"%s\": %i faces, %i nodes, %i leafs, %i visleafs, %i visleafportals\n", loadmodel->name, loadmodel->num_surfaces, loadmodel->brush.num_nodes, loadmodel->brush.num_leafs, mod->brush.num_pvsclusters, loadmodel->brush.num_portals);
+ Con_DPrintf("Stats for q1bsp model \"%s\": %i faces, %i nodes, %i leafs, %i visleafs, %i visleafportals, mesh: %i vertices, %i triangles, %i surfaces\n", loadmodel->name, loadmodel->num_surfaces, loadmodel->brush.num_nodes, loadmodel->brush.num_leafs, mod->brush.num_pvsclusters, loadmodel->brush.num_portals, loadmodel->surfmesh.num_vertices, loadmodel->surfmesh.num_triangles, loadmodel->num_surfaces);
}
static void Mod_Q2BSP_LoadEntities(lump_t *l)
*/
}
-void static Mod_Q2BSP_Load(model_t *mod, void *buffer, void *bufferend)
+void static Mod_Q2BSP_Load(dp_model_t *mod, void *buffer, void *bufferend)
{
int i;
q2dheader_t *header;
Host_Error("Mod_Q2BSP_Load: not yet implemented");
+ mod->modeldatatypestring = "Q2BSP";
+
mod->type = mod_brushq2;
header = (q2dheader_t *)buffer;
i = LittleLong(header->version);
if (i != Q2BSPVERSION)
Host_Error("Mod_Q2BSP_Load: %s has wrong version number (%i, should be %i)", mod->name, i, Q2BSPVERSION);
- mod->brush.ishlbsp = false;
- mod->brush.ismcbsp = false;
- if (loadmodel->isworldmodel)
- {
- Cvar_SetValue("halflifebsp", mod->brush.ishlbsp);
- Cvar_SetValue("mcbsp", mod->brush.ismcbsp);
- }
mod_base = (unsigned char *)header;
for (i = 0;i < (int) sizeof(*header) / 4;i++)
((int *)header)[i] = LittleLong(((int *)header)[i]);
- // store which lightmap format to use
- mod->brushq1.lightmaprgba = r_lightmaprgba.integer;
-
mod->brush.qw_md4sum = 0;
mod->brush.qw_md4sum2 = 0;
for (i = 0;i < Q2HEADER_LUMPS;i++)
Mod_Q2BSP_LoadModels(&header->lumps[Q2LUMP_MODELS]);
}
-static int Mod_Q3BSP_SuperContentsFromNativeContents(model_t *model, int nativecontents);
-static int Mod_Q3BSP_NativeContentsFromSuperContents(model_t *model, int supercontents);
+static int Mod_Q3BSP_SuperContentsFromNativeContents(dp_model_t *model, int nativecontents);
+static int Mod_Q3BSP_NativeContentsFromSuperContents(dp_model_t *model, int supercontents);
static void Mod_Q3BSP_LoadEntities(lump_t *l)
{
loadmodel->brushq3.num_lightgrid_cellsize[2] = 128;
if (!l->filelen)
return;
- loadmodel->brush.entities = (char *)Mem_Alloc(loadmodel->mempool, l->filelen);
+ loadmodel->brush.entities = (char *)Mem_Alloc(loadmodel->mempool, l->filelen + 1);
memcpy(loadmodel->brush.entities, mod_base + l->fileofs, l->filelen);
+ loadmodel->brush.entities[l->filelen] = 0;
data = loadmodel->brush.entities;
// some Q3 maps override the lightgrid_cellsize with a worldspawn key
- if (data && COM_ParseTokenConsole(&data) && com_token[0] == '{')
+ // VorteX: q3map2 FS-R generates tangentspace deluxemaps for q3bsp and sets 'deluxeMaps' key
+ loadmodel->brushq3.deluxemapping = false;
+ if (data && COM_ParseToken_Simple(&data, false, false) && com_token[0] == '{')
{
while (1)
{
- if (!COM_ParseTokenConsole(&data))
+ if (!COM_ParseToken_Simple(&data, false, false))
break; // error
if (com_token[0] == '}')
break; // end of worldspawn
if (com_token[0] == '_')
- strcpy(key, com_token + 1);
+ strlcpy(key, com_token + 1, sizeof(key));
else
- strcpy(key, com_token);
+ strlcpy(key, com_token, sizeof(key));
while (key[strlen(key)-1] == ' ') // remove trailing spaces
key[strlen(key)-1] = 0;
- if (!COM_ParseTokenConsole(&data))
+ if (!COM_ParseToken_Simple(&data, false, false))
break; // error
- strcpy(value, com_token);
- if (!strcmp("gridsize", key))
+ strlcpy(value, com_token, sizeof(value));
+ if (!strcasecmp("gridsize", key)) // this one is case insensitive to 100% match q3map2
{
+#if _MSC_VER >= 1400
+#define sscanf sscanf_s
+#endif
+#if 0
if (sscanf(value, "%f %f %f", &v[0], &v[1], &v[2]) == 3 && v[0] != 0 && v[1] != 0 && v[2] != 0)
VectorCopy(v, loadmodel->brushq3.num_lightgrid_cellsize);
+#else
+ VectorSet(v, 64, 64, 128);
+ if(sscanf(value, "%f %f %f", &v[0], &v[1], &v[2]) != 3)
+ Con_Printf("Mod_Q3BSP_LoadEntities: funny gridsize \"%s\" in %s, interpreting as \"%f %f %f\" to match q3map2's parsing\n", value, loadmodel->name, v[0], v[1], v[2]);
+ if (v[0] != 0 && v[1] != 0 && v[2] != 0)
+ VectorCopy(v, loadmodel->brushq3.num_lightgrid_cellsize);
+#endif
}
- }
- }
-}
-
-// FIXME: make MAXSHADERS dynamic
-#define Q3SHADER_MAXSHADERS 4096
-#define Q3SHADER_MAXLAYERS 8
-
-typedef struct q3shaderinfo_layer_s
-{
- char texturename[Q3PATHLENGTH];
- int blendfunc[2];
- qboolean rgbgenvertex;
- qboolean alphagenvertex;
-}
-q3shaderinfo_layer_t;
-
-typedef struct q3shaderinfo_s
-{
- char name[Q3PATHLENGTH];
- int surfaceparms;
- int textureflags;
- int numlayers;
- qboolean lighting;
- qboolean vertexalpha;
- qboolean textureblendalpha;
- q3shaderinfo_layer_t *primarylayer, *backgroundlayer;
- q3shaderinfo_layer_t layers[Q3SHADER_MAXLAYERS];
- char skyboxname[Q3PATHLENGTH];
-}
-q3shaderinfo_t;
-
-int q3shaders_numshaders;
-q3shaderinfo_t q3shaders_shaders[Q3SHADER_MAXSHADERS];
-
-static void Mod_Q3BSP_LoadShaders(void)
-{
- int j;
- int fileindex;
- fssearch_t *search;
- char *f;
- const char *text;
- q3shaderinfo_t *shader;
- q3shaderinfo_layer_t *layer;
- int numparameters;
- char parameter[4][Q3PATHLENGTH];
- search = FS_Search("scripts/*.shader", true, false);
- if (!search)
- return;
- q3shaders_numshaders = 0;
- for (fileindex = 0;fileindex < search->numfilenames;fileindex++)
- {
- text = f = (char *)FS_LoadFile(search->filenames[fileindex], tempmempool, false, NULL);
- if (!f)
- continue;
- while (COM_ParseToken(&text, false))
- {
- if (q3shaders_numshaders >= Q3SHADER_MAXSHADERS)
- {
- Con_Printf("Mod_Q3BSP_LoadShaders: too many shaders!\n");
- break;
- }
- shader = q3shaders_shaders + q3shaders_numshaders++;
- memset(shader, 0, sizeof(*shader));
- strlcpy(shader->name, com_token, sizeof(shader->name));
- if (!COM_ParseToken(&text, false) || strcasecmp(com_token, "{"))
- {
- Con_Printf("%s parsing error - expected \"{\", found \"%s\"\n", search->filenames[fileindex], com_token);
- break;
- }
- while (COM_ParseToken(&text, false))
+ else if (!strcmp("deluxeMaps", key))
{
- if (!strcasecmp(com_token, "}"))
- break;
- if (!strcasecmp(com_token, "{"))
- {
- if (shader->numlayers < Q3SHADER_MAXLAYERS)
- {
- layer = shader->layers + shader->numlayers++;
- layer->rgbgenvertex = false;
- layer->alphagenvertex = false;
- layer->blendfunc[0] = GL_ONE;
- layer->blendfunc[1] = GL_ZERO;
- }
- else
- layer = NULL;
- while (COM_ParseToken(&text, false))
- {
- if (!strcasecmp(com_token, "}"))
- break;
- if (!strcasecmp(com_token, "\n"))
- continue;
- if (layer == NULL)
- continue;
- numparameters = 0;
- for (j = 0;strcasecmp(com_token, "\n") && strcasecmp(com_token, "}");j++)
- {
- if (j < 4)
- {
- strlcpy(parameter[j], com_token, sizeof(parameter[j]));
- numparameters = j + 1;
- }
- if (!COM_ParseToken(&text, true))
- break;
- }
- if (developer.integer >= 100)
- {
- Con_Printf("%s %i: ", shader->name, shader->numlayers - 1);
- for (j = 0;j < numparameters;j++)
- Con_Printf(" %s", parameter[j]);
- Con_Print("\n");
- }
- if (numparameters >= 2 && !strcasecmp(parameter[0], "blendfunc"))
- {
- if (numparameters == 2)
- {
- if (!strcasecmp(parameter[1], "add"))
- {
- layer->blendfunc[0] = GL_ONE;
- layer->blendfunc[1] = GL_ONE;
- }
- else if (!strcasecmp(parameter[1], "filter"))
- {
- layer->blendfunc[0] = GL_DST_COLOR;
- layer->blendfunc[1] = GL_ZERO;
- }
- else if (!strcasecmp(parameter[1], "blend"))
- {
- layer->blendfunc[0] = GL_SRC_ALPHA;
- layer->blendfunc[1] = GL_ONE_MINUS_SRC_ALPHA;
- }
- }
- else if (numparameters == 3)
- {
- int k;
- for (k = 0;k < 2;k++)
- {
- if (!strcasecmp(parameter[k+1], "GL_ONE"))
- layer->blendfunc[k] = GL_ONE;
- else if (!strcasecmp(parameter[k+1], "GL_ZERO"))
- layer->blendfunc[k] = GL_ZERO;
- else if (!strcasecmp(parameter[k+1], "GL_SRC_COLOR"))
- layer->blendfunc[k] = GL_SRC_COLOR;
- else if (!strcasecmp(parameter[k+1], "GL_SRC_ALPHA"))
- layer->blendfunc[k] = GL_SRC_ALPHA;
- else if (!strcasecmp(parameter[k+1], "GL_DST_COLOR"))
- layer->blendfunc[k] = GL_DST_COLOR;
- else if (!strcasecmp(parameter[k+1], "GL_DST_ALPHA"))
- layer->blendfunc[k] = GL_ONE_MINUS_DST_ALPHA;
- else if (!strcasecmp(parameter[k+1], "GL_ONE_MINUS_SRC_COLOR"))
- layer->blendfunc[k] = GL_ONE_MINUS_SRC_COLOR;
- else if (!strcasecmp(parameter[k+1], "GL_ONE_MINUS_SRC_ALPHA"))
- layer->blendfunc[k] = GL_ONE_MINUS_SRC_ALPHA;
- else if (!strcasecmp(parameter[k+1], "GL_ONE_MINUS_DST_COLOR"))
- layer->blendfunc[k] = GL_ONE_MINUS_DST_COLOR;
- else if (!strcasecmp(parameter[k+1], "GL_ONE_MINUS_DST_ALPHA"))
- layer->blendfunc[k] = GL_ONE_MINUS_DST_ALPHA;
- else
- layer->blendfunc[k] = GL_ONE; // default in case of parsing error
- }
- }
- }
- if (layer == shader->layers + 0)
- {
- if (numparameters >= 2 && !strcasecmp(parameter[0], "alphafunc"))
- shader->textureflags |= Q3TEXTUREFLAG_ALPHATEST;
- }
- if (numparameters >= 2 && (!strcasecmp(parameter[0], "map") || !strcasecmp(parameter[0], "clampmap")))
- {
- strlcpy(layer->texturename, parameter[1], sizeof(layer->texturename));
- if (!strcasecmp(parameter[1], "$lightmap"))
- shader->lighting = true;
- }
- else if (numparameters >= 3 && !strcasecmp(parameter[0], "animmap"))
- strlcpy(layer->texturename, parameter[2], sizeof(layer->texturename));
- else if (numparameters >= 2 && !strcasecmp(parameter[0], "rgbgen") && !strcasecmp(parameter[1], "vertex"))
- layer->rgbgenvertex = true;
- else if (numparameters >= 2 && !strcasecmp(parameter[0], "alphagen") && !strcasecmp(parameter[1], "vertex"))
- layer->alphagenvertex = true;
- // break out a level if it was }
- if (!strcasecmp(com_token, "}"))
- break;
- }
- if (layer->rgbgenvertex)
- shader->lighting = true;
- if (layer->alphagenvertex)
- {
- if (layer == shader->layers + 0)
- {
- // vertex controlled transparency
- shader->vertexalpha = true;
- }
- else
- {
- // multilayer terrain shader or similar
- shader->textureblendalpha = true;
- }
- }
- continue;
- }
- numparameters = 0;
- for (j = 0;strcasecmp(com_token, "\n") && strcasecmp(com_token, "}");j++)
- {
- if (j < 4)
- {
- strlcpy(parameter[j], com_token, sizeof(parameter[j]));
- numparameters = j + 1;
- }
- if (!COM_ParseToken(&text, true))
- break;
- }
- if (fileindex == 0 && !strcasecmp(com_token, "}"))
- break;
- if (developer.integer >= 100)
- {
- Con_Printf("%s: ", shader->name);
- for (j = 0;j < numparameters;j++)
- Con_Printf(" %s", parameter[j]);
- Con_Print("\n");
- }
- if (numparameters < 1)
- continue;
- if (!strcasecmp(parameter[0], "surfaceparm") && numparameters >= 2)
- {
- if (!strcasecmp(parameter[1], "alphashadow"))
- shader->surfaceparms |= Q3SURFACEPARM_ALPHASHADOW;
- else if (!strcasecmp(parameter[1], "areaportal"))
- shader->surfaceparms |= Q3SURFACEPARM_AREAPORTAL;
- else if (!strcasecmp(parameter[1], "botclip"))
- shader->surfaceparms |= Q3SURFACEPARM_BOTCLIP;
- else if (!strcasecmp(parameter[1], "clusterportal"))
- shader->surfaceparms |= Q3SURFACEPARM_CLUSTERPORTAL;
- else if (!strcasecmp(parameter[1], "detail"))
- shader->surfaceparms |= Q3SURFACEPARM_DETAIL;
- else if (!strcasecmp(parameter[1], "donotenter"))
- shader->surfaceparms |= Q3SURFACEPARM_DONOTENTER;
- else if (!strcasecmp(parameter[1], "dust"))
- shader->surfaceparms |= Q3SURFACEPARM_DUST;
- else if (!strcasecmp(parameter[1], "hint"))
- shader->surfaceparms |= Q3SURFACEPARM_HINT;
- else if (!strcasecmp(parameter[1], "fog"))
- shader->surfaceparms |= Q3SURFACEPARM_FOG;
- else if (!strcasecmp(parameter[1], "lava"))
- shader->surfaceparms |= Q3SURFACEPARM_LAVA;
- else if (!strcasecmp(parameter[1], "lightfilter"))
- shader->surfaceparms |= Q3SURFACEPARM_LIGHTFILTER;
- else if (!strcasecmp(parameter[1], "lightgrid"))
- shader->surfaceparms |= Q3SURFACEPARM_LIGHTGRID;
- else if (!strcasecmp(parameter[1], "metalsteps"))
- shader->surfaceparms |= Q3SURFACEPARM_METALSTEPS;
- else if (!strcasecmp(parameter[1], "nodamage"))
- shader->surfaceparms |= Q3SURFACEPARM_NODAMAGE;
- else if (!strcasecmp(parameter[1], "nodlight"))
- shader->surfaceparms |= Q3SURFACEPARM_NODLIGHT;
- else if (!strcasecmp(parameter[1], "nodraw"))
- shader->surfaceparms |= Q3SURFACEPARM_NODRAW;
- else if (!strcasecmp(parameter[1], "nodrop"))
- shader->surfaceparms |= Q3SURFACEPARM_NODROP;
- else if (!strcasecmp(parameter[1], "noimpact"))
- shader->surfaceparms |= Q3SURFACEPARM_NOIMPACT;
- else if (!strcasecmp(parameter[1], "nolightmap"))
- shader->surfaceparms |= Q3SURFACEPARM_NOLIGHTMAP;
- else if (!strcasecmp(parameter[1], "nomarks"))
- shader->surfaceparms |= Q3SURFACEPARM_NOMARKS;
- else if (!strcasecmp(parameter[1], "nomipmaps"))
- shader->surfaceparms |= Q3SURFACEPARM_NOMIPMAPS;
- else if (!strcasecmp(parameter[1], "nonsolid"))
- shader->surfaceparms |= Q3SURFACEPARM_NONSOLID;
- else if (!strcasecmp(parameter[1], "origin"))
- shader->surfaceparms |= Q3SURFACEPARM_ORIGIN;
- else if (!strcasecmp(parameter[1], "playerclip"))
- shader->surfaceparms |= Q3SURFACEPARM_PLAYERCLIP;
- else if (!strcasecmp(parameter[1], "sky"))
- shader->surfaceparms |= Q3SURFACEPARM_SKY;
- else if (!strcasecmp(parameter[1], "slick"))
- shader->surfaceparms |= Q3SURFACEPARM_SLICK;
- else if (!strcasecmp(parameter[1], "slime"))
- shader->surfaceparms |= Q3SURFACEPARM_SLIME;
- else if (!strcasecmp(parameter[1], "structural"))
- shader->surfaceparms |= Q3SURFACEPARM_STRUCTURAL;
- else if (!strcasecmp(parameter[1], "trans"))
- shader->surfaceparms |= Q3SURFACEPARM_TRANS;
- else if (!strcasecmp(parameter[1], "water"))
- shader->surfaceparms |= Q3SURFACEPARM_WATER;
- else if (!strcasecmp(parameter[1], "pointlight"))
- shader->surfaceparms |= Q3SURFACEPARM_POINTLIGHT;
- else
- Con_Printf("%s parsing warning: unknown surfaceparm \"%s\"\n", search->filenames[fileindex], parameter[1]);
- }
- else if (!strcasecmp(parameter[0], "sky") && numparameters >= 2)
- {
- // some q3 skies don't have the sky parm set
- shader->surfaceparms |= Q3SURFACEPARM_SKY;
- strlcpy(shader->skyboxname, parameter[1], sizeof(shader->skyboxname));
- }
- else if (!strcasecmp(parameter[0], "skyparms") && numparameters >= 2)
- {
- // some q3 skies don't have the sky parm set
- shader->surfaceparms |= Q3SURFACEPARM_SKY;
- if (!atoi(parameter[1]) && strcasecmp(parameter[1], "-"))
- strlcpy(shader->skyboxname, parameter[1], sizeof(shader->skyboxname));
- }
- else if (!strcasecmp(parameter[0], "cull") && numparameters >= 2)
- {
- if (!strcasecmp(parameter[1], "disable") || !strcasecmp(parameter[1], "none") || !strcasecmp(parameter[1], "twosided"))
- shader->textureflags |= Q3TEXTUREFLAG_TWOSIDED;
- }
- else if (!strcasecmp(parameter[0], "nomipmaps"))
- shader->surfaceparms |= Q3SURFACEPARM_NOMIPMAPS;
- else if (!strcasecmp(parameter[0], "nopicmip"))
- shader->textureflags |= Q3TEXTUREFLAG_NOPICMIP;
- else if (!strcasecmp(parameter[0], "deformvertexes") && numparameters >= 2)
+ if (!strcmp(com_token, "1"))
{
- if (!strcasecmp(parameter[1], "autosprite") && numparameters == 2)
- shader->textureflags |= Q3TEXTUREFLAG_AUTOSPRITE;
- if (!strcasecmp(parameter[1], "autosprite2") && numparameters == 2)
- shader->textureflags |= Q3TEXTUREFLAG_AUTOSPRITE2;
+ loadmodel->brushq3.deluxemapping = true;
+ loadmodel->brushq3.deluxemapping_modelspace = true;
}
- }
- // identify if this is a blended terrain shader or similar
- if (shader->numlayers)
- {
- shader->primarylayer = shader->layers + 0;
- if (shader->layers[1].blendfunc[0] == GL_SRC_ALPHA && shader->layers[1].blendfunc[1] == GL_ONE_MINUS_SRC_ALPHA)
+ else if (!strcmp(com_token, "2"))
{
- // terrain blending or other effects
- shader->backgroundlayer = shader->layers + 0;
- shader->primarylayer = shader->layers + 1;
+ loadmodel->brushq3.deluxemapping = true;
+ loadmodel->brushq3.deluxemapping_modelspace = false;
}
- // now see if the lightmap came first, and if so choose the second texture instead
- if (!strcasecmp(shader->primarylayer->texturename, "$lightmap"))
- shader->primarylayer = shader->layers + 1;
}
}
- Mem_Free(f);
}
}
-q3shaderinfo_t *Mod_Q3BSP_LookupShader(const char *name)
-{
- int i;
- for (i = 0;i < Q3SHADER_MAXSHADERS;i++)
- if (!strcasecmp(q3shaders_shaders[i].name, name))
- return q3shaders_shaders + i;
- return NULL;
-}
-
static void Mod_Q3BSP_LoadTextures(lump_t *l)
{
q3dtexture_t *in;
texture_t *out;
- int i, count, c;
+ int i, count;
in = (q3dtexture_t *)(mod_base + l->fileofs);
if (l->filelen % sizeof(*in))
loadmodel->data_textures = out;
loadmodel->num_textures = count;
+ loadmodel->num_texturesperskin = loadmodel->num_textures;
- // parse the Q3 shader files
- Mod_Q3BSP_LoadShaders();
-
- c = 0;
- for (i = 0;i < count;i++, in++, out++)
+ for (i = 0;i < count;i++)
{
- q3shaderinfo_t *shader;
- strlcpy (out->name, in->name, sizeof (out->name));
- out->surfaceflags = LittleLong(in->surfaceflags);
- out->supercontents = Mod_Q3BSP_SuperContentsFromNativeContents(loadmodel, LittleLong(in->contents));
- shader = Mod_Q3BSP_LookupShader(out->name);
- if (shader)
- {
- out->surfaceparms = shader->surfaceparms;
- out->textureflags = shader->textureflags;
- out->basematerialflags = 0;
- if (shader->surfaceparms & Q3SURFACEPARM_SKY)
- {
- out->basematerialflags |= MATERIALFLAG_SKY;
- if (shader->skyboxname[0])
- {
- // quake3 seems to append a _ to the skybox name, so this must do so as well
- dpsnprintf(loadmodel->brush.skybox, sizeof(loadmodel->brush.skybox), "%s_", shader->skyboxname);
- }
- }
- else if ((out->surfaceflags & Q3SURFACEFLAG_NODRAW) || shader->numlayers == 0)
- out->basematerialflags |= MATERIALFLAG_NODRAW;
- else if (shader->surfaceparms & Q3SURFACEPARM_LAVA)
- out->basematerialflags |= MATERIALFLAG_WATER | MATERIALFLAG_FULLBRIGHT;
- else if (shader->surfaceparms & Q3SURFACEPARM_SLIME)
- out->basematerialflags |= MATERIALFLAG_WATER | MATERIALFLAG_WATERALPHA;
- else if (shader->surfaceparms & Q3SURFACEPARM_WATER)
- out->basematerialflags |= MATERIALFLAG_WATER | MATERIALFLAG_WATERALPHA;
- else
- out->basematerialflags |= MATERIALFLAG_WALL;
- if (shader->textureflags & Q3TEXTUREFLAG_ALPHATEST)
- out->basematerialflags |= MATERIALFLAG_ALPHATEST | MATERIALFLAG_TRANSPARENT;
- out->customblendfunc[0] = GL_ONE;
- out->customblendfunc[1] = GL_ZERO;
- if (shader->numlayers > 0)
- {
- out->customblendfunc[0] = shader->layers[0].blendfunc[0];
- out->customblendfunc[1] = shader->layers[0].blendfunc[1];
-/*
-Q3 shader blendfuncs actually used in the game (* = supported by DP)
-* additive GL_ONE GL_ONE
- additive weird GL_ONE GL_SRC_ALPHA
- additive weird 2 GL_ONE GL_ONE_MINUS_SRC_ALPHA
-* alpha GL_SRC_ALPHA GL_ONE_MINUS_SRC_ALPHA
- alpha inverse GL_ONE_MINUS_SRC_ALPHA GL_SRC_ALPHA
- brighten GL_DST_COLOR GL_ONE
- brighten GL_ONE GL_SRC_COLOR
- brighten weird GL_DST_COLOR GL_ONE_MINUS_DST_ALPHA
- brighten weird 2 GL_DST_COLOR GL_SRC_ALPHA
-* modulate GL_DST_COLOR GL_ZERO
-* modulate GL_ZERO GL_SRC_COLOR
- modulate inverse GL_ZERO GL_ONE_MINUS_SRC_COLOR
- modulate inverse alpha GL_ZERO GL_SRC_ALPHA
- modulate weird inverse GL_ONE_MINUS_DST_COLOR GL_ZERO
-* modulate x2 GL_DST_COLOR GL_SRC_COLOR
-* no blend GL_ONE GL_ZERO
- nothing GL_ZERO GL_ONE
-*/
- // if not opaque, figure out what blendfunc to use
- if (shader->layers[0].blendfunc[0] != GL_ONE || shader->layers[0].blendfunc[1] != GL_ZERO)
- {
- if (shader->layers[0].blendfunc[0] == GL_ONE && shader->layers[0].blendfunc[1] == GL_ONE)
- out->basematerialflags |= MATERIALFLAG_ADD | MATERIALFLAG_BLENDED | MATERIALFLAG_TRANSPARENT;
- else if (shader->layers[0].blendfunc[0] == GL_SRC_ALPHA && shader->layers[0].blendfunc[1] == GL_ONE)
- out->basematerialflags |= MATERIALFLAG_ADD | MATERIALFLAG_BLENDED | MATERIALFLAG_TRANSPARENT;
- else if (shader->layers[0].blendfunc[0] == GL_SRC_ALPHA && shader->layers[0].blendfunc[1] == GL_ONE_MINUS_SRC_ALPHA)
- out->basematerialflags |= MATERIALFLAG_ALPHA | MATERIALFLAG_BLENDED | MATERIALFLAG_TRANSPARENT;
- else
- out->basematerialflags |= MATERIALFLAG_CUSTOMBLEND | MATERIALFLAG_FULLBRIGHT | MATERIALFLAG_BLENDED | MATERIALFLAG_TRANSPARENT;
- }
- }
- if (!shader->lighting)
- out->basematerialflags |= MATERIALFLAG_FULLBRIGHT;
- if (cls.state != ca_dedicated)
- if (shader->primarylayer && !Mod_LoadSkinFrame(&out->skin, shader->primarylayer->texturename, ((shader->surfaceparms & Q3SURFACEPARM_NOMIPMAPS) ? 0 : TEXF_MIPMAP) | TEXF_ALPHA | TEXF_PRECACHE | (shader->textureflags & Q3TEXTUREFLAG_NOPICMIP ? 0 : TEXF_PICMIP), false, true))
- Con_Printf("%s: could not load texture \"%s\" for shader \"%s\"\n", loadmodel->name, shader->primarylayer->texturename, out->name);
- }
- else
- {
- c++;
- Con_DPrintf("%s: No shader found for texture \"%s\"\n", loadmodel->name, out->name);
- out->surfaceparms = 0;
- if (out->surfaceflags & Q3SURFACEFLAG_NODRAW)
- out->basematerialflags |= MATERIALFLAG_NODRAW;
- else if (out->surfaceflags & Q3SURFACEFLAG_SKY)
- out->basematerialflags |= MATERIALFLAG_SKY;
- else
- out->basematerialflags |= MATERIALFLAG_WALL;
- // these are defaults
- //if (!strncmp(out->name, "textures/skies/", 15))
- // out->surfaceparms |= Q3SURFACEPARM_SKY;
- //if (!strcmp(out->name, "caulk") || !strcmp(out->name, "common/caulk") || !strcmp(out->name, "textures/common/caulk")
- // || !strcmp(out->name, "nodraw") || !strcmp(out->name, "common/nodraw") || !strcmp(out->name, "textures/common/nodraw"))
- // out->surfaceparms |= Q3SURFACEPARM_NODRAW;
- //if (R_TextureHasAlpha(out->skin.base))
- // out->surfaceparms |= Q3SURFACEPARM_TRANS;
- if (cls.state != ca_dedicated)
- if (!Mod_LoadSkinFrame(&out->skin, out->name, TEXF_MIPMAP | TEXF_ALPHA | TEXF_PRECACHE | TEXF_PICMIP, false, true))
- Con_Printf("%s: could not load texture for missing shader \"%s\"\n", loadmodel->name, out->name);
- }
- // no animation
- out->currentframe = out;
- }
- if (c)
- Con_DPrintf("%s: %i textures missing shaders\n", loadmodel->name, c);
+ strlcpy (out[i].name, in[i].name, sizeof (out[i].name));
+ out[i].surfaceflags = LittleLong(in[i].surfaceflags);
+ out[i].supercontents = Mod_Q3BSP_SuperContentsFromNativeContents(loadmodel, LittleLong(in[i].contents));
+ Mod_LoadTextureFromQ3Shader(out + i, out[i].name, true, true, TEXF_MIPMAP | TEXF_ISWORLD | TEXF_PICMIP | TEXF_COMPRESS);
+ // restore the surfaceflags and supercontents
+ out[i].surfaceflags = LittleLong(in[i].surfaceflags);
+ out[i].supercontents = Mod_Q3BSP_SuperContentsFromNativeContents(loadmodel, LittleLong(in[i].contents));
+ }
}
static void Mod_Q3BSP_LoadPlanes(lump_t *l)
}
}
+static void Mod_Q3BSP_LoadBrushSides_IG(lump_t *l)
+{
+ q3dbrushside_ig_t *in;
+ q3mbrushside_t *out;
+ int i, n, count;
+
+ in = (q3dbrushside_ig_t *)(mod_base + l->fileofs);
+ if (l->filelen % sizeof(*in))
+ Host_Error("Mod_Q3BSP_LoadBrushSides: funny lump size in %s",loadmodel->name);
+ count = l->filelen / sizeof(*in);
+ out = (q3mbrushside_t *)Mem_Alloc(loadmodel->mempool, count * sizeof(*out));
+
+ loadmodel->brush.data_brushsides = out;
+ loadmodel->brush.num_brushsides = count;
+
+ for (i = 0;i < count;i++, in++, out++)
+ {
+ n = LittleLong(in->planeindex);
+ if (n < 0 || n >= loadmodel->brush.num_planes)
+ Host_Error("Mod_Q3BSP_LoadBrushSides: invalid planeindex %i (%i planes)", n, loadmodel->brush.num_planes);
+ out->plane = loadmodel->brush.data_planes + n;
+ n = LittleLong(in->textureindex);
+ if (n < 0 || n >= loadmodel->num_textures)
+ Host_Error("Mod_Q3BSP_LoadBrushSides: invalid textureindex %i (%i textures)", n, loadmodel->num_textures);
+ out->texture = loadmodel->data_textures + n;
+ }
+}
+
static void Mod_Q3BSP_LoadBrushes(lump_t *l)
{
q3dbrush_t *in;
q3mbrush_t *out;
- int i, j, n, c, count, maxplanes;
+ int i, j, n, c, count, maxplanes, q3surfaceflags;
colplanef_t *planes;
in = (q3dbrush_t *)(mod_base + l->fileofs);
Mem_Free(planes);
planes = (colplanef_t *)Mem_Alloc(tempmempool, sizeof(colplanef_t) * maxplanes);
}
+ q3surfaceflags = 0;
for (j = 0;j < out->numbrushsides;j++)
{
VectorCopy(out->firstbrushside[j].plane->normal, planes[j].normal);
planes[j].dist = out->firstbrushside[j].plane->dist;
planes[j].q3surfaceflags = out->firstbrushside[j].texture->surfaceflags;
planes[j].texture = out->firstbrushside[j].texture;
+ q3surfaceflags |= planes[j].q3surfaceflags;
}
// make the colbrush from the planes
- out->colbrushf = Collision_NewBrushFromPlanes(loadmodel->mempool, out->numbrushsides, planes, out->texture->supercontents);
+ out->colbrushf = Collision_NewBrushFromPlanes(loadmodel->mempool, out->numbrushsides, planes, out->texture->supercontents, q3surfaceflags, out->texture, true);
+
+ // this whole loop can take a while (e.g. on redstarrepublic4)
+ CL_KeepaliveMessage(false);
}
if (planes)
Mem_Free(planes);
loadmodel->brushq3.data_color4f[i * 4 + 1] = in->color4ub[1] * (1.0f / 255.0f);
loadmodel->brushq3.data_color4f[i * 4 + 2] = in->color4ub[2] * (1.0f / 255.0f);
loadmodel->brushq3.data_color4f[i * 4 + 3] = in->color4ub[3] * (1.0f / 255.0f);
+ if(in->color4ub[0] != 255 || in->color4ub[1] != 255 || in->color4ub[2] != 255)
+ loadmodel->lit = true;
}
}
if (l->filelen % sizeof(int[3]))
Host_Error("Mod_Q3BSP_LoadTriangles: funny lump size in %s",loadmodel->name);
count = l->filelen / sizeof(*in);
- out = (int *)Mem_Alloc(loadmodel->mempool, count * sizeof(*out));
+ if(!loadmodel->brushq3.num_vertices)
+ {
+ if (count)
+ Con_Printf("Mod_Q3BSP_LoadTriangles: %s has triangles but no vertexes, broken compiler, ignoring problem\n", loadmodel->name);
+ loadmodel->brushq3.num_triangles = 0;
+ return;
+ }
+
+ out = (int *)Mem_Alloc(loadmodel->mempool, count * sizeof(*out));
loadmodel->brushq3.num_triangles = count / 3;
loadmodel->brushq3.data_element3i = out;
}
}
-static void Mod_Q3BSP_LoadLightmaps(lump_t *l)
+static void Mod_Q3BSP_LoadLightmaps(lump_t *l, lump_t *faceslump)
{
- q3dlightmap_t *in;
- rtexture_t **out;
- int i, count;
+ q3dlightmap_t *input_pointer;
+ int i;
+ int j;
+ int k;
+ int count;
+ int powerx;
+ int powery;
+ int powerxy;
+ int powerdxy;
+ int endlightmap;
+ int mergegoal;
+ int lightmapindex;
+ int realcount;
+ int realindex;
+ int mergedwidth;
+ int mergedheight;
+ int mergedcolumns;
+ int mergedrows;
+ int mergedrowsxcolumns;
+ int size;
+ int bytesperpixel;
+ int rgbmap[3];
+ unsigned char *c;
+ unsigned char *mergedpixels;
+ unsigned char *mergeddeluxepixels;
+ unsigned char *mergebuf;
+ char mapname[MAX_QPATH];
+ qboolean external;
+ unsigned char *inpixels[10000]; // max count q3map2 can output (it uses 4 digits)
+
+ // defaults for q3bsp
+ size = 128;
+ bytesperpixel = 3;
+ rgbmap[0] = 2;
+ rgbmap[1] = 1;
+ rgbmap[2] = 0;
+ external = false;
+ loadmodel->brushq3.lightmapsize = 128;
+
+ if (cls.state == ca_dedicated)
+ return;
- if (!l->filelen)
+ if(mod_q3bsp_nolightmaps.integer)
+ {
return;
- in = (q3dlightmap_t *)(mod_base + l->fileofs);
- if (l->filelen % sizeof(*in))
- Host_Error("Mod_Q3BSP_LoadLightmaps: funny lump size in %s",loadmodel->name);
- count = l->filelen / sizeof(*in);
- out = (rtexture_t **)Mem_Alloc(loadmodel->mempool, count * sizeof(*out));
+ }
+ else if(l->filelen)
+ {
+ // prefer internal LMs for compatibility (a BSP contains no info on whether external LMs exist)
+ if (developer_loading.integer)
+ Con_Printf("Using internal lightmaps\n");
+ input_pointer = (q3dlightmap_t *)(mod_base + l->fileofs);
+ if (l->filelen % sizeof(*input_pointer))
+ Host_Error("Mod_Q3BSP_LoadLightmaps: funny lump size in %s",loadmodel->name);
+ count = l->filelen / sizeof(*input_pointer);
+ for(i = 0; i < count; ++i)
+ inpixels[i] = input_pointer[i].rgb;
+ }
+ else
+ {
+ // no internal lightmaps
+ // try external lightmaps
+ if (developer_loading.integer)
+ Con_Printf("Using external lightmaps\n");
+ FS_StripExtension(loadmodel->name, mapname, sizeof(mapname));
+ inpixels[0] = loadimagepixelsbgra(va("%s/lm_%04d", mapname, 0), false, false, false, NULL);
+ if(!inpixels[0])
+ return;
- loadmodel->brushq3.data_lightmaps = out;
- loadmodel->brushq3.num_lightmaps = count;
+ // using EXTERNAL lightmaps instead
+ if(image_width != (int) CeilPowerOf2(image_width) || image_width != image_height)
+ {
+ Mem_Free(inpixels[0]);
+ Host_Error("Mod_Q3BSP_LoadLightmaps: invalid external lightmap size in %s",loadmodel->name);
+ }
- for (i = 0;i < count;i++, in++, out++)
- *out = R_LoadTexture2D(loadmodel->texturepool, va("lightmap%04i", i), 128, 128, in->rgb, TEXTYPE_RGB, TEXF_FORCELINEAR | TEXF_PRECACHE, NULL);
+ size = image_width;
+ bytesperpixel = 4;
+ rgbmap[0] = 0;
+ rgbmap[1] = 1;
+ rgbmap[2] = 2;
+ external = true;
+
+ for(count = 1; ; ++count)
+ {
+ inpixels[count] = loadimagepixelsbgra(va("%s/lm_%04d", mapname, count), false, false, false, NULL);
+ if(!inpixels[count])
+ break; // we got all of them
+ if(image_width != size || image_height != size)
+ {
+ Mem_Free(inpixels[count]);
+ inpixels[count] = NULL;
+ Con_Printf("Mod_Q3BSP_LoadLightmaps: mismatched lightmap size in %s - external lightmap %s/lm_%04d does not match earlier ones\n", loadmodel->name, mapname, count);
+ break;
+ }
+ }
+ }
+
+ loadmodel->brushq3.lightmapsize = size;
+ loadmodel->brushq3.num_originallightmaps = count;
+
+ // now check the surfaces to see if any of them index an odd numbered
+ // lightmap, if so this is not a deluxemapped bsp file
+ //
+ // also check what lightmaps are actually used, because q3map2 sometimes
+ // (always?) makes an unused one at the end, which
+ // q3map2 sometimes (or always?) makes a second blank lightmap for no
+ // reason when only one lightmap is used, which can throw off the
+ // deluxemapping detection method, so check 2-lightmap bsp's specifically
+ // to see if the second lightmap is blank, if so it is not deluxemapped.
+ // VorteX: autodetect only if previous attempt to find "deluxeMaps" key
+ // in Mod_Q3BSP_LoadEntities was failed
+ if (!loadmodel->brushq3.deluxemapping)
+ {
+ loadmodel->brushq3.deluxemapping = !(count & 1);
+ loadmodel->brushq3.deluxemapping_modelspace = true;
+ endlightmap = 0;
+ if (loadmodel->brushq3.deluxemapping)
+ {
+ int facecount = faceslump->filelen / sizeof(q3dface_t);
+ q3dface_t *faces = (q3dface_t *)(mod_base + faceslump->fileofs);
+ for (i = 0;i < facecount;i++)
+ {
+ j = LittleLong(faces[i].lightmapindex);
+ if (j >= 0)
+ {
+ endlightmap = max(endlightmap, j + 1);
+ if ((j & 1) || j + 1 >= count)
+ {
+ loadmodel->brushq3.deluxemapping = false;
+ break;
+ }
+ }
+ }
+ }
+
+ // q3map2 sometimes (or always?) makes a second blank lightmap for no
+ // reason when only one lightmap is used, which can throw off the
+ // deluxemapping detection method, so check 2-lightmap bsp's specifically
+ // to see if the second lightmap is blank, if so it is not deluxemapped.
+ //
+ // further research has shown q3map2 sometimes creates a deluxemap and two
+ // blank lightmaps, which must be handled properly as well
+ if (endlightmap == 1 && count > 1)
+ {
+ c = inpixels[1];
+ for (i = 0;i < size*size;i++)
+ {
+ if (c[bytesperpixel*i + rgbmap[0]])
+ break;
+ if (c[bytesperpixel*i + rgbmap[1]])
+ break;
+ if (c[bytesperpixel*i + rgbmap[2]])
+ break;
+ }
+ if (i == size*size)
+ {
+ // all pixels in the unused lightmap were black...
+ loadmodel->brushq3.deluxemapping = false;
+ }
+ }
+ }
+
+ Con_DPrintf("%s is %sdeluxemapped\n", loadmodel->name, loadmodel->brushq3.deluxemapping ? "" : "not ");
+
+ // figure out what the most reasonable merge power is within limits
+
+ // find the appropriate NxN dimensions to merge to, to avoid wasted space
+ realcount = count >> (int)loadmodel->brushq3.deluxemapping;
+
+ // figure out how big the merged texture has to be
+ mergegoal = 128<<bound(0, mod_q3bsp_lightmapmergepower.integer, 6);
+ mergegoal = bound(size, mergegoal, (int)vid.maxtexturesize_2d);
+ while (mergegoal > size && mergegoal * mergegoal / 4 >= size * size * realcount)
+ mergegoal /= 2;
+ mergedwidth = mergegoal;
+ mergedheight = mergegoal;
+ // choose non-square size (2x1 aspect) if only half the space is used;
+ // this really only happens when the entire set fits in one texture, if
+ // there are multiple textures, we don't worry about shrinking the last
+ // one to fit, because the driver prefers the same texture size on
+ // consecutive draw calls...
+ if (mergedwidth * mergedheight / 2 >= size*size*realcount)
+ mergedheight /= 2;
+
+ loadmodel->brushq3.num_lightmapmergedwidthpower = 0;
+ loadmodel->brushq3.num_lightmapmergedheightpower = 0;
+ while (mergedwidth > size<<loadmodel->brushq3.num_lightmapmergedwidthpower)
+ loadmodel->brushq3.num_lightmapmergedwidthpower++;
+ while (mergedheight > size<<loadmodel->brushq3.num_lightmapmergedheightpower)
+ loadmodel->brushq3.num_lightmapmergedheightpower++;
+ loadmodel->brushq3.num_lightmapmergedwidthheightdeluxepower = loadmodel->brushq3.num_lightmapmergedwidthpower + loadmodel->brushq3.num_lightmapmergedheightpower + (loadmodel->brushq3.deluxemapping ? 1 : 0);
+
+ powerx = loadmodel->brushq3.num_lightmapmergedwidthpower;
+ powery = loadmodel->brushq3.num_lightmapmergedheightpower;
+ powerxy = powerx+powery;
+ powerdxy = loadmodel->brushq3.deluxemapping + powerxy;
+
+ mergedcolumns = 1 << powerx;
+ mergedrows = 1 << powery;
+ mergedrowsxcolumns = 1 << powerxy;
+
+ loadmodel->brushq3.num_mergedlightmaps = (realcount + (1 << powerxy) - 1) >> powerxy;
+ loadmodel->brushq3.data_lightmaps = (rtexture_t **)Mem_Alloc(loadmodel->mempool, loadmodel->brushq3.num_mergedlightmaps * sizeof(rtexture_t *));
+ if (loadmodel->brushq3.deluxemapping)
+ loadmodel->brushq3.data_deluxemaps = (rtexture_t **)Mem_Alloc(loadmodel->mempool, loadmodel->brushq3.num_mergedlightmaps * sizeof(rtexture_t *));
+
+ // allocate a texture pool if we need it
+ if (loadmodel->texturepool == NULL && cls.state != ca_dedicated)
+ loadmodel->texturepool = R_AllocTexturePool();
+
+ mergedpixels = (unsigned char *) Mem_Alloc(tempmempool, mergedwidth * mergedheight * 4);
+ mergeddeluxepixels = loadmodel->brushq3.deluxemapping ? (unsigned char *) Mem_Alloc(tempmempool, mergedwidth * mergedheight * 4) : NULL;
+ for (i = 0;i < count;i++)
+ {
+ // figure out which merged lightmap texture this fits into
+ realindex = i >> (int)loadmodel->brushq3.deluxemapping;
+ lightmapindex = i >> powerdxy;
+
+ // choose the destination address
+ mergebuf = (loadmodel->brushq3.deluxemapping && (i & 1)) ? mergeddeluxepixels : mergedpixels;
+ mergebuf += 4 * (realindex & (mergedcolumns-1))*size + 4 * ((realindex >> powerx) & (mergedrows-1))*mergedwidth*size;
+ if ((i & 1) == 0 || !loadmodel->brushq3.deluxemapping)
+ Con_DPrintf("copying original lightmap %i (%ix%i) to %i (at %i,%i)\n", i, size, size, lightmapindex, (realindex & (mergedcolumns-1))*size, ((realindex >> powerx) & (mergedrows-1))*size);
+
+ // convert pixels from RGB or BGRA while copying them into the destination rectangle
+ for (j = 0;j < size;j++)
+ for (k = 0;k < size;k++)
+ {
+ mergebuf[(j*mergedwidth+k)*4+0] = inpixels[i][(j*size+k)*bytesperpixel+rgbmap[0]];
+ mergebuf[(j*mergedwidth+k)*4+1] = inpixels[i][(j*size+k)*bytesperpixel+rgbmap[1]];
+ mergebuf[(j*mergedwidth+k)*4+2] = inpixels[i][(j*size+k)*bytesperpixel+rgbmap[2]];
+ mergebuf[(j*mergedwidth+k)*4+3] = 255;
+ }
+
+ // upload texture if this was the last tile being written to the texture
+ if (((realindex + 1) & (mergedrowsxcolumns - 1)) == 0 || (realindex + 1) == realcount)
+ {
+ if (loadmodel->brushq3.deluxemapping && (i & 1))
+ loadmodel->brushq3.data_deluxemaps[lightmapindex] = R_LoadTexture2D(loadmodel->texturepool, va("deluxemap%04i", lightmapindex), mergedwidth, mergedheight, mergeddeluxepixels, TEXTYPE_BGRA, TEXF_FORCELINEAR | (gl_texturecompression_q3bspdeluxemaps.integer ? TEXF_COMPRESS : 0), -1, NULL);
+ else
+ loadmodel->brushq3.data_lightmaps [lightmapindex] = R_LoadTexture2D(loadmodel->texturepool, va("lightmap%04i", lightmapindex), mergedwidth, mergedheight, mergedpixels, TEXTYPE_BGRA, TEXF_FORCELINEAR | (gl_texturecompression_q3bsplightmaps.integer ? TEXF_COMPRESS : 0), -1, NULL);
+ }
+ }
+
+ if (mergeddeluxepixels)
+ Mem_Free(mergeddeluxepixels);
+ Mem_Free(mergedpixels);
+ if(external)
+ {
+ for(i = 0; i < count; ++i)
+ Mem_Free(inpixels[i]);
+ }
+}
+
+static void Mod_Q3BSP_BuildBBoxes(const int *element3i, int num_triangles, const float *vertex3f, float **collisionbbox6f, int *collisionstride, int stride)
+{
+ int j, k, cnt, tri;
+ float *mins, *maxs;
+ const float *vert;
+ *collisionstride = stride;
+ if(stride > 0)
+ {
+ cnt = (num_triangles + stride - 1) / stride;
+ *collisionbbox6f = (float *) Mem_Alloc(loadmodel->mempool, sizeof(float[6]) * cnt);
+ for(j = 0; j < cnt; ++j)
+ {
+ mins = &((*collisionbbox6f)[6 * j + 0]);
+ maxs = &((*collisionbbox6f)[6 * j + 3]);
+ for(k = 0; k < stride; ++k)
+ {
+ tri = j * stride + k;
+ if(tri >= num_triangles)
+ break;
+ vert = &(vertex3f[element3i[3 * tri + 0] * 3]);
+ if(!k || vert[0] < mins[0]) mins[0] = vert[0];
+ if(!k || vert[1] < mins[1]) mins[1] = vert[1];
+ if(!k || vert[2] < mins[2]) mins[2] = vert[2];
+ if(!k || vert[0] > maxs[0]) maxs[0] = vert[0];
+ if(!k || vert[1] > maxs[1]) maxs[1] = vert[1];
+ if(!k || vert[2] > maxs[2]) maxs[2] = vert[2];
+ vert = &(vertex3f[element3i[3 * tri + 1] * 3]);
+ if(vert[0] < mins[0]) mins[0] = vert[0];
+ if(vert[1] < mins[1]) mins[1] = vert[1];
+ if(vert[2] < mins[2]) mins[2] = vert[2];
+ if(vert[0] > maxs[0]) maxs[0] = vert[0];
+ if(vert[1] > maxs[1]) maxs[1] = vert[1];
+ if(vert[2] > maxs[2]) maxs[2] = vert[2];
+ vert = &(vertex3f[element3i[3 * tri + 2] * 3]);
+ if(vert[0] < mins[0]) mins[0] = vert[0];
+ if(vert[1] < mins[1]) mins[1] = vert[1];
+ if(vert[2] < mins[2]) mins[2] = vert[2];
+ if(vert[0] > maxs[0]) maxs[0] = vert[0];
+ if(vert[1] > maxs[1]) maxs[1] = vert[1];
+ if(vert[2] > maxs[2]) maxs[2] = vert[2];
+ }
+ }
+ }
+ else
+ *collisionbbox6f = NULL;
}
+typedef struct patchtess_s
+{
+ patchinfo_t info;
+
+ // Auxiliary data used only by patch loading code in Mod_Q3BSP_LoadFaces
+ int surface_id;
+ float lodgroup[6];
+ float *originalvertex3f;
+} patchtess_t;
+
+#define PATCHTESS_SAME_LODGROUP(a,b) \
+ ( \
+ (a).lodgroup[0] == (b).lodgroup[0] && \
+ (a).lodgroup[1] == (b).lodgroup[1] && \
+ (a).lodgroup[2] == (b).lodgroup[2] && \
+ (a).lodgroup[3] == (b).lodgroup[3] && \
+ (a).lodgroup[4] == (b).lodgroup[4] && \
+ (a).lodgroup[5] == (b).lodgroup[5] \
+ )
+
static void Mod_Q3BSP_LoadFaces(lump_t *l)
{
q3dface_t *in, *oldin;
msurface_t *out, *oldout;
- int i, oldi, j, n, count, invalidelements, patchsize[2], finalwidth, finalheight, xtess, ytess, finalvertices, finaltriangles, firstvertex, firstelement, type, oldnumtriangles, oldnumtriangles2, meshvertices, meshtriangles, numvertices, numtriangles;
+ int i, oldi, j, n, count, invalidelements, patchsize[2], finalwidth, finalheight, xtess, ytess, finalvertices, finaltriangles, firstvertex, firstelement, type, oldnumtriangles, oldnumtriangles2, meshvertices, meshtriangles, collisionvertices, collisiontriangles, numvertices, numtriangles, cxtess, cytess;
+ float lightmaptcbase[2], lightmaptcscale[2];
//int *originalelement3i;
//int *originalneighbor3i;
float *originalvertex3f;
float *originalcolor4f;
float *originaltexcoordtexture2f;
float *originaltexcoordlightmap2f;
+ float *surfacecollisionvertex3f;
+ int *surfacecollisionelement3i;
float *v;
+ patchtess_t *patchtess = NULL;
+ int patchtesscount = 0;
+ qboolean again;
in = (q3dface_t *)(mod_base + l->fileofs);
if (l->filelen % sizeof(*in))
loadmodel->data_surfaces = out;
loadmodel->num_surfaces = count;
- // deluxemapped q3bsp files have an even number of lightmaps, and surfaces
- // always index even numbered ones (0, 2, 4, ...), the odd numbered
- // lightmaps are the deluxemaps (light direction textures), so if we
- // encounter any odd numbered lightmaps it is not a deluxemapped bsp, it
- // is also not a deluxemapped bsp if it has an odd number of lightmaps or
- // less than 2
- loadmodel->brushq3.deluxemapping = true;
- loadmodel->brushq3.deluxemapping_modelspace = true;
- if (loadmodel->brushq3.num_lightmaps >= 2 && !(loadmodel->brushq3.num_lightmaps & 1))
- {
- for (i = 0;i < count;i++)
- {
- n = LittleLong(in[i].lightmapindex);
- if (n >= 0 && ((n & 1) || n + 1 >= loadmodel->brushq3.num_lightmaps))
- {
- loadmodel->brushq3.deluxemapping = false;
- break;
- }
- }
- }
- else
- loadmodel->brushq3.deluxemapping = false;
- Con_DPrintf("%s is %sdeluxemapped\n", loadmodel->name, loadmodel->brushq3.deluxemapping ? "" : "not ");
+ if(count > 0)
+ patchtess = (patchtess_t*) Mem_Alloc(tempmempool, count * sizeof(*patchtess));
i = 0;
oldi = i;
{
// check face type first
type = LittleLong(in->type);
- if (type != Q3FACETYPE_POLYGON
+ if (type != Q3FACETYPE_FLAT
&& type != Q3FACETYPE_PATCH
&& type != Q3FACETYPE_MESH
&& type != Q3FACETYPE_FLARE)
n = LittleLong(in->effectindex);
if (n < -1 || n >= loadmodel->brushq3.num_effects)
{
- if (developer.integer >= 100)
- Con_Printf("Mod_Q3BSP_LoadFaces: face #%i (texture \"%s\"): invalid effectindex %i (%i effects)\n", i, out->texture->name, n, loadmodel->brushq3.num_effects);
+ if (developer_extra.integer)
+ Con_DPrintf("Mod_Q3BSP_LoadFaces: face #%i (texture \"%s\"): invalid effectindex %i (%i effects)\n", i, out->texture->name, n, loadmodel->brushq3.num_effects);
n = -1;
}
if (n == -1)
out->effect = NULL;
else
out->effect = loadmodel->brushq3.data_effects + n;
- n = LittleLong(in->lightmapindex);
- if (n >= loadmodel->brushq3.num_lightmaps)
- {
- Con_Printf("Mod_Q3BSP_LoadFaces: face #%i (texture \"%s\"): invalid lightmapindex %i (%i lightmaps)\n", i, out->texture->name, n, loadmodel->brushq3.num_lightmaps);
- n = -1;
- }
- else if (n < 0)
- n = -1;
- if (n == -1)
+
+ if (cls.state != ca_dedicated)
{
out->lightmaptexture = NULL;
out->deluxemaptexture = r_texture_blanknormalmap;
- }
- else
- {
- out->lightmaptexture = loadmodel->brushq3.data_lightmaps[n];
- if (loadmodel->brushq3.deluxemapping)
- out->deluxemaptexture = loadmodel->brushq3.data_lightmaps[n+1];
+ n = LittleLong(in->lightmapindex);
+ if (n < 0)
+ n = -1;
+ else if (n >= loadmodel->brushq3.num_originallightmaps)
+ {
+ if(loadmodel->brushq3.num_originallightmaps != 0)
+ Con_Printf("Mod_Q3BSP_LoadFaces: face #%i (texture \"%s\"): invalid lightmapindex %i (%i lightmaps)\n", i, out->texture->name, n, loadmodel->brushq3.num_originallightmaps);
+ n = -1;
+ }
else
- out->deluxemaptexture = r_texture_blanknormalmap;
+ {
+ out->lightmaptexture = loadmodel->brushq3.data_lightmaps[n >> loadmodel->brushq3.num_lightmapmergedwidthheightdeluxepower];
+ if (loadmodel->brushq3.deluxemapping)
+ out->deluxemaptexture = loadmodel->brushq3.data_deluxemaps[n >> loadmodel->brushq3.num_lightmapmergedwidthheightdeluxepower];
+ loadmodel->lit = true;
+ }
}
firstvertex = LittleLong(in->firstvertex);
}
switch(type)
{
- case Q3FACETYPE_POLYGON:
+ case Q3FACETYPE_FLAT:
case Q3FACETYPE_MESH:
// no processing necessary
break;
continue;
}
originalvertex3f = loadmodel->brushq3.data_vertex3f + firstvertex * 3;
+
// convert patch to Q3FACETYPE_MESH
xtess = Q3PatchTesselationOnX(patchsize[0], patchsize[1], 3, originalvertex3f, r_subdivisions_tolerance.value);
ytess = Q3PatchTesselationOnY(patchsize[0], patchsize[1], 3, originalvertex3f, r_subdivisions_tolerance.value);
xtess = bound(r_subdivisions_mintess.integer, xtess, r_subdivisions_maxtess.integer);
ytess = bound(r_subdivisions_mintess.integer, ytess, r_subdivisions_maxtess.integer);
// bound to sanity settings
- xtess = bound(1, xtess, 1024);
- ytess = bound(1, ytess, 1024);
- // bound to user limit on vertices
- while ((xtess > 1 || ytess > 1) && (((patchsize[0] - 1) * xtess) + 1) * (((patchsize[1] - 1) * ytess) + 1) > min(r_subdivisions_maxvertices.integer, 262144))
- {
- if (xtess > ytess)
- xtess--;
- else
- ytess--;
- }
- finalwidth = ((patchsize[0] - 1) * xtess) + 1;
- finalheight = ((patchsize[1] - 1) * ytess) + 1;
- numvertices = finalwidth * finalheight;
- numtriangles = (finalwidth - 1) * (finalheight - 1) * 2;
+ xtess = bound(0, xtess, 1024);
+ ytess = bound(0, ytess, 1024);
+
+ // lower quality collision patches! Same procedure as before, but different cvars
+ // convert patch to Q3FACETYPE_MESH
+ cxtess = Q3PatchTesselationOnX(patchsize[0], patchsize[1], 3, originalvertex3f, r_subdivisions_collision_tolerance.value);
+ cytess = Q3PatchTesselationOnY(patchsize[0], patchsize[1], 3, originalvertex3f, r_subdivisions_collision_tolerance.value);
+ // bound to user settings
+ cxtess = bound(r_subdivisions_collision_mintess.integer, cxtess, r_subdivisions_collision_maxtess.integer);
+ cytess = bound(r_subdivisions_collision_mintess.integer, cytess, r_subdivisions_collision_maxtess.integer);
+ // bound to sanity settings
+ cxtess = bound(0, cxtess, 1024);
+ cytess = bound(0, cytess, 1024);
+
+ // store it for the LOD grouping step
+ patchtess[patchtesscount].info.xsize = patchsize[0];
+ patchtess[patchtesscount].info.ysize = patchsize[1];
+ patchtess[patchtesscount].info.lods[PATCH_LOD_VISUAL].xtess = xtess;
+ patchtess[patchtesscount].info.lods[PATCH_LOD_VISUAL].ytess = ytess;
+ patchtess[patchtesscount].info.lods[PATCH_LOD_COLLISION].xtess = cxtess;
+ patchtess[patchtesscount].info.lods[PATCH_LOD_COLLISION].ytess = cytess;
+
+ patchtess[patchtesscount].surface_id = i;
+ patchtess[patchtesscount].lodgroup[0] = LittleFloat(in->specific.patch.mins[0]);
+ patchtess[patchtesscount].lodgroup[1] = LittleFloat(in->specific.patch.mins[1]);
+ patchtess[patchtesscount].lodgroup[2] = LittleFloat(in->specific.patch.mins[2]);
+ patchtess[patchtesscount].lodgroup[3] = LittleFloat(in->specific.patch.maxs[0]);
+ patchtess[patchtesscount].lodgroup[4] = LittleFloat(in->specific.patch.maxs[1]);
+ patchtess[patchtesscount].lodgroup[5] = LittleFloat(in->specific.patch.maxs[2]);
+ patchtess[patchtesscount].originalvertex3f = originalvertex3f;
+ ++patchtesscount;
break;
case Q3FACETYPE_FLARE:
- if (developer.integer >= 100)
- Con_Printf("Mod_Q3BSP_LoadFaces: face #%i (texture \"%s\"): Q3FACETYPE_FLARE not supported (yet)\n", i, out->texture->name);
+ if (developer_extra.integer)
+ Con_DPrintf("Mod_Q3BSP_LoadFaces: face #%i (texture \"%s\"): Q3FACETYPE_FLARE not supported (yet)\n", i, out->texture->name);
// don't render it
continue;
}
meshtriangles += out->num_triangles;
}
+ // Fix patches tesselations so that they make no seams
+ do
+ {
+ again = false;
+ for(i = 0; i < patchtesscount; ++i)
+ {
+ for(j = i+1; j < patchtesscount; ++j)
+ {
+ if (!PATCHTESS_SAME_LODGROUP(patchtess[i], patchtess[j]))
+ continue;
+
+ if (Q3PatchAdjustTesselation(3, &patchtess[i].info, patchtess[i].originalvertex3f, &patchtess[j].info, patchtess[j].originalvertex3f) )
+ again = true;
+ }
+ }
+ }
+ while (again);
+
+ // Calculate resulting number of triangles
+ collisionvertices = 0;
+ collisiontriangles = 0;
+ for(i = 0; i < patchtesscount; ++i)
+ {
+ finalwidth = Q3PatchDimForTess(patchtess[i].info.xsize, patchtess[i].info.lods[PATCH_LOD_VISUAL].xtess);
+ finalheight = Q3PatchDimForTess(patchtess[i].info.ysize,patchtess[i].info.lods[PATCH_LOD_VISUAL].ytess);
+ numvertices = finalwidth * finalheight;
+ numtriangles = (finalwidth - 1) * (finalheight - 1) * 2;
+
+ oldout[patchtess[i].surface_id].num_vertices = numvertices;
+ oldout[patchtess[i].surface_id].num_triangles = numtriangles;
+ meshvertices += oldout[patchtess[i].surface_id].num_vertices;
+ meshtriangles += oldout[patchtess[i].surface_id].num_triangles;
+
+ finalwidth = Q3PatchDimForTess(patchtess[i].info.xsize, patchtess[i].info.lods[PATCH_LOD_COLLISION].xtess);
+ finalheight = Q3PatchDimForTess(patchtess[i].info.ysize,patchtess[i].info.lods[PATCH_LOD_COLLISION].ytess);
+ numvertices = finalwidth * finalheight;
+ numtriangles = (finalwidth - 1) * (finalheight - 1) * 2;
+
+ oldout[patchtess[i].surface_id].num_collisionvertices = numvertices;
+ oldout[patchtess[i].surface_id].num_collisiontriangles = numtriangles;
+ collisionvertices += oldout[patchtess[i].surface_id].num_collisionvertices;
+ collisiontriangles += oldout[patchtess[i].surface_id].num_collisiontriangles;
+ }
+
i = oldi;
in = oldin;
out = oldout;
Mod_AllocSurfMesh(loadmodel->mempool, meshvertices, meshtriangles, false, true, false);
+ if (collisiontriangles)
+ {
+ loadmodel->brush.data_collisionvertex3f = (float *)Mem_Alloc(loadmodel->mempool, collisionvertices * sizeof(float[3]));
+ loadmodel->brush.data_collisionelement3i = (int *)Mem_Alloc(loadmodel->mempool, collisiontriangles * sizeof(int[3]));
+ }
meshvertices = 0;
meshtriangles = 0;
+ collisionvertices = 0;
+ collisiontriangles = 0;
for (;i < count && meshvertices + out->num_vertices <= loadmodel->surfmesh.num_vertices;i++, in++, out++)
{
if (out->num_vertices < 3 || out->num_triangles < 1)
firstelement = LittleLong(in->firstelement);
out->num_firstvertex = meshvertices;
out->num_firsttriangle = meshtriangles;
+ out->num_firstcollisiontriangle = collisiontriangles;
switch(type)
{
- case Q3FACETYPE_POLYGON:
+ case Q3FACETYPE_FLAT:
case Q3FACETYPE_MESH:
- // no processing necessary
+ // no processing necessary, except for lightmap merging
for (j = 0;j < out->num_vertices;j++)
{
(loadmodel->surfmesh.data_vertex3f + 3 * out->num_firstvertex)[j * 3 + 0] = loadmodel->brushq3.data_vertex3f[(firstvertex + j) * 3 + 0];
originaltexcoordtexture2f = loadmodel->brushq3.data_texcoordtexture2f + firstvertex * 2;
originaltexcoordlightmap2f = loadmodel->brushq3.data_texcoordlightmap2f + firstvertex * 2;
originalcolor4f = loadmodel->brushq3.data_color4f + firstvertex * 4;
- // convert patch to Q3FACETYPE_MESH
- xtess = Q3PatchTesselationOnX(patchsize[0], patchsize[1], 3, originalvertex3f, r_subdivisions_tolerance.value);
- ytess = Q3PatchTesselationOnY(patchsize[0], patchsize[1], 3, originalvertex3f, r_subdivisions_tolerance.value);
- // bound to user settings
- xtess = bound(r_subdivisions_mintess.integer, xtess, r_subdivisions_maxtess.integer);
- ytess = bound(r_subdivisions_mintess.integer, ytess, r_subdivisions_maxtess.integer);
- // bound to sanity settings
- xtess = bound(1, xtess, 1024);
- ytess = bound(1, ytess, 1024);
- // bound to user limit on vertices
- while ((xtess > 1 || ytess > 1) && (((patchsize[0] - 1) * xtess) + 1) * (((patchsize[1] - 1) * ytess) + 1) > min(r_subdivisions_maxvertices.integer, 262144))
+
+ xtess = ytess = cxtess = cytess = -1;
+ for(j = 0; j < patchtesscount; ++j)
+ if(patchtess[j].surface_id == i)
+ {
+ xtess = patchtess[j].info.lods[PATCH_LOD_VISUAL].xtess;
+ ytess = patchtess[j].info.lods[PATCH_LOD_VISUAL].ytess;
+ cxtess = patchtess[j].info.lods[PATCH_LOD_COLLISION].xtess;
+ cytess = patchtess[j].info.lods[PATCH_LOD_COLLISION].ytess;
+ break;
+ }
+ if(xtess == -1)
{
- if (xtess > ytess)
- xtess--;
- else
- ytess--;
+ Con_Printf("ERROR: patch %d isn't preprocessed?!?\n", i);
+ xtess = ytess = cxtess = cytess = 0;
}
- finalwidth = ((patchsize[0] - 1) * xtess) + 1;
- finalheight = ((patchsize[1] - 1) * ytess) + 1;
+
+ finalwidth = Q3PatchDimForTess(patchsize[0],xtess); //((patchsize[0] - 1) * xtess) + 1;
+ finalheight = Q3PatchDimForTess(patchsize[1],ytess); //((patchsize[1] - 1) * ytess) + 1;
finalvertices = finalwidth * finalheight;
- finaltriangles = (finalwidth - 1) * (finalheight - 1) * 2;
+ oldnumtriangles = finaltriangles = (finalwidth - 1) * (finalheight - 1) * 2;
type = Q3FACETYPE_MESH;
// generate geometry
// (note: normals are skipped because they get recalculated)
Q3PatchTesselateFloat(2, sizeof(float[2]), (loadmodel->surfmesh.data_texcoordlightmap2f + 2 * out->num_firstvertex), patchsize[0], patchsize[1], sizeof(float[2]), originaltexcoordlightmap2f, xtess, ytess);
Q3PatchTesselateFloat(4, sizeof(float[4]), (loadmodel->surfmesh.data_lightmapcolor4f + 4 * out->num_firstvertex), patchsize[0], patchsize[1], sizeof(float[4]), originalcolor4f, xtess, ytess);
Q3PatchTriangleElements((loadmodel->surfmesh.data_element3i + 3 * out->num_firsttriangle), finalwidth, finalheight, out->num_firstvertex);
+
out->num_triangles = Mod_RemoveDegenerateTriangles(out->num_triangles, (loadmodel->surfmesh.data_element3i + 3 * out->num_firsttriangle), (loadmodel->surfmesh.data_element3i + 3 * out->num_firsttriangle), loadmodel->surfmesh.data_vertex3f);
- if (developer.integer >= 100)
+
+ if (developer_extra.integer)
{
if (out->num_triangles < finaltriangles)
- Con_Printf("Mod_Q3BSP_LoadFaces: %ix%i curve subdivided to %i vertices / %i triangles, %i degenerate triangles removed (leaving %i)\n", patchsize[0], patchsize[1], out->num_vertices, finaltriangles, finaltriangles - out->num_triangles, out->num_triangles);
+ Con_DPrintf("Mod_Q3BSP_LoadFaces: %ix%i curve subdivided to %i vertices / %i triangles, %i degenerate triangles removed (leaving %i)\n", patchsize[0], patchsize[1], out->num_vertices, finaltriangles, finaltriangles - out->num_triangles, out->num_triangles);
else
- Con_Printf("Mod_Q3BSP_LoadFaces: %ix%i curve subdivided to %i vertices / %i triangles\n", patchsize[0], patchsize[1], out->num_vertices, out->num_triangles);
+ Con_DPrintf("Mod_Q3BSP_LoadFaces: %ix%i curve subdivided to %i vertices / %i triangles\n", patchsize[0], patchsize[1], out->num_vertices, out->num_triangles);
}
// q3map does not put in collision brushes for curves... ugh
// build the lower quality collision geometry
- xtess = Q3PatchTesselationOnX(patchsize[0], patchsize[1], 3, originalvertex3f, r_subdivisions_collision_tolerance.value);
- ytess = Q3PatchTesselationOnY(patchsize[0], patchsize[1], 3, originalvertex3f, r_subdivisions_collision_tolerance.value);
- // bound to user settings
- xtess = bound(r_subdivisions_collision_mintess.integer, xtess, r_subdivisions_collision_maxtess.integer);
- ytess = bound(r_subdivisions_collision_mintess.integer, ytess, r_subdivisions_collision_maxtess.integer);
- // bound to sanity settings
- xtess = bound(1, xtess, 1024);
- ytess = bound(1, ytess, 1024);
- // bound to user limit on vertices
- while ((xtess > 1 || ytess > 1) && (((patchsize[0] - 1) * xtess) + 1) * (((patchsize[1] - 1) * ytess) + 1) > min(r_subdivisions_collision_maxvertices.integer, 262144))
- {
- if (xtess > ytess)
- xtess--;
- else
- ytess--;
- }
- finalwidth = ((patchsize[0] - 1) * xtess) + 1;
- finalheight = ((patchsize[1] - 1) * ytess) + 1;
+ finalwidth = Q3PatchDimForTess(patchsize[0],cxtess); //((patchsize[0] - 1) * cxtess) + 1;
+ finalheight = Q3PatchDimForTess(patchsize[1],cytess); //((patchsize[1] - 1) * cytess) + 1;
finalvertices = finalwidth * finalheight;
- finaltriangles = (finalwidth - 1) * (finalheight - 1) * 2;
+ oldnumtriangles2 = finaltriangles = (finalwidth - 1) * (finalheight - 1) * 2;
- out->data_collisionvertex3f = (float *)Mem_Alloc(loadmodel->mempool, sizeof(float[3]) * finalvertices);
- out->data_collisionelement3i = (int *)Mem_Alloc(loadmodel->mempool, sizeof(int[3]) * finaltriangles);
+ // legacy collision geometry implementation
+ out->deprecatedq3data_collisionvertex3f = (float *)Mem_Alloc(loadmodel->mempool, sizeof(float[3]) * finalvertices);
+ out->deprecatedq3data_collisionelement3i = (int *)Mem_Alloc(loadmodel->mempool, sizeof(int[3]) * finaltriangles);
out->num_collisionvertices = finalvertices;
out->num_collisiontriangles = finaltriangles;
- Q3PatchTesselateFloat(3, sizeof(float[3]), out->data_collisionvertex3f, patchsize[0], patchsize[1], sizeof(float[3]), originalvertex3f, xtess, ytess);
- Q3PatchTriangleElements(out->data_collisionelement3i, finalwidth, finalheight, 0);
+ Q3PatchTesselateFloat(3, sizeof(float[3]), out->deprecatedq3data_collisionvertex3f, patchsize[0], patchsize[1], sizeof(float[3]), originalvertex3f, cxtess, cytess);
+ Q3PatchTriangleElements(out->deprecatedq3data_collisionelement3i, finalwidth, finalheight, 0);
//Mod_SnapVertices(3, out->num_vertices, (loadmodel->surfmesh.data_vertex3f + 3 * out->num_firstvertex), 0.25);
- Mod_SnapVertices(3, out->num_collisionvertices, out->data_collisionvertex3f, 1);
+ Mod_SnapVertices(3, finalvertices, out->deprecatedq3data_collisionvertex3f, 1);
+
+ out->num_collisiontriangles = Mod_RemoveDegenerateTriangles(finaltriangles, out->deprecatedq3data_collisionelement3i, out->deprecatedq3data_collisionelement3i, out->deprecatedq3data_collisionvertex3f);
+
+ // now optimize the collision mesh by finding triangle bboxes...
+ Mod_Q3BSP_BuildBBoxes(out->deprecatedq3data_collisionelement3i, out->num_collisiontriangles, out->deprecatedq3data_collisionvertex3f, &out->deprecatedq3data_collisionbbox6f, &out->deprecatedq3num_collisionbboxstride, mod_q3bsp_curves_collisions_stride.integer);
+ Mod_Q3BSP_BuildBBoxes(loadmodel->surfmesh.data_element3i + 3 * out->num_firsttriangle, out->num_triangles, loadmodel->surfmesh.data_vertex3f, &out->deprecatedq3data_bbox6f, &out->deprecatedq3num_bboxstride, mod_q3bsp_curves_stride.integer);
+
+ // store collision geometry for BIH collision tree
+ surfacecollisionvertex3f = loadmodel->brush.data_collisionvertex3f + collisionvertices * 3;
+ surfacecollisionelement3i = loadmodel->brush.data_collisionelement3i + collisiontriangles * 3;
+ Q3PatchTesselateFloat(3, sizeof(float[3]), surfacecollisionvertex3f, patchsize[0], patchsize[1], sizeof(float[3]), originalvertex3f, cxtess, cytess);
+ Q3PatchTriangleElements(surfacecollisionelement3i, finalwidth, finalheight, collisionvertices);
+ Mod_SnapVertices(3, finalvertices, surfacecollisionvertex3f, 1);
+#if 1
+ // remove this once the legacy code is removed
+ {
+ int nc = out->num_collisiontriangles;
+#endif
+ out->num_collisiontriangles = Mod_RemoveDegenerateTriangles(finaltriangles, surfacecollisionelement3i, surfacecollisionelement3i, loadmodel->brush.data_collisionvertex3f);
+#if 1
+ if(nc != out->num_collisiontriangles)
+ {
+ Con_Printf("number of collision triangles differs between BIH and BSP. FAIL.\n");
+ }
+ }
+#endif
+
+ if (developer_extra.integer)
+ Con_DPrintf("Mod_Q3BSP_LoadFaces: %ix%i curve became %i:%i vertices / %i:%i triangles (%i:%i degenerate)\n", patchsize[0], patchsize[1], out->num_vertices, out->num_collisionvertices, oldnumtriangles, oldnumtriangles2, oldnumtriangles - out->num_triangles, oldnumtriangles2 - out->num_collisiontriangles);
- oldnumtriangles = out->num_triangles;
- oldnumtriangles2 = out->num_collisiontriangles;
- out->num_collisiontriangles = Mod_RemoveDegenerateTriangles(out->num_collisiontriangles, out->data_collisionelement3i, out->data_collisionelement3i, out->data_collisionvertex3f);
- if (developer.integer >= 100)
- Con_Printf("Mod_Q3BSP_LoadFaces: %ix%i curve became %i:%i vertices / %i:%i triangles (%i:%i degenerate)\n", patchsize[0], patchsize[1], out->num_vertices, out->num_collisionvertices, oldnumtriangles, oldnumtriangles2, oldnumtriangles - out->num_triangles, oldnumtriangles2 - out->num_collisiontriangles);
+ collisionvertices += finalvertices;
+ collisiontriangles += out->num_collisiontriangles;
break;
default:
break;
VectorClear(out->maxs);
if (out->num_vertices)
{
+ if (cls.state != ca_dedicated && out->lightmaptexture)
+ {
+ // figure out which part of the merged lightmap this fits into
+ int lightmapindex = LittleLong(in->lightmapindex) >> (loadmodel->brushq3.deluxemapping ? 1 : 0);
+ int mergewidth = R_TextureWidth(out->lightmaptexture) / loadmodel->brushq3.lightmapsize;
+ int mergeheight = R_TextureHeight(out->lightmaptexture) / loadmodel->brushq3.lightmapsize;
+ lightmapindex &= mergewidth * mergeheight - 1;
+ lightmaptcscale[0] = 1.0f / mergewidth;
+ lightmaptcscale[1] = 1.0f / mergeheight;
+ lightmaptcbase[0] = (lightmapindex % mergewidth) * lightmaptcscale[0];
+ lightmaptcbase[1] = (lightmapindex / mergewidth) * lightmaptcscale[1];
+ // modify the lightmap texcoords to match this region of the merged lightmap
+ for (j = 0, v = loadmodel->surfmesh.data_texcoordlightmap2f + 2 * out->num_firstvertex;j < out->num_vertices;j++, v += 2)
+ {
+ v[0] = v[0] * lightmaptcscale[0] + lightmaptcbase[0];
+ v[1] = v[1] * lightmaptcscale[1] + lightmaptcbase[1];
+ }
+ }
VectorCopy((loadmodel->surfmesh.data_vertex3f + 3 * out->num_firstvertex), out->mins);
VectorCopy((loadmodel->surfmesh.data_vertex3f + 3 * out->num_firstvertex), out->maxs);
for (j = 1, v = (loadmodel->surfmesh.data_vertex3f + 3 * out->num_firstvertex) + 3;j < out->num_vertices;j++, v += 3)
//out->lightmapinfo->styles[3] = 255;
}
+ i = oldi;
+ out = oldout;
+ for (;i < count;i++, out++)
+ {
+ if(out->num_vertices && out->num_triangles)
+ continue;
+ if(out->num_vertices == 0)
+ {
+ Con_Printf("Mod_Q3BSP_LoadFaces: surface %d (texture %s) has no vertices, ignoring\n", i, out->texture ? out->texture->name : "(none)");
+ if(out->num_triangles == 0)
+ Con_Printf("Mod_Q3BSP_LoadFaces: surface %d (texture %s) has no triangles, ignoring\n", i, out->texture ? out->texture->name : "(none)");
+ }
+ else if(out->num_triangles == 0)
+ Con_Printf("Mod_Q3BSP_LoadFaces: surface %d (texture %s, near %f %f %f) has no triangles, ignoring\n", i, out->texture ? out->texture->name : "(none)",
+ (loadmodel->surfmesh.data_vertex3f + 3 * out->num_firstvertex)[0 * 3 + 0],
+ (loadmodel->surfmesh.data_vertex3f + 3 * out->num_firstvertex)[1 * 3 + 0],
+ (loadmodel->surfmesh.data_vertex3f + 3 * out->num_firstvertex)[2 * 3 + 0]);
+ }
+
// for per pixel lighting
- Mod_BuildTextureVectorsFromNormals(0, loadmodel->surfmesh.num_vertices, loadmodel->surfmesh.num_triangles, loadmodel->surfmesh.data_vertex3f, loadmodel->surfmesh.data_texcoordtexture2f, loadmodel->surfmesh.data_normal3f, loadmodel->surfmesh.data_element3i, loadmodel->surfmesh.data_svector3f, loadmodel->surfmesh.data_tvector3f, true);
+ Mod_BuildTextureVectorsFromNormals(0, loadmodel->surfmesh.num_vertices, loadmodel->surfmesh.num_triangles, loadmodel->surfmesh.data_vertex3f, loadmodel->surfmesh.data_texcoordtexture2f, loadmodel->surfmesh.data_normal3f, loadmodel->surfmesh.data_element3i, loadmodel->surfmesh.data_svector3f, loadmodel->surfmesh.data_tvector3f, r_smoothnormals_areaweighting.integer != 0);
+
+ // generate ushort elements array if possible
+ if (loadmodel->surfmesh.data_element3s)
+ for (i = 0;i < loadmodel->surfmesh.num_triangles*3;i++)
+ loadmodel->surfmesh.data_element3s[i] = loadmodel->surfmesh.data_element3i[i];
// free the no longer needed vertex data
loadmodel->brushq3.num_vertices = 0;
- Mem_Free(loadmodel->brushq3.data_vertex3f);
+ if (loadmodel->brushq3.data_vertex3f)
+ Mem_Free(loadmodel->brushq3.data_vertex3f);
loadmodel->brushq3.data_vertex3f = NULL;
loadmodel->brushq3.data_normal3f = NULL;
loadmodel->brushq3.data_texcoordtexture2f = NULL;
loadmodel->brushq3.data_color4f = NULL;
// free the no longer needed triangle data
loadmodel->brushq3.num_triangles = 0;
- Mem_Free(loadmodel->brushq3.data_element3i);
+ if (loadmodel->brushq3.data_element3i)
+ Mem_Free(loadmodel->brushq3.data_element3i);
loadmodel->brushq3.data_element3i = NULL;
+
+ if(patchtess)
+ Mem_Free(patchtess);
}
static void Mod_Q3BSP_LoadModels(lump_t *l)
if (l->filelen % sizeof(*in))
Host_Error("Mod_Q3BSP_LoadNodes: funny lump size in %s",loadmodel->name);
count = l->filelen / sizeof(*in);
+ if (count == 0)
+ Host_Error("Mod_Q3BSP_LoadNodes: missing BSP tree in %s",loadmodel->name);
out = (mnode_t *)Mem_Alloc(loadmodel->mempool, count * sizeof(*out));
loadmodel->brush.data_nodes = out;
if (l->filelen)
{
if (l->filelen < count * (int)sizeof(*in))
- Host_Error("Mod_Q3BSP_LoadLightGrid: invalid lightgrid lump size %i bytes, should be %i bytes (%ix%ix%i)", l->filelen, count * sizeof(*in), loadmodel->brushq3.num_lightgrid_dimensions[0], loadmodel->brushq3.num_lightgrid_dimensions[1], loadmodel->brushq3.num_lightgrid_dimensions[2]);
+ {
+ Con_Printf("Mod_Q3BSP_LoadLightGrid: invalid lightgrid lump size %i bytes, should be %i bytes (%ix%ix%i)", l->filelen, (int)(count * sizeof(*in)), loadmodel->brushq3.num_lightgrid_isize[0], loadmodel->brushq3.num_lightgrid_isize[1], loadmodel->brushq3.num_lightgrid_isize[2]);
+ return; // ignore the grid if we cannot understand it
+ }
if (l->filelen != count * (int)sizeof(*in))
- Con_Printf("Mod_Q3BSP_LoadLightGrid: Warning: calculated lightgrid size %i bytes does not match lump size %i", count * sizeof(*in), l->filelen);
+ Con_Printf("Mod_Q3BSP_LoadLightGrid: Warning: calculated lightgrid size %i bytes does not match lump size %i\n", (int)(count * sizeof(*in)), l->filelen);
out = (q3dlightgrid_t *)Mem_Alloc(loadmodel->mempool, count * sizeof(*out));
loadmodel->brushq3.data_lightgrid = out;
loadmodel->brushq3.num_lightgrid = count;
Host_Error("Mod_Q3BSP_LoadPVS: (chainlength = %i) < ((numclusters = %i) + 7) / 8", loadmodel->brush.num_pvsclusterbytes, loadmodel->brush.num_pvsclusters);
totalchains = loadmodel->brush.num_pvsclusterbytes * loadmodel->brush.num_pvsclusters;
if (l->filelen < totalchains + (int)sizeof(*in))
- Host_Error("Mod_Q3BSP_LoadPVS: lump too small ((numclusters = %i) * (chainlength = %i) + sizeof(q3dpvs_t) == %i bytes, lump is %i bytes)", loadmodel->brush.num_pvsclusters, loadmodel->brush.num_pvsclusterbytes, totalchains + sizeof(*in), l->filelen);
+ Host_Error("Mod_Q3BSP_LoadPVS: lump too small ((numclusters = %i) * (chainlength = %i) + sizeof(q3dpvs_t) == %i bytes, lump is %i bytes)", loadmodel->brush.num_pvsclusters, loadmodel->brush.num_pvsclusterbytes, (int)(totalchains + sizeof(*in)), l->filelen);
loadmodel->brush.data_pvsclusters = (unsigned char *)Mem_Alloc(loadmodel->mempool, totalchains);
memcpy(loadmodel->brush.data_pvsclusters, (unsigned char *)(in + 1), totalchains);
}
-static void Mod_Q3BSP_LightPoint(model_t *model, const vec3_t p, vec3_t ambientcolor, vec3_t diffusecolor, vec3_t diffusenormal)
+static void Mod_Q3BSP_LightPoint(dp_model_t *model, const vec3_t p, vec3_t ambientcolor, vec3_t diffusecolor, vec3_t diffusenormal)
{
int i, j, k, index[3];
- float transformed[3], blend1, blend2, blend, yaw, pitch, sinpitch;
+ float transformed[3], blend1, blend2, blend, stylescale = 1;
q3dlightgrid_t *a, *s;
+
+ // scale lighting by lightstyle[0] so that darkmode in dpmod works properly
+ switch(vid.renderpath)
+ {
+ case RENDERPATH_GL20:
+ case RENDERPATH_D3D9:
+ case RENDERPATH_D3D10:
+ case RENDERPATH_D3D11:
+ case RENDERPATH_SOFT:
+ case RENDERPATH_GLES2:
+ // LordHavoc: FIXME: is this true?
+ stylescale = 1; // added while render
+ break;
+ case RENDERPATH_GL11:
+ case RENDERPATH_GL13:
+ case RENDERPATH_GLES1:
+ stylescale = r_refdef.scene.rtlightstylevalue[0];
+ break;
+ }
+
if (!model->brushq3.num_lightgrid)
{
- ambientcolor[0] = 1;
- ambientcolor[1] = 1;
- ambientcolor[2] = 1;
+ ambientcolor[0] = stylescale;
+ ambientcolor[1] = stylescale;
+ ambientcolor[2] = stylescale;
return;
}
+
Matrix4x4_Transform(&model->brushq3.num_lightgrid_indexfromworld, p, transformed);
//Matrix4x4_Print(&model->brushq3.num_lightgrid_indexfromworld);
//Con_Printf("%f %f %f transformed %f %f %f clamped ", p[0], p[1], p[2], transformed[0], transformed[1], transformed[2]);
index[1] = (int)floor(transformed[1]);
index[2] = (int)floor(transformed[2]);
//Con_Printf("%f %f %f index %i %i %i:\n", transformed[0], transformed[1], transformed[2], index[0], index[1], index[2]);
+
// now lerp the values
VectorClear(diffusenormal);
a = &model->brushq3.data_lightgrid[(index[2] * model->brushq3.num_lightgrid_isize[1] + index[1]) * model->brushq3.num_lightgrid_isize[0] + index[0]];
continue;
for (i = 0;i < 2;i++)
{
- blend = blend2 * (i ? (transformed[0] - index[0]) : (1 - (transformed[0] - index[0])));
+ blend = blend2 * (i ? (transformed[0] - index[0]) : (1 - (transformed[0] - index[0]))) * stylescale;
if (blend < 0.001f || index[0] + i >= model->brushq3.num_lightgrid_isize[0])
continue;
s = a + (k * model->brushq3.num_lightgrid_isize[1] + j) * model->brushq3.num_lightgrid_isize[0] + i;
VectorMA(ambientcolor, blend * (1.0f / 128.0f), s->ambientrgb, ambientcolor);
VectorMA(diffusecolor, blend * (1.0f / 128.0f), s->diffusergb, diffusecolor);
- pitch = s->diffusepitch * M_PI / 128;
- yaw = s->diffuseyaw * M_PI / 128;
- sinpitch = sin(pitch);
- diffusenormal[0] += blend * (cos(yaw) * sinpitch);
- diffusenormal[1] += blend * (sin(yaw) * sinpitch);
- diffusenormal[2] += blend * (cos(pitch));
+ // this uses the mod_md3_sin table because the values are
+ // already in the 0-255 range, the 64+ bias fetches a cosine
+ // instead of a sine value
+ diffusenormal[0] += blend * (mod_md3_sin[64 + s->diffuseyaw] * mod_md3_sin[s->diffusepitch]);
+ diffusenormal[1] += blend * (mod_md3_sin[ s->diffuseyaw] * mod_md3_sin[s->diffusepitch]);
+ diffusenormal[2] += blend * (mod_md3_sin[64 + s->diffusepitch]);
//Con_Printf("blend %f: ambient %i %i %i, diffuse %i %i %i, diffusepitch %i diffuseyaw %i (%f %f, normal %f %f %f)\n", blend, s->ambientrgb[0], s->ambientrgb[1], s->ambientrgb[2], s->diffusergb[0], s->diffusergb[1], s->diffusergb[2], s->diffusepitch, s->diffuseyaw, pitch, yaw, (cos(yaw) * cospitch), (sin(yaw) * cospitch), (-sin(pitch)));
}
}
}
+
+ // normalize the light direction before turning
VectorNormalize(diffusenormal);
//Con_Printf("result: ambient %f %f %f diffuse %f %f %f diffusenormal %f %f %f\n", ambientcolor[0], ambientcolor[1], ambientcolor[2], diffusecolor[0], diffusecolor[1], diffusecolor[2], diffusenormal[0], diffusenormal[1], diffusenormal[2]);
}
-static void Mod_Q3BSP_TracePoint_RecursiveBSPNode(trace_t *trace, model_t *model, mnode_t *node, const vec3_t point, int markframe)
+static int Mod_Q3BSP_TraceLineOfSight_RecursiveNodeCheck(mnode_t *node, double p1[3], double p2[3])
{
- int i;
- mleaf_t *leaf;
- colbrushf_t *brush;
- // find which leaf the point is in
- while (node->plane)
- node = node->children[DotProduct(point, node->plane->normal) < node->plane->dist];
- // point trace the brushes
- leaf = (mleaf_t *)node;
- for (i = 0;i < leaf->numleafbrushes;i++)
- {
- brush = model->brush.data_brushes[leaf->firstleafbrush[i]].colbrushf;
- if (brush && brush->markframe != markframe && BoxesOverlap(point, point, brush->mins, brush->maxs))
- {
- brush->markframe = markframe;
- Collision_TracePointBrushFloat(trace, point, brush);
- }
- }
- // can't do point traces on curves (they have no thickness)
-}
+ double t1, t2;
+ double midf, mid[3];
+ int ret, side;
-static void Mod_Q3BSP_TraceLine_RecursiveBSPNode(trace_t *trace, model_t *model, mnode_t *node, const vec3_t start, const vec3_t end, vec_t startfrac, vec_t endfrac, const vec3_t linestart, const vec3_t lineend, int markframe, const vec3_t segmentmins, const vec3_t segmentmaxs)
-{
- int i, startside, endside;
- float dist1, dist2, midfrac, mid[3], nodesegmentmins[3], nodesegmentmaxs[3];
- mleaf_t *leaf;
- msurface_t *surface;
- mplane_t *plane;
- colbrushf_t *brush;
- // walk the tree until we hit a leaf, recursing for any split cases
+ // check for empty
while (node->plane)
{
- plane = node->plane;
- // axial planes are much more common than non-axial, so an optimized
- // axial case pays off here
+ // find the point distances
+ mplane_t *plane = node->plane;
if (plane->type < 3)
{
- dist1 = start[plane->type] - plane->dist;
- dist2 = end[plane->type] - plane->dist;
+ t1 = p1[plane->type] - plane->dist;
+ t2 = p2[plane->type] - plane->dist;
}
else
{
- dist1 = DotProduct(start, plane->normal) - plane->dist;
- dist2 = DotProduct(end, plane->normal) - plane->dist;
+ t1 = DotProduct (plane->normal, p1) - plane->dist;
+ t2 = DotProduct (plane->normal, p2) - plane->dist;
}
- startside = dist1 < 0;
- endside = dist2 < 0;
- if (startside == endside)
+
+ if (t1 < 0)
{
- // most of the time the line fragment is on one side of the plane
- node = node->children[startside];
+ if (t2 < 0)
+ {
+ node = node->children[1];
+ continue;
+ }
+ side = 1;
}
else
{
- // line crosses node plane, split the line
- dist1 = PlaneDiff(linestart, plane);
- dist2 = PlaneDiff(lineend, plane);
- midfrac = dist1 / (dist1 - dist2);
- VectorLerp(linestart, midfrac, lineend, mid);
- // take the near side first
- Mod_Q3BSP_TraceLine_RecursiveBSPNode(trace, model, node->children[startside], start, mid, startfrac, midfrac, linestart, lineend, markframe, segmentmins, segmentmaxs);
- // if we found an impact on the front side, don't waste time
- // exploring the far side
- if (midfrac <= trace->realfraction)
- Mod_Q3BSP_TraceLine_RecursiveBSPNode(trace, model, node->children[endside], mid, end, midfrac, endfrac, linestart, lineend, markframe, segmentmins, segmentmaxs);
- return;
- }
- }
- // hit a leaf
- nodesegmentmins[0] = min(start[0], end[0]) - 1;
- nodesegmentmins[1] = min(start[1], end[1]) - 1;
- nodesegmentmins[2] = min(start[2], end[2]) - 1;
- nodesegmentmaxs[0] = max(start[0], end[0]) + 1;
- nodesegmentmaxs[1] = max(start[1], end[1]) + 1;
- nodesegmentmaxs[2] = max(start[2], end[2]) + 1;
- // line trace the brushes
- leaf = (mleaf_t *)node;
- for (i = 0;i < leaf->numleafbrushes;i++)
- {
- brush = model->brush.data_brushes[leaf->firstleafbrush[i]].colbrushf;
- if (brush && brush->markframe != markframe && BoxesOverlap(nodesegmentmins, nodesegmentmaxs, brush->mins, brush->maxs))
- {
- brush->markframe = markframe;
- Collision_TraceLineBrushFloat(trace, linestart, lineend, brush, brush);
- }
- }
- // can't do point traces on curves (they have no thickness)
- if (mod_q3bsp_curves_collisions.integer && !VectorCompare(start, end))
- {
- // line trace the curves
- for (i = 0;i < leaf->numleafsurfaces;i++)
- {
- surface = model->data_surfaces + leaf->firstleafsurface[i];
- if (surface->num_collisiontriangles && surface->collisionmarkframe != markframe && BoxesOverlap(nodesegmentmins, nodesegmentmaxs, surface->mins, surface->maxs))
+ if (t2 >= 0)
{
- surface->collisionmarkframe = markframe;
- Collision_TraceLineTriangleMeshFloat(trace, linestart, lineend, surface->num_collisiontriangles, surface->data_collisionelement3i, surface->data_collisionvertex3f, surface->texture->supercontents, surface->texture->surfaceflags, surface->texture, segmentmins, segmentmaxs);
+ node = node->children[0];
+ continue;
}
+ side = 0;
}
- }
+
+ midf = t1 / (t1 - t2);
+ VectorLerp(p1, midf, p2, mid);
+
+ // recurse both sides, front side first
+ // return 2 if empty is followed by solid (hit something)
+ // do not return 2 if both are solid or both empty,
+ // or if start is solid and end is empty
+ // as these degenerate cases usually indicate the eye is in solid and
+ // should see the target point anyway
+ ret = Mod_Q3BSP_TraceLineOfSight_RecursiveNodeCheck(node->children[side ], p1, mid);
+ if (ret != 0)
+ return ret;
+ ret = Mod_Q3BSP_TraceLineOfSight_RecursiveNodeCheck(node->children[side ^ 1], mid, p2);
+ if (ret != 1)
+ return ret;
+ return 2;
+ }
+ return ((mleaf_t *)node)->clusterindex < 0;
}
-static void Mod_Q3BSP_TraceBrush_RecursiveBSPNode(trace_t *trace, model_t *model, mnode_t *node, const colbrushf_t *thisbrush_start, const colbrushf_t *thisbrush_end, int markframe, const vec3_t segmentmins, const vec3_t segmentmaxs)
+static qboolean Mod_Q3BSP_TraceLineOfSight(struct model_s *model, const vec3_t start, const vec3_t end)
{
- int i;
- int sides;
- mleaf_t *leaf;
- colbrushf_t *brush;
- msurface_t *surface;
- mplane_t *plane;
- float nodesegmentmins[3], nodesegmentmaxs[3];
- // walk the tree until we hit a leaf, recursing for any split cases
- while (node->plane)
- {
- plane = node->plane;
- // axial planes are much more common than non-axial, so an optimized
- // axial case pays off here
- if (plane->type < 3)
- {
- // this is an axial plane, compare bounding box directly to it and
- // recurse sides accordingly
- // recurse down node sides
- // use an inlined axial BoxOnPlaneSide to slightly reduce overhead
- //sides = BoxOnPlaneSide(nodesegmentmins, nodesegmentmaxs, plane);
- //sides = ((segmentmaxs[plane->type] >= plane->dist) | ((segmentmins[plane->type] < plane->dist) << 1));
- sides = ((segmentmaxs[plane->type] >= plane->dist) + ((segmentmins[plane->type] < plane->dist) * 2));
- }
- else
- {
- // this is a non-axial plane, so check if the start and end boxes
- // are both on one side of the plane to handle 'diagonal' cases
- sides = BoxOnPlaneSide(thisbrush_start->mins, thisbrush_start->maxs, plane) | BoxOnPlaneSide(thisbrush_end->mins, thisbrush_end->maxs, plane);
- }
- if (sides == 3)
- {
- // segment crosses plane
- Mod_Q3BSP_TraceBrush_RecursiveBSPNode(trace, model, node->children[0], thisbrush_start, thisbrush_end, markframe, segmentmins, segmentmaxs);
- sides = 2;
- }
- // if sides == 0 then the trace itself is bogus (Not A Number values),
- // in this case we simply pretend the trace hit nothing
- if (sides == 0)
- return; // ERROR: NAN bounding box!
- // take whichever side the segment box is on
- node = node->children[sides - 1];
- }
- nodesegmentmins[0] = max(segmentmins[0], node->mins[0] - 1);
- nodesegmentmins[1] = max(segmentmins[1], node->mins[1] - 1);
- nodesegmentmins[2] = max(segmentmins[2], node->mins[2] - 1);
- nodesegmentmaxs[0] = min(segmentmaxs[0], node->maxs[0] + 1);
- nodesegmentmaxs[1] = min(segmentmaxs[1], node->maxs[1] + 1);
- nodesegmentmaxs[2] = min(segmentmaxs[2], node->maxs[2] + 1);
- // hit a leaf
- leaf = (mleaf_t *)node;
- for (i = 0;i < leaf->numleafbrushes;i++)
+ if (model->brush.submodel || mod_q3bsp_tracelineofsight_brushes.integer)
{
- brush = model->brush.data_brushes[leaf->firstleafbrush[i]].colbrushf;
- if (brush && brush->markframe != markframe && BoxesOverlap(nodesegmentmins, nodesegmentmaxs, brush->mins, brush->maxs))
- {
- brush->markframe = markframe;
- Collision_TraceBrushBrushFloat(trace, thisbrush_start, thisbrush_end, brush, brush);
- }
+ trace_t trace;
+ model->TraceLine(model, NULL, NULL, &trace, start, end, SUPERCONTENTS_VISBLOCKERMASK);
+ return trace.fraction == 1;
}
- if (mod_q3bsp_curves_collisions.integer)
+ else
{
- for (i = 0;i < leaf->numleafsurfaces;i++)
- {
- surface = model->data_surfaces + leaf->firstleafsurface[i];
- if (surface->num_collisiontriangles && surface->collisionmarkframe != markframe && BoxesOverlap(nodesegmentmins, nodesegmentmaxs, surface->mins, surface->maxs))
- {
- surface->collisionmarkframe = markframe;
- Collision_TraceBrushTriangleMeshFloat(trace, thisbrush_start, thisbrush_end, surface->num_collisiontriangles, surface->data_collisionelement3i, surface->data_collisionvertex3f, surface->texture->supercontents, surface->texture->surfaceflags, surface->texture, segmentmins, segmentmaxs);
- }
- }
+ double tracestart[3], traceend[3];
+ VectorCopy(start, tracestart);
+ VectorCopy(end, traceend);
+ return !Mod_Q3BSP_TraceLineOfSight_RecursiveNodeCheck(model->brush.data_nodes, tracestart, traceend);
}
}
-static void Mod_Q3BSP_TraceBox(model_t *model, int frame, trace_t *trace, const vec3_t start, const vec3_t boxmins, const vec3_t boxmaxs, const vec3_t end, int hitsupercontentsmask)
+void Mod_CollisionBIH_TracePoint(dp_model_t *model, const frameblend_t *frameblend, const skeleton_t *skeleton, trace_t *trace, const vec3_t start, int hitsupercontentsmask)
{
- int i;
- float segmentmins[3], segmentmaxs[3];
- static int markframe = 0;
- msurface_t *surface;
- q3mbrush_t *brush;
+ const bih_t *bih;
+ const bih_leaf_t *leaf;
+ const bih_node_t *node;
+ const colbrushf_t *brush;
+ int axis;
+ int nodenum;
+ int nodestackpos = 0;
+ int nodestack[1024];
+
memset(trace, 0, sizeof(*trace));
trace->fraction = 1;
trace->realfraction = 1;
trace->hitsupercontentsmask = hitsupercontentsmask;
- if (mod_q3bsp_optimizedtraceline.integer && VectorLength2(boxmins) + VectorLength2(boxmaxs) == 0)
- {
- if (VectorCompare(start, end))
+
+ bih = &model->collision_bih;
+ if(!bih->nodes)
+ return;
+
+ nodenum = bih->rootnode;
+ nodestack[nodestackpos++] = nodenum;
+ while (nodestackpos)
+ {
+ nodenum = nodestack[--nodestackpos];
+ node = bih->nodes + nodenum;
+#if 1
+ if (!BoxesOverlap(start, start, node->mins, node->maxs))
+ continue;
+#endif
+ if (node->type <= BIH_SPLITZ && nodestackpos+2 <= 1024)
+ {
+ axis = node->type - BIH_SPLITX;
+ if (start[axis] >= node->frontmin)
+ nodestack[nodestackpos++] = node->front;
+ if (start[axis] <= node->backmax)
+ nodestack[nodestackpos++] = node->back;
+ }
+ else if (node->type == BIH_UNORDERED)
+ {
+ for (axis = 0;axis < BIH_MAXUNORDEREDCHILDREN && node->children[axis] >= 0;axis++)
+ {
+ leaf = bih->leafs + node->children[axis];
+#if 1
+ if (!BoxesOverlap(start, start, leaf->mins, leaf->maxs))
+ continue;
+#endif
+ switch(leaf->type)
+ {
+ case BIH_BRUSH:
+ brush = model->brush.data_brushes[leaf->itemindex].colbrushf;
+ Collision_TracePointBrushFloat(trace, start, brush);
+ break;
+ case BIH_COLLISIONTRIANGLE:
+ // collision triangle - skipped because they have no volume
+ break;
+ case BIH_RENDERTRIANGLE:
+ // render triangle - skipped because they have no volume
+ break;
+ }
+ }
+ }
+ }
+}
+
+void Mod_CollisionBIH_TraceLineShared(dp_model_t *model, const frameblend_t *frameblend, const skeleton_t *skeleton, trace_t *trace, const vec3_t start, const vec3_t end, int hitsupercontentsmask, const bih_t *bih)
+{
+ const bih_leaf_t *leaf;
+ const bih_node_t *node;
+ const colbrushf_t *brush;
+ const int *e;
+ const texture_t *texture;
+ vec3_t nodebigmins, nodebigmaxs, nodestart, nodeend, sweepnodemins, sweepnodemaxs;
+ vec_t d1, d2, d3, d4, f, nodestackline[1024][6];
+ int axis, nodenum, nodestackpos = 0, nodestack[1024];
+
+ if(!bih->nodes)
+ return;
+
+ if (VectorCompare(start, end))
+ {
+ Mod_CollisionBIH_TracePoint(model, frameblend, skeleton, trace, start, hitsupercontentsmask);
+ return;
+ }
+
+ nodenum = bih->rootnode;
+
+ memset(trace, 0, sizeof(*trace));
+ trace->fraction = 1;
+ trace->realfraction = 1;
+ trace->hitsupercontentsmask = hitsupercontentsmask;
+
+ // push first node
+ nodestackline[nodestackpos][0] = start[0];
+ nodestackline[nodestackpos][1] = start[1];
+ nodestackline[nodestackpos][2] = start[2];
+ nodestackline[nodestackpos][3] = end[0];
+ nodestackline[nodestackpos][4] = end[1];
+ nodestackline[nodestackpos][5] = end[2];
+ nodestack[nodestackpos++] = nodenum;
+ while (nodestackpos)
+ {
+ nodenum = nodestack[--nodestackpos];
+ node = bih->nodes + nodenum;
+ VectorCopy(nodestackline[nodestackpos], nodestart);
+ VectorCopy(nodestackline[nodestackpos] + 3, nodeend);
+ sweepnodemins[0] = min(nodestart[0], nodeend[0]); sweepnodemins[1] = min(nodestart[1], nodeend[1]); sweepnodemins[2] = min(nodestart[2], nodeend[2]); sweepnodemaxs[0] = max(nodestart[0], nodeend[0]); sweepnodemaxs[1] = max(nodestart[1], nodeend[1]); sweepnodemaxs[2] = max(nodestart[2], nodeend[2]);
+ if (!BoxesOverlap(sweepnodemins, sweepnodemaxs, node->mins, node->maxs))
+ continue;
+ if (node->type <= BIH_SPLITZ && nodestackpos+2 <= 1024)
+ {
+ // recurse children of the split
+ axis = node->type - BIH_SPLITX;
+ d1 = node->backmax - nodestart[axis];
+ d2 = node->backmax - nodeend[axis];
+ d3 = nodestart[axis] - node->frontmin;
+ d4 = nodeend[axis] - node->frontmin;
+ switch((d1 < 0) | ((d2 < 0) << 1) | ((d3 < 0) << 2) | ((d4 < 0) << 3))
+ {
+ case 0: /* >>>> */ VectorCopy(nodestart, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->back; VectorCopy(nodestart, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->front; break;
+ case 1: /* <>>> */ f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->back; VectorCopy(nodestart, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->front; break;
+ case 2: /* ><>> */ f = d1 / (d1 - d2); VectorCopy(nodestart, nodestackline[nodestackpos]); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->back; VectorCopy(nodestart, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->front; break;
+ case 3: /* <<>> */ VectorCopy(nodestart, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->front; break;
+ case 4: /* >><> */ VectorCopy(nodestart, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->back; f = d3 / (d3 - d4); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->front; break;
+ case 5: /* <><> */ f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->back; f = d3 / (d3 - d4); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->front; break;
+ case 6: /* ><<> */ f = d1 / (d1 - d2); VectorCopy(nodestart, nodestackline[nodestackpos]); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->back; f = d3 / (d3 - d4); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->front; break;
+ case 7: /* <<<> */ f = d3 / (d3 - d4); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->front; break;
+ case 8: /* >>>< */ VectorCopy(nodestart, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->back; f = d3 / (d3 - d4); VectorCopy(nodestart, nodestackline[nodestackpos]); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->front; break;
+ case 9: /* <>>< */ f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->back; f = d3 / (d3 - d4); VectorCopy(nodestart, nodestackline[nodestackpos]); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->front; break;
+ case 10: /* ><>< */ f = d1 / (d1 - d2); VectorCopy(nodestart, nodestackline[nodestackpos]); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->back; f = d3 / (d3 - d4); VectorCopy(nodestart, nodestackline[nodestackpos]); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->front; break;
+ case 11: /* <<>< */ f = d3 / (d3 - d4); VectorCopy(nodestart, nodestackline[nodestackpos]); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->front; break;
+ case 12: /* >><< */ VectorCopy(nodestart, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->back; break;
+ case 13: /* <><< */ f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->back; break;
+ case 14: /* ><<< */ f = d1 / (d1 - d2); VectorCopy(nodestart, nodestackline[nodestackpos]); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->back; break;
+ case 15: /* <<<< */ break;
+ }
+ }
+ else if (node->type == BIH_UNORDERED)
+ {
+ // calculate sweep bounds for this node
+ // copy node bounds into local variables
+ VectorCopy(node->mins, nodebigmins);
+ VectorCopy(node->maxs, nodebigmaxs);
+ // clip line to this node bounds
+ axis = 0; d1 = nodestart[axis] - nodebigmins[axis]; d2 = nodeend[axis] - nodebigmins[axis]; if (d1 < 0) { if (d2 < 0) continue; f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodestart); } else if (d2 < 0) { f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodeend); } d1 = nodebigmaxs[axis] - nodestart[axis]; d2 = nodebigmaxs[axis] - nodeend[axis]; if (d1 < 0) { if (d2 < 0) continue; f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodestart); } else if (d2 < 0) { f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodeend); }
+ axis = 1; d1 = nodestart[axis] - nodebigmins[axis]; d2 = nodeend[axis] - nodebigmins[axis]; if (d1 < 0) { if (d2 < 0) continue; f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodestart); } else if (d2 < 0) { f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodeend); } d1 = nodebigmaxs[axis] - nodestart[axis]; d2 = nodebigmaxs[axis] - nodeend[axis]; if (d1 < 0) { if (d2 < 0) continue; f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodestart); } else if (d2 < 0) { f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodeend); }
+ axis = 2; d1 = nodestart[axis] - nodebigmins[axis]; d2 = nodeend[axis] - nodebigmins[axis]; if (d1 < 0) { if (d2 < 0) continue; f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodestart); } else if (d2 < 0) { f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodeend); } d1 = nodebigmaxs[axis] - nodestart[axis]; d2 = nodebigmaxs[axis] - nodeend[axis]; if (d1 < 0) { if (d2 < 0) continue; f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodestart); } else if (d2 < 0) { f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodeend); }
+ // some of the line intersected the enlarged node box
+ // calculate sweep bounds for this node
+ sweepnodemins[0] = min(nodestart[0], nodeend[0]); sweepnodemins[1] = min(nodestart[1], nodeend[1]); sweepnodemins[2] = min(nodestart[2], nodeend[2]); sweepnodemaxs[0] = max(nodestart[0], nodeend[0]); sweepnodemaxs[1] = max(nodestart[1], nodeend[1]); sweepnodemaxs[2] = max(nodestart[2], nodeend[2]);
+ for (axis = 0;axis < BIH_MAXUNORDEREDCHILDREN && node->children[axis] >= 0;axis++)
+ {
+ leaf = bih->leafs + node->children[axis];
+ if (!BoxesOverlap(sweepnodemins, sweepnodemaxs, leaf->mins, leaf->maxs))
+ continue;
+ switch(leaf->type)
+ {
+ case BIH_BRUSH:
+ brush = model->brush.data_brushes[leaf->itemindex].colbrushf;
+ Collision_TraceLineBrushFloat(trace, start, end, brush, brush);
+ break;
+ case BIH_COLLISIONTRIANGLE:
+ if (!mod_q3bsp_curves_collisions.integer)
+ continue;
+ e = model->brush.data_collisionelement3i + 3*leaf->itemindex;
+ texture = model->data_textures + leaf->textureindex;
+ Collision_TraceLineTriangleFloat(trace, start, end, model->brush.data_collisionvertex3f + e[0] * 3, model->brush.data_collisionvertex3f + e[1] * 3, model->brush.data_collisionvertex3f + e[2] * 3, texture->supercontents, texture->surfaceflags, texture);
+ break;
+ case BIH_RENDERTRIANGLE:
+ e = model->surfmesh.data_element3i + 3*leaf->itemindex;
+ texture = model->data_textures + leaf->textureindex;
+ Collision_TraceLineTriangleFloat(trace, start, end, model->surfmesh.data_vertex3f + e[0] * 3, model->surfmesh.data_vertex3f + e[1] * 3, model->surfmesh.data_vertex3f + e[2] * 3, texture->supercontents, texture->surfaceflags, texture);
+ break;
+ }
+ }
+ }
+ }
+}
+
+void Mod_CollisionBIH_TraceLine(dp_model_t *model, const frameblend_t *frameblend, const skeleton_t *skeleton, trace_t *trace, const vec3_t start, const vec3_t end, int hitsupercontentsmask)
+{
+ if (VectorCompare(start, end))
+ {
+ Mod_CollisionBIH_TracePoint(model, frameblend, skeleton, trace, start, hitsupercontentsmask);
+ return;
+ }
+ Mod_CollisionBIH_TraceLineShared(model, frameblend, skeleton, trace, start, end, hitsupercontentsmask, &model->collision_bih);
+}
+
+void Mod_CollisionBIH_TraceBrush(dp_model_t *model, const frameblend_t *frameblend, const skeleton_t *skeleton, trace_t *trace, colbrushf_t *thisbrush_start, colbrushf_t *thisbrush_end, int hitsupercontentsmask)
+{
+ const bih_t *bih;
+ const bih_leaf_t *leaf;
+ const bih_node_t *node;
+ const colbrushf_t *brush;
+ const int *e;
+ const texture_t *texture;
+ vec3_t start, end, startmins, startmaxs, endmins, endmaxs, mins, maxs;
+ vec3_t nodebigmins, nodebigmaxs, nodestart, nodeend, sweepnodemins, sweepnodemaxs;
+ vec_t d1, d2, d3, d4, f, nodestackline[1024][6];
+ int axis, nodenum, nodestackpos = 0, nodestack[1024];
+
+ if (mod_q3bsp_optimizedtraceline.integer && VectorCompare(thisbrush_start->mins, thisbrush_start->maxs) && VectorCompare(thisbrush_end->mins, thisbrush_end->maxs))
+ {
+ if (VectorCompare(thisbrush_start->mins, thisbrush_end->mins))
+ Mod_CollisionBIH_TracePoint(model, frameblend, skeleton, trace, thisbrush_start->mins, hitsupercontentsmask);
+ else
+ Mod_CollisionBIH_TraceLine(model, frameblend, skeleton, trace, thisbrush_start->mins, thisbrush_end->mins, hitsupercontentsmask);
+ return;
+ }
+
+ bih = &model->collision_bih;
+ if(!bih->nodes)
+ return;
+ nodenum = bih->rootnode;
+
+ // box trace, performed as brush trace
+ memset(trace, 0, sizeof(*trace));
+ trace->fraction = 1;
+ trace->realfraction = 1;
+ trace->hitsupercontentsmask = hitsupercontentsmask;
+
+ // calculate tracebox-like parameters for efficient culling
+ VectorMAM(0.5f, thisbrush_start->mins, 0.5f, thisbrush_start->maxs, start);
+ VectorMAM(0.5f, thisbrush_end->mins, 0.5f, thisbrush_end->maxs, end);
+ VectorSubtract(thisbrush_start->mins, start, startmins);
+ VectorSubtract(thisbrush_start->maxs, start, startmaxs);
+ VectorSubtract(thisbrush_end->mins, end, endmins);
+ VectorSubtract(thisbrush_end->maxs, end, endmaxs);
+ mins[0] = min(startmins[0], endmins[0]);
+ mins[1] = min(startmins[1], endmins[1]);
+ mins[2] = min(startmins[2], endmins[2]);
+ maxs[0] = max(startmaxs[0], endmaxs[0]);
+ maxs[1] = max(startmaxs[1], endmaxs[1]);
+ maxs[2] = max(startmaxs[2], endmaxs[2]);
+
+ // push first node
+ nodestackline[nodestackpos][0] = start[0];
+ nodestackline[nodestackpos][1] = start[1];
+ nodestackline[nodestackpos][2] = start[2];
+ nodestackline[nodestackpos][3] = end[0];
+ nodestackline[nodestackpos][4] = end[1];
+ nodestackline[nodestackpos][5] = end[2];
+ nodestack[nodestackpos++] = nodenum;
+ while (nodestackpos)
+ {
+ nodenum = nodestack[--nodestackpos];
+ node = bih->nodes + nodenum;
+ VectorCopy(nodestackline[nodestackpos], nodestart);
+ VectorCopy(nodestackline[nodestackpos] + 3, nodeend);
+ sweepnodemins[0] = min(nodestart[0], nodeend[0]) + mins[0]; sweepnodemins[1] = min(nodestart[1], nodeend[1]) + mins[1]; sweepnodemins[2] = min(nodestart[2], nodeend[2]) + mins[2]; sweepnodemaxs[0] = max(nodestart[0], nodeend[0]) + maxs[0]; sweepnodemaxs[1] = max(nodestart[1], nodeend[1]) + maxs[1]; sweepnodemaxs[2] = max(nodestart[2], nodeend[2]) + maxs[2];
+ if (!BoxesOverlap(sweepnodemins, sweepnodemaxs, node->mins, node->maxs))
+ continue;
+ if (node->type <= BIH_SPLITZ && nodestackpos+2 <= 1024)
+ {
+ // recurse children of the split
+ axis = node->type - BIH_SPLITX;
+ d1 = node->backmax - nodestart[axis] - mins[axis];
+ d2 = node->backmax - nodeend[axis] - mins[axis];
+ d3 = nodestart[axis] - node->frontmin + maxs[axis];
+ d4 = nodeend[axis] - node->frontmin + maxs[axis];
+ switch((d1 < 0) | ((d2 < 0) << 1) | ((d3 < 0) << 2) | ((d4 < 0) << 3))
+ {
+ case 0: /* >>>> */ VectorCopy(nodestart, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->back; VectorCopy(nodestart, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->front; break;
+ case 1: /* <>>> */ f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->back; VectorCopy(nodestart, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->front; break;
+ case 2: /* ><>> */ f = d1 / (d1 - d2); VectorCopy(nodestart, nodestackline[nodestackpos]); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->back; VectorCopy(nodestart, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->front; break;
+ case 3: /* <<>> */ VectorCopy(nodestart, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->front; break;
+ case 4: /* >><> */ VectorCopy(nodestart, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->back; f = d3 / (d3 - d4); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->front; break;
+ case 5: /* <><> */ f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->back; f = d3 / (d3 - d4); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->front; break;
+ case 6: /* ><<> */ f = d1 / (d1 - d2); VectorCopy(nodestart, nodestackline[nodestackpos]); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->back; f = d3 / (d3 - d4); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->front; break;
+ case 7: /* <<<> */ f = d3 / (d3 - d4); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->front; break;
+ case 8: /* >>>< */ VectorCopy(nodestart, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->back; f = d3 / (d3 - d4); VectorCopy(nodestart, nodestackline[nodestackpos]); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->front; break;
+ case 9: /* <>>< */ f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->back; f = d3 / (d3 - d4); VectorCopy(nodestart, nodestackline[nodestackpos]); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->front; break;
+ case 10: /* ><>< */ f = d1 / (d1 - d2); VectorCopy(nodestart, nodestackline[nodestackpos]); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->back; f = d3 / (d3 - d4); VectorCopy(nodestart, nodestackline[nodestackpos]); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->front; break;
+ case 11: /* <<>< */ f = d3 / (d3 - d4); VectorCopy(nodestart, nodestackline[nodestackpos]); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->front; break;
+ case 12: /* >><< */ VectorCopy(nodestart, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->back; break;
+ case 13: /* <><< */ f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos]); VectorCopy( nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->back; break;
+ case 14: /* ><<< */ f = d1 / (d1 - d2); VectorCopy(nodestart, nodestackline[nodestackpos]); VectorLerp(nodestart, f, nodeend, nodestackline[nodestackpos] + 3); nodestack[nodestackpos++] = node->back; break;
+ case 15: /* <<<< */ break;
+ }
+ }
+ else if (node->type == BIH_UNORDERED)
+ {
+ // calculate sweep bounds for this node
+ // copy node bounds into local variables and expand to get Minkowski Sum of the two shapes
+ VectorSubtract(node->mins, maxs, nodebigmins);
+ VectorSubtract(node->maxs, mins, nodebigmaxs);
+ // clip line to this node bounds
+ axis = 0; d1 = nodestart[axis] - nodebigmins[axis]; d2 = nodeend[axis] - nodebigmins[axis]; if (d1 < 0) { if (d2 < 0) continue; f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodestart); } else if (d2 < 0) { f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodeend); } d1 = nodebigmaxs[axis] - nodestart[axis]; d2 = nodebigmaxs[axis] - nodeend[axis]; if (d1 < 0) { if (d2 < 0) continue; f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodestart); } else if (d2 < 0) { f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodeend); }
+ axis = 1; d1 = nodestart[axis] - nodebigmins[axis]; d2 = nodeend[axis] - nodebigmins[axis]; if (d1 < 0) { if (d2 < 0) continue; f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodestart); } else if (d2 < 0) { f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodeend); } d1 = nodebigmaxs[axis] - nodestart[axis]; d2 = nodebigmaxs[axis] - nodeend[axis]; if (d1 < 0) { if (d2 < 0) continue; f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodestart); } else if (d2 < 0) { f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodeend); }
+ axis = 2; d1 = nodestart[axis] - nodebigmins[axis]; d2 = nodeend[axis] - nodebigmins[axis]; if (d1 < 0) { if (d2 < 0) continue; f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodestart); } else if (d2 < 0) { f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodeend); } d1 = nodebigmaxs[axis] - nodestart[axis]; d2 = nodebigmaxs[axis] - nodeend[axis]; if (d1 < 0) { if (d2 < 0) continue; f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodestart); } else if (d2 < 0) { f = d1 / (d1 - d2); VectorLerp(nodestart, f, nodeend, nodeend); }
+ // some of the line intersected the enlarged node box
+ // calculate sweep bounds for this node
+ sweepnodemins[0] = min(nodestart[0], nodeend[0]) + mins[0]; sweepnodemins[1] = min(nodestart[1], nodeend[1]) + mins[1]; sweepnodemins[2] = min(nodestart[2], nodeend[2]) + mins[2]; sweepnodemaxs[0] = max(nodestart[0], nodeend[0]) + maxs[0]; sweepnodemaxs[1] = max(nodestart[1], nodeend[1]) + maxs[1]; sweepnodemaxs[2] = max(nodestart[2], nodeend[2]) + maxs[2];
+ for (axis = 0;axis < BIH_MAXUNORDEREDCHILDREN && node->children[axis] >= 0;axis++)
+ {
+ leaf = bih->leafs + node->children[axis];
+ if (!BoxesOverlap(sweepnodemins, sweepnodemaxs, leaf->mins, leaf->maxs))
+ continue;
+ switch(leaf->type)
+ {
+ case BIH_BRUSH:
+ brush = model->brush.data_brushes[leaf->itemindex].colbrushf;
+ Collision_TraceBrushBrushFloat(trace, thisbrush_start, thisbrush_end, brush, brush);
+ break;
+ case BIH_COLLISIONTRIANGLE:
+ if (!mod_q3bsp_curves_collisions.integer)
+ continue;
+ e = model->brush.data_collisionelement3i + 3*leaf->itemindex;
+ texture = model->data_textures + leaf->textureindex;
+ Collision_TraceBrushTriangleFloat(trace, thisbrush_start, thisbrush_end, model->brush.data_collisionvertex3f + e[0] * 3, model->brush.data_collisionvertex3f + e[1] * 3, model->brush.data_collisionvertex3f + e[2] * 3, texture->supercontents, texture->surfaceflags, texture);
+ break;
+ case BIH_RENDERTRIANGLE:
+ e = model->surfmesh.data_element3i + 3*leaf->itemindex;
+ texture = model->data_textures + leaf->textureindex;
+ Collision_TraceBrushTriangleFloat(trace, thisbrush_start, thisbrush_end, model->surfmesh.data_vertex3f + e[0] * 3, model->surfmesh.data_vertex3f + e[1] * 3, model->surfmesh.data_vertex3f + e[2] * 3, texture->supercontents, texture->surfaceflags, texture);
+ break;
+ }
+ }
+ }
+ }
+}
+
+void Mod_CollisionBIH_TraceBox(dp_model_t *model, const frameblend_t *frameblend, const skeleton_t *skeleton, trace_t *trace, const vec3_t start, const vec3_t boxmins, const vec3_t boxmaxs, const vec3_t end, int hitsupercontentsmask)
+{
+ colboxbrushf_t thisbrush_start, thisbrush_end;
+ vec3_t boxstartmins, boxstartmaxs, boxendmins, boxendmaxs;
+
+ // box trace, performed as brush trace
+ VectorAdd(start, boxmins, boxstartmins);
+ VectorAdd(start, boxmaxs, boxstartmaxs);
+ VectorAdd(end, boxmins, boxendmins);
+ VectorAdd(end, boxmaxs, boxendmaxs);
+ Collision_BrushForBox(&thisbrush_start, boxstartmins, boxstartmaxs, 0, 0, NULL);
+ Collision_BrushForBox(&thisbrush_end, boxendmins, boxendmaxs, 0, 0, NULL);
+ Mod_CollisionBIH_TraceBrush(model, frameblend, skeleton, trace, &thisbrush_start.brush, &thisbrush_end.brush, hitsupercontentsmask);
+}
+
+
+int Mod_CollisionBIH_PointSuperContents(struct model_s *model, int frame, const vec3_t point)
+{
+ trace_t trace;
+ Mod_CollisionBIH_TracePoint(model, NULL, NULL, &trace, point, 0);
+ return trace.startsupercontents;
+}
+
+void Mod_CollisionBIH_TracePoint_Mesh(dp_model_t *model, const frameblend_t *frameblend, const skeleton_t *skeleton, trace_t *trace, const vec3_t start, int hitsupercontentsmask)
+{
+#if 0
+ // broken - needs to be modified to count front faces and backfaces to figure out if it is in solid
+ vec3_t end;
+ int hitsupercontents;
+ VectorSet(end, start[0], start[1], model->normalmins[2]);
+#endif
+ memset(trace, 0, sizeof(*trace));
+ trace->fraction = 1;
+ trace->realfraction = 1;
+ trace->hitsupercontentsmask = hitsupercontentsmask;
+#if 0
+ Mod_CollisionBIH_TraceLine(model, frameblend, skeleton, trace, start, end, hitsupercontentsmask);
+ hitsupercontents = trace->hitsupercontents;
+ memset(trace, 0, sizeof(*trace));
+ trace->fraction = 1;
+ trace->realfraction = 1;
+ trace->hitsupercontentsmask = hitsupercontentsmask;
+ trace->startsupercontents = hitsupercontents;
+#endif
+}
+
+int Mod_CollisionBIH_PointSuperContents_Mesh(struct model_s *model, int frame, const vec3_t start)
+{
+#if 0
+ // broken - needs to be modified to count front faces and backfaces to figure out if it is in solid
+ trace_t trace;
+ vec3_t end;
+ VectorSet(end, start[0], start[1], model->normalmins[2]);
+ memset(&trace, 0, sizeof(trace));
+ trace.fraction = 1;
+ trace.realfraction = 1;
+ trace.hitsupercontentsmask = 0;
+ Mod_CollisionBIH_TraceLine(model, frameblend, skeleton, trace, start, end, hitsupercontentsmask);
+ return trace.hitsupercontents;
+#else
+ return 0;
+#endif
+}
+
+static void Mod_Q3BSP_TracePoint_RecursiveBSPNode(trace_t *trace, dp_model_t *model, mnode_t *node, const vec3_t point, int markframe)
+{
+ int i;
+ mleaf_t *leaf;
+ colbrushf_t *brush;
+ // find which leaf the point is in
+ while (node->plane)
+ node = node->children[(node->plane->type < 3 ? point[node->plane->type] : DotProduct(point, node->plane->normal)) < node->plane->dist];
+ // point trace the brushes
+ leaf = (mleaf_t *)node;
+ for (i = 0;i < leaf->numleafbrushes;i++)
+ {
+ brush = model->brush.data_brushes[leaf->firstleafbrush[i]].colbrushf;
+ if (brush && brush->markframe != markframe && BoxesOverlap(point, point, brush->mins, brush->maxs))
+ {
+ brush->markframe = markframe;
+ Collision_TracePointBrushFloat(trace, point, brush);
+ }
+ }
+ // can't do point traces on curves (they have no thickness)
+}
+
+static void Mod_Q3BSP_TraceLine_RecursiveBSPNode(trace_t *trace, dp_model_t *model, mnode_t *node, const vec3_t start, const vec3_t end, vec_t startfrac, vec_t endfrac, const vec3_t linestart, const vec3_t lineend, int markframe, const vec3_t segmentmins, const vec3_t segmentmaxs)
+{
+ int i, startside, endside;
+ float dist1, dist2, midfrac, mid[3], nodesegmentmins[3], nodesegmentmaxs[3];
+ mleaf_t *leaf;
+ msurface_t *surface;
+ mplane_t *plane;
+ colbrushf_t *brush;
+ // walk the tree until we hit a leaf, recursing for any split cases
+ while (node->plane)
+ {
+#if 0
+ if (!BoxesOverlap(segmentmins, segmentmaxs, node->mins, node->maxs))
+ return;
+ Mod_Q3BSP_TraceLine_RecursiveBSPNode(trace, model, node->children[0], start, end, startfrac, endfrac, linestart, lineend, markframe, segmentmins, segmentmaxs);
+ node = node->children[1];
+#else
+ // abort if this part of the bsp tree can not be hit by this trace
+// if (!(node->combinedsupercontents & trace->hitsupercontentsmask))
+// return;
+ plane = node->plane;
+ // axial planes are much more common than non-axial, so an optimized
+ // axial case pays off here
+ if (plane->type < 3)
+ {
+ dist1 = start[plane->type] - plane->dist;
+ dist2 = end[plane->type] - plane->dist;
+ }
+ else
+ {
+ dist1 = DotProduct(start, plane->normal) - plane->dist;
+ dist2 = DotProduct(end, plane->normal) - plane->dist;
+ }
+ startside = dist1 < 0;
+ endside = dist2 < 0;
+ if (startside == endside)
+ {
+ // most of the time the line fragment is on one side of the plane
+ node = node->children[startside];
+ }
+ else
+ {
+ // line crosses node plane, split the line
+ dist1 = PlaneDiff(linestart, plane);
+ dist2 = PlaneDiff(lineend, plane);
+ midfrac = dist1 / (dist1 - dist2);
+ VectorLerp(linestart, midfrac, lineend, mid);
+ // take the near side first
+ Mod_Q3BSP_TraceLine_RecursiveBSPNode(trace, model, node->children[startside], start, mid, startfrac, midfrac, linestart, lineend, markframe, segmentmins, segmentmaxs);
+ // if we found an impact on the front side, don't waste time
+ // exploring the far side
+ if (midfrac <= trace->realfraction)
+ Mod_Q3BSP_TraceLine_RecursiveBSPNode(trace, model, node->children[endside], mid, end, midfrac, endfrac, linestart, lineend, markframe, segmentmins, segmentmaxs);
+ return;
+ }
+#endif
+ }
+ // abort if this part of the bsp tree can not be hit by this trace
+// if (!(node->combinedsupercontents & trace->hitsupercontentsmask))
+// return;
+ // hit a leaf
+ nodesegmentmins[0] = min(start[0], end[0]) - 1;
+ nodesegmentmins[1] = min(start[1], end[1]) - 1;
+ nodesegmentmins[2] = min(start[2], end[2]) - 1;
+ nodesegmentmaxs[0] = max(start[0], end[0]) + 1;
+ nodesegmentmaxs[1] = max(start[1], end[1]) + 1;
+ nodesegmentmaxs[2] = max(start[2], end[2]) + 1;
+ // line trace the brushes
+ leaf = (mleaf_t *)node;
+#if 0
+ if (!BoxesOverlap(segmentmins, segmentmaxs, leaf->mins, leaf->maxs))
+ return;
+#endif
+ for (i = 0;i < leaf->numleafbrushes;i++)
+ {
+ brush = model->brush.data_brushes[leaf->firstleafbrush[i]].colbrushf;
+ if (brush && brush->markframe != markframe && BoxesOverlap(nodesegmentmins, nodesegmentmaxs, brush->mins, brush->maxs))
+ {
+ brush->markframe = markframe;
+ Collision_TraceLineBrushFloat(trace, linestart, lineend, brush, brush);
+ }
+ }
+ // can't do point traces on curves (they have no thickness)
+ if (leaf->containscollisionsurfaces && mod_q3bsp_curves_collisions.integer && !VectorCompare(start, end))
+ {
+ // line trace the curves
+ for (i = 0;i < leaf->numleafsurfaces;i++)
+ {
+ surface = model->data_surfaces + leaf->firstleafsurface[i];
+ if (surface->num_collisiontriangles && surface->deprecatedq3collisionmarkframe != markframe && BoxesOverlap(nodesegmentmins, nodesegmentmaxs, surface->mins, surface->maxs))
+ {
+ surface->deprecatedq3collisionmarkframe = markframe;
+ Collision_TraceLineTriangleMeshFloat(trace, linestart, lineend, surface->num_collisiontriangles, surface->deprecatedq3data_collisionelement3i, surface->deprecatedq3data_collisionvertex3f, surface->deprecatedq3num_collisionbboxstride, surface->deprecatedq3data_collisionbbox6f, surface->texture->supercontents, surface->texture->surfaceflags, surface->texture, segmentmins, segmentmaxs);
+ }
+ }
+ }
+}
+
+static void Mod_Q3BSP_TraceBrush_RecursiveBSPNode(trace_t *trace, dp_model_t *model, mnode_t *node, const colbrushf_t *thisbrush_start, const colbrushf_t *thisbrush_end, int markframe, const vec3_t segmentmins, const vec3_t segmentmaxs)
+{
+ int i;
+ int sides;
+ mleaf_t *leaf;
+ colbrushf_t *brush;
+ msurface_t *surface;
+ mplane_t *plane;
+ float nodesegmentmins[3], nodesegmentmaxs[3];
+ // walk the tree until we hit a leaf, recursing for any split cases
+ while (node->plane)
+ {
+#if 0
+ if (!BoxesOverlap(segmentmins, segmentmaxs, node->mins, node->maxs))
+ return;
+ Mod_Q3BSP_TraceBrush_RecursiveBSPNode(trace, model, node->children[0], thisbrush_start, thisbrush_end, markframe, segmentmins, segmentmaxs);
+ node = node->children[1];
+#else
+ // abort if this part of the bsp tree can not be hit by this trace
+// if (!(node->combinedsupercontents & trace->hitsupercontentsmask))
+// return;
+ plane = node->plane;
+ // axial planes are much more common than non-axial, so an optimized
+ // axial case pays off here
+ if (plane->type < 3)
+ {
+ // this is an axial plane, compare bounding box directly to it and
+ // recurse sides accordingly
+ // recurse down node sides
+ // use an inlined axial BoxOnPlaneSide to slightly reduce overhead
+ //sides = BoxOnPlaneSide(nodesegmentmins, nodesegmentmaxs, plane);
+ //sides = ((segmentmaxs[plane->type] >= plane->dist) | ((segmentmins[plane->type] < plane->dist) << 1));
+ sides = ((segmentmaxs[plane->type] >= plane->dist) + ((segmentmins[plane->type] < plane->dist) * 2));
+ }
+ else
+ {
+ // this is a non-axial plane, so check if the start and end boxes
+ // are both on one side of the plane to handle 'diagonal' cases
+ sides = BoxOnPlaneSide(thisbrush_start->mins, thisbrush_start->maxs, plane) | BoxOnPlaneSide(thisbrush_end->mins, thisbrush_end->maxs, plane);
+ }
+ if (sides == 3)
+ {
+ // segment crosses plane
+ Mod_Q3BSP_TraceBrush_RecursiveBSPNode(trace, model, node->children[0], thisbrush_start, thisbrush_end, markframe, segmentmins, segmentmaxs);
+ sides = 2;
+ }
+ // if sides == 0 then the trace itself is bogus (Not A Number values),
+ // in this case we simply pretend the trace hit nothing
+ if (sides == 0)
+ return; // ERROR: NAN bounding box!
+ // take whichever side the segment box is on
+ node = node->children[sides - 1];
+#endif
+ }
+ // abort if this part of the bsp tree can not be hit by this trace
+// if (!(node->combinedsupercontents & trace->hitsupercontentsmask))
+// return;
+ nodesegmentmins[0] = max(segmentmins[0], node->mins[0] - 1);
+ nodesegmentmins[1] = max(segmentmins[1], node->mins[1] - 1);
+ nodesegmentmins[2] = max(segmentmins[2], node->mins[2] - 1);
+ nodesegmentmaxs[0] = min(segmentmaxs[0], node->maxs[0] + 1);
+ nodesegmentmaxs[1] = min(segmentmaxs[1], node->maxs[1] + 1);
+ nodesegmentmaxs[2] = min(segmentmaxs[2], node->maxs[2] + 1);
+ // hit a leaf
+ leaf = (mleaf_t *)node;
+#if 0
+ if (!BoxesOverlap(segmentmins, segmentmaxs, leaf->mins, leaf->maxs))
+ return;
+#endif
+ for (i = 0;i < leaf->numleafbrushes;i++)
+ {
+ brush = model->brush.data_brushes[leaf->firstleafbrush[i]].colbrushf;
+ if (brush && brush->markframe != markframe && BoxesOverlap(nodesegmentmins, nodesegmentmaxs, brush->mins, brush->maxs))
+ {
+ brush->markframe = markframe;
+ Collision_TraceBrushBrushFloat(trace, thisbrush_start, thisbrush_end, brush, brush);
+ }
+ }
+ if (leaf->containscollisionsurfaces && mod_q3bsp_curves_collisions.integer)
+ {
+ for (i = 0;i < leaf->numleafsurfaces;i++)
+ {
+ surface = model->data_surfaces + leaf->firstleafsurface[i];
+ if (surface->num_collisiontriangles && surface->deprecatedq3collisionmarkframe != markframe && BoxesOverlap(nodesegmentmins, nodesegmentmaxs, surface->mins, surface->maxs))
+ {
+ surface->deprecatedq3collisionmarkframe = markframe;
+ Collision_TraceBrushTriangleMeshFloat(trace, thisbrush_start, thisbrush_end, surface->num_collisiontriangles, surface->deprecatedq3data_collisionelement3i, surface->deprecatedq3data_collisionvertex3f, surface->deprecatedq3num_collisionbboxstride, surface->deprecatedq3data_collisionbbox6f, surface->texture->supercontents, surface->texture->surfaceflags, surface->texture, segmentmins, segmentmaxs);
+ }
+ }
+ }
+}
+
+
+static int markframe = 0;
+
+static void Mod_Q3BSP_TracePoint(dp_model_t *model, const frameblend_t *frameblend, const skeleton_t *skeleton, trace_t *trace, const vec3_t start, int hitsupercontentsmask)
+{
+ int i;
+ q3mbrush_t *brush;
+ memset(trace, 0, sizeof(*trace));
+ trace->fraction = 1;
+ trace->realfraction = 1;
+ trace->hitsupercontentsmask = hitsupercontentsmask;
+ if (mod_collision_bih.integer)
+ Mod_CollisionBIH_TracePoint(model, frameblend, skeleton, trace, start, hitsupercontentsmask);
+ else if (model->brush.submodel)
+ {
+ for (i = 0, brush = model->brush.data_brushes + model->firstmodelbrush;i < model->nummodelbrushes;i++, brush++)
+ if (brush->colbrushf)
+ Collision_TracePointBrushFloat(trace, start, brush->colbrushf);
+ }
+ else
+ Mod_Q3BSP_TracePoint_RecursiveBSPNode(trace, model, model->brush.data_nodes, start, ++markframe);
+}
+
+static void Mod_Q3BSP_TraceLine(dp_model_t *model, const frameblend_t *frameblend, const skeleton_t *skeleton, trace_t *trace, const vec3_t start, const vec3_t end, int hitsupercontentsmask)
+{
+ int i;
+ float segmentmins[3], segmentmaxs[3];
+ msurface_t *surface;
+ q3mbrush_t *brush;
+
+ if (VectorCompare(start, end))
+ {
+ Mod_Q3BSP_TracePoint(model, frameblend, skeleton, trace, start, hitsupercontentsmask);
+ return;
+ }
+
+ memset(trace, 0, sizeof(*trace));
+ trace->fraction = 1;
+ trace->realfraction = 1;
+ trace->hitsupercontentsmask = hitsupercontentsmask;
+ segmentmins[0] = min(start[0], end[0]) - 1;
+ segmentmins[1] = min(start[1], end[1]) - 1;
+ segmentmins[2] = min(start[2], end[2]) - 1;
+ segmentmaxs[0] = max(start[0], end[0]) + 1;
+ segmentmaxs[1] = max(start[1], end[1]) + 1;
+ segmentmaxs[2] = max(start[2], end[2]) + 1;
+ if (mod_collision_bih.integer)
+ Mod_CollisionBIH_TraceLine(model, frameblend, skeleton, trace, start, end, hitsupercontentsmask);
+ else if (model->brush.submodel)
+ {
+ for (i = 0, brush = model->brush.data_brushes + model->firstmodelbrush;i < model->nummodelbrushes;i++, brush++)
+ if (brush->colbrushf && BoxesOverlap(segmentmins, segmentmaxs, brush->colbrushf->mins, brush->colbrushf->maxs))
+ Collision_TraceLineBrushFloat(trace, start, end, brush->colbrushf, brush->colbrushf);
+ if (mod_q3bsp_curves_collisions.integer)
+ for (i = 0, surface = model->data_surfaces + model->firstmodelsurface;i < model->nummodelsurfaces;i++, surface++)
+ if (surface->num_collisiontriangles && BoxesOverlap(segmentmins, segmentmaxs, surface->mins, surface->maxs))
+ Collision_TraceLineTriangleMeshFloat(trace, start, end, surface->num_collisiontriangles, surface->deprecatedq3data_collisionelement3i, surface->deprecatedq3data_collisionvertex3f, surface->deprecatedq3num_collisionbboxstride, surface->deprecatedq3data_collisionbbox6f, surface->texture->supercontents, surface->texture->surfaceflags, surface->texture, segmentmins, segmentmaxs);
+ }
+ else
+ Mod_Q3BSP_TraceLine_RecursiveBSPNode(trace, model, model->brush.data_nodes, start, end, 0, 1, start, end, ++markframe, segmentmins, segmentmaxs);
+}
+
+void Mod_Q3BSP_TraceBrush(dp_model_t *model, const frameblend_t *frameblend, const skeleton_t *skeleton, trace_t *trace, colbrushf_t *start, colbrushf_t *end, int hitsupercontentsmask)
+{
+ float segmentmins[3], segmentmaxs[3];
+ int i;
+ msurface_t *surface;
+ q3mbrush_t *brush;
+
+ if (mod_q3bsp_optimizedtraceline.integer && VectorCompare(start->mins, start->maxs) && VectorCompare(end->mins, end->maxs))
+ {
+ if (VectorCompare(start->mins, end->mins))
+ Mod_Q3BSP_TracePoint(model, frameblend, skeleton, trace, start->mins, hitsupercontentsmask);
+ else
+ Mod_Q3BSP_TraceLine(model, frameblend, skeleton, trace, start->mins, end->mins, hitsupercontentsmask);
+ return;
+ }
+
+ // box trace, performed as brush trace
+ memset(trace, 0, sizeof(*trace));
+ trace->fraction = 1;
+ trace->realfraction = 1;
+ trace->hitsupercontentsmask = hitsupercontentsmask;
+ segmentmins[0] = min(start->mins[0], end->mins[0]);
+ segmentmins[1] = min(start->mins[1], end->mins[1]);
+ segmentmins[2] = min(start->mins[2], end->mins[2]);
+ segmentmaxs[0] = max(start->maxs[0], end->maxs[0]);
+ segmentmaxs[1] = max(start->maxs[1], end->maxs[1]);
+ segmentmaxs[2] = max(start->maxs[2], end->maxs[2]);
+ if (mod_collision_bih.integer)
+ Mod_CollisionBIH_TraceBrush(model, frameblend, skeleton, trace, start, end, hitsupercontentsmask);
+ else if (model->brush.submodel)
+ {
+ for (i = 0, brush = model->brush.data_brushes + model->firstmodelbrush;i < model->nummodelbrushes;i++, brush++)
+ if (brush->colbrushf && BoxesOverlap(segmentmins, segmentmaxs, brush->colbrushf->mins, brush->colbrushf->maxs))
+ Collision_TraceBrushBrushFloat(trace, start, end, brush->colbrushf, brush->colbrushf);
+ if (mod_q3bsp_curves_collisions.integer)
+ for (i = 0, surface = model->data_surfaces + model->firstmodelsurface;i < model->nummodelsurfaces;i++, surface++)
+ if (surface->num_collisiontriangles && BoxesOverlap(segmentmins, segmentmaxs, surface->mins, surface->maxs))
+ Collision_TraceBrushTriangleMeshFloat(trace, start, end, surface->num_collisiontriangles, surface->deprecatedq3data_collisionelement3i, surface->deprecatedq3data_collisionvertex3f, surface->deprecatedq3num_collisionbboxstride, surface->deprecatedq3data_collisionbbox6f, surface->texture->supercontents, surface->texture->surfaceflags, surface->texture, segmentmins, segmentmaxs);
+ }
+ else
+ Mod_Q3BSP_TraceBrush_RecursiveBSPNode(trace, model, model->brush.data_nodes, start, end, ++markframe, segmentmins, segmentmaxs);
+}
+
+static void Mod_Q3BSP_TraceBox(dp_model_t *model, const frameblend_t *frameblend, const skeleton_t *skeleton, trace_t *trace, const vec3_t start, const vec3_t boxmins, const vec3_t boxmaxs, const vec3_t end, int hitsupercontentsmask)
+{
+ colboxbrushf_t thisbrush_start, thisbrush_end;
+ vec3_t boxstartmins, boxstartmaxs, boxendmins, boxendmaxs;
+
+ // box trace, performed as brush trace
+ VectorAdd(start, boxmins, boxstartmins);
+ VectorAdd(start, boxmaxs, boxstartmaxs);
+ VectorAdd(end, boxmins, boxendmins);
+ VectorAdd(end, boxmaxs, boxendmaxs);
+ Collision_BrushForBox(&thisbrush_start, boxstartmins, boxstartmaxs, 0, 0, NULL);
+ Collision_BrushForBox(&thisbrush_end, boxendmins, boxendmaxs, 0, 0, NULL);
+ Mod_Q3BSP_TraceBrush(model, frameblend, skeleton, trace, &thisbrush_start.brush, &thisbrush_end.brush, hitsupercontentsmask);
+}
+
+static int Mod_Q3BSP_PointSuperContents(struct model_s *model, int frame, const vec3_t point)
+{
+ int i;
+ int supercontents = 0;
+ q3mbrush_t *brush;
+ if (mod_collision_bih.integer)
+ {
+ trace_t trace;
+ Mod_Q3BSP_TracePoint(model, NULL, NULL, &trace, point, 0);
+ supercontents = trace.startsupercontents;
+ }
+ // test if the point is inside each brush
+ else if (model->brush.submodel)
+ {
+ // submodels are effectively one leaf
+ for (i = 0, brush = model->brush.data_brushes + model->firstmodelbrush;i < model->nummodelbrushes;i++, brush++)
+ if (brush->colbrushf && Collision_PointInsideBrushFloat(point, brush->colbrushf))
+ supercontents |= brush->colbrushf->supercontents;
+ }
+ else
+ {
+ mnode_t *node = model->brush.data_nodes;
+ mleaf_t *leaf;
+ // find which leaf the point is in
+ while (node->plane)
+ node = node->children[(node->plane->type < 3 ? point[node->plane->type] : DotProduct(point, node->plane->normal)) < node->plane->dist];
+ leaf = (mleaf_t *)node;
+ // now check the brushes in the leaf
+ for (i = 0;i < leaf->numleafbrushes;i++)
{
- // point trace
- if (model->brush.submodel)
- {
- for (i = 0, brush = model->brush.data_brushes + model->firstmodelbrush;i < model->nummodelbrushes;i++, brush++)
- if (brush->colbrushf)
- Collision_TracePointBrushFloat(trace, start, brush->colbrushf);
- }
+ brush = model->brush.data_brushes + leaf->firstleafbrush[i];
+ if (brush->colbrushf && Collision_PointInsideBrushFloat(point, brush->colbrushf))
+ supercontents |= brush->colbrushf->supercontents;
+ }
+ }
+ return supercontents;
+}
+
+void Mod_CollisionBIH_TraceLineAgainstSurfaces(dp_model_t *model, const frameblend_t *frameblend, const skeleton_t *skeleton, trace_t *trace, const vec3_t start, const vec3_t end, int hitsupercontentsmask)
+{
+ Mod_CollisionBIH_TraceLineShared(model, frameblend, skeleton, trace, start, end, hitsupercontentsmask, &model->render_bih);
+}
+
+
+bih_t *Mod_MakeCollisionBIH(dp_model_t *model, qboolean userendersurfaces, bih_t *out)
+{
+ int j;
+ int bihnumleafs;
+ int bihmaxnodes;
+ int brushindex;
+ int triangleindex;
+ int bihleafindex;
+ int nummodelbrushes = model->nummodelbrushes;
+ int nummodelsurfaces = model->nummodelsurfaces;
+ const int *e;
+ const int *collisionelement3i;
+ const float *collisionvertex3f;
+ const int *renderelement3i;
+ const float *rendervertex3f;
+ bih_leaf_t *bihleafs;
+ bih_node_t *bihnodes;
+ int *temp_leafsort;
+ int *temp_leafsortscratch;
+ const msurface_t *surface;
+ const q3mbrush_t *brush;
+
+ // find out how many BIH leaf nodes we need
+ bihnumleafs = 0;
+ if (userendersurfaces)
+ {
+ for (j = 0, surface = model->data_surfaces + model->firstmodelsurface;j < nummodelsurfaces;j++, surface++)
+ bihnumleafs += surface->num_triangles;
+ }
+ else
+ {
+ for (brushindex = 0, brush = model->brush.data_brushes + brushindex+model->firstmodelbrush;brushindex < nummodelbrushes;brushindex++, brush++)
+ if (brush->colbrushf)
+ bihnumleafs++;
+ for (j = 0, surface = model->data_surfaces + model->firstmodelsurface;j < nummodelsurfaces;j++, surface++)
+ {
+ if (surface->texture->basematerialflags & MATERIALFLAG_MESHCOLLISIONS)
+ bihnumleafs += surface->num_triangles + surface->num_collisiontriangles;
else
- Mod_Q3BSP_TracePoint_RecursiveBSPNode(trace, model, model->brush.data_nodes, start, ++markframe);
+ bihnumleafs += surface->num_collisiontriangles;
}
- else
+ }
+
+ if (!bihnumleafs)
+ return NULL;
+
+ // allocate the memory for the BIH leaf nodes
+ bihleafs = (bih_leaf_t *)Mem_Alloc(loadmodel->mempool, sizeof(bih_leaf_t) * bihnumleafs);
+
+ // now populate the BIH leaf nodes
+ bihleafindex = 0;
+
+ // add render surfaces
+ renderelement3i = model->surfmesh.data_element3i;
+ rendervertex3f = model->surfmesh.data_vertex3f;
+ for (j = 0, surface = model->data_surfaces + model->firstmodelsurface;j < nummodelsurfaces;j++, surface++)
+ {
+ for (triangleindex = 0, e = renderelement3i + 3*surface->num_firsttriangle;triangleindex < surface->num_triangles;triangleindex++, e += 3)
+ {
+ if (!userendersurfaces && !(surface->texture->basematerialflags & MATERIALFLAG_MESHCOLLISIONS))
+ continue;
+ bihleafs[bihleafindex].type = BIH_RENDERTRIANGLE;
+ bihleafs[bihleafindex].textureindex = surface->texture - model->data_textures;
+ bihleafs[bihleafindex].surfaceindex = surface - model->data_surfaces;
+ bihleafs[bihleafindex].itemindex = triangleindex+surface->num_firsttriangle;
+ bihleafs[bihleafindex].mins[0] = min(rendervertex3f[3*e[0]+0], min(rendervertex3f[3*e[1]+0], rendervertex3f[3*e[2]+0])) - 1;
+ bihleafs[bihleafindex].mins[1] = min(rendervertex3f[3*e[0]+1], min(rendervertex3f[3*e[1]+1], rendervertex3f[3*e[2]+1])) - 1;
+ bihleafs[bihleafindex].mins[2] = min(rendervertex3f[3*e[0]+2], min(rendervertex3f[3*e[1]+2], rendervertex3f[3*e[2]+2])) - 1;
+ bihleafs[bihleafindex].maxs[0] = max(rendervertex3f[3*e[0]+0], max(rendervertex3f[3*e[1]+0], rendervertex3f[3*e[2]+0])) + 1;
+ bihleafs[bihleafindex].maxs[1] = max(rendervertex3f[3*e[0]+1], max(rendervertex3f[3*e[1]+1], rendervertex3f[3*e[2]+1])) + 1;
+ bihleafs[bihleafindex].maxs[2] = max(rendervertex3f[3*e[0]+2], max(rendervertex3f[3*e[1]+2], rendervertex3f[3*e[2]+2])) + 1;
+ bihleafindex++;
+ }
+ }
+
+ if (!userendersurfaces)
+ {
+ // add collision brushes
+ for (brushindex = 0, brush = model->brush.data_brushes + brushindex+model->firstmodelbrush;brushindex < nummodelbrushes;brushindex++, brush++)
+ {
+ if (!brush->colbrushf)
+ continue;
+ bihleafs[bihleafindex].type = BIH_BRUSH;
+ bihleafs[bihleafindex].textureindex = brush->texture - model->data_textures;
+ bihleafs[bihleafindex].surfaceindex = -1;
+ bihleafs[bihleafindex].itemindex = brushindex+model->firstmodelbrush;
+ VectorCopy(brush->colbrushf->mins, bihleafs[bihleafindex].mins);
+ VectorCopy(brush->colbrushf->maxs, bihleafs[bihleafindex].maxs);
+ bihleafindex++;
+ }
+
+ // add collision surfaces
+ collisionelement3i = model->brush.data_collisionelement3i;
+ collisionvertex3f = model->brush.data_collisionvertex3f;
+ for (j = 0, surface = model->data_surfaces + model->firstmodelsurface;j < nummodelsurfaces;j++, surface++)
{
- // line trace
- segmentmins[0] = min(start[0], end[0]) - 1;
- segmentmins[1] = min(start[1], end[1]) - 1;
- segmentmins[2] = min(start[2], end[2]) - 1;
- segmentmaxs[0] = max(start[0], end[0]) + 1;
- segmentmaxs[1] = max(start[1], end[1]) + 1;
- segmentmaxs[2] = max(start[2], end[2]) + 1;
- if (model->brush.submodel)
+ for (triangleindex = 0, e = collisionelement3i + 3*surface->num_firstcollisiontriangle;triangleindex < surface->num_collisiontriangles;triangleindex++, e += 3)
{
- for (i = 0, brush = model->brush.data_brushes + model->firstmodelbrush;i < model->nummodelbrushes;i++, brush++)
- if (brush->colbrushf)
- Collision_TraceLineBrushFloat(trace, start, end, brush->colbrushf, brush->colbrushf);
- if (mod_q3bsp_curves_collisions.integer)
- for (i = 0, surface = model->data_surfaces + model->firstmodelsurface;i < model->nummodelsurfaces;i++, surface++)
- if (surface->num_collisiontriangles)
- Collision_TraceLineTriangleMeshFloat(trace, start, end, surface->num_collisiontriangles, surface->data_collisionelement3i, surface->data_collisionvertex3f, surface->texture->supercontents, surface->texture->surfaceflags, surface->texture, segmentmins, segmentmaxs);
+ bihleafs[bihleafindex].type = BIH_COLLISIONTRIANGLE;
+ bihleafs[bihleafindex].textureindex = surface->texture - model->data_textures;
+ bihleafs[bihleafindex].surfaceindex = surface - model->data_surfaces;
+ bihleafs[bihleafindex].itemindex = triangleindex+surface->num_firstcollisiontriangle;
+ bihleafs[bihleafindex].mins[0] = min(collisionvertex3f[3*e[0]+0], min(collisionvertex3f[3*e[1]+0], collisionvertex3f[3*e[2]+0])) - 1;
+ bihleafs[bihleafindex].mins[1] = min(collisionvertex3f[3*e[0]+1], min(collisionvertex3f[3*e[1]+1], collisionvertex3f[3*e[2]+1])) - 1;
+ bihleafs[bihleafindex].mins[2] = min(collisionvertex3f[3*e[0]+2], min(collisionvertex3f[3*e[1]+2], collisionvertex3f[3*e[2]+2])) - 1;
+ bihleafs[bihleafindex].maxs[0] = max(collisionvertex3f[3*e[0]+0], max(collisionvertex3f[3*e[1]+0], collisionvertex3f[3*e[2]+0])) + 1;
+ bihleafs[bihleafindex].maxs[1] = max(collisionvertex3f[3*e[0]+1], max(collisionvertex3f[3*e[1]+1], collisionvertex3f[3*e[2]+1])) + 1;
+ bihleafs[bihleafindex].maxs[2] = max(collisionvertex3f[3*e[0]+2], max(collisionvertex3f[3*e[1]+2], collisionvertex3f[3*e[2]+2])) + 1;
+ bihleafindex++;
}
- else
- Mod_Q3BSP_TraceLine_RecursiveBSPNode(trace, model, model->brush.data_nodes, start, end, 0, 1, start, end, ++markframe, segmentmins, segmentmaxs);
}
}
- else
+
+ // allocate buffers for the produced and temporary data
+ bihmaxnodes = bihnumleafs + 1;
+ bihnodes = (bih_node_t *)Mem_Alloc(loadmodel->mempool, sizeof(bih_node_t) * bihmaxnodes);
+ temp_leafsort = (int *)Mem_Alloc(loadmodel->mempool, sizeof(int) * bihnumleafs * 2);
+ temp_leafsortscratch = temp_leafsort + bihnumleafs;
+
+ // now build it
+ BIH_Build(out, bihnumleafs, bihleafs, bihmaxnodes, bihnodes, temp_leafsort, temp_leafsortscratch);
+
+ // we're done with the temporary data
+ Mem_Free(temp_leafsort);
+
+ // resize the BIH nodes array if it over-allocated
+ if (out->maxnodes > out->numnodes)
{
- // box trace, performed as brush trace
- colbrushf_t *thisbrush_start, *thisbrush_end;
- vec3_t boxstartmins, boxstartmaxs, boxendmins, boxendmaxs;
- segmentmins[0] = min(start[0], end[0]) + boxmins[0] - 1;
- segmentmins[1] = min(start[1], end[1]) + boxmins[1] - 1;
- segmentmins[2] = min(start[2], end[2]) + boxmins[2] - 1;
- segmentmaxs[0] = max(start[0], end[0]) + boxmaxs[0] + 1;
- segmentmaxs[1] = max(start[1], end[1]) + boxmaxs[1] + 1;
- segmentmaxs[2] = max(start[2], end[2]) + boxmaxs[2] + 1;
- VectorAdd(start, boxmins, boxstartmins);
- VectorAdd(start, boxmaxs, boxstartmaxs);
- VectorAdd(end, boxmins, boxendmins);
- VectorAdd(end, boxmaxs, boxendmaxs);
- thisbrush_start = Collision_BrushForBox(&identitymatrix, boxstartmins, boxstartmaxs, 0, 0, NULL);
- thisbrush_end = Collision_BrushForBox(&identitymatrix, boxendmins, boxendmaxs, 0, 0, NULL);
- if (model->brush.submodel)
- {
- for (i = 0, brush = model->brush.data_brushes + model->firstmodelbrush;i < model->nummodelbrushes;i++, brush++)
- if (brush->colbrushf)
- Collision_TraceBrushBrushFloat(trace, thisbrush_start, thisbrush_end, brush->colbrushf, brush->colbrushf);
- if (mod_q3bsp_curves_collisions.integer)
- for (i = 0, surface = model->data_surfaces + model->firstmodelsurface;i < model->nummodelsurfaces;i++, surface++)
- if (surface->num_collisiontriangles)
- Collision_TraceBrushTriangleMeshFloat(trace, thisbrush_start, thisbrush_end, surface->num_collisiontriangles, surface->data_collisionelement3i, surface->data_collisionvertex3f, surface->texture->supercontents, surface->texture->surfaceflags, surface->texture, segmentmins, segmentmaxs);
- }
- else
- Mod_Q3BSP_TraceBrush_RecursiveBSPNode(trace, model, model->brush.data_nodes, thisbrush_start, thisbrush_end, ++markframe, segmentmins, segmentmaxs);
+ out->maxnodes = out->numnodes;
+ out->nodes = (bih_node_t *)Mem_Realloc(loadmodel->mempool, out->nodes, out->numnodes * sizeof(bih_node_t));
}
+
+ return out;
}
-static int Mod_Q3BSP_SuperContentsFromNativeContents(model_t *model, int nativecontents)
+static int Mod_Q3BSP_SuperContentsFromNativeContents(dp_model_t *model, int nativecontents)
{
int supercontents = 0;
if (nativecontents & CONTENTSQ3_SOLID)
supercontents |= SUPERCONTENTS_MONSTERCLIP;
if (nativecontents & CONTENTSQ3_DONOTENTER)
supercontents |= SUPERCONTENTS_DONOTENTER;
+ if (nativecontents & CONTENTSQ3_BOTCLIP)
+ supercontents |= SUPERCONTENTS_BOTCLIP;
+ if (!(nativecontents & CONTENTSQ3_TRANSLUCENT))
+ supercontents |= SUPERCONTENTS_OPAQUE;
return supercontents;
}
-static int Mod_Q3BSP_NativeContentsFromSuperContents(model_t *model, int supercontents)
+static int Mod_Q3BSP_NativeContentsFromSuperContents(dp_model_t *model, int supercontents)
{
int nativecontents = 0;
if (supercontents & SUPERCONTENTS_SOLID)
nativecontents |= CONTENTSQ3_MONSTERCLIP;
if (supercontents & SUPERCONTENTS_DONOTENTER)
nativecontents |= CONTENTSQ3_DONOTENTER;
+ if (supercontents & SUPERCONTENTS_BOTCLIP)
+ nativecontents |= CONTENTSQ3_BOTCLIP;
+ if (!(supercontents & SUPERCONTENTS_OPAQUE))
+ nativecontents |= CONTENTSQ3_TRANSLUCENT;
return nativecontents;
}
loadmodel->brush.num_leafs = numleafs;
}
-void Mod_Q3BSP_Load(model_t *mod, void *buffer, void *bufferend)
+void Mod_Q3BSP_Load(dp_model_t *mod, void *buffer, void *bufferend)
{
- int i, j, numshadowmeshtriangles;
+ int i, j, lumps;
q3dheader_t *header;
float corner[3], yawradius, modelradius;
- msurface_t *surface;
+
+ mod->modeldatatypestring = "Q3BSP";
mod->type = mod_brushq3;
mod->numframes = 2; // although alternate textures are not supported it is annoying to complain about no such frame 1
mod->numskins = 1;
header = (q3dheader_t *)buffer;
+ if((char *) bufferend < (char *) buffer + sizeof(q3dheader_t))
+ Host_Error("Mod_Q3BSP_Load: %s is smaller than its header", mod->name);
i = LittleLong(header->version);
- if (i != Q3BSPVERSION)
+ if (i != Q3BSPVERSION && i != Q3BSPVERSION_IG && i != Q3BSPVERSION_LIVE)
Host_Error("Mod_Q3BSP_Load: %s has wrong version number (%i, should be %i)", mod->name, i, Q3BSPVERSION);
- mod->brush.ishlbsp = false;
- mod->brush.ismcbsp = false;
- if (loadmodel->isworldmodel)
- {
- Cvar_SetValue("halflifebsp", mod->brush.ishlbsp);
- Cvar_SetValue("mcbsp", mod->brush.ismcbsp);
- }
mod->soundfromcenter = true;
mod->TraceBox = Mod_Q3BSP_TraceBox;
+ mod->TraceBrush = Mod_Q3BSP_TraceBrush;
+ mod->TraceLine = Mod_Q3BSP_TraceLine;
+ mod->TracePoint = Mod_Q3BSP_TracePoint;
+ mod->PointSuperContents = Mod_Q3BSP_PointSuperContents;
+ mod->TraceLineAgainstSurfaces = Mod_CollisionBIH_TraceLine;
+ mod->brush.TraceLineOfSight = Mod_Q3BSP_TraceLineOfSight;
mod->brush.SuperContentsFromNativeContents = Mod_Q3BSP_SuperContentsFromNativeContents;
mod->brush.NativeContentsFromSuperContents = Mod_Q3BSP_NativeContentsFromSuperContents;
mod->brush.GetPVS = Mod_Q1BSP_GetPVS;
mod->brush.FindBoxClusters = Mod_Q1BSP_FindBoxClusters;
mod->brush.LightPoint = Mod_Q3BSP_LightPoint;
mod->brush.FindNonSolidLocation = Mod_Q1BSP_FindNonSolidLocation;
+ mod->brush.AmbientSoundLevelsForPoint = NULL;
+ mod->brush.RoundUpToHullSize = NULL;
mod->brush.PointInLeaf = Mod_Q1BSP_PointInLeaf;
mod->Draw = R_Q1BSP_Draw;
+ mod->DrawDepth = R_Q1BSP_DrawDepth;
+ mod->DrawDebug = R_Q1BSP_DrawDebug;
+ mod->DrawPrepass = R_Q1BSP_DrawPrepass;
mod->GetLightInfo = R_Q1BSP_GetLightInfo;
+ mod->CompileShadowMap = R_Q1BSP_CompileShadowMap;
+ mod->DrawShadowMap = R_Q1BSP_DrawShadowMap;
mod->CompileShadowVolume = R_Q1BSP_CompileShadowVolume;
mod->DrawShadowVolume = R_Q1BSP_DrawShadowVolume;
mod->DrawLight = R_Q1BSP_DrawLight;
// swap all the lumps
header->ident = LittleLong(header->ident);
header->version = LittleLong(header->version);
- for (i = 0;i < Q3HEADER_LUMPS;i++)
+ lumps = (header->version == Q3BSPVERSION_LIVE) ? Q3HEADER_LUMPS_LIVE : Q3HEADER_LUMPS;
+ for (i = 0;i < lumps;i++)
{
- header->lumps[i].fileofs = LittleLong(header->lumps[i].fileofs);
- header->lumps[i].filelen = LittleLong(header->lumps[i].filelen);
+ j = (header->lumps[i].fileofs = LittleLong(header->lumps[i].fileofs));
+ if((char *) bufferend < (char *) buffer + j)
+ Host_Error("Mod_Q3BSP_Load: %s has a lump that starts outside the file!", mod->name);
+ j += (header->lumps[i].filelen = LittleLong(header->lumps[i].filelen));
+ if((char *) bufferend < (char *) buffer + j)
+ Host_Error("Mod_Q3BSP_Load: %s has a lump that ends outside the file!", mod->name);
+ }
+ /*
+ * NO, do NOT clear them!
+ * they contain actual data referenced by other stuff.
+ * Instead, before using the advertisements lump, check header->versio
+ * again!
+ * Sorry, but otherwise it breaks memory of the first lump.
+ for (i = lumps;i < Q3HEADER_LUMPS_MAX;i++)
+ {
+ header->lumps[i].fileofs = 0;
+ header->lumps[i].filelen = 0;
}
+ */
mod->brush.qw_md4sum = 0;
mod->brush.qw_md4sum2 = 0;
- for (i = 0;i < Q3HEADER_LUMPS;i++)
+ for (i = 0;i < lumps;i++)
{
if (i == Q3LUMP_ENTITIES)
continue;
if (i == Q3LUMP_PVS || i == Q3LUMP_LEAFS || i == Q3LUMP_NODES)
continue;
mod->brush.qw_md4sum2 ^= Com_BlockChecksum(mod_base + header->lumps[i].fileofs, header->lumps[i].filelen);
+
+ // all this checksumming can take a while, so let's send keepalives here too
+ CL_KeepaliveMessage(false);
}
Mod_Q3BSP_LoadEntities(&header->lumps[Q3LUMP_ENTITIES]);
Mod_Q3BSP_LoadTextures(&header->lumps[Q3LUMP_TEXTURES]);
Mod_Q3BSP_LoadPlanes(&header->lumps[Q3LUMP_PLANES]);
- Mod_Q3BSP_LoadBrushSides(&header->lumps[Q3LUMP_BRUSHSIDES]);
+ if (header->version == Q3BSPVERSION_IG)
+ Mod_Q3BSP_LoadBrushSides_IG(&header->lumps[Q3LUMP_BRUSHSIDES]);
+ else
+ Mod_Q3BSP_LoadBrushSides(&header->lumps[Q3LUMP_BRUSHSIDES]);
Mod_Q3BSP_LoadBrushes(&header->lumps[Q3LUMP_BRUSHES]);
Mod_Q3BSP_LoadEffects(&header->lumps[Q3LUMP_EFFECTS]);
Mod_Q3BSP_LoadVertices(&header->lumps[Q3LUMP_VERTICES]);
Mod_Q3BSP_LoadTriangles(&header->lumps[Q3LUMP_TRIANGLES]);
- Mod_Q3BSP_LoadLightmaps(&header->lumps[Q3LUMP_LIGHTMAPS]);
+ Mod_Q3BSP_LoadLightmaps(&header->lumps[Q3LUMP_LIGHTMAPS], &header->lumps[Q3LUMP_FACES]);
Mod_Q3BSP_LoadFaces(&header->lumps[Q3LUMP_FACES]);
Mod_Q3BSP_LoadModels(&header->lumps[Q3LUMP_MODELS]);
Mod_Q3BSP_LoadLeafBrushes(&header->lumps[Q3LUMP_LEAFBRUSHES]);
loadmodel->brush.numsubmodels = loadmodel->brushq3.num_models;
// the MakePortals code works fine on the q3bsp data as well
- Mod_Q1BSP_MakePortals();
+ if (mod_bsp_portalize.integer)
+ Mod_Q1BSP_MakePortals();
+
+ // FIXME: shader alpha should replace r_wateralpha support in q3bsp
+ loadmodel->brush.supportwateralpha = true;
// make a single combined shadow mesh to allow optimized shadow volume creation
- numshadowmeshtriangles = 0;
- for (j = 0, surface = loadmodel->data_surfaces;j < loadmodel->num_surfaces;j++, surface++)
- {
- surface->num_firstshadowmeshtriangle = numshadowmeshtriangles;
- numshadowmeshtriangles += surface->num_triangles;
- }
- loadmodel->brush.shadowmesh = Mod_ShadowMesh_Begin(loadmodel->mempool, numshadowmeshtriangles * 3, numshadowmeshtriangles, NULL, NULL, NULL, false, false, true);
- for (j = 0, surface = loadmodel->data_surfaces;j < loadmodel->num_surfaces;j++, surface++)
- if (surface->num_triangles > 0)
- Mod_ShadowMesh_AddMesh(loadmodel->mempool, loadmodel->brush.shadowmesh, NULL, NULL, NULL, loadmodel->surfmesh.data_vertex3f, NULL, NULL, NULL, NULL, surface->num_triangles, (loadmodel->surfmesh.data_element3i + 3 * surface->num_firsttriangle));
- loadmodel->brush.shadowmesh = Mod_ShadowMesh_Finish(loadmodel->mempool, loadmodel->brush.shadowmesh, false, true);
- Mod_BuildTriangleNeighbors(loadmodel->brush.shadowmesh->neighbor3i, loadmodel->brush.shadowmesh->element3i, loadmodel->brush.shadowmesh->numtriangles);
+ Mod_Q1BSP_CreateShadowMesh(loadmodel);
loadmodel->brush.num_leafs = 0;
Mod_Q3BSP_RecursiveFindNumLeafs(loadmodel->brush.data_nodes);
- if (loadmodel->isworldmodel)
- {
- // clear out any stale submodels or worldmodels lying around
- // if we did this clear before now, an error might abort loading and
- // leave things in a bad state
- Mod_RemoveStaleWorldModels(loadmodel);
- }
+ if (loadmodel->brush.numsubmodels)
+ loadmodel->brush.submodels = (dp_model_t **)Mem_Alloc(loadmodel->mempool, loadmodel->brush.numsubmodels * sizeof(dp_model_t *));
mod = loadmodel;
for (i = 0;i < loadmodel->brush.numsubmodels;i++)
if (i > 0)
{
char name[10];
- // LordHavoc: only register submodels if it is the world
- // (prevents external bsp models from replacing world submodels with
- // their own)
- if (!loadmodel->isworldmodel)
- continue;
// duplicate the basic information
- sprintf(name, "*%i", i);
- mod = Mod_FindName(name);
+ dpsnprintf(name, sizeof(name), "*%i", i);
+ mod = Mod_FindName(name, loadmodel->name);
+ // copy the base model to this one
*mod = *loadmodel;
- strcpy(mod->name, name);
+ // rename the clone back to its proper name
+ strlcpy(mod->name, name, sizeof(mod->name));
+ mod->brush.parentmodel = loadmodel;
// textures and memory belong to the main model
mod->texturepool = NULL;
mod->mempool = NULL;
mod->brush.BoxTouchingVisibleLeafs = NULL;
mod->brush.FindBoxClusters = NULL;
mod->brush.LightPoint = NULL;
- mod->brush.FindNonSolidLocation = Mod_Q1BSP_FindNonSolidLocation;
+ mod->brush.AmbientSoundLevelsForPoint = NULL;
}
mod->brush.submodel = i;
+ if (loadmodel->brush.submodels)
+ loadmodel->brush.submodels[i] = mod;
// make the model surface list (used by shadowing/lighting)
mod->firstmodelsurface = mod->brushq3.data_models[i].firstface;
mod->nummodelsurfaces = mod->brushq3.data_models[i].numfaces;
mod->firstmodelbrush = mod->brushq3.data_models[i].firstbrush;
mod->nummodelbrushes = mod->brushq3.data_models[i].numbrushes;
- mod->surfacelist = (int *)Mem_Alloc(loadmodel->mempool, mod->nummodelsurfaces * sizeof(*mod->surfacelist));
- for (j = 0;j < mod->nummodelsurfaces;j++)
- mod->surfacelist[j] = mod->firstmodelsurface + j;
+ mod->sortedmodelsurfaces = (int *)Mem_Alloc(loadmodel->mempool, mod->nummodelsurfaces * sizeof(*mod->sortedmodelsurfaces));
+ Mod_MakeSortedSurfaces(mod);
VectorCopy(mod->brushq3.data_models[i].mins, mod->normalmins);
VectorCopy(mod->brushq3.data_models[i].maxs, mod->normalmaxs);
+ // enlarge the bounding box to enclose all geometry of this model,
+ // because q3map2 sometimes lies (mostly to affect the lightgrid),
+ // which can in turn mess up the farclip (as well as culling when
+ // outside the level - an unimportant concern)
+
+ //printf("Editing model %d... BEFORE re-bounding: %f %f %f - %f %f %f\n", i, mod->normalmins[0], mod->normalmins[1], mod->normalmins[2], mod->normalmaxs[0], mod->normalmaxs[1], mod->normalmaxs[2]);
+ for (j = 0;j < mod->nummodelsurfaces;j++)
+ {
+ const msurface_t *surface = mod->data_surfaces + j + mod->firstmodelsurface;
+ const float *v = mod->surfmesh.data_vertex3f + 3 * surface->num_firstvertex;
+ int k;
+ if (!surface->num_vertices)
+ continue;
+ for (k = 0;k < surface->num_vertices;k++, v += 3)
+ {
+ mod->normalmins[0] = min(mod->normalmins[0], v[0]);
+ mod->normalmins[1] = min(mod->normalmins[1], v[1]);
+ mod->normalmins[2] = min(mod->normalmins[2], v[2]);
+ mod->normalmaxs[0] = max(mod->normalmaxs[0], v[0]);
+ mod->normalmaxs[1] = max(mod->normalmaxs[1], v[1]);
+ mod->normalmaxs[2] = max(mod->normalmaxs[2], v[2]);
+ }
+ }
+ //printf("Editing model %d... AFTER re-bounding: %f %f %f - %f %f %f\n", i, mod->normalmins[0], mod->normalmins[1], mod->normalmins[2], mod->normalmaxs[0], mod->normalmaxs[1], mod->normalmaxs[2]);
corner[0] = max(fabs(mod->normalmins[0]), fabs(mod->normalmaxs[0]));
corner[1] = max(fabs(mod->normalmins[1]), fabs(mod->normalmaxs[1]));
corner[2] = max(fabs(mod->normalmins[2]), fabs(mod->normalmaxs[2]));
mod->radius = modelradius;
mod->radius2 = modelradius * modelradius;
+ // this gets altered below if sky or water is used
+ mod->DrawSky = NULL;
+ mod->DrawAddWaterPlanes = NULL;
+
for (j = 0;j < mod->nummodelsurfaces;j++)
- if (mod->data_surfaces[j + mod->firstmodelsurface].texture->surfaceflags & Q3SURFACEFLAG_SKY)
+ if (mod->data_surfaces[j + mod->firstmodelsurface].texture->basematerialflags & MATERIALFLAG_SKY)
break;
if (j < mod->nummodelsurfaces)
mod->DrawSky = R_Q1BSP_DrawSky;
+
+ for (j = 0;j < mod->nummodelsurfaces;j++)
+ if (mod->data_surfaces[j + mod->firstmodelsurface].texture->basematerialflags & (MATERIALFLAG_WATERSHADER | MATERIALFLAG_REFRACTION | MATERIALFLAG_REFLECTION | MATERIALFLAG_CAMERA))
+ break;
+ if (j < mod->nummodelsurfaces)
+ mod->DrawAddWaterPlanes = R_Q1BSP_DrawAddWaterPlanes;
+
+ Mod_MakeCollisionBIH(mod, false, &mod->collision_bih);
+ Mod_MakeCollisionBIH(mod, true, &mod->render_bih);
+
+ // generate VBOs and other shared data before cloning submodels
+ if (i == 0)
+ Mod_BuildVBOs();
}
+
+ Con_DPrintf("Stats for q3bsp model \"%s\": %i faces, %i nodes, %i leafs, %i clusters, %i clusterportals, mesh: %i vertices, %i triangles, %i surfaces\n", loadmodel->name, loadmodel->num_surfaces, loadmodel->brush.num_nodes, loadmodel->brush.num_leafs, mod->brush.num_pvsclusters, loadmodel->brush.num_portals, loadmodel->surfmesh.num_vertices, loadmodel->surfmesh.num_triangles, loadmodel->num_surfaces);
}
-void Mod_IBSP_Load(model_t *mod, void *buffer, void *bufferend)
+void Mod_IBSP_Load(dp_model_t *mod, void *buffer, void *bufferend)
{
int i = LittleLong(((int *)buffer)[1]);
- if (i == Q3BSPVERSION)
+ if (i == Q3BSPVERSION || i == Q3BSPVERSION_IG || i == Q3BSPVERSION_LIVE)
Mod_Q3BSP_Load(mod,buffer, bufferend);
else if (i == Q2BSPVERSION)
Mod_Q2BSP_Load(mod,buffer, bufferend);
Host_Error("Mod_IBSP_Load: unknown/unsupported version %i", i);
}
-void Mod_MAP_Load(model_t *mod, void *buffer, void *bufferend)
+void Mod_MAP_Load(dp_model_t *mod, void *buffer, void *bufferend)
{
Host_Error("Mod_MAP_Load: not yet implemented");
}
+typedef struct objvertex_s
+{
+ int nextindex;
+ int submodelindex;
+ int textureindex;
+ float v[3];
+ float vt[2];
+ float vn[3];
+}
+objvertex_t;
+
+static unsigned char nobsp_pvs[1] = {1};
+
+void Mod_OBJ_Load(dp_model_t *mod, void *buffer, void *bufferend)
+{
+ const char *textbase = (char *)buffer, *text = textbase;
+ char *s;
+ char *argv[512];
+ char line[1024];
+ char materialname[MAX_QPATH];
+ int i, j, l, numvertices, firstvertex, firsttriangle, elementindex, vertexindex, surfacevertices, surfacetriangles, surfaceelements, submodelindex = 0;
+ int index1, index2, index3;
+ objvertex_t vfirst, vprev, vcurrent;
+ int argc;
+ int linelen;
+ int numtriangles = 0;
+ int maxtriangles = 0;
+ objvertex_t *vertices = NULL;
+ int linenumber = 0;
+ int maxtextures = 0, numtextures = 0, textureindex = 0;
+ int maxv = 0, numv = 1;
+ int maxvt = 0, numvt = 1;
+ int maxvn = 0, numvn = 1;
+ char *texturenames = NULL;
+ float dist, modelradius, modelyawradius, yawradius;
+ float *v = NULL;
+ float *vt = NULL;
+ float *vn = NULL;
+ float mins[3];
+ float maxs[3];
+ float corner[3];
+ objvertex_t *thisvertex = NULL;
+ int vertexhashindex;
+ int *vertexhashtable = NULL;
+ objvertex_t *vertexhashdata = NULL;
+ objvertex_t *vdata = NULL;
+ int vertexhashsize = 0;
+ int vertexhashcount = 0;
+ skinfile_t *skinfiles = NULL;
+ unsigned char *data = NULL;
+ int *submodelfirstsurface;
+ msurface_t *surface;
+ msurface_t *tempsurfaces;
+
+ memset(&vfirst, 0, sizeof(vfirst));
+ memset(&vprev, 0, sizeof(vprev));
+ memset(&vcurrent, 0, sizeof(vcurrent));
+
+ dpsnprintf(materialname, sizeof(materialname), "%s", loadmodel->name);
+
+ loadmodel->modeldatatypestring = "OBJ";
+
+ loadmodel->type = mod_obj;
+ loadmodel->soundfromcenter = true;
+ loadmodel->TraceBox = Mod_CollisionBIH_TraceBox;
+ loadmodel->TraceBrush = Mod_CollisionBIH_TraceBrush;
+ loadmodel->TraceLine = Mod_CollisionBIH_TraceLine;
+ loadmodel->TracePoint = Mod_CollisionBIH_TracePoint_Mesh;
+ loadmodel->TraceLineAgainstSurfaces = Mod_CollisionBIH_TraceLine;
+ loadmodel->PointSuperContents = Mod_CollisionBIH_PointSuperContents_Mesh;
+ loadmodel->brush.TraceLineOfSight = NULL;
+ loadmodel->brush.SuperContentsFromNativeContents = NULL;
+ loadmodel->brush.NativeContentsFromSuperContents = NULL;
+ loadmodel->brush.GetPVS = NULL;
+ loadmodel->brush.FatPVS = NULL;
+ loadmodel->brush.BoxTouchingPVS = NULL;
+ loadmodel->brush.BoxTouchingLeafPVS = NULL;
+ loadmodel->brush.BoxTouchingVisibleLeafs = NULL;
+ loadmodel->brush.FindBoxClusters = NULL;
+ loadmodel->brush.LightPoint = NULL;
+ loadmodel->brush.FindNonSolidLocation = NULL;
+ loadmodel->brush.AmbientSoundLevelsForPoint = NULL;
+ loadmodel->brush.RoundUpToHullSize = NULL;
+ loadmodel->brush.PointInLeaf = NULL;
+ loadmodel->Draw = R_Q1BSP_Draw;
+ loadmodel->DrawDepth = R_Q1BSP_DrawDepth;
+ loadmodel->DrawDebug = R_Q1BSP_DrawDebug;
+ loadmodel->DrawPrepass = R_Q1BSP_DrawPrepass;
+ loadmodel->GetLightInfo = R_Q1BSP_GetLightInfo;
+ loadmodel->CompileShadowMap = R_Q1BSP_CompileShadowMap;
+ loadmodel->DrawShadowMap = R_Q1BSP_DrawShadowMap;
+ loadmodel->CompileShadowVolume = R_Q1BSP_CompileShadowVolume;
+ loadmodel->DrawShadowVolume = R_Q1BSP_DrawShadowVolume;
+ loadmodel->DrawLight = R_Q1BSP_DrawLight;
+
+ skinfiles = Mod_LoadSkinFiles();
+ if (loadmodel->numskins < 1)
+ loadmodel->numskins = 1;
+
+ // make skinscenes for the skins (no groups)
+ loadmodel->skinscenes = (animscene_t *)Mem_Alloc(loadmodel->mempool, sizeof(animscene_t) * loadmodel->numskins);
+ for (i = 0;i < loadmodel->numskins;i++)
+ {
+ loadmodel->skinscenes[i].firstframe = i;
+ loadmodel->skinscenes[i].framecount = 1;
+ loadmodel->skinscenes[i].loop = true;
+ loadmodel->skinscenes[i].framerate = 10;
+ }
+
+ VectorClear(mins);
+ VectorClear(maxs);
+
+ // we always have model 0, i.e. the first "submodel"
+ loadmodel->brush.numsubmodels = 1;
+
+ // parse the OBJ text now
+ for(;;)
+ {
+ static char emptyarg[1] = "";
+ if (!*text)
+ break;
+ linenumber++;
+ linelen = 0;
+ for (linelen = 0;text[linelen] && text[linelen] != '\r' && text[linelen] != '\n';linelen++)
+ line[linelen] = text[linelen];
+ line[linelen] = 0;
+ for (argc = 0;argc < 4;argc++)
+ argv[argc] = emptyarg;
+ argc = 0;
+ s = line;
+ while (*s == ' ' || *s == '\t')
+ s++;
+ while (*s)
+ {
+ argv[argc++] = s;
+ while (*s > ' ')
+ s++;
+ if (!*s)
+ break;
+ *s++ = 0;
+ while (*s == ' ' || *s == '\t')
+ s++;
+ }
+ text += linelen;
+ if (*text == '\r')
+ text++;
+ if (*text == '\n')
+ text++;
+ if (!argc)
+ continue;
+ if (argv[0][0] == '#')
+ continue;
+ if (!strcmp(argv[0], "v"))
+ {
+ if (maxv <= numv)
+ {
+ maxv = max(maxv * 2, 1024);
+ v = (float *)Mem_Realloc(tempmempool, v, maxv * sizeof(float[3]));
+ }
+ v[numv*3+0] = atof(argv[1]);
+ v[numv*3+2] = atof(argv[2]);
+ v[numv*3+1] = atof(argv[3]);
+ numv++;
+ }
+ else if (!strcmp(argv[0], "vt"))
+ {
+ if (maxvt <= numvt)
+ {
+ maxvt = max(maxvt * 2, 1024);
+ vt = (float *)Mem_Realloc(tempmempool, vt, maxvt * sizeof(float[2]));
+ }
+ vt[numvt*2+0] = atof(argv[1]);
+ vt[numvt*2+1] = 1-atof(argv[2]);
+ numvt++;
+ }
+ else if (!strcmp(argv[0], "vn"))
+ {
+ if (maxvn <= numvn)
+ {
+ maxvn = max(maxvn * 2, 1024);
+ vn = (float *)Mem_Realloc(tempmempool, vn, maxvn * sizeof(float[3]));
+ }
+ vn[numvn*3+0] = atof(argv[1]);
+ vn[numvn*3+2] = atof(argv[2]);
+ vn[numvn*3+1] = atof(argv[3]);
+ numvn++;
+ }
+ else if (!strcmp(argv[0], "f"))
+ {
+ if (!numtextures)
+ {
+ if (maxtextures <= numtextures)
+ {
+ maxtextures = max(maxtextures * 2, 256);
+ texturenames = (char *)Mem_Realloc(loadmodel->mempool, texturenames, maxtextures * MAX_QPATH);
+ }
+ textureindex = numtextures++;
+ strlcpy(texturenames + textureindex*MAX_QPATH, loadmodel->name, MAX_QPATH);
+ }
+ for (j = 1;j < argc;j++)
+ {
+ index1 = atoi(argv[j]);
+ while(argv[j][0] && argv[j][0] != '/')
+ argv[j]++;
+ if (argv[j][0])
+ argv[j]++;
+ index2 = atoi(argv[j]);
+ while(argv[j][0] && argv[j][0] != '/')
+ argv[j]++;
+ if (argv[j][0])
+ argv[j]++;
+ index3 = atoi(argv[j]);
+ // negative refers to a recent vertex
+ // zero means not specified
+ // positive means an absolute vertex index
+ if (index1 < 0)
+ index1 = numv - index1;
+ if (index2 < 0)
+ index2 = numvt - index2;
+ if (index3 < 0)
+ index3 = numvn - index3;
+ vcurrent.nextindex = -1;
+ vcurrent.textureindex = textureindex;
+ vcurrent.submodelindex = submodelindex;
+ if (v && index1 >= 0 && index1 < numv)
+ VectorCopy(v + 3*index1, vcurrent.v);
+ if (vt && index2 >= 0 && index2 < numvt)
+ Vector2Copy(vt + 2*index2, vcurrent.vt);
+ if (vn && index3 >= 0 && index3 < numvn)
+ VectorCopy(vn + 3*index3, vcurrent.vn);
+ if (numtriangles == 0)
+ {
+ VectorCopy(vcurrent.v, mins);
+ VectorCopy(vcurrent.v, maxs);
+ }
+ else
+ {
+ mins[0] = min(mins[0], vcurrent.v[0]);
+ mins[1] = min(mins[1], vcurrent.v[1]);
+ mins[2] = min(mins[2], vcurrent.v[2]);
+ maxs[0] = max(maxs[0], vcurrent.v[0]);
+ maxs[1] = max(maxs[1], vcurrent.v[1]);
+ maxs[2] = max(maxs[2], vcurrent.v[2]);
+ }
+ if (j == 1)
+ vfirst = vcurrent;
+ else if (j >= 3)
+ {
+ if (maxtriangles <= numtriangles)
+ {
+ maxtriangles = max(maxtriangles * 2, 32768);
+ vertices = (objvertex_t*)Mem_Realloc(loadmodel->mempool, vertices, maxtriangles * sizeof(objvertex_t[3]));
+ }
+ vertices[numtriangles*3+0] = vfirst;
+ vertices[numtriangles*3+1] = vprev;
+ vertices[numtriangles*3+2] = vcurrent;
+ numtriangles++;
+ }
+ vprev = vcurrent;
+ }
+ }
+ else if (!strcmp(argv[0], "o") || !strcmp(argv[0], "g"))
+ {
+ submodelindex = atof(argv[1]);
+ loadmodel->brush.numsubmodels = max(submodelindex + 1, loadmodel->brush.numsubmodels);
+ }
+ else if (!strcmp(argv[0], "usemtl"))
+ {
+ for (i = 0;i < numtextures;i++)
+ if (!strcmp(texturenames+i*MAX_QPATH, argv[1]))
+ break;
+ if (i < numtextures)
+ textureindex = i;
+ else
+ {
+ if (maxtextures <= numtextures)
+ {
+ maxtextures = max(maxtextures * 2, 256);
+ texturenames = (char *)Mem_Realloc(loadmodel->mempool, texturenames, maxtextures * MAX_QPATH);
+ }
+ textureindex = numtextures++;
+ strlcpy(texturenames + textureindex*MAX_QPATH, argv[1], MAX_QPATH);
+ }
+ }
+ }
+
+ // now that we have the OBJ data loaded as-is, we can convert it
+
+ // copy the model bounds, then enlarge the yaw and rotated bounds according to radius
+ VectorCopy(mins, loadmodel->normalmins);
+ VectorCopy(maxs, loadmodel->normalmaxs);
+ dist = max(fabs(loadmodel->normalmins[0]), fabs(loadmodel->normalmaxs[0]));
+ modelyawradius = max(fabs(loadmodel->normalmins[1]), fabs(loadmodel->normalmaxs[1]));
+ modelyawradius = dist*dist+modelyawradius*modelyawradius;
+ modelradius = max(fabs(loadmodel->normalmins[2]), fabs(loadmodel->normalmaxs[2]));
+ modelradius = modelyawradius + modelradius * modelradius;
+ modelyawradius = sqrt(modelyawradius);
+ modelradius = sqrt(modelradius);
+ loadmodel->yawmins[0] = loadmodel->yawmins[1] = -modelyawradius;
+ loadmodel->yawmins[2] = loadmodel->normalmins[2];
+ loadmodel->yawmaxs[0] = loadmodel->yawmaxs[1] = modelyawradius;
+ loadmodel->yawmaxs[2] = loadmodel->normalmaxs[2];
+ loadmodel->rotatedmins[0] = loadmodel->rotatedmins[1] = loadmodel->rotatedmins[2] = -modelradius;
+ loadmodel->rotatedmaxs[0] = loadmodel->rotatedmaxs[1] = loadmodel->rotatedmaxs[2] = modelradius;
+ loadmodel->radius = modelradius;
+ loadmodel->radius2 = modelradius * modelradius;
+
+ // allocate storage for triangles
+ loadmodel->surfmesh.data_element3i = (int *)Mem_Alloc(loadmodel->mempool, numtriangles * sizeof(int[3]));
+ // allocate vertex hash structures to build an optimal vertex subset
+ vertexhashsize = numtriangles*2;
+ vertexhashtable = (int *)Mem_Alloc(loadmodel->mempool, sizeof(int) * vertexhashsize);
+ memset(vertexhashtable, 0xFF, sizeof(int) * vertexhashsize);
+ vertexhashdata = (objvertex_t *)Mem_Alloc(loadmodel->mempool, sizeof(*vertexhashdata) * numtriangles*3);
+ vertexhashcount = 0;
+
+ // gather surface stats for assigning vertex/triangle ranges
+ firstvertex = 0;
+ firsttriangle = 0;
+ elementindex = 0;
+ loadmodel->num_surfaces = 0;
+ // allocate storage for the worst case number of surfaces, later we resize
+ tempsurfaces = (msurface_t *)Mem_Alloc(loadmodel->mempool, numtextures * loadmodel->brush.numsubmodels * sizeof(msurface_t));
+ submodelfirstsurface = (int *)Mem_Alloc(loadmodel->mempool, (loadmodel->brush.numsubmodels+1) * sizeof(int));
+ surface = tempsurfaces;
+ for (submodelindex = 0;submodelindex < loadmodel->brush.numsubmodels;submodelindex++)
+ {
+ submodelfirstsurface[submodelindex] = loadmodel->num_surfaces;
+ for (textureindex = 0;textureindex < numtextures;textureindex++)
+ {
+ for (vertexindex = 0;vertexindex < numtriangles*3;vertexindex++)
+ {
+ thisvertex = vertices + vertexindex;
+ if (thisvertex->submodelindex == submodelindex && thisvertex->textureindex == textureindex)
+ break;
+ }
+ // skip the surface creation if there are no triangles for it
+ if (vertexindex == numtriangles*3)
+ continue;
+ // create a surface for these vertices
+ surfacevertices = 0;
+ surfaceelements = 0;
+ // we hack in a texture index in the surface to be fixed up later...
+ surface->texture = (texture_t *)((size_t)textureindex);
+ // calculate bounds as we go
+ VectorCopy(thisvertex->v, surface->mins);
+ VectorCopy(thisvertex->v, surface->maxs);
+ for (;vertexindex < numtriangles*3;vertexindex++)
+ {
+ thisvertex = vertices + vertexindex;
+ if (thisvertex->submodelindex != submodelindex)
+ continue;
+ if (thisvertex->textureindex != textureindex)
+ continue;
+ // add vertex to surface bounds
+ surface->mins[0] = min(surface->mins[0], thisvertex->v[0]);
+ surface->mins[1] = min(surface->mins[1], thisvertex->v[1]);
+ surface->mins[2] = min(surface->mins[2], thisvertex->v[2]);
+ surface->maxs[0] = max(surface->maxs[0], thisvertex->v[0]);
+ surface->maxs[1] = max(surface->maxs[1], thisvertex->v[1]);
+ surface->maxs[2] = max(surface->maxs[2], thisvertex->v[2]);
+ // add the vertex if it is not found in the merged set, and
+ // get its index (triangle element) for the surface
+ vertexhashindex = (unsigned int)(thisvertex->v[0] * 3571 + thisvertex->v[0] * 1777 + thisvertex->v[0] * 457) % (unsigned int)vertexhashsize;
+ for (i = vertexhashtable[vertexhashindex];i >= 0;i = vertexhashdata[i].nextindex)
+ {
+ vdata = vertexhashdata + i;
+ if (vdata->submodelindex == thisvertex->submodelindex && vdata->textureindex == thisvertex->textureindex && VectorCompare(thisvertex->v, vdata->v) && VectorCompare(thisvertex->vn, vdata->vn) && Vector2Compare(thisvertex->vt, vdata->vt))
+ break;
+ }
+ if (i < 0)
+ {
+ i = vertexhashcount++;
+ vdata = vertexhashdata + i;
+ *vdata = *thisvertex;
+ vdata->nextindex = vertexhashtable[vertexhashindex];
+ vertexhashtable[vertexhashindex] = i;
+ surfacevertices++;
+ }
+ loadmodel->surfmesh.data_element3i[elementindex++] = i;
+ surfaceelements++;
+ }
+ surfacetriangles = surfaceelements / 3;
+ surface->num_vertices = surfacevertices;
+ surface->num_triangles = surfacetriangles;
+ surface->num_firstvertex = firstvertex;
+ surface->num_firsttriangle = firsttriangle;
+ firstvertex += surface->num_vertices;
+ firsttriangle += surface->num_triangles;
+ surface++;
+ loadmodel->num_surfaces++;
+ }
+ }
+ submodelfirstsurface[submodelindex] = loadmodel->num_surfaces;
+ numvertices = firstvertex;
+ loadmodel->data_surfaces = (msurface_t *)Mem_Realloc(loadmodel->mempool, tempsurfaces, loadmodel->num_surfaces * sizeof(msurface_t));
+ tempsurfaces = NULL;
+
+ // allocate storage for final mesh data
+ loadmodel->num_textures = numtextures * loadmodel->numskins;
+ loadmodel->num_texturesperskin = numtextures;
+ data = (unsigned char *)Mem_Alloc(loadmodel->mempool, loadmodel->num_surfaces * sizeof(int) + loadmodel->num_surfaces * loadmodel->numskins * sizeof(texture_t) + numtriangles * sizeof(int[3]) + (numvertices <= 65536 ? numtriangles * sizeof(unsigned short[3]) : 0) + (r_enableshadowvolumes.integer ? numtriangles * sizeof(int[3]) : 0) + numvertices * sizeof(float[14]) + loadmodel->brush.numsubmodels * sizeof(dp_model_t *));
+ loadmodel->brush.submodels = (dp_model_t **)data;data += loadmodel->brush.numsubmodels * sizeof(dp_model_t *);
+ loadmodel->sortedmodelsurfaces = (int *)data;data += loadmodel->num_surfaces * sizeof(int);
+ loadmodel->data_textures = (texture_t *)data;data += loadmodel->num_surfaces * loadmodel->numskins * sizeof(texture_t);
+ loadmodel->surfmesh.num_vertices = numvertices;
+ loadmodel->surfmesh.num_triangles = numtriangles;
+ if (r_enableshadowvolumes.integer)
+ loadmodel->surfmesh.data_neighbor3i = (int *)data;data += numtriangles * sizeof(int[3]);
+ loadmodel->surfmesh.data_vertex3f = (float *)data;data += numvertices * sizeof(float[3]);
+ loadmodel->surfmesh.data_svector3f = (float *)data;data += numvertices * sizeof(float[3]);
+ loadmodel->surfmesh.data_tvector3f = (float *)data;data += numvertices * sizeof(float[3]);
+ loadmodel->surfmesh.data_normal3f = (float *)data;data += numvertices * sizeof(float[3]);
+ loadmodel->surfmesh.data_texcoordtexture2f = (float *)data;data += numvertices * sizeof(float[2]);
+ if (loadmodel->surfmesh.num_vertices <= 65536)
+ loadmodel->surfmesh.data_element3s = (unsigned short *)data;data += loadmodel->surfmesh.num_triangles * sizeof(unsigned short[3]);
+
+ for (j = 0;j < loadmodel->surfmesh.num_vertices;j++)
+ {
+ VectorCopy(vertexhashdata[j].v, loadmodel->surfmesh.data_vertex3f + 3*j);
+ VectorCopy(vertexhashdata[j].vn, loadmodel->surfmesh.data_normal3f + 3*j);
+ Vector2Copy(vertexhashdata[j].vt, loadmodel->surfmesh.data_texcoordtexture2f + 2*j);
+ }
+
+ // load the textures
+ for (textureindex = 0;textureindex < numtextures;textureindex++)
+ Mod_BuildAliasSkinsFromSkinFiles(loadmodel->data_textures + textureindex, skinfiles, texturenames + textureindex*MAX_QPATH, texturenames + textureindex*MAX_QPATH);
+ Mod_FreeSkinFiles(skinfiles);
+
+ // set the surface textures to their real values now that we loaded them...
+ for (i = 0;i < loadmodel->num_surfaces;i++)
+ loadmodel->data_surfaces[i].texture = loadmodel->data_textures + (size_t)loadmodel->data_surfaces[i].texture;
+
+ // free data
+ Mem_Free(vertices);
+ Mem_Free(texturenames);
+ Mem_Free(v);
+ Mem_Free(vt);
+ Mem_Free(vn);
+ Mem_Free(vertexhashtable);
+ Mem_Free(vertexhashdata);
+
+ // make a single combined shadow mesh to allow optimized shadow volume creation
+ Mod_Q1BSP_CreateShadowMesh(loadmodel);
+
+ // compute all the mesh information that was not loaded from the file
+ if (loadmodel->surfmesh.data_element3s)
+ for (i = 0;i < loadmodel->surfmesh.num_triangles*3;i++)
+ loadmodel->surfmesh.data_element3s[i] = loadmodel->surfmesh.data_element3i[i];
+ Mod_ValidateElements(loadmodel->surfmesh.data_element3i, loadmodel->surfmesh.num_triangles, 0, loadmodel->surfmesh.num_vertices, __FILE__, __LINE__);
+ // generate normals if the file did not have them
+ if (!VectorLength2(loadmodel->surfmesh.data_normal3f))
+ Mod_BuildNormals(0, loadmodel->surfmesh.num_vertices, loadmodel->surfmesh.num_triangles, loadmodel->surfmesh.data_vertex3f, loadmodel->surfmesh.data_element3i, loadmodel->surfmesh.data_normal3f, r_smoothnormals_areaweighting.integer != 0);
+ Mod_BuildTextureVectorsFromNormals(0, loadmodel->surfmesh.num_vertices, loadmodel->surfmesh.num_triangles, loadmodel->surfmesh.data_vertex3f, loadmodel->surfmesh.data_texcoordtexture2f, loadmodel->surfmesh.data_normal3f, loadmodel->surfmesh.data_element3i, loadmodel->surfmesh.data_svector3f, loadmodel->surfmesh.data_tvector3f, r_smoothnormals_areaweighting.integer != 0);
+ if (loadmodel->surfmesh.data_neighbor3i)
+ Mod_BuildTriangleNeighbors(loadmodel->surfmesh.data_neighbor3i, loadmodel->surfmesh.data_element3i, loadmodel->surfmesh.num_triangles);
+
+ // if this is a worldmodel and has no BSP tree, create a fake one for the purpose
+ loadmodel->brush.num_visleafs = 1;
+ loadmodel->brush.num_leafs = 1;
+ loadmodel->brush.num_nodes = 0;
+ loadmodel->brush.num_leafsurfaces = loadmodel->num_surfaces;
+ loadmodel->brush.data_leafs = (mleaf_t *)Mem_Alloc(loadmodel->mempool, loadmodel->brush.num_leafs * sizeof(mleaf_t));
+ loadmodel->brush.data_nodes = (mnode_t *)loadmodel->brush.data_leafs;
+ loadmodel->brush.num_pvsclusters = 1;
+ loadmodel->brush.num_pvsclusterbytes = 1;
+ loadmodel->brush.data_pvsclusters = nobsp_pvs;
+ //if (loadmodel->num_nodes) loadmodel->data_nodes = (mnode_t *)Mem_Alloc(loadmodel->mempool, loadmodel->num_nodes * sizeof(mnode_t));
+ //loadmodel->data_leafsurfaces = (int *)Mem_Alloc(loadmodel->mempool, loadmodel->num_leafsurfaces * sizeof(int));
+ loadmodel->brush.data_leafsurfaces = loadmodel->sortedmodelsurfaces;
+ VectorCopy(loadmodel->normalmins, loadmodel->brush.data_leafs->mins);
+ VectorCopy(loadmodel->normalmaxs, loadmodel->brush.data_leafs->maxs);
+ loadmodel->brush.data_leafs->combinedsupercontents = 0; // FIXME?
+ loadmodel->brush.data_leafs->clusterindex = 0;
+ loadmodel->brush.data_leafs->areaindex = 0;
+ loadmodel->brush.data_leafs->numleafsurfaces = loadmodel->brush.num_leafsurfaces;
+ loadmodel->brush.data_leafs->firstleafsurface = loadmodel->brush.data_leafsurfaces;
+ loadmodel->brush.data_leafs->numleafbrushes = 0;
+ loadmodel->brush.data_leafs->firstleafbrush = NULL;
+ loadmodel->brush.supportwateralpha = true;
+
+ if (loadmodel->brush.numsubmodels)
+ loadmodel->brush.submodels = (dp_model_t **)Mem_Alloc(loadmodel->mempool, loadmodel->brush.numsubmodels * sizeof(dp_model_t *));
+
+ mod = loadmodel;
+ for (i = 0;i < loadmodel->brush.numsubmodels;i++)
+ {
+ if (i > 0)
+ {
+ char name[10];
+ // duplicate the basic information
+ dpsnprintf(name, sizeof(name), "*%i", i);
+ mod = Mod_FindName(name, loadmodel->name);
+ // copy the base model to this one
+ *mod = *loadmodel;
+ // rename the clone back to its proper name
+ strlcpy(mod->name, name, sizeof(mod->name));
+ mod->brush.parentmodel = loadmodel;
+ // textures and memory belong to the main model
+ mod->texturepool = NULL;
+ mod->mempool = NULL;
+ mod->brush.GetPVS = NULL;
+ mod->brush.FatPVS = NULL;
+ mod->brush.BoxTouchingPVS = NULL;
+ mod->brush.BoxTouchingLeafPVS = NULL;
+ mod->brush.BoxTouchingVisibleLeafs = NULL;
+ mod->brush.FindBoxClusters = NULL;
+ mod->brush.LightPoint = NULL;
+ mod->brush.AmbientSoundLevelsForPoint = NULL;
+ }
+ mod->brush.submodel = i;
+ if (loadmodel->brush.submodels)
+ loadmodel->brush.submodels[i] = mod;
+
+ // make the model surface list (used by shadowing/lighting)
+ mod->firstmodelsurface = submodelfirstsurface[i];
+ mod->nummodelsurfaces = submodelfirstsurface[i+1] - submodelfirstsurface[i];
+ mod->firstmodelbrush = 0;
+ mod->nummodelbrushes = 0;
+ mod->sortedmodelsurfaces = loadmodel->sortedmodelsurfaces + mod->firstmodelsurface;
+ Mod_MakeSortedSurfaces(mod);
+
+ VectorClear(mod->normalmins);
+ VectorClear(mod->normalmaxs);
+ l = false;
+ for (j = 0;j < mod->nummodelsurfaces;j++)
+ {
+ const msurface_t *surface = mod->data_surfaces + j + mod->firstmodelsurface;
+ const float *v = mod->surfmesh.data_vertex3f + 3 * surface->num_firstvertex;
+ int k;
+ if (!surface->num_vertices)
+ continue;
+ if (!l)
+ {
+ l = true;
+ VectorCopy(v, mod->normalmins);
+ VectorCopy(v, mod->normalmaxs);
+ }
+ for (k = 0;k < surface->num_vertices;k++, v += 3)
+ {
+ mod->normalmins[0] = min(mod->normalmins[0], v[0]);
+ mod->normalmins[1] = min(mod->normalmins[1], v[1]);
+ mod->normalmins[2] = min(mod->normalmins[2], v[2]);
+ mod->normalmaxs[0] = max(mod->normalmaxs[0], v[0]);
+ mod->normalmaxs[1] = max(mod->normalmaxs[1], v[1]);
+ mod->normalmaxs[2] = max(mod->normalmaxs[2], v[2]);
+ }
+ }
+ corner[0] = max(fabs(mod->normalmins[0]), fabs(mod->normalmaxs[0]));
+ corner[1] = max(fabs(mod->normalmins[1]), fabs(mod->normalmaxs[1]));
+ corner[2] = max(fabs(mod->normalmins[2]), fabs(mod->normalmaxs[2]));
+ modelradius = sqrt(corner[0]*corner[0]+corner[1]*corner[1]+corner[2]*corner[2]);
+ yawradius = sqrt(corner[0]*corner[0]+corner[1]*corner[1]);
+ mod->rotatedmins[0] = mod->rotatedmins[1] = mod->rotatedmins[2] = -modelradius;
+ mod->rotatedmaxs[0] = mod->rotatedmaxs[1] = mod->rotatedmaxs[2] = modelradius;
+ mod->yawmaxs[0] = mod->yawmaxs[1] = yawradius;
+ mod->yawmins[0] = mod->yawmins[1] = -yawradius;
+ mod->yawmins[2] = mod->normalmins[2];
+ mod->yawmaxs[2] = mod->normalmaxs[2];
+ mod->radius = modelradius;
+ mod->radius2 = modelradius * modelradius;
+
+ // this gets altered below if sky or water is used
+ mod->DrawSky = NULL;
+ mod->DrawAddWaterPlanes = NULL;
+
+ for (j = 0;j < mod->nummodelsurfaces;j++)
+ if (mod->data_surfaces[j + mod->firstmodelsurface].texture->basematerialflags & MATERIALFLAG_SKY)
+ break;
+ if (j < mod->nummodelsurfaces)
+ mod->DrawSky = R_Q1BSP_DrawSky;
+
+ for (j = 0;j < mod->nummodelsurfaces;j++)
+ if (mod->data_surfaces[j + mod->firstmodelsurface].texture->basematerialflags & (MATERIALFLAG_WATERSHADER | MATERIALFLAG_REFRACTION | MATERIALFLAG_REFLECTION | MATERIALFLAG_CAMERA))
+ break;
+ if (j < mod->nummodelsurfaces)
+ mod->DrawAddWaterPlanes = R_Q1BSP_DrawAddWaterPlanes;
+
+ Mod_MakeCollisionBIH(mod, true, &mod->collision_bih);
+ mod->render_bih = mod->collision_bih;
+
+ // generate VBOs and other shared data before cloning submodels
+ if (i == 0)
+ Mod_BuildVBOs();
+ }
+ mod = loadmodel;
+ Mem_Free(submodelfirstsurface);
+
+ Con_DPrintf("Stats for obj model \"%s\": %i faces, %i nodes, %i leafs, %i clusters, %i clusterportals, mesh: %i vertices, %i triangles, %i surfaces\n", loadmodel->name, loadmodel->num_surfaces, loadmodel->brush.num_nodes, loadmodel->brush.num_leafs, mod->brush.num_pvsclusters, loadmodel->brush.num_portals, loadmodel->surfmesh.num_vertices, loadmodel->surfmesh.num_triangles, loadmodel->num_surfaces);
+}
+
+qboolean Mod_CanSeeBox_Trace(int numsamples, float t, dp_model_t *model, vec3_t eye, vec3_t minsX, vec3_t maxsX)
+{
+ // we already have done PVS culling at this point...
+ // so we don't need to do it again.
+
+ int i;
+ vec3_t testorigin, mins, maxs;
+
+ testorigin[0] = (minsX[0] + maxsX[0]) * 0.5;
+ testorigin[1] = (minsX[1] + maxsX[1]) * 0.5;
+ testorigin[2] = (minsX[2] + maxsX[2]) * 0.5;
+
+ if(model->brush.TraceLineOfSight(model, eye, testorigin))
+ return 1;
+
+ // expand the box a little
+ mins[0] = (t+1) * minsX[0] - t * maxsX[0];
+ maxs[0] = (t+1) * maxsX[0] - t * minsX[0];
+ mins[1] = (t+1) * minsX[1] - t * maxsX[1];
+ maxs[1] = (t+1) * maxsX[1] - t * minsX[1];
+ mins[2] = (t+1) * minsX[2] - t * maxsX[2];
+ maxs[2] = (t+1) * maxsX[2] - t * minsX[2];
+
+ for(i = 0; i != numsamples; ++i)
+ {
+ testorigin[0] = lhrandom(mins[0], maxs[0]);
+ testorigin[1] = lhrandom(mins[1], maxs[1]);
+ testorigin[2] = lhrandom(mins[2], maxs[2]);
+
+ if(model->brush.TraceLineOfSight(model, eye, testorigin))
+ return 1;
+ }
+
+ return 0;
+}
+