mirror of
https://git.code.sf.net/p/quake/quakeforge
synced 2024-11-29 23:52:22 +00:00
7280e1d042
This makes a pretty significant difference: 8-25% for demo1, demo2, demo3 and bigass1. Many thanks to Nick Alger (https://stackoverflow.com/questions/5122228/box-to-sphere-collision). It took me a moment to recognize that it's the Minkowski difference (and maybe GJK?). Of course, I adapted it for simd.
147 lines
3.8 KiB
C
147 lines
3.8 KiB
C
#ifdef HAVE_CONFIG_H
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# include "config.h"
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#endif
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#include <string.h>
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#include "QF/model.h"
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#include "QF/set.h"
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#include "QF/scene/entity.h"
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#include "QF/scene/light.h"
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#include "QF/scene/scene.h"
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#include "QF/simd/vec4f.h"
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static void
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expand_pvs (set_t *pvs, mod_brush_t *brush)
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{
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set_t base_pvs = SET_STATIC_INIT (brush->visleafs, alloca);
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set_assign (&base_pvs, pvs);
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for (unsigned i = 0; i < brush->visleafs; i++) {
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if (set_is_member (&base_pvs, i)) {
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Mod_LeafPVS_mix (brush->leafs + i + 1, brush, 0, pvs);
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}
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}
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}
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lightingdata_t *
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Light_CreateLightingData (scene_t *scene)
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{
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lightingdata_t *ldata = calloc (1, sizeof (lightingdata_t));
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ldata->scene = scene;
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return ldata;
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}
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void
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Light_DestroyLightingData (lightingdata_t *ldata)
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{
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free (ldata);
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}
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void
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Light_ClearLights (lightingdata_t *ldata)
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{
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if (ldata->sun_pvs) {
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set_delete (ldata->sun_pvs);
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}
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ldata->sun_pvs = 0;
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if (ldata->pvs) {
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set_delete (ldata->pvs);
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}
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ldata->pvs = 0;
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ldata->leaf = 0;
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}
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static bool
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test_light_leaf (const light_t *light, const mleaf_t *leaf)
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{
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// FIXME directional lights should check the direction against the
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// leaf's portals (need to find the portals first, though)
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if (!light->position[3] || !light->attenuation[3]) {
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// non-positional lights or lights with infinite radius always light
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// the leafs they can see
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return true;
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}
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// use Minkowski difference to see if the light hits the leaf's bounding
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// box (thanks to Nick Alger:
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// https://stackoverflow.com/questions/5122228/box-to-sphere-collision)
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float r = 1/light->attenuation[3];
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vec4f_t c = light->position / light->position[3];
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vec4f_t mins = loadvec3f (leaf->mins);
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vec4f_t maxs = loadvec3f (leaf->maxs);
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vec4i_t tmin = c < mins;
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vec4i_t tmax = maxs < c;
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vec4i_t tcen = ~tmin & ~tmax;
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vec4f_t p = (vec4f_t)((tmin & (vec4i_t)mins)
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+ (tcen & (vec4i_t)c)
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+ (tmax & (vec4i_t)maxs));
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p[3] = 1;
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vec4f_t d = p - c;
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if (dotf (d, d)[0] > r * r) {
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return false;
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}
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return true;
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}
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void
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Light_AddLight (lightingdata_t *ldata, const light_t *light, int style)
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{
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scene_t *scene = ldata->scene;
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model_t *model = scene->worldmodel;
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entity_t ent = {
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.reg = scene->reg,
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.id = ECS_NewEntity (scene->reg),
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};
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Ent_SetComponent (ent.id, scene_light, ent.reg, light);
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Ent_SetComponent (ent.id, scene_lightstyle, ent.reg, &style);
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set_t _pvs = SET_STATIC_INIT (model->brush.visleafs, alloca);
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set_t *pvs = &_pvs;
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if (light->position[3]) {
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// positional light
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mleaf_t *leaf = Mod_PointInLeaf (light->position, &model->brush);
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Mod_LeafPVS_set (leaf, &model->brush, 0, pvs);
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} else if (DotProduct (light->direction, light->direction)) {
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// directional light (sun)
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pvs = ldata->sun_pvs;
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} else {
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// ambient light
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Mod_LeafPVS_set (model->brush.leafs, &model->brush, 0, pvs);
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}
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efrag_t *efrags = 0;
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efrag_t **lastlink = &efrags;
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for (auto li = set_first (pvs); li; li = set_next (li)) {
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mleaf_t *leaf = model->brush.leafs + li->element + 1;
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if (test_light_leaf (light, leaf)) {
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lastlink = R_LinkEfrag (leaf, ent, mod_light, lastlink);
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}
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}
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Ent_SetComponent (ent.id, scene_efrags, ent.reg, &efrags);
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}
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void
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Light_EnableSun (lightingdata_t *ldata)
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{
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scene_t *scene = ldata->scene;
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auto brush = &scene->worldmodel->brush;
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if (!ldata->sun_pvs) {
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ldata->sun_pvs = set_new_size (brush->visleafs);
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}
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set_expand (ldata->sun_pvs, brush->visleafs);
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set_empty (ldata->sun_pvs);
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// Any leaf with sky surfaces can potentially see the sun, thus put
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// the sun "in" every leaf with a sky surface
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// however, skip leaf 0 as it is the exterior solid leaf
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for (unsigned l = 1; l < brush->modleafs; l++) {
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if (brush->leaf_flags[l] & SURF_DRAWSKY) {
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set_add (ldata->sun_pvs, l - 1); //pvs is 1-based
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}
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}
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// any leaf visible from a leaf with a sky surface (and thus the sun)
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// can receive shadows from the sun
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expand_pvs (ldata->sun_pvs, brush);
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}
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