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fteqw/engine/common/particles.h
Spoike 1f9484f93d One d3d renderer.
Wonder how much this breaks.
Place your bets now.

git-svn-id: https://svn.code.sf.net/p/fteqw/code/trunk@2501 fc73d0e0-1445-4013-8a0c-d673dee63da5
2007-05-25 22:16:29 +00:00

307 lines
8 KiB
C

#ifndef _PARTICLES_H_
#define _PARTICLES_H_
extern int pt_explosion,
pt_pointfile,
pt_entityparticles,
pt_blob,
pt_blood,
pt_lightningblood,
pt_gunshot,
pt_wizspike,
pt_knightspike,
pt_spike,
pt_superspike,
pt_lavasplash,
pt_teleportsplash,
pt_blasterparticles,
pt_torch,
pt_flame,
pt_bullet,
pt_superbullet,
pe_default,
pe_defaulttrail;
extern int rt_blastertrail,
rt_railtrail,
rt_bubbletrail,
rt_rocket,
rt_grenade,
rt_gib,
rt_lightning1,
rt_lightning2,
rt_lightning3,
pt_lightning1_end,
pt_lightning2_end,
pt_lightning3_end;
/*
extern int rt_rocket_trail,
rt_smoke,
rt_blood,
rt_tracer,
rt_slight_blood,
rt_tracer2,
rt_voor_trail,
rt_fireball,
rt_ice,
rt_spit,
rt_spell,
rt_vorpal,
rt_setstaff,
rt_magicmissile,
rt_boneshard,
rt_scarab,
rt_acidball,
rt_bloodshot,
rt_blastertrail,
rt_railtrail,
rt_bubbletrail;
*/
struct beamseg_s;
typedef struct trailstate_s {
struct trailstate_s **key; // key to check if ts has been overwriten
struct trailstate_s *assoc; // assoc linked trail
struct beamseg_s *lastbeam; // last beam pointer (flagged with BS_LASTSEG)
union {
float lastdist; // last distance used with particle effect
float statetime; // time to emit effect again (used by spawntime field)
} state1;
union {
float laststop; // last stopping point for particle effect
float emittime; // used by r_effect emitters
} state2;
} trailstate_t;
// !!! if this is changed, it must be changed in d_ifacea.h too !!!
typedef struct particle_s
{
struct particle_s *next;
float die;
// driver-usable fields
vec3_t org;
float color; //used by sw renderer. To be removed.
vec3_t rgb;
float alpha;
float scale;
vec3_t vel; //renderer uses for sparks
float angle;
union {
float nextemit;
trailstate_t *trailstate;
} state;
// drivers never touch the following fields
float rotationspeed;
} particle_t;
typedef struct clippeddecal_s
{
struct clippeddecal_s *next;
float die;
vec3_t center;
vec3_t vertex[3];
vec2_t texcoords[3];
vec3_t rgb;
float alpha;
} clippeddecal_t;
#define BS_LASTSEG 0x1 // no draw to next, no delete
#define BS_DEAD 0x2 // segment is dead
#define BS_NODRAW 0x4 // only used for lerp switching
typedef struct beamseg_s
{
struct beamseg_s *next; // next in beamseg list
particle_t *p;
int flags; // flags for beamseg
vec3_t dir;
float texture_s;
} beamseg_t;
typedef struct skytris_s {
struct skytris_s *next;
vec3_t org;
vec3_t x;
vec3_t y;
float area;
float nexttime;
struct msurface_s *face;
} skytris_t;
//these could be deltas or absolutes depending on ramping mode.
typedef struct {
vec3_t rgb;
float alpha;
float scale;
float rotation;
} ramp_t;
typedef enum { BM_BLEND, BM_BLENDCOLOUR, BM_ADD, BM_SUBTRACT } blendmode_t;
// TODO: merge in alpha with rgb to gain benefit of vector opts
typedef struct part_type_s {
char name[MAX_QPATH];
char texname[MAX_QPATH];
vec3_t rgb;
vec3_t rgbchange;
vec3_t rgbrand;
int colorindex;
int colorrand;
float rgbchangetime;
vec3_t rgbrandsync;
float scale, alpha;
float alphachange;
float die, randdie;
float randomvel, veladd;
float orgadd;
float offsetspread;
float offsetspreadvert;
float randomvelvert;
float randscale;
float spawntime;
float spawnchance;
enum {PT_NORMAL, PT_SPARK, PT_SPARKFAN, PT_TEXTUREDSPARK, PT_BEAM, PT_DECAL} type;
blendmode_t blendmode;
float rotationstartmin, rotationstartrand;
float rotationmin, rotationrand;
float scaledelta;
float count;
float countrand;
int texturenum;
#ifdef D3DQUAKE
void *d3dtexture;
#endif
int assoc;
int cliptype;
int inwater;
float clipcount;
int emit;
float emittime;
float emitrand;
float emitstart;
float areaspread;
float areaspreadvert;
float scalefactor;
float invscalefactor;
float spawnparam1;
float spawnparam2;
/* float spawnparam3; */
float offsetup; // make this into a vec3_t later with dir, possibly for mdls
enum {
SM_BOX, //box = even spread within the area
SM_CIRCLE, //circle = around edge of a circle
SM_BALL, //ball = filled sphere
SM_SPIRAL, //spiral = spiral trail
SM_TRACER, //tracer = tracer trail
SM_TELEBOX, //telebox = q1-style telebox
SM_LAVASPLASH, //lavasplash = q1-style lavasplash
SM_UNICIRCLE, //unicircle = uniform circle
SM_FIELD, //field = synced field (brightfield, etc)
SM_DISTBALL // uneven distributed ball
} spawnmode;
float gravity;
vec3_t friction;
float clipbounce;
int stains;
enum {RAMP_NONE, RAMP_DELTA, RAMP_ABSOLUTE} rampmode;
int rampindexes;
ramp_t *ramp;
int loaded;
particle_t *particles;
clippeddecal_t *clippeddecals;
beamseg_t *beams;
skytris_t *skytris;
struct part_type_s *nexttorun;
unsigned int flags;
#define PT_VELOCITY 0x001
#define PT_FRICTION 0x002
#define PT_CHANGESCOLOUR 0x004
#define PT_CITRACER 0x008 // Q1-style tracer behavior for colorindex
#define PT_INVFRAMETIME 0x010 // apply inverse frametime to count (causes emits to be per frame)
#define PT_AVERAGETRAIL 0x020 // average trail points from start to end, useful with t_lightning, etc
#define PT_NOSTATE 0x040 // don't use trailstate for this emitter (careful with assoc...)
#define PT_NOSPREADFIRST 0x080 // don't randomize org/vel for first generated particle
#define PT_NOSPREADLAST 0x100 // don't randomize org/vel for last generated particle
unsigned int state;
#define PS_INRUNLIST 0x1 // particle type is currently in execution list
} part_type_t;
#define PARTICLE_Z_CLIP 8.0
#define frandom() (rand()*(1.0f/RAND_MAX))
#define crandom() (rand()*(2.0f/RAND_MAX)-1.0f)
#define hrandom() (rand()*(1.0f/RAND_MAX)-0.5f)
//main functions
void P_DrawParticles (void);
void P_InitParticles (void);
void P_ClearParticles (void);
//allocate a new effect
int P_ParticleTypeForName(char *name);
int P_AllocateParticleType(char *name); //find one if it exists, or create if it doesn't.
int P_FindParticleType(char *name); //checks if particle description 'name' exists, returns -1 if not.
int P_DescriptionIsLoaded(char *name); //returns true if it's usable.
qboolean P_TypeIsLoaded(int effect);
void P_SkyTri(float *v1, float *v2, float *v3, struct msurface_s *surf);
// default particle effect
void P_RunParticleEffect (vec3_t org, vec3_t dir, int color, int count); //aka: the particle builtin.
//wierd effects
void P_RunParticleEffect2 (vec3_t org, vec3_t dmin, vec3_t dmax, int color, int effect, int count); //these three are needed for hexen2.
void P_RunParticleEffect3 (vec3_t org, vec3_t box, int color, int effect, int count);
void P_RunParticleEffect4 (vec3_t org, float radius, int color, int effect, int count);
void P_EmitEffect (vec3_t pos, int type, trailstate_t **tsk); //particles centered around a model, called every frame for those models.
//functions that spawn point effects (basically just pass throughs)
void P_BlobExplosion (vec3_t org); //tarbaby explosion or TF emp.
void P_LavaSplash (vec3_t org); //cthon dying, or a gas grenade.
void P_RunParticleCube(vec3_t minb, vec3_t maxb, vec3_t dir, float count, int colour, qboolean gravity, float jitter);
void P_RunParticleWeather(vec3_t minb, vec3_t maxb, vec3_t dir, float count, int colour, char *efname);
//the core spawn function for trails. (trailstate can be null)
int P_ParticleTrail (vec3_t start, vec3_t end, int type, trailstate_t **trailstate);
void P_ParticleTrailIndex (vec3_t start, vec3_t end, int color, int rndcolor, trailstate_t **trailstate);
void P_DefaultTrail (struct model_s *model); //fills in the default particle properties for a loaded model. Should already have the model flags set.
//the core spawn function for point effects
int P_RunParticleEffectState (vec3_t org, vec3_t dir, float count, int typenum, trailstate_t **tsk); //1 if failed
int P_RunParticleEffectTypeString (vec3_t org, vec3_t dir, float count, char *name); //1 if failed.
#define P_RunParticleEffectType(a,b,c,d) P_RunParticleEffectState(a,b,c,d,NULL)
void P_EmitSkyEffectTris(struct model_s *mod, struct msurface_s *fa);
// trailstate functions
void P_DelinkTrailstate(trailstate_t **tsk);
// used for callback
extern cvar_t r_particlesdesc;
#endif