qcsrc/client/particles.qc

   1 .float dphitcontentsmask;
   2
   3 .float cnt; // effect number
   4 .vector velocity; // particle velocity
   5 .float waterlevel; // direction jitter
   6 .float count; // count multiplier
   7 .float impulse; // density
   8 .string noise; // sound
   9 .float atten;
  10 .float volume;
  11 .float absolute; // 1 = count per second is absolute, 2 = only spawn at toggle
  12 .vector movedir; // trace direction
  13
  14 void Draw_PointParticles()
  15 {
  16         float n, i, fail;
  17         vector p;
  18         vector sz;
  19         vector o;
  20         o = self.origin;
  21         sz = self.maxs - self.mins;
  22         n = BGMScript(self);
  23         if(self.absolute == 2)
  24         {
  25                 if(n >= 0)
  26                         n = self.just_toggled ? self.impulse : 0;
  27                 else
  28                         n = self.impulse * drawframetime;
  29         }
  30         else
  31         {
  32                 n *= self.impulse * drawframetime;
  33                 if(self.just_toggled)
  34                         if(n < 1)
  35                                 n = 1;
  36         }
  37         if(n == 0)
  38                 return;
  39         fail = 0;
  40         for(i = random(); i <= n && fail <= 64*n; ++i)
  41         {
  42                 p = o + self.mins;
  43                 p_x += random() * sz_x;
  44                 p_y += random() * sz_y;
  45                 p_z += random() * sz_z;
  46                 if(WarpZoneLib_BoxTouchesBrush(p, p, self, world))
  47                 {
  48                         if(self.movedir != '0 0 0')
  49                         {
  50                                 traceline(p, p + normalize(self.movedir) * 4096, 0, world);
  51                                 p = trace_endpos;
  52                                 pointparticles(self.cnt, p, trace_plane_normal * vlen(self.movedir) + self.velocity + randomvec() * self.waterlevel, self.count);
  53                         }
  54                         else
  55                         {
  56                                 pointparticles(self.cnt, p, self.velocity + randomvec() * self.waterlevel, self.count);
  57                         }
  58                         if(self.noise != "")
  59                         {
  60                                 setorigin(self, p);
  61                                 sound(self, CH_AMBIENT, self.noise, VOL_BASE * self.volume, self.atten);
  62                         }
  63                         self.just_toggled = 0;
  64                 }
  65                 else if(self.absolute)
  66                 {
  67                         ++fail;
  68                         --i;
  69                 }
  70         }
  71         setorigin(self, o);
  72 }
  73
  74 void Ent_PointParticles_Remove()
  75 {
  76         if(self.noise)
  77                 strunzone(self.noise);
  78         self.noise = string_null;
  79         if(self.bgmscript)
  80                 strunzone(self.bgmscript);
  81         self.bgmscript = string_null;
  82 }
  83
  84 void Ent_PointParticles()
  85 {
  86         float f, i;
  87         vector v;
  88         f = ReadByte();
  89         if(f & 2)
  90         {
  91                 i = ReadCoord(); // density (<0: point, >0: volume)
  92                 if(i && !self.impulse && self.cnt) // self.cnt check is so it only happens if the ent already existed
  93                         self.just_toggled = 1;
  94                 self.impulse = i;
  95         }
  96         if(f & 4)
  97         {
  98                 self.origin_x = ReadCoord();
  99                 self.origin_y = ReadCoord();
 100                 self.origin_z = ReadCoord();
 101         }
 102         if(f & 1)
 103         {
 104                 self.modelindex = ReadShort();
 105                 if(f & 0x80)
 106                 {
 107                         if(self.modelindex)
 108                         {
 109                                 self.mins_x = ReadCoord();
 110                                 self.mins_y = ReadCoord();
 111                                 self.mins_z = ReadCoord();
 112                                 self.maxs_x = ReadCoord();
 113                                 self.maxs_y = ReadCoord();
 114                                 self.maxs_z = ReadCoord();
 115                         }
 116                         else
 117                         {
 118                                 self.mins    = '0 0 0';
 119                                 self.maxs_x = ReadCoord();
 120                                 self.maxs_y = ReadCoord();
 121                                 self.maxs_z = ReadCoord();
 122                         }
 123                 }
 124                 else
 125                 {
 126                         self.mins = self.maxs = '0 0 0';
 127                 }
 128
 129                 self.cnt = ReadShort(); // effect number
 130
 131                 if(f & 0x20)
 132                 {
 133                         self.velocity = decompressShortVector(ReadShort());
 134                         self.movedir = decompressShortVector(ReadShort());
 135                 }
 136                 else
 137                 {
 138                         self.velocity = self.movedir = '0 0 0';
 139                 }
 140                 if(f & 0x40)
 141                 {
 142                         self.waterlevel = ReadShort() / 16.0;
 143                         self.count = ReadByte() / 16.0;
 144                 }
 145                 else
 146                 {
 147                         self.waterlevel = 0;
 148                         self.count = 1;
 149                 }
 150                 if(self.noise)
 151                         strunzone(self.noise);
 152                 if(self.bgmscript)
 153                         strunzone(self.bgmscript);
 154                 self.noise = strzone(ReadString());
 155                 if(self.noise != "")
 156                 {
 157                         self.atten = ReadByte() / 64.0;
 158                         self.volume = ReadByte() / 255.0;
 159                 }
 160                 self.bgmscript = strzone(ReadString());
 161                 if(self.bgmscript != "")
 162                 {
 163                         self.bgmscriptattack = ReadByte() / 64.0;
 164                         self.bgmscriptdecay = ReadByte() / 64.0;
 165                         self.bgmscriptsustain = ReadByte() / 255.0;
 166                         self.bgmscriptrelease = ReadByte() / 64.0;
 167                 }
 168                 BGMScript_InitEntity(self);
 169         }
 170
 171         if(f & 2)
 172         {
 173                 self.absolute = (self.impulse >= 0);
 174                 if(!self.absolute)
 175                 {
 176                         v = self.maxs - self.mins;
 177                         self.impulse *= -v_x * v_y * v_z / 262144; // relative: particles per 64^3 cube
 178                 }
 179         }
 180
 181         if(f & 0x10)
 182                 self.absolute = 2;
 183
 184         setorigin(self, self.origin);
 185         setsize(self, self.mins, self.maxs);
 186         self.solid = SOLID_NOT;
 187         self.draw = Draw_PointParticles;
 188         self.entremove = Ent_PointParticles_Remove;
 189 }
 190
 191 .float glow_color; // palette index
 192 void Draw_Rain()
 193 {
 194     te_particlerain(self.origin + self.mins, self.origin + self.maxs, self.velocity, floor(self.count * drawframetime + random()), self.glow_color);
 195 }
 196
 197 void Draw_Snow()
 198 {
 199     te_particlesnow(self.origin + self.mins, self.origin + self.maxs, self.velocity, floor(self.count * drawframetime + random()), self.glow_color);
 200 }
 201
 202 void Ent_RainOrSnow()
 203 {
 204         self.impulse = ReadByte(); // Rain, Snow, or Whatever
 205         self.origin_x = ReadCoord();
 206         self.origin_y = ReadCoord();
 207         self.origin_z = ReadCoord();
 208         self.maxs_x = ReadCoord();
 209         self.maxs_y = ReadCoord();
 210         self.maxs_z = ReadCoord();
 211         self.velocity = decompressShortVector(ReadShort());
 212         self.count = ReadShort() * 10;
 213         self.glow_color = ReadByte(); // color
 214
 215         self.mins    = -0.5 * self.maxs;
 216         self.maxs    =  0.5 * self.maxs;
 217         self.origin  = self.origin - self.mins;
 218
 219         setorigin(self, self.origin);
 220         setsize(self, self.mins, self.maxs);
 221         self.solid = SOLID_NOT;
 222         if(self.impulse)
 223                 self.draw = Draw_Rain;
 224         else
 225                 self.draw = Draw_Snow;
 226 }
 227
 228 void Net_ReadVortexBeamParticle()
 229 {
 230         vector shotorg, endpos;
 231         float charge;
 232         shotorg_x = ReadCoord(); shotorg_y = ReadCoord(); shotorg_z = ReadCoord();
 233         endpos_x = ReadCoord(); endpos_y = ReadCoord(); endpos_z = ReadCoord();
 234         charge = ReadByte() / 255.0;
 235
 236         pointparticles(particleeffectnum("nex_muzzleflash"), shotorg, normalize(endpos - shotorg) * 1000, 1);
 237
 238         //draw either the old v2.3 beam or the new beam
 239         charge = sqrt(charge); // divide evenly among trail spacing and alpha
 240         particles_alphamin = particles_alphamax = particles_fade = charge;
 241
 242         if (autocvar_cl_particles_oldnexbeam && (getstati(STAT_ALLOW_OLDNEXBEAM) || isdemo()))
 243                 WarpZone_TrailParticles_WithMultiplier(world, particleeffectnum("TE_TEI_G3"), shotorg, endpos, 1, PARTICLES_USEALPHA | PARTICLES_USEFADE);
 244         else
 245                 WarpZone_TrailParticles_WithMultiplier(world, particleeffectnum("nex_beam"), shotorg, endpos, 1, PARTICLES_USEALPHA | PARTICLES_USEFADE);
 246 }