#include "simulation/Element.h" #define LIGHTING_POWER 0.65 int LIGH_nearest_part(Simulation * sim, int ci, int max_d) { int distance = (max_d!=-1)?max_d:MAX_DISTANCE; int ndistance = 0; int id = -1; int i = 0; int cx = (int)sim->parts[ci].x; int cy = (int)sim->parts[ci].y; for (i=0; i<=sim->parts_lastActiveIndex; i++) { if (sim->parts[i].type && sim->parts[i].life && i!=ci && sim->parts[i].type!=PT_LIGH && sim->parts[i].type!=PT_THDR && sim->parts[i].type!=PT_NEUT && sim->parts[i].type!=PT_PHOT) { ndistance = abs(cx-sim->parts[i].x)+abs(cy-sim->parts[i].y);// Faster but less accurate Older: sqrt(pow(cx-parts[i].x, 2)+pow(cy-parts[i].y, 2)); if (ndistanceparts[i].x, y=sim->parts[i].y; int r,rx,ry; for (rx=-2; rx<3; rx++) for (ry=-2; ry<3; ry++) if (x+rx>=0 && y+ry>=0 && x+rxpmap[y+ry][x+rx]; if (!r) continue; if ((r&0xFF)==tp) return r>>8; } return -1; } void create_line_par(Simulation * sim, int x1, int y1, int x2, int y2, int c, int temp, int life, int tmp, int tmp2) { int cp=abs(y2-y1)>abs(x2-x1), x, y, dx, dy, sy; float e, de; if (c==WL_EHOLE || c==WL_ALLOWGAS || c==WL_ALLOWALLELEC || c==WL_ALLOWSOLID || c==WL_ALLOWAIR || c==WL_WALL || c==WL_DESTROYALL || c==WL_ALLOWLIQUID || c==WL_FAN || c==WL_STREAM || c==WL_DETECT || c==WL_EWALL || c==WL_WALLELEC) return; // this function only for particles, no walls if (cp) { y = x1; x1 = y1; y1 = y; y = x2; x2 = y2; y2 = y; } if (x1 > x2) { y = x1; x1 = x2; x2 = y; y = y1; y1 = y2; y2 = y; } dx = x2 - x1; dy = abs(y2 - y1); e = 0.0f; if (dx) de = dy/(float)dx; else de = 0.0f; y = y1; sy = (y1create_part(-1, y, x, c); else p = sim->create_part(-1, x, y,c); if (p!=-1) { sim->parts[p].life = life; sim->parts[p].temp = temp; sim->parts[p].tmp = tmp; sim->parts[p].tmp2 = tmp2; } e += de; if (e >= 0.5f) { y += sy; e -= 1.0f; } } } int update_LIGH(UPDATE_FUNC_ARGS) { /* * * tmp2: * -1 - part will be removed * 0 - "branches" of the lightning * 1 - bending * 2 - branching * 3 - transfer spark or make destruction * 4 - first pixel * * life - "thickness" of lighting (but anyway one pixel) * * tmp - angle of lighting * */ int r,rx,ry, multipler, powderful; float angle, angle2=-1; int pNear = 0; powderful = powderful = parts[i].temp*(1+parts[i].life/40)*LIGHTING_POWER; update_PYRO(UPDATE_FUNC_SUBCALL_ARGS); if (sim->aheat_enable) { sim->hv[y/CELL][x/CELL]+=powderful/50; if (sim->hv[y/CELL][x/CELL]>MAX_TEMP) sim->hv[y/CELL][x/CELL]=MAX_TEMP; } for (rx=-2; rx<3; rx++) for (ry=-2; ry<3; ry++) if (x+rx>=0 && y+ry>=0 && x+rxptypes[r&0xFF].properties&PROP_CONDUCTS) && parts[r>>8].life==0) { sim->create_part(r>>8,x+rx,y+ry,PT_SPRK); } sim->pv[y/CELL][x/CELL] += powderful/400; if (sim->ptypes[r&0xFF].hconduct) parts[r>>8].temp = restrict_flt(parts[r>>8].temp+powderful/1.5, MIN_TEMP, MAX_TEMP); } if ((r&0xFF)==PT_DEUT || (r&0xFF)==PT_PLUT) // start nuclear reactions { parts[r>>8].temp = restrict_flt(parts[r>>8].temp+powderful, MIN_TEMP, MAX_TEMP); sim->pv[y/CELL][x/CELL] +=powderful/35; if (rand()%3==0) { sim->part_change_type(r>>8,x+rx,y+ry,PT_NEUT); parts[r>>8].life = rand()%480+480; parts[r>>8].vx=rand()%10-5; parts[r>>8].vy=rand()%10-5; } } if ((r&0xFF)==PT_COAL || (r&0xFF)==PT_BCOL) // ignite coal { if (parts[r>>8].life>100) { parts[r>>8].life = 99; } } if (sim->ptypes[r&0xFF].hconduct) parts[r>>8].temp = restrict_flt(parts[r>>8].temp+powderful/10, MIN_TEMP, MAX_TEMP); if (((r&0xFF)==PT_STKM && sim->player.elem!=PT_LIGH) || ((r&0xFF)==PT_STKM2 && sim->player2.elem!=PT_LIGH)) { parts[r>>8].life-=powderful/100; } } } if (parts[i].tmp2==3) { parts[i].tmp2=0; return 1; } if (parts[i].tmp2==-1) { sim->kill_part(i); return 1; } if (parts[i].tmp2<=0 || parts[i].life<=1) { if (parts[i].tmp2>0) parts[i].tmp2=0; parts[i].tmp2--; return 1; } if (parts[i].tmp2<=-2) { sim->kill_part(i); return 1; } angle2=-1; pNear = LIGH_nearest_part(sim, i, parts[i].life*2.5); if (pNear!=-1) { int t=parts[pNear].type; float n_angle; // angle to nearest part rx=parts[pNear].x-x; ry=parts[pNear].y-y; if (rx*rx+ry*ry!=0) n_angle = asin(-ry/sqrt(rx*rx+ry*ry)); else n_angle = 0; if (n_angle<0) n_angle+=M_PI*2; if (parts[i].life<5 || fabs(n_angle-parts[i].tmp*M_PI/180)=360) angle-=360; if (parts[i].tmp2==2 && pNear==-1) { angle2=angle+100-rand()%200; if (angle2<0) angle2+=360; if (angle2>=360) angle-=360; } multipler=parts[i].life*1.5+rand()%((int)(parts[i].life+1)); rx=cos(angle*M_PI/180)*multipler; ry=-sin(angle*M_PI/180)*multipler; create_line_par(sim, x, y, x+rx, y+ry, PT_LIGH, parts[i].temp, parts[i].life, angle, 0); if (x+rx>=0 && y+ry>=0 && x+rx>8].tmp2=1+(rand()%200>parts[i].tmp2*parts[i].tmp2/10+60); parts[r>>8].life=(int)(1.0*parts[i].life/1.5-rand()%2); parts[r>>8].tmp=angle; parts[r>>8].temp=parts[i].temp; } } if (angle2!=-1) { multipler=parts[i].life*1.5+rand()%((int)(parts[i].life+1)); rx=cos(angle2*M_PI/180)*multipler; ry=-sin(angle2*M_PI/180)*multipler; create_line_par(sim, x, y, x+rx, y+ry, PT_LIGH, parts[i].temp, parts[i].life, angle2, 0); if (x+rx>=0 && y+ry>0 && x+rx>8].tmp2=1+(rand()%200>parts[i].tmp2*parts[i].tmp2/10+40); parts[r>>8].life=(int)(1.0*parts[i].life/1.5-rand()%2); parts[r>>8].tmp=angle; parts[r>>8].temp=parts[i].temp; } } } parts[i].tmp2=-1; return 1; } int graphics_LIGH(GRAPHICS_FUNC_ARGS) { *colr = 235; *colg = 245; *colb = 255; *pixel_mode |= PMODE_GLOW; return 1; }