#include "simulation/Elements.h" //#TPT-Directive ElementClass Element_DEUT PT_DEUT 95 Element_DEUT::Element_DEUT() { Identifier = "DEFAULT_PT_DEUT"; Name = "DEUT"; Colour = PIXPACK(0x00153F); MenuVisible = 1; MenuSection = SC_NUCLEAR; Enabled = 1; Advection = 0.6f; AirDrag = 0.01f * CFDS; AirLoss = 0.98f; Loss = 0.95f; Collision = 0.0f; Gravity = 0.1f; Diffusion = 0.00f; HotAir = 0.000f * CFDS; Falldown = 2; Flammable = 0; Explosive = 0; Meltable = 0; Hardness = 20; Weight = 31; Temperature = R_TEMP-2.0f +273.15f; HeatConduct = 251; Description = "Deuterium oxide. Volume changes with temp, radioactive with neutrons."; State = ST_LIQUID; Properties = TYPE_LIQUID|PROP_NEUTPENETRATE; LowPressure = IPL; LowPressureTransition = NT; HighPressure = IPH; HighPressureTransition = NT; LowTemperature = ITL; LowTemperatureTransition = NT; HighTemperature = ITH; HighTemperatureTransition = NT; Update = &Element_DEUT::update; Graphics = &Element_DEUT::graphics; } //#TPT-Directive ElementHeader Element_DEUT static int update(UPDATE_FUNC_ARGS) int Element_DEUT::update(UPDATE_FUNC_ARGS) { int r, rx, ry, trade, np; float gravtot = fabs(sim->gravy[(y/CELL)*(XRES/CELL)+(x/CELL)])+fabs(sim->gravx[(y/CELL)*(XRES/CELL)+(x/CELL)]); int maxlife = ((10000/(parts[i].temp + 1))-1); if ((10000%((int)parts[i].temp+1))>rand()%((int)parts[i].temp+1)) maxlife ++; // Compress when Newtonian gravity is applied // multiplier=1 when gravtot=0, multiplier -> 5 as gravtot -> inf maxlife = maxlife*(5.0f - 8.0f/(gravtot+2.0f)); if (parts[i].life < maxlife) { for (rx=-1; rx<2; rx++) for (ry=-1; ry<2; ry++) if (x+rx>=0 && y+ry>0 && x+rx=maxlife)) continue; if ((r&0xFF)==PT_DEUT&& !(rand()%3)) { if ((parts[i].life + parts[r>>8].life + 1) <= maxlife) { parts[i].life += parts[r>>8].life + 1; sim->kill_part(r>>8); } } } } else for (rx=-1; rx<2; rx++) for (ry=-1; ry<2; ry++) if (x+rx>=0 && y+ry>0 && x+rx=1)//if nothing then create deut { np = sim->create_part(-1,x+rx,y+ry,PT_DEUT); if (np<0) continue; parts[i].life--; parts[np].temp = parts[i].temp; parts[np].life = 0; } } for ( trade = 0; trade<4; trade ++) { rx = rand()%5-2; ry = rand()%5-2; if (x+rx>=0 && y+ry>0 && x+rxparts[r>>8].life)&&parts[i].life>0)//diffusion { int temp = parts[i].life - parts[r>>8].life; if (temp ==1) { parts[r>>8].life ++; parts[i].life --; } else if (temp>0) { parts[r>>8].life += temp/2; parts[i].life -= temp/2; } } } } return 0; } //#TPT-Directive ElementHeader Element_DEUT static int graphics(GRAPHICS_FUNC_ARGS) int Element_DEUT::graphics(GRAPHICS_FUNC_ARGS) { if(cpart->life>=700) { *firea = 60; *firer = *colr += cpart->life*1; *fireg = *colg += cpart->life*2; *fireb = *colb += cpart->life*3; *pixel_mode |= PMODE_GLOW | FIRE_ADD; } else { *colr += cpart->life*1; *colg += cpart->life*2; *colb += cpart->life*3; *pixel_mode |= PMODE_BLUR; } return 0; } Element_DEUT::~Element_DEUT() {}