#include <cstdlib>
#include <math.h>
#define _cplusplus
#include "Config.h"
#include "Simulation.h"
#include "Elements.h"
#include "ElementFunctions.h"
#include "Air.h"
#include "Gravity.h"
//#include "powder.h"

void Simulation::clear_area(int area_x, int area_y, int area_w, int area_h)
{
	int cx = 0;
	int cy = 0;
	for (cy=0; cy<area_h; cy++)
	{
		for (cx=0; cx<area_w; cx++)
		{
			bmap[(cy+area_y)/CELL][(cx+area_x)/CELL] = 0;
			delete_part(cx+area_x, cy+area_y, 0);
		}
	}
}

void Simulation::create_box(int x1, int y1, int x2, int y2, int c, int flags)
{
	int i, j;
	if (c==SPC_PROP)
		return;
	if (x1>x2)
	{
		i = x2;
		x2 = x1;
		x1 = i;
	}
	if (y1>y2)
	{
		j = y2;
		y2 = y1;
		y1 = j;
	}
	for (j=y1; j<=y2; j++)
		for (i=x1; i<=x2; i++)
			create_parts(i, j, 0, 0, c, flags);
}

int Simulation::flood_prop_2(int x, int y, size_t propoffset, void * propvalue, int proptype, int parttype, char * bitmap)
{
	int x1, x2, i, dy = 1;
	x1 = x2 = x;
	while (x1>=CELL)
	{
		if ((pmap[y][x1-1]&0xFF)!=parttype || bitmap[(y*XRES)+x1-1])
		{
			break;
		}
		x1--;
	}
	while (x2<XRES-CELL)
	{
		if ((pmap[y][x2+1]&0xFF)!=parttype || bitmap[(y*XRES)+x2+1])
		{
			break;
		}
		x2++;
	}
	for (x=x1; x<=x2; x++)
	{
		i = pmap[y][x]>>8;
		if(proptype==2){
			*((float*)(((char*)&parts[i])+propoffset)) = *((float*)propvalue);
		} else if(proptype==0) {
			*((int*)(((char*)&parts[i])+propoffset)) = *((int*)propvalue);
		} else if(proptype==1) {
			*((char*)(((char*)&parts[i])+propoffset)) = *((char*)propvalue);
		}
		bitmap[(y*XRES)+x] = 1;
	}
	if (y>=CELL+dy)
		for (x=x1; x<=x2; x++)
			if ((pmap[y-dy][x]&0xFF)==parttype && !bitmap[((y-dy)*XRES)+x])
				if (!flood_prop_2(x, y-dy, propoffset, propvalue, proptype, parttype, bitmap))
					return 0;
	if (y<YRES-CELL-dy)
		for (x=x1; x<=x2; x++)
			if ((pmap[y+dy][x]&0xFF)==parttype && !bitmap[((y+dy)*XRES)+x])
				if (!flood_prop_2(x, y+dy, propoffset, propvalue, proptype, parttype, bitmap))
					return 0;
	return 1;
}

int Simulation::flood_prop(int x, int y, size_t propoffset, void * propvalue, int proptype)
{
	int r = 0;
	char * bitmap = (char *)malloc(XRES*YRES); //Bitmap for checking
	memset(bitmap, 0, XRES*YRES);
	r = pmap[y][x];
	flood_prop_2(x, y, propoffset, propvalue, proptype, r&0xFF, bitmap);
	free(bitmap);
	return 0;
}

int Simulation::flood_parts(int x, int y, int fullc, int cm, int bm, int flags)
{
	int c = fullc&0xFF;
	int x1, x2, dy = (c<PT_NUM)?1:CELL;
	int co = c;
	if (c==SPC_PROP)
		return 0;
	if (cm==PT_INST&&co==PT_SPRK)
		if ((pmap[y][x]&0xFF)==PT_SPRK)
			return 0;
	if (cm==-1)
	{
		if (c==0)
		{
			cm = pmap[y][x]&0xFF;
			if (!cm)
				return 0;
			//if ((flags&BRUSH_REPLACEMODE) && cm!=SLALT)
			//	return 0;
		}
		else
			cm = 0;
	}
	if (bm==-1)
	{
		if (c-UI_WALLSTART+UI_ACTUALSTART==WL_ERASE)
		{
			bm = bmap[y/CELL][x/CELL];
			if (!bm)
				return 0;
			if (bm==WL_WALL)
				cm = 0xFF;
		}
		else
			bm = 0;
	}

	if (((pmap[y][x]&0xFF)!=cm || bmap[y/CELL][x/CELL]!=bm )/*||( (flags&BRUSH_SPECIFIC_DELETE) && cm!=SLALT)*/)
		return 1;

	// go left as far as possible
	x1 = x2 = x;
	while (x1>=CELL)
	{
		if ((pmap[y][x1-1]&0xFF)!=cm || bmap[y/CELL][(x1-1)/CELL]!=bm)
		{
			break;
		}
		x1--;
	}
	while (x2<XRES-CELL)
	{
		if ((pmap[y][x2+1]&0xFF)!=cm || bmap[y/CELL][(x2+1)/CELL]!=bm)
		{
			break;
		}
		x2++;
	}

	// fill span
	for (x=x1; x<=x2; x++)
	{
		if (cm==PT_INST&&co==PT_SPRK)
		{
			if (create_part(-1,x, y, fullc)==-1)
				return 0;
		}
		else if (!create_parts(x, y, 0, 0, fullc, flags))
			return 0;
	}
	// fill children
	if (cm==PT_INST&&co==PT_SPRK)//wire crossing for INST
	{
		if (y>=CELL+dy && x1==x2 &&
		        ((pmap[y-1][x1-1]&0xFF)==PT_INST||(pmap[y-1][x1-1]&0xFF)==PT_SPRK) && ((pmap[y-1][x1]&0xFF)==PT_INST||(pmap[y-1][x1]&0xFF)==PT_SPRK) && ((pmap[y-1][x1+1]&0xFF)==PT_INST || (pmap[y-1][x1+1]&0xFF)==PT_SPRK) &&
		        (pmap[y-2][x1-1]&0xFF)!=PT_INST && ((pmap[y-2][x1]&0xFF)==PT_INST ||(pmap[y-2][x1]&0xFF)==PT_SPRK) && (pmap[y-2][x1+1]&0xFF)!=PT_INST)
			flood_parts(x1, y-2, fullc, cm, bm, flags);
		else if (y>=CELL+dy)
			for (x=x1; x<=x2; x++)
				if ((pmap[y-1][x]&0xFF)!=PT_SPRK)
				{
					if (x==x1 || x==x2 || y>=YRES-CELL-1 ||
					        (pmap[y-1][x-1]&0xFF)==PT_INST || (pmap[y-1][x+1]&0xFF)==PT_INST ||
					        (pmap[y+1][x-1]&0xFF)==PT_INST || ((pmap[y+1][x]&0xFF)!=PT_INST&&(pmap[y+1][x]&0xFF)!=PT_SPRK) || (pmap[y+1][x+1]&0xFF)==PT_INST)
						flood_parts(x, y-dy, fullc, cm, bm, flags);

				}

		if (y<YRES-CELL-dy && x1==x2 &&
		        ((pmap[y+1][x1-1]&0xFF)==PT_INST||(pmap[y+1][x1-1]&0xFF)==PT_SPRK) && ((pmap[y+1][x1]&0xFF)==PT_INST||(pmap[y+1][x1]&0xFF)==PT_SPRK) && ((pmap[y+1][x1+1]&0xFF)==PT_INST || (pmap[y+1][x1+1]&0xFF)==PT_SPRK) &&
		        (pmap[y+2][x1-1]&0xFF)!=PT_INST && ((pmap[y+2][x1]&0xFF)==PT_INST ||(pmap[y+2][x1]&0xFF)==PT_SPRK) && (pmap[y+2][x1+1]&0xFF)!=PT_INST)
			flood_parts(x1, y+2, fullc, cm, bm, flags);
		else if (y<YRES-CELL-dy)
			for (x=x1; x<=x2; x++)
				if ((pmap[y+1][x]&0xFF)!=PT_SPRK)
				{
					if (x==x1 || x==x2 || y<0 ||
					        (pmap[y+1][x-1]&0xFF)==PT_INST || (pmap[y+1][x+1]&0xFF)==PT_INST ||
					        (pmap[y-1][x-1]&0xFF)==PT_INST || ((pmap[y-1][x]&0xFF)!=PT_INST&&(pmap[y-1][x]&0xFF)!=PT_SPRK) || (pmap[y-1][x+1]&0xFF)==PT_INST)
						flood_parts(x, y+dy, fullc, cm, bm, flags);

				}
	}
	else
	{
		if (y>=CELL+dy)
			for (x=x1; x<=x2; x++)
				if ((pmap[y-dy][x]&0xFF)==cm && bmap[(y-dy)/CELL][x/CELL]==bm)
					if (!flood_parts(x, y-dy, fullc, cm, bm, flags))
						return 0;
		if (y<YRES-CELL-dy)
			for (x=x1; x<=x2; x++)
				if ((pmap[y+dy][x]&0xFF)==cm && bmap[(y+dy)/CELL][x/CELL]==bm)
					if (!flood_parts(x, y+dy, fullc, cm, bm, flags))
						return 0;
	}
	if (!(cm==PT_INST&&co==PT_SPRK))
		return 1;
	return 0;
}

int Simulation::flood_water(int x, int y, int i, int originaly, int check)
{
	int x1 = 0,x2 = 0;
	// go left as far as possible
	x1 = x2 = x;
	if (!pmap[y][x])
		return 1;

	while (x1>=CELL)
	{
		if ((ptypes[(pmap[y][x1-1]&0xFF)].falldown)!=2)
		{
			break;
		}
		x1--;
	}
	while (x2<XRES-CELL)
	{
		if ((ptypes[(pmap[y][x2+1]&0xFF)].falldown)!=2)
		{
			break;
		}
		x2++;
	}

	// fill span
	for (x=x1; x<=x2; x++)
	{
		parts[pmap[y][x]>>8].tmp2 = !check;//flag it as checked, maybe shouldn't use .tmp2
		//check above, maybe around other sides too?
		if ( ((y-1) > originaly) && !pmap[y-1][x] && eval_move(parts[i].type, x, y-1, NULL))
		{
			int oldx = (int)(parts[i].x + 0.5f);
			int oldy = (int)(parts[i].y + 0.5f);
			pmap[y-1][x] = pmap[oldy][oldx];
			pmap[oldy][oldx] = 0;
			parts[i].x = x;
			parts[i].y = y-1;
			return 0;
		}
	}
	// fill children

	if (y>=CELL+1)
		for (x=x1; x<=x2; x++)
			if ((ptypes[(pmap[y-1][x]&0xFF)].falldown)==2 && parts[pmap[y-1][x]>>8].tmp2 == check)
				if (!flood_water(x, y-1, i, originaly, check))
					return 0;
	if (y<YRES-CELL-1)
		for (x=x1; x<=x2; x++)
			if ((ptypes[(pmap[y+1][x]&0xFF)].falldown)==2 && parts[pmap[y+1][x]>>8].tmp2 == check)
				if (!flood_water(x, y+1, i, originaly, check))
					return 0;
	return 1;
}

//wrapper around create_part to create TESC with correct tmp value
int Simulation::create_part_add_props(int p, int x, int y, int tv, int rx, int ry)
{
	p=create_part(p, x, y, tv);
	if (tv==PT_TESC)
	{
		parts[p].tmp=rx*4+ry*4+7;
		if (parts[p].tmp>300)
			parts[p].tmp=300;
	}
	return p;
}

//this creates particles from a brush, don't use if you want to create one particle
int Simulation::create_parts(int x, int y, int rx, int ry, int c, int flags)
{
	int i, j, r, f = 0, u, v, oy, ox, b = 0, dw = 0, stemp = 0, p;//n;

	int wall = c - 100;
	if (c==SPC_WIND || c==PT_FIGH)
		return 0;

	//if(c==SPC_PROP){
	//	prop_edit_ui(vid_buf, x, y);
	//	return 0;
	//}
	for (r=UI_ACTUALSTART; r<=UI_ACTUALSTART+UI_WALLCOUNT; r++)
	{
		if (wall==r)
		{
			if (c == SPC_AIR || c == SPC_HEAT || c == SPC_COOL || c == SPC_VACUUM || c == SPC_PGRV || c == SPC_NGRV || wall == WL_SIGN)
				break;
			if (wall == WL_ERASE)
				b = 0;
			else
				b = wall;
			dw = 1;
		}
	}
	if (c == WL_FANHELPER)
	{
		b = WL_FANHELPER;
		dw = 1;
	}
	if (wall == WL_GRAV)
	{
		gravwl_timeout = 60;
	}
	if (c==PT_LIGH)
	{
	    if (lighting_recreate>0 && rx+ry>0)
            return 0;
        p=create_part(-2, x, y, c);
        if (p!=-1)
        {
            parts[p].life=rx+ry;
            if (parts[p].life>55)
                parts[p].life=55;
            parts[p].temp=parts[p].life*150; // temperature of the lighting shows the power of the lighting
            lighting_recreate+=parts[p].life/2+1;
            return 1;
        }
        else return 0;
	}

	if (dw==1)
	{
		ry = ry/CELL;
		rx = rx/CELL;
		x = x/CELL;
		y = y/CELL;
		x -= rx/2;
		y -= ry/2;
		for (ox=x; ox<=x+rx; ox++)
		{
			for (oy=y; oy<=y+rx; oy++)
			{
				if (ox>=0&&ox<XRES/CELL&&oy>=0&&oy<YRES/CELL)
				{
					i = ox;
					j = oy;
					/*if ((flags&BRUSH_SPECIFIC_DELETE) && b!=WL_FANHELPER)
					{
						if (bmap[j][i]==SLALT-100)
						{
							b = 0;
							if (SLALT==WL_GRAV) gravwl_timeout = 60;
						}
						else
							continue;
					}*/
					if (b==WL_FAN)
					{
						fvx[j][i] = 0.0f;
						fvy[j][i] = 0.0f;
					}
					if (b==WL_STREAM)
					{
						i = x + rx/2;
						j = y + ry/2;
						for (v=-1; v<2; v++)
							for (u=-1; u<2; u++)
								if (i+u>=0 && i+u<XRES/CELL &&
								        j+v>=0 && j+v<YRES/CELL &&
								        bmap[j+v][i+u] == WL_STREAM)
									return 1;
						bmap[j][i] = WL_STREAM;
						continue;
					}
					if (b==0 && bmap[j][i]==WL_GRAV) gravwl_timeout = 60;
					bmap[j][i] = b;
				}
			}
		}
		return 1;
	}

	//eraser
	if (c == 0/* && !(flags&BRUSH_REPLACEMODE)*/)
	{
		if (rx==0&&ry==0)
		{
			delete_part(x, y, 0);
		}
		else
			for (j=-ry; j<=ry; j++)
				for (i=-rx; i<=rx; i++)
					//if (InCurrentBrush(i ,j ,rx ,ry))
						delete_part(x+i, y+j, 0);
		return 1;
	}

	//specific deletion
	/*if ((flags&BRUSH_SPECIFIC_DELETE)&& !(flags&BRUSH_REPLACEMODE))
	{
		if (rx==0&&ry==0)
		{
			delete_part(x, y, flags);
		}
		else
			for (j=-ry; j<=ry; j++)
				for (i=-rx; i<=rx; i++)
					if (InCurrentBrush(i ,j ,rx ,ry))
						delete_part(x+i, y+j, flags);
		return 1;
	}*/

	//why do these need a special if
	if (c == SPC_AIR || c == SPC_HEAT || c == SPC_COOL || c == SPC_VACUUM || c == SPC_PGRV || c == SPC_NGRV)
	{
		if (rx==0&&ry==0)
		{
			create_part(-2, x, y, c);
		}
		else
			for (j=-ry; j<=ry; j++)
				for (i=-rx; i<=rx; i++)
					//if (InCurrentBrush(i ,j ,rx ,ry))
					{
						if ( x+i<0 || y+j<0 || x+i>=XRES || y+j>=YRES)
							continue;
						//if (!REPLACE_MODE)
							create_part(-2, x+i, y+j, c);
						/*else if ((pmap[y+j][x+i]&0xFF)==SLALT&&SLALT!=0)
							create_part(-2, x+i, y+j, c);*/
					}
		return 1;
	}

	/*if (flags&BRUSH_REPLACEMODE)
	{
		if (rx==0&&ry==0)
		{
			if ((pmap[y][x]&0xFF)==SLALT || SLALT==0)
			{
				if ((pmap[y][x]))
				{
					delete_part(x, y, 0);
					if (c!=0)
						create_part_add_props(-2, x, y, c, rx, ry);
				}
			}
		}
		else
			for (j=-ry; j<=ry; j++)
				for (i=-rx; i<=rx; i++)
					if (InCurrentBrush(i ,j ,rx ,ry))
					{
						if ( x+i<0 || y+j<0 || x+i>=XRES || y+j>=YRES)
							continue;
						if ((pmap[y+j][x+i]&0xFF)!=SLALT&&SLALT!=0)
							continue;
						if ((pmap[y+j][x+i]))
						{
							delete_part(x+i, y+j, 0);
							if (c!=0)
								create_part_add_props(-2, x+i, y+j, c, rx, ry);
						}
					}
		return 1;

	}*/
	//else, no special modes, draw element like normal.
	if (rx==0&&ry==0)//workaround for 1pixel brush/floodfill crashing. todo: find a better fix later.
	{
		if (create_part_add_props(-2, x, y, c, rx, ry)==-1)
			f = 1;
	}
	else
		for (j=-ry; j<=ry; j++)
			for (i=-rx; i<=rx; i++)
				//if (InCurrentBrush(i ,j ,rx ,ry))
					if (create_part_add_props(-2, x+i, y+j, c, rx, ry)==-1)
						f = 1;
	return !f;
}
/*int Simulation::InCurrentBrush(int i, int j, int rx, int ry)
{
	switch(CURRENT_BRUSH)
	{
		case CIRCLE_BRUSH:
			return (pow(i,2)*pow(ry,2)+pow(j,2)*pow(rx,2)<=pow(rx,2)*pow(ry,2));
			break;
		case SQUARE_BRUSH:
			return (i*j<=ry*rx);
			break;
		case TRI_BRUSH:
			return (j <= ry ) && ( j >= (((-2.0*ry)/rx)*i) -ry) && ( j >= (((-2.0*ry)/(-rx))*i)-ry ) ;
			break;
	}
	return 0;
}
int Simulation::get_brush_flags()
{
	int flags = 0;
	if (REPLACE_MODE)
		flags |= BRUSH_REPLACEMODE;
	if (sdl_mod & KMOD_CAPS)
		flags |= BRUSH_SPECIFIC_DELETE;
	if ((sdl_mod & KMOD_LALT) && (sdl_mod & (KMOD_CTRL)))
		flags |= BRUSH_SPECIFIC_DELETE;
	return flags;
}*/
void Simulation::create_line(int x1, int y1, int x2, int y2, int rx, int ry, int c, int flags)
{
	int cp=abs(y2-y1)>abs(x2-x1), x, y, dx, dy, sy;
	float e, de;
	if (c==SPC_PROP)
		return;
	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 = (y1<y2) ? 1 : -1;
	for (x=x1; x<=x2; x++)
	{
		if (cp)
			create_parts(y, x, rx, ry, c, flags);
		else
			create_parts(x, y, rx, ry, c, flags);
		e += de;
		if (e >= 0.5f)
		{
			y += sy;
			if ((c==WL_EHOLE+100 || c==WL_ALLOWGAS+100 || c==WL_ALLOWENERGY+100 || c==WL_ALLOWALLELEC+100 || c==WL_ALLOWSOLID+100 || c==WL_ALLOWAIR+100 || c==WL_WALL+100 || c==WL_DESTROYALL+100 || c==WL_ALLOWLIQUID+100 || c==WL_FAN+100 || c==WL_STREAM+100 || c==WL_DETECT+100 || c==WL_EWALL+100 || c==WL_WALLELEC+100 || !(rx+ry))
			   && ((y1<y2) ? (y<=y2) : (y>=y2)))
			{
				if (cp)
					create_parts(y, x, rx, ry, c, flags);
				else
					create_parts(x, y, rx, ry, c, flags);
			}
			e -= 1.0f;
		}
	}
}

void *Simulation::transform_save(void *odata, int *size, matrix2d transform, vector2d translate)
{
	void *ndata;
	unsigned char (*bmapo)[XRES/CELL] = (unsigned char (*)[XRES/CELL])calloc((YRES/CELL)*(XRES/CELL), sizeof(unsigned char));
	unsigned char (*bmapn)[XRES/CELL] = (unsigned char (*)[XRES/CELL])calloc((YRES/CELL)*(XRES/CELL), sizeof(unsigned char));
	Particle *partst = (Particle *)calloc(sizeof(Particle), NPART);
	sign *signst = (sign *)calloc(MAXSIGNS, sizeof(sign));
	unsigned (*pmapt)[XRES] = (unsigned (*)[XRES])calloc(YRES*XRES, sizeof(unsigned));
	float (*fvxo)[XRES/CELL] = (float (*)[XRES/CELL])calloc((YRES/CELL)*(XRES/CELL), sizeof(float));
	float (*fvyo)[XRES/CELL] = (float (*)[XRES/CELL])calloc((YRES/CELL)*(XRES/CELL), sizeof(float));
	float (*fvxn)[XRES/CELL] = (float (*)[XRES/CELL])calloc((YRES/CELL)*(XRES/CELL), sizeof(float));
	float (*fvyn)[XRES/CELL] = (float (*)[XRES/CELL])calloc((YRES/CELL)*(XRES/CELL), sizeof(float));
	int i, x, y, nx, ny, w, h, nw, nh;
	vector2d pos, tmp, ctl, cbr;
	vector2d cornerso[4];
	unsigned char *odatac = (unsigned char *)odata;
	//*if (parse_save(odata, *size, 0, 0, 0, bmapo, fvxo, fvyo, signst, partst, pmapt)) TODO: IMPLEMENT
	{
		free(bmapo);
		free(bmapn);
		free(partst);
		free(signst);
		free(pmapt);
		free(fvxo);
		free(fvyo);
		free(fvxn);
		free(fvyn);
		return odata;
	}
	w = odatac[6]*CELL;
	h = odatac[7]*CELL;
	// undo any translation caused by rotation
	cornerso[0] = v2d_new(0,0);
	cornerso[1] = v2d_new(w-1,0);
	cornerso[2] = v2d_new(0,h-1);
	cornerso[3] = v2d_new(w-1,h-1);
	for (i=0; i<4; i++)
	{
		tmp = m2d_multiply_v2d(transform,cornerso[i]);
		if (i==0) ctl = cbr = tmp; // top left, bottom right corner
		if (tmp.x<ctl.x) ctl.x = tmp.x;
		if (tmp.y<ctl.y) ctl.y = tmp.y;
		if (tmp.x>cbr.x) cbr.x = tmp.x;
		if (tmp.y>cbr.y) cbr.y = tmp.y;
	}
	// casting as int doesn't quite do what we want with negative numbers, so use floor()
	tmp = v2d_new(floor(ctl.x+0.5f),floor(ctl.y+0.5f));
	translate = v2d_sub(translate,tmp);
	nw = floor(cbr.x+0.5f)-floor(ctl.x+0.5f)+1;
	nh = floor(cbr.y+0.5f)-floor(ctl.y+0.5f)+1;
	if (nw>XRES) nw = XRES;
	if (nh>YRES) nh = YRES;
	// rotate and translate signs, parts, walls
	for (i=0; i<MAXSIGNS; i++)
	{
		if (!signst[i].text[0]) continue;
		pos = v2d_new(signst[i].x, signst[i].y);
		pos = v2d_add(m2d_multiply_v2d(transform,pos),translate);
		nx = floor(pos.x+0.5f);
		ny = floor(pos.y+0.5f);
		if (nx<0 || nx>=nw || ny<0 || ny>=nh)
		{
			signst[i].text[0] = 0;
			continue;
		}
		signst[i].x = nx;
		signst[i].y = ny;
	}
	for (i=0; i<NPART; i++)
	{
		if (!partst[i].type) continue;
		pos = v2d_new(partst[i].x, partst[i].y);
		pos = v2d_add(m2d_multiply_v2d(transform,pos),translate);
		nx = floor(pos.x+0.5f);
		ny = floor(pos.y+0.5f);
		if (nx<0 || nx>=nw || ny<0 || ny>=nh)
		{
			partst[i].type = PT_NONE;
			continue;
		}
		partst[i].x = nx;
		partst[i].y = ny;
	}
	for (y=0; y<YRES/CELL; y++)
		for (x=0; x<XRES/CELL; x++)
		{
			pos = v2d_new(x*CELL+CELL*0.4f, y*CELL+CELL*0.4f);
			pos = v2d_add(m2d_multiply_v2d(transform,pos),translate);
			nx = pos.x/CELL;
			ny = pos.y/CELL;
			if (nx<0 || nx>=nw || ny<0 || ny>=nh)
				continue;
			if (bmapo[y][x])
			{
				bmapn[ny][nx] = bmapo[y][x];
				if (bmapo[y][x]==WL_FAN)
				{
					fvxn[ny][nx] = fvxo[y][x];
					fvyn[ny][nx] = fvyo[y][x];
				}
			}
		}
	//ndata = build_save(size,0,0,nw,nh,bmapn,fvxn,fvyn,signst,partst); TODO: IMPLEMENT
	free(bmapo);
	free(bmapn);
	free(partst);
	free(signst);
	free(pmapt);
	free(fvxo);
	free(fvyo);
	free(fvxn);
	free(fvyn);
	return ndata;
}

void Simulation::orbitalparts_get(int block1, int block2, int resblock1[], int resblock2[])
{
	resblock1[0] = (block1&0x000000FF);
	resblock1[1] = (block1&0x0000FF00)>>8;
	resblock1[2] = (block1&0x00FF0000)>>16;
	resblock1[3] = (block1&0xFF000000)>>24;

	resblock2[0] = (block2&0x000000FF);
	resblock2[1] = (block2&0x0000FF00)>>8;
	resblock2[2] = (block2&0x00FF0000)>>16;
	resblock2[3] = (block2&0xFF000000)>>24;
}

void Simulation::orbitalparts_set(int *block1, int *block2, int resblock1[], int resblock2[])
{
	int block1tmp = 0;
	int block2tmp = 0;

	block1tmp = (resblock1[0]&0xFF);
	block1tmp |= (resblock1[1]&0xFF)<<8;
	block1tmp |= (resblock1[2]&0xFF)<<16;
	block1tmp |= (resblock1[3]&0xFF)<<24;

	block2tmp = (resblock2[0]&0xFF);
	block2tmp |= (resblock2[1]&0xFF)<<8;
	block2tmp |= (resblock2[2]&0xFF)<<16;
	block2tmp |= (resblock2[3]&0xFF)<<24;

	*block1 = block1tmp;
	*block2 = block2tmp;
}

inline int Simulation::is_wire(int x, int y)
{
	return bmap[y][x]==WL_DETECT || bmap[y][x]==WL_EWALL || bmap[y][x]==WL_ALLOWLIQUID || bmap[y][x]==WL_WALLELEC || bmap[y][x]==WL_ALLOWALLELEC || bmap[y][x]==WL_EHOLE;
}

inline int Simulation::is_wire_off(int x, int y)
{
	return (bmap[y][x]==WL_DETECT || bmap[y][x]==WL_EWALL || bmap[y][x]==WL_ALLOWLIQUID || bmap[y][x]==WL_WALLELEC || bmap[y][x]==WL_ALLOWALLELEC || bmap[y][x]==WL_EHOLE) && emap[y][x]<8;
}

int Simulation::get_wavelength_bin(int *wm)
{
	int i, w0=30, wM=0;

	if (!*wm)
		return -1;

	for (i=0; i<30; i++)
		if (*wm & (1<<i)) {
			if (i < w0)
				w0 = i;
			if (i > wM)
				wM = i;
		}

	if (wM-w0 < 5)
		return (wM+w0)/2;

	i = rand() % (wM-w0-3);
	i += w0;

	*wm &= 0x1F << i;
	return i + 2;
}

void Simulation::set_emap(int x, int y)
{
	int x1, x2;

	if (!is_wire_off(x, y))
		return;

	// go left as far as possible
	x1 = x2 = x;
	while (x1>0)
	{
		if (!is_wire_off(x1-1, y))
			break;
		x1--;
	}
	while (x2<XRES/CELL-1)
	{
		if (!is_wire_off(x2+1, y))
			break;
		x2++;
	}

	// fill span
	for (x=x1; x<=x2; x++)
		emap[y][x] = 16;

	// fill children

	if (y>1 && x1==x2 &&
	        is_wire(x1-1, y-1) && is_wire(x1, y-1) && is_wire(x1+1, y-1) &&
	        !is_wire(x1-1, y-2) && is_wire(x1, y-2) && !is_wire(x1+1, y-2))
		set_emap(x1, y-2);
	else if (y>0)
		for (x=x1; x<=x2; x++)
			if (is_wire_off(x, y-1))
			{
				if (x==x1 || x==x2 || y>=YRES/CELL-1 ||
				        is_wire(x-1, y-1) || is_wire(x+1, y-1) ||
				        is_wire(x-1, y+1) || !is_wire(x, y+1) || is_wire(x+1, y+1))
					set_emap(x, y-1);
			}

	if (y<YRES/CELL-2 && x1==x2 &&
	        is_wire(x1-1, y+1) && is_wire(x1, y+1) && is_wire(x1+1, y+1) &&
	        !is_wire(x1-1, y+2) && is_wire(x1, y+2) && !is_wire(x1+1, y+2))
		set_emap(x1, y+2);
	else if (y<YRES/CELL-1)
		for (x=x1; x<=x2; x++)
			if (is_wire_off(x, y+1))
			{
				if (x==x1 || x==x2 || y<0 ||
				        is_wire(x-1, y+1) || is_wire(x+1, y+1) ||
				        is_wire(x-1, y-1) || !is_wire(x, y-1) || is_wire(x+1, y-1))
					set_emap(x, y+1);
			}
}

int Simulation::parts_avg(int ci, int ni,int t)
{
	if (t==PT_INSL)//to keep electronics working
	{
		int pmr = pmap[((int)(parts[ci].y+0.5f) + (int)(parts[ni].y+0.5f))/2][((int)(parts[ci].x+0.5f) + (int)(parts[ni].x+0.5f))/2];
		if (pmr)
			return parts[pmr>>8].type;
		else
			return PT_NONE;
	}
	else
	{
		int pmr2 = pmap[(int)((parts[ci].y + parts[ni].y)/2+0.5f)][(int)((parts[ci].x + parts[ni].x)/2+0.5f)];//seems to be more accurate.
		if (pmr2)
		{
			if (parts[pmr2>>8].type==t)
				return t;
		}
		else
			return PT_NONE;
	}
	return PT_NONE;
}


int Simulation::nearest_part(int ci, int t, int max_d)
{
	int distance = (max_d!=-1)?max_d:MAX_DISTANCE;
	int ndistance = 0;
	int id = -1;
	int i = 0;
	int cx = (int)parts[ci].x;
	int cy = (int)parts[ci].y;
	for (i=0; i<=parts_lastActiveIndex; i++)
	{
		if ((parts[i].type==t||(t==-1&&parts[i].type))&&!parts[i].life&&i!=ci)
		{
			ndistance = abs(cx-parts[i].x)+abs(cy-parts[i].y);// Faster but less accurate  Older: sqrt(pow(cx-parts[i].x, 2)+pow(cy-parts[i].y, 2));
			if (ndistance<distance)
			{
				distance = ndistance;
				id = i;
			}
		}
	}
	return id;
}

void Simulation::create_arc(int sx, int sy, int dx, int dy, int midpoints, int variance, int type, int flags)
{
	int i;
	float xint, yint;
	int *xmid, *ymid;
	int voffset = variance/2;
	xmid = (int *)calloc(midpoints + 2, sizeof(int));
	ymid = (int *)calloc(midpoints + 2, sizeof(int));
	xint = (float)(dx-sx)/(float)(midpoints+1.0f);
	yint = (float)(dy-sy)/(float)(midpoints+1.0f);
	xmid[0] = sx;
	xmid[midpoints+1] = dx;
	ymid[0] = sy;
	ymid[midpoints+1] = dy;

	for(i = 1; i <= midpoints; i++)
	{
		ymid[i] = ymid[i-1]+yint;
		xmid[i] = xmid[i-1]+xint;
	}

	for(i = 0; i <= midpoints; i++)
	{
		if(i!=midpoints)
		{
			xmid[i+1] += (rand()%variance)-voffset;
			ymid[i+1] += (rand()%variance)-voffset;
		}
		create_line(xmid[i], ymid[i], xmid[i+1], ymid[i+1], 0, 0, type, flags);
	}
	free(xmid);
	free(ymid);
}

void Simulation::clear_sim(void)
{
	int i, x, y;
	if(signs)
		memset(signs, 0, sizeof(signs));
	memset(bmap, 0, sizeof(bmap));
	memset(emap, 0, sizeof(emap));
	memset(parts, 0, sizeof(Particle)*NPART);
	for (i=0; i<NPART-1; i++)
		parts[i].life = i+1;
	parts[NPART-1].life = -1;
	pfree = 0;
	parts_lastActiveIndex = 0;
	memset(pmap, 0, sizeof(pmap));
	if(pv)
		memset(pv, 0, sizeof(pv));
	if(vx)
		memset(vx, 0, sizeof(vx));
	if(vy)
		memset(vy, 0, sizeof(vy));
	if(fvx)
		memset(fvx, 0, sizeof(fvx));
	if(fvy)
		memset(fvy, 0, sizeof(fvy));
	memset(photons, 0, sizeof(photons));
	memset(wireless, 0, sizeof(wireless));
	memset(gol2, 0, sizeof(gol2));
	memset(portalp, 0, sizeof(portalp));
	memset(fighters, 0, sizeof(fighters));
	fighcount = 0;
	player.spwn = 0;
	player2.spwn = 0;
	//memset(pers_bg, 0, (XRES+BARSIZE)*YRES*PIXELSIZE);
	//memset(fire_r, 0, sizeof(fire_r));
	//memset(fire_g, 0, sizeof(fire_g));
	//memset(fire_b, 0, sizeof(fire_b));
	//if(gravmask)
		//memset(gravmask, 0xFFFFFFFF, (XRES/CELL)*(YRES/CELL)*sizeof(unsigned));
	if(gravy)
		memset(gravy, 0, (XRES/CELL)*(YRES/CELL)*sizeof(float));
	if(gravx)
		memset(gravx, 0, (XRES/CELL)*(YRES/CELL)*sizeof(float));
	if(gravp)
		memset(gravp, 0, (XRES/CELL)*(YRES/CELL)*sizeof(float));
	if(hv)
		for(x = 0; x < XRES/CELL; x++){
			for(y = 0; y < YRES/CELL; y++){
				hv[y][x] = 273.15f+22.0f; //Set to room temperature
			}
		}
}
void Simulation::init_can_move()
{
	// can_move[moving type][type at destination]
	//  0 = No move/Bounce
	//  1 = Swap
	//  2 = Both particles occupy the same space.
	//  3 = Varies, go run some extra checks
	int t, rt;
	for (rt=0;rt<PT_NUM;rt++)
		can_move[0][rt] = 0; // particles that don't exist shouldn't move...
	for (t=1;t<PT_NUM;t++)
		for (rt=0;rt<PT_NUM;rt++)
			can_move[t][rt] = 1;
	for (rt=1;rt<PT_NUM;rt++)
	{
		can_move[PT_PHOT][rt] = 2;
	}
	for (t=1;t<PT_NUM;t++)
	{
		for (rt=1;rt<PT_NUM;rt++)
		{
			// weight check, also prevents particles of same type displacing each other
			if (ptypes[t].weight <= ptypes[rt].weight) can_move[t][rt] = 0;
			if (t==PT_NEUT && (ptypes[rt].properties&PROP_NEUTPASS))
				can_move[t][rt] = 2;
			if (t==PT_NEUT && (ptypes[rt].properties&PROP_NEUTPENETRATE))
				can_move[t][rt] = 1;
			if ((ptypes[t].properties&PROP_NEUTPENETRATE) && rt==PT_NEUT)
				can_move[t][rt] = 0;
			if ((ptypes[t].properties&TYPE_ENERGY) && (ptypes[rt].properties&TYPE_ENERGY))
				can_move[t][rt] = 2;
		}
	}
	can_move[PT_DEST][PT_DMND] = 0;
	can_move[PT_BIZR][PT_FILT] = 2;
	can_move[PT_BIZRG][PT_FILT] = 2;
	for (t=0;t<PT_NUM;t++)
	{
		//spark shouldn't move
		can_move[PT_SPRK][t] = 0;
		//all stickman collisions are done in stickman update function
		can_move[PT_STKM][t] = 2;
		can_move[PT_STKM2][t] = 2;
		can_move[PT_FIGH][t] = 2;
	}
	for (t=0;t<PT_NUM;t++)
	{
		// make them eat things
		can_move[t][PT_VOID] = 1;
		can_move[t][PT_BHOL] = 1;
		can_move[t][PT_NBHL] = 1;
		//all stickman collisions are done in stickman update function
		can_move[t][PT_STKM] = 2;
		can_move[t][PT_STKM2] = 2;
		can_move[PT_FIGH][t] = 2;
		//INVIS behaviour varies with pressure
		can_move[t][PT_INVIS] = 3;
		//stop CNCT being displaced by other particles
		can_move[t][PT_CNCT] = 0;
		//Powered void behaviour varies on powered state
		can_move[t][PT_PVOD] = 3;
	}
	for (t=0;t<PT_NUM;t++)
	{
		if (t==PT_GLAS || t==PT_PHOT || t==PT_CLNE || t==PT_PCLN
			|| t==PT_GLOW || t==PT_WATR || t==PT_DSTW || t==PT_SLTW
			|| t==PT_ISOZ || t==PT_ISZS || t==PT_FILT || t==PT_INVIS
			|| t==PT_QRTZ || t==PT_PQRT)
			can_move[PT_PHOT][t] = 2;
	}
	can_move[PT_ELEC][PT_LCRY] = 2;
	can_move[PT_PHOT][PT_LCRY] = 3;//varies according to LCRY life

	can_move[PT_PHOT][PT_BIZR] = 2;
	can_move[PT_ELEC][PT_BIZR] = 2;
	can_move[PT_PHOT][PT_BIZRG] = 2;
	can_move[PT_ELEC][PT_BIZRG] = 2;
	can_move[PT_PHOT][PT_BIZRS] = 2;
	can_move[PT_ELEC][PT_BIZRS] = 2;

	can_move[PT_NEUT][PT_INVIS] = 2;
	//whol eats anar
	can_move[PT_ANAR][PT_WHOL] = 1;
	can_move[PT_ANAR][PT_NWHL] = 1;
}

/*
   RETURN-value explenation
1 = Swap
0 = No move/Bounce
2 = Both particles occupy the same space.
 */
int Simulation::eval_move(int pt, int nx, int ny, unsigned *rr)
{
	unsigned r;
	int result;

	if (nx<0 || ny<0 || nx>=XRES || ny>=YRES)
		return 0;

	r = pmap[ny][nx];
	if (r)
		r = (r&~0xFF) | parts[r>>8].type;
	if (rr)
		*rr = r;
	if (pt>=PT_NUM || (r&0xFF)>=PT_NUM)
		return 0;
	result = can_move[pt][r&0xFF];
	if (result==3)
	{
		if ((pt==PT_PHOT || pt==PT_ELEC) && (r&0xFF)==PT_LCRY)
			result = (parts[r>>8].life > 5)? 2 : 0;
		if ((r&0xFF)==PT_INVIS)
		{
			if (pv[ny/CELL][nx/CELL]>4.0f || pv[ny/CELL][nx/CELL]<-4.0f) result = 2;
			else result = 0;
		}
		if ((r&0xFF)==PT_PVOD)
		{
			if (parts[r>>8].life == 10) result = 1;
			else result = 0;
		}
	}
	if (bmap[ny/CELL][nx/CELL])
	{
		if (bmap[ny/CELL][nx/CELL]==WL_ALLOWGAS && !(ptypes[pt].properties&TYPE_GAS))// && ptypes[pt].falldown!=0 && pt!=PT_FIRE && pt!=PT_SMKE)
			return 0;
		if (bmap[ny/CELL][nx/CELL]==WL_ALLOWENERGY && !(ptypes[pt].properties&TYPE_ENERGY))// && ptypes[pt].falldown!=0 && pt!=PT_FIRE && pt!=PT_SMKE)
			return 0;
		if (bmap[ny/CELL][nx/CELL]==WL_ALLOWLIQUID && ptypes[pt].falldown!=2)
			return 0;
		if (bmap[ny/CELL][nx/CELL]==WL_ALLOWSOLID && ptypes[pt].falldown!=1)
			return 0;
		if (bmap[ny/CELL][nx/CELL]==WL_ALLOWAIR || bmap[ny/CELL][nx/CELL]==WL_WALL || bmap[ny/CELL][nx/CELL]==WL_WALLELEC)
			return 0;
		if (bmap[ny/CELL][nx/CELL]==WL_EWALL && !emap[ny/CELL][nx/CELL])
			return 0;
		if (bmap[ny/CELL][nx/CELL]==WL_EHOLE && !emap[ny/CELL][nx/CELL])
			return 2;
	}
	return result;
}

int Simulation::try_move(int i, int x, int y, int nx, int ny)
{
	unsigned r, e;

	if (x==nx && y==ny)
		return 1;
	if (nx<0 || ny<0 || nx>=XRES || ny>=YRES)
		return 1;

	e = eval_move(parts[i].type, nx, ny, &r);

	if ((r&0xFF)==PT_BOMB && parts[i].type==PT_BOMB && parts[i].tmp == 1)
		e = 2;

	/* half-silvered mirror */
	if (!e && parts[i].type==PT_PHOT &&
	        (((r&0xFF)==PT_BMTL && rand()<RAND_MAX/2) ||
	         (pmap[y][x]&0xFF)==PT_BMTL))
		e = 2;

	if (!e) //if no movement
	{
		if (parts[i].type!=PT_NEUT && parts[i].type!=PT_PHOT)
			return 0;
		if (!legacy_enable && parts[i].type==PT_PHOT && r)//PHOT heat conduction
		{
			if ((r & 0xFF) == PT_COAL || (r & 0xFF) == PT_BCOL)
				parts[r>>8].temp = parts[i].temp;

			if ((r & 0xFF) < PT_NUM && ptypes[r&0xFF].hconduct && ((r&0xFF)!=PT_HSWC||parts[r>>8].life==10) && (r&0xFF)!=PT_FILT)
				parts[i].temp = parts[r>>8].temp = restrict_flt((parts[r>>8].temp+parts[i].temp)/2, MIN_TEMP, MAX_TEMP);
		}
		if ((parts[i].type==PT_NEUT || parts[i].type==PT_ELEC) && ((r&0xFF)==PT_CLNE || (r&0xFF)==PT_PCLN || (r&0xFF)==PT_BCLN || (r&0xFF)==PT_PBCN)) {
			if (!parts[r>>8].ctype)
				parts[r>>8].ctype = parts[i].type;
		}
		if ((r&0xFF)==PT_PRTI && (parts[i].type==PT_PHOT || parts[i].type==PT_NEUT || parts[i].type==PT_ELEC))
		{
			int nnx, count;
			for (count=0; count<8; count++)
			{
				if (isign(x-nx)==isign(portal_rx[count]) && isign(y-ny)==isign(portal_ry[count]))
					break;
			}
			count = count%8;
			parts[r>>8].tmp = (int)((parts[r>>8].temp-73.15f)/100+1);
			if (parts[r>>8].tmp>=CHANNELS) parts[r>>8].tmp = CHANNELS-1;
			else if (parts[r>>8].tmp<0) parts[r>>8].tmp = 0;
			for ( nnx=0; nnx<80; nnx++)
				if (!portalp[parts[r>>8].tmp][count][nnx].type)
				{
					portalp[parts[r>>8].tmp][count][nnx] = parts[i];
					parts[i].type=PT_NONE;
					break;
				}
		}
		return 0;
	}

	if (e == 2) //if occupy same space
	{
		if (parts[i].type == PT_PHOT && (r&0xFF)==PT_GLOW && !parts[r>>8].life)
			if (rand() < RAND_MAX/30)
			{
				parts[r>>8].life = 120;
				create_gain_photon(i);
			}
		if (parts[i].type == PT_PHOT && (r&0xFF)==PT_FILT)
		{
			int temp_bin = (int)((parts[r>>8].temp-273.0f)*0.025f);
			if (temp_bin < 0) temp_bin = 0;
			if (temp_bin > 25) temp_bin = 25;
			if(!parts[r>>8].tmp){
				parts[i].ctype = 0x1F << temp_bin; //Assign Colour
			} else if(parts[r>>8].tmp==1){
				parts[i].ctype &= 0x1F << temp_bin; //Filter Colour
			} else if(parts[r>>8].tmp==2){
				parts[i].ctype |= 0x1F << temp_bin; //Add Colour
			} else if(parts[r>>8].tmp==3){
				parts[i].ctype &= ~(0x1F << temp_bin); //Subtract Colour
			}
		}
		if (parts[i].type == PT_NEUT && (r&0xFF)==PT_GLAS) {
			if (rand() < RAND_MAX/10)
				create_cherenkov_photon(i);
		}
		if (parts[i].type == PT_PHOT && (r&0xFF)==PT_INVIS && pv[ny/CELL][nx/CELL]<=4.0f && pv[ny/CELL][nx/CELL]>=-4.0f) {
			part_change_type(i,x,y,PT_NEUT);
			parts[i].ctype = 0;
		}
		if ((parts[i].type==PT_BIZR||parts[i].type==PT_BIZRG) && (r&0xFF)==PT_FILT)
		{
			int temp_bin = (int)((parts[r>>8].temp-273.0f)*0.025f);
			if (temp_bin < 0) temp_bin = 0;
			if (temp_bin > 25) temp_bin = 25;
			parts[i].ctype = 0x1F << temp_bin;
		}
		return 1;
	}
	//else e=1 , we are trying to swap the particles, return 0 no swap/move, 1 is still overlap/move, because the swap takes place later

	if ((r&0xFF)==PT_VOID || (r&0xFF)==PT_PVOD) //this is where void eats particles
	{
		if (parts[i].type == PT_STKM)
		{
			player.spwn = 0;
		}
		if (parts[i].type == PT_STKM2)
		{
			player2.spwn = 0;
		}
		if (parts[i].type == PT_FIGH)
		{
			fighters[(unsigned char)parts[i].tmp].spwn = 0;
			fighcount--;
		}
		parts[i].type=PT_NONE;
		return 0;
	}
	if ((r&0xFF)==PT_BHOL || (r&0xFF)==PT_NBHL) //this is where blackhole eats particles
	{
		if (parts[i].type == PT_STKM)
		{
			player.spwn = 0;
		}
		if (parts[i].type == PT_STKM2)
		{
			player2.spwn = 0;
		}
		if (parts[i].type == PT_FIGH)
		{
			fighters[(unsigned char)parts[i].tmp].spwn = 0;
			fighcount--;
		}
		parts[i].type=PT_NONE;
		if (!legacy_enable)
		{
			parts[r>>8].temp = restrict_flt(parts[r>>8].temp+parts[i].temp/2, MIN_TEMP, MAX_TEMP);//3.0f;
		}

		return 0;
	}
	if (((r&0xFF)==PT_WHOL||(r&0xFF)==PT_NWHL) && parts[i].type==PT_ANAR) //whitehole eats anar
	{
		parts[i].type=PT_NONE;
		if (!legacy_enable)
		{
			parts[r>>8].temp = restrict_flt(parts[r>>8].temp- (MAX_TEMP-parts[i].temp)/2, MIN_TEMP, MAX_TEMP);
		}

		return 0;
	}

	if (parts[i].type==PT_CNCT && y<ny && (pmap[y+1][x]&0xFF)==PT_CNCT)//check below CNCT for another CNCT
		return 0;

	if ((bmap[y/CELL][x/CELL]==WL_EHOLE && !emap[y/CELL][x/CELL]) && !(bmap[ny/CELL][nx/CELL]==WL_EHOLE && !emap[ny/CELL][nx/CELL]))
		return 0;

	if(parts[i].type==PT_GBMB&&parts[i].life>0)
		return 0;

	e = r >> 8; //e is now the particle number at r (pmap[ny][nx])
	if (r)//the swap part, if we make it this far, swap
	{
		if (parts[i].type==PT_NEUT) {
			// target material is NEUTPENETRATE, meaning it gets moved around when neutron passes
			unsigned s = pmap[y][x];
			if (!(ptypes[s&0xFF].properties&PROP_NEUTPENETRATE))
				return 1; // if the element currently underneath neutron isn't NEUTPENETRATE, don't move anything except the neutron
			// if nothing is currently underneath neutron, only move target particle
			if (s)
			{
				pmap[ny][nx] = (s&~(0xFF))|parts[s>>8].type;
				parts[s>>8].x = nx;
				parts[s>>8].y = ny;
			}
			else pmap[ny][nx] = 0;
			parts[e].x = x;
			parts[e].y = y;
			pmap[y][x] = (e<<8)|parts[e].type;
			return 1;
		}

		if ((pmap[ny][nx]>>8)==e) pmap[ny][nx] = 0;
		parts[e].x += x-nx;
		parts[e].y += y-ny;
		pmap[(int)(parts[e].y+0.5f)][(int)(parts[e].x+0.5f)] = (e<<8)|parts[e].type;
	}
	return 1;
}

// try to move particle, and if successful update pmap and parts[i].x,y
int Simulation::do_move(int i, int x, int y, float nxf, float nyf)
{
	int nx = (int)(nxf+0.5f), ny = (int)(nyf+0.5f);
	int result = try_move(i, x, y, nx, ny);
	if (result)
	{
		int t = parts[i].type;
		parts[i].x = nxf;
		parts[i].y = nyf;
		if (ny!=y || nx!=x)
		{
			if ((pmap[y][x]>>8)==i) pmap[y][x] = 0;
			else if ((photons[y][x]>>8)==i) photons[y][x] = 0;
			if (nx<CELL || nx>=XRES-CELL || ny<CELL || ny>=YRES-CELL)//kill_part if particle is out of bounds
			{
				kill_part(i);
				return -1;
			}
			if (t==PT_PHOT||t==PT_NEUT||t==PT_ELEC)
				photons[ny][nx] = t|(i<<8);
			else if (t)
				pmap[ny][nx] = t|(i<<8);
		}
	}
	return result;
}

int Simulation::pn_junction_sprk(int x, int y, int pt)
{
	unsigned r = pmap[y][x];
	if ((r & 0xFF) != pt)
		return 0;
	r >>= 8;
	if (parts[r].type != pt)
		return 0;
	if (parts[r].life != 0)
		return 0;

	parts[r].ctype = pt;
	part_change_type(r,x,y,PT_SPRK);
	parts[r].life = 4;
	return 1;
}

void Simulation::photoelectric_effect(int nx, int ny)//create sparks from PHOT when hitting PSCN and NSCN
{
	unsigned r = pmap[ny][nx];

	if ((r&0xFF) == PT_PSCN) {
		if ((pmap[ny][nx-1] & 0xFF) == PT_NSCN ||
		        (pmap[ny][nx+1] & 0xFF) == PT_NSCN ||
		        (pmap[ny-1][nx] & 0xFF) == PT_NSCN ||
		        (pmap[ny+1][nx] & 0xFF) == PT_NSCN)
			pn_junction_sprk(nx, ny, PT_PSCN);
	}
}

unsigned Simulation::direction_to_map(float dx, float dy, int t)
{
	// TODO:
	// Adding extra directions causes some inaccuracies.
	// Not adding them causes problems with some diagonal surfaces (photons absorbed instead of reflected).
	// For now, don't add them.
	// Solution may involve more intelligent setting of initial i0 value in find_next_boundary?
	// or rewriting normal/boundary finding code

	return (dx >= 0) |
	       (((dx + dy) >= 0) << 1) |     /*  567  */
	       ((dy >= 0) << 2) |            /*  4+0  */
	       (((dy - dx) >= 0) << 3) |     /*  321  */
	       ((dx <= 0) << 4) |
	       (((dx + dy) <= 0) << 5) |
	       ((dy <= 0) << 6) |
	       (((dy - dx) <= 0) << 7);
	/*
	return (dx >= -0.001) |
	       (((dx + dy) >= -0.001) << 1) |     //  567
	       ((dy >= -0.001) << 2) |            //  4+0
	       (((dy - dx) >= -0.001) << 3) |     //  321
	       ((dx <= 0.001) << 4) |
	       (((dx + dy) <= 0.001) << 5) |
	       ((dy <= 0.001) << 6) |
	       (((dy - dx) <= 0.001) << 7);
	}*/
}

int Simulation::is_blocking(int t, int x, int y)
{
	if (t & REFRACT) {
		if (x<0 || y<0 || x>=XRES || y>=YRES)
			return 0;
		if ((pmap[y][x] & 0xFF) == PT_GLAS)
			return 1;
		return 0;
	}

	return !eval_move(t, x, y, NULL);
}

int Simulation::is_boundary(int pt, int x, int y)
{
	if (!is_blocking(pt,x,y))
		return 0;
	if (is_blocking(pt,x,y-1) && is_blocking(pt,x,y+1) && is_blocking(pt,x-1,y) && is_blocking(pt,x+1,y))
		return 0;
	return 1;
}

int Simulation::find_next_boundary(int pt, int *x, int *y, int dm, int *em)
{
	static int dx[8] = {1,1,0,-1,-1,-1,0,1};
	static int dy[8] = {0,1,1,1,0,-1,-1,-1};
	static int de[8] = {0x83,0x07,0x0E,0x1C,0x38,0x70,0xE0,0xC1};
	int i, ii, i0;

	if (*x <= 0 || *x >= XRES-1 || *y <= 0 || *y >= YRES-1)
		return 0;

	if (*em != -1) {
		i0 = *em;
		dm &= de[i0];
	} else
		i0 = 0;

	for (ii=0; ii<8; ii++) {
		i = (ii + i0) & 7;
		if ((dm & (1 << i)) && is_boundary(pt, *x+dx[i], *y+dy[i])) {
			*x += dx[i];
			*y += dy[i];
			*em = i;
			return 1;
		}
	}

	return 0;
}

int Simulation::get_normal(int pt, int x, int y, float dx, float dy, float *nx, float *ny)
{
	int ldm, rdm, lm, rm;
	int lx, ly, lv, rx, ry, rv;
	int i, j;
	float r, ex, ey;

	if (!dx && !dy)
		return 0;

	if (!is_boundary(pt, x, y))
		return 0;

	ldm = direction_to_map(-dy, dx, pt);
	rdm = direction_to_map(dy, -dx, pt);
	lx = rx = x;
	ly = ry = y;
	lv = rv = 1;
	lm = rm = -1;

	j = 0;
	for (i=0; i<SURF_RANGE; i++) {
		if (lv)
			lv = find_next_boundary(pt, &lx, &ly, ldm, &lm);
		if (rv)
			rv = find_next_boundary(pt, &rx, &ry, rdm, &rm);
		j += lv + rv;
		if (!lv && !rv)
			break;
	}

	if (j < NORMAL_MIN_EST)
		return 0;

	if ((lx == rx) && (ly == ry))
		return 0;

	ex = rx - lx;
	ey = ry - ly;
	r = 1.0f/hypot(ex, ey);
	*nx =  ey * r;
	*ny = -ex * r;

	return 1;
}

int Simulation::get_normal_interp(int pt, float x0, float y0, float dx, float dy, float *nx, float *ny)
{
	int x, y, i;

	dx /= NORMAL_FRAC;
	dy /= NORMAL_FRAC;

	for (i=0; i<NORMAL_INTERP; i++) {
		x = (int)(x0 + 0.5f);
		y = (int)(y0 + 0.5f);
		if (is_boundary(pt, x, y))
			break;
		x0 += dx;
		y0 += dy;
	}
	if (i >= NORMAL_INTERP)
		return 0;

	if (pt == PT_PHOT)
		photoelectric_effect(x, y);

	return get_normal(pt, x, y, dx, dy, nx, ny);
}

//For soap only
void Simulation::detach(int i)
{
	if ((parts[i].ctype&2) == 2)
	{
		if ((parts[parts[i].tmp].ctype&4) == 4)
			parts[parts[i].tmp].ctype ^= 4;
	}

	if ((parts[i].ctype&4) == 4)
	{
		if ((parts[parts[i].tmp2].ctype&2) == 2)
			parts[parts[i].tmp2].ctype ^= 2;
	}

	parts[i].ctype = 0;
}

void Simulation::kill_part(int i)//kills particle number i
{
	int x, y;

	if(elementCount[parts[i].type] && parts[i].type)
		elementCount[parts[i].type]--;
	x = (int)(parts[i].x+0.5f);
	y = (int)(parts[i].y+0.5f);
	if (parts[i].type == PT_STKM)
	{
		player.spwn = 0;
	}
	if (parts[i].type == PT_STKM2)
	{
		player2.spwn = 0;
	}
	if (parts[i].type == PT_FIGH)
	{
		fighters[(unsigned char)parts[i].tmp].spwn = 0;
		fighcount--;
	}
	if (parts[i].type == PT_SOAP)
	{
		detach(i);
	}
	if (x>=0 && y>=0 && x<XRES && y<YRES) {
		if ((pmap[y][x]>>8)==i)
			pmap[y][x] = 0;
		else if ((photons[y][x]>>8)==i)
			photons[y][x] = 0;
	}

	parts[i].type = PT_NONE;
	parts[i].life = pfree;
	pfree = i;
}

void Simulation::part_change_type(int i, int x, int y, int t)//changes the type of particle number i, to t.  This also changes pmap at the same time.
{
	if (x<0 || y<0 || x>=XRES || y>=YRES || i>=NPART || t<0 || t>=PT_NUM)
		return;
	if (!ptypes[t].enabled)
		t = PT_NONE;

	if (parts[i].type == PT_STKM)
		player.spwn = 0;

	if (parts[i].type == PT_STKM2)
		player2.spwn = 0;

	if (parts[i].type == PT_FIGH)
	{
		fighters[(unsigned char)parts[i].tmp].spwn = 0;
		fighcount--;
	}

	parts[i].type = t;
	if (t==PT_PHOT || t==PT_NEUT || t==PT_ELEC)
	{
		photons[y][x] = t|(i<<8);
		if ((pmap[y][x]>>8)==i)
			pmap[y][x] = 0;
	}
	else
	{
		pmap[y][x] = t|(i<<8);
		if ((photons[y][x]>>8)==i)
			photons[y][x] = 0;
	}
}

int Simulation::create_part(int p, int x, int y, int tv)//the function for creating a particle, use p=-1 for creating a new particle, -2 is from a brush, or a particle number to replace a particle.
{
	int i;

	int t = tv & 0xFF;
	int v = (tv >> 8) & 0xFF;

	if (x<0 || y<0 || x>=XRES || y>=YRES || ((t<0 || t>=PT_NUM)&&t!=SPC_HEAT&&t!=SPC_COOL&&t!=SPC_AIR&&t!=SPC_VACUUM&&t!=SPC_PGRV&&t!=SPC_NGRV))
		return -1;
	if (t>=0 && t<PT_NUM && !ptypes[t].enabled)
		return -1;
	if(t==SPC_PROP) {
		return -1;	//Prop tool works on a mouse click basic, make sure it doesn't do anything here
	}

	/*if (t==SPC_HEAT||t==SPC_COOL)
	{
		if ((pmap[y][x]&0xFF)!=PT_NONE&&(pmap[y][x]&0xFF)<PT_NUM)
		{
			if (t==SPC_HEAT&&parts[pmap[y][x]>>8].temp<MAX_TEMP)
			{
				if ((pmap[y][x]&0xFF)==PT_PUMP || (pmap[y][x]&0xFF)==PT_GPMP) {
					parts[pmap[y][x]>>8].temp = restrict_flt(parts[pmap[y][x]>>8].temp + 0.1f, MIN_TEMP, MAX_TEMP);
				} else if ((sdl_mod & (KMOD_SHIFT)) && (sdl_mod & (KMOD_CTRL))) {
					parts[pmap[y][x]>>8].temp = restrict_flt(parts[pmap[y][x]>>8].temp + 50.0f, MIN_TEMP, MAX_TEMP);
				} else {
					parts[pmap[y][x]>>8].temp = restrict_flt(parts[pmap[y][x]>>8].temp + 4.0f, MIN_TEMP, MAX_TEMP);
				}
			}
			if (t==SPC_COOL&&parts[pmap[y][x]>>8].temp>MIN_TEMP)
			{
				if ((pmap[y][x]&0xFF)==PT_PUMP || (pmap[y][x]&0xFF)==PT_GPMP) {
					parts[pmap[y][x]>>8].temp = restrict_flt(parts[pmap[y][x]>>8].temp - 0.1f, MIN_TEMP, MAX_TEMP);
				} else if ((sdl_mod & (KMOD_SHIFT)) && (sdl_mod & (KMOD_CTRL))) {
					parts[pmap[y][x]>>8].temp = restrict_flt(parts[pmap[y][x]>>8].temp - 50.0f, MIN_TEMP, MAX_TEMP);
				} else {
					parts[pmap[y][x]>>8].temp = restrict_flt(parts[pmap[y][x]>>8].temp - 4.0f, MIN_TEMP, MAX_TEMP);
				}
			}
			return pmap[y][x]>>8;
		}
		else
		{
			return -1;
		}
	}*/
	if (t==SPC_AIR)
	{
		pv[y/CELL][x/CELL] += 0.03f;
		if (y+CELL<YRES)
			pv[y/CELL+1][x/CELL] += 0.03f;
		if (x+CELL<XRES)
		{
			pv[y/CELL][x/CELL+1] += 0.03f;
			if (y+CELL<YRES)
				pv[y/CELL+1][x/CELL+1] += 0.03f;
		}
		return -1;
	}
	if (t==SPC_VACUUM)
	{
		pv[y/CELL][x/CELL] -= 0.03f;
		if (y+CELL<YRES)
			pv[y/CELL+1][x/CELL] -= 0.03f;
		if (x+CELL<XRES)
		{
			pv[y/CELL][x/CELL+1] -= 0.03f;
			if (y+CELL<YRES)
				pv[y/CELL+1][x/CELL+1] -= 0.03f;
		}
		return -1;
	}
	if (t==SPC_PGRV)
	{
		gravmap[(y/CELL)*(XRES/CELL)+(x/CELL)] = 5;
		return -1;
	}
	if (t==SPC_NGRV)
	{
		gravmap[(y/CELL)*(XRES/CELL)+(x/CELL)] = -5;
		return -1;
	}


	if (t==PT_SPRK)
	{
		if((pmap[y][x]&0xFF)==PT_WIRE){
			parts[pmap[y][x]>>8].ctype=PT_DUST;
		}
		if (!((pmap[y][x]&0xFF)==PT_INST||(ptypes[pmap[y][x]&0xFF].properties&PROP_CONDUCTS)))
			return -1;
		if (parts[pmap[y][x]>>8].life!=0)
			return -1;
		parts[pmap[y][x]>>8].type = PT_SPRK;
		parts[pmap[y][x]>>8].life = 4;
		parts[pmap[y][x]>>8].ctype = pmap[y][x]&0xFF;
		pmap[y][x] = (pmap[y][x]&~0xFF) | PT_SPRK;
		return pmap[y][x]>>8;
	}
	if (t==PT_SPAWN&&elementCount[PT_SPAWN])
		return -1;
	if (t==PT_SPAWN2&&elementCount[PT_SPAWN2])
		return -1;
	if (p==-1)//creating from anything but brush
	{
		if (pmap[y][x] || (bmap[y/CELL][x/CELL] && !eval_move(t, x, y, NULL)))
		{
			if ((pmap[y][x]&0xFF)!=PT_SPAWN&&(pmap[y][x]&0xFF)!=PT_SPAWN2)
			{
				if (t!=PT_STKM&&t!=PT_STKM2&&t!=PT_FIGH)
				{
					return -1;
				}
			}
		}
		if (pfree == -1)
			return -1;
		i = pfree;
		pfree = parts[i].life;
	}
	else if (p==-2)//creating from brush
	{
		if (pmap[y][x])
		{
			if ((
				((pmap[y][x]&0xFF)==PT_STOR&&!(ptypes[t].properties&TYPE_SOLID))||
				(pmap[y][x]&0xFF)==PT_CLNE||
				(pmap[y][x]&0xFF)==PT_BCLN||
				(pmap[y][x]&0xFF)==PT_CONV||
				((pmap[y][x]&0xFF)==PT_PCLN&&t!=PT_PSCN&&t!=PT_NSCN)||
				((pmap[y][x]&0xFF)==PT_PBCN&&t!=PT_PSCN&&t!=PT_NSCN)
			)&&(
				t!=PT_CLNE&&t!=PT_PCLN&&
				t!=PT_BCLN&&t!=PT_STKM&&
				t!=PT_STKM2&&t!=PT_PBCN&&
				t!=PT_STOR&&t!=PT_FIGH)
			)
			{
				parts[pmap[y][x]>>8].ctype = t;
				if (t==PT_LIFE && v<NGOLALT && (pmap[y][x]&0xFF)!=PT_STOR) parts[pmap[y][x]>>8].tmp = v;
			}
			return -1;
		}
		if (photons[y][x] && (t==PT_PHOT||t==PT_NEUT||t==PT_ELEC))
			return -1;
		if (pfree == -1)
			return -1;
		i = pfree;
		pfree = parts[i].life;
	}
	else if (p==-3)//skip pmap checks, e.g. for sing explosion
	{
		if (pfree == -1)
			return -1;
		i = pfree;
		pfree = parts[i].life;
	}
	else
	{
		int oldX = (int)(parts[p].x+0.5f);
		int oldY = (int)(parts[p].y+0.5f);
		if ((pmap[oldY][oldX]>>8)==p)
			pmap[oldY][oldX] = 0;
		if ((photons[oldY][oldX]>>8)==p)
			photons[oldY][oldX] = 0;
		i = p;
	}

	if (i>parts_lastActiveIndex) parts_lastActiveIndex = i;

	parts[i].dcolour = 0;
	if (t==PT_GLAS)
	{
		parts[i].pavg[1] = pv[y/CELL][x/CELL];
	}
	else if (t==PT_QRTZ)
	{
		parts[i].pavg[1] = pv[y/CELL][x/CELL];
	}
	else
	{
		parts[i].pavg[0] = 0.0f;
		parts[i].pavg[1] = 0.0f;
	}
	if (t!=PT_STKM&&t!=PT_STKM2&&t!=PT_FIGH)//set everything to default values first, except for stickman.
	{
		parts[i].x = (float)x;
		parts[i].y = (float)y;
		parts[i].type = t;
		parts[i].vx = 0;
		parts[i].vy = 0;
		parts[i].life = 0;
		parts[i].ctype = 0;
		parts[i].temp = ptypes[t].heat;
		parts[i].tmp = 0;
		parts[i].tmp2 = 0;
	}
	if (t==PT_LIGH && p==-2)
	{
	    switch (gravityMode)
        {
        default:
        case 0:
            parts[i].tmp= 270+rand()%40-20;
            break;
        case 1:
            parts[i].tmp = rand()%360;
            break;
        case 2:
            parts[i].tmp = atan2(x-XCNTR, y-YCNTR)*(180.0f/M_PI)+90;
            break;
        }
        parts[i].tmp2 = 4;
	}
	if (t==PT_SOAP)
	{
		parts[i].tmp = -1;
		parts[i].tmp2 = -1;
	}
	//now set various properties that we want at spawn.
	if (t==PT_ACID || t==PT_CAUS)
	{
		parts[i].life = 75;
	}
	/*Testing
	if(t==PT_WOOD){
		parts[i].life = 150;
	}
	End Testing*/
	if (t==PT_WARP) {
		parts[i].life = rand()%95+70;
	}
	if (t==PT_FUSE) {
		parts[i].life = 50;
		parts[i].tmp = 50;
	}
	/*if (ptypes[t].properties&PROP_LIFE) {
		int r;
		for (r = 0; r<NGOL; r++)
			if (t==goltype[r])
				parts[i].tmp = grule[r+1][9] - 1;
	}*/
	if (t==PT_LIFE && v<NGOLALT)
	{
		parts[i].tmp = grule[v+1][9] - 1;
		parts[i].ctype = v;
	}

	if (t==PT_DEUT)
		parts[i].life = 10;
	if (t==PT_MERC)
		parts[i].tmp = 10;
	if (t==PT_BRAY)
		parts[i].life = 30;
	if (t==PT_PUMP)
		parts[i].life= 10;
	if (t==PT_SING)
		parts[i].life = rand()%50+60;
	if (t==PT_QRTZ)
		parts[i].tmp = (rand()%11);
	if (t==PT_PQRT)
		parts[i].tmp = (rand()%11);
	if (t==PT_CLST)
		parts[i].tmp = (rand()%7);
	if (t==PT_FSEP)
		parts[i].life = 50;
	if (t==PT_COAL) {
		parts[i].life = 110;
		parts[i].tmp = 50;
	}
	if (t==PT_IGNT) {
		parts[i].life = 3;
	}
	if (t==PT_FRZW)
		parts[i].life = 100;
	if (t==PT_PIPE)
		parts[i].life = 60;
	if (t==PT_BCOL)
		parts[i].life = 110;
	if (t==PT_FIRE)
		parts[i].life = rand()%50+120;
	if (t==PT_PLSM)
		parts[i].life = rand()%150+50;
	if (t==PT_HFLM)
		parts[i].life = rand()%150+50;
	if (t==PT_LAVA)
		parts[i].life = rand()%120+240;
	if (t==PT_NBLE)
		parts[i].life = 0;
	if (t==PT_ICEI)
		parts[i].ctype = PT_WATR;
	if (t==PT_NEUT)
	{
		float r = (rand()%128+128)/127.0f;
		float a = (rand()%360)*3.14159f/180.0f;
		parts[i].life = rand()%480+480;
		parts[i].vx = r*cosf(a);
		parts[i].vy = r*sinf(a);
	}
	if (t==PT_MORT)
	{
		parts[i].vx = 2;
	}
	if (t==PT_PHOT)
	{
		float a = (rand()%8) * 0.78540f;
		parts[i].life = 680;
		parts[i].ctype = 0x3FFFFFFF;
		parts[i].vx = 3.0f*cosf(a);
		parts[i].vy = 3.0f*sinf(a);
	}
	if (t==PT_ELEC)
	{
		float a = (rand()%360)*3.14159f/180.0f;
		parts[i].life = 680;
		parts[i].vx = 2.0f*cosf(a);
		parts[i].vy = 2.0f*sinf(a);
	}
	if (t==PT_STKM)
	{
		if (player.spwn==0)
		{
			parts[i].x = (float)x;
			parts[i].y = (float)y;
			parts[i].type = PT_STKM;
			parts[i].vx = 0;
			parts[i].vy = 0;
			parts[i].life = 100;
			parts[i].ctype = 0;
			parts[i].temp = ptypes[t].heat;
			STKM_init_legs(this, &player, i);
			player.spwn = 1;
		}
		else
		{
			return -1;
		}
		create_part(-1,x,y,PT_SPAWN);
	}
	if (t==PT_STKM2)
	{
		if (player2.spwn==0)
		{
			parts[i].x = (float)x;
			parts[i].y = (float)y;
			parts[i].type = PT_STKM2;
			parts[i].vx = 0;
			parts[i].vy = 0;
			parts[i].life = 100;
			parts[i].ctype = 0;
			parts[i].temp = ptypes[t].heat;
			STKM_init_legs(this, &player2, i);
			player2.spwn = 1;
		}
		else
		{
			return -1;
		}
		create_part(-1,x,y,PT_SPAWN2);
	}
	if (t==PT_FIGH)
	{
		unsigned char fcount = 0;
		while (fcount < 100 && fcount < (fighcount+1) && fighters[fcount].spwn==1) fcount++;
		if (fcount < 100 && fighters[fcount].spwn==0)
		{
			parts[i].x = (float)x;
			parts[i].y = (float)y;
			parts[i].type = PT_FIGH;
			parts[i].vx = 0;
			parts[i].vy = 0;
			parts[i].life = 100;
			parts[i].ctype = 0;
			parts[i].tmp = fcount;
			parts[i].temp = ptypes[t].heat;
			STKM_init_legs(this, &fighters[fcount], i);
			fighters[fcount].spwn = 1;
			fighters[fcount].elem = PT_DUST;
			fighcount++;

			return i;
		}
		return -1;
	}
	if (t==PT_BIZR||t==PT_BIZRG||t==PT_BIZRS)
		parts[i].ctype = 0x47FFFF;
	//and finally set the pmap/photon maps to the newly created particle
	if (t==PT_PHOT||t==PT_NEUT||t==PT_ELEC)
		photons[y][x] = t|(i<<8);
	if (t!=PT_STKM&&t!=PT_STKM2 && t!=PT_FIGH && t!=PT_PHOT && t!=PT_NEUT)
		pmap[y][x] = t|(i<<8);

	//Fancy dust effects for powder types
	if((ptypes[t].properties & TYPE_PART) && pretty_powder)
	{
		int colr, colg, colb, randa;
		randa = (rand()%30)-15;
		colr = (PIXR(ptypes[t].pcolors)+sandcolour_r+(rand()%20)-10+randa);
		colg = (PIXG(ptypes[t].pcolors)+sandcolour_g+(rand()%20)-10+randa);
		colb = (PIXB(ptypes[t].pcolors)+sandcolour_b+(rand()%20)-10+randa);
		colr = colr>255 ? 255 : (colr<0 ? 0 : colr);
		colg = colg>255 ? 255 : (colg<0 ? 0 : colg);
		colb = colb>255 ? 255 : (colb<0 ? 0 : colb);
		parts[i].dcolour = 0xFF000000 | (colr<<16) | (colg<<8) | colb;
	}
	elementCount[t]++;
	return i;
}

void Simulation::create_gain_photon(int pp)//photons from PHOT going through GLOW
{
	float xx, yy;
	int i, lr, temp_bin, nx, ny;

	if (pfree == -1)
		return;
	i = pfree;

	lr = rand() % 2;

	if (lr) {
		xx = parts[pp].x - 0.3*parts[pp].vy;
		yy = parts[pp].y + 0.3*parts[pp].vx;
	} else {
		xx = parts[pp].x + 0.3*parts[pp].vy;
		yy = parts[pp].y - 0.3*parts[pp].vx;
	}

	nx = (int)(xx + 0.5f);
	ny = (int)(yy + 0.5f);

	if (nx<0 || ny<0 || nx>=XRES || ny>=YRES)
		return;

	if ((pmap[ny][nx] & 0xFF) != PT_GLOW)
		return;

	pfree = parts[i].life;
	if (i>parts_lastActiveIndex) parts_lastActiveIndex = i;

	parts[i].type = PT_PHOT;
	parts[i].life = 680;
	parts[i].x = xx;
	parts[i].y = yy;
	parts[i].vx = parts[pp].vx;
	parts[i].vy = parts[pp].vy;
	parts[i].temp = parts[pmap[ny][nx] >> 8].temp;
	parts[i].tmp = 0;
	parts[i].pavg[0] = parts[i].pavg[1] = 0.0f;
	photons[ny][nx] = PT_PHOT|(i<<8);

	temp_bin = (int)((parts[i].temp-273.0f)*0.25f);
	if (temp_bin < 0) temp_bin = 0;
	if (temp_bin > 25) temp_bin = 25;
	parts[i].ctype = 0x1F << temp_bin;
}

void Simulation::create_cherenkov_photon(int pp)//photons from NEUT going through GLAS
{
	int i, lr, nx, ny;
	float r, eff_ior;

	if (pfree == -1)
		return;
	i = pfree;

	nx = (int)(parts[pp].x + 0.5f);
	ny = (int)(parts[pp].y + 0.5f);
	if ((pmap[ny][nx] & 0xFF) != PT_GLAS)
		return;

	if (hypotf(parts[pp].vx, parts[pp].vy) < 1.44f)
		return;

	pfree = parts[i].life;
	if (i>parts_lastActiveIndex) parts_lastActiveIndex = i;

	lr = rand() % 2;

	parts[i].type = PT_PHOT;
	parts[i].ctype = 0x00000F80;
	parts[i].life = 680;
	parts[i].x = parts[pp].x;
	parts[i].y = parts[pp].y;
	parts[i].temp = parts[pmap[ny][nx] >> 8].temp;
	parts[i].tmp = 0;
	parts[i].pavg[0] = parts[i].pavg[1] = 0.0f;
	photons[ny][nx] = PT_PHOT|(i<<8);

	if (lr) {
		parts[i].vx = parts[pp].vx - 2.5f*parts[pp].vy;
		parts[i].vy = parts[pp].vy + 2.5f*parts[pp].vx;
	} else {
		parts[i].vx = parts[pp].vx + 2.5f*parts[pp].vy;
		parts[i].vy = parts[pp].vy - 2.5f*parts[pp].vx;
	}

	/* photons have speed of light. no discussion. */
	r = 1.269 / hypotf(parts[i].vx, parts[i].vy);
	parts[i].vx *= r;
	parts[i].vy *= r;
}

void Simulation::delete_part(int x, int y, int flags)//calls kill_part with the particle located at x,y
{
	unsigned i;

	if (x<0 || y<0 || x>=XRES || y>=YRES)
		return;
	if (photons[y][x]) {
		i = photons[y][x];
	} else {
		i = pmap[y][x];
	}

	if (!i)
		return;
	kill_part(i>>8);
}

void Simulation::update_particles_i(int start, int inc)
{
	int i, j, x, y, t, nx, ny, r, surround_space, s, lt, rt, nt, nnx, nny, q, golnum, goldelete, z, neighbors, createdsomething;
	float mv, dx, dy, ix, iy, lx, ly, nrx, nry, dp, ctemph, ctempl, gravtot;
	int fin_x, fin_y, clear_x, clear_y, stagnant;
	float fin_xf, fin_yf, clear_xf, clear_yf;
	float nn, ct1, ct2, swappage;
	float pt = R_TEMP;
	float c_heat = 0.0f;
	int h_count = 0;
	int starti = (start*-1);
	int surround[8];
	int surround_hconduct[8];
	int lighting_ok=1;
	float pGravX, pGravY, pGravD;

	if (sys_pause&&lighting_recreate>0)
    {
        for (i=0; i<=parts_lastActiveIndex; i++)
        {
            if (parts[i].type==PT_LIGH && parts[i].tmp2>0)
            {
                lighting_ok=0;
                break;
            }
        }
    }

	if (lighting_ok)
        lighting_recreate--;

    if (lighting_recreate<0)
        lighting_recreate=1;

    if (lighting_recreate>21)
        lighting_recreate=21;

	if (sys_pause&&!framerender)//do nothing if paused
		return;

	//wire!
	if(elementCount[PT_WIRE] > 0)
	{
		for (nx=0; nx<XRES; nx++)
		{
			for (ny=0; ny<YRES; ny++)
		    {
			    r = pmap[ny][nx];
			    if (!r)
			        continue;
				if(parts[r>>8].type==PT_WIRE)
					parts[r>>8].tmp=parts[r>>8].ctype;
		    }
		}
	}
	//game of life!
	if (elementCount[PT_LIFE]>0&&++CGOL>=GSPEED)//GSPEED is frames per generation
	{
		int createdsomething = 0;
		CGOL=0;
		ISGOL=0;
		for (nx=CELL; nx<XRES-CELL; nx++)
		{//go through every particle and set neighbor map
			for (ny=CELL; ny<YRES-CELL; ny++)
			{
				r = pmap[ny][nx];
				if (!r)
				{
					gol[nx][ny] = 0;
					continue;
				}
				else
				{
					//for ( golnum=1; golnum<=NGOL; golnum++) //This shouldn't be necessary any more.
					//{
						if (parts[r>>8].type==PT_LIFE/* && parts[r>>8].ctype==golnum-1*/)
						{
							golnum = parts[r>>8].ctype+1;
							if (golnum<=0 || golnum>NGOLALT) {
								parts[r>>8].type = PT_NONE;
								continue;
							}
							if (parts[r>>8].tmp == grule[golnum][9]-1) {
								gol[nx][ny] = golnum;
								for ( nnx=-1; nnx<2; nnx++)
								{
									for ( nny=-1; nny<2; nny++)//it will count itself as its own neighbor, which is needed, but will have 1 extra for delete check
									{
										rt = pmap[((ny+nny+YRES-3*CELL)%(YRES-2*CELL))+CELL][((nx+nnx+XRES-3*CELL)%(XRES-2*CELL))+CELL];
										if (!rt || (rt&0xFF)==PT_LIFE)
										{
											gol2[((nx+nnx+XRES-3*CELL)%(XRES-2*CELL))+CELL][((ny+nny+YRES-3*CELL)%(YRES-2*CELL))+CELL][golnum] ++;
											gol2[((nx+nnx+XRES-3*CELL)%(XRES-2*CELL))+CELL][((ny+nny+YRES-3*CELL)%(YRES-2*CELL))+CELL][0] ++;
										}
									}
								}
							} else {
								parts[r>>8].tmp --;
								if (parts[r>>8].tmp<=0)
									parts[r>>8].type = PT_NONE;//using kill_part makes it not work
							}
						}
					//}
				}
			}
		}
		for (nx=CELL; nx<XRES-CELL; nx++)
		{ //go through every particle again, but check neighbor map, then update particles
			for (ny=CELL; ny<YRES-CELL; ny++)
			{
				r = pmap[ny][nx];
				neighbors = gol2[nx][ny][0];
				if (neighbors==0 || !((r&0xFF)==PT_LIFE || !(r&0xFF)))
					continue;
				for ( golnum = 1; golnum<=NGOL; golnum++)
				{
					goldelete = neighbors;
					if (gol[nx][ny]==0&&grule[golnum][goldelete]>=2&&gol2[nx][ny][golnum]>=(goldelete%2)+goldelete/2)
					{
						if (create_part(-1, nx, ny, PT_LIFE|((golnum-1)<<8)))
							createdsomething = 1;
					}
					else if (gol[nx][ny]==golnum&&(grule[golnum][goldelete-1]==0||grule[golnum][goldelete-1]==2))//subtract 1 because it counted itself
					{
						if (parts[r>>8].tmp==grule[golnum][9]-1)
							parts[r>>8].tmp --;
					}
					if (r && parts[r>>8].tmp<=0)
						parts[r>>8].type = PT_NONE;//using kill_part makes it not work
				}
				for ( z = 0; z<=NGOL; z++)
					gol2[nx][ny][z] = 0;//this improves performance A LOT compared to the memset, i was getting ~23 more fps with this.
			}
		}
		//memset(gol2, 0, sizeof(gol2));
	}
	if (ISWIRE==1)//wifi channel reseting
	{
		for ( q = 0; q<(int)(MAX_TEMP-73.15f)/100+2; q++)
			if (!wireless[q][1])
			{
				wireless[q][0] = 0;
			}
			else
				wireless[q][1] = 0;
	}
	//the main particle loop function, goes over all particles.
	for (i=0; i<=parts_lastActiveIndex; i++)
		if (parts[i].type)
		{
			lx = parts[i].x;
			ly = parts[i].y;
			t = parts[i].type;
			if (t<0 || t>=PT_NUM)
			{
				kill_part(i);
				continue;
			}
			//printf("parts[%d].type: %d\n", i, parts[i].type);

			if (parts[i].life>0 && (ptypes[t].properties&PROP_LIFE_DEC))
			{
				// automatically decrease life
				parts[i].life--;
				if (parts[i].life<=0 && (ptypes[t].properties&(PROP_LIFE_KILL_DEC|PROP_LIFE_KILL)))
				{
					// kill on change to no life
					kill_part(i);
					continue;
				}
			}
			else if (parts[i].life<=0 && (ptypes[t].properties&PROP_LIFE_KILL))
			{
				// kill if no life
				kill_part(i);
				continue;
			}

			x = (int)(parts[i].x+0.5f);
			y = (int)(parts[i].y+0.5f);

			//this kills any particle out of the screen, or in a wall where it isn't supposed to go
			if (x<CELL || y<CELL || x>=XRES-CELL || y>=YRES-CELL ||
			        (bmap[y/CELL][x/CELL] &&
			         (bmap[y/CELL][x/CELL]==WL_WALL ||
			          bmap[y/CELL][x/CELL]==WL_WALLELEC ||
			          bmap[y/CELL][x/CELL]==WL_ALLOWAIR ||
			          (bmap[y/CELL][x/CELL]==WL_DESTROYALL) ||
			          (bmap[y/CELL][x/CELL]==WL_ALLOWLIQUID && ptypes[t].falldown!=2) ||
			          (bmap[y/CELL][x/CELL]==WL_ALLOWSOLID && ptypes[t].falldown!=1) ||
			          (bmap[y/CELL][x/CELL]==WL_ALLOWGAS && !(ptypes[t].properties&TYPE_GAS)) || //&& ptypes[t].falldown!=0 && parts[i].type!=PT_FIRE && parts[i].type!=PT_SMKE && parts[i].type!=PT_HFLM) ||
			          (bmap[y/CELL][x/CELL]==WL_ALLOWENERGY && !(ptypes[t].properties&TYPE_ENERGY)) ||
					  (bmap[y/CELL][x/CELL]==WL_DETECT && (t==PT_METL || t==PT_SPRK)) ||
			          (bmap[y/CELL][x/CELL]==WL_EWALL && !emap[y/CELL][x/CELL])) && (t!=PT_STKM) && (t!=PT_STKM2) && (t!=PT_FIGH)))
			{
				kill_part(i);
				continue;
			}
			if (bmap[y/CELL][x/CELL]==WL_DETECT && emap[y/CELL][x/CELL]<8)
				set_emap(x/CELL, y/CELL);

			//adding to velocity from the particle's velocity
			vx[y/CELL][x/CELL] = vx[y/CELL][x/CELL]*ptypes[t].airloss + ptypes[t].airdrag*parts[i].vx;
			vy[y/CELL][x/CELL] = vy[y/CELL][x/CELL]*ptypes[t].airloss + ptypes[t].airdrag*parts[i].vy;

			if (t==PT_GAS||t==PT_NBLE)
			{
				if (pv[y/CELL][x/CELL]<3.5f)
					pv[y/CELL][x/CELL] += ptypes[t].hotair*(3.5f-pv[y/CELL][x/CELL]);
				if (y+CELL<YRES && pv[y/CELL+1][x/CELL]<3.5f)
					pv[y/CELL+1][x/CELL] += ptypes[t].hotair*(3.5f-pv[y/CELL+1][x/CELL]);
				if (x+CELL<XRES)
				{
					if (pv[y/CELL][x/CELL+1]<3.5f)
						pv[y/CELL][x/CELL+1] += ptypes[t].hotair*(3.5f-pv[y/CELL][x/CELL+1]);
					if (y+CELL<YRES && pv[y/CELL+1][x/CELL+1]<3.5f)
						pv[y/CELL+1][x/CELL+1] += ptypes[t].hotair*(3.5f-pv[y/CELL+1][x/CELL+1]);
				}
			}
			else//add the hotair variable to the pressure map, like black hole, or white hole.
			{
				pv[y/CELL][x/CELL] += ptypes[t].hotair;
				if (y+CELL<YRES)
					pv[y/CELL+1][x/CELL] += ptypes[t].hotair;
				if (x+CELL<XRES)
				{
					pv[y/CELL][x/CELL+1] += ptypes[t].hotair;
					if (y+CELL<YRES)
						pv[y/CELL+1][x/CELL+1] += ptypes[t].hotair;
				}
			}

			//Gravity mode by Moach
			switch (gravityMode)
			{
			default:
			case 0:
				pGravX = 0.0f;
				pGravY = ptypes[t].gravity;
				break;
			case 1:
				pGravX = pGravY = 0.0f;
				break;
			case 2:
				pGravD = 0.01f - hypotf((x - XCNTR), (y - YCNTR));
				pGravX = ptypes[t].gravity * ((float)(x - XCNTR) / pGravD);
				pGravY = ptypes[t].gravity * ((float)(y - YCNTR) / pGravD);
				break;
			}
			//Get some gravity from the gravity map
			if (t==PT_ANAR)
			{
				// perhaps we should have a ptypes variable for this
				pGravX -= gravx[(y/CELL)*(XRES/CELL)+(x/CELL)];
				pGravY -= gravy[(y/CELL)*(XRES/CELL)+(x/CELL)];
			}
			else if(t!=PT_STKM && t!=PT_STKM2 && t!=PT_FIGH && !(ptypes[t].properties & TYPE_SOLID))
			{
				pGravX += gravx[(y/CELL)*(XRES/CELL)+(x/CELL)];
				pGravY += gravy[(y/CELL)*(XRES/CELL)+(x/CELL)];
			}
			//velocity updates for the particle
			parts[i].vx *= ptypes[t].loss;
			parts[i].vy *= ptypes[t].loss;
			//particle gets velocity from the vx and vy maps
			parts[i].vx += ptypes[t].advection*vx[y/CELL][x/CELL] + pGravX;
			parts[i].vy += ptypes[t].advection*vy[y/CELL][x/CELL] + pGravY;


			if (ptypes[t].diffusion)//the random diffusion that gasses have
			{
				parts[i].vx += ptypes[t].diffusion*(rand()/(0.5f*RAND_MAX)-1.0f);
				parts[i].vy += ptypes[t].diffusion*(rand()/(0.5f*RAND_MAX)-1.0f);
			}

			j = surround_space = nt = 0;//if nt is 1 after this, then there is a particle around the current particle, that is NOT the current particle's type, for water movement.
			for (nx=-1; nx<2; nx++)
				for (ny=-1; ny<2; ny++) {
					if (nx||ny) {
						surround[j] = r = pmap[y+ny][x+nx];
						j++;
						if (!(r&0xFF))
							surround_space = 1;//there is empty space
						if ((r&0xFF)!=t)
							nt = 1;//there is nothing or a different particle
					}
				}

			if (!legacy_enable)
			{
				if (y-2 >= 0 && y-2 < YRES && (ptypes[t].properties&TYPE_LIQUID)) {//some heat convection for liquids
					r = pmap[y-2][x];
					if (!(!r || parts[i].type != (r&0xFF))) {
						if (parts[i].temp>parts[r>>8].temp) {
							swappage = parts[i].temp;
							parts[i].temp = parts[r>>8].temp;
							parts[r>>8].temp = swappage;
						}
					}
				}

				//heat transfer code
				h_count = 0;
#ifdef REALHEAT
				if (t&&(t!=PT_HSWC||parts[i].life==10))
				{
					float c_Cm = 0.0f;
#else
				if (t&&(t!=PT_HSWC||parts[i].life==10)&&ptypes[t].hconduct>(rand()%250))
				{
					float c_Cm = 0.0f;
#endif
					if (aheat_enable)
					{
						c_heat = (hv[y/CELL][x/CELL]-parts[i].temp)*0.04;
						c_heat = restrict_flt(c_heat, -MAX_TEMP+MIN_TEMP, MAX_TEMP-MIN_TEMP);
						parts[i].temp += c_heat;
						hv[y/CELL][x/CELL] -= c_heat;
					}
					c_heat = 0.0f;
					for (j=0; j<8; j++)
					{
						surround_hconduct[j] = i;
						r = surround[j];
						if (!r)
							continue;
						rt = r&0xFF;
						if (rt&&ptypes[rt].hconduct&&(rt!=PT_HSWC||parts[r>>8].life==10)
						        &&(t!=PT_FILT||(rt!=PT_BRAY&&rt!=PT_BIZR&&rt!=PT_BIZRG))
						        &&(rt!=PT_FILT||(t!=PT_BRAY&&t!=PT_PHOT&&t!=PT_BIZR&&t!=PT_BIZRG)))
						{
							surround_hconduct[j] = r>>8;
#ifdef REALHEAT
							c_heat += parts[r>>8].temp*96.645/ptypes[rt].hconduct*fabs(ptypes[rt].weight);
							c_Cm += 96.645/ptypes[rt].hconduct*fabs(ptypes[rt].weight);
#else
							c_heat += parts[r>>8].temp;
#endif
							h_count++;
						}
					}
#ifdef REALHEAT
					if (t == PT_PHOT)
						pt = (c_heat+parts[i].temp*96.645)/(c_Cm+96.645);
					else
						pt = (c_heat+parts[i].temp*96.645/ptypes[t].hconduct*fabs(ptypes[t].weight))/(c_Cm+96.645/ptypes[t].hconduct*fabs(ptypes[t].weight));

#else
					pt = (c_heat+parts[i].temp)/(h_count+1);
#endif
					pt = parts[i].temp = restrict_flt(pt, MIN_TEMP, MAX_TEMP);
					for (j=0; j<8; j++)
					{
						parts[surround_hconduct[j]].temp = pt;
					}

					ctemph = ctempl = pt;
					// change boiling point with pressure
					if ((ptypes[t].state==ST_LIQUID && ptransitions[t].tht>-1 && ptransitions[t].tht<PT_NUM && ptypes[ptransitions[t].tht].state==ST_GAS)
					        || t==PT_LNTG || t==PT_SLTW)
						ctemph -= 2.0f*pv[y/CELL][x/CELL];
					else if ((ptypes[t].state==ST_GAS && ptransitions[t].tlt>-1 && ptransitions[t].tlt<PT_NUM && ptypes[ptransitions[t].tlt].state==ST_LIQUID)
					         || t==PT_WTRV)
						ctempl -= 2.0f*pv[y/CELL][x/CELL];
					s = 1;
					if (ctemph>ptransitions[t].thv&&ptransitions[t].tht>-1) {
						// particle type change due to high temperature
						if (ptransitions[t].tht!=PT_NUM)
							t = ptransitions[t].tht;
						else if (t==PT_ICEI) {
							if (parts[i].ctype>0&&parts[i].ctype<PT_NUM&&parts[i].ctype!=PT_ICEI) {
								if (ptransitions[parts[i].ctype].tlt==PT_ICEI&&pt<=ptransitions[parts[i].ctype].tlv) s = 0;
								else {
									t = parts[i].ctype;
									parts[i].ctype = PT_NONE;
									parts[i].life = 0;
								}
							}
							else if (pt>274.0f) t = PT_WATR;
							else s = 0;
						}
						else if (t==PT_SLTW) {
							if (1>rand()%6) t = PT_SALT;
							else t = PT_WTRV;
						}
						else s = 0;
					} else if (ctempl<ptransitions[t].tlv&&ptransitions[t].tlt>-1) {
						// particle type change due to low temperature
						if (ptransitions[t].tlt!=PT_NUM)
							t = ptransitions[t].tlt;
						else if (t==PT_WTRV) {
							if (pt<273.0f) t = PT_RIME;
							else t = PT_DSTW;
						}
						else if (t==PT_LAVA) {
							if (parts[i].ctype>0 && parts[i].ctype<PT_NUM && parts[i].ctype!=PT_LAVA) {
								if (parts[i].ctype==PT_THRM&&pt>=ptransitions[PT_BMTL].thv) s = 0;
								else if (ptransitions[parts[i].ctype].tht==PT_LAVA) {
									if (pt>=ptransitions[parts[i].ctype].thv) s = 0;
								}
								else if (pt>=973.0f) s = 0; // freezing point for lava with any other (not listed in ptransitions as turning into lava) ctype
								if (s) {
									t = parts[i].ctype;
									parts[i].ctype = PT_NONE;
									if (t==PT_THRM) {
										parts[i].tmp = 0;
										t = PT_BMTL;
									}
									if (t==PT_PLUT)
									{
										parts[i].tmp = 0;
										t = PT_LAVA;
									}
								}
							}
							else if (pt<973.0f) t = PT_STNE;
							else s = 0;
						}
						else s = 0;
					}
					else s = 0;
					if (s) { // particle type change occurred
						if (t==PT_ICEI||t==PT_LAVA)
							parts[i].ctype = parts[i].type;
						if (!(t==PT_ICEI&&parts[i].ctype==PT_FRZW)) parts[i].life = 0;
						if (ptypes[t].state==ST_GAS&&ptypes[parts[i].type].state!=ST_GAS)
							pv[y/CELL][x/CELL] += 0.50f;
						part_change_type(i,x,y,t);
						if (t==PT_FIRE||t==PT_PLSM||t==PT_HFLM)
							parts[i].life = rand()%50+120;
						if (t==PT_LAVA) {
							if (parts[i].ctype==PT_BRMT) parts[i].ctype = PT_BMTL;
							else if (parts[i].ctype==PT_SAND) parts[i].ctype = PT_GLAS;
							else if (parts[i].ctype==PT_BGLA) parts[i].ctype = PT_GLAS;
							else if (parts[i].ctype==PT_PQRT) parts[i].ctype = PT_QRTZ;
							parts[i].life = rand()%120+240;
						}
						if (t==PT_NONE) {
							kill_part(i);
							goto killed;
						}
					}

					pt = parts[i].temp = restrict_flt(parts[i].temp, MIN_TEMP, MAX_TEMP);
					if (t==PT_LAVA) {
						parts[i].life = restrict_flt((parts[i].temp-700)/7, 0.0f, 400.0f);
						if (parts[i].ctype==PT_THRM&&parts[i].tmp>0)
						{
							parts[i].tmp--;
							parts[i].temp = 3500;
						}
						if (parts[i].ctype==PT_PLUT&&parts[i].tmp>0)
						{
							parts[i].tmp--;
							parts[i].temp = MAX_TEMP;
						}
					}
				}
			}

			if (t==PT_LIFE)
			{
				parts[i].temp = restrict_flt(parts[i].temp-50.0f, MIN_TEMP, MAX_TEMP);
				//ISGOL=1;//means there is a life particle on screen
			}
			if (t==PT_WIRE)
			{
				//wire_placed = 1;
			}
			//spark updates from walls
			if ((ptypes[t].properties&PROP_CONDUCTS) || t==PT_SPRK)
			{
				nx = x % CELL;
				if (nx == 0)
					nx = x/CELL - 1;
				else if (nx == CELL-1)
					nx = x/CELL + 1;
				else
					nx = x/CELL;
				ny = y % CELL;
				if (ny == 0)
					ny = y/CELL - 1;
				else if (ny == CELL-1)
					ny = y/CELL + 1;
				else
					ny = y/CELL;
				if (nx>=0 && ny>=0 && nx<XRES/CELL && ny<YRES/CELL)
				{
					if (t!=PT_SPRK)
					{
						if (emap[ny][nx]==12 && !parts[i].life)
						{
							part_change_type(i,x,y,PT_SPRK);
							parts[i].life = 4;
							parts[i].ctype = t;
							t = PT_SPRK;
						}
					}
					else if (bmap[ny][nx]==WL_DETECT || bmap[ny][nx]==WL_EWALL || bmap[ny][nx]==WL_ALLOWLIQUID || bmap[ny][nx]==WL_WALLELEC || bmap[ny][nx]==WL_ALLOWALLELEC || bmap[ny][nx]==WL_EHOLE)
						set_emap(nx, ny);
				}
			}

			//the basic explosion, from the .explosive variable
			if ((ptypes[t].explosive&2) && pv[y/CELL][x/CELL]>2.5f)
			{
				parts[i].life = rand()%80+180;
				parts[i].temp = restrict_flt(ptypes[PT_FIRE].heat + (ptypes[t].flammable/2), MIN_TEMP, MAX_TEMP);
				t = PT_FIRE;
				part_change_type(i,x,y,t);
				pv[y/CELL][x/CELL] += 0.25f * CFDS;
			}


			s = 1;
			gravtot = fabs(gravy[(y/CELL)*(XRES/CELL)+(x/CELL)])+fabs(gravx[(y/CELL)*(XRES/CELL)+(x/CELL)]);
			if (pv[y/CELL][x/CELL]>ptransitions[t].phv&&ptransitions[t].pht>-1) {
				// particle type change due to high pressure
				if (ptransitions[t].pht!=PT_NUM)
					t = ptransitions[t].pht;
				else if (t==PT_BMTL) {
					if (pv[y/CELL][x/CELL]>2.5f)
						t = PT_BRMT;
					else if (pv[y/CELL][x/CELL]>1.0f && parts[i].tmp==1)
						t = PT_BRMT;
					else s = 0;
				}
				else s = 0;
			} else if (pv[y/CELL][x/CELL]<ptransitions[t].plv&&ptransitions[t].plt>-1) {
				// particle type change due to low pressure
				if (ptransitions[t].plt!=PT_NUM)
					t = ptransitions[t].plt;
				else s = 0;
			} else if (gravtot>(ptransitions[t].phv/4.0f)&&ptransitions[t].pht>-1) {
				// particle type change due to high gravity
				if (ptransitions[t].pht!=PT_NUM)
					t = ptransitions[t].pht;
				else if (t==PT_BMTL) {
					if (gravtot>0.625f)
						t = PT_BRMT;
					else if (gravtot>0.25f && parts[i].tmp==1)
						t = PT_BRMT;
					else s = 0;
				}
				else s = 0;
			} else s = 0;
			if (s) { // particle type change occurred
				parts[i].life = 0;
				part_change_type(i,x,y,t);
				if (t==PT_FIRE)
					parts[i].life = rand()%50+120;
				if (t==PT_NONE) {
					kill_part(i);
					goto killed;
				}
			}

			//call the particle update function, if there is one
#ifdef LUACONSOLE
			if (ptypes[t].update_func && lua_el_mode[t] != 2)
#else
			if (ptypes[t].update_func)
#endif
			{
				if ((*(ptypes[t].update_func))(this, i,x,y,surround_space,nt, parts, pmap))
					continue;
			}
#ifdef LUACONSOLE
			if(lua_el_mode[t])
			{
				if(luacon_part_update(t,i,x,y,surround_space,nt))
					continue;
			}
#endif
			if (legacy_enable)//if heat sim is off
				update_legacy_all(this, i,x,y,surround_space,nt, parts, pmap);

killed:
			if (parts[i].type == PT_NONE)//if its dead, skip to next particle
				continue;

			if (!parts[i].vx&&!parts[i].vy)//if its not moving, skip to next particle, movement code it next
				continue;

#if defined(WIN32) && !defined(__GNUC__)
			mv = max(fabsf(parts[i].vx), fabsf(parts[i].vy));
#else
			mv = fmaxf(fabsf(parts[i].vx), fabsf(parts[i].vy));
#endif
			if (mv < ISTP)
			{
				clear_x = x;
				clear_y = y;
				clear_xf = parts[i].x;
				clear_yf = parts[i].y;
				fin_xf = clear_xf + parts[i].vx;
				fin_yf = clear_yf + parts[i].vy;
				fin_x = (int)(fin_xf+0.5f);
				fin_y = (int)(fin_yf+0.5f);
			}
			else
			{
				// interpolate to see if there is anything in the way
				dx = parts[i].vx*ISTP/mv;
				dy = parts[i].vy*ISTP/mv;
				fin_xf = parts[i].x;
				fin_yf = parts[i].y;
				while (1)
				{
					mv -= ISTP;
					fin_xf += dx;
					fin_yf += dy;
					fin_x = (int)(fin_xf+0.5f);
					fin_y = (int)(fin_yf+0.5f);
					if (mv <= 0.0f)
					{
						// nothing found
						fin_xf = parts[i].x + parts[i].vx;
						fin_yf = parts[i].y + parts[i].vy;
						fin_x = (int)(fin_xf+0.5f);
						fin_y = (int)(fin_yf+0.5f);
						clear_xf = fin_xf-dx;
						clear_yf = fin_yf-dy;
						clear_x = (int)(clear_xf+0.5f);
						clear_y = (int)(clear_yf+0.5f);
						break;
					}
					if (fin_x<CELL || fin_y<CELL || fin_x>=XRES-CELL || fin_y>=YRES-CELL || pmap[fin_y][fin_x] || (bmap[fin_y/CELL][fin_x/CELL] && (bmap[fin_y/CELL][fin_x/CELL]==WL_DESTROYALL || bmap[fin_y/CELL][fin_x/CELL]==WL_DETECT || !eval_move(t,fin_x,fin_y,NULL))))
					{
						// found an obstacle
						clear_xf = fin_xf-dx;
						clear_yf = fin_yf-dy;
						clear_x = (int)(clear_xf+0.5f);
						clear_y = (int)(clear_yf+0.5f);
						break;
					}

				}
			}

			stagnant = parts[i].flags & FLAG_STAGNANT;
			parts[i].flags &= ~FLAG_STAGNANT;

			if ((t==PT_PHOT||t==PT_NEUT||t==PT_ELEC)) {
				if (t == PT_PHOT) {
					rt = pmap[fin_y][fin_x] & 0xFF;
					lt = pmap[y][x] & 0xFF;

					r = eval_move(PT_PHOT, fin_x, fin_y, NULL);
					if (((rt==PT_GLAS && lt!=PT_GLAS) || (rt!=PT_GLAS && lt==PT_GLAS)) && r) {
						if (!get_normal_interp(REFRACT|t, parts[i].x, parts[i].y, parts[i].vx, parts[i].vy, &nrx, &nry)) {
							kill_part(i);
							continue;
						}

						r = get_wavelength_bin(&parts[i].ctype);
						if (r == -1) {
							kill_part(i);
							continue;
						}
						nn = GLASS_IOR - GLASS_DISP*(r-15)/15.0f;
						nn *= nn;
						nrx = -nrx;
						nry = -nry;
						if (rt==PT_GLAS && lt!=PT_GLAS)
							nn = 1.0f/nn;
						ct1 = parts[i].vx*nrx + parts[i].vy*nry;
						ct2 = 1.0f - (nn*nn)*(1.0f-(ct1*ct1));
						if (ct2 < 0.0f) {
							// total internal reflection
							parts[i].vx -= 2.0f*ct1*nrx;
							parts[i].vy -= 2.0f*ct1*nry;
							fin_xf = parts[i].x;
							fin_yf = parts[i].y;
							fin_x = x;
							fin_y = y;
						} else {
							// refraction
							ct2 = sqrtf(ct2);
							ct2 = ct2 - nn*ct1;
							parts[i].vx = nn*parts[i].vx + ct2*nrx;
							parts[i].vy = nn*parts[i].vy + ct2*nry;
						}
					}
				}
				if (stagnant)//FLAG_STAGNANT set, was reflected on previous frame
				{
					// cast coords as int then back to float for compatibility with existing saves
					if (!do_move(i, x, y, (float)fin_x, (float)fin_y)) {
						kill_part(i);
						continue;
					}
				}
				else if (!do_move(i, x, y, fin_xf, fin_yf))
				{
					// reflection
					parts[i].flags |= FLAG_STAGNANT;
					if (t==PT_NEUT && 100>(rand()%1000))
					{
						kill_part(i);
						continue;
					}
					r = pmap[fin_y][fin_x];

					if ((r & 0xFF) == PT_PIPE && !(parts[r>>8].tmp&0xFF))
					{
						parts[r>>8].tmp =  (parts[r>>8].tmp&~0xFF) | parts[i].type;
						parts[r>>8].temp = parts[i].temp;
						parts[r>>8].flags = parts[i].life;
						parts[r>>8].pavg[0] = parts[i].tmp;
						parts[r>>8].pavg[1] = parts[i].ctype;
						kill_part(i);
						continue;
					}

					// this should be replaced with a particle type attribute ("photwl" or something)
					if ((r & 0xFF) == PT_PSCN) parts[i].ctype  = 0x00000000;
					if ((r & 0xFF) == PT_NSCN) parts[i].ctype  = 0x00000000;
					if ((r & 0xFF) == PT_SPRK) parts[i].ctype  = 0x00000000;
					if ((r & 0xFF) == PT_COAL) parts[i].ctype  = 0x00000000;
					if ((r & 0xFF) == PT_BCOL) parts[i].ctype  = 0x00000000;
					if ((r & 0xFF) == PT_PLEX) parts[i].ctype &= 0x1F00003E;
					if ((r & 0xFF) == PT_NITR) parts[i].ctype &= 0x0007C000;
					if ((r & 0xFF) == PT_NBLE) parts[i].ctype &= 0x3FFF8000;
					if ((r & 0xFF) == PT_LAVA) parts[i].ctype &= 0x3FF00000;
					if ((r & 0xFF) == PT_ACID) parts[i].ctype &= 0x1FE001FE;
					if ((r & 0xFF) == PT_DUST) parts[i].ctype &= 0x3FFFFFC0;
					if ((r & 0xFF) == PT_SNOW) parts[i].ctype &= 0x03FFFFFF;
					if ((r & 0xFF) == PT_GOO)  parts[i].ctype &= 0x3FFAAA00;
					if ((r & 0xFF) == PT_PLNT) parts[i].ctype &= 0x0007C000;
					if ((r & 0xFF) == PT_PLUT) parts[i].ctype &= 0x001FCE00;
					if ((r & 0xFF) == PT_URAN) parts[i].ctype &= 0x003FC000;

					if (get_normal_interp(t, parts[i].x, parts[i].y, parts[i].vx, parts[i].vy, &nrx, &nry)) {
						dp = nrx*parts[i].vx + nry*parts[i].vy;
						parts[i].vx -= 2.0f*dp*nrx;
						parts[i].vy -= 2.0f*dp*nry;
						// leave the actual movement until next frame so that reflection of fast particles and refraction happen correctly
					} else {
						if (t!=PT_NEUT)
							kill_part(i);
						continue;
					}
					if (!parts[i].ctype&&t!=PT_NEUT&&t!=PT_ELEC) {
						kill_part(i);
						continue;
					}
				}
			}
			else if (ptypes[t].falldown==0)
			{
				// gasses and solids (but not powders)
				if (!do_move(i, x, y, fin_xf, fin_yf))
				{
					// can't move there, so bounce off
					// TODO
					if (fin_x>x+ISTP) fin_x=x+ISTP;
					if (fin_x<x-ISTP) fin_x=x-ISTP;
					if (fin_y>y+ISTP) fin_y=y+ISTP;
					if (fin_y<y-ISTP) fin_y=y-ISTP;
					if (do_move(i, x, y, 0.25f+(float)(2*x-fin_x), 0.25f+fin_y))
					{
						parts[i].vx *= ptypes[t].collision;
					}
					else if (do_move(i, x, y, 0.25f+fin_x, 0.25f+(float)(2*y-fin_y)))
					{
						parts[i].vy *= ptypes[t].collision;
					}
					else
					{
						parts[i].vx *= ptypes[t].collision;
						parts[i].vy *= ptypes[t].collision;
					}
				}
			}
			else
			{
				if (water_equal_test && ptypes[t].falldown == 2 && 1>= rand()%400)//checking stagnant is cool, but then it doesn't update when you change it later.
				{
					if (!flood_water(x,y,i,y, parts[i].tmp2))
						goto movedone;
				}
				// liquids and powders
				if (!do_move(i, x, y, fin_xf, fin_yf))
				{
					if (fin_x!=x && do_move(i, x, y, fin_xf, clear_yf))
					{
						parts[i].vx *= ptypes[t].collision;
						parts[i].vy *= ptypes[t].collision;
					}
					else if (fin_y!=y && do_move(i, x, y, clear_xf, fin_yf))
					{
						parts[i].vx *= ptypes[t].collision;
						parts[i].vy *= ptypes[t].collision;
					}
					else
					{
						s = 1;
						r = (rand()%2)*2-1;
						if ((clear_x!=x || clear_y!=y || nt || surround_space) &&
							(fabsf(parts[i].vx)>0.01f || fabsf(parts[i].vy)>0.01f))
						{
							// allow diagonal movement if target position is blocked
							// but no point trying this if particle is stuck in a block of identical particles
							dx = parts[i].vx - parts[i].vy*r;
							dy = parts[i].vy + parts[i].vx*r;
							if (fabsf(dy)>fabsf(dx))
								mv = fabsf(dy);
							else
								mv = fabsf(dx);
							dx /= mv;
							dy /= mv;
							if (do_move(i, x, y, clear_xf+dx, clear_yf+dy))
							{
								parts[i].vx *= ptypes[t].collision;
								parts[i].vy *= ptypes[t].collision;
								goto movedone;
							}
							swappage = dx;
							dx = dy*r;
							dy = -swappage*r;
							if (do_move(i, x, y, clear_xf+dx, clear_yf+dy))
							{
								parts[i].vx *= ptypes[t].collision;
								parts[i].vy *= ptypes[t].collision;
								goto movedone;
							}
						}
						if (ptypes[t].falldown>1 && !ngrav_enable && gravityMode==0 && parts[i].vy>fabsf(parts[i].vx))
						{
							s = 0;
							// stagnant is true if FLAG_STAGNANT was set for this particle in previous frame
							if (!stagnant || nt) //nt is if there is an something else besides the current particle type, around the particle
								rt = 30;//slight less water lag, although it changes how it moves a lot
							else
								rt = 10;
							for (j=clear_x+r; j>=0 && j>=clear_x-rt && j<clear_x+rt && j<XRES; j+=r)
							{
								if (((pmap[fin_y][j]&0xFF)!=t || bmap[fin_y/CELL][j/CELL])
									&& (s=do_move(i, x, y, (float)j, fin_yf)))
								{
									nx = (int)(parts[i].x+0.5f);
									ny = (int)(parts[i].y+0.5f);
									break;
								}
								if (fin_y!=clear_y && ((pmap[clear_y][j]&0xFF)!=t || bmap[clear_y/CELL][j/CELL])
									&& (s=do_move(i, x, y, (float)j, clear_yf)))
								{
									nx = (int)(parts[i].x+0.5f);
									ny = (int)(parts[i].y+0.5f);
									break;
								}
								if ((pmap[clear_y][j]&0xFF)!=t || (bmap[clear_y/CELL][j/CELL] && bmap[clear_y/CELL][j/CELL]!=WL_STREAM))
									break;
							}
							if (parts[i].vy>0)
								r = 1;
							else
								r = -1;
							if (s==1)
								for (j=ny+r; j>=0 && j<YRES && j>=ny-rt && j<ny+rt; j+=r)
								{
									if (((pmap[j][nx]&0xFF)!=t || bmap[j/CELL][nx/CELL]) && do_move(i, nx, ny, (float)nx, (float)j))
										break;
									if ((pmap[j][nx]&255)!=t || (bmap[j/CELL][nx/CELL] && bmap[j/CELL][nx/CELL]!=WL_STREAM))
										break;
								}
							else if (s==-1) {} // particle is out of bounds
							else if ((clear_x!=x||clear_y!=y) && do_move(i, x, y, clear_xf, clear_yf)) {}
							else parts[i].flags |= FLAG_STAGNANT;
							parts[i].vx *= ptypes[t].collision;
							parts[i].vy *= ptypes[t].collision;
						}
						else if (ptypes[t].falldown>1 && fabsf(pGravX*parts[i].vx+pGravY*parts[i].vy)>fabsf(pGravY*parts[i].vx-pGravX*parts[i].vy))
						{
							float nxf, nyf, prev_pGravX, prev_pGravY, ptGrav = ptypes[t].gravity;
							s = 0;
							// stagnant is true if FLAG_STAGNANT was set for this particle in previous frame
							if (!stagnant || nt) //nt is if there is an something else besides the current particle type, around the particle
								rt = 30;//slight less water lag, although it changes how it moves a lot
							else
								rt = 10;
							nxf = clear_xf;
							nyf = clear_yf;
							for (j=0;j<rt;j++)
							{
								switch (gravityMode)
								{
									default:
									case 0:
										pGravX = 0.0f;
										pGravY = ptGrav;
										break;
									case 1:
										pGravX = pGravY = 0.0f;
										break;
									case 2:
										pGravD = 0.01f - hypotf((nx - XCNTR), (ny - YCNTR));
										pGravX = ptGrav * ((float)(nx - XCNTR) / pGravD);
										pGravY = ptGrav * ((float)(ny - YCNTR) / pGravD);
										break;
								}
								pGravX += gravx[(ny/CELL)*(XRES/CELL)+(nx/CELL)];
								pGravY += gravy[(ny/CELL)*(XRES/CELL)+(nx/CELL)];
								if (fabsf(pGravY)>fabsf(pGravX))
									mv = fabsf(pGravY);
								else
									mv = fabsf(pGravX);
								if (mv<0.0001f) break;
								pGravX /= mv;
								pGravY /= mv;
								if (j)
								{
									nxf += r*(pGravY*2.0f-prev_pGravY);
									nyf += -r*(pGravX*2.0f-prev_pGravX);
								}
								else
								{
									nxf += r*pGravY;
									nyf += -r*pGravX;
								}
								prev_pGravX = pGravX;
								prev_pGravY = pGravY;
								nx = (int)(nxf+0.5f);
								ny = (int)(nyf+0.5f);
								if (nx<0 || ny<0 || nx>=XRES || ny >=YRES)
									break;
								if ((pmap[ny][nx]&0xFF)!=t || bmap[ny/CELL][nx/CELL])
								{
									s = do_move(i, x, y, nxf, nyf);
									if (s)
									{
										nx = (int)(parts[i].x+0.5f);
										ny = (int)(parts[i].y+0.5f);
										break;
									}
									if (bmap[ny/CELL][nx/CELL]!=WL_STREAM)
										break;
								}
							}
							if (s==1)
							{
								clear_x = nx;
								clear_y = ny;
								for (j=0;j<rt;j++)
								{
									switch (gravityMode)
									{
										default:
										case 0:
											pGravX = 0.0f;
											pGravY = ptGrav;
											break;
										case 1:
											pGravX = pGravY = 0.0f;
											break;
										case 2:
											pGravD = 0.01f - hypotf((nx - XCNTR), (ny - YCNTR));
											pGravX = ptGrav * ((float)(nx - XCNTR) / pGravD);
											pGravY = ptGrav * ((float)(ny - YCNTR) / pGravD);
											break;
									}
									pGravX += gravx[(ny/CELL)*(XRES/CELL)+(nx/CELL)];
									pGravY += gravy[(ny/CELL)*(XRES/CELL)+(nx/CELL)];
									if (fabsf(pGravY)>fabsf(pGravX))
										mv = fabsf(pGravY);
									else
										mv = fabsf(pGravX);
									if (mv<0.0001f) break;
									pGravX /= mv;
									pGravY /= mv;
									nxf += pGravX;
									nyf += pGravY;
									nx = (int)(nxf+0.5f);
									ny = (int)(nyf+0.5f);
									if (nx<0 || ny<0 || nx>=XRES || ny>=YRES)
										break;
									if ((pmap[ny][nx]&0xFF)!=t || bmap[ny/CELL][nx/CELL])
									{
										s = do_move(i, clear_x, clear_y, nxf, nyf);
										if (s || bmap[ny/CELL][nx/CELL]!=WL_STREAM)
											break;
									}
								}
							}
							else if (s==-1) {} // particle is out of bounds
							else if ((clear_x!=x||clear_y!=y) && do_move(i, x, y, clear_xf, clear_yf)) {}
							else parts[i].flags |= FLAG_STAGNANT;
							parts[i].vx *= ptypes[t].collision;
							parts[i].vy *= ptypes[t].collision;
						}
						else
						{
							// if interpolation was done, try moving to last clear position
							if ((clear_x!=x||clear_y!=y) && do_move(i, x, y, clear_xf, clear_yf)) {}
							else parts[i].flags |= FLAG_STAGNANT;
							parts[i].vx *= ptypes[t].collision;
							parts[i].vy *= ptypes[t].collision;
						}
					}
				}
			}
movedone:
			continue;
		}
}

void Simulation::update_particles()//doesn't update the particles themselves, but some other things
{
	int i, j, x, y, t, nx, ny, r, cr,cg,cb, l = -1;
	float lx, ly;
	int lastPartUsed = 0;
	int lastPartUnused = -1;
#ifdef MT
	int pt = 0, pc = 0;
	pthread_t *InterThreads;
#endif

	memset(pmap, 0, sizeof(pmap));
	memset(photons, 0, sizeof(photons));
	NUM_PARTS = 0;
	for (i=0; i<=parts_lastActiveIndex; i++)//the particle loop that resets the pmap/photon maps every frame, to update them.
	{
		if (parts[i].type)
		{
			t = parts[i].type;
			x = (int)(parts[i].x+0.5f);
			y = (int)(parts[i].y+0.5f);
			if (x>=0 && y>=0 && x<XRES && y<YRES)
			{
				if (t==PT_PHOT||t==PT_NEUT)
					photons[y][x] = t|(i<<8);
				else
					pmap[y][x] = t|(i<<8);
			}
			lastPartUsed = i;
			NUM_PARTS ++;
		}
		else
		{
			if (lastPartUnused<0) pfree = i;
			else parts[lastPartUnused].life = i;
			lastPartUnused = i;
		}
	}
	if (lastPartUnused==-1)
	{
		if (parts_lastActiveIndex>=NPART-1) pfree = -1;
		else pfree = parts_lastActiveIndex+1;
	}
	else
	{
		if (parts_lastActiveIndex>=NPART-1) parts[lastPartUnused].life = -1;
		else parts[lastPartUnused].life = parts_lastActiveIndex+1;
	}
	parts_lastActiveIndex = lastPartUsed;
	if (!sys_pause||framerender)
	{
		for (y=0; y<YRES/CELL; y++)
		{
			for (x=0; x<XRES/CELL; x++)
			{
				if (emap[y][x])
					emap[y][x] --;
			}
		}
	}

	update_particles_i(0, 1);

	// this should probably be elsewhere
	/*for (y=0; y<YRES/CELL; y++)
		for (x=0; x<XRES/CELL; x++)
			if (bmap[y][x]==WL_STREAM)
			{
				lx = x*CELL + CELL*0.5f;
				ly = y*CELL + CELL*0.5f;
				for (t=0; t<1024; t++)
				{
					nx = (int)(lx+0.5f);
					ny = (int)(ly+0.5f);
					if (nx<0 || nx>=XRES || ny<0 || ny>=YRES)
						break;
					addpixel(vid, nx, ny, 255, 255, 255, 64);
					i = nx/CELL;
					j = ny/CELL;
					lx += vx[j][i]*0.125f;
					ly += vy[j][i]*0.125f;
					if (bmap[j][i]==WL_STREAM && i!=x && j!=y)
						break;
				}
				drawtext(vid, x*CELL, y*CELL-2, "\x8D", 255, 255, 255, 128);
			}
*/
}

Simulation::Simulation()
{
	//Create and attach gravity simulation
	grav = new Gravity();
	//Give air sim references to our data
	grav->bmap = bmap;
	//Gravity sim gives us maps to use
	gravx = grav->gravx;
	gravy = grav->gravy;
	gravp = grav->gravp;
	gravmap = grav->gravmap;

	//Create and attach air simulation
	air = new Air();
	//Give air sim references to our data
	air->bmap = bmap;
	air->emap = emap;
	air->fvx = fvx;
	air->fvy = fvy;
	//Air sim gives us maps to use
	vx = air->vx;
	vy = air->vy;
	pv = air->pv;
	hv = air->hv;

	//ptypes[0] = {"",		PIXPACK(0x000000),	0.0f,	0.00f * CFDS,	1.00f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	1,	1,	1,	100,	0,		R_TEMP+0.0f	+273.15f,	251,	"Erases particles.", ST_NONE, 0, NULL, NULL};
	//ptypes[1] = {"DUST",	PIXPACK(0xFFE0A0),	0.7f,	0.02f * CFDS,	0.96f,	0.80f,	0.0f,	0.1f,	0.00f,	0.000f	* CFDS,	1,	10,		0,	0,	30,	1,	1,	85,		0,		R_TEMP+0.0f	+273.15f,	70,		"Very light dust. Flammable.", ST_SOLID, TYPE_PART|PROP_LIFE_DEC|PROP_LIFE_KILL_DEC, NULL, &graphics_DUST};
	//ptypes[2] = {"WATR",	PIXPACK(0x2030D0),	0.6f,	0.01f * CFDS,	0.98f,	0.95f,	0.0f,	0.1f,	0.00f,	0.000f	* CFDS,	2,	0,		0,	0,	20,	1,	1,	30,		0,		R_TEMP-2.0f	+273.15f,	29,		"Liquid. Conducts electricity. Freezes. Extinguishes fires.", ST_LIQUID, TYPE_LIQUID|PROP_CONDUCTS|PROP_LIFE_DEC|PROP_NEUTPENETRATE, &update_WATR, NULL};

#define SC_WALL 0
#define SC_ELEC 1
#define SC_POWERED 2
#define SC_EXPLOSIVE 3
#define SC_GAS 4
#define SC_LIQUID 5
#define SC_POWDERS 6
#define SC_SOLIDS 7
#define SC_NUCLEAR 8
#define SC_SPECIAL 9
#define SC_LIFE 10
#define SC_TOOL 11
#define SC_CRACKER 13
#define SC_CRACKER2 14
#define SC_TOTAL 12

	part_type ptypest[PT_NUM] =
	{
		//Name		Colour				Advec	Airdrag			Airloss	Loss	Collid	Grav	Diffus	Hotair			Fal	Burn	Exp	Mel	Hrd M	Use	Weight	Section			H						Ins		Description
		{"",		PIXPACK(0x000000),	0.0f,	0.00f * CFDS,	1.00f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	1,	1,	1,	100,	SC_SPECIAL,		R_TEMP+0.0f	+273.15f,	251,	"Erases particles.", ST_NONE, 0, NULL, NULL},
		{"DUST",	PIXPACK(0xFFE0A0),	0.7f,	0.02f * CFDS,	0.96f,	0.80f,	0.0f,	0.1f,	0.00f,	0.000f	* CFDS,	1,	10,		0,	0,	30,	1,	1,	85,		SC_POWDERS,		R_TEMP+0.0f	+273.15f,	70,		"Very light dust. Flammable.", ST_SOLID, TYPE_PART|PROP_LIFE_DEC|PROP_LIFE_KILL_DEC, NULL, &graphics_DUST},
		{"WATR",	PIXPACK(0x2030D0),	0.6f,	0.01f * CFDS,	0.98f,	0.95f,	0.0f,	0.1f,	0.00f,	0.000f	* CFDS,	2,	0,		0,	0,	20,	1,	1,	30,		SC_LIQUID,		R_TEMP-2.0f	+273.15f,	29,		"Liquid. Conducts electricity. Freezes. Extinguishes fires.", ST_LIQUID, TYPE_LIQUID|PROP_CONDUCTS|PROP_LIFE_DEC|PROP_NEUTPENETRATE, &update_WATR, NULL},
		{"OIL",		PIXPACK(0x404010),	0.6f,	0.01f * CFDS,	0.98f,	0.95f,	0.0f,	0.1f,	0.00f,	0.000f	* CFDS,	2,	20,		0,	0,	5,	1,	1,	20,		SC_LIQUID,		R_TEMP+0.0f	+273.15f,	42,		"Liquid. Flammable.", ST_LIQUID, TYPE_LIQUID, NULL, NULL},
		{"FIRE",	PIXPACK(0xFF1000),	0.9f,	0.04f * CFDS,	0.97f,	0.20f,	0.0f,	-0.1f,	0.00f,	0.001f	* CFDS,	1,	0,		0,	0,	1,	1,	1,	2,		SC_EXPLOSIVE,	R_TEMP+400.0f+273.15f,	88,		"Ignites flammable materials. Heats air.", ST_GAS, TYPE_GAS|PROP_LIFE_DEC|PROP_LIFE_KILL, &update_PYRO, &graphics_FIRE},
		{"STNE",	PIXPACK(0xA0A0A0),	0.4f,	0.04f * CFDS,	0.94f,	0.95f,	-0.1f,	0.3f,	0.00f,	0.000f	* CFDS,	1,	0,		0,	5,	1,	1,	1,	90,		SC_POWDERS,		R_TEMP+0.0f	+273.15f,	150,	"Heavy particles. Meltable.", ST_SOLID, TYPE_PART, NULL, NULL},
		{"LAVA",	PIXPACK(0xE05010),	0.3f,	0.02f * CFDS,	0.95f,	0.80f,	0.0f,	0.15f,	0.00f,	0.0003f	* CFDS,	2,	0,		0,	0,	2,	1,	1,	45,		SC_LIQUID,		R_TEMP+1500.0f+273.15f,	60,		"Heavy liquid. Ignites flammable materials. Solidifies when cold.", ST_LIQUID, TYPE_LIQUID|PROP_LIFE_DEC, &update_PYRO, &graphics_LAVA},
		{"GUN",		PIXPACK(0xC0C0D0),	0.7f,	0.02f * CFDS,	0.94f,	0.80f,	-0.1f,	0.1f,	0.00f,	0.000f	* CFDS,	1,	600,	1,	0,	10,	1,	1,	85,		SC_EXPLOSIVE,	R_TEMP+0.0f	+273.15f,	97,		"Light dust. Explosive.", ST_SOLID, TYPE_PART, NULL, NULL},
		{"NITR",	PIXPACK(0x20E010),	0.5f,	0.02f * CFDS,	0.92f,	0.97f,	0.0f,	0.2f,	0.00f,	0.000f	* CFDS,	2,	1000,	2,	0,	3,	1,	1,	23,		SC_EXPLOSIVE,	R_TEMP+0.0f	+273.15f,	50,		"Liquid. Pressure sensitive explosive.", ST_LIQUID, TYPE_LIQUID, NULL, NULL},
		{"CLNE",	PIXPACK(0xFFD010),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	1,	1,	1,	100,	SC_SPECIAL,		R_TEMP+0.0f	+273.15f,	251,	"Solid. Duplicates any particles it touches.", ST_SOLID, TYPE_SOLID, &update_CLNE, NULL},
		{"GAS",		PIXPACK(0xE0FF20),	1.0f,	0.01f * CFDS,	0.99f,	0.30f,	-0.1f,	0.0f,	0.75f,	0.001f	* CFDS,	0,	600,	0,	0,	1,	1,	1,	1,		SC_GAS,			R_TEMP+2.0f	+273.15f,	42,		"Gas. Diffuses. Flammable. Liquefies under pressure.", ST_GAS, TYPE_GAS, NULL, NULL},
		{"C-4",		PIXPACK(0xD080E0),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	1000,	2,	50,	1,	1,	1,	100,	SC_EXPLOSIVE,	R_TEMP+0.0f	+273.15f,	88,		"Solid. Pressure sensitive explosive.", ST_SOLID, TYPE_SOLID | PROP_NEUTPENETRATE, NULL, NULL},
		{"GOO",		PIXPACK(0x804000),	0.0f,	0.00f * CFDS,	0.97f,	0.50f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	12,	1,	1,	100,	SC_SOLIDS,		R_TEMP+0.0f	+273.15f,	75,		"Solid. Deforms and disappears under pressure.", ST_SOLID, TYPE_SOLID | PROP_NEUTPENETRATE|PROP_LIFE_DEC|PROP_LIFE_KILL_DEC, &update_GOO, NULL},
		{"ICE",		PIXPACK(0xA0C0FF),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	-0.0003f* CFDS,	0,	0,		0,	0,	20,	1,	1,	100,	SC_SOLIDS,		R_TEMP-50.0f+273.15f,	46,		"Solid. Freezes water. Crushes under pressure. Cools down air.", ST_SOLID, TYPE_SOLID|PROP_LIFE_DEC, &update_ICEI, NULL},
		{"METL",	PIXPACK(0x404060),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	1,	1,	1,	1,	100,	SC_ELEC,		R_TEMP+0.0f	+273.15f,	251,	"Solid. Conducts electricity. Meltable.", ST_SOLID, TYPE_SOLID|PROP_CONDUCTS|PROP_LIFE_DEC|PROP_HOT_GLOW, NULL, NULL},
		{"SPRK",	PIXPACK(0xFFFF80),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.001f	* CFDS,	0,	0,		0,	0,	1,	1,	1,	100,	SC_ELEC,		R_TEMP+0.0f	+273.15f,	251,	"Electricity. Conducted by metal and water.", ST_SOLID, TYPE_SOLID|PROP_LIFE_DEC, &update_SPRK, &graphics_SPRK},
		{"SNOW",	PIXPACK(0xC0E0FF),	0.7f,	0.01f * CFDS,	0.96f,	0.90f,	-0.1f,	0.05f,	0.01f,	-0.00005f* CFDS,1,	0,		0,	0,	20,	1,	1,	50,		SC_POWDERS,		R_TEMP-30.0f+273.15f,	46,		"Light particles.", ST_SOLID, TYPE_PART|PROP_LIFE_DEC, &update_ICEI, NULL},
		{"WOOD",	PIXPACK(0xC0A040),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	20,		0,	0,	15,	1,	1,	100,	SC_SOLIDS,		R_TEMP+0.0f	+273.15f,	164,	"Solid. Flammable.", ST_SOLID, TYPE_SOLID | PROP_NEUTPENETRATE, NULL, NULL},
		{"NEUT",	PIXPACK(0x20E0FF),	0.0f,	0.00f * CFDS,	1.00f,	1.00f,	-0.99f,	0.0f,	0.01f,	0.002f	* CFDS,	0,	0,		0,	0,	0,	1,	1,	-1,		SC_NUCLEAR,		R_TEMP+4.0f	+273.15f,	60,		"Neutrons. Interact with matter in odd ways.", ST_GAS, TYPE_ENERGY|PROP_LIFE_DEC|PROP_LIFE_KILL_DEC, &update_NEUT, &graphics_NEUT},
		{"PLUT",	PIXPACK(0x407020),	0.4f,	0.01f * CFDS,	0.99f,	0.95f,	0.0f,	0.4f,	0.00f,	0.000f	* CFDS,	1,	0,		0,	0,	0,	1,	1,	90,		SC_NUCLEAR,		R_TEMP+4.0f	+273.15f,	251,	"Heavy particles. Fissile. Generates neutrons under pressure.", ST_SOLID, TYPE_PART|PROP_NEUTPENETRATE|PROP_RADIOACTIVE, &update_PLUT, NULL},
		{"PLNT",	PIXPACK(0x0CAC00),	0.0f,	0.00f * CFDS,	0.95f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	20,		0,	0,	10,	1,	1,	100,	SC_SOLIDS,		R_TEMP+0.0f	+273.15f,	65,		"Plant, drinks water and grows.", ST_SOLID, TYPE_SOLID|PROP_NEUTPENETRATE|PROP_LIFE_DEC, &update_PLNT, NULL},
		{"ACID",	PIXPACK(0xED55FF),	0.6f,	0.01f * CFDS,	0.98f,	0.95f,	0.0f,	0.1f,	0.00f,	0.000f	* CFDS,	2,	40,		0,	0,	1,	1,	1,	10,		SC_LIQUID,		R_TEMP+0.0f	+273.15f,	34,		"Dissolves almost everything.", ST_LIQUID, TYPE_LIQUID|PROP_DEADLY, &update_ACID, &graphics_ACID},
		{"VOID",	PIXPACK(0x790B0B),	0.0f,	0.00f * CFDS,	1.00f,	0.00f,	0.0f,	0.0f,	0.00f,	-0.0003f* CFDS,	0,	0,		0,	0,	0,	1,	1,	100,	SC_SPECIAL,		R_TEMP+0.0f	+273.15f,	251,	"Hole, will drain away any particles.", ST_SOLID, TYPE_SOLID, NULL, NULL},
		{"WTRV",	PIXPACK(0xA0A0FF),	1.0f,	0.01f * CFDS,	0.99f,	0.30f,	-0.1f,	-0.1f,	0.75f,	0.0003f	* CFDS,	0,	0,		0,	0,	4,	1,	1,	1,		SC_GAS,			R_TEMP+100.0f+273.15f,	48,		"Steam, heats up air, produced from hot water.", ST_GAS, TYPE_GAS, &update_WTRV, NULL},
		{"CNCT",	PIXPACK(0xC0C0C0),	0.4f,	0.04f * CFDS,	0.94f,	0.95f,	-0.1f,	0.3f,	0.00f,	0.000f	* CFDS,	1,	0,		0,	2,	2,	1,	1,	55,		SC_POWDERS,		R_TEMP+0.0f	+273.15f,	100,	"Concrete, stronger than stone.", ST_SOLID, TYPE_PART|PROP_HOT_GLOW, NULL, NULL},
		{"DSTW",	PIXPACK(0x1020C0),	0.6f,	0.01f * CFDS,	0.98f,	0.95f,	0.0f,	0.1f,	0.00f,	0.000f	* CFDS,	2,	0,		0,	0,	20,	1,	1,	30,		SC_LIQUID,		R_TEMP-2.0f	+273.15f,	23,		"Distilled water, does not conduct electricity.", ST_LIQUID, TYPE_LIQUID|PROP_NEUTPENETRATE, &update_DSTW, NULL},
		{"SALT",	PIXPACK(0xFFFFFF),	0.4f,	0.04f * CFDS,	0.94f,	0.95f,	-0.1f,	0.3f,	0.00f,	0.000f	* CFDS,	1,	0,		0,	5,	1,	1,	1,	75,		SC_POWDERS,		R_TEMP+0.0f	+273.15f,	110,	"Salt, dissolves in water.", ST_SOLID, TYPE_PART, NULL, NULL},
		{"SLTW",	PIXPACK(0x4050F0),	0.6f,	0.01f * CFDS,	0.98f,	0.95f,	0.0f,	0.1f,	0.00f,	0.000f	* CFDS,	2,	0,		0,	0,	20,	1,	1,	35,		SC_LIQUID,		R_TEMP+0.0f	+273.15f,	75,		"Saltwater, conducts electricity, difficult to freeze.", ST_LIQUID, TYPE_LIQUID|PROP_CONDUCTS|PROP_LIFE_DEC|PROP_NEUTPENETRATE, &update_SLTW, NULL},
		{"DMND",	PIXPACK(0xCCFFFF),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	0,	1,	1,	100,	SC_SOLIDS,		R_TEMP+0.0f	+273.15f,	186,	"Diamond. Indestructible.", ST_SOLID, TYPE_SOLID, NULL, NULL},
		{"BMTL",	PIXPACK(0x505070),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	1,	1,	1,	1,	100,	SC_SOLIDS,		R_TEMP+0.0f	+273.15f,	251,	"Breakable metal.", ST_SOLID, TYPE_SOLID|PROP_CONDUCTS|PROP_LIFE_DEC|PROP_HOT_GLOW, &update_BMTL, NULL},
		{"BRMT",	PIXPACK(0x705060),	0.4f,	0.04f * CFDS,	0.94f,	0.95f,	-0.1f,	0.3f,	0.00f,	0.000f	* CFDS,	1,	0,		0,	2,	2,	1,	1,	90,		SC_POWDERS,		R_TEMP+0.0f	+273.15f,	211,	"Broken metal.", ST_SOLID, TYPE_PART|PROP_CONDUCTS|PROP_LIFE_DEC|PROP_HOT_GLOW, &update_BRMT, NULL},
		{"PHOT",	PIXPACK(0xFFFFFF),	0.0f,	0.00f * CFDS,	1.00f,	1.00f,	-0.99f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	0,	1,	1,	-1,		SC_NUCLEAR,		R_TEMP+900.0f+273.15f,	251,	"Photons. Travel in straight lines.", ST_GAS, TYPE_ENERGY|PROP_LIFE_DEC|PROP_LIFE_KILL_DEC, &update_PHOT, &graphics_PHOT},
		{"URAN",	PIXPACK(0x707020),	0.4f,	0.01f * CFDS,	0.99f,	0.95f,	0.0f,	0.4f,	0.00f,	0.000f	* CFDS,	1,	0,		0,	0,	0,	1,	1,	90,		SC_NUCLEAR,		R_TEMP+30.0f+273.15f,	251,	"Heavy particles. Generates heat under pressure.", ST_SOLID, TYPE_PART | PROP_RADIOACTIVE, &update_URAN, NULL},
		{"WAX",		PIXPACK(0xF0F0BB),  0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	10,	1,	1,	100,	SC_SOLIDS,		R_TEMP+0.0f	+273.15f,	44,		"Wax. Melts at moderately high temperatures.", ST_SOLID, TYPE_SOLID, NULL, NULL},
		{"MWAX",	PIXPACK(0xE0E0AA),	0.3f,	0.02f * CFDS,	0.95f,	0.80f,	0.0f,	0.15f,	0.00f,	0.000001f* CFDS,2,	5,		0,	0,	2,	1,	1,	25,		SC_LIQUID,		R_TEMP+28.0f+273.15f,	44,		"Liquid Wax.", ST_LIQUID, TYPE_LIQUID, NULL, NULL},
		{"PSCN",	PIXPACK(0x805050),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	1,	1,	1,	1,	100,	SC_ELEC,		R_TEMP+0.0f	+273.15f,	251,	"P-Type Silicon, Will transfer current to any conductor.", ST_SOLID, TYPE_SOLID|PROP_CONDUCTS|PROP_LIFE_DEC, NULL, NULL},
		{"NSCN",	PIXPACK(0x505080),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	1,	1,	1,	1,	100,	SC_ELEC,		R_TEMP+0.0f	+273.15f,	251,	"N-Type Silicon, Will not transfer current to P-Type Silicon.", ST_SOLID, TYPE_SOLID|PROP_CONDUCTS|PROP_LIFE_DEC, NULL, NULL},
		{"LN2",		PIXPACK(0x80A0DF),	0.6f,	0.01f * CFDS,	0.98f,	0.95f,	0.0f,	0.1f,	0.00f,	0.000f	* CFDS,	2,	0,		0,	0,	0,	1,	1,	30,		SC_LIQUID,		70.15f,					70,		"Liquid Nitrogen. Very cold.", ST_SOLID, TYPE_LIQUID, NULL, NULL},
		{"INSL",	PIXPACK(0x9EA3B6),	0.0f,	0.00f * CFDS,	0.95f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	7,		0,	0,	10,	1,	1,	100,	SC_SPECIAL,		R_TEMP+0.0f	+273.15f,	0,		"Insulator, does not conduct heat or electricity.", ST_SOLID, TYPE_SOLID, NULL, NULL},
		{"VACU",	PIXPACK(0x303030),	0.0f,	0.00f * CFDS,	0.95f,	0.00f,	0.0f,	0.0f,	0.00f,	-0.01f	* CFDS,	0,	0,		0,	0,	0,	1,	1,	100,	SC_SPECIAL,		R_TEMP+70.0f+273.15f,	255,	"Vacuum, sucks in other particles and heats up.", ST_NONE, TYPE_SOLID, NULL, NULL},
		{"VENT",	PIXPACK(0xEFEFEF),	0.0f,	0.00f * CFDS,	0.95f,	0.00f,	0.0f,	0.0f,	0.00f,	0.010f	* CFDS,	0,	0,		0,	0,	0,	1,	1,	100,	SC_SPECIAL,		R_TEMP-16.0f+273.15f,	255,	"Air vent, creates pressure and pushes other particles away.", ST_NONE, TYPE_SOLID, NULL, NULL},
		{"RBDM",	PIXPACK(0xCCCCCC),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	1000,	1,	50,	1,	1,	1,	100,	SC_EXPLOSIVE,	R_TEMP+0.0f	+273.15f,	240,	"Rubidium, explosive, especially on contact with water, low melting point", ST_SOLID, TYPE_SOLID|PROP_CONDUCTS|PROP_LIFE_DEC, NULL, NULL},
		{"LRBD",	PIXPACK(0xAAAAAA),	0.3f,	0.02f * CFDS,	0.95f,	0.80f,	0.0f,	0.15f,	0.00f,	0.000001f* CFDS,2,	1000,	1,	0,	2,	1,	1,	45,		SC_EXPLOSIVE,	R_TEMP+45.0f+273.15f,	170,	"Liquid Rubidium.", ST_LIQUID, TYPE_LIQUID|PROP_CONDUCTS|PROP_LIFE_DEC, NULL, NULL},
		{"NTCT",	PIXPACK(0x505040),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	1,	1,	1,	1,	100,	SC_ELEC,		R_TEMP+0.0f	+273.15f,	251,	"Semi-conductor. Only conducts electricity when hot (More than 100C)", ST_SOLID, TYPE_SOLID|PROP_CONDUCTS|PROP_LIFE_DEC, &update_NPTCT, NULL},
		{"SAND",	PIXPACK(0xFFD090),	0.4f,	0.04f * CFDS,	0.94f,	0.95f,	-0.1f,	0.3f,	0.00f,	0.000f	* CFDS,	1,	0,		0,	5,	1,	1,	1,	90,		SC_POWDERS,		R_TEMP+0.0f	+273.15f,	150,	"Sand, Heavy particles. Meltable.", ST_SOLID, TYPE_PART, NULL, NULL},
		{"GLAS",	PIXPACK(0x404040),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	0,	1,	1,	100,	SC_SOLIDS,		R_TEMP+0.0f	+273.15f,	150,	"Solid. Meltable. Shatters under pressure", ST_SOLID, TYPE_SOLID | PROP_NEUTPASS | PROP_HOT_GLOW | PROP_SPARKSETTLE, &update_GLAS, NULL},
		{"PTCT",	PIXPACK(0x405050),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	1,	1,	1,	1,	100,	SC_ELEC,		R_TEMP+0.0f	+273.15f,	251,	"Semi-conductor. Only conducts electricity when cold (Less than 100C)", ST_SOLID, TYPE_SOLID|PROP_CONDUCTS|PROP_LIFE_DEC, &update_NPTCT, NULL},
		{"BGLA",	PIXPACK(0x606060),	0.4f,	0.04f * CFDS,	0.94f,	0.95f,	-0.1f,	0.3f,	0.00f,	0.000f	* CFDS,	1,	0,		0,	5,	2,	1,	1,	90,		SC_POWDERS,		R_TEMP+0.0f	+273.15f,	150,	"Broken Glass, Heavy particles. Meltable. Bagels.", ST_SOLID, TYPE_PART | PROP_HOT_GLOW, NULL, NULL},
		{"THDR",	PIXPACK(0xFFFFA0),	0.0f,	0.00f * CFDS,	1.0f,	0.30f,	-0.99f,	0.6f,	0.62f,	0.000f	* CFDS,	0,	0,		0,	0,	0,	1,	1,	1,		SC_EXPLOSIVE,	9000.0f		+273.15f,	1,	"Lightning! Very hot, inflicts damage upon most materials, transfers current to metals.", ST_NONE, TYPE_ENERGY, &update_THDR, &graphics_THDR},
		{"PLSM",	PIXPACK(0xBB99FF),	0.9f,	0.04f * CFDS,	0.97f,	0.20f,	0.0f,	-0.1f,	0.30f,	0.001f	* CFDS,	0,	0,		0,	0,	0,	1,	1,	1,		SC_GAS,			10000.0f		+273.15f,	5,	"Plasma, extremely hot.", ST_NONE, TYPE_GAS|PROP_LIFE_DEC|PROP_LIFE_KILL, &update_PYRO, &graphics_PLSM},
		{"ETRD",	PIXPACK(0x404040),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	1,	1,	1,	1,	100,	SC_ELEC,		R_TEMP+0.0f	+273.15f,	251,	"Electrode. Creates a surface that allows Plasma arcs. (Use sparingly)", ST_NONE, TYPE_SOLID|PROP_CONDUCTS|PROP_LIFE_DEC, NULL, NULL},
		{"NICE",	PIXPACK(0xC0E0FF),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	-0.0005f* CFDS,	0,	0,		0,	0,	20,	1,	1,	100,	SC_SOLIDS,		35.0f,					46,		"Nitrogen Ice.", ST_SOLID, TYPE_SOLID, NULL, NULL},
		{"NBLE",	PIXPACK(0xEB4917),	1.0f,	0.01f * CFDS,	0.99f,	0.30f,	-0.1f,	0.0f,	0.75f,	0.001f	* CFDS,	0,	0,		0,	0,	1,	1,	1,	1,		SC_GAS,			R_TEMP+2.0f	+273.15f,	106,	"Noble Gas. Diffuses. Conductive. Ionizes into plasma when introduced to electricity", ST_GAS, TYPE_GAS|PROP_CONDUCTS|PROP_LIFE_DEC, NULL, NULL},
		{"BTRY",	PIXPACK(0x858505),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	1,	1,	1,	1,	100,	SC_ELEC,		R_TEMP+0.0f	+273.15f,	251,	"Solid. Generates Electricity.", ST_SOLID, TYPE_SOLID, &update_BTRY, NULL},
		{"LCRY",	PIXPACK(0x505050),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	1,	1,	1,	1,	100,	SC_POWERED,		R_TEMP+0.0f	+273.15f,	251,	"Liquid Crystal. Changes colour when charged. (PSCN Charges, NSCN Discharges)", ST_SOLID, TYPE_SOLID, &update_LCRY, &graphics_LCRY},
		{"STKM",	PIXPACK(0x000000),	0.5f,	0.00f * CFDS,	0.2f,	1.0f,	0.0f,	0.0f,	0.0f,	0.00f	* CFDS,	0,	0,		0,	0,	0,	1,	1,	50,		SC_SPECIAL,		R_TEMP+14.6f+273.15f,	0,		"Stickman. Don't kill him!", ST_NONE, 0, &update_STKM, &graphics_STKM},
		{"SWCH",	PIXPACK(0x103B11),	0.0f,	0.00f * CFDS,	0.90f,  0.00f,  0.0f,	0.0f,	0.00f,  0.000f  * CFDS, 0,	0,		0,	0,	1,	1,	1,	100,	SC_ELEC,		R_TEMP+0.0f	+273.15f,	251,	"Solid. Only conducts when switched on. (PSCN switches on, NSCN switches off)", ST_SOLID, TYPE_SOLID, &update_SWCH, &graphics_SWCH},
		{"SMKE",	PIXPACK(0x222222),	0.9f,	0.04f * CFDS,	0.97f,	0.20f,	0.0f,	-0.1f,	0.00f,	0.001f	* CFDS,	1,	0,		0,	0,	1,	1,	1,	1,		SC_GAS,			R_TEMP+320.0f+273.15f,	88,		"Smoke", ST_SOLID, TYPE_GAS|PROP_LIFE_DEC|PROP_LIFE_KILL_DEC, NULL, &graphics_SMKE},
		{"DESL",	PIXPACK(0x440000),	1.0f,	0.01f * CFDS,	0.98f,	0.95f,	0.0f,	0.1f,	0.0f,	0.0f	* CFDS,	2,	2,		0,	0,	5,	1,	1,	15,		SC_LIQUID,		R_TEMP+0.0f	+273.15f,	42,		"Liquid. Explodes under high pressure and temperatures", ST_LIQUID, TYPE_LIQUID, NULL, NULL},
		{"COAL",	PIXPACK(0x222222),	0.0f,   0.00f * CFDS,   0.90f,  0.00f,  0.0f,   0.0f,   0.0f,   0.0f	* CFDS, 0,	0,		0,	0,	20,	1,	1,	100,	SC_SOLIDS,		R_TEMP+0.0f	+273.15f,	200,	"Solid. Burns slowly.", ST_SOLID, TYPE_SOLID, &update_COAL, &graphics_COAL},
		{"LOXY",	PIXPACK(0x80A0EF),	0.6f,	0.01f * CFDS,	0.98f,	0.95f,	0.0f,	0.1f,	0.00f,	0.000f	* CFDS,	2,	5000,  	0,	0,	0,	1,	1,	30,		SC_LIQUID,		80.0f,					70,		"Liquid Oxygen. Very cold. Reacts with fire", ST_LIQUID, TYPE_LIQUID, NULL, NULL},
		{"OXYG",	PIXPACK(0x80A0FF),	2.0f,   0.00f * CFDS,   0.99f,	0.30f,	-0.1f,	0.0f,	3.0f,	0.000f	* CFDS,	0,	0,  	0,	0,	0,	1,	1,	1,		SC_GAS,		 	R_TEMP+0.0f	+273.15f,   70,		"Gas. Ignites easily.", ST_GAS, TYPE_GAS, &update_O2, NULL},
		{"INWR",	PIXPACK(0x544141),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	1,	1,	1,	1,	100,	SC_ELEC,		R_TEMP+0.0f	+273.15f,	251,	"Insulated Wire. Doesn't conduct to metal or semiconductors.", ST_SOLID, TYPE_SOLID|PROP_CONDUCTS|PROP_LIFE_DEC, NULL, NULL},
		{"YEST",	PIXPACK(0xEEE0C0),	0.7f,	0.02f * CFDS,	0.96f,	0.80f,	0.0f,	0.1f,	0.00f,	0.000f	* CFDS,	1,	15,		0,	0,	30,	1,	1,	80,		SC_POWDERS,		R_TEMP+0.0f	+273.15f,	70,		"Yeast, grows when warm (~37C).", ST_SOLID, TYPE_PART, &update_YEST, NULL},
		{"DYST",	PIXPACK(0xBBB0A0),	0.7f,	0.02f * CFDS,	0.96f,	0.80f,	0.0f,	0.1f,	0.00f,	0.000f	* CFDS,	1,	20,		0,	0,	30,	0,	1,	80,		SC_POWDERS,		R_TEMP+0.0f	+273.15f,	70,		"Dead Yeast.", ST_SOLID, TYPE_PART, NULL, NULL},
		{"THRM",	PIXPACK(0xA08090),	0.4f,	0.04f * CFDS,	0.94f,	0.95f,	-0.1f,	0.3f,	0.00f,	0.000f	* CFDS,	1,	0,		0,	2,	2,	1,	1,	90,		SC_EXPLOSIVE,	R_TEMP+0.0f	+273.15f,	211,	"Thermite. Burns at extremely high temperature.", ST_SOLID, TYPE_PART, &update_THRM, NULL},
		{"GLOW",	PIXPACK(0x445464),	0.3f,	0.02f * CFDS,	0.98f,	0.80f,	0.0f,	0.15f,	0.00f,	0.000f	* CFDS,	2,	0,		0,	0,	2,	1,	1,	40,		SC_LIQUID,		R_TEMP+20.0f+273.15f,	44,		"Glow, Glows under pressure", ST_LIQUID, TYPE_LIQUID|PROP_LIFE_DEC, &update_GLOW, &graphics_GLOW},
		{"BRCK",	PIXPACK(0x808080),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	1,	1,	1,	100,	SC_SOLIDS,		R_TEMP+0.0f	+273.15f,	251,	"Brick, breakable building material.", ST_SOLID, TYPE_SOLID|PROP_HOT_GLOW, NULL, NULL},
		{"CFLM",	PIXPACK(0x8080FF),	0.9f,	0.04f * CFDS,	0.97f,	0.20f,	0.0f,	-0.1f,	0.00f,	0.0005f	* CFDS,	1,	0,		0,	0,	1,	1,	1,	2,		SC_EXPLOSIVE,	0.0f,					88,		"Sub-zero flame.", ST_LIQUID, TYPE_GAS|PROP_LIFE_DEC|PROP_LIFE_KILL, NULL, &graphics_HFLM},
		{"FIRW",	PIXPACK(0xFFA040),	0.7f,	0.02f * CFDS,	0.96f,	0.80f,	-0.99f,	0.1f,	0.00f,	0.000f	* CFDS,	1,	0,		0,	0,	30,	1,	1,	55,		SC_EXPLOSIVE,	R_TEMP+0.0f	+273.15f,	70,		"Fireworks!", ST_SOLID, TYPE_PART|PROP_LIFE_DEC, &update_FIRW, &graphics_FIRW},
		{"FUSE",	PIXPACK(0x0A5706),	0.0f,   0.00f * CFDS,   0.90f,  0.00f,  0.0f,   0.0f,   0.0f,   0.0f	* CFDS, 0,	0,		0,	0,	20,	1,	1,	100,	SC_SOLIDS,		R_TEMP+0.0f	+273.15f,	200,	"Solid. Burns slowly. Ignites at somewhat high temperatures and electricity.", ST_SOLID, TYPE_SOLID, &update_FUSE, NULL},
		{"FSEP",	PIXPACK(0x63AD5F),	0.7f,	0.02f * CFDS,	0.96f,	0.80f,	0.0f,	0.1f,	0.00f,	0.000f	* CFDS,	1,	0,		0,	0,	30,	1,	1,	70,		SC_POWDERS,		R_TEMP+0.0f	+273.15f,	70,		"Fuse Powder. See FUSE.", ST_SOLID, TYPE_PART, &update_FSEP, NULL},
		{"AMTR",	PIXPACK(0x808080),	0.7f,   0.02f * CFDS,   0.96f,  0.80f,  0.00f,  0.10f,  1.00f,  0.0000f * CFDS, 0,	0,		0,	0,	0,	1,	1,	100,	SC_NUCLEAR,	 	R_TEMP+0.0f +273.15f,	70,		"Anti-Matter, Destroys a majority of particles", ST_NONE, TYPE_PART, &update_AMTR, NULL}, //Maybe TYPE_ENERGY?
		{"BCOL",	PIXPACK(0x333333),	0.4f,	0.04f * CFDS,	0.94f,	0.95f,	-0.1f,	0.3f,	0.00f,	0.000f	* CFDS,	1,	0,		0,	5,	2,	1,	1,	90,		SC_POWDERS,		R_TEMP+0.0f	+273.15f,	150,	"Broken Coal. Heavy particles. See COAL", ST_SOLID, TYPE_PART, &update_BCOL, NULL},
		{"PCLN",	PIXPACK(0x3B3B0A),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	1,	1,	1,	100,	SC_POWERED,		R_TEMP+0.0f	+273.15f,	251,	"Solid. When activated, duplicates any particles it touches.", ST_NONE, TYPE_SOLID, &update_PCLN, &graphics_PCLN},
		{"HSWC",	PIXPACK(0x3B0A0A),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	1,	1,	1,	1,	100,	SC_POWERED,		R_TEMP+0.0f	+273.15f,	251,	"Heat switch. Conducts Heat only when activated", ST_NONE, TYPE_SOLID, &update_HSWC, &graphics_HSWC},
		{"IRON",	PIXPACK(0x707070),	0.0f,	0.00f * CFDS,	0.90f,  0.00f,  0.0f,	0.0f,	0.00f,  0.000f	* CFDS, 0,	0,		0,	1,	50,	1,	1,	100,	SC_SOLIDS,		R_TEMP+0.0f +273.15f,	251,	"Rusts with salt, can be used for electrolysis of WATR", ST_SOLID, TYPE_SOLID|PROP_CONDUCTS|PROP_LIFE_DEC|PROP_HOT_GLOW, &update_IRON, NULL},
		{"MORT",	PIXPACK(0xE0E0E0),	0.0f,	0.00f * CFDS,	1.00f,	1.00f,	-0.99f,	0.0f,	0.01f,	0.002f	* CFDS,	0,	0,		0,	0,	0,	1,	1,	-1,		SC_CRACKER2,	R_TEMP+4.0f	+273.15f,	60,		"Steam Train.", ST_NONE, TYPE_PART, &update_MORT, NULL},
		{"LIFE",	PIXPACK(0x0CAC00),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	0,	0,	1,	100,	SC_LIFE,		9000.0f,				40,		"Game Of Life! B3/S23", ST_NONE, TYPE_SOLID|PROP_LIFE, NULL, &graphics_LIFE},
		{"DLAY",	PIXPACK(0x753590),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	1,	1,	1,	1,	100,	SC_POWERED,		4.0f+273.15f,			0,		"Conducts with temperature-dependent delay. (use HEAT/COOL).", ST_SOLID, TYPE_SOLID, &update_DLAY, &graphics_DLAY},
		{"CO2",		PIXPACK(0x666666),	2.0f,   0.00f * CFDS,   0.99f,	0.30f,	-0.1f,	0.1f,	1.0f,	0.000f	* CFDS,	1,	0,  	0,	0,	0,	1,	1,	1,		SC_GAS,			R_TEMP+273.15f,			88,		"Carbon Dioxide", ST_GAS, TYPE_GAS, &update_CO2, NULL},
		{"DRIC",	PIXPACK(0xE0E0E0),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	-0.0005f* CFDS,	0,	0,		0,	0,	20,	1,	1,	100,	SC_SOLIDS,		172.65f,				2,		"Dry Ice.", ST_SOLID, TYPE_SOLID, NULL, NULL},
		{"BUBW",	PIXPACK(0x2030D0),	0.6f,	0.01f * CFDS,	0.98f,	0.95f,	0.0f,	0.1f,	0.00f,	0.000f	* CFDS,	2,	0,		0,	0,	20,	1,	1,	30,		SC_LIQUID,		R_TEMP-2.0f	+273.15f,	29,		"Carbonated water. Conducts electricity. Freezes. Extinguishes fires.", ST_LIQUID, TYPE_LIQUID|PROP_CONDUCTS|PROP_LIFE_DEC|PROP_NEUTPENETRATE, &update_CBNW, &graphics_CBNW},
		{"STOR",	PIXPACK(0x50DFDF),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	1,	1,	1,	100,	SC_POWERED,		R_TEMP+0.0f	+273.15f,	251,	"Solid. Stores a single particle, releases when charged with PSCN, also passes to PIPE", ST_NONE, TYPE_SOLID, &update_STOR, &graphics_STOR},
		{"PVOD",	PIXPACK(0x792020),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	1,	1,	1,	100,	SC_POWERED,		R_TEMP+0.0f	+273.15f,	251,	"Solid. When activated, destroys entering particles", ST_NONE, TYPE_SOLID, &update_PVOD, &graphics_PVOD},
		{"CONV",	PIXPACK(0x0AAB0A),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	1,	1,	1,	100,	SC_SPECIAL,		R_TEMP+0.0f	+273.15f,	251,	"Solid. Converts whatever touches it into its ctype.", ST_NONE, TYPE_SOLID, &update_CONV, NULL},
		{"CAUS",	PIXPACK(0x80FFA0),	2.0f,   0.00f * CFDS,   0.99f,	0.30f,	-0.1f,	0.0f,	1.50f,	0.000f	* CFDS,	0,	0,  	0,	0,	0,	1,	1,	1,		SC_GAS,		 	R_TEMP+0.0f	+273.15f,   70,		"Caustic Gas, acts like Acid", ST_GAS, TYPE_GAS|PROP_DEADLY, &update_CAUS, NULL},
		{"LIGH",	PIXPACK(0xFFFFC0),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	1,	1,	1,	1,	100,	SC_ELEC,		R_TEMP+0.0f	+273.15f,	0,	    "More realistic lightning. Set pen size to set the size of the lightning.", ST_SOLID, TYPE_SOLID, &update_LIGH, &graphics_LIGH},
	    {"TESC",	PIXPACK(0x707040),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	1,	1,	1,	1,	100,	SC_ELEC,		R_TEMP+0.0f	+273.15f,	251,	"Tesla coil!", ST_SOLID, TYPE_SOLID|PROP_CONDUCTS|PROP_LIFE_DEC|PROP_HOT_GLOW, NULL, NULL},
	    {"DEST",	PIXPACK(0xFF3311),  -0.05f,	0.00f * CFDS,	0.95f,	0.95f,	-0.1f,	0.4f,	0.00f,	0.000f	* CFDS,	1,	0,		0,  0,	0,	1,	1,	101,	SC_EXPLOSIVE,	R_TEMP+0.0f	+273.15f,	150,	"More destructive Bomb.", ST_SOLID, TYPE_PART|PROP_LIFE_DEC|PROP_LIFE_KILL_DEC, &update_DEST, &graphics_DEST},
		{"SPNG",  	PIXPACK(0xFFBE30),	0.00f, 	0.00f * CFDS,   0.00f,  1.00f,   0.00f, 0.0f,   0.00f,  0.000f  * CFDS, 0, 	20, 	0,  1, 	30,	1, 	1,	100,    SC_SOLIDS,  	R_TEMP+0.0f +273.15f,   251,    "A sponge, absorbs water.", ST_SOLID, TYPE_SOLID, &update_SPNG, &graphics_SPNG},
		{"RIME",  	PIXPACK(0xCCCCCC),	0.00f, 	0.00f * CFDS,   0.00f,  1.00f,   0.00f, 0.0f,   0.00f,  0.000f  * CFDS, 0, 	0, 		0, 	0, 	30,	1,  1,	100,    SC_CRACKER2,  	243.15f,				100,    "Not quite Ice", ST_SOLID, TYPE_SOLID, &update_RIME, NULL},
		{"FOG",  	PIXPACK(0xAAAAAA),	0.8f,	0.00f * CFDS,	0.4f,	0.70f,	-0.1f,	0.0f,	0.99f,	0.000f	* CFDS, 0, 	0, 		0,  0,  30, 1,  1,	1,		SC_CRACKER2,  	243.15f,				100,    "Not quite Steam", ST_GAS, TYPE_GAS|PROP_LIFE_DEC, &update_FOG, NULL},
		{"BCLN",	PIXPACK(0xFFD040),	0.0f,	0.00f * CFDS,	0.97f,	0.50f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	12,	1,	1,	100,	SC_SPECIAL,		R_TEMP+0.0f	+273.15f,	251,	"Breakable Clone.", ST_NONE, TYPE_SOLID|PROP_LIFE_DEC|PROP_LIFE_KILL_DEC, &update_BCLN, NULL},
		{"LOVE",	PIXPACK(0xFF30FF),	0.0f,	0.00f * CFDS,	0.00f,	0.00f,	0.0f,	0.0f,	0.0f,	0.000f	* CFDS,	0,	0,		0,	0,	0,	1,	1,	100,	SC_CRACKER2,	373.0f,					40,		"Love...", ST_GAS, TYPE_SOLID, &update_MISC, NULL},
		{"DEUT",  	PIXPACK(0x00153F),	0.6f,	0.01f * CFDS,	0.98f,	0.95f,	0.0f,	0.1f,	0.00f,	0.000f	* CFDS,	2,	0,		0,	0,	20,	1,	1,	31,		SC_NUCLEAR,		R_TEMP-2.0f	+273.15f,	251,	"Deuterium oxide. Volume changes with temp, radioactive with neutrons.", ST_LIQUID, TYPE_LIQUID|PROP_NEUTPENETRATE, &update_DEUT, &graphics_DEUT},
		{"WARP",  	PIXPACK(0x000000),	0.8f,	0.00f * CFDS,	0.9f,	0.70f,	-0.1f,	0.0f,	3.00f,	0.000f	* CFDS, 0, 	0, 		0,  0,  30, 1,  1,	1,		SC_NUCLEAR,  	R_TEMP +273.15f,		100,    "Displaces other elements.", ST_GAS, TYPE_GAS|PROP_LIFE_DEC|PROP_LIFE_KILL, &update_WARP, NULL},
		{"PUMP",	PIXPACK(0x0A0A3B),	0.0f,	0.00f * CFDS,	0.95f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	10,	1,	1,	100,	SC_POWERED,		273.15f,				0,		"Changes pressure to its temp when activated. (use HEAT/COOL).", ST_SOLID, TYPE_SOLID, &update_PUMP, &graphics_PUMP},
		{"FWRK",	PIXPACK(0x666666),	0.4f,	0.01f * CFDS,	0.99f,	0.95f,	0.0f,	0.4f,	0.00f,	0.000f	* CFDS,	1,	0,		0,	0,	1,	1,	1,	97,		SC_EXPLOSIVE,	R_TEMP+0.0f	+273.15f,	100,	"First fireworks made, activated by heat/neutrons.", ST_SOLID, TYPE_PART|PROP_LIFE_DEC, &update_FWRK, NULL},
		{"PIPE",	PIXPACK(0x444444),	0.0f,	0.00f * CFDS,	0.95f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	0,	1,	1,	100,	SC_SOLIDS,		273.15f,				0,		"Moves elements around, read FAQ on website for help.", ST_SOLID, TYPE_SOLID|PROP_LIFE_DEC, &update_PIPE, &graphics_PIPE},
		{"FRZZ",	PIXPACK(0xC0E0FF),	0.7f,	0.01f * CFDS,	0.96f,	0.90f,	-0.1f,	0.05f,	0.01f,	-0.00005f* CFDS,1,	0,		0,	0,	20,	1,	1,	50,		SC_POWDERS,		90.0f,					46,		"FREEZE", ST_SOLID, TYPE_PART, &update_FRZZ, NULL},
		{"FRZW",	PIXPACK(0x1020C0),	0.6f,	0.01f * CFDS,	0.98f,	0.95f,	0.0f,	0.1f,	0.00f,	0.000f	* CFDS,	2,	0,		0,	0,	20,	1,	1,	30,		SC_CRACKER2,	120.0f,					29,		"FREEZE WATER", ST_LIQUID, TYPE_LIQUID||PROP_LIFE_DEC, &update_FRZW, NULL},
		{"GRAV",	PIXPACK(0xFFE0A0),	0.7f,	0.00f * CFDS,	1.00f,	1.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	1,	10,		0,	0,	30,	1,	1,	85,		SC_POWDERS,		R_TEMP+0.0f	+273.15f,	70,		"Very light dust. Changes colour based on velocity.", ST_SOLID, TYPE_PART, &update_MISC, &graphics_GRAV},
		{"BIZR",	PIXPACK(0x00FF77),	0.6f,	0.01f * CFDS,	0.98f,	0.95f,	0.0f,	0.1f,	0.00f,	0.000f	* CFDS,	2,	0,		0,	0,	20,	1,	1,	30,		SC_LIQUID,		R_TEMP+0.0f	+273.15f,	29,		"Bizarre... contradicts the normal state changes.", ST_LIQUID, TYPE_LIQUID, &update_BIZR, &graphics_BIZR},
		{"BIZG",	PIXPACK(0x00FFBB),	1.0f,	0.01f * CFDS,	0.99f,	0.30f,	-0.1f,	0.0f,	2.75f,	0.000f	* CFDS,	0,	0,		0,	0,	1,	1,	1,	1,		SC_CRACKER2,	R_TEMP-200.0f+273.15f,	42,		"Bizarre gas", ST_GAS, TYPE_GAS, &update_BIZR, &graphics_BIZR},
		{"BIZS",	PIXPACK(0x00E455),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	1,	1,	1,	1,	100,	SC_CRACKER2,	R_TEMP+300.0f+273.15f,	251,	"Bizarre solid", ST_SOLID, TYPE_SOLID, &update_BIZR, &graphics_BIZR},
		{"INST",	PIXPACK(0x404039),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	1,	1,	1,	1,	100,	SC_ELEC,		R_TEMP+0.0f	+273.15f,	251,	"Instantly conducts, PSCN to charge, NSCN to take.", ST_SOLID, TYPE_SOLID|PROP_LIFE_DEC, NULL, NULL},
		{"ISOZ",	PIXPACK(0xAA30D0),	0.6f,	0.01f * CFDS,	0.98f,	0.95f,	0.0f,	0.1f,	0.00f,	0.000f	* CFDS,	2,	0,		0,	0,	0,	1,	1,	24,		SC_NUCLEAR,		R_TEMP-2.0f	+273.15f,	29,		"Radioactive liquid", ST_LIQUID, TYPE_LIQUID|PROP_NEUTPENETRATE, &update_ISZ, NULL},
		{"ISZS",	PIXPACK(0x662089),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	-0.0007f* CFDS,	0,	0,		0,	1,	1,	1,	1,	100,	SC_NUCLEAR,		140.00f,				251,	"Solid form of ISOZ, slowly decays.", ST_SOLID, TYPE_SOLID, &update_ISZ, NULL},
		{"PRTI",	PIXPACK(0xEB5917),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	-0.005f	* CFDS,	0,	0,		0,	0,	0,	1,	1,	100,	SC_SPECIAL,		R_TEMP+0.0f	+273.15f,	0,		"Portal IN.  Things go in here, now with channels (same as WIFI)", ST_SOLID, TYPE_SOLID, &update_PRTI, &graphics_PRTI},
		{"PRTO",	PIXPACK(0x0020EB),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.005f	* CFDS,	0,	0,		0,	0,	0,	1,	1,	100,	SC_SPECIAL,		R_TEMP+0.0f	+273.15f,	0,		"Portal OUT.  Things come out here, now with channels (same as WIFI)", ST_SOLID, TYPE_SOLID, &update_PRTO, &graphics_PRTO},
		{"PSTE",	PIXPACK(0xAA99AA),	0.6f,	0.01f * CFDS,	0.98f,	0.95f,	0.0f,	0.1f,	0.00f,	0.000f	* CFDS,	2,	0,		0,	0,	20,	1,	1,	31,		SC_LIQUID,		R_TEMP-2.0f	+273.15f,	29,		"Colloid, Hardens under pressure", ST_LIQUID, TYPE_LIQUID, NULL, NULL},
		{"PSTS",	PIXPACK(0x776677),	0.0f,	0.00f * CFDS,	0.00f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	20,	0,	1,	100,	SC_CRACKER,		R_TEMP-2.0f	+273.15f,	29,		"Solid form of PSTE, temporary", ST_SOLID, TYPE_SOLID, NULL, NULL},
		{"ANAR",	PIXPACK(0xFFFFEE),	-0.7f,	-0.02f * CFDS,	0.96f,	0.80f,	0.1f,	-0.1f,	0.00f,	0.000f	* CFDS,	1,	0,		0,	0,	30,	1,	1,	85,		SC_POWDERS,		R_TEMP+0.0f	+273.15f,	70,		"Very light dust. Behaves opposite gravity", ST_SOLID, TYPE_PART, &update_ANAR, NULL},
		{"VINE",	PIXPACK(0x079A00),	0.0f,	0.00f * CFDS,	0.95f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	20,		0,	0,	10,	1,	1,	100,	SC_SOLIDS,		R_TEMP+0.0f +273.15f,	65,		"Vine, grows", ST_SOLID, TYPE_SOLID, &update_VINE, NULL},
		{"INVS",	PIXPACK(0x00CCCC),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	15,	1,	1,	100,	SC_SOLIDS,		R_TEMP+0.0f	+273.15f,	164,	"Invisible to everything while under pressure.", ST_SOLID, TYPE_SOLID | PROP_NEUTPASS, NULL, &graphics_INVS},
		{"EQVE",	PIXPACK(0xFFE0A0),	0.7f,	0.02f * CFDS,	0.96f,	0.80f,	0.0f,	0.1f,	0.00f,	0.000f	* CFDS,	1,	0,		0,	0,	30,	0,	1,	85,		SC_CRACKER2,	R_TEMP+0.0f	+273.15f,	70,		"Shared velocity test", ST_SOLID, TYPE_PART, NULL, NULL},
		{"SPWN2",	PIXPACK(0xAAAAAA),	0.0f,	0.00f * CFDS,	1.00f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	1,	0,	1,	100,	SC_SOLIDS,		R_TEMP+0.0f	+273.15f,	0,		"STK2 spawn point", ST_SOLID, TYPE_SOLID, &update_SPAWN2, NULL},
		{"SPWN",	PIXPACK(0xAAAAAA),	0.0f,	0.00f * CFDS,	1.00f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	1,	0,	1,	100,	SC_SOLIDS,		R_TEMP+0.0f	+273.15f,	0,		"STKM spawn point", ST_SOLID, TYPE_SOLID, &update_SPAWN, NULL},
		{"SHLD",	PIXPACK(0xAAAAAA),	0.0f,	0.00f * CFDS,	1.00f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	1,	1,	1,	100,	SC_SOLIDS,		R_TEMP+0.0f	+273.15f,	0,		"Shield, spark it to grow", ST_SOLID, TYPE_SOLID|PROP_LIFE_DEC, &update_SHLD1, NULL},
		{"SHD2",	PIXPACK(0x777777),	0.0f,	0.00f * CFDS,	1.00f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	1,	0,	1,	100,	SC_CRACKER2,	R_TEMP+0.0f	+273.15f,	0,		"Shield lvl 2", ST_SOLID, TYPE_SOLID|PROP_LIFE_DEC, &update_SHLD2, NULL},
		{"SHD3",	PIXPACK(0x444444),	0.0f,	0.00f * CFDS,	1.00f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	1,	0,	1,	100,	SC_CRACKER2,	R_TEMP+0.0f	+273.15f,	0,		"Shield lvl 3", ST_SOLID, TYPE_SOLID|PROP_LIFE_DEC, &update_SHLD3, NULL},
		{"SHD4",	PIXPACK(0x212121),	0.0f,	0.00f * CFDS,	1.00f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	1,	0,	1,	100,	SC_CRACKER2,	R_TEMP+0.0f	+273.15f,	0,		"Shield lvl 4", ST_SOLID, TYPE_SOLID|PROP_LIFE_DEC, &update_SHLD4, NULL},
		{"LOLZ",	PIXPACK(0x569212),	0.0f,	0.00f * CFDS,	0.00f,	0.00f,	0.0f,	0.0f,	0.0f,	0.000f	* CFDS,	0,	0,		0,	0,	0,	1,	1,	100,	SC_CRACKER2,	373.0f,					40,		"Lolz", ST_GAS, TYPE_SOLID, &update_MISC, NULL},
		{"WIFI",	PIXPACK(0x40A060),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	1,	2,	1,	1,	100,	SC_ELEC,		R_TEMP+0.0f	+273.15f,	0,		"Wireless transmitter, color coded.", ST_SOLID, TYPE_SOLID, &update_WIFI, &graphics_WIFI},
		{"FILT",	PIXPACK(0x000056),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	1,	1,	1,	1,	100,	SC_SOLIDS,		R_TEMP+0.0f	+273.15f,	251,	"Filter for photons, changes the color.", ST_SOLID, TYPE_SOLID, NULL, &graphics_FILT},
		{"ARAY",	PIXPACK(0xFFBB00),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	1,	1,	1,	1,	100,	SC_ELEC,		R_TEMP+0.0f +273.15f,	0,		"Ray Emitter. Rays create points when they collide", ST_SOLID, TYPE_SOLID|PROP_LIFE_DEC, &update_ARAY, NULL},
		{"BRAY",	PIXPACK(0xFFFFFF),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	1,	1,	0,	1,	100,	SC_ELEC,		R_TEMP+0.0f +273.15f,	251,	"Ray Point. Rays create points when they collide", ST_SOLID, TYPE_SOLID|PROP_LIFE_DEC|PROP_LIFE_KILL, NULL, &graphics_BRAY},
		{"STK2",	PIXPACK(0x000000),	0.5f,	0.00f * CFDS,	0.2f,	1.0f,	0.0f,	0.0f,	0.0f,	0.00f	* CFDS,	0,	0,		0,	0,	0,	1,	1,	50,		SC_SPECIAL,		R_TEMP+14.6f+273.15f,	0,		"Stickman. Don't kill him!", ST_NONE, 0, &update_STKM2, &graphics_STKM2},
		{"BOMB",	PIXPACK(0xFFF288),	0.6f,	0.01f * CFDS,	0.98f,	0.95f,	0.0f,	0.1f,	0.00f,	0.000f	* CFDS,	1,	0,		0,	0,	20,	1,	1,	30,		SC_EXPLOSIVE,	R_TEMP-2.0f	+273.15f,	29,		"Bomb.", ST_NONE, TYPE_PART|PROP_LIFE_DEC|PROP_LIFE_KILL_DEC|PROP_SPARKSETTLE, &update_BOMB, &graphics_BOMB},
		{"C-5",		PIXPACK(0x2050E0),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	1,	1,	1,	100,	SC_EXPLOSIVE,	R_TEMP+0.0f	+273.15f,	88,		"Cold explosive", ST_SOLID, TYPE_SOLID | PROP_NEUTPENETRATE, &update_C5, NULL},
		{"SING",	PIXPACK(0x242424),	0.7f,	0.36f * CFDS,	0.96f,	0.80f,	0.1f,	0.12f,	0.00f,	-0.001f	* CFDS,	1,	0,		0,	0,	0,	1,	1,	86,		SC_NUCLEAR,		R_TEMP+0.0f	+273.15f,	70,		"Singularity", ST_SOLID, TYPE_PART|PROP_LIFE_DEC, &update_SING, NULL},
		{"QRTZ",	PIXPACK(0xAADDDD),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	0,	1,	1,	100,	SC_SOLIDS,		R_TEMP+0.0f	+273.15f,	3,		"Quartz, breakable mineral. Conducts but becomes brittle at lower temperatures.", ST_SOLID, TYPE_SOLID|PROP_HOT_GLOW|PROP_LIFE_DEC, &update_QRTZ, &graphics_QRTZ},
		{"PQRT",	PIXPACK(0x88BBBB),	0.4f,	0.04f * CFDS,	0.94f,	0.95f,	-0.1f,	0.27f,	0.00f,	0.000f	* CFDS,	1,	0,		0,	0,	0,	1,	1,	90,		SC_POWDERS,		R_TEMP+0.0f	+273.15f,	3,		"Broken quartz.", ST_SOLID, TYPE_PART| PROP_HOT_GLOW, &update_QRTZ, &graphics_QRTZ},
		{"EMP",	    PIXPACK(0x66AAFF),	0.0f,   0.00f * CFDS,   0.90f,  0.00f,  0.0f,   0.0f,   0.0f,   0.0f	* CFDS, 0,	0,		0,	0,	3,	1,	1,	100,	SC_ELEC,		R_TEMP+0.0f	+273.15f,	121,	"Breaks activated electronics.", ST_SOLID, TYPE_SOLID|PROP_LIFE_DEC, &update_EMP, &graphics_EMP},
		{"BREL",	PIXPACK(0x707060),	0.4f,	0.04f * CFDS,	0.94f,	0.95f,	-0.1f,	0.18f,	0.00f,	0.000f	* CFDS,	1,	0,		0,	2,	2,	1,	1,	90,		SC_POWDERS,		R_TEMP+0.0f	+273.15f,	211,	"Broken electronics", ST_SOLID, TYPE_PART|PROP_CONDUCTS|PROP_LIFE_DEC|PROP_HOT_GLOW, NULL, NULL},
		{"ELEC",	PIXPACK(0xDFEFFF),	0.0f,	0.00f * CFDS,	1.00f,	1.00f,	-0.99f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	0,	1,	1,	-1,		SC_NUCLEAR,		R_TEMP+200.0f+273.15f,	251,	"Electrons", ST_GAS, TYPE_ENERGY|PROP_LIFE_DEC|PROP_LIFE_KILL_DEC, &update_ELEC, &graphics_ELEC},
		{"ACEL",	PIXPACK(0x0099CC),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	1,	1,	1,	100,	SC_POWERED,		R_TEMP+0.0f	+273.15f,	251,	"Accelerator", ST_NONE, TYPE_SOLID, &update_ACEL, &graphics_ACEL},
		{"DCEL",	PIXPACK(0x99CC00),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	1,	1,	1,	100,	SC_POWERED,		R_TEMP+0.0f	+273.15f,	251,	"Decelerator", ST_NONE, TYPE_SOLID, &update_DCEL, &graphics_DCEL},
		{"TNT",		PIXPACK(0xC05050),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	1,	1,	1,	100,	SC_EXPLOSIVE,	R_TEMP+0.0f	+273.15f,	88,		"Explosive.", ST_SOLID, TYPE_SOLID | PROP_NEUTPENETRATE, &update_BANG, NULL},
		{"IGNC",	PIXPACK(0xC0B050),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	1,	1,	1,	100,	SC_EXPLOSIVE,	R_TEMP+0.0f	+273.15f,	88,		"Ignition cord.", ST_SOLID, TYPE_SOLID | PROP_NEUTPENETRATE | PROP_SPARKSETTLE | PROP_LIFE_KILL, &update_IGNT, NULL},
		{"BOYL",	PIXPACK(0x0A3200),	1.0f,	0.01f * CFDS,	0.99f,	0.30f,	-0.1f,	0.0f,	0.18f,	0.000f	* CFDS,	0,	0,		0,	0,	1,	1,	1,	1,		SC_GAS,			R_TEMP+2.0f	+273.15f,	42,		"Boyle, variable pressure gas. Expands when heated.", ST_GAS, TYPE_GAS, &update_BOYL, NULL},
		/*FREE*/{"LOTE",	PIXPACK(0xFF0000),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	0,	0,	0,	100,	SC_LIFE,		9000.0f,				40,		"Behaves kinda like Living on the Edge S3458/B37/4", ST_NONE, TYPE_SOLID|PROP_LIFE, NULL, NULL},
		/*FREE*/{"FRG2",	PIXPACK(0x00FF00),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	0,	0,	0,	100,	SC_LIFE,		9000.0f,				40,		"Like Frogs rule S124/B3/3", ST_NONE, TYPE_SOLID|PROP_LIFE, NULL, NULL},
		/*FREE*/{"STAR",	PIXPACK(0x0000FF),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	0,	0,	0,	100,	SC_LIFE,		9000.0f,				40,		"Like Star Wars rule S3456/B278/6", ST_NONE, TYPE_SOLID|PROP_LIFE, NULL, NULL},
		/*FREE*/{"FROG",	PIXPACK(0x00AA00),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	0,	0,	0,	100,	SC_LIFE,		9000.0f,				40,		"Frogs S12/B34/3", ST_NONE, TYPE_SOLID|PROP_LIFE, NULL, NULL},
		/*FREE*/{"BRAN",	PIXPACK(0xCCCC00),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	0,	0,	0,	100,	SC_LIFE,		9000.0f,				40,		"Brian 6 S6/B246/3", ST_NONE, TYPE_SOLID|PROP_LIFE, NULL, NULL},
		/*FREE*/{"WIND",	PIXPACK(0x101010),  0.0f,	0.00f * CFDS,	0.90f,  0.00f,  0.0f,	0.0f,	0.00f,	0.000f  * CFDS,	0,  0,		0,  0,  0,  0,  0,	100,	SC_SPECIAL,		0.0f,					40,		"", ST_NONE, ST_NONE, NULL, NULL},
		{"HYGN",		PIXPACK(0x5070FF),	2.0f,	0.00f * CFDS,	0.99f,	0.30f,	-0.10f,	0.00f,	3.00f,	0.000f	* CFDS, 0,  0,		0,	0,	0,	1,	1,	1,		SC_GAS,			R_TEMP+0.0f +273.15f,	251,	"Combines with O2 to make WATR", ST_GAS, TYPE_GAS, &update_H2, NULL},
		{"SOAP",	PIXPACK(0xF5F5DC),	0.6f,	0.01f * CFDS,	0.98f,	0.95f,	0.0f,	0.1f,	0.00f,	0.000f	* CFDS,	2,	0,		0,	0,	20,	1,	1,	35,		SC_LIQUID,		R_TEMP-2.0f	+273.15f,	29,		"Soap. Creates bubbles.", ST_LIQUID, TYPE_LIQUID|PROP_NEUTPENETRATE|PROP_LIFE_DEC, &update_SOAP, NULL},
		{"BHOL",	PIXPACK(0x202020),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	0,	1,	1,	100,	SC_SPECIAL,		R_TEMP+0.0f	+273.15f,	186,	"Black hole (Requires newtonian gravity)", ST_SOLID, TYPE_SOLID, &update_NBHL, NULL},
		{"WHOL",	PIXPACK(0xFFFFFF),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	0,	1,	1,	100,	SC_SPECIAL,		R_TEMP+0.0f	+273.15f,	186,	"White hole (Requires newtonian gravity)", ST_SOLID, TYPE_SOLID, &update_NWHL, NULL},
		{"MERC",    PIXPACK(0x736B6D),	0.4f,	0.04f * CFDS,	0.94f,	0.80f,	0.0f,	0.3f,	0.00f,	0.000f	* CFDS,	2,	0,		0,	0,	20,	1,	1,	91,		SC_ELEC,		R_TEMP+0.0f	+273.15f,	251,	"Mercury. Volume changes with temperature, Conductive.", ST_LIQUID, TYPE_LIQUID|PROP_CONDUCTS|PROP_NEUTABSORB|PROP_LIFE_DEC, &update_MERC, NULL},
		{"PBCN",	PIXPACK(0x3B1D0A),	0.0f,	0.00f * CFDS,	0.97f,	0.50f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	0,	12,	1,	1,	100,	SC_POWERED,		R_TEMP+0.0f	+273.15f,	251,	"Powered breakable clone", ST_NONE, TYPE_SOLID, &update_PBCN, &graphics_PBCN},
		{"GPMP",	PIXPACK(0x0A3B3B),	0.0f,	0.00f * CFDS,	0.90f,	0.00f,	0.0f,	0.0f,	0.00f,	0.000f	* CFDS,	0,	0,		0,	1,	1,	1,	1,	100,	SC_POWERED,		0.0f		+273.15f,	0,		"Changes gravity to its temp when activated. (use HEAT/COOL).", ST_NONE, TYPE_SOLID, &update_GPMP, &graphics_GPMP},
		{"CLST",	PIXPACK(0xE4A4A4),	0.7f,	0.02f * CFDS,	0.94f,	0.95f,	0.0f,	0.2f,	0.00f,	0.000f	* CFDS,	1,	0,		0,	2,	2,	1,	1,	55,		SC_POWDERS,		R_TEMP+0.0f	+273.15f,	70,		"Clay dust. Produces paste when mixed with water.", ST_SOLID, TYPE_PART, &update_CLST, &graphics_CLST},
		{"WIRE",    PIXPACK(0xFFCC00),  0.0f,   0.00f * CFDS,   0.00f,  0.00f,  0.0f,   0.0f,   0.00f,  0.000f  * CFDS, 0,  0,      0,  0,  0,  1,  1,  100,    SC_ELEC,        R_TEMP+0.0f +273.15f,   250,    "WireWorld wires.",ST_SOLID,TYPE_SOLID,&update_WIRE, &graphics_WIRE},
		{"GBMB",	PIXPACK(0x1144BB),	0.6f,	0.01f * CFDS,	0.98f,	0.95f,	0.0f,	0.1f,	0.00f,	0.000f	* CFDS,	1,	0,		0,	0,	20,	1,	1,	30,		SC_EXPLOSIVE,	R_TEMP-2.0f	+273.15f,	29,		"Sticks to first object it touches then produces strong gravity push.", ST_NONE, TYPE_PART|PROP_LIFE_DEC|PROP_LIFE_KILL_DEC, &update_GBMB, &graphics_GBMB},
		{"FIGH",	PIXPACK(0x000000),	0.5f,	0.00f * CFDS,	0.2f,	1.0f,	0.0f,	0.0f,	0.0f,	0.00f	* CFDS,	0,	0,		0,	0,	0,	1,	1,	50,		SC_SPECIAL,		R_TEMP+14.6f+273.15f,	0,		"Fighter. Tries to kill stickmen.", ST_NONE, 0, &update_FIGH, &graphics_FIGH},
		//Name		Colour				Advec	Airdrag			Airloss	Loss	Collid	Grav	Diffus	Hotair			Fal	Burn	Exp	Mel	Hrd M	Use	Weight	Section			H						Ins		Description
	};
	memcpy(ptypes, ptypest, sizeof(part_type)*PT_NUM);

#define IPL -257.0f
#define IPH 257.0f
#define ITL MIN_TEMP-1
#define ITH MAX_TEMP+1
// no transition (PT_NONE means kill part)
#define NT -1
// special transition - lava ctypes etc need extra code, which is only found and run if ST is given
#define ST PT_NUM
part_transition ptransitionst[PT_NUM] =
{	//			if low pressure		if high pressure	if low temperature	if high temperature
	// Name		plv		plt	 		phv		pht			tlv		tlt	 		thv		tht
	/* NONE */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* DUST */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* WATR */ {IPL,	NT,			IPH,	NT,			273.15f,PT_ICEI,	373.0f,	PT_WTRV},
	/* OIL  */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			333.0f,	PT_GAS},
	/* FIRE */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			2773.0f,PT_PLSM},
	/* STNE */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			983.0f,	PT_LAVA},
	/* LAVA */ {IPL,	NT,			IPH,	NT,			2573.15f,ST,		ITH,	NT}, // 2573.15f is highest melt pt of possible ctypes
	/* GUN  */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			673.0f,	PT_FIRE},
	/* NITR */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			673.0f,	PT_FIRE},
	/* CLNE */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* GAS  */ {IPL,	NT,			6.0f,	PT_OIL,		ITL,	NT,			573.0f,	PT_FIRE},
	/* C-4  */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			673.0f,	PT_FIRE},
	/* GOO  */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* ICE  */ {IPL,	NT,			0.8f,	PT_SNOW,	ITL,	NT,			233.0f,	ST},
	/* METL */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			1273.0f,PT_LAVA},
	/* SPRK */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* SNOW */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			273.0f,	PT_WATR},
	/* WOOD */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			873.0f,	PT_FIRE},
	/* NEUT */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* PLUT */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* PLNT */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			573.0f,	PT_FIRE},
	/* ACID */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* VOID */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* WTRV */ {IPL,	NT,			IPH,	NT,			371.0f,	ST,			ITH,	NT},
	/* CNCT */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			1123.0f,PT_LAVA},
	/* DSTW */ {IPL,	NT,			IPH,	NT,			273.15f,PT_ICEI,	373.0f,	PT_WTRV},
	/* SALT */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			1173.0f,PT_LAVA},
	/* SLTW */ {IPL,	NT,			IPH,	NT,			233.0f,	PT_ICEI,	483.0f,	ST},
	/* DMND */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* BMTL */ {IPL,	NT,			1.0f,	ST,			ITL,	NT,			1273.0f,PT_LAVA},
	/* BRMT */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			1273.0f,PT_LAVA},
	/* PHOT */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* URAN */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* WAX  */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			319.0f,	PT_MWAX},
	/* MWAX */ {IPL,	NT,			IPH,	NT,			318.0f,	PT_WAX,		673.0f,	PT_FIRE},
	/* PSCN */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			1687.0f,PT_LAVA},
	/* NSCN */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			1687.0f,PT_LAVA},
	/* LN2  */ {IPL,	NT,			IPH,	NT,			63.0f,	PT_NICE,	77.0f,	PT_NONE},
	/* INSL */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* VACU */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* VENT */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* RBDM */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			312.0f,	PT_LRBD},
	/* LRBD */ {IPL,	NT,			IPH,	NT,			311.0f,	PT_RBDM,	961.0f,	PT_FIRE},
	/* NTCT */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			1687.0f,PT_LAVA},
	/* SAND */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			1973.0f,PT_LAVA},
	/* GLAS */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			1973.0f,PT_LAVA},
	/* PTCT */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			1414.0f,PT_LAVA},
	/* BGLA */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			1973.0f,PT_LAVA},
	/* THDR */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* PLSM */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* ETRD */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* NICE */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			63.1f,	PT_LNTG},
	/* NBLE */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* BTRY */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			2273.0f,PT_PLSM},
	/* LCRY */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			1273.0f,PT_BGLA},
	/* STKM */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			620.0f,	PT_FIRE},
	/* SWCH */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* SMKE */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			625.0f,	PT_FIRE},
	/* DESL */ {IPL,	NT,			5.0f,	PT_FIRE,	ITL,	NT,			335.0f,	PT_FIRE},
	/* COAL */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* LO2  */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			90.1f,	PT_O2},
	/* O2   */ {IPL,	NT,			IPH,	NT,			90.0f,	PT_LO2,		ITH,	NT},
	/* INWR */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			1687.0f,PT_LAVA},
	/* YEST */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			373.0f,	PT_DYST},
	/* DYST */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			473.0f,	PT_DUST},
	/* THRM */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* GLOW */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* BRCK */ {IPL,	NT,			8.8f,	PT_STNE,	ITL,	NT,			1223.0f,PT_LAVA},
	/* CFLM */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* FIRW */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* FUSE */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* FSEP */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* AMTR */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* BCOL */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* PCLN */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* HSWC */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* IRON */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			1687.0f,PT_LAVA},
	/* MORT */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* LIFE */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* DLAY */ {IPL,    NT,         IPH,    NT,         ITL,    NT,         ITH,	NT},
	/* CO2  */ {IPL,    NT,         IPH,    NT,         194.65f,PT_DRIC,   ITH,	NT},
	/* DRIC */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			195.65f,PT_CO2},
	/* CBNW */ {IPL,	NT,			IPH,	NT,			273.15f,PT_ICEI,	373.0f,	PT_WTRV},
	/* STOR */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* STOR */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/*FREE*//* GOL  */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/*FREE*//* GOL  */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/*FREE*//* GOL  */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/*FREE*//* GOL  */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/*FREE*//* GOL  */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* SPNG */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			2730.0f,PT_FIRE},
	/* RIME */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			273.15f,PT_WATR},
	/* FOG  */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			373.15f,PT_WTRV},
	/* BCLN */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* LOVE */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* DEUT  */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* WARP */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* PUMP */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* FWRK */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* PIPE */ {IPL,	NT,			10.0f,	PT_BRMT,	ITL,	NT,			ITH,	NT},
	/* FRZZ */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* FRZW */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			53.0f,	PT_ICEI},
	/* GRAV */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* BIZR */ {IPL,	NT,			IPH,	NT,			100.0f,	PT_BIZRG,	400.0f,	PT_BIZRS},
	/* BIZRG*/ {IPL,	NT,			IPH,	NT,			ITL,	NT,			100.0f,	PT_BIZR},//,	400.0f,	PT_BIZRS},
	/* BIZRS*/ {IPL,	NT,			IPH,	NT,			400.0f,	PT_BIZR,	ITH,	NT},//	100.0f,	PT_BIZRG},
	/* INST */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* ISOZ */ {IPL,	NT,			IPH,	NT,			160.0f,	PT_ISZS,	ITH,	NT},
	/* ISZS */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			300.0f,	PT_ISOZ},
	/* PRTI */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* PRTO */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* PSTE */ {IPL,	NT,			0.5f,	PT_PSTS,	ITL,	NT,			747.0f,	PT_BRCK},
	/* PSTS */ {0.5f,	PT_PSTE,	IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* ANAR */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* VINE */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			573.0f,	PT_FIRE},
	/* INVS */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* EQVE */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* SPWN2*/ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* SPAWN*/ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* SHLD1*/ {IPL,	NT,			7.0f,	PT_NONE,	ITL,	NT,			ITH,	NT},
	/* SHLD2*/ {IPL,	NT,			15.0f,	PT_NONE,	ITL,	NT,			ITH,	NT},
	/* SHLD3*/ {IPL,	NT,			25.0f,	PT_NONE,	ITL,	NT,			ITH,	NT},
	/* SHLD4*/ {IPL,	NT,			40.0f,	PT_NONE,	ITL,	NT,			ITH,	NT},
	/* LOlZ */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* WIFI */ {IPL,	NT,			15.0f,	PT_BRMT,	ITL,	NT,			ITH,	NT},
	/* FILT */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* ARAY */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* BRAY */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* STKM2*/ {IPL,	NT,			IPH,	NT,			ITL,	NT,			620.0f,	PT_FIRE},
	/* BOMB */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* C-5  */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* SING */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* QRTZ */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			2573.15f,PT_LAVA},
	/* PQRT */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			2573.15f,PT_LAVA},
	/* EMP  */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* BREL */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* ELEC */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* ACEL */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* DCEL */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* TNT  */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* IGNP */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			673.0f,	PT_FIRE},
	/* BOYL */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/*FREE*//* GOL  */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/*FREE*//* GOL  */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/*FREE*//* GOL  */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/*FREE*//* GOL  */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/*FREE*//* GOL  */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* WIND */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* H2   */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* SOAP */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITL,	NT},
	/* NBHL */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* NWHL */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* MERC */ {IPL,    NT,         IPH,    NT,         ITL,    NT,         ITH,	NT},
	/* PBCN */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* GPMP */ {IPL,    NT,         IPH,    NT,         ITL,    NT,         ITH,	NT},
	/* CLST */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			1256.0f,	PT_LAVA},
	/* WIRE */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* GBMB */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			ITH,	NT},
	/* FIGH */ {IPL,	NT,			IPH,	NT,			ITL,	NT,			620.0f,	PT_FIRE},
};
#undef IPL
#undef IPH
#undef ITL
#undef ITH
#undef NT
#undef ST*/
	memcpy(ptransitions, ptransitionst, sizeof(part_transition) * PT_NUM);
	init_can_move();
	clear_sim();
}