energy type particles automatically go into photons, not pmap

src/elementdata.c

@@ -79,8 +79,8 @@ part_type ptypes[PT_NUM] =
 	{"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},
+	{"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_PART, &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},
+	{"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, &update_NBLE, NULL},

src/powder.c

@@ -176,6 +176,7 @@ void init_can_move()
 	//whol eats anar
 	can_move[PT_ANAR][PT_WHOL] = 1;
 	can_move[PT_ANAR][PT_NWHL] = 1;
+	can_move[PT_THDR][PT_THDR] = 2;
 }
 
 /*
@@ -257,7 +258,7 @@ int try_move(int i, int x, int y, int nx, int ny)
 
 	if (!e) //if no movement
 	{
-		if (parts[i].type!=PT_NEUT && parts[i].type!=PT_PHOT && parts[i].type!=PT_ELEC)
+		if (!(ptypes[parts[i].type].properties & TYPE_ENERGY))
 			return 0;
 		if (!legacy_enable && parts[i].type==PT_PHOT && r)//PHOT heat conduction
 		{
@@ -271,7 +272,7 @@ int try_move(int i, int x, int y, int nx, int ny)
 			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))
+		if ((r&0xFF)==PT_PRTI && (ptypes[parts[i].type].properties & TYPE_ENERGY))
 		{
 			int nnx, count;
 			for (count=0; count<8; count++)
@@ -427,7 +428,7 @@ int do_move(int i, int x, int y, float nxf, float nyf)
 				kill_part(i);
 				return -1;
 			}
-			if (t==PT_PHOT||t==PT_NEUT||t==PT_ELEC)
+			if (ptypes[t].properties & TYPE_ENERGY)
 				photons[ny][nx] = t|(i<<8);
 			else if (t)
 				pmap[ny][nx] = t|(i<<8);
@@ -678,7 +679,7 @@ inline void part_change_type(int i, int x, int y, int t)//changes the type of pa
 	}
 
 	parts[i].type = t;
-	if (t==PT_PHOT || t==PT_NEUT || t==PT_ELEC)
+	if (ptypes[t].properties & TYPE_ENERGY)
 	{
 		photons[y][x] = t|(i<<8);
 		if ((pmap[y][x]>>8)==i)
@@ -845,7 +846,7 @@ inline int create_part(int p, int x, int y, int tv)//the function for creating a
 			}
 			return -1;
 		}
-		if (photons[y][x] && (t==PT_PHOT||t==PT_NEUT||t==PT_ELEC))
+		if (photons[y][x] && (ptypes[t].properties & TYPE_ENERGY))
 			return -1;
 		if (pfree == -1)
 			return -1;
@@ -1106,7 +1107,7 @@ inline int create_part(int p, int x, int y, int tv)//the function for creating a
 	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)
+	if (ptypes[t].properties & TYPE_ENERGY)
 		photons[y][x] = t|(i<<8);
 	else if (t!=PT_STKM && t!=PT_STKM2 && t!=PT_FIGH)
 		pmap[y][x] = t|(i<<8);
@@ -2351,7 +2352,7 @@ killed:
 			stagnant = parts[i].flags & FLAG_STAGNANT;
 			parts[i].flags &= ~FLAG_STAGNANT;
 
-			if ((t==PT_PHOT||t==PT_NEUT||t==PT_ELEC)) {
+			if (ptypes[t].properties & TYPE_ENERGY) {
 				if (t == PT_PHOT) {
 					if (parts[i].flags&FLAG_SKIPMOVE)
 					{
@@ -2752,7 +2753,7 @@ void update_particles(pixel *vid)//doesn't update the particles themselves, but
 			y = (int)(parts[i].y+0.5f);
 			if (x>=0 && y>=0 && x<XRES && y<YRES)
 			{
-				if (t==PT_PHOT||t==PT_NEUT||t==PT_ELEC)
+				if (ptypes[t].properties & TYPE_ENERGY)
 					photons[y][x] = t|(i<<8);
 				else
 					pmap[y][x] = t|(i<<8);