The-Powder-Toy/src/air.c

273 lines
7.1 KiB
C
Raw Normal View History

#include <math.h>
2010-10-03 23:27:40 -05:00
#include <air.h>
#include <powder.h>
#include <defines.h>
float kernel[9];
float gravmap[YRES/CELL][XRES/CELL]; //Maps to be used by the main thread
float gravx[YRES/CELL][XRES/CELL];
float gravy[YRES/CELL][XRES/CELL];
float th_ogravmap[YRES/CELL][XRES/CELL]; // Maps to be processed by the gravity thread
float th_gravmap[YRES/CELL][XRES/CELL];
float th_gravx[YRES/CELL][XRES/CELL];
float th_gravy[YRES/CELL][XRES/CELL];
float vx[YRES/CELL][XRES/CELL], ovx[YRES/CELL][XRES/CELL];
float vy[YRES/CELL][XRES/CELL], ovy[YRES/CELL][XRES/CELL];
float pv[YRES/CELL][XRES/CELL], opv[YRES/CELL][XRES/CELL];
float cb_vx[YRES/CELL][XRES/CELL], cb_ovx[YRES/CELL][XRES/CELL];
float cb_vy[YRES/CELL][XRES/CELL], cb_ovy[YRES/CELL][XRES/CELL];
float cb_pv[YRES/CELL][XRES/CELL], cb_opv[YRES/CELL][XRES/CELL];
float fvx[YRES/CELL][XRES/CELL], fvy[YRES/CELL][XRES/CELL];
void make_kernel(void) //used for velocity
{
2011-01-28 17:54:50 -06:00
int i, j;
float s = 0.0f;
for (j=-1; j<2; j++)
for (i=-1; i<2; i++)
{
kernel[(i+1)+3*(j+1)] = expf(-2.0f*(i*i+j*j));
s += kernel[(i+1)+3*(j+1)];
}
s = 1.0f / s;
for (j=-1; j<2; j++)
for (i=-1; i<2; i++)
kernel[(i+1)+3*(j+1)] *= s;
}
void update_grav(void)
{
int x, y, i, j, changed = 0;
2011-04-26 10:15:23 -05:00
float val, distance;
#ifndef GRAV_DIFF
//Find any changed cells
for (i=0; i<YRES/CELL; i++)
{
if(changed)
break;
for (j=0; j<XRES/CELL; j++)
{
if(th_ogravmap[i][j]!=th_gravmap[i][j]){
changed = 1;
break;
}
}
}
2011-04-26 10:15:23 -05:00
memset(th_gravy, 0, sizeof(th_gravy));
memset(th_gravx, 0, sizeof(th_gravx));
#endif
for (i = 0; i < YRES / CELL; i++) {
for (j = 0; j < XRES / CELL; j++) {
#ifdef GRAV_DIFF
if (th_ogravmap[i][j] != th_gravmap[i][j])
{
#else
if ((th_gravmap[i][j] > 0.0001f || th_gravmap[i][j]<-0.0001f) && changed) //Only calculate with populated or changed cells.
{
2011-04-26 10:15:23 -05:00
#endif
for (y = 0; y < YRES / CELL; y++) {
for (x = 0; x < XRES / CELL; x++) {
if (x == j && y == i)//Ensure it doesn't calculate with itself
continue;
distance = sqrt(pow(j - x, 2) + pow(i - y, 2));
#ifdef GRAV_DIFF
val = th_gravmap[i][j] - th_ogravmap[i][j];
#else
val = th_gravmap[i][j];
#endif
th_gravx[y][x] += M_GRAV * val * (j - x) / pow(distance, 3);
th_gravy[y][x] += M_GRAV * val * (i - y) / pow(distance, 3);
}
2011-04-26 10:15:23 -05:00
}
}
}
}
memcpy(th_ogravmap, th_gravmap, sizeof(th_gravmap));
memset(th_gravmap, 0, sizeof(th_gravmap));
}
void update_air(void)
{
2011-01-28 17:54:50 -06:00
int x, y, i, j;
float dp, dx, dy, f, tx, ty;
2011-04-08 05:09:42 -05:00
if (airMode != 4) { //airMode 4 is no air/pressure update
2011-01-28 17:54:50 -06:00
2011-04-08 05:09:42 -05:00
for (i=0; i<YRES/CELL; i++) //reduces pressure/velocity on the edges every frame
2011-01-28 17:54:50 -06:00
{
2011-04-08 05:09:42 -05:00
pv[i][0] = pv[i][0]*0.8f;
pv[i][1] = pv[i][1]*0.8f;
pv[i][2] = pv[i][2]*0.8f;
pv[i][XRES/CELL-2] = pv[i][XRES/CELL-2]*0.8f;
pv[i][XRES/CELL-1] = pv[i][XRES/CELL-1]*0.8f;
vx[i][0] = vx[i][1]*0.9f;
vx[i][1] = vx[i][2]*0.9f;
vx[i][XRES/CELL-2] = vx[i][XRES/CELL-3]*0.9f;
vx[i][XRES/CELL-1] = vx[i][XRES/CELL-2]*0.9f;
vy[i][0] = vy[i][1]*0.9f;
vy[i][1] = vy[i][2]*0.9f;
vy[i][XRES/CELL-2] = vy[i][XRES/CELL-3]*0.9f;
vy[i][XRES/CELL-1] = vy[i][XRES/CELL-2]*0.9f;
2011-01-28 17:54:50 -06:00
}
2011-04-08 05:09:42 -05:00
for (i=0; i<XRES/CELL; i++) //reduces pressure/velocity on the edges every frame
2011-01-28 17:54:50 -06:00
{
2011-04-08 05:09:42 -05:00
pv[0][i] = pv[0][i]*0.8f;
pv[1][i] = pv[1][i]*0.8f;
pv[2][i] = pv[2][i]*0.8f;
pv[YRES/CELL-2][i] = pv[YRES/CELL-2][i]*0.8f;
pv[YRES/CELL-1][i] = pv[YRES/CELL-1][i]*0.8f;
vx[0][i] = vx[1][i]*0.9f;
vx[1][i] = vx[2][i]*0.9f;
vx[YRES/CELL-2][i] = vx[YRES/CELL-3][i]*0.9f;
vx[YRES/CELL-1][i] = vx[YRES/CELL-2][i]*0.9f;
vy[0][i] = vy[1][i]*0.9f;
vy[1][i] = vy[2][i]*0.9f;
vy[YRES/CELL-2][i] = vy[YRES/CELL-3][i]*0.9f;
vy[YRES/CELL-1][i] = vy[YRES/CELL-2][i]*0.9f;
2011-01-28 17:54:50 -06:00
}
2011-04-08 05:09:42 -05:00
for (j=1; j<YRES/CELL; j++) //clear some velocities near walls
2011-01-28 17:54:50 -06:00
{
2011-04-08 05:09:42 -05:00
for (i=1; i<XRES/CELL; i++)
{
if (bmap[j][i]==WL_WALL || bmap[j][i]==WL_WALLELEC || (bmap[j][i]==WL_EWALL && !emap[j][i]))
{
vx[j][i] = 0.0f;
vx[j][i-1] = 0.0f;
vy[j][i] = 0.0f;
vy[j-1][i] = 0.0f;
}
}
2011-01-28 17:54:50 -06:00
}
2011-04-08 05:09:42 -05:00
for (y=1; y<YRES/CELL; y++) //pressure adjustments from velocity
for (x=1; x<XRES/CELL; x++)
2011-01-28 17:54:50 -06:00
{
2011-04-08 05:09:42 -05:00
dp = 0.0f;
dp += vx[y][x-1] - vx[y][x];
dp += vy[y-1][x] - vy[y][x];
pv[y][x] *= AIR_PLOSS;
pv[y][x] += dp*AIR_TSTEPP;
2011-01-28 17:54:50 -06:00
}
2011-04-08 05:09:42 -05:00
for (y=0; y<YRES/CELL-1; y++) //velocity adjustments from pressure
for (x=0; x<XRES/CELL-1; x++)
2011-01-28 17:54:50 -06:00
{
2011-04-08 05:09:42 -05:00
dx = dy = 0.0f;
dx += pv[y][x] - pv[y][x+1];
dy += pv[y][x] - pv[y+1][x];
vx[y][x] *= AIR_VLOSS;
vy[y][x] *= AIR_VLOSS;
vx[y][x] += dx*AIR_TSTEPV;
vy[y][x] += dy*AIR_TSTEPV;
if (bmap[y][x]==WL_WALL || bmap[y][x+1]==WL_WALL ||
bmap[y][x]==WL_WALLELEC || bmap[y][x+1]==WL_WALLELEC ||
(bmap[y][x]==WL_EWALL && !emap[y][x]) ||
(bmap[y][x+1]==WL_EWALL && !emap[y][x+1]))
vx[y][x] = 0;
if (bmap[y][x]==WL_WALL || bmap[y+1][x]==WL_WALL ||
bmap[y][x]==WL_WALLELEC || bmap[y+1][x]==WL_WALLELEC ||
(bmap[y][x]==WL_EWALL && !emap[y][x]) ||
(bmap[y+1][x]==WL_EWALL && !emap[y+1][x]))
vy[y][x] = 0;
2011-01-28 17:54:50 -06:00
}
2011-04-08 05:09:42 -05:00
for (y=0; y<YRES/CELL; y++) //update velocity and pressure
for (x=0; x<XRES/CELL; x++)
{
2011-04-08 05:09:42 -05:00
dx = 0.0f;
dy = 0.0f;
dp = 0.0f;
for (j=-1; j<2; j++)
for (i=-1; i<2; i++)
if (y+j>0 && y+j<YRES/CELL-1 &&
x+i>0 && x+i<XRES/CELL-1 &&
bmap[y+j][x+i]!=WL_WALL &&
bmap[y+j][x+i]!=WL_WALLELEC &&
(bmap[y+j][x+i]!=WL_EWALL || emap[y+j][x+i]))
{
f = kernel[i+1+(j+1)*3];
dx += vx[y+j][x+i]*f;
dy += vy[y+j][x+i]*f;
dp += pv[y+j][x+i]*f;
}
else
{
f = kernel[i+1+(j+1)*3];
dx += vx[y][x]*f;
dy += vy[y][x]*f;
dp += pv[y][x]*f;
}
tx = x - dx*0.7f;
ty = y - dy*0.7f;
i = (int)tx;
j = (int)ty;
tx -= i;
ty -= j;
if (i>=2 && i<XRES/CELL-3 &&
j>=2 && j<YRES/CELL-3)
{
dx *= 1.0f - AIR_VADV;
dy *= 1.0f - AIR_VADV;
dx += AIR_VADV*(1.0f-tx)*(1.0f-ty)*vx[j][i];
dy += AIR_VADV*(1.0f-tx)*(1.0f-ty)*vy[j][i];
dx += AIR_VADV*tx*(1.0f-ty)*vx[j][i+1];
dy += AIR_VADV*tx*(1.0f-ty)*vy[j][i+1];
dx += AIR_VADV*(1.0f-tx)*ty*vx[j+1][i];
dy += AIR_VADV*(1.0f-tx)*ty*vy[j+1][i];
dx += AIR_VADV*tx*ty*vx[j+1][i+1];
dy += AIR_VADV*tx*ty*vy[j+1][i+1];
}
if (bmap[y][x] == WL_FAN)
{
dx += fvx[y][x];
dy += fvy[y][x];
}
// pressure/velocity caps
if (dp > 256.0f) dp = 256.0f;
if (dp < -256.0f) dp = -256.0f;
if (dx > 256.0f) dx = 256.0f;
if (dx < -256.0f) dx = -256.0f;
if (dy > 256.0f) dy = 256.0f;
if (dy < -256.0f) dy = -256.0f;
switch (airMode)
{
default:
case 0: //Default
break;
case 1: //0 Pressure
dp = 0.0f;
break;
case 2: //0 Velocity
dx = 0.0f;
dy = 0.0f;
break;
case 3: //0 Air
dx = 0.0f;
dy = 0.0f;
dp = 0.0f;
break;
case 4: //No Update
break;
}
ovx[y][x] = dx;
ovy[y][x] = dy;
opv[y][x] = dp;
}
2011-04-08 05:09:42 -05:00
memcpy(vx, ovx, sizeof(vx));
memcpy(vy, ovy, sizeof(vy));
memcpy(pv, opv, sizeof(pv));
}
}