monitor->geometry_data[0] = t;
for(i=0; i<3; ++i)
- monitor->geometry_data[1+i] = eye[i]*10000;
+ monitor->geometry_data[1+i] = eye[i]*4096;
for(y=0; y<2; ++y)
for(x=0; x<2; ++x)
{
i = 1+(1+y*2+x)*3;
- monitor->geometry_data[i] = ((x-0.5f)*distance/monitor->perspective)*10000;
- monitor->geometry_data[i+1] = (eye[1]+look[1]*distance-(y-monitor->vertical_center)*look[2]*distance/monitor->perspective/aspect)*10000;
- monitor->geometry_data[i+2] = (eye[2]+look[2]*distance+(y-monitor->vertical_center)*look[1]*distance/monitor->perspective/aspect)*10000;
+ monitor->geometry_data[i] = ((x-0.5f)*distance/monitor->perspective)*4096;
+ monitor->geometry_data[i+1] = (eye[1]+look[1]*distance-(y-monitor->vertical_center)*look[2]*distance/monitor->perspective/aspect)*4096;
+ monitor->geometry_data[i+2] = (eye[2]+look[2]*distance+(y-monitor->vertical_center)*look[1]*distance/monitor->perspective/aspect)*4096;
}
for(i=0; i<(t+1)*(t+1)*3; ++i)
- monitor->geometry_data[16+i] = vertex_data[i]*10000;
+ monitor->geometry_data[16+i] = vertex_data[i]*4096;
for(y=t; y<=t; --y)
for(x=t; x<=t; --x)
monitor = find_monitor_by_name(screen, name_ptr);
if(monitor)
{
- monitor->keystone_vertical = values[i*4]/10000.0f;
- monitor->cylinder_depth = values[i*4+1]/10000.0f;
- monitor->vertical_center = values[i*4+2]/10000.0f;
- monitor->perspective = values[i*4+3]/10000.0f;
+ monitor->keystone_vertical = values[i*4]/4096.0f;
+ monitor->cylinder_depth = values[i*4+1]/4096.0f;
+ monitor->vertical_center = values[i*4+2]/4096.0f;
+ monitor->perspective = values[i*4+3]/4096.0f;
if(monitor->enabled)
update_monitor_vertices(screen, monitor);