#include "../common/book.h"
#include "../common u_bitmap.h“
#define DIM 1000
__device__ struct cuComplex {
float r;
float i;
__device__ cuComplex( float a, float b ) : r(a), i(b) {}
__device__ float magnitude2( void ) {
return r * r + i * i;
}
__device__ cuComplex operator*(const cuComplex& a) {
return cuComplex(r*a.r - i*a.i, i*a.r + r*a.i);
}
__device__ cuComplex operator+(const cuComplex& a) {
return cuComplex(r+a.r, i+a.i);
}
};
__device__ int julia( int x, int y ) {
const float scale = 1.5;
float jx = scale * (float)(DIM/2 - x)/(DIM/2);
float jy = scale * (float)(DIM/2 - y)/(DIM/2);
cuComplex c(-0.8, 0.156);
cuComplex a(jx, jy);
int i = 0;
for (i=0; i<200; i++) {
a = a * a + c;
if (a.magnitude2() > 1000)
return 0;
}
return 1;
}
__global__ void kernel( unsigned char *ptr ) {
int x = blockIdx.x;
int y = blockIdx.y;
int offset = x + y * gridDim.x;
int juliaValue = julia( x, y );
ptr[offset*4 + 0] =111;
ptr[offset*4 + 1] =255*juliaValue;
ptr[offset*4 + 2] =445*juliaValue;
ptr[offset*4 + 3] =255;
}
struct DataBlock {
unsigned char *dev_bitmap;
};
int main( void ) {
DataBlock data;
CPUBitmap bitmap( DIM, DIM, &data );
unsigned char *dev_bitmap;
HANDLE_ERROR( cudaMalloc( (void**)&dev_bitmap, bitmap.image_size() ) );
