void scale_2x(planar32_t *dst32, splanar16_t src16) { planar32_t mask = 1; planar32_t srcex = 0; planar32_t dst_local; int i; srcex = src16; dst_local = 0; *dst32 = 0; for(i = 0; i < 16; i++) { dst_local |= _lrotl(srcex & mask, ((i * 2) + 0) - i); dst_local |= _lrotl(srcex & mask, ((i * 2) + 1) - i); mask = _lrotl(mask, 1); } mask = 0x00FF00FF; *dst32 |= _lrotl(dst_local & mask, 8); mask = 0xFF00FF00; *dst32 |= _lrotr(dst_local & mask, 8); } void graph_slow_2xscale_rect_1_to_0(int x0, int y0, int x1, int y1, int w1, int h1) { int row_p1 = (x1 / 8) + (y1 * ROW_SIZE); int row_p0 = (x0 / 8) + (y0 * ROW_SIZE); int col16; int row; vram_planar_16_pixels_t px16; planar16_t px16_nonzero; for(row = 0; row < h1; row++) { int p0 = row_p0; int p1 = row_p1; for(col16 = 0; col16 < w1 / 16; col16++) { int scale_p; graph_accesspage_func(1); px16.B = *(planar16_t*)(VRAM_PLANE_B + p1); px16.R = *(planar16_t*)(VRAM_PLANE_R + p1); px16.G = *(planar16_t*)(VRAM_PLANE_G + p1); px16.E = *(planar16_t*)(VRAM_PLANE_E + p1); px16_nonzero = px16.B | px16.R | px16.G | px16.E; for(scale_p = 0; scale_p < ROW_SIZE * 2; scale_p += ROW_SIZE) { planar32_t dst32; planar32_t px32_nonzero; graph_accesspage_func(0); scale_2x(&px32_nonzero, px16_nonzero); grcg_setcolor_rmw(0); *(planar32_t*)(VRAM_PLANE_B + p0 + scale_p) = px32_nonzero; grcg_off(); scale_2x(&dst32, px16.B); *(planar32_t*)(VRAM_PLANE_B + p0 + scale_p) |= dst32; scale_2x(&dst32, px16.R); *(planar32_t*)(VRAM_PLANE_R + p0 + scale_p) |= dst32; scale_2x(&dst32, px16.G); *(planar32_t*)(VRAM_PLANE_G + p0 + scale_p) |= dst32; scale_2x(&dst32, px16.E); *(planar32_t*)(VRAM_PLANE_E + p0 + scale_p) |= dst32; } p1 += 2; p0 += 4; } row_p0 += ROW_SIZE * 2; row_p1 += ROW_SIZE; } }