/**
* Scale by a factor of 2x3 a row of pixels of 16 bits.
* This function operates like scale2x_16_mmx() but with an expansion
* factor of 2x3 instead of 2x2.
*/
void scale2x3_16_mmx(scale2x_uint16* dst0, scale2x_uint16* dst1, scale2x_uint16* dst2, const scale2x_uint16* src0, const scale2x_uint16* src1, const scale2x_uint16* src2, unsigned count)
{
if (count % 4 != 0 || count < 8) {
scale2x3_16_def(dst0, dst1, dst2, src0, src1, src2, count);
} else {
scale2x_16_mmx_border(dst0, src0, src1, src2, count);
scale2x_16_def_center(dst1, src0, src1, src2, count);
scale2x_16_mmx_border(dst2, src2, src1, src0, count);
}
}
/**
* Apply the Scale2x3 effect on a group of rows. Used internally.
*/
static inline void stage_scale2x3(void* dst0, void* dst1, void* dst2, const void* src0, const void* src1, const void* src2, unsigned pixel, unsigned pixel_per_row)
{
switch (pixel) {
#if defined(__GNUC__) && (defined(__i386__) || defined(__x86_64__))
case 1 : scale2x3_8_mmx(SSDST(8,0), SSDST(8,1), SSDST(8,2), SSSRC(8,0), SSSRC(8,1), SSSRC(8,2), pixel_per_row); break;
case 2 : scale2x3_16_mmx(SSDST(16,0), SSDST(16,1), SSDST(16,2), SSSRC(16,0), SSSRC(16,1), SSSRC(16,2), pixel_per_row); break;
case 4 : scale2x3_32_mmx(SSDST(32,0), SSDST(32,1), SSDST(32,2), SSSRC(32,0), SSSRC(32,1), SSSRC(32,2), pixel_per_row); break;
#else
case 1 : scale2x3_8_def(SSDST(8,0), SSDST(8,1), SSDST(8,2), SSSRC(8,0), SSSRC(8,1), SSSRC(8,2), pixel_per_row); break;
case 2 : scale2x3_16_def(SSDST(16,0), SSDST(16,1), SSDST(16,2), SSSRC(16,0), SSSRC(16,1), SSSRC(16,2), pixel_per_row); break;
case 4 : scale2x3_32_def(SSDST(32,0), SSDST(32,1), SSDST(32,2), SSSRC(32,0), SSSRC(32,1), SSSRC(32,2), pixel_per_row); break;
#endif
}
}