#include void* libvector_16s_vector_subtract_unaligned(void* target, void* src0, void* src1, unsigned int num_bytes){ //loop iterator i int i = 0; void* retval = target; //put the target and source addresses into qwords vector unsigned int address_counter_tgt = {(unsigned int)target, 0, 0, 0}; vector unsigned int address_counter_src0 = {(unsigned int)src0, 0, 0 ,0}; vector unsigned int address_counter_src1 = {(unsigned int)src1, 0, 0, 0}; //create shuffle masks //shuffle mask building blocks: //all from the first vector vector unsigned char oneup = {0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09, 0x0a, 0x0b, 0x0c, 0x0d, 0x0e, 0x0f}; //all from the second vector vector unsigned char second_oneup = {0x10, 0x11, 0x12, 0x13, 0x14, 0x15, 0x16, 0x17, 0x18, 0x19, 0x1a, 0x1b, 0x1c, 0x1d, 0x1e, 0x1f}; //gamma: second half of the second, first half of the first, break at (unsigned int)src0%16 vector unsigned char src_cmp = spu_splats((unsigned char)((unsigned int)src0%16)); vector unsigned char gt_res = spu_cmpgt(oneup, src_cmp); vector unsigned char eq_res = spu_cmpeq(oneup, src_cmp); vector unsigned char cmp_res = spu_or(gt_res, eq_res); vector unsigned char sixteen_uchar = spu_splats((unsigned char)16); vector unsigned char phase_change = spu_and(sixteen_uchar, cmp_res); vector unsigned int shuffle_mask_gamma = spu_add((vector unsigned int)phase_change, (vector unsigned int)oneup); shuffle_mask_gamma = spu_rlqwbyte(shuffle_mask_gamma, (unsigned int)src0%16); //eta: second half of the second, first half of the first, break at (unsigned int)src1%16 src_cmp = spu_splats((unsigned char)((unsigned int)src1%16)); gt_res = spu_cmpgt(oneup, src_cmp); eq_res = spu_cmpeq(oneup, src_cmp); cmp_res = spu_or(gt_res, eq_res); sixteen_uchar = spu_splats((unsigned char)16); phase_change = spu_and(sixteen_uchar, cmp_res); vector unsigned int shuffle_mask_eta = spu_add((vector unsigned int)phase_change, (vector unsigned int)oneup); shuffle_mask_eta = spu_rlqwbyte(shuffle_mask_eta, (unsigned int)src1%16); vector unsigned char tgt_second = spu_rlqwbyte(second_oneup, -((unsigned int)target%16)); vector unsigned char tgt_first = spu_rlqwbyte(oneup, -((unsigned int)target%16)); //alpha: first half of first, second half of second, break at (unsigned int)target%16 src_cmp = spu_splats((unsigned char)((unsigned int)target%16)); gt_res = spu_cmpgt(oneup, src_cmp); eq_res = spu_cmpeq(oneup, src_cmp); cmp_res = spu_or(gt_res, eq_res); phase_change = spu_and(sixteen_uchar, cmp_res); vector unsigned int shuffle_mask_alpha = spu_add((vector unsigned int)phase_change, (vector unsigned int)oneup); //delta: first half of first, first half of second, break at (unsigned int)target%16 vector unsigned char shuffle_mask_delta = spu_shuffle(oneup, tgt_second, (vector unsigned char)shuffle_mask_alpha); //epsilon: second half of second, second half of first, break at (unsigned int)target%16 vector unsigned char shuffle_mask_epsilon = spu_shuffle(tgt_second, oneup, (vector unsigned char)shuffle_mask_alpha); //zeta: second half of second, first half of first, break at 16 - (unsigned int)target%16 vector unsigned int shuffle_mask_zeta = spu_rlqwbyte(shuffle_mask_alpha, (unsigned int)target%16); //beta: first half of first, second half of second, break at num_bytes%16 src_cmp = spu_splats((unsigned char)(num_bytes%16)); gt_res = spu_cmpgt(oneup, src_cmp); eq_res = spu_cmpeq(oneup, src_cmp); cmp_res = spu_or(gt_res, eq_res); phase_change = spu_and(sixteen_uchar, cmp_res); vector unsigned int shuffle_mask_beta = spu_add((vector unsigned int)phase_change, (vector unsigned int)oneup); qword src0_past; qword src0_present; qword src1_past; qword src1_present; qword tgt_past; qword tgt_present; qword in_temp0; qword in_temp1; qword out_temp0; qword out_temp1; vector signed short sum; src0_past = si_lqd((qword)address_counter_src0, 0); src1_past = si_lqd((qword)address_counter_src1, 0); tgt_past = si_lqd((qword)address_counter_tgt, 0); for(i = 0; i < num_bytes/16; ++i) { src0_present = si_lqd((qword)address_counter_src0, 16); src1_present = si_lqd((qword)address_counter_src1, 16); tgt_present = si_lqd((qword)address_counter_tgt, 16); in_temp0 = spu_shuffle(src0_present, src0_past, (vector unsigned char)shuffle_mask_gamma); in_temp1 = spu_shuffle(src1_present, src1_past, (vector unsigned char)shuffle_mask_eta); sum = spu_sub((vector signed short)in_temp0, (vector signed short)in_temp1); out_temp0 = spu_shuffle(tgt_past, (qword)sum, shuffle_mask_delta); out_temp1 = spu_shuffle(tgt_present, (qword)sum, shuffle_mask_epsilon); si_stqd(out_temp0, (qword)address_counter_tgt, 0); si_stqd(out_temp1, (qword)address_counter_tgt, 16); tgt_past = out_temp1; src0_past = src0_present; src1_past = src1_present; address_counter_src0 = spu_add(address_counter_src0, 16); address_counter_src1 = spu_add(address_counter_src1, 16); address_counter_tgt = spu_add(address_counter_tgt, 16); } src0_present = si_lqd((qword)address_counter_src0, 16); src1_present = si_lqd((qword)address_counter_src1, 16); tgt_present = si_lqd((qword)address_counter_tgt, 16); in_temp0 = spu_shuffle(src0_present, src0_past, (vector unsigned char) shuffle_mask_gamma); in_temp1 = spu_shuffle(src1_present, src1_past, (vector unsigned char) shuffle_mask_eta); sum = spu_sub((vector signed short)in_temp0, (vector signed short)in_temp1); qword target_temp = spu_shuffle(tgt_present, tgt_past, (vector unsigned char) shuffle_mask_zeta); qword meld = spu_shuffle((qword)sum, target_temp, (vector unsigned char)shuffle_mask_beta); out_temp0 = spu_shuffle(tgt_past, meld, shuffle_mask_delta); out_temp1 = spu_shuffle(tgt_present, meld, shuffle_mask_epsilon); si_stqd(out_temp0, (qword)address_counter_tgt, 0); si_stqd(out_temp1, (qword)address_counter_tgt, 16); return retval; } /* int main(){ signed short pooh[48]; signed short bear[48]; signed short res[48]; int i = 0; for(i = 0; i < 48; ++i){ pooh[i] = i; } for(i = 48; i < 96; ++i){ bear[i - 48] = i; } vector_subtract_16bit(res, &pooh[0], &bear[0], 48 * sizeof(signed short)); for(i = 0; i < 48; ++i) { printf("%d, ", res[i]); } printf("\n"); } */