Lines Matching defs:tmp
179 TXComplex tmp[2];
185 BF(tmp[0].re, tmp[1].im, in[1].im, in[2].im);
186 BF(tmp[0].im, tmp[1].re, in[1].re, in[2].re);
188 out[0*stride].re = in[0].re + tmp[1].re;
189 out[0*stride].im = in[0].im + tmp[1].im;
192 mtmp[0] = (int64_t)tab[0] * tmp[0].re;
193 mtmp[1] = (int64_t)tab[1] * tmp[0].im;
194 mtmp[2] = (int64_t)tab[2] * tmp[1].re;
195 mtmp[3] = (int64_t)tab[2] * tmp[1].im;
201 tmp[0].re = tab[0] * tmp[0].re;
202 tmp[0].im = tab[1] * tmp[0].im;
203 tmp[1].re = tab[2] * tmp[1].re;
204 tmp[1].im = tab[2] * tmp[1].im;
205 out[1*stride].re = in[0].re - tmp[1].re + tmp[0].re;
206 out[1*stride].im = in[0].im - tmp[1].im - tmp[0].im;
207 out[2*stride].re = in[0].re - tmp[1].re - tmp[0].re;
208 out[2*stride].im = in[0].im - tmp[1].im + tmp[0].im;
466 TXComplex tmp[15];
469 fft3(tmp + i, in + i*3, 5);
471 fft5_m1(out, tmp + 0, stride);
472 fft5_m2(out, tmp + 5, stride);
473 fft5_m3(out, tmp + 10, stride);
569 TXComplex tmp;
571 BF(tmp.re, z[0].re, z[0].re, z[1].re);
572 BF(tmp.im, z[0].im, z[0].im, z[1].im);
573 z[1] = tmp;
698 TXComplex tmp;
705 tmp = dst[src_idx];
708 FFSWAP(TXComplex, tmp, dst[dst_idx]);
711 dst[dst_idx] = tmp;
752 TXComplex tmp = { 0 };
761 tmp.re += res.re;
762 tmp.im += res.im;
764 dst[i] = tmp;
803 if (!(s->tmp = av_malloc(len*sizeof(*s->tmp))))
825 fft##N(s->tmp + sub_map[i], fft##N##in, m); \
829 s->fn[0](&s->sub[0], s->tmp + m*i, s->tmp + m*i, sizeof(TXComplex)); \
832 out[i] = s->tmp[out_map[i]]; \
974 TXComplex *exp = s->exp, tmp, *z = _dst;
986 tmp.re = FOLD(-src[ len2 + k], src[1*len2 - 1 - k]);
987 tmp.im = FOLD(-src[ len3 + k], -src[1*len3 - 1 - k]);
989 tmp.re = FOLD(-src[ len2 + k], -src[5*len2 - 1 - k]);
990 tmp.im = FOLD( src[-len2 + k], -src[1*len3 - 1 - k]);
992 CMUL(z[idx].im, z[idx].re, tmp.re, tmp.im, exp[i].re, exp[i].im);
1023 TXComplex tmp = { in2[-2*i*stride], in1[2*i*stride] };
1024 CMUL3(z[sub_map[i]], tmp, exp[i]);
1147 if (!(s->tmp = av_malloc(len*sizeof(*s->tmp))))
1174 TXComplex tmp = { in2[-k*stride], in1[k*stride] }; \
1175 CMUL3(fft##N##in[j], tmp, exp[k >> 1]); \
1177 fft##N(s->tmp + sub_map[i], fft##N##in, m); \
1181 s->fn[0](&s->sub[0], s->tmp + m*i, s->tmp + m*i, sizeof(TXComplex)); \
1186 TXComplex src1 = { s->tmp[s1].im, s->tmp[s1].re }; \
1187 TXComplex src0 = { s->tmp[s0].im, s->tmp[s0].re }; \
1219 TXComplex *exp = s->exp, tmp; \
1233 tmp.re = FOLD(-src[ len4 + k], src[1*len4 - 1 - k]); \
1234 tmp.im = FOLD(-src[ len3 + k], -src[1*len3 - 1 - k]); \
1236 tmp.re = FOLD(-src[ len4 + k], -src[5*len4 - 1 - k]); \
1237 tmp.im = FOLD( src[-len4 + k], -src[1*len3 - 1 - k]); \
1239 CMUL(fft##N##in[j].im, fft##N##in[j].re, tmp.re, tmp.im, \
1242 fft##N(s->tmp + sub_map[i], fft##N##in, m); \
1246 s->fn[0](&s->sub[0], s->tmp + m*i, s->tmp + m*i, sizeof(TXComplex)); \
1251 TXComplex src1 = { s->tmp[s1].re, s->tmp[s1].im }; \
1252 TXComplex src0 = { s->tmp[s0].re, s->tmp[s0].im }; \