im 38 3rdparty/include/ffmpeg_/libavcodec/avfft.h FFTSample re, im; im 274 3rdparty/openexr/IlmImf/ImfHuf.cpp int* im, // o: min frq index im 301 3rdparty/openexr/IlmImf/ImfHuf.cpp *im = 0; im 303 3rdparty/openexr/IlmImf/ImfHuf.cpp while (!frq[*im]) im 304 3rdparty/openexr/IlmImf/ImfHuf.cpp (*im)++; im 308 3rdparty/openexr/IlmImf/ImfHuf.cpp for (int i = *im; i < HUF_ENCSIZE; i++) im 468 3rdparty/openexr/IlmImf/ImfHuf.cpp int im, // i : min hcode index im 476 3rdparty/openexr/IlmImf/ImfHuf.cpp for (; im <= iM; im++) im 478 3rdparty/openexr/IlmImf/ImfHuf.cpp int l = hufLength (hcode[im]); im 484 3rdparty/openexr/IlmImf/ImfHuf.cpp while ((im < iM) && (zerun < LONGEST_LONG_RUN)) im 486 3rdparty/openexr/IlmImf/ImfHuf.cpp if (hufLength (hcode[im+1]) > 0 ) im 488 3rdparty/openexr/IlmImf/ImfHuf.cpp im++; im 525 3rdparty/openexr/IlmImf/ImfHuf.cpp int im, // i : min hcode index im 535 3rdparty/openexr/IlmImf/ImfHuf.cpp for (; im <= iM; im++) im 540 3rdparty/openexr/IlmImf/ImfHuf.cpp Int64 l = hcode[im] = getBits (6, c, lc, p); // code length im 549 3rdparty/openexr/IlmImf/ImfHuf.cpp if (im + zerun > iM + 1) im 553 3rdparty/openexr/IlmImf/ImfHuf.cpp hcode[im++] = 0; im 555 3rdparty/openexr/IlmImf/ImfHuf.cpp im--; im 561 3rdparty/openexr/IlmImf/ImfHuf.cpp if (im + zerun > iM + 1) im 565 3rdparty/openexr/IlmImf/ImfHuf.cpp hcode[im++] = 0; im 567 3rdparty/openexr/IlmImf/ImfHuf.cpp im--; im 605 3rdparty/openexr/IlmImf/ImfHuf.cpp int im, // i : min index in hcode im 615 3rdparty/openexr/IlmImf/ImfHuf.cpp for (; im <= iM; im++) im 617 3rdparty/openexr/IlmImf/ImfHuf.cpp Int64 c = hufCode (hcode[im]); im 618 3rdparty/openexr/IlmImf/ImfHuf.cpp int l = hufLength (hcode[im]); im 666 3rdparty/openexr/IlmImf/ImfHuf.cpp pl->p[pl->lit - 1]= im; im 689 3rdparty/openexr/IlmImf/ImfHuf.cpp pl->lit = im; im 1015 3rdparty/openexr/IlmImf/ImfHuf.cpp int im, iM; im 1016 3rdparty/openexr/IlmImf/ImfHuf.cpp hufBuildEncTable (freq, &im, &iM); im 1020 3rdparty/openexr/IlmImf/ImfHuf.cpp hufPackEncTable (freq, im, iM, &tableEnd); im 1027 3rdparty/openexr/IlmImf/ImfHuf.cpp writeUInt (compressed, im); im 1051 3rdparty/openexr/IlmImf/ImfHuf.cpp int im = readUInt (compressed); im 1056 3rdparty/openexr/IlmImf/ImfHuf.cpp if (im < 0 || im >= HUF_ENCSIZE || iM < 0 || iM >= HUF_ENCSIZE) im 1066 3rdparty/openexr/IlmImf/ImfHuf.cpp hufUnpackEncTable (&ptr, nCompressed - (ptr - compressed), im, iM, freq); im 1073 3rdparty/openexr/IlmImf/ImfHuf.cpp hufBuildDecTable (freq, im, iM, hdec); im 113 modules/calib3d/src/five-point.cpp if (fabs(roots[i].im) > 1e-10) continue; im 881 modules/core/include/opencv2/core/persistence.hpp write(fs, c.im); im 86 modules/core/include/opencv2/core/types.hpp _Tp re, im; //< the real and the imaginary parts im 905 modules/core/include/opencv2/core/types.hpp return Complex<T2>(saturate_cast<T2>(re), saturate_cast<T2>(im)); im 911 modules/core/include/opencv2/core/types.hpp return Complex<_Tp>(re, -im); im 918 modules/core/include/opencv2/core/types.hpp return a.re == b.re && a.im == b.im; im 924 modules/core/include/opencv2/core/types.hpp return a.re != b.re || a.im != b.im; im 930 modules/core/include/opencv2/core/types.hpp return Complex<_Tp>( a.re + b.re, a.im + b.im ); im 936 modules/core/include/opencv2/core/types.hpp a.re += b.re; a.im += b.im; im 943 modules/core/include/opencv2/core/types.hpp return Complex<_Tp>( a.re - b.re, a.im - b.im ); im 949 modules/core/include/opencv2/core/types.hpp a.re -= b.re; a.im -= b.im; im 956 modules/core/include/opencv2/core/types.hpp return Complex<_Tp>(-a.re, -a.im); im 962 modules/core/include/opencv2/core/types.hpp return Complex<_Tp>( a.re*b.re - a.im*b.im, a.re*b.im + a.im*b.re ); im 968 modules/core/include/opencv2/core/types.hpp return Complex<_Tp>( a.re*b, a.im*b ); im 974 modules/core/include/opencv2/core/types.hpp return Complex<_Tp>( a.re*b, a.im*b ); im 980 modules/core/include/opencv2/core/types.hpp return Complex<_Tp>( a.re + b, a.im ); im 985 modules/core/include/opencv2/core/types.hpp { return Complex<_Tp>( a.re - b, a.im ); } im 990 modules/core/include/opencv2/core/types.hpp return Complex<_Tp>( a.re + b, a.im ); im 996 modules/core/include/opencv2/core/types.hpp return Complex<_Tp>( b - a.re, -a.im ); im 1014 modules/core/include/opencv2/core/types.hpp a.re *= b; a.im *= b; return a; im 1020 modules/core/include/opencv2/core/types.hpp return std::sqrt( (double)a.re*a.re + (double)a.im*a.im); im 1026 modules/core/include/opencv2/core/types.hpp double t = 1./((double)b.re*b.re + (double)b.im*b.im); im 1027 modules/core/include/opencv2/core/types.hpp return Complex<_Tp>( (_Tp)((a.re*b.re + a.im*b.im)*t), im 1028 modules/core/include/opencv2/core/types.hpp (_Tp)((-a.re*b.im + a.im*b.re)*t) ); im 1041 modules/core/include/opencv2/core/types.hpp return Complex<_Tp>( a.re*t, a.im*t ); im 1054 modules/core/include/opencv2/core/types.hpp a.re *= t; a.im *= t; return a; im 313 modules/core/src/dxt.cpp w.im = w1.im = -DFTTab[m][1]; im 318 modules/core/src/dxt.cpp w.im = w1.im = sin(t); im 319 modules/core/src/dxt.cpp w.re = w1.re = std::sqrt(1. - w1.im*w1.im); im 328 modules/core/src/dxt.cpp wave[0].im = 0.; im 333 modules/core/src/dxt.cpp wave[n].im = 0; im 340 modules/core/src/dxt.cpp wave[n0-i].im = -w.im; im 342 modules/core/src/dxt.cpp t = w.re*w1.re - w.im*w1.im; im 343 modules/core/src/dxt.cpp w.im = w.re*w1.im + w.im*w1.re; im 353 modules/core/src/dxt.cpp wave[0].im = 0.f; im 358 modules/core/src/dxt.cpp wave[n].im = 0.f; im 364 modules/core/src/dxt.cpp wave[i].im = (float)w.im; im 366 modules/core/src/dxt.cpp wave[n0-i].im = (float)-w.im; im 368 modules/core/src/dxt.cpp t = w.re*w1.re - w.im*w1.im; im 369 modules/core/src/dxt.cpp w.im = w.re*w1.im + w.im*w1.re; im 597 modules/core/src/dxt.cpp t.re = src[k0].re; t.im = -src[k0].im; im 599 modules/core/src/dxt.cpp t.re = src[k1].re; t.im = -src[k1].im; im 605 modules/core/src/dxt.cpp t.re = src[n-1].re; t.im = -src[n-1].im; im 653 modules/core/src/dxt.cpp T t0 = -dst[i].im; im 654 modules/core/src/dxt.cpp T t1 = -dst[i+1].im; im 655 modules/core/src/dxt.cpp dst[i].im = t0; dst[i+1].im = t1; im 659 modules/core/src/dxt.cpp dst[n-1].im = -dst[n-1].im; im 688 modules/core/src/dxt.cpp r0 = v1[0].re; i0 = v1[0].im; im 689 modules/core/src/dxt.cpp r4 = v1[nx].re; i4 = v1[nx].im; im 694 modules/core/src/dxt.cpp r2 = v0[0].re; i2 = v0[0].im; im 695 modules/core/src/dxt.cpp r4 = v0[nx].re; i4 = v0[nx].im; im 700 modules/core/src/dxt.cpp v0[0].re = r0 + r1; v0[0].im = i0 + i1; im 701 modules/core/src/dxt.cpp v1[0].re = r0 - r1; v1[0].im = i0 - i1; im 702 modules/core/src/dxt.cpp v0[nx].re = r2 + r3; v0[nx].im = i2 + i3; im 703 modules/core/src/dxt.cpp v1[nx].re = r2 - r3; v1[nx].im = i2 - i3; im 710 modules/core/src/dxt.cpp r2 = v0[nx].re*wave[dw*2].re - v0[nx].im*wave[dw*2].im; im 711 modules/core/src/dxt.cpp i2 = v0[nx].re*wave[dw*2].im + v0[nx].im*wave[dw*2].re; im 712 modules/core/src/dxt.cpp r0 = v1[0].re*wave[dw].im + v1[0].im*wave[dw].re; im 713 modules/core/src/dxt.cpp i0 = v1[0].re*wave[dw].re - v1[0].im*wave[dw].im; im 714 modules/core/src/dxt.cpp r3 = v1[nx].re*wave[dw*3].im + v1[nx].im*wave[dw*3].re; im 715 modules/core/src/dxt.cpp i3 = v1[nx].re*wave[dw*3].re - v1[nx].im*wave[dw*3].im; im 719 modules/core/src/dxt.cpp r4 = v0[0].re; i4 = v0[0].im; im 724 modules/core/src/dxt.cpp v0[0].re = r0 + r1; v0[0].im = i0 + i1; im 725 modules/core/src/dxt.cpp v1[0].re = r0 - r1; v1[0].im = i0 - i1; im 726 modules/core/src/dxt.cpp v0[nx].re = r2 + r3; v0[nx].im = i2 + i3; im 727 modules/core/src/dxt.cpp v1[nx].re = r2 - r3; v1[nx].im = i2 - i3; im 743 modules/core/src/dxt.cpp T i0 = v[0].im + v[nx].im; im 745 modules/core/src/dxt.cpp T i1 = v[0].im - v[nx].im; im 746 modules/core/src/dxt.cpp v[0].re = r0; v[0].im = i0; im 747 modules/core/src/dxt.cpp v[nx].re = r1; v[nx].im = i1; im 752 modules/core/src/dxt.cpp r1 = v[nx].re*wave[dw].re - v[nx].im*wave[dw].im; im 753 modules/core/src/dxt.cpp i1 = v[nx].im*wave[dw].re + v[nx].re*wave[dw].im; im 754 modules/core/src/dxt.cpp r0 = v[0].re; i0 = v[0].im; im 756 modules/core/src/dxt.cpp v[0].re = r0 + r1; v[0].im = i0 + i1; im 757 modules/core/src/dxt.cpp v[nx].re = r0 - r1; v[nx].im = i0 - i1; im 779 modules/core/src/dxt.cpp T i1 = v[nx].im + v[nx*2].im; im 781 modules/core/src/dxt.cpp T i0 = v[0].im; im 782 modules/core/src/dxt.cpp T r2 = sin_120*(v[nx].im - v[nx*2].im); im 784 modules/core/src/dxt.cpp v[0].re = r0 + r1; v[0].im = i0 + i1; im 786 modules/core/src/dxt.cpp v[nx].re = r0 + r2; v[nx].im = i0 + i2; im 787 modules/core/src/dxt.cpp v[nx*2].re = r0 - r2; v[nx*2].im = i0 - i2; im 792 modules/core/src/dxt.cpp r0 = v[nx].re*wave[dw].re - v[nx].im*wave[dw].im; im 793 modules/core/src/dxt.cpp i0 = v[nx].re*wave[dw].im + v[nx].im*wave[dw].re; im 794 modules/core/src/dxt.cpp i2 = v[nx*2].re*wave[dw*2].re - v[nx*2].im*wave[dw*2].im; im 795 modules/core/src/dxt.cpp r2 = v[nx*2].re*wave[dw*2].im + v[nx*2].im*wave[dw*2].re; im 799 modules/core/src/dxt.cpp r0 = v[0].re; i0 = v[0].im; im 800 modules/core/src/dxt.cpp v[0].re = r0 + r1; v[0].im = i0 + i1; im 802 modules/core/src/dxt.cpp v[nx].re = r0 + r2; v[nx].im = i0 + i2; im 803 modules/core/src/dxt.cpp v[nx*2].re = r0 - r2; v[nx*2].im = i0 - i2; im 820 modules/core/src/dxt.cpp r3 = v0[nx].re*wave[dw].re - v0[nx].im*wave[dw].im; im 821 modules/core/src/dxt.cpp i3 = v0[nx].re*wave[dw].im + v0[nx].im*wave[dw].re; im 822 modules/core/src/dxt.cpp r2 = v2[0].re*wave[dw*4].re - v2[0].im*wave[dw*4].im; im 823 modules/core/src/dxt.cpp i2 = v2[0].re*wave[dw*4].im + v2[0].im*wave[dw*4].re; im 828 modules/core/src/dxt.cpp r4 = v1[nx].re*wave[dw*3].re - v1[nx].im*wave[dw*3].im; im 829 modules/core/src/dxt.cpp i4 = v1[nx].re*wave[dw*3].im + v1[nx].im*wave[dw*3].re; im 830 modules/core/src/dxt.cpp r0 = v1[0].re*wave[dw*2].re - v1[0].im*wave[dw*2].im; im 831 modules/core/src/dxt.cpp i0 = v1[0].re*wave[dw*2].im + v1[0].im*wave[dw*2].re; im 836 modules/core/src/dxt.cpp r0 = v0[0].re; i0 = v0[0].im; im 839 modules/core/src/dxt.cpp v0[0].re = r0 + r5; v0[0].im = i0 + i5; im 854 modules/core/src/dxt.cpp v0[nx].re = r3 + r2; v0[nx].im = i3 + i2; im 855 modules/core/src/dxt.cpp v2[0].re = r3 - r2; v2[0].im = i3 - i2; im 857 modules/core/src/dxt.cpp v1[0].re = r0 + r5; v1[0].im = i0 + i5; im 858 modules/core/src/dxt.cpp v1[nx].re = r0 - r5; v1[nx].im = i0 - i5; im 883 modules/core/src/dxt.cpp T i0 = v[k].im - v[n-k].im; im 885 modules/core/src/dxt.cpp T i1 = v[k].im + v[n-k].im; im 887 modules/core/src/dxt.cpp vn_0.re += r0; vn_0.im += i1; im 888 modules/core/src/dxt.cpp a[p-1].re = r0; a[p-1].im = i0; im 889 modules/core/src/dxt.cpp b[p-1].re = r1; b[p-1].im = i1; im 899 modules/core/src/dxt.cpp T r2 = v[k].re*wave[d].re - v[k].im*wave[d].im; im 900 modules/core/src/dxt.cpp T i2 = v[k].re*wave[d].im + v[k].im*wave[d].re; im 902 modules/core/src/dxt.cpp T r1 = v[n-k].re*wave_[-d].re - v[n-k].im*wave_[-d].im; im 903 modules/core/src/dxt.cpp T i1 = v[n-k].re*wave_[-d].im + v[n-k].im*wave_[-d].re; im 910 modules/core/src/dxt.cpp vn_0.re += r0; vn_0.im += i1; im 911 modules/core/src/dxt.cpp a[p-1].re = r0; a[p-1].im = i0; im 912 modules/core/src/dxt.cpp b[p-1].re = r1; b[p-1].im = i1; im 926 modules/core/src/dxt.cpp T i0 = wave[d].im * a[q].im; im 927 modules/core/src/dxt.cpp T r1 = wave[d].re * b[q].im; im 928 modules/core/src/dxt.cpp T i1 = wave[d].im * b[q].re; im 931 modules/core/src/dxt.cpp s1.im += r1 - i1; s0.im += r1 + i1; im 954 modules/core/src/dxt.cpp T t1 = dst[i].im*im_scale; im 956 modules/core/src/dxt.cpp dst[i].im = t1; im 963 modules/core/src/dxt.cpp T t0 = -dst[i].im; im 964 modules/core/src/dxt.cpp T t1 = -dst[i+1].im; im 965 modules/core/src/dxt.cpp dst[i].im = t0; im 966 modules/core/src/dxt.cpp dst[i+1].im = t1; im 970 modules/core/src/dxt.cpp dst[n0-1].im = -dst[n0-1].im; im 1028 modules/core/src/dxt.cpp _dst[0].im = 0; im 1034 modules/core/src/dxt.cpp _dst[j].im = 0; im 1036 modules/core/src/dxt.cpp _dst[j+1].im = 0; im 1074 modules/core/src/dxt.cpp t = h2_re*wave->re - h2_im*wave->im; im 1075 modules/core/src/dxt.cpp h2_im = h2_re*wave->im + h2_im*wave->re; im 1160 modules/core/src/dxt.cpp _dst[0].im = 0; im 1164 modules/core/src/dxt.cpp t0 = _src[j].re; t1 = _src[j].im; im 1165 modules/core/src/dxt.cpp _dst[k0].re = t0; _dst[k0].im = -t1; im 1166 modules/core/src/dxt.cpp _dst[k1].re = t0; _dst[k1].im = t1; im 1201 modules/core/src/dxt.cpp t = h2_re*w->re + h2_im*w->im; im 1202 modules/core/src/dxt.cpp h2_im = h2_im*w->re - h2_re*w->im; im 2998 modules/core/src/dxt.cpp double im = (double)dataA[j*stepA]*dataB[(j+1)*stepB] + im 3000 modules/core/src/dxt.cpp dataC[j*stepC] = (float)re; dataC[(j+1)*stepC] = (float)im; im 3007 modules/core/src/dxt.cpp double im = (double)dataA[(j+1)*stepA]*dataB[j*stepB] - im 3009 modules/core/src/dxt.cpp dataC[j*stepC] = (float)re; dataC[(j+1)*stepC] = (float)im; im 3029 modules/core/src/dxt.cpp double im = (double)dataA[j+1]*dataB[j] + (double)dataA[j]*dataB[j+1]; im 3030 modules/core/src/dxt.cpp dataC[j] = (float)re; dataC[j+1] = (float)im; im 3036 modules/core/src/dxt.cpp double im = (double)dataA[j+1]*dataB[j] - (double)dataA[j]*dataB[j+1]; im 3037 modules/core/src/dxt.cpp dataC[j] = (float)re; dataC[j+1] = (float)im; im 3065 modules/core/src/dxt.cpp double im = dataA[j*stepA]*dataB[(j+1)*stepB] + im 3067 modules/core/src/dxt.cpp dataC[j*stepC] = re; dataC[(j+1)*stepC] = im; im 3074 modules/core/src/dxt.cpp double im = dataA[(j+1)*stepA]*dataB[j*stepB] - im 3076 modules/core/src/dxt.cpp dataC[j*stepC] = re; dataC[(j+1)*stepC] = im; im 3096 modules/core/src/dxt.cpp double im = dataA[j+1]*dataB[j] + dataA[j]*dataB[j+1]; im 3097 modules/core/src/dxt.cpp dataC[j] = re; dataC[j+1] = im; im 3103 modules/core/src/dxt.cpp double im = dataA[j+1]*dataB[j] - dataA[j]*dataB[j+1]; im 3104 modules/core/src/dxt.cpp dataC[j] = re; dataC[j+1] = im; im 3154 modules/core/src/dxt.cpp T t0 = dct_wave->re*src[j*2-1] - dct_wave->im*src[j*2]; im 3155 modules/core/src/dxt.cpp T t1 = -dct_wave->im*src[j*2-1] - dct_wave->re*src[j*2]; im 3187 modules/core/src/dxt.cpp T t0 = dct_wave->re*src[0] - dct_wave->im*src1[0]; im 3188 modules/core/src/dxt.cpp T t1 = -dct_wave->im*src[0] - dct_wave->re*src1[0]; im 3238 modules/core/src/dxt.cpp w1.im = -DFTTab[m+2][1]; im 3244 modules/core/src/dxt.cpp w1.im = sin(-CV_PI*t); im 3245 modules/core/src/dxt.cpp w1.re = std::sqrt(1. - w1.im*w1.im); im 3254 modules/core/src/dxt.cpp w.im = 0.; im 3259 modules/core/src/dxt.cpp t = w.re*w1.re - w.im*w1.im; im 3260 modules/core/src/dxt.cpp w.im = w.re*w1.im + w.im*w1.re; im 3270 modules/core/src/dxt.cpp w.im = 0.f; im 3275 modules/core/src/dxt.cpp wave[i].im = (float)w.im; im 3276 modules/core/src/dxt.cpp t = w.re*w1.re - w.im*w1.im; im 3277 modules/core/src/dxt.cpp w.im = w.re*w1.im + w.im*w1.re; im 2068 modules/core/src/mathfuncs.cpp if( std::abs(coeffs[n].re) + std::abs(coeffs[n].im) > DBL_EPSILON ) im 2105 modules/core/src/mathfuncs.cpp if( fabs(roots[i].im) < verySmallEps ) im 2106 modules/core/src/mathfuncs.cpp roots[i].im = 0; im 182 modules/core/src/pca.cpp for(int im = 0; im <= ig; im++) im 184 modules/core/src/pca.cpp g.at<T>(ig,0) += eigenvalues.at<T>(im,0); im 18 modules/core/test/test_dxt.cpp w1.im = sin(angle); im 20 modules/core/test/test_dxt.cpp w[0].im = wi.im = 0.; im 24 modules/core/test/test_dxt.cpp double t = wi.re*w1.re - wi.im*w1.im; im 25 modules/core/test/test_dxt.cpp wi.im = wi.re*w1.im + wi.im*w1.re; im 68 modules/core/test/test_dxt.cpp sum.re += src->re*w[k].re - src->im*w[k].im; im 69 modules/core/test/test_dxt.cpp sum.im += src->re*w[k].im + src->im*w[k].re; im 75 modules/core/test/test_dxt.cpp dst->im = (float)(sum.im*scale); im 90 modules/core/test/test_dxt.cpp sum.re += src->re*w[k].re - src->im*w[k].im; im 91 modules/core/test/test_dxt.cpp sum.im += src->re*w[k].im + src->im*w[k].re; im 97 modules/core/test/test_dxt.cpp dst->im = sum.im*scale; im 295 modules/core/test/test_dxt.cpp dst->im = 0; im 300 modules/core/test/test_dxt.cpp dst[n2*dststep].im = 0; im 314 modules/core/test/test_dxt.cpp dst[i*dststep].im = t1; im 320 modules/core/test/test_dxt.cpp dst[(n-i)*dststep].im = t1; im 331 modules/core/test/test_dxt.cpp dst->im = 0; im 336 modules/core/test/test_dxt.cpp dst[n2*dststep].im = 0; im 350 modules/core/test/test_dxt.cpp dst[i*dststep].im = t1; im 356 modules/core/test/test_dxt.cpp dst[(n-i)*dststep].im = t1; im 377 modules/core/test/test_dxt.cpp row[0].im = 0; im 379 modules/core/test/test_dxt.cpp row[cols2-1].im = 0; im 385 modules/core/test/test_dxt.cpp row2[0].im = -row[0].im; im 390 modules/core/test/test_dxt.cpp row2[cols2-1].im = -row[cols2-1].im; im 402 modules/core/test/test_dxt.cpp row[0].im = 0; im 404 modules/core/test/test_dxt.cpp row[cols2-1].im = 0; im 410 modules/core/test/test_dxt.cpp row2[0].im = -row[0].im; im 415 modules/core/test/test_dxt.cpp row2[cols2-1].im = -row[cols2-1].im; im 445 modules/core/test/test_dxt.cpp double im = (double)a[j+1]*(double)b[j] + (double)a[j]*(double)b[j+1]; im 448 modules/core/test/test_dxt.cpp c[j+1] = (float)im; im 454 modules/core/test/test_dxt.cpp double im = (double)a[j+1]*(double)b[j] - (double)a[j]*(double)b[j+1]; im 457 modules/core/test/test_dxt.cpp c[j+1] = (float)im; im 470 modules/core/test/test_dxt.cpp double im = a[j+1]*b[j] + a[j]*b[j+1]; im 473 modules/core/test/test_dxt.cpp c[j+1] = im; im 479 modules/core/test/test_dxt.cpp double im = a[j+1]*b[j] - a[j]*b[j+1]; im 482 modules/core/test/test_dxt.cpp c[j+1] = im; im 1002 modules/highgui/src/window_QT.cpp cv::Mat im = cv::cvarrToMat(mat); im 1003 modules/highgui/src/window_QT.cpp cv::imshow(name.toUtf8().data(), im); im 326 modules/imgcodecs/test/test_grfmt.cpp Mat im = Mat::zeros(1000,1000, CV_8U); im 331 modules/imgcodecs/test/test_grfmt.cpp cv::imencode(".png" ,im ,buff, param); im 2134 modules/imgproc/src/histogram.cpp UMat im = images[idx]; im 2136 modules/imgproc/src/histogram.cpp String opts = format("-D histdims=1 -D scn=%d", im.channels()); im 2156 modules/imgproc/src/histogram.cpp im.offset += cnidx; im 2157 modules/imgproc/src/histogram.cpp mapk.args(ocl::KernelArg::ReadOnlyNoSize(im), ocl::KernelArg::PtrReadOnly(lut), im 209 modules/imgproc/src/phasecorr.cpp double im = (double)dataA[(j+1)*stepA]*dataB[j*stepB] - im 213 modules/imgproc/src/phasecorr.cpp dataC[(j+1)*stepC] = (float)(im / denom); im 225 modules/imgproc/src/phasecorr.cpp double im = (double)dataA[(j+1)*stepA]*dataB[j*stepB] + im 229 modules/imgproc/src/phasecorr.cpp dataC[(j+1)*stepC] = (float)(im / denom); im 250 modules/imgproc/src/phasecorr.cpp double im = (double)(dataA[j+1]*dataB[j] - dataA[j]*dataB[j+1]); im 252 modules/imgproc/src/phasecorr.cpp dataC[j+1] = (float)(im / denom); im 259 modules/imgproc/src/phasecorr.cpp double im = (double)(dataA[j+1]*dataB[j] + dataA[j]*dataB[j+1]); im 261 modules/imgproc/src/phasecorr.cpp dataC[j+1] = (float)(im / denom); im 294 modules/imgproc/src/phasecorr.cpp double im = dataA[(j+1)*stepA]*dataB[j*stepB] - im 298 modules/imgproc/src/phasecorr.cpp dataC[(j+1)*stepC] = im / denom; im 309 modules/imgproc/src/phasecorr.cpp double im = dataA[(j+1)*stepA]*dataB[j*stepB] + im 313 modules/imgproc/src/phasecorr.cpp dataC[(j+1)*stepC] = im / denom; im 334 modules/imgproc/src/phasecorr.cpp double im = dataA[j+1]*dataB[j] - dataA[j]*dataB[j+1]; im 336 modules/imgproc/src/phasecorr.cpp dataC[j+1] = im / denom; im 343 modules/imgproc/src/phasecorr.cpp double im = dataA[j+1]*dataB[j] + dataA[j]*dataB[j+1]; im 345 modules/imgproc/src/phasecorr.cpp dataC[j+1] = im / denom; im 326 modules/photo/src/merge.cpp Mat im, w; im 328 modules/photo/src/merge.cpp LUT(images[i], response, im); im 330 modules/photo/src/merge.cpp result += times.at<float>((int)i) * w.mul(im);