/dports/security/cops/cops_104+/src/ |
H A D | crack-fcrypt.c | 149 reg sbpb24 Rl; local 242 Ll ^= Rl; 244 Rl ^= Ll; 246 Ll ^= Rl; 261 *qp++ = Rl; 269 reg sbpb24 Rl; in UnXForm() local 294 if (Rl & mask) in UnXForm() 301 if (Rl & mask) in UnXForm() 322 if (Rl & mask) in UnXForm() 329 if (Rl & mask) in UnXForm() [all …]
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/dports/science/qmcpack/qmcpack-3.11.0/src/AFQMC/Hamiltonians/ |
H A D | rotateHamiltonian_Helper2.hpp | 55 assert(Qk.size(1) == Rl.size(0)); in count_Qk_x_Rl() 56 assert(Rl.size(1) == Rl.size(1)); in count_Qk_x_Rl() 78 ma::product(Qk, Rl(Rl.extension(0), {bl0, blN}), Ta(Ta.extension(0), {bl0, blN})); in count_Qk_x_Rl() 110 ma::product(Qk, Rl(Rl.extension(0), {bl0, blN}), Ta(Ta.extension(0), {bl0, blN})); in count_Qk_x_Rl() 136 ma::product(Qk, Rl(Rl.extension(0), {bl0, blN}), Ta(Ta.extension(0), {bl0, blN})); in count_Qk_x_Rl() 159 ma::product(Qk, Rl(Rl.extension(0), {bl0, blN}), Ta(Ta.extension(0), {bl0, blN})); in count_Qk_x_Rl() 216 assert(Rl.size(1) == Rl.size(1)); in Qk_x_Rl() 238 ma::product(Qk, Rl(Rl.extension(0), {bl0, blN}), Ta(Ta.extension(0), {bl0, blN})); in Qk_x_Rl() 278 ma::product(Qk, Rl(Rl.extension(0), {bl0, blN}), Ta(Ta.extension(0), {bl0, blN})); in Qk_x_Rl() 311 ma::product(Qk, Rl(Rl.extension(0), {bl0, blN}), Ta(Ta.extension(0), {bl0, blN})); in Qk_x_Rl() [all …]
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H A D | rotateHamiltonian.hpp | 279 std::fill_n(Rl.origin(), Rl.num_elements(), SPComplexType(0.0)); in rotateHijkl() 348 ma::transpose(Qk.sliced(n0_, n1_), Rl(Rl.extension(0), {n0_, n1_})); in rotateHijkl() 764 std::fill_n(Rl.origin(), Rl.num_elements(), SPComplexType(0.0)); in rotateHijkl_single_node() 795 ma::transpose(Qk.sliced(n0_, n1_), Rl(Rl.extension(0), {n0_, n1_})); in rotateHijkl_single_node() 855 Rl(Rl.extension(0), {NAEA * NMO, (NAEA + NAEB) * NMO}), Ta, cut); in rotateHijkl_single_node() 860 Rl(Rl.extension(0), {NAEA * NMO, (NAEA + NAEB) * NMO}), Ta, cut); in rotateHijkl_single_node() 868 Rl(Rl.extension(0), {NAEA * NMO, (NAEA + NAEB) * NMO}), Ta, cut); in rotateHijkl_single_node() 926 Rl(Rl.extension(0), {0, NAEA * NMO}), Ta, Vijkl, cut); in rotateHijkl_single_node() 935 Rl(Rl.extension(0), {NAEA * NMO, (NAEA + NAEB) * NMO}), Ta, Vijkl, cut); in rotateHijkl_single_node() 939 Rl(Rl.extension(0), {NAEA * NMO, (NAEA + NAEB) * NMO}), Ta, Vijkl, cut); in rotateHijkl_single_node() [all …]
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/dports/audio/codec2/codec2-1.0.3/octave/ |
H A D | rf_vhf_pa.m | 41 % determine collector load Rl for our desired power output 48 Rl = Vcc*Vcc/(2*P); variable 50 Rl = 10; variable 52 % choose gammaL based on Rl 54 zo = Rl/50; 66 % design Pi network for matching Rl to Ro, where Ro > Rl 70 % Rl Xp1 Xp2 Ro 76 % than Rl and Ro 85 Q1 = sqrt(Rl/R - 1); 86 Xp1 = Rl/Q1; [all …]
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H A D | rf_bpf.m | 21 % Rl=50, so Rs/Rl = 1. Note we assume a or phantom load in between 31 % with Fs=28MHz on RTLSDR (14 MHz Nyquist freq). Rs=50, Rl=50, Rs/Rl = 1
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H A D | rf_vhf_amp.m | 119 Rs = 50; Rl = real(Zip); 120 [Xs Xp] = z_match(Rs,Rl); 138 …printf(" Rs = %3.1f to Rl = %3.1f ohm matching network Xs = %3.1fj Xp = %3.1fj\n", Rs, Rl, X… 148 …printf(" So for a conjugate match transistor output wants to see:\n Rl = %3.1f Xl … 165 Rs = 50; Rl = real(Zip); 166 [Xs Xp] = z_match(Rl,Rs); 184 …printf(" Rs = %3.1f to Rl = %3.1f ohm matching network Xs = %3.1fj Xp = %3.1fj\n", Rs, Rl, X… 192 Rs = real(Zo); Rl = 50; 193 [Xs Xp] = z_match(Rl,Rs);
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/dports/security/john/john-1.9.0-jumbo-1/src/ |
H A D | x86.S | 328 xorl Rl,Ll; \ 330 xorl Rl,Lh; \ 332 xorl Rl,Ll; \ 335 xorl Rl,Lh; \ 340 xorl Rl,Ll; \ 342 xorl Rl,Lh; \ 344 xorl Rl,Ll; \ 349 xorl Rl,Lh; \ 434 xorl Rl,Ll 532 xorl Rl,Ll [all …]
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H A D | DES_std.c | 688 Rh = Rl = 0; in DES_std_set_block() 695 Rl |= mask[0]; in DES_std_set_block() 715 Rl = DES_DO_SIZE_FIX(Rl); in DES_std_set_block() 724 DES_IV[0] = Rl; in DES_std_set_block() 744 Rl = binary[0]; in DES_std_get_block() 749 Rl = binary[0]; in DES_std_get_block() 755 Rl = DES_UNDO_SIZE_FIX(Rl); in DES_std_get_block() 982 Rl = DES_IV[0]; in crypt_body() 1004 Ll ^= Rl; in crypt_body() 1006 Rl ^= Ll; in crypt_body() [all …]
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/dports/science/PETSc/petsc-3.14.1/src/ksp/ksp/impls/bicg/ |
H A D | bicg.c | 23 Vec X,B,Zl,Zr,Rl,Rr,Pl,Pr; in KSPSolve_BiCG() local 32 Rl = ksp->work[0]; in KSPSolve_BiCG() 47 ierr = VecCopy(Rr,Rl);CHKERRQ(ierr); in KSPSolve_BiCG() 49 ierr = VecConjugate(Rl);CHKERRQ(ierr); in KSPSolve_BiCG() 50 ierr = KSP_PCApplyTranspose(ksp,Rl,Zl);CHKERRQ(ierr); in KSPSolve_BiCG() 51 ierr = VecConjugate(Rl);CHKERRQ(ierr); in KSPSolve_BiCG() 99 ierr = VecAXPY(Rl,ma,Zl);CHKERRQ(ierr); in KSPSolve_BiCG() 102 ierr = VecConjugate(Rl);CHKERRQ(ierr); in KSPSolve_BiCG() 104 ierr = VecConjugate(Rl);CHKERRQ(ierr); in KSPSolve_BiCG() 122 ierr = VecConjugate(Rl);CHKERRQ(ierr); in KSPSolve_BiCG() [all …]
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/dports/math/octave-forge-queueing/queueing/inst/ |
H A D | qncmaba.m | 20 ## @deftypefn {Function File} {[@var{Xl}, @var{Xu}, @var{Rl}, @var{Ru}] =} qncmaba (@var{N}, @var{D… 79 ## @item @var{Rl}(c) 103 function [Xl Xu Rl Ru] = qncmaba( varargin ) 116 Xl = Xu = Rl = Ru = zeros(size(S)); 126 Rl = N ./ Xu .- Z; variable 143 %! [Xl Xu Rl Ru] = qncmaba([0 0], [1 2 3; 1 2 3]); 146 %! assert( all(Rl(:) == 0) ); 153 %! Xl = Xu = Rl = Ru = Xmva = Rmva = zeros(NN,2); 157 %! Xl(n,:) = a; Xu(n,:) = b; Rl(n,:) = c; Ru(n,:) = d; 170 %! plot(1:NN,Rl(:,1), 1:NN,Ru(:,1), 1:NN,Rmva(:,1), ";MVA;", "linewidth", 2); [all …]
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H A D | qncmbsb.m | 20 ## @deftypefn {Function File} {[@var{Xl}, @var{Xu}, @var{Rl}, @var{Ru}] =} qncmbsb (@var{N}, @var{D… 62 ## @item @var{Rl}(c) 75 function [Xl Xu Rl Ru] = qncmbsb( varargin ) 91 Xl = Xu = Rl = Ru = zeros(size(S)); 107 Rl = N ./ Xu; variable 125 %! [Xl Xu Rl Ru] = qncmbsb([0 0], [1 2 3; 1 2 3]); 128 %! assert( all(Rl(:) == 0) ); 135 %! Xl = Xu = Rl = Ru = Xmva = Rmva = zeros(NN,2); 139 %! Xl(n,:) = a; Xu(n,:) = b; Rl(n,:) = c; Ru(n,:) = d; 152 %! plot(1:NN,Rl(:,1), 1:NN,Ru(:,1), 1:NN,Rmva(:,1),";MVA;", "linewidth", 2); [all …]
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H A D | qncmcb.m | 20 ## @deftypefn {Function File} {[@var{Xl}, @var{Xu}, @var{Rl}, @var{Ru}] =} qncmcb (@var{N}, @var{D}) 21 ## @deftypefnx {Function File} {[@var{Xl}, @var{Xu}, @var{Rl}, @var{Ru}] =} qncmcb (@var{N}, @var{S… 59 ## @item @var{Rl}(c) 84 function [Xl Xu Rl Ru] = qncmcb( varargin ) 123 Rl = N ./ Xu; variable 131 %! Xl = Xu = Rl = Ru = Xmva = Rmva = zeros(NN,2); 135 %! Xl(n,:) = a; Xu(n,:) = b; Rl(n,:) = c; Ru(n,:) = d; 148 %! plot(1:NN,Rl(:,1), 1:NN,Ru(:,1), 1:NN,Rmva(:,1), ";MVA;", "linewidth", 2); 152 %! plot(1:NN,Rl(:,2), 1:NN,Ru(:,2), 1:NN,Rmva(:,2), ";MVA;", "linewidth", 2);
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H A D | qncsaba.m | 20 ## @deftypefn {Function File} {[@var{Xl}, @var{Xu}, @var{Rl}, @var{Ru}] =} qncsaba (@var{N}, @var{D… 21 ## @deftypefnx {Function File} {[@var{Xl}, @var{Xu}, @var{Rl}, @var{Ru}] =} qncsaba (@var{N}, @var{… 22 ## @deftypefnx {Function File} {[@var{Xl}, @var{Xu}, @var{Rl}, @var{Ru}] =} qncsaba (@var{N}, @var{… 23 ## @deftypefnx {Function File} {[@var{Xl}, @var{Xu}, @var{Rl}, @var{Ru}] =} qncsaba (@var{N}, @var{… 77 ## @item @var{Rl} 90 function [Xl Xu Rl Ru] = qncsaba( varargin ) #N, S, V, m, Z ) 111 Rl = max( Dtot, N*Dmax - Z ); variable
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H A D | qncsbsb.m | 20 ## @deftypefn {Function File} {[@var{Xl}, @var{Xu}, @var{Rl}, @var{Ru}] =} qncsbsb (@var{N}, @var{D… 21 ## @deftypefnx {Function File} {[@var{Xl}, @var{Xu}, @var{Rl}, @var{Ru}] =} qncsbsb (@var{N}, @var{… 22 ## @deftypefnx {Function File} {[@var{Xl}, @var{Xu}, @var{Rl}, @var{Ru}] =} qncsbsb (@var{N}, @var{… 23 ## @deftypefnx {Function File} {[@var{Xl}, @var{Xu}, @var{Rl}, @var{Ru}] =} qncsbsb (@var{N}, @var{… 67 ## @item @var{Rl} 91 function [Xl Xu Rl Ru] = qncsbsb( varargin ) 110 Rl = max( N*D_max-Z, D_tot+( (N-1)*D_ave )/( 1+Z/D_tot) ); variable
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/dports/textproc/ugrep/ugrep-3.4.0/tests/ |
H A D | gen.sh | 48 $UG -Rl Hello dir1 > out/dir-S.out 49 $UG -Rl -Osh Hello dir1 > out/dir-O.out 50 $UG -Rl -M'#!/bin/sh' Hello dir1 > out/dir-M.out 51 $UG -Rl -tShell,make Hello dir1 > out/dir-t.out 54 $UG -Rl --include='*.sh' Hello dir1 > out/dir--include.out 55 $UG -Rl --exclude='*.sh' Hello dir1 > out/dir--exclude.out 56 $UG -Rl --include-dir='dir1' Hello dir1 > out/dir--include-dir.out 57 $UG -Rl --exclude-dir='dir2' Hello dir1 > out/dir--exclude-dir.out 58 $UG -Rl --include-from='dir1/.gitignore' Hello dir2 > out/dir--include-from.out 59 $UG -Rl --exclude-from='dir1/.gitignore' Hello dir1 > out/dir--exclude-from.out [all …]
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H A D | verify.sh | 115 $UG -Rl Hello dir1 | $DIFF out/dir-S.out || ERR "-Rl H… 117 $UG -Rl -Osh Hello dir1 | $DIFF out/dir-O.out || ERR "-Rl -… 119 $UG -Rl -M'#!/bin/sh' Hello dir1 | $DIFF out/dir-M.out || ERR "-Rl -… 121 $UG -Rl -tShell,make Hello dir1 | $DIFF out/dir-t.out || ERR "-Rl -… 127 $UG -Rl --include='*.sh' Hello dir1 | $DIFF out/dir--include.out || ERR "-Rl -… 129 $UG -Rl --exclude='*.sh' Hello dir1 | $DIFF out/dir--exclude.out || ERR "-Rl -… 131 $UG -Rl --exclude-dir='dir2' Hello dir1 | $DIFF out/dir--exclude-dir.out || ERR "-Rl -… 133 $UG -Rl --include-dir='dir1' Hello dir1 | $DIFF out/dir--include-dir.out || ERR "-Rl -… 135 $UG -Rl --exclude-dir='dir2' Hello dir1 | $DIFF out/dir--exclude-dir.out || ERR "-Rl -… 141 $UG -Rl --ignore-files Hello dir1 | $DIFF out/dir--ignore-files.out || ERR "-Rl -… [all …]
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/dports/biology/py-python-libsbml/python-libsbml-5.19.0/libsbml_source/src/bindings/perl/t/ |
H A D | 05__Model.t | 15 my $Rl = 0; # counter for Rules 309 ok($m->getNumRules(), $Rl); 318 $Rl++; 319 ok($m->getNumRules(), $Rl); 324 ok($m->getRule($Rl), undef); 330 ok($m->getNumRules(), $Rl); 338 ok($m->getNumRules(), $Rl); 343 ok($m->getRule($Rl), undef); 350 #ok($m->getNumRules(), $Rl); 357 #ok($m->getNumRules(), $Rl); [all …]
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H A D | 05__ModelL3.t | 15 my $Rl = 0; # counter for Rules 385 ok($m->getNumRules(), $Rl); 394 $Rl++; 395 ok($m->getNumRules(), $Rl); 400 ok($m->getRule($Rl), undef); 406 ok($m->getNumRules(), $Rl); 414 ok($m->getNumRules(), $Rl); 419 ok($m->getRule($Rl), undef); 426 #ok($m->getNumRules(), $Rl); 433 #ok($m->getNumRules(), $Rl); [all …]
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/dports/biology/libsbml/libsbml-5.19.0/src/bindings/perl/t/ |
H A D | 05__Model.t | 15 my $Rl = 0; # counter for Rules 309 ok($m->getNumRules(), $Rl); 318 $Rl++; 319 ok($m->getNumRules(), $Rl); 324 ok($m->getRule($Rl), undef); 330 ok($m->getNumRules(), $Rl); 338 ok($m->getNumRules(), $Rl); 343 ok($m->getRule($Rl), undef); 350 #ok($m->getNumRules(), $Rl); 357 #ok($m->getNumRules(), $Rl); [all …]
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H A D | 05__ModelL3.t | 15 my $Rl = 0; # counter for Rules 385 ok($m->getNumRules(), $Rl); 394 $Rl++; 395 ok($m->getNumRules(), $Rl); 400 ok($m->getRule($Rl), undef); 406 ok($m->getNumRules(), $Rl); 414 ok($m->getNumRules(), $Rl); 419 ok($m->getRule($Rl), undef); 426 #ok($m->getNumRules(), $Rl); 433 #ok($m->getNumRules(), $Rl); [all …]
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/dports/audio/vo-amrwbenc/vo-amrwbenc-0.1.3/amrwbenc/src/ |
H A D | levinson.c | 109 Word16 Rl[], /* (i) : Rl[M+1] Vector of autocorrelations (lsb) */ in Levinson() argument 130 t1 = ((Rh[1] << 16) + (Rl[1] << 1)); /* R[1] in Q31 */ in Levinson() 132 t0 = Div_32(t2, Rh[0], Rl[0]); /* R[1]/R[0] in Q31 */ in Levinson() 152 t0 = Mpy_32(Rh[0], Rl[0], hi, lo); /* Alpha in Q31 */ in Levinson() 168 t0 = vo_L_add(t0, Mpy_32(Rh[j], Rl[j], Ah[i - j], Al[i - j])); in Levinson() 172 t1 = ((Rh[i] << 16) + (Rl[i] << 1)); in Levinson()
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/dports/graphics/cptutils/cptutils-1.74/src/avlcpt/ |
H A D | avlgrad.c | 187 odb_record_t *Rl, *Rs; in odb_avl() local 198 if ((Rl = odb_class_id_lookup(legid, odb)) == NULL) in odb_avl() 256 if ((n = Rl->n) > 0) in odb_avl() 258 odb_field_t *fs = Rl->fields; in odb_avl() 302 printf("found %i/%zu legend, %i/%zu colour\n", nl, Rl->n, ns, Rs->n); in odb_avl() 315 if ((n = Rl->n) > 0) in odb_avl() 317 odb_field_t* fl = Rl->fields; in odb_avl() 364 fl = Rl->fields + il; in odb_avl()
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/dports/devel/py-iopath/iopath-b49ef53b557b794ad142047905827a6727b91d63/packaging/ |
H A D | build_all_conda.sh | 10 ls -Rl packaging 18 ls -Rl packaging 27 ls -Rl packaging
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/dports/audio/opencore-amr/opencore-amr-0.1.5/opencore/codecs_v2/audio/gsm_amr/amr_nb/enc/src/ |
H A D | levinson.cpp | 570 Word16 Rl[], /* i : Rl[m+1] Vector of autocorrelations (lsb) */ in Levinson() argument 603 t1 += *(Rl + 1) << 1; in Levinson() 606 t0 = Div_32(t2, *Rh, *Rl, pOverflow); /* R[1]/R[0] */ in Levinson() 635 t0 = Mpy_32(*Rh, *Rl, hi, lo, pOverflow); /* Alpha in */ in Levinson() 656 p_Rl = &Rl[1]; in Levinson() 668 t1 = ((Word32) * (Rh + i) << 16) + ((Word32)(*(Rl + i)) << 1); in Levinson()
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/dports/devel/intel-graphics-compiler/intel-graphics-compiler-igc-1.0.9636/IGC/VectorCompiler/lib/BiF/ |
H A D | emulation_divrem.cpp | 68 vector<float, N> y, Qh, Ql, Rh, Rl; in __impl_divrem() local 121 Rl = al - bl * Qh; in __impl_divrem() 124 Rl = Rh + Rl; in __impl_divrem() 125 Ql = y * Rl; in __impl_divrem() 197 vector<float, N> y, Qh, Ql, Rh, Rl; in __impl_udivrem() local 240 Rl = al - bl * Qh; in __impl_udivrem() 243 Rl = Rh + Rl; in __impl_udivrem() 244 Ql = y * Rl; in __impl_udivrem()
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