| /dports/math/mfem/mfem-4.3/fem/ceed/ |
| H A D | diffusion_qf.h | 46 const CeedScalar J12 = J[i + Q * 2]; in CEED_QFUNCTION() local
49 qd[i + Q * 0] = coeff * w * (J12 * J12 + J22 * J22); in CEED_QFUNCTION()
63 const CeedScalar J12 = J[i + Q * 3]; in CEED_QFUNCTION() local
121 const CeedScalar J12 = J[i + Q * 2]; in CEED_QFUNCTION() local
124 qd[i + Q * 0] = coeff * w * (J12 * J12 + J22 * J22); in CEED_QFUNCTION()
139 const CeedScalar J12 = J[i + Q * 3]; in CEED_QFUNCTION() local
277 const CeedScalar J12 = J[i + Q * 2]; in CEED_QFUNCTION() local
281 qd[0] = coeff * w * (J12 * J12 + J22 * J22); in CEED_QFUNCTION()
301 qd[0] = coeff * w * (J12 * J12 + J22 * J22); in CEED_QFUNCTION()
433 qd[0] = coeff * w * (J12 * J12 + J22 * J22); in CEED_QFUNCTION()
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| H A D | convection_qf.h | 51 const CeedScalar J12 = J[i + Q * 2]; in CEED_QFUNCTION() local
56 qd[i + Q * 0] = wx * J22 - wy * J12; in CEED_QFUNCTION()
69 const CeedScalar J12 = J[i + Q * 3]; in CEED_QFUNCTION() local
127 const CeedScalar J12 = J[i + Q * 2]; in CEED_QFUNCTION() local
132 qd[i + Q * 0] = wx * J22 - wy * J12; in CEED_QFUNCTION()
145 const CeedScalar J12 = J[i + Q * 3]; in CEED_QFUNCTION() local
272 const CeedScalar J12 = J[i + Q * 2]; in CEED_QFUNCTION() local
291 const CeedScalar J12 = J[i + Q * 2]; in CEED_QFUNCTION() local
315 const CeedScalar J12 = J[i + Q * 3]; in CEED_QFUNCTION() local
352 const CeedScalar J12 = J[i + Q * 3]; in CEED_QFUNCTION() local
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| H A D | nlconvection_qf.h | 44 const CeedScalar J12 = J[i + Q * 2]; in CEED_QFUNCTION() local
49 qd[i + Q * 2] = -w * J12; in CEED_QFUNCTION()
62 const CeedScalar J12 = J[i + Q * 3]; in CEED_QFUNCTION() local
122 const CeedScalar J12 = J[i + Q * 2]; in CEED_QFUNCTION() local
128 qd[i + Q * 2] = -w * J12; in CEED_QFUNCTION()
141 const CeedScalar J12 = J[i + Q * 3]; in CEED_QFUNCTION() local
283 const CeedScalar J12 = J[i + Q * 2]; in CEED_QFUNCTION() local
288 const CeedScalar qd01 = -w * J12; in CEED_QFUNCTION()
313 const CeedScalar J12 = J[i + Q * 3]; in CEED_QFUNCTION() local
396 const CeedScalar J12 = J[i + Q * 2]; in CEED_QFUNCTION() local
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| /dports/science/code_saturne/code_saturne-7.1.0/data/thch/ |
| H A D | JANAF | 19 CCL J12/69C 1.CL 1.0 0.0 0.G 300.000 5000.000
23 CCL2 J12/68C 1.CL 2.0 0.0 0.G 300.000 5000.000
39 CCL4 J12/68C 1.CL 4.0 0.0 0.G 300.000 5000.000
47 CF+ J12/70C 1.F 1.E -1.0 0.G 300.000 5000.000
55 CF2+ J12/70C 1.F 2.E -1.0 0.G 300.000 5000.000
63 CF3+ J12/71C 1.F 3.E -1. 0.G 300.000 5000.000
71 CH J12/67C 1.H 1.0 0.0 0.G 300.000 5000.000
75 CH+ J12/71C 1.H 1.E -1. 0.G 300.000 5000.000
79 CH2 J12/72C 1.H 2. 0. 0.G 300.000 5000.000
103 CN+ J12/70C 1.N 1.E -1.0 0.G 300.000 5000.000
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| /dports/math/reduce/Reduce-svn5758-src/packages/occal/ |
| H A D | robot.dsc | 35 J12 := m2 * a2 * l1 + M * l1 * l2;
37 det := J11 * J22 - J12^2*cos(alpha)^2;
38 v1 := J12 * sin(alpha)* omega2^2 + U1 - U2;
39 v2 := - J12 * sin(alpha)* omega1^2 + U2;
51 omega1 1/det*(-J22 * v1 + cos(alpha) * J12 * v2);
52 omega2 1/det*(-J11 * v2 + cos(alpha) * J12 * v1);
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| /dports/science/cantera/cantera-2.5.1-611-gc4d6ecc15/data/inputs/ |
| H A D | nasa_condensed.cti | 155 # note = "J12/79"
168 # note = "J12/79"
181 # note = "J12/79"
311 # note = "J12/74"
324 # note = "J12/74"
337 # note = "J12/72"
350 # note = "J12/72"
363 # note = "J12/72"
376 # note = "J12/72"
389 # note = "J12/72"
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| H A D | nasa.cti | 416 # note = "J12/79"
429 # note = "J12/79"
442 # note = "J12/79"
455 # note = "J12/79"
481 # note = "J12/75"
494 # note = "J12/67"
507 # note = "J12/67"
520 # note = "J12/67"
533 # note = "J12/79"
546 # note = "J12/79"
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| H A D | nasa_gas.cti | 416 # note = "J12/79"
429 # note = "J12/79"
442 # note = "J12/79"
455 # note = "J12/79"
481 # note = "J12/75"
494 # note = "J12/67"
507 # note = "J12/67"
520 # note = "J12/67"
533 # note = "J12/79"
546 # note = "J12/79"
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| /dports/graphics/opencv/opencv-4.5.3/samples/cpp/tutorial_code/ImgProc/anisotropic_image_segmentation/ |
| H A D | anisotropic_image_segmentation.cpp | 77 Mat J11, J22, J12; // J11, J22 and J12 are GST components in calcGST() local
80 boxFilter(imgDiffXY, J12, CV_32F, Size(w, w)); in calcGST()
90 multiply(J12, J12, tmp3); in calcGST()
109 phase(J22 - J11, 2.0*J12, imgOrientationOut, true); in calcGST()
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| /dports/graphics/opencv/opencv-4.5.3/samples/python/tutorial_code/imgProc/anisotropic_image_segmentation/ |
| H A D | anisotropic_image_segmentation.py | 30 J12 = cv.boxFilter(imgDiffXY, cv.CV_32F, (w,w))
39 tmp3 = cv.multiply(J12, J12)
55 imgOrientationOut = cv.phase(J22 - J11, 2.0 * J12, angleInDegrees = True)
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| /dports/graphics/opencv/opencv-4.5.3/samples/cpp/tutorial_code/gapi/porting_anisotropic_image_segmentation/ |
| H A D | porting_anisotropic_image_segmentation_gapi.cpp | 83 auto J12 = cv::gapi::boxFilter(imgDiffXY, CV_32F, cv::Size(w, w)); in calcGST() local
88 auto tmp3 = cv::gapi::mul(J12, J12); in calcGST()
95 imgOrientationOut = 0.5*cv::gapi::phase(J22 - J11, 2.0*J12, true); in calcGST()
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| H A D | porting_anisotropic_image_segmentation_gapi_fluid.cpp | 103 auto J12 = cv::gapi::boxFilter(imgDiffXY, CV_32F, cv::Size(w, w)); in calcGST() local
108 auto tmp3 = cv::gapi::mul(J12, J12); in calcGST()
115 imgOrientationOut = 0.5*cv::gapi::phase(J22 - J11, 2.0*J12, true); in calcGST()
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| /dports/math/mfem/mfem-4.3/fem/ |
| H A D | tbilininteg.hpp | 338 const real_t J12 = F.Jt(i,1,0,k); in Action() local
341 const complex_t w_det_J = Q.get(q,i,k) / (J11 * J22 - J21 * J12); in Action()
348 const complex_t z2 = J11 * x2 - J12 * x1; in Action()
349 R.grad_qpts(i,0,j,k) = w_det_J * (J22 * z1 - J12 * z2); in Action()
381 const real_t J12 = F.Jt(i,1,0,k); in Assemble() local
384 const complex_t w_det_J = Q.get(q,i,k) / (J11 * J22 - J21 * J12); in Assemble()
387 + w_det_J * (J12*J12 + J22*J22), // (1,1) in Assemble()
388 - w_det_J * (J11*J12 + J21*J22), // (2,1) in Assemble()
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| H A D | bilininteg_vecdiffusion.cpp | 49 const double J12 = J(q,0,1,e); in PAVectorDiffusionSetup2D()
54 y(q,0,e) = c_detJ * (J12*J12 + J22*J22); // 1,1 in PAVectorDiffusionSetup2D()
55 y(q,1,e) = -c_detJ * (J12*J11 + J22*J21); // 1,2 in PAVectorDiffusionSetup2D()
86 const double J12 = J(q,0,1,e); in PAVectorDiffusionSetup3D()
94 /* */ J31 * (J12 * J23 - J22 * J13); in PAVectorDiffusionSetup3D()
101 const double A12 = (J32 * J13) - (J12 * J33); in PAVectorDiffusionSetup3D()
102 const double A13 = (J12 * J23) - (J22 * J13); in PAVectorDiffusionSetup3D()
107 const double A32 = (J31 * J12) - (J11 * J32); in PAVectorDiffusionSetup3D()
108 const double A33 = (J11 * J22) - (J12 * J21); in PAVectorDiffusionSetup3D()
232 const double J12 = J(q,0,1,e); in AssemblePA()
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| H A D | bilininteg_vectorfe.cpp | 211 const double J12 = J(qx,qy,qz,0,1,e); in PAHcurlHdivSetup3D()
219 /* */ J31 * (J12 * J23 - J22 * J13); in PAHcurlHdivSetup3D()
223 const double A12 = (J32 * J13) - (J12 * J33); in PAHcurlHdivSetup3D()
224 const double A13 = (J12 * J23) - (J22 * J13); in PAHcurlHdivSetup3D()
229 const double A32 = (J31 * J12) - (J11 * J32); in PAHcurlHdivSetup3D()
230 const double A33 = (J11 * J22) - (J12 * J21); in PAHcurlHdivSetup3D()
245 const double R11 = M11*J11 + M12*J12 + M13*J13; in PAHcurlHdivSetup3D()
319 const double J12 = J(qx,qy,0,1,e); in PAHcurlHdivSetup2D()
332 const double R12 = M11*J12 + M12*J22; in PAHcurlHdivSetup2D()
334 const double R22 = M21*J12 + M22*J22; in PAHcurlHdivSetup2D()
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| /dports/games/gnugo/gnugo-3.8/regression/ |
| H A D | nicklas4.tst | 16 # Changed correct answer from K12 to J12. /gf
18 # point worse than J12. K12 loses the tail.
21 #? [J12]
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| H A D | STS-RV_1.tst | 575 171 analyze_semeai J12 K12
578 172 analyze_semeai K12 J12
610 181 analyze_semeai J12 K12
613 182 analyze_semeai K12 J12
643 191 analyze_semeai J12 J13
646 192 analyze_semeai J13 J12
675 201 analyze_semeai J12 K12
678 202 analyze_semeai K12 J12
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| /dports/science/py-pygeodesy/PyGeodesy-21.9.16/pygeodesy/geodesicx/ |
| H A D | gxline.py | 376 J12 = self._D0_k2 * fsum_(eF.deltaD(ssig2, csig2, dn2), -self._D1, sig12)
379 J12=J12, ssig1=ssig1, csig1=csig1, b=gX.b)
385 -J12 * (csig1 * csig2)))
388 r.set_(M12=csig12 + (t * ssig2 - csig2 * J12) * ssig1 / dn1,
389 M21=csig12 - (t * ssig1 - csig1 * J12) * ssig2 / dn2)
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| /dports/astro/geographiclib/GeographicLib-1.52/src/ |
| H A D | GeodesicLineExact.cpp | 221 real J12 = _k2 * _D0 * (sig12 + (_E.deltaD(ssig2, csig2, dn2) - _D1)); in GenPosition() local
226 - _csig1 * csig2 * J12); in GenPosition()
229 M12 = csig12 + (t * ssig2 - csig2 * J12) * _ssig1 / _dn1; in GenPosition()
230 M21 = csig12 - (t * _ssig1 - _csig1 * J12) * ssig2 / dn2; in GenPosition()
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| H A D | GeodesicLine.cpp | 253 J12 = (_A1m1 - _A2m1) * sig12 + (AB1 - AB2); in GenPosition() local
258 - _csig1 * csig2 * J12); in GenPosition()
261 M12 = csig12 + (t * ssig2 - csig2 * J12) * _ssig1 / _dn1; in GenPosition()
262 M21 = csig12 - (t * _ssig1 - _csig1 * J12) * ssig2 / dn2; in GenPosition()
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| /dports/devel/boost-docs/boost_1_72_0/boost/geometry/formulas/ |
| H A D | karney_direct.hpp | 237 CT const J12 = (expansion_A1 - expansion_A2) * sigma12 + (AB1 - AB2); in apply() local
245 cos_sigma1 * cos_sigma2 * J12); in apply()
252 (t * sin_sigma2 - cos_sigma2 * J12) * in apply()
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| /dports/devel/boost-libs/boost_1_72_0/boost/geometry/formulas/ |
| H A D | karney_direct.hpp | 237 CT const J12 = (expansion_A1 - expansion_A2) * sigma12 + (AB1 - AB2); in apply() local
245 cos_sigma1 * cos_sigma2 * J12); in apply()
252 (t * sin_sigma2 - cos_sigma2 * J12) * in apply()
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| /dports/devel/boost-python-libs/boost_1_72_0/boost/geometry/formulas/ |
| H A D | karney_direct.hpp | 237 CT const J12 = (expansion_A1 - expansion_A2) * sigma12 + (AB1 - AB2); in apply() local
245 cos_sigma1 * cos_sigma2 * J12); in apply()
252 (t * sin_sigma2 - cos_sigma2 * J12) * in apply()
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| /dports/cad/gmsh/gmsh-4.9.2-source/Numeric/ |
| H A D | CondNumBasis.cpp | 75 inline double calcInvCondNum3D(double J11, double J12, double J13, double J21, in calcInvCondNum3D() argument
79 const double D = calcDet3x3(J11, J12, J13, J21, J22, J23, J31, J32, J33); in calcInvCondNum3D()
81 const double I11 = J22 * J33 - J23 * J32, I12 = J13 * J32 - J12 * J33, in calcInvCondNum3D()
82 I13 = J12 * J23 - J13 * J22, I21 = J23 * J31 - J21 * J33, in calcInvCondNum3D()
84 I31 = J21 * J32 - J22 * J31, I32 = J12 * J31 - J11 * J32, in calcInvCondNum3D()
85 I33 = J11 * J22 - J12 * J21; in calcInvCondNum3D()
86 const double nSqJ = J11 * J11 + J12 * J12 + J13 * J13 + J21 * J21 + in calcInvCondNum3D()
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| /dports/devel/hyperscan/boost_1_75_0/boost/geometry/formulas/ |
| H A D | karney_direct.hpp | 244 CT const J12 = (expansion_A1 - expansion_A2) * sigma12 + (AB1 - AB2); in apply() local
252 cos_sigma1 * cos_sigma2 * J12); in apply()
259 (t * sin_sigma2 - cos_sigma2 * J12) * in apply()
|