| /dports/graphics/ImageMagick6/ImageMagick-6.9.12-34/magick/ |
| H A D | shear.c | 1603 shear; in ShearImage() local
1625 shear.x=(-tan(DegreesToRadians(fmod(x_shear,360.0)))); in ShearImage()
1626 shear.y=tan(DegreesToRadians(fmod(y_shear,360.0))); in ShearImage()
1627 if ((shear.x == 0.0) && (shear.y == 0.0)) in ShearImage()
1676 status=CropToFitImage(&shear_image,shear.x,shear.y,(MagickRealType) in ShearImage()
1740 shear; in ShearRotateImage() local
1773 shear.x=(-tan((double) DegreesToRadians(angle)/2.0)); in ShearRotateImage()
1774 shear.y=sin((double) DegreesToRadians(angle)); in ShearRotateImage()
1775 if ((shear.x == 0.0) && (shear.y == 0.0)) in ShearRotateImage()
1792 shear_width=(size_t) floor(fabs((double) bounds.height*shear.x)+ in ShearRotateImage()
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| /dports/graphics/ImageMagick6-nox11/ImageMagick-6.9.12-34/magick/ |
| H A D | shear.c | 1603 shear; in ShearImage() local
1625 shear.x=(-tan(DegreesToRadians(fmod(x_shear,360.0)))); in ShearImage()
1626 shear.y=tan(DegreesToRadians(fmod(y_shear,360.0))); in ShearImage()
1627 if ((shear.x == 0.0) && (shear.y == 0.0)) in ShearImage()
1676 status=CropToFitImage(&shear_image,shear.x,shear.y,(MagickRealType) in ShearImage()
1740 shear; in ShearRotateImage() local
1773 shear.x=(-tan((double) DegreesToRadians(angle)/2.0)); in ShearRotateImage()
1774 shear.y=sin((double) DegreesToRadians(angle)); in ShearRotateImage()
1775 if ((shear.x == 0.0) && (shear.y == 0.0)) in ShearRotateImage()
1792 shear_width=(size_t) floor(fabs((double) bounds.height*shear.x)+ in ShearRotateImage()
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| /dports/games/quakeforge/quakeforge-0.7.2/libs/video/renderer/ |
| H A D | r_iqm.c | 85 QuatBlend (f1->shear, f2->shear, blend, frame[i].shear); in R_IQMBlendFrames()
104 QuatSet (0, 0, 0, 0, frame[i].shear); in R_IQMBlendFrames()
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| /dports/graphics/alembic/alembic-1.8.3/maya/AbcImport/ |
| H A D | XformHelper.cpp | 140 double shear[3]; in readComplex() local
141 mmat.getShear(shear, tSpace); in readComplex()
142 oSampleList.push_back(shear[0]); in readComplex()
143 oSampleList.push_back(shear[1]); in readComplex()
144 oSampleList.push_back(shear[2]); in readComplex()
582 double shear[3]; in connectToXform() local
583 mmat.getShear(shear, tSpace); in connectToXform()
584 trans.setShear(shear); in connectToXform()
789 double shear[3]; in connectToXform() local
796 shear[0] = op.getChannelValue(4); in connectToXform()
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| /dports/graphics/colmap/colmap-3.6/src/feature/ |
| H A D | types.cc | 65 const float shear) { in FromParameters() argument
67 -scale_y * std::sin(orientation + shear), in FromParameters()
69 scale_y * std::cos(orientation + shear)); in FromParameters()
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| /dports/converters/wkhtmltopdf/qt-5db36ec/tests/benchmarks/gui/painting/qtransform/ |
| H A D | tst_qtransform.cpp | 66 void shear();
159 x["6: shear2,2"] = QTransform().shear(2, 2); in generateTransforms()
160 x["7: shear-2,-2"] = QTransform().shear(-2, -2); in generateTransforms()
169 …x["16: full"] = QTransform().translate(10, 10).rotate(45).shear(2, 2).scale(2, 2).rotate(45, Qt::Y… in generateTransforms()
234 SINGLE_DATA_IMPLEMENTATION(shear) in SINGLE_DATA_IMPLEMENTATION() argument
236 void tst_QTransform::shear() in SINGLE_DATA_IMPLEMENTATION()
241 x.shear(2, 2); in SINGLE_DATA_IMPLEMENTATION()
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| /dports/math/grace/grace-5.1.25/T1lib/t1lib/ |
| H A D | t1trans.c | 407 T1_TMATRIX *T1_ShearHMatrix( T1_TMATRIX *matrix, double shear) in T1_ShearHMatrix() argument
420 matrix->cxx +=shear*matrix->cxy; in T1_ShearHMatrix()
421 matrix->cyx +=shear*matrix->cyy; in T1_ShearHMatrix()
433 T1_TMATRIX *T1_ShearVMatrix( T1_TMATRIX *matrix, double shear) in T1_ShearVMatrix() argument
446 matrix->cxy +=shear*matrix->cxx; in T1_ShearVMatrix()
447 matrix->cyy +=shear*matrix->cyx; in T1_ShearVMatrix()
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| /dports/science/lammps/lammps-stable_29Sep2021/doc/src/ |
| H A D | fix_accelerate_cos.rst | 46 shear viscosity :math:`\eta` by:
66 the calculated shear viscosity is lower than the intrinsic viscosity
67 due to the shear-thinning effect.
69 predict the zero-shear viscosity.
70 As the shear stress decreases, the signal-noise ratio decreases rapidly,
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| /dports/science/lammps/lammps-stable_29Sep2021/examples/PACKAGES/sph/cavity_flow/ |
| H A D | cavity_flow.lmp | 19 # create a driver strip of particles, which exerts shear forces on the fluid
38 pair_coeff 2 3 none # exclude interaction between walls and shear driver
47 # assign a constant velocity to shear driver
51 # do full time integration for shear driver and fluid, but keep walls stationary
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| /dports/science/grib_api/grib_api-1.28.0-Source/definitions/grib2/tables/2/ |
| H A D | 4.2.0.2.table | 17 15 15 Vertical u-component shear (s-1)
18 16 16 Vertical v-component shear (s-1)
27 25 25 Vertical speed shear (s-1)
|
| /dports/science/grib_api/grib_api-1.28.0-Source/definitions/grib2/tables/3/ |
| H A D | 4.2.0.2.table | 17 15 15 Vertical u-component shear (s-1)
18 16 16 Vertical v-component shear (s-1)
27 25 25 Vertical speed shear (s-1)
|
| /dports/science/grib_api/grib_api-1.28.0-Source/definitions/grib2/tables/4/ |
| H A D | 4.2.0.2.table | 17 15 15 Vertical u-component shear (s-1)
18 16 16 Vertical v-component shear (s-1)
27 25 25 Vertical speed shear (s-1)
|
| /dports/science/grib_api/grib_api-1.28.0-Source/definitions/grib2/tables/1/ |
| H A D | 4.2.0.2.table | 17 15 15 Vertical u-component shear (s-1)
18 16 16 Vertical v-component shear (s-1)
27 25 25 Vertical speed shear (s-1)
|
| /dports/science/grib_api/grib_api-1.28.0-Source/definitions/grib2/tables/0/ |
| H A D | 4.2.0.2.table | 17 15 15 Vertical u-component shear (s-1)
18 16 16 Vertical v-component shear (s-1)
27 25 25 Vertical speed shear (s-1)
|
| /dports/science/eccodes/eccodes-2.23.0-Source/definitions/grib2/tables/0/ |
| H A D | 4.2.0.2.table | 16 15 15 Vertical u-component shear (s-1)
17 16 16 Vertical v-component shear (s-1)
26 25 25 Vertical speed shear (s-1)
|
| /dports/science/eccodes/eccodes-2.23.0-Source/definitions/grib2/tables/1/ |
| H A D | 4.2.0.2.table | 16 15 15 Vertical u-component shear (s-1)
17 16 16 Vertical v-component shear (s-1)
26 25 25 Vertical speed shear (s-1)
|
| /dports/science/eccodes/eccodes-2.23.0-Source/definitions/grib2/tables/2/ |
| H A D | 4.2.0.2.table | 17 15 15 Vertical u-component shear (s-1)
18 16 16 Vertical v-component shear (s-1)
27 25 25 Vertical speed shear (s-1)
|
| /dports/science/eccodes/eccodes-2.23.0-Source/definitions/grib2/tables/3/ |
| H A D | 4.2.0.2.table | 17 15 15 Vertical u-component shear (s-1)
18 16 16 Vertical v-component shear (s-1)
27 25 25 Vertical speed shear (s-1)
|
| /dports/science/eccodes/eccodes-2.23.0-Source/definitions/grib2/tables/4/ |
| H A D | 4.2.0.2.table | 17 15 15 Vertical u-component shear (s-1)
18 16 16 Vertical v-component shear (s-1)
27 25 25 Vertical speed shear (s-1)
|
| /dports/science/eccodes/eccodes-2.23.0-Source/definitions/grib3/tables/1/ |
| H A D | 4.2.0.2.table | 17 15 15 Vertical u-component shear (s-1)
18 16 16 Vertical v-component shear (s-1)
27 25 25 Vertical speed shear (s-1)
|
| /dports/science/eccodes/eccodes-2.23.0-Source/definitions/grib3/tables/0/ |
| H A D | 4.2.0.2.table | 17 15 15 Vertical u-component shear (s-1)
18 16 16 Vertical v-component shear (s-1)
27 25 25 Vertical speed shear (s-1)
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| /dports/converters/wkhtmltopdf/qt-5db36ec/tests/benchmarks/gui/image/qpixmap/ |
| H A D | tst_qpixmap.cpp | 187 << QTransform().shear(2, 1) in transformed_data()
190 << QTransform().rotate(199).shear(2, 1) in transformed_data()
199 << QTransform().shear(2, 1) in transformed_data()
202 << QTransform().shear(2, 1) in transformed_data()
205 << QTransform().rotate(199).shear(2, 1) in transformed_data()
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| /dports/astro/py-metpy/MetPy-1.1.0/src/metpy/calc/ |
| H A D | indices.py | 211 shear = wind_5500m - wind_500m
215 shear_cross = concatenate([shear[1], -shear[0]])
216 shear_mag = units.Quantity(np.hypot(*(arg.magnitude for arg in shear)), shear.units)
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| /dports/science/chrono/chrono-7.0.1/doxygen/documentation/module_fea/ |
| H A D | manual_fea_elements.md | 174 - Thin beam (no shear)
189 - Section property: rectangular width-height, E, Poisson ratio, shear correction factors, density
202 - Section property: rectangular width-height, E, Poisson ratio, shear correction factors, density
216 - Thin beam (no shear), based on the Euler-Bernoulli thin beam theory
223 - zs , ys for offset shear center
244 - Thick beam shear effects are possible, v. Timoshenko theory
245 - Reduced integration to correct shear locking
283 - ANS, shear-lock free
310 - ANS-EAS, shear-lock free
340 - Formulated to be shear-lock free
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| /dports/science/grib_api/grib_api-1.28.0-Source/definitions/grib2/tables/5/ |
| H A D | 4.2.0.2.table | 17 15 15 Vertical u-component shear (s-1)
18 16 16 Vertical v-component shear (s-1)
27 25 25 Vertical speed shear (s-1)
|