| /OK3568_Linux_fs/buildroot/dl/qt5location/git/src/3rdparty/mapbox-gl-native/deps/boost/1.65.1/include/boost/qvm/ |
| H A D | math.hpp | 24 template <class T> T tan( T );
47 template <> BOOST_QVM_INLINE_TRIVIAL float tan<float>( float x ) { return ::tanf(x); } in tan() function
69 template <> BOOST_QVM_INLINE_TRIVIAL double tan<double>( double x ) { return ::tan(x); } in tan() function
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| /OK3568_Linux_fs/buildroot/dl/qt5location/git/src/3rdparty/mapbox-gl-native/deps/boost/1.65.1/include/boost/geometry/formulas/ |
| H A D | thomas_inverse.hpp | 90 atan(one_minus_f * tan(lat1)); in apply()
93 atan(one_minus_f * tan(lat2)); in apply()
171 CT const tan_d_lambda = tan(d_lambda); in apply()
174 CT const tan_d_lambda_m_p = tan(d_lambda_m_p); in apply()
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| H A D | vertex_latitude.hpp | 84 CT const bet1 = atan( one_minus_f * tan(lat1) ); in apply()
90 return atan( tan(betv) / one_minus_f ); in apply()
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| H A D | area_formulas.hpp | 376 tan(geometry::get_as_radian<1>(p1) / 2.0); in spherical()
378 tan(geometry::get_as_radian<1>(p2) / 2.0); in spherical()
382 * tan((geometry::get_as_radian<0>(p2) in spherical()
439 CT tan_bet1 = tan(get_as_radian<1>(p1)) * one_minus_f; in ellipsoidal()
440 CT tan_bet2 = tan(get_as_radian<1>(p2)) * one_minus_f; in ellipsoidal()
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| H A D | vertex_longitude.hpp | 100 CT const bet1 = atan(one_minus_f * tan(lat1)); in apply()
101 CT const bet2 = atan(one_minus_f * tan(lat2)); in apply()
102 CT const bet3 = atan(one_minus_f * tan(lat3)); in apply()
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| H A D | vincenty_inverse.hpp | 105 CT const tan_U1 = one_min_f * tan(lat1); // above (1) in apply()
106 CT const tan_U2 = one_min_f * tan(lat2); // above (1) in apply()
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| H A D | sjoberg_intersection.hpp | 72 CT const tan_lat_a2 = tan(lat_a2); in apply_alt()
73 CT const tan_lat_b2 = tan(lat_b2); in apply_alt()
321 tan_latj = tan(lat); in sjoberg_geodesic()
873 t = tan(beta); in newton_method()
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| /OK3568_Linux_fs/external/rknpu2/examples/3rdparty/opencv/opencv-linux-aarch64/include/opencv2/core/cuda/ |
| H A D | vec_math.hpp | 292 CV_CUDEV_IMPLEMENT_VEC_UNARY_FUNC(tan, ::tanf, uchar, float)
293 CV_CUDEV_IMPLEMENT_VEC_UNARY_FUNC(tan, ::tanf, char, float)
294 CV_CUDEV_IMPLEMENT_VEC_UNARY_FUNC(tan, ::tanf, ushort, float)
295 CV_CUDEV_IMPLEMENT_VEC_UNARY_FUNC(tan, ::tanf, short, float)
296 CV_CUDEV_IMPLEMENT_VEC_UNARY_FUNC(tan, ::tanf, int, float)
297 CV_CUDEV_IMPLEMENT_VEC_UNARY_FUNC(tan, ::tanf, uint, float)
298 CV_CUDEV_IMPLEMENT_VEC_UNARY_FUNC(tan, ::tanf, float, float)
299 CV_CUDEV_IMPLEMENT_VEC_UNARY_FUNC(tan, ::tan, double, double)
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| /OK3568_Linux_fs/external/rknpu2/examples/3rdparty/opencv/opencv-linux-armhf/include/opencv2/core/cuda/ |
| H A D | vec_math.hpp | 292 CV_CUDEV_IMPLEMENT_VEC_UNARY_FUNC(tan, ::tanf, uchar, float)
293 CV_CUDEV_IMPLEMENT_VEC_UNARY_FUNC(tan, ::tanf, char, float)
294 CV_CUDEV_IMPLEMENT_VEC_UNARY_FUNC(tan, ::tanf, ushort, float)
295 CV_CUDEV_IMPLEMENT_VEC_UNARY_FUNC(tan, ::tanf, short, float)
296 CV_CUDEV_IMPLEMENT_VEC_UNARY_FUNC(tan, ::tanf, int, float)
297 CV_CUDEV_IMPLEMENT_VEC_UNARY_FUNC(tan, ::tanf, uint, float)
298 CV_CUDEV_IMPLEMENT_VEC_UNARY_FUNC(tan, ::tanf, float, float)
299 CV_CUDEV_IMPLEMENT_VEC_UNARY_FUNC(tan, ::tan, double, double)
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| /OK3568_Linux_fs/external/rknpu2/examples/3rdparty/opencv/OpenCV-android-sdk/sdk/native/jni/include/opencv2/core/cuda/ |
| H A D | vec_math.hpp | 292 CV_CUDEV_IMPLEMENT_VEC_UNARY_FUNC(tan, ::tanf, uchar, float)
293 CV_CUDEV_IMPLEMENT_VEC_UNARY_FUNC(tan, ::tanf, char, float)
294 CV_CUDEV_IMPLEMENT_VEC_UNARY_FUNC(tan, ::tanf, ushort, float)
295 CV_CUDEV_IMPLEMENT_VEC_UNARY_FUNC(tan, ::tanf, short, float)
296 CV_CUDEV_IMPLEMENT_VEC_UNARY_FUNC(tan, ::tanf, int, float)
297 CV_CUDEV_IMPLEMENT_VEC_UNARY_FUNC(tan, ::tanf, uint, float)
298 CV_CUDEV_IMPLEMENT_VEC_UNARY_FUNC(tan, ::tanf, float, float)
299 CV_CUDEV_IMPLEMENT_VEC_UNARY_FUNC(tan, ::tan, double, double)
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| /OK3568_Linux_fs/kernel/arch/m68k/fpsp040/ |
| H A D | stan.S | 11 | Output: The value tan(X) returned in floating-point register Fp0.
31 | 4. (k is even) Tan(X) = tan(r) and tan(r) is approximated by a
37 | 4. (k is odd) Tan(X) = -cot(r). Since tan(r) is approximated by a
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| /OK3568_Linux_fs/app/forlinx/flapp/src/keyboard/pinyin/data/ |
| H A D | rawdict_utf16_65105_freq.txt | 3214 罎 0.656974352383 1 tan
3215 暺 0.875034462358 1 tan
3216 榃 0.896000019102 1 tan
3217 顃 1.15534975655 1 tan
3218 婒 1.15534975655 1 tan
3219 舕 1.18598376757 1 tan
3220 鉭 1.1963745545 1 tan
3221 憛 1.21743003707 1 tan
3222 黮 1.2989324918 1 tan
3223 貚 1.31031285898 1 tan
[all …]
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| /OK3568_Linux_fs/buildroot/dl/qt5location/git/src/positioning/ |
| H A D | qwebmercator.cpp | 58 lat = 0.5 - (std::log(std::tan((pi / 4.0) + (pi / 2.0) * lat / 180.0)) / pi) / 2.0; in coordToMercator()
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| /OK3568_Linux_fs/kernel/arch/x86/math-emu/ |
| H A D | README | 186 tan() 495.0 8807.1 394.9 504.7
212 tan() 496.5 3153.3
240 would be 64 bits. The reduced Turbo C accuracy of cos() and tan() for
255 tan(x) 1e-10 .. pi/2-(1e-10) 64.0 (x <= pi/4) 62.1
286 tan(x) 1e-16 .. 9.22e+18 61.8
291 is within about 10e-7 of a multiple of pi. To find the tan (for
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| /OK3568_Linux_fs/yocto/meta-openembedded/meta-oe/recipes-graphics/glm/glm/ |
| H A D | 0001-Silence-clang-warnings.patch | 108 - result = glm::tan(i);
109 + glm::tan(i);
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| /OK3568_Linux_fs/buildroot/dl/qt5location/git/src/3rdparty/mapbox-gl-native/include/mbgl/util/ |
| H A D | projection.hpp | 100 …util::LONGITUDE_MAX - util::RAD2DEG * std::log(std::tan(M_PI / 4 + latitude * M_PI / util::DEGREES… in project_()
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| /OK3568_Linux_fs/external/chromium/licenses/ |
| H A D | LICENSE.93 | 62 by Gaëtan Renaudeau 2014 - 2015 – MIT License
|
| /OK3568_Linux_fs/prebuilts/gcc/linux-x86/arm/gcc-arm-10.3-2021.07-x86_64-arm-none-linux-gnueabihf/arm-none-linux-gnueabihf/include/c++/10.3.1/ |
| H A D | math.h | 45 using std::tan;
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| /OK3568_Linux_fs/prebuilts/gcc/linux-x86/aarch64/gcc-arm-10.3-2021.07-x86_64-aarch64-none-linux-gnu/aarch64-none-linux-gnu/include/c++/10.3.1/ |
| H A D | math.h | 45 using std::tan;
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| /OK3568_Linux_fs/buildroot/dl/qt5location/git/src/3rdparty/mapbox-gl-native/deps/boost/1.65.1/include/boost/math/tools/ |
| H A D | config.hpp | 314 using std::tan;\
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| /OK3568_Linux_fs/buildroot/dl/qt5location/git/tests/auto/declarative_ui/ |
| H A D | tst_map_coordinateanimation.qml | 74 lat = 0.5 - (Math.log(Math.tan((pi / 4.0) + (pi / 2.0) * lat / 180.0)) / pi) / 2.0;
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| /OK3568_Linux_fs/prebuilts/gcc/linux-x86/arm/gcc-arm-10.3-2021.07-x86_64-arm-none-linux-gnueabihf/arm-none-linux-gnueabihf/libc/usr/include/bits/ |
| H A D | mathcalls.h | 66 __MATHCALL (tan,, (_Mdouble_ __x));
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| /OK3568_Linux_fs/prebuilts/gcc/linux-x86/arm/gcc-arm-10.3-2021.07-x86_64-arm-none-linux-gnueabihf/arm-none-linux-gnueabihf/include/c++/10.3.1/tr1/ |
| H A D | math.h | 87 using std::tr1::tan;
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| /OK3568_Linux_fs/buildroot/dl/sox/git/src/ |
| H A D | deemph.plt | 60 B = V0 * tan(OmegaU * T / 2.)
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| /OK3568_Linux_fs/prebuilts/gcc/linux-x86/aarch64/gcc-arm-10.3-2021.07-x86_64-aarch64-none-linux-gnu/aarch64-none-linux-gnu/include/c++/10.3.1/tr1/ |
| H A D | math.h | 87 using std::tr1::tan;
|