| /OK3568_Linux_fs/buildroot/dl/qt5location/git/src/3rdparty/mapbox-gl-native/deps/boost/1.65.1/include/boost/geometry/core/ |
| H A D | radian_access.hpp | 59 static inline void set(Geometry& geometry, coordinate_type const& radians) in set()
64 >(radians * math::r2d<coordinate_type>())); in set()
81 static inline void set(Geometry& geometry, coordinate_type const& radians) in set()
83 geometry::set<Dimension>(geometry, radians); in set()
124 static inline void set(Geometry& geometry, coordinate_type const& radians) in set()
129 >(radians * math::r2d<coordinate_type>())); in set()
146 static inline void set(Geometry& geometry, coordinate_type const& radians) in set()
148 geometry::set<Index, Dimension>(geometry, radians); in set()
213 typename fp_coordinate_type<Geometry>::type const& radians) in set_from_radian() argument
216 typename coordinate_system<Geometry>::type>::set(geometry, radians); in set_from_radian()
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| /OK3568_Linux_fs/kernel/include/linux/ |
| H A D | fixp-arith.h | 112 static inline s32 fixp_sin32_rad(u32 radians, u32 twopi) in fixp_sin32_rad() argument
123 degrees = (radians * 360) / twopi; in fixp_sin32_rad()
124 tmp = radians - (degrees * twopi) / 360; in fixp_sin32_rad()
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| /OK3568_Linux_fs/buildroot/dl/qt5location/git/src/positioning/ |
| H A D | qlocationutils_p.h | 219 inline static double radians(double degrees) in radians() function
224 inline static double degrees(double radians) in degrees() argument
226 return qRadiansToDegrees(radians); in degrees()
270 …const qreal metersPerTile = earthMeanCircumference() * std::cos(radians(coordinate.latitude())) / … in metersPerPixel()
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| H A D | qgeopolygon.cpp | 153 qreal latRad = QLocationUtils::radians(center.latitude()); in calculatePeripheralPoints()
154 qreal lonRad = QLocationUtils::radians(centerLon); in calculatePeripheralPoints()
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| H A D | qgeocircle.cpp | 315 std::cos(QLocationUtils::radians(m_center.latitude())) in updateBoundingBox()
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| H A D | qdoublematrix4x4.cpp | 782 double radians = qDegreesToRadians(verticalAngle / 2.0); in perspective() local
783 double sine = std::sin(radians); in perspective()
786 double cotan = std::cos(radians) / sine; in perspective()
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| /OK3568_Linux_fs/buildroot/dl/qt5location/git/src/location/declarativemaps/ |
| H A D | qdeclarativecirclemapitem.cpp | 698 qreal latRad = QLocationUtils::radians(center.latitude()); in calculatePeripheralPoints()
699 qreal lonRad = QLocationUtils::radians(centerLon); in calculatePeripheralPoints()
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| H A D | qgeosimplify.cpp | 192 std::cos(QLocationUtils::radians(latitude))) / den; in pixelDistanceAtZoomAndLatitude()
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| /OK3568_Linux_fs/kernel/Documentation/devicetree/bindings/iio/ |
| H A D | mount-matrix.txt | 189 The sensor is mounted 30 degrees (Pi/6 radians) tilted along the X axis, so we
196 The sensor is flipped 180 degrees (Pi radians) around the Z axis, i.e. mounted
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| /OK3568_Linux_fs/buildroot/dl/qt5location/git/src/location/maps/ |
| H A D | qgeoprojection.cpp | 601 m_aperture = tan(QLocationUtils::radians(m_cameraData.fieldOfView()) * 0.5); in setupCamera()
730 maxHalfAperture = tan(QLocationUtils::radians(maxRayElevation)); in setupCamera()
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| H A D | qgeotiledmapscene.cpp | 375 apertureSize = tan(QLocationUtils::radians(m_cameraData.fieldOfView()) * 0.5); in setupCamera()
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| H A D | qgeocameratiles.cpp | 248 apertureSize = tan(QLocationUtils::radians(m_camera.fieldOfView()) * 0.5); in createFrustum()
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| /OK3568_Linux_fs/kernel/Documentation/ABI/testing/ |
| H A D | sysfs-bus-iio | 205 are radians.
227 Units after application of scale and offset are radians per
612 Phase in radians of one frequency/clock output Y
1751 that can be processed to radians.
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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/libc/usr/share/info/ |
| H A D | libc.info-8 | 4626 to all of these functions are in units of radians; recall that pi
4627 radians equals 180 degrees.
4646 These functions return the sine of X, where X is given in radians.
4659 radians. The return value is in the range ‘-1’ to ‘1’.
4671 radians.
4694 in ‘*COSX’, where X is given in radians. Both values, ‘*SINX’ and
4771 sine is X. The value is in units of radians. Mathematically,
4789 cosine is X. The value is in units of radians. Mathematically,
4807 whose tangent is X. The value is in units of radians.
4823 is permitted to be zero. The return value is given in radians and
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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/share/info/ |
| H A D | libc.info-8 | 4626 to all of these functions are in units of radians; recall that pi
4627 radians equals 180 degrees.
4646 These functions return the sine of X, where X is given in radians.
4659 radians. The return value is in the range ‘-1’ to ‘1’.
4671 radians.
4694 in ‘*COSX’, where X is given in radians. Both values, ‘*SINX’ and
4771 sine is X. The value is in units of radians. Mathematically,
4789 cosine is X. The value is in units of radians. Mathematically,
4807 whose tangent is X. The value is in units of radians.
4823 is permitted to be zero. The return value is given in radians and
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| /OK3568_Linux_fs/prebuilts/gcc/linux-x86/arm/gcc-arm-10.3-2021.07-x86_64-arm-none-linux-gnueabihf/share/info/ |
| H A D | gfortran.info | 3968 instead of radians. Here is a summary of the new intrinsics:
3986 convert their arguments (or results) to degrees (or radians) by taking
7571 of the result is in radians and lies in the range 0 \leq \Re
7659 the imaginary part of the result is in radians and lies between 0
8174 of the result is in radians and lies in the range -\pi/2 \leq \Re
8262 complex, the imaginary part of the result is in radians and lies
8378 radians and lies in the range -\pi/2 \leq \Re \atan(x) \leq \pi/2.
8577 imaginary part of the result is in radians and lies between -\pi/2
10613 of the result is in radians. If X is of the type 'REAL', the
10710 imaginary part of the result is in radians. If X is 'REAL', the
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| /OK3568_Linux_fs/prebuilts/gcc/linux-x86/aarch64/gcc-arm-10.3-2021.07-x86_64-aarch64-none-linux-gnu/share/info/ |
| H A D | gfortran.info | 3968 instead of radians. Here is a summary of the new intrinsics:
3986 convert their arguments (or results) to degrees (or radians) by taking
7571 of the result is in radians and lies in the range 0 \leq \Re
7659 the imaginary part of the result is in radians and lies between 0
8174 of the result is in radians and lies in the range -\pi/2 \leq \Re
8262 complex, the imaginary part of the result is in radians and lies
8378 radians and lies in the range -\pi/2 \leq \Re \atan(x) \leq \pi/2.
8577 imaginary part of the result is in radians and lies between -\pi/2
10613 of the result is in radians. If X is of the type 'REAL', the
10710 imaginary part of the result is in radians. If X is 'REAL', the
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