/external/webkit/Source/WebCore/platform/graphics/filters/ |
DistantLightSource.h | 33 static PassRefPtr<DistantLightSource> create(float azimuth, float elevation) 35 return adoptRef(new DistantLightSource(azimuth, elevation)); 38 float azimuth() const { return m_azimuth; } function in class:WebCore::DistantLightSource 49 DistantLightSource(float azimuth, float elevation) 51 , m_azimuth(azimuth)
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DistantLightSource.cpp | 42 float azimuth = deg2rad(m_azimuth); local 44 paintingData.lightVector.setX(cosf(azimuth) * cosf(elevation)); 45 paintingData.lightVector.setY(sinf(azimuth) * cosf(elevation)); 54 bool DistantLightSource::setAzimuth(float azimuth) 56 if (m_azimuth == azimuth) 58 m_azimuth = azimuth; 73 ts << "[azimuth=\"" << azimuth() << "\"]";
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LightSource.cpp | 37 bool LightSource::setAzimuth(float azimuth) 40 return static_cast<DistantLightSource*>(this)->setAzimuth(azimuth);
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/external/webkit/Source/WebCore/svg/ |
SVGFEDistantLightElement.idl | 29 readonly attribute SVGAnimatedNumber azimuth;
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SVGFEDistantLightElement.cpp | 41 return DistantLightSource::create(azimuth(), elevation());
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SVGFELightElement.h | 50 DECLARE_ANIMATED_NUMBER(Azimuth, azimuth)
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/external/webkit/Source/WebCore/platform/audio/ |
HRTFPanner.h | 40 virtual void pan(double azimuth, double elevation, AudioBus* inputBus, AudioBus* outputBus, size_t framesToProcess); 49 // Given an azimuth angle in the range -180 -> +180, returns the corresponding azimuth index for the database, 51 int calculateDesiredAzimuthIndexAndBlend(double azimuth, double& azimuthBlend); 55 // m_isFirstRender and m_azimuthIndex are used to avoid harshly changing from rendering at one azimuth angle to another angle very far away. 56 // Changing the azimuth gradually produces a smoother sound.
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EqualPowerPanner.cpp | 49 void EqualPowerPanner::pan(double azimuth, double /*elevation*/, AudioBus* inputBus, AudioBus* outputBus, size_t framesToProcess) 70 // Pan smoothly from left to right with azimuth going from -30 -> +30 degrees. 72 if (azimuth > 30.0) 74 else if (azimuth < -30.0) 77 desiredPanPosition = (azimuth + 30.0) / 60.0;
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EqualPowerPanner.h | 38 virtual void pan(double azimuth, double elevation, AudioBus* inputBus, AudioBus* outputBuf, size_t framesToProcess);
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HRTFPanner.cpp | 89 int HRTFPanner::calculateDesiredAzimuthIndexAndBlend(double azimuth, double& azimuthBlend) 91 // Convert the azimuth angle from the range -180 -> +180 into the range 0 -> 360. 92 // The azimuth index may then be calculated from this positive value. 93 if (azimuth < 0) 94 azimuth += 360.0; 102 // Calculate the azimuth index and the blend (0 -> 1) for interpolation. 103 double desiredAzimuthIndexFloat = azimuth / angleBetweenAzimuths; 107 // We don't immediately start using this azimuth index, but instead approach this index from the last index we rendered at. 138 // IRCAM HRTF azimuths values from the loaded database is reversed from the panner's notion of azimuth. 139 double azimuth = -desiredAzimuth local [all...] |
Panner.h | 56 virtual void pan(double azimuth, double elevation, AudioBus* inputBus, AudioBus* outputBus, size_t framesToProcess) = 0;
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HRTFElevation.cpp | 53 // Takes advantage of the symmetry and creates a composite version of the two measured versions. For example, we have both azimuth 30 and -30 degrees 55 bool HRTFElevation::calculateSymmetricKernelsForAzimuthElevation(int azimuth, int elevation, double sampleRate, const String& subjectName, 60 bool success = calculateKernelsForAzimuthElevation(azimuth, elevation, sampleRate, subjectName, kernelL1, kernelR1); 65 int symmetricAzimuth = !azimuth ? 0 : 360 - azimuth; 80 bool HRTFElevation::calculateKernelsForAzimuthElevation(int azimuth, int elevation, double sampleRate, const String& subjectName, 83 // Valid values for azimuth are 0 -> 345 in 15 degree increments. 86 bool isAzimuthGood = azimuth >= 0 && azimuth <= 345 && (azimuth / 15) * 15 == azimuth [all...] |
HRTFElevation.h | 44 // HRTFElevation contains all of the HRTFKernels (one left ear and one right ear per azimuth angle) for a particular elevation. 66 // Returns the left and right kernels for the given azimuth index. 70 // Spacing, in degrees, between every azimuth loaded from resource. 76 // Interpolates by this factor to get the total number of azimuths from every azimuth loaded from resource. 82 // Given a specific azimuth and elevation angle, returns the left and right HRTFKernel. 83 // Valid values for azimuth are 0 -> 345 in 15 degree increments. 86 static bool calculateKernelsForAzimuthElevation(int azimuth, int elevation, double sampleRate, const String& subjectName, 89 // Given a specific azimuth and elevation angle, returns the left and right HRTFKernel in kernelL and kernelR. 90 // This method averages the measured response using symmetry of azimuth (for example by averaging the -30.0 and +30.0 azimuth responses) [all...] |
/external/webkit/Source/WebCore/webaudio/ |
AudioPannerNode.cpp | 106 double azimuth; local 108 getAzimuthElevation(&azimuth, &elevation); 109 m_panner->pan(azimuth, elevation, source, destination, framesToProcess); 163 // FIXME: we should cache azimuth and elevation (if possible), so we only re-calculate if a change has been made. 165 double azimuth = 0.0; local 196 azimuth = 180.0 * acos(projectedSource.dot(listenerRight)) / piDouble; 197 fixNANs(azimuth); // avoid illegal values 202 azimuth = 360.0 - azimuth; 204 // Make azimuth relative to "front" and not "right" listener vecto [all...] |
/external/icu4c/i18n/ |
astro.h | 207 * The <i>Azimuth</i> is the geographic direction of the object from the 208 * observer's position, with 0 representing north. The azimuth increases 225 * @param azim The azimuth, measured in radians clockwise from north. 229 : altitude(alt), azimuth(azim) { } 234 * @param azim The azimuth, measured in radians clockwise from north. 239 azimuth = azim; 259 double azimuth; member in class:CalendarAstronomer::Horizon
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/frameworks/wilhelm/src/itf/ |
I3DDoppler.c | 43 SLmillidegree azimuth, SLmillidegree elevation, SLmillimeter speed) 49 thiz->mVelocitySpherical.mAzimuth = azimuth;
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I3DLocation.c | 43 SLmillidegree azimuth, SLmillidegree elevation, SLmillimeter distance) 47 if (!((-360000 <= azimuth) && (azimuth <= 360000) && 54 thiz->mLocationSpherical.mAzimuth = azimuth;
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/hardware/ti/omap4xxx/camera/ |
SensorListener.cpp | 50 float x = sen_events[i].vector.azimuth; 57 CAMHAL_LOGVB(" azimuth = %f pitch = %f roll = %f", 58 sen_events[i].vector.azimuth,
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/development/ndk/platforms/android-9/include/android/ |
sensor.h | 100 float azimuth; member in struct:ASensorVector::__anon1417::__anon1419
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/frameworks/base/services/sensorservice/ |
OrientationSensor.cpp | 53 outEvent->orientation.azimuth = g.x;
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/frameworks/native/include/android/ |
sensor.h | 100 float azimuth; member in struct:ASensorVector::__anon17200::__anon17202
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/hardware/libhardware/include/hardware/ |
sensors.h | 129 * azimuth: angle between the magnetic north direction and the Y axis, around 130 * the Z axis (0<=azimuth<360). 315 float azimuth; member in struct:__anon17827::__anon17828::__anon17830
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/prebuilts/gcc/darwin-x86/mips/mipsel-linux-android-4.4.3/sysroot/usr/include/android/ |
sensor.h | 100 float azimuth; member in struct:ASensorVector::__anon20810::__anon20812
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/prebuilts/gcc/linux-x86/mips/mipsel-linux-android-4.4.3/sysroot/usr/include/android/ |
sensor.h | 100 float azimuth; member in struct:ASensorVector::__anon26863::__anon26865
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/prebuilts/ndk/android-ndk-r5/platforms/android-9/arch-arm/usr/include/android/ |
sensor.h | 100 float azimuth; member in struct:ASensorVector::__anon29961::__anon29963
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