| /external/chromium_org/third_party/WebKit/Source/core/svg/ |
| SVGFEDistantLightElement.idl | 28 readonly attribute SVGAnimatedNumber elevation;
|
| SVGFELightElement.h | 50 DECLARE_ANIMATED_NUMBER(Elevation, elevation)
|
| SVGFELightElement.cpp | 37 DEFINE_ANIMATED_NUMBER(SVGFELightElement, SVGNames::elevationAttr, Elevation, elevation)
49 REGISTER_LOCAL_ANIMATED_PROPERTY(elevation)
|
| /external/chromium_org/third_party/WebKit/Source/platform/graphics/filters/ |
| DistantLightSource.cpp | 41 float elevation = deg2rad(m_elevation); local
42 paintingData.lightVector.setX(cosf(azimuth) * cosf(elevation));
43 paintingData.lightVector.setY(sinf(azimuth) * cosf(elevation));
44 paintingData.lightVector.setZ(sinf(elevation));
60 bool DistantLightSource::setElevation(float elevation)
62 if (m_elevation == elevation)
64 m_elevation = elevation;
72 ts << "[elevation=\"" << elevation() << "\"]";
|
| DistantLightSource.h | 32 static PassRefPtr<DistantLightSource> create(float azimuth, float elevation)
34 return adoptRef(new DistantLightSource(azimuth, elevation));
38 float elevation() const { return m_elevation; } function in class:WebCore::DistantLightSource
49 DistantLightSource(float azimuth, float elevation)
52 , m_elevation(elevation)
|
| FELighting.cpp | 421 float elevationRad = deg2rad(distantLightSource->elevation());
|
| /external/chromium_org/third_party/WebKit/Source/platform/audio/ |
| HRTFElevation.h | 44 // HRTFElevation contains all of the HRTFKernels (one left ear and one right ear per azimuth angle) for a particular elevation.
49 // Loads and returns an HRTFElevation with the given HRTF database subject name and elevation from browser (or WebKit.framework) resources.
52 // Valid values for elevation are -45 -> +90 in 15 degree increments.
53 static PassOwnPtr<HRTFElevation> createForSubject(const String& subjectName, int elevation, float sampleRate);
82 // Given a specific azimuth and elevation angle, returns the left and right HRTFKernel.
84 // Valid values for elevation are -45 -> +90 in 15 degree increments.
86 static bool calculateKernelsForAzimuthElevation(int azimuth, int elevation, float sampleRate, const String& subjectName,
89 // Given a specific azimuth and elevation angle, returns the left and right HRTFKernel in kernelL and kernelR.
92 static bool calculateSymmetricKernelsForAzimuthElevation(int azimuth, int elevation, float sampleRate, const String& subjectName,
96 HRTFElevation(PassOwnPtr<HRTFKernelList> kernelListL, PassOwnPtr<HRTFKernelList> kernelListR, int elevation, float sampleRate
[all...] |
| EqualPowerPanner.h | 38 virtual void pan(double azimuth, double elevation, const AudioBus* inputBus, AudioBus* outputBuf, size_t framesToProcess);
|
| HRTFElevation.cpp | 99 bool HRTFElevation::calculateSymmetricKernelsForAzimuthElevation(int azimuth, int elevation, float sampleRate, const String& subjectName,
104 bool success = calculateKernelsForAzimuthElevation(azimuth, elevation, sampleRate, subjectName, kernelL1, kernelR1);
113 success = calculateKernelsForAzimuthElevation(symmetricAzimuth, elevation, sampleRate, subjectName, kernelL2, kernelR2);
124 bool HRTFElevation::calculateKernelsForAzimuthElevation(int azimuth, int elevation, float sampleRate, const String& subjectName,
128 // Valid values for elevation are -45 -> +90 in 15 degree increments.
135 bool isElevationGood = elevation >= -45 && elevation <= 90 && (elevation / 15) * 15 == elevation;
140 // Construct the resource name from the subject name, azimuth, and elevation, for example
[all...] |
| Panner.h | 58 virtual void pan(double azimuth, double elevation, const AudioBus* inputBus, AudioBus* outputBus, size_t framesToProcess) = 0;
|
| HRTFDatabase.cpp | 58 for (int elevation = MinElevation; elevation <= MaxElevation; elevation += RawElevationAngleSpacing) {
59 OwnPtr<HRTFElevation> hrtfElevation = HRTFElevation::createForSubject("Composite", elevation, sampleRate);
73 j = i; // for last elevation interpolate with itself
|
| HRTFPanner.cpp | 121 void HRTFPanner::pan(double desiredAzimuth, double elevation, const AudioBus* inputBus, AudioBus* outputBus, size_t framesToProcess)
168 // Initially snap azimuth and elevation values to first values encountered.
171 m_elevation1 = elevation;
175 m_elevation2 = elevation;
183 // Check for azimuth and elevation changes, initiating a cross-fade if needed.
185 if (desiredAzimuthIndex != m_azimuthIndex1 || elevation != m_elevation1) {
189 m_elevation2 = elevation;
193 if (desiredAzimuthIndex != m_azimuthIndex2 || elevation != m_elevation2) {
197 m_elevation1 = elevation;
|
| HRTFPanner.h | 41 virtual void pan(double azimuth, double elevation, const AudioBus* inputBus, AudioBus* outputBus, size_t framesToProcess);
62 // then azimuth and elevation are dynamically changing.
63 // When the azimuth and elevation are not changing, we simply process with one of the two sets.
65 // Whenever the azimuth or elevation changes, a crossfade is initiated to transition
79 // azimuth/elevation for CrossfadeSelection1.
83 // azimuth/elevation for CrossfadeSelection2.
|
| /external/chromium_org/third_party/WebKit/Source/modules/webaudio/ |
| PannerNode.cpp | 116 double elevation; local
117 getAzimuthElevation(&azimuth, &elevation);
118 m_panner->pan(azimuth, elevation, source, destination, framesToProcess);
262 // FIXME: we should cache azimuth and elevation (if possible), so we only re-calculate if a change has been made.
309 // Elevation
310 double elevation = 90.0 - 180.0 * acos(sourceListener.dot(up)) / piDouble; local
311 fixNANs(elevation); // avoid illegal values
313 if (elevation > 90.0)
314 elevation = 180.0 - elevation;
[all...] |
| /external/chromium_org/rlz/win/lib/ |
| process_info.cc | 92 HRESULT GetElevationType(PTOKEN_ELEVATION_TYPE elevation) {
93 if (!elevation)
96 *elevation = TokenElevationTypeDefault;
114 *elevation = elevation_type;
174 TOKEN_ELEVATION_TYPE elevation; local
177 if (SUCCEEDED(GetElevationType(&elevation)) &&
179 has_rights = (elevation == TokenElevationTypeFull) ||
|
| /frameworks/wilhelm/src/itf/ |
| I3DDoppler.c | 43 SLmillidegree azimuth, SLmillidegree elevation, SLmillimeter speed)
50 thiz->mVelocitySpherical.mElevation = elevation;
|
| I3DLocation.c | 43 SLmillidegree azimuth, SLmillidegree elevation, SLmillimeter distance)
48 (-90000 <= elevation) && (elevation <= 90000) &&
55 thiz->mLocationSpherical.mElevation = elevation;
|
| /external/chromium/webkit/glue/ |
| webkitclient_impl.cc | 308 // Extract the azimuth and elevation from the resource name.
310 int elevation = 0; local
312 sscanf(name, "IRC_Composite_C_R0195_T%3d_P%3d", &azimuth, &elevation);
320 // 0 <= elevation <= 90 (or 315 <= elevation <= 345)
323 elevation <= 90 ? elevation / kAngleSpacing :
324 7 + (elevation - 315) / kAngleSpacing;
|
| /external/chromium_org/webkit/child/ |
| webkitplatformsupport_impl.cc | 525 // Extract the azimuth and elevation from the resource name.
527 int elevation = 0; local
529 sscanf(name, "IRC_Composite_C_R0195_T%3d_P%3d", &azimuth, &elevation);
537 // 0 <= elevation <= 90 (or 315 <= elevation <= 345)
540 elevation <= 90 ? elevation / kAngleSpacing :
541 7 + (elevation - 315) / kAngleSpacing;
[all...] |
| /hardware/libhardware/include/hardware/ |
| gps.h | 277 /** Elevation of SV in degrees. */
278 float elevation; member in struct:__anon31104
|
| /frameworks/base/services/jni/ |
| com_android_server_location_GpsLocationProvider.cpp | 473 elev[i] = sGpsSvStatus.sv_list[i].elevation;
|
| /development/ndk/platforms/android-14/include/SLES/ |
| OpenSLES.h | [all...] |
| /development/ndk/platforms/android-9/include/SLES/ |
| OpenSLES.h | [all...] |
| /frameworks/wilhelm/include/SLES/ |
| OpenSLES.h | [all...] |
| /prebuilts/ndk/5/platforms/android-9/arch-arm/usr/include/SLES/ |
| OpenSLES.h | [all...] |
