| /third_party/icu/icu4c/source/i18n/ |
| H A D | astro.h | 208 * with objects below the horizon having a negative altitude.
226 * @param alt The altitude, measured in radians above the horizon.
231 : altitude(alt), azimuth(azim) { } in Horizon()
235 * @param alt The altitude, measured in radians above the horizon.
240 altitude = alt; in set()
252 * The object's altitude above the horizon, in radians.
255 double altitude; member in CalendarAstronomer::Horizon
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| H A D | astro.cpp | 514 double altitude = asin(sinD*sinL + cosD*cosL*cosH); in eclipticToHorizon() local
515 double azimuth = atan2(-cosD*cosL*sinH, sinD - sinL * ::sin(altitude)); in eclipticToHorizon()
517 result.set(azimuth, altitude); in eclipticToHorizon()
1009 // // where h0 is the altitude selected to represent rise/set. For a purely
1507 sprintf(tmp, "[%.5f,%.5f]", altitude*RAD_DEG, azimuth*RAD_DEG); in toString()
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| /third_party/node/deps/icu-small/source/i18n/ |
| H A D | astro.h | 208 * with objects below the horizon having a negative altitude.
226 * @param alt The altitude, measured in radians above the horizon.
231 : altitude(alt), azimuth(azim) { } in Horizon()
235 * @param alt The altitude, measured in radians above the horizon.
240 altitude = alt; in set()
252 * The object's altitude above the horizon, in radians.
255 double altitude; member in CalendarAstronomer::Horizon
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| H A D | astro.cpp | 514 double altitude = asin(sinD*sinL + cosD*cosL*cosH); in eclipticToHorizon() local
515 double azimuth = atan2(-cosD*cosL*sinH, sinD - sinL * ::sin(altitude)); in eclipticToHorizon()
517 result.set(azimuth, altitude); in eclipticToHorizon()
1009 // // where h0 is the altitude selected to represent rise/set. For a purely
1507 snprintf(tmp, sizeof(tmp), "[%.5f,%.5f]", altitude*RAD_DEG, azimuth*RAD_DEG); in toString()
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| /third_party/skia/third_party/externals/icu/source/i18n/ |
| H A D | astro.h | 208 * with objects below the horizon having a negative altitude.
226 * @param alt The altitude, measured in radians above the horizon.
231 : altitude(alt), azimuth(azim) { } in Horizon()
235 * @param alt The altitude, measured in radians above the horizon.
240 altitude = alt; in set()
252 * The object's altitude above the horizon, in radians.
255 double altitude; member in CalendarAstronomer::Horizon
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| H A D | astro.cpp | 514 double altitude = asin(sinD*sinL + cosD*cosL*cosH); in eclipticToHorizon() local
515 double azimuth = atan2(-cosD*cosL*sinH, sinD - sinL * ::sin(altitude)); in eclipticToHorizon()
517 result.set(azimuth, altitude); in eclipticToHorizon()
1009 // // where h0 is the altitude selected to represent rise/set. For a purely
1507 sprintf(tmp, "[%.5f,%.5f]", altitude*RAD_DEG, azimuth*RAD_DEG); in toString()
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| /third_party/icu/icu4j/main/classes/core/src/com/ibm/icu/impl/ |
| H A D | CalendarAstronomer.java | 489 double altitude = Math.asin(sinD*sinL + cosD*cosL*cosH); in eclipticToHorizon()
490 double azimuth = Math.atan2(-cosD*cosL*sinH, sinD - sinL * Math.sin(altitude)); in eclipticToHorizon()
492 return new Horizon(azimuth, altitude); in eclipticToHorizon()
949 // // where h0 is the altitude selected to represent rise/set. For a purely
1610 * with objects below the horizon having a negative altitude.
1627 * @param alt The altitude, measured in radians above the horizon.
1632 altitude = alt; in Horizon()
1643 return Double.toString(altitude*RAD_DEG) + "," + (azimuth*RAD_DEG); in toString()
1647 * The object's altitude above the horizon, in radians.
1650 public final double altitude; field in CalendarAstronomer.Horizon
[all...] |
| /third_party/icu/ohos_icu4j/src/main/java/ohos/global/icu/impl/ |
| H A D | CalendarAstronomer.java | 491 double altitude = Math.asin(sinD*sinL + cosD*cosL*cosH); in eclipticToHorizon()
492 double azimuth = Math.atan2(-cosD*cosL*sinH, sinD - sinL * Math.sin(altitude)); in eclipticToHorizon()
494 return new Horizon(azimuth, altitude); in eclipticToHorizon()
951 // // where h0 is the altitude selected to represent rise/set. For a purely
1614 * with objects below the horizon having a negative altitude.
1632 * @param alt The altitude, measured in radians above the horizon.
1637 altitude = alt; in Horizon()
1648 return Double.toString(altitude*RAD_DEG) + "," + (azimuth*RAD_DEG); in toString()
1652 * The object's altitude above the horizon, in radians.
1655 public final double altitude; field in CalendarAstronomer.Horizon
[all...] |
| /third_party/skia/third_party/externals/piex/src/ |
| H A D | piex_types.h | 74 Rational altitude; member
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| H A D | tiff_parser.cc | 119 &preview_image_data->gps.altitude)) { in FillGpsPreviewImageData()
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| /third_party/skia/third_party/externals/dng_sdk/source/ |
| H A D | dng_xmp.cpp | 3645 // Handle simple case of incorrectly written GPS altitude where someone didn't understand the GPSAltitudeRef and assumed the GPSAltitude RATIONAL is signed. in SyncExif()
3649 dng_urational &altitude = exif.fGPSAltitude; in SyncExif() local
3651 if (altitude.IsValid () && in SyncExif()
3655 if ((altitude.n & (1U << 31)) && in SyncExif()
3656 altitude.d < 7) // As the denominator increases, large numerator values become possibly valid distances. Pick a limit on the conservative side (approx 33e6m) to prevent misinterpretation. in SyncExif()
3660 altitude.n = ~altitude.n + 1; in SyncExif()
3679 altitude, in SyncExif()
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| /third_party/ffmpeg/libavformat/ |
| H A D | movenc.c | 4166 double latitude, longitude, altitude; local
4188 altitude = strtod(ptr, &end);
4189 /* If no altitude was present, the default 0 should be fine */
4195 altitude_fix = (int32_t) ((1 << 16) * altitude);
4223 float latitude, longitude, altitude; local
4244 altitude = strtof(ptr, &end);
4248 altitudex10000 = (int32_t) (10000 * altitude);
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| H A D | mov.c | 240 double longitude, latitude, altitude; in mov_metadata_loci() local
268 altitude = ((int32_t) avio_rb32(pb)) / (float) (1 << 16); in mov_metadata_loci()
272 if (altitude) in mov_metadata_loci()
273 av_strlcatf(buf, sizeof(buf), "%+f", altitude); in mov_metadata_loci()
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| /third_party/skia/third_party/externals/sfntly/java/lib/ |
| H A D | icu4j-4_8_1_1.jar | ... Horizon extends java.lang.Object {
public final double altitude
public final double azimuth
public void <init> (double, double)
double ... |