| /frameworks/base/services/java/com/android/server/ |
| D | TwilightCalculator.java | 78 final float trueAnomaly = meanAnomaly + C1 * FloatMath.sin(meanAnomaly) + C2 in calculateTwilight()
79 * FloatMath.sin(2 * meanAnomaly) + C3 * FloatMath.sin(3 * meanAnomaly); in calculateTwilight()
87 double solarTransitJ2000 = n + J0 + arcLongitude + 0.0053f * FloatMath.sin(meanAnomaly) in calculateTwilight()
88 + -0.0069f * FloatMath.sin(2 * solarLng); in calculateTwilight()
91 double solarDec = Math.asin(FloatMath.sin(solarLng) * FloatMath.sin(OBLIQUITY)); in calculateTwilight()
95 double cosHourAngle = (FloatMath.sin(ALTIDUTE_CORRECTION_CIVIL_TWILIGHT) - Math.sin(latRad) in calculateTwilight()
96 * Math.sin(solarDec)) / (Math.cos(latRad) * Math.cos(solarDec)); in calculateTwilight()
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| /frameworks/opt/net/voip/src/jni/rtp/ |
| D | util.cpp | 42 sockaddr_in *sin = (sockaddr_in *)ss; in parse() local
43 if (inet_pton(AF_INET, address, &(sin->sin_addr)) > 0) { in parse()
44 sin->sin_family = AF_INET; in parse()
45 sin->sin_port = htons(port); in parse()
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| /frameworks/base/core/java/android/hardware/ |
| D | GeomagneticField.java | 175 sinMLon[1] = (float) Math.sin(mGcLongitudeRad); in GeomagneticField()
235 + gcZ * Math.sin(latDiffRad)); in GeomagneticField()
237 mZ = (float) (- gcX * Math.sin(latDiffRad) in GeomagneticField()
312 float slat = (float) Math.sin(gdLatRad); in computeGeocentricCoordinates()
357 float sin = (float) Math.sin(thetaRad); in LegendreTable() local
368 mP[n][m] = sin * mP[n - 1][m - 1]; in LegendreTable()
370 + sin * mPDeriv[n - 1][m - 1]; in LegendreTable()
373 mPDeriv[n][m] = -sin * mP[n - 1][m] in LegendreTable()
380 mPDeriv[n][m] = -sin * mP[n - 1][m] in LegendreTable()
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| /frameworks/base/tests/RenderScriptTests/PerfTest/res/raw/ |
| D | shader2movev.glsl | 9 objPos.xyz += 0.1*sin(objPos.xyz*2.0 + UNI_time);
10 objPos.xyz += 0.05*sin(objPos.xyz*4.0 + UNI_time*0.5);
11 objPos.xyz += 0.02*sin(objPos.xyz*7.0 + UNI_time*0.75);
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| /frameworks/base/tests/RenderScriptTests/MiscSamples/res/raw/ |
| D | shader2movev.glsl | 9 objPos.xyz += 0.1*sin(objPos.xyz*2.0 + UNI_time);
10 objPos.xyz += 0.05*sin(objPos.xyz*4.0 + UNI_time*0.5);
11 objPos.xyz += 0.02*sin(objPos.xyz*7.0 + UNI_time*0.75);
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| /frameworks/base/tools/layoutlib/bridge/src/android/graphics/ |
| D | Matrix_Delegate.java | 439 float sin = (float)Math.sin(rad); in native_preRotate() local
442 d.preTransform(getRotate(sin, cos)); in native_preRotate()
1057 float sin = (float)Math.sin(rad); in getRotate() local
1060 return getRotate(sin, cos); in getRotate()
1063 /*package*/ static float[] getRotate(float sin, float cos) { in getRotate() argument
1064 return setRotate(new float[9], sin, cos); in getRotate()
1069 float sin = (float)Math.sin(rad); in setRotate() local
1072 return setRotate(dest, sin, cos); in setRotate()
1075 /*package*/ static float[] setRotate(float[] dest, float sin, float cos) { in setRotate() argument
1077 dest[1] = -sin; in setRotate()
[all …]
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| /frameworks/base/core/tests/coretests/src/android/util/ |
| D | FloatMathTest.java | 46 assertEquals(0.0, FloatMath.sin(0), 0); in testSin()
47 assertEquals(0.8414709848078965f, FloatMath.sin(1), 0); in testSin()
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| /frameworks/base/tools/layoutlib/bridge/src/android/util/ |
| D | FloatMath_Delegate.java | 68 /*package*/ static float sin(float angle) { in sin() method in FloatMath_Delegate
69 return (float)Math.sin(angle); in sin()
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| /frameworks/base/media/mca/filterfw/java/android/filterfw/geometry/ |
| D | Point.java | 101 return new Point((float)(Math.cos(radians) * x - Math.sin(radians) * y), in rotated()
102 (float)(Math.sin(radians) * x + Math.cos(radians) * y)); in rotated()
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| /frameworks/rs/scriptc/ |
| D | rs_quaternion.rsh | 93 float s = sin(rot);
206 float invSinTheta = 1.0f / sin(theta);
207 scale = sin(theta * (1.0f - t)) * invSinTheta;
208 invScale = sin(theta * t) * invSinTheta;
215 scale = sin(M_PI * (0.5f - t));
216 invScale = sin(M_PI * t);
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| /frameworks/base/core/java/android/util/ |
| D | FloatMath.java | 54 public static native float sin(float angle); in sin() method in FloatMath
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| /frameworks/base/core/java/android/view/animation/ |
| D | CycleInterpolator.java | 43 return (float)(Math.sin(2 * mCycles * Math.PI * input)); in getInterpolation()
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| /frameworks/native/opengl/tests/angeles/ |
| D | demo.c | 181 point->y = (float)(sin(t) * cos(p) / r1 / r2); in superShapeMap()
182 point->z = (float)(sin(p) / r2); in superShapeMap()
189 pow(fabs(sin(p[0] * t / 4)) / p[2], p[5]), 1 / p[3])); in ssFunc()
385 const float m = (float)(cos(xm * 2) * sin(ym * 4) * 0.75f); in createGroundPlane()
733 eY = cY - (float)sin(lerp[3]) * dist; in camTrack()
742 cY = eY + (float)sin(lerp[3]); in camTrack()
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| /frameworks/wilhelm/tests/sandbox/ |
| D | configbq.c | 152 short sampleLeft = sin(seconds * M_PI_2 * hzLeft) * 32767.0; in main()
153 short sampleRight = sin(seconds * M_PI_2 * hzRight) * 32767.0; in main()
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| /frameworks/base/media/mca/filterpacks/java/android/filterpacks/numeric/ |
| D | SinWaveFilter.java | 59 output.setObjectValue(((float)Math.sin(mValue) + 1.0f) / 2.0f); in process()
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| /frameworks/base/packages/WallpaperCropper/src/com/android/photos/views/ |
| D | TiledImageRenderer.java | 367 double sin = Math.sin(radians); in getRange() local
369 Math.abs(cos * w - sin * h), Math.abs(cos * w + sin * h))); in getRange()
371 Math.abs(sin * w + cos * h), Math.abs(sin * w - cos * h))); in getRange()
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| /frameworks/ml/bordeaux/service/src/android/bordeaux/services/ |
| D | BaseCluster.java | 85 vector[1] = Math.sin(lambda) * Math.cos(phi); in getLocationVector()
86 vector[2] = Math.sin(phi); in getLocationVector()
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| /frameworks/rs/java/tests/RsTest_11/src/com/android/rs/test/ |
| D | fp_mad.rs | 78 data_f4[i] = sin(data_f4[i]) * cos(data_f4[i]);
93 data_f1[i] = sin(data_f1[i]) * cos(data_f1[i]);
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| /frameworks/rs/java/tests/RsTest/src/com/android/rs/test/ |
| D | fp_mad.rs | 78 data_f4[i] = sin(data_f4[i]) * cos(data_f4[i]);
93 data_f1[i] = sin(data_f1[i]) * cos(data_f1[i]);
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| /frameworks/rs/java/tests/RSTest_CompatLib/src/com/android/rs/test/ |
| D | fp_mad.rs | 78 data_f4[i] = sin(data_f4[i]) * cos(data_f4[i]);
93 data_f1[i] = sin(data_f1[i]) * cos(data_f1[i]);
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| /frameworks/base/graphics/java/android/renderscript/ |
| D | Matrix3f.java | 120 s = (float)java.lang.Math.sin(rot); in loadRotate()
157 s = (float)java.lang.Math.sin(rot); in loadRotate()
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| /frameworks/rs/java/tests/RsTest_14/src/com/android/rs/test/ |
| D | fp_mad.rs | 78 data_f4[i] = sin(data_f4[i]) * cos(data_f4[i]);
93 data_f1[i] = sin(data_f1[i]) * cos(data_f1[i]);
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| /frameworks/support/v8/renderscript/java/src/android/support/v8/renderscript/ |
| D | Matrix3f.java | 120 s = (float)java.lang.Math.sin(rot); in loadRotate()
157 s = (float)java.lang.Math.sin(rot); in loadRotate()
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| /frameworks/base/docs/html/guide/topics/sensors/ |
| D | sensors_motion.jd | 140 <td>Rotation vector component along the x axis (x * sin(θ/2)).</td>
145 <td>Rotation vector component along the y axis (y * sin(θ/2)).</td>
149 <td>Rotation vector component along the z axis (z * sin(θ/2)).</td>
347 float sinThetaOverTwo = sin(thetaOverTwo);
420 x*sin(θ/2)
421 y*sin(θ/2)
422 z*sin(θ/2)
425 <p>Where the magnitude of the rotation vector is equal to sin(θ/2), and the direction of the
436 quaternion (cos(θ/2), x*sin(θ/2), y*sin(θ/2), z*sin(θ/2)). Elements of the rotation vector are
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| /frameworks/base/core/java/android/gesture/ |
| D | GestureUtils.java | 565 float sin = (float) Math.sin(angle); in rotate() local
568 float x = points[i] * cos - points[i + 1] * sin; in rotate()
569 float y = points[i] * sin + points[i + 1] * cos; in rotate()
|