| /external/eigen/Eigen/src/Geometry/ |
| EulerAngles.h | 41 EIGEN_USING_STD_MATH(cos)
84 Scalar c1 = cos(res[0]);
103 Scalar c1 = cos(res[0]);
|
| /frameworks/base/core/java/android/hardware/ |
| GeomagneticField.java | 152 // cos(theta). We want the associated Legendre functions for
153 // sin(latitude), which is the same as cos(PI/2 - latitude), except the
169 // Compute tables of sin(lon * m) and cos(lon * m) for m = 0..MAX_N --
176 cosMLon[1] = (float) Math.cos(mGcLongitudeRad);
180 // cos((m-x)*theta + x*theta).
186 float inverseCosLatitude = 1.0f / (float) Math.cos(mGcLatitudeRad);
207 // P_n^m(sin(theta)) and we use P_n^m(cos(90 - theta)), so the
234 mX = (float) (gcX * Math.cos(latDiffRad)
238 + gcZ * Math.cos(latDiffRad));
311 float clat = (float) Math.cos(gdLatRad)
356 float cos = (float) Math.cos(thetaRad); local
[all...] |
| /libcore/luni/src/test/java/libcore/javax/crypto/ |
| CipherOutputStreamTest.java | 70 CipherOutputStream cos = new CipherOutputStream(new ByteArrayOutputStream(), cipher); local
72 cos.write(encrypted);
73 cos.close();
|
| /packages/apps/SoundRecorder/src/com/android/soundrecorder/ |
| VUMeter.java | 95 float cos = (float) Math.cos(mCurrentAngle); local
96 float x0 = pivotX - l*cos;
|
| /bionic/libm/upstream-netbsd/lib/libm/complex/ |
| cpow.c | 55 w = r * cos(theta) + (r * sin(theta)) * I;
|
| /cts/apps/CtsVerifier/src/com/android/cts/verifier/audio/wavelib/ |
| DspWindow.java | 146 value = 0.54 - 0.46 * Math.cos(TWOPI * i / (twoOverlap - 1));
161 value = 0.54 - 0.46 * Math.cos(TWOPI * k / (twoOverlap - 1));
181 value = 0.5 * (1.0 - Math.cos(TWOPI * i / (twoOverlap - 1)));
195 value = 0.5 * (1.0 - Math.cos(TWOPI * k / (twoOverlap - 1)));
|
| /external/ImageMagick/PerlMagick/demo/ |
| Turtle.pm | 20 $self->{y}+$r*-cos($self->{theta}));
|
| /external/libcxx/test/std/numerics/numarray/valarray.nonmembers/valarray.transcend/ |
| cos_valarray.pass.cpp | 16 // cos(const valarray<T>& x);
47 std::valarray<T> v3 = cos(v1);
|
| /external/libtextclassifier/tests/ |
| functions.h | 34 class Cos : public Function {
36 double Evaluate(double x) override { return cos(x); }
37 TC_DEFINE_REGISTRATION_METHOD("cos", Cos);
|
| /external/skia/gm/ |
| anisotropic.cpp | 44 SkScalar angle = 0.0f, sin, cos; variable
48 sin = SkScalarSinCos(angle, &cos);
49 canvas.drawLine(cos * kInnerOffset, sin * kInnerOffset,
50 cos * kImageSize/2, sin * kImageSize/2, p);
|
| /external/v8/src/base/ |
| ieee754.h | 37 V8_BASE_EXPORT double cos(double x);
|
| /external/valgrind/none/tests/amd64/ |
| bug132918.c | 51 do_fprem(&r, 12.3*sin(theta), cos(theta)); show("xx", &r);
|
| /frameworks/support/transition/api14/android/support/transition/ |
| ViewUtilsApi14.java | 126 final float cos = (float) Math.sqrt(1 - sin * sin) local
128 final float rotation = (float) Math.toDegrees(Math.atan2(sin, cos));
129 final float scaleX = values[Matrix.MSCALE_X] / cos;
130 final float scaleY = values[Matrix.MSCALE_Y] / cos;
|
| /hardware/akm/AK8975_FS/akmdfs/AKFS_APIs_8975/ |
| AKFS_Math.h | 33 #define AKFS_COS(x) cos(x)
|
| /prebuilts/go/darwin-x86/src/go/scanner/ |
| example_test.go | 15 src := []byte("cos(x) + 1i*sin(x) // Euler")
33 // 1:1 IDENT "cos"
|
| /prebuilts/go/linux-x86/src/go/scanner/ |
| example_test.go | 15 src := []byte("cos(x) + 1i*sin(x) // Euler")
33 // 1:1 IDENT "cos"
|
| /prebuilts/ndk/r11/sources/cxx-stl/llvm-libc++/libcxx/test/numerics/numarray/valarray.nonmembers/valarray.transcend/ |
| cos_valarray.pass.cpp | 16 // cos(const valarray<T>& x);
46 std::valarray<T> v3 = cos(v1);
|
| /prebuilts/ndk/r13/sources/cxx-stl/llvm-libc++/test/std/numerics/numarray/valarray.nonmembers/valarray.transcend/ |
| cos_valarray.pass.cpp | 16 // cos(const valarray<T>& x);
46 std::valarray<T> v3 = cos(v1);
|
| /device/google/dragon/audio/hal/dsp/ |
| biquad.c | 58 double gamma = (0.5 + beta) * cos(theta);
93 double gamma = (0.5 + beta) * cos(theta);
125 double k = cos(w0);
168 double k = cos(w0);
203 double k = cos(w0);
237 double k = cos(w0);
272 double k = cos(w0);
307 double k = cos(w0);
|
| /external/apache-commons-math/src/main/java/org/apache/commons/math/optimization/fitting/ |
| HarmonicFitter.java | 29 * the phase φ: <code>f (t) = a cos (ω t + φ)</code>. They are
117 return a * FastMath.cos(omega * x + phi);
126 final double cosAlpha = FastMath.cos(alpha);
|
| /external/libvncserver/test/ |
| copyrecttest.c | 45 x=width*(0.5+cos(phi)*r);
48 unsigned int dx=width*0.5*(1-cos(phi)*r)-x,
|
| /frameworks/base/media/mca/filterfw/java/android/filterfw/geometry/ |
| Point.java | 100 // TODO(renn): Optimize: Keep cache of cos/sin values
101 return new Point((float)(Math.cos(radians) * x - Math.sin(radians) * y),
102 (float)(Math.sin(radians) * x + Math.cos(radians) * y));
|
| /frameworks/support/v7/appcompat/src/android/support/v7/app/ |
| TwilightCalculator.java | 113 * Math.sin(solarDec)) / (Math.cos(latRad) * Math.cos(solarDec));
|
| /packages/apps/Camera2/src/com/android/camera/ui/ |
| PreviewOverlay.java | 341 canvas.drawLine(mCenterX + mInnerRadius * (float) Math.cos(mFingerAngle),
343 mCenterX + mOuterRadius * (float) Math.cos(mFingerAngle),
345 canvas.drawLine(mCenterX - mInnerRadius * (float) Math.cos(mFingerAngle),
347 mCenterX - mOuterRadius * (float) Math.cos(mFingerAngle),
353 canvas.drawLine(mCenterX + mInnerRadius * (float) Math.cos(mFingerAngle),
355 mCenterX + zoomRadius * (float) Math.cos(mFingerAngle),
357 canvas.drawLine(mCenterX - mInnerRadius * (float) Math.cos(mFingerAngle),
359 mCenterX - zoomRadius * (float) Math.cos(mFingerAngle),
|
| /packages/apps/Dialer/java/com/android/incallui/answer/impl/classifier/ |
| Point.java | 88 float cos = Math.min(1.0f, Math.max(-1.0f, dotProduct / dist1 / dist2)); local
89 float angle = (float) Math.acos(cos);
|
