/frameworks/support/wear/tests/src/android/support/wear/widget/ |
D | ScrollManagerTest.java | 158 float angle = getAngle(fromX, fromY, TEST_WIDTH, TEST_HEIGHT); in scrollOnArch() local 167 angle += stepAngle; in scrollOnArch() 168 x = getX(angle, radius, TEST_WIDTH); in scrollOnArch() 169 y = getY(angle, radius, TEST_HEIGHT); in scrollOnArch() 180 private static float getX(double angle, double radius, double viewWidth) { in getX() argument 181 double radianAngle = Math.toRadians(angle - 90); in getX() 186 private static float getY(double angle, double radius, double viewHeight) { in getY() argument 187 double radianAngle = Math.toRadians(angle - 90); in getY() 196 double angle = -Math.toDegrees(rowAngle) - 180; in getAngle() local 197 if (angle < 0) { in getAngle() [all …]
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/frameworks/base/core/java/android/util/ |
D | FloatMath.java | 69 public static float sin(float angle) { in sin() argument 70 return (float) Math.sin(angle); in sin() 80 public static float cos(float angle) { in cos() argument 81 return (float) Math.cos(angle); in cos()
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/frameworks/base/packages/SystemUI/src/com/android/systemui/classifier/ |
D | AnglesClassifier.java | 129 float angle = mLastThreePoints.get(1).getAngle(mLastThreePoints.get(0), in addPoint() local 133 if (angle < Math.PI - ANGLE_DEVIATION) { in addPoint() 135 } else if (angle <= Math.PI + ANGLE_DEVIATION) { in addPoint() 141 float difference = angle - mPreviousAngle; in addPoint() 146 if (mBiggestAngle < angle) { in addPoint() 147 mBiggestAngle = angle; in addPoint() 162 mPreviousAngle = angle; in addPoint()
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D | Point.java | 77 float angle = (float) Math.acos(cos); in getAngle() local 79 angle = 2.0f * (float) Math.PI - angle; in getAngle() 81 return angle; in getAngle()
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D | SpeedAnglesClassifier.java | 120 float angle = mLastThreePoints.get(1).getAngle(mLastThreePoints.get(0), in addPoint() local 124 if (angle >= (float) Math.PI - ANGLE_DEVIATION) { in addPoint() 128 float difference = angle - mPreviousAngle; in addPoint() 132 mPreviousAngle = angle; in addPoint()
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/frameworks/layoutlib/bridge/src/android/graphics/ |
D | SweepGradient_Delegate.java | 185 float angle; in getRaster() local 187 angle = (float) (dy < 0 ? 3 * Math.PI / 2 : Math.PI / 2); in getRaster() 189 angle = (float) (dx < 0 ? Math.PI : 0); in getRaster() 191 angle = (float) Math.atan(dy / dx); in getRaster() 194 angle += Math.PI * 2; in getRaster() 197 angle += Math.PI; in getRaster() 202 data[index++] = getGradientColor((float) (angle / (2 * Math.PI))); in getRaster()
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/frameworks/ex/camera2/portability/src/com/android/ex/camera2/portability/ |
D | CameraDeviceInfo.java | 198 protected static boolean orientationIsValid(int angle) { in orientationIsValid() argument 199 if (angle % 90 != 0) { in orientationIsValid() 203 if (angle < 0 || angle > 270) { in orientationIsValid()
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/frameworks/native/opengl/libagl/ |
D | fp.cpp | 79 void sincosf(GLfloat angle, GLfloat* s, GLfloat* c) { in sincosf() argument 80 *s = sinef(angle); in sincosf() 81 *c = cosinef(angle); in sincosf()
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/frameworks/base/core/java/android/transition/ |
D | PatternPathMotion.java | 123 double angle = Math.atan2(dy, dx); in setPatternPath() local 124 mTempMatrix.postRotate((float) Math.toDegrees(-angle)); in setPatternPath() 134 double angle = Math.atan2(dy, dx); in getPath() local 137 mTempMatrix.postRotate((float) Math.toDegrees(angle)); in getPath()
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/frameworks/support/transition/src/android/support/transition/ |
D | PatternPathMotion.java | 123 double angle = Math.atan2(dy, dx); in setPatternPath() local 124 mTempMatrix.postRotate((float) Math.toDegrees(-angle)); in setPatternPath() 134 double angle = Math.atan2(dy, dx); in getPath() local 137 mTempMatrix.postRotate((float) Math.toDegrees(angle)); in getPath()
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/frameworks/base/core/java/android/gesture/ |
D | GestureUtils.java | 451 final double angle = Math.atan(tan); in minimumCosineDistance() local 452 if (numOrientations > 2 && Math.abs(angle) >= Math.PI / numOrientations) { in minimumCosineDistance() 455 final double cosine = Math.cos(angle); in minimumCosineDistance() 505 float angle; in computeOrientedBoundingBox() local 507 angle = (float) -Math.PI/2; in computeOrientedBoundingBox() 509 angle = (float) Math.atan2(targetVector[1], targetVector[0]); in computeOrientedBoundingBox() 510 rotate(points, -angle); in computeOrientedBoundingBox() 534 …return new OrientedBoundingBox((float) (angle * 180 / Math.PI), centroid[0], centroid[1], maxx - m… in computeOrientedBoundingBox() 563 static float[] rotate(float[] points, float angle) { in rotate() argument 564 float cos = (float) Math.cos(angle); in rotate() [all …]
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D | OrientedBoundingBox.java | 36 OrientedBoundingBox(float angle, float cx, float cy, float w, float h) { in OrientedBoundingBox() argument 37 orientation = angle; in OrientedBoundingBox()
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/frameworks/rs/driver/runtime/ |
D | rs_quaternion.c | 143 float angle = rsQuaternionDot(q0, q1); in rsQuaternionSlerp() local 144 if (angle < 0) { in rsQuaternionSlerp() 146 angle *= -1.0f; in rsQuaternionSlerp() 150 if (angle + 1.0f > 0.05f) { in rsQuaternionSlerp() 151 if (1.0f - angle >= 0.05f) { in rsQuaternionSlerp() 152 float theta = acos(angle); in rsQuaternionSlerp()
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/frameworks/support/wear/tests/src/android/support/wear/widget/util/ |
D | ArcSwipe.java | 161 double angle = -Math.toDegrees(rowAngle) - 180; in getAngle() local 162 if (angle < 0) { in getAngle() 163 angle += 360; in getAngle() 165 return (float) angle; in getAngle()
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/frameworks/rs/tests/java_api/VrDemo/src/com/example/android/rs/vr/engine/ |
D | Quaternion.java | 57 double angle = Math.acos(dot(vec1, vec2)); in set() local 58 set(angle, axis); in set() 73 public void set(double angle, double[] axis) { in set() argument 74 x[0] = Math.cos(angle / 2); in set() 75 double sin = Math.sin(angle / 2); in set()
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D | bugdroid.rs | 43 float angle = fabs(2 * fract(atan2pi(vec.z, vec.y) * 5) - 1); 45 * sigmoid(pillDistance(p1, p2, img) - rad * (1 + angle / 2))); 63 float angle = fabs(2 * fract(atan2pi(vec.y, vec.x) * 6) - 1); 65 * sigmoid(cylinderDistance(p1, p2, img) - rad * (1 + angle / 5))); 106 float angle = fabs(2 * fract(atan2pi(vec.y, vec.x) * 20) - 1); 109 distanceDisk(center, circleRadius * (1 + angle / 10),
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/frameworks/native/libs/input/tests/ |
D | InputEvent_test.cpp | 521 static void setRotationMatrix(float matrix[9], float angle) { in setRotationMatrix() argument 522 float sin = sinf(angle); in setRotationMatrix() 523 float cos = cosf(angle); in setRotationMatrix() 551 float angle = float(i * ARC * PI_180); in TEST_F() local 555 pointerCoords[i].setAxisValue(AMOTION_EVENT_AXIS_X, sinf(angle) * RADIUS + 3); in TEST_F() 556 pointerCoords[i].setAxisValue(AMOTION_EVENT_AXIS_Y, -cosf(angle) * RADIUS + 2); in TEST_F() 557 pointerCoords[i].setAxisValue(AMOTION_EVENT_AXIS_ORIENTATION, angle); in TEST_F() 583 float angle = float((i * ARC + ROTATION) * PI_180); in TEST_F() local 584 ASSERT_NEAR(sinf(angle) * RADIUS, event.getX(i), 0.001); in TEST_F() 585 ASSERT_NEAR(-cosf(angle) * RADIUS, event.getY(i), 0.001); in TEST_F() [all …]
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/frameworks/base/tools/orientationplot/ |
D | README.txt | 37 filtered accelerometer data, measured tilt and orientation angle, confidence 63 the measured orientation angle is now within the gap between the new 67 angle (say, 45 degrees) is between the current orientation's ideal angle 68 (say, 0 degrees) and an adjacent orientation's ideal angle (say, 90 degrees). 76 4. The orientation angle is not measured when the tilt is too close to 90 or -90
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/frameworks/base/tests/Camera2Tests/SmartCamera/SimpleCamera/src/androidx/media/filterfw/geometry/ |
D | Quad.java | 112 public static Quad fromRotatedRect(RectF rect, float angle) { in fromRotatedRect() argument 113 return Quad.fromRect(rect).rotated(angle); in fromRotatedRect() 183 public Quad rotated(float angle) { in rotated() argument 185 float cosa = (float) Math.cos(angle); in rotated() 186 float sina = (float) Math.sin(angle); in rotated()
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/frameworks/base/libs/hwui/ |
D | Matrix.h | 124 void loadRotate(float angle); 125 void loadRotate(float angle, float x, float y, float z); 188 void rotate(float angle, float x, float y, float z) { in rotate() argument 190 u.loadRotate(angle, x, y, z); in rotate()
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D | Matrix.cpp | 316 void Matrix4::loadRotate(float angle) { in loadRotate() argument 317 angle *= float(M_PI / 180.0f); in loadRotate() 318 float c = cosf(angle); in loadRotate() 319 float s = sinf(angle); in loadRotate() 332 void Matrix4::loadRotate(float angle, float x, float y, float z) { in loadRotate() argument 341 angle *= float(M_PI / 180.0f); in loadRotate() 342 float c = cosf(angle); in loadRotate() 343 float s = sinf(angle); in loadRotate()
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/frameworks/native/libs/math/include/math/ |
D | quat.h | 133 constexpr static TQuaternion PURE fromAxisAngle(const TVec3<A>& axis, B angle) { in fromAxisAngle() argument 134 return TQuaternion(std::sin(angle*0.5) * normalize(axis), std::cos(angle*0.5)); in fromAxisAngle()
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/frameworks/base/core/java/android/view/ |
D | OrientationEventListener.java | 128 float angle = (float)Math.atan2(-Y, X) * OneEightyOverPi; in onSensorChanged() local 129 orientation = 90 - (int)Math.round(angle); in onSensorChanged()
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/frameworks/base/tests/HwAccelerationTest/src/com/android/test/hwui/ |
D | Transform3dActivity.java | 87 Matrix matrix, float angle) { in rotate() argument 89 camera.rotateY(angle); in rotate()
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/frameworks/rs/tests/java_api/RsNbody/src/com/example/android/rs/nbody_gl/ |
D | BasicGLRenderer.java | 90 public void setAngle(float angle) { in setAngle() argument 91 mAngle = angle; in setAngle()
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