/prebuilts/python/darwin-x86/2.7.5/lib/python2.7/ |
fpformat.py | 26 # \3 fraction (empty or begins with point) 36 """Return (sign, intpart, fraction, expo) or raise an exception: 39 fraction is 0 or more digits 43 sign, intpart, fraction, exppart = res.group(1,2,3,4) 45 if fraction: fraction = fraction[1:] 48 return sign, intpart, fraction, expo 50 def unexpo(intpart, fraction, expo): 51 """Remove the exponent by changing intpart and fraction."" [all...] |
/prebuilts/python/linux-x86/2.7.5/lib/python2.7/ |
fpformat.py | 26 # \3 fraction (empty or begins with point) 36 """Return (sign, intpart, fraction, expo) or raise an exception: 39 fraction is 0 or more digits 43 sign, intpart, fraction, exppart = res.group(1,2,3,4) 45 if fraction: fraction = fraction[1:] 48 return sign, intpart, fraction, expo 50 def unexpo(intpart, fraction, expo): 51 """Remove the exponent by changing intpart and fraction."" [all...] |
/frameworks/av/media/libstagefright/codecs/amrwbenc/inc/ |
log2.h | 50 Word16 *fraction /* (o) : Fractional part of Log2. (range: 0<=val<1)*/ 57 Word16 *fraction /* (o) : Fractional part of Log2. (range: 0<=val<1) */
|
/frameworks/base/core/java/android/animation/ |
FloatEvaluator.java | 26 * <code>fraction</code> representing the proportion between the start and end values. The 29 * and <code>t</code> is <code>fraction</code>. 31 * @param fraction The fraction from the starting to the ending values 36 * <code>fraction</code> parameter. 38 public Float evaluate(float fraction, Number startValue, Number endValue) { 40 return startFloat + fraction * (endValue.floatValue() - startFloat);
|
IntEvaluator.java | 26 * <code>fraction</code> representing the proportion between the start and end values. The 29 * and <code>t</code> is <code>fraction</code>. 31 * @param fraction The fraction from the starting to the ending values 36 * <code>fraction</code> parameter. 38 public Integer evaluate(float fraction, Integer startValue, Integer endValue) { 40 return (int)(startInt + fraction * (endValue - startInt));
|
Keyframes.java | 43 * Gets the animated value, given the elapsed fraction of the animation (interpolated by the 45 * function maps the input fraction to the appropriate keyframe interval and a fraction 46 * between them and returns the interpolated value. Note that the input fraction may fall 48 * spring interpolation that might send the fraction past 1.0). We handle this situation by 51 * @param fraction The elapsed fraction of the animation 54 Object getValue(float fraction); 77 * @param fraction The elapsed fraction of the animatio [all...] |
PathKeyframes.java | 65 public Object getValue(float fraction) { 67 if (fraction < 0) { 68 return interpolateInRange(fraction, 0, 1); 69 } else if (fraction > 1) { 70 return interpolateInRange(fraction, numPoints - 2, numPoints - 1); 71 } else if (fraction == 0) { 73 } else if (fraction == 1) { 84 if (fraction < midFraction) { 86 } else if (fraction > midFraction) { 93 // now high is below the fraction and low is above the fractio [all...] |
Keyframe.java | 76 * @param fraction The time, expressed as a value between 0 and 1, representing the fraction 82 public static Keyframe ofInt(float fraction, int value) { 83 return new IntKeyframe(fraction, value); 95 * @param fraction The time, expressed as a value between 0 and 1, representing the fraction 98 public static Keyframe ofInt(float fraction) { 99 return new IntKeyframe(fraction); 108 * @param fraction The time, expressed as a value between 0 and 1, representing the fraction [all...] |
TypeEvaluator.java | 31 * <code>fraction</code> representing the proportion between the start and end values. The 34 * and <code>t</code> is <code>fraction</code>. 36 * @param fraction The fraction from the starting to the ending values 40 * <code>fraction</code> parameter. 42 public T evaluate(float fraction, T startValue, T endValue);
|
ArgbEvaluator.java | 44 * @param fraction The fraction from the starting to the ending values 54 public Object evaluate(float fraction, Object startValue, Object endValue) { 67 return (int)((startA + (int)(fraction * (endA - startA))) << 24) | 68 (int)((startR + (int)(fraction * (endR - startR))) << 16) | 69 (int)((startG + (int)(fraction * (endG - startG))) << 8) | 70 (int)((startB + (int)(fraction * (endB - startB))));
|
RectEvaluator.java | 56 * end Rect values, with <code>fraction</code> representing the proportion 65 * @param fraction The fraction from the starting to the ending values 69 * <code>fraction</code> parameter. 72 public Rect evaluate(float fraction, Rect startValue, Rect endValue) { 73 int left = startValue.left + (int) ((endValue.left - startValue.left) * fraction); 74 int top = startValue.top + (int) ((endValue.top - startValue.top) * fraction); 75 int right = startValue.right + (int) ((endValue.right - startValue.right) * fraction); 76 int bottom = startValue.bottom + (int) ((endValue.bottom - startValue.bottom) * fraction);
|
FloatKeyframeSet.java | 45 public Object getValue(float fraction) { 46 return getFloatValue(fraction); 67 public float getFloatValue(float fraction) { 76 fraction = mInterpolator.getInterpolation(fraction); 79 return firstValue + fraction * deltaValue; 81 return ((Number)mEvaluator.evaluate(fraction, firstValue, lastValue)).floatValue(); 84 if (fraction <= 0f) { 93 fraction = interpolator.getInterpolation(fraction); [all...] |
IntKeyframeSet.java | 45 public Object getValue(float fraction) { 46 return getIntValue(fraction); 67 public int getIntValue(float fraction) { 76 fraction = mInterpolator.getInterpolation(fraction); 79 return firstValue + (int)(fraction * deltaValue); 81 return ((Number)mEvaluator.evaluate(fraction, firstValue, lastValue)).intValue(); 84 if (fraction <= 0f) { 93 fraction = interpolator.getInterpolation(fraction); [all...] |
/cts/tests/tests/animation/src/android/animation/cts/ |
FloatEvaluatorTest.java | 26 float fraction = 0.5f; local 28 float result = floatEvaluator.evaluate(fraction, start, end); 29 assertTrue(result >= (fraction*start)); 30 assertTrue(result <= (fraction*end));
|
IntEvaluatorTest.java | 26 final float fraction = 0.5f; local 31 result = intEvaluator.evaluate(fraction, start, end); 38 assertTrue(result >= (fraction*start)); 39 assertTrue(result <= (fraction*end));
|
/packages/apps/Gallery2/src/com/android/gallery3d/ui/ |
CaptureAnimation.java | 37 // Calculate the slide factor based on the give time fraction. 38 public static float calculateSlide(float fraction) { 39 return sSlideInterpolator.getInterpolation(fraction); 42 // Calculate the scale factor based on the given time fraction. 43 public static float calculateScale(float fraction) { 45 if (fraction <= 0.5f) { 48 sZoomOutInterpolator.getInterpolation(fraction * 2); 52 sZoomInInterpolator.getInterpolation((fraction - 0.5f) * 2f);
|
/external/chromium_org/third_party/WebKit/Source/core/animation/animatable/ |
AnimatableVisibility.cpp | 43 PassRefPtrWillBeRawPtr<AnimatableValue> AnimatableVisibility::interpolateTo(const AnimatableValue* value, double fraction) const 48 return defaultInterpolateTo(this, value, fraction); 49 if (fraction <= 0) 51 if (fraction >= 1)
|
AnimatableSVGLength.cpp | 38 PassRefPtrWillBeRawPtr<AnimatableValue> AnimatableSVGLength::interpolateTo(const AnimatableValue* value, double fraction) const 40 return create(toAnimatableSVGLength(value)->toSVGLength()->blend(m_length.get(), narrowPrecisionToFloat(fraction)));
|
AnimatableImage.cpp | 50 PassRefPtrWillBeRawPtr<AnimatableValue> AnimatableImage::interpolateTo(const AnimatableValue* value, double fraction) const 52 if (fraction <= 0 || fraction >= 1 || usesDefaultInterpolationWith(value)) 53 return defaultInterpolateTo(this, value, fraction); 59 crossfadeValue->setPercentage(CSSPrimitiveValue::create(fraction, CSSPrimitiveValue::CSS_NUMBER));
|
AnimatableLengthBox.cpp | 36 PassRefPtrWillBeRawPtr<AnimatableValue> AnimatableLengthBox::interpolateTo(const AnimatableValue* value, double fraction) const 40 AnimatableValue::interpolate(this->left(), lengthBox->left(), fraction), 41 AnimatableValue::interpolate(this->right(), lengthBox->right(), fraction), 42 AnimatableValue::interpolate(this->top(), lengthBox->top(), fraction), 43 AnimatableValue::interpolate(this->bottom(), lengthBox->bottom(), fraction));
|
AnimatableValue.cpp | 52 PassRefPtrWillBeRawPtr<AnimatableValue> AnimatableValue::interpolate(const AnimatableValue* left, const AnimatableValue* right, double fraction) 59 if (fraction && fraction != 1 && left->isSameType(right)) 60 return left->interpolateTo(right, fraction); 62 return defaultInterpolateTo(left, right, fraction);
|
/frameworks/av/media/libstagefright/codecs/amrnb/common/include/ |
pow2.h | 104 Word16 fraction, /* (i) : Fractional part. (range: 0.0<=val<1.0) */
|
/frameworks/opt/bitmap/src/com/android/bitmap/drawable/ |
Parallaxable.java | 23 * implement this interface to receive the current parallax fraction to use when 28 * @param fraction the vertical center point for the viewport, in the range [0,1] 30 void setParallaxFraction(float fraction);
|
/frameworks/av/media/libstagefright/codecs/amrwbenc/src/ |
log2.c | 52 * 5- fraction = table[i]<<16 - (table[i] - table[i+1]) * a * 2 60 Word16 *fraction /* (o) : Fractional part of Log2. (range: 0<=val<1) */ 68 *fraction = 0; 75 a = (Word16)(L_x); /* Extract b10-b24 of fraction */ 81 *fraction = extract_h (L_y); 101 Word16 *fraction /* (o) : Fractional part of Log2. (range: 0<=val<1) */ 107 Log2_norm ((L_x << exp), exp, exponent, fraction);
|
/external/chromium_org/ui/keyboard/resources/layouts/ |
symbol-altkeys.js | 7 '\u00BD', // Vulgar fraction 1/2 8 '\u2153', // Vulgar fraction 1/3 9 '\u00BC', // Vulgar fraction 1/4 10 '\u215B'], // Vulgar fraction 1/8 12 '\u2154'], // Vulgar fraction 2/3 14 '\u00BE', // Vulgar fraction 3/4 15 '\u215C'], // Vulgar fraction 3/8 17 '5': ['\u215D'], // Vulgar fraction 5/8 18 '7': ['\u215E'], // Vulgar fraction 7/8
|