| /external/webkit/LayoutTests/dom/html/level2/events/ |
| initEvent03.html | 20 <acronym title="Yes" class="Yes">β Dallas, γ
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| initEvent04.html | 20 <acronym title="Yes" class="Yes">β Dallas, γ
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| initEvent05.html | 20 <acronym title="Yes" class="Yes">β Dallas, γ
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| initEvent06.html | 20 <acronym title="Yes" class="Yes">β Dallas, γ
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| /frameworks/base/tests/DumpRenderTree/src/com/android/dumprendertree/ |
| LayoutTestController.java | 77 boolean canProvideBeta, double beta, boolean canProvideGamma, double gamma);
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| /libcore/dom/src/test/resources/ |
| hc_staff.html | 20 <acronym title="Yes" class="Yes">β Dallas, γ
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| /external/qemu/distrib/sdl-1.2.12/src/video/x11/ |
| SDL_x11video.h | 155 float gamma_saved[3]; /* Saved gamma values for VidMode gamma */
156 int gamma_changed; /* flag: has VidMode gamma been modified? */
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| /prebuilts/gcc/linux-x86/host/i686-linux-glibc2.7-4.4.3/i686-linux/include/c++/4.4.3/tr1/ |
| bessel_function.tcc | 64 * @brief Compute the gamma functions required by the Temme series
68 * [\frac{1}{\Gamma(1 - \mu)} - \frac{1}{\Gamma(1 + \mu)}]
73 * [\frac{1}{\Gamma(1 - \mu)} + \frac{1}{\Gamma(1 + \mu)}]
77 * The values of \f$ \Gamma(1 + \mu) \f$ and \f$ \Gamma(1 - \mu) \f$
82 * @param __mu The input parameter of the gamma functions.
85 * @param __gampl The output function \f$ \Gamma(1 + \mu) \f$
86 * @param __gammi The output function \f$ \Gamma(1 - \mu) \f
[all...] |
| riemann_zeta.tcc | 40 // (3) Gamma, Exploring Euler's Constant, Julian Havil,
69 * \zeta(s) = 2^s \pi^{s-1} \Gamma(1-s) \zeta(1-s)
106 * \zeta(s) = 2^s \pi^{s-1} \Gamma(1-s) \zeta(1-s)
148 * \zeta(s) = 2^s \pi^{s-1} \Gamma(1-s) \zeta(1-s)
243 * \zeta(s) = 2^s \pi^{s-1} \Gamma(1-s) \zeta(1-s)
280 * \Gamma (1 - s) \zeta (1 - s) for s < 1
284 * \zeta(s) = 2^s \pi^{s-1} \Gamma(1-s) \zeta(1-s)
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| /prebuilts/gcc/linux-x86/host/i686-linux-glibc2.7-4.6/i686-linux/include/c++/4.6.x-google/tr1/ |
| bessel_function.tcc | 64 * @brief Compute the gamma functions required by the Temme series
68 * [\frac{1}{\Gamma(1 - \mu)} - \frac{1}{\Gamma(1 + \mu)}]
73 * [\frac{1}{\Gamma(1 - \mu)} + \frac{1}{\Gamma(1 + \mu)}]
77 * The values of \f$ \Gamma(1 + \mu) \f$ and \f$ \Gamma(1 - \mu) \f$
82 * @param __mu The input parameter of the gamma functions.
85 * @param __gampl The output function \f$ \Gamma(1 + \mu) \f$
86 * @param __gammi The output function \f$ \Gamma(1 - \mu) \f
[all...] |
| riemann_zeta.tcc | 40 // (3) Gamma, Exploring Euler's Constant, Julian Havil,
69 * \zeta(s) = 2^s \pi^{s-1} \Gamma(1-s) \zeta(1-s)
106 * \zeta(s) = 2^s \pi^{s-1} \Gamma(1-s) \zeta(1-s)
148 * \zeta(s) = 2^s \pi^{s-1} \Gamma(1-s) \zeta(1-s)
243 * \zeta(s) = 2^s \pi^{s-1} \Gamma(1-s) \zeta(1-s)
280 * \Gamma (1 - s) \zeta (1 - s) for s < 1
284 * \zeta(s) = 2^s \pi^{s-1} \Gamma(1-s) \zeta(1-s)
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| /prebuilts/gcc/linux-x86/host/x86_64-linux-glibc2.7-4.6/x86_64-linux/include/c++/4.6.x-google/tr1/ |
| bessel_function.tcc | 64 * @brief Compute the gamma functions required by the Temme series
68 * [\frac{1}{\Gamma(1 - \mu)} - \frac{1}{\Gamma(1 + \mu)}]
73 * [\frac{1}{\Gamma(1 - \mu)} + \frac{1}{\Gamma(1 + \mu)}]
77 * The values of \f$ \Gamma(1 + \mu) \f$ and \f$ \Gamma(1 - \mu) \f$
82 * @param __mu The input parameter of the gamma functions.
85 * @param __gampl The output function \f$ \Gamma(1 + \mu) \f$
86 * @param __gammi The output function \f$ \Gamma(1 - \mu) \f
[all...] |
| riemann_zeta.tcc | 40 // (3) Gamma, Exploring Euler's Constant, Julian Havil,
69 * \zeta(s) = 2^s \pi^{s-1} \Gamma(1-s) \zeta(1-s)
106 * \zeta(s) = 2^s \pi^{s-1} \Gamma(1-s) \zeta(1-s)
148 * \zeta(s) = 2^s \pi^{s-1} \Gamma(1-s) \zeta(1-s)
243 * \zeta(s) = 2^s \pi^{s-1} \Gamma(1-s) \zeta(1-s)
280 * \Gamma (1 - s) \zeta (1 - s) for s < 1
284 * \zeta(s) = 2^s \pi^{s-1} \Gamma(1-s) \zeta(1-s)
|
| /prebuilts/ndk/android-ndk-r5/sources/cxx-stl/gnu-libstdc++/include/tr1/ |
| bessel_function.tcc | 64 * @brief Compute the gamma functions required by the Temme series
68 * [\frac{1}{\Gamma(1 - \mu)} - \frac{1}{\Gamma(1 + \mu)}]
73 * [\frac{1}{\Gamma(1 - \mu)} + \frac{1}{\Gamma(1 + \mu)}]
77 * The values of \f$ \Gamma(1 + \mu) \f$ and \f$ \Gamma(1 - \mu) \f$
82 * @param __mu The input parameter of the gamma functions.
85 * @param __gampl The output function \f$ \Gamma(1 + \mu) \f$
86 * @param __gammi The output function \f$ \Gamma(1 - \mu) \f
[all...] |
| riemann_zeta.tcc | 40 // (3) Gamma, Exploring Euler's Constant, Julian Havil,
69 * \zeta(s) = 2^s \pi^{s-1} \Gamma(1-s) \zeta(1-s)
106 * \zeta(s) = 2^s \pi^{s-1} \Gamma(1-s) \zeta(1-s)
148 * \zeta(s) = 2^s \pi^{s-1} \Gamma(1-s) \zeta(1-s)
243 * \zeta(s) = 2^s \pi^{s-1} \Gamma(1-s) \zeta(1-s)
280 * \Gamma (1 - s) \zeta (1 - s) for s < 1
284 * \zeta(s) = 2^s \pi^{s-1} \Gamma(1-s) \zeta(1-s)
|
| /prebuilts/ndk/android-ndk-r6/sources/cxx-stl/gnu-libstdc++/include/tr1/ |
| bessel_function.tcc | 64 * @brief Compute the gamma functions required by the Temme series
68 * [\frac{1}{\Gamma(1 - \mu)} - \frac{1}{\Gamma(1 + \mu)}]
73 * [\frac{1}{\Gamma(1 - \mu)} + \frac{1}{\Gamma(1 + \mu)}]
77 * The values of \f$ \Gamma(1 + \mu) \f$ and \f$ \Gamma(1 - \mu) \f$
82 * @param __mu The input parameter of the gamma functions.
85 * @param __gampl The output function \f$ \Gamma(1 + \mu) \f$
86 * @param __gammi The output function \f$ \Gamma(1 - \mu) \f
[all...] |
| riemann_zeta.tcc | 40 // (3) Gamma, Exploring Euler's Constant, Julian Havil,
69 * \zeta(s) = 2^s \pi^{s-1} \Gamma(1-s) \zeta(1-s)
106 * \zeta(s) = 2^s \pi^{s-1} \Gamma(1-s) \zeta(1-s)
148 * \zeta(s) = 2^s \pi^{s-1} \Gamma(1-s) \zeta(1-s)
243 * \zeta(s) = 2^s \pi^{s-1} \Gamma(1-s) \zeta(1-s)
280 * \Gamma (1 - s) \zeta (1 - s) for s < 1
284 * \zeta(s) = 2^s \pi^{s-1} \Gamma(1-s) \zeta(1-s)
|
| /prebuilts/ndk/android-ndk-r7/sources/cxx-stl/gnu-libstdc++/include/tr1/ |
| bessel_function.tcc | 64 * @brief Compute the gamma functions required by the Temme series
68 * [\frac{1}{\Gamma(1 - \mu)} - \frac{1}{\Gamma(1 + \mu)}]
73 * [\frac{1}{\Gamma(1 - \mu)} + \frac{1}{\Gamma(1 + \mu)}]
77 * The values of \f$ \Gamma(1 + \mu) \f$ and \f$ \Gamma(1 - \mu) \f$
82 * @param __mu The input parameter of the gamma functions.
85 * @param __gampl The output function \f$ \Gamma(1 + \mu) \f$
86 * @param __gammi The output function \f$ \Gamma(1 - \mu) \f
[all...] |
| riemann_zeta.tcc | 40 // (3) Gamma, Exploring Euler's Constant, Julian Havil,
69 * \zeta(s) = 2^s \pi^{s-1} \Gamma(1-s) \zeta(1-s)
106 * \zeta(s) = 2^s \pi^{s-1} \Gamma(1-s) \zeta(1-s)
148 * \zeta(s) = 2^s \pi^{s-1} \Gamma(1-s) \zeta(1-s)
243 * \zeta(s) = 2^s \pi^{s-1} \Gamma(1-s) \zeta(1-s)
280 * \Gamma (1 - s) \zeta (1 - s) for s < 1
284 * \zeta(s) = 2^s \pi^{s-1} \Gamma(1-s) \zeta(1-s)
|
| /external/opencv/ml/src/ |
| mlsvm.cpp | 132 else if( param_id == CvSVM::GAMMA )
164 "(use one of CvSVM::C, CvSVM::GAMMA et al.)", __FILE__, __LINE__ );
171 gamma(1), coef0(0), C(1), nu(0), p(0), class_weights(0)
182 degree(_degree), gamma(_gamma), coef0(_coef0),
261 calc_non_rbf_base( vcount, var_count, vecs, another, results, params->gamma, params->coef0 );
271 -2*params->gamma, -2*params->coef0 );
289 double gamma = -params->gamma; local
315 results[j] = (Qfloat)(s*gamma);
1613 double gamma = 0, C = 0, degree = 0, coef = 0, p = 0, nu = 0; local
[all...] |
| /bionic/libm/src/ |
| e_lgamma_r.c | 20 * Reentrant version of the logarithm of the Gamma function
21 * with user provide pointer for the sign of Gamma(x).
25 * Since gamma(1+s)=s*gamma(s), for x in [0,8], we may
66 * 4. For negative x, since (G is gamma function)
72 * lgamma(x) = log(|Gamma(x)|)
|
| /external/bouncycastle/src/main/java/org/bouncycastle/math/ec/ |
| ECPoint.java | 266 ECFieldElement gamma = b.y.subtract(this.y).divide(b.x.subtract(this.x)); local
268 ECFieldElement x3 = gamma.square().subtract(this.x).subtract(b.x);
269 ECFieldElement y3 = gamma.multiply(this.x.subtract(x3)).subtract(this.y);
292 ECFieldElement gamma = this.x.square().multiply(THREE).add(curve.a).divide(y.multiply(TWO)); local
294 ECFieldElement x3 = gamma.square().subtract(this.x.multiply(TWO));
295 ECFieldElement y3 = gamma.multiply(this.x.subtract(x3)).subtract(this.y);
|
| /external/webkit/Source/WebCore/platform/graphics/filters/ |
| FEComponentTransfer.cpp | 142 static void gamma(unsigned char* values, const ComponentTransferFunction& transferFunction) function in namespace:WebCore
170 TransferType callEffect[] = {identity, identity, table, discrete, linear, gamma};
210 ts << "GAMMA";
|
| /frameworks/base/graphics/java/android/graphics/ |
| Typeface.java | 230 * Set the global gamma coefficients for black and white text. This call is
234 * @param blackGamma gamma coefficient for black text
235 * @param whiteGamma gamma coefficient for white text
|
| /development/apps/FontLab/src/com/android/fontlab/ |
| FontLab.java | 331 // default to gamma of 1.0
335 int gamma = Math.min(MAX_GAMMA, Math.max(MIN_GAMMA, mGamma + delta)); local
336 if (gamma != mGamma) {
337 mGamma = gamma;
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