/external/clang/test/CodeGen/ |
2004-02-20-Builtins.c | 2 double sqrt(double x); 4 num = sqrt(num);
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/external/eigen/unsupported/doc/examples/ |
MatrixLogarithm.cpp | 8 using std::sqrt; 10 A << 0.5*sqrt(2), -0.5*sqrt(2), 0, 11 0.5*sqrt(2), 0.5*sqrt(2), 0,
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MatrixSquareRoot.cpp | 14 std::cout << "The matrix square root of A is:\n" << A.sqrt() << "\n\n"; 15 std::cout << "The square of the last matrix is:\n" << A.sqrt() * A.sqrt() << "\n";
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/external/eigen/doc/snippets/ |
Cwise_acos.cpp | 1 Array3d v(0, sqrt(2.)/2, 1);
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Cwise_sqrt.cpp | 2 cout << v.sqrt() << endl;
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/external/stlport/test/unit/ |
resolve_name.cpp | 12 d = sqrt( d ); 13 d = ::sqrt( d ); 14 d = std::sqrt( d ); 26 d = sqrt( d ); 27 d = ::sqrt( d ); 28 d = std::sqrt( d ); 34 // VC6 consider call to sqrt ambiguous as soon as using namespace std has 44 d = sqrt( d ); 45 d = ::sqrt( d ); 46 d = std::sqrt( d ) [all...] |
unary.h | 21 { return ::sqrt(x_); }
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/ndk/tests/device/test-gnustl-full/unit/ |
resolve_name.cpp | 12 d = sqrt( d ); 13 d = ::sqrt( d ); 14 d = std::sqrt( d ); 26 d = sqrt( d ); 27 d = ::sqrt( d ); 28 d = std::sqrt( d ); 34 // VC6 consider call to sqrt ambiguous as soon as using namespace std has 44 d = sqrt( d ); 45 d = ::sqrt( d ); 46 d = std::sqrt( d ) [all...] |
unary.h | 21 { return ::sqrt(x_); }
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/ndk/tests/device/test-stlport/unit/ |
resolve_name.cpp | 12 d = sqrt( d ); 13 d = ::sqrt( d ); 14 d = std::sqrt( d ); 26 d = sqrt( d ); 27 d = ::sqrt( d ); 28 d = std::sqrt( d ); 34 // VC6 consider call to sqrt ambiguous as soon as using namespace std has 44 d = sqrt( d ); 45 d = ::sqrt( d ); 46 d = std::sqrt( d ) [all...] |
unary.h | 21 { return ::sqrt(x_); }
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/external/webkit/Source/JavaScriptCore/tests/mozilla/ecma/Math/ |
15.8.2.17.js | 24 ECMA Section: 15.8.2.17 Math.sqrt(x) 39 var TITLE = "Math.sqrt(x)"; 50 array[item++] = new TestCase( SECTION, "Math.sqrt.length", 1, Math.sqrt.length ); 52 array[item++] = new TestCase( SECTION, "Math.sqrt()", Number.NaN, Math.sqrt() ); 53 array[item++] = new TestCase( SECTION, "Math.sqrt(void 0)", Number.NaN, Math.sqrt(void 0) ); 54 array[item++] = new TestCase( SECTION, "Math.sqrt(null)", 0, Math.sqrt(null) ) [all...] |
/dalvik/vm/compiler/template/armv5te-vfp/ |
TEMPLATE_SQRT_DOUBLE_VFP.S | 3 * 64-bit floating point vfp sqrt operation. 20 bx r2 @ tail call to sqrt library routine 23 .word sqrt
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/dalvik/vm/compiler/template/mips/ |
TEMPLATE_SQRT_DOUBLE_VFP.S | 4 * 64-bit floating point sqrt operation. 17 sqrt.d fv0, fa0 21 JAL(sqrt)
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/frameworks/base/core/tests/coretests/src/android/util/ |
FloatMathTest.java | 26 assertEquals(7, FloatMath.sqrt(49), 0); 27 assertEquals(10, FloatMath.sqrt(100), 0); 28 assertEquals(0, FloatMath.sqrt(0), 0); 29 assertEquals(1, FloatMath.sqrt(1), 0);
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/external/eigen/doc/examples/ |
Tutorial_ArrayClass_cwise_other.cpp | 15 cout << "a.abs().sqrt() =" << endl 16 << a.abs().sqrt() << endl; 17 cout << "a.min(a.abs().sqrt()) =" << endl 18 << a.min(a.abs().sqrt()) << endl;
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/frameworks/base/tools/layoutlib/bridge/src/android/util/ |
FloatMath_Delegate.java | 87 * @param value to compute sqrt of 91 /*package*/ static float sqrt(float value) { method in class:FloatMath_Delegate 92 return (float)Math.sqrt(value); 121 * Returns {@code sqrt(}<i>{@code x}</i><sup>{@code 2}</sup>{@code +} <i> 130 return (float)Math.sqrt(x*x + y*y);
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/external/robolectric/src/main/java/com/xtremelabs/robolectric/shadows/ |
ShadowFloatMath.java | 47 public static float sqrt(float value) { method in class:ShadowFloatMath 48 return (float) Math.sqrt(value);
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/external/valgrind/main/auxprogs/ |
primes.c | 8 int sqrt_n = sqrt(n);
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/frameworks/base/core/java/android/util/ |
FloatMath.java | 68 * @param value to compute sqrt of 71 public static native float sqrt(float value); method in class:FloatMath 93 * Returns {@code sqrt(}<i>{@code x}</i><sup>{@code 2}</sup>{@code +} <i>
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/external/ceres-solver/internal/ceres/ |
corrector_test.cc | 59 double residuals = sqrt(3.0); 70 // residual[i] * sqrt(kRho[1]) / (1.0 - kAlpha). 72 residuals * sqrt(kRho[1]) / (1 - kAlpha); 75 // sqrt(kRho[1]) * (1 - kAlpha) * jacobian. 76 const double kExpectedJacobian = sqrt(kRho[1]) * (1 - kAlpha) * jacobian; 96 // i.e. alpha = 1.0 - sqrt(1.0). 99 // residual[i] * sqrt(kRho[1]) 100 const double kExpectedResidual = residuals * sqrt(kRho[1]); 103 // sqrt(kRho[1]) * jacobian. 104 const double kExpectedJacobian = sqrt(kRho[1]) * jacobian [all...] |
corrector.cc | 44 sqrt_rho1_ = sqrt(rho[1]); 98 const double alpha = 1.0 - sqrt(D);
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/external/eigen/test/ |
stable_norm.cpp | 76 VERIFY(!isFinite(internal::sqrt(-internal::abs(big)))); 79 VERIFY(isFinite(internal::sqrt(size)*internal::abs(big))); 80 VERIFY_IS_NOT_APPROX(internal::sqrt(copy(vbig.squaredNorm())), internal::abs(internal::sqrt(size)*big)); // here the default norm must fail 81 VERIFY_IS_APPROX(vbig.stableNorm(), internal::sqrt(size)*internal::abs(big)); 82 VERIFY_IS_APPROX(vbig.blueNorm(), internal::sqrt(size)*internal::abs(big)); 83 VERIFY_IS_APPROX(vbig.hypotNorm(), internal::sqrt(size)*internal::abs(big)); 86 VERIFY(isFinite(internal::sqrt(size)*internal::abs(small))); 87 VERIFY_IS_NOT_APPROX(internal::sqrt(copy(vsmall.squaredNorm())), internal::abs(internal::sqrt(size)*small)); // here the default norm must fai [all...] |
/bionic/libm/upstream-freebsd/lib/msun/src/ |
e_acosh.c | 21 * acosh(x) = log [ x + sqrt(x*x-1) ] 24 * acosh(x) := log(2x-1/(sqrt(x*x-1)+x)) if x>2; else 25 * acosh(x) := log1p(t+sqrt(2.0*t+t*t)); where t=x-1. 57 return __ieee754_log(2.0*x-one/(x+sqrt(t-one))); 60 return log1p(t+sqrt(2.0*t+t*t));
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s_csqrtf.c | 82 t = sqrt((a + hypot(a, b)) * 0.5); 85 t = sqrt((-a + hypot(a, b)) * 0.5);
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