| /external/eigen/doc/snippets/ |
| Cwise_abs2.cpp | 2 cout << v.abs2() << endl;
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| /toolchain/binutils/binutils-2.25/gas/testsuite/gas/i386/ |
| pcrel.s | 19 jmp abs2
30 jmp abs2 - abs
35 jmp abs - abs2
36 jmp ext - abs2
37 jmp weak - abs2
38 jmp comm - abs2
39 jmp loc - abs2
40 jmp glob - abs2
41 jmp abs2 - abs2
56 abs2 = 0x9876 define
[all...] |
| absrel.s | 19 mov abs2, %eax
30 mov abs2 - abs, %eax
35 mov abs - abs2,%eax
36 mov ext - abs2,%eax
37 mov weak - abs2,%eax
38 mov comm - abs2,%eax
39 mov loc - abs2,%eax
40 mov glob - abs2,%eax
41 mov abs2 - abs2,%ea
56 abs2 = 0x9876 define
[all...] |
| ifunc-2.s | 44 .long abs1-abs2
45 .long abs2-abs1
50 .long abs1-abs2
51 .long abs2-abs1
53 .equ abs2,0x11223380
54 .type abs2,%gnu_indirect_function
56 .long abs1-abs2
57 .long abs2-abs1
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| /art/test/455-checker-gvn/src/ |
| Main.java | 86 int abs2 = Math.abs(x); local
87 return abs1 + abs2;
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| /external/eigen/unsupported/Eigen/src/NonLinearOptimization/ |
| dogleg.h | 95 temp = temp - delta / qnorm * numext::abs2(sgnorm / delta) + sqrt(numext::abs2(temp - delta / qnorm) + (1.-numext::abs2(delta / qnorm)) * (1.-numext::abs2(sgnorm / delta)));
96 alpha = delta / qnorm * (1. - numext::abs2(sgnorm / delta)) / temp;
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| /external/eigen/unsupported/test/ |
| mpreal_support.cpp | 30 VERIFY(Eigen::internal::isApprox(A.array().abs2().sum(), A.squaredNorm()));
32 VERIFY_IS_APPROX(A.array().abs2().sqrt(), A.array().abs());
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| FFTW.cpp | 40 totalpower += numext::abs2(acc);
43 difpower += numext::abs2(dif);
44 //cerr << k0 << "\t" << acc << "\t" << x << "\t" << sqrt(numext::abs2(dif)) << endl;
57 totalpower += (numext::abs2( buf1[k] ) + numext::abs2(buf2[k]) )/2.;
58 difpower += numext::abs2(buf1[k] - buf2[k]);
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| /external/eigen/unsupported/Eigen/src/Polynomials/ |
| PolynomialSolver.h | 86 RealScalar norm2 = numext::abs2( m_roots[0] );
89 const RealScalar currNorm2 = numext::abs2( m_roots[i] );
125 RealScalar abs2(0);
135 abs2 = m_roots[i].real() * m_roots[i].real();
140 if( pred( currAbs2, abs2 ) )
142 abs2 = currAbs2;
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| PolynomialUtils.h | 50 if( numext::abs2( x ) <= Real(1) ){
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| /external/eigen/Eigen/src/Core/ |
| StableNorm.h | 25 ssq = ssq * numext::abs2(scale/maxCoeff);
100 if(ax > ab2) abig += numext::abs2(ax*s2m);
101 else if(ax < b1) asml += numext::abs2(ax*s1m);
102 else amed += numext::abs2(ax);
136 return abig * sqrt(RealScalar(1) + numext::abs2(asml/abig));
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| Fuzzy.h | 45 return x.cwiseAbs2().sum() <= numext::abs2(prec) * y.cwiseAbs2().sum();
63 return x.cwiseAbs2().sum() <= numext::abs2(prec * y);
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| MathFunctions.h | 218 * Implementation of abs2 *
599 inline EIGEN_MATHFUNC_RETVAL(abs2, Scalar) abs2(const Scalar& x) function in namespace:Eigen::numext
601 return EIGEN_MATHFUNC_IMPL(abs2, Scalar)::run(x);
696 return numext::abs2(x) <= numext::abs2(y) * prec * prec;
701 return numext::abs2(x - y) <= (min)(numext::abs2(x), numext::abs2(y)) * prec * prec;
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| GlobalFunctions.h | 86 EIGEN_ARRAY_DECLARE_GLOBAL_EIGEN_UNARY(abs2,scalar_abs2_op)
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| /external/eigen/test/ |
| eigen2support.cpp | 49 using numext::abs2;
52 VERIFY_IS_EQUAL(ei_abs2(s1), abs2(s1));
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| array.cpp | 181 VERIFY_IS_APPROX(m1.abs(), sqrt(numext::abs2(m1)));
183 VERIFY_IS_APPROX(numext::abs2(numext::real(m1)) + numext::abs2(numext::imag(m1)), numext::abs2(m1));
184 VERIFY_IS_APPROX(numext::abs2(real(m1)) + numext::abs2(imag(m1)), numext::abs2(m1));
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| stable_norm.cpp | 55 while(numext::abs2(factor)<RealScalar(1e-4))
60 while(numext::abs2(factor)<RealScalar(1e-4))
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| /external/eigen/Eigen/src/plugins/ |
| ArrayCwiseUnaryOps.h | 8 * \sa abs2()
24 abs2() const function
168 * \sa operator/(), operator*(), abs2()
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| /external/eigen/Eigen/src/Jacobi/ |
| Jacobi.h | 97 RealScalar w = sqrt(numext::abs2(tau) + RealScalar(1));
108 RealScalar n = RealScalar(1) / sqrt(numext::abs2(t)+RealScalar(1));
181 RealScalar p2 = numext::abs2(ps);
183 RealScalar q2 = numext::abs2(qs);
196 RealScalar p2 = numext::abs2(ps);
198 RealScalar q2 = numext::abs2(qs);
234 Scalar u = sqrt(Scalar(1) + numext::abs2(t));
244 Scalar u = sqrt(Scalar(1) + numext::abs2(t));
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| /external/eigen/test/eigen2/ |
| product.h | 17 return !((m1-m2).cwise().abs2().maxCoeff() < epsilon * epsilon
18 * std::max(m1.cwise().abs2().maxCoeff(), m2.cwise().abs2().maxCoeff()));
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| /external/eigen/unsupported/Eigen/src/LevenbergMarquardt/ |
| LMonestep.h | 112 actred = 1. - numext::abs2(fnorm1 / m_fnorm);
117 temp1 = numext::abs2(m_wa3.stableNorm() / m_fnorm);
118 temp2 = numext::abs2(sqrt(m_par) * pnorm / m_fnorm);
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| /external/eigen/Eigen/src/Eigenvalues/ |
| SelfAdjointEigenSolver.h | 659 const Scalar t0 = Scalar(0.5) * sqrt( numext::abs2(m(0,0)-m(1,1)) + Scalar(4)*numext::abs2(m(1,0)));
697 Scalar a2 = numext::abs2(scaledMat(0,0));
698 Scalar c2 = numext::abs2(scaledMat(1,1));
699 Scalar b2 = numext::abs2(scaledMat(1,0));
743 // RealScalar e2 = numext::abs2(subdiag[end-1]);
751 RealScalar e2 = numext::abs2(subdiag[end-1]);
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| /external/eigen/Eigen/src/Householder/ |
| Householder.h | 87 beta = sqrt(numext::abs2(c0) + tailSqNorm);
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| /external/eigen/blas/ |
| level1_impl.h | 123 norm = scale*sqrt((numext::abs2(a/scale)) + (numext::abs2(b/scale)));
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| /external/eigen/bench/ |
| bench_norm.cpp | 38 ssq += internal::abs2(ax/scale);
42 ssq = Scalar(1) + ssq * internal::abs2(scale/ax);
211 return abig * internal::sqrt(Scalar(1) + internal::abs2(asml/abig));
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