/external/chromium_org/native_client_sdk/src/examples/tutorial/dlopen/ |
reverse.cc | 5 #include "reverse.h" 9 extern "C" char* Reverse(const char* s) {
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/external/openfst/src/script/ |
reverse.cc | 19 #include <fst/script/reverse.h> 24 void Reverse(const FstClass &fst1, MutableFstClass *fst2) { 25 if (!ArcTypesMatch(fst1, *fst2, "Reverse")) return; 29 Apply<Operation<ReverseArgs> >("Reverse", fst1.ArcType(), &args); 32 REGISTER_FST_OPERATION(Reverse, StdArc, ReverseArgs); 33 REGISTER_FST_OPERATION(Reverse, LogArc, ReverseArgs); 34 REGISTER_FST_OPERATION(Reverse, Log64Arc, ReverseArgs);
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/external/openfst/src/include/fst/extensions/pdt/ |
reverse.h | 0 // reverse.h 32 #include <fst/reverse.h> 38 void Reverse(const Fst<Arc> &ifst, 45 Reverse(ifst, ofst);
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/external/openfst/src/include/fst/script/ |
reverse.h | 22 #include <fst/reverse.h> 30 void Reverse(ReverseArgs *args) { 34 Reverse(fst1, fst2); 37 void Reverse(const FstClass &fst1, MutableFstClass *fst2);
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/external/openfst/src/include/fst/ |
reverse.h | 0 // reverse.h 35 // reverse of A transduces the reverse of x to the reverse of y with 36 // weight a.Reverse(). 38 // Typically, a = a.Reverse() and Arc = RevArc (e.g. for 43 void Reverse(const Fst<Arc> &ifst, MutableFst<RevArc> *ofst) { 69 RevArc oarc(0, 0, final.Reverse(), os); 77 RevArc oarc(iarc.ilabel, iarc.olabel, iarc.weight.Reverse(), os);
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expectation-weight.h | 54 using PairWeight<X1, X2>::Reverse; 100 ReverseWeight Reverse() const { 101 return PairWeight<X1, X2>::Reverse();
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lexicographic-weight.h | 50 using PairWeight<W1, W2>::Reverse; 108 ReverseWeight Reverse() const { 109 return PairWeight<W1, W2>::Reverse();
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product-weight.h | 41 using PairWeight<W1, W2>::Reverse; 84 ReverseWeight Reverse() const { 85 return PairWeight<W1, W2>::Reverse();
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power-weight.h | 45 using TupleWeight<W, n>::Reverse; 91 ReverseWeight Reverse() const { 92 return TupleWeight<W, n>::Reverse();
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signed-log-weight.h | 40 using PairWeight<X1, X2>::Reverse; 81 ReverseWeight Reverse() const { 82 return PairWeight<X1, X2>::Reverse();
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sparse-power-weight.h | 86 using SparseTupleWeight<W, K>::Reverse; 143 ReverseWeight Reverse() const { 144 return SparseTupleWeight<W, K>::Reverse();
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tuple-weight.h | 122 ReverseWeight Reverse() const { 125 w.values_[i] = values_[i].Reverse();
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float-weight.h | 230 TropicalWeightTpl<T> Reverse() const { return *this; } 355 LogWeightTpl<T> Reverse() const { return *this; } 491 MinMaxWeightTpl<T> Reverse() const { return *this; }
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pair-weight.h | 102 ReverseWeight Reverse() const { 103 return ReverseWeight(value1_.Reverse(), value2_.Reverse());
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sparse-tuple-weight.h | 159 ReverseWeight Reverse() const { 162 w.Push(it.Value().first, it.Value().second.Reverse());
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string-weight.h | 122 ReverseWeight Reverse() const; 267 StringWeight<L, S>::Reverse() const {
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/external/pdfium/core/src/fpdfapi/fpdf_cmaps/ |
cmap_int.h | 10 typedef enum { None, Single, Range, Reverse } MapType;
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/external/srec/tools/thirdparty/OpenFst/fst/lib/ |
reverse.h | 0 // reverse.h 28 // reverse of A transduces the reverse of x to the reverse of y with 29 // weight a.Reverse(). 31 // Typically, a = a.Reverse() and Arc = RevArc (e.g. for 36 void Reverse(const Fst<Arc> &ifst, MutableFst<RevArc> *ofst) { 60 RevArc oarc(0, 0, final.Reverse(), os); 68 RevArc oarc(iarc.ilabel, iarc.olabel, iarc.weight.Reverse(), os);
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float-weight.h | 144 TropicalWeight Reverse() const { return *this; } 210 LogWeight Reverse() const { return *this; }
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product-weight.h | 84 ReverseWeight Reverse() const { 85 return ReverseWeight(value1_.Reverse(), value2_.Reverse());
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/external/ceres-solver/include/ceres/ |
ordered_groups.h | 122 // Reverse the order of the groups in place. 123 void Reverse() {
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/external/chromium_org/crypto/ |
ghash.cc | 42 // Reverse reverses the order of the bits of 4-bit number in |i|. 43 int Reverse(int i) { 56 // be in the reverse order. So normally one would expect, say, 4*key to be in 62 product_table_[Reverse(1)] = x; 65 product_table_[Reverse(i)] = Double(product_table_[Reverse(i/2)]); 66 product_table_[Reverse(i+1)] = Add(product_table_[Reverse(i)], x);
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/external/eigen/Eigen/src/Core/ |
Reverse.h | 17 /** \class Reverse 20 * \brief Expression of the reverse of a vector or matrix 22 * \param MatrixType the type of the object of which we are taking the reverse 24 * This class represents an expression of the reverse of a vector. 25 * It is the return type of MatrixBase::reverse() and VectorwiseOp::reverse() 28 * \sa MatrixBase::reverse(), VectorwiseOp::reverse() 34 struct traits<Reverse<MatrixType, Direction> > 70 template<typename MatrixType, int Direction> class Reverse 191 DenseBase<Derived>::reverse() function in class:Eigen::DenseBase 199 DenseBase<Derived>::reverse() const function in class:Eigen::DenseBase [all...] |
/external/chromium_org/third_party/brotli/src/brotli/enc/ |
entropy_encode.cc | 161 void Reverse(uint8_t* v, int start, int end) { 207 Reverse(tree, start, *tree_size); 208 Reverse(extra_bits, start, *tree_size); 239 Reverse(tree, start, *tree_size); 240 Reverse(extra_bits, start, *tree_size);
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/external/llvm/lib/TableGen/ |
SetTheory.cpp | 115 const bool Reverse; 117 RotOp(bool Rev) : Reverse(Rev) {} 121 if (Reverse)
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