/usr/include/fst/script/encodemapper-class.h is in libfst-dev 1.6.3-2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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// finite-state transducer library.
#ifndef FST_SCRIPT_ENCODEMAPPER_CLASS_H_
#define FST_SCRIPT_ENCODEMAPPER_CLASS_H_
#include <memory>
#include <string>
#include <iostream>
#include <fst/fstlib.h>
#include <fst/script/arc-class.h>
#include <fst/script/arg-packs.h>
#include <fst/script/fst-class.h>
// Scripting API support for EncodeMapper.
namespace fst {
namespace script {
// Virtual interface implemented by each concrete EncodeMapperClassImpl<A>.
class EncodeMapperImplBase {
public:
// Returns an encoded ArcClass.
virtual ArcClass operator()(const ArcClass &a) = 0;
virtual const string &ArcType() const = 0;
virtual uint32 Flags() const = 0;
virtual uint64 Properties(uint64 inprops) = 0;
virtual EncodeType Type() const = 0;
virtual const SymbolTable *InputSymbols() const = 0;
virtual const SymbolTable *OutputSymbols() const = 0;
virtual void SetInputSymbols(const SymbolTable *syms) = 0;
virtual void SetOutputSymbols(const SymbolTable *syms) = 0;
virtual const string &WeightType() const = 0;
virtual ~EncodeMapperImplBase() {}
};
// Templated implementation.
template <class Arc>
class EncodeMapperClassImpl : public EncodeMapperImplBase {
public:
EncodeMapperClassImpl(uint32 flags, EncodeType type)
: encoder_(flags, type) {}
ArcClass operator()(const ArcClass &a) final;
const string &ArcType() const final { return Arc::Type(); }
uint32 Flags() const final { return encoder_.Flags(); }
uint64 Properties(uint64 inprops) final {
return encoder_.Properties(inprops);
}
EncodeType Type() const final { return encoder_.Type(); }
const SymbolTable *InputSymbols() const final {
return encoder_.InputSymbols();
}
const SymbolTable *OutputSymbols() const final {
return encoder_.OutputSymbols();
}
void SetInputSymbols(const SymbolTable *syms) final {
encoder_.SetInputSymbols(syms);
}
void SetOutputSymbols(const SymbolTable *syms) final {
encoder_.SetOutputSymbols(syms);
}
const string &WeightType() const final { return Arc::Weight::Type(); }
~EncodeMapperClassImpl() override {}
EncodeMapper<Arc> *GetImpl() const { return &encoder_; }
EncodeMapper<Arc> *GetImpl() { return &encoder_; }
private:
EncodeMapper<Arc> encoder_;
};
// This is returned by value because it is very likely to undergo return-value
// optimization.
template <class Arc>
inline ArcClass EncodeMapperClassImpl<Arc>::operator()(const ArcClass &a) {
Arc arc(a.ilabel, a.olabel, *(a.weight.GetWeight<typename Arc::Weight>()),
a.nextstate);
return ArcClass(encoder_(arc));
}
class EncodeMapperClass;
using InitEncodeMapperClassArgs =
args::Package<uint32, EncodeType, EncodeMapperClass *>;
class EncodeMapperClass {
public:
EncodeMapperClass(const string &arc_type, uint32 flags, EncodeType type);
template <class Arc>
EncodeMapperClass(uint32 flags, EncodeType type)
: impl_(new EncodeMapperClassImpl<Arc>(flags, type)) {}
ArcClass operator()(const ArcClass &arc) { return (*impl_)(arc); }
const string &ArcType() const { return impl_->ArcType(); }
uint32 Flags() const { return impl_->Flags(); }
uint64 Properties(uint64 inprops) { return impl_->Properties(inprops); }
EncodeType Type() const { return impl_->Type(); }
const SymbolTable *InputSymbols() const { return impl_->InputSymbols(); }
const SymbolTable *OutputSymbols() const { return impl_->OutputSymbols(); }
void SetInputSymbols(const SymbolTable *syms) {
impl_->SetInputSymbols(syms);
}
void SetOutputSymbols(const SymbolTable *syms) {
impl_->SetOutputSymbols(syms);
}
const string &WeightType() const { return impl_->WeightType(); }
template <class Arc>
friend void InitEncodeMapperClass(InitEncodeMapperClassArgs *args);
// Naturally, this exists in non-const and const forms. Encoding arcs or FSTs
// mutates the underlying encoder; decoding them does not.
template <class Arc>
EncodeMapper<Arc> *GetEncodeMapper() {
if (Arc::Type() != ArcType()) {
return nullptr;
} else {
auto *typed_impl = static_cast<EncodeMapperClassImpl<Arc> *>(impl_.get());
return typed_impl->GetImpl();
}
}
template <class Arc>
const EncodeMapper<Arc> *GetEncodeMapper() const {
if (Arc::Type() != ArcType()) {
return nullptr;
} else {
auto *typed_impl = static_cast<EncodeMapperClassImpl<Arc> *>(impl_.get());
return typed_impl->GetImpl();
}
}
private:
std::unique_ptr<EncodeMapperImplBase> impl_;
};
template <class Arc>
void InitEncodeMapperClass(InitEncodeMapperClassArgs *args) {
args->arg3->impl_.reset(
new EncodeMapperClassImpl<Arc>(args->arg1, args->arg2));
}
} // namespace script
} // namespace fst
#endif // FST_SCRIPT_ENCODEMAPPER_CLASS_H_
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