tesseract/ccutil/kdpair.h

190 lines
6.8 KiB
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// Copyright 2012 Google Inc. All Rights Reserved.
// Author: rays@google.com (Ray Smith)
///////////////////////////////////////////////////////////////////////
// File: kdpair.h
// Description: Template pair class like STL pair but geared towards
// the Key+Data design pattern in which some data needs
// to be sorted or kept in a heap sorted on some separate key.
// Author: Ray Smith.
// Created: Thu Mar 15 14:48:05 PDT 2012
//
// (C) Copyright 2012, Google Inc.
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
// http://www.apache.org/licenses/LICENSE-2.0
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//
///////////////////////////////////////////////////////////////////////
#ifndef TESSERACT_CCUTIL_KDPAIR_H_
#define TESSERACT_CCUTIL_KDPAIR_H_
#include "genericvector.h"
namespace tesseract {
// A useful base struct to facilitate the common operation of sorting a vector
// of simple or smart-pointer data using a separate key. Similar to STL pair.
template <typename Key, typename Data>
struct KDPair {
KDPair() {}
KDPair(Key k, Data d) : data(d), key(k) {}
int operator==(const KDPair<Key, Data>& other) const {
return key == other.key;
}
// WARNING! Keep data as the first element! KDPairInc and KDPairDec depend
// on the order of these elements so they can downcast pointers appropriately
// for use by GenericHeap::Reshuffle.
Data data;
Key key;
};
// Specialization of KDPair to provide operator< for sorting in increasing order
// and recasting of data pointers for use with DoublePtr.
template <typename Key, typename Data>
struct KDPairInc : public KDPair<Key, Data> {
KDPairInc() {}
KDPairInc(Key k, Data d) : KDPair<Key, Data>(k, d) {}
// Operator< facilitates sorting in increasing order.
int operator<(const KDPairInc<Key, Data>& other) const {
return this->key < other.key;
}
// Returns the input Data pointer recast to a KDPairInc pointer.
// Just casts a pointer to the first element to a pointer to the whole struct.
static KDPairInc* RecastDataPointer(Data* data_ptr) {
return reinterpret_cast<KDPairInc*>(data_ptr);
}
};
// Specialization of KDPair to provide operator< for sorting in decreasing order
// and recasting of data pointers for use with DoublePtr.
template <typename Key, typename Data>
struct KDPairDec : public KDPair<Key, Data> {
KDPairDec() {}
KDPairDec(Key k, Data d) : KDPair<Key, Data>(k, d) {}
// Operator< facilitates sorting in decreasing order by using operator> on
// the key values.
int operator<(const KDPairDec<Key, Data>& other) const {
return this->key > other.key;
}
// Returns the input Data pointer recast to a KDPairDec pointer.
// Just casts a pointer to the first element to a pointer to the whole struct.
static KDPairDec* RecastDataPointer(Data* data_ptr) {
return reinterpret_cast<KDPairDec*>(data_ptr);
}
};
// A useful base class to facilitate the common operation of sorting a vector
// of owned pointer data using a separate key. This class owns its data pointer,
// deleting it when it has finished with it, and providing copy constructor and
// operator= that have move semantics so that the data does not get copied and
// only a single instance of KDPtrPair holds a specific data pointer.
template <typename Key, typename Data>
class KDPtrPair {
public:
KDPtrPair() : data_(NULL) {}
KDPtrPair(Key k, Data* d) : data_(d), key_(k) {}
// Copy constructor steals the pointer from src and NULLs it in src, thereby
// moving the (single) ownership of the data.
KDPtrPair(KDPtrPair& src) : data_(src.data_), key_(src.key_) {
src.data_ = NULL;
}
// Destructor deletes data, assuming it is the sole owner.
~KDPtrPair() {
delete this->data_;
this->data_ = NULL;
}
// Operator= steals the pointer from src and NULLs it in src, thereby
// moving the (single) ownership of the data.
void operator=(KDPtrPair& src) {
delete this->data_;
this->data_ = src.data_;
src.data_ = NULL;
this->key_ = src.key_;
}
int operator==(const KDPtrPair<Key, Data>& other) const {
return key_ == other.key_;
}
// Accessors.
const Key& key() const {
return key_;
}
void set_key(const Key& new_key) {
key_ = new_key;
}
const Data* data() const {
return data_;
}
// Sets the data pointer, taking ownership of the data.
void set_data(Data* new_data) {
delete data_;
data_ = new_data;
}
// Relinquishes ownership of the data pointer (setting it to NULL).
Data* extract_data() {
Data* result = data_;
data_ = NULL;
return result;
}
private:
// Data members are private to keep deletion of data_ encapsulated.
Data* data_;
Key key_;
};
// Specialization of KDPtrPair to provide operator< for sorting in increasing
// order.
template <typename Key, typename Data>
struct KDPtrPairInc : public KDPtrPair<Key, Data> {
// Since we are doing non-standard stuff we have to duplicate *all* the
// constructors and operator=.
KDPtrPairInc() : KDPtrPair<Key, Data>() {}
KDPtrPairInc(Key k, Data* d) : KDPtrPair<Key, Data>(k, d) {}
KDPtrPairInc(KDPtrPairInc& src) : KDPtrPair<Key, Data>(src) {}
void operator=(KDPtrPairInc& src) {
KDPtrPair<Key, Data>::operator=(src);
}
// Operator< facilitates sorting in increasing order.
int operator<(const KDPtrPairInc<Key, Data>& other) const {
return this->key() < other.key();
}
};
// Specialization of KDPtrPair to provide operator< for sorting in decreasing
// order.
template <typename Key, typename Data>
struct KDPtrPairDec : public KDPtrPair<Key, Data> {
// Since we are doing non-standard stuff we have to duplicate *all* the
// constructors and operator=.
KDPtrPairDec() : KDPtrPair<Key, Data>() {}
KDPtrPairDec(Key k, Data* d) : KDPtrPair<Key, Data>(k, d) {}
KDPtrPairDec(KDPtrPairDec& src) : KDPtrPair<Key, Data>(src) {}
void operator=(KDPtrPairDec& src) {
KDPtrPair<Key, Data>::operator=(src);
}
// Operator< facilitates sorting in decreasing order by using operator> on
// the key values.
int operator<(const KDPtrPairDec<Key, Data>& other) const {
return this->key() > other.key();
}
};
// Specialization for a pair of ints in increasing order.
typedef KDPairInc<int, int> IntKDPair;
// Vector of IntKDPair.
class KDVector : public GenericVector<IntKDPair> {
// TODO(rays) Add some code to manipulate a KDVector. For now there
// is nothing and this class is effectively a specialization typedef.
};
} // namespace tesseract
#endif // TESSERACT_CCUTIL_KDPAIR_H_