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git-svn-id: https://tesseract-ocr.googlecode.com/svn/trunk@340 d0cd1f9f-072b-0410-8dd7-cf729c803f20
426 lines
12 KiB
C++
426 lines
12 KiB
C++
///////////////////////////////////////////////////////////////////////
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// File: genericvector.h
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// Description: Generic vector class
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// Author: Daria Antonova
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// Created: Mon Jun 23 11:26:43 PDT 2008
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//
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// (C) Copyright 2007, Google Inc.
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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// http://www.apache.org/licenses/LICENSE-2.0
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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//
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///////////////////////////////////////////////////////////////////////
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//
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#ifndef TESSERACT_CCUTIL_GENERICVECTOR_H_
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#define TESSERACT_CCUTIL_GENERICVECTOR_H_
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#include <stdio.h>
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#include "callback.h"
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#include "errcode.h"
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#include "helpers.h"
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template <typename T>
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class GenericVector {
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public:
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GenericVector() { this->init(kDefaultVectorSize); }
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GenericVector(int size) { this->init(size); }
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// Copy
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GenericVector(const GenericVector& other) {
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this->init(other.size());
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this->operator+=(other);
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}
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GenericVector<T> &operator+=(const GenericVector& other);
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GenericVector<T> &operator=(const GenericVector& other);
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virtual ~GenericVector();
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// Reserve some memory.
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void reserve(int size);
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// Double the size of the internal array.
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void double_the_size();
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// Return the size used.
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int size() const {
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return size_used_;
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}
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int length() const {
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return size_used_;
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}
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// Return true if empty.
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bool empty() const {
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return size_used_ == 0;
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}
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// Return the object from an index.
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T &get(int index) const;
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T &operator[](int index) const;
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// Return the index of the T object.
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// This method NEEDS a compare_callback to be passed to
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// set_compare_callback.
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int get_index(T object) const;
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// Return true if T is in the array
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bool contains(T object) const;
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// Return true if the index is valid
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T contains_index(int index) const;
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// Push an element in the end of the array
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int push_back(T object);
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void operator+=(T t);
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// Set the value at the given index
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void set(T t, int index);
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// Insert t at the given index, push other elements to the right.
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void insert(T t, int index);
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// Removes an element at the given index and
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// shifts the remaining elements to the left.
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void remove(int index);
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// Add a callback to be called to delete the elements when the array took
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// their ownership.
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void set_clear_callback(Callback1<T>* cb);
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// Add a callback to be called to compare the elements when needed (contains,
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// get_id, ...)
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void set_compare_callback(ResultCallback2<bool, T const &, T const &>* cb);
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// Clear the array, calling the clear callback function if any.
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// All the owned Callbacks are also deleted.
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// If you don't want the Callbacks to be deleted, before calling clear, set
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// the callback to NULL.
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virtual void clear();
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// Delete objects pointed to by data_[i]
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void delete_data_pointers();
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// This method clears the current object, then, does a shallow copy of
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// its argument, and finally invalidate its argument.
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// Callbacks are moved to the current object;
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void move(GenericVector<T>* from);
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// Read/Write the array to a file. This does _NOT_ read/write the callbacks.
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// The Callback given must be permanent since they will be called more than
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// once. The given callback will be deleted at the end.
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// If the callbacks are NULL, then the data is simply read/written using
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// fread (and swapping)/fwrite.
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// Returns false on error or if the callback returns false.
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bool write(FILE* f, ResultCallback2<bool, FILE*, T const &>* cb) const;
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bool read(FILE* f, ResultCallback3<bool, FILE*, T*, bool>* cb, bool swap);
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// Allocates a new array of double the current_size, copies over the
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// information from data to the new location, deletes data and returns
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// the pointed to the new larger array.
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// This function uses memcpy to copy the data, instead of invoking
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// operator=() for each element like double_the_size() does.
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static T *double_the_size_memcpy(int current_size, T *data) {
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T *data_new = new T[current_size * 2];
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memcpy(data_new, data, sizeof(T) * current_size);
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delete[] data;
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return data_new;
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}
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protected:
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// Init the object, allocating size memory.
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void init(int size);
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// We are assuming that the object generally placed in thie
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// vector are small enough that for efficiency it makes sence
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// to start with a larger initial size.
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static const int kDefaultVectorSize = 4;
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inT32 size_used_;
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inT32 size_reserved_;
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T* data_;
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Callback1<T>* clear_cb_;
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// Mutable because Run method is not const
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mutable ResultCallback2<bool, T const &, T const &>* compare_cb_;
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};
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namespace tesseract {
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template <typename T>
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bool cmp_eq(T const & t1, T const & t2) {
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return t1 == t2;
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}
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} // namespace tesseract
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// A useful vector that uses operator== to do comparisons.
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template <typename T>
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class GenericVectorEqEq : public GenericVector<T> {
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public:
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GenericVectorEqEq() {
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GenericVector<T>::set_compare_callback(
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NewPermanentCallback(tesseract::cmp_eq<T>));
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}
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GenericVectorEqEq(int size) : GenericVector<T>(size) {
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GenericVector<T>::set_compare_callback(
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NewPermanentCallback(tesseract::cmp_eq<T>));
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}
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};
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template <typename T>
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void GenericVector<T>::init(int size) {
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size_used_ = 0;
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size_reserved_ = 0;
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data_ = 0;
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clear_cb_ = 0;
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compare_cb_ = 0;
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reserve(size);
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}
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template <typename T>
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GenericVector<T>::~GenericVector() {
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clear();
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}
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// Reserve some memory. If the internal array contains elements, they are
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// copied.
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template <typename T>
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void GenericVector<T>::reserve(int size) {
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if (size_reserved_ > size || size <= 0)
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return;
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T* new_array = new T[size];
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for (int i = 0; i < size_used_; ++i)
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new_array[i] = data_[i];
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if (data_ != NULL) delete[] data_;
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data_ = new_array;
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size_reserved_ = size;
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}
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template <typename T>
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void GenericVector<T>::double_the_size() {
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if (size_reserved_ == 0) {
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reserve(kDefaultVectorSize);
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}
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else {
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reserve(2 * size_reserved_);
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}
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}
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// Return the object from an index.
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template <typename T>
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T &GenericVector<T>::get(int index) const {
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ASSERT_HOST(index >= 0 && index < size_used_);
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return data_[index];
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}
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template <typename T>
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T &GenericVector<T>::operator[](int index) const {
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return data_[index];
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}
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// Return the object from an index.
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template <typename T>
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void GenericVector<T>::set(T t, int index) {
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ASSERT_HOST(index >= 0 && index < size_used_);
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data_[index] = t;
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}
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// Shifts the rest of the elements to the right to make
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// space for the new elements and inserts the given element
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// at the specified index.
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template <typename T>
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void GenericVector<T>::insert(T t, int index) {
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ASSERT_HOST(index >= 0 && index < size_used_);
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if (size_reserved_ == size_used_)
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double_the_size();
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for (int i = size_used_; i > index; --i) {
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data_[i] = data_[i-1];
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}
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data_[index] = t;
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size_used_++;
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}
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// Removes an element at the given index and
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// shifts the remaining elements to the left.
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template <typename T>
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void GenericVector<T>::remove(int index) {
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ASSERT_HOST(index >= 0 && index < size_used_);
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for (int i = index; i < size_used_ - 1; ++i) {
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data_[i] = data_[i+1];
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}
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size_used_--;
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}
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// Return true if the index is valindex
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template <typename T>
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T GenericVector<T>::contains_index(int index) const {
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return index >= 0 && index < size_used_;
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}
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// Return the index of the T object.
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template <typename T>
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int GenericVector<T>::get_index(T object) const {
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for (int i = 0; i < size_used_; ++i) {
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ASSERT_HOST(compare_cb_ != NULL);
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if (compare_cb_->Run(object, data_[i]))
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return i;
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}
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return -1;
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}
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// Return true if T is in the array
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template <typename T>
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bool GenericVector<T>::contains(T object) const {
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return get_index(object) != -1;
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}
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// Add an element in the array
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template <typename T>
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int GenericVector<T>::push_back(T object) {
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int index = 0;
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if (size_used_ == size_reserved_)
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double_the_size();
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index = size_used_++;
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data_[index] = object;
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return index;
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}
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template <typename T>
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void GenericVector<T>::operator+=(T t) {
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push_back(t);
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}
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template <typename T>
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GenericVector<T> &GenericVector<T>::operator+=(const GenericVector& other) {
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for (int i = 0; i < other.size(); ++i) {
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this->operator+=(other.data_[i]);
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}
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return *this;
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}
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template <typename T>
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GenericVector<T> &GenericVector<T>::operator=(const GenericVector& other) {
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this->clear();
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this->operator+=(other);
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return *this;
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}
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// Add a callback to be called to delete the elements when the array took
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// their ownership.
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template <typename T>
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void GenericVector<T>::set_clear_callback(Callback1<T>* cb) {
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clear_cb_ = cb;
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}
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// Add a callback to be called to delete the elements when the array took
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// their ownership.
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template <typename T>
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void GenericVector<T>::set_compare_callback(ResultCallback2<bool, T const &, T const &>* cb) {
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compare_cb_ = cb;
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}
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// Clear the array, calling the callback function if any.
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template <typename T>
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void GenericVector<T>::clear() {
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if (size_reserved_ > 0) {
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if (clear_cb_ != NULL)
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for (int i = 0; i < size_used_; ++i)
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clear_cb_->Run(data_[i]);
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delete[] data_;
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data_ = NULL;
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size_used_ = 0;
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size_reserved_ = 0;
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}
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if (clear_cb_ != NULL) {
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delete clear_cb_;
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clear_cb_ = NULL;
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}
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if (compare_cb_ != NULL) {
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delete compare_cb_;
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compare_cb_ = NULL;
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}
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}
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template <typename T>
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void GenericVector<T>::delete_data_pointers() {
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for (int i = 0; i < size_used_; ++i)
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if (data_[i]) {
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delete data_[i];
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}
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}
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template <typename T>
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bool GenericVector<T>::write(
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FILE* f, ResultCallback2<bool, FILE*, T const &>* cb) const {
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if (fwrite(&size_reserved_, sizeof(size_reserved_), 1, f) != 1) return false;
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if (fwrite(&size_used_, sizeof(size_used_), 1, f) != 1) return false;
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if (cb != NULL) {
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for (int i = 0; i < size_used_; ++i) {
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if (!cb->Run(f, data_[i])) {
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delete cb;
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return false;
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}
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}
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delete cb;
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} else {
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if (fwrite(data_, sizeof(T), size_used_, f) != size_used_) return false;
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}
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return true;
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}
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template <typename T>
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bool GenericVector<T>::read(FILE* f,
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ResultCallback3<bool, FILE*, T*, bool>* cb,
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bool swap) {
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uinT32 reserved;
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if (fread(&reserved, sizeof(reserved), 1, f) != 1) return false;
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if (swap) Reverse32(&reserved);
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reserve(reserved);
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if (fread(&size_used_, sizeof(size_used_), 1, f) != 1) return false;
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if (swap) Reverse32(&size_used_);
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if (cb != NULL) {
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for (int i = 0; i < size_used_; ++i) {
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if (!cb->Run(f, data_ + i, swap)) {
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delete cb;
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return false;
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}
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}
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delete cb;
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} else {
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if (fread(data_, sizeof(T), size_used_, f) != size_used_) return false;
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if (swap) {
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for (int i = 0; i < size_used_; ++i)
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ReverseN(&data_[i], sizeof(T));
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}
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}
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return true;
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}
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// This method clear the current object, then, does a shallow copy of
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// its argument, and finally invalindate its argument.
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template <typename T>
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void GenericVector<T>::move(GenericVector<T>* from) {
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this->clear();
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this->data_ = from->data_;
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this->size_reserved_ = from->size_reserved_;
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this->size_used_ = from->size_used_;
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this->compare_cb_ = from->compare_cb_;
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this->clear_cb_ = from->clear_cb_;
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from->data_ = NULL;
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from->clear_cb_ = NULL;
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from->compare_cb_ = NULL;
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from->size_used_ = 0;
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from->size_reserved_ = 0;
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}
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#endif // TESSERACT_CCUTIL_GENERICVECTOR_H_
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