third_party/bigint/NumberlikeArray.hh - platform/external/pdfium - Gitiles

 // Copyright 2014 PDFium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 // Original code by Matt McCutchen, see the LICENSE file.

 #ifndef NUMBERLIKEARRAY_H
 #define NUMBERLIKEARRAY_H

 #include <stdlib.h> // abort()
 // Make sure we have NULL.
 #ifndef NULL
 #define NULL 0
 #endif

 /* A NumberlikeArray<Blk> object holds a heap-allocated array of Blk with a
  * length and a capacity and provides basic memory management features.
  * BigUnsigned and BigUnsignedInABase both subclass it.
  *
  * NumberlikeArray provides no information hiding.  Subclasses should use
  * nonpublic inheritance and manually expose members as desired using
  * declarations like this:
  *
  * public:
  *     NumberlikeArray< the-type-argument >::getLength;
  */
 template <class Blk>
 class NumberlikeArray {
 public:

 	// Type for the index of a block in the array
 	typedef unsigned int Index;
 	// The number of bits in a block, defined below.
 	static const unsigned int N;

 	// The current allocated capacity of this NumberlikeArray (in blocks)
 	Index cap;
 	// The actual length of the value stored in this NumberlikeArray (in blocks)
 	Index len;
 	// Heap-allocated array of the blocks (can be NULL if len == 0)
 	Blk *blk;

 	// Constructs a ``zero'' NumberlikeArray with the given capacity.
 	NumberlikeArray(Index c) : cap(c), len(0) {
 		blk = (cap > 0) ? (new Blk[cap]) : NULL;
 	}

 	/* Constructs a zero NumberlikeArray without allocating a backing array.
 	 * A subclass that doesn't know the needed capacity at initialization
 	 * time can use this constructor and then overwrite blk without first
 	 * deleting it. */
 	NumberlikeArray() : cap(0), len(0) {
 		blk = NULL;
 	}

 	// Destructor.  Note that `delete NULL' is a no-op.
 	~NumberlikeArray() {
 		delete [] blk;
 	}

 	/* Ensures that the array has at least the requested capacity; may
 	 * destroy the contents. */
 	void allocate(Index c);

 	/* Ensures that the array has at least the requested capacity; does not
 	 * destroy the contents. */
 	void allocateAndCopy(Index c);

 	// Copy constructor
 	NumberlikeArray(const NumberlikeArray<Blk> &x);

 	// Assignment operator
 	void operator=(const NumberlikeArray<Blk> &x);

 	// Constructor that copies from a given array of blocks
 	NumberlikeArray(const Blk *b, Index blen);

 	// ACCESSORS
 	Index getCapacity()     const { return cap;      }
 	Index getLength()       const { return len;      }
 	Blk   getBlock(Index i) const { return blk[i];   }
 	bool  isEmpty()         const { return len == 0; }

 	/* Equality comparison: checks if both objects have the same length and
 	 * equal (==) array elements to that length.  Subclasses may wish to
 	 * override. */
 	bool operator ==(const NumberlikeArray<Blk> &x) const;

 	bool operator !=(const NumberlikeArray<Blk> &x) const {
 		return !operator ==(x);
 	}
 };

 /* BEGIN TEMPLATE DEFINITIONS.  They are present here so that source files that
  * include this header file can generate the necessary real definitions. */

 template <class Blk>
 const unsigned int NumberlikeArray<Blk>::N = 8 * sizeof(Blk);

 template <class Blk>
 void NumberlikeArray<Blk>::allocate(Index c) {
 	// If the requested capacity is more than the current capacity...
 	if (c > cap) {
 		// Delete the old number array
 		delete [] blk;
 		// Allocate the new array
 		cap = c;
 		blk = new Blk[cap];
 	}
 }

 template <class Blk>
 void NumberlikeArray<Blk>::allocateAndCopy(Index c) {
 	// If the requested capacity is more than the current capacity...
 	if (c > cap) {
 		Blk *oldBlk = blk;
 		// Allocate the new number array
 		cap = c;
 		blk = new Blk[cap];
 		// Copy number blocks
 		Index i;
 		for (i = 0; i < len; i++)
 			blk[i] = oldBlk[i];
 		// Delete the old array
 		delete [] oldBlk;
 	}
 }

 template <class Blk>
 NumberlikeArray<Blk>::NumberlikeArray(const NumberlikeArray<Blk> &x)
 		: len(x.len) {
 	// Create array
 	cap = len;
 	blk = new Blk[cap];
 	// Copy blocks
 	Index i;
 	for (i = 0; i < len; i++)
 		blk[i] = x.blk[i];
 }

 template <class Blk>
 void NumberlikeArray<Blk>::operator=(const NumberlikeArray<Blk> &x) {
 	/* Calls like a = a have no effect; catch them before the aliasing
 	 * causes a problem */
 	if (this == &x)
 		return;
 	// Copy length
 	len = x.len;
 	// Expand array if necessary
 	allocate(len);
 	// Copy number blocks
 	Index i;
 	for (i = 0; i < len; i++)
 		blk[i] = x.blk[i];
 }

 template <class Blk>
 NumberlikeArray<Blk>::NumberlikeArray(const Blk *b, Index blen)
 		: cap(blen), len(blen) {
 	// Create array
 	blk = new Blk[cap];
 	// Copy blocks
 	Index i;
 	for (i = 0; i < len; i++)
 		blk[i] = b[i];
 }

 template <class Blk>
 bool NumberlikeArray<Blk>::operator ==(const NumberlikeArray<Blk> &x) const {
 	if (len != x.len)
 		// Definitely unequal.
 		return false;
 	else {
 		// Compare corresponding blocks one by one.
 		Index i;
 		for (i = 0; i < len; i++)
 			if (blk[i] != x.blk[i])
 				return false;
 		// No blocks differed, so the objects are equal.
 		return true;
 	}
 }

 #endif
	// Copyright 2014 PDFium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	// Original code by Matt McCutchen, see the LICENSE file.

	#ifndef NUMBERLIKEARRAY_H
	#define NUMBERLIKEARRAY_H

	#include <stdlib.h> // abort()
	// Make sure we have NULL.
	#ifndef NULL
	#define NULL 0
	#endif

	/* A NumberlikeArray<Blk> object holds a heap-allocated array of Blk with a
	* length and a capacity and provides basic memory management features.
	* BigUnsigned and BigUnsignedInABase both subclass it.
	*
	* NumberlikeArray provides no information hiding. Subclasses should use
	* nonpublic inheritance and manually expose members as desired using
	* declarations like this:
	*
	* public:
	* NumberlikeArray< the-type-argument >::getLength;
	*/
	template <class Blk>
	class NumberlikeArray {
	public:

	// Type for the index of a block in the array
	typedef unsigned int Index;
	// The number of bits in a block, defined below.
	static const unsigned int N;

	// The current allocated capacity of this NumberlikeArray (in blocks)
	Index cap;
	// The actual length of the value stored in this NumberlikeArray (in blocks)
	Index len;
	// Heap-allocated array of the blocks (can be NULL if len == 0)
	Blk *blk;

	// Constructs a ``zero'' NumberlikeArray with the given capacity.
	NumberlikeArray(Index c) : cap(c), len(0) {
	blk = (cap > 0) ? (new Blk[cap]) : NULL;
	}

	/* Constructs a zero NumberlikeArray without allocating a backing array.
	* A subclass that doesn't know the needed capacity at initialization
	* time can use this constructor and then overwrite blk without first
	* deleting it. */
	NumberlikeArray() : cap(0), len(0) {
	blk = NULL;
	}

	// Destructor. Note that `delete NULL' is a no-op.
	~NumberlikeArray() {
	delete [] blk;
	}

	/* Ensures that the array has at least the requested capacity; may
	* destroy the contents. */
	void allocate(Index c);

	/* Ensures that the array has at least the requested capacity; does not
	* destroy the contents. */
	void allocateAndCopy(Index c);

	// Copy constructor
	NumberlikeArray(const NumberlikeArray<Blk> &x);

	// Assignment operator
	void operator=(const NumberlikeArray<Blk> &x);

	// Constructor that copies from a given array of blocks
	NumberlikeArray(const Blk *b, Index blen);

	// ACCESSORS
	Index getCapacity() const { return cap; }
	Index getLength() const { return len; }
	Blk getBlock(Index i) const { return blk[i]; }
	bool isEmpty() const { return len == 0; }

	/* Equality comparison: checks if both objects have the same length and
	* equal (==) array elements to that length. Subclasses may wish to
	* override. */
	bool operator ==(const NumberlikeArray<Blk> &x) const;

	bool operator !=(const NumberlikeArray<Blk> &x) const {
	return !operator ==(x);
	}
	};

	/* BEGIN TEMPLATE DEFINITIONS. They are present here so that source files that
	* include this header file can generate the necessary real definitions. */

	template <class Blk>
	const unsigned int NumberlikeArray<Blk>::N = 8 * sizeof(Blk);

	template <class Blk>
	void NumberlikeArray<Blk>::allocate(Index c) {
	// If the requested capacity is more than the current capacity...
	if (c > cap) {
	// Delete the old number array
	delete [] blk;
	// Allocate the new array
	cap = c;
	blk = new Blk[cap];
	}
	}

	template <class Blk>
	void NumberlikeArray<Blk>::allocateAndCopy(Index c) {
	// If the requested capacity is more than the current capacity...
	if (c > cap) {
	Blk *oldBlk = blk;
	// Allocate the new number array
	cap = c;
	blk = new Blk[cap];
	// Copy number blocks
	Index i;
	for (i = 0; i < len; i++)
	blk[i] = oldBlk[i];
	// Delete the old array
	delete [] oldBlk;
	}
	}

	template <class Blk>
	NumberlikeArray<Blk>::NumberlikeArray(const NumberlikeArray<Blk> &x)
	: len(x.len) {
	// Create array
	cap = len;
	blk = new Blk[cap];
	// Copy blocks
	Index i;
	for (i = 0; i < len; i++)
	blk[i] = x.blk[i];
	}

	template <class Blk>
	void NumberlikeArray<Blk>::operator=(const NumberlikeArray<Blk> &x) {
	/* Calls like a = a have no effect; catch them before the aliasing
	* causes a problem */
	if (this == &x)
	return;
	// Copy length
	len = x.len;
	// Expand array if necessary
	allocate(len);
	// Copy number blocks
	Index i;
	for (i = 0; i < len; i++)
	blk[i] = x.blk[i];
	}

	template <class Blk>
	NumberlikeArray<Blk>::NumberlikeArray(const Blk *b, Index blen)
	: cap(blen), len(blen) {
	// Create array
	blk = new Blk[cap];
	// Copy blocks
	Index i;
	for (i = 0; i < len; i++)
	blk[i] = b[i];
	}

	template <class Blk>
	bool NumberlikeArray<Blk>::operator ==(const NumberlikeArray<Blk> &x) const {
	if (len != x.len)
	// Definitely unequal.
	return false;
	else {
	// Compare corresponding blocks one by one.
	Index i;
	for (i = 0; i < len; i++)
	if (blk[i] != x.blk[i])
	return false;
	// No blocks differed, so the objects are equal.
	return true;
	}
	}

	#endif