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r9583:b6e25a00b908 2.7 KiB text/x-c++hdr Show Annotation Show as Raw Download as Raw

rubidium

(svn r13621) -Fix: building roadbits in the wrong direction on bridges or building roadbits from underneath the bridge to the bridgehead is impossible, so don't silently ignore that error when building over houses and industries is not ignored.

/* $Id$ */

/** @file array.hpp Array without an explicit maximum size. */

#ifndef  ARRAY_HPP
#define  ARRAY_HPP

#include "fixedsizearray.hpp"

/** Flexible array with size limit. Implemented as fixed size
 *  array of fixed size arrays */
template <class Titem_, int Tblock_size_ = 1024, int Tnum_blocks_ = Tblock_size_>
class CArrayT {
public:
	typedef Titem_ Titem; ///< Titem is now visible from outside
	typedef CFixedSizeArrayT<Titem_, Tblock_size_> CSubArray; ///< inner array
	typedef CFixedSizeArrayT<CSubArray, Tnum_blocks_> CSuperArray; ///< outer array

protected:
	CSuperArray     m_a; ///< array of arrays of items

public:
	static const int Tblock_size = Tblock_size_; ///< block size is now visible from outside
	static const int Tnum_blocks = Tnum_blocks_; ///< number of blocks is now visible from outside
	static const int Tcapacity   = Tblock_size * Tnum_blocks; ///< total max number of items

	/** implicit constructor */
	FORCEINLINE CArrayT() { }
	/** Clear (destroy) all items */
	FORCEINLINE void Clear() {m_a.Clear();}
	/** Return actual number of items */
	FORCEINLINE int Size() const
	{
		int super_size = m_a.Size();
		if (super_size == 0) return 0;
		int sub_size = m_a[super_size - 1].Size();
		return (super_size - 1) * Tblock_size + sub_size;
	}
	/** return true if array is empty */
	FORCEINLINE bool IsEmpty() { return m_a.IsEmpty(); }
	/** return true if array is full */
	FORCEINLINE bool IsFull() { return m_a.IsFull() && m_a[Tnum_blocks - 1].IsFull(); }
	/** return first sub-array with free space for new item */
	FORCEINLINE CSubArray& FirstFreeSubArray()
	{
		int super_size = m_a.Size();
		if (super_size > 0) {
			CSubArray& sa = m_a[super_size - 1];
			if (!sa.IsFull()) return sa;
		}
		return m_a.Add();
	}
	/** allocate but not construct new item */
	FORCEINLINE Titem_& AddNC() { return FirstFreeSubArray().AddNC(); }
	/** allocate and construct new item */
	FORCEINLINE Titem_& Add()   { return FirstFreeSubArray().Add(); }
	/** indexed access (non-const) */
	FORCEINLINE Titem& operator [] (int idx)
	{
		CSubArray& sa = m_a[idx / Tblock_size];
		Titem& item   = sa [idx % Tblock_size];
		return item;
	}
	/** indexed access (const) */
	FORCEINLINE const Titem& operator [] (int idx) const
	{
		const CSubArray& sa = m_a[idx / Tblock_size];
		const Titem& item   = sa [idx % Tblock_size];
		return item;
	}

	template <typename D> void Dump(D &dmp) const
	{
		dmp.WriteLine("capacity = %d", Tcapacity);
		int num_items = Size();
		dmp.WriteLine("num_items = %d", num_items);
		CStrA name;
		for (int i = 0; i < num_items; i++) {
			const Titem& item = (*this)[i];
			name.Format("item[%d]", i);
			dmp.WriteStructT(name.Data(), &item);
		}
	}
};

#endif /* ARRAY_HPP */