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source: cpp/frams/util/list.h @ 875

Last change on this file since 875 was 793, checked in by Maciej Komosinski, 6 years ago
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File size: 4.6 KB

Rev	Line
[286]	1	// This file is a part of Framsticks SDK. http://www.framsticks.com/
[781]	2	// Copyright (C) 1999-2018 Maciej Komosinski and Szymon Ulatowski.
[286]	3	// See LICENSE.txt for details.
[109]	4
	5	#ifndef _LIST_H_
	6	#define _LIST_H_
	7
	8	#include <stdlib.h>
	9	#include <string.h>
	10	#include <common/nonstd.h>
	11
	12	//#define SLISTSTATS
	13
	14	#ifdef SLISTSTATS
	15	#include <stdio.h>
	16	class SListStats
	17	{
[733]	18	public:
	19	int objects, allocations, copied, totalmem, usedmem;
[793]	20	SListStats() :objects(0), allocations(0), copied(0), totalmem(0), usedmem() {}
[733]	21	~SListStats()
[109]	22	{
[733]	23	printf("------------------------\n"
	24	" SListStats:\n"
	25	" objects = %ld\n"
	26	" allocations = %ld\n"
	27	" copied = %ld\n"
	28	" total mem = %ld\n"
	29	" usage = %ld %%\n"
	30	"------------------------\n",
[793]	31	objects, allocations, copied, totalmem, (usedmem * 100) / totalmem);
[109]	32	}
	33	};
	34	#endif
	35
	36
	37	template<class T> class SListTempl
	38	{
	39	protected:
[733]	40	int have, used, pos; // ile,zaj,poz
	41	T *mem;
	42	void resize(int x)
[109]	43	{
[733]	44	if (mem \|\| x)
[109]	45	{
[733]	46	mem = (T)realloc(mem, xsizeof(T));
[109]	47	#ifdef SLISTSTATS
[733]	48	SListStats::stats.allocations++;
[793]	49	SListStats::stats.copied += sizeof(T)*min(x, have);
[109]	50	#endif
	51	}
[733]	52	have = x;
[109]	53	}
	54
	55	public:
	56
[733]	57	SListTempl(const SListTempl<T>& src) :have(0), used(0), pos(0), mem(0)
	58	{
	59	(*this) = src;
	60	}
	61	SListTempl() :have(0), used(0), pos(0), mem(0)
[109]	62	{}
[733]	63	~SListTempl()
[109]	64	{
	65	#ifdef SLISTSTATS
[733]	66	SListStats::stats.objects++;
[793]	67	SListStats::stats.totalmem += sizeof(T)*have;
	68	SListStats::stats.usedmem += sizeof(T)*used;
[109]	69	#endif
[733]	70	hardclear();
[109]	71	}
	72
[733]	73	void needSize(int s)
[109]	74	{
[733]	75	if (s > have) resize(s + 3 + s / 8);
[109]	76	}
[733]	77	void operator+=(const T& e) ///< append one element
[109]	78	{
[733]	79	append(e);
[109]	80	}
[733]	81	void operator-=(const T& e) ///< remove one element
[109]	82	{
[733]	83	int i; if ((i = find(e)) >= 0) remove(i);
[109]	84	}
[733]	85	void remove(int i, int n = 1) ///< remove n elements from position i
[109]	86	{
[733]	87	if ((i >= size()) \|\| (i<0)) return;
	88	if (i>(size() - n)) n = size() - i;
	89	if (pos >= i) pos -= n;
	90	memmove(mem + i, mem + i + n, sizeof(T)*(used - n - i));
	91	used -= n;
[109]	92	}
[733]	93	void operator-=(int i) { remove(i); } ///< remove element from position i
	94	T& operator()(int i) const ///< return element at position i
	95	{
	96	return mem[i];
	97	}
	98	bool hasMore() { return pos < size(); }
	99	int operator==(const SListTempl<T>& l) const ///< compare list
	100	{
	101	if (size() != l.size()) return 0;
[793]	102	for (int i = 0; i < size(); i++) if (l.mem[i] != mem[i]) return 0;
[733]	103	return 1;
	104	}
	105	int find(const T& e) const ///< return position of element, or -1 if not found
	106	{
[781]	107	for (int i = 0; i<size(); i++) if (mem[i] == e) return i;
	108	return -1;
[733]	109	}
	110	void append(const T& data) ///< add 1 element
	111	{
	112	needSize(size() + 1); mem[used++] = data;
	113	}
	114	void append(const T* data, int n) ///< add n elements
	115	{
	116	needSize(size() + n);
	117	memcpy(mem + used, data, sizeof(T)*n);
	118	used += n;
	119	}
	120	void insert(int p, T* data, int n) ///< insert n elements at position p
	121	{
	122	if (p>size()) p = size();
	123	needSize(size() + n);
	124	memmove(mem + p + n, mem + p, sizeof(T)*(size() - p));
	125	memcpy(mem + p, data, sizeof(T)*n);
	126	if (pos > p) pos += n;
	127	}
	128	void insert(int p, const T& data) ///< insert 1 element at position p
	129	{
	130	if (p > size()) p = size();
	131	needSize(size() + 1);
	132	memmove(mem + p + 1, mem + p, sizeof(T)*(size() - p));
	133	if (pos > p) pos++;
	134	mem[p] = data;
	135	used++;
	136	}
	137	void set(int p, const T& d)
	138	{
	139	needSize(p + 1); mem[p] = d; if (used < (p + 1)) used = p + 1;
	140	}
	141	void setSize(int s)
	142	{
	143	needSize(s); used = s;
	144	}
	145	T& get(int i) const { return operator()(i); }
	146	void clear() { used = 0; } ///< remove all elements
	147	void hardclear() { resize(0); used = 0; } ///< remove all elements and free mem
	148	int size() const { return used; } ///< list size
	149	void operator=(const SListTempl<T>&src) ///duplicate
	150	{
	151	setSize(src.size());
	152	memcpy(mem, src.mem, src.size()*sizeof(T));
	153	}
	154	void operator+=(const SListTempl<T>&src) ///< append src contents
	155	{
	156	needSize(size() + src.size());
	157	memcpy(mem + used, src.mem, src.size()*sizeof(T));
	158	used += src.used;
	159	}
	160	void trim(int newsiz)
	161	{
	162	if (newsiz < used) used = newsiz;
	163	}
[109]	164	};
	165
[153]	166	#define FOREACH(type,var,list) for(int _ ## var ## _i_=0,_ ## var ## _tmp_=0; _ ## var ## _i_==0;_ ## var ## _i_++) \
	167	for(type var;((_ ## var ## _tmp_=(_ ## var ## _i_<list.size()))?(var=(type)list(_ ## var ## _i_)):0),_ ## var ## _tmp_;_ ## var ## _i_++)
[109]	168
	169	// usage example: FOREACH(char*,t,thelist) printf("t=%s\n",t);
	170
[733]	171	template<class T> class PtrListTempl : public SListTempl < T >
[109]	172	{
[733]	173	public:
	174	T operator()(int i) const ///< return element at position i
	175	{
	176	if (i >= this->size()) return 0; else return this->mem[i];
	177	}
[109]	178
[733]	179	T get(int i) const { return operator()(i); }
	180	T& getref(int i) const { return SListTempl<T>::get(i); }
[109]	181	};
	182
	183
[733]	184	typedef PtrListTempl<void*> SList;
[109]	185
	186	#endif

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