/*********************************************************************** * * * This software is part of the ast package * * Copyright (c) 1985-2009 AT&T Intellectual Property * * and is licensed under the * * Common Public License, Version 1.0 * * by AT&T Intellectual Property * * * * A copy of the License is available at * * http://www.opensource.org/licenses/cpl1.0.txt * * (with md5 checksum 059e8cd6165cb4c31e351f2b69388fd9) * * * * Information and Software Systems Research * * AT&T Research * * Florham Park NJ * * * * Glenn Fowler * * David Korn * * Phong Vo * * * ***********************************************************************/ #include "sfhdr.h" /* Swap two streams. If the second argument is NULL, ** a new stream will be created. Always return the second argument ** or the new stream. Note that this function will always work ** unless streams are locked by SF_PUSH. ** ** Written by Kiem-Phong Vo. */ #if __STD_C Sfio_t* sfswap(reg Sfio_t* f1, reg Sfio_t* f2) #else Sfio_t* sfswap(f1,f2) reg Sfio_t* f1; reg Sfio_t* f2; #endif { Sfio_t tmp; int f1pool, f2pool, f1mode, f2mode, f1flags, f2flags; if(!f1 || (f1->mode&SF_AVAIL) || (SFFROZEN(f1) && (f1->mode&SF_PUSH)) ) return NIL(Sfio_t*); if(f2 && SFFROZEN(f2) && (f2->mode&SF_PUSH) ) return NIL(Sfio_t*); if(f1 == f2) return f2; f1mode = f1->mode; SFLOCK(f1,0); f1->mode |= SF_PUSH; /* make sure there is no recursion on f1 */ if(f2) { f2mode = f2->mode; SFLOCK(f2,0); f2->mode |= SF_PUSH; /* make sure there is no recursion on f2 */ } else { f2 = f1->file == 0 ? sfstdin : f1->file == 1 ? sfstdout : f1->file == 2 ? sfstderr : NIL(Sfio_t*); if((!f2 || !(f2->mode&SF_AVAIL)) ) { if(!(f2 = (Sfio_t*)malloc(sizeof(Sfio_t))) ) { f1->mode = f1mode; SFOPEN(f1,0); return NIL(Sfio_t*); } SFCLEAR(f2,NIL(Vtmutex_t*)); } f2->mode = SF_AVAIL|SF_LOCK; f2mode = SF_AVAIL; } if(!f1->pool) f1pool = -1; else for(f1pool = f1->pool->n_sf-1; f1pool >= 0; --f1pool) if(f1->pool->sf[f1pool] == f1) break; if(!f2->pool) f2pool = -1; else for(f2pool = f2->pool->n_sf-1; f2pool >= 0; --f2pool) if(f2->pool->sf[f2pool] == f2) break; f1flags = f1->flags; f2flags = f2->flags; /* swap image and pool entries */ memcpy((Void_t*)(&tmp),(Void_t*)f1,sizeof(Sfio_t)); memcpy((Void_t*)f1,(Void_t*)f2,sizeof(Sfio_t)); memcpy((Void_t*)f2,(Void_t*)(&tmp),sizeof(Sfio_t)); if(f2pool >= 0) f1->pool->sf[f2pool] = f1; if(f1pool >= 0) f2->pool->sf[f1pool] = f2; if(f2flags&SF_STATIC) f2->flags |= SF_STATIC; else f2->flags &= ~SF_STATIC; if(f1flags&SF_STATIC) f1->flags |= SF_STATIC; else f1->flags &= ~SF_STATIC; if(f2mode&SF_AVAIL) /* swapping to a closed stream */ { if(!(f1->flags&SF_STATIC) ) free(f1); } else { f1->mode = f2mode; SFOPEN(f1,0); } f2->mode = f1mode; SFOPEN(f2,0); return f2; }