mirror of
https://github.com/AquariaOSE/Aquaria.git
synced 2024-11-29 22:35:45 +00:00
382 lines
9.8 KiB
C++
382 lines
9.8 KiB
C++
// Dir.cpp - basic directory interface + classes
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// For conditions of distribution and use, see copyright notice in VFS.h
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#include <set>
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#include "VFSInternal.h"
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#include "VFSTools.h"
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#include "VFSFile.h"
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#include "VFSDir.h"
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#include "VFSDirView.h"
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#include "VFSLoader.h"
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//#include <stdio.h>
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VFS_NAMESPACE_START
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DirBase::DirBase(const char *fullpath)
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{
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_setName(fullpath);
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}
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DirBase::~DirBase()
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{
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}
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File *DirBase::getFile(const char *fn)
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{
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while(fn[0] == '.' && fn[1] == '/')
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fn += 2;
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const char *slashpos = strchr(fn, '/');
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if(!slashpos)
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return getFileByName(fn, true);
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size_t copysize = std::max<size_t>(slashpos - fn, 1); // always copy the '/' if it's the first char
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char * const dirname = (char*)VFS_STACK_ALLOC(copysize + 1);
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memcpy(dirname, fn, copysize);
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dirname[copysize] = 0;
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File *f = getFileFromSubdir(dirname, slashpos + 1);
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VFS_STACK_FREE(dirname);
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return f;
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}
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DirBase *DirBase::getDir(const char *subdir)
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{
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// TODO: get rid of alloc
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std::string fullpath = joinPath(fullname(), subdir);
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return _getDirEx(subdir, fullpath.c_str(), false, true, true).first;
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}
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// returns requested subdir or NULL as first, and last existing subdir in the tree as second.
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std::pair<DirBase*, DirBase*> DirBase::_getDirEx(const char *subdir, const char * const fullpath,
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bool forceCreate /* = false */, bool lazyLoad /* = true */, bool useSubtrees /* = true */)
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{
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//printf("DirBase::_getDirEx [%s] in [%s]\n", subdir, fullname());
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SkipSelfPath(subdir);
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if(!subdir[0])
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return std::make_pair(this, this);
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DirBase *ret = NULL;
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char *slashpos = (char *)strchr(subdir, '/');
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// if there is a '/' in the string, descend into subdir and continue there
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if(slashpos)
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{
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// from a/b/c, cut out the a, without the trailing '/'.
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const char *sub = slashpos + 1;
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size_t copysize = std::max<size_t>(slashpos - subdir, 1); // always copy the '/' if it's the first char
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char * const t = (char*)VFS_STACK_ALLOC(copysize + 1);
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memcpy(t, subdir, copysize);
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t[copysize] = 0;
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if(DirBase *dir = getDirByName(t, lazyLoad, useSubtrees))
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{
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std::pair<DirBase*, DirBase*> subpair = dir->_getDirEx(sub, fullpath, forceCreate, lazyLoad); // descend into subdirs
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ret = subpair.first;
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}
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}
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else
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{
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if(DirBase *dir = getDirByName(subdir, lazyLoad, useSubtrees))
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ret = dir;
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}
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if(forceCreate && !ret)
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ret = _createAndInsertSubtree(subdir);
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return std::make_pair(ret, this);
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}
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DirBase *DirBase::_createAndInsertSubtree(const char *subdir)
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{
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size_t subdirLen = strlen(subdir);
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char * const buf = (char*)VFS_STACK_ALLOC(subdirLen + 2);
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buf[0] = '/';
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memcpy(buf+1, subdir, subdirLen + 1); //copy terminating \0 too
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char *s = buf+1;
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DirBase *curdir = this;
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while(*s)
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{
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char *slashpos = strchr(s, '/');
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if(slashpos)
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{
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if(slashpos == buf+1) // only check this in first round
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{
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s = buf;
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//printf("abs buf: [%s]\n", buf);
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}
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*slashpos = 0;
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//printf("_createAndInsertSubtree: [%s]\n", s);
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}
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DirBase *nextdir = curdir->DirBase::getDirByName(s, false, false); // last 2 params are not relevant
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if(!nextdir)
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nextdir = curdir->_createNewSubdir(s);
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curdir->_subdirs[nextdir->name()] = nextdir;
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curdir = nextdir;
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if(!slashpos)
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break;
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s = slashpos + 1;
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}
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VFS_STACK_FREE(buf);
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return curdir;
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}
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DirBase *DirBase::_createNewSubdir(const char *subdir) const
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{
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assert(*subdir);
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//printf("_createNewSubdir: [%s]\n", subdir);
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// -> newname = fullname() + '/' + subdir
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size_t fullLen = fullnameLen();
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size_t subdirLen = strlen(subdir);
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char * const newname = (char*)VFS_STACK_ALLOC(fullLen + subdirLen + 2);
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char *ptr = newname;
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if(fullLen)
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{
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memcpy(ptr, fullname(), fullLen);
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ptr += fullLen;
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if(ptr[-1] != '/')
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*ptr++ = '/';
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}
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memcpy(ptr, subdir, subdirLen + 1); // copy terminating \0 too
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//printf("_createNewSubdir: newname = [%s]\n", newname);
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DirBase *ret = createNew(newname);
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//printf("_createNewSubdir: fullname = [%s]\n", ret->fullname());
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VFS_STACK_FREE(newname);
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return ret;
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}
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static void _iterDirs(Dirs &m, DirEnumCallback f, void *user)
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{
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for(Dirs::iterator it = m.begin(); it != m.end(); ++it)
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f(it->second.content(), user);
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}
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void DirBase::forEachDir(DirEnumCallback f, void *user /* = NULL */, bool safe /* = false */)
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{
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if(safe)
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{
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Dirs cp = _subdirs;
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_iterDirs(cp, f, user);
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}
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else
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_iterDirs(_subdirs, f, user);
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}
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DirBase *DirBase::getDirByName(const char *dn, bool /* unused: lazyLoad = true */, bool useSubtrees /* = true */)
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{
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if(!dn[0] || (dn[0] == '.' && !dn[1]))
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return this;
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Dirs::iterator it = _subdirs.find(dn);
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return it != _subdirs.end() ? it->second : NULL;
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}
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void DirBase::clearGarbage()
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{
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for(Dirs::iterator it = _subdirs.begin(); it != _subdirs.end(); ++it)
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it->second->clearGarbage();
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}
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Dir::Dir(const char *fullpath, VFSLoader *ldr)
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: DirBase(fullpath), _loader(ldr)
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{
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}
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Dir::~Dir()
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{
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}
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File *Dir::getFileByName(const char *fn, bool lazyLoad /* = true */)
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{
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Files::iterator it = _files.find(fn);
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if(it != _files.end())
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return it->second;
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if(!lazyLoad || !_loader)
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return NULL;
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// Lazy-load file if it's not in the tree yet
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std::string fn2 = joinPath(fullname(), GetBaseNameFromPath(fn));
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File *f = _loader->Load(fn2.c_str(), fn2.c_str());
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if(f)
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_files[f->name()] = f;
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return f;
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}
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static void _iterFiles(Files &m, FileEnumCallback f, void *user)
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{
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for(Files::iterator it = m.begin(); it != m.end(); ++it)
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f(it->second.content(), user);
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}
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void Dir::forEachFile(FileEnumCallback f, void *user /* = NULL */, bool safe /* = false */)
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{
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load();
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if(safe)
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{
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Files cp = _files;
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_iterFiles(cp, f, user);
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}
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else
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_iterFiles(_files, f, user);
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}
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void Dir::forEachDir(DirEnumCallback f, void *user /* = NULL */, bool safe /* = false */)
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{
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load();
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DirBase::forEachDir(f, user, safe);
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}
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bool Dir::add(File *f)
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{
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return _addRecursiveSkip(f, 0);
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}
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bool Dir::_addSingle(File *f)
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{
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Files::iterator it = _files.find(f->name());
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if(it != _files.end())
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{
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File *oldf = it->second;
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if(oldf == f)
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return false;
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_files.erase(it);
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}
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_files[f->name()] = f;
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return true;
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}
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bool Dir::_addRecursiveSkip(File *f, size_t skip /* = 0 */)
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{
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Dir *vdir = this;
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if(f->fullnameLen() - f->nameLen() > skip)
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{
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// figure out directory from full file name
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size_t prefixLen = f->fullnameLen() - f->nameLen() - skip;
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// prefixLen == 0 is invalid, prefixLen == 1 is just a single '/', which will be stripped away below.
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// in both cases, just use 'this'.
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// FIXME: will this be a problem for absolute paths?
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if(prefixLen > 1)
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{
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char *dirname = (char*)VFS_STACK_ALLOC(prefixLen);
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--prefixLen; // -1 to strip the trailing '/'. That's the position where to put the terminating null byte.
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memcpy(dirname, f->fullname() + skip, prefixLen); // copy trailing null byte
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dirname[prefixLen] = 0;
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vdir = safecastNonNull<Dir*>(_getDirEx(dirname, dirname, true, true).first);
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VFS_STACK_FREE(dirname);
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}
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}
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return vdir->_addSingle(f);
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}
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void Dir::clearGarbage()
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{
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DirBase::clearGarbage();
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for(Files::iterator it = _files.begin(); it != _files.end(); ++it)
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it->second->clearGarbage();
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}
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bool Dir::_addToView(char *path, DirView& view)
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{
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if(Dir *dir = safecast<Dir*>(getDir(path)))
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{
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view.add(dir);
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return true;
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}
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return false;
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}
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DirBase *Dir::getDirByName(const char *dn, bool lazyLoad /* = true */, bool useSubtrees /* = true */)
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{
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DirBase *sub;
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if((sub = DirBase::getDirByName(dn, lazyLoad, useSubtrees)))
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return sub;
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if(!lazyLoad || !_loader)
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return NULL;
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// Fix for absolute paths: No dir should have '/' (or any other absolute dirs) as subdir.
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if(fullnameLen() && dn[0] == '/')
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return NULL;
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// Lazy-load file if it's not in the tree yet
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// TODO: get rid of alloc
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std::string fn2 = joinPath(fullname(), dn);
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sub = _loader->LoadDir(fn2.c_str(), fn2.c_str());
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if(sub)
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{
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_subdirs[sub->name()] = sub;
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//printf("Lazy loaded: [%s]\n", sub->fullname());
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}
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return sub;
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}
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File *Dir::getFileFromSubdir(const char *subdir, const char *file)
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{
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Dir *d = safecast<Dir*>(getDirByName(subdir, true, false)); // useSubtrees is irrelevant here
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return d ? d->getFile(file) : NULL;
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}
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// ----- DiskDir start here -----
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DiskDir::DiskDir(const char *path, VFSLoader *ldr) : Dir(path, ldr)
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{
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}
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DiskDir *DiskDir::createNew(const char *dir) const
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{
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return new DiskDir(dir, getLoader());
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}
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void DiskDir::load()
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{
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_files.clear();
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_subdirs.clear();
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// TODO: cache existing files and keep them unless they do no longer exist
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StringList li;
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GetFileList(fullname(), li);
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for(StringList::iterator it = li.begin(); it != li.end(); ++it)
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{
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DiskFile *f = new DiskFile(joinPath(fullname(), it->c_str()).c_str());
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_files[f->name()] = f;
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}
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li.clear();
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GetDirList(fullname(), li, 0);
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for(StringList::iterator it = li.begin(); it != li.end(); ++it)
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{
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// GetDirList() returns relative paths, so need to join
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Dir *d = createNew(joinPath(fullname(), it->c_str()).c_str());
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_subdirs[d->name()] = d;
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}
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}
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// ----- MemDir start here -----
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MemDir *MemDir::createNew(const char *dir) const
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{
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return new MemDir(dir);
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}
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VFS_NAMESPACE_END
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