scummvm/common/fs.h
2011-05-12 01:16:22 +02:00

350 lines
12 KiB
C++

/* ScummVM - Graphic Adventure Engine
*
* ScummVM is the legal property of its developers, whose names
* are too numerous to list here. Please refer to the COPYRIGHT
* file distributed with this source distribution.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
#ifndef COMMON_FS_H
#define COMMON_FS_H
#include "common/array.h"
#include "common/archive.h"
#include "common/hash-str.h"
#include "common/hashmap.h"
#include "common/ptr.h"
#include "common/str.h"
class AbstractFSNode;
namespace Common {
class FSNode;
class SeekableReadStream;
class WriteStream;
/**
* List of multiple file system nodes. E.g. the contents of a given directory.
* This is subclass instead of just a typedef so that we can use forward
* declarations of it in other places.
*/
class FSList : public Array<FSNode> {};
/**
* FSNode, short for "File System Node", provides an abstraction for file
* paths, allowing for portable file system browsing. This means for example,
* that multiple or single roots have to be supported (compare Unix with a
* single root, Windows with multiple roots C:, D:, ...).
*
* To this end, we abstract away from paths; implementations can be based on
* paths (and it's left to them whether / or \ or : is the path separator :-);
* but it is also possible to use inodes or vrefs (MacOS 9) or anything else.
*/
class FSNode : public ArchiveMember {
private:
SharedPtr<AbstractFSNode> _realNode;
FSNode(AbstractFSNode *realNode);
public:
/**
* Flag to tell listDir() which kind of files to list.
*/
enum ListMode {
kListFilesOnly = 1,
kListDirectoriesOnly = 2,
kListAll = 3
};
/**
* Create a new pathless FSNode. Since there's no path associated
* with this node, path-related operations (i.e. exists(), isDirectory(),
* getPath()) will always return false or raise an assertion.
*/
FSNode();
/**
* Create a new FSNode referring to the specified path. This is
* the counterpart to the path() method.
*
* If path is empty or equals ".", then a node representing the "current
* directory" will be created. If that is not possible (since e.g. the
* operating system doesn't support the concept), some other directory is
* used (usually the root directory).
*/
explicit FSNode(const String &path);
virtual ~FSNode() {}
/**
* Compare the name of this node to the name of another. Directories
* go before normal files.
*/
bool operator<(const FSNode& node) const;
/**
* Indicates whether the object referred by this node exists in the filesystem or not.
*
* @return bool true if the node exists, false otherwise.
*/
bool exists() const;
/**
* Create a new node referring to a child node of the current node, which
* must be a directory node (otherwise an invalid node is returned).
* If a child matching the name exists, a normal node for it is returned.
* If no child with the name exists, a node for it is still returned,
* but exists() will return 'false' for it. This node can however be used
* to create a new file using the createWriteStream() method.
*
* @todo If createWriteStream() (or a hypothetical future mkdir() method) is used,
* this should affect what exists/isDirectory/isReadable/isWritable return
* for existing nodes. However, this is not the case for many existing
* FSNode implementations. Either fix those, or document that FSNodes
* can become 'stale'...
*
* @param name the name of a child of this directory
* @return the node referring to the child with the given name
*/
FSNode getChild(const String &name) const;
/**
* Return a list of all child nodes of this directory node. If called on a node
* that does not represent a directory, false is returned.
*
* @return true if successful, false otherwise (e.g. when the directory does not exist).
*/
bool getChildren(FSList &fslist, ListMode mode = kListDirectoriesOnly, bool hidden = false) const;
/**
* Return a human readable string for this node, usable for display (e.g.
* in the GUI code). Do *not* rely on it being usable for anything else,
* like constructing paths!
*
* @return the display name
*/
virtual String getDisplayName() const;
/**
* Return a string representation of the name of the file. This can be
* used e.g. by detection code that relies on matching the name of a given
* file. But it is *not* suitable for use with fopen / File::open, nor
* should it be archived.
*
* @return the file name
*/
virtual String getName() const;
/**
* Return a string representation of the file which is suitable for
* archiving (i.e. writing to the config file). This will usually be a
* 'path' (hence the name of the method), but can be anything that meets
* the above criterions. What a 'path' is differs greatly from system to
* system anyway.
*
* @note Do not assume that this string contains (back)slashes or any
* other kind of 'path separators'.
*
* @return the 'path' represented by this filesystem node
*/
String getPath() const;
/**
* Get the parent node of this node. If this node has no parent node,
* then it returns a duplicate of this node.
*/
FSNode getParent() const;
/**
* Indicates whether the node refers to a directory or not.
*
* @todo Currently we assume that a node that is not a directory
* automatically is a file (ignoring things like symlinks or pipes).
* That might actually be OK... but we could still add an isFile method.
* Or even replace isDirectory by a getType() method that can return values like
* kDirNodeType, kFileNodeType, kInvalidNodeType.
*/
bool isDirectory() const;
/**
* Indicates whether the object referred by this node can be read from or not.
*
* If the node refers to a directory, readability implies being able to read
* and list the directory entries.
*
* If the node refers to a file, readability implies being able to read the
* contents of the file.
*
* @return true if the object can be read, false otherwise.
*/
bool isReadable() const;
/**
* Indicates whether the object referred by this node can be written to or not.
*
* If the node refers to a directory, writability implies being able to modify
* the directory entry (i.e. rename the directory, remove it or write files inside of it).
*
* If the node refers to a file, writability implies being able to write data
* to the file.
*
* @return true if the object can be written to, false otherwise.
*/
bool isWritable() const;
/**
* Creates a SeekableReadStream instance corresponding to the file
* referred by this node. This assumes that the node actually refers
* to a readable file. If this is not the case, 0 is returned.
*
* @return pointer to the stream object, 0 in case of a failure
*/
virtual SeekableReadStream *createReadStream() const;
/**
* Creates a WriteStream instance corresponding to the file
* referred by this node. This assumes that the node actually refers
* to a readable file. If this is not the case, 0 is returned.
*
* @return pointer to the stream object, 0 in case of a failure
*/
WriteStream *createWriteStream() const;
};
/**
* FSDirectory models a directory tree from the filesystem and allows users
* to access it through the Archive interface. Searching is case-insensitive,
* since the intended goal is supporting retrieval of game data.
*
* FSDirectory can represent a single directory, or a tree with specified depth,
* depending on the value passed to the 'depth' parameter in the constructors.
* In the default mode, filenames are cached with their relative path,
* with elements separated by slashes, e.g.:
*
* c:\my\data\file.ext
*
* would be cached as 'data/file.ext' if FSDirectory was created on 'c:/my' with
* depth > 1. If depth was 1, then the 'data' subdirectory would have been
* ignored, instead.
* Again, only SLASHES are used as separators independently from the
* underlying file system.
*
* Relative paths can be specified when calling matching functions like createReadStreamForMember(),
* hasFile(), listMatchingMembers() and listMembers(). Please see the function
* specific comments for more information.
*
* If the 'flat' argument to the constructor is true, files in subdirectories
* are cached without the relative path, so in the example above
* c:\my\data\file.ext would be cached as file.ext.
*
* Client code can customize cache by using the constructors with the 'prefix'
* parameter. In this case, the prefix is prepended to each entry in the cache,
* and effectively treated as a 'virtual' parent subdirectory. FSDirectory adds
* a trailing slash to prefix if needed. Following on with the previous example
* and using 'your' as prefix, the cache entry would have been 'your/data/file.ext'.
* This is done both in non-flat and flat mode.
*
*/
class FSDirectory : public Archive {
FSNode _node;
String _prefix; // string that is prepended to each cache item key
void setPrefix(const String &prefix);
// Caches are case insensitive, clashes are dealt with when creating
// Key is stored in lowercase.
typedef HashMap<String, FSNode, IgnoreCase_Hash, IgnoreCase_EqualTo> NodeCache;
mutable NodeCache _fileCache, _subDirCache;
mutable bool _cached;
mutable int _depth;
mutable bool _flat;
// look for a match
FSNode *lookupCache(NodeCache &cache, const String &name) const;
// cache management
void cacheDirectoryRecursive(FSNode node, int depth, const String& prefix) const;
// fill cache if not already cached
void ensureCached() const;
public:
/**
* Create a FSDirectory representing a tree with the specified depth. Will result in an
* unbound FSDirectory if name is not found on the filesystem or if the node is not a
* valid directory.
*/
FSDirectory(const String &name, int depth = 1, bool flat = false);
FSDirectory(const FSNode &node, int depth = 1, bool flat = false);
/**
* Create a FSDirectory representing a tree with the specified depth. The parameter
* prefix is prepended to the keys in the cache. See class comment.
*/
FSDirectory(const String &prefix, const String &name, int depth = 1,
bool flat = false);
FSDirectory(const String &prefix, const FSNode &node, int depth = 1,
bool flat = false);
virtual ~FSDirectory();
/**
* This return the underlying FSNode of the FSDirectory.
*/
FSNode getFSNode() const;
/**
* Create a new FSDirectory pointing to a sub directory of the instance. See class comment
* for an explanation of the prefix parameter.
* @return a new FSDirectory instance
*/
FSDirectory *getSubDirectory(const String &name, int depth = 1, bool flat = false);
FSDirectory *getSubDirectory(const String &prefix, const String &name, int depth = 1, bool flat = false);
/**
* Checks for existence in the cache. A full match of relative path and filename is needed
* for success.
*/
virtual bool hasFile(const String &name);
/**
* Returns a list of matching file names. Pattern can use GLOB wildcards.
*/
virtual int listMatchingMembers(ArchiveMemberList &list, const String &pattern);
/**
* Returns a list of all the files in the cache.
*/
virtual int listMembers(ArchiveMemberList &list);
/**
* Get a ArchiveMember representation of the specified file. A full match of relative
* path and filename is needed for success.
*/
virtual ArchiveMemberPtr getMember(const String &name);
/**
* Open the specified file. A full match of relative path and filename is needed
* for success.
*/
virtual SeekableReadStream *createReadStreamForMember(const String &name) const;
};
} // End of namespace Common
#endif //COMMON_FS_H