Mercurial > hg > orthanc
view Resources/WebAssembly/dcdict.h @ 3325:2e7c5c15ba25
reserve size for base64 decoding + avoid copy. In a test in WASM, encoding 3MB took 110ms instead of 1400ms previously
author | Alain Mazy <alain@mazy.be> |
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date | Thu, 21 Mar 2019 09:57:31 +0100 |
parents | 97a74f0eac7a |
children |
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/* * * Copyright (C) 1994-2015, OFFIS e.V. * All rights reserved. See COPYRIGHT file for details. * * This software and supporting documentation were developed by * * OFFIS e.V. * R&D Division Health * Escherweg 2 * D-26121 Oldenburg, Germany * * * Module: dcmdata * * Author: Andrew Hewett * * Purpose: Interface for loadable DICOM data dictionary * */ #ifndef DCMDICT_H #define DCMDICT_H #include "dcmtk/config/osconfig.h" /* make sure OS specific configuration is included first */ #include "dcmtk/ofstd/ofthread.h" #include "dcmtk/dcmdata/dchashdi.h" /// maximum length of a line in the loadable DICOM dictionary #define DCM_MAXDICTLINESIZE 2048 /// maximum number of fields per entry in the loadable DICOM dictionary #define DCM_MAXDICTFIELDS 6 /// environment variable pointing to the data dictionary file #define DCM_DICT_ENVIRONMENT_VARIABLE "DCMDICTPATH" #ifndef DCM_DICT_DEFAULT_PATH /* ** The default dictionary path is system dependent. It should ** be defined in a configuration file included from "osconfig.h" */ #error "DCM_DICT_DEFAULT_PATH is not defined via osconfig.h" #endif /* !DCM_DICT_DEFAULT_PATH */ #ifndef ENVIRONMENT_PATH_SEPARATOR #define ENVIRONMENT_PATH_SEPARATOR '\n' /* at least define something unlikely */ #endif /** this class implements a loadable DICOM Data Dictionary */ class DCMTK_DCMDATA_EXPORT DcmDataDictionary { public: /** constructor * @param loadBuiltin flag indicating if a built-in data dictionary * (if any) should be loaded. * @param loadExternal flag indicating if an external data dictionary * should be read from file. */ DcmDataDictionary(OFBool loadBuiltin, OFBool loadExternal); /// destructor ~DcmDataDictionary(); /** checks if a data dictionary is loaded (excluding the skeleton dictionary) * @return true if loaded, false if no dictionary is present */ OFBool isDictionaryLoaded() const { return dictionaryLoaded; } /// returns the number of normal (non-repeating) tag entries int numberOfNormalTagEntries() const { return hashDict.size(); } /// returns the number of repeating tag entries int numberOfRepeatingTagEntries() const { return OFstatic_cast(int, repDict.size()); } /** returns the number of dictionary entries that were loaded * either from file or from a built-in dictionary or both. */ int numberOfEntries() const { return numberOfNormalTagEntries() + numberOfRepeatingTagEntries() - skeletonCount; } /** returns the number of skeleton entries. The skeleton is a collection * of dictionary entries which are always present, even if neither internal * nor external dictionary have been loaded. It contains very basic * things like item delimitation and sequence delimitation. */ int numberOfSkeletonEntries() const { return skeletonCount; } /** reload data dictionaries. First, all dictionary entries are deleted. * @param loadBuiltin flag indicating if a built-in data dictionary * (if any) should be loaded. * @param loadExternal flag indicating if an external data dictionary * should be read from file. * @return true if reload was successful, false if an error occurred */ OFBool reloadDictionaries(OFBool loadBuiltin, OFBool loadExternal); /** load a particular dictionary from file. * @param fileName filename * @param errorIfAbsent causes the method to return false * if the file cannot be opened * @return false if the file contains a parse error or if the file could * not be opened and errorIfAbsent was set, true otherwise. */ OFBool loadDictionary(const char* fileName, OFBool errorIfAbsent = OFTrue); /** dictionary lookup for the given tag key and private creator name. * First the normal tag dictionary is searched. If not found * then the repeating tag dictionary is searched. * @param key tag key * @param privCreator private creator name, may be NULL */ const DcmDictEntry* findEntry(const DcmTagKey& key, const char *privCreator) const; /** dictionary lookup for the given attribute name. * First the normal tag dictionary is searched. If not found * then the repeating tag dictionary is searched. * Only considers standard attributes (i. e. without private creator) * @param name attribute name */ const DcmDictEntry* findEntry(const char *name) const; /// deletes all dictionary entries void clear(); /** adds an entry to the dictionary. Must be allocated via new. * The entry becomes the property of the dictionary and will be * deallocated (via delete) upon clear() or dictionary destruction. * If an equivalent entry already exists it will be replaced by * the new entry and the old entry deallocated (via delete). * @param entry pointer to new entry */ void addEntry(DcmDictEntry* entry); /* Iterators to access the normal and the repeating entries */ /// returns an iterator to the start of the normal (non-repeating) dictionary DcmHashDictIterator normalBegin() { return hashDict.begin(); } /// returns an iterator to the end of the normal (non-repeating) dictionary DcmHashDictIterator normalEnd() { return hashDict.end(); } /// returns an iterator to the start of the repeating tag dictionary DcmDictEntryListIterator repeatingBegin() { return repDict.begin(); } /// returns an iterator to the end of the repeating tag dictionary DcmDictEntryListIterator repeatingEnd() { return repDict.end(); } // Function by the Orthanc project to load a dictionary from a // memory buffer, which is necessary in sandboxed // environments. This is an adapted version of // DcmDataDictionary::loadDictionary(). OFBool loadFromMemory(const std::string& content, OFBool errorIfAbsent = OFTrue); private: /** private undefined assignment operator */ DcmDataDictionary &operator=(const DcmDataDictionary &); /** private undefined copy constructor */ DcmDataDictionary(const DcmDataDictionary &); /** loads external dictionaries defined via environment variables * @return true if successful */ OFBool loadExternalDictionaries(); /** loads a builtin (compiled) data dictionary. * Depending on which code is in use, this function may not * do anything. */ void loadBuiltinDictionary(); /** loads the skeleton dictionary (the bare minimum needed to run) * @return true if successful */ OFBool loadSkeletonDictionary(); /** looks up the given directory entry in the two dictionaries. * @return pointer to entry if found, NULL otherwise */ const DcmDictEntry* findEntry(const DcmDictEntry& entry) const; /** deletes the given entry from either dictionary */ void deleteEntry(const DcmDictEntry& entry); /** dictionary of normal tags */ DcmHashDict hashDict; /** dictionary of repeating tags */ DcmDictEntryList repDict; /** the number of skeleton entries */ int skeletonCount; /** is a dictionary loaded (more than skeleton) */ OFBool dictionaryLoaded; }; /** global singleton dicom dictionary that is used by DCMTK in order to lookup * attribute VR, tag names and so on. The dictionary is internally populated * on first use, if the user accesses it via rdlock() or wrlock(). The * dictionary allows safe read (shared) and write (exclusive) access from * multiple threads in parallel. */ class DCMTK_DCMDATA_EXPORT GlobalDcmDataDictionary { public: /** constructor. */ GlobalDcmDataDictionary(); /** destructor */ ~GlobalDcmDataDictionary(); /** acquires a read lock and returns a const reference to * the dictionary. * @return const reference to dictionary */ const DcmDataDictionary& rdlock(); /** acquires a write lock and returns a non-const reference * to the dictionary. * @return non-const reference to dictionary. */ DcmDataDictionary& wrlock(); /** unlocks the read or write lock which must have been acquired previously. */ void unlock(); /** checks if a data dictionary has been loaded. This method acquires and * releases a read lock. It must not be called with another lock on the * dictionary being held by the calling thread. * @return OFTrue if dictionary has been loaded, OFFalse otherwise. */ OFBool isDictionaryLoaded(); /** erases the contents of the dictionary. This method acquires and * releases a write lock. It must not be called with another lock on the * dictionary being held by the calling thread. This method is intended * as a help for debugging memory leaks. */ void clear(); private: /** private undefined assignment operator */ GlobalDcmDataDictionary &operator=(const GlobalDcmDataDictionary &); /** private undefined copy constructor */ GlobalDcmDataDictionary(const GlobalDcmDataDictionary &); /** create the data dictionary instance for this class. Used for first * intialization. The caller must not have dataDictLock locked. */ void createDataDict(); /** the data dictionary managed by this class */ DcmDataDictionary *dataDict; #ifdef WITH_THREADS /** the read/write lock used to protect access from multiple threads */ OFReadWriteLock dataDictLock; #endif }; /** The Global DICOM Data Dictionary. * Will be created before main() starts and gets populated on its first use. * Tries to load a builtin data dictionary (if compiled in). * Tries to load data dictionaries from files specified by * the DCMDICTPATH environment variable. If this environment * variable does not exist then a default file is loaded (if * it exists). * It is possible that no data dictionary gets loaded. This * is likely to cause unexpected behaviour in the dcmdata * toolkit classes. */ extern DCMTK_DCMDATA_EXPORT GlobalDcmDataDictionary dcmDataDict; #endif