Esempio n. 1
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        public void TestCreateNew()
        {
            if (Globals.prefs == null)
            {
                Globals.prefs = JabRefPreferences.getInstance();
            }

            BibtexDatabase db = new BibtexDatabase();

            BibtexEntry entry = new BibtexEntry();
            entry.setType(BibtexEntryType.ARTICLE.Instance);

            db.insertEntry(entry);
            db.setCiteKeyForEntry(entry.getId(), "ZXY");

            foreach (var f in entry.getRequiredFields())
            {
                string value = BibtexFields.isNumeric(f) ? "1000" : "Test";
                entry.setField(f, value);
            }

            db.saveDatabase(File.Open(@"C:\Users\Peter\Desktop\bibtest.bib", FileMode.Create));
        }
Esempio n. 2
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        /**
         * Determines whether this entry has all the given fields present. If a non-null
         * database argument is given, this method will try to look up missing fields in
         * entries linked by the "crossref" field, if any.
         *
         * @param fields An array of field names to be checked.
         * @param database The database in which to look up crossref'd entries, if any. This
         *  argument can be null, meaning that no attempt will be made to follow crossrefs.
         * @return true if all fields are set or could be resolved, false otherwise.
         */
        public bool allFieldsPresent(string[] fields, BibtexDatabase database)
        {
            for (int i = 0; i < fields.Length; i++) {
            if (BibtexDatabase.getResolvedField(fields[i], this, database) == null) {
                return false;
            }
            }

            return true;
        }
Esempio n. 3
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 /**
  * Returns true if this entry Contains the fields it needs to be
  * complete.
  */
 public bool hasAllRequiredFields(BibtexDatabase database)
 {
     return _type.hasAllRequiredFields(this, database);
 }
Esempio n. 4
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 protected bool isCoupledFieldSet(string field, BibtexEntry entry, BibtexDatabase database)
 {
     if (reqSets == null)
     return false;
     for (int i=0; i<reqSets.Length; i++) {
     bool takesPart = false, oneSet = false;
     for (int j=0; j<reqSets[i].Length; j++) {
         // If this is the field we're looking for, note that the field is part of the set:
         if (reqSets[i][j].Equals(field, System.StringComparison.CurrentCultureIgnoreCase))
             takesPart = true;
         // If it is a different field, check if it is set:
         else if (BibtexDatabase.getResolvedField(reqSets[i][j], entry, database) != null)
             oneSet = true;
     }
     // Ths the field is part of the set, and at least one other field is set, return true:
     if (takesPart && oneSet)
         return true;
     }
     // No hits, so return false:
     return false;
 }
Esempio n. 5
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 /**
  * Check whether this entry's required fields are set, taking crossreferenced entries and
  * either-or fields into account:
  * @param entry The entry to check.
  * @param database The entry's database.
  * @return True if required fields are set, false otherwise.
  */
 public override bool hasAllRequiredFields(BibtexEntry entry, BibtexDatabase database)
 {
     // First check if the bibtex key is set:
     if (entry.getField(Globals.KEY_FIELD) == null)
         return false;
     // Then check other fields:
     bool[] isSet = new bool[req.Length];
     // First check for all fields, whether they are set here or in a crossref'd entry:
     for (int i=0; i<req.Length; i++)
     isSet[i] = BibtexDatabase.getResolvedField(req[i], entry, database) != null;
     // Then go through all fields. If a field is not set, see if it is part of an either-or
     // set where another field is set. If not, return false:
     for (int i=0; i<req.Length; i++) {
     if (!isSet[i]) {
         if (!isCoupledFieldSet(req[i], entry, database))
             return false;
     }
     }
     // Passed all fields, so return true:
     return true;
 }
Esempio n. 6
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        /**
         * Returns the text stored in the given field of the given bibtex entry
         * which belongs to the given database.
         *
         * If a database is given, this function will try to resolve any string
         * references in the field-value.
         * Also, if a database is given, this function will try to find values for
         * unset fields in the entry linked by the "crossref" field, if any.
         *
         * @param field
         *            The field to return the value of.
         * @param bibtex maybenull
         *            The bibtex entry which Contains the field.
         * @param database maybenull
         *            The database of the bibtex entry.
         * @return The resolved field value or null if not found.
         */
        public static string getResolvedField(string field, BibtexEntry bibtex,
            BibtexDatabase database)
        {
            if (field.Equals("bibtextype"))
            return bibtex.getType().getName();

            object o = bibtex.getField(field);

            // If this field is not set, and the entry has a crossref, try to look up the
            // field in the referred entry: Do not do this for the bibtex key.
            if ((o == null) && (database != null) && database.followCrossrefs &&
                !field.Equals(Globals.KEY_FIELD) && (database != null)) {
            object crossRef = bibtex.getField("crossref");
            if (crossRef != null) {
                BibtexEntry referred = database.getEntryByKey((string)crossRef);
                if (referred != null) {
                    // Ok, we found the referred entry. Get the field value from that
                    // entry. If it is unset there, too, stop looking:
                    o = referred.getField(field);
                }
            }
            }

            return getText((string)o, database);
        }
Esempio n. 7
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        /**
         * Returns a text with references resolved according to an optionally given
         * database.

         * @param toResolve maybenull The text to resolve.
         * @param database maybenull The database to use for resolving the text.
         * @return The resolved text or the original text if either the text or the database are null
         */
        public static string getText(string toResolve, BibtexDatabase database)
        {
            if (toResolve != null && database != null)
            return database.resolveForStrings(toResolve);

            return toResolve;
        }
Esempio n. 8
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 public override bool hasAllRequiredFields(BibtexEntry entry, BibtexDatabase database)
 {
     return true;
 }
Esempio n. 9
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        private void importBibTexFromClipBoardToolStripMenuItem_Click(object sender, EventArgs e)
        {
            if (Clipboard.GetDataObject().GetDataPresent(DataFormats.Text))
            {
                BibtexParser parser = new BibtexParser(new StringReader(Clipboard.GetDataObject().GetData(DataFormats.Text).ToString()));
                var result = parser.Parse();
                db = result.Database;

                foreach (var entry in db.getEntries())
                    AddBibTeXEntry(entry);
            }
        }
Esempio n. 10
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        private static Regex refPat = new Regex("(#[A-Za-z]+#)"); // Used to detect string references in strings

        #endregion Fields

        #region Methods

        /*
        * We have begun to use getSortedEntries() for both database save operations
        * and non-database save operations.  In a non-database save operation
        * (such as the exportDatabase call), we do not wish to use the
        * global preference of saving in standard order.
        */
        public static List<BibtexEntry> getSortedEntries(BibtexDatabase database, ICollection<string> keySet, bool isSaveOperation)
        {
            var comparators = new List<IComparer<BibtexEntry>>();

            bool inOriginalOrder = isSaveOperation ? Globals.prefs.getBoolean("saveInOriginalOrder") :
                Globals.prefs.getBoolean("exportInOriginalOrder");
            if (inOriginalOrder)
            {
                // Sort entries based on their creation order, utilizing the fact
                // that IDs used for entries are increasing, sortable numbers.
                comparators.Add(new CrossRefEntryComparator());
                comparators.Add(new IdComparator());

            }
            else
            {
                string pri, sec, ter;
                bool priD, secD, terD = false;

                bool inStandardOrder = isSaveOperation ? Globals.prefs.getBoolean("saveInStandardOrder") :
                    Globals.prefs.getBoolean("exportInStandardOrder");
                if (!inStandardOrder)
                {
                    // The setting is to save according to the current table order.
                    pri = Globals.prefs.get("priSort");
                    sec = Globals.prefs.get("secSort");
                    // sorted as they appear on the screen.
                    ter = Globals.prefs.get("terSort");
                    priD = Globals.prefs.getBoolean("priDescending");
                    secD = Globals.prefs.getBoolean("secDescending");
                    terD = Globals.prefs.getBoolean("terDescending");

                }
                else
                {
                    // The setting is to save in standard order: author, editor, year
                    pri = "author";
                    sec = "editor";
                    ter = "year";
                    priD = false;
                    secD = false;
                    terD = true;
                }

                if (isSaveOperation)
                    comparators.Add(new CrossRefEntryComparator());
                comparators.Add(new FieldComparator(pri, priD));
                comparators.Add(new FieldComparator(sec, secD));
                comparators.Add(new FieldComparator(ter, terD));
                comparators.Add(new FieldComparator(Globals.KEY_FIELD));
            }

            List<BibtexEntry> entries = new List<BibtexEntry>();

            if (keySet == null)
                keySet = database.getKeySet();

            if (keySet != null)
            {
                var i = keySet.GetEnumerator();

                for (; i.MoveNext(); )
                {
                    entries.Add(database.getEntryById((i.Current)));
                }
            }
            entries.Sort(new FieldComparatorStack<BibtexEntry>(comparators));
            return entries;
        }
Esempio n. 11
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 /**
  * Write all strings in alphabetical order, modified to produce a safe (for BibTeX) order of the strings
  * if they reference each other.
  * @param fw The Writer to send the output to.
  * @param database The database whose strings we should write.
  * @throws IOException If anthing goes wrong in writing.
  */
 private static void writeStrings(TextWriter fw, BibtexDatabase database)
 {
     List<BibtexString> strings = new List<BibtexString>();
     foreach (var s in database.getStringKeySet()) {
     strings.Add(database.getString(s));
     }
     strings.Sort(new BibtexStringComparator(true));
     // First, make a Map of all entries:
     Dictionary<string, BibtexString> remaining = new Dictionary<string, BibtexString>();
     foreach (var str in strings) {
     // TODO: possible error in translation, though this looks right...
     remaining.Add(str.getName(), str);
     }
     foreach (var bs in strings) {
     if (remaining.ContainsKey(bs.getName()))
         writeString(fw, bs, remaining);
     }
 }
Esempio n. 12
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        /**
         * Saves the database to file, including only the entries included in the
         * supplied input array bes.
         *
         * @return A List containing warnings, if any.
         */
        public static void savePartOfDatabase(BibtexDatabase database,
            Stream file, JabRefPreferences prefs, BibtexEntry[] bes, string encoding)
        {
            var types = new Dictionary<string, BibtexEntryType>(); // Map
            // to
            // collect
            // entry
            // type
            // definitions
            // that we must save along with entries using them.

            BibtexEntry be = null;
            bool backup = prefs.getBoolean("backup");

            try
            {

                // Define our data stream.
                var fw = new StreamWriter(file);

                // Write signature.
                writeBibFileHeader(fw, encoding);

                // Write preamble if there is one.
                writePreamble(fw, database.getPreamble());

                // Write strings if there are any.
                writeStrings(fw, database);

                // Write database entries. Take care, using CrossRefEntry-
                // IComparable, that referred entries occur after referring
                // ones. Apart from crossref requirements, entries will be
                // sorted as they appear on the screen.
                string pri, sec, ter;

                bool priD, secD, terD;
                if (!prefs.getBoolean("saveInStandardOrder"))
                {
                    // The setting is to save according to the current table order.
                    pri = prefs.get("priSort");
                    sec = prefs.get("secSort");
                    // sorted as they appear on the screen.
                    ter = prefs.get("terSort");
                    priD = prefs.getBoolean("priDescending");
                    secD = prefs.getBoolean("secDescending");
                    terD = prefs.getBoolean("terDescending");
                }
                else
                {
                    // The setting is to save in standard order: author, editor, year
                    pri = "author";
                    sec = "editor";
                    ter = "year";
                    priD = false;
                    secD = false;
                    terD = true;
                }

                var comparators = new List<IComparer<BibtexEntry>>();
                comparators.Add(new CrossRefEntryComparator());
                comparators.Add(new FieldComparator(pri, priD));
                comparators.Add(new FieldComparator(sec, secD));
                comparators.Add(new FieldComparator(ter, terD));
                comparators.Add(new FieldComparator(Globals.KEY_FIELD));
                // Use glazed lists to get a sorted view of the entries:

                List<BibtexEntry> entries = new List<BibtexEntry>();

                if ((bes != null) && (bes.Length > 0))
                    for (int i = 0; i < bes.Length; i++)
                    {
                        entries.Add(bes[i]);
                    }

                entries.Sort(new FieldComparatorStack<BibtexEntry>(comparators));

                FieldFormatter ff = new LatexFieldFormatter();

                for (var i = entries.GetEnumerator(); i.MoveNext(); )
                {
                    be = i.Current;

                    // Check if we must write the type definition for this
                    // entry, as well. Our criterion is that all non-standard
                    // types (*not* customized standard types) must be written.
                    BibtexEntryType tp = be.getType();
                    if (BibtexEntryType.getStandardType(tp.getName()) == null)
                    {
                        types.Add(tp.getName(), tp);
                    }

                    be.write(fw, ff, true);
                    fw.Write(Environment.NewLine);
                }

                // Write type definitions, if any:
                if (types.Count > 0)
                {
                    foreach (var i in types.Keys)
                    {
                        CustomEntryType tp = (CustomEntryType)types[i];
                        tp.save(fw);
                        fw.Write(Environment.NewLine);
                    }

                }

                fw.Dispose();
            }
            catch (Exception ex)
            {
                try
                {
                    // TODO:
                    //session.cancel();
                    //repairAfterError(file, backup, status);
                }
                catch (IOException e)
                {
                    // Argh, another error? Can we do anything?
                    throw new SaveException(ex.Message + "\n" +
                            Globals.lang("Warning: could not complete file repair; your file may "
                            + "have been corrupted. Error message: ") + e.Message);
                }
                throw new SaveException(ex.Message, be);
            }
        }
Esempio n. 13
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        /**
         * Saves the database to file. Two bool values indicate whether
         * only entries with a nonzero Globals.SEARCH value and only
         * entries with a nonzero Globals.GROUPSEARCH value should be
         * saved. This can be used to let the user save only the results of
         * a search. False and false means all entries are saved.
         */
        public static void saveDatabase(BibtexDatabase database,
            Stream file, bool checkSearch, bool checkGroup, string encoding)
        {
            var types = new Dictionary<string, BibtexEntryType>();

            BibtexEntry exceptionCause = null;
            try
            {

                // Get our data stream. This stream writes only to a temporary file,
                // until committed.
                var fw = new StreamWriter(file);

                // Write signature.
                writeBibFileHeader(fw, encoding);

                // Write preamble if there is one.
                writePreamble(fw, database.getPreamble());

                // Write strings if there are any.
                writeStrings(fw, database);

                // Write database entries. Take care, using CrossRefEntry-
                // IComparable, that referred entries occur after referring
                // ones. Apart from crossref requirements, entries will be
                // sorted as they appear on the screen.
                List<BibtexEntry> sorter = getSortedEntries(database, null, true);

                FieldFormatter ff = new LatexFieldFormatter();

                foreach (var be in sorter)
                {
                    exceptionCause = be;

                    // Check if we must write the type definition for this
                    // entry, as well. Our criterion is that all non-standard
                    // types (*not* customized standard types) must be written.
                    BibtexEntryType tp = be.getType();

                    if (BibtexEntryType.getStandardType(tp.getName()) == null)
                    {
                        types.Add(tp.getName(), tp);
                    }

                    // Check if the entry should be written.
                    bool write = true;

                    if (checkSearch && !nonZeroField(be, BibtexFields.SEARCH))
                    {
                        write = false;
                    }

                    if (checkGroup && !nonZeroField(be, BibtexFields.GROUPSEARCH))
                    {
                        write = false;
                    }

                    if (write)
                    {
                        be.write(fw, ff, true);
                        fw.Write(Environment.NewLine);
                    }
                }

                // Write type definitions, if any:
                if (types.Count > 0)
                {
                    foreach (var key in types.Keys)
                    {
                        BibtexEntryType type = types[key];
                        if (type is CustomEntryType)
                        {
                            CustomEntryType tp = (CustomEntryType)type;
                            tp.save(fw);
                            fw.Write(Environment.NewLine);
                        }
                    }

                }

                fw.Dispose();
            }
            catch (Exception ex)
            {
                try
                {
                    // TODO: des error handling
                    //session.cancel();
                    // repairAfterError(file, backup, INIT_OK);
                }
                catch (IOException e)
                {
                    // Argh, another error? Can we do anything?
                    throw new SaveException(ex.Message + "\n" +
                            Globals.lang("Warning: could not complete file repair; your file may "
                            + "have been corrupted. Error message") + ": " + e.Message);

                }
                throw new SaveException(ex.Message, exceptionCause);
            }
        }