import jalview.util.DBRefUtils;
import jalview.util.Format;
import jalview.util.MessageManager;
+import jalview.util.Platform;
import java.io.BufferedReader;
import java.io.FileReader;
{
private static final String ANNOTATION = "annotation";
- private static final Regex OPEN_PAREN = new Regex("(<|\\[)", "(");
+ // WUSS extended symbols. Avoid ambiguity with protein SS annotations by using
+ // NOT_RNASS first.
- private static final Regex CLOSE_PAREN = new Regex("(>|\\])", ")");
+ public static final String RNASS_BRACKETS = "<>[](){}AaBbCcDdEeFfGgHhIiJjKkLlMmNnOoPpQqRrSsTtUuVvWwXxYyZz";
- public static final Regex DETECT_BRACKETS = new Regex(
- "(<|>|\\[|\\]|\\(|\\)|\\{|\\})");
+ public static final int REGEX_STOCKHOLM = 0;
- // WUSS extended symbols. Avoid ambiguity with protein SS annotations by using NOT_RNASS first.
- public static final String RNASS_BRACKETS = "<>[](){}AaBbCcDdEeFfGgHhIiJjKkLlMmNnOoPpQqRrSsTtUuVvWwXxYyZz";
+ public static final int REGEX_BRACKETS = 1;
// use the following regex to decide an annotations (whole) line is NOT an RNA
// SS (it contains only E,H,e,h and other non-brace/non-alpha chars)
- private static final Regex NOT_RNASS = new Regex(
- "^[^<>[\\](){}A-DF-Za-df-z]*$");
+ public static final int REGEX_NOT_RNASS = 2;
+
+ private static final int REGEX_ANNOTATION = 3;
+
+ private static final int REGEX_PFAM = 4;
+
+ private static final int REGEX_RFAM = 5;
+
+ private static final int REGEX_ALIGN_END = 6;
+
+ private static final int REGEX_SPLIT_ID = 7;
+
+ private static final int REGEX_SUBTYPE = 8;
+
+ private static final int REGEX_ANNOTATION_LINE = 9;
+
+ private static final int REGEX_REMOVE_ID = 10;
+
+ private static final int REGEX_OPEN_PAREN = 11;
+
+ private static final int REGEX_CLOSE_PAREN = 12;
+
+ public static final int REGEX_MAX = 13;
+
+ private static Regex REGEX[] = new Regex[REGEX_MAX];
+
+ /**
+ * Centralize all actual Regex instantialization in Platform.
+ *
+ * @param id
+ * @return
+ */
+ private static Regex getRegex(int id)
+ {
+ if (REGEX[id] == null)
+ {
+ String pat = null, pat2 = null;
+ switch (id)
+ {
+ case REGEX_STOCKHOLM:
+ pat = "# STOCKHOLM ([\\d\\.]+)";
+ break;
+ case REGEX_BRACKETS:
+ // for reference; not used
+ pat = "(<|>|\\[|\\]|\\(|\\)|\\{|\\})";
+ break;
+ case REGEX_NOT_RNASS:
+ pat = "^[^<>[\\](){}A-DF-Za-df-z]*$";
+ break;
+ case REGEX_ANNOTATION:
+ pat = "(\\w+)\\s*(.*)";
+ break;
+ case REGEX_PFAM:
+ pat = "PF[0-9]{5}(.*)";
+ break;
+ case REGEX_RFAM:
+ pat = "RF[0-9]{5}(.*)";
+ break;
+ case REGEX_ALIGN_END:
+ pat = "^\\s*\\/\\/";
+ break;
+ case REGEX_SPLIT_ID:
+ pat = "(\\S+)\\/(\\d+)\\-(\\d+)";
+ break;
+ case REGEX_SUBTYPE:
+ pat = "(\\S+)\\s+(\\S*)\\s+(.*)";
+ break;
+ case REGEX_ANNOTATION_LINE:
+ pat = "#=(G[FSRC]?)\\s+(.*)";
+ break;
+ case REGEX_REMOVE_ID:
+ pat = "(\\S+)\\s+(\\S+)";
+ break;
+ case REGEX_OPEN_PAREN:
+ pat = "(<|\\[)";
+ pat2 = "(";
+ break;
+ case REGEX_CLOSE_PAREN:
+ pat = "(>|\\])";
+ pat2 = ")";
+ break;
+ default:
+ return null;
+ }
+ REGEX[id] = Platform.newRegex(pat, pat2);
+ }
+ return REGEX[id];
+ }
StringBuffer out; // output buffer
// First, we have to check that this file has STOCKHOLM format, i.e. the
// first line must match
- r = new Regex("# STOCKHOLM ([\\d\\.]+)");
+ r = getRegex(REGEX_STOCKHOLM);
if (!r.search(nextLine()))
{
throw new IOException(MessageManager
}
// We define some Regexes here that will be used regularily later
- rend = new Regex("^\\s*\\/\\/"); // Find the end of an alignment
- p = new Regex("(\\S+)\\/(\\d+)\\-(\\d+)"); // split sequence id in
+ rend = getRegex(REGEX_ALIGN_END);//"^\\s*\\/\\/"); // Find the end of an alignment
+ p = getRegex(REGEX_SPLIT_ID);//"(\\S+)\\/(\\d+)\\-(\\d+)"); // split sequence id in
// id/from/to
- s = new Regex("(\\S+)\\s+(\\S*)\\s+(.*)"); // Parses annotation subtype
- r = new Regex("#=(G[FSRC]?)\\s+(.*)"); // Finds any annotation line
- x = new Regex("(\\S+)\\s+(\\S+)"); // split id from sequence
+ s = getRegex(REGEX_SUBTYPE);// "(\\S+)\\s+(\\S*)\\s+(.*)"); // Parses
+ // annotation subtype
+ r = getRegex(REGEX_ANNOTATION_LINE);// "#=(G[FSRC]?)\\s+(.*)"); // Finds any
+ // annotation line
+ x = getRegex(REGEX_REMOVE_ID);// "(\\S+)\\s+(\\S+)"); // split id from
+ // sequence
// Convert all bracket types to parentheses (necessary for passing to VARNA)
- Regex openparen = new Regex("(<|\\[)", "(");
- Regex closeparen = new Regex("(>|\\])", ")");
+ Regex openparen = getRegex(REGEX_OPEN_PAREN);//"(<|\\[)", "(");
+ Regex closeparen = getRegex(REGEX_CLOSE_PAREN);//"(>|\\])", ")");
- // Detect if file is RNA by looking for bracket types
- Regex detectbrackets = new Regex("(<|>|\\[|\\]|\\(|\\))");
+// // Detect if file is RNA by looking for bracket types
+ // Regex detectbrackets = getRegex("(<|>|\\[|\\]|\\(|\\))");
rend.optimize();
p.optimize();
// End of the alignment, pass stuff back
this.noSeqs = seqs.size();
- String seqdb, dbsource = null;
- Regex pf = new Regex("PF[0-9]{5}(.*)"); // Finds AC for Pfam
- Regex rf = new Regex("RF[0-9]{5}(.*)"); // Finds AC for Rfam
+ String dbsource = null;
+ Regex pf = getRegex(REGEX_PFAM); // Finds AC for Pfam
+ Regex rf = getRegex(REGEX_RFAM); // Finds AC for Rfam
if (getAlignmentProperty("AC") != null)
{
String dbType = getAlignmentProperty("AC").toString();
if (accAnnotations != null && accAnnotations.containsKey("AC"))
{
- if (dbsource != null)
- {
String dbr = (String) accAnnotations.get("AC");
if (dbr != null)
{
// we could get very clever here - but for now - just try to
- // guess accession type from source of alignment plus structure
+ // guess accession type from type of sequence, source of alignment plus
+ // structure
// of accession
guessDatabaseFor(seqO, dbr, dbsource);
-
- }
}
// else - do what ? add the data anyway and prompt the user to
// specify what references these are ?
*/
// Let's save the annotations, maybe we'll be able to do something
// with them later...
- Regex an = new Regex("(\\w+)\\s*(.*)");
+ Regex an = getRegex(REGEX_ANNOTATION);
if (an.search(annContent))
{
if (an.stringMatched(1).equals("NH"))
treeName = an.stringMatched(2);
treeString = new StringBuffer();
}
+ // TODO: JAL-3532 - this is where GF comments and database references are lost
+ // suggest overriding this method for Stockholm files to catch and properly
+ // process CC, DR etc into multivalued properties
setAlignmentProperty(an.stringMatched(1), an.stringMatched(2));
}
}
st = -1;
}
}
+ if (dbsource == null)
+ {
+ // make up an origin based on whether the sequence looks like it is nucleotide
+ // or protein
+ dbsource = (seqO.isProtein()) ? "PFAM" : "RFAM";
+ }
if (dbsource.equals("PFAM"))
{
seqdb = "UNIPROT";
if (type.equalsIgnoreCase("secondary structure"))
{
ss = true;
- isrnass = !NOT_RNASS.search(annots); // sorry about the double negative
+ isrnass = !getRegex(REGEX_NOT_RNASS).search(annots); // sorry about the double
+ // negative
// here (it's easier for dealing with
// other non-alpha-non-brace chars)
}
return ref.getSource().toString() + " ; "
+ ref.getAccessionId().toString();
}
+
@Override
public String print(SequenceI[] s, boolean jvSuffix)
{
int max = 0;
int maxid = 0;
int in = 0;
- Hashtable dataRef = null;
- while ((in < s.length) && (s[in] != null))
+ int slen = s.length;
+ SequenceI seq;
+ Hashtable<String, String> dataRef = null;
+ boolean isAA = s[in].isProtein();
+ while ((in < slen) && ((seq = s[in]) != null))
{
- boolean isAA = s[in].isProtein();
- String tmp = printId(s[in], jvSuffix);
- max = Math.max(max, s[in].getLength());
+ String tmp = printId(seq, jvSuffix);
+ max = Math.max(max, seq.getLength());
if (tmp.length() > maxid)
{
maxid = tmp.length();
}
- if (s[in].getDBRefs() != null)
+ List<DBRefEntry> seqrefs = seq.getDBRefs();
+ int ndb;
+ if (seqrefs != null && (ndb = seqrefs.size()) > 0)
{
if (dataRef == null)
{
- dataRef = new Hashtable();
+ dataRef = new Hashtable<>();
}
- List<DBRefEntry> primrefs = s[in].getPrimaryDBRefs();
+ List<DBRefEntry> primrefs = seq.getPrimaryDBRefs();
if (primrefs.size() >= 1)
{
dataRef.put(tmp, dbref_to_ac_record(primrefs.get(0)));
}
else
{
- for (int idb = 0; idb < s[in].getDBRefs().length; idb++)
+ for (int idb = 0; idb < ndb; idb++)
{
- DBRefEntry dbref = s[in].getDBRefs()[idb];
+ DBRefEntry dbref = seqrefs.get(idb);
dataRef.put(tmp, dbref_to_ac_record(dbref));
// if we put in a uniprot or EMBL record then we're done:
- if (isAA && DBRefSource.UNIPROT
- .equals(DBRefUtils.getCanonicalName(dbref.getSource())))
- {
- break;
- }
- if (!isAA && DBRefSource.EMBL
+ if ((isAA ? DBRefSource.UNIPROT : DBRefSource.EMBL)
.equals(DBRefUtils.getCanonicalName(dbref.getSource())))
{
break;
// output database accessions
if (dataRef != null)
{
- Enumeration en = dataRef.keys();
+ Enumeration<String> en = dataRef.keys();
while (en.hasMoreElements())
{
Object idd = en.nextElement();
- String type = (String) dataRef.remove(idd);
+ String type = dataRef.remove(idd);
out.append(new Format("%-" + (maxid - 2) + "s")
.form("#=GS " + idd.toString() + " "));
- if (type.contains("PFAM") || type.contains("RFAM"))
+ if (isAA && type.contains("UNIPROT")
+ || (!isAA && type.contains("EMBL")))
{
out.append(" AC " + type.substring(type.indexOf(";") + 1));
}
// output annotations
- while (i < s.length && s[i] != null)
+ while (i < slen && (seq = s[i]) != null)
{
- AlignmentAnnotation[] alAnot = s[i].getAnnotation();
+ AlignmentAnnotation[] alAnot = seq.getAnnotation();
if (alAnot != null)
{
Annotation[] ann;
- for (int j = 0; j < alAnot.length; j++)
+ for (int j = 0, nj = alAnot.length; j < nj; j++)
{
String key = type2id(alAnot[j].label);
// out.append("#=GR ");
out.append(new Format("%-" + maxid + "s").form(
- "#=GR " + printId(s[i], jvSuffix) + " " + key + " "));
+ "#=GR " + printId(seq, jvSuffix) + " " + key + " "));
ann = alAnot[j].annotations;
- String seq = "";
- for (int k = 0; k < ann.length; k++)
+ String sseq = "";
+ for (int k = 0, nk = ann.length; k < nk; k++)
{
- seq += outputCharacter(key, k, isrna, ann, s[i]);
+ sseq += outputCharacter(key, k, isrna, ann, seq);
}
- out.append(seq);
+ out.append(sseq);
out.append(newline);
}
}
out.append(new Format("%-" + maxid + "s")
- .form(printId(s[i], jvSuffix) + " "));
- out.append(s[i].getSequenceAsString());
+ .form(printId(seq, jvSuffix) + " "));
+ out.append(seq.getSequenceAsString());
out.append(newline);
i++;
}
// alignment annotation
AlignmentAnnotation aa;
- if (al.getAlignmentAnnotation() != null)
+ AlignmentAnnotation[] an = al.getAlignmentAnnotation();
+ if (an != null)
{
- for (int ia = 0; ia < al.getAlignmentAnnotation().length; ia++)
+ for (int ia = 0, na = an.length; ia < na; ia++)
{
- aa = al.getAlignmentAnnotation()[ia];
+ aa = an[ia];
if (aa.autoCalculated || !aa.visible || aa.sequenceRef != null)
{
continue;
}
- String seq = "";
+ String sseq = "";
String label;
String key = "";
if (aa.label.equals("seq"))
out.append(
new Format("%-" + maxid + "s").form("#=GC " + label + " "));
boolean isrna = aa.isValidStruc();
- for (int j = 0; j < aa.annotations.length; j++)
+ for (int j = 0, nj = aa.annotations.length; j < nj; j++)
{
- seq += outputCharacter(key, j, isrna, aa.annotations, null);
+ sseq += outputCharacter(key, j, isrna, aa.annotations, null);
}
- out.append(seq);
+ out.append(sseq);
out.append(newline);
}
}