[Bio] / Sprout / SearchHelper.pm Repository:
ViewVC logotype

Annotation of /Sprout/SearchHelper.pm

Parent Directory Parent Directory | Revision Log Revision Log


Revision 1.22 - (view) (download) (as text)

1 : parrello 1.1 #!/usr/bin/perl -w
2 :    
3 :     package SearchHelper;
4 :    
5 :     use strict;
6 :     use Tracer;
7 :     use PageBuilder;
8 :     use Digest::MD5;
9 :     use File::Basename;
10 :     use File::Path;
11 :     use File::stat;
12 :     use LWP::UserAgent;
13 :     use Time::HiRes 'gettimeofday';
14 :     use Sprout;
15 :     use SFXlate;
16 :     use FIGRules;
17 :     use HTML;
18 :     use BasicLocation;
19 : parrello 1.2 use FeatureQuery;
20 : parrello 1.3 use URI::Escape;
21 :     use PageBuilder;
22 : parrello 1.1
23 :     =head1 Search Helper Base Class
24 :    
25 :     =head2 Introduction
26 :    
27 :     The search helper is a base class for all search objects. It has methods for performing
28 :     all the common tasks required to build and manage a search cache. The subclass must
29 :     provide methods for generating and processing search forms. The base class has the
30 :     following object fields.
31 :    
32 :     =over 4
33 :    
34 :     =item cols
35 :    
36 :     Reference to a list of column header descriptions. If undefined, then the session cache
37 :     file has been opened but nothing has been written to it.
38 :    
39 :     =item fileHandle
40 :    
41 :     File handle for the session cache file.
42 :    
43 :     =item query
44 :    
45 :     CGI query object, which includes the search parameters and the various
46 :     session status variables kept between requests from the user.
47 :    
48 :     =item type
49 :    
50 :     Session type: C<old> if there is an existing cache file from which we are
51 :     displaying search results, or C<new> if the cache file needs to be built.
52 :    
53 :     =item class
54 :    
55 :     Name of the search helper class as it would appear in the CGI query object
56 :     (i.e. without the C<SH> prefix.
57 :    
58 :     =item sprout
59 :    
60 :     Sprout object for accessing the database.
61 :    
62 :     =item message
63 :    
64 :     Message to display if an error has been detected.
65 :    
66 :     =item orgs
67 :    
68 :     Reference to a hash mapping genome IDs to organism names.
69 :    
70 :     =item name
71 :    
72 :     Name to use for this object's form.
73 :    
74 :     =item scriptQueue
75 :    
76 :     List of JavaScript statements to be executed after the form is closed.
77 :    
78 : parrello 1.3 =item genomeHash
79 :    
80 :     Cache of the genome group hash used to build genome selection controls.
81 :    
82 :     =item genomeParms
83 :    
84 :     List of the parameters that are used to select multiple genomes.
85 :    
86 :     =item filtered
87 :    
88 :     TRUE if this is a feature-filtered search, else FALSE. B<NOTE> that this
89 :     field is updated by the B<FeatureQuery> object.
90 :    
91 : parrello 1.1 =back
92 :    
93 : parrello 1.2 =head2 Adding a new Search Tool
94 :    
95 :     To add a new search tool to the system, you must
96 :    
97 :     =over 4
98 :    
99 :     =item 1
100 :    
101 :     Choose a class name for your search tool.
102 :    
103 :     =item 2
104 :    
105 :     Create a new subclass of this object and implement each of the virtual methods. The
106 :     name of the subclass must be C<SH>I<className>.
107 :    
108 :     =item 3
109 :    
110 :     Create an include file among the web server pages that describes how to use
111 :     the search tool. The include file must be in the B<includes> directory, and
112 :     its name must be C<SearchHelp_>I<className>C<.inc>.
113 :    
114 :     =item 4
115 :    
116 : parrello 1.15 In the C<SearchSkeleton.cgi> script and add a C<use> statement for your search tool.
117 : parrello 1.2
118 :     =back
119 :    
120 :     =head3 Building a Search Form
121 :    
122 :     All search forms are three-column tables. In general, you want one form
123 :     variable per table row. The first column should contain the label and
124 :     the second should contain the form control for specifying the variable
125 :     value. If the control is wide, you should use C<colspan="2"> to give it
126 :     extra room. B<Do not> specify a width in any of your table cells, as
127 :     width management is handled by this class.
128 :    
129 :     The general code for creating the form should be
130 :    
131 :     sub Form {
132 :     my ($self) = @_;
133 :     # Get the CGI object.
134 :     my $cgi = @self->Q();
135 :     # Start the form.
136 :     my $retVal = $self->FormStart("form title");
137 :     # Assemble the table rows.
138 :     my @rows = ();
139 :     ... push table row Html into @rows ...
140 :     push @rows, $self->SubmitRow();
141 :     ... push more Html into @rows ...
142 :     # Build the table from the rows.
143 :     $retVal .= $self->MakeTable(\@rows);
144 :     # Close the form.
145 :     $retVal .= $self->FormEnd();
146 :     # Return the form Html.
147 :     return $retVal;
148 :     }
149 :    
150 :     Several helper methods are provided for particular purposes.
151 :    
152 :     =over 4
153 :    
154 :     =item 1
155 :    
156 : parrello 1.3 L</NmpdrGenomeMenu> generates a control for selecting one or more genomes. Use
157 :     L</GetGenomes> to retrieve all the genomes passed in for a specified parameter
158 :     name. Note that as an assist to people working with GET-style links, if no
159 :     genomes are specified and the incoming request style is GET, all genomes will
160 :     be returned.
161 : parrello 1.2
162 :     =item 2
163 :    
164 :     L</FeatureFilterRow> formats several rows of controls for filtering features.
165 :     When you start building the code for the L</Find> method, you can use a
166 :     B<FeatureQuery> object to automatically filter each genome's features using
167 :     the values from the filter controls.
168 :    
169 :     =item 3
170 :    
171 :     L</QueueFormScript> allows you to queue JavaScript statements for execution
172 :     after the form is fully generated. If you are using very complicated
173 :     form controls, the L</QueueFormScript> method allows you to perform
174 :     JavaScript initialization. The L</NmpdrGenomeMenu> control uses this
175 :     facility to display a list of the pre-selected genomes.
176 :    
177 :     =back
178 :    
179 : parrello 1.14 If you are doing a feature search, you can also change the list of feature
180 :     columns displayed and their display order by overriding
181 :     L</DefaultFeatureColumns>.
182 :    
183 : parrello 1.2 Finally, when generating the code for your controls, be sure to use any incoming
184 :     query parameters as default values so that the search request is persistent.
185 :    
186 :     =head3 Finding Search Results
187 :    
188 :     The L</Find> method is used to create the search results. For a search that
189 :     wants to return features (which is most of them), the basic code structure
190 :     would work as follows. It is assumed that the L</FeatureFilterRows> method
191 :     has been used to create feature filtering parameters.
192 :    
193 :     sub Find {
194 :     my ($self) = @_;
195 :     # Get the CGI and Sprout objects.
196 :     my $cgi = $self->Q();
197 :     my $sprout = $self->DB();
198 :     # Declare the return variable. If it remains undefined, the caller will
199 :     # know that an error occurred.
200 :     my $retVal;
201 :     ... validate the parameters ...
202 :     if (... invalid parameters...) {
203 :     $self->SetMessage(...appropriate message...);
204 :     } elsif (FeatureQuery::Valid($self)) {
205 :     # Initialize the session file.
206 :     $self->OpenSession();
207 :     # Initialize the result counter.
208 :     $retVal = 0;
209 :     ... get a list of genomes ...
210 :     for my $genomeID (... each genome ...) {
211 :     my $fq = FeatureQuery->new($self, $genomeID);
212 :     while (my $feature = $fq->Fetch()) {
213 :     ... examine the feature ...
214 :     if (... we want to keep it ...) {
215 :     $self->PutFeature($fq);
216 :     $retVal++;
217 :     }
218 :     }
219 :     }
220 : parrello 1.9 # Close the session file.
221 :     $self->CloseSession();
222 : parrello 1.2 }
223 :     # Return the result count.
224 :     return $retVal;
225 :     }
226 :    
227 :     A Find method is of course much more complicated than generating a form, and there
228 : parrello 1.14 are variations on the above theme. For example, you could eschew feature filtering
229 : parrello 1.2 entirely in favor of your own custom filtering, you could include extra columns
230 :     in the output, or you could search for something that's not a feature at all. The
231 :     above code is just a loose framework.
232 :    
233 :     If you wish to add your own extra columns to the output, use the B<AddExtraColumns>
234 :     method of the feature query object.
235 :    
236 :     $fq->AddExtraColumns(score => $sc);
237 :    
238 :     The L</Find> method must return C<undef> if the search parameters are invalid. If this
239 :     is the case, then a message describing the problem should be passed to the framework
240 :     by calling L</SetMessage>. If the parameters are valid, then the method must return
241 :     the number of items found.
242 :    
243 : parrello 1.1 =cut
244 :    
245 :     # This counter is used to insure every form on the page has a unique name.
246 :     my $formCount = 0;
247 : parrello 1.16 # This counter is used to generate unique DIV IDs.
248 :     my $divCount = 0;
249 : parrello 1.1
250 :     =head2 Public Methods
251 :    
252 :     =head3 new
253 :    
254 :     C<< my $shelp = SearchHelper->new($query); >>
255 :    
256 :     Construct a new SearchHelper object.
257 :    
258 :     =over 4
259 :    
260 : parrello 1.19 =item cgi
261 : parrello 1.1
262 :     The CGI query object for the current script.
263 :    
264 :     =back
265 :    
266 :     =cut
267 :    
268 :     sub new {
269 :     # Get the parameters.
270 : parrello 1.19 my ($class, $cgi) = @_;
271 : parrello 1.1 # Check for a session ID.
272 : parrello 1.19 my $session_id = $cgi->param("SessionID");
273 : parrello 1.1 my $type = "old";
274 :     if (! $session_id) {
275 :     # Here we're starting a new session. We create the session ID and
276 :     # store it in the query object.
277 :     $session_id = NewSessionID();
278 :     $type = "new";
279 : parrello 1.19 $cgi->param(-name => 'SessionID', -value => $session_id);
280 : parrello 1.1 }
281 :     # Compute the subclass name.
282 : parrello 1.19 my $subClass;
283 :     if ($class =~ /SH(.+)$/) {
284 :     # Here we have a real search class.
285 :     $subClass = $1;
286 :     } else {
287 :     # Here we have a bare class. The bare class cannot search, but it can
288 :     # process search results.
289 :     $subClass = 'SearchHelper';
290 :     }
291 : parrello 1.1 # Insure everybody knows we're in Sprout mode.
292 : parrello 1.19 $cgi->param(-name => 'SPROUT', -value => 1);
293 : parrello 1.1 # Generate the form name.
294 :     my $formName = "$class$formCount";
295 :     $formCount++;
296 :     # Create the shelp object. It contains the query object (with the session ID)
297 :     # as well as an indicator as to whether or not the session is new, plus the
298 : parrello 1.2 # class name and a placeholder for the Sprout object.
299 : parrello 1.1 my $retVal = {
300 : parrello 1.19 query => $cgi,
301 : parrello 1.1 type => $type,
302 :     class => $subClass,
303 : parrello 1.2 sprout => undef,
304 : parrello 1.1 orgs => {},
305 :     name => $formName,
306 :     scriptQueue => [],
307 : parrello 1.3 genomeList => undef,
308 :     genomeParms => [],
309 :     filtered => 0,
310 : parrello 1.1 };
311 :     # Bless and return it.
312 :     bless $retVal, $class;
313 :     return $retVal;
314 :     }
315 :    
316 :     =head3 Q
317 :    
318 :     C<< my $query = $shelp->Q(); >>
319 :    
320 :     Return the CGI query object.
321 :    
322 :     =cut
323 :    
324 :     sub Q {
325 :     # Get the parameters.
326 :     my ($self) = @_;
327 :     # Return the result.
328 :     return $self->{query};
329 :     }
330 :    
331 : parrello 1.9
332 :    
333 : parrello 1.1 =head3 DB
334 :    
335 :     C<< my $sprout = $shelp->DB(); >>
336 :    
337 :     Return the Sprout database object.
338 :    
339 :     =cut
340 :    
341 :     sub DB {
342 :     # Get the parameters.
343 :     my ($self) = @_;
344 : parrello 1.2 # Insure we have a database.
345 :     my $retVal = $self->{sprout};
346 :     if (! defined $retVal) {
347 :     $retVal = SFXlate->new_sprout_only();
348 :     $self->{sprout} = $retVal;
349 :     }
350 : parrello 1.1 # Return the result.
351 : parrello 1.2 return $retVal;
352 : parrello 1.1 }
353 :    
354 :     =head3 IsNew
355 :    
356 :     C<< my $flag = $shelp->IsNew(); >>
357 :    
358 :     Return TRUE if this is a new session, FALSE if this is an old session. An old
359 :     session already has search results ready to process.
360 :    
361 :     =cut
362 :    
363 :     sub IsNew {
364 :     # Get the parameters.
365 :     my ($self) = @_;
366 :     # Return the result.
367 :     return ($self->{type} eq 'new');
368 :     }
369 :    
370 :     =head3 ID
371 :    
372 :     C<< my $sessionID = $shelp->ID(); >>
373 :    
374 :     Return the current session ID.
375 :    
376 :     =cut
377 :    
378 :     sub ID {
379 :     # Get the parameters.
380 :     my ($self) = @_;
381 :     # Return the result.
382 :     return $self->Q()->param("SessionID");
383 :     }
384 :    
385 :     =head3 FormName
386 :    
387 :     C<< my $name = $shelp->FormName(); >>
388 :    
389 :     Return the name of the form this helper object will generate.
390 :    
391 :     =cut
392 :    
393 :     sub FormName {
394 :     # Get the parameters.
395 :     my ($self) = @_;
396 :     # Return the result.
397 :     return $self->{name};
398 :     }
399 :    
400 :     =head3 QueueFormScript
401 :    
402 :     C<< $shelp->QueueFormScript($statement); >>
403 :    
404 :     Add the specified statement to the queue of JavaScript statements that are to be
405 :     executed when the form has been fully defined. This is necessary because until
406 :     the closing </FORM> tag is emitted, the form elements cannot be referenced by
407 :     name. When generating the statement, you can refer to the variable C<thisForm>
408 :     in order to reference the form in progress. Thus,
409 :    
410 :     thisForm.simLimit.value = 1e-10;
411 :    
412 :     would set the value of the form element C<simLimit> in the current form to
413 :     C<1e-10>.
414 :    
415 :     =over 4
416 :    
417 :     =item statement
418 :    
419 :     JavaScript statement to be queued for execution after the form is built.
420 :     The trailing semi-colon is required. Theoretically, you could include
421 :     multiple statements separated by semi-colons, but one at a time works
422 :     just as well.
423 :    
424 :     =back
425 :    
426 :     =cut
427 :    
428 :     sub QueueFormScript {
429 :     # Get the parameters.
430 :     my ($self, $statement) = @_;
431 :     # Push the statement onto the script queue.
432 :     push @{$self->{scriptQueue}}, $statement;
433 :     }
434 :    
435 :     =head3 FormStart
436 :    
437 :     C<< my $html = $shelp->FormStart($title); >>
438 :    
439 :     Return the initial section of a form designed to perform another search of the
440 :     same type. The form header is included along with hidden fields to persist the
441 :     tracing, sprout status, and search class.
442 :    
443 :     A call to L</FormEnd> is required to close the form.
444 :    
445 :     =over 4
446 :    
447 :     =item title
448 :    
449 :     Title to be used for the form.
450 :    
451 :     =item RETURN
452 :    
453 :     Returns the initial HTML for the search form.
454 :    
455 :     =back
456 :    
457 :     =cut
458 :    
459 :     sub FormStart {
460 :     # Get the parameters.
461 :     my ($self, $title) = @_;
462 :     # Get the CGI object.
463 :     my $cgi = $self->Q();
464 : parrello 1.18 # Start the form. Note we use the override option on the Class value, in
465 :     # case the Advanced button was used.
466 : parrello 1.1 my $retVal = "<div class=\"search\">\n" .
467 :     $cgi->start_form(-method => 'POST',
468 :     -action => $cgi->url(-relative => 1),
469 :     -name => $self->FormName()) .
470 :     $cgi->hidden(-name => 'Class',
471 : parrello 1.18 -value => $self->{class},
472 :     -override => 1) .
473 : parrello 1.1 $cgi->hidden(-name => 'SPROUT',
474 :     -value => 1) .
475 :     $cgi->h3($title);
476 :     # If tracing is on, add it to the form.
477 :     if ($cgi->param('Trace')) {
478 :     $retVal .= $cgi->hidden(-name => 'Trace',
479 :     -value => $cgi->param('Trace')) .
480 :     $cgi->hidden(-name => 'TF',
481 :     -value => ($cgi->param('TF') ? 1 : 0));
482 :     }
483 :     # Put in an anchor tag in case there's a table of contents.
484 :     my $anchorName = $self->FormName();
485 :     $retVal .= "<a name=\"$anchorName\"></a>\n";
486 :     # Return the result.
487 :     return $retVal;
488 :     }
489 :    
490 :     =head3 FormEnd
491 :    
492 :     C<< my $htmlText = $shelp->FormEnd(); >>
493 :    
494 :     Return the HTML text for closing a search form. This closes both the C<form> and
495 :     C<div> tags.
496 :    
497 :     =cut
498 :    
499 :     sub FormEnd {
500 :     # Get the parameters.
501 :     my ($self) = @_;
502 :     # Declare the return variable, closing the form and the DIV block.
503 :     my $retVal = "</form></div>\n";
504 :     # Now we flush out the statement queue.
505 :     my @statements = @{$self->{scriptQueue}};
506 :     if (@statements > 0) {
507 :     # Switch to JavaScript and set the "thisForm" variable.
508 :     $retVal .= "<SCRIPT language=\"JavaScript\">\n" .
509 :     " thisForm = document.$self->{name};\n";
510 :     # Unroll the statements.
511 :     while (@statements > 0) {
512 :     my $statement = shift @statements;
513 :     $retVal .= " $statement\n";
514 :     }
515 :     # Close the JavaScript.
516 :     $retVal .= "</SCRIPT>\n";
517 :     }
518 :     # Return the result.
519 :     return $retVal;
520 :     }
521 :    
522 :     =head3 SetMessage
523 :    
524 :     C<< $shelp->SetMessage($msg); >>
525 :    
526 :     Store the specified text as the result message. The result message is displayed
527 :     if an invalid parameter value is specified.
528 :    
529 :     =over 4
530 :    
531 :     =item msg
532 :    
533 :     Text of the result message to be displayed.
534 :    
535 :     =back
536 :    
537 :     =cut
538 :    
539 :     sub SetMessage {
540 :     # Get the parameters.
541 :     my ($self, $msg) = @_;
542 :     # Store the message.
543 :     $self->{message} = $msg;
544 :     }
545 :    
546 :     =head3 Message
547 :    
548 :     C<< my $text = $shelp->Message(); >>
549 :    
550 :     Return the result message. The result message is displayed if an invalid parameter
551 :     value is specified.
552 :    
553 :     =cut
554 :    
555 :     sub Message {
556 :     # Get the parameters.
557 :     my ($self) = @_;
558 :     # Return the result.
559 :     return $self->{message};
560 :     }
561 :    
562 :     =head3 OpenSession
563 :    
564 :     C<< $shelp->OpenSession(); >>
565 :    
566 :     Set up to open the session cache file for writing. Note we don't actually
567 :     open the file until after we know the column headers.
568 :    
569 :     =cut
570 :    
571 :     sub OpenSession {
572 :     # Get the parameters.
573 :     my ($self) = @_;
574 :     # Denote we have not yet written out the column headers.
575 :     $self->{cols} = undef;
576 :     }
577 :    
578 :     =head3 GetCacheFileName
579 :    
580 :     C<< my $fileName = $shelp->GetCacheFileName(); >>
581 :    
582 :     Return the name to be used for this session's cache file.
583 :    
584 :     =cut
585 :    
586 :     sub GetCacheFileName {
587 :     # Get the parameters.
588 :     my ($self) = @_;
589 :     # Return the result.
590 :     return $self->GetTempFileName('cache');
591 :     }
592 :    
593 :     =head3 GetTempFileName
594 :    
595 :     C<< my $fileName = $shelp->GetTempFileName($type); >>
596 :    
597 :     Return the name to be used for a temporary file of the specified type. The
598 :     name is computed from the session name with the type as a suffix.
599 :    
600 :     =over 4
601 :    
602 :     =item type
603 :    
604 :     Type of temporary file to be generated.
605 :    
606 :     =item RETURN
607 :    
608 :     Returns a file name generated from the session name and the specified type.
609 :    
610 :     =back
611 :    
612 :     =cut
613 :    
614 :     sub GetTempFileName {
615 :     # Get the parameters.
616 :     my ($self, $type) = @_;
617 :     # Compute the file name. Note it gets stuffed in the FIG temporary
618 :     # directory.
619 :     my $retVal = "$FIG_Config::temp/tmp_" . $self->ID() . ".$type";
620 :     # Return the result.
621 :     return $retVal;
622 :     }
623 :    
624 :     =head3 PutFeature
625 :    
626 : parrello 1.11 C<< $shelp->PutFeature($fdata); >>
627 : parrello 1.1
628 :     Store a feature in the result cache. This is the workhorse method for most
629 :     searches, since the primary data item in the database is features.
630 :    
631 :     For each feature, there are certain columns that are standard: the feature name, the
632 :     GBrowse and protein page links, the functional assignment, and so forth. If additional
633 : parrello 1.2 columns are required by a particular search subclass, they should be stored in
634 :     the feature query object using the B<AddExtraColumns> method. For example, the following
635 :     code adds columns for essentiality and virulence.
636 : parrello 1.1
637 : parrello 1.11 $fd->AddExtraColumns(essential => $essentialFlag, virulence => $vfactor);
638 :     $shelp->PutFeature($fd);
639 : parrello 1.1
640 :     For correct results, all values should be specified for all extra columns in all calls to
641 :     B<PutFeature>. (In particular, the column header names are computed on the first
642 :     call.) If a column is to be blank for the current feature, its value can be given
643 :     as C<undef>.
644 :    
645 :     if (! $essentialFlag) {
646 :     $essentialFlag = undef;
647 :     }
648 : parrello 1.11 $fd->AddExtraColumns(essential => $essentialFlag, virulence => $vfactor);
649 :     $shelp->PutFeature($fd);
650 : parrello 1.1
651 :     =over 4
652 :    
653 : parrello 1.11 =item fdata
654 : parrello 1.1
655 : parrello 1.11 B<FeatureData> object containing the current feature data.
656 : parrello 1.1
657 :     =back
658 :    
659 :     =cut
660 :    
661 :     sub PutFeature {
662 : parrello 1.2 # Get the parameters.
663 : parrello 1.11 my ($self, $fd) = @_;
664 : parrello 1.3 # Get the CGI query object.
665 :     my $cgi = $self->Q();
666 : parrello 1.2 # Get the feature data.
667 : parrello 1.11 my $record = $fd->Feature();
668 :     my $extraCols = $fd->ExtraCols();
669 : parrello 1.1 # Check for a first-call situation.
670 :     if (! defined $self->{cols}) {
671 : parrello 1.14 Trace("Setting up the columns.") if T(3);
672 :     # Here we need to set up the column information. Start with the extras,
673 :     # sorted by column name.
674 :     my @colNames = ();
675 : parrello 1.2 for my $col (sort keys %{$extraCols}) {
676 : parrello 1.14 push @colNames, "X=$col";
677 : parrello 1.1 }
678 : parrello 1.14 # Add the default columns.
679 :     push @colNames, $self->DefaultFeatureColumns();
680 :     # Add any additional columns requested by the feature filter.
681 :     push @colNames, FeatureQuery::AdditionalColumns($self);
682 :     # Save the full list.
683 :     $self->{cols} = \@colNames;
684 : parrello 1.1 # Write out the column headers. This also prepares the cache file to receive
685 :     # output.
686 :     $self->WriteColumnHeaders(map { $self->FeatureColumnTitle($_) } @{$self->{cols}});
687 :     }
688 :     # Get the feature ID.
689 : parrello 1.11 my $fid = $fd->FID();
690 : parrello 1.1 # Loop through the column headers, producing the desired data.
691 :     my @output = ();
692 :     for my $colName (@{$self->{cols}}) {
693 : parrello 1.2 push @output, $self->FeatureColumnValue($colName, $record, $extraCols);
694 : parrello 1.1 }
695 : parrello 1.9 # Compute the sort key. The sort key usually floats NMPDR organism features to the
696 : parrello 1.1 # top of the return list.
697 : parrello 1.11 my $key = $self->SortKey($fd);
698 : parrello 1.1 # Write the feature data.
699 :     $self->WriteColumnData($key, @output);
700 :     }
701 :    
702 :     =head3 WriteColumnHeaders
703 :    
704 :     C<< $shelp->WriteColumnHeaders(@colNames); >>
705 :    
706 :     Write out the column headers for the current search session. The column headers
707 :     are sent to the cache file, and then the cache is re-opened as a sort pipe and
708 :     the handle saved.
709 :    
710 :     =over 4
711 :    
712 :     =item colNames
713 :    
714 :     A list of column names in the desired presentation order.
715 :    
716 :     =back
717 :    
718 :     =cut
719 :    
720 :     sub WriteColumnHeaders {
721 :     # Get the parameters.
722 :     my ($self, @colNames) = @_;
723 :     # Get the cache file name and open it for output.
724 :     my $fileName = $self->GetCacheFileName();
725 :     my $handle1 = Open(undef, ">$fileName");
726 :     # Write the column headers and close the file.
727 :     Tracer::PutLine($handle1, \@colNames);
728 :     close $handle1;
729 :     # Now open the sort pipe and save the file handle. Note how we append the
730 :     # sorted data to the column header row already in place. The output will
731 :     # contain a sort key followed by the real columns. The sort key is
732 :     # hacked off before going to the output file.
733 :     $self->{fileHandle} = Open(undef, "| sort | cut --fields=2- >>$fileName");
734 :     }
735 :    
736 :     =head3 WriteColumnData
737 :    
738 :     C<< $shelp->WriteColumnData($key, @colValues); >>
739 :    
740 :     Write a row of column values to the current search session. It is assumed that
741 :     the session file is already open for output.
742 :    
743 :     =over 4
744 :    
745 :     =item key
746 :    
747 :     Sort key.
748 :    
749 :     =item colValues
750 :    
751 :     List of column values to write to the search result cache file for this session.
752 :    
753 :     =back
754 :    
755 :     =cut
756 :    
757 :     sub WriteColumnData {
758 :     # Get the parameters.
759 :     my ($self, $key, @colValues) = @_;
760 :     # Write them to the cache file.
761 :     Tracer::PutLine($self->{fileHandle}, [$key, @colValues]);
762 :     }
763 :    
764 :     =head3 CloseSession
765 :    
766 :     C<< $shelp->CloseSession(); >>
767 :    
768 :     Close the session file.
769 :    
770 :     =cut
771 :    
772 :     sub CloseSession {
773 :     # Get the parameters.
774 :     my ($self) = @_;
775 :     # Check for an open session file.
776 :     if (defined $self->{fileHandle}) {
777 :     # We found one, so close it.
778 : parrello 1.9 Trace("Closing session file.") if T(2);
779 : parrello 1.1 close $self->{fileHandle};
780 :     }
781 :     }
782 :    
783 :     =head3 NewSessionID
784 :    
785 :     C<< my $id = SearchHelpers::NewSessionID(); >>
786 :    
787 :     Generate a new session ID for the current user.
788 :    
789 :     =cut
790 :    
791 :     sub NewSessionID {
792 :     # Declare the return variable.
793 :     my $retVal;
794 :     # Get a digest encoder.
795 :     my $md5 = Digest::MD5->new();
796 : parrello 1.4 # Add the PID, the IP, and the time stamp. Note that the time stamp is
797 :     # actually two numbers, and we get them both because we're in list
798 :     # context.
799 :     $md5->add($$, $ENV{REMOTE_ADDR}, $ENV{REMOTE_PORT}, gettimeofday());
800 :     # Hash up all this identifying data.
801 :     $retVal = $md5->hexdigest();
802 :     # Return the result.
803 : parrello 1.1 return $retVal;
804 :     }
805 :    
806 :     =head3 OrganismData
807 :    
808 :     C<< my ($orgName, $group) = $shelp->Organism($genomeID); >>
809 :    
810 :     Return the name and status of the organism corresponding to the specified genome ID.
811 :     For performance reasons, this information is cached in a special hash table, so we
812 :     only compute it once per run.
813 :    
814 :     =over 4
815 :    
816 :     =item genomeID
817 :    
818 :     ID of the genome whose name is desired.
819 :    
820 :     =item RETURN
821 :    
822 :     Returns a list of two items. The first item in the list is the organism name,
823 :     and the second is the name of the NMPDR group, or an empty string if the
824 :     organism is not in an NMPDR group.
825 :    
826 :     =back
827 :    
828 :     =cut
829 :    
830 :     sub OrganismData {
831 :     # Get the parameters.
832 :     my ($self, $genomeID) = @_;
833 :     # Declare the return variables.
834 :     my ($orgName, $group);
835 :     # Check the cache.
836 :     my $cache = $self->{orgs};
837 :     if (exists $cache->{$genomeID}) {
838 :     ($orgName, $group) = @{$cache->{$genomeID}};
839 :     } else {
840 :     # Here we have to use the database.
841 :     my $sprout = $self->DB();
842 :     my ($genus, $species, $strain, $group) = $sprout->GetEntityValues('Genome', $genomeID,
843 :     ['Genome(genus)', 'Genome(species)',
844 :     'Genome(unique-characterization)',
845 :     'Genome(primary-group)']);
846 : parrello 1.10 # Format and cache the name and display group.
847 :     ($orgName, $group) = $self->SaveOrganismData($group, $genomeID, $genus, $species,
848 :     $strain);
849 : parrello 1.1 }
850 :     # Return the result.
851 :     return ($orgName, $group);
852 :     }
853 :    
854 :     =head3 Organism
855 :    
856 :     C<< my $orgName = $shelp->Organism($genomeID); >>
857 :    
858 :     Return the name of the relevant organism. The name is computed from the genus,
859 :     species, and unique characterization. A cache is used to improve performance.
860 :    
861 :     =over 4
862 :    
863 :     =item genomeID
864 :    
865 :     ID of the genome whose name is desired.
866 :    
867 :     =item RETURN
868 :    
869 :     Returns the display name of the specified organism.
870 :    
871 :     =back
872 :    
873 :     =cut
874 :    
875 :     sub Organism {
876 :     # Get the parameters.
877 :     my ($self, $genomeID) = @_;
878 :     # Get the organism data.
879 :     my ($retVal, $group) = $self->OrganismData($genomeID);
880 :     # Return the result.
881 :     return $retVal;
882 :     }
883 :    
884 :     =head3 FeatureGroup
885 :    
886 :     C<< my $groupName = $shelp->FeatureGroup($fid); >>
887 :    
888 :     Return the group name for the specified feature.
889 :    
890 :     =over 4
891 :    
892 :     =item fid
893 :    
894 :     ID of the relevant feature.
895 :    
896 :     =item RETURN
897 :    
898 :     Returns the name of the NMPDR group to which the feature belongs, or an empty
899 :     string if it is not part of an NMPDR group.
900 :    
901 :     =back
902 :    
903 :     =cut
904 :    
905 :     sub FeatureGroup {
906 :     # Get the parameters.
907 :     my ($self, $fid) = @_;
908 :     # Parse the feature ID to get the genome ID.
909 :     my ($genomeID) = FIGRules::ParseFeatureID($fid);
910 :     # Get the organism data.
911 :     my (undef, $retVal) = $self->OrganismData($genomeID);
912 :     # Return the result.
913 :     return $retVal;
914 :     }
915 :    
916 :     =head3 FeatureName
917 :    
918 :     C<< my $fidName = $shelp->FeatureName($fid); >>
919 :    
920 :     Return the display name of the specified feature.
921 :    
922 :     =over 4
923 :    
924 :     =item fid
925 :    
926 :     ID of the feature whose name is desired.
927 :    
928 :     =item RETURN
929 :    
930 :     A displayable feature name, consisting of the organism name plus some feature
931 :     type and location information.
932 :    
933 :     =back
934 :    
935 :     =cut
936 :    
937 :     sub FeatureName {
938 :     # Get the parameters.
939 :     my ($self, $fid) = @_;
940 :     # Declare the return variable
941 :     my $retVal;
942 :     # Parse the feature ID.
943 :     my ($genomeID, $type, $num) = FIGRules::ParseFeatureID($fid);
944 :     if (! defined $genomeID) {
945 :     # Here the feature ID has an invalid format.
946 :     $retVal = "External: $fid";
947 :     } else {
948 :     # Here we can get its genome data.
949 :     $retVal = $self->Organism($genomeID);
950 : parrello 1.4 # Append the FIG ID.
951 :     $retVal .= " [$fid]";
952 : parrello 1.1 }
953 :     # Return the result.
954 :     return $retVal;
955 :     }
956 :    
957 :     =head3 ComputeFASTA
958 :    
959 : parrello 1.18 C<< my $fasta = $shelp->ComputeFASTA($desiredType, $sequence); >>
960 : parrello 1.1
961 : parrello 1.18 Parse a sequence input and convert it into a FASTA string of the desired type.
962 : parrello 1.1
963 :     =over 4
964 :    
965 :     =item desiredType
966 :    
967 : parrello 1.18 C<dna> to return a DNA sequence, C<prot> to return a protein sequence.
968 : parrello 1.1
969 :     =item sequence
970 :    
971 :     Sequence to return. It may be a DNA or protein sequence in FASTA form or a feature ID.
972 :     If a feature ID is specified, the feature's DNA or translation will be returned. The
973 :     feature ID is recognized by the presence of a vertical bar in the input. Otherwise,
974 :     if the input does not begin with a greater-than sign (FASTA label line), a default label
975 :     line will be provided.
976 :    
977 :     =item RETURN
978 :    
979 :     Returns a string in FASTA format representing the content of the desired sequence with
980 :     an appropriate label. If the input is invalid, a message will be stored and we will
981 :     return C<undef>. Note that the output will include a trailing new-line.
982 :    
983 :     =back
984 :    
985 :     =cut
986 :    
987 :     sub ComputeFASTA {
988 :     # Get the parameters.
989 : parrello 1.20 my ($self, $desiredType, $sequence) = @_;
990 : parrello 1.1 # Declare the return variable. If an error occurs, it will remain undefined.
991 :     my $retVal;
992 : parrello 1.11 # This variable will be cleared if an error is detected.
993 :     my $okFlag = 1;
994 : parrello 1.1 # Create variables to hold the FASTA label and data.
995 :     my ($fastaLabel, $fastaData);
996 : parrello 1.18 Trace("FASTA desired type is $desiredType.") if T(4);
997 : parrello 1.1 # Check for a feature specification.
998 :     if ($sequence =~ /^\s*(\w+\|\S+)\s*$/) {
999 :     # Here we have a feature ID in $1. We'll need the Sprout object to process
1000 :     # it.
1001 :     my $fid = $1;
1002 : parrello 1.11 Trace("Feature ID for fasta is $fid.") if T(3);
1003 : parrello 1.1 my $sprout = $self->DB();
1004 :     # Get the FIG ID. Note that we only use the first feature found. We are not
1005 :     # supposed to have redundant aliases, though we may have an ID that doesn't
1006 :     # exist.
1007 :     my ($figID) = $sprout->FeaturesByAlias($fid);
1008 :     if (! $figID) {
1009 : parrello 1.17 $self->SetMessage("No gene found with the ID \"$fid\".");
1010 : parrello 1.11 $okFlag = 0;
1011 : parrello 1.1 } else {
1012 :     # Set the FASTA label.
1013 :     my $fastaLabel = $fid;
1014 :     # Now proceed according to the sequence type.
1015 : parrello 1.11 if ($desiredType eq 'prot') {
1016 : parrello 1.1 # We want protein, so get the translation.
1017 :     $fastaData = $sprout->FeatureTranslation($figID);
1018 : parrello 1.11 Trace(length $fastaData . " characters returned for translation of $fastaLabel.") if T(3);
1019 : parrello 1.1 } else {
1020 :     # We want DNA, so get the DNA sequence. This is a two-step process.
1021 :     my @locList = $sprout->FeatureLocation($figID);
1022 :     $fastaData = $sprout->DNASeq(\@locList);
1023 : parrello 1.11 Trace(length $fastaData . " characters returned for DNA of $fastaLabel.") if T(3);
1024 : parrello 1.1 }
1025 :     }
1026 :     } else {
1027 : parrello 1.11 Trace("Analyzing FASTA sequence.") if T(4);
1028 : parrello 1.1 # Here we are expecting a FASTA. We need to see if there's a label.
1029 : parrello 1.11 if ($sequence =~ /^>[\n\s]*(\S[^\n]*)\n(.+)$/s) {
1030 :     Trace("Label \"$1\" found in match to sequence:\n$sequence") if T(4);
1031 : parrello 1.1 # Here we have a label, so we split it from the data.
1032 :     $fastaLabel = $1;
1033 :     $fastaData = $2;
1034 :     } else {
1035 : parrello 1.11 Trace("No label found in match to sequence:\n$sequence") if T(4);
1036 : parrello 1.1 # Here we have no label, so we create one and use the entire sequence
1037 :     # as data.
1038 : parrello 1.18 $fastaLabel = "User-specified $desiredType sequence";
1039 : parrello 1.1 $fastaData = $sequence;
1040 :     }
1041 :     # The next step is to clean the junk out of the sequence.
1042 :     $fastaData =~ s/\n//g;
1043 :     $fastaData =~ s/\s+//g;
1044 : parrello 1.18 # Finally, verify that it's DNA if we're doing DNA stuff.
1045 :     if ($desiredType eq 'dna' && $fastaData =~ /[^agct]/i) {
1046 : parrello 1.11 $self->SetMessage("Invaid characters detected. Is the input really a DNA sequence?");
1047 :     $okFlag = 0;
1048 : parrello 1.1 }
1049 :     }
1050 : parrello 1.11 Trace("FASTA data sequence: $fastaData") if T(4);
1051 :     # Only proceed if no error was detected.
1052 :     if ($okFlag) {
1053 : parrello 1.1 # We need to format the sequence into 60-byte chunks. We use the infamous
1054 :     # grep-split trick. The split, because of the presence of the parentheses,
1055 :     # includes the matched delimiters in the output list. The grep strips out
1056 :     # the empty list items that appear between the so-called delimiters, since
1057 :     # the delimiters are what we want.
1058 :     my @chunks = grep { $_ } split /(.{1,60})/, $fastaData;
1059 : parrello 1.11 $retVal = join("\n", ">$fastaLabel", @chunks, "");
1060 : parrello 1.1 }
1061 :     # Return the result.
1062 :     return $retVal;
1063 :     }
1064 :    
1065 : parrello 1.16 =head3 SubsystemTree
1066 :    
1067 :     C<< my $tree = SearchHelper::SubsystemTree($sprout, %options); >>
1068 :    
1069 :     This method creates a subsystem selection tree suitable for passing to
1070 :     L</SelectionTree>. Each leaf node in the tree will have a link to the
1071 :     subsystem display page. In addition, each node can have a radio button. The
1072 :     radio button alue is either C<classification=>I<string>, where I<string> is
1073 :     a classification string, or C<id=>I<string>, where I<string> is a subsystem ID.
1074 :     Thus, it can either be used to filter by a group of related subsystems or a
1075 :     single subsystem.
1076 :    
1077 :     =over 4
1078 :    
1079 :     =item sprout
1080 :    
1081 :     Sprout database object used to get the list of subsystems.
1082 :    
1083 :     =item options
1084 :    
1085 :     Hash containing options for building the tree.
1086 :    
1087 :     =item RETURN
1088 :    
1089 :     Returns a reference to a tree list suitable for passing to L</SelectionTree>.
1090 :    
1091 :     =back
1092 :    
1093 :     The supported options are as follows.
1094 :    
1095 :     =over 4
1096 :    
1097 :     =item radio
1098 :    
1099 :     TRUE if the tree should be configured for radio buttons. The default is FALSE.
1100 :    
1101 :     =item links
1102 :    
1103 :     TRUE if the tree should be configured for links. The default is TRUE.
1104 :    
1105 :     =back
1106 :    
1107 :     =cut
1108 :    
1109 :     sub SubsystemTree {
1110 :     # Get the parameters.
1111 :     my ($sprout, %options) = @_;
1112 :     # Process the options.
1113 :     my $optionThing = Tracer::GetOptions({ radio => 0, links => 1 }, \%options);
1114 :     # Read in the subsystems.
1115 :     my @subs = $sprout->GetAll(['Subsystem'], "ORDER BY Subsystem(classification), Subsystem(id)", [],
1116 :     ['Subsystem(classification)', 'Subsystem(id)']);
1117 :     # Declare the return variable.
1118 :     my @retVal = ();
1119 :     # Each element in @subs represents a leaf node, so as we loop through it we will be
1120 :     # producing one leaf node at a time. The leaf node is represented as a 2-tuple. The
1121 :     # first element is a semi-colon-delimited list of the classifications for the
1122 :     # subsystem. There will be a stack of currently-active classifications, which we will
1123 :     # compare to the incoming classifications from the end backward. A new classification
1124 :     # requires starting a new branch. A different classification requires closing an old
1125 :     # branch and starting a new one. Each classification in the stack will also contain
1126 :     # that classification's current branch. We'll add a fake classification at the
1127 :     # beginning that we can use to represent the tree as a whole.
1128 :     my $rootName = '<root>';
1129 :     # Create the classification stack. Note the stack is a pair of parallel lists,
1130 :     # one containing names and the other containing content.
1131 :     my @stackNames = ($rootName);
1132 :     my @stackContents = (\@retVal);
1133 :     # Add a null entry at the end of the subsystem list to force an unrolling.
1134 :     push @subs, ['', undef];
1135 :     # Loop through the subsystems.
1136 :     for my $sub (@subs) {
1137 :     # Pull out the classification list and the subsystem ID.
1138 :     my ($classString, $id) = @{$sub};
1139 :     Trace("Processing class \"$classString\" and subsystem $id.") if T(4);
1140 :     # Convert the classification string to a list with the root classification in
1141 :     # the front.
1142 :     my @classList = ($rootName, split($FIG_Config::splitter, $classString));
1143 :     # Find the leftmost point at which the class list differs from the stack.
1144 :     my $matchPoint = 0;
1145 :     while ($matchPoint <= $#stackNames && $matchPoint <= $#classList &&
1146 :     $stackNames[$matchPoint] eq $classList[$matchPoint]) {
1147 :     $matchPoint++;
1148 :     }
1149 :     Trace("Match point is $matchPoint. Stack length is " . scalar(@stackNames) .
1150 :     ". Class List length is " . scalar(@classList) . ".") if T(4);
1151 :     # Unroll the stack to the matchpoint.
1152 :     while ($#stackNames >= $matchPoint) {
1153 :     my $popped = pop @stackNames;
1154 :     pop @stackContents;
1155 :     Trace("\"$popped\" popped from stack.") if T(4);
1156 :     }
1157 :     # Start branches for any new classifications.
1158 :     while ($#stackNames < $#classList) {
1159 :     # The branch for a new classification contains its radio button
1160 :     # data and then a list of children. So, at this point, if radio buttons
1161 :     # are desired, we put them into the content.
1162 :     my $newLevel = scalar(@stackNames);
1163 :     my @newClassContent = ();
1164 :     if ($optionThing->{radio}) {
1165 :     my $newClassString = join($FIG_Config::splitter, @classList[1..$newLevel]);
1166 :     push @newClassContent, { value => "classification=$newClassString%" };
1167 :     }
1168 :     # The new classification node is appended to its parent's content
1169 :     # and then pushed onto the stack. First, we need the node name.
1170 :     my $nodeName = $classList[$newLevel];
1171 :     # Add the classification to its parent. This makes it part of the
1172 :     # tree we'll be returning to the user.
1173 :     push @{$stackContents[$#stackNames]}, $nodeName, \@newClassContent;
1174 :     # Push the classification onto the stack.
1175 :     push @stackContents, \@newClassContent;
1176 :     push @stackNames, $nodeName;
1177 :     Trace("\"$nodeName\" pushed onto stack.") if T(4);
1178 :     }
1179 :     # Now the stack contains all our parent branches. We add the subsystem to
1180 :     # the branch at the top of the stack, but only if it's NOT the dummy node.
1181 :     if (defined $id) {
1182 :     # Compute the node name from the ID.
1183 :     my $nodeName = $id;
1184 :     $nodeName =~ s/_/ /g;
1185 :     # Create the node's leaf hash. This depends on the value of the radio
1186 :     # and link options.
1187 :     my $nodeContent = {};
1188 :     if ($optionThing->{links}) {
1189 :     # Compute the link value.
1190 :     my $linkable = uri_escape($id);
1191 :     $nodeContent->{link} = "../FIG/display_subsys.cgi?ssa_name=$linkable;request=show_ssa;sort=by_phylo;SPROUT=1";
1192 :     }
1193 :     if ($optionThing->{radio}) {
1194 :     # Compute the radio value.
1195 :     $nodeContent->{value} = "id=$id";
1196 :     }
1197 :     # Push the node into its parent branch.
1198 :     Trace("\"$nodeName\" added to node list.") if T(4);
1199 :     push @{$stackContents[$#stackNames]}, $nodeName, $nodeContent;
1200 :     }
1201 :     }
1202 :     # Return the result.
1203 :     return \@retVal;
1204 :     }
1205 :    
1206 :    
1207 : parrello 1.1 =head3 NmpdrGenomeMenu
1208 :    
1209 : parrello 1.3 C<< my $htmlText = $shelp->NmpdrGenomeMenu($menuName, $multiple, \@selected, $rows); >>
1210 : parrello 1.1
1211 :     This method creates a hierarchical HTML menu for NMPDR genomes organized by category. The
1212 :     category indicates the low-level NMPDR group. Organizing the genomes in this way makes it
1213 :     easier to select all genomes from a particular category.
1214 :    
1215 :     =over 4
1216 :    
1217 :     =item menuName
1218 :    
1219 :     Name to give to the menu.
1220 :    
1221 : parrello 1.3 =item multiple
1222 : parrello 1.1
1223 : parrello 1.3 TRUE if the user is allowed to select multiple genomes, else FALSE.
1224 : parrello 1.1
1225 :     =item selected
1226 :    
1227 :     Reference to a list containing the IDs of the genomes to be pre-selected. If the menu
1228 :     is not intended to allow multiple selections, the list should be a singleton. If the
1229 :     list is empty, nothing will be pre-selected.
1230 :    
1231 : parrello 1.3 =item rows (optional)
1232 :    
1233 :     Number of rows to display. If omitted, the default is 1 for a single-select list
1234 :     and 10 for a multi-select list.
1235 :    
1236 : parrello 1.8 =item crossMenu (optional)
1237 :    
1238 :     If specified, is presumed to be the name of another genome menu whose contents
1239 :     are to be mutually exclusive with the contents of this menu. As a result, instead
1240 :     of the standard onChange event, the onChange event will deselect any entries in
1241 :     the other menu.
1242 :    
1243 : parrello 1.1 =item RETURN
1244 :    
1245 :     Returns the HTML text to generate a C<SELECT> menu inside a form.
1246 :    
1247 :     =back
1248 :    
1249 :     =cut
1250 :    
1251 :     sub NmpdrGenomeMenu {
1252 :     # Get the parameters.
1253 : parrello 1.8 my ($self, $menuName, $multiple, $selected, $rows, $cross) = @_;
1254 : parrello 1.1 # Get the Sprout and CGI objects.
1255 :     my $sprout = $self->DB();
1256 :     my $cgi = $self->Q();
1257 : parrello 1.3 # Compute the row count.
1258 :     if (! defined $rows) {
1259 :     $rows = ($multiple ? 10 : 1);
1260 :     }
1261 :     # Create the multiple tag.
1262 :     my $multipleTag = ($multiple ? " multiple" : "");
1263 : parrello 1.1 # Get the form name.
1264 :     my $formName = $self->FormName();
1265 : parrello 1.3 # Check to see if we already have a genome list in memory.
1266 :     my $genomes = $self->{genomeList};
1267 :     my $groupHash;
1268 :     if (defined $genomes) {
1269 :     # We have a list ready to use.
1270 :     $groupHash = $genomes;
1271 :     } else {
1272 :     # Get a list of all the genomes in group order. In fact, we only need them ordered
1273 :     # by name (genus,species,strain), but putting primary-group in front enables us to
1274 :     # take advantage of an existing index.
1275 :     my @genomeList = $sprout->GetAll(['Genome'],
1276 :     "ORDER BY Genome(primary-group), Genome(genus), Genome(species), Genome(unique-characterization)",
1277 :     [], ['Genome(primary-group)', 'Genome(id)',
1278 :     'Genome(genus)', 'Genome(species)',
1279 :     'Genome(unique-characterization)']);
1280 :     # Create a hash to organize the genomes by group. Each group will contain a list of
1281 :     # 2-tuples, the first element being the genome ID and the second being the genome
1282 :     # name.
1283 :     my %gHash = ();
1284 :     for my $genome (@genomeList) {
1285 :     # Get the genome data.
1286 :     my ($group, $genomeID, $genus, $species, $strain) = @{$genome};
1287 : parrello 1.10 # Compute and cache its name and display group.
1288 :     my ($name, $displayGroup) = $self->SaveOrganismData($group, $genomeID, $genus, $species,
1289 :     $strain);
1290 :     # Push the genome into the group's list. Note that we use the real group
1291 :     # name here, not the display group name.
1292 : parrello 1.3 push @{$gHash{$group}}, [$genomeID, $name];
1293 : parrello 1.1 }
1294 : parrello 1.3 # Save the genome list for future use.
1295 :     $self->{genomeList} = \%gHash;
1296 :     $groupHash = \%gHash;
1297 : parrello 1.1 }
1298 :     # Now we are ready to unroll the menu out of the group hash. First, we sort the groups, putting
1299 :     # the supporting-genome group last.
1300 : parrello 1.3 my @groups = sort grep { $_ ne $FIG_Config::otherGroup } keys %{$groupHash};
1301 : parrello 1.1 push @groups, $FIG_Config::otherGroup;
1302 : parrello 1.3 # Next, create a hash that specifies the pre-selected entries. Note that we need to deal
1303 :     # with the possibility of undefined values in the incoming list.
1304 :     my %selectedHash = ();
1305 :     if (defined $selected) {
1306 :     %selectedHash = map { $_ => 1 } grep { defined($_) } @{$selected};
1307 :     }
1308 : parrello 1.13 # Now it gets complicated. We need a way to mark all the NMPDR genomes. We take advantage
1309 :     # of the fact they come first in the list. We'll accumulate a count of the NMPDR genomes
1310 :     # and use that to make the selections.
1311 :     my $nmpdrCount = 0;
1312 : parrello 1.1 # Create the type counters.
1313 :     my $groupCount = 1;
1314 :     # Compute the ID for the status display.
1315 :     my $divID = "${formName}_${menuName}_status";
1316 :     # Compute the JavaScript call for updating the status.
1317 :     my $showSelect = "showSelected($menuName, '$divID', 1000);";
1318 :     # If multiple selection is supported, create an onChange event.
1319 :     my $onChange = "";
1320 : parrello 1.8 if ($cross) {
1321 : parrello 1.13 # Here we have a paired menu. Selecting something in our menu unselects it in the
1322 :     # other and redisplays the status of both.
1323 : parrello 1.8 $onChange = " onChange=\"crossUnSelect($menuName, '$divID', $cross, '${formName}_${cross}_status', 1000)\"";
1324 :     } elsif ($multiple) {
1325 : parrello 1.13 # This is an unpaired menu, so all we do is redisplay our status.
1326 : parrello 1.1 $onChange = " onChange=\"$showSelect\"";
1327 :     }
1328 :     # Create the SELECT tag and stuff it into the output array.
1329 : parrello 1.13 my @lines = ("<SELECT name=\"$menuName\"$onChange$multipleTag size=\"$rows\">");
1330 : parrello 1.1 # Loop through the groups.
1331 :     for my $group (@groups) {
1332 :     # Create the option group tag.
1333 :     my $tag = "<OPTGROUP label=\"$group\">";
1334 :     push @lines, " $tag";
1335 :     # Get the genomes in the group.
1336 : parrello 1.3 for my $genome (@{$groupHash->{$group}}) {
1337 : parrello 1.13 # Count this organism if it's NMPDR.
1338 :     if ($group ne $FIG_Config::otherGroup) {
1339 :     $nmpdrCount++;
1340 :     }
1341 :     # Get the organism ID and name.
1342 : parrello 1.1 my ($genomeID, $name) = @{$genome};
1343 :     # See if it's selected.
1344 :     my $select = ($selectedHash{$genomeID} ? " selected" : "");
1345 :     # Generate the option tag.
1346 : parrello 1.13 my $optionTag = "<OPTION value=\"$genomeID\"$select>$name <em>($genomeID)</em></OPTION>";
1347 : parrello 1.1 push @lines, " $optionTag";
1348 :     }
1349 :     # Close the option group.
1350 :     push @lines, " </OPTGROUP>";
1351 :     }
1352 :     # Close the SELECT tag.
1353 :     push @lines, "</SELECT>";
1354 :     # Check for multiple selection.
1355 : parrello 1.3 if ($multiple) {
1356 : parrello 1.15 # Multi-select is on, so we need to add some selection helpers. First is
1357 :     # the search box. This allows the user to type text and have all genomes containing
1358 :     # the text selected automatically.
1359 :     my $searchThingName = "${menuName}_SearchThing";
1360 : parrello 1.18 push @lines, "<br />" .
1361 :     "<INPUT type=\"button\" name=\"Search\" class=\"button\" value=\"Select genomes containing\" onClick=\"selectViaSearch($menuName, $searchThingName); $showSelect\" />&nbsp;" .
1362 :     "<INPUT type=\"text\" name=\"$searchThingName\" size=\"30\" />";
1363 : parrello 1.15 # Next are the buttons to set and clear selections.
1364 : parrello 1.1 push @lines, "<br />";
1365 : parrello 1.15 push @lines, "<INPUT type=\"button\" name=\"ClearAll\" class=\"bigButton\" value=\"Clear All\" onClick=\"clearAll($menuName); $showSelect\" />";
1366 : parrello 1.1 push @lines, "<INPUT type=\"button\" name=\"SelectAll\" class=\"bigButton\" value=\"Select All\" onClick=\"selectAll($menuName); $showSelect\" />";
1367 : parrello 1.13 push @lines, "<INPUT type=\"button\" name=\"NMPDROnly\" class=\"bigButton\" value=\"Select NMPDR\" onClick=\"selectSome($menuName, $nmpdrCount, true); $showSelect\" />";
1368 :     push @lines, "<INPUT type=\"button\" name=\"OtherOnly\" class=\"bigButton\" value=\"Select Supporting\" onClick=\"selectSome($menuName, $nmpdrCount, false); $showSelect\" />";
1369 : parrello 1.1 # Add the status display, too.
1370 :     push @lines, "<DIV id=\"$divID\" class=\"selectStatus\"></DIV>";
1371 :     # Queue to update the status display when the form loads. We need to modify the show statement
1372 :     # slightly because the queued statements are executed outside the form. This may seem like a lot of
1373 :     # trouble, but we want all of the show statement calls to be generated from a single line of code,
1374 :     # in case we decide to twiddle the parameters.
1375 :     $showSelect =~ s/showSelected\(/showSelected\(thisForm\./;
1376 :     $self->QueueFormScript($showSelect);
1377 : parrello 1.3 # Finally, add this parameter to the list of genome parameters. This enables us to
1378 :     # easily find all the parameters used to select one or more genomes.
1379 :     push @{$self->{genomeParms}}, $menuName;
1380 : parrello 1.1 }
1381 :     # Assemble all the lines into a string.
1382 :     my $retVal = join("\n", @lines, "");
1383 :     # Return the result.
1384 :     return $retVal;
1385 :     }
1386 :    
1387 : parrello 1.3 =head3 PropertyMenu
1388 :    
1389 :     C<< my $htmlText = $shelp->PropertyMenu($menuName, $selected, $force); >>
1390 :    
1391 :     Generate a property name dropdown menu.
1392 :    
1393 :     =over 4
1394 :    
1395 :     =item menuName
1396 :    
1397 :     Name to give to the menu.
1398 :    
1399 :     =item selected
1400 :    
1401 :     Value of the property name to pre-select.
1402 :    
1403 :     =item force (optional)
1404 :    
1405 :     If TRUE, then the user will be forced to choose a property name. If FALSE,
1406 :     then an additional menu choice will be provided to select nothing.
1407 :    
1408 :     =item RETURN
1409 :    
1410 :     Returns a dropdown menu box that allows the user to select a property name. An additional
1411 :     selection entry will be provided for selecting no property name
1412 :    
1413 :     =back
1414 :    
1415 :     =cut
1416 :    
1417 :     sub PropertyMenu {
1418 :     # Get the parameters.
1419 :     my ($self, $menuName, $selected, $force) = @_;
1420 :     # Get the CGI and Sprout objects.
1421 :     my $sprout = $self->DB();
1422 :     my $cgi = $self->Q();
1423 :     # Create the property name list.
1424 :     my @propNames = ();
1425 :     if (! $force) {
1426 :     push @propNames, "";
1427 :     }
1428 :     # Get all the property names, putting them after the null choice if one exists.
1429 :     push @propNames, $sprout->GetChoices('Property', 'property-name');
1430 :     # Create a menu from them.
1431 :     my $retVal = $cgi->popup_menu(-name=> $menuName, -values => \@propNames,
1432 :     -default => $selected);
1433 :     # Return the result.
1434 :     return $retVal;
1435 :     }
1436 :    
1437 : parrello 1.1 =head3 MakeTable
1438 :    
1439 :     C<< my $htmlText = $shelp->MakeTable(\@rows); >>
1440 :    
1441 :     Create a table from a group of table rows. The table rows must be fully pre-formatted: in
1442 :     other words, each must have the TR and TD tags included.
1443 :    
1444 :     The purpose of this method is to provide a uniform look for search form tables. It is
1445 :     almost impossible to control a table using styles, so rather than have a table style,
1446 :     we create the TABLE tag in this method. Note also that the first TD or TH in each row will
1447 :     be updated with an explicit width so the forms look pretty when they are all on one
1448 :     page.
1449 :    
1450 :     =over 4
1451 :    
1452 :     =item rows
1453 :    
1454 :     Reference to a list of table rows. Each table row must be in HTML form with all
1455 :     the TR and TD tags set up. The first TD or TH tag in each row will be modified to
1456 :     set the width. Everything else will be left as is.
1457 :    
1458 :     =item RETURN
1459 :    
1460 :     Returns the full HTML for a table in the approved NMPDR Search Form style.
1461 :    
1462 :     =back
1463 :    
1464 :     =cut
1465 :    
1466 :     sub MakeTable {
1467 :     # Get the parameters.
1468 :     my ($self, $rows) = @_;
1469 :     # Get the CGI object.
1470 :     my $cgi = $self->Q();
1471 :     # Fix the widths on the first column. Note that we eschew the use of the "g"
1472 :     # modifier becase we only want to change the first tag. Also, if a width
1473 :     # is already specified on the first column bad things will happen.
1474 :     for my $row (@{$rows}) {
1475 :     $row =~ s/(<td|th)/$1 width="150"/i;
1476 :     }
1477 :     # Create the table.
1478 :     my $retVal = $cgi->table({border => 2, cellspacing => 2,
1479 :     width => 700, class => 'search'},
1480 :     @{$rows});
1481 :     # Return the result.
1482 :     return $retVal;
1483 :     }
1484 :    
1485 :     =head3 SubmitRow
1486 :    
1487 : parrello 1.18 C<< my $htmlText = $shelp->SubmitRow($caption); >>
1488 : parrello 1.1
1489 :     Returns the HTML text for the row containing the page size control
1490 :     and the submit button. All searches should have this row somewhere
1491 :     near the top of the form.
1492 :    
1493 : parrello 1.18 =over 4
1494 :    
1495 :     =item caption (optional)
1496 :    
1497 :     Caption to be put on the search button. The default is C<Go>.
1498 :    
1499 :     =item RETURN
1500 :    
1501 :     Returns a table row containing the controls for submitting the search
1502 :     and tuning the results.
1503 :    
1504 :     =back
1505 :    
1506 : parrello 1.1 =cut
1507 :    
1508 :     sub SubmitRow {
1509 :     # Get the parameters.
1510 : parrello 1.18 my ($self, $caption) = @_;
1511 : parrello 1.1 my $cgi = $self->Q();
1512 : parrello 1.18 # Compute the button caption.
1513 :     my $realCaption = (defined $caption ? $caption : 'Go');
1514 : parrello 1.3 # Get the current page size.
1515 :     my $pageSize = $cgi->param('PageSize');
1516 :     # Get the incoming external-link flag.
1517 :     my $aliases = ($cgi->param('ShowAliases') ? 1 : 0);
1518 :     # Create the row.
1519 : parrello 1.1 my $retVal = $cgi->Tr($cgi->td("Results/Page"),
1520 :     $cgi->td($cgi->popup_menu(-name => 'PageSize',
1521 : parrello 1.7 -values => [10, 25, 50, 100, 1000],
1522 : parrello 1.3 -default => $pageSize) . " " .
1523 :     $cgi->checkbox(-name => 'ShowURL',
1524 :     -value => 1,
1525 : parrello 1.22 -label => 'Show URL',
1526 :     -checked => 1)),
1527 : parrello 1.1 $cgi->td($cgi->submit(-class => 'goButton',
1528 :     -name => 'Search',
1529 : parrello 1.18 -value => $realCaption)));
1530 : parrello 1.1 # Return the result.
1531 :     return $retVal;
1532 :     }
1533 : parrello 1.2
1534 :     =head3 FeatureFilterRows
1535 :    
1536 :     C<< my $htmlText = $shelp->FeatureFilterRows(); >>
1537 :    
1538 : parrello 1.11 This method creates table rows that can be used to filter features. The form
1539 :     values can be used to select features by genome using the B<FeatureQuery>
1540 :     object.
1541 : parrello 1.2
1542 :     =cut
1543 :    
1544 :     sub FeatureFilterRows {
1545 :     # Get the parameters.
1546 :     my ($self) = @_;
1547 :     # Return the result.
1548 :     return FeatureQuery::FilterRows($self);
1549 :     }
1550 :    
1551 : parrello 1.1 =head3 GBrowseFeatureURL
1552 :    
1553 :     C<< my $url = SearchHelper::GBrowseFeatureURL($sprout, $feat); >>
1554 :    
1555 :     Compute the URL required to pull up a Gbrowse page for the the specified feature.
1556 :     In order to do this, we need to pull out the ID of the feature's Genome, its
1557 :     contig ID, and some rough starting and stopping offsets.
1558 :    
1559 :     =over 4
1560 :    
1561 :     =item sprout
1562 :    
1563 :     Sprout object for accessing the database.
1564 :    
1565 :     =item feat
1566 :    
1567 :     ID of the feature whose Gbrowse URL is desired.
1568 :    
1569 :     =item RETURN
1570 :    
1571 :     Returns a GET-style URL for the Gbrowse CGI, with parameters specifying the genome
1572 :     ID, contig ID, starting offset, and stopping offset.
1573 :    
1574 :     =back
1575 :    
1576 :     =cut
1577 :    
1578 :     sub GBrowseFeatureURL {
1579 :     # Get the parameters.
1580 :     my ($sprout, $feat) = @_;
1581 :     # Declare the return variable.
1582 :     my $retVal;
1583 :     # Compute the genome ID.
1584 :     my ($genomeID) = FIGRules::ParseFeatureID($feat);
1585 :     # Only proceed if the feature ID produces a valid genome.
1586 :     if ($genomeID) {
1587 :     # Get the feature location string.
1588 :     my $loc = $sprout->FeatureLocation($feat);
1589 :     # Compute the contig, start, and stop points.
1590 : parrello 1.6 my($contig, $start, $stop) = BasicLocation::Parse($loc);
1591 : parrello 1.5 Trace("Start and stop are ($start,$stop) on contig $contig.") if T(3);
1592 : parrello 1.1 # Now we need to do some goofiness to insure that the location is not too
1593 :     # big and that we get some surrounding stuff.
1594 :     my $mid = int(($start + $stop) / 2);
1595 :     my $chunk_len = 20000;
1596 :     my $max_feature = 40000;
1597 :     my $feat_len = abs($stop - $start);
1598 :     if ($feat_len > $chunk_len) {
1599 :     if ($feat_len > $max_feature) {
1600 :     $chunk_len = $max_feature;
1601 :     } else {
1602 :     $chunk_len = $feat_len + 100;
1603 :     }
1604 :     }
1605 :     my($show_start, $show_stop);
1606 :     if ($chunk_len == $max_feature) {
1607 :     $show_start = $start - 300;
1608 :     } else {
1609 :     $show_start = $mid - int($chunk_len / 2);
1610 :     }
1611 :     if ($show_start < 1) {
1612 :     $show_start = 1;
1613 :     }
1614 :     $show_stop = $show_start + $chunk_len - 1;
1615 :     my $clen = $sprout->ContigLength($contig);
1616 :     if ($show_stop > $clen) {
1617 :     $show_stop = $clen;
1618 :     }
1619 :     my $seg_id = $contig;
1620 :     $seg_id =~ s/:/--/g;
1621 : parrello 1.5 Trace("Show limits are ($show_start,$show_stop) in genome $genomeID with ref $seg_id.") if T(3);
1622 : parrello 1.1 # Assemble all the pieces.
1623 : parrello 1.18 $retVal = "gbrowse.cgi/GB_$genomeID?ref=$seg_id;start=$show_start;stop=$show_stop";
1624 : parrello 1.1 }
1625 :     # Return the result.
1626 :     return $retVal;
1627 :     }
1628 :    
1629 : parrello 1.3 =head3 GetGenomes
1630 :    
1631 :     C<< my @genomeList = $shelp->GetGenomes($parmName); >>
1632 :    
1633 :     Return the list of genomes specified by the specified CGI query parameter.
1634 :     If the request method is POST, then the list of genome IDs is returned
1635 :     without preamble. If the request method is GET and the parameter is not
1636 :     specified, then it is treated as a request for all genomes. This makes it
1637 :     easier for web pages to link to a search that wants to specify all genomes.
1638 :    
1639 :     =over 4
1640 :    
1641 :     =item parmName
1642 :    
1643 :     Name of the parameter containing the list of genomes. This will be the
1644 :     first parameter passed to the L</NmpdrGenomeMenu> call that created the
1645 :     genome selection control on the form.
1646 :    
1647 :     =item RETURN
1648 :    
1649 :     Returns a list of the genomes to process.
1650 :    
1651 :     =back
1652 :    
1653 :     =cut
1654 :    
1655 :     sub GetGenomes {
1656 :     # Get the parameters.
1657 :     my ($self, $parmName) = @_;
1658 :     # Get the CGI query object.
1659 :     my $cgi = $self->Q();
1660 :     # Get the list of genome IDs in the request header.
1661 :     my @retVal = $cgi->param($parmName);
1662 :     Trace("Genome list for $parmName is (" . join(", ", @retVal) . ") with method " . $cgi->request_method() . ".") if T(3);
1663 :     # Check for the special GET case.
1664 :     if ($cgi->request_method() eq "GET" && ! @retVal) {
1665 :     # Here the caller wants all the genomes.
1666 :     my $sprout = $self->DB();
1667 :     @retVal = $sprout->Genomes();
1668 :     }
1669 :     # Return the result.
1670 :     return @retVal;
1671 :     }
1672 :    
1673 :     =head3 GetHelpText
1674 :    
1675 :     C<< my $htmlText = $shelp->GetHelpText(); >>
1676 :    
1677 :     Get the help text for this search. The help text is stored in files on the template
1678 :     server. The help text for a specific search is taken from a file named
1679 :     C<SearchHelp_>I<class>C<.inc> in the template directory C<$FIG_Config::template_url>.
1680 :     There are also three standard help files: C<SearchHelp1_Filtering.inc> describes the
1681 :     feature filtering performed by the B<FeatureQuery> object, C<SearchHelp1_GenomeControl.inc>
1682 :     describes how to use a multiple-selection genome control, and C<SearchHelp1_Standard.inc>
1683 :     describes the standard controls for a search, such as page size, URL display, and
1684 :     external alias display.
1685 :    
1686 :     =cut
1687 :    
1688 :     sub GetHelpText {
1689 :     # Get the parameters.
1690 :     my ($self) = @_;
1691 :     # Create a list to hold the pieces of the help.
1692 :     my @helps = ();
1693 :     # Get the template directory URL.
1694 :     my $urlBase = $FIG_Config::template_url;
1695 :     # Start with the specific help.
1696 :     my $class = $self->{class};
1697 :     push @helps, PageBuilder::GetPage("$urlBase/SearchHelp_$class.inc");
1698 :     # Add the genome control help if needed.
1699 :     if (scalar @{$self->{genomeParms}}) {
1700 :     push @helps, PageBuilder::GetPage("$urlBase/SearchHelp1_GenomeControl.inc");
1701 :     }
1702 :     # Next the filter help.
1703 :     if ($self->{filtered}) {
1704 :     push @helps, PageBuilder::GetPage("$urlBase/SearchHelp1_Filtering.inc");
1705 :     }
1706 :     # Finally, the standard help.
1707 :     push @helps, PageBuilder::GetPage("$urlBase/SearchHelp1_Standard.inc");
1708 :     # Assemble the pieces.
1709 :     my $retVal = join("\n<p>&nbsp;</p>\n", @helps);
1710 :     # Return the result.
1711 :     return $retVal;
1712 :     }
1713 :    
1714 :     =head3 ComputeSearchURL
1715 :    
1716 : parrello 1.19 C<< my $url = $shelp->ComputeSearchURL(%overrides); >>
1717 : parrello 1.3
1718 :     Compute the GET-style URL for the current search. In order for this to work, there
1719 :     must be a copy of the search form on the current page. This will always be the
1720 :     case if the search is coming from C<SearchSkeleton.cgi>.
1721 :    
1722 :     A little expense is involved in order to make the URL as smart as possible. The
1723 :     main complication is that if the user specified all genomes, we'll want to
1724 :     remove the parameter entirely from a get-style URL.
1725 :    
1726 : parrello 1.19 =over 4
1727 :    
1728 :     =item overrides
1729 :    
1730 :     Hash containing override values for the parameters, where the parameter name is
1731 :     the key and the parameter value is the override value. If the override value is
1732 :     C<undef>, the parameter will be deleted from the result.
1733 :    
1734 :     =item RETURN
1735 :    
1736 :     Returns a GET-style URL for invoking the search with the specified overrides.
1737 :    
1738 :     =back
1739 :    
1740 : parrello 1.3 =cut
1741 :    
1742 :     sub ComputeSearchURL {
1743 :     # Get the parameters.
1744 : parrello 1.19 my ($self, %overrides) = @_;
1745 : parrello 1.3 # Get the database and CGI query object.
1746 :     my $cgi = $self->Q();
1747 :     my $sprout = $self->DB();
1748 :     # Start with the full URL.
1749 :     my $retVal = $cgi->url(-full => 1);
1750 :     # Get all the query parameters in a hash.
1751 :     my %parms = $cgi->Vars();
1752 :     # Now we need to do some fixing. Each multi-valued parameter is encoded as a string with null
1753 :     # characters separating the individual values. We have to convert those to lists. In addition,
1754 :     # the multiple-selection genome parameters and the feature type parameter must be checked to
1755 :     # determine whether or not they can be removed from the URL. First, we get a list of the
1756 :     # genome parameters and a list of all genomes. Note that we only need the list if a
1757 :     # multiple-selection genome parameter has been found on the form.
1758 :     my %genomeParms = map { $_ => 1 } @{$self->{genomeParms}};
1759 :     my @genomeList;
1760 :     if (keys %genomeParms) {
1761 :     @genomeList = $sprout->Genomes();
1762 :     }
1763 :     # Create a list to hold the URL parameters we find.
1764 :     my @urlList = ();
1765 :     # Now loop through the parameters in the hash, putting them into the output URL.
1766 :     for my $parmKey (keys %parms) {
1767 :     # Get a list of the parameter values. If there's only one, we'll end up with
1768 :     # a singleton list, but that's okay.
1769 :     my @values = split (/\0/, $parms{$parmKey});
1770 :     # Check for special cases.
1771 : parrello 1.12 if (grep { $_ eq $parmKey } qw(SessionID ResultCount Page PageSize Trace TF ShowURL)) {
1772 : parrello 1.3 # These are bookkeeping parameters we don't need to start a search.
1773 :     @values = ();
1774 :     } elsif ($parmKey =~ /_SearchThing$/) {
1775 :     # Here the value coming in is from a genome control's search thing. It does
1776 :     # not affect the results of the search, so we clear it.
1777 :     @values = ();
1778 :     } elsif ($genomeParms{$parmKey}) {
1779 :     # Here we need to see if the user wants all the genomes. If he does,
1780 :     # we erase all the values just like with features.
1781 :     my $allFlag = $sprout->IsAllGenomes(\@values, \@genomeList);
1782 :     if ($allFlag) {
1783 :     @values = ();
1784 :     }
1785 : parrello 1.19 } elsif (exists $overrides{$parmKey}) {
1786 :     # Here the value is being overridden, so we skip it for now.
1787 :     @values = ();
1788 : parrello 1.3 }
1789 :     # If we still have values, create the URL parameters.
1790 :     if (@values) {
1791 :     push @urlList, map { "$parmKey=" . uri_escape($_) } @values;
1792 :     }
1793 :     }
1794 : parrello 1.19 # Now do the overrides.
1795 :     for my $overKey (keys %overrides) {
1796 :     # Only use this override if it's not a delete marker.
1797 :     if (defined $overrides{$overKey}) {
1798 :     push @urlList, "$overKey=" . uri_escape($overrides{$overKey});
1799 :     }
1800 :     }
1801 : parrello 1.3 # Add the parameters to the URL.
1802 :     $retVal .= "?" . join(";", @urlList);
1803 :     # Return the result.
1804 :     return $retVal;
1805 :     }
1806 :    
1807 :     =head3 GetRunTimeValue
1808 :    
1809 :     C<< my $htmlText = $shelp->GetRunTimeValue($text); >>
1810 :    
1811 :     Compute a run-time column value.
1812 :    
1813 :     =over 4
1814 :    
1815 :     =item text
1816 :    
1817 :     The run-time column text. It consists of 2 percent signs, a column type, an equal
1818 :     sign, and the data for the current row.
1819 :    
1820 :     =item RETURN
1821 :    
1822 :     Returns the fully-formatted HTML text to go into the current column of the current row.
1823 :    
1824 :     =back
1825 :    
1826 :     =cut
1827 :    
1828 :     sub GetRunTimeValue {
1829 :     # Get the parameters.
1830 :     my ($self, $text) = @_;
1831 :     # Declare the return variable.
1832 :     my $retVal;
1833 :     # Parse the incoming text.
1834 :     if ($text =~ /^%%([^=]+)=(.*)$/) {
1835 :     $retVal = $self->RunTimeColumns($1, $2);
1836 :     } else {
1837 :     Confess("Invalid run-time column string \"$text\" encountered in session file.");
1838 :     }
1839 :     # Return the result.
1840 :     return $retVal;
1841 :     }
1842 :    
1843 : parrello 1.9 =head3 AdvancedClassList
1844 :    
1845 :     C<< my @classes = SearchHelper::AdvancedClassList(); >>
1846 :    
1847 :     Return a list of advanced class names. This list is used to generate the directory
1848 :     of available searches on the search page.
1849 :    
1850 : parrello 1.15 We use the %INC variable to accomplish this.
1851 : parrello 1.9
1852 :     =cut
1853 :    
1854 :     sub AdvancedClassList {
1855 : parrello 1.15 my @retVal = map { $_ =~ /^SH(\w+)\.pm/; $1 } grep { $_ =~ /^SH/ } keys %INC;
1856 :     return @retVal;
1857 : parrello 1.9 }
1858 :    
1859 : parrello 1.16 =head3 SelectionTree
1860 :    
1861 :     C<< my $htmlText = SearchHelper::SelectionTree($cgi, \%tree, %options); >>
1862 :    
1863 :     Display a selection tree.
1864 :    
1865 :     This method creates the HTML for a tree selection control. The tree is implemented as a set of
1866 :     nested HTML unordered lists. Each selectable element of the tree will contain a radio button. In
1867 :     addition, some of the tree nodes can contain hyperlinks.
1868 :    
1869 :     The tree itself is passed in as a multi-level list containing node names followed by
1870 :     contents. Each content element is a reference to a similar list. The first element of
1871 :     each list may be a hash reference. If so, it should contain one or both of the following
1872 :     keys.
1873 :    
1874 :     =over 4
1875 :    
1876 :     =item link
1877 :    
1878 :     The navigation URL to be popped up if the user clicks on the node name.
1879 :    
1880 :     =item value
1881 :    
1882 :     The form value to be returned if the user selects the tree node.
1883 :    
1884 :     =back
1885 :    
1886 :     The presence of a C<link> key indicates the node name will be hyperlinked. The presence of
1887 :     a C<value> key indicates the node name will have a radio button. If a node has no children,
1888 :     you may pass it a hash reference instead of a list reference.
1889 :    
1890 :     The following example shows the hash for a three-level tree with links on the second level and
1891 :     radio buttons on the third.
1892 :    
1893 :     [ Objects => [
1894 :     Entities => [
1895 :     {link => "../docs/WhatIsAnEntity.html"},
1896 :     Genome => {value => 'GenomeData'},
1897 :     Feature => {value => 'FeatureData'},
1898 :     Contig => {value => 'ContigData'},
1899 :     ],
1900 :     Relationships => [
1901 :     {link => "../docs/WhatIsARelationShip.html"},
1902 :     HasFeature => {value => 'GenomeToFeature'},
1903 :     IsOnContig => {value => 'FeatureToContig'},
1904 :     ]
1905 :     ]
1906 :     ]
1907 :    
1908 :     Note how each leaf of the tree has a hash reference for its value, while the branch nodes
1909 :     all have list references.
1910 :    
1911 :     This next example shows how to set up a taxonomy selection field. The value returned
1912 :     by the tree control will be the taxonomy string for the selected node ready for use
1913 :     in a LIKE-style SQL filter. Only the single branch ending in campylobacter is shown for
1914 :     reasons of space.
1915 :    
1916 :     [ All => [
1917 :     {value => "%"},
1918 :     Bacteria => [
1919 :     {value => "Bacteria%"},
1920 :     Proteobacteria => [
1921 :     {value => "Bacteria; Proteobacteria%"},
1922 :     Epsilonproteobacteria => [
1923 :     {value => "Bacteria; Proteobacteria;Epsilonproteobacteria%"},
1924 :     Campylobacterales => [
1925 :     {value => "Bacteria; Proteobacteria; Epsilonproteobacteria; Campylobacterales%"},
1926 :     Campylobacteraceae =>
1927 :     {value => "Bacteria; Proteobacteria; Epsilonproteobacteria; Campylobacterales; Campylobacteraceae%"},
1928 :     ...
1929 :     ]
1930 :     ...
1931 :     ]
1932 :     ...
1933 :     ]
1934 :     ...
1935 :     ]
1936 :     ...
1937 :     ]
1938 :     ]
1939 :    
1940 :    
1941 :     This method of tree storage allows the caller to control the order in which the tree nodes
1942 :     are displayed and to completely control value selection and use of hyperlinks. It is, however
1943 :     a bit complicated. Eventually, tree-building classes will be provided to simplify things.
1944 :    
1945 :     The parameters to this method are as follows.
1946 :    
1947 :     =over 4
1948 :    
1949 :     =item cgi
1950 :    
1951 :     CGI object used to generate the HTML.
1952 :    
1953 :     =item tree
1954 :    
1955 :     Reference to a hash describing a tree. See the description above.
1956 :    
1957 :     =item options
1958 :    
1959 :     Hash containing options for the tree display.
1960 :    
1961 :     =back
1962 :    
1963 :     The allowable options are as follows
1964 :    
1965 :     =over 4
1966 :    
1967 :     =item nodeImageClosed
1968 :    
1969 :     URL of the image to display next to the tree nodes when they are collapsed. Clicking
1970 :     on the image will expand a section of the tree. The default is C<../FIG/Html/plus.gif>.
1971 :    
1972 :     =item nodeImageOpen
1973 :    
1974 :     URL of the image to display next to the tree nodes when they are expanded. Clicking
1975 :     on the image will collapse a section of the tree. The default is C<../FIG/Html/minus.gif>.
1976 :    
1977 :     =item style
1978 :    
1979 :     Style to use for the tree. The default is C<tree>. Because the tree style is implemented
1980 :     as nested lists, the key components of this style are the definitions for the C<ul> and
1981 :     C<li> tags. The default style file contains the following definitions.
1982 :    
1983 :     .tree ul {
1984 :     margin-left: 0; padding-left: 22px
1985 :     }
1986 :     .tree li {
1987 :     list-style-type: none;
1988 :     }
1989 :    
1990 :     The default image is 22 pixels wide, so in the above scheme each tree level is indented from its
1991 :     parent by the width of the node image. This use of styles limits the things we can do in formatting
1992 :     the tree, but it has the advantage of vastly simplifying the tree creation.
1993 :    
1994 :     =item name
1995 :    
1996 :     Field name to give to the radio buttons in the tree. The default is C<selection>.
1997 :    
1998 :     =item target
1999 :    
2000 :     Frame target for links. The default is C<_self>.
2001 :    
2002 :     =item selected
2003 :    
2004 :     If specified, the value of the radio button to be pre-selected.
2005 :    
2006 :     =back
2007 :    
2008 :     =cut
2009 :    
2010 :     sub SelectionTree {
2011 :     # Get the parameters.
2012 :     my ($cgi, $tree, %options) = @_;
2013 :     # Get the options.
2014 :     my $optionThing = Tracer::GetOptions({ name => 'selection',
2015 :     nodeImageClosed => '../FIG/Html/plus.gif',
2016 :     nodeImageOpen => '../FIG/Html/minus.gif',
2017 :     style => 'tree',
2018 :     target => '_self',
2019 :     selected => undef},
2020 :     \%options);
2021 :     # Declare the return variable. We'll do the standard thing with creating a list
2022 :     # of HTML lines and rolling them together at the end.
2023 :     my @retVal = ();
2024 :     # Only proceed if the tree is present.
2025 :     if (defined($tree)) {
2026 :     # Validate the tree.
2027 :     if (ref $tree ne 'ARRAY') {
2028 :     Confess("Selection tree is not a list reference.");
2029 :     } elsif (scalar @{$tree} == 0) {
2030 :     # The tree is empty, so we do nothing.
2031 :     } elsif ($tree->[0] eq 'HASH') {
2032 :     Confess("Hash reference found at start of selection tree. The tree as a whole cannot have attributes, only tree nodes.");
2033 :     } else {
2034 :     # Here we have a real tree. Apply the tree style.
2035 :     push @retVal, $cgi->start_div({ class => $optionThing->{style} });
2036 :     # Give us a DIV ID.
2037 :     my $divID = GetDivID($optionThing->{name});
2038 :     # Show the tree.
2039 :     push @retVal, ShowBranch($cgi, "(root)", $divID, $tree, $optionThing, 'block');
2040 :     # Close the DIV block.
2041 :     push @retVal, $cgi->end_div();
2042 :     }
2043 :     }
2044 :     # Return the result.
2045 :     return join("\n", @retVal, "");
2046 :     }
2047 :    
2048 :     =head3 ShowBranch
2049 :    
2050 :     C<< my @htmlLines = SearchHelper::ShowBranch($cgi, $label, $id, $branch, $options, $displayType); >>
2051 :    
2052 :     This is a recursive method that displays a branch of the tree.
2053 :    
2054 :     =over 4
2055 :    
2056 :     =item cgi
2057 :    
2058 :     CGI object used to format HTML.
2059 :    
2060 :     =item label
2061 :    
2062 :     Label of this tree branch. It is only used in error messages.
2063 :    
2064 :     =item id
2065 :    
2066 :     ID to be given to this tree branch. The ID is used in the code that expands and collapses
2067 :     tree nodes.
2068 :    
2069 :     =item branch
2070 :    
2071 :     Reference to a list containing the content of the tree branch. The list contains an optional
2072 :     hash reference that is ignored and the list of children, each child represented by a name
2073 :     and then its contents. The contents could by a hash reference (indicating the attributes
2074 :     of a leaf node), or another tree branch.
2075 :    
2076 :     =item options
2077 :    
2078 :     Options from the original call to L</SelectionTree>.
2079 :    
2080 :     =item displayType
2081 :    
2082 :     C<block> if the contents of this list are to be displayed, C<none> if they are to be
2083 :     hidden.
2084 :    
2085 :     =item RETURN
2086 :    
2087 :     Returns one or more HTML lines that can be used to display the tree branch.
2088 :    
2089 :     =back
2090 :    
2091 :     =cut
2092 :    
2093 :     sub ShowBranch {
2094 :     # Get the parameters.
2095 :     my ($cgi, $label, $id, $branch, $options, $displayType) = @_;
2096 :     # Declare the return variable.
2097 :     my @retVal = ();
2098 :     # Start the branch.
2099 :     push @retVal, $cgi->start_ul({ id => $id, style => "display:$displayType" });
2100 :     # Check for the hash and choose the start location accordingly.
2101 :     my $i0 = (ref $branch->[0] eq 'HASH' ? 1 : 0);
2102 :     # Get the list length.
2103 :     my $i1 = scalar(@{$branch});
2104 :     # Verify we have an even number of elements.
2105 :     if (($i1 - $i0) % 2 != 0) {
2106 :     Trace("Branch elements are from $i0 to $i1.") if T(3);
2107 :     Confess("Odd number of elements in tree branch $label.");
2108 :     } else {
2109 :     # Loop through the elements.
2110 :     for (my $i = $i0; $i < $i1; $i += 2) {
2111 :     # Get this node's label and contents.
2112 :     my ($myLabel, $myContent) = ($branch->[$i], $branch->[$i+1]);
2113 :     # Get an ID for this node's children (if any).
2114 :     my $myID = GetDivID($options->{name});
2115 :     # Now we need to find the list of children and the options hash.
2116 :     # This is a bit ugly because we allow the shortcut of a hash without an
2117 :     # enclosing list. First, we need some variables.
2118 :     my $attrHash = {};
2119 :     my @childHtml = ();
2120 :     my $hasChildren = 0;
2121 :     if (! ref $myContent) {
2122 :     Confess("Invalid tree definition. Scalar found as content of node \"$myLabel\".");
2123 :     } elsif (ref $myContent eq 'HASH') {
2124 :     # Here the node is a leaf and its content contains the link/value hash.
2125 :     $attrHash = $myContent;
2126 :     } elsif (ref $myContent eq 'ARRAY') {
2127 :     # Here the node may be a branch. Its content is a list.
2128 :     my $len = scalar @{$myContent};
2129 :     if ($len >= 1) {
2130 :     # Here the first element of the list could by the link/value hash.
2131 :     if (ref $myContent->[0] eq 'HASH') {
2132 :     $attrHash = $myContent->[0];
2133 :     # If there's data in the list besides the hash, it's our child list.
2134 :     # We can pass the entire thing as the child list, because the hash
2135 :     # is ignored.
2136 :     if ($len > 1) {
2137 :     $hasChildren = 1;
2138 :     }
2139 :     } else {
2140 :     $hasChildren = 1;
2141 :     }
2142 :     # If we have children, create the child list with a recursive call.
2143 :     if ($hasChildren) {
2144 :     Trace("Processing children of $myLabel.") if T(4);
2145 :     push @childHtml, ShowBranch($cgi, $myLabel, $myID, $myContent, $options, 'none');
2146 :     }
2147 :     }
2148 :     }
2149 :     # Okay, it's time to pause and take stock. We have the label of the current node
2150 :     # in $myLabel, its attributes in $attrHash, and if it is NOT a leaf node, we
2151 :     # have a child list in @childHtml. If it IS a leaf node, $hasChildren is 0.
2152 :     # Compute the image HTML. It's tricky, because we have to deal with the open and
2153 :     # closed images.
2154 :     my @images = ($options->{nodeImageOpen}, $options->{nodeImageClosed});
2155 :     my $image = $images[$hasChildren];
2156 :     my $prefixHtml = $cgi->img({src => $image, id => "${myID}img"});
2157 :     if ($hasChildren) {
2158 :     # If there are children, we wrap the image in a toggle hyperlink.
2159 :     $prefixHtml = $cgi->a({ onClick => "javascript:treeToggle('$myID','$images[0]', '$images[1]')" },
2160 :     $prefixHtml);
2161 :     }
2162 :     # Now the radio button, if any. Note we use "defined" in case the user wants the
2163 :     # value to be 0.
2164 :     if (defined $attrHash->{value}) {
2165 :     # Due to a glitchiness in the CGI stuff, we have to build the attribute
2166 :     # hash for the "input" method. If the item is pre-selected, we add
2167 :     # "checked => undef" to the hash. Otherwise, we can't have "checked"
2168 :     # at all.
2169 :     my $radioParms = { type => 'radio',
2170 :     name => $options->{name},
2171 :     value => $attrHash->{value},
2172 :     };
2173 :     if (defined $options->{selected} && $options->{selected} eq $attrHash->{value}) {
2174 :     $radioParms->{checked} = undef;
2175 :     }
2176 :     $prefixHtml .= $cgi->input($radioParms);
2177 :     }
2178 :     # Next, we format the label.
2179 :     my $labelHtml = $myLabel;
2180 :     Trace("Formatting tree node for $myLabel.") if T(4);
2181 :     # Apply a hyperlink if necessary.
2182 :     if (defined $attrHash->{link}) {
2183 :     $labelHtml = $cgi->a({ href => $attrHash->{link}, target => $options->{target} },
2184 :     $labelHtml);
2185 :     }
2186 :     # Finally, roll up the child HTML. If there are no children, we'll get a null string
2187 :     # here.
2188 :     my $childHtml = join("\n", @childHtml);
2189 :     # Now we have all the pieces, so we can put them together.
2190 :     push @retVal, $cgi->li("$prefixHtml$labelHtml$childHtml");
2191 :     }
2192 :     }
2193 :     # Close the tree branch.
2194 :     push @retVal, $cgi->end_ul();
2195 :     # Return the result.
2196 :     return @retVal;
2197 :     }
2198 :    
2199 :     =head3 GetDivID
2200 :    
2201 :     C<< my $idString = SearchHelper::GetDivID($name); >>
2202 :    
2203 :     Return a new HTML ID string.
2204 :    
2205 :     =over 4
2206 :    
2207 :     =item name
2208 :    
2209 :     Name to be prefixed to the ID string.
2210 :    
2211 :     =item RETURN
2212 :    
2213 :     Returns a hopefully-unique ID string.
2214 :    
2215 :     =back
2216 :    
2217 :     =cut
2218 :    
2219 :     sub GetDivID {
2220 :     # Get the parameters.
2221 :     my ($name) = @_;
2222 :     # Compute the ID.
2223 :     my $retVal = "elt_$name$divCount";
2224 :     # Increment the counter to make sure this ID is not re-used.
2225 :     $divCount++;
2226 :     # Return the result.
2227 :     return $retVal;
2228 :     }
2229 :    
2230 : parrello 1.1 =head2 Feature Column Methods
2231 :    
2232 : parrello 1.19 The methods in this section manage feature column data. If you want to provide the
2233 : parrello 1.1 capability to include new types of data in feature columns, then all the changes
2234 :     are made to this section of the source file. Technically, this should be implemented
2235 :     using object-oriented methods, but this is simpler for non-programmers to maintain.
2236 :     To add a new column of feature data, you must first give it a name. For example,
2237 :     the name for the protein page link column is C<protlink>. If the column is to appear
2238 :     in the default list of feature columns, add it to the list returned by
2239 :     L</DefaultFeatureColumns>. Then add code to produce the column title to
2240 :     L</FeatureColumnTitle> and code to produce its value to L</FeatureColumnValue>, and
2241 :     everything else will happen automatically.
2242 :    
2243 :     There is one special column name syntax for extra columns (that is, nonstandard
2244 :     feature columns). If the column name begins with C<X=>, then it is presumed to be
2245 :     an extra column. The column title is the text after the C<X=>, and its value is
2246 :     pulled from the extra column hash.
2247 :    
2248 :     =head3 DefaultFeatureColumns
2249 :    
2250 : parrello 1.14 C<< my @colNames = $shelp->DefaultFeatureColumns(); >>
2251 : parrello 1.1
2252 : parrello 1.14 Return a list of the default feature column identifiers. These identifiers can
2253 :     be passed to L</FeatureColumnTitle> and L</FeatureColumnValue> in order to
2254 :     produce the column titles and row values.
2255 : parrello 1.1
2256 :     =cut
2257 :    
2258 :     sub DefaultFeatureColumns {
2259 :     # Get the parameters.
2260 :     my ($self) = @_;
2261 :     # Return the result.
2262 : parrello 1.14 return qw(orgName function gblink protlink);
2263 : parrello 1.1 }
2264 :    
2265 :     =head3 FeatureColumnTitle
2266 :    
2267 :     C<< my $title = $shelp->FeatureColumnTitle($colName); >>
2268 :    
2269 :     Return the column heading title to be used for the specified feature column.
2270 :    
2271 :     =over 4
2272 :    
2273 :     =item name
2274 :    
2275 :     Name of the desired feature column.
2276 :    
2277 :     =item RETURN
2278 :    
2279 :     Returns the title to be used as the column header for the named feature column.
2280 :    
2281 :     =back
2282 :    
2283 :     =cut
2284 :    
2285 :     sub FeatureColumnTitle {
2286 :     # Get the parameters.
2287 :     my ($self, $colName) = @_;
2288 :     # Declare the return variable. We default to a blank column name.
2289 :     my $retVal = "&nbsp;";
2290 :     # Process the column name.
2291 :     if ($colName =~ /^X=(.+)$/) {
2292 :     # Here we have an extra column.
2293 :     $retVal = $1;
2294 : parrello 1.13 } elsif ($colName eq 'alias') {
2295 :     $retVal = "External Aliases";
2296 : parrello 1.1 } elsif ($colName eq 'fid') {
2297 :     $retVal = "FIG ID";
2298 :     } elsif ($colName eq 'function') {
2299 :     $retVal = "Functional Assignment";
2300 :     } elsif ($colName eq 'gblink') {
2301 :     $retVal = "GBrowse";
2302 : parrello 1.13 } elsif ($colName eq 'group') {
2303 :     $retVal = "NMDPR Group";
2304 :     } elsif ($colName =~ /^keyword:(.+)$/) {
2305 :     $retVal = ucfirst $1;
2306 :     } elsif ($colName eq 'orgName') {
2307 : parrello 1.21 $retVal = "Organism and Gene ID";
2308 : parrello 1.1 } elsif ($colName eq 'protlink') {
2309 :     $retVal = "NMPDR Protein Page";
2310 : parrello 1.13 } elsif ($colName eq 'subsystem') {
2311 :     $retVal = "Subsystems";
2312 : parrello 1.1 }
2313 :     # Return the result.
2314 :     return $retVal;
2315 :     }
2316 :    
2317 : parrello 1.13
2318 : parrello 1.1 =head3 FeatureColumnValue
2319 :    
2320 :     C<< my $value = $shelp->FeatureColumnValue($colName, $fid, \%extraCols); >>
2321 :    
2322 :     Return the value to be displayed in the specified feature column.
2323 :    
2324 :     =over 4
2325 :    
2326 :     =item colName
2327 :    
2328 :     Name of the column to be displayed.
2329 :    
2330 :     =item record
2331 :    
2332 :     DBObject record for the feature being displayed in the current row.
2333 :    
2334 :     =item extraCols
2335 :    
2336 :     Reference to a hash of extra column names to values. If the incoming column name
2337 :     begins with C<X=>, its value will be taken from this hash.
2338 :    
2339 :     =item RETURN
2340 :    
2341 :     Returns the HTML to be displayed in the named column for the specified feature.
2342 :    
2343 :     =back
2344 :    
2345 :     =cut
2346 :    
2347 :     sub FeatureColumnValue {
2348 :     # Get the parameters.
2349 :     my ($self, $colName, $record, $extraCols) = @_;
2350 :     # Get the sprout and CGI objects.
2351 :     my $cgi = $self->Q();
2352 :     my $sprout = $self->DB();
2353 :     # Get the feature ID.
2354 :     my ($fid) = $record->Value('Feature(id)');
2355 :     # Declare the return variable. Denote that we default to a non-breaking space,
2356 :     # which will translate to an empty table cell (rather than a table cell with no
2357 :     # interior, which is what you get for a null string).
2358 :     my $retVal = "&nbsp;";
2359 :     # Process according to the column name.
2360 :     if ($colName =~ /^X=(.+)$/) {
2361 :     # Here we have an extra column. Only update if the value exists. Note that
2362 :     # a value of C<undef> is treated as a non-existent value, because the
2363 :     # caller may have put "colName => undef" in the "PutFeature" call in order
2364 :     # to insure we know the extra column exists.
2365 :     if (defined $extraCols->{$1}) {
2366 :     $retVal = $extraCols->{$1};
2367 :     }
2368 : parrello 1.13 } elsif ($colName eq 'alias') {
2369 :     # In this case, the user wants a list of external aliases for the feature.
2370 :     # These are very expensive, so we compute them when the row is displayed.
2371 :     $retVal = "%%alias=$fid";
2372 : parrello 1.1 } elsif ($colName eq 'fid') {
2373 :     # Here we have the raw feature ID. We hyperlink it to the protein page.
2374 :     $retVal = HTML::set_prot_links($fid);
2375 :     } elsif ($colName eq 'function') {
2376 :     # The functional assignment is just a matter of getting some text.
2377 :     ($retVal) = $record->Value('Feature(assignment)');
2378 :     } elsif ($colName eq 'gblink') {
2379 :     # Here we want a link to the GBrowse page using the official GBrowse button.
2380 : parrello 1.18 $retVal = Formlet('GBrowse', "GetGBrowse.cgi", undef,
2381 :     fid => $fid);
2382 : parrello 1.13 } elsif ($colName eq 'group') {
2383 :     # Get the NMPDR group name.
2384 :     my (undef, $group) = $self->OrganismData($fid);
2385 :     # Dress it with a URL to the group's main page.
2386 :     my $nurl = $sprout->GroupPageName($group);
2387 :     $retVal = $cgi->a({ href => $nurl, title => "$group summary" },
2388 :     $group);
2389 :     } elsif ($colName =~ /^keyword:(.+)$/) {
2390 :     # Here we want keyword-related values. This is also expensive, so
2391 :     # we compute them when the row is displayed.
2392 : parrello 1.14 $retVal = "%%$colName=$fid";
2393 : parrello 1.13 } elsif ($colName eq 'orgName') {
2394 :     # Here we want the formatted organism name and feature number.
2395 :     $retVal = $self->FeatureName($fid);
2396 : parrello 1.1 } elsif ($colName eq 'protlink') {
2397 :     # Here we want a link to the protein page using the official NMPDR button.
2398 : parrello 1.18 $retVal = Formlet('NMPDR', "protein.cgi", undef,
2399 :     prot => $fid, SPROUT => 1, new_framework => 0,
2400 :     user => '');
2401 : parrello 1.13 }elsif ($colName eq 'subsystem') {
2402 :     # Another run-time column: subsystem list.
2403 :     $retVal = "%%subsystem=$fid";
2404 : parrello 1.1 }
2405 :     # Return the result.
2406 :     return $retVal;
2407 :     }
2408 :    
2409 : parrello 1.3 =head3 RunTimeColumns
2410 :    
2411 :     C<< my $htmlText = $shelp->RunTimeColumns($type, $text); >>
2412 :    
2413 :     Return the HTML text for a run-time column. Run-time columns are evaluated when the
2414 :     list is displayed, rather than when it is generated.
2415 :    
2416 :     =over 4
2417 :    
2418 :     =item type
2419 :    
2420 :     Type of column.
2421 :    
2422 :     =item text
2423 :    
2424 :     Data relevant to this row of the column.
2425 :    
2426 :     =item RETURN
2427 :    
2428 :     Returns the fully-formatted HTML text to go in the specified column.
2429 :    
2430 :     =back
2431 :    
2432 :     =cut
2433 :    
2434 :     sub RunTimeColumns {
2435 :     # Get the parameters.
2436 :     my ($self, $type, $text) = @_;
2437 :     # Declare the return variable.
2438 :     my $retVal = "";
2439 :     # Get the Sprout and CGI objects.
2440 :     my $sprout = $self->DB();
2441 :     my $cgi = $self->Q();
2442 : parrello 1.14 Trace("Runtime column $type with text \"$text\" found.") if T(4);
2443 : parrello 1.3 # Separate the text into a type and data.
2444 : parrello 1.13 if ($type eq 'alias') {
2445 : parrello 1.3 # Here the caller wants external alias links for a feature. The text
2446 :     # is the feature ID.
2447 :     my $fid = $text;
2448 :     # The complicated part is we have to hyperlink them. First, get the
2449 :     # aliases.
2450 :     Trace("Generating aliases for feature $fid.") if T(4);
2451 :     my @aliases = $sprout->FeatureAliases($fid);
2452 :     # Only proceed if we found some.
2453 :     if (@aliases) {
2454 :     # Join the aliases into a comma-delimited list.
2455 :     my $aliasList = join(", ", @aliases);
2456 :     # Ask the HTML processor to hyperlink them.
2457 :     $retVal = HTML::set_prot_links($cgi, $aliasList);
2458 :     }
2459 : parrello 1.13 } elsif ($type eq 'subsystem') {
2460 :     # Here the caller wants the subsystems in which this feature participates.
2461 :     # The text is the feature ID. We will list the subsystem names with links
2462 :     # to the subsystem's summary page.
2463 :     my $fid = $text;
2464 :     # Get the subsystems.
2465 :     Trace("Generating subsystems for feature $fid.") if T(4);
2466 :     my %subs = $sprout->SubsystemsOf($fid);
2467 : parrello 1.19 # Extract the subsystem names.
2468 :     my @names = map { HTML::sub_link($cgi, $_) } sort keys %subs;
2469 : parrello 1.13 # String them into a list.
2470 : parrello 1.19 $retVal = join(", ", @names);
2471 : parrello 1.13 } elsif ($type =~ /^keyword:(.+)$/) {
2472 :     # Here the caller wants the value of the named keyword. The text is the
2473 :     # feature ID.
2474 :     my $keywordName = $1;
2475 :     my $fid = $text;
2476 :     # Get the attribute values.
2477 :     Trace("Getting $keywordName values for feature $fid.") if T(4);
2478 :     my @values = $sprout->GetFlat(['Feature'], "Feature(id) = ?", [$fid],
2479 :     "Feature($keywordName)");
2480 :     # String them into a list.
2481 :     $retVal = join(", ", @values);
2482 : parrello 1.3 }
2483 :     # Return the result.
2484 :     return $retVal;
2485 :     }
2486 :    
2487 : parrello 1.10 =head3 SaveOrganismData
2488 :    
2489 :     C<< my ($name, $displayGroup) = $shelp->SaveOrganismData($group, $genomeID, $genus, $species, $strain); >>
2490 :    
2491 :     Format the name of an organism and the display version of its group name. The incoming
2492 :     data should be the relevant fields from the B<Genome> record in the database. The
2493 :     data will also be stored in the genome cache for later use in posting search results.
2494 :    
2495 :     =over 4
2496 :    
2497 :     =item group
2498 :    
2499 :     Name of the genome's group as it appears in the database.
2500 :    
2501 :     =item genomeID
2502 :    
2503 :     ID of the relevant genome.
2504 :    
2505 :     =item genus
2506 :    
2507 :     Genus of the genome's organism. If undefined or null, it will be assumed the genome is not
2508 :     in the database. In this case, the organism name is derived from the genomeID and the group
2509 :     is automatically the supporting-genomes group.
2510 :    
2511 :     =item species
2512 :    
2513 :     Species of the genome's organism.
2514 :    
2515 :     =item strain
2516 :    
2517 :     Strain of the species represented by the genome.
2518 :    
2519 :     =item RETURN
2520 :    
2521 :     Returns a two-element list. The first element is the formatted genome name. The second
2522 :     element is the display name of the genome's group.
2523 :    
2524 :     =back
2525 :    
2526 :     =cut
2527 :    
2528 :     sub SaveOrganismData {
2529 :     # Get the parameters.
2530 :     my ($self, $group, $genomeID, $genus, $species, $strain) = @_;
2531 :     # Declare the return values.
2532 :     my ($name, $displayGroup);
2533 :     # If the organism does not exist, format an unknown name and a blank group.
2534 :     if (! defined($genus)) {
2535 :     $name = "Unknown Genome $genomeID";
2536 :     $displayGroup = "";
2537 :     } else {
2538 :     # It does exist, so format the organism name.
2539 :     $name = "$genus $species";
2540 :     if ($strain) {
2541 :     $name .= " $strain";
2542 :     }
2543 :     # Compute the display group. This is currently the same as the incoming group
2544 :     # name unless it's the supporting group, which is nulled out.
2545 :     $displayGroup = ($group eq $FIG_Config::otherGroup ? "" : $group);
2546 :     }
2547 :     # Cache the group and organism data.
2548 :     my $cache = $self->{orgs};
2549 :     $cache->{$genomeID} = [$name, $displayGroup];
2550 :     # Return the result.
2551 :     return ($name, $displayGroup);
2552 :     }
2553 :    
2554 : parrello 1.16 =head3 ValidateKeywords
2555 :    
2556 :     C<< my $okFlag = $shelp->ValidateKeywords($keywordString, $required); >>
2557 :    
2558 :     Insure that a keyword string is reasonably valid. If it is invalid, a message will be
2559 :     set.
2560 :    
2561 :     =over 4
2562 :    
2563 :     =item keywordString
2564 :    
2565 :     Keyword string specified as a parameter to the current search.
2566 :    
2567 :     =item required
2568 :    
2569 :     TRUE if there must be at least one keyword specified, else FALSE.
2570 :    
2571 :     =item RETURN
2572 :    
2573 :     Returns TRUE if the keyword string is valid, else FALSE. Note that a null keyword string
2574 :     is acceptable if the I<$required> parameter is not specified.
2575 :    
2576 :     =back
2577 :    
2578 :     =cut
2579 :    
2580 :     sub ValidateKeywords {
2581 :     # Get the parameters.
2582 :     my ($self, $keywordString, $required) = @_;
2583 :     # Declare the return variable.
2584 :     my $retVal = 0;
2585 :     my @wordList = split /\s+/, $keywordString;
2586 :     # Right now our only real worry is a list of all minus words. The problem with it is that
2587 :     # it will return an incorrect result.
2588 :     my @plusWords = grep { $_ =~ /^[^\-]/ } @wordList;
2589 :     if (! @wordList) {
2590 :     if ($required) {
2591 :     $self->SetMessage("No search words specified.");
2592 : parrello 1.22 } else {
2593 :     $retVal = 1;
2594 : parrello 1.16 }
2595 :     } elsif (! @plusWords) {
2596 :     $self->SetMessage("At least one keyword must be positive. All the keywords entered are preceded by minus signs.");
2597 :     } else {
2598 :     $retVal = 1;
2599 :     }
2600 :     # Return the result.
2601 :     return $retVal;
2602 :     }
2603 :    
2604 : parrello 1.18 =head3 Formlet
2605 :    
2606 :     C<< my $html = SearchHelper::Formlet($caption, $url, $target, %parms); >>
2607 :    
2608 :     Create a mini-form that posts to the specified URL with the specified parameters. The
2609 :     parameters will be stored in hidden fields, and the form's only visible control will
2610 :     be a submit button with the specified caption.
2611 :    
2612 :     Note that we don't use B<CGI.pm> services here because they generate forms with extra characters
2613 :     and tags that we don't want to deal with.
2614 :    
2615 :     =over 4
2616 :    
2617 :     =item caption
2618 :    
2619 :     Caption to be put on the form button.
2620 :    
2621 :     =item url
2622 :    
2623 :     URL to be put in the form's action parameter.
2624 :    
2625 :     =item target
2626 :    
2627 :     Frame or target in which the form results should appear. If C<undef> is specified,
2628 :     the default target will be used.
2629 :    
2630 :     =item parms
2631 :    
2632 :     Hash containing the parameter names as keys and the parameter values as values.
2633 :    
2634 :     =back
2635 :    
2636 :     =cut
2637 :    
2638 :     sub Formlet {
2639 :     # Get the parameters.
2640 :     my ($caption, $url, $target, %parms) = @_;
2641 :     # Compute the target HTML.
2642 :     my $targetHtml = ($target ? " target=\"$target\"" : "");
2643 :     # Start the form.
2644 :     my $retVal = "<form method=\"POST\" action=\"$url\"$target>";
2645 :     # Add the parameters.
2646 :     for my $parm (keys %parms) {
2647 :     $retVal .= "<input type=\"hidden\" name=\"$parm\" value=\"$parms{$parm}\" />";
2648 :     }
2649 :     # Put in the button.
2650 :     $retVal .= "<input type=\"submit\" name=\"submit\" value=\"$caption\" class=\"button\" />";
2651 :     # Close the form.
2652 :     $retVal .= "</form>";
2653 :     # Return the result.
2654 :     return $retVal;
2655 :     }
2656 :    
2657 : parrello 1.4 =head2 Virtual Methods
2658 :    
2659 :     =head3 Form
2660 :    
2661 :     C<< my $html = $shelp->Form(); >>
2662 :    
2663 :     Generate the HTML for a form to request a new search.
2664 :    
2665 :     =head3 Find
2666 :    
2667 :     C<< my $resultCount = $shelp->Find(); >>
2668 :    
2669 :     Conduct a search based on the current CGI query parameters. The search results will
2670 :     be written to the session cache file and the number of results will be
2671 :     returned. If the search parameters are invalid, a result count of C<undef> will be
2672 :     returned and a result message will be stored in this object describing the problem.
2673 :    
2674 :     =head3 Description
2675 :    
2676 :     C<< my $htmlText = $shelp->Description(); >>
2677 :    
2678 :     Return a description of this search. The description is used for the table of contents
2679 :     on the main search tools page. It may contain HTML, but it should be character-level,
2680 :     not block-level, since the description is going to appear in a list.
2681 :    
2682 :     =head3 SortKey
2683 :    
2684 : parrello 1.11 C<< my $key = $shelp->SortKey($fdata); >>
2685 : parrello 1.4
2686 : parrello 1.11 Return the sort key for the specified feature data. The default is to sort by feature name,
2687 : parrello 1.10 floating NMPDR organisms to the top. If a full-text search is used, then the default
2688 :     sort is by relevance followed by feature name. This sort may be overridden by the
2689 :     search class to provide fancier functionality. This method is called by
2690 :     B<PutFeature>, so it is only used for feature searches. A non-feature search
2691 :     would presumably have its own sort logic.
2692 : parrello 1.4
2693 :     =over 4
2694 :    
2695 :     =item record
2696 :    
2697 : parrello 1.11 The C<FeatureData> containing the current feature.
2698 : parrello 1.4
2699 :     =item RETURN
2700 :    
2701 :     Returns a key field that can be used to sort this row in among the results.
2702 :    
2703 :     =back
2704 :    
2705 :     =cut
2706 :    
2707 :     sub SortKey {
2708 :     # Get the parameters.
2709 : parrello 1.11 my ($self, $fdata) = @_;
2710 : parrello 1.4 # Get the feature ID from the record.
2711 : parrello 1.11 my $fid = $fdata->FID();
2712 : parrello 1.4 # Get the group from the feature ID.
2713 :     my $group = $self->FeatureGroup($fid);
2714 :     # Ask the feature query object to form the sort key.
2715 : parrello 1.11 my $retVal = $fdata->SortKey($self, $group);
2716 : parrello 1.4 # Return the result.
2717 :     return $retVal;
2718 :     }
2719 : parrello 1.9
2720 : parrello 1.1 1;

MCS Webmaster
ViewVC Help
Powered by ViewVC 1.0.3