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revision 1.5, Tue Apr 5 05:17:01 2005 UTC revision 1.9, Thu Jun 16 19:08:59 2005 UTC
# Line 1  Line 1 
1  package ERDB;  package ERDB;
2    
3          use strict;          use strict;
         use Carp;  
4          use Tracer;          use Tracer;
5          use DBKernel;          use DBKernel;
6          use Data::Dumper;          use Data::Dumper;
# Line 33  Line 32 
32  relation that contains two fields-- the feature ID (C<id>) and the alias name (C<alias>).  relation that contains two fields-- the feature ID (C<id>) and the alias name (C<alias>).
33  The B<FEATURE> entity also contains an optional virulence number. This is implemented  The B<FEATURE> entity also contains an optional virulence number. This is implemented
34  as a separate relation C<FeatureVirulence> which contains an ID (C<id>) and a virulence number  as a separate relation C<FeatureVirulence> which contains an ID (C<id>) and a virulence number
35  (C<virulence>). If the virulence of a feature I<ABC> is known to be 6, there will be one row in the  (C<virulence>). If the virulence of a feature I<ABC> is known to be 6, there will be one row in
36  C<FeatureVirulence> relation possessing the value I<ABC> as its ID and 6 as its virulence number.  the C<FeatureVirulence> relation possessing the value I<ABC> as its ID and 6 as its virulence
37  If the virulence of I<ABC> is not known, there will not be any rows for it in C<FeatureVirulence>.  number. If the virulence of I<ABC> is not known, there will not be any rows for it in
38    C<FeatureVirulence>.
39    
40  Entities are connected by binary relationships implemented using single relations possessing the  Entities are connected by binary relationships implemented using single relations possessing the
41  same name as the relationship itself and that has an I<arity> of 1-to-1 (C<11>), 1-to-many (C<1M>),  same name as the relationship itself and that has an I<arity> of 1-to-1 (C<11>), 1-to-many (C<1M>),
# Line 70  Line 70 
70  is described in the L</GenerateEntity> and L</GenerateConnection> methods, though it is not yet  is described in the L</GenerateEntity> and L</GenerateConnection> methods, though it is not yet
71  fully implemented.  fully implemented.
72    
73    =head2 XML Database Description
74    
75    =head3 Data Types
76    
77    The ERDB system supports the following data types. Note that there are numerous string
78    types depending on the maximum length. Some database packages limit the total number of
79    characters you have in an index key; to insure the database works in all environments,
80    the type of string should be the shortest one possible that supports all the known values.
81    
82    =over 4
83    
84    =item char
85    
86    single ASCII character
87    
88    =item int
89    
90    32-bit signed integer
91    
92    =item date
93    
94    64-bit unsigned integer, representing a PERL date/time value
95    
96    =item text
97    
98    long string; Text fields cannot be used in indexes or sorting and do not support the
99    normal syntax of filter clauses, but can be up to a billion character in length
100    
101    =item float
102    
103    double-precision floating-point number
104    
105    =item boolean
106    
107    single-bit numeric value; The value is stored as a 16-bit signed integer (for
108    compatability with certain database packages), but the only values supported are
109    0 and 1.
110    
111    =item key-string
112    
113    variable-length string, maximum 40 characters
114    
115    =item name-string
116    
117    variable-length string, maximum 80 characters
118    
119    =item medium-string
120    
121    variable-length string, maximum 160 characters
122    
123    =item string
124    
125    variable-length string, maximum 255 characters
126    
127    =back
128    
129    =head3 Global Tags
130    
131    The entire database definition must be inside a B<Database> tag. The display name of
132    the database is given by the text associated with the B<Title> tag. The display name
133    is only used in the automated documentation. It has no other effect. The entities and
134    relationships are listed inside the B<Entities> and B<Relationships> tags,
135    respectively. None of these tags have attributes.
136    
137            <Database>
138                    <Title>... display title here...</Title>
139                    <Entities>
140                            ... entity definitions here ...
141                    </Entities>
142                    <Relationships>
143                            ... relationship definitions here...
144                    </Relationships>
145            </Database>
146    
147    Entities, relationships, indexes, and fields all allow a text tag called B<Notes>.
148    The text inside the B<Notes> tag contains comments that will appear when the database
149    documentation is generated. Within a B<Notes> tag, you may use C<[i]> and C<[/i]> for
150    italics, C<[b]> and C<[/b]> for bold, and C<[p]> for a new paragraph.
151    
152    =head3 Fields
153    
154    Both entities and relationships have fields described by B<Field> tags. A B<Field>
155    tag can have B<Notes> associated with it. The complete set of B<Field> tags for an
156    object mus be inside B<Fields> tags.
157    
158            <Entity ... >
159                    <Fields>
160                            ... Field tags ...
161                    </Fields>
162            </Entity>
163    
164    The attributes for the B<Field> tag are as follows.
165    
166    =over 4
167    
168    =item name
169    
170    Name of the field. The field name should contain only letters, digits, and hyphens (C<->),
171    and the first character should be a letter. Most underlying databases are case-insensitive
172    with the respect to field names, so a best practice is to use lower-case letters only.
173    
174    =item type
175    
176    Data type of the field. The legal data types are given above.
177    
178    =item relation
179    
180    Name of the relation containing the field. This should only be specified for entity
181    fields. The ERDB system does not support optional fields or multi-occurring fields
182    in the primary relation of an entity. Instead, they are put into secondary relations.
183    So, for example, in the C<Genome> entity, the C<group-name> field indicates a special
184    grouping used to select a subset of the genomes. A given genome may not be in any
185    groups or may be in multiple groups. Therefore, C<group-name> specifies a relation
186    value. The relation name specified must be a valid table name. By convention, it is
187    usually the entity name followed by a qualifying word (e.g. C<GenomeGroup>). In an
188    entity, the fields without a relation attribute are said to belong to the
189    I<primary relation>. This relation has the same name as the entity itself.
190    
191    =back
192    
193    =head3 Indexes
194    
195    An entity can have multiple alternate indexes associated with it. The fields must
196    be from the primary relation. The alternate indexes assist in ordering results
197    from a query. A relationship can have up to two indexes-- a I<to-index> and a
198    I<from-index>. These order the results when crossing the relationship. For
199    example, in the relationship C<HasContig> from C<Genome> to C<Contig>, the
200    from-index would order the contigs of a ganome, and the to-index would order
201    the genomes of a contig. A relationship's index must specify only fields in
202    the relationship.
203    
204    The indexes for an entity must be listed inside the B<Indexes> tag. The from-index
205    of a relationship is specified using the B<FromIndex> tag; the to-index is specified
206    using the B<ToIndex> tag.
207    
208    Each index can contain a B<Notes> tag. In addition, it will have an B<IndexFields>
209    tag containing the B<IndexField> tags. These specify, in order, the fields used in
210    the index. The attributes of an B<IndexField> tag are as follows.
211    
212    =over 4
213    
214    =item name
215    
216    Name of the field.
217    
218    =item order
219    
220    Sort order of the field-- C<ascending> or C<descending>.
221    
222    =back
223    
224    The B<Index>, B<FromIndex>, and B<ToIndex> tags themselves have no attributes.
225    
226    =head3 Object and Field Names
227    
228    By convention entity and relationship names use capital casing (e.g. C<Genome> or
229    C<HasRegionsIn>. Most underlying databases, however, are aggressively case-insensitive
230    with respect to relation names, converting them internally to all-upper case or
231    all-lower case.
232    
233    If syntax or parsing errors occur when you try to load or use an ERDB database, the
234    most likely reason is that one of your objects has an SQL reserved word as its name.
235    The list of SQL reserved words keeps increasing; however, most are unlikely to show
236    up as a noun or declarative verb phrase. The exceptions are C<Group>, C<User>,
237    C<Table>, C<Index>, C<Object>, C<Date>, C<Number>, C<Update>, C<Time>, C<Percent>,
238    C<Memo>, C<Order>, and C<Sum>. This problem can crop up in field names as well.
239    
240    Every entity has a field called C<id> that acts as its primary key. Every relationship
241    has fields called C<from-link> and C<to-link> that contain copies of the relevant
242    entity IDs. These are essentially ERDB's reserved words, and should not be used
243    for user-defined field names.
244    
245    =head3 Entities
246    
247    An entity is described by the B<Entity> tag. The entity can contain B<Notes>, an
248    B<Indexes> tag containing one or more secondary indexes, and a B<Fields> tag
249    containing one or more fields. The attributes of the B<Entity> tag are as follows.
250    
251    =over 4
252    
253    =item name
254    
255    Name of the entity. The entity name, by convention, uses capital casing (e.g. C<Genome>
256    or C<GroupBlock>) and should be a noun or noun phrase.
257    
258    =item keyType
259    
260    Data type of the primary key. The primary key is always named C<id>.
261    
262    =back
263    
264    =head3 Relationships
265    
266    A relationship is described by the C<Relationship> tag. Within a relationship,
267    there can be a C<Notes> tag, a C<Fields> tag containing the intersection data
268    fields, a C<FromIndex> tag containing the from-index, and a C<ToIndex> tag containing
269    the to-index.
270    
271    The C<Relationship> tag has the following attributes.
272    
273    =over 4
274    
275    =item name
276    
277    Name of the relationship. The relationship name, by convention, uses capital casing
278    (e.g. C<ContainsRegionIn> or C<HasContig>), and should be a declarative verb
279    phrase, designed to fit between the from-entity and the to-entity (e.g.
280    Block C<ContainsRegionIn> Genome).
281    
282    =item from
283    
284    Name of the entity from which the relationship starts.
285    
286    =item to
287    
288    Name of the entity to which the relationship proceeds.
289    
290    =item arity
291    
292    Relationship type: C<1M> for one-to-many and C<MM> for many-to-many.
293    
294    =back
295    
296  =cut  =cut
297    
298  # GLOBALS  # GLOBALS
# Line 140  Line 363 
363                                   _metaData => $metaData                                   _metaData => $metaData
364                             };                             };
365          # Bless and return it.          # Bless and return it.
366          bless $self;          bless $self, $class;
367          return $self;          return $self;
368  }  }
369    
# Line 278  Line 501 
501          print HTMLOUT _OpenTable("Join Table", "Source", "Target", "Join Condition");          print HTMLOUT _OpenTable("Join Table", "Source", "Target", "Join Condition");
502          # Loop through the joins.          # Loop through the joins.
503          my $joinTable = $metadata->{Joins};          my $joinTable = $metadata->{Joins};
504          for my $joinKey (sort keys %{$joinTable}) {          my @joinKeys = keys %{$joinTable};
505            for my $joinKey (sort @joinKeys) {
506                  # Separate out the source, the target, and the join clause.                  # Separate out the source, the target, and the join clause.
507                  $joinKey =~ m!([^/]*)/(.*)$!;                  $joinKey =~ m!^([^/]+)/(.+)$!;
508                  my ($source, $target, $clause) = ($self->ComputeObjectSentence($1),                  my ($sourceRelation, $targetRelation) = ($1, $2);
509                                                                                    $self->ComputeObjectSentence($2),                  Trace("Join with key $joinKey is from $sourceRelation to $targetRelation.") if T(4);
510                                                                                    $joinTable->{$joinKey});                  my $source = $self->ComputeObjectSentence($sourceRelation);
511                    my $target = $self->ComputeObjectSentence($targetRelation);
512                    my $clause = $joinTable->{$joinKey};
513                  # Display them in a table row.                  # Display them in a table row.
514                  print HTMLOUT "<tr><td>$source</td><td>$target</td><td>$clause</td></tr>\n";                  print HTMLOUT "<tr><td>$source</td><td>$target</td><td>$clause</td></tr>\n";
515          }          }
# Line 328  Line 554 
554          my $metadata = $self->{_metaData};          my $metadata = $self->{_metaData};
555          my $dbh = $self->{_dbh};          my $dbh = $self->{_dbh};
556          # Loop through the entities.          # Loop through the entities.
557          while (my ($entityName, $entityData) = each %{$metadata->{Entities}}) {          my $entityHash = $metadata->{Entities};
558            for my $entityName (keys %{$entityHash}) {
559                    my $entityData = $entityHash->{$entityName};
560                  # Tell the user what we're doing.                  # Tell the user what we're doing.
561                  Trace("Creating relations for entity $entityName.") if T(1);                  Trace("Creating relations for entity $entityName.") if T(1);
562                  # Loop through the entity's relations.                  # Loop through the entity's relations.
# Line 423  Line 651 
651          # Get the database handle.          # Get the database handle.
652          my $dbh = $self->{_dbh};          my $dbh = $self->{_dbh};
653          # Now we need to create this relation's indexes. We do this by looping through its index table.          # Now we need to create this relation's indexes. We do this by looping through its index table.
654          while (my ($indexName, $indexData) = each %{$relationData->{Indexes}}) {          my $indexHash = $relationData->{Indexes};
655            for my $indexName (keys %{$indexHash}) {
656                    my $indexData = $indexHash->{$indexName};
657                  # Get the index's field list.                  # Get the index's field list.
658                  my @fieldList = _FixNames(@{$indexData->{IndexFields}});                  my @fieldList = _FixNames(@{$indexData->{IndexFields}});
659                  my $flds = join(', ', @fieldList);                  my $flds = join(', ', @fieldList);
# Line 739  Line 969 
969          return $retVal;          return $retVal;
970  }  }
971    
972    =head3 GetList
973    
974    C<< my @dbObjects = $database->GetList(\@objectNames, $filterClause, $param1, $param2, ..., $paramN); >>
975    
976    Return a list of object descriptors for the specified objects as determined by the
977    specified filter clause.
978    
979    This method is essentially the same as L</Get> except it returns a list of objects rather
980    than a query object that can be used to get the results one record at a time.
981    
982    =over 4
983    
984    =item objectNames
985    
986    List containing the names of the entity and relationship objects to be retrieved.
987    
988    =item filterClause
989    
990    WHERE clause (without the WHERE) to be used to filter and sort the query. The WHERE clause can
991    be parameterized with parameter markers (C<?>). Each field used in the WHERE clause must be
992    specified in the standard form B<I<objectName>(I<fieldName>)>. Any parameters specified
993    in the filter clause should be added to the parameter list as additional parameters. The
994    fields in a filter clause can come from primary entity relations, relationship relations,
995    or secondary entity relations; however, all of the entities and relationships involved must
996    be included in the list of object names.
997    
998    The filter clause can also specify a sort order. To do this, simply follow the filter string
999    with an ORDER BY clause. For example, the following filter string gets all genomes for a
1000    particular genus and sorts them by species name.
1001    
1002    C<< "Genome(genus) = ? ORDER BY Genome(species)" >>
1003    
1004    The rules for field references in a sort order are the same as those for field references in the
1005    filter clause in general; however, odd things may happen if a sort field is from a secondary
1006    relation.
1007    
1008    =item param1, param2, ..., paramN
1009    
1010    Parameter values to be substituted into the filter clause.
1011    
1012    =item RETURN
1013    
1014    Returns a list of B<DBObject>s that satisfy the query conditions.
1015    
1016    =back
1017    
1018    =cut
1019    #: Return Type @%
1020    sub GetList {
1021        # Get the parameters.
1022        my ($self, $objectNames, $filterClause, @params) = @_;
1023            # Declare the return variable.
1024            my @retVal = ();
1025            # Perform the query.
1026            my $query = $self->Get($objectNames, $filterClause, @params);
1027            # Loop through the results.
1028            while (my $object = $query->Fetch) {
1029                    push @retVal, $object;
1030            }
1031        # Return the result.
1032        return @retVal;
1033    }
1034    
1035  =head3 ComputeObjectSentence  =head3 ComputeObjectSentence
1036    
1037  C<< my $sentence = $database->ComputeObjectSentence($objectName); >>  C<< my $sentence = $database->ComputeObjectSentence($objectName); >>
# Line 797  Line 1090 
1090          # Now we need to run through all the relations. First, we loop through the entities.          # Now we need to run through all the relations. First, we loop through the entities.
1091          my $metaData = $self->{_metaData};          my $metaData = $self->{_metaData};
1092          my $entities = $metaData->{Entities};          my $entities = $metaData->{Entities};
1093          while (my ($entityName, $entityStructure) = each %{$entities}) {          for my $entityName (keys %{$entities}) {
1094                    my $entityStructure = $entities->{$entityName};
1095                  # Get the entity's relations.                  # Get the entity's relations.
1096                  my $relationList = $entityStructure->{Relations};                  my $relationList = $entityStructure->{Relations};
1097                  # Loop through the relations, dumping them.                  # Loop through the relations, dumping them.
1098                  while (my ($relationName, $relation) = each %{$relationList}) {                  for my $relationName (keys %{$relationList}) {
1099                            my $relation = $relationList->{$relationName};
1100                          $self->_DumpRelation($outputDirectory, $relationName, $relation);                          $self->_DumpRelation($outputDirectory, $relationName, $relation);
1101                  }                  }
1102          }          }
1103          # Next, we loop through the relationships.          # Next, we loop through the relationships.
1104          my $relationships = $metaData->{Relationships};          my $relationships = $metaData->{Relationships};
1105          while (my ($relationshipName, $relationshipStructure) = each %{$relationships}) {          for my $relationshipName (keys %{$relationships}) {
1106                    my $relationshipStructure = $relationships->{$relationshipName};
1107                  # Dump this relationship's relation.                  # Dump this relationship's relation.
1108                  $self->_DumpRelation($outputDirectory, $relationshipName, $relationshipStructure->{Relations}->{$relationshipName});                  $self->_DumpRelation($outputDirectory, $relationshipName, $relationshipStructure->{Relations}->{$relationshipName});
1109          }          }
# Line 861  Line 1157 
1157          # Loop through the relations. We'll build insert statements for each one. If a relation is          # Loop through the relations. We'll build insert statements for each one. If a relation is
1158          # secondary, we may end up generating multiple insert statements. If an error occurs, we          # secondary, we may end up generating multiple insert statements. If an error occurs, we
1159          # stop the loop.          # stop the loop.
1160          while ($retVal && (my ($relationName, $relationDefinition) = each %{$relationTable})) {          my @relationList = keys %{$relationTable};
1161            for (my $i = 0; $retVal && $i <= $#relationList; $i++) {
1162                    my $relationName = $relationList[$i];
1163                    my $relationDefinition = $relationTable->{$relationName};
1164                  # Get the relation's fields. For each field we will collect a value in the corresponding                  # Get the relation's fields. For each field we will collect a value in the corresponding
1165                  # position of the @valueList array. If one of the fields is missing, we will add it to the                  # position of the @valueList array. If one of the fields is missing, we will add it to the
1166                  # @missing list.                  # @missing list.
# Line 953  Line 1252 
1252    
1253  C<< my %results = $database->LoadTable($fileName, $relationName, $truncateFlag); >>  C<< my %results = $database->LoadTable($fileName, $relationName, $truncateFlag); >>
1254    
1255  Load data from a tab-delimited file into a specified table, optionally re-creating the table first.  Load data from a tab-delimited file into a specified table, optionally re-creating the table
1256    first.
1257    
1258  =over 4  =over 4
1259    
# Line 971  Line 1271 
1271    
1272  =item RETURN  =item RETURN
1273    
1274  Returns a statistical object containing the number of records read and a list of the error messages.  Returns a statistical object containing the number of records read and a list of
1275    the error messages.
1276    
1277  =back  =back
1278    
# Line 999  Line 1300 
1300          # Get the number of fields in this relation.          # Get the number of fields in this relation.
1301          my @fieldList = @{$relation->{Fields}};          my @fieldList = @{$relation->{Fields}};
1302          my $fieldCount = @fieldList;          my $fieldCount = @fieldList;
         # Record the number of expected fields.  
         my $expectedFields = $fieldCount + ($primary ? 1 : 0);  
1303          # Start a database transaction.          # Start a database transaction.
1304          $dbh->begin_tran;          $dbh->begin_tran;
1305          # Open the relation file. We need to create a cleaned-up copy before loading.          # Open the relation file. We need to create a cleaned-up copy before loading.
1306          open TABLEIN, '<', $fileName;          open TABLEIN, '<', $fileName;
1307          my $tempName = "$fileName.tbl";          my $tempName = "$fileName.tbl";
1308          open TABLEOUT, '>', $tempName;          open TABLEOUT, '>', $tempName;
1309            my $inputCount = 0;
1310          # Loop through the file.          # Loop through the file.
1311          while (<TABLEIN>) {          while (<TABLEIN>) {
1312                    $inputCount++;
1313                  # Chop off the new-line character.                  # Chop off the new-line character.
1314                  my $record = $_;                  my $record = Tracer::Strip($_);
                 chomp $record;  
1315          # Only proceed if the record is non-blank.          # Only proceed if the record is non-blank.
1316          if ($record) {          if ($record) {
1317              # Escape all the backslashes found in the line.              # Escape all the backslashes found in the line.
1318              $record =~ s/\\/\\\\/g;              $record =~ s/\\/\\\\/g;
1319              # Eliminate any trailing tabs.                          # Insure the number of fields is correct.
1320              chop $record while substr($record, -1) eq "\t";                          my @fields = split /\t/, $record;
1321                            while (@fields > $fieldCount) {
1322                                    my $extraField = $fields[$#fields];
1323                                    delete $fields[$#fields];
1324                                    if ($extraField) {
1325                                            Trace("Nonblank extra field value \"$extraField\" deleted from record $inputCount of $fileName.") if T(1);
1326                                    }
1327                            }
1328                            while (@fields < $fieldCount) {
1329                                    push @fields, "";
1330                            }
1331              # If this is a primary relation, add a 0 for the new-record flag (indicating that              # If this is a primary relation, add a 0 for the new-record flag (indicating that
1332              # this record is not new, but part of the original load).              # this record is not new, but part of the original load).
1333              if ($primary) {              if ($primary) {
1334                  $record .= "\t0";                  push @fields, "0";
1335              }              }
1336              # Write the record.              # Write the record.
1337                            $record = join "\t", @fields;
1338              print TABLEOUT "$record\n";              print TABLEOUT "$record\n";
1339              # Count the record read.              # Count the record written.
1340              my $count = $retVal->Add('records');              my $count = $retVal->Add('records');
1341              my $len = length $record;              my $len = length $record;
1342              Trace("Record $count written with $len characters.") if T(4);              Trace("Record $count written with $len characters.") if T(4);
1343            } else {
1344                            # Here we have a blank record.
1345                            $retVal->Add('skipped');
1346          }          }
1347          }          }
1348          # Close the files.          # Close the files.
# Line 1123  Line 1437 
1437          return $this;          return $this;
1438  }  }
1439    
1440    =head3 GetEntity
1441    
1442    C<< my $entityObject = $sprout->GetEntity($entityType, $ID); >>
1443    
1444    Return an object describing the entity instance with a specified ID.
1445    
1446    =over 4
1447    
1448    =item entityType
1449    
1450    Entity type name.
1451    
1452    =item ID
1453    
1454    ID of the desired entity.
1455    
1456    =item RETURN
1457    
1458    Returns a B<DBObject> representing the desired entity instance, or an undefined value if no
1459    instance is found with the specified key.
1460    
1461    =back
1462    
1463    =cut
1464    
1465    sub GetEntity {
1466            # Get the parameters.
1467            my ($self, $entityType, $ID) = @_;
1468            # Create a query.
1469            my $query = $self->Get([$entityType], "$entityType(id) = ?", $ID);
1470            # Get the first (and only) object.
1471            my $retVal = $query->Fetch();
1472            # Return the result.
1473            return $retVal;
1474    }
1475    
1476    =head3 GetEntityValues
1477    
1478    C<< my @values = GetEntityValues($entityType, $ID, \@fields); >>
1479    
1480    Return a list of values from a specified entity instance.
1481    
1482    =over 4
1483    
1484    =item entityType
1485    
1486    Entity type name.
1487    
1488    =item ID
1489    
1490    ID of the desired entity.
1491    
1492    =item fields
1493    
1494    List of field names, each of the form I<objectName>C<(>I<fieldName>C<)>.
1495    
1496    =item RETURN
1497    
1498    Returns a flattened list of the values of the specified fields for the specified entity.
1499    
1500    =back
1501    
1502    =cut
1503    
1504    sub GetEntityValues {
1505            # Get the parameters.
1506            my ($self, $entityType, $ID, $fields) = @_;
1507            # Get the specified entity.
1508            my $entity = $self->GetEntity($entityType, $ID);
1509            # Declare the return list.
1510            my @retVal = ();
1511            # If we found the entity, push the values into the return list.
1512            if ($entity) {
1513                    push @retVal, $entity->Values($fields);
1514            }
1515            # Return the result.
1516            return @retVal;
1517    }
1518    
1519    =head3 GetAll
1520    
1521    C<< my @list = $sprout->GetAll(\@objectNames, $filterClause, \@parameters, \@fields, $count); >>
1522    
1523    Return a list of values taken from the objects returned by a query. The first three
1524    parameters correspond to the parameters of the L</Get> method. The final parameter is
1525    a list of the fields desired from each record found by the query. The field name
1526    syntax is the standard syntax used for fields in the B<ERDB> system--
1527    B<I<objectName>(I<fieldName>)>-- where I<objectName> is the name of the relevant entity
1528    or relationship and I<fieldName> is the name of the field.
1529    
1530    The list returned will be a list of lists. Each element of the list will contain
1531    the values returned for the fields specified in the fourth parameter. If one of the
1532    fields specified returns multiple values, they are flattened in with the rest. For
1533    example, the following call will return a list of the features in a particular
1534    spreadsheet cell, and each feature will be represented by a list containing the
1535    feature ID followed by all of its aliases.
1536    
1537    C<< $query = $sprout->Get(['ContainsFeature', 'Feature'], "ContainsFeature(from-link) = ?", [$ssCellID], ['Feature(id)', 'Feature(alias)']); >>
1538    
1539    =over 4
1540    
1541    =item objectNames
1542    
1543    List containing the names of the entity and relationship objects to be retrieved.
1544    
1545    =item filterClause
1546    
1547    WHERE/ORDER BY clause (without the WHERE) to be used to filter and sort the query. The WHERE clause can
1548    be parameterized with parameter markers (C<?>). Each field used must be specified in the standard form
1549    B<I<objectName>(I<fieldName>)>. Any parameters specified in the filter clause should be added to the
1550    parameter list as additional parameters. The fields in a filter clause can come from primary
1551    entity relations, relationship relations, or secondary entity relations; however, all of the
1552    entities and relationships involved must be included in the list of object names.
1553    
1554    =item parameterList
1555    
1556    List of the parameters to be substituted in for the parameters marks in the filter clause.
1557    
1558    =item fields
1559    
1560    List of the fields to be returned in each element of the list returned.
1561    
1562    =item count
1563    
1564    Maximum number of records to return. If omitted or 0, all available records will be returned.
1565    
1566    =item RETURN
1567    
1568    Returns a list of list references. Each element of the return list contains the values for the
1569    fields specified in the B<fields> parameter.
1570    
1571    =back
1572    
1573    =cut
1574    #: Return Type @@;
1575    sub GetAll {
1576            # Get the parameters.
1577            my ($self, $objectNames, $filterClause, $parameterList, $fields, $count) = @_;
1578            # Translate the parameters from a list reference to a list. If the parameter
1579            # list is a scalar we convert it into a singleton list.
1580            my @parmList = ();
1581            if (ref $parameterList eq "ARRAY") {
1582                    @parmList = @{$parameterList};
1583            } else {
1584                    push @parmList, $parameterList;
1585            }
1586            # Create the query.
1587            my $query = $self->Get($objectNames, $filterClause, @parmList);
1588            # Set up a counter of the number of records read.
1589            my $fetched = 0;
1590            # Insure the counter has a value.
1591            if (!defined $count) {
1592                    $count = 0;
1593            }
1594            # Loop through the records returned, extracting the fields. Note that if the
1595            # counter is non-zero, we stop when the number of records read hits the count.
1596            my @retVal = ();
1597            while (($count == 0 || $fetched < $count) && (my $row = $query->Fetch())) {
1598                    my @rowData = $row->Values($fields);
1599                    push @retVal, \@rowData;
1600                    $fetched++;
1601            }
1602            # Return the resulting list.
1603            return @retVal;
1604    }
1605    
1606  =head2 Internal Utility Methods  =head2 Internal Utility Methods
1607    
# Line 1523  Line 2002 
2002          my %masterRelationTable = ();          my %masterRelationTable = ();
2003          # Loop through the entities.          # Loop through the entities.
2004          my $entityList = $metadata->{Entities};          my $entityList = $metadata->{Entities};
2005          while (my ($entityName, $entityStructure) = each %{$entityList}) {          for my $entityName (keys %{$entityList}) {
2006                    my $entityStructure = $entityList->{$entityName};
2007                  #                  #
2008                  # The first step is to run creating all the entity's default values. For C<Field> elements,                  # The first step is to run creating all the entity's default values. For C<Field> elements,
2009                  # the relation name must be added where it is not specified. For relationships,                  # the relation name must be added where it is not specified. For relationships,
# Line 1571  Line 2051 
2051                  # to a list of fields. First, we need the ID field itself.                  # to a list of fields. First, we need the ID field itself.
2052                  my $idField = $fieldList->{id};                  my $idField = $fieldList->{id};
2053                  # Loop through the relations.                  # Loop through the relations.
2054                  while (my ($relationName, $relation) = each %{$relationTable}) {                  for my $relationName (keys %{$relationTable}) {
2055                            my $relation = $relationTable->{$relationName};
2056                          # Get the relation's field list.                          # Get the relation's field list.
2057                          my $relationFieldList = $relation->{Fields};                          my $relationFieldList = $relation->{Fields};
2058                          # Add the ID field to it. If the field's already there, it will not make any                          # Add the ID field to it. If the field's already there, it will not make any
# Line 1621  Line 2102 
2102                  # The next step is to insure that each relation has at least one index that begins with the ID field.                  # The next step is to insure that each relation has at least one index that begins with the ID field.
2103                  # After that, we convert each relation's index list to an index table. We first need to loop through                  # After that, we convert each relation's index list to an index table. We first need to loop through
2104                  # the relations.                  # the relations.
2105                  while (my ($relationName, $relation) = each %{$relationTable}) {                  for my $relationName (keys %{$relationTable}) {
2106                            my $relation = $relationTable->{$relationName};
2107                          # Get the relation's index list.                          # Get the relation's index list.
2108                          my $indexList = $relation->{Indexes};                          my $indexList = $relation->{Indexes};
2109                          # Insure this relation has an ID index.                          # Insure this relation has an ID index.
# Line 1652  Line 2134 
2134          # Loop through the relationships. Relationships actually turn out to be much simpler than entities.          # Loop through the relationships. Relationships actually turn out to be much simpler than entities.
2135          # For one thing, there is only a single constituent relation.          # For one thing, there is only a single constituent relation.
2136          my $relationshipList = $metadata->{Relationships};          my $relationshipList = $metadata->{Relationships};
2137          while (my ($relationshipName, $relationshipStructure) = each %{$relationshipList}) {          for my $relationshipName (keys %{$relationshipList}) {
2138                    my $relationshipStructure = $relationshipList->{$relationshipName};
2139                  # Fix up this relationship.                  # Fix up this relationship.
2140                  _FixupFields($relationshipStructure, $relationshipName, 2, 3);                  _FixupFields($relationshipStructure, $relationshipName, 2, 3);
2141                  # Format a description for the FROM field.                  # Format a description for the FROM field.
# Line 1701  Line 2184 
2184                  my @fromList = ();                  my @fromList = ();
2185                  my @toList = ();                  my @toList = ();
2186                  my @bothList = ();                  my @bothList = ();
2187                  while (my ($relationshipName, $relationship) = each %{$relationshipList}) {                  Trace("Join table build for $entityName.") if T(3);
2188                    for my $relationshipName (keys %{$relationshipList}) {
2189                            my $relationship = $relationshipList->{$relationshipName};
2190                          # Determine if this relationship has our entity in one of its link fields.                          # Determine if this relationship has our entity in one of its link fields.
2191                          if ($relationship->{from} eq $entityName) {                          my $fromEntity = $relationship->{from};
2192                                  if ($relationship->{to} eq $entityName) {                          my $toEntity = $relationship->{to};
2193                            Trace("Join check for relationship $relationshipName from $fromEntity to $toEntity.") if T(3);
2194                            if ($fromEntity eq $entityName) {
2195                                    if ($toEntity eq $entityName) {
2196                                          # Here the relationship is recursive.                                          # Here the relationship is recursive.
2197                                          push @bothList, $relationshipName;                                          push @bothList, $relationshipName;
2198                                            Trace("Relationship $relationshipName put in both-list.") if T(3);
2199                                  } else {                                  } else {
2200                                          # Here the relationship comes from the entity.                                          # Here the relationship comes from the entity.
2201                                          push @fromList, $relationshipName;                                          push @fromList, $relationshipName;
2202                                            Trace("Relationship $relationshipName put in from-list.") if T(3);
2203                                  }                                  }
2204                          } elsif ($relationship->{to} eq $entityName) {                          } elsif ($toEntity eq $entityName) {
2205                                  # Here the relationship goes to the entity.                                  # Here the relationship goes to the entity.
2206                                  push @toList, $relationshipName;                                  push @toList, $relationshipName;
2207                                    Trace("Relationship $relationshipName put in to-list.") if T(3);
2208                          }                          }
2209                  }                  }
2210                  # Create the nonrecursive joins. Note that we build two hashes for running                  # Create the nonrecursive joins. Note that we build two hashes for running
# Line 1722  Line 2213 
2213                  # hash table at the same time.                  # hash table at the same time.
2214                  my %directRelationships = ( from => \@fromList, to => \@toList );                  my %directRelationships = ( from => \@fromList, to => \@toList );
2215                  my %otherRelationships = ( from => \@fromList, to => \@toList );                  my %otherRelationships = ( from => \@fromList, to => \@toList );
2216                  while (my ($linkType, $relationships) = each %directRelationships) {                  for my $linkType (keys %directRelationships) {
2217                            my $relationships = $directRelationships{$linkType};
2218                          # Loop through all the relationships.                          # Loop through all the relationships.
2219                          for my $relationshipName (@{$relationships}) {                          for my $relationshipName (@{$relationships}) {
2220                                  # Create joins between the entity and this relationship.                                  # Create joins between the entity and this relationship.
2221                                  my $linkField = "$relationshipName.${linkType}_link";                                  my $linkField = "$relationshipName.${linkType}_link";
2222                                  my $joinClause = "$entityName.id = $linkField";                                  my $joinClause = "$entityName.id = $linkField";
2223                                    Trace("Entity join clause is $joinClause for $entityName and $relationshipName.") if T(4);
2224                                  $joinTable{"$entityName/$relationshipName"} = $joinClause;                                  $joinTable{"$entityName/$relationshipName"} = $joinClause;
2225                                  $joinTable{"$relationshipName/$entityName"} = $joinClause;                                  $joinTable{"$relationshipName/$entityName"} = $joinClause;
2226                                  # Create joins between this relationship and the other relationships.                                  # Create joins between this relationship and the other relationships.
2227                                  while (my ($otherType, $otherships) = each %otherRelationships) {                                  for my $otherType (keys %otherRelationships) {
2228                                            my $otherships = $otherRelationships{$otherType};
2229                                          for my $otherName (@{$otherships}) {                                          for my $otherName (@{$otherships}) {
2230                                                  # Get the key for this join.                                                  # Get the key for this join.
2231                                                  my $joinKey = "$otherName/$relationshipName";                                                  my $joinKey = "$otherName/$relationshipName";
# Line 1741  Line 2235 
2235                                                          # path is ambiguous. We delete the join from the join                                                          # path is ambiguous. We delete the join from the join
2236                                                          # table to prevent it from being used.                                                          # table to prevent it from being used.
2237                                                          delete $joinTable{$joinKey};                                                          delete $joinTable{$joinKey};
2238                                                            Trace("Deleting ambiguous join $joinKey.") if T(4);
2239                                                  } elsif ($otherName ne $relationshipName) {                                                  } elsif ($otherName ne $relationshipName) {
2240                                                          # Here we have a valid join. Note that joins between a                                                          # Here we have a valid join. Note that joins between a
2241                                                          # relationship and itself are prohibited.                                                          # relationship and itself are prohibited.
2242                                                          $joinTable{$joinKey} = "$otherName.${otherType}_link = $linkField";                                                          my $relJoinClause = "$otherName.${otherType}_link = $linkField";
2243                                                            $joinTable{$joinKey} = $relJoinClause;
2244                                                            Trace("Relationship join clause is $relJoinClause for $joinKey.") if T(4);
2245                                                  }                                                  }
2246                                          }                                          }
2247                                  }                                  }
# Line 1753  Line 2250 
2250                                  # relationship can only be ambiguous with another recursive relationship,                                  # relationship can only be ambiguous with another recursive relationship,
2251                                  # and the incoming relationship from the outer loop is never recursive.                                  # and the incoming relationship from the outer loop is never recursive.
2252                                  for my $otherName (@bothList) {                                  for my $otherName (@bothList) {
2253                                            Trace("Setting up relationship joins to recursive relationship $otherName with $relationshipName.") if T(3);
2254                                          # Join from the left.                                          # Join from the left.
2255                                          $joinTable{"$relationshipName/$otherName"} =                                          $joinTable{"$relationshipName/$otherName"} =
2256                                                  "$linkField = $otherName.from_link";                                                  "$linkField = $otherName.from_link";
# Line 1767  Line 2265 
2265                  # rise to situations where we can't create the path we want; however, it is always                  # rise to situations where we can't create the path we want; however, it is always
2266                  # possible to get the same effect using multiple queries.                  # possible to get the same effect using multiple queries.
2267                  for my $relationshipName (@bothList) {                  for my $relationshipName (@bothList) {
2268                            Trace("Setting up entity joins to recursive relationship $relationshipName with $entityName.") if T(3);
2269                          # Join to the entity from each direction.                          # Join to the entity from each direction.
2270                          $joinTable{"$entityName/$relationshipName"} =                          $joinTable{"$entityName/$relationshipName"} =
2271                                  "$entityName.id = $relationshipName.from_link";                                  "$entityName.id = $relationshipName.from_link";
# Line 1906  Line 2405 
2405                  $structure->{Fields} = { };                  $structure->{Fields} = { };
2406          } else {          } else {
2407                  # Here we have a field list. Loop through its fields.                  # Here we have a field list. Loop through its fields.
2408                  while (my ($fieldName, $fieldData) = each %{$structure->{Fields}}) {                  my $fieldStructures = $structure->{Fields};
2409                    for my $fieldName (keys %{$fieldStructures}) {
2410                Trace("Processing field $fieldName of $defaultRelationName.") if T(4);
2411                            my $fieldData = $fieldStructures->{$fieldName};
2412                          # Get the field type.                          # Get the field type.
2413                          my $type = $fieldData->{type};                          my $type = $fieldData->{type};
2414                          # Plug in a relation name if it is needed.                          # Plug in a relation name if it is needed.

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