QGIS API Documentation 3.41.0-Master (45a0abf3bec)
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qgsexpressionnodeimpl.h
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1/***************************************************************************
2 qgsexpressionnodeimpl.h
3 -------------------
4 begin : May 2017
5 copyright : (C) 2017 Matthias Kuhn
6 email : matthias@opengis.ch
7 ***************************************************************************
8 * *
9 * This program is free software; you can redistribute it and/or modify *
10 * it under the terms of the GNU General Public License as published by *
11 * the Free Software Foundation; either version 2 of the License, or *
12 * (at your option) any later version. *
13 * *
14 ***************************************************************************/
15
16
17#ifndef QGSEXPRESSIONNODEIMPL_H
18#define QGSEXPRESSIONNODEIMPL_H
19
20#include "qgsexpressionnode.h"
21#include "qgsinterval.h"
22
28{
29 public:
30
40
48 ~QgsExpressionNodeUnaryOperator() override { delete mOperand; }
49
50#ifdef SIP_RUN
51 SIP_PYOBJECT __repr__();
52 % MethodCode
53 QString str = QStringLiteral( "<QgsExpressionNodeUnaryOperator: %1>" ).arg( sipCpp->text() );
54 sipRes = PyUnicode_FromString( str.toUtf8().constData() );
55 % End
56#endif
57
62
66 QgsExpressionNode *operand() const { return mOperand; }
67
69 bool prepareNode( QgsExpression *parent, const QgsExpressionContext *context ) override;
70 QVariant evalNode( QgsExpression *parent, const QgsExpressionContext *context ) override;
71 QString dump() const override;
72
73 QSet<QString> referencedColumns() const override;
74 QSet<QString> referencedVariables() const override;
75 QSet<QString> referencedFunctions() const override;
76 QList<const QgsExpressionNode *> nodes() const override; SIP_SKIP
77 bool needsGeometry() const override;
78 QgsExpressionNode *clone() const override SIP_FACTORY;
79
80 bool isStatic( QgsExpression *parent, const QgsExpressionContext *context ) const override;
81
86 QString text() const;
87
88 private:
89 UnaryOperator mOp;
90 QgsExpressionNode *mOperand = nullptr;
91
92 static const char *UNARY_OPERATOR_TEXT[];
93};
94
100{
101 public:
102
140
145 : mOp( op )
146 , mOpLeft( opLeft )
147 , mOpRight( opRight )
148 {}
149 ~QgsExpressionNodeBinaryOperator() override { delete mOpLeft; delete mOpRight; }
150
151#ifdef SIP_RUN
152 SIP_PYOBJECT __repr__();
153 % MethodCode
154 QString str = QStringLiteral( "<QgsExpressionNodeBinaryOperator: %1>" ).arg( sipCpp->text() );
155 sipRes = PyUnicode_FromString( str.toUtf8().constData() );
156 % End
157#endif
158
163
168 QgsExpressionNode *opLeft() const { return mOpLeft; }
169
174 QgsExpressionNode *opRight() const { return mOpRight; }
175
176 QgsExpressionNode::NodeType nodeType() const override;
177 bool prepareNode( QgsExpression *parent, const QgsExpressionContext *context ) override;
178 QVariant evalNode( QgsExpression *parent, const QgsExpressionContext *context ) override;
179 QString dump() const override;
180
181 QSet<QString> referencedColumns() const override;
182 QSet<QString> referencedVariables() const override;
183 QSet<QString> referencedFunctions() const override;
184 QList<const QgsExpressionNode *> nodes( ) const override; SIP_SKIP
185
186 bool needsGeometry() const override;
187 QgsExpressionNode *clone() const override SIP_FACTORY;
188 bool isStatic( QgsExpression *parent, const QgsExpressionContext *context ) const override;
189
193 int precedence() const;
194
198 bool leftAssociative() const;
199
204 QString text() const;
205
206 private:
207 bool compare( double diff );
208 qlonglong computeInt( qlonglong x, qlonglong y );
209 double computeDouble( double x, double y );
210
216 QDateTime computeDateTimeFromInterval( const QDateTime &d, QgsInterval *i );
217
218 BinaryOperator mOp;
219 QgsExpressionNode *mOpLeft = nullptr;
220 QgsExpressionNode *mOpRight = nullptr;
221
222 static const char *BINARY_OPERATOR_TEXT[];
223};
224
231{
232 public:
233
238 : mContainer( container )
239 , mIndex( index )
240 {}
241 ~QgsExpressionNodeIndexOperator() override { delete mContainer; delete mIndex; }
242
247 QgsExpressionNode *container() const { return mContainer; }
248
253 QgsExpressionNode *index() const { return mIndex; }
254
255 QgsExpressionNode::NodeType nodeType() const override;
256 bool prepareNode( QgsExpression *parent, const QgsExpressionContext *context ) override;
257 QVariant evalNode( QgsExpression *parent, const QgsExpressionContext *context ) override;
258 QString dump() const override;
259
260 QSet<QString> referencedColumns() const override;
261 QSet<QString> referencedVariables() const override;
262 QSet<QString> referencedFunctions() const override;
263 QList<const QgsExpressionNode *> nodes( ) const override; SIP_SKIP
264
265 bool needsGeometry() const override;
266 QgsExpressionNode *clone() const override SIP_FACTORY;
267 bool isStatic( QgsExpression *parent, const QgsExpressionContext *context ) const override;
268
269 private:
270
271 QgsExpressionNode *mContainer = nullptr;
272 QgsExpressionNode *mIndex = nullptr;
273
274};
275
282{
283 public:
284
289 : mNode( node )
290 , mLowerBound( nodeLowerBound )
291 , mHigherBound( nodeHigherBound )
292 , mNegate( negate )
293 {}
294
296
300 QgsExpressionNode *node() const { return mNode; }
301
302
303 QgsExpressionNode::NodeType nodeType() const override;
304 bool prepareNode( QgsExpression *parent, const QgsExpressionContext *context ) override;
305 QVariant evalNode( QgsExpression *parent, const QgsExpressionContext *context ) override;
306 QString dump() const override;
307
308 QSet<QString> referencedColumns() const override;
309 QSet<QString> referencedVariables() const override;
310 QSet<QString> referencedFunctions() const override;
311 QList<const QgsExpressionNode *> nodes() const override; SIP_SKIP
312 bool needsGeometry() const override;
313 QgsExpressionNode *clone() const override SIP_FACTORY;
314 bool isStatic( QgsExpression *parent, const QgsExpressionContext *context ) const override;
315
319 QgsExpressionNode *lowerBound() const;
320
324 QgsExpressionNode *higherBound() const;
325
329 bool negate() const;
330
331 private:
332 QgsExpressionNode *mNode = nullptr;
333 QgsExpressionNode *mLowerBound = nullptr;
334 QgsExpressionNode *mHigherBound = nullptr;
335 bool mNegate = false;
336
337};
338
344{
345 public:
346
351 : mNode( node )
352 , mList( list )
353 , mNotIn( notin )
354 {}
356
360 QgsExpressionNode *node() const { return mNode; }
361
365 bool isNotIn() const { return mNotIn; }
366
370 QgsExpressionNode::NodeList *list() const { return mList; }
371
372 QgsExpressionNode::NodeType nodeType() const override;
373 bool prepareNode( QgsExpression *parent, const QgsExpressionContext *context ) override;
374 QVariant evalNode( QgsExpression *parent, const QgsExpressionContext *context ) override;
375 QString dump() const override;
376
377 QSet<QString> referencedColumns() const override;
378 QSet<QString> referencedVariables() const override;
379 QSet<QString> referencedFunctions() const override;
380 QList<const QgsExpressionNode *> nodes() const override; SIP_SKIP
381 bool needsGeometry() const override;
382 QgsExpressionNode *clone() const override SIP_FACTORY;
383 bool isStatic( QgsExpression *parent, const QgsExpressionContext *context ) const override;
384
385 private:
386 QgsExpressionNode *mNode = nullptr;
387 QgsExpressionNodeInOperator::NodeList *mList = nullptr;
388 bool mNotIn;
389};
390
396{
397 public:
398
404
406
407#ifdef SIP_RUN
408 SIP_PYOBJECT __repr__();
409 % MethodCode
410 QString function;
411 if ( QgsExpressionFunction *fd = QgsExpression::QgsExpression::Functions()[sipCpp->fnIndex()] )
412 {
413 function = fd->name();
414 }
415 else
416 {
417 function = QString::number( sipCpp->fnIndex() );
418 }
419
420 QString str = QStringLiteral( "<QgsExpressionNodeFunction: %1>" ).arg( function );
421 sipRes = PyUnicode_FromString( str.toUtf8().constData() );
422 % End
423#endif
424
428 int fnIndex() const { return mFnIndex; }
429
433 QgsExpressionNode::NodeList *args() const { return mArgs; }
434
435 QgsExpressionNode::NodeType nodeType() const override;
436 bool prepareNode( QgsExpression *parent, const QgsExpressionContext *context ) override;
437 QVariant evalNode( QgsExpression *parent, const QgsExpressionContext *context ) override;
438 QString dump() const override;
439
440 QSet<QString> referencedColumns() const override;
441 QSet<QString> referencedVariables() const override;
442 QSet<QString> referencedFunctions() const override;
443
444 QList<const QgsExpressionNode *> nodes() const override; SIP_SKIP
445 bool needsGeometry() const override;
446 QgsExpressionNode *clone() const override SIP_FACTORY;
447 bool isStatic( QgsExpression *parent, const QgsExpressionContext *context ) const override;
448
450 static bool validateParams( int fnIndex, QgsExpressionNode::NodeList *args, QString &error );
451
452 private:
453 int mFnIndex;
454 NodeList *mArgs = nullptr;
455};
456
462{
463 public:
464
468 QgsExpressionNodeLiteral( const QVariant &value )
469 : mValue( value )
470 {}
471
472#ifdef SIP_RUN
473 SIP_PYOBJECT __repr__();
474 % MethodCode
475 QString str = QStringLiteral( "<QgsExpressionNodeLiteral: %1>" ).arg( sipCpp->valueAsString() );
476 sipRes = PyUnicode_FromString( str.toUtf8().constData() );
477 % End
478#endif
479
481 inline QVariant value() const { return mValue; }
482
483 QgsExpressionNode::NodeType nodeType() const override;
484 bool prepareNode( QgsExpression *parent, const QgsExpressionContext *context ) override;
485 QVariant evalNode( QgsExpression *parent, const QgsExpressionContext *context ) override;
486 QString dump() const override;
487
488 QSet<QString> referencedColumns() const override;
489 QSet<QString> referencedVariables() const override;
490 QSet<QString> referencedFunctions() const override;
491
492 QList<const QgsExpressionNode *> nodes() const override; SIP_SKIP
493 bool needsGeometry() const override;
494 QgsExpressionNode *clone() const override SIP_FACTORY;
495 bool isStatic( QgsExpression *parent, const QgsExpressionContext *context ) const override;
496
502 QString valueAsString() const;
503
504 private:
505 QVariant mValue;
506};
507
513{
514 public:
515
520 QgsExpressionNodeColumnRef( const QString &name )
521 : mName( name )
522 , mIndex( -1 )
523 {}
524
525#ifdef SIP_RUN
526 SIP_PYOBJECT __repr__();
527 % MethodCode
528 QString str = QStringLiteral( "<QgsExpressionNodeColumnRef: \"%1\">" ).arg( sipCpp->name() );
529 sipRes = PyUnicode_FromString( str.toUtf8().constData() );
530 % End
531#endif
532
534 QString name() const { return mName; }
535
536 QgsExpressionNode::NodeType nodeType() const override;
537 bool prepareNode( QgsExpression *parent, const QgsExpressionContext *context ) override;
538 QVariant evalNode( QgsExpression *parent, const QgsExpressionContext *context ) override;
539 QString dump() const override;
540
541 QSet<QString> referencedColumns() const override;
542 QSet<QString> referencedVariables() const override;
543 QSet<QString> referencedFunctions() const override;
544 QList<const QgsExpressionNode *> nodes( ) const override; SIP_SKIP
545
546 bool needsGeometry() const override;
547
548 QgsExpressionNode *clone() const override SIP_FACTORY;
549 bool isStatic( QgsExpression *parent, const QgsExpressionContext *context ) const override;
550
551 private:
552 QString mName;
553 int mIndex;
554};
555
561{
562 public:
563
568 class CORE_EXPORT WhenThen
569 {
570 public:
571
575 WhenThen( QgsExpressionNode *whenExp, QgsExpressionNode *thenExp );
576 ~WhenThen();
577
578 WhenThen( const WhenThen &rh ) = delete;
579 WhenThen &operator=( const WhenThen &rh ) = delete;
580
585
590 QgsExpressionNode *whenExp() const { return mWhenExp; }
591
597 QgsExpressionNode *thenExp() const { return mThenExp; }
598
599 private:
600#ifdef SIP_RUN
602#endif
603 QgsExpressionNode *mWhenExp = nullptr;
604 QgsExpressionNode *mThenExp = nullptr;
605
607 };
608 typedef QList<QgsExpressionNodeCondition::WhenThen *> WhenThenList;
609
614
619 : mConditions( conditions )
620 , mElseExp( elseExp )
621 {}
622
624
625 QgsExpressionNode::NodeType nodeType() const override;
626 QVariant evalNode( QgsExpression *parent, const QgsExpressionContext *context ) override;
627 bool prepareNode( QgsExpression *parent, const QgsExpressionContext *context ) override;
628 QString dump() const override;
629
634 WhenThenList conditions() const { return mConditions; }
635
640 QgsExpressionNode *elseExp() const { return mElseExp; }
641
642 QSet<QString> referencedColumns() const override;
643 QSet<QString> referencedVariables() const override;
644 QSet<QString> referencedFunctions() const override;
645
646 QList<const QgsExpressionNode *> nodes() const override; SIP_SKIP
647
648 bool needsGeometry() const override;
649 QgsExpressionNode *clone() const override SIP_FACTORY;
650 bool isStatic( QgsExpression *parent, const QgsExpressionContext *context ) const override;
651
652 private:
653 WhenThenList mConditions;
654 QgsExpressionNode *mElseExp = nullptr;
655};
656
657
658#endif // QGSEXPRESSIONNODEIMPL_H
Expression contexts are used to encapsulate the parameters around which a QgsExpression should be eva...
A abstract base class for defining QgsExpression functions.
SQL-like BETWEEN and NOT BETWEEN predicates.
QgsExpressionNode * node() const
Returns the expression node.
QgsExpressionNodeBetweenOperator(QgsExpressionNode *node, QgsExpressionNode *nodeLowerBound, QgsExpressionNode *nodeHigherBound, bool negate=false)
This node tests if the result of node is between the result of nodeLowerBound and nodeHigherBound nod...
A binary expression operator, which operates on two values.
QgsExpressionNode * opLeft() const
Returns the node to the left of the operator.
QgsExpressionNode * opRight() const
Returns the node to the right of the operator.
QgsExpressionNodeBinaryOperator::BinaryOperator op() const
Returns the binary operator.
QgsExpressionNodeBinaryOperator(QgsExpressionNodeBinaryOperator::BinaryOperator op, QgsExpressionNode *opLeft, QgsExpressionNode *opRight)
Binary combination of the left and the right with op.
An expression node which takes it value from a feature's field.
QgsExpressionNodeColumnRef(const QString &name)
Constructor for QgsExpressionNodeColumnRef, referencing the column with the specified name.
QString name() const
The name of the column.
Represents a "WHEN... THEN..." portation of a CASE WHEN clause in an expression.
WhenThen & operator=(const WhenThen &rh)=delete
WhenThen(const WhenThen &rh)=delete
QgsExpressionNode * thenExp() const
The expression node that makes the THEN result part of the condition.
An expression node for CASE WHEN clauses.
QgsExpressionNodeCondition(const QgsExpressionNodeCondition::WhenThenList &conditions, QgsExpressionNode *elseExp=nullptr)
Create a new node with the given list of conditions and an optional elseExp expression.
QList< QgsExpressionNodeCondition::WhenThen * > WhenThenList
QgsExpressionNode * elseExp() const
The ELSE expression used for the condition.
WhenThenList conditions() const
The list of WHEN THEN expression parts of the expression.
An expression node for expression functions.
int fnIndex() const
Returns the index of the node's function.
QgsExpressionNode::NodeList * args() const
Returns a list of arguments specified for the function.
An expression node for value IN or NOT IN clauses.
QgsExpressionNode * node() const
Returns the expression node.
QgsExpressionNodeInOperator(QgsExpressionNode *node, QgsExpressionNode::NodeList *list, bool notin=false)
This node tests if the result of node is in the result of list.
QgsExpressionNode::NodeList * list() const
Returns the list of nodes to search for matching values within.
bool isNotIn() const
Returns true if this node is a "NOT IN" operator, or false if the node is a normal "IN" operator.
A indexing expression operator, which allows use of square brackets [] to reference map and array ite...
QgsExpressionNodeIndexOperator(QgsExpressionNode *container, QgsExpressionNode *index)
Constructor for QgsExpressionNodeIndexOperator.
QgsExpressionNode * index() const
Returns the index node, representing an array element index or map key.
QgsExpressionNode * container() const
Returns the container node, representing an array or map value.
An expression node for literal values.
QVariant value() const
The value of the literal.
QgsExpressionNodeLiteral(const QVariant &value)
Constructor for QgsExpressionNodeLiteral, with the specified literal value.
A unary node is either negative as in boolean (not) or as in numbers (minus).
QgsExpressionNodeUnaryOperator::UnaryOperator op() const
Returns the unary operator.
QgsExpressionNodeUnaryOperator(QgsExpressionNodeUnaryOperator::UnaryOperator op, QgsExpressionNode *operand)
A node unary operator is modifying the value of operand by negating it with op.
QgsExpressionNode * operand() const
Returns the node the operator will operate upon.
A list of expression nodes.
Abstract base class for all nodes that can appear in an expression.
virtual QString dump() const =0
Dump this node into a serialized (part) of an expression.
virtual QgsExpressionNode * clone() const =0
Generate a clone of this node.
virtual QSet< QString > referencedColumns() const =0
Abstract virtual method which returns a list of columns required to evaluate this node.
virtual QgsExpressionNode::NodeType nodeType() const =0
Gets the type of this node.
virtual QSet< QString > referencedVariables() const =0
Returns a set of all variables which are used in this expression.
NodeType
Known node types.
virtual bool needsGeometry() const =0
Abstract virtual method which returns if the geometry is required to evaluate this expression.
virtual QList< const QgsExpressionNode * > nodes() const =0
Returns a list of all nodes which are used in this expression.
virtual QSet< QString > referencedFunctions() const =0
Returns a set of all functions which are used in this expression.
Class for parsing and evaluation of expressions (formerly called "search strings").
A representation of the interval between two datetime values.
Definition qgsinterval.h:46
#define str(x)
Definition qgis.cpp:39
#define SIP_SKIP
Definition qgis_sip.h:126
#define SIP_TRANSFER
Definition qgis_sip.h:36
#define SIP_FACTORY
Definition qgis_sip.h:76