QGIS API Documentation 3.28.0-Firenze (ed3ad0430f)
qgswkbtypes.h
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1/***************************************************************************
2 qgswkbtypes.h
3 -----------------------
4 begin : January 2015
5 copyright : (C) 2015 by Marco Hugentobler
6 email : marco at sourcepole dot ch
7 ***************************************************************************/
8
9/***************************************************************************
10 * *
11 * This program is free software; you can redistribute it and/or modify *
12 * it under the terms of the GNU General Public License as published by *
13 * the Free Software Foundation; either version 2 of the License, or *
14 * (at your option) any later version. *
15 * *
16 ***************************************************************************/
17
18#ifndef QGSWKBTYPES_H
19#define QGSWKBTYPES_H
20
21#include <QObject>
22#include <QMap>
23#include <QString>
24
25#include "qgis_core.h"
26#include "qgis_sip.h"
27
28/***************************************************************************
29 * This class is considered CRITICAL and any change MUST be accompanied with
30 * full unit tests in testqgsstatisticalsummary.cpp.
31 * See details in QEP #17
32 ****************************************************************************/
33
41class CORE_EXPORT QgsWkbTypes
42{
43 Q_GADGET
44 public:
45
69 enum Type
70 {
71 Unknown = 0,
72 Point = 1,
73 LineString = 2,
74 Polygon = 3,
75 Triangle = 17,
76 MultiPoint = 4,
77 MultiLineString = 5,
78 MultiPolygon = 6,
79 GeometryCollection = 7,
80 CircularString = 8,
81 CompoundCurve = 9,
82 CurvePolygon = 10, //13, //should be 10. Seems to be correct in newer PostGIS versions
83 MultiCurve = 11,
84 MultiSurface = 12,
85 NoGeometry = 100, //attributes only
86 PointZ = 1001,
87 LineStringZ = 1002,
88 PolygonZ = 1003,
89 TriangleZ = 1017,
90 MultiPointZ = 1004,
91 MultiLineStringZ = 1005,
92 MultiPolygonZ = 1006,
93 GeometryCollectionZ = 1007,
94 CircularStringZ = 1008,
95 CompoundCurveZ = 1009,
96 CurvePolygonZ = 1010,
97 MultiCurveZ = 1011,
98 MultiSurfaceZ = 1012,
99 PointM = 2001,
100 LineStringM = 2002,
101 PolygonM = 2003,
102 TriangleM = 2017,
103 MultiPointM = 2004,
104 MultiLineStringM = 2005,
105 MultiPolygonM = 2006,
106 GeometryCollectionM = 2007,
107 CircularStringM = 2008,
108 CompoundCurveM = 2009,
109 CurvePolygonM = 2010,
110 MultiCurveM = 2011,
111 MultiSurfaceM = 2012,
112 PointZM = 3001,
113 LineStringZM = 3002,
114 PolygonZM = 3003,
115 MultiPointZM = 3004,
116 MultiLineStringZM = 3005,
117 MultiPolygonZM = 3006,
118 GeometryCollectionZM = 3007,
119 CircularStringZM = 3008,
120 CompoundCurveZM = 3009,
121 CurvePolygonZM = 3010,
122 MultiCurveZM = 3011,
123 MultiSurfaceZM = 3012,
124 TriangleZM = 3017,
125 Point25D = 0x80000001,
130 MultiPolygon25D
131 };
132 Q_ENUM( Type )
133
134
141 {
146 NullGeometry
147 };
148 Q_ENUM( GeometryType )
149
150
157 static Type singleType( Type type ) SIP_HOLDGIL
158 {
159 switch ( type )
160 {
161 case Unknown:
162 case GeometryCollection:
163 case GeometryCollectionZ:
164 case GeometryCollectionM:
165 case GeometryCollectionZM:
166 return Unknown;
167
168 case Point:
169 case MultiPoint:
170 return Point;
171
172 case PointZ:
173 case MultiPointZ:
174 return PointZ;
175
176 case PointM:
177 case MultiPointM:
178 return PointM;
179
180 case PointZM:
181 case MultiPointZM:
182 return PointZM;
183
184 case LineString:
185 case MultiLineString:
186 return LineString;
187
188 case LineStringZ:
189 case MultiLineStringZ:
190 return LineStringZ;
191
192 case LineStringM:
193 case MultiLineStringM:
194 return LineStringM;
195
196 case LineStringZM:
197 case MultiLineStringZM:
198 return LineStringZM;
199
200 case Polygon:
201 case MultiPolygon:
202 return Polygon;
203
204 case PolygonZ:
205 case MultiPolygonZ:
206 return PolygonZ;
207
208 case PolygonM:
209 case MultiPolygonM:
210 return PolygonM;
211
212 case PolygonZM:
213 case MultiPolygonZM:
214 return PolygonZM;
215
216 case Triangle:
217 // case MultiTriangle:
218 return Triangle;
219
220 case TriangleZ:
221 // case MultiTriangleZ:
222 return TriangleZ;
223
224 case TriangleM:
225 // case MultiTriangleM:
226 return TriangleM;
227
228 case TriangleZM:
229 // case MultiTriangleZM:
230 return TriangleZM;
231
232 case CircularString:
233 return CircularString;
234
235 case CircularStringZ:
236 return CircularStringZ;
237
238 case CircularStringM:
239 return CircularStringM;
240
241 case CircularStringZM:
242 return CircularStringZM;
243
244 case CompoundCurve:
245 case MultiCurve:
246 return CompoundCurve;
247
248 case CompoundCurveZ:
249 case MultiCurveZ:
250 return CompoundCurveZ;
251
252 case CompoundCurveM:
253 case MultiCurveM:
254 return CompoundCurveM;
255
256 case CompoundCurveZM:
257 case MultiCurveZM:
258 return CompoundCurveZM;
259
260 case CurvePolygon:
261 case MultiSurface:
262 return CurvePolygon;
263
264 case CurvePolygonZ:
265 case MultiSurfaceZ:
266 return CurvePolygonZ;
267
268 case CurvePolygonM:
269 case MultiSurfaceM:
270 return CurvePolygonM;
271
272 case CurvePolygonZM:
273 case MultiSurfaceZM:
274 return CurvePolygonZM;
275
276 case NoGeometry:
277 return NoGeometry;
278
279 case Point25D:
280 case MultiPoint25D:
281 return Point25D;
282
283 case LineString25D:
284 case MultiLineString25D:
285 return LineString25D;
286
287 case Polygon25D:
288 case MultiPolygon25D:
289 return Polygon25D;
290
291 }
292 return Unknown;
293 }
294
305 {
306 switch ( type )
307 {
308 case Unknown:
309 return Unknown;
310
311 // until we support TIN types, use multipolygon
312 case Triangle:
313 return MultiPolygon;
314
315 case TriangleZ:
316 return MultiPolygonZ;
317
318 case TriangleM:
319 return MultiPolygonM;
320
321 case TriangleZM:
322 return MultiPolygonZM;
323
324 case GeometryCollection:
325 return GeometryCollection;
326
327 case GeometryCollectionZ:
328 return GeometryCollectionZ;
329
330 case GeometryCollectionM:
331 return GeometryCollectionM;
332
333 case GeometryCollectionZM:
334 return GeometryCollectionZM;
335
336 case Point:
337 case MultiPoint:
338 return MultiPoint;
339
340 case PointZ:
341 case MultiPointZ:
342 return MultiPointZ;
343
344 case PointM:
345 case MultiPointM:
346 return MultiPointM;
347
348 case PointZM:
349 case MultiPointZM:
350 return MultiPointZM;
351
352 case LineString:
353 case MultiLineString:
354 return MultiLineString;
355
356 case LineStringZ:
357 case MultiLineStringZ:
358 return MultiLineStringZ;
359
360 case LineStringM:
361 case MultiLineStringM:
362 return MultiLineStringM;
363
364 case LineStringZM:
365 case MultiLineStringZM:
366 return MultiLineStringZM;
367
368 case Polygon:
369 case MultiPolygon:
370 return MultiPolygon;
371
372 case PolygonZ:
373 case MultiPolygonZ:
374 return MultiPolygonZ;
375
376 case PolygonM:
377 case MultiPolygonM:
378 return MultiPolygonM;
379
380 case PolygonZM:
381 case MultiPolygonZM:
382 return MultiPolygonZM;
383
384 case CompoundCurve:
385 case CircularString:
386 case MultiCurve:
387 return MultiCurve;
388
389 case CompoundCurveZ:
390 case CircularStringZ:
391 case MultiCurveZ:
392 return MultiCurveZ;
393
394 case CompoundCurveM:
395 case CircularStringM:
396 case MultiCurveM:
397 return MultiCurveM;
398
399 case CompoundCurveZM:
400 case CircularStringZM:
401 case MultiCurveZM:
402 return MultiCurveZM;
403
404 case CurvePolygon:
405 case MultiSurface:
406 return MultiSurface;
407
408 case CurvePolygonZ:
409 case MultiSurfaceZ:
410 return MultiSurfaceZ;
411
412 case CurvePolygonM:
413 case MultiSurfaceM:
414 return MultiSurfaceM;
415
416 case CurvePolygonZM:
417 case MultiSurfaceZM:
418 return MultiSurfaceZM;
419
420 case NoGeometry:
421 return NoGeometry;
422
423 case Point25D:
424 case MultiPoint25D:
425 return MultiPoint25D;
426
427 case LineString25D:
428 case MultiLineString25D:
429 return MultiLineString25D;
430
431 case Polygon25D:
432 case MultiPolygon25D:
433 return MultiPolygon25D;
434 }
435 return Unknown;
436 }
437
438
452 {
453 switch ( geometryType( type ) )
454 {
458 return type;
459
462 return multiType( type );
463 }
464 return Unknown;
465 }
466
482 {
483 switch ( type )
484 {
485 case Unknown:
486 case Triangle:
487 case TriangleZ:
488 case TriangleM:
489 case TriangleZM:
490 return Unknown;
491
492 case GeometryCollection:
493 return GeometryCollection;
494
495 case GeometryCollectionZ:
496 return GeometryCollectionZ;
497
498 case GeometryCollectionM:
499 return GeometryCollectionM;
500
501 case GeometryCollectionZM:
502 return GeometryCollectionZM;
503
504 case Point:
505 return Point;
506
507 case MultiPoint:
508 return MultiPoint;
509
510 case PointZ:
511 return PointZ;
512
513 case MultiPointZ:
514 return MultiPointZ;
515
516 case PointM:
517 return PointM;
518
519 case MultiPointM:
520 return MultiPointM;
521
522 case PointZM:
523 return PointZM;
524
525 case MultiPointZM:
526 return MultiPointZM;
527
528 case LineString:
529 case CompoundCurve:
530 case CircularString:
531 return CompoundCurve;
532
533 case MultiLineString:
534 case MultiCurve:
535 return MultiCurve;
536
537 case LineStringZ:
538 case CompoundCurveZ:
539 case CircularStringZ:
540 case LineString25D:
541 return CompoundCurveZ;
542
543 case MultiLineStringZ:
544 case MultiCurveZ:
545 case MultiLineString25D:
546 return MultiCurveZ;
547
548 case LineStringM:
549 case CompoundCurveM:
550 case CircularStringM:
551 return CompoundCurveM;
552
553 case MultiLineStringM:
554 case MultiCurveM:
555 return MultiCurveM;
556
557 case LineStringZM:
558 case CompoundCurveZM:
559 case CircularStringZM:
560 return CompoundCurveZM;
561
562 case MultiLineStringZM:
563 case MultiCurveZM:
564 return MultiCurveZM;
565
566 case Polygon:
567 case CurvePolygon:
568 return CurvePolygon;
569
570 case MultiPolygon:
571 case MultiSurface:
572 return MultiSurface;
573
574 case PolygonZ:
575 case CurvePolygonZ:
576 case Polygon25D:
577 return CurvePolygonZ;
578
579 case MultiPolygonZ:
580 case MultiSurfaceZ:
581 case MultiPolygon25D:
582 return MultiSurfaceZ;
583
584 case PolygonM:
585 case CurvePolygonM:
586 return CurvePolygonM;
587
588 case MultiPolygonM:
589 case MultiSurfaceM:
590 return MultiSurfaceM;
591
592 case PolygonZM:
593 case CurvePolygonZM:
594 return CurvePolygonZM;
595
596 case MultiPolygonZM:
597 case MultiSurfaceZM:
598 return MultiSurfaceZM;
599
600 case NoGeometry:
601 return NoGeometry;
602
603 case Point25D:
604 case MultiPoint25D:
605 return MultiPoint25D;
606 }
607 return Unknown;
608 }
609
623 {
624 switch ( type )
625 {
626
627 case CircularString:
628 case CompoundCurve:
629 return LineString;
630
631 case CircularStringM:
632 case CompoundCurveM:
633 return LineStringM;
634
635 case CircularStringZ:
636 case CompoundCurveZ:
637 return LineStringZ;
638
639 case CircularStringZM:
640 case CompoundCurveZM:
641 return LineStringZM;
642
643 case MultiCurve:
644 return MultiLineString;
645
646 case MultiCurveM:
647 return MultiLineStringM;
648
649 case MultiCurveZ:
650 return MultiLineStringZ;
651
652 case MultiCurveZM:
653 return MultiLineStringZM;
654
655 case CurvePolygon:
656 return Polygon;
657
658 case CurvePolygonM:
659 return PolygonM;
660
661 case CurvePolygonZ:
662 return PolygonZ;
663
664 case CurvePolygonZM:
665 return PolygonZM;
666
667 case MultiSurface:
668 return MultiPolygon;
669
670 case MultiSurfaceM:
671 return MultiPolygonM;
672
673 case MultiSurfaceZ:
674 return MultiPolygonZ;
675
676 case MultiSurfaceZM:
677 return MultiPolygonZM;
678
679 case GeometryCollection:
680 case GeometryCollectionM:
681 case GeometryCollectionZ:
682 case GeometryCollectionZM:
683 case LineString:
684 case LineString25D:
685 case LineStringM:
686 case LineStringZ:
687 case LineStringZM:
688 case MultiLineString:
689 case MultiLineString25D:
690 case MultiLineStringM:
691 case MultiLineStringZ:
692 case MultiLineStringZM:
693 case MultiPoint:
694 case MultiPoint25D:
695 case MultiPointM:
696 case MultiPointZ:
697 case MultiPointZM:
698 case MultiPolygon:
699 case MultiPolygon25D:
700 case MultiPolygonM:
701 case MultiPolygonZ:
702 case MultiPolygonZM:
703 case NoGeometry:
704 case Point:
705 case Point25D:
706 case PointM:
707 case PointZ:
708 case PointZM:
709 case Polygon:
710 case Polygon25D:
711 case PolygonM:
712 case PolygonZ:
713 case PolygonZM:
714 case Triangle:
715 case TriangleM:
716 case TriangleZ:
717 case TriangleZM:
718 case Unknown:
719 return type;
720
721 }
722 return Unknown;
723 }
724
733 {
734 switch ( type )
735 {
736 case Unknown:
737 return Unknown;
738
739 case Point:
740 case PointZ:
741 case PointM:
742 case PointZM:
743 case Point25D:
744 return Point;
745
746 case LineString:
747 case LineStringZ:
748 case LineStringM:
749 case LineStringZM:
750 case LineString25D:
751 return LineString;
752
753 case Polygon:
754 case PolygonZ:
755 case PolygonM:
756 case PolygonZM:
757 case Polygon25D:
758 return Polygon;
759
760 case Triangle:
761 case TriangleZ:
762 case TriangleM:
763 case TriangleZM:
764 return Triangle;
765
766 case MultiPoint:
767 case MultiPointZ:
768 case MultiPointM:
769 case MultiPointZM:
770 case MultiPoint25D:
771 return MultiPoint;
772
773 case MultiLineString:
774 case MultiLineStringZ:
775 case MultiLineStringM:
776 case MultiLineStringZM:
777 case MultiLineString25D:
778 return MultiLineString;
779
780 case MultiPolygon:
781 case MultiPolygonZ:
782 case MultiPolygonM:
783 case MultiPolygonZM:
784 case MultiPolygon25D:
785 return MultiPolygon;
786
787 case GeometryCollection:
788 case GeometryCollectionZ:
789 case GeometryCollectionM:
790 case GeometryCollectionZM:
791 return GeometryCollection;
792
793 case CircularString:
794 case CircularStringZ:
795 case CircularStringM:
796 case CircularStringZM:
797 return CircularString;
798
799 case CompoundCurve:
800 case CompoundCurveZ:
801 case CompoundCurveM:
802 case CompoundCurveZM:
803 return CompoundCurve;
804
805 case MultiCurve:
806 case MultiCurveZ:
807 case MultiCurveM:
808 case MultiCurveZM:
809 return MultiCurve;
810
811 case CurvePolygon:
812 case CurvePolygonZ:
813 case CurvePolygonM:
814 case CurvePolygonZM:
815 return CurvePolygon;
816
817 case MultiSurface:
818 case MultiSurfaceZ:
819 case MultiSurfaceM:
820 case MultiSurfaceZM:
821 return MultiSurface;
822
823 case NoGeometry:
824 return NoGeometry;
825
826 }
827 return Unknown;
828 }
829
831 static Type zmType( Type type, bool hasZ, bool hasM ) SIP_HOLDGIL
832 {
833 type = flatType( type );
834 if ( hasZ )
835 type = static_cast<QgsWkbTypes::Type>( static_cast<quint32>( type ) + 1000 );
836 if ( hasM )
837 type = static_cast<QgsWkbTypes::Type>( static_cast<quint32>( type ) + 2000 );
838 return type;
839 }
840
845 static Type parseType( const QString &wktStr );
846
852 static bool isSingleType( Type type ) SIP_HOLDGIL
853 {
854 return ( type != Unknown && !isMultiType( type ) );
855 }
856
862 static bool isMultiType( Type type ) SIP_HOLDGIL
863 {
864 switch ( type )
865 {
866 case Unknown:
867 case Point:
868 case LineString:
869 case Polygon:
870 case Triangle:
871 case CircularString:
872 case CompoundCurve:
873 case CurvePolygon:
874 case NoGeometry:
875 case PointZ:
876 case LineStringZ:
877 case PolygonZ:
878 case TriangleZ:
879 case CircularStringZ:
880 case CompoundCurveZ:
881 case CurvePolygonZ:
882 case PointM:
883 case LineStringM:
884 case PolygonM:
885 case TriangleM:
886 case CircularStringM:
887 case CompoundCurveM:
888 case CurvePolygonM:
889 case PointZM:
890 case LineStringZM:
891 case PolygonZM:
892 case TriangleZM:
893 case CircularStringZM:
894 case CompoundCurveZM:
895 case CurvePolygonZM:
896 case Point25D:
897 case LineString25D:
898 case Polygon25D:
899 return false;
900
901 default:
902 return true;
903
904 }
905 }
906
911 static bool isCurvedType( Type type ) SIP_HOLDGIL
912 {
913 switch ( flatType( type ) )
914 {
915 case CircularString:
916 case CompoundCurve:
917 case CurvePolygon:
918 case MultiCurve:
919 case MultiSurface:
920 return true;
921
922 default:
923 return false;
924 }
925 }
926
934 static int wkbDimensions( Type type ) SIP_HOLDGIL
935 {
936 const GeometryType gtype = geometryType( type );
937 switch ( gtype )
938 {
939 case LineGeometry:
940 return 1;
941 case PolygonGeometry:
942 return 2;
943 default: //point, no geometry, unknown geometry
944 return 0;
945 }
946 }
947
956 {
957 if ( type == Unknown || type == NoGeometry )
958 return 0;
959
960 return 2 + hasZ( type ) + hasM( type );
961 }
962
969 {
970 switch ( type )
971 {
972 case Unknown:
973 case GeometryCollection:
974 case GeometryCollectionZ:
975 case GeometryCollectionM:
976 case GeometryCollectionZM:
977 return UnknownGeometry;
978
979 case Point:
980 case MultiPoint:
981 case PointZ:
982 case MultiPointZ:
983 case PointM:
984 case MultiPointM:
985 case PointZM:
986 case MultiPointZM:
987 case Point25D:
988 case MultiPoint25D:
989 return PointGeometry;
990
991 case LineString:
992 case MultiLineString:
993 case LineStringZ:
994 case MultiLineStringZ:
995 case LineStringM:
996 case MultiLineStringM:
997 case LineStringZM:
998 case MultiLineStringZM:
999 case LineString25D:
1000 case MultiLineString25D:
1001 case CircularString:
1002 case CompoundCurve:
1003 case MultiCurve:
1004 case CircularStringZ:
1005 case CompoundCurveZ:
1006 case MultiCurveZ:
1007 case CircularStringM:
1008 case CompoundCurveM:
1009 case MultiCurveM:
1010 case CircularStringZM:
1011 case CompoundCurveZM:
1012 case MultiCurveZM:
1013 return LineGeometry;
1014
1015 case Polygon:
1016 case MultiPolygon:
1017 case Triangle:
1018 case PolygonZ:
1019 case TriangleZ:
1020 case MultiPolygonZ:
1021 case PolygonM:
1022 case TriangleM:
1023 case MultiPolygonM:
1024 case PolygonZM:
1025 case MultiPolygonZM:
1026 case TriangleZM:
1027 case Polygon25D:
1028 case MultiPolygon25D:
1029 case CurvePolygon:
1030 case MultiSurface:
1031 case CurvePolygonZ:
1032 case MultiSurfaceZ:
1033 case CurvePolygonM:
1034 case MultiSurfaceM:
1035 case CurvePolygonZM:
1036 case MultiSurfaceZM:
1037 return PolygonGeometry;
1038
1039 case NoGeometry:
1040 return NullGeometry;
1041 }
1042
1043 return UnknownGeometry;
1044 }
1045
1049 static QString displayString( Type type ) SIP_HOLDGIL;
1050
1056 static QString translatedDisplayString( Type type ) SIP_HOLDGIL;
1057
1072 static QString geometryDisplayString( GeometryType type ) SIP_HOLDGIL;
1073
1080 static bool hasZ( Type type ) SIP_HOLDGIL
1081 {
1082 switch ( type )
1083 {
1084 case PointZ:
1085 case LineStringZ:
1086 case PolygonZ:
1087 case TriangleZ:
1088 case MultiPointZ:
1089 case MultiLineStringZ:
1090 case MultiPolygonZ:
1091 case GeometryCollectionZ:
1092 case CircularStringZ:
1093 case CompoundCurveZ:
1094 case CurvePolygonZ:
1095 case MultiCurveZ:
1096 case MultiSurfaceZ:
1097 case PointZM:
1098 case LineStringZM:
1099 case PolygonZM:
1100 case TriangleZM:
1101 case MultiPointZM:
1102 case MultiLineStringZM:
1103 case MultiPolygonZM:
1104 case GeometryCollectionZM:
1105 case CircularStringZM:
1106 case CompoundCurveZM:
1107 case CurvePolygonZM:
1108 case MultiCurveZM:
1109 case MultiSurfaceZM:
1110 case Point25D:
1111 case LineString25D:
1112 case Polygon25D:
1113 case MultiPoint25D:
1114 case MultiLineString25D:
1115 case MultiPolygon25D:
1116 return true;
1117
1118 default:
1119 return false;
1120
1121 }
1122 }
1123
1130 static bool hasM( Type type ) SIP_HOLDGIL
1131 {
1132 switch ( type )
1133 {
1134 case PointM:
1135 case LineStringM:
1136 case PolygonM:
1137 case TriangleM:
1138 case MultiPointM:
1139 case MultiLineStringM:
1140 case MultiPolygonM:
1141 case GeometryCollectionM:
1142 case CircularStringM:
1143 case CompoundCurveM:
1144 case CurvePolygonM:
1145 case MultiCurveM:
1146 case MultiSurfaceM:
1147 case PointZM:
1148 case LineStringZM:
1149 case PolygonZM:
1150 case TriangleZM:
1151 case MultiPointZM:
1152 case MultiLineStringZM:
1153 case MultiPolygonZM:
1154 case GeometryCollectionZM:
1155 case CircularStringZM:
1156 case CompoundCurveZM:
1157 case CurvePolygonZM:
1158 case MultiCurveZM:
1159 case MultiSurfaceZM:
1160 return true;
1161
1162 default:
1163 return false;
1164
1165 }
1166 }
1167
1176 static Type addZ( Type type ) SIP_HOLDGIL
1177 {
1178 if ( hasZ( type ) )
1179 return type;
1180 else if ( type == Unknown )
1181 return Unknown;
1182 else if ( type == NoGeometry )
1183 return NoGeometry;
1184
1185 //upgrade with z dimension
1186 const Type flat = flatType( type );
1187 if ( hasM( type ) )
1188 return static_cast< QgsWkbTypes::Type >( flat + 3000 );
1189 else
1190 return static_cast< QgsWkbTypes::Type >( flat + 1000 );
1191 }
1192
1201 static Type addM( Type type ) SIP_HOLDGIL
1202 {
1203 if ( hasM( type ) )
1204 return type;
1205 else if ( type == Unknown )
1206 return Unknown;
1207 else if ( type == NoGeometry )
1208 return NoGeometry;
1209 else if ( type == Point25D )
1210 return PointZM;
1211 else if ( type == LineString25D )
1212 return LineStringZM;
1213 else if ( type == Polygon25D )
1214 return PolygonZM;
1215 else if ( type == MultiPoint25D )
1216 return MultiPointZM;
1217 else if ( type == MultiLineString25D )
1218 return MultiLineStringZM;
1219 else if ( type == MultiPolygon25D )
1220 return MultiPolygonZM;
1221
1222 //upgrade with m dimension
1223 const Type flat = flatType( type );
1224 if ( hasZ( type ) )
1225 return static_cast< QgsWkbTypes::Type >( flat + 3000 );
1226 else
1227 return static_cast< QgsWkbTypes::Type >( flat + 2000 );
1228 }
1229
1238 {
1239 if ( !hasZ( type ) )
1240 return type;
1241
1242 QgsWkbTypes::Type returnType = flatType( type );
1243 if ( hasM( type ) )
1244 returnType = addM( returnType );
1245 return returnType;
1246 }
1247
1256 {
1257 if ( !hasM( type ) )
1258 return type;
1259
1260 QgsWkbTypes::Type returnType = flatType( type );
1261 if ( hasZ( type ) )
1262 returnType = addZ( returnType );
1263 return returnType;
1264 }
1265
1272 {
1273 const QgsWkbTypes::Type flat = flatType( type );
1274
1275 if ( flat >= Point && flat <= MultiPolygon )
1276 return static_cast< QgsWkbTypes::Type >( static_cast<unsigned>( flat ) + 0x80000000U );
1277 else if ( type == QgsWkbTypes::NoGeometry )
1279 else
1280 return Unknown;
1281 }
1282
1283};
1284
1285#endif // QGSWKBTYPES_H
Handles storage of information regarding WKB types and their properties.
Definition: qgswkbtypes.h:42
static bool isSingleType(Type type) SIP_HOLDGIL
Returns true if the WKB type is a single type.
Definition: qgswkbtypes.h:852
static GeometryType geometryType(Type type) SIP_HOLDGIL
Returns the geometry type for a WKB type, e.g., both MultiPolygon and CurvePolygon would have a Polyg...
Definition: qgswkbtypes.h:968
static Type parseType(const QString &wktStr)
Attempts to extract the WKB type from a WKT string.
static Type promoteNonPointTypesToMulti(Type type) SIP_HOLDGIL
Promotes a WKB geometry type to its multi-type equivalent, with the exception of point geometry types...
Definition: qgswkbtypes.h:451
static bool isMultiType(Type type) SIP_HOLDGIL
Returns true if the WKB type is a multi type.
Definition: qgswkbtypes.h:862
static Type curveType(Type type) SIP_HOLDGIL
Returns the curve type for a WKB type.
Definition: qgswkbtypes.h:481
GeometryType
The geometry types are used to group QgsWkbTypes::Type in a coarse way.
Definition: qgswkbtypes.h:141
static bool hasM(Type type) SIP_HOLDGIL
Tests whether a WKB type contains m values.
Definition: qgswkbtypes.h:1130
static Type linearType(Type type) SIP_HOLDGIL
Returns the linear type for a WKB type.
Definition: qgswkbtypes.h:622
Type
The WKB type describes the number of dimensions a geometry has.
Definition: qgswkbtypes.h:70
@ MultiLineString25D
Definition: qgswkbtypes.h:129
static Type zmType(Type type, bool hasZ, bool hasM) SIP_HOLDGIL
Returns the modified input geometry type according to hasZ / hasM.
Definition: qgswkbtypes.h:831
static int wkbDimensions(Type type) SIP_HOLDGIL
Returns the inherent dimension of the geometry type as an integer.
Definition: qgswkbtypes.h:934
static int coordDimensions(Type type) SIP_HOLDGIL
Returns the coordinate dimension of the geometry type as an integer.
Definition: qgswkbtypes.h:955
static Type dropZ(Type type) SIP_HOLDGIL
Drops the z dimension (if present) for a WKB type and returns the new type.
Definition: qgswkbtypes.h:1237
static Type to25D(Type type) SIP_HOLDGIL
Will convert the 25D version of the flat type if supported or Unknown if not supported.
Definition: qgswkbtypes.h:1271
static bool isCurvedType(Type type) SIP_HOLDGIL
Returns true if the WKB type is a curved type or can contain curved geometries.
Definition: qgswkbtypes.h:911
static Type flatType(Type type) SIP_HOLDGIL
Returns the flat type for a WKB type.
Definition: qgswkbtypes.h:732
static Type multiType(Type type) SIP_HOLDGIL
Returns the multi type for a WKB type.
Definition: qgswkbtypes.h:304
static Type addZ(Type type) SIP_HOLDGIL
Adds the z dimension to a WKB type and returns the new type.
Definition: qgswkbtypes.h:1176
static bool hasZ(Type type) SIP_HOLDGIL
Tests whether a WKB type contains the z-dimension.
Definition: qgswkbtypes.h:1080
static Type addM(Type type) SIP_HOLDGIL
Adds the m dimension to a WKB type and returns the new type.
Definition: qgswkbtypes.h:1201
static Type dropM(Type type) SIP_HOLDGIL
Drops the m dimension (if present) for a WKB type and returns the new type.
Definition: qgswkbtypes.h:1255
#define SIP_HOLDGIL
Definition: qgis_sip.h:166