LSST Applications 26.0.0,g0265f82a02+6660c170cc,g07994bdeae+30b05a742e,g0a0026dc87+17526d298f,g0a60f58ba1+17526d298f,g0e4bf8285c+96dd2c2ea9,g0ecae5effc+c266a536c8,g1e7d6db67d+6f7cb1f4bb,g26482f50c6+6346c0633c,g2bbee38e9b+6660c170cc,g2cc88a2952+0a4e78cd49,g3273194fdb+f6908454ef,g337abbeb29+6660c170cc,g337c41fc51+9a8f8f0815,g37c6e7c3d5+7bbafe9d37,g44018dc512+6660c170cc,g4a941329ef+4f7594a38e,g4c90b7bd52+5145c320d2,g58be5f913a+bea990ba40,g635b316a6c+8d6b3a3e56,g67924a670a+bfead8c487,g6ae5381d9b+81bc2a20b4,g93c4d6e787+26b17396bd,g98cecbdb62+ed2cb6d659,g98ffbb4407+81bc2a20b4,g9ddcbc5298+7f7571301f,ga1e77700b3+99e9273977,gae46bcf261+6660c170cc,gb2715bf1a1+17526d298f,gc86a011abf+17526d298f,gcf0d15dbbd+96dd2c2ea9,gdaeeff99f8+0d8dbea60f,gdb4ec4c597+6660c170cc,ge23793e450+96dd2c2ea9,gf041782ebf+171108ac67
LSST Data Management Base Package
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Catalog.h
Go to the documentation of this file.
1// -*- lsst-c++ -*-
2#ifndef AFW_TABLE_Catalog_h_INCLUDED
3#define AFW_TABLE_Catalog_h_INCLUDED
4
5#include <type_traits>
6#include <vector>
7
8#include "boost/iterator/iterator_adaptor.hpp"
9#include "boost/iterator/transform_iterator.hpp"
10
11#include "lsst/base.h"
12#include "lsst/pex/exceptions.h"
14#include "lsst/afw/table/fwd.h"
18#include "lsst/log/Log.h"
19
20namespace lsst {
21namespace afw {
22namespace table {
23
38template <typename BaseT>
39class CatalogIterator : public boost::iterator_adaptor<CatalogIterator<BaseT>, BaseT,
40 typename BaseT::value_type::element_type> {
41public:
43
44 template <typename OtherBaseT>
46 : CatalogIterator::iterator_adaptor_(other.base()) {}
47
48 explicit CatalogIterator(BaseT const& base) : CatalogIterator::iterator_adaptor_(base) {}
49
50 template <typename RecordT>
51 operator std::shared_ptr<RecordT>() const {
52 return *this->base();
53 }
54
55 template <typename RecordT>
57 *this->base() = other;
58 return *this;
59 }
60
61private:
63 typename BaseT::value_type::element_type& dereference() const { return **this->base(); }
64};
65
97template <typename RecordT>
98class CatalogT {
100
101public:
102 using Record = RecordT;
103 using Table = typename Record::Table;
104 using ColumnView = typename Record::ColumnView;
105
106 using value_type = RecordT;
107 using reference = RecordT &;
109 using size_type = typename Internal::size_type;
110 using difference_type = typename Internal::difference_type;
113
115 std::shared_ptr<Table> getTable() const { return _table; }
116
118 Schema getSchema() const { return _table->getSchema(); }
119
126 : _table(table), _internal() {
127 if(!_table) {
128 auto schema=Table::makeMinimalSchema();
129 _table=Table::make(schema);
130 }
131 }
132
134 explicit CatalogT(Schema const& schema) : _table(Table::make(schema)), _internal() {}
135
146 template <typename InputIterator>
147 CatalogT(std::shared_ptr<Table> const& table, InputIterator first, InputIterator last, bool deep = false)
148 : _table(table), _internal() {
149 insert(end(), first, last, deep);
150 }
151
153 CatalogT(CatalogT const& other) : _table(other._table), _internal(other._internal) {}
154 // Delegate to copy constructor for backward compatibility
155 CatalogT(CatalogT&& other) : CatalogT(other) {}
156
157 ~CatalogT() = default;
158
165 template <typename OtherRecordT>
167 : _table(other.getTable()), _internal(other.begin().base(), other.end().base()) {}
168
170 CatalogT& operator=(CatalogT const& other) {
171 if (&other != this) {
172 _table = other._table;
173 _internal = other._internal;
174 }
175 return *this;
176 }
177 // Delegate to copy assignment for backward compatibility
178 CatalogT& operator=(CatalogT&& other) { return *this = other; }
179
185 CatalogT<RecordT> subset(ndarray::Array<bool const, 1> const& mask) const {
186 if (size_type(mask.size()) != size()) {
187 throw LSST_EXCEPT(
189 (boost::format("Mask array with %d elements applied to catalog with %d elements") %
190 mask.size() % size())
191 .str());
192 }
194 ndarray::Array<bool const, 1>::Iterator maskIter = mask.begin();
195 const_iterator catIter = begin();
196 for (; maskIter != mask.end(); ++maskIter, ++catIter) {
197 if (*maskIter) result.push_back(catIter);
198 }
199 return result;
200 }
201
207 /* Python's slicing syntax is weird and wonderful.
208
209 Both the "start" and "stop" indices can be negative, which means the
210 abs() of the index less than the size; [-1] means the last item.
211 Moreover, it's possible to have a negative index less than -len(); it
212 will get clipped. That is in fact one way to slice *backward* through
213 the array *and* include element 0;
214
215 >>> range(10)[5:-20:-1]
216 [5, 4, 3, 2, 1, 0]
217
218 The clipping tests in this function look more complicated than they
219 need to be, but that is partly because there are some weird edge cases.
220
221 Also, ptrdiff_t vs size_t introduces some annoying complexity. Note
222 that the args are "startd"/"stopd" (not "start"/"stop").
223
224 There is a fairly complete set of tests in tests/ticket2026.py; if you
225 try to simplify this function, be sure they continue to pass.
226 */
227 size_type S = size();
228 size_type start, stop = 0;
229 // Python doesn't allow step == 0
230 if (step == 0) {
231 throw LSST_EXCEPT(pex::exceptions::InvalidParameterError, "Step cannot be zero");
232 }
233 // Basic negative indexing rule: first add size
234 if (startd < 0) {
235 startd += S;
236 }
237 if (stopd < 0) {
238 stopd += S;
239 }
240 // Start gets clipped to zero; stop does not (yet).
241 if (startd < 0) {
242 startd = 0;
243 }
244 // Now start is non-negative, so can cast to size_t.
245 start = (size_type)startd;
246 if (start > S) {
247 start = S;
248 }
249 if (step > 0) {
250 // When stepping forward, stop gets clipped at zero,
251 // so is non-negative and can get cast to size_t.
252 if (stopd < 0) {
253 stopd = 0;
254 }
255 stop = (size_type)stopd;
256 if (stop > S) {
257 stop = S;
258 }
259 } else if (step < 0) {
260 // When stepping backward, stop gets clipped at -1 so that slices
261 // including 0 are possible.
262 if (stopd < 0) {
263 stopd = -1;
264 }
265 }
266
267 if (((step > 0) && (start >= stop)) || ((step < 0) && ((std::ptrdiff_t)start <= stopd))) {
268 // Empty range
269 return CatalogT<RecordT>(getTable(), begin(), begin());
270 }
271
272 if (step == 1) {
273 // Use the iterator-based constructor for this simple case
274 assert(start >= 0);
275 assert(stop > 0);
276 assert(start < S);
277 assert(stop <= S);
278 return CatalogT<RecordT>(getTable(), begin() + start, begin() + stop);
279 }
280
281 // Build a new CatalogT and copy records into it.
283 size_type N = 0;
284 if (step >= 0) {
285 N = (stop - start) / step + (((stop - start) % step) ? 1 : 0);
286 } else {
287 N = (size_t)((stopd - (std::ptrdiff_t)start) / step +
288 (((stopd - (std::ptrdiff_t)start) % step) ? 1 : 0));
289 }
290 cat.reserve(N);
291 if (step >= 0) {
292 for (size_type i = start; i < stop; i += step) {
293 cat.push_back(get(i));
294 }
295 } else {
296 for (std::ptrdiff_t i = (std::ptrdiff_t)start; i > stopd; i += step) {
297 cat.push_back(get(i));
298 }
299 }
300 return cat;
301 }
302
311 void writeFits(std::string const& filename, std::string const& mode = "w", int flags = 0) const {
312 io::FitsWriter::apply(filename, mode, *this, flags);
313 }
314
323 void writeFits(fits::MemFileManager& manager, std::string const& mode = "w", int flags = 0) const {
324 io::FitsWriter::apply(manager, mode, *this, flags);
325 }
326
334 void writeFits(fits::Fits& fitsfile, int flags = 0) const {
335 io::FitsWriter::apply(fitsfile, *this, flags);
336 }
337
348 static CatalogT readFits(std::string const& filename, int hdu = fits::DEFAULT_HDU, int flags = 0) {
349 return io::FitsReader::apply<CatalogT>(filename, hdu, flags);
350 }
351
362 static CatalogT readFits(fits::MemFileManager& manager, int hdu = fits::DEFAULT_HDU, int flags = 0) {
363 return io::FitsReader::apply<CatalogT>(manager, hdu, flags);
364 }
365
373 static CatalogT readFits(fits::Fits& fitsfile, int flags = 0) {
374 return io::FitsReader::apply<CatalogT>(fitsfile, flags);
375 }
376
384 throw LSST_EXCEPT(
386 "Cannot get a column view from a CatalogT<RecordT const> (as column views are always "
387 "non-const views).");
388 }
389 return ColumnView::make(_table, begin(), end());
390 }
391
393 bool isContiguous() const { return ColumnView::isRangeContiguous(_table, begin(), end()); }
394
396
401 iterator begin() { return iterator(_internal.begin()); }
402 iterator end() { return iterator(_internal.end()); }
403 const_iterator begin() const { return const_iterator(_internal.begin()); }
404 const_iterator end() const { return const_iterator(_internal.end()); }
405 const_iterator cbegin() const { return begin(); }
406 const_iterator cend() const { return end(); }
408
410 bool empty() const { return _internal.empty(); }
411
413 size_type size() const { return _internal.size(); }
414
416 size_type max_size() const { return _internal.max_size(); }
417
425 size_type capacity() const { return _internal.size() + _table->getBufferSize(); }
426
434 if (n <= _internal.size()) return;
435 _table->preallocate(n - _internal.size());
436 _internal.reserve(n);
437 }
438
441 size_type old = size();
442 _internal.resize(n);
443 if (old < n) {
444 _table->preallocate(n - old);
445 for (size_type i = old; i != n; ++i) {
446 _internal[i] = _table->makeRecord();
447 }
448 }
449 }
450
452 reference operator[](size_type i) const { return *_internal[i]; }
453
455 reference at(size_type i) const { return *_internal.at(i); }
456
458 reference front() const { return *_internal.front(); }
459
461 reference back() const { return *_internal.back(); }
462
464 std::shared_ptr<RecordT> const get(size_type i) const { return _internal[i]; }
465
467 void set(size_type i, std::shared_ptr<RecordT> const& p) { _internal[i] = p; }
468
474 template <typename InputIterator>
475 void assign(InputIterator first, InputIterator last, bool deep = false) {
476 clear();
477 insert(end(), first, last, deep);
478 }
479
481 void push_back(Record const& r) {
482 std::shared_ptr<RecordT> p = _table->copyRecord(r);
483 _internal.push_back(p);
484 }
485
487 void push_back(std::shared_ptr<RecordT> const& p) { _internal.push_back(p); }
488
491 std::shared_ptr<RecordT> r = _table->makeRecord();
492 _internal.push_back(r);
493 return r;
494 }
495
497 void pop_back() { _internal.pop_back(); }
498
500 CatalogT copy() const { return CatalogT(getTable()->clone(), begin(), end(), true); }
501
517 template <typename InputIterator>
518 void insert(iterator pos, InputIterator first, InputIterator last, bool deep = false) {
519 _maybeReserve(pos, first, last, deep,
521 if (deep) {
522 while (first != last) {
523 pos = insert(pos, *first);
524 ++pos;
525 ++first;
526 }
527 } else {
528 while (first != last) {
529 pos = insert(pos, first);
530 assert(pos != end());
531 ++pos;
532 ++first;
533 }
534 }
535 }
536
538 template <typename InputIterator>
539 void insert(SchemaMapper const& mapper, iterator pos, InputIterator first, InputIterator last) {
540 if (!_table->getSchema().contains(mapper.getOutputSchema())) {
542 "SchemaMapper's output schema does not match catalog's schema");
543 }
544 _maybeReserve(pos, first, last, true,
546 while (first != last) {
547 pos = insert(pos, _table->copyRecord(*first, mapper));
548 ++pos;
549 ++first;
550 }
551 }
552
555 std::shared_ptr<RecordT> p = _table->copyRecord(r);
556 return iterator(_internal.insert(pos.base(), p));
557 }
558
561 return iterator(_internal.insert(pos.base(), p));
562 }
563
565 iterator erase(iterator pos) { return iterator(_internal.erase(pos.base())); }
566
569 return iterator(_internal.erase(first.base(), last.base()));
570 }
571
573 void swap(CatalogT& other) noexcept {
574 _table.swap(other._table);
575 _internal.swap(other._internal);
576 }
577
579 void clear() { _internal.clear(); }
580
582 template <typename T>
583 bool isSorted(Key<T> const& key) const;
584
590 template <typename Compare>
591 bool isSorted(Compare cmp) const;
592
594 template <typename T>
595 void sort(Key<T> const& key);
596
602 template <typename Compare>
603 void sort(Compare cmp);
604
606
622 template <typename T>
623 iterator find(typename Field<T>::Value const& value, Key<T> const& key);
624
625 template <typename T>
626 const_iterator find(typename Field<T>::Value const& value, Key<T> const& key) const;
628
630
643 template <typename T>
644 iterator lower_bound(typename Field<T>::Value const& value, Key<T> const& key);
645
646 template <typename T>
647 const_iterator lower_bound(typename Field<T>::Value const& value, Key<T> const& key) const;
648
649 template <typename T>
650 iterator upper_bound(typename Field<T>::Value const& value, Key<T> const& key);
651
652 template <typename T>
653 const_iterator upper_bound(typename Field<T>::Value const& value, Key<T> const& key) const;
654
655 template <typename T>
657
658 template <typename T>
660 Key<T> const& key) const;
662
664
676 Internal& getInternal() { return _internal; }
677 Internal const& getInternal() const { return _internal; }
679
680private:
681 template <typename InputIterator>
682 void _maybeReserve(iterator& pos, InputIterator first, InputIterator last, bool deep,
684 if (deep) _table->preallocate(last - first);
685 }
686
687 template <typename InputIterator>
688 void _maybeReserve(iterator pos, InputIterator first, InputIterator last, bool deep,
690
692 Internal _internal;
693};
694
695namespace detail {
696
697template <typename RecordT, typename T>
699 bool operator()(RecordT const& a, RecordT const& b) const { return a.get(key) < b.get(key); }
700
702};
703
704template <typename RecordT, typename Adaptee>
707 return adaptee(*a, *b);
708 }
709
710 Adaptee adaptee;
711};
712
713template <typename RecordT, typename T>
715 using result_type = typename Field<T>::Value;
716
717 result_type operator()(RecordT const& r) const { return r.get(key); }
718
720};
721
722} // namespace detail
723
724template <typename RecordT>
725template <typename Compare>
726bool CatalogT<RecordT>::isSorted(Compare cmp) const {
729 if (empty()) return true;
730 const_iterator last = this->begin();
731 const_iterator i = last;
732 ++i;
733 for (; i != this->end(); ++i) {
734 if (f(i, last)) return false;
735 last = i;
736 }
737 return true;
738}
739
740template <typename RecordT>
741template <typename Compare>
742void CatalogT<RecordT>::sort(Compare cmp) {
744 std::stable_sort(_internal.begin(), _internal.end(), f);
745}
746
747template <typename RecordT>
748template <typename T>
749bool CatalogT<RecordT>::isSorted(Key<T> const& key) const {
751 return isSorted(f);
752}
753
754template <typename RecordT>
755template <typename T>
758 return sort(f);
759}
760
761template <typename RecordT>
762template <typename T>
764 Key<T> const& key) {
766 // Iterator adaptor that makes a CatalogT iterator work like an iterator over field values.
767 using SearchIter = boost::transform_iterator<detail::KeyExtractionFunctor<RecordT, T>, iterator>;
768 /* Try binary search for log n search assuming the table is sorted.
769 * If the search is unsuccessful, try a brute-force search before quitting.
770 */
771 SearchIter i = std::lower_bound(SearchIter(begin(), f), SearchIter(end(), f), value);
772 if (i.base() == end() || *i != value) {
773 i = std::find(SearchIter(begin(), f), SearchIter(end(), f), value);
774 if (i.base() == end()) {
775 return end();
776 }
777 LOGL_DEBUG("lsst.afw.table.Catalog", "Catalog is not sorted by the key. Finding a record may be slow.");
778 }
779 return i.base();
780}
781
782template <typename RecordT>
783template <typename T>
785 Key<T> const& key) const {
787 // Iterator adaptor that makes a CatalogT iterator work like an iterator over field values.
788 using SearchIter = boost::transform_iterator<detail::KeyExtractionFunctor<RecordT, T>, const_iterator>;
789 /* Try binary search for log n search assuming the table is sorted.
790 * If the search is unsuccessful, try a brute-force search before quitting.
791 */
792 SearchIter i = std::lower_bound(SearchIter(begin(), f), SearchIter(end(), f), value);
793 if (i.base() == end() || *i != value) {
794 i = std::find(SearchIter(begin(), f), SearchIter(end(), f), value);
795 if (i.base() == end()) {
796 return end();
797 }
798 LOGL_DEBUG("lsst.afw.table.Catalog", "Catalog is not sorted by the key. Finding a record may be slow.");
799 }
800 return i.base();
801}
802
803template <typename RecordT>
804template <typename T>
806 Key<T> const& key) {
808 // Iterator adaptor that makes a CatalogT iterator work like an iterator over field values.
809 using SearchIter = boost::transform_iterator<detail::KeyExtractionFunctor<RecordT, T>, iterator>;
810 SearchIter i = std::lower_bound(SearchIter(begin(), f), SearchIter(end(), f), value);
811 return i.base();
812}
813
814template <typename RecordT>
815template <typename T>
817 typename Field<T>::Value const& value, Key<T> const& key) const {
819 // Iterator adaptor that makes a CatalogT iterator work like an iterator over field values.
820 using SearchIter = boost::transform_iterator<detail::KeyExtractionFunctor<RecordT, T>, const_iterator>;
821 SearchIter i = std::lower_bound(SearchIter(begin(), f), SearchIter(end(), f), value);
822 return i.base();
823}
824
825template <typename RecordT>
826template <typename T>
828 Key<T> const& key) {
830 // Iterator adaptor that makes a CatalogT iterator work like an iterator over field values.
831 using SearchIter = boost::transform_iterator<detail::KeyExtractionFunctor<RecordT, T>, iterator>;
832 SearchIter i = std::upper_bound(SearchIter(begin(), f), SearchIter(end(), f), value);
833 return i.base();
834}
835
836template <typename RecordT>
837template <typename T>
839 typename Field<T>::Value const& value, Key<T> const& key) const {
841 // Iterator adaptor that makes a CatalogT iterator work like an iterator over field values.
842 using SearchIter = boost::transform_iterator<detail::KeyExtractionFunctor<RecordT, T>, const_iterator>;
843 SearchIter i = std::upper_bound(SearchIter(begin(), f), SearchIter(end(), f), value);
844 return i.base();
845}
846
847template <typename RecordT>
848template <typename T>
850CatalogT<RecordT>::equal_range(typename Field<T>::Value const& value, Key<T> const& key) {
852 // Iterator adaptor that makes a CatalogT iterator work like an iterator over field values.
853 using SearchIter = boost::transform_iterator<detail::KeyExtractionFunctor<RecordT, T>, iterator>;
855 std::equal_range(SearchIter(begin(), f), SearchIter(end(), f), value);
856 return std::make_pair(i.first.base(), i.second.base());
857}
858
859template <typename RecordT>
860template <typename T>
862CatalogT<RecordT>::equal_range(typename Field<T>::Value const& value, Key<T> const& key) const {
864 // Iterator adaptor that makes a CatalogT iterator work like an iterator over field values.
865 using SearchIter = boost::transform_iterator<detail::KeyExtractionFunctor<RecordT, T>, const_iterator>;
867 std::equal_range(SearchIter(begin(), f), SearchIter(end(), f), value);
868 return std::make_pair(i.first.base(), i.second.base());
869}
870
872
893template <typename RecordT, typename Catalog, typename T>
894std::shared_ptr<RecordT> _Catalog_find(Catalog const& catalog, T const& value, Key<T> const& key) {
895 typename Catalog::const_iterator iter = catalog.find(value, key);
896 if (iter == catalog.end()) {
898 }
899 return iter; // n.b. CatalogIterator is explicitly convertible to shared_ptr
900}
901
902template <typename Catalog, typename T>
903int _Catalog_lower_bound(Catalog const& catalog, T const& value, Key<T> const& key) {
904 return catalog.lower_bound(value, key) - catalog.begin();
905}
906
907template <typename Catalog, typename T>
908int _Catalog_upper_bound(Catalog const& catalog, T const& value, Key<T> const& key) {
909 return catalog.upper_bound(value, key) - catalog.begin();
910}
911
912template <typename Catalog, typename T>
913std::pair<int, int> _Catalog_equal_range(Catalog const& catalog, T const& value, Key<T> const& key) {
915 catalog.equal_range(value, key);
916 return std::pair<int, int>(p.first - catalog.begin(), p.second - catalog.begin());
917}
918
920} // namespace table
921} // namespace afw
922} // namespace lsst
923
924#endif // !AFW_TABLE_Catalog_h_INCLUDED
py::object result
Definition _schema.cc:429
int const step
int end
#define LSST_EXCEPT(type,...)
Create an exception with a given type.
Definition Exception.h:48
afw::table::Key< afw::table::Array< MaskPixelT > > mask
LSST DM logging module built on log4cxx.
#define LOGL_DEBUG(logger, message...)
Log a debug-level message using a varargs/printf style interface.
Definition Log.h:515
SchemaMapper * mapper
table::Key< int > b
table::Key< int > a
table::Schema schema
Definition python.h:134
T at(T... args)
T back(T... args)
Basic LSST definitions.
T begin(T... args)
A simple struct that combines the two arguments that must be passed to most cfitsio routines and cont...
Definition fits.h:308
Lifetime-management for memory that goes into FITS memory files.
Definition fits.h:125
Iterator class for CatalogT.
Definition Catalog.h:40
CatalogIterator(BaseT const &base)
Definition Catalog.h:48
CatalogIterator & operator=(std::shared_ptr< RecordT > const &other) const
Definition Catalog.h:56
friend class boost::iterator_core_access
Definition Catalog.h:62
CatalogIterator(CatalogIterator< OtherBaseT > const &other)
Definition Catalog.h:45
A custom container class for records, based on std::vector.
Definition Catalog.h:98
void clear()
Remove all records from the catalog.
Definition Catalog.h:579
CatalogT & operator=(CatalogT &&other)
Definition Catalog.h:178
size_type capacity() const
Return the capacity of the catalog.
Definition Catalog.h:425
CatalogT(CatalogT const &other)
Shallow copy constructor.
Definition Catalog.h:153
const_iterator lower_bound(typename Field< T >::Value const &value, Key< T > const &key) const
Definition Catalog.h:816
std::shared_ptr< RecordT > const get(size_type i) const
Return a pointer to the record at index i.
Definition Catalog.h:464
ColumnView getColumnView() const
Return a ColumnView of this catalog's records.
Definition Catalog.h:382
void pop_back()
Remove the last record in the catalog.
Definition Catalog.h:497
void push_back(std::shared_ptr< RecordT > const &p)
Add the given record to the end of the catalog without copying.
Definition Catalog.h:487
reference at(size_type i) const
Return the record at index i (throws std::out_of_range).
Definition Catalog.h:455
static CatalogT readFits(std::string const &filename, int hdu=fits::DEFAULT_HDU, int flags=0)
Read a FITS binary table from a regular file.
Definition Catalog.h:348
iterator erase(iterator first, iterator last)
Erase the records in the range [first, last).
Definition Catalog.h:568
void set(size_type i, std::shared_ptr< RecordT > const &p)
Set the record at index i to a pointer.
Definition Catalog.h:467
iterator insert(iterator pos, Record const &r)
Insert a copy of the given record at the given position.
Definition Catalog.h:554
typename Record::ColumnView ColumnView
Definition Catalog.h:104
const_iterator end() const
Definition Catalog.h:404
const_iterator cend() const
Definition Catalog.h:406
size_type size() const
Return the number of elements in the catalog.
Definition Catalog.h:413
bool empty() const
Return true if the catalog has no records.
Definition Catalog.h:410
static CatalogT readFits(fits::MemFileManager &manager, int hdu=fits::DEFAULT_HDU, int flags=0)
Read a FITS binary table from a RAM file.
Definition Catalog.h:362
void assign(InputIterator first, InputIterator last, bool deep=false)
Replace the contents of the table with an iterator range.
Definition Catalog.h:475
bool isContiguous() const
Return true if all records are contiguous.
Definition Catalog.h:393
iterator find(typename Field< T >::Value const &value, Key< T > const &key)
Return an iterator to the record with the given value.
Definition Catalog.h:763
iterator upper_bound(typename Field< T >::Value const &value, Key< T > const &key)
Definition Catalog.h:827
CatalogT< RecordT > subset(std::ptrdiff_t startd, std::ptrdiff_t stopd, std::ptrdiff_t step) const
Returns a shallow copy of a subset of this Catalog.
Definition Catalog.h:206
CatalogT(Schema const &schema)
Construct a catalog from a schema, creating a table with Table::make(schema).
Definition Catalog.h:134
std::shared_ptr< RecordT > addNew()
Create a new record, add it to the end of the catalog, and return a pointer to it.
Definition Catalog.h:490
reference back() const
Return the last record.
Definition Catalog.h:461
iterator insert(iterator pos, std::shared_ptr< RecordT > const &p)
Insert the given record at the given position without copying.
Definition Catalog.h:560
std::pair< iterator, iterator > equal_range(typename Field< T >::Value const &value, Key< T > const &key)
CatalogIterator< typename Internal::iterator > iterator
Definition Catalog.h:111
std::pair< const_iterator, const_iterator > equal_range(typename Field< T >::Value const &value, Key< T > const &key) const
CatalogT(CatalogT< OtherRecordT > const &other)
Shallow copy constructor from a container containing a related record type.
Definition Catalog.h:166
iterator begin()
Iterator access.
Definition Catalog.h:401
iterator erase(iterator pos)
Erase the record pointed to by pos, and return an iterator the next record.
Definition Catalog.h:565
CatalogT(CatalogT &&other)
Definition Catalog.h:155
CatalogIterator< typename Internal::const_iterator > const_iterator
Definition Catalog.h:112
void reserve(size_type n)
Increase the capacity of the catalog to the given size.
Definition Catalog.h:433
reference operator[](size_type i) const
Return the record at index i.
Definition Catalog.h:452
iterator lower_bound(typename Field< T >::Value const &value, Key< T > const &key)
Performed binary searches on sorted fields.
Definition Catalog.h:805
typename Record::Table Table
Definition Catalog.h:103
typename Internal::size_type size_type
Definition Catalog.h:109
CatalogT< RecordT > subset(ndarray::Array< bool const, 1 > const &mask) const
Return the subset of a catalog corresponding to the True values of the given mask array.
Definition Catalog.h:185
CatalogT(std::shared_ptr< Table > const &table=std::shared_ptr< Table >())
Construct a catalog from a table (or nothing).
Definition Catalog.h:125
reference front() const
Return the first record.
Definition Catalog.h:458
const_iterator begin() const
Definition Catalog.h:403
void sort(Key< T > const &key)
Sort the catalog in-place by the field with the given key.
Definition Catalog.h:756
void resize(size_type n)
Change the size of the catalog, removing or adding empty records as needed.
Definition Catalog.h:440
size_type max_size() const
Return the maximum number of elements allowed in a catalog.
Definition Catalog.h:416
CatalogT copy() const
Deep-copy the catalog using a cloned table.
Definition Catalog.h:500
void writeFits(fits::MemFileManager &manager, std::string const &mode="w", int flags=0) const
Write a FITS binary table to a RAM file.
Definition Catalog.h:323
void writeFits(fits::Fits &fitsfile, int flags=0) const
Write a FITS binary table to an open file object.
Definition Catalog.h:334
void insert(iterator pos, InputIterator first, InputIterator last, bool deep=false)
Insert an iterator range into the table.
Definition Catalog.h:518
Internal const & getInternal() const
Definition Catalog.h:677
CatalogT & operator=(CatalogT const &other)
Shallow assigment.
Definition Catalog.h:170
Internal & getInternal()
Return a reference to the internal vector-of-shared_ptr.
Definition Catalog.h:676
static CatalogT readFits(fits::Fits &fitsfile, int flags=0)
Read a FITS binary table from a file object already at the correct extension.
Definition Catalog.h:373
std::shared_ptr< Table > getTable() const
Return the table associated with the catalog.
Definition Catalog.h:115
const_iterator upper_bound(typename Field< T >::Value const &value, Key< T > const &key) const
Definition Catalog.h:838
Schema getSchema() const
Return the schema associated with the catalog's table.
Definition Catalog.h:118
void writeFits(std::string const &filename, std::string const &mode="w", int flags=0) const
Write a FITS binary table to a regular file.
Definition Catalog.h:311
CatalogT(std::shared_ptr< Table > const &table, InputIterator first, InputIterator last, bool deep=false)
Construct a catalog from a table and an iterator range.
Definition Catalog.h:147
bool isSorted(Key< T > const &key) const
Return true if the catalog is in ascending order according to the given key.
Definition Catalog.h:749
void insert(SchemaMapper const &mapper, iterator pos, InputIterator first, InputIterator last)
Insert a range of records into the catalog by copying them with a SchemaMapper.
Definition Catalog.h:539
void swap(CatalogT &other) noexcept
Shallow swap of two catalogs.
Definition Catalog.h:573
void push_back(Record const &r)
Add a copy of the given record to the end of the catalog.
Definition Catalog.h:481
const_iterator cbegin() const
Definition Catalog.h:405
typename Internal::difference_type difference_type
Definition Catalog.h:110
A class used as a handle to a particular field in a table.
Definition Key.h:53
Defines the fields and offsets for a table.
Definition Schema.h:51
A mapping between the keys of two Schemas, used to copy data between them.
typename Base::const_iterator const_iterator
typename Base::iterator iterator
static void apply(OutputT &output, std::string const &mode, ContainerT const &container, int flags)
Driver for writing FITS files.
Definition FitsWriter.h:37
Reports invalid arguments.
Definition Runtime.h:66
Reports attempts to exceed implementation-defined length limits for some classes.
Definition Runtime.h:76
Reports errors in the logical structure of the program.
Definition Runtime.h:46
T clear(T... args)
T empty(T... args)
T end(T... args)
T equal_range(T... args)
T erase(T... args)
T find(T... args)
T front(T... args)
T insert(T... args)
T lower_bound(T... args)
T make_pair(T... args)
T max_size(T... args)
const int DEFAULT_HDU
Specify that the default HDU should be read.
int _Catalog_upper_bound(Catalog const &catalog, T const &value, Key< T > const &key)
Definition Catalog.h:908
std::shared_ptr< RecordT > _Catalog_find(Catalog const &catalog, T const &value, Key< T > const &key)
Definition Catalog.h:894
std::pair< int, int > _Catalog_equal_range(Catalog const &catalog, T const &value, Key< T > const &key)
Definition Catalog.h:913
int _Catalog_lower_bound(Catalog const &catalog, T const &value, Key< T > const &key)
Definition Catalog.h:903
T pop_back(T... args)
T push_back(T... args)
T reserve(T... args)
T resize(T... args)
T size(T... args)
T stable_sort(T... args)
T Value
the type returned by BaseRecord::get
Definition FieldBase.h:42
bool operator()(std::shared_ptr< RecordT > const &a, std::shared_ptr< RecordT > const &b) const
Definition Catalog.h:706
bool operator()(RecordT const &a, RecordT const &b) const
Definition Catalog.h:699
result_type operator()(RecordT const &r) const
Definition Catalog.h:717
typename Field< T >::Value result_type
Definition Catalog.h:715
T swap(T... args)
T upper_bound(T... args)