LSSTApplications  17.0+11,17.0+34,17.0+56,17.0+57,17.0+59,17.0+7,17.0-1-g377950a+33,17.0.1-1-g114240f+2,17.0.1-1-g4d4fbc4+28,17.0.1-1-g55520dc+49,17.0.1-1-g5f4ed7e+52,17.0.1-1-g6dd7d69+17,17.0.1-1-g8de6c91+11,17.0.1-1-gb9095d2+7,17.0.1-1-ge9fec5e+5,17.0.1-1-gf4e0155+55,17.0.1-1-gfc65f5f+50,17.0.1-1-gfc6fb1f+20,17.0.1-10-g87f9f3f+1,17.0.1-11-ge9de802+16,17.0.1-16-ga14f7d5c+4,17.0.1-17-gc79d625+1,17.0.1-17-gdae4c4a+8,17.0.1-2-g26618f5+29,17.0.1-2-g54f2ebc+9,17.0.1-2-gf403422+1,17.0.1-20-g2ca2f74+6,17.0.1-23-gf3eadeb7+1,17.0.1-3-g7e86b59+39,17.0.1-3-gb5ca14a,17.0.1-3-gd08d533+40,17.0.1-30-g596af8797,17.0.1-4-g59d126d+4,17.0.1-4-gc69c472+5,17.0.1-6-g5afd9b9+4,17.0.1-7-g35889ee+1,17.0.1-7-gc7c8782+18,17.0.1-9-gc4bbfb2+3,w.2019.22
LSSTDataManagementBasePackage
FitsWriter.cc
Go to the documentation of this file.
1 // -*- lsst-c++ -*-
2 
3 #include <memory>
4 
8 
9 namespace lsst {
10 namespace afw {
11 namespace table {
12 namespace io {
13 
14 namespace {
15 
16 typedef FitsWriter::Fits Fits;
17 
18 //----- Code to write FITS headers --------------------------------------------------------------------------
19 
20 // The driver code is at the bottom of this section; it's easier to understand if you start there
21 // and work your way up.
22 
23 // A Schema::forEach functor that writes FITS header keys for a field when it is called.
24 struct ProcessSchema {
25  template <typename T>
26  void operator()(SchemaItem<T> const& item) const {
27  std::string name = item.field.getName();
28  int n = fits->addColumn<typename Field<T>::Element>(name, item.field.getElementCount(),
29  item.field.getDoc());
30  if (!item.field.getDoc().empty()) {
31  // We use a separate key TDOCn for documentation (in addition to the TTYPEn comments)
32  // so we can have long strings via the CONTINUE convention.
33  // When reading, if there is no TDOCn, we'll just use the TTYPEn comment.
34  fits->writeColumnKey("TDOC", n, item.field.getDoc());
35  }
36  specialize(item, n); // delegate to other member functions that are specialized on field tag types
37  }
38 
39  void operator()(SchemaItem<std::string> const& item) const {
40  std::string name = item.field.getName();
41  int n = fits->addColumn<std::string>(name, item.field.getElementCount(), item.field.getDoc());
42  if (!item.field.getDoc().empty()) {
43  fits->writeColumnKey("TDOC", n, item.field.getDoc());
44  }
45  specialize(item, n);
46  }
47 
48  void operator()(SchemaItem<Flag> const& item) const {
49  std::string name = item.field.getName();
50  fits->writeColumnKey("TFLAG", nFlags, name);
51  if (!item.field.getDoc().empty()) {
52  // We use a separate key TFDOCn for documentation instead of the comment on TFLAGn so
53  // we can have long strings via the CONTINUE convention.
54  // When reading, if there is no TFDOCn, we'll use the TTYPEn comment.
55  fits->writeColumnKey("TFDOC", nFlags, item.field.getDoc());
56  }
57  ++nFlags;
58  }
59 
60  // Create and apply the functor to a schema.
61  static void apply(Fits& fits, Schema const& schema) {
62  ProcessSchema f = {&fits, 0};
63  schema.forEach(f);
64  }
65 
66  template <typename T>
67  void specialize(SchemaItem<T> const& item, int n) const {
68  if (!item.field.getUnits().empty()) fits->writeColumnKey("TUNIT", n, item.field.getUnits());
69  fits->writeColumnKey("TCCLS", n, "Scalar", "Field template used by lsst.afw.table");
70  }
71 
72  void specialize(SchemaItem<lsst::geom::Angle> const& item, int n) const {
73  // Always write units for lsst::geom::Angles as radians (in-memory lsst::geom::Angles field don't use
74  // the unit attribute, single lsst::geom::Angle abstracts that away).
75  fits->writeColumnKey("TUNIT", n, "rad");
76  fits->writeColumnKey("TCCLS", n, "Angle", "Field template used by lsst.afw.table");
77  }
78 
79  template <typename T>
80  void specialize(SchemaItem<Array<T> > const& item, int n) const {
81  if (!item.field.getUnits().empty()) fits->writeColumnKey("TUNIT", n, item.field.getUnits());
82  fits->writeColumnKey("TCCLS", n, "Array", "Field template used by lsst.afw.table");
83  }
84 
85  void specialize(SchemaItem<std::string> const& item, int n) const {
86  if (!item.field.getUnits().empty()) fits->writeColumnKey("TUNIT", n, item.field.getUnits());
87  fits->writeColumnKey("TCCLS", n, "String", "Field template used by lsst.afw.table");
88  }
89 
90  Fits* fits;
91  mutable int nFlags;
92 };
93 
94 void writeAliasMap(Fits& fits, AliasMap const& aliases) {
95  for (AliasMap::Iterator i = aliases.begin(); i != aliases.end(); ++i) {
96  fits.writeKey("ALIAS", i->first + ":" + i->second);
97  }
98 }
99 
100 } // namespace
101 
102 // the driver for all the above machinery
104  Schema schema = table->getSchema();
105  _fits->createTable();
106  LSST_FITS_CHECK_STATUS(*_fits, "creating table");
107  int nFlags = schema.getFlagFieldCount();
108  if (nFlags > 0) {
109  int n = _fits->addColumn<bool>("flags", nFlags, "bits for all Flag fields; see also TFLAGn");
110  _fits->writeKey("FLAGCOL", n + 1, "Column number for the bitflags.");
111  }
112  ProcessSchema::apply(*_fits, schema);
113  writeAliasMap(*_fits, *schema.getAliasMap());
114  // write the version number to the fits header, plus any other metadata
115  std::shared_ptr<daf::base::PropertyList> metadata = table->getMetadata();
116  if (!metadata) {
117  metadata = std::make_shared<daf::base::PropertyList>();
118  }
119  metadata->set<int>("AFW_TABLE_VERSION", Schema::VERSION);
120  _fits->writeMetadata(*metadata);
121  // In case the metadata was attached to the table, clean it up.
122  metadata->remove("AFW_TABLE_VERSION");
123  _row = -1;
124  _fits->addRows(nRows);
125  _processor = std::make_shared<ProcessRecords>(_fits, schema, nFlags, _row);
126 }
127 
128 //----- Code for writing FITS records -----------------------------------------------------------------------
129 
130 // The driver code is at the bottom of this section; it's easier to understand if you start there
131 // and work your way up.
132 
133 // A Schema::forEach functor that writes table data for a single record when it is called.
134 // We instantiate one of these, then reuse it on all the records after updating the data
135 // members that tell it which record and row number it's on.
137  template <typename T>
138  void operator()(SchemaItem<T> const& item) const {
139  fits->writeTableArray(row, col, item.key.getElementCount(), record->getElement(item.key));
140  ++col;
141  }
142 
143  template <typename T>
144  void operator()(SchemaItem<Array<T> > const& item) const {
145  if (item.key.isVariableLength()) {
146  ndarray::Array<T const, 1, 1> array = record->get(item.key);
147  fits->writeTableArray(row, col, array.template getSize<0>(), array.getData());
148  } else {
149  fits->writeTableArray(row, col, item.key.getElementCount(), record->getElement(item.key));
150  }
151  ++col;
152  }
153 
154  void operator()(SchemaItem<std::string> const& item) const {
155  // Write fixed-length and variable-length strings the same way
156  fits->writeTableScalar(row, col, record->get(item.key));
157  ++col;
158  }
159 
160  void operator()(SchemaItem<Flag> const& item) const {
161  flags[bit] = record->get(item.key);
162  ++bit;
163  }
164 
165  ProcessRecords(Fits* fits_, Schema const& schema_, int nFlags_, std::size_t const& row_)
166  : row(row_), col(0), bit(0), nFlags(nFlags_), fits(fits_), schema(schema_) {
167  if (nFlags) flags.reset(new bool[nFlags]);
168  }
169 
170  void apply(BaseRecord const* r) {
171  record = r;
172  col = 0;
173  bit = 0;
174  if (nFlags) ++col;
175  schema.forEach(*this);
176  if (nFlags) fits->writeTableArray(row, 0, nFlags, flags.get());
177  }
178 
179  std::size_t const& row;
180  mutable int col;
181  mutable int bit;
182  int nFlags;
183  Fits* fits;
187 };
188 
190  ++_row;
191  _processor->apply(&record);
192 }
193 } // namespace io
194 } // namespace table
195 } // namespace afw
196 } // namespace lsst
int col
Definition: CR.cc:144
Defines the fields and offsets for a table.
Definition: Schema.h:50
#define LSST_FITS_CHECK_STATUS(fitsObj,...)
Throw a FitsError exception if the status of the given Fits object is nonzero.
Definition: fits.h:111
void operator()(SchemaItem< std::string > const &item) const
Definition: FitsWriter.cc:154
T end(T... args)
Fits * fits
Definition: FitsWriter.cc:90
STL class.
A base class for image defects.
table::Schema schema
Definition: Camera.cc:161
Tag types used to declare specialized field types.
Definition: misc.h:32
int getFlagFieldCount() const
The number of Flag fields.
Definition: Schema.h:154
void operator()(SchemaItem< T > const &item) const
Definition: FitsWriter.cc:138
ProcessRecords(Fits *fits_, Schema const &schema_, int nFlags_, std::size_t const &row_)
Definition: FitsWriter.cc:165
virtual void _writeTable(std::shared_ptr< BaseTable const > const &table, std::size_t nRows)
Write a table and its schema.
Definition: FitsWriter.cc:103
void operator()(SchemaItem< Array< T > > const &item) const
Definition: FitsWriter.cc:144
std::shared_ptr< AliasMap > getAliasMap() const
Return the map of aliases.
Definition: Schema.h:269
Base class for all records.
Definition: BaseRecord.h:31
static int const VERSION
Definition: Schema.h:56
T begin(T... args)
virtual void _writeRecord(BaseRecord const &source)
Write an individual record.
Definition: FitsWriter.cc:189
FieldBase< T >::Element Element
Type used to store field data in the table (a field may have multiple elements).
Definition: Field.h:26
int nFlags
Definition: FitsWriter.cc:91
std::map< std::string, std::string >::const_iterator Iterator
An iterator over alias->target pairs.
Definition: AliasMap.h:57
int row
Definition: CR.cc:145
void operator()(SchemaItem< Flag > const &item) const
Definition: FitsWriter.cc:160
A simple pair-like struct for mapping a Field (name and description) with a Key (used for actual data...
Definition: SchemaImpl.h:27