This document discusses the conventions for combining region and table filters, especially with regards to the comma operator.
Filter specifications consist of a series of boolean expressions, separated by commas. These expressions can be table filters, spatial region filters, or combinations thereof. Unfortunately, common usage requires that the comma operator must act differently in different situations. Therefore, while its use is intuitive in most cases, commas can be a source of confusion.
According to long-standing usage in IRAF, when a comma separates two table filters, it takes on the meaning of a boolean and. Thus:
foo.fits[pha==1,pi==2]is equivalent to:
foo.fits[pha==1 && pi==2]When a comma separates two spatial region filters, however, it has traditionally taken on the meaning of a boolean or. Thus:
foo.fits[circle(10,10,3),ellipse(20,20,8,5)]is equivalent to:
foo.fits[circle(10,10,3) || ellipse(20,20,8,5)](except that in the former case, each region is given a unique id in programs such as funcnts).
Region and table filters can be combined:
foo.fits[circle(10,10,3),pi=1:5]or even:
foo.fits[pha==1&&circle(10,10,3),pi==2&&ellipse(20,20,8,5)]In these cases, it is not obvious whether the command should utilize an or or and operator. We therefore arbitrarily chose to implement the following rule:
foo.fits[circle(10,10,3),pi=1:5]and
foo.fits[pi=1:5,circle(10,10,3)]both are equivalent to:
foo.fits[circle(10,10,3) && pi=1:5]
[NB: This arbitrary rule replaces the previous arbitrary rule (pre-funtools 1.2.3) which stated:
pha==4,circle 5 5 1while the and operator was implied by
circle 5 5 1,pha==4Experience showed that this non-commutative treatment of the comma operator was confusing and led to unexpected results.]
The comma rule must be considered provisional: comments and complaints are welcome to help clarify the matter. Better still, we recommend that the comma operator be avoided in such cases in favor of an explicit boolean operator.