| Version: | 5.9.0 |
|---|---|
| Manual group: | Universal Ctags |
| Manual section: | 1 |
The readtags program filters, sorts and prints tag entries in a tags file. The basic filtering is done using actions, by which you can list all regular tags, pseudo tags or regular tags matching specific name. Then, further filtering and sorting can be done using post processors, namely filter expressions and sorter expressions.
The behavior of reading tags can be controlled using these options:
The NAME action will perform binary search on sorted (including "foldcase") tags files, which is much faster then on unsorted tags files.
The behavior of the NAME action can be controlled using these options:
By default, the output of readtags contains only the name, input and pattern field. The Output can be tweaked using these options:
About the -E option: certain characters are escaped in a tags file, to make it machine-readable. e.g., ensuring no tabs character appear in fields other than the pattern field. By default, readtags translates them to make it human-readable, but when utilizing readtags output in a script or a client tool, -E option should be used. See ctags-client-tools(7) for more discussion on this.
Further filtering and sorting on the tags listed by actions are performed using:
These are discussed in the EXPRESSION section.
List all tags in "/path/to/tags":
$ readtags -t /path/to/tags -l
List all tags in "tags" that start with "mymethod":
$ readtags -p - mymethod
List all tags matching "mymethod", case insensitively:
$ readtags -i - mymethod
List all tags start with "myvar", and printing all fields (i.e., the whole line):
$ readtags -p -ne - myvar
Scheme-style expressions are used for the -Q and -S options. For those who doesn't know Scheme or Lisp, just remember:
So, (+ 1 (+ 2 3)) means add 2 and 3 first, then add the result with 1. (and "string" 1 #t) means logical AND on "string", 1 and #t, and the result is true since there is no #f.
The tag entries that make the filter expression produces true value are printed by readtags.
The basic operators for filtering are eq?, prefix?, suffix?, substr?, and #/PATTERN/. Language common fields can be accessed using variables starting with $, e.g., $language represents the language field. For example:
List all tags start with "myfunc" in Python code files:
$ readtags -p -Q '(eq? $language "Python")' - myfunc
downcase or upcase operators can be used to perform case-insensitive matching:
List all tags containing "my", case insensitively:
$ readtags -Q '(substr? (downcase $name) "my")' -l
We have logical operators like and, or and not. The value of a missing field is #f, so we could deal with missing fields:
List all tags containing "impl" in Python code files, but allow the language: field to be missing:
$ readtags -Q '(and (substr? $name "impl")\ (or (not $language)\ (eq? $language "Python")))' -l
#/PATTERN/ is for the case when string predicates (prefix?, suffix?, and substr?) are not enough. You can use "Posix extended regular expression" as PATTERN.
List all tags inherits from the class "A":
$ readtags -Q '(#/(^|,) ?A(,|$)/ $inherits)' -l
Here $inherits is a comma-separated class list like "A,B,C", "P, A, Q", or just "A". Notice that this filter works on both situations where there's a space after each comma or there's not.
Case-insensitive matching can be performed by #/PATTERN/i:
List all tags inherits from the class "A" or "a":
$ readtags -Q '(#/(^|,) ?A(,|$)/i $inherits)' -l
To include "/" in a pattern, prefix \ to the "/".
NOTE: The above regular expression pattern for inspecting inheritances is just an example to show how to use #/PATTERN/ expression. Tags file generators have no consensus about the format of inherits:, e.g., whether there should be a space after a comma. Even parsers in ctags have no consensus. Noticing the format of the inherits: field of specific languages is needed for such queries.
The expressions #/PATTERN/ and #/PATTERN/i are for interactive use. Readtags also offers an alias string->regexp, so #/PATTERN/ is equal to (string->regexp "PATTERN"), and #/PATTERN/i is equal to (string->regexp "PATTERN" :case-fold #t). string->regexp doesn't need to prefix \ for including "/" in a pattern. string->regexp may simplify a client tool building an expression. See also ctags-client-tools(7) for building expressions in your tool.
Let's now consider missing fields. The tags file may have tag entries that has no inherits: field. In that case $inherits is #f, and the regular expression matching raises an error, since string operators only work for strings. To avoid this problem:
Safely list all tags inherits from the class "A":
$ readtags -Q '(and $inherits (#/(^|,) ?A(,|$)/ $inherits))' -l
This makes sure $inherits is not missing first, then match it by regexp.
Sometimes you want to keep tags where the field is missing. For example, your want to exclude reference tags, which is marked by the extras: field, then you want to keep tags who doesn't have extras: field since they are also not reference tags. Here's how to do it:
List all tags but the reference tags:
$ readtags -Q '(or (not $extras) (#/(^|,) ?reference(,|$)/ $extras))' -l
Notice that (not $extras) produces #t when $extras is missing, so the whole or expression produces #t.
Run "readtags -H filter" to know about all valid functions and variables.
When sorting, the sorter expression is evaluated on two tag entries to decide which should sort before the other one, until the order of all tag entries is decided.
In a sorter expression, $ and & are used to access the fields in the two tag entries, and let's call them $-entry and &-entry. The sorter expression should have a value of -1, 0 or 1. The value -1 means the $-entry should be put above the &-entry, 1 means the contrary, and 0 makes their order in the output uncertain.
The core operator of sorting is <>. It's used to compare two strings or two numbers (numbers are for the line: or end: fields). In (<> a b), if a < b, the result is -1; a > b produces 1, and a = b produces 0. Strings are compared using the strcmp function, see strcmp(3).
For example, sort by names, and make those shorter or alphabetically smaller ones appear before the others:
$ readtags -S '(<> $name &name)' -l
This reads "If the tag name in the $-entry is smaller, it goes before the &-entry".
The <or> operator is used to chain multiple expressions until one returns -1 or 1. For example, sort by input file names, then line numbers if in the same file:
$ readtags -S '(<or> (<> $input &input) (<> $line &line))' -l
The *- operator is used to flip the compare result. i.e., (*- (<> a b)) is the same as (<> b a).
Filter expressions can be used in sorter expressions. The technique is use if to produce integers that can be compared based on the filter, like:
(<> (if filter-expr-on-$-entry -1 1) (if filter-expr-on-&-entry -1 1))
So if $-entry satisfies the filter, while &-entry doesn't, it's the same as (<> -1 1), which produces -1.
For example, we want to put tags with "file" kind below other tags, then the sorter would look like:
(<> (if (eq? $kind "file") 1 -1) (if (eq? &kind "file") 1 -1))
A quick read tells us: If $-entry has "file" kind, and &-entry doesn't, the sorter becomes (<> 1 -1), which produces 1, so the $-entry is put below the &-entry, exactly what we want.
The print operator can be used to print the value of an expression. For example:
$ readtags -Q '(print $name)' -l
prints the name of each tag entry before it. Since the return value of print is not #f, all the tag entries are printed. We could control this using the begin or begin0 operator. begin returns the value of its last argument, and begin0 returns the value of its first argument. For example:
$ readtags -Q '(begin0 #f (print (prefix? "ctags" "ct")))' -l
prints a bunch of "#t" (depending on how many lines are in the tags file), and the actual tag entries are not printed.
See tags(5) for the details of tags file format.
See ctags-client-tools(7) for the tips writing a tool utilizing tags file.
The official Universal Ctags web site at:
The git repository for the library used in readtags command:
Universal Ctags project https://ctags.io/
Darren Hiebert <dhiebert@users.sourceforge.net> http://DarrenHiebert.com/
The readtags command and libreadtags maintained at Universal Ctags are derived from readtags.c and readtags.h developd at http://ctags.sourceforge.net.