Provided by: pcre2-utils_10.40-1ubuntu1_amd64 
NAME
pcre2test - a program for testing Perl-compatible regular expressions.
SYNOPSIS
pcre2test [options] [input file [output file]]
pcre2test is a test program for the PCRE2 regular expression libraries, but it can also be
used for experimenting with regular expressions. This document describes the features of
the test program; for details of the regular expressions themselves, see the pcre2pattern
documentation. For details of the PCRE2 library function calls and their options, see the
pcre2api documentation.
The input for pcre2test is a sequence of regular expression patterns and subject strings
to be matched. There are also command lines for setting defaults and controlling some
special actions. The output shows the result of each match attempt. Modifiers on external
or internal command lines, the patterns, and the subject lines specify PCRE2 function
options, control how the subject is processed, and what output is produced.
There are many obscure modifiers, some of which are specifically designed for use in
conjunction with the test script and data files that are distributed as part of PCRE2. All
the modifiers are documented here, some without much justification, but many of them are
unlikely to be of use except when testing the libraries.
PCRE2's 8-BIT, 16-BIT AND 32-BIT LIBRARIES
Different versions of the PCRE2 library can be built to support character strings that are
encoded in 8-bit, 16-bit, or 32-bit code units. One, two, or all three of these libraries
may be simultaneously installed. The pcre2test program can be used to test all the
libraries. However, its own input and output are always in 8-bit format. When testing the
16-bit or 32-bit libraries, patterns and subject strings are converted to 16-bit or 32-bit
format before being passed to the library functions. Results are converted back to 8-bit
code units for output.
In the rest of this document, the names of library functions and structures are given in
generic form, for example, pcre2_compile(). The actual names used in the libraries have a
suffix _8, _16, or _32, as appropriate.
INPUT ENCODING
Input to pcre2test is processed line by line, either by calling the C library's fgets()
function, or via the libreadline or libedit library. In some Windows environments
character 26 (hex 1A) causes an immediate end of file, and no further data is read, so
this character should be avoided unless you really want that action.
The input is processed using using C's string functions, so must not contain binary zeros,
even though in Unix-like environments, fgets() treats any bytes other than newline as data
characters. An error is generated if a binary zero is encountered. By default subject
lines are processed for backslash escapes, which makes it possible to include any data
value in strings that are passed to the library for matching. For patterns, there is a
facility for specifying some or all of the 8-bit input characters as hexadecimal pairs,
which makes it possible to include binary zeros.
Input for the 16-bit and 32-bit libraries
When testing the 16-bit or 32-bit libraries, there is a need to be able to generate
character code points greater than 255 in the strings that are passed to the library. For
subject lines, backslash escapes can be used. In addition, when the utf modifier (see
"Setting compilation options" below) is set, the pattern and any following subject lines
are interpreted as UTF-8 strings and translated to UTF-16 or UTF-32 as appropriate.
For non-UTF testing of wide characters, the utf8_input modifier can be used. This is
mutually exclusive with utf, and is allowed only in 16-bit or 32-bit mode. It causes the
pattern and following subject lines to be treated as UTF-8 according to the original
definition (RFC 2279), which allows for character values up to 0x7fffffff. Each character
is placed in one 16-bit or 32-bit code unit (in the 16-bit case, values greater than
0xffff cause an error to occur).
UTF-8 (in its original definition) is not capable of encoding values greater than
0x7fffffff, but such values can be handled by the 32-bit library. When testing this
library in non-UTF mode with utf8_input set, if any character is preceded by the byte 0xff
(which is an invalid byte in UTF-8) 0x80000000 is added to the character's value. This is
the only way of passing such code points in a pattern string. For subject strings, using
an escape sequence is preferable.
COMMAND LINE OPTIONS
-8 If the 8-bit library has been built, this option causes it to be used (this is
the default). If the 8-bit library has not been built, this option causes an
error.
-16 If the 16-bit library has been built, this option causes it to be used. If only
the 16-bit library has been built, this is the default. If the 16-bit library
has not been built, this option causes an error.
-32 If the 32-bit library has been built, this option causes it to be used. If only
the 32-bit library has been built, this is the default. If the 32-bit library
has not been built, this option causes an error.
-ac Behave as if each pattern has the auto_callout modifier, that is, insert
automatic callouts into every pattern that is compiled.
-AC As for -ac, but in addition behave as if each subject line has the callout_extra
modifier, that is, show additional information from callouts.
-b Behave as if each pattern has the fullbincode modifier; the full internal binary
form of the pattern is output after compilation.
-C Output the version number of the PCRE2 library, and all available information
about the optional features that are included, and then exit with zero exit
code. All other options are ignored. If both -C and -LM are present, whichever
is first is recognized.
-C option Output information about a specific build-time option, then exit. This
functionality is intended for use in scripts such as RunTest. The following
options output the value and set the exit code as indicated:
ebcdic-nl the code for LF (= NL) in an EBCDIC environment:
0x15 or 0x25
0 if used in an ASCII environment
exit code is always 0
linksize the configured internal link size (2, 3, or 4)
exit code is set to the link size
newline the default newline setting:
CR, LF, CRLF, ANYCRLF, ANY, or NUL
exit code is always 0
bsr the default setting for what \R matches:
ANYCRLF or ANY
exit code is always 0
The following options output 1 for true or 0 for false, and set the exit code to
the same value:
backslash-C \C is supported (not locked out)
ebcdic compiled for an EBCDIC environment
jit just-in-time support is available
pcre2-16 the 16-bit library was built
pcre2-32 the 32-bit library was built
pcre2-8 the 8-bit library was built
unicode Unicode support is available
If an unknown option is given, an error message is output; the exit code is 0.
-d Behave as if each pattern has the debug modifier; the internal form and
information about the compiled pattern is output after compilation; -d is
equivalent to -b -i.
-dfa Behave as if each subject line has the dfa modifier; matching is done using the
pcre2_dfa_match() function instead of the default pcre2_match().
-error number[,number,...]
Call pcre2_get_error_message() for each of the error numbers in the comma-
separated list, display the resulting messages on the standard output, then exit
with zero exit code. The numbers may be positive or negative. This is a
convenience facility for PCRE2 maintainers.
-help Output a brief summary these options and then exit.
-i Behave as if each pattern has the info modifier; information about the compiled
pattern is given after compilation.
-jit Behave as if each pattern line has the jit modifier; after successful
compilation, each pattern is passed to the just-in-time compiler, if available.
-jitfast Behave as if each pattern line has the jitfast modifier; after successful
compilation, each pattern is passed to the just-in-time compiler, if available,
and each subject line is passed directly to the JIT matcher via its "fast path".
-jitverify
Behave as if each pattern line has the jitverify modifier; after successful
compilation, each pattern is passed to the just-in-time compiler, if available,
and the use of JIT for matching is verified.
-LM List modifiers: write a list of available pattern and subject modifiers to the
standard output, then exit with zero exit code. All other options are ignored.
If both -C and any -Lx options are present, whichever is first is recognized.
-LP List properties: write a list of recognized Unicode properties to the standard
output, then exit with zero exit code. All other options are ignored. If both -C
and any -Lx options are present, whichever is first is recognized.
-LS List scripts: write a list of recogized Unicode script names to the standard
output, then exit with zero exit code. All other options are ignored. If both -C
and any -Lx options are present, whichever is first is recognized.
-pattern modifier-list
Behave as if each pattern line contains the given modifiers.
-q Do not output the version number of pcre2test at the start of execution.
-S size On Unix-like systems, set the size of the run-time stack to size mebibytes
(units of 1024*1024 bytes).
-subject modifier-list
Behave as if each subject line contains the given modifiers.
-t Run each compile and match many times with a timer, and output the resulting
times per compile or match. When JIT is used, separate times are given for the
initial compile and the JIT compile. You can control the number of iterations
that are used for timing by following -t with a number (as a separate item on
the command line). For example, "-t 1000" iterates 1000 times. The default is to
iterate 500,000 times.
-tm This is like -t except that it times only the matching phase, not the compile
phase.
-T -TM These behave like -t and -tm, but in addition, at the end of a run, the total
times for all compiles and matches are output.
-version Output the PCRE2 version number and then exit.
DESCRIPTION
If pcre2test is given two filename arguments, it reads from the first and writes to the
second. If the first name is "-", input is taken from the standard input. If pcre2test is
given only one argument, it reads from that file and writes to stdout. Otherwise, it reads
from stdin and writes to stdout.
When pcre2test is built, a configuration option can specify that it should be linked with
the libreadline or libedit library. When this is done, if the input is from a terminal, it
is read using the readline() function. This provides line-editing and history facilities.
The output from the -help option states whether or not readline() will be used.
The program handles any number of tests, each of which consists of a set of input lines.
Each set starts with a regular expression pattern, followed by any number of subject lines
to be matched against that pattern. In between sets of test data, command lines that begin
with # may appear. This file format, with some restrictions, can also be processed by the
perltest.sh script that is distributed with PCRE2 as a means of checking that the
behaviour of PCRE2 and Perl is the same. For a specification of perltest.sh, see the
comments near its beginning. See also the #perltest command below.
When the input is a terminal, pcre2test prompts for each line of input, using "re>" to
prompt for regular expression patterns, and "data>" to prompt for subject lines. Command
lines starting with # can be entered only in response to the "re>" prompt.
Each subject line is matched separately and independently. If you want to do multi-line
matches, you have to use the \n escape sequence (or \r or \r\n, etc., depending on the
newline setting) in a single line of input to encode the newline sequences. There is no
limit on the length of subject lines; the input buffer is automatically extended if it is
too small. There are replication features that makes it possible to generate long
repetitive pattern or subject lines without having to supply them explicitly.
An empty line or the end of the file signals the end of the subject lines for a test, at
which point a new pattern or command line is expected if there is still input to be read.
COMMAND LINES
In between sets of test data, a line that begins with # is interpreted as a command line.
If the first character is followed by white space or an exclamation mark, the line is
treated as a comment, and ignored. Otherwise, the following commands are recognized:
#forbid_utf
Subsequent patterns automatically have the PCRE2_NEVER_UTF and PCRE2_NEVER_UCP options
set, which locks out the use of the PCRE2_UTF and PCRE2_UCP options and the use of (*UTF)
and (*UCP) at the start of patterns. This command also forces an error if a subsequent
pattern contains any occurrences of \P, \p, or \X, which are still supported when
PCRE2_UTF is not set, but which require Unicode property support to be included in the
library.
This is a trigger guard that is used in test files to ensure that UTF or Unicode property
tests are not accidentally added to files that are used when Unicode support is not
included in the library. Setting PCRE2_NEVER_UTF and PCRE2_NEVER_UCP as a default can also
be obtained by the use of #pattern; the difference is that #forbid_utf cannot be unset,
and the automatic options are not displayed in pattern information, to avoid cluttering up
test output.
#load <filename>
This command is used to load a set of precompiled patterns from a file, as described in
the section entitled "Saving and restoring compiled patterns" below.
#loadtables <filename>
This command is used to load a set of binary character tables that can be accessed by the
tables=3 qualifier. Such tables can be created by the pcre2_dftables program with the -b
option.
#newline_default [<newline-list>]
When PCRE2 is built, a default newline convention can be specified. This determines which
characters and/or character pairs are recognized as indicating a newline in a pattern or
subject string. The default can be overridden when a pattern is compiled. The standard
test files contain tests of various newline conventions, but the majority of the tests
expect a single linefeed to be recognized as a newline by default. Without special action
the tests would fail when PCRE2 is compiled with either CR or CRLF as the default newline.
The #newline_default command specifies a list of newline types that are acceptable as the
default. The types must be one of CR, LF, CRLF, ANYCRLF, ANY, or NUL (in upper or lower
case), for example:
#newline_default LF Any anyCRLF
If the default newline is in the list, this command has no effect. Otherwise, except when
testing the POSIX API, a newline modifier that specifies the first newline convention in
the list (LF in the above example) is added to any pattern that does not already have a
newline modifier. If the newline list is empty, the feature is turned off. This command is
present in a number of the standard test input files.
When the POSIX API is being tested there is no way to override the default newline
convention, though it is possible to set the newline convention from within the pattern. A
warning is given if the posix or posix_nosub modifier is used when #newline_default would
set a default for the non-POSIX API.
#pattern <modifier-list>
This command sets a default modifier list that applies to all subsequent patterns.
Modifiers on a pattern can change these settings.
#perltest
This line is used in test files that can also be processed by perltest.sh to confirm that
Perl gives the same results as PCRE2. Subsequent tests are checked for the use of
pcre2test features that are incompatible with the perltest.sh script.
Patterns must use '/' as their delimiter, and only certain modifiers are supported.
Comment lines, #pattern commands, and #subject commands that set or unset "mark" are
recognized and acted on. The #perltest, #forbid_utf, and #newline_default commands, which
are needed in the relevant pcre2test files, are silently ignored. All other command lines
are ignored, but give a warning message. The #perltest command helps detect tests that are
accidentally put in the wrong file or use the wrong delimiter. For more details of the
perltest.sh script see the comments it contains.
#pop [<modifiers>]
#popcopy [<modifiers>]
These commands are used to manipulate the stack of compiled patterns, as described in the
section entitled "Saving and restoring compiled patterns" below.
#save <filename>
This command is used to save a set of compiled patterns to a file, as described in the
section entitled "Saving and restoring compiled patterns" below.
#subject <modifier-list>
This command sets a default modifier list that applies to all subsequent subject lines.
Modifiers on a subject line can change these settings.
MODIFIER SYNTAX
Modifier lists are used with both pattern and subject lines. Items in a list are separated
by commas followed by optional white space. Trailing whitespace in a modifier list is
ignored. Some modifiers may be given for both patterns and subject lines, whereas others
are valid only for one or the other. Each modifier has a long name, for example
"anchored", and some of them must be followed by an equals sign and a value, for example,
"offset=12". Values cannot contain comma characters, but may contain spaces. Modifiers
that do not take values may be preceded by a minus sign to turn off a previous setting.
A few of the more common modifiers can also be specified as single letters, for example
"i" for "caseless". In documentation, following the Perl convention, these are written
with a slash ("the /i modifier") for clarity. Abbreviated modifiers must all be
concatenated in the first item of a modifier list. If the first item is not recognized as
a long modifier name, it is interpreted as a sequence of these abbreviations. For example:
/abc/ig,newline=cr,jit=3
This is a pattern line whose modifier list starts with two one-letter modifiers (/i and
/g). The lower-case abbreviated modifiers are the same as used in Perl.
PATTERN SYNTAX
A pattern line must start with one of the following characters (common symbols, excluding
pattern meta-characters):
/ ! " ' ` - = _ : ; , % & @ ~
This is interpreted as the pattern's delimiter. A regular expression may be continued over
several input lines, in which case the newline characters are included within it. It is
possible to include the delimiter as a literal within the pattern by escaping it with a
backslash, for example
/abc\/def/
If you do this, the escape and the delimiter form part of the pattern, but since the
delimiters are all non-alphanumeric, the inclusion of the backslash does not affect the
pattern's interpretation. Note, however, that this trick does not work within \Q...\E
literal bracketing because the backslash will itself be interpreted as a literal. If the
terminating delimiter is immediately followed by a backslash, for example,
/abc/\
then a backslash is added to the end of the pattern. This is done to provide a way of
testing the error condition that arises if a pattern finishes with a backslash, because
/abc\/
is interpreted as the first line of a pattern that starts with "abc/", causing pcre2test
to read the next line as a continuation of the regular expression.
A pattern can be followed by a modifier list (details below).
SUBJECT LINE SYNTAX
Before each subject line is passed to pcre2_match(), pcre2_dfa_match(), or
pcre2_jit_match(), leading and trailing white space is removed, and the line is scanned
for backslash escapes, unless the subject_literal modifier was set for the pattern. The
following provide a means of encoding non-printing characters in a visible way:
\a alarm (BEL, \x07)
\b backspace (\x08)
\e escape (\x27)
\f form feed (\x0c)
\n newline (\x0a)
\r carriage return (\x0d)
\t tab (\x09)
\v vertical tab (\x0b)
\nnn octal character (up to 3 octal digits); always
a byte unless > 255 in UTF-8 or 16-bit or 32-bit mode
\o{dd...} octal character (any number of octal digits}
\xhh hexadecimal byte (up to 2 hex digits)
\x{hh...} hexadecimal character (any number of hex digits)
The use of \x{hh...} is not dependent on the use of the utf modifier on the pattern. It is
recognized always. There may be any number of hexadecimal digits inside the braces;
invalid values provoke error messages.
Note that \xhh specifies one byte rather than one character in UTF-8 mode; this makes it
possible to construct invalid UTF-8 sequences for testing purposes. On the other hand,
\x{hh} is interpreted as a UTF-8 character in UTF-8 mode, generating more than one byte if
the value is greater than 127. When testing the 8-bit library not in UTF-8 mode, \x{hh}
generates one byte for values less than 256, and causes an error for greater values.
In UTF-16 mode, all 4-digit \x{hhhh} values are accepted. This makes it possible to
construct invalid UTF-16 sequences for testing purposes.
In UTF-32 mode, all 4- to 8-digit \x{...} values are accepted. This makes it possible to
construct invalid UTF-32 sequences for testing purposes.
There is a special backslash sequence that specifies replication of one or more
characters:
\[<characters>]{<count>}
This makes it possible to test long strings without having to provide them as part of the
file. For example:
\[abc]{4}
is converted to "abcabcabcabc". This feature does not support nesting. To include a
closing square bracket in the characters, code it as \x5D.
A backslash followed by an equals sign marks the end of the subject string and the start
of a modifier list. For example:
abc\=notbol,notempty
If the subject string is empty and \= is followed by whitespace, the line is treated as a
comment line, and is not used for matching. For example:
\= This is a comment.
abc\= This is an invalid modifier list.
A backslash followed by any other non-alphanumeric character just escapes that character.
A backslash followed by anything else causes an error. However, if the very last character
in the line is a backslash (and there is no modifier list), it is ignored. This gives a
way of passing an empty line as data, since a real empty line terminates the data input.
If the subject_literal modifier is set for a pattern, all subject lines that follow are
treated as literals, with no special treatment of backslashes. No replication is
possible, and any subject modifiers must be set as defaults by a #subject command.
PATTERN MODIFIERS
There are several types of modifier that can appear in pattern lines. Except where noted
below, they may also be used in #pattern commands. A pattern's modifier list can add to or
override default modifiers that were set by a previous #pattern command.
Setting compilation options
The following modifiers set options for pcre2_compile(). Most of them set bits in the
options argument of that function, but those whose names start with PCRE2_EXTRA are
additional options that are set in the compile context. For the main options, there are
some single-letter abbreviations that are the same as Perl options. There is special
handling for /x: if a second x is present, PCRE2_EXTENDED is converted into
PCRE2_EXTENDED_MORE as in Perl. A third appearance adds PCRE2_EXTENDED as well, though
this makes no difference to the way pcre2_compile() behaves. See pcre2api for a
description of the effects of these options.
allow_empty_class set PCRE2_ALLOW_EMPTY_CLASS
allow_lookaround_bsk set PCRE2_EXTRA_ALLOW_LOOKAROUND_BSK
allow_surrogate_escapes set PCRE2_EXTRA_ALLOW_SURROGATE_ESCAPES
alt_bsux set PCRE2_ALT_BSUX
alt_circumflex set PCRE2_ALT_CIRCUMFLEX
alt_verbnames set PCRE2_ALT_VERBNAMES
anchored set PCRE2_ANCHORED
auto_callout set PCRE2_AUTO_CALLOUT
bad_escape_is_literal set PCRE2_EXTRA_BAD_ESCAPE_IS_LITERAL
/i caseless set PCRE2_CASELESS
dollar_endonly set PCRE2_DOLLAR_ENDONLY
/s dotall set PCRE2_DOTALL
dupnames set PCRE2_DUPNAMES
endanchored set PCRE2_ENDANCHORED
escaped_cr_is_lf set PCRE2_EXTRA_ESCAPED_CR_IS_LF
/x extended set PCRE2_EXTENDED
/xx extended_more set PCRE2_EXTENDED_MORE
extra_alt_bsux set PCRE2_EXTRA_ALT_BSUX
firstline set PCRE2_FIRSTLINE
literal set PCRE2_LITERAL
match_line set PCRE2_EXTRA_MATCH_LINE
match_invalid_utf set PCRE2_MATCH_INVALID_UTF
match_unset_backref set PCRE2_MATCH_UNSET_BACKREF
match_word set PCRE2_EXTRA_MATCH_WORD
/m multiline set PCRE2_MULTILINE
never_backslash_c set PCRE2_NEVER_BACKSLASH_C
never_ucp set PCRE2_NEVER_UCP
never_utf set PCRE2_NEVER_UTF
/n no_auto_capture set PCRE2_NO_AUTO_CAPTURE
no_auto_possess set PCRE2_NO_AUTO_POSSESS
no_dotstar_anchor set PCRE2_NO_DOTSTAR_ANCHOR
no_start_optimize set PCRE2_NO_START_OPTIMIZE
no_utf_check set PCRE2_NO_UTF_CHECK
ucp set PCRE2_UCP
ungreedy set PCRE2_UNGREEDY
use_offset_limit set PCRE2_USE_OFFSET_LIMIT
utf set PCRE2_UTF
As well as turning on the PCRE2_UTF option, the utf modifier causes all non-printing
characters in output strings to be printed using the \x{hh...} notation. Otherwise, those
less than 0x100 are output in hex without the curly brackets. Setting utf in 16-bit or
32-bit mode also causes pattern and subject strings to be translated to UTF-16 or UTF-32,
respectively, before being passed to library functions.
Setting compilation controls
The following modifiers affect the compilation process or request information about the
pattern. There are single-letter abbreviations for some that are heavily used in the test
files.
bsr=[anycrlf|unicode] specify \R handling
/B bincode show binary code without lengths
callout_info show callout information
convert=<options> request foreign pattern conversion
convert_glob_escape=c set glob escape character
convert_glob_separator=c set glob separator character
convert_length set convert buffer length
debug same as info,fullbincode
framesize show matching frame size
fullbincode show binary code with lengths
/I info show info about compiled pattern
hex unquoted characters are hexadecimal
jit[=<number>] use JIT
jitfast use JIT fast path
jitverify verify JIT use
locale=<name> use this locale
max_pattern_length=<n> set the maximum pattern length
memory show memory used
newline=<type> set newline type
null_context compile with a NULL context
parens_nest_limit=<n> set maximum parentheses depth
posix use the POSIX API
posix_nosub use the POSIX API with REG_NOSUB
push push compiled pattern onto the stack
pushcopy push a copy onto the stack
stackguard=<number> test the stackguard feature
subject_literal treat all subject lines as literal
tables=[0|1|2|3] select internal tables
use_length do not zero-terminate the pattern
utf8_input treat input as UTF-8
The effects of these modifiers are described in the following sections.
Newline and \R handling
The bsr modifier specifies what \R in a pattern should match. If it is set to "anycrlf",
\R matches CR, LF, or CRLF only. If it is set to "unicode", \R matches any Unicode newline
sequence. The default can be specified when PCRE2 is built; if it is not, the default is
set to Unicode.
The newline modifier specifies which characters are to be interpreted as newlines, both in
the pattern and in subject lines. The type must be one of CR, LF, CRLF, ANYCRLF, ANY, or
NUL (in upper or lower case).
Information about a pattern
The debug modifier is a shorthand for info,fullbincode, requesting all available
information.
The bincode modifier causes a representation of the compiled code to be output after
compilation. This information does not contain length and offset values, which ensures
that the same output is generated for different internal link sizes and different code
unit widths. By using bincode, the same regression tests can be used in different
environments.
The fullbincode modifier, by contrast, does include length and offset values. This is used
in a few special tests that run only for specific code unit widths and link sizes, and is
also useful for one-off tests.
The info modifier requests information about the compiled pattern (whether it is anchored,
has a fixed first character, and so on). The information is obtained from the
pcre2_pattern_info() function. Here are some typical examples:
re> /(?i)(^a|^b)/m,info
Capture group count = 1
Compile options: multiline
Overall options: caseless multiline
First code unit at start or follows newline
Subject length lower bound = 1
re> /(?i)abc/info
Capture group count = 0
Compile options: <none>
Overall options: caseless
First code unit = 'a' (caseless)
Last code unit = 'c' (caseless)
Subject length lower bound = 3
"Compile options" are those specified by modifiers; "overall options" have added options
that are taken or deduced from the pattern. If both sets of options are the same, just a
single "options" line is output; if there are no options, the line is omitted. "First code
unit" is where any match must start; if there is more than one they are listed as
"starting code units". "Last code unit" is the last literal code unit that must be present
in any match. This is not necessarily the last character. These lines are omitted if no
starting or ending code units are recorded. The subject length line is omitted when
no_start_optimize is set because the minimum length is not calculated when it can never be
used.
The framesize modifier shows the size, in bytes, of the storage frames used by
pcre2_match() for handling backtracking. The size depends on the number of capturing
parentheses in the pattern.
The callout_info modifier requests information about all the callouts in the pattern. A
list of them is output at the end of any other information that is requested. For each
callout, either its number or string is given, followed by the item that follows it in the
pattern.
Passing a NULL context
Normally, pcre2test passes a context block to pcre2_compile(). If the null_context
modifier is set, however, NULL is passed. This is for testing that pcre2_compile() behaves
correctly in this case (it uses default values).
Specifying pattern characters in hexadecimal
The hex modifier specifies that the characters of the pattern, except for substrings
enclosed in single or double quotes, are to be interpreted as pairs of hexadecimal digits.
This feature is provided as a way of creating patterns that contain binary zeros and other
non-printing characters. White space is permitted between pairs of digits. For example,
this pattern contains three characters:
/ab 32 59/hex
Parts of such a pattern are taken literally if quoted. This pattern contains nine
characters, only two of which are specified in hexadecimal:
/ab "literal" 32/hex
Either single or double quotes may be used. There is no way of including the delimiter
within a substring. The hex and expand modifiers are mutually exclusive.
Specifying the pattern's length
By default, patterns are passed to the compiling functions as zero-terminated strings but
can be passed by length instead of being zero-terminated. The use_length modifier causes
this to happen. Using a length happens automatically (whether or not use_length is set)
when hex is set, because patterns specified in hexadecimal may contain binary zeros.
If hex or use_length is used with the POSIX wrapper API (see "Using the POSIX wrapper API"
below), the REG_PEND extension is used to pass the pattern's length.
Specifying wide characters in 16-bit and 32-bit modes
In 16-bit and 32-bit modes, all input is automatically treated as UTF-8 and translated to
UTF-16 or UTF-32 when the utf modifier is set. For testing the 16-bit and 32-bit libraries
in non-UTF mode, the utf8_input modifier can be used. It is mutually exclusive with utf.
Input lines are interpreted as UTF-8 as a means of specifying wide characters. More
details are given in "Input encoding" above.
Generating long repetitive patterns
Some tests use long patterns that are very repetitive. Instead of creating a very long
input line for such a pattern, you can use a special repetition feature, similar to the
one described for subject lines above. If the expand modifier is present on a pattern,
parts of the pattern that have the form
\[<characters>]{<count>}
are expanded before the pattern is passed to pcre2_compile(). For example, \[AB]{6000} is
expanded to "ABAB..." 6000 times. This construction cannot be nested. An initial "\["
sequence is recognized only if "]{" followed by decimal digits and "}" is found later in
the pattern. If not, the characters remain in the pattern unaltered. The expand and hex
modifiers are mutually exclusive.
If part of an expanded pattern looks like an expansion, but is really part of the actual
pattern, unwanted expansion can be avoided by giving two values in the quantifier. For
example, \[AB]{6000,6000} is not recognized as an expansion item.
If the info modifier is set on an expanded pattern, the result of the expansion is
included in the information that is output.
JIT compilation
Just-in-time (JIT) compiling is a heavyweight optimization that can greatly speed up
pattern matching. See the pcre2jit documentation for details. JIT compiling happens,
optionally, after a pattern has been successfully compiled into an internal form. The JIT
compiler converts this to optimized machine code. It needs to know whether the match-time
options PCRE2_PARTIAL_HARD and PCRE2_PARTIAL_SOFT are going to be used, because different
code is generated for the different cases. See the partial modifier in "Subject Modifiers"
below for details of how these options are specified for each match attempt.
JIT compilation is requested by the jit pattern modifier, which may optionally be followed
by an equals sign and a number in the range 0 to 7. The three bits that make up the
number specify which of the three JIT operating modes are to be compiled:
1 compile JIT code for non-partial matching
2 compile JIT code for soft partial matching
4 compile JIT code for hard partial matching
The possible values for the jit modifier are therefore:
0 disable JIT
1 normal matching only
2 soft partial matching only
3 normal and soft partial matching
4 hard partial matching only
6 soft and hard partial matching only
7 all three modes
If no number is given, 7 is assumed. The phrase "partial matching" means a call to
pcre2_match() with either the PCRE2_PARTIAL_SOFT or the PCRE2_PARTIAL_HARD option set.
Note that such a call may return a complete match; the options enable the possibility of a
partial match, but do not require it. Note also that if you request JIT compilation only
for partial matching (for example, jit=2) but do not set the partial modifier on a subject
line, that match will not use JIT code because none was compiled for non-partial matching.
If JIT compilation is successful, the compiled JIT code will automatically be used when an
appropriate type of match is run, except when incompatible run-time options are specified.
For more details, see the pcre2jit documentation. See also the jitstack modifier below for
a way of setting the size of the JIT stack.
If the jitfast modifier is specified, matching is done using the JIT "fast path"
interface, pcre2_jit_match(), which skips some of the sanity checks that are done by
pcre2_match(), and of course does not work when JIT is not supported. If jitfast is
specified without jit, jit=7 is assumed.
If the jitverify modifier is specified, information about the compiled pattern shows
whether JIT compilation was or was not successful. If jitverify is specified without jit,
jit=7 is assumed. If JIT compilation is successful when jitverify is set, the text "(JIT)"
is added to the first output line after a match or non match when JIT-compiled code was
actually used in the match.
Setting a locale
The locale modifier must specify the name of a locale, for example:
/pattern/locale=fr_FR
The given locale is set, pcre2_maketables() is called to build a set of character tables
for the locale, and this is then passed to pcre2_compile() when compiling the regular
expression. The same tables are used when matching the following subject lines. The locale
modifier applies only to the pattern on which it appears, but can be given in a #pattern
command if a default is needed. Setting a locale and alternate character tables are
mutually exclusive.
Showing pattern memory
The memory modifier causes the size in bytes of the memory used to hold the compiled
pattern to be output. This does not include the size of the pcre2_code block; it is just
the actual compiled data. If the pattern is subsequently passed to the JIT compiler, the
size of the JIT compiled code is also output. Here is an example:
re> /a(b)c/jit,memory
Memory allocation (code space): 21
Memory allocation (JIT code): 1910
Limiting nested parentheses
The parens_nest_limit modifier sets a limit on the depth of nested parentheses in a
pattern. Breaching the limit causes a compilation error. The default for the library is
set when PCRE2 is built, but pcre2test sets its own default of 220, which is required for
running the standard test suite.
Limiting the pattern length
The max_pattern_length modifier sets a limit, in code units, to the length of pattern that
pcre2_compile() will accept. Breaching the limit causes a compilation error. The default
is the largest number a PCRE2_SIZE variable can hold (essentially unlimited).
Using the POSIX wrapper API
The posix and posix_nosub modifiers cause pcre2test to call PCRE2 via the POSIX wrapper
API rather than its native API. When posix_nosub is used, the POSIX option REG_NOSUB is
passed to regcomp(). The POSIX wrapper supports only the 8-bit library. Note that it does
not imply POSIX matching semantics; for more detail see the pcre2posix documentation. The
following pattern modifiers set options for the regcomp() function:
caseless REG_ICASE
multiline REG_NEWLINE
dotall REG_DOTALL )
ungreedy REG_UNGREEDY ) These options are not part of
ucp REG_UCP ) the POSIX standard
utf REG_UTF8 )
The regerror_buffsize modifier specifies a size for the error buffer that is passed to
regerror() in the event of a compilation error. For example:
/abc/posix,regerror_buffsize=20
This provides a means of testing the behaviour of regerror() when the buffer is too small
for the error message. If this modifier has not been set, a large buffer is used.
The aftertext and allaftertext subject modifiers work as described below. All other
modifiers are either ignored, with a warning message, or cause an error.
The pattern is passed to regcomp() as a zero-terminated string by default, but if the
use_length or hex modifiers are set, the REG_PEND extension is used to pass it by length.
Testing the stack guard feature
The stackguard modifier is used to test the use of pcre2_set_compile_recursion_guard(), a
function that is provided to enable stack availability to be checked during compilation
(see the pcre2api documentation for details). If the number specified by the modifier is
greater than zero, pcre2_set_compile_recursion_guard() is called to set up callback from
pcre2_compile() to a local function. The argument it receives is the current nesting
parenthesis depth; if this is greater than the value given by the modifier, non-zero is
returned, causing the compilation to be aborted.
Using alternative character tables
The value specified for the tables modifier must be one of the digits 0, 1, 2, or 3. It
causes a specific set of built-in character tables to be passed to pcre2_compile(). This
is used in the PCRE2 tests to check behaviour with different character tables. The digit
specifies the tables as follows:
0 do not pass any special character tables
1 the default ASCII tables, as distributed in
pcre2_chartables.c.dist
2 a set of tables defining ISO 8859 characters
3 a set of tables loaded by the #loadtables command
In tables 2, some characters whose codes are greater than 128 are identified as letters,
digits, spaces, etc. Tables 3 can be used only after a #loadtables command has loaded them
from a binary file. Setting alternate character tables and a locale are mutually
exclusive.
Setting certain match controls
The following modifiers are really subject modifiers, and are described under "Subject
Modifiers" below. However, they may be included in a pattern's modifier list, in which
case they are applied to every subject line that is processed with that pattern. These
modifiers do not affect the compilation process.
aftertext show text after match
allaftertext show text after captures
allcaptures show all captures
allvector show the entire ovector
allusedtext show all consulted text
altglobal alternative global matching
/g global global matching
jitstack=<n> set size of JIT stack
mark show mark values
replace=<string> specify a replacement string
startchar show starting character when relevant
substitute_callout use substitution callouts
substitute_extended use PCRE2_SUBSTITUTE_EXTENDED
substitute_literal use PCRE2_SUBSTITUTE_LITERAL
substitute_matched use PCRE2_SUBSTITUTE_MATCHED
substitute_overflow_length use PCRE2_SUBSTITUTE_OVERFLOW_LENGTH
substitute_replacement_only use PCRE2_SUBSTITUTE_REPLACEMENT_ONLY
substitute_skip=<n> skip substitution <n>
substitute_stop=<n> skip substitution <n> and following
substitute_unknown_unset use PCRE2_SUBSTITUTE_UNKNOWN_UNSET
substitute_unset_empty use PCRE2_SUBSTITUTE_UNSET_EMPTY
These modifiers may not appear in a #pattern command. If you want them as defaults, set
them in a #subject command.
Specifying literal subject lines
If the subject_literal modifier is present on a pattern, all the subject lines that it
matches are taken as literal strings, with no interpretation of backslashes. It is not
possible to set subject modifiers on such lines, but any that are set as defaults by a
#subject command are recognized.
Saving a compiled pattern
When a pattern with the push modifier is successfully compiled, it is pushed onto a stack
of compiled patterns, and pcre2test expects the next line to contain a new pattern (or a
command) instead of a subject line. This facility is used when saving compiled patterns to
a file, as described in the section entitled "Saving and restoring compiled patterns"
below. If pushcopy is used instead of push, a copy of the compiled pattern is stacked,
leaving the original as current, ready to match the following input lines. This provides a
way of testing the pcre2_code_copy() function. The push and pushcopy modifiers are
incompatible with compilation modifiers such as global that act at match time. Any that
are specified are ignored (for the stacked copy), with a warning message, except for
replace, which causes an error. Note that jitverify, which is allowed, does not carry
through to any subsequent matching that uses a stacked pattern.
Testing foreign pattern conversion
The experimental foreign pattern conversion functions in PCRE2 can be tested by setting
the convert modifier. Its argument is a colon-separated list of options, which set the
equivalent option for the pcre2_pattern_convert() function:
glob PCRE2_CONVERT_GLOB
glob_no_starstar PCRE2_CONVERT_GLOB_NO_STARSTAR
glob_no_wild_separator PCRE2_CONVERT_GLOB_NO_WILD_SEPARATOR
posix_basic PCRE2_CONVERT_POSIX_BASIC
posix_extended PCRE2_CONVERT_POSIX_EXTENDED
unset Unset all options
The "unset" value is useful for turning off a default that has been set by a #pattern
command. When one of these options is set, the input pattern is passed to
pcre2_pattern_convert(). If the conversion is successful, the result is reflected in the
output and then passed to pcre2_compile(). The normal utf and no_utf_check options, if
set, cause the PCRE2_CONVERT_UTF and PCRE2_CONVERT_NO_UTF_CHECK options to be passed to
pcre2_pattern_convert().
By default, the conversion function is allowed to allocate a buffer for its output.
However, if the convert_length modifier is set to a value greater than zero, pcre2test
passes a buffer of the given length. This makes it possible to test the length check.
The convert_glob_escape and convert_glob_separator modifiers can be used to specify the
escape and separator characters for glob processing, overriding the defaults, which are
operating-system dependent.
SUBJECT MODIFIERS
The modifiers that can appear in subject lines and the #subject command are of two types.
Setting match options
The following modifiers set options for pcre2_match() or pcre2_dfa_match(). See pcreapi
for a description of their effects.
anchored set PCRE2_ANCHORED
endanchored set PCRE2_ENDANCHORED
dfa_restart set PCRE2_DFA_RESTART
dfa_shortest set PCRE2_DFA_SHORTEST
no_jit set PCRE2_NO_JIT
no_utf_check set PCRE2_NO_UTF_CHECK
notbol set PCRE2_NOTBOL
notempty set PCRE2_NOTEMPTY
notempty_atstart set PCRE2_NOTEMPTY_ATSTART
noteol set PCRE2_NOTEOL
partial_hard (or ph) set PCRE2_PARTIAL_HARD
partial_soft (or ps) set PCRE2_PARTIAL_SOFT
The partial matching modifiers are provided with abbreviations because they appear
frequently in tests.
If the posix or posix_nosub modifier was present on the pattern, causing the POSIX wrapper
API to be used, the only option-setting modifiers that have any effect are notbol,
notempty, and noteol, causing REG_NOTBOL, REG_NOTEMPTY, and REG_NOTEOL, respectively, to
be passed to regexec(). The other modifiers are ignored, with a warning message.
There is one additional modifier that can be used with the POSIX wrapper. It is ignored
(with a warning) if used for non-POSIX matching.
posix_startend=<n>[:<m>]
This causes the subject string to be passed to regexec() using the REG_STARTEND option,
which uses offsets to specify which part of the string is searched. If only one number is
given, the end offset is passed as the end of the subject string. For more detail of
REG_STARTEND, see the pcre2posix documentation. If the subject string contains binary
zeros (coded as escapes such as \x{00} because pcre2test does not support actual binary
zeros in its input), you must use posix_startend to specify its length.
Setting match controls
The following modifiers affect the matching process or request additional information.
Some of them may also be specified on a pattern line (see above), in which case they apply
to every subject line that is matched against that pattern, but can be overridden by
modifiers on the subject.
aftertext show text after match
allaftertext show text after captures
allcaptures show all captures
allvector show the entire ovector
allusedtext show all consulted text (non-JIT only)
altglobal alternative global matching
callout_capture show captures at callout time
callout_data=<n> set a value to pass via callouts
callout_error=<n>[:<m>] control callout error
callout_extra show extra callout information
callout_fail=<n>[:<m>] control callout failure
callout_no_where do not show position of a callout
callout_none do not supply a callout function
copy=<number or name> copy captured substring
depth_limit=<n> set a depth limit
dfa use pcre2_dfa_match()
find_limits find match and depth limits
get=<number or name> extract captured substring
getall extract all captured substrings
/g global global matching
heap_limit=<n> set a limit on heap memory (Kbytes)
jitstack=<n> set size of JIT stack
mark show mark values
match_limit=<n> set a match limit
memory show heap memory usage
null_context match with a NULL context
null_replacement substitute with NULL replacement
null_subject match with NULL subject
offset=<n> set starting offset
offset_limit=<n> set offset limit
ovector=<n> set size of output vector
recursion_limit=<n> obsolete synonym for depth_limit
replace=<string> specify a replacement string
startchar show startchar when relevant
startoffset=<n> same as offset=<n>
substitute_callout use substitution callouts
substitute_extedded use PCRE2_SUBSTITUTE_EXTENDED
substitute_literal use PCRE2_SUBSTITUTE_LITERAL
substitute_matched use PCRE2_SUBSTITUTE_MATCHED
substitute_overflow_length use PCRE2_SUBSTITUTE_OVERFLOW_LENGTH
substitute_replacement_only use PCRE2_SUBSTITUTE_REPLACEMENT_ONLY
substitute_skip=<n> skip substitution number n
substitute_stop=<n> skip substitution number n and greater
substitute_unknown_unset use PCRE2_SUBSTITUTE_UNKNOWN_UNSET
substitute_unset_empty use PCRE2_SUBSTITUTE_UNSET_EMPTY
zero_terminate pass the subject as zero-terminated
The effects of these modifiers are described in the following sections. When matching via
the POSIX wrapper API, the aftertext, allaftertext, and ovector subject modifiers work as
described below. All other modifiers are either ignored, with a warning message, or cause
an error.
Showing more text
The aftertext modifier requests that as well as outputting the part of the subject string
that matched the entire pattern, pcre2test should in addition output the remainder of the
subject string. This is useful for tests where the subject contains multiple copies of the
same substring. The allaftertext modifier requests the same action for captured substrings
as well as the main matched substring. In each case the remainder is output on the
following line with a plus character following the capture number.
The allusedtext modifier requests that all the text that was consulted during a successful
pattern match by the interpreter should be shown, for both full and partial matches. This
feature is not supported for JIT matching, and if requested with JIT it is ignored (with a
warning message). Setting this modifier affects the output if there is a lookbehind at the
start of a match, or, for a complete match, a lookahead at the end, or if \K is used in
the pattern. Characters that precede or follow the start and end of the actual match are
indicated in the output by '<' or '>' characters underneath them. Here is an example:
re> /(?<=pqr)abc(?=xyz)/
data> 123pqrabcxyz456\=allusedtext
0: pqrabcxyz
<<< >>>
data> 123pqrabcxy\=ph,allusedtext
Partial match: pqrabcxy
<<<
The first, complete match shows that the matched string is "abc", with the preceding and
following strings "pqr" and "xyz" having been consulted during the match (when processing
the assertions). The partial match can indicate only the preceding string.
The startchar modifier requests that the starting character for the match be indicated, if
it is different to the start of the matched string. The only time when this occurs is when
\K has been processed as part of the match. In this situation, the output for the matched
string is displayed from the starting character instead of from the match point, with
circumflex characters under the earlier characters. For example:
re> /abc\Kxyz/
data> abcxyz\=startchar
0: abcxyz
^^^
Unlike allusedtext, the startchar modifier can be used with JIT. However, these two
modifiers are mutually exclusive.
Showing the value of all capture groups
The allcaptures modifier requests that the values of all potential captured parentheses be
output after a match. By default, only those up to the highest one actually used in the
match are output (corresponding to the return code from pcre2_match()). Groups that did
not take part in the match are output as "<unset>". This modifier is not relevant for DFA
matching (which does no capturing) and does not apply when replace is specified; it is
ignored, with a warning message, if present.
Showing the entire ovector, for all outcomes
The allvector modifier requests that the entire ovector be shown, whatever the outcome of
the match. Compare allcaptures, which shows only up to the maximum number of capture
groups for the pattern, and then only for a successful complete non-DFA match. This
modifier, which acts after any match result, and also for DFA matching, provides a means
of checking that there are no unexpected modifications to ovector fields. Before each
match attempt, the ovector is filled with a special value, and if this is found in both
elements of a capturing pair, "<unchanged>" is output. After a successful match, this
applies to all groups after the maximum capture group for the pattern. In other cases it
applies to the entire ovector. After a partial match, the first two elements are the only
ones that should be set. After a DFA match, the amount of ovector that is used depends on
the number of matches that were found.
Testing pattern callouts
A callout function is supplied when pcre2test calls the library matching functions, unless
callout_none is specified. Its behaviour can be controlled by various modifiers listed
above whose names begin with callout_. Details are given in the section entitled
"Callouts" below. Testing callouts from pcre2_substitute() is decribed separately in
"Testing the substitution function" below.
Finding all matches in a string
Searching for all possible matches within a subject can be requested by the global or
altglobal modifier. After finding a match, the matching function is called again to search
the remainder of the subject. The difference between global and altglobal is that the
former uses the start_offset argument to pcre2_match() or pcre2_dfa_match() to start
searching at a new point within the entire string (which is what Perl does), whereas the
latter passes over a shortened subject. This makes a difference to the matching process if
the pattern begins with a lookbehind assertion (including \b or \B).
If an empty string is matched, the next match is done with the PCRE2_NOTEMPTY_ATSTART and
PCRE2_ANCHORED flags set, in order to search for another, non-empty, match at the same
point in the subject. If this match fails, the start offset is advanced, and the normal
match is retried. This imitates the way Perl handles such cases when using the /g modifier
or the split() function. Normally, the start offset is advanced by one character, but if
the newline convention recognizes CRLF as a newline, and the current character is CR
followed by LF, an advance of two characters occurs.
Testing substring extraction functions
The copy and get modifiers can be used to test the pcre2_substring_copy_xxx() and
pcre2_substring_get_xxx() functions. They can be given more than once, and each can
specify a capture group name or number, for example:
abcd\=copy=1,copy=3,get=G1
If the #subject command is used to set default copy and/or get lists, these can be unset
by specifying a negative number to cancel all numbered groups and an empty name to cancel
all named groups.
The getall modifier tests pcre2_substring_list_get(), which extracts all captured
substrings.
If the subject line is successfully matched, the substrings extracted by the convenience
functions are output with C, G, or L after the string number instead of a colon. This is
in addition to the normal full list. The string length (that is, the return from the
extraction function) is given in parentheses after each substring, followed by the name
when the extraction was by name.
Testing the substitution function
If the replace modifier is set, the pcre2_substitute() function is called instead of one
of the matching functions (or after one call of pcre2_match() in the case of
PCRE2_SUBSTITUTE_MATCHED). Note that replacement strings cannot contain commas, because a
comma signifies the end of a modifier. This is not thought to be an issue in a test
program.
Specifying a completely empty replacement string disables this modifier. However, it is
possible to specify an empty replacement by providing a buffer length, as described below,
for an otherwise empty replacement.
Unlike subject strings, pcre2test does not process replacement strings for escape
sequences. In UTF mode, a replacement string is checked to see if it is a valid UTF-8
string. If so, it is correctly converted to a UTF string of the appropriate code unit
width. If it is not a valid UTF-8 string, the individual code units are copied directly.
This provides a means of passing an invalid UTF-8 string for testing purposes.
The following modifiers set options (in additional to the normal match options) for
pcre2_substitute():
global PCRE2_SUBSTITUTE_GLOBAL
substitute_extended PCRE2_SUBSTITUTE_EXTENDED
substitute_literal PCRE2_SUBSTITUTE_LITERAL
substitute_matched PCRE2_SUBSTITUTE_MATCHED
substitute_overflow_length PCRE2_SUBSTITUTE_OVERFLOW_LENGTH
substitute_replacement_only PCRE2_SUBSTITUTE_REPLACEMENT_ONLY
substitute_unknown_unset PCRE2_SUBSTITUTE_UNKNOWN_UNSET
substitute_unset_empty PCRE2_SUBSTITUTE_UNSET_EMPTY
See the pcre2api documentation for details of these options.
After a successful substitution, the modified string is output, preceded by the number of
replacements. This may be zero if there were no matches. Here is a simple example of a
substitution test:
/abc/replace=xxx
=abc=abc=
1: =xxx=abc=
=abc=abc=\=global
2: =xxx=xxx=
Subject and replacement strings should be kept relatively short (fewer than 256
characters) for substitution tests, as fixed-size buffers are used. To make it easy to
test for buffer overflow, if the replacement string starts with a number in square
brackets, that number is passed to pcre2_substitute() as the size of the output buffer,
with the replacement string starting at the next character. Here is an example that tests
the edge case:
/abc/
123abc123\=replace=[10]XYZ
1: 123XYZ123
123abc123\=replace=[9]XYZ
Failed: error -47: no more memory
The default action of pcre2_substitute() is to return PCRE2_ERROR_NOMEMORY when the output
buffer is too small. However, if the PCRE2_SUBSTITUTE_OVERFLOW_LENGTH option is set (by
using the substitute_overflow_length modifier), pcre2_substitute() continues to go through
the motions of matching and substituting (but not doing any callouts), in order to compute
the size of buffer that is required. When this happens, pcre2test shows the required
buffer length (which includes space for the trailing zero) as part of the error message.
For example:
/abc/substitute_overflow_length
123abc123\=replace=[9]XYZ
Failed: error -47: no more memory: 10 code units are needed
A replacement string is ignored with POSIX and DFA matching. Specifying partial matching
provokes an error return ("bad option value") from pcre2_substitute().
Testing substitute callouts
If the substitute_callout modifier is set, a substitution callout function is set up. The
null_context modifier must not be set, because the address of the callout function is
passed in a match context. When the callout function is called (after each substitution),
details of the the input and output strings are output. For example:
/abc/g,replace=<$0>,substitute_callout
abcdefabcpqr
1(1) Old 0 3 "abc" New 0 5 "<abc>"
2(1) Old 6 9 "abc" New 8 13 "<abc>"
2: <abc>def<abc>pqr
The first number on each callout line is the count of matches. The parenthesized number is
the number of pairs that are set in the ovector (that is, one more than the number of
capturing groups that were set). Then are listed the offsets of the old substring, its
contents, and the same for the replacement.
By default, the substitution callout function returns zero, which accepts the replacement
and causes matching to continue if /g was used. Two further modifiers can be used to test
other return values. If substitute_skip is set to a value greater than zero the callout
function returns +1 for the match of that number, and similarly substitute_stop returns
-1. These cause the replacement to be rejected, and -1 causes no further matching to take
place. If either of them are set, substitute_callout is assumed. For example:
/abc/g,replace=<$0>,substitute_skip=1
abcdefabcpqr
1(1) Old 0 3 "abc" New 0 5 "<abc> SKIPPED"
2(1) Old 6 9 "abc" New 6 11 "<abc>"
2: abcdef<abc>pqr
abcdefabcpqr\=substitute_stop=1
1(1) Old 0 3 "abc" New 0 5 "<abc> STOPPED"
1: abcdefabcpqr
If both are set for the same number, stop takes precedence. Only a single skip or stop is
supported, which is sufficient for testing that the feature works.
Setting the JIT stack size
The jitstack modifier provides a way of setting the maximum stack size that is used by the
just-in-time optimization code. It is ignored if JIT optimization is not being used. The
value is a number of kibibytes (units of 1024 bytes). Setting zero reverts to the default
of 32KiB. Providing a stack that is larger than the default is necessary only for very
complicated patterns. If jitstack is set non-zero on a subject line it overrides any value
that was set on the pattern.
Setting heap, match, and depth limits
The heap_limit, match_limit, and depth_limit modifiers set the appropriate limits in the
match context. These values are ignored when the find_limits modifier is specified.
Finding minimum limits
If the find_limits modifier is present on a subject line, pcre2test calls the relevant
matching function several times, setting different values in the match context via
pcre2_set_heap_limit(), pcre2_set_match_limit(), or pcre2_set_depth_limit() until it finds
the minimum values for each parameter that allows the match to complete without error. If
JIT is being used, only the match limit is relevant.
When using this modifier, the pattern should not contain any limit settings such as
(*LIMIT_MATCH=...) within it. If such a setting is present and is lower than the minimum
matching value, the minimum value cannot be found because pcre2_set_match_limit() etc. are
only able to reduce the value of an in-pattern limit; they cannot increase it.
For non-DFA matching, the minimum depth_limit number is a measure of how much nested
backtracking happens (that is, how deeply the pattern's tree is searched). In the case of
DFA matching, depth_limit controls the depth of recursive calls of the internal function
that is used for handling pattern recursion, lookaround assertions, and atomic groups.
For non-DFA matching, the match_limit number is a measure of the amount of backtracking
that takes place, and learning the minimum value can be instructive. For most simple
matches, the number is quite small, but for patterns with very large numbers of matching
possibilities, it can become large very quickly with increasing length of subject string.
In the case of DFA matching, match_limit controls the total number of calls, both
recursive and non-recursive, to the internal matching function, thus controlling the
overall amount of computing resource that is used.
For both kinds of matching, the heap_limit number, which is in kibibytes (units of 1024
bytes), limits the amount of heap memory used for matching. A value of zero disables the
use of any heap memory; many simple pattern matches can be done without using the heap, so
zero is not an unreasonable setting.
Showing MARK names
The mark modifier causes the names from backtracking control verbs that are returned from
calls to pcre2_match() to be displayed. If a mark is returned for a match, non-match, or
partial match, pcre2test shows it. For a match, it is on a line by itself, tagged with
"MK:". Otherwise, it is added to the non-match message.
Showing memory usage
The memory modifier causes pcre2test to log the sizes of all heap memory allocation and
freeing calls that occur during a call to pcre2_match() or pcre2_dfa_match(). These occur
only when a match requires a bigger vector than the default for remembering backtracking
points (pcre2_match()) or for internal workspace (pcre2_dfa_match()). In many cases there
will be no heap memory used and therefore no additional output. No heap memory is
allocated during matching with JIT, so in that case the memory modifier never has any
effect. For this modifier to work, the null_context modifier must not be set on both the
pattern and the subject, though it can be set on one or the other.
Setting a starting offset
The offset modifier sets an offset in the subject string at which matching starts. Its
value is a number of code units, not characters.
Setting an offset limit
The offset_limit modifier sets a limit for unanchored matches. If a match cannot be found
starting at or before this offset in the subject, a "no match" return is given. The data
value is a number of code units, not characters. When this modifier is used, the
use_offset_limit modifier must have been set for the pattern; if not, an error is
generated.
Setting the size of the output vector
The ovector modifier applies only to the subject line in which it appears, though of
course it can also be used to set a default in a #subject command. It specifies the number
of pairs of offsets that are available for storing matching information. The default is
15.
A value of zero is useful when testing the POSIX API because it causes regexec() to be
called with a NULL capture vector. When not testing the POSIX API, a value of zero is used
to cause pcre2_match_data_create_from_pattern() to be called, in order to create a match
block of exactly the right size for the pattern. (It is not possible to create a match
block with a zero-length ovector; there is always at least one pair of offsets.)
Passing the subject as zero-terminated
By default, the subject string is passed to a native API matching function with its
correct length. In order to test the facility for passing a zero-terminated string, the
zero_terminate modifier is provided. It causes the length to be passed as
PCRE2_ZERO_TERMINATED. When matching via the POSIX interface, this modifier is ignored,
with a warning.
When testing pcre2_substitute(), this modifier also has the effect of passing the
replacement string as zero-terminated.
Passing a NULL context, subject, or replacement
Normally, pcre2test passes a context block to pcre2_match(), pcre2_dfa_match(),
pcre2_jit_match() or pcre2_substitute(). If the null_context modifier is set, however,
NULL is passed. This is for testing that the matching and substitution functions behave
correctly in this case (they use default values). This modifier cannot be used with the
find_limits or substitute_callout modifiers.
Similarly, for testing purposes, if the null_subject or null_replacement modifier is set,
the subject or replacement string pointers are passed as NULL, respectively, to the
relevant functions.
THE ALTERNATIVE MATCHING FUNCTION
By default, pcre2test uses the standard PCRE2 matching function, pcre2_match() to match
each subject line. PCRE2 also supports an alternative matching function,
pcre2_dfa_match(), which operates in a different way, and has some restrictions. The
differences between the two functions are described in the pcre2matching documentation.
If the dfa modifier is set, the alternative matching function is used. This function
finds all possible matches at a given point in the subject. If, however, the dfa_shortest
modifier is set, processing stops after the first match is found. This is always the
shortest possible match.
DEFAULT OUTPUT FROM pcre2test
This section describes the output when the normal matching function, pcre2_match(), is
being used.
When a match succeeds, pcre2test outputs the list of captured substrings, starting with
number 0 for the string that matched the whole pattern. Otherwise, it outputs "No match"
when the return is PCRE2_ERROR_NOMATCH, or "Partial match:" followed by the partially
matching substring when the return is PCRE2_ERROR_PARTIAL. (Note that this is the entire
substring that was inspected during the partial match; it may include characters before
the actual match start if a lookbehind assertion, \K, \b, or \B was involved.)
For any other return, pcre2test outputs the PCRE2 negative error number and a short
descriptive phrase. If the error is a failed UTF string check, the code unit offset of the
start of the failing character is also output. Here is an example of an interactive
pcre2test run.
$ pcre2test
PCRE2 version 10.22 2016-07-29
re> /^abc(\d+)/
data> abc123
0: abc123
1: 123
data> xyz
No match
Unset capturing substrings that are not followed by one that is set are not shown by
pcre2test unless the allcaptures modifier is specified. In the following example, there
are two capturing substrings, but when the first data line is matched, the second, unset
substring is not shown. An "internal" unset substring is shown as "<unset>", as for the
second data line.
re> /(a)|(b)/
data> a
0: a
1: a
data> b
0: b
1: <unset>
2: b
If the strings contain any non-printing characters, they are output as \xhh escapes if the
value is less than 256 and UTF mode is not set. Otherwise they are output as \x{hh...}
escapes. See below for the definition of non-printing characters. If the aftertext
modifier is set, the output for substring 0 is followed by the the rest of the subject
string, identified by "0+" like this:
re> /cat/aftertext
data> cataract
0: cat
0+ aract
If global matching is requested, the results of successive matching attempts are output in
sequence, like this:
re> /\Bi(\w\w)/g
data> Mississippi
0: iss
1: ss
0: iss
1: ss
0: ipp
1: pp
"No match" is output only if the first match attempt fails. Here is an example of a
failure message (the offset 4 that is specified by the offset modifier is past the end of
the subject string):
re> /xyz/
data> xyz\=offset=4
Error -24 (bad offset value)
Note that whereas patterns can be continued over several lines (a plain ">" prompt is used
for continuations), subject lines may not. However newlines can be included in a subject
by means of the \n escape (or \r, \r\n, etc., depending on the newline sequence setting).
OUTPUT FROM THE ALTERNATIVE MATCHING FUNCTION
When the alternative matching function, pcre2_dfa_match(), is used, the output consists of
a list of all the matches that start at the first point in the subject where there is at
least one match. For example:
re> /(tang|tangerine|tan)/
data> yellow tangerine\=dfa
0: tangerine
1: tang
2: tan
Using the normal matching function on this data finds only "tang". The longest matching
string is always given first (and numbered zero). After a PCRE2_ERROR_PARTIAL return, the
output is "Partial match:", followed by the partially matching substring. Note that this
is the entire substring that was inspected during the partial match; it may include
characters before the actual match start if a lookbehind assertion, \b, or \B was
involved. (\K is not supported for DFA matching.)
If global matching is requested, the search for further matches resumes at the end of the
longest match. For example:
re> /(tang|tangerine|tan)/g
data> yellow tangerine and tangy sultana\=dfa
0: tangerine
1: tang
2: tan
0: tang
1: tan
0: tan
The alternative matching function does not support substring capture, so the modifiers
that are concerned with captured substrings are not relevant.
RESTARTING AFTER A PARTIAL MATCH
When the alternative matching function has given the PCRE2_ERROR_PARTIAL return,
indicating that the subject partially matched the pattern, you can restart the match with
additional subject data by means of the dfa_restart modifier. For example:
re> /^\d?\d(jan|feb|mar|apr|may|jun|jul|aug|sep|oct|nov|dec)\d\d$/
data> 23ja\=ps,dfa
Partial match: 23ja
data> n05\=dfa,dfa_restart
0: n05
For further information about partial matching, see the pcre2partial documentation.
CALLOUTS
If the pattern contains any callout requests, pcre2test's callout function is called
during matching unless callout_none is specified. This works with both matching functions,
and with JIT, though there are some differences in behaviour. The output for callouts with
numerical arguments and those with string arguments is slightly different.
Callouts with numerical arguments
By default, the callout function displays the callout number, the start and current
positions in the subject text at the callout time, and the next pattern item to be tested.
For example:
--->pqrabcdef
0 ^ ^ \d
This output indicates that callout number 0 occurred for a match attempt starting at the
fourth character of the subject string, when the pointer was at the seventh character, and
when the next pattern item was \d. Just one circumflex is output if the start and current
positions are the same, or if the current position precedes the start position, which can
happen if the callout is in a lookbehind assertion.
Callouts numbered 255 are assumed to be automatic callouts, inserted as a result of the
auto_callout pattern modifier. In this case, instead of showing the callout number, the
offset in the pattern, preceded by a plus, is output. For example:
re> /\d?[A-E]\*/auto_callout
data> E*
--->E*
+0 ^ \d?
+3 ^ [A-E]
+8 ^^ \*
+10 ^ ^
0: E*
If a pattern contains (*MARK) items, an additional line is output whenever a change of
latest mark is passed to the callout function. For example:
re> /a(*MARK:X)bc/auto_callout
data> abc
--->abc
+0 ^ a
+1 ^^ (*MARK:X)
+10 ^^ b
Latest Mark: X
+11 ^ ^ c
+12 ^ ^
0: abc
The mark changes between matching "a" and "b", but stays the same for the rest of the
match, so nothing more is output. If, as a result of backtracking, the mark reverts to
being unset, the text "<unset>" is output.
Callouts with string arguments
The output for a callout with a string argument is similar, except that instead of
outputting a callout number before the position indicators, the callout string and its
offset in the pattern string are output before the reflection of the subject string, and
the subject string is reflected for each callout. For example:
re> /^ab(?C'first')cd(?C"second")ef/
data> abcdefg
Callout (7): 'first'
--->abcdefg
^ ^ c
Callout (20): "second"
--->abcdefg
^ ^ e
0: abcdef
Callout modifiers
The callout function in pcre2test returns zero (carry on matching) by default, but you can
use a callout_fail modifier in a subject line to change this and other parameters of the
callout (see below).
If the callout_capture modifier is set, the current captured groups are output when a
callout occurs. This is useful only for non-DFA matching, as pcre2_dfa_match() does not
support capturing, so no captures are ever shown.
The normal callout output, showing the callout number or pattern offset (as described
above) is suppressed if the callout_no_where modifier is set.
When using the interpretive matching function pcre2_match() without JIT, setting the
callout_extra modifier causes additional output from pcre2test's callout function to be
generated. For the first callout in a match attempt at a new starting position in the
subject, "New match attempt" is output. If there has been a backtrack since the last
callout (or start of matching if this is the first callout), "Backtrack" is output,
followed by "No other matching paths" if the backtrack ended the previous match attempt.
For example:
re> /(a+)b/auto_callout,no_start_optimize,no_auto_possess
data> aac\=callout_extra
New match attempt
--->aac
+0 ^ (
+1 ^ a+
+3 ^ ^ )
+4 ^ ^ b
Backtrack
--->aac
+3 ^^ )
+4 ^^ b
Backtrack
No other matching paths
New match attempt
--->aac
+0 ^ (
+1 ^ a+
+3 ^^ )
+4 ^^ b
Backtrack
No other matching paths
New match attempt
--->aac
+0 ^ (
+1 ^ a+
Backtrack
No other matching paths
New match attempt
--->aac
+0 ^ (
+1 ^ a+
No match
Notice that various optimizations must be turned off if you want all possible matching
paths to be scanned. If no_start_optimize is not used, there is an immediate "no match",
without any callouts, because the starting optimization fails to find "b" in the subject,
which it knows must be present for any match. If no_auto_possess is not used, the "a+"
item is turned into "a++", which reduces the number of backtracks.
The callout_extra modifier has no effect if used with the DFA matching function, or with
JIT.
Return values from callouts
The default return from the callout function is zero, which allows matching to continue.
The callout_fail modifier can be given one or two numbers. If there is only one number, 1
is returned instead of 0 (causing matching to backtrack) when a callout of that number is
reached. If two numbers (<n>:<m>) are given, 1 is returned when callout <n> is reached and
there have been at least <m> callouts. The callout_error modifier is similar, except that
PCRE2_ERROR_CALLOUT is returned, causing the entire matching process to be aborted. If
both these modifiers are set for the same callout number, callout_error takes precedence.
Note that callouts with string arguments are always given the number zero.
The callout_data modifier can be given an unsigned or a negative number. This is set as
the "user data" that is passed to the matching function, and passed back when the callout
function is invoked. Any value other than zero is used as a return from pcre2test's
callout function.
Inserting callouts can be helpful when using pcre2test to check complicated regular
expressions. For further information about callouts, see the pcre2callout documentation.
NON-PRINTING CHARACTERS
When pcre2test is outputting text in the compiled version of a pattern, bytes other than
32-126 are always treated as non-printing characters and are therefore shown as hex
escapes.
When pcre2test is outputting text that is a matched part of a subject string, it behaves
in the same way, unless a different locale has been set for the pattern (using the locale
modifier). In this case, the isprint() function is used to distinguish printing and non-
printing characters.
SAVING AND RESTORING COMPILED PATTERNS
It is possible to save compiled patterns on disc or elsewhere, and reload them later,
subject to a number of restrictions. JIT data cannot be saved. The host on which the
patterns are reloaded must be running the same version of PCRE2, with the same code unit
width, and must also have the same endianness, pointer width and PCRE2_SIZE type. Before
compiled patterns can be saved they must be serialized, that is, converted to a stream of
bytes. A single byte stream may contain any number of compiled patterns, but they must all
use the same character tables. A single copy of the tables is included in the byte stream
(its size is 1088 bytes).
The functions whose names begin with pcre2_serialize_ are used for serializing and de-
serializing. They are described in the pcre2serialize documentation. In this section we
describe the features of pcre2test that can be used to test these functions.
Note that "serialization" in PCRE2 does not convert compiled patterns to an abstract
format like Java or .NET. It just makes a reloadable byte code stream. Hence the
restrictions on reloading mentioned above.
In pcre2test, when a pattern with push modifier is successfully compiled, it is pushed
onto a stack of compiled patterns, and pcre2test expects the next line to contain a new
pattern (or command) instead of a subject line. By contrast, the pushcopy modifier causes
a copy of the compiled pattern to be stacked, leaving the original available for immediate
matching. By using push and/or pushcopy, a number of patterns can be compiled and
retained. These modifiers are incompatible with posix, and control modifiers that act at
match time are ignored (with a message) for the stacked patterns. The jitverify modifier
applies only at compile time.
The command
#save <filename>
causes all the stacked patterns to be serialized and the result written to the named file.
Afterwards, all the stacked patterns are freed. The command
#load <filename>
reads the data in the file, and then arranges for it to be de-serialized, with the
resulting compiled patterns added to the pattern stack. The pattern on the top of the
stack can be retrieved by the #pop command, which must be followed by lines of subjects
that are to be matched with the pattern, terminated as usual by an empty line or end of
file. This command may be followed by a modifier list containing only control modifiers
that act after a pattern has been compiled. In particular, hex, posix, posix_nosub, push,
and pushcopy are not allowed, nor are any option-setting modifiers. The JIT modifiers
are, however permitted. Here is an example that saves and reloads two patterns.
/abc/push
/xyz/push
#save tempfile
#load tempfile
#pop info
xyz
#pop jit,bincode
abc
If jitverify is used with #pop, it does not automatically imply jit, which is different
behaviour from when it is used on a pattern.
The #popcopy command is analagous to the pushcopy modifier in that it makes current a copy
of the topmost stack pattern, leaving the original still on the stack.
SEE ALSO
pcre2(3), pcre2api(3), pcre2callout(3), pcre2jit, pcre2matching(3), pcre2partial(d),
pcre2pattern(3), pcre2serialize(3).
AUTHOR
Philip Hazel
Retired from University Computing Service
Cambridge, England.
REVISION
Last updated: 12 January 2022
Copyright (c) 1997-2022 University of Cambridge.