NAME

Outthentic::DSL

SYNOPSIS

Outthentic::DSL - language to verify (un)structured text.

Install

$ cpanm Outthentic::DSL

Developing

$ git clone https://travis-ci.org/melezhik/outthentic-dsl 
$ cd outthentic-dsl
$ perl Makefile.PL && make && make install

Glossary

Input text

An arbitrary, often unstructured text being verified. It could be any text.

Examples:

• html code

• xml code

• json

• plain text

• emails :-)

• http headers

• another program languages code

Outthentic DSL

• Is a language to verify arbitrary text

• Outthentic DSL is both imperative and declarative language

Declarative way

You define rules ( check expressions ) to describe expected content.

Imperative way

You extend a process of verification using regular programming languages - like Perl, Bash and Ruby, see examples below.

DSL code

A program code written on Outthentic DSL language to verify text input.

Search context

Verification process is taken in a context.

By default search context is equal to an original text input stream.

However a search context might be changed in some situations ( see within, text blocks and ranges expressions ).

DSL parser

DSL parser is the program which:

• parses DSL code

• parses text input

• verifies text input ( line by line ) against a check expressions ( line by line )

Verification process

Verification process consists of matching lines of text input against check expressions.

This is schematic description of the process:

For every check expression in a check expressions list:
    * Mark this check step in `unknown' state.
    * For every line in input text:
        * Verify if it matches check expression. If line matches then mark step in `succeeded' state.
        * Next line.
    End of lines loop.
    * If the check step marked in `unknown' state, then mark it in `failed' state.  
    * Next check expression.
End of expressions loop.

Check if all check steps are succeeded. If so then input text is considered verified, else - not verified.

A final presentation of verification results should be implemented in a certain client using parser api and not being defined at this scope.

Parser API

Outthentic::DSL provides program API for client applications.

This is example of verification some text against 2 lines;

use Outthentic::DSL;

my $otx = Outthentic::DSL->new(<<HERE, { debug_mod => 0 });
    Hello
    My name is Outthentic!
HERE

$otx->validate(<<'CHECK');
    Hello
    regexp: My\s+name\s+is\s+\S+
CHECK

print "status\tcheck\n";
print "==========================\n";

for my $r (@{$otx->results}) {
    print $r->{status} ? 'true' : 'false', "\t", $r->{message}, "\n";
}

Output:

status  check
==========================
true    text has 'Hello'
true    text match /My\s+name\s+is\s+\S+/

Methods list:

new

This is constructor to create an Outthentic::DSL instance.

Obligatory parameters are:

• text

input text to get verified

Outthentic::DSL->new("Hi! Welcome to my birthday party.\nLet's have a fun" );

Optional parameters are passed as hash:

• match_l - truncate check expressions to a match_l bytes when generating results

This is useful when debugging long check expressions:

use Outthentic::DSL;

my $otx = Outthentic::DSL->new( 'A'x99 , { match_l  => 9 });

$otx->validate('A'x99);

print "status\tcheck\n";
print "==========================\n";

for my $r (@{$otx->results}) {
    print $r->{status} ? 'true' : 'false', "\t", $r->{message}, "\n";
}

Output:

status  check
==========================
true    text has 'AAAAAAAAA'

Default value is 40.

• debug_mod - enable debug mode

  • Possible values is one of: 0,1,2,3,4

  • Set to 1 or 2 or 3 or 4 if you want to see some debug information appeared at console.

  • Increasing debug_mod value results in more low level information appeared.

  • Default value is 0 - means do not emit debug messages.

validate

Perform verification process.

Obligatory parameter is:

• a string with DSL code

Example:

$otx->validate(<<'CHECK');

  # there should be digits
  regexp: \d
  # and greetings
  regexp: hello \s+ \w+

CHECK

results

Returns validation results as array containing { type, status, message } hashes.

Outthentic clients

Client is a external program using DSL API. Existed Outthentic clients:

• Swat - web application testing tool

• Outthentic - multipurpose scenarios framework

DSL code syntax

Outthentic DSL code comprises following entities:

• Comments

• Blank lines

• Check expressions:

  • plain strings

  • regular expressions

  • text blocks

  • within expressions

  • asserts expressions

  • validator expressions

  • range expressions

• Code expressions

• Generator expressions

Check expressions

Check expressions define patterns to match against an input text stream.

Here is a simple example:

use Outthentic::DSL;

my $otx = Outthentic::DSL->new(<<'HERE');
  HELLO
  HELLO WORLD
  My birth day is: 1977-04-16
HERE

$otx->validate(<<'CHECK');
  HELLO
  regexp: \d\d\d\d-\d\d-\d\d
CHECK

print "status\tcheck\n";
print "==========================\n";

for my $r (@{$otx->results}) {
    print $r->{status} ? 'true' : 'false', "\t", $r->{message}, "\n";
}

Output:

status  check
==========================
true    text has 'HELLO'
true    text match /\d\d\d\d-\d\d-\d\d/

There are two basic types of check expressions:

• plain text expressions

• regular expressions.

Plain text expressions

Plain text expressions define a lines an input text to contain.

use Outthentic::DSL;

my $otx = Outthentic::DSL->new(<<'HERE');
  I am ok, really
  HELLO Outthentic !!!
HERE

$otx->validate(<<'CHECK');
  I am ok
  HELLO Outthentic
CHECK

print "status\tcheck\n";
print "==========================\n";

for my $r (@{$otx->results}) {
    print $r->{status} ? 'true' : 'false', "\t", $r->{message}, "\n";
}

Output:

status  check
==========================
true    text has 'I am ok'
true    text has 'HELLO Outthentic'

Plain text expressions are case sensitive:

use Outthentic::DSL;

my $otx = Outthentic::DSL->new(<<'HERE');
  I am ok
HERE

$otx->validate(<<'CHECK');
  I am OK
CHECK

print "status\tcheck\n";
print "==========================\n";

for my $r (@{$otx->results}) {
    print $r->{status} ? 'true' : 'false', "\t", $r->{message}, "\n";
}

Output:

status  check
==========================
false   text has 'I am OK'

Regular expressions

Similarly to plain text matching, you may require that input lines match some regular expressions.

This should be Perl Regular Expressions.

Example:

use Outthentic::DSL;

my $otx = Outthentic::DSL->new(<<'HERE');
  2001-01-02
  Name: Outthentic
  App Version Number: 1.1.10
HERE

$otx->validate(<<'CHECK');
  regexp: \d\d\d\d-\d\d-\d\d # date in format of YYYY-MM-DD
  regexp: Name:\s+\w+ # name
  regexp: App Version Number:\s+\d+\.\d+\.\d+ # version number
CHECK

for my $r (@{$otx->results}) {
    print $r->{status} ? 'true' : 'false', "\t", $r->{message}, "\n";
}

Output:

true    text match /\d\d\d\d-\d\d-\d\d/
true    text match /Name:\s+\w+/
true    text match /App Version Number:\s+\d+\.\d+\.\d+/

One or many?

• Parser does not care about how many times check expression matches an input text.

• If at least one line in a text matches the check expression - this check is considered as successful.

• If you use capturing regex expressions, parser accumulates all captured data to make it possible further processing.

Example:

use Outthentic::DSL;
use Data::Dumper;

my $otx = Outthentic::DSL->new(<<'HERE');
    1 - for one
    2 - for two
    3 - for three
HERE

$otx->validate(<<'CHECK');

regexp: (\d+)\s+-\s+for\s+(\w+)

CHECK

print Dumper($otx->{captures});

Output:

[
  [
    '1',
    'one'
  ],
  [
    '2',
    'two'
  ],
  [
    '3',
    'three'
  ]
]

See "captures" section for full explanation of a captures mechanism.

Comments, blank lines and text blocks

Comments and blank lines don't impact verification process but you may use them for the sake of DSL code readability.

Comments

Comment lines start with # symbol, comments are ignored by parser.

DSL code:

# comments could be represented at a distinct line, like here
The beginning of story
Hello World # or could be added for the existed expression to the right, like here

Blank lines

Blank lines are ignored as well.

DSL code:

# every story has the beginning
The beginning of a story
# then 2 blank lines


# end has the end
The end of a story

But you can't ignore blank lines in a text blocks, see text blocks subsection for details.

Use :blank_line marker to match blank lines inside text blocks.

DSL code:

# :blank_line marker matches blank lines
# this is especially useful
# when match in text blocks context:

begin:
    this line followed by 2 blank lines
    :blank_line
    :blank_line
end:

Text blocks

Sometimes you need to match a text against a sequence of lines like in code below.

use Outthentic::DSL;

my $otx = Outthentic::DSL->new(<<'HERE');
  this string followed by
  that string followed by
  another one string
  with that string
  at the very end.
HERE

$otx->validate(<<'CHECK');

  # this text block
  # consists of 5 strings
  # going consecutive
  
  begin:
      # plain strings
      this string followed by
      that string followed by
      another one
      # regexp patterns:
      regexp: with\s+(this|that)
      # and the last one in a block
      at the very end
  end:
  
CHECK

for my $r (@{$otx->results}) {
    print $r->{status} ? 'true' : 'false', "\t", $r->{message}, "\n";
}

Output:

true    [b] text has 'this string followed by'
true    [b] text has 'that string followed by'
true    [b] text has 'another one'
true    [b] text match /with\s+(this|that)/
true    [b] text has 'at the very end'

A negative example:

my $otx = Outthentic::DSL->new(<<'HERE');
    that string followed by
    this string followed by
    another one string
    with that string
    at the very end.
HERE

$otx->validate(<<'CHECK');

  # this text block
  # consists of 5 strings
  # going consecutive
  
  begin:
      # plain strings
      this string followed by
      that string followed by
      another one
      # regex patterns:
      regexp: with\s+(this|that)
      # and the last one in a block
      at the very end
  end:
  
CHECK

for my $r (@{$otx->results}) {
    print $r->{status} ? 'true' : 'false', "\t", $r->{message}, "\n";
}

Output:

true    [b] text has 'this string followed by'
false   [b] text has 'that string followed by'
true    [b] text has 'another one'
true    [b] text match /with\s+(this|that)/
true    [b] text has 'at the very end'

begin:, end: markers decorate text blocks content.

Markers should not be followed by any text at the same line.

Don't forget to close the block ...

Be aware if you leave "dangling" begin: marker without closing end: parser will remain in a text block mode till the end of the file, which is probably not you want:

DSL code:

begin:
    here we begin
    and till the very end 
    of this text
    we remain in `text block` mode

Code expressions

Code expressions are just a pieces of 'some language code' you may inline and execute during parsing process.

By default, if language is no set Perl language is assumed. Here is example:

use Outthentic::DSL;

my $otx = Outthentic::DSL->new('hello');

$otx->validate(<<'CHECK');
  hello
  code: print "hi there!\n";
CHECK

for my $r (@{$otx->results}) {
    print $r->{status} ? 'true' : 'false', "\t", $r->{message}, "\n";
}

Output:

hi there!
true    text has 'hello'

As you may notice code expression here has no impact on verification process, this trivial example just shows that you may inline some programming languages code into Outthentic DSL. See generators section on how dynamically create new check expressions using common programming languages.

You may use other languages in code expressions, not only Perl.

Use here document style ( see multiline expressions section ) and proper shebang to insert code written in other languages. Here are some examples:

perl5

code:  <<HERE
!perl

print 'hi there!'
HERE

bash

code:  <<HERE
!bash

echo 'hi there!'
HERE

ruby

code: <<CODE
!ruby

puts 'hi there!'
CODE

Asserts

Asserts expressions consists of assert value, and description - a short string to describe assert.

Assert value should be something to be treated as false or true in Perl, here is examples:

DSL code

# you may have assert expressions as is
# then assert value should be Perl value to be treated as true or false
# 
assert: 0     this is not true in Perl
assert: 1     this is true in Perl
assert: "OK"  none empty string is for true in Perl
assert: ""    empty string is for false in Perl

Asserts almost always to be created dynamically with generators. See the next section.

Generators

• Generators is the way to generate new Outthentic entities on the fly.

• Generator expressions like code expressions are just a piece of code to be executed.

• The only requirement for generator code - it should return new Outthentic entities.

If you use Perl in generator expressions ( which is by default ) - last statement in your code should be one of three:

1. reference to array of strings where every string should represent a new Outthentic entity

2. string to represent a new Outthentic entities, this could be multiline string

3. path to file with check expressions - new outthentic entities

Usually first two options most convenient way.

If you use languages other than Perl to produce new Outthentic entities you should print them into stdout. See examples below.

A new Outthentic entities are passed back to parser and executed immediately.

Generators expressions start with generator: marker.

Here is simple example.

use Outthentic::DSL;

my $otx = Outthentic::DSL->new('HELLO');

$otx->validate(<<'CHECK');
  generator: [ 'H', 'E', 'L', 'O' ];
CHECK

for my $r (@{$otx->results}) {
    print $r->{status} ? 'true' : 'false', "\t", $r->{message}, "\n";
}

Output:

true    text has 'H'
true    text has 'E'
true    text has 'L'
true    text has 'O'

If you use other languages to generate expressions, you just need to print entries into stdout. Here are some generators examples for other languages:

Original check expressions list:

Say
HELLO

This generator creates 3 new check expressions:

generator: <<CODE
!bash
  echo say
  echo hello
  echo again
CODE

Or if you prefer Ruby:

generator: <<CODE
!ruby
  puts 'say'
  puts 'hello'
  puts 'again'
CODE

Updated check list:

Say
HELLO
say
hello
again

Here is more complicated example using Perl language.

# this generator creates
# comments
# and plain string check expressions:

use Outthentic::DSL;

my $otx = Outthentic::DSL->new(<<'HERE');
  foo value
  bar value
HERE

$otx->validate(<<'CHECK');

    generator: <<CODE

      my %d = ( 'foo' => 'foo value', 'bar' => 'bar value' );
      join "\n", map { ( "# $_" , $d{$_} ) } keys %d;

    CODE

CHECK

for my $r (@{$otx->results}) {
    print $r->{status} ? 'true' : 'false', "\t", $r->{message}, "\n";
}

A check list being generated:

# foo
foo value
# bar
bar value

Output:

true    text has 'foo value'
true    text has 'bar value'

Generators could produce not only check expressions but code expressions and ... another generators.

So ... use your imagination power! ...

This is fictional example.

Input Text:

A
AA
AAA
AAAA
AAAAA

DSL code:

generator:  <<CODE

sub next_number {                       
    my $i = shift;                       
    $i++;                               
    return if $i>=5;                 
    [
      'regexp: ^'.('A' x $i).'$',      
      "generator: next_number(".$i.")"
    ]
}
CODE

Generators are commonly used to create an asserts.

This is short example for Ruby language:

number: (\d+)

generator: <<CODE
!ruby
    puts "assert: #{capture()[0] == 10}, you've got 10!"  
CODE

Validators

WARNING!!! You should prefer asserts over validators. Validators feature will be deprecated soon!

Validator expressions are perl code expressions used for dynamic verification.

Validator expressions start with validator: marker.

A Perl code inside validator block should return array reference.

• Once code is executed a returned array structure treated as:

• first element - is a status number ( Perl true or false )

• second element - is a helpful message

Validators a kind of check expressions with check logic expressed in program code. Here is examples:

# this is always true
validator: [ 10>1 , 'ten is bigger then one' ]

# and this is not
validator: [ 1>10, 'one is bigger then ten'  ]

# this one depends on previous check
regexp: credit card number: (\d+)
validator: [ captures()[0][0] == '0101010101', 'I know your secrets!'  ]


# and this could be any
validator: [ int(rand(2)) > 1, 'I am lucky!'  ]

Validators are often used in conjunction with the captures expressions. This is another example.

Input text:

# my family ages list
alex    38
julia   32
jan     2

DSL code:

# let's capture name and age chunks
regexp: /(\w+)\s+(\d+)/

validator: <<CODE
my $total=0;                        
for my $c (@{captures()}) {         
    $total+=$c->[0];                
}                                   
[ ( $total == 72 ), "total age" ] 

CODE

Multiline expressions

Multilines in check expressions

When parser parses check expressions it does it in a single line mode :

• check expression is always single line string

• input text is parsed in line by line mode, thus every line is validated against a single line check expression

Here is example.

Input text:

Multiline
string
here

DSL code:

# check list
# always
# consists of
# single line expressions

Multiline
string
here
regexp: Multiline \n string \n here

Results:

+--------+---------------------------------------+
| status | message                               |
+--------+---------------------------------------+
| OK     | matches "Multiline"                   |
| OK     | matches "string"                      |
| OK     | matches "here"                        |
| FAIL   | matches /Multiline \n string \n here/ |
+--------+---------------------------------------+

Use text blocks if you want to represent multiline checks.

Multilines in code expressions, generators and validators

Perl expressions, validators and generators could contain multilines expressions

There are two ways to write multiline expressions:

• using back slash delimiters to split multiline string to many chunks

• using HERE documents expressions

Back slash delimiters

\ delimiters breaks a single line text on a multi lines.

Example:

# What about to validate stdout
# With sqlite database entries?

generator:                                                          \

use DBI;                                                            \
my $dbh = DBI->connect("dbi:SQLite:dbname=t/data/test.db","","");   \
my $sth = $dbh->prepare("SELECT name from users");                  \
$sth->execute();                                                    \
my $results = $sth->fetchall_arrayref;                              \

[ map { $_->[0] } @${results} ]                                     \

HERE documents expressions

Is alternative to make your multiline code more readable:

# What about to validate stdout
# With sqlite database entries?

generator: <<CODE

  use DBI;                                                            
  my $dbh = DBI->connect("dbi:SQLite:dbname=t/data/test.db","","");   
  my $sth = $dbh->prepare("SELECT name from users");                  
  $sth->execute();                                                    
  my $results = $sth->fetchall_arrayref;                              
  
  [ map { $_->[0] } @${results} ]
  
CODE

Captures

Captures are pieces of data get captured when parser validate lines against a regular expressions:

Input text:

# my family ages list.
alex    38
julia   32
jan     2


# let's capture name and age chunks
regexp: /(\w+)\s+(\d+)/
code: << CODE                                 
    for my $c (@{captures}){            
        print "name:", $c->[0], "\n";   
        print "age:", $c->[1], "\n";    
    }
CODE

Data accessible via captures():

[
    ['alex',    38 ]
    ['julia',   32 ]
    ['jan',     2  ]
]

Usually captured data is good candidates for assert checks.

DSL code:

generator: << CODE
!ruby
  total=0                 
  captures().each do |c|
    total+=c[0]
  end           
  puts "assert: #{total == 72} 'total age of my family'"
CODE

captures() function

captures() function returns an array reference holding all the chunks captured during latest regular expression check.

Here is another example:

# check if stdout contains lines
# with date formatted as date: YYYY-MM-DD
# and then check if first date found is yesterday

regexp: date: (\d\d\d\d)-(\d\d)-(\d\d)

generator:  <<CODE
  use DateTime;                       
  my $c = captures()->[0];            
  my $dt = DateTime->new( year => $c->[0], month => $c->[1], day => $c->[2]  ); 
  my $yesterday = DateTime->now->subtract( days =>  1 );                        
  my $true_or_false = (DateTime->compare($dt, $yesterday) == 0);
  [ 
    "assert: $true_or_false first day found is - $dt and this is a yesterday"
  ];
CODE

capture() function

capture() function returns a first element of captures array.

it is useful when you need data related only first successfully matched line.

DSL code:

# check if  text contains numbers
# a first number should be greater then ten

regexp: (\d+)
generator: [ "assert: ".( capture()->[0] >  10 )." first number is greater than 10 " ]

Search context modificators

Search context modificators are special check expressions which not only validate text but modify search context.

By default search context is equal to original input text stream.

That means parser executes validation use all the lines when performing checks

However there are two search context modificators to change this behavior:

• within expressions

• range expressions

Within expressions

Within expression acts like regular expression - checks text against given patterns

Text input:

These are my colors

color: red
color: green
color: blue
color: brown
color: back

That is it!

DSL code:

# I need one of 3 colors:

within: color: (red|green|blue)

Then if checks given by within statement succeed next checks will be executed in a context of succeeded lines:

# but I really need a green one
green

The code above does follows:

• try to validate input text against regular expression "color: (red|green|blue)"

• if validation is successful new search context is set to all matching lines

These are:

color: red
color: green
color: blue

• thus next plain string checks expression will be executed against new search context

Results:

+--------+------------------------------------------------+
| status | message                                        |
+--------+------------------------------------------------+
| OK     | matches /color: (red|green|blue)/              |
| OK     | /color: (red|green|blue)/ matches green        |
+--------+------------------------------------------------+

Here more examples:

# try to find a date string in following format
within: date: \d\d\d\d-\d\d-\d\d

# we only need a dates in 2000 year
2000-

Within expressions could be sequential, which effectively means using && logical operators for within expressions:

# try to find a date string in following format
within: date: \d\d\d\d-\d\d-\d\d

# and try to find year of 2000 in a date string
within: 2000-\d\d-\d\d

# and try to find month 04 in a date string
within: \d\d\d\d-04-\d\d

Speaking in human language chained within expressions acts like specifications.

When you may start with some generic assumptions and then make your requirements more specific. A failure on any step of chain results in immediate break.

Range expressions

Range expressions also act like search context modificators - they change search area to one included between lines matching right and left regular expression of between statement.

It is very similar to what Perl range operator does when extracting pieces of lines inside stream:

while (<STDOUT>){
    if /foo/ ... /bar/
}

Outthentic analogy for this is range expression:

between: foo bar

Between statement takes 2 arguments - left and right regular expression to setup search area boundaries.

A search context will be all the lines included between line matching left expression and line matching right expression.

A matching (boundary) lines are not included in range.

These are few examples:

Parsing html output

Input text:

<table cols=10 rows=10>
    <tr>
        <td>one</td>
    </tr>
    <tr>
        <td>two</td>
    </tr>
    <tr>
        <td>the</td>
    </tr>
</table>

DSL code:

# between expression:
between: <table.*> <\/table>
regexp: <td>(\S+)<\/td>

# or even so
between: <tr.*> <\/tr>
regexp: <td>(\S+)<\/td>

Multiple range expressions

Multiple range expressions could not be nested, every new between statement discards old search context and setup new one:

Input text:

foo

    1
    2
    3

    FOO
        100
    BAR

bar

FOO

    10
    20
    30

BAR

DSL code:

between: foo bar

code: print "# foo/bar start"

# here will be everything
# between foo and bar lines

regexp: \d+

code: <<CODE                           
for my $i (@{captures()}) {     
    print "# ", $i->[0], "\n"   
}                               
print "# foo/bar end"

CODE

between: FOO BAR

code: print "# FOO/BAR start"

# here will be everything
# between FOO and BAR lines
# NOT necessarily inside foo bar block

regexp: \d+

code:  <<CODE
for my $i (@{captures()}) {     
    print "#", $i->[0], "\n";   
}                               
print "# FOO/BAR end"

CODE

Output:

# foo/bar start
# 1
# 2
# 3
# 100
# foo/bar end

# FOO/BAR start
# 100
# 10
# 20
# 30
# FOO/BAR end

Restoring search context

And finally to restore search context use reset\_context: statement.

Input text:

hello
foo
    hello
    hello
bar

DSL code:

between foo bar

# all check expressions here
# will be applied to the chunks
# between /foo/ ... /bar/

hello       # should match 2 times

# if you want to get back to an original search context
# just say reset_context:

reset_context:
hello       # should match three times

Range expressions caveats

Range expressions can't verify continuous lists.

That means range expression only verifies that there are some set of lines inside some range. It is not necessary should be continuous.

Example.

Input text:

foo
    1
    a
    2
    b
    3
    c
bar

DSL code:

between: foo bar
    1
    code: print capture()->[0], "\n"
    2
    code: print capture()->[0], "\n"
    3
    code: print capture()->[0], "\n"

Output:

1 
2 
3 

If you need check continuous sequences checks use text blocks.

Experimental features

Below is highly experimental features purely tested. You may use it on your own risk! ;)

Streams

Streams are alternative for captures. Consider following example.

Input text:

foo
    a
    b
    c
bar

foo
    1
    2
    3
bar

foo
    0
    00
    000
bar

DSL code:

begin:

    foo

        regexp: (\S+)
        code: print '#', ( join ' ', map {$_->[0]} @{captures()} ), "\n"

        regexp: (\S+)
        code: print '#', ( join ' ', map {$_->[0]} @{captures()} ), "\n"

        regexp: (\S+)
        code: print '#', ( join ' ', map {$_->[0]} @{captures()} ), "\n"


    bar

end:

Output:

# a 1 0
# b 2 00
# c 3 000

Notice something interesting? Output direction has been inverted.

The reason for this is Outthentic check expression works in "line by line scanning" mode when text input gets verified line by line against given check expression.

Once all lines are matched they get dropped into one heap without preserving original "group context".

What if we would like to print all matching lines grouped by text blocks they belong to?

As it's more convenient way ...

This is where streams feature comes to rescue.

Streams - are all the data successfully matched for given group context.

Streams are applicable for text blocks and range expressions.

Let's rewrite last example.

DSL code:

begin:

    foo
        regexp: \S+
        regexp: \S+
        regexp: \S+
    bar

    code:  <<CODE
        for my $s (@{stream()}) {           
            print "# ";                     
            for my $i (@{$s}){              
                print $i;                   
            }                               
            print "\n";                     
        }

CODE

end:

Stream function returns an arrays of streams. Every stream holds all the matched lines for given logical block.

Streams preserve group context. Number of streams relates to the number of successfully matched groups.

Streams data presentation is much closer to what was originally given in text input:

Output:

# foo a b  c    bar
# foo 1 2  3    bar
# foo 0 00 000  bar

Stream could be specially useful when combined with range expressions of various ranges lengths.

For example.

Input text:

foo
    2
    4
    6
    8
bar

foo
    1
    3
bar

foo
    0
    0
    0
bar

DSL code:

between: foo bar

regexp: \d+

code:  <<CODE
    for my $s (@{stream()}) {           
        print "# ";                     
        for my $i (@{$s}){              
            print $i;                   
        }                               
        print "\n";                     
    }

CODE

Output:

# 2 4 6 8
# 1 3
# 0 0 0

Examples

• Some code examples mostly mentioned at this documentation could be found at examples/ directory

• A plenty of other examples could be found at Outthentic module

Environment variables

I'll document these variables later. Here is just a list:

• OUTKEEPSOURCE_FILES

• OTX_DEBUG

Author

Aleksei Melezhik

Home page

https://github.com/melezhik/Outthentic-dsl

COPYRIGHT

Copyright 2016 Alexey Melezhik.

This program is free software; you can redistribute it and/or modify it under the same terms as Perl itself.

See also

Alternative Outthentic DSL introduction could be found here - intro.md

Thanks

• To God as the One Who inspires me to do my job!

cpanm Outthentic::DSL

perl -MCPAN -e shell
install Outthentic::DSL