Convert eps to pdf and crop white spaces - pdf

I have a script that a used before and it worked. But now it does not working (I changed the machine).
to convert eps files to pds files
#!/usr/bin/perl
use File::Find::Rule;
my #files = File::Find::Rule->file()
->name( '*.eps' )
->in( './' );
for my $file (#files) {
print "file: $file\n";
system("epstopdf", $file);
}
to crop white spaces
#!/usr/bin/perl
use File::Find::Rule;
my #files = File::Find::Rule->file()
->name( '*.pdf' )
->in( './' );
for my $file (#files) {
print "file: $file\n";
system("pdfcrop", $file, $file);
}
But when running the files just the names of files are written and the action is not done.
Is there something to install?

Your Perl scripts are trying to run external programs called epstopdf and pdfcrop.

Related

Unix/Perl/Python: substitute list on big data set

I've got a mapping file of about 13491 key/value pairs which I need to use to replace the key with the value in a data set of about 500000 lines divided over 25 different files.
Example mapping:
value1,value2
Example input: field1,field2,**value1**,field4
Example output: field1,field2,**value2**,field4
Please note that the value could be in different places on the line with more than 1 occurrence.
My current approach is with AWK:
awk -F, 'NR==FNR { a[$1]=$2 ; next } { for (i in a) gsub(i, a[i]); print }' mapping.txt file1.txt > file1_mapped.txt
However, this is taking a very long time.
Is there any other way to make this faster? Could use a variety of tools (Unix, AWK, Sed, Perl, Python etc.)
Note   See the second part for a version that uses Text::CSV module to parse files
Load mappings into a hash (dictionary), then go through your files and test each field for whether there is such a key in the hash, replace with value if there is. Write each line out to a temporary file, and when done move it into a new file (or overwrite the processed file). Any tool has to do that, more or less.
With Perl, tested with a few small made-up files
use warnings;
use strict;
use feature 'say';
use File::Copy qw(move);
my $file = shift;
die "Usage: $0 mapping-file data-files\n" if not $file or not #ARGV;
my %map;
open my $fh, '<', $file or die "Can't open $file: $!";
while (<$fh>) {
my ($key, $val) = map { s/^\s+|\s+$//gr } split /\s*,\s*/; # see Notes
$map{$key} = $val;
}
my $outfile = "tmp.outfile.txt.$$"; # but better use File::Temp
foreach my $file (#ARGV) {
open my $fh_out, '>', $outfile or die "Can't open $outfile: $!";
open my $fh, '<', $file or die "Can't open $file: $!";
while (<$fh>) {
s/^\s+|\s+$//g; # remove leading/trailing whitespace
my #fields = split /\s*,\s*/;
exists($map{$_}) && ($_=$map{$_}) for #fields; # see Notes
say $fh_out join ',', #fields;
}
close $fh_out;
# Change to commented out line once thoroughly tested
#move($outfile, $file) or die "can't move $outfile to $file: $!";
move($outfile, 'new_'.$file) or die "can't move $outfile: $!";
}
Notes.
The check of data against mappings is written for efficiency: We must look at each field, there's no escaping that, but then we only check for the field as a key (no regex). For this all leading/trailing spaces need be stripped. Thus this code may change whitespace in output data files; in case this is important for some reason it can of course be modified to preserve original spaces.
It came up in comments that a field in data can differ in fact, by having extra quotes. Then extract the would-be key first
for (#fields) {
$_ = $map{$1} if /"?([^"]*)/ and exists $map{$1};
}
This starts the regex engine on every check, what affects efficiency. It would help to clean up that input CSV data of quotes instead, and run with the code as it is above, with no regex. This can be done by reading files using a CSV-parsing module; see comment at the end.
For Perls earlier than 5.14 replace
my ($key, $val) = map { s/^\s+|\s+$//gr } split /\s*,\s*/;
with
my ($key, $val) = map { s/^\s+|\s+$//g; $_ } split /\s*,\s*/;
since the "non-destructive" /r modifier was introduced only in v5.14
If you'd rather that your whole operation doesn't die for one bad file, replace or die ... with
or do {
# print warning for whatever failed (warn "Can't open $file: $!";)
# take care of filehandles and such if/as needed
next;
};
and make sure to (perhaps log and) review output.
This leaves room for some efficiency improvements, but nothing dramatic.
The data, with commas separating fields, may (or may not) be valid CSV. Since the question doesn't at all address this, and doesn't report problems, it is unlikely that any properties of the CSV data format are used in data files (delimiters embedded in data, protected quotes).
However, it's still a good idea to read these files using a module that honors full CSV, like Text::CSV. That also makes things easier, by taking care of extra spaces and quotes and handing us cleaned-up fields. So here's that -- the same as above, but using the module to parse files
use warnings;
use strict;
use feature 'say';
use File::Copy qw(move);
use Text::CSV;
my $file = shift;
die "Usage: $0 mapping-file data-files\n" if not $file or not #ARGV;
my $csv = Text::CSV->new ( { binary => 1, allow_whitespace => 1 } )
or die "Cannot use CSV: " . Text::CSV->error_diag ();
my %map;
open my $fh, '<', $file or die "Can't open $file: $!";
while (my $line = $csv->getline($fh)) {
$map{ $line->[0] } = $line->[1]
}
my $outfile = "tmp.outfile.txt.$$"; # use File::Temp
foreach my $file (#ARGV) {
open my $fh_out, '>', $outfile or die "Can't open $outfile: $!";
open my $fh, '<', $file or die "Can't open $file: $!";
while (my $line = $csv->getline($fh)) {
exists($map{$_}) && ($_=$map{$_}) for #$line;
say $fh_out join ',', #$line;
}
close $fh_out;
move($outfile, 'new_'.$file) or die "Can't move $outfile: $!";
}
Now we don't have to worry about spaces or overall quotes at all, what simplifies things a bit.
While it is difficult to reliably compare these two approaches without realistic data files, I benchmarked them for (made-up) large data files that involve "similar" processing. The code using Text::CSV for parsing runs either around the same, or (up to) 50% faster.
The constructor option allow_whitespace makes it remove extra spaces, perhaps contrary to what the name may imply, as I do by hand above. (Also see allow_loose_quotes and related options.) There is far more, see docs. The Text::CSV defaults to Text::CSV_XS, if installed.
You're doing 13,491 gsub()s on every one of your 500,000 input lines - that's almost 7 billion full-line regexp search/replaces total. So yes, that would take some time and it's almost certainly corrupting your data in ways you just haven't noticed as the result of one gsub() gets changed by the next gsub() and/or you get partial replacements!
I saw in a comment that some of your fields can be surrounded by double quotes. If those fields can't contain commas or newlines and assuming you want full string matches then this is how to write it:
$ cat tst.awk
BEGIN { FS=OFS="," }
NR==FNR {
map[$1] = $2
map["\""$1"\""] = "\""$2"\""
next
}
{
for (i=1; i<=NF; i++) {
if ($i in map) {
$i = map[$i]
}
}
print
}
I tested the above on a mapping file with 13,500 entries and an input file of 500,000 lines with multiple matches on most lines in cygwin on my underpowered laptop and it completed in about 1 second:
$ wc -l mapping.txt
13500 mapping.txt
$ wc -l file500k
500000 file500k
$ time awk -f tst.awk mapping.txt file500k > /dev/null
real 0m1.138s
user 0m1.109s
sys 0m0.015s
If that doesn't do exactly what you want efficiently then please edit your question to provide a MCVE and clearer requirements, see my comment under your question.
There is some commentary below suggesting that the OP needs to handle real CSV data, whereas the question says:
Please note that the value could be in different places on the line with more than 1 occurrence.
I have taken this to mean that these are lines, not CSV data, and that a regex-based solution is required. The OP also confirmed that interpretation in a comment above.
As noted in other answers, however, it is faster to break the data into fields and simply lookup the replacement in the map.
#!/usr/bin/env perl
use strict;
use warnings;
# Load mappings.txt into a Perl
# Hash %m.
#
open my $mh, '<', './mappings.txt'
or die "open: $!";
my %m = ();
while ($mh) {
chomp;
my #f = split ',';
$m{$f[0]} = $f[1];
}
# Load files.txt into a Perl
# Array #files.
#
open my $fh, '<', './files.txt';
chomp(my #files = $fh);
# Update each file line by line,
# using a temporary file similar
# to sed -i.
#
foreach my $file (#files) {
open my $fh, '<', $file
or die "open: $!";
open my $th, '>', "$file.bak"
or die "open: $!";
while ($fh) {
foreach my $k (keys %m) {
my $v = $m[$k];
s/\Q$k/$v/g;
}
print $th;
}
rename "$file.bak", $file
or die "rename: $!";
}
I assume of course that you have your mappings in mappings.txt and file list in files.txt.
According to your comments, you have proper CSV. The following properly handles quoting and escapes when reading from the map file, when reading from a data file, and when writing to a data file.
It seems you want match entire fields. The following does this. It even supports fields that contains commas (,) and/or quotes ("). It does the comparisons using a hash lookup, which is much faster than a regex match.
#!/usr/bin/perl
use strict;
use warnings;
use feature qw( say );
use Text::CSV_XS qw( );
my $csv = Text::CSV_XS->new({ auto_diag => 2, binary => 1 });
sub process {
my ($map, $in_fh, $out_fh) = #_;
while ( my $row = $csv->getline($in_fh) ) {
$csv->say($out_fh, [ map { $map->{$_} // $_ } #$row ]);
}
}
die "usage: $0 {map} [{file} [...]]\n"
if #ARGV < 1;
my $map_qfn = shift;
my %map;
{
open(my $fh, '<', $map_qfn)
or die("Can't open \"$map_qfn\": $!\n");
while ( my $row = $csv->getline($fh) ) {
$map{$row->[0]} = $row->[1];
}
}
if (#ARGV) {
for my $qfn (#ARGV) {
open(my $in_fh, '<', $qfn)
or warn("Can't open \"$qfn\": $!\n"), next;
rename($qfn, $qfn."~")
or warn("Can't rename \"$qfn\": $!\n"), next;
open(my $out_fh, '>', $qfn)
or warn("Can't create \"$qfn\": $!\n"), next;
eval { process(\%map, $in_fh, $out_fh); 1 }
or warn("Error processing \"$qfn\": $#"), next;
close($out_fh)
or warn("Error writing to \"$qfn\": $!\n"), next;
}
} else {
eval { process(\%map, \*STDIN, \*STDOUT); 1 }
or warn("Error processing: $#");
close(\*STDOUT)
or warn("Error writing to STDOUT: $!\n");
}
If you provide no files names beyond the map file, it reads from STDIN and outputs to STDOUT.
If you provide one or more file names beyond the map file, it replaces the files in-place (though it leaves a backup behind).

How to read gz file line by line in Perl6

I'm trying to read a huge gz file line by line in Perl6.
I'm trying to do something like this
my $file = 'huge_file.gz';
for $file.IO.lines -> $line {
say $line;
}
But this give error that I have a malformed UTF-8. I can't see how to get this to read gzipped material from the help page https://docs.perl6.org/language/unicode#UTF8-C8 or https://docs.perl6.org/language/io
I want to accomplish the same thing as was done in Perl5: http://blog-en.openalfa.com/how-to-read-and-write-compressed-files-in-perl
How can I read a gz file line by line in Perl6?
thanks
I would recommend using the module Compress::Zlib for this purpose. You can find the readme and code on github and install it with zef install Compress::Zlib.
This example is taken from the test file number 3 titled "wrap":
use Test;
use Compress::Zlib;
gzspurt("t/compressed.gz", "this\nis\na\ntest");
my $wrap = zwrap(open("t/compressed.gz"), :gzip);
is $wrap.get, "this\n", 'first line roundtrips';
is $wrap.get, "is\n", 'second line roundtrips';
is $wrap.get, "a\n", 'third line roundtrips';
is $wrap.get, "test", 'fourth line roundtrips';
This is probably the easiest way to get what you want.
use the read-file-content method in the Archive::Libarchive module, but i don't know if the method read all lines into memory at once:
use Archive::Libarchive;
use Archive::Libarchive::Constants;
my $a = Archive::Libarchive.new: operation => LibarchiveRead, file => 'test.tar.gz';
my Archive::Libarchive::Entry $e .= new;
my $log = '';
while $a.next-header($e) {
$log = get-log($a,$e) if $e.pathname.ends-with('.txt');
}
sub get-log($a, $e) {
return $a.read-file-content($e).decode('UTF8-C8');
}
If you are after a quick solution you can read the lines from the stdout pipe of a gzip process:
my $proc = run :out, "gzip", "--to-stdout", "--decompress", "MyFile.gz"
for $proc.out.lines -> $line {
say $line;
}
$proc.out.close;

Unable to move file via perl CGI

I have a perl script to move a file from one folder to another folder. When I run this manually it works fine. But when I execute it from the browser I am unable to do. Getting error message.
I knew it is related to CGI environment access right. But how to add that permission to my perl script. I gave already 777 permission to that file and folder, but still cannot. Please advice.
Thanks in advance.
Here is my code.
#!/usr/bin/perl
use strict;
use warnings;
use CGI;
use File::Copy;
print "Content-type: application/json\n\n";
my $query = new CGI;
my $name = $query->param('name');
#$name = "WVID21WAAA110200";
my $sdir = "/disk1/advisories/input/unread";
my $tdir = "/disk1/advisories/input/read";
my $file = $sdir."/".$name;
my $tfile = $tdir."/".$name;
my $f = 0;
print "[";
if (-e $file && -f $file)
{
move($file,$tfile) or $f=1;
if(($f==1)){
print "{\"status\":\"failed\",\"message\":\"Access Denied\"}";
}else{
print "{\"status\":\"success\",\"message\":\"File moved\"}";
}
}else{
print "{\"status\":\"failed\",\"message\":\"Invalid file\"}";
}
print"]";
exit 0;
It's because of the destination path folder doesn't have execute permission. I added nad it works fine now. – Rajesh

CGI perl read and print the content of a file

I wanted to open a text file and read the first 10 line by using CGI and Perl
I wrote the script but it does not work. where is my problem
#!C:/wamp/apps/Perl/bin/perl.exe -wt
use CGI;
my $cgi=CGI->new();
print
$cgi->header('text/html'),
$cgi->start_html('Extract the text'),
$cgi->h1({-style=>'color:red;background-color:#eee;'},'Extract CGI'),
$cgi->start_form(-enctype=>&CGI::MULTIPART),
'Upload your text File: ',
$cgi->filefield(
-name=>'filename',
),
$cgi->submit(-value=>'Read the File'),
my $txtfile=$cgi->param('filename'),
open my $in,$filename or die("couldnot open");
while (my $line = <$in>)
{
print $line;
last if $. == 10;
}
close $in;
$cgi->end_form;
$cgi->end_html;
you might find this useful
http://www.sitepoint.com/uploading-files-cgi-perl-2/
basically, the file uploaded is not named the same as the file passed in from the browser
You need to do some checks on what you've been sent first

Use awk to tarball specified files

I have the following output from repo status:
project X/Y (*** NO BRANCH ***)
-- A/B/c
-m D/E/f
project Z/ (*** NO BRANCH ***)
-- G/H/i
-m J/K/l
(lowercase letters are files, and uppercase are dirs)
The lines prefixed with -- indicate newly added files. repo diff does not include these files, so I can't create a patch that includes all differences. So, I'll just create tarball of them.
Q: What script (e.g., awk, perl, or python) can I use to create a tarball of these files? The tarball should contain:
X/Y/A/B/c
Z/G/H/i
I'm thinking an awk script would be something like this (I'm not that familiar w/syntax):
awk {
BEGIN curdir = '', filelist = []
{
if ($0 == "project") {
curdir = $1
} else if ($0 == "--") {
# insert file specified by $1 into tarball
}
}
}
Ideas? Thanks!
You are close. Here is some suggestion:
/^project/ {
dir = $2
}
$1 == "--" {
fullpath = dir $2 # space between dir and $2 means concatenation
print fullpath
# Do something with fullpath such as
# system("tar ...")
}
Discussion
$1 is the first field (token) in a line, $2 is the second field, and so on
$0 represent the whole record (line)
Every time we see a line that starts with project, we save the directory, $2 to the variable dir
Every time we see the first field of "--", we print out the directory, concatenated with the file name. In your case, insert command to archive the file here.