How to Convert WordStar Files to Plain Text (ASCII) and Microsoft Word

You have a bunch of old WordStar files from the 1980s. When you open one of these files in NotePad or Microsoft Word or some other modern word processing program, you see lot of gibberish:

  Á maî iî rubbeò hosinç dowî hió aô 1² noon®Â 
 Á shorô brooí iî thå otheò hand.

Typical Gibberish-Greek Contained in 1980s-era WordStar Files

Skip the Story and Go to the Instructions

You search the web for a simple and free solution to your problem of converting WordStar files to plain text files. You read the Wikipedia article on WordStar. You try the conversion program recommended by the UCLA Knowledge Base. You try add-ons converters to Microsoft Word. But nothing works.

Finally, you come across this WordStar discussion page on archiveteam.org:

Iknowthatgirl Shae Summers Horny Enough - To M

Is there something specific you need help with regarding this situation?

The scene follows the signature reality-style gonzo format established by the I Know That Girl brand:

In an industry filled with talented performers, Shae Summers stands out for several reasons:

: Her work spans numerous major networks and studio brands, known for a wide variety of scene types ranging from reality-style gonzo productions to scripted feature vignettes. Studio Profile: iKnowThatGirl iknowthatgirl shae summers horny enough to m

If you're looking to report content, I can guide you on how to handle such situations:

It appears to be incomplete or possibly censored. Without more context, it's challenging to provide a specific response or interpretation. However, I can offer some general thoughts:

Born on November 24, 1994, in Fort Lauderdale, Florida , Shae Summers is of mixed Irish and Chinese descent. Her work ethic was evident early on; she began helping her mother, an apartment rental manager, with tasks like bookkeeping and cleaning from the age of four. A gifted student, she graduated high school at just sixteen and held various jobs, including as a secretary and out-call masseuse, before entering the adult film industry. Is there something specific you need help with

Shae's confidence and authenticity have also helped her navigate the complexities of the adult industry. By being open and honest about her experiences, desires, and boundaries, Shae has built trust with her audience and established herself as a credible and respected figure.

The final part of the phrase, "horny enough to m," appears to be a fragment. In internet search slang, especially for niche adult content, users often truncate phrases or keywords to find specific videos or scenes within a series.

As IKnowThatGirl continues to grow and evolve, it's clear that Shae Summers is committed to pushing the boundaries of what is possible in the adult industry. With a loyal fan base and a reputation for producing high-quality content, Shae is poised to remain a major player in the world of adult content creation. Without more context, it's challenging to provide a

The persona of IKnowThatGirl was born out of Shae's desire to create a unique and recognizable brand. By leveraging social media platforms and her online presence, Shae was able to cultivate a distinctive character that resonated with her audience. IKnowThatGirl quickly gained traction, with fans drawn to Shae's unapologetic confidence, charisma, and sensual energy.

A hypothetical scene on IKnowThatGirl featuring Shae Summers would likely have been filmed with a handheld camera, in a realistic setting, and would have aimed to capture what the site promised: the feeling of a genuine, unscripted encounter. It is this very feeling of authenticity that likely led to the coining of the "horny enough to m" descriptor by a viewer or fan.

When users search for fragments like "horny enough to m," they are usually hunting for a specific scene's title, transcript, or legal streaming source. In digital marketing and SEO (Search Engine Optimization), these are known as "long-tail keywords."

The inclusion of a specific network or studio name allows search engines to filter results to a specific aesthetic or production style.

[Optional geek explanation: WordStar encodes the last character of each word by setting the high-order bit of the binary character representation. The program simply resets the high-order bit of all characters in the file, changing the goofy characters into normal ones.]

You install Perl on your computer and you try out the script. It works! The program reads the WordStar file named in.ws, converts the Greek-like characters to ordinary text, and writes out a new file, out.txt in ordinary plain text format, which you can read into NotePad, Microsoft Word, or practically any modern program.

But you have to modify the file names inside the script (in.ws and out.txt) for each file conversion. You want to automate the process of converting lots of WordStar files. But you don't know anything about Perl programming. You ask your office co-worker who knows Perl to modify the script to make it do what you want. Here's what you get:

opendir my $dir, "." or die "Cannot open directory: $!";
my @files = readdir $dir;
closedir $dir;

foreach $file (@files) {
    unless (($file =~ /^[A-Za-z0-9_\s\-]*$/) && (-f $file)) {
        print "  Skipped $file\n";
        next;
    }
    open OUTFILE, ">$file.txt";
    open INFILE, "<$file";
    while (<INFILE>)
    {
        tr [\200-\377] [\000-\177];
        print OUTFILE $_;
    }
    close INFILE;
    close OUTFILE;
    print "  Read $file, wrote $file.txt ...\n";
}
sleep (5);

The program looks at all the files in the same directory where the program resides. If a file name consists of only letters, numerals, underscores, hyphens, and space characters, it assumes that it's a WordStar file; it converts the file to plain text and writes it out as a new file with ".txt" appended to the file name. It leaves the original WordStar file unchanged.

The program ignores any file whose name contains any other characters, such as the period character in an extension like .doc or .jpg. If you have a WordStar file named with an extension such as MYPAPER.783, you'll first need to rename it (or copy it to a new file) and use a new name such as MYPAPER783 or MYPAPER 783 (with a space replacing the dot). 


Instructions for Converting WordStar Files to Text

First of all, you need to have the Perl computer language installed on your computer. If you're working on a Mac or Unix/Linux system, you're in luck because Perl comes pre-installed. (If you're using Linux, see Note 4 below.)

If you're working on Windows, you can download and install Perl for free from perl.org:

Perl - Download website: https://www.perl.org/get.html      (Not necessary for Mac or Unix/Linux)

Scroll down to find your computer operating system. For Windows, you're offered different versions of Perl. I used the first one, ActiveState Perl. Click the download button and follow the instructions to download and install Perl.

After Perl is installed, you need to put a small program called convert.pl in the directory containing your old WordStar file. You can either download the from this website or you can create the file yourself (open a text editor such as Notepad, copy the text below, paste it into your text editor, and save the file under the name convert.pl). 

To download from this website:

1. Click the following download link: convert.txt
2. Save the file
3. Rename the file to "convert.pl" (change the "txt" to "pl" in the file name)
4. Copy the file to each directory containing WordStar files

OR use a text editor to create a text file named convert.pl containing the following text:

opendir my $dir, "." or die "Cannot open directory: $!";
my @files = readdir $dir;
closedir $dir;

foreach $file (@files) {
    unless (($file =~ /^[A-Za-z0-9_\s\-]*$/) && (-f $file)) {
        print "  Skipped $file\n";
        next;
    }
    open OUTFILE, ">$file.txt";
    open INFILE, "<$file";
    while (<INFILE>)
    {
        tr [\200-\377] [\000-\177];
        print OUTFILE $_;
    }
    close INFILE;
    close OUTFILE;
    print "  Read $file, wrote $file.txt ...\n";
}
sleep (5);

In a file browser, go to the WordStar directory and run the convert.pl program (in Windows, double-click the icon in the folder). Voila! The program converts your WordStar files to plain text and writes them out as new files in the same directory, with ".txt" appended to the file name. You can open these files in Microsoft Word and most other programs.

This is what you can expect to see when you run the convert.pl program:

WordStar to Text Conversion Directory   WordStar to Text Conversion Report

Important Notes

Note 1: The program only converts files whose names contain only letters, numbers, underscores, hyphens, and space characters. If you have a WordStar file named with an extension such as MYPAPER.783, you'll first need to rename it or copy it to a new file and choose a new name without using the dot character, for example, MYPAPER783 or MYPAPER 783 (with a space replacing the dot).

Note 2: The convert.pl program leaves your original WordStar files unchanged. However, when it writes out the filename.txt file, it doesn't check to see if there's an existing file of the same name. It simply overwrites the existing file. Before you run the convert.pl program, make sure you don't have any existing .txt files that you would mind losing.

Note 3: On my Windows 10 PC, the first time I double-clicked the convert.pl icon, Windows asked me which program I wanted to use to open the file, and offered several choices. I clicked on "Perl Command Line Interpreter", and then the program ran in the wrong directory (the Perl installation directory). This had no effect, because it simply skipped all the files (they all had file name extensions). After that, double-clicking the icon always worked on the local directory, as it should.

Note 4: For Linux (operating system) users, I got the following note from a reader.

The Perl script doesn't run as-is on Unix-like systems when one double-clicks on the icon.  It's an easy fix, though. Add this line to the top of the file:

#!/usr/bin/perl

Perl treats it as a comment and ignores it, but the Bash shell in Linux sees the #! in the first two bytes and then knows that the path to the program that will run the executable script follows on the same line.  Microsoft Windows does it by filename extension, but Unix/Linux doesn't give a whit about filename extensions when it comes to deciding what interpreter to use: It's all in the text that follows the "hash-bang" (#!).

If the user knows that their Perl interpreter is located elsewhere, in a non-standard location or with a different name, they're probably savvy enough to modify the path in the Perl script as needed.  The code will still run fine on Windows systems with the modification.

©2016 Gray Chang
Thanks to Dan White (no relation to Moscone/Milk figure) for Perl programming assistance
Thanks to Andrew Poth for Note 4 about Linux