Peripheral Interchange Program

Peripheral Interchange Program (PIP) was a utility to transfer files on and between devices on Digital Equipment Corporation's computers. It was first implemented on the PDP-6 architecture by Harrison "Dit" Morse early in the 1960s. It was subsequently implemented for DEC's operating systems for PDP-10, PDP-11, and PDP-8 architectures. In the 1970s and 1980s Digital Research implemented PIP on CP/M and MP/M.

History
It is said that during development it was named ATLATL, which is an acronym for "Anything, Lord to Anything, Lord." This humorously described both its purpose as a device-independent file copying tool and the difficulties at the time of safely copying files between devices.

The original PIP syntax was

PIP destination←source /switches

using the left-arrow character from the ASCII-1963 character set that the Flexowriter keyboards of the time used. As other terminals were introduced that used later versions of ASCII (without the left-arrow character), PIP allowed the syntax

PIP destination=source

The underscore (_) character, which was in the same ASCII character position that left-arrow had occupied, was still supported to separate the destination and source specifications.

Source and destination were file specification strings. These consisted of a device name, typically 2 characters for device type such as DK (disk), LP (line printer), MT (magnetic tape), etc. and a unit number from 0 to 7, a colon, filename and extension.

Copying was generally permitted between any file specification to any other where it made sense.

Early versions of VAX/VMS implemented certain DCL commands, such as DIRECTORY and RENAME, by running RSX-11M PIP in compatibility mode. This usage of PIP was replaced by VAX-specific code in VAX/VMS 2.0, but PIP remained as part of the VAX-11 RSX layered product for VMS.

As late as the mid 1980s, PIP was still in common use on TOPS-10, TOPS-20 and PDP-11 systems.

PIP in CP/M and MP/M
Gary Kildall, who developed CP/M and MP/M, based much of the design of its file structure and command processor on operating systems from Digital Equipment, such as RSTS/E for the PDP-11. Besides accessing files on a floppy disk, the PIP command in CP/M could also transfer data to and from the following "special files":
 * — console (input and output)
 * — an auxiliary device. In CP/M 1 and 2, PIP used (paper tape punch) and  (paper tape reader) instead of
 * — list output device, usually the printer
 * — as, but lines were numbered, tabs expanded and form feeds added every 60 lines
 * — null device, akin to \Device\Null and /dev/null
 * — input device that produced end-of-file characters, ASCII
 * — custom input device, by default the same as
 * — punch card unit:
 * — custom output device, by default the same as

These were not true device files, however, because their handling was limited to PIP. The two custom devices and  were implemented as calls to fixed locations at the start of the PIP program; the intention was that the user, or the OEM, could patch these locations to add their own input or output devices. 246 bytes of free space were left in the program for this purpose.

In addition to the usual  syntax, PIP under CP/M still allowed the old   form. This behaviour was not documented, and CP/M generally did not have a standard for which characters could appear in file names; therefore other programs could and did create filenames containing underscore characters, which PIP could not handle.

Reserved filenames in Microsoft Windows
The PIP program is the reason for reserved filenames in Microsoft Windows:. This limitation is case-insensitive, and also applies to basenames. So for example,  is an invalid filename.