Information Processing Language - A Taste of IPL

A Taste of IPL

An IPL computer has:

  1. a set of symbols. All symbols are addresses, and name cells. Unlike symbols in later languages, symbols consist of a character followed by a number, and are written H1, A29, 9-7, 9-100.
    1. Cell names beginning with a letter are regional, and are absolute addresses.
    2. Cell names beginning with "9-" are local, and are meaningful within the context of a single list. One list's 9-1 is independent of another list's 9-1.
    3. Other symbols (e.g., pure numbers) are internal.
  2. a set of cells. Lists are built from several cells holding mutual references. Cells have several fields:
    1. P, a 3-bit field used for an operation code when the cell is used as an instruction, and unused when the cell is data.
    2. Q, a 3-valued field used for indirect reference when the cell is used as an instruction, and unused when the cell is data.
    3. SYMB, a symbol used as the value in the cell.
  3. a set of primitive processes, which would be termed primitive functions in modern languages.

The main data structure of IPL is the list, but lists are more intricate structures than in many languages. A list consists of a singly linked sequence of symbols, as might be expected -- plus some description lists, which are subsidiary singly linked lists interpreted as alternating attribute names and values. IPL provides primitives to access and mutate attribute value by name. The description lists are given local names (of the form 9-1). So, a list called L1 holding the symbols S4 and S5, and described by associating value V1 to attribute A1 and V2 to A2, would be stored as follows. 0 indicates the end of a list; the cell names 100, 101, etc. are automatically generated internal symbols whose values are irrelevant. These cells can be scattered throughout memory; only L1, which uses a regional name that must be globally known, needs to reside in a specific place.

IPL-V List Structure Example
Name SYMB LINK
L1 9-1 100
100 S4 101
101 S5 0
9-1 0 200
200 A1 201
201 V1 202
202 A2 203
203 V2 0

IPL is an assembly language for manipulating lists. It has a few cells which are used as special-purpose registers. H1, for example, is the program counter. The SYMB field of H1 is the name of the current instruction. However, H1 is interpreted as a list; the LINK of H1 is, in modern terms, a pointer to the head of the call stack. For example, subroutine calls push the SYMB of H1 onto this stack.

H2 is the free-list. Procedures which need to allocate memory grab cells off of H2; procedures which are finished with memory put it on H2. On entry to a function, the list of parameters is given in H0; on exit, the results should be returned in H0. Many procedures return a boolean result indicating success or failure, which is put in H5. Ten cells, W0-W9, are reserved for public working storage. Procedures are "morally bound" (to quote the CACM article) to save and restore the values of these cells.

There are eight instructions, based on the values of P: subroutine call, push/pop S to H0; push/pop the symbol in S to the list attached to S; copy value to S; conditional branch. In these instructions, S is the target. S is either the value of the SYMB field if Q=0, the symbol in the cell named by SYMB if Q=1, or the symbol in the cell named by the symbol in the cell named by SYMB if Q=2. In all cases but conditional branch, the LINK field of the cell tells which instruction to execute next.

IPL has a library of some 150 basic operations. These include such operations as:

  • Test symbols for equality
  • Find, set, or erase an attribute of a list
  • locate the next symbol in a list; insert a symbol in a list; erase or copy an entire list.
  • Arithmetic operations (on symbol names).
  • Manipulation of symbols; e.g., test if a symbol denotes an integer, or make a symbol local.
  • I/O operations
  • "generators", which correspond to iterators and filters in functional programming. For example, a generator may accept a list of numbers and produce the list of their squares. Generators could accept suitably designed functions – strictly, the addresses of code of suitably designed functions – as arguments.

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