CMS-2 is an embedded systems programming language used by the United States Navy.[2] It was an early attempt to develop a standardized high-level computer programming language intended to improve code portability and reusability. CMS-2 was developed primarily for the US Navy’s tactical data systems (NTDS).[1]
Paradigm | Imperative |
---|---|
Designed by | RAND, Intermetrics |
Developer | Computer Sciences Corporation |
First appeared | 1968 |
Influenced by | |
CS-1, Fortran, JOVIAL and PL/I[1] |
CMS-2 was developed by RAND Corporation in the early 1970s and stands for "Compiler Monitor System". The name "CMS-2" is followed in literature by a letter designating the type of target system. For example, CMS-2M targets Navy 16-bit processors, such as the AN/AYK-14.[2]
History
editCMS-2 was developed for FCPCPAC (Fleet Computer Programming Center - Pacific) in San Diego, CA. It was implemented by Computer Sciences Corporation in 1968 with design assistance from Intermetrics. The language continued to be developed, eventually supporting a number of computers including the AN/UYK-7 and AN/UYK-43 and UYK-20 and UYK-44 [3] computers.[4]
Language features
editCMS-2 was designed to encourage program modularization, permitting independent compilation of portions of a total system. The language is statement oriented. The source is free-form and may be arranged for programming convenience. Data types include fixed-point, floating-point, boolean, character and status. Direct reference to, and manipulation of character and bit strings is permitted. Symbolic machine code may be included, known as direct code.[1]
Program structure
editA CMS-2 program is composed of statements. Statements are made up of symbols separated by delimiters. The categories of symbols include operators, identifiers, and constants. The operators are language primitives assigned by the compiler for specific operations or definitions in a program. Identifiers are unique names assigned by the programmer to data units, program elements and statement labels. Constants are known values that may be numeric, Hollerith strings, status values or Boolean.
CMS-2 statements are free form and terminated by a dollar sign. A statement label may be placed at the beginning of a statement for reference purposes.
A CMS-2 source program is composed of two basic types of statement. Declarative statements provide basic control information to the compiler and define the structure of the data associated with a particular program. Dynamic statements cause the compiler to generate executable machine instructions (object code).
Declarative statements defining the data for a program are grouped into units called data designs. Data designs consist of precise definitions for temporary and permanent data storage areas, input areas, output areas and special data units. The dynamic statements that act on data or perform calculations are grouped into procedures. Data designs and procedures are further grouped to form system elements of a CMS-2 program. The compiler combines system elements into a compile time system. A compile time system may stand alone or be part of a larger program.[1]
Data declarative statements
editData declarative statements provide the compiler with information about data element definitions. They define the format, structure and order of data elements in a compile-time system. The three major kinds of data are switches, variables and aggregates.[1]
Switches
editSwitches provide for the transfer of program control to a specific location in a compile-time system. They contain a set of identifiers or switch points to facilitate program transfers and branches. The switch represents a program address of a statement label or procedure name.
Variables
editA variable is a single piece of data. It may consist of one bit, multiple bits or words. A value may be assigned in the variable definition. Variables may hold a constant or changing value. Data types include integers, fix point, floating point, Hollerith character strings, status or Booleans.
Aggregates
editTables hold ordered sets of identically structured information. The common unit of data in a table is an item. Items may be subdivided into fields, the smallest subdivision of a table. Allowable data types contained in fields include integer, fixed point, floating point, Hollerith character string, status or Boolean. An array is an extension of the table concept. The basic structural unit of an array is an item. Array items contain fields as defined by the programmer.
Dynamic statements
editDynamic statements specify processing operations and result in executable code generation by the compiler. A dynamic statement consists of an operator followed by a list of operands and additional operators. An operand may be a single name, a constant, a data-element reference or an expression.[1]
Statement operators
editMajor CMS-2 operators are summarized below.
Operator | Function |
---|---|
SET | Perform calculations or assign a value |
SWAP | Exchange the contents of two data units |
GOTO | Alter program flow or call a statement switch |
IF | Expresses a comparison or boolean expression for conditional execution |
VARY | Establish a program loop |
FIND | Searches a table for data |
Special operators
editSpecial operators facilitate references to data structures and operations on them.[1]
Operator | Function |
---|---|
BIT | Reference a string of bits in a data element |
CHAR | References a character string |
CORAD | References a core address |
ABS | Obtains the absolute value of an expression |
COMP | Complements a Boolean expression |
Program structure declarations
editThe dynamic statements that describe the processing operations of a program are grouped into blocks of statements called procedures.[1]
Beginning delimiter | End delimiter | Purpose |
---|---|---|
SYSTEM | END-SYSTEM | Delimits a compile time system |
SYS-DD | END-SYS-DD | Delimits a system data design in a compiled system |
SYS-PROC | END-SYS-PROC | Delimits a system procedure in a compile-time system |
LOC-DD | END-LOC-DD | Delimits a local data design in a system procedure |
PROCEDURE | END-PROC | Delimits a procedure in a system procedure |
EXEC-PROC | END-PROC | Delimits a task-state procedure in a system procedure (XCMS-2 only, only called from an executive-state procedure) |
FUNCTION | END-FUNCTION | Delimits a function in a system procedure |
SYS-PROC-REN | END-SYS-PROC | Delimits a reentrant system procedure in a compile-time system (XCMS-2 only) |
AUTO-DD | END-AUTO-DD | Delimits the dynamic data area in a reentrant system procedure that must be allocated each time the reentrant system procedure is initiated for execution (XCMS-2 only) |
HEAD | END-HEAD | Delimits a header package in a compile-time system |
High level input/output statements
editInput/output statements provide communication with hardware devices while running in a non-realtime environment under a monitor system.[1]
Operator | Function |
---|---|
FILE | Defines the environment and other information for input and output |
OPEN | Initializes I/O routines |
CLOSE | Deactivates a file and writes and end-of-file mark |
INPUT | Directs an input operation from an external device to a file buffer area |
OUTPUT | Directs an output operation from a file buffer area to an external device |
FORMAT | Defines the desired conversion between external data blocks and internal data definitions |
ENCODE | Directs transformation of data elements into a common area, with conversion in accordance with a specified format |
DECODE | Directs unpacking of a common area and transmittal to data units as specified by a format declaration |
ENDFILE | Places an end-of-file mark on appropriate recording mediums |
POS | Special operator to position a magnetic tape file |
LENGTH | Special operator to obtain an input/output record length |
Compiler Monitor System 2 (CMS-2)
editThe Compiler Monitor System 2 (CMS-2) was a system that ran on the UNIVAC CP-642B (AN/USQ-20). The system software included the monitor, compiler, librarian, CP-642 Loader, tape utility and flow charter.[1]
MS-2 monitor
editA batch processing operating system that controls execution of CMS-2 components and user jobs run on the CP-642 computer. It provides input/output, software library facilities and debugging tools. Job accounting is also provided.
CMS-2 compiler
editA compiler for the CS-1 and CMS-2 languages that generates object code for the CP-642, L-304, AN/UYK-7, 1830A and 1218/1219 computers. During the 1970s there were different versions of the CMS-2 compiler, depending on which computer was used to compile the code. Some source code had to be rewritten to work around some functions. And the different versions of CMS-2 had problems with the debugging tools.
XCMS-2 compiler
editAn extended CMS-2 compiler, adding language features for the AN/UYK-7 computer. It only generates AN/UYK-7 object code.
CMS-2 librarian
editA file management system that provides storage and access to source and object code.
CP-642 Object code loaders
editTwo object code loaders for loading absolute or relocatable object code.
Tape utility
editA set of utilities for managing data on magnetic tape.
CMS-2 flowcharter
editThe flowcharter software processes flowcharter statements in CMS-2 source code and outputs a flowchart to a high-speed printer.
See also
editReferences
edit- ^ a b c d e f g h i j U.S. Navy (1978), Digital Computer Basics Rate Training Manual, NAVEDTRA 10088-B, U.S. Navy
- ^ a b Neal Ziring (1998-10-19). "CMS-2". Ziring MicroWeb. Archived from the original on 2014-11-23. Retrieved 2014-07-08.
{{cite web}}
: CS1 maint: bot: original URL status unknown (link) - ^ Mark Wilson - personal experience working with UYK-20 and UYK-44 on Aegis ORTS
- ^ Fleet Combat Direction Systems Support Activity (1986), CMS-2Y Programmers Reference Manual for the AN/UYK-7 and AN/UYK-43 Computers, U.S. Navy