I know that C is the standard programming language for operating system development, but out of curiosity I was wondering what preceded it. What was the main programming language used for operating system development before C?
Burroughs was one of the first to use something other than assembler for OS development. They chose a dialect of Algol.
In 1965 Multics(Project MAC, funded by ARPA) design began and PL/I was chosen to develop the OS. In 1969 Multics was opened for use at MIT, but there were frustrations and Bell Labs withdrew from Project MAC. Ken Thompson, Dennis Ritchie, Doug McIlroy, and J. F. Ossanna continued to seek the holy grail and Unics (later Unix) development began.
During the 1970's "Cold War" there was an effort to use the data security and parallel processing features of ALGOL 68 to create Secure/Capability based operating systems:
Cambridge CAP computer - All procedures constituting the operating system were written in ALGOL 68C, although a number of other closely associated protected procedures - such as a paginator - are written in BCPL. c.f. microsoft
Flex machine - The hardware was custom and microprogrammable, with an operating system, (modular) compiler, editor, garbage collector and filing system all written in Algol 68RS. A Linux port of this Algol68RS can be downloaded from compile can be downloaded from Sourceforge:algol68toc.
/* Interestingly portions of DRA's algebraically specified abstract machine Ten15 is still available, also from Sourceforge:TenDRA (for minux). Ten15 serves as DRA's intermediate language for compilers, and evolved to support C and Ada. Apparently an attempt was made to port FreeBSD/Unix using the TenDRA C compiler */
ICL VME - S3 programming language was the implementation language of the operating system VME. S3 was based on ALGOL 68 but with data types and operators aligned to those offered by the ICL 2900 Series. This OS is still in use as a Linux VM, and has some 100,000 users.
The Soviet Era computers Эльбрус-1 (Elbrus-1) and Эльбрус-2 were created using high-level language uЭль-76 (AL-76), rather than the traditional assembly. uЭль-76 resembles Algol-68, The main difference is the dynamic binding types in uЭль-76 supported at the hardware level. uЭль-76 is used for application, job control, system programming c.f. e2k-spec.
Maybe the US military was doing something similar somewhere. Anyone?
There were many 16-bit Forth systems where the interpreter and (fairly primitive) OS layer were written in Forth.
The original Mac OS was written in a mix of 68k ASM and a slightly extended Pascal.
ADA has been used to write several OS's.
But I'd guess that the dominant language used for OS development prior to C was IBM 360 assembly language.
That depends. The Amiga OS for example was originally written to a certain extent in BCPL, and you would imagine that many ancient operating systems were written in pure assembly language.
CP/M (which is kind of MS-DOS' predecessor) was written in PL/M, but MS-DOS was written in assembly for performance reasons. Here is something on MS-DOS: http://www.patersontech.com/Dos/Byte/InsideDos.htm
(Edited, not sure where I picked up this Fortran garbage.)
Operating systems "want" to be written in assembler. If you're starting from scratch, once you have the interrupt routines done, you can just keep on going and not get around to a high-level language interface.
Furthermore, assemblers like to evolve. Once you've covered the specified instruction set, it's convenient to add alias names for instructions that serve multiple purposes. Next come pseudo-instructions that can alias a couple machine instructions. Then it's nice to have an extensible facility for writing macro subroutines, to generate arbitrary sections of code that look like instructions. (Unlike C macros, this often may allow flow control and script-like programming.) Then, there are scoping rules to ensure identifiers are only used in a particular context.
Bit by bit, languages evolve. C didn't pop out of thin air. It was preceded by a generation or two of languages (Algol, BCPL) that evolved from high-level assemblers. Many platform-specific assembly languages were in fact reasonably nice. IBM still makes a mean assembler. (Of course, before that were not-so-nice assemblers, and before that were punch cards and toggle switches.)
More recently, GNU
as has given assembly a bit of a bad name by being relatively primitive. Don't believe the scare tactics, though.