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C/C++ Users Group Library 1996 July
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C-C++ Users Group Library July 1996.iso
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a684.doc
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/*
HEADER: CUG276;
TITLE: 6804 Cross-Assembler (Portable);
FILENAME: A684.DOC;
VERSION: 0.1;
DATE: 08/27/1988;
DESCRIPTION: "This program lets you use your computer to assemble
code for the Motorola 6804 family microprocessors.
The program is written in portable C rather than BDS
C. All assembler features are supported except
relocation linkage, and macros.";
KEYWORDS: Software Development, Assemblers, Cross-Assemblers,
Motorola, MC6804;
SYSTEM: CP/M-80, CP/M-86, HP-UX, MSDOS, PCDOS, QNIX;
COMPILERS: Aztec C86, Aztec CII, CI-C86, Eco-C, Eco-C88, HP-UX,
Lattice C, Microsoft C, QNIX C;
WARNINGS: "This program should compile under any full-featured
C compiler. Subset compilers such as Toolworks C and
BDS C pose a problem."
AUTHORS: William C. Colley III;
*/
6804 Cross-Assembler (Portable)
Version 0.1
Copyright (c) 1985, 1988 William C. Colley, III
The manual such as it is.
Legal Note: This package may be used for any commercial or
non-commercial purpose. It may be copied and
distributed freely provided that any fee charged
by the distributor of the copy does not exceed the
sum of: 1) the cost of the media the copy is
written on, 2) any required costs of shipping the
copy, and 3) a nominal handling fee. Any other
distribution requires the written permission of
the author. Also, the author's copyright notices
shall not be removed from the program source, the
program object, or the program documentation.
Table of Contents
1.0 How to Use the Cross-Assembler Package .................. 3
2.0 Format of Cross-Assembler Source Lines .................. 4
2.1 Labels ............................................. 5
2.2 Numeric Constants .................................. 5
2.3 String Constants ................................... 6
2.4 Expressions ........................................ 6
3.0 Machine Opcodes ......................................... 7
3.1 Opcodes -- No Arguments ............................ 7
3.2 Opcodes -- Relative Branch Instructions ............ 8
3.3 Opcodes -- Long Branch Instructions ................ 8
3.4 Opcodes -- Bit Manipulation Instructions ........... 8
3.5 Opcodes -- Arithmetic and Logical Instructions ..... 8
3.6 Opcodes -- MVI ..................................... 9
3.7 Opcodes -- Short Direct Addressing ................. 9
4.0 Pseudo Opcodes .......................................... 10
4.1 Pseudo-ops -- END .................................. 10
4.2 Pseudo-ops -- EQU .................................. 10
4.3 Pseudo-ops -- FCB .................................. 10
4.4 Pseudo-ops -- FCC .................................. 11
4.5 Pseudo-ops -- FDB .................................. 11
4.6 Pseudo-ops -- IF, ELSE, ENDIF ...................... 11
4.7 Pseudo-ops -- INCL ................................. 12
4.8 Pseudo-ops -- ORG .................................. 12
4.9 Pseudo-ops -- PAGE ................................. 13
4.10 Pseudo-ops -- RMB .................................. 13
4.11 Pseudo-ops -- SET .................................. 13
4.12 Pseudo-ops -- TITLE ................................ 13
5.0 Assembly Errors ......................................... 14
5.1 Error * -- Illegal or Missing Statement ............ 14
5.2 Error ( -- Parenthesis Imbalance ................... 14
5.3 Error " -- Missing Quotation Mark .................. 14
5.4 Error A -- Illegal Addressing Mode ................. 14
5.5 Error B -- Branch Target Too Distant ............... 15
5.6 Error D -- Illegal Digit ........................... 15
5.7 Error E -- Illegal Expression ...................... 15
5.8 Error I -- IF-ENDIF Imbalance ...................... 15
5.9 Error L -- Illegal Label ........................... 15
5.10 Error M -- Multiply Defined Label .................. 16
5.11 Error O -- Illegal Opcode .......................... 16
5.12 Error P -- Phasing Error ........................... 16
5.13 Error S -- Illegal Syntax .......................... 16
5.14 Error T -- Too Many Arguments ...................... 16
5.15 Error U -- Undefined Label ......................... 16
5.16 Error V -- Illegal Value ........................... 17
6.0 Warning Messages ........................................ 17
6.1 Warning -- Illegal Option Ignored .................. 17
6.2 Warning -- -l Option Ignored -- No File Name ....... 17
6.3 Warning -- -o Option Ignored -- No File Name ....... 17
6.4 Warning -- Extra Source File Ignored ............... 17
6.5 Warning -- Extra Listing File Ignored .............. 18
6.6 Warning -- Extra Object File Ignored ............... 18
1
7.0 Fatal Error Messages .................................... 18
7.1 Fatal Error -- No Source File Specified ............ 18
7.2 Fatal Error -- Source File Did Not Open ............ 18
7.3 Fatal Error -- Listing File Did Not Open ........... 18
7.4 Fatal Error -- Object File Did Not Open ............ 18
7.5 Fatal Error -- Error Reading Source File ........... 18
7.6 Fatal Error -- Disk or Directory Full .............. 18
7.7 Fatal Error -- File Stack Overflow ................. 19
7.8 Fatal Error -- If Stack Overflow ................... 19
7.9 Fatal Error -- Too Many Symbols .................... 19
2
1.0 How to Use the Cross-Assembler Package
First, the question, "What does a cross-assembler do?" needs
to be addressed as there is considerable confusion on this point.
A cross-assembler is just like any other assembler except that it
runs on some CPU other than the one for which it assembles code.
For example, this package assembles 6804 source code into 6804
object code, but it runs on an 8080, a Z-80, an 8088, or whatever
other CPU you happen to have a C compiler for. The reason that
cross-assemblers are useful is that you probably already have a
CPU with memory, disk drives, a text editor, an operating system,
and all sorts of hard-to-build or expensive facilities on hand.
A cross-assembler allows you to use these facilites to develop
code for a 6804.
This program requires one input file (your 6804 source code) and
zero to two output files (the listing and the object). The input
file MUST be specified, or the assembler will bomb on a fatal
error. The listing and object files are optional. If no listing
file is specified, no listing is generat