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22f9a730ec
* Added a directive to control merging of SECTIONs: MERGE * Added an indexed TEXT format that uses a String Symbol for the indexing order * General coding style consitencies
1356 lines
42 KiB
Plaintext
1356 lines
42 KiB
Plaintext
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x65 Assembler
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-------------
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x65 is an open source 6502 series assembler that supports object files,
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linking, fixed address assembling and a relocatable executable.
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Assemblers have existed for a long time and what they do is well documented,
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x65 tries to accomodate most expectations of syntax from Kick Assembler (a
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Java 6502 assembler) to Merlin (an Apple II assembler).
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For debugging, dump_x65 is a tool that will show all content of x65 object
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files, and x65dsasm is a disassembler intended to review the assembled
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result.
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Noteworthy features:
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* Code with sections, object files and linking or single file fixed
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address, or mix it up with fixed address sections in object files.
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* Assembler listing with cycle counting for code review.
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* Export multiple binaries with a single link operation.
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* C style scoping within '{' and '}' with local and pool labels
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respecting scopes.
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* Conditional assembly with if/ifdef/else etc.
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* Assembler directives representing a variety of features.
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* Local labels can be defined in a number of ways, such as leading
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period (.label) or leading at-sign (@label) or terminating
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dollar sign (label$).
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* String Symbols system allows building user expressions and macros
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during assembly.
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* Reassignment of symbols and labels by default.
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* No indentation required for instructions, meaning that labels can't
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be mnemonics, macros or directives.
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* Supporting the syntax of other 6502 assemblers (Merlin syntax
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requires command line argument, -endm adds support for sources
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using macro/endmacro and repeat/endrepeat combos rather
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than scoeps).
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* Apple II GS executable output.
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The x65 assembler co-exists with two related projects, both of which can
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be used independently with other assembers.
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* Step6502 - http://gitbub.com/sakrac/Step6502 is a visual debugger for
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6502 in Windows that draws heavily from the Visual Studio debugger.
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* x65dsasm - http://github.com/sakrac/x65dsasm is a symbolic disassembler
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for 6502/65C02/65816 that is primarily used for reviewing changes to
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the x65 assembler, but can also revive old projects where some source
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may be missing.
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Contents
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--------
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License
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Command line arguments
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CPU options
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Syntax
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Targets
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Listing Output
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Expressions
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Math expression symbols supported
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PC expression symbols supported
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Conditional operators
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Conditional assembly
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65816
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Data
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Macros
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Strings
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Structs and Enums
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Symbols
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Label Pool
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Sections
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Relocatable code and linking
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Merlin
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All Directives
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License
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-------
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Created by Carl-Henrik Skårstedt on 9/23/15.
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The MIT License (MIT)
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Copyright (c) 2015 Carl-Henrik Skårstedt
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Permission is hereby granted, free of charge, to any person obtaining
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a copy of this software and associated documentation files (the "Software"),
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to deal in the Software without restriction, including without limitation
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the rights to use, copy, modify, merge, publish, distribute, sublicense,
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and/or sell copies of the Software, and to permit persons to whom the
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Software is furnished to do so, subject to the following conditions:
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The above copyright notice and this permission notice shall be
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included in all copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
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OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
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THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
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ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
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OTHER DEALINGS IN THE SOFTWARE.
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Details, source and documentation at https://github.com/Sakrac/x65.
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"struse.h" can be found at https://github.com/Sakrac/struse,
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only the header file is required.
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Document Updates
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----------------
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Nov 23 2015 - Initial pass of x65 documentation
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Nov 24 2015 - More text
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Nov 26 2015 - String directive and more text
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Command line arguments
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----------------------
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Input, output and target options are set on the command line, many of
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these options can be controlled with assembler directives in code as
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well as the command line.
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x65 source target [options]
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Options include:
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* -i(path) : Add include path
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* -D(label)[=value] : Define a label with an optional value
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(otherwise defined as 1)
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* -cpu=6502/65c02/65c02wdc/65816: assemble with opcodes for a different cpu
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* -acc=8/16: set the accumulator mode for 65816 at start, default is 8 bits
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* -xy=8/16: set the index register mode for 65816 at start, default is 8 bits
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* -org = $2000 or - org = 4096: force fixed address code at address
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* -obj (file.x65) : generate object file for later linking
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* -bin : Raw binary
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* -c64 : Include load address (default)
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* -a2b : Apple II Dos 3.3 Binary
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* -a2p : Apple II ProDos Binary
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* -a2o : Apple II GS OS executable (relocatable)
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* -mrg : Force merge all sections (use with -a2o)
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* -sym (file.sym) : symbol file
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* -lst / -lst = (file.lst) : generate disassembly text from
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result (file or stdout)
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* -opcodes / -opcodes = (file.s) : dump all available opcodes(file or stdout)
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* -sect: display sections loaded and built
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* -vice (file.vs) : export a vice symbol file
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* -merlin: use Merlin syntax
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* -endm : macros end with endm or endmacro instead of scoped('{' - '}')
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CPU options
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-----------
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The CPU can be defined on the command line with the -cpu=<name> option, or as an
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assembler directive with the CPU directive. The supported CPU names are:
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* 6502 - basic 6502 instruction set
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* 6502ill - 6502 instruction set with illegal opcodes
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* 65C02 - basic 65C02 instruction set
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* 65c02WDC - 65C02 instruction set with added WDC instructions
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* 65816 - basic 65816 instruction set
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The CPU can be changed within a source file, the highest instruction count
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CPU will be used for -lst disassembly output.
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65816 has additional states that the assembler needs to be aware of such as the
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accumulator and index register sizes (8 or 16 bit). These can be specified
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on the command line and using assembler directives like A16, A8, I16, I8 etc.
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Syntax
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------
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The syntax of x65 source is the result of trying to build code originally
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created for a variety of assemblers, including a number of open source
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games and old personal code. The primary syntax inspiration is from
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Kick Assembler, but also DASM, TASM and XASM. Most of the downloaded
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sample code was written for Apple II where Merlin, Orca and Lisa were
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referenced.
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Note that Merlin syntax requires the -merlin command line option.
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In normal mode x65 does not care about indentation, labels can be indented
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and instructions can be in column 1. In this mode labels can not use
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the same name as any directive or instruction and the same goes for macros,
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etc. Colons are optional for labels.
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Comments are line based and either semicolon or double forward slashes:
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; comment
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// also a comment
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Local labels are any labels starting with ., !, @ or : or ending with $.
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A local label will be discarded after a scope ends ( '}' ) or after a
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global label is declared.
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{ ; open scope
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ldx #2
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dex
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beq .zero ; .zero is a local label within the current scope
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bne ! ; address of open scope ({)
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.zero
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} ; close scope
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Symbols are assigned with an equal sign or the EQU keyword and can be
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preceeded by 'CONST' to prevent changes:
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BitmapStart = $2000
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CONST ColorMap EQU $400
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Symbols can be removed using the UNDEF directive
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UNDEF BitmapStart ; BitmapStart is no longer defined
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By using the -merlin command line argument x65 is in Merlin syntax mode
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which restrics labels to be in column 1 and everything else in column 2
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or higher. Merlin syntax also enables a number of Merlin specific assembler
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directives. See the Merlin section for more information.
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Targets
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-------
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Most target file formats are just a binary executable code with a few bytes
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for load address and code size, with the exception of the Apple II GS
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relocatable executable.
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If building a fixed address target the initial address can be specified
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with the command line option "-org" or by using an ORG directive in the source.
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Multiple ORG statements is allowed in the source and inbetween space will
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be filled with zeroes.
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In order to support larger projects an intermediate (fully assembled)
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relocatable target format is available using the -obj command line option to
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generate a .x65 object file. More information about object files in Sections.
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Command line options for target output:
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* -org = $2000: set the default start address of fixed address code,
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default is $1000
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* -obj (file.x65): generate object file for later linking
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* -bin : Raw binary
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* -c64 : Include load address (default)
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* -a2b : Apple II Dos 3.3 Binary (load address + file size)
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* -a2p : Apple II ProDos Binary (set org to $2000 otherwise binary)
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* -a2o : Apple II GS OS executable (relocatable)
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* -mrg : Force merge all sections (use with -a2o)
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The -mrg option will combine all segments into one to allow for 16 bit
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addressing to reach data in other segments, but will limit the size to fit
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into a 64 k bank.
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Listing Output
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-----------
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The command line -lst option will enable list output which is a traditional
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way to review 6502 code. -lst=(filename) will write the list output to a file
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whereas -lst by itself will send the list output to stdout.
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The list output will be generated after the source has been assembled. The
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output will use spaces instead of tabs to keep the columns consistant in
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different editors.
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The order of lines in the list output will correspond to memory and not to the
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order of lines in the original code, and lines that doesn't generate data may
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be omitted.
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By using scoping '{' and '}' the listing starts and stops cycle counters, each
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cycle counter starting is marked by c>number and stopping by c<number = time for
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a single pass through all the instructions within the scope.
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Columns left to right
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* Address
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* Bytes (up to 4) or Cycle Counter start (c>1) / end (c<1 = ...)
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* Instruction (disassembled)
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* Cycle Count for Instruction
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* Source line that generated the data
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section Code
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c>1 Sin {
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$0000 a2 03 ldx #$03 2 ldx #3
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c>2 {
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$0002 b5 e8 lda $e8,x 4 lda SinP.Ang,x
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$0004 95 ec sta $ec,x 4 sta SinP.R,x
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$0006 95 e4 sta $e4,x 4 sta SinP.W0,x
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$0008 95 f4 sta $f4,x 4 sta Mul824.A,x
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$000a 95 f0 sta $f0,x 4 sta Mul824.B,x
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$000c ca dex 2 dex
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$000d 10 f3 bpl $0002 2+ bpl !
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c<2 = 24 + 1 }
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; x^2, copy to W1
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$000f a9 e0 lda #$e0 2 lda #SinP.W1
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$0011 20 00 00 jsr $0000 6 jsr Multiply824S_Copy
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; iterate value
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$0014 a0 00 ldy #$00 2 ldy #0
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.SinIterate
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c>2 {
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; W0 *= W1
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$0016 a2 03 ldx #$03 2 ldx #3
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c>3 {
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$0018 b5 e4 lda $e4,x 4 lda SinP.W0,x ; x^(1+2n)
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$001a 95 f4 sta $f4,x 4 sta Mul824.A,x
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$001c b5 e0 lda $e0,x 4 lda SinP.W1,x ; x^2
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$001e 95 f0 sta $f0,x 4 sta Mul824.B,x
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$0020 ca dex 2 dex
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$0021 10 f5 bpl $0018 2+ bpl !
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c<3 = 20 + 1 }
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Expressions
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-----------
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Expressions contain values, such as labels or raw numbers and operators,
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the order of operations is based on C like precedence. Internally the
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expression is converted to reverse polish notation to make it easier to
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keep track of complex expressions.
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Values in expressions can be labels, symbols, strings (added as an
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expression within parenthesis) or raw decimal, binary or hexadecimal numbers.
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Math expression symbols supported:
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+ Add two numbers (a+b)
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- Subtract one number from another (a-b)
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* Multiply two numbers (a*b)
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/ Divide one number by another (a/b)
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& Logical and two numbers (a&b)
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| Logical or two numbers (a|b)
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^ Logical exclusive or two numbers (a^b)
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<< Shift value left (multiply a by 2^b)
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>> Shift value right (divide a by 2^b)
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( Open parenthesis, override operator precedence
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) Close parenthesis, end a parenthesis block
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PC expression symbols supported:
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* Current address (PC). This conflicts with the use of * as multiply
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so multiply will be interpreted only after a value or right parenthesis
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< If less than is not followed by another '<' in an expression this
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evaluates to the low byte of a value (and $ff)
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> If greater than is not followed by another '>' in an expression
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this evaluates to the high byte of a value (>>8)
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^ Inbetween two values '^' is an eor operation, as a prefix to
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values it extracts the bank byte (v>>24).
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! Start of scope (use like an address label in expression)
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% First address after scope (use like an address label in expression)
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$ Precedes hexadecimal value
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% If immediately followed by '0' or '1' this is a binary value and not
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scope closure address
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Conditional operators
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== Double equal signs yields 1 if left value is the same as the right value
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< If inbetween two values, less than will yield 1 if left value is less
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than right value
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> If inbetween two values, greater than will yield 1 if left value is
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greater than right value
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<= If inbetween two values, less than or equal will yield 1 if left value
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is less than or equal to right value
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>= If inbetween two values, greater than or equal will yield 1 if left
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value is greater than or equal to right value
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Example:
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lda #(((>SCREEN_MATRIX)&$3c)*4)+8
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sta $d018
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Avoid using parenthesis as the first character of the parameter of an opcode
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that can be relative addressed instead of an absolute address. This can be
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avoided by
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jmp (a+b) ; generates a relative jump
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jmp.a (a+b) ; generates an absolute jump
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jmp +(a+b) ; generates an absolute jump
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c = (a+b)
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jmp c ; generates an absolute jump
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jmp a+b ; generates an absolute jump
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-0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0-
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Conditional assembly
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--------------------
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IF / ELSE / ENDIF etc. works in a similar way to C, IF exp / ELIF exp assembles if
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the expression is non-zero, IFDEF symbol assembles if the symbol has been
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assigned.
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There isn't any particular restriction to what can be excluded in a
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non-assembling block of source.
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* ELIF - conditionals, "else if" following an IF or IFDEF condtion
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* ELSE - conditionals, following an IF or IFDEF or ELIF condition
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* ENDIF - conditionals, terminates a condition
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* IF - conditionals, start a block of conditional assembly if an expression
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evaluates to non-zero
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* IFDEF - conditionals, start a block of conditional assembly if a symbol or
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label exists at this point
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Example:
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if 0
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this part of the source will not assemble,
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however a line can not start with a conditional
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assembler directive such as if, ifdef, else, elseif
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or endif within a block that does not assemble
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unless followed by a valid expression
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else
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; this part of the source will assemble
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lda #0
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rts
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endif
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-0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0-
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65816
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-----
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65816 is major expansion of 6502 and requires the assembler to be aware of
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what processor flags the user has set to select instructions.
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use -cpu=65816 on command line or CPU 65816 in source to set.
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* A16 - 65816, set accumulator immediate operators to 16 bit mode
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* A8 - 65816, set accumulator immediate operators to 8 bit mode
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* I16 - 65816, set index register immediate operators to 16 bit mode,
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same as XY16
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* I8 - 65816, set index register immediate operators to 8 bit mode,
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same as XY8
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* XY16 - 65816, set index register immediate operators to 16 bit mode,
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same as I16
|
|
* XY8 - 65816, set index register immediate operators to 8 bit mode,
|
|
same as I8
|
|
|
|
|
|
|
|
-0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0-
|
|
|
|
|
|
Data
|
|
----
|
|
|
|
|
|
Data is any part of the binary that is not generate by assembler
|
|
mnemonics, most of the directives declare specific data except for DS that
|
|
declares a repeating value.
|
|
|
|
* BYTE - data, define comma separated bytes
|
|
* BYTES - data, same as byte
|
|
* DC - data, define comma separated bytes (default), words, triples or
|
|
longs (DC.B, DC.W, DC.T, DC.L)
|
|
* DS - data, define repeated value, first value is count, optional is fill
|
|
value, default is in bytes (DS.B, DS.W, DS.T, DS.L)
|
|
* DV - data, same as DC but differentiated in DASM as allowing expressions
|
|
* IMPORT - data and sections, load a file and include it in the assembly based
|
|
on the argument
|
|
* INCBIN - data, load a file and insert it at the current address
|
|
* INCDIR - data and control, add a directory to search for INCLUDE, INCBIN,
|
|
INCOBJ or IMPORT files in
|
|
* LONG - data, define comma separated 32 bit values
|
|
* TEXT - data, insert text at the current address optionally with a filter
|
|
* WORD - data, insert comma separated 16 bit values, same as WORDS
|
|
* WORDS - data, insert comma seperated 16 bit values, same as WORD
|
|
|
|
|
|
Example:
|
|
|
|
ONE_824 = 1<<24 ; 1 as a 8.24 number
|
|
CosInvPermute: ; 1 +
|
|
long -(ONE_824 + 1)/(2) ; x^2 * this
|
|
long (ONE_824 + 3*4)/(2*3*4) ; x^4 * this
|
|
long -(ONE_824 + 3*4*5*6)/(2*3*4*5*6) ; x^6 * this
|
|
long -(ONE_824 + 3*4*5*6*7*8)/(2*3*4*5*6*7*8) ; x^8 * this
|
|
|
|
|
|
-0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0-
|
|
|
|
|
|
Macros
|
|
------
|
|
|
|
|
|
The default macro syntax is similar to a C inline function, using the
|
|
directive MACRO.
|
|
|
|
MACRO [name](parameter1, parameter2, etc.) {
|
|
lda #parameter1
|
|
sta parameter2
|
|
}
|
|
|
|
To use the macro use the name and specify parameters:
|
|
|
|
[name](1,dest)
|
|
|
|
The parenthesis are optional both for the macro declaration and for the
|
|
macro instantiation so macros can be used as if they were instructions
|
|
|
|
MACRO neg address {
|
|
sec
|
|
lda #0
|
|
sbc source
|
|
sta source
|
|
}
|
|
|
|
MACRO nega {
|
|
eor #$ff
|
|
sec
|
|
adc #0
|
|
}
|
|
|
|
Now 'neg' and 'nega' can be used as if it was an instruction:
|
|
|
|
neg $7f80 ; negate byte at this hard coded address for some reason
|
|
lda #$6c
|
|
nega ; negate accumulator
|
|
|
|
In order to support code written for other assemblers the -endm command line
|
|
option changes the syntax for macro declarations to start on the line after
|
|
MACRO and end before the line starting with ENDM or ENDMACRO:
|
|
|
|
MACRO inca
|
|
sec
|
|
adc #0
|
|
ENDMACRO
|
|
|
|
Directives for macros:
|
|
|
|
* MACRO - macros, start a macro declaration
|
|
|
|
|
|
-0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0-
|
|
|
|
|
|
Strings
|
|
-------
|
|
|
|
|
|
Strings are special symbols that contain text and was included in an
|
|
effort to support ORCA macros. The difference with ORCA and other
|
|
assemblers is that the macros can build up string symbols (along with
|
|
value symbols) and combine results into a more powerful macro system.
|
|
|
|
x65 now supports the same mechanism but not the same exact keywords.
|
|
|
|
Strings can be created and passed in as a value symbol in expressions
|
|
or used directly as a macro (without parameters).
|
|
|
|
Strings are defined using the STRING directive followed by the string
|
|
name and an equal sign followed by a string expression.
|
|
|
|
Strings can include value symbols which will be evaluated and represented
|
|
by $ + the hexadecimal representation of the value.
|
|
|
|
The UNDEF directive can be used to remove String Symbols.
|
|
|
|
Example:
|
|
|
|
STRING exp = "1 + 2 + 3"
|
|
EVAL exp
|
|
|
|
result (output):
|
|
|
|
EVAL(2): "exp" = "1 + 2 + 3" = $6
|
|
|
|
Example:
|
|
|
|
STRING code_str = "lda #0\nsta $fe"
|
|
code_str
|
|
|
|
result (code):
|
|
|
|
lda #0
|
|
sta $fe
|
|
|
|
Example:
|
|
|
|
STRING concat_example = "ldx #0"
|
|
concat_example +=
|
|
|
|
Text data can also be indexed into a String Symbol which may be useful
|
|
if a font doesn't have all characters by specifying the String Symbol
|
|
in brackets between the directive and the value.
|
|
|
|
Example:
|
|
; declare a string symbol with valid characters
|
|
STRING FontChars = "abcdefghijklmnoprstuvw0123456789!"
|
|
|
|
; define text data as indexes into the string symbol
|
|
TEXT [FontChars] "this is an indexed string!"
|
|
|
|
Directives for String Symbols
|
|
|
|
* STRING - declare a string symbol
|
|
* UNDEF - remove a string
|
|
|
|
|
|
-0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0-
|
|
|
|
|
|
Structs and Enums
|
|
-----------------
|
|
|
|
Hierarchical data structures (dot separated sub structures)
|
|
|
|
Structs helps define complex data types, there are two basic types to
|
|
define struct members, and as long as a struct is declared it can be
|
|
used as a member type of another struct.
|
|
|
|
The result of a struct is that each member is an offset from the start
|
|
of the data block in memory. Each substruct is referenced by separating
|
|
the struct names with dots.
|
|
|
|
To get the size of a struct simply use the automatic 'bytes' member as
|
|
in <struct>.bytes
|
|
|
|
Example:
|
|
|
|
struct MyStruct {
|
|
byte count
|
|
word pointer
|
|
}
|
|
|
|
struct TwoThings {
|
|
MyStruct thing_one
|
|
MyStruct thing_two
|
|
}
|
|
|
|
struct Mixed {
|
|
word banana
|
|
TwoThings things
|
|
}
|
|
|
|
Eval Mixed.bytes
|
|
Eval Mixed.things
|
|
Eval Mixed.things.thing_two
|
|
Eval Mixed.things.thing_two.pointer
|
|
Eval Mixed.things.thing_one.count
|
|
results in the output:
|
|
|
|
EVAL(15): "Mixed.bytes" = $3
|
|
EVAL(16): "Mixed.things" = $2
|
|
EVAL(27): "Mixed.things.thing_two" = $5
|
|
EVAL(28): "Mixed.things.thing_two.pointer" = $6
|
|
EVAL(29): "Mixed.things.thing_one.count" = $2
|
|
|
|
* ENUM - structs and enums, declare enumerations like C
|
|
* STRUCT - structs and enums, declare a C-like structure of symbols
|
|
separated by dots
|
|
|
|
|
|
-0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0-
|
|
|
|
|
|
Symbols
|
|
-------
|
|
|
|
|
|
Symbols are assigned with an equal sign or the keyword EQU or defined
|
|
as labels within code.
|
|
|
|
Structs and Enums are structured symbols.
|
|
|
|
INCSYM can be used to reference symbols from previous assembled
|
|
binary executables:
|
|
|
|
INCSYM EntryPoint "Binary.sym"
|
|
|
|
EntryPoint is defined from the previously assembled code using an
|
|
optional symbol file.
|
|
|
|
|
|
|
|
* INCSYM - symbols, include all or specific symbols from a .sym file
|
|
* LABEL - symbols, optional prefix to symbol assignments
|
|
* LABPOOL - symbols, a stack-like pool of addresses, same as POOL
|
|
* STRUCT - structs and enums, declare a C-like structure of symbols
|
|
separated by dots
|
|
* POOL - symbols, a stack-like pool of addresses, same as LABPOOL
|
|
* CONST - symbols, declare assigned symbol as constant and if changed
|
|
cause an error
|
|
* XDEF - sections, declare a label as external which can be referenced in
|
|
other source files by using XREF
|
|
* XREF - sections, reference a label that has been declared as global in
|
|
another file by using XDEF
|
|
* UNDEF - symbols, erase a symbol or string
|
|
|
|
|
|
-0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0-
|
|
|
|
|
|
Label Pool
|
|
----------
|
|
|
|
|
|
Add a label pool for temporary address labels. This is similar to how
|
|
stack frame variables are assigned in C.
|
|
|
|
A label pool is a mini stack of addresses that can be assigned as
|
|
temporary labels with a scope ('{' and '}'). This can be handy for large
|
|
functions trying to minimize use of zero page addresses, the function can
|
|
declare a range (or set of ranges) of available zero page addresses and
|
|
labels can be assigned within a scope and be deleted on scope closure.
|
|
|
|
The format of a label pool is: "pool [pool name] start-end, start-end"
|
|
and labels can then be allocated from that range by
|
|
|
|
[pool name] [label name][.b][.w]
|
|
|
|
where .b means allocate one byte and .w means allocate two bytes. The
|
|
label pools themselves are local to the scope they are defined in so
|
|
you can have label pools that are only valid for a section of your code.
|
|
Label pools works with any addresses, not just zero page addresses.
|
|
|
|
Example:
|
|
```
|
|
Function_Name: {
|
|
pool zpWork $f6-$100 ; zero page addresses for temporary labels
|
|
zpWork zpTrg.w ; zpTrg will be $fe
|
|
zpWork zpSrc.w ; zpSrc will be $fc
|
|
|
|
lda #>Src
|
|
sta zpSrc
|
|
lda #<Src
|
|
sta zpSrc+1
|
|
lda #>Dest
|
|
sta zpDst
|
|
lda #<Dest
|
|
sta zpDst+1
|
|
|
|
{
|
|
zpWork zpLen ; zpLen will be $fb
|
|
lda #Length
|
|
sta zpLen
|
|
}
|
|
nop
|
|
{
|
|
zpWork zpOff ; zpOff will be $fb (shared with zpLen)
|
|
}
|
|
rts
|
|
```
|
|
|
|
The following extensions are recognized:
|
|
|
|
* [pool name] var (no extension is one byte)
|
|
* [pool name] var.w (2 bytes)
|
|
* [pool name] var.d (2 bytes)
|
|
* [pool name] var.t (3 bytes)
|
|
* [pool name] var.l (4 bytes)
|
|
|
|
|
|
-0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0-
|
|
|
|
|
|
Sections
|
|
--------
|
|
|
|
|
|
x65 supports linking of fully assembled object files into a single
|
|
larger project. This is a fairly standard feature of compilers but
|
|
supporting both common 68000 linking style and Apple II Merlin style
|
|
means that x65 is not quite as straightforward.
|
|
|
|
The purpose of a linked project is to work in multiple source files
|
|
without worrying about where in memory each file gets compiled to.
|
|
In addition sections of code and data in a single file can be linked
|
|
to different target locations. Each source file gets assembled to an
|
|
object file (.x65) and all the internal and external references are
|
|
stored separately from the binary code to be fixed up later.
|
|
|
|
The last step of a linked project is to load all object files and
|
|
generate one or more exported programs. A special source file uses
|
|
the INCOBJ directive to bring in object files one by one and piled up
|
|
by using the LINK [segment name] at a fixed address.
|
|
|
|
The SECTION directive starts a block of code or data to be linked
|
|
later. By default x65 creates a section named "default" which can
|
|
be used for linking as is but is intended to be replaced.
|
|
|
|
In order to export labels from a source file it should be declared
|
|
with XDEF prior to being defined:
|
|
|
|
XDEF Function
|
|
|
|
SECTION Code
|
|
|
|
Function:
|
|
lda #1
|
|
rts
|
|
|
|
To reference an exported label from a different file use XREF
|
|
|
|
XREF Function
|
|
|
|
SECTION Code
|
|
Code:
|
|
jsr Function
|
|
rts
|
|
|
|
To link object files (.x65) into an executable the assembled
|
|
objects need to be combined into a single source using INCOBJ
|
|
|
|
INCOBJ "Code.x65"
|
|
INCOBJ "Routines.x65"
|
|
|
|
The result will put the first included code section OR the first code
|
|
section declared in the link file.
|
|
|
|
The link file can export multiple binary executable files by using
|
|
the EXPORT directive
|
|
|
|
SECTION CodeOther, Code
|
|
EXPORT other
|
|
|
|
Code in the CodeOther section will be built as (binary)_other.(ext)
|
|
|
|
By linking multiple targets at once files can reference labels
|
|
between eachother.
|
|
|
|
Sections can be named anything and still be assigned a section type:
|
|
|
|
section Gameplay, Code ; code section named Gameplay, unaligned
|
|
...
|
|
section GameBinary, Data, $100 ; data section named GameBinary, aligned
|
|
...
|
|
section Work, Zeropage ; Zeropage or Direct page section
|
|
...
|
|
section FixedZP, Zeropage
|
|
org $a0 ; Make zero page section as a fixed address
|
|
|
|
Section types include:
|
|
|
|
* Code: binary code
|
|
* Data: binary data
|
|
* BSS: uninitialized memory (for certain targets filled with zeroes)
|
|
* Zeropage: uninitialized memory restricted to the range $00 - $ff
|
|
|
|
Additional section directive styles include:
|
|
|
|
SEG segname
|
|
SEG.U segname
|
|
SEGMENT "segname": segtype
|
|
.SEGMENT "segname"
|
|
|
|
For creating relocatable files (OMF) certain sections can not be fixed address.
|
|
|
|
Special sections for Apple II GS executables:
|
|
|
|
Sections named DirectPage_Stack and of a BSS type (default) determine the size of the direct page + stack for the executable. If multiple sections match this rule the size will be the sum of all the sections with this name.
|
|
|
|
Zeropage sections will be linked to a fixed address (default at the highest direct page addresses) prior to exporting the relocatable code. Zeropage sections in x65 is intended to allocate ranges of the zero page / direct page which is a bit confusing with OMF that has the concept of the direct page + stack segment.
|
|
|
|
|
|
Linking Control of Sections
|
|
|
|
The MERGE directive allows for listing SECTION names that should be linked in
|
|
order. You may have a number of sections with the same name and a number of
|
|
sections with a different name that should be linked into memory sequentially.
|
|
|
|
MERGE will take a list of sections on the same line and combine them into one
|
|
larger section that can be saved as a separate file. For example:
|
|
|
|
SECTION Code,code
|
|
; Start address is $1000, link startup code (Code_Init) at that location
|
|
ORG $1000
|
|
MERGE Code, Code_Init, Code_Process, Code_Execute
|
|
|
|
; Merge Data sections
|
|
SECTION Data,data
|
|
MERGE Data, Data_Assets, Data_Constants
|
|
|
|
; Data follows directly after Code
|
|
MERGE Code, Data
|
|
|
|
|
|
Directives related to sections:
|
|
|
|
|
|
* DUMMY - sections, start a dummy section (defines addresses but does not
|
|
generate data, same as Merlin DUM)
|
|
* DUMMY_END - sections, end a dummy section (same as Merlin DEND)
|
|
* EXPORT - sections, this section will link or save to a separate binary file
|
|
with the argument appended to the link or binary filename.
|
|
* IMPORT - data and sections, load a file and include it in the assembly based
|
|
on the argument
|
|
* INCOBJ - sections, load an object file (.x65) of previously assembled source
|
|
* LINK - sections, links a section to the current section
|
|
* SECTION - section, declare a section; Comma separated arguments are name,
|
|
type, align where type is Code, Data, BSS or Zeropage
|
|
* SEG - section, same as SECTION
|
|
* SEGMENT - section, same as SECTION
|
|
* XDEF - sections, declare a label as external which can be referenced in
|
|
other source files by using XREF
|
|
* XREF - sections, reference a label that has been declared as global in
|
|
another file by using XDEF
|
|
|
|
|
|
|
|
-0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0-
|
|
|
|
|
|
Relocatable code and linking
|
|
----------------------------
|
|
|
|
|
|
A lot of 6502 code has been built with fixed address assemblers. While
|
|
supporting fixed address assembling, x65 is built around generating relocatable
|
|
code that can be linked as as final build step.
|
|
|
|
Code and data is broken into sections, where data sections can be
|
|
uninitialized (BSS and Zeropage) or initialized. Sections with the same
|
|
type and the same name are combined before linking.
|
|
|
|
Apple II GS uses a relocatable binary format that can be exported, other
|
|
targets link to a fixed address during the linking stage.
|
|
|
|
|
|
-0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0-
|
|
|
|
|
|
Merlin
|
|
------
|
|
|
|
x65 can compile most Merlin syntax code with the -merlin command line
|
|
option.
|
|
|
|
A variety of directives and label rules to support Merlin assembler
|
|
sources. Merlin syntax is supported in x65 since there is historic
|
|
relevance and readily available publicly release source.
|
|
|
|
Merlin Label Syntax
|
|
|
|
]label means mutable address label, also does not seem to invalidate
|
|
local labels.
|
|
|
|
:label is perfectly valid, currently treating as a local variable
|
|
|
|
labels can include '?'
|
|
|
|
Merlin labels are not allowed to include '.' as period means logical
|
|
or in merlin, which also means that enums and structs are not
|
|
supported when assembling with merlin syntax.
|
|
|
|
|
|
Merlin expressions
|
|
|
|
Merlin may not process expressions (probably left to right, parenthesis
|
|
not allowed) the same as x65 but given that it wouldn't be intuitive
|
|
to read the code that way, there are probably very few cases where this
|
|
would be an issue.
|
|
|
|
|
|
Merlin additional directives
|
|
|
|
XC
|
|
|
|
Change processor. The first instance of XC will switch from 6502 to
|
|
65C02, the second switches from 65C02 to 65816. To return to 6502 use
|
|
XC OFF. To go directly to 65816 XC XC is supported.
|
|
|
|
|
|
MX
|
|
|
|
MX sets the immediate mode accumulator instruction size, it takes a
|
|
number and uses the lowest two bits. Bit 0 applies to index registers
|
|
(x, y) where 0 means 16 bits and 1 means 8 bits, bit 1 applies to the
|
|
accumulator. Normally it is specified in binary using the '%' prefix.
|
|
|
|
MX %11
|
|
|
|
|
|
LUP
|
|
|
|
LUP is Merlingo for loop. The lines following the LUP directive to
|
|
the keyword --^ are repeated the number of times that follows LUP.
|
|
LUP is the same as REPT in normal syntax.
|
|
|
|
|
|
MAC
|
|
|
|
MAC is short for Macro. Merlin macros are defined on line inbetween
|
|
MAC and <<< or EOM. Macro arguments are listed on the same line as
|
|
MAC and the macro identifier is the label preceeding the MAC directive
|
|
on the same line.
|
|
|
|
|
|
EJECT
|
|
|
|
An old assembler directive that does not affect the assembler but if
|
|
printed would insert a page break at that point.
|
|
|
|
|
|
DS
|
|
|
|
Define section, followed by a number of bytes. If number is positive
|
|
insert this amount of 0 bytes, if negative, reduce the current PC.
|
|
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|
|
|
DUM, DEND
|
|
|
|
Dummy section, this will not write any opcodes or data to the binary
|
|
output but all code and data will increment the PC addres up to the
|
|
point of DEND.
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|
|
|
|
|
PUT
|
|
|
|
A variation of INCLUDE that applies an oddball set of filename
|
|
rules. These rules apply to INCLUDE as well just in case they
|
|
make sense.
|
|
|
|
|
|
USR
|
|
|
|
In Merlin USR calls a function at a fixed address in memory, x65
|
|
safely avoids this. If there is a requirement for a user defined
|
|
macro you've got the source code to do it in.
|
|
|
|
|
|
SAV
|
|
|
|
SAV causes Merlin to save the result it has generated so far,
|
|
which is somewhat similar to the [EXPORT](#export) directive.
|
|
If the SAV name is different than the source name the section
|
|
will have a different EXPORT name appended and exported to a
|
|
separate binary file.
|
|
|
|
|
|
DSK
|
|
|
|
DSK is similar to SAV
|
|
|
|
|
|
ENT
|
|
|
|
ENT defines the label that preceeds it as external, same as XDEF.
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|
|
|
EXT
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|
|
|
EXT imports an external label, same as XREF.
|
|
|
|
|
|
LNK, STR
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|
|
|
LNK links the contents of an object file, to fit with the named section
|
|
method of linking in x65 this keyword has been reworked to have a
|
|
similar result, the actual linking doesn't begin until the current
|
|
section is complete.
|
|
|
|
|
|
CYC
|
|
|
|
CYC starts and stops a cycle counter, x65 scoping allows for hierarchical
|
|
cycle listings but the first merlin directive CYC starts the counter and
|
|
the next CYC stops the counter and shows the result. This is 6502 only
|
|
until data is entered for other CPUs.
|
|
|
|
|
|
ADR
|
|
|
|
Define byte triplets (like DA but three bytes instead of 2)
|
|
|
|
|
|
ADRL
|
|
|
|
Define values of four bytes.
|
|
|
|
|
|
-0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0-
|
|
|
|
|
|
All Directives
|
|
---------------
|
|
|
|
|
|
* A16 - 65816, set accumulator immediate operators to 16 bit mode
|
|
* A8 - 65816, set accumulator immediate operators to 8 bit mode
|
|
* ABORT - exit assembler after printing the argument to stdout and error,
|
|
same as ERR
|
|
* ALIGN - fixed address assembly align next to argumnet, reloc assembly set
|
|
aligment of section if immediately after section declaration
|
|
* BYTE - data, define comma separated bytes
|
|
* BYTES - data, same as byte
|
|
* CONST - symbols, declare assigned symbol as constant and if changed cause
|
|
an error
|
|
* UNDEF - symbols, erase a symbol or string
|
|
* CPU - instructions, change target processor, valid arguments are: 6502,
|
|
6502ill, 65C02, 65C02WDC, 65816; Same as PROCESSOR
|
|
* DC - data, define comma separated bytes (default), words, triples or
|
|
longs (DC.B, DC.W, DC.T, DC.L)
|
|
* DS - data, define repeated value, first value is count, optional is fill
|
|
value, default is in bytes (DS.B, DS.W, DS.T, DS.L)
|
|
* DUMMY - sections, start a dummy section (defines addresses but does not
|
|
generate data, same as Merlin DUM)
|
|
* DUMMY_END - sections, end a dummy section (same as Merlin DEND)
|
|
* DV - data, same as DC but differentiated in DASM as allowing expressions
|
|
* ECHO - status, output an expression to stdout, same as PRINT and EVAL
|
|
* ELIF - conditionals, "else if" following an IF or IFDEF condtion
|
|
* ELSE - conditionals, following an IF or IFDEF or ELIF condition
|
|
* ENDIF - conditionals, terminates a condition
|
|
* ENUM - structs and enums, declare enumerations like C
|
|
* ERR - exit assembler with a message and error, same as ABORT
|
|
* EVAL - status, output an expression to stdout, same as PRINT and ECHO
|
|
* EXPORT - sections, this section will link or save to a separate binary
|
|
file with the argument appended to the link or binary filename.
|
|
* I16 - 65816, set index register immediate operators to 16 bit mode,
|
|
same as XY16
|
|
* I8 - 65816, set index register immediate operators to 8 bit mode,
|
|
same as XY8
|
|
* IF - conditionals, start a block of conditional assembly if an expression
|
|
evaluates to non-zero
|
|
* IFDEF - conditionals, start a block of conditional assembly if a symbol or
|
|
label exists at this point
|
|
* IMPORT - data and sections, load a file and include it in the assembly
|
|
based on the argument
|
|
* INCBIN - data, load a file and insert it at the current address
|
|
* INCDIR - data and control, add a directory to search for INCLUDE, INCBIN,
|
|
INCOBJ or IMPORT files in
|
|
* INCLUDE - control, load a source file and assemble it at the current address
|
|
* INCOBJ - sections, load an object file (.x65) of previously assembled source
|
|
* INCSYM - symbols, include all or specific symbols from a .sym file
|
|
* LABEL - symbols, optional prefix to symbol assignments
|
|
* LABPOOL - symbols, a stack-like pool of addresses, same as POOL
|
|
* LINK - sections, links a section to the current section
|
|
* LOAD - set the load address for fixed address binary if different than the
|
|
initial fixed address (c64 prg and Apple II Dos 3)
|
|
* LONG - data, define comma separated 32 bit values
|
|
* MACRO - macros, start a macro declaration
|
|
* MERGE - Merge sections in order specified, will also merge listed sections by name
|
|
* ORG - set fixed address, same as PC
|
|
* PC - set fixed address, same as ORG
|
|
* POOL - symbols, a stack-like pool of addresses, same as LABPOOL
|
|
* PRINT - status, output an expression to stdout, same as PRINT and EVAL
|
|
* PROCESSOR - instructions, change target processor, valid arguments are: 6502,
|
|
6502ill, 65C02, 65C02WDC, 65816; Same as CPU
|
|
* REPEAT - repeat a block of code a number of times, same as REPT
|
|
* REPT - repeat a block of code a number of times, same as REPEAT
|
|
* STRING - strings, declare a string that can be used in expressions or
|
|
assembled as if it was a macro.
|
|
* SECTION - section, declare a section; Comma separated arguments are name,
|
|
type, align where type is Code, Data, BSS or Zeropage
|
|
* SEG - section, same as SECTION
|
|
* SEGMENT - section, same as SECTION
|
|
* STRUCT - structs and enums, declare a C-like structure of symbols separated
|
|
by dots
|
|
* TEXT - data, insert text at the current address optionally with a filter
|
|
* WORD - data, insert comma separated 16 bit values, same as WORDS
|
|
* WORDS - data, insert comma seperated 16 bit values, same as WORD
|
|
* XDEF - sections, declare a label as external which can be referenced in
|
|
other source files by using XREF
|
|
* XREF - sections, reference a label that has been declared as global in
|
|
another file by using XDEF
|
|
* XY16 - 65816, set index register immediate operators to 16 bit mode,
|
|
same as I16
|
|
* XY8 - 65816, set index register immediate operators to 8 bit mode,
|
|
same as I8
|
|
|
|
|
|
|
|
|
|
|
|
-0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0--0-
|
|
|
|
|
|
x65macro.i
|
|
----------
|
|
|
|
A collection of macros to simplify common tasks such as assigning values
|
|
to addresses, moving values, addition and subtraction, memory copy
|
|
options and a variety of C-like for loops.
|
|
|
|
This is an example of how macros can be used:
|
|
|
|
jmp CodeEnd
|
|
CopyCode:
|
|
{
|
|
inx
|
|
beq !
|
|
txa
|
|
bne %
|
|
tay
|
|
dey
|
|
nop
|
|
}
|
|
CodeEnd:
|
|
sei
|
|
|
|
set.w CopyCode, $fc
|
|
|
|
for.ws $2000, $4000, $fe, CodeEnd-CopyCode
|
|
copy.ry $fc, $fe, CodeEnd - CopyCode
|
|
forend
|
|
cli
|
|
|
|
Included macros:
|
|
|
|
set.b / .w / .t / .l Trg, Value
|
|
- set the contents of an 1-4 byte location to a value
|
|
- uses accumulator
|
|
|
|
move.b / .w / .t / .l / .n Src,Trg
|
|
- copy 1-4 (or n) bytes from Src location to Trg location
|
|
- uses accumulator
|
|
|
|
add.n Address1, Address2, Target, Bytes
|
|
- add contents of two memory locations into a target lcoation
|
|
- uses accumulator
|
|
|
|
sub.n Address1, Address2, Target, Bytes
|
|
- Target = Address1 - Address2
|
|
- uses accumulator
|
|
|
|
add.ni Address, Value, Target, Bytes
|
|
- add a fixed value to a memory location into a target
|
|
- uses accumulator
|
|
|
|
sub.ni Address, Value, Target, Bytes
|
|
- Target = Address - Value
|
|
- uses accumulator
|
|
|
|
addw.i Address, Value, Target
|
|
- Subtract 16 bit Value from contents of Address and store at Target
|
|
- uses accumulator
|
|
|
|
subw.i Address1, Address2, Target
|
|
- add contents of two 16 bit addresses into a target 16 bit location
|
|
- uses accumulator
|
|
|
|
mnop Count
|
|
- add Count nops
|
|
|
|
copy.x Source, Target, Size
|
|
- copy up to 256 bytes using the x register as a counter
|
|
- uses accumulator and x register
|
|
|
|
copy.y Source, Target, Size
|
|
- copy up to 256 bytes using the y register as a counter
|
|
- uses accumulator and y register
|
|
|
|
copy.p Src,Trg,Size,PoolZP
|
|
- copy more than 256 bytes using zero page label pool addresses
|
|
- uses accumulator, x and y register
|
|
|
|
copy.a Src,Trg,Size
|
|
- copy more than 256 bytes using absolute indexed in a loop
|
|
- uses accumulator, x and y register
|
|
|
|
copy.zp Src,Trg,Size,zpTmp1,zpTmp2
|
|
- copy more than 256 bytes using two pairs of zero page values
|
|
- uses accumulator, x and y register
|
|
|
|
for.x Start, End
|
|
- iterate using the x register from Start to End, End is not inclusive
|
|
so to iterate from 31 to 0 use for.x 31, -1
|
|
- uses x register
|
|
- end for loop with forend macro
|
|
|
|
for.y Start, End
|
|
- same as for.x but with the y register
|
|
- uses y register
|
|
- end for loop with forend macro
|
|
|
|
for.w Start, End, Counter
|
|
- for loop for 16 bit counter
|
|
- uses accumulator
|
|
- end for loop with forend macro
|
|
|
|
for.ws Start, End, Counter, Step
|
|
- for loop for 16 bit counter with a step value
|
|
- uses accumulator
|
|
- end for loop with forend macro
|
|
|
|
forend
|
|
- terminates for-loops |