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375 lines
13 KiB
Plaintext
375 lines
13 KiB
Plaintext
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grc - GEOS resource compiler
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Maciej 'YTM/Elysium' Witkowiak
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<ytm@elysium.pl>
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VII 2000
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VI,VII 2002
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1. Overview
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-----------
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grc is a part of cc65's GEOS support. This tool is necessary to generate
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required and optional resources. A required resource for every GEOS app is the
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header, that is: icon, some strings and addresses. Optional resources might be
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menu definitions, other headers (e.g. for data files of an app), dialogs
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definitions etc. Without application header GEOS is unable to load and start
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it.
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Currently, grc supports only menus and required header definition as long with
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support for building VLIR structured files.
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grc generates output in three formats - as C header, ca65 source (.s) and for
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linking VLIR - ld65 configuration file. This is because application header data
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must be in assembler format while menu definitions can be easily translated
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into C. The purpose of C file is to include it as header in only one project
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file. Assembler source should be processed with ca65 and linked as first object
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(read Building process below). VLIR structure is currently supported only for
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project written entirely in assembler.
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grc can be also used as a handy VLIR linker used to build VLIR-structured .cvt
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file out of prepared binary chains.
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2. Usage
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--------
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grc accepts following options:
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-f force writting output files
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-o name name C output file
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-s name name S output file
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-l name name ld65 output file
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-h help
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when used as VLIR linker the correct syntax is:
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grc -vlir output.cvt header.bin vlir0.bin vlir1.bin...
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Default output names are made from input name with extension replaced by '.h'
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and '.s'. grc will not overwrite existing files unless forced to do so.
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This is to avoid situation where you have test.c and test.grc files. Both would
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make output into test.s. For this reason you should name your resources files
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differently than sources, e.g. as resource.grc or apphead.grc.
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3. Resource file format
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-----------------------
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A resource file has name extension '.grc'. This is not required, but it will
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make easier recognition of file purpose. Also cl65 recognizes these files.
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Parser is very weak at the moment so read the comments carefully and write
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resources exactly as it is written here. Look out for CAPS and small letters.
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Everything after a ';' till the end of line is considered as comment and
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ignored.
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See included commented example .grc file for better view of the problem.
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a) menu definition
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MENU menuName leftx,topy ORIENTATION
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{
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"item name 1" MENU_TYPE pointer
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...
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"item name x" MENU_TYPE pointer
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}
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The definition starts with keyword MENU, then goes menu name, which will be
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represented in C as const void. Then are coordinates of top left corner
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of menu box. The position of bottom right corner is estimated basing on length
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of item names and menu orientation. It means that menu box will be always
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as large as it should be. Then there's orientation keyword, it can be either
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HORIZONTAL or VERTICAL.
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Between { and } there's menu content. It consists of item definitions.
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First is item name - it has to be in quotes. Next is menu type bit. It can
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be MENU_ACTION or SUB_MENU, both can be combined with DYN_SUB_MENU bit
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(see GEOSLib documentation for description of these). You can use C logical
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operators in expressions but you have to do it without spaces, so dynamically
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created submenu will be something like:
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"dynamic" SUB_MENU|DYN_SUB_MENU create_dynamic
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The last part of the item definition is a pointer which can be any name which
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is present in source that includes generated header. It can point to a function
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or to another menu definition.
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If you are doing sub(sub)menus definitions remember to place the lowest level
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definition first and top lever menu as the last one. This way C compiler won't
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complain about unknown names.
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b) header definition
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HEADER GEOS_TYPE "dosname" "classname" "version"
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{
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author "Joe Schmoe"
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info "This is my killer-app!"
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date yy mm dd hh ss
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dostype SEQ
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mode any
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structure SEQ
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}
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Header definition describes GEOS header sector which is unique to each file.
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Currently there's no way to change default grc icon (an empty frame). It will
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be possible in next versions.
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The definition starts with keyword HEADER, then goes GEOS file type. You can
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only use APPLICATION here at the moment. Then there are (all in quotes) DOS
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filename (up to 16 characters), GEOS Class name (up to 12 characters) and
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version info (up to 4 characters). Version should be written as "Vx.y" where
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x is the major and y the minor version number. These fields along with both
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brackets are required. Data between brackets is optional and will be replaced
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by default and current values.
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Keyword 'author' and value in quotes describes Author field and can be up to
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63 bytes long.
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Info (in the same format) can have up to 95 characters.
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If 'date' field will be ommited then the time of compilation will be placed.
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Note that if you do specify the date you have to write all 5 numbers.
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Dostype can by SEQ, PRG or USR. USR is by default, GEOS doesn't care.
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Mode can be 'any', '40only', '80only', 'c64only' and describes system
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requirements. 'any' will work both on GEOS64 and GEOS128 in 40 and 80 column
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modes. '40only' will work on GEOS128 in 40 column mode only. '80only' will
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work only on GEOS128 and 'c64only' will work only on GEOS64.
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The default value for 'structure' is SEQ (sequential). You can also put 'VLIR'
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there but then you have also to place third type of resources - VLIR table
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description.
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c) VLIR table description
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VLIR headname address {
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vlir0
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blank
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vlir2
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blank
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vlir4
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}
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The first element is keyword 'VLIR', then goes the name for header binary name
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(read below) and base address for all VLIR chains diffrent than 0. It can be
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either decimal (e.g. '4096') or hexadecimal with '0x' prefix (e.g. '0x1000').
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Then between brackets are names of vlir chain binaries or keyword 'blank' which
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denotes empty chains. In this example chains #1 and #3 are missing.
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The names between brackets are names of binaries containing code for each VLIR
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part. They matter only for generated ld65 configuration file and will be the
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names of resulting binary files after linking. Each one will contain one VLIR
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chain and they will have to be put together into VLIR .cvt by grc in VLIR linker
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modey in correct order.
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The 'headname' will be the name for binary which will contain only GEOS .cvt
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header made out of compiling .s header file generated also by grc.
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At the end of resulting ld65 config file (.cfg) in comments there will be
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information what commands are required for putting the stuff together. Read
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info below and see example somewhere around.
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4. Building GEOS application (SEQUENTIAL)
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----------------------------
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Before proceeding please read cc65, ca65 and ld65 documentation and find
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appropriate sections about compiling programs in general.
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GEOS support in cc65 is based on well-known in GEOS world Convert v2.5 format.
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It means that each file built with cc65 package has to unconverted before
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running.
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Each project consists of four parts, two are provided by cc65. These parts are:
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a) application header
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b) main object
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c) application objects
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d) system library
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b) and d) are with cc65, you have to write application yourself ;)
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Application header is defined in HEADER section of .grc file and processed
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into assembler .s file. You have to compile it with ca65 to object .o format.
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4a. Building GEOS application without cl65
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-----------------------------------------
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Assume that there are three input files: test.c (a C source), test.h (a header
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file) and resource.grc (with menu and header definition). Note the fact that I
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DON'T RECOMMEND naming this file test.grc, because you will have to be very
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careful with names (grc will make test.s and test.h out of test.grc by default
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and you don't want that, because test.s is compiled test.c and test.h is
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something completely different).
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Important thing - the top of test.c looks like:
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--- cut here ---
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#include <geos.h>
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#include "resource.h"
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--- cut here ---
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There are no other includes.
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1. First step - compiling resources:
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$ grc resource.grc
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will produce two output files: resource.h and resource.s
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Note that resource.h is included at the top of test.c so resource compiling
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must be the first step.
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2. Second step - compiling the code:
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$ cc65 -t geos -O test.c
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$ ca65 -t geos test.s
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This way you have test.o object file which contains all the executable code.
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3. Third step - compiling the application header
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$ ca65 -t geos resource.s
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And voil<69> - resource.o is ready
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4. Fourth and the last step - linking it together
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$ ld65 -t geos -o test.cvt resource.o geos.o test.o geos.lib
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resource.o comes first because it contains the header. Next one is geos.o, a
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required starter code, then actual application code in test.o and the last is
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GEOS system library.
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The resulting file test.cvt is executable in well-known GEOS Convert format.
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Note that it's name (test) isn't important, the real name after unconverting
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is the DOS name given in header definition.
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On each step a '-t geos' was present at the command line. This switch is required
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for correct process of app building.
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5. Building GEOS application (VLIR)
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-----------------------------------
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Currently you can only build VLIR application if your code is written in
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assembler. No .c allowed.
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In your sources only command '.segment "NAME"' will decide which code/data goes
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where. Filenames doesn't matter.
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Segments CODE, RODATA, DATA and BSS go into VLIR part #0. Segment VLIR1 go to
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VLIR part #1, VLIR2 - VLIR part #2 and so on.
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GEOS resource file contents are similar to seq example but there is also 'VLIR'
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section and 'structure VLIR' tag. Here is that part:
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VLIR vlir-head.bin 0x3000 {
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vlir-0.bin ; CODE, RODATA, DATA, BSS
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vlir-1.bin ; VLIR1
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vlir-2.bin ; VLIR2
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}
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Source files are only .s.
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Ok. We have 'cvthead.grc' so let's allow grc to compile it:
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$ grc cvthead.grc
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Now there are two new files: cvthead.cfg and cvthead.s - the first one is a
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config file for ld65 and the second one contains GEOS .cvt header. It can be
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assembled now:
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$ ca65 cvthead.s
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Now we have cvthead.o. The rest of assembly sources can be also assembled now:
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$ ca65 vlir0.s
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$ ca65 vlir1.s
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$ ca65 vlir2.s
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Note that filenames here although similar to those from VLIR section of .grc file
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are not significant. The only thing that matters is which code will go to which
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segment.
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Now we can generate binaries. This time order of arguments in command line is
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not important.
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$ ld65 -C cvthead.cfg cvthead.o vlir0.o vlir1.o vlir2.o
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As defined in .grc file, we have now binary parts of VLIR file:
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vlir-head.bin, vlir-0.bin, vilr-1.bin, vlir-2.bin
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The last step is to put them together in the right order, order of arguments
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is important this time. As suggested in comments at the end of cvthead.cfg
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we do:
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$ grc -vlir output.cvt vlir-head.bin vlir-0.bin vlir-1.bin vlir-2.bin
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This is the end. The file 'output.cvt' can be unconverted under GEOS.
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Note that the switch '-t geos' wasn't present at any stage of this process.
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6. Bugs and feedback
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--------------------
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This is the first release of grc and it contains bugs for sure. I am aware of
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them, I know that parser is weak and if you don't strictly follow grammar
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rules then everything will crash. However if you find an interesting bug mail
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me :-) Mail me also for help writting your .grc correctly if you have problems
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with it.
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I would also appreciate comments and help on this file because I am sure that
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it can be written better.
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7. Legal stuff
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--------------
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grc is covered by the same license as whole cc65 package, so see its
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documentation for more info. Anyway, if you like it and want to ecourage me
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to work more on it send me a postcard with sight of your neighbourhood, city,
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region etc or just e-mail with info that you actually used it. See GEOSLib
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documentation for addresses.
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Appendix A: example.grc
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---- cut here ----
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;Note that MENU is either MENU and SUBMENU
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;If you want to use any C operators (like '|', '&' etc.) do it WITHOUT spaces
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;between arguments (parser is simple and weak)
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MENU subMenu1 15,0 VERTICAL
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; this is a vertical menu placed at (15,0)
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{
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; there are three items, all are calling functions
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; first and third are normal functions, see GEOSLib documentation for
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; information what should second function return (it's a dynamic one)
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"subitem1" MENU_ACTION smenu1
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"mubitem2" MENU_ACTION|DYN_SUB_MENU smenu2
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"subitem3" MENU_ACTION smenu3
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}
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; format: MENU "name" left,top ALIGN { "itemname" TYPE pointer ... }
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MENU mainMenu 0,0 HORIZONTAL
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; here we have our main menu placed at (0,0) and it is a horizontal menu
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; since it is a top level menu you would register it in C source using
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; DoMenu(&mainMenu);
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{
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; there are two items - a submenu and an action menu
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; this calls submenu named subMenu1 (see previous definition)
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"sub menu1" SUB_MENU subMenu1
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; this will work the same as EnterDeskTop() call from C source
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"quit" MENU_ACTION EnterDeskTop
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}
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; format: HEADER GEOS_TYPE "dosname" "classname" "version"
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HEADER APPLICATION "MyFirstApp" "Class Name" "V1.0"
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; this is a header for APPLICATION which wille be seen in directory as
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; file named MyFirstApp with Class "Class Name V1.0"
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{
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; not all fields are required, default and current values will be used
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author "Maciej Witkowiak" ; always in quotes!
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info "Information text" ; always in quotes!
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; date yy mm dd hh ss ; always 5 fields!
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; dostype seq ; can be PRG, SEQ, USR (only UPPER or lower case)
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; structure seq ; can be SEQ, VLIR (only UPPER or lower case)
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mode c64only ; can be any, 40only, 80only, c64only
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}
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--- cut here ---
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