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393 lines
17 KiB
Plaintext
393 lines
17 KiB
Plaintext
<!doctype linuxdoc system>
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<article>
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<!-- Title information -->
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<title>grc65 -- GEOS Resource Compiler
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<author><url name="Maciej 'YTM/Elysium' Witkowiak" url="mailto:ytm@elysium.pl">
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<and><url name="Greg King" url="mailto:gngking@erols.com">
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<date>VII 2000; VI,VII 2002; 2005-8-3
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<abstract>
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This document describes a compiler that can create GEOS headers and menues for
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cc65-compiled programs.
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</abstract>
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<!-- Table of contents -->
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<toc>
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<!-- Begin the document -->
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<sect>Overview
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<p><bf/grc65/ is a part of cc65's GEOS support. The tool is necessary to
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generate required and optional resources. A required resource for every GEOS
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application is the header, that is: an icon, some strings, and some addresses.
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Optional resources might be menu definitions, other headers (e.g., for data
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files of an app.), dialog definitions, etc. Without an application's header,
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GEOS is unable to load and start it.
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Currently, <bf/grc65/ supports only menues and the required header definition,
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along with support for building applications with VLIR-structured overlays.
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<bf/grc65/ generates output in two formats: C header and <bf/ca65/ source (.s).
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That is because the application header data must be in assembly format, while
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the menu definitions can be translated easily into C. The purpose of the C
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file is to include it as a header in only one project file. The assembly source
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should be processed by <bf/ca65/ and linked to the application (read about
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<ref name="the building process" id="building-seq">).
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<sect>Usage
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<p>grc65 accepts the following options:
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<tscreen><verb>
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---------------------------------------------------------------------------
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Usage: grc65 [options] file
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Short options:
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-V Print the version number
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-h Help (this text)
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-o name Name the C output file
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-s name Name the asm output file
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-t sys Set the target system
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Long options:
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--help Help (this text)
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--target sys Set the target system
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--version Print the version number
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---------------------------------------------------------------------------
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</verb></tscreen>
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Default output names are made from input names with extensions replaced by
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<tt/.h/ and <tt/.s/.
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<sect>Resource file format
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<p>A resource file has the name extension <tt/.grc/. That is not required, but
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it will make for an easier recognition of the file's purpose. Also, <bf/cl65/
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recognizes those files. <bf/grc65/'s parser is very weak at the moment; so,
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read the comments carefully, and write resources exactly as they are written
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here. Look out for CAPS and small letters. Everything after a '<tt/;/'
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until the end of the line is considered as a comment and ignored. See the
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included <ref name="commented example .grc file" id="example-grc"> for a
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better view of the situation.
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<sect1>Menu definition
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<p><tscreen><verb>
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MENU menuName leftx,topy <ORIENTATION> {
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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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}</verb></tscreen>
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The definition starts with the keyword <tt/MENU/, then comes the menu's name,
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which will be represented in C as <tt/const void/. Then are the co-ordinates
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of the top left corner of the menu box. The position of the bottom right
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corner is estimated, based on the length of item names and the menu's
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orientation. It means that the menu box always will be as large as it should
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be. Then, there's the orientation keyword; it can be either <tt/HORIZONTAL/ or
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<tt/VERTICAL/. Between <tt/{/ and <tt/}/, there's the menu's
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content. It consists of item definitions. First is an item name -- it has to
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be in quotes. Next is a menu-type bit. It can be <tt/MENU_ACTION/ or
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<tt/SUB_MENU/; either of them can be combined with the <tt/DYN_SUB_MENU/ bit
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(see <url name="the GEOSLib documentation" url="geos.html"> for descriptions of
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them). You can use C logical operators in expressions, but you have to do it
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without spaces. So a dynamically created submenu will be something like:
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<tscreen><verb>
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"dynamic" SUB_MENU|DYN_SUB_MENU create_dynamic</verb></tscreen>
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The last part of the item definition is a pointer which can be any name that is
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present in the C source code that includes the generated header. It can point
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to a function or to another menu definition.
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If you are doing sub(sub)menu definitions, remember to place the lowest level
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definition first, and the top-level menu as the last one. That way the C
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compiler won't complain about unknown names.
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<sect1>Header definition
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<p><tscreen><verb>
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HEADER <GEOS_TYPE> "dosname" "classname" "version" {
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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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icon "sprite.raw"
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}</verb></tscreen>
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The header definition describes the GEOS header sector which is unique to
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each file. The definition starts with the keyword <tt/HEADER/, then goes the
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GEOS file-type. You can use only <tt/APPLICATION/ here at the moment. Then,
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there are (each one in quotes) the DOS file-name (up to 16 characters), the GEOS
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Class name (up to 12 characters), and the version info (up to 4 characters).
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The version should be written as &dquot;<tt/V/x.y&dquot;, where <em/x/ is the
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major, and <em/y/ is the minor, version number. Those fields, along with both
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braces, are required. The lines between braces are optional, and will be replaced
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by default and current values. The keyword <tt/author/ and its value in quotes name
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the programmer, and can be up to 63 bytes long. <tt/info/ (in the same format) can
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have up to 95 characters. If the <tt/date/ field is omitted, then the time of
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that compilation will be placed into the header. Note that, if you do specify
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the date, you have to write all 5 numbers. The <tt/dostype/ can be <tt/SEQ/,
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<tt/PRG/, or <tt/USR/. <tt/USR/ is used by default; GEOS usually doesn't care.
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The <tt/mode/ can be <tt/any/, <tt/40only/, <tt/80only/, or <tt/c64only/; and,
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it describes system requirements. <tt/any/ will work on both 64-GEOS and
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128-GEOS, in 40- and 80-column modes. <tt/40only/ will work on 128-GEOS in
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40-column mode only. <tt/80only/ will work on only 128-GEOS in 80-column mode,
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and <tt/c64only/ will work on only 64-GEOS. The default value for
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<tt/structure/ is <tt/SEQ/ (sequential). You can put <tt/VLIR/ there, too; but
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then, you also have to put in a third type of resource -- a memory definition.
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The value of <tt/icon/ is a quoted file-name. The first 63 bytes of this file
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are expected to represent a standard monochrome VIC sprite. The file gets accessed
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when the generated assembly source is being processed by <bf/ca65/. Examples for
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programs generating such files are <em/Sprite Painter/ and <em/SpritePad/. The
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default <tt/icon/ is an empty frame internally represented in the generated assembly
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file.
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<sect1>Memory definition
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<p><tscreen><verb>
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MEMORY {
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stacksize 0x0800
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overlaysize 0x2000
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overlaynums 0 1 2 4 5
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}</verb></tscreen>
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The memory definition is unique to each file and describes several attributes related
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to the memory layout. It consists of the keyword <tt/MEMORY/ followed by braces which
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contain optional lines. The value of <tt/stacksize/ can be either decimal (e.g.
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<tt/4096/) or hexadecimal with a <tt/0x/ prefix (e.g. <tt/0x1000/). The default value
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of 0x400 comes from the linker configuration file. The value of <tt/backbuffer/ can be
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either <tt/yes/ or <tt/no/. The further means that the application uses the system-supplied
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background screen buffer while the latter means that the program uses the memory of the
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background screen buffer for own purposes. The default value of <tt/yes/ comes from the
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linker configuration file. If the <tt/structure/ in the header definition is set to the
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value <tt/VLIR/ then it is possible and necessary to provide here the attributes of the
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VLIR overlays. <tt/overlaysize/ defines the maximal size for all VLIR records but number
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0. It can be either decimal (e.g. <tt/4096/) or hexadecimal with a <tt/0x/ prefix (e.g.
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<tt/0x1000/). <tt/overlaynums/ defines the VLIR record numbers used by the application.
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Skipped numbers denote empty records. In the example, record number 3 is missing. Read
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<ref name="this description" id="building-vlir"> for details.
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<sect>Building a GEOS sequential application<label id="building-seq">
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<p>Before proceeding, please read the <url name="compiler" url="cc65.html">,
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<url name="assembler" url="ca65.html">, and <url name="linker" url="ld65.html">
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documentation, and find the appropriate sections about building programs, in
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general.
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GEOS support in cc65 is based on the <em/Convert v2.5/ format, well-known in
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the GEOS world. It means that each file built with the cc65 package has to be
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deconverted in GEOS, before it can be run. You can read a step-by-step
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description of that in the <url name="GEOS section of the cc65 Compiler Intro"
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url="intro-6.html#ss6.5">.
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Each project consists of four parts, two are provided by cc65. Those parts
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are:<enum>
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<item>application header
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<item>start-up object
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<item>application objects
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<item>system library
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</enum>
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<bf/2./ and <bf/4./ come with cc65; however you have to write the application
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yourself ;-)
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The application header is defined in the <tt/HEADER/ section of the <tt/.grc/
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file and is processed into an assembly <tt/.s/ file. You must assemble it, with
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<bf/ca65/, into the object <tt/.o/ format.
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Assume that there are three input files: &dquot;<tt/test.c/&dquot; (a C
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source), &dquot;<tt/test.h/&dquot; (a header file), and
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&dquot;<tt/testres.grc/&dquot; (with menu and header definitions). Note the
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fact that I <em/don't recommend/ naming that file &dquot;<tt/test.grc/&dquot;
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because you will have to be very careful with names (<bf/grc65/ will make
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&dquot;<tt/test.s/&dquot; and &dquot;<tt/test.h/&dquot; out of
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&dquot;<tt/test.grc/&dquot; by default; and you don't want that because
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&dquot;<tt/test.s/&dquot; is compiled from &dquot;<tt/test.c/&dquot;, and
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&dquot;<tt/test.h/&dquot; is something completely different)!
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<bf/One important thing/ -- the top of &dquot;<tt/test.c/&dquot; looks like:
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<tscreen><verb>
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#include <geos.h>
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#include "testres.h"
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</verb></tscreen>
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There are no other includes.
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<sect1>Building the GEOS application using cl65
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<p>This is a simple one step process:
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<tscreen><verb>
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cl65 -t geos-cbm -O -o test.cvt testres.grc test.c
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</verb></tscreen>
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Always place the <tt/.grc/ file as first input file on the command-line in order
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to make sure that the generated <tt/.h/ file is available when it is needed for
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inclusion by a <tt/.c/ file.
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<sect1>Building the GEOS application without cl65
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<sect2>First step -- compiling the resources
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<p>
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<tscreen><verb>
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grc65 -t geos-cbm testres.grc
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</verb></tscreen>
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will produce two output files: &dquot;<tt/testres.h/&dquot; and
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&dquot;<tt/testres.s/&dquot;.
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Note that &dquot;<tt/testres.h/&dquot; is included at the top of
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&dquot;<tt/test.c/&dquot;. So, resource compiling <em/must be/ the first step.
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<sect2>Second step -- assembling the application header
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<p>
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<tscreen><verb>
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ca65 -t geos-cbm testres.s
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</verb></tscreen>
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And, voilá -- &dquot;<tt/testres.o/&dquot; is ready.
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<sect2>Third step -- compiling the code
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<p>
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<tscreen><verb>
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cc65 -t geos-cbm -O test.c
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ca65 -t geos-cbm test.s
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</verb></tscreen>
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That way, you have a &dquot;<tt/test.o/&dquot; object file which
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contains all of the executable code.
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<sect2>Fourth and last step -- linking the application
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<p>
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<tscreen><verb>
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ld65 -t geos-cbm -o test.cvt testres.o test.o geos-cbm.lib
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</verb></tscreen>
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The last file is the GEOS system library.
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The resulting file &dquot;<tt/test.cvt/&dquot; is an executable that's
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contained in the well-known GEOS <em/Convert/ format. Note that its name
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(<tt/test.cvt/) isn't important; the real name, after deconverting, is the DOS name
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that was given in the header definition.
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At each step, a <tt/-t geos-cbm/ was present on the command-line. That switch is
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required for the correct process of GEOS sequential application building.
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<sect>Building a GEOS VLIR overlay application<label id="building-vlir">
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<p>Large GEOS applications typically don't fit in one piece in their designated
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memory area. They are therefore split into overlays which are loaded into memory
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on demand. The individual overlays are stored as records of a VLIR (Variable
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Length Index Record) file. When GEOS starts a VLIR overlay appliation it loads
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record number 0 which is supposed to contain the main program. The record numbers
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starting with 1 are to be used for the actual overlays.
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In "<tt>cc65/samples/geos</tt>" there's a VLIR overlay demo application consisting
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of the files "<tt/overlay-demo.c/" and "<tt/overlay-demores.grc/".
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<sect1>Building the GEOS overlay application using cl65
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<p>This is a simple one step process:
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<tscreen><verb>
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cl65 -t geos-cbm -O -o overlay-demo.cvt -m overlay-demo.map overlay-demores.grc overlay-demo.c
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</verb></tscreen>
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Always place the <tt/.grc/ file as first input file on the command-line in order
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to make sure that the generated <tt/.h/ file is available when it is needed for
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inclusion by a <tt/.c/ file.
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You will almost certainly want to generate a map file that shows (beside a lot of
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other infos) how large your individual overlays are. This info is necessary to tune
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the distribution of code into the overlays and to optimize the memory area reserved
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for the overlays.
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<sect1>Building the GEOS overlay application without cl65
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<sect2>First step -- compiling the overlay resources
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<p>
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<tscreen><verb>
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grc65 -t geos-cbm overlay-demores.grc
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</verb></tscreen>
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<sect2>Second step -- assembling the overlay application header
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<p>
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<tscreen><verb>
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ca65 -t geos-cbm overlay-demores.s
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</verb></tscreen>
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<sect2>Third step -- compiling the overlay code
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<p>
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<tscreen><verb>
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cc65 -t geos-cbm -O overlay-demo.c
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ca65 -t geos-cbm overlay-demo.s
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</verb></tscreen>
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<sect2>Fourth and last step -- linking the overlay application
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<p>
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<tscreen><verb>
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ld65 -t geos-cbm -o overlay-demo.cvt -m overlay-demo.map overlay-demores.o overlay-demo.o geos-cbm.lib
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</verb></tscreen>
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<sect>Bugs and feedback
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<p>This is the first release of <bf/grc65/, and it contains bugs, for sure! I
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am aware of them; I know that the parser is weak, and if you don't follow the
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grammar rules strictly, then everything will crash. However, if you find an
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interesting bug, mail me. :-) Mail me also for help with writing your
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<tt/.grc/ file correctly if you have problems with it. I would appreciate
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comments also, and help on this file because I am sure that it can be written
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better.
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<sect>Legal stuff
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<p><bf/grc65/ is covered by the same license as the whole cc65 package, so you
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should see its documentation for more info. Anyway, if you like it, and want
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to encourage me to work more on it, send me a postcard with a sight of your
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neighbourhood, city, region, etc. Or, just e-mail me with info that you
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actually used it. See <url name="the GEOSLib documentation" url="geos.html">
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for addresses.
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<appendix>
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<sect>Appendix A -- example.grc<label id="example-grc">
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<p><tscreen><verb>
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; Note that MENU can define both menues and submenues.
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; If you want to use any C operators (such as "|", "&", etc.), do it WITHOUT
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; any spaces between the arguments (the 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 of them will call functions.
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; The first and third ones are normal functions, see GEOSLib documentation for
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; information about what the second function should return (it's a dynamic one).
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"subitem1" MENU_ACTION smenu1
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"subitem2" 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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; Because it is a top-level menu, you would register it in your C source by
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; using: DoMenu(&ero;mainMenu);
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{
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; There are two items -- a submenu and an action.
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; This calls a submenu named subMenu1 (see previous definition).
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"first sub-menu" SUB_MENU subMenu1
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; This will work the same as an EnterDeskTop() call in C source code.
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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 an APPLICATION which will be seen in the directory as a
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; file named MyFirstApp with the Class-string "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 all 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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}</verb></tscreen>
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</article>
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