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cc65/doc/apple2enh.sgml
Oliver Schmidt e47485f925 Added CONIO cursor support.
For quite some time I deliberately didn't add cursor support to the Apple II CONIO imöplementation. I consider it inappropriate to increase the size of cgetc() unduly for a rather seldom used feature.

There's no hardware cursor on the Apple II so displaying a cursor during keyboard input means reading the character stored at the cursor location, writing the cursor character, reading the keyboard and finally writing back the character read initially.

The naive approach is to reuse the part of cputc() that determines the memory location of the character at the cursor position in order to read the character stored there. However that means to add at least one additional JSR / RTS pair to cputc() adding 4 bytes and 12 cycles :-( Apart from that this approach means still a "too" large cgetc().

The approach implemented instead is to include all functionality required by cgetc() into cputc() - which is to read the current character before writing a new one. This may seem surprising at first glance but an LDA(),Y / TAX sequence adds only 3 bytes and 7 cycles so it cheaper than the JSR / RTS pair and allows to brings down the code increase in cgetc() down to a reasonable value.

However so far the internal cputc() code in question saved the X register. Now it uses the X register to return the old character present before writing the new character for cgetc(). This requires some rather small adjustments in other functions using that internal cputc() code.
2016-06-19 15:03:20 +02:00

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<!doctype linuxdoc system>
<article>
<title>Enhanced&nbsp;Apple&nbsp;//e specific information for cc65
<author><url url="mailto:ol.sc@web.de" name="Oliver Schmidt">
<date>2014-04-10
<abstract>
An overview over the enhanced&nbsp;Apple&nbsp;//e runtime system as it is
implemented for the cc65 C compiler.
</abstract>
<!-- Table of contents -->
<toc>
<!-- Begin the document -->
<sect>Overview<p>
This file contains an overview of the enhanced&nbsp;Apple&nbsp;//e runtime system
as it comes with the cc65 C compiler. It describes the memory layout,
enhanced&nbsp;Apple&nbsp;//e specific header files, available drivers, and any
pitfalls specific to that platform.
Please note that enhanced&nbsp;Apple&nbsp;//e specific functions are just mentioned
here, they are described in detail in the separate <url url="funcref.html"
name="function reference">. Even functions marked as "platform dependent" may
be available on more than one platform. Please see the function reference for
more information.
<sect>Binary format<p>
The standard binary file format generated by the linker for the
enhanced&nbsp;Apple&nbsp;//e target is a binary program with a 4 byte DOS 3.3 header
containing the load address and load length. The default load address is
&dollar;803.
<bf/AppleCommander 1.3.5/ or later (available at <url
url="http://applecommander.sourceforge.net/">) includes the option <tt/-cc65/
that allows to put binary files with a DOS 3.3 header onto disk images
containing DOS 3.3 as well as ProDOS 8.
For ProDOS 8 system programs the load address is fixed to &dollar;2000 so there
is no need for a header. Thus the linker configuration
<ref id="apple-sys-cfg" name="apple2enh-system.cfg"> for those programs
omits the DOS 3.3 header. The right AppleCommander option to put system files
without a header on a ProDOS 8 disk image is <tt/-p/.
<sect>Memory layout<p>
In the standard setup, cc65 generated programs use the memory from
&dollar;803 to &dollar;95FF, so 35.5 KB of RAM are available.
Special locations:
<descrip>
<tag/Stack/
The C runtime stack is located at HIMEM and grows downwards, regardless of
how your linker config file is setup.
<tag/Heap/
The C heap is located at the end of the program and grows towards the C
runtime stack.
</descrip><p>
While running <tt/main()/ the Language Card bank 2 is enabled for read access.
However while running module constructors/destructors the Language Card is disabled.
Enabling the Language Card allows to use it as additional memory for cc65
generated code. However code is never automatically placed there. Rather code
needs to be explicitly placed in the Language Card either per file by compiling
with <tt/--code-name LC/ or per function by enclosing in <tt/#pragma code-name
(push, "LC")/ and <tt/#pragma code-name (pop)/. In either case the cc65 runtime
system takes care of actually moving the code into the Language Card.
The amount of memory available in the Language Card for generated code depends
on the <ref id="link-configs" name="linker configuration"> parameters. There are
several usefull settings:
<descrip>
<tag>LC address: &dollar;D400, LC size: &dollar;C00</tag>
For plain vanilla ProDOS 8 which doesn't actually use the Language Card bank 2
memory from &dollar;D400 to &dollar;DFFF. This is the default setting.
<tag>LC address: &dollar;D000, LC size: &dollar;1000</tag>
For ProDOS 8 together with the function <tt/rebootafterexit()/. If a program
doesn't quit to the ProDOS 8 dispatcher but rather reboots the machine after
exit then a plain vanilla ProDOS 8 doesn't make use of the Language Card bank
2 at all.
<tag>LC address: &dollar;D000, LC size: &dollar;3000</tag>
For plain vanilla DOS 3.3 which doesn't make use of the Language Card at all.
</descrip><p>
<sect>Linker configurations<label id="link-configs"><p>
The ld65 linker comes with a default config file for the enhanced&nbsp;Apple&nbsp;//e,
which is used via <tt/-t apple2enh/.
The apple2enh package comes with additional secondary linker config files, which
are used via <tt/-t apple2enh -C &lt;configfile&gt;/.
<sect1>default config file (<tt/apple2enh.cfg/)<label id="apple-def-cfg"><p>
Default configuration for a binary program.
Parameters:
<descrip>
<tag><tt/STARTADDRESS:/ Program start address</tag>
Default: &dollar;803. Use <tt/-S &lt;addr&gt;/ to set a different start address.
<tag><tt/__EXEHDR__:/ Executable file header</tag>
Default: DOS 3.3 header (address and length). Use <tt/-D __EXEHDR__=0/ to omit
the header.
<tag><tt/__STACKSIZE__:/ C runtime stack size</tag>
Default: &dollar;800. Use <tt/-D __STACKSIZE__=&lt;size&gt;/ to set a different
stack size.
<tag><tt/__HIMEM__:/ Highest usable memory address presumed at link time</tag>
Default: &dollar;9600. Use <tt/-D __HIMEM__=&lt;addr&gt;/ to set a different
highest usable address.
<tag><tt/__LCADDR__:/ Address of code in the Language Card</tag>
Default: &dollar;D400. Use <tt/-D __LCADDR__=&lt;addr&gt;/ to set a different
code address.
<tag><tt/__LCSIZE__:/ Size of code in the Language Card</tag>
Default: &dollar;C00. Use <tt/-D __LCSIZE__=&lt;size&gt;/ to set a different
code size.
</descrip><p>
<sect1><tt/apple2enh-system.cfg/<label id="apple-sys-cfg"><p>
Configuration for a system program running on ProDOS 8 and using the memory from
&dollar;2000 to &dollar;BEFF.
Parameters:
<descrip>
<tag><tt/__STACKSIZE__:/ C runtime stack size</tag>
Default: &dollar;800. Use <tt/-D __STACKSIZE__=&lt;size&gt;/ to set a different
stack size.
<tag><tt/__LCADDR__:/ Address of code in the Language Card</tag>
Default: &dollar;D400. Use <tt/-D __LCADDR__=&lt;addr&gt;/ to set a different
code address.
<tag><tt/__LCSIZE__:/ Size of code in the Language Card</tag>
Default: &dollar;C00. Use <tt/-D __LCSIZE__=&lt;size&gt;/ to set a different
code size.
</descrip><p>
<sect1><tt/apple2enh-overlay.cfg/<p>
Configuration for overlay programs with the up to nine overlays. The overlay files
don't include the DOS 3.3 header. See <tt>samples/overlaydemo.c</tt> for more
information on overlays.
Parameters:
<descrip>
<tag><tt/STARTADDRESS:/ Program start address</tag>
Default: &dollar;803. Use <tt/-S &lt;addr&gt;/ to set a different start address.
<tag><tt/__EXEHDR__:/ Executable file header</tag>
Default: DOS 3.3 header (address and length). Use <tt/-D __EXEHDR__=0/ to omit
the header.
<tag><tt/__STACKSIZE__:/ C runtime stack size</tag>
Default: &dollar;800. Use <tt/-D __STACKSIZE__=&lt;size&gt;/ to set a different
stack size.
<tag><tt/__HIMEM__:/ Highest usable memory address presumed at link time</tag>
Default: &dollar;9600. Use <tt/-D __HIMEM__=&lt;addr&gt;/ to set a different
highest usable address.
<tag><tt/__LCADDR__:/ Address of code in the Language Card</tag>
Default: &dollar;D400. Use <tt/-D __LCADDR__=&lt;addr&gt;/ to set a different
code address.
<tag><tt/__LCSIZE__:/ Size of code in the Language Card</tag>
Default: &dollar;C00. Use <tt/-D __LCSIZE__=&lt;size&gt;/ to set a different
code size.
<tag><tt/__OVERLAYSIZE__:/ Size of code in the overlays</tag>
Default: &dollar;1000. Use <tt/-D __OVERLAYSIZE__=&lt;size&gt;/ to set a different
code size.
</descrip><p>
<sect1><tt/apple2enh-asm.cfg/<p>
Configuration for a assembler programs which don't need a special setup.
Parameters:
<descrip>
<tag><tt/STARTADDRESS:/ Program start address</tag>
Default: &dollar;803. Use <tt/-S &lt;addr&gt;/ to set a different start address.
<tag><tt/__EXEHDR__:/ Executable file header</tag>
Default: No header. Use <tt/-u __EXEHDR__ apple2enh.lib/ to add a DOS 3.3 header
(address and length).
</descrip><p>
<sect>ProDOS 8 system programs<p>
ProDOS 8 system programs are always loaded to the start address &dollar;2000.
For cc65 programs this means that the 6 KB from &dollar;800 to &dollar;2000 are
by default unused. There are however several options to make use of that memory
range.
<sect1>LOADER.SYSTEM<p>
The easiest (and for really large programs in fact the only) way to have a cc65
program use the memory from &dollar;800 to &dollar;2000 is to link it as binary
(as opposed to system) program using the default linker configuration
<ref id="apple-def-cfg" name="apple2enh.cfg"> with <tt/__HIMEM__/set to &dollar;BF00
and load it with the LOADER.SYSTEM utility. The program then works like a system
program (i.e. quits to the ProDOS dispatcher).
Using LOADER.SYSTEM is as simple as copying it to the ProDOS 8 directory of the
program to load under name &lt;program&gt;.SYSTEM as a system program. For
example the program <tt/MYPROG/ is loaded by <tt/MYPROG.SYSTEM/.
<sect1>Heap<p>
If the cc65 program can be successfully linked as system program using the linker
configuration <ref id="apple-sys-cfg" name="apple2enh-system.cfg">, but
uses the heap either explicitly or implicitly (i.e. by loading a driver) then
the memory from &dollar;800 to &dollar;2000 can be added to the heap by calling
<tt/_heapadd ((void *) 0x0800, 0x1800);/ at the beginning of <tt/main()/.
<sect1>ProDOS 8 I/O buffers<p>
ProDOS 8 requires for every open file a page-aligned 1 KB I/O buffer. By default
these buffers are allocated by the cc65 runtime system on the heap using
<tt/posix_memalign()/. While this is generally the best solution it means quite
some overhead for (especially rather small) cc65 programs which do open files
but don't make use of the heap otherwise.
The apple2enh package comes with the alternative ProDOS 8 I/O buffer allocation
module <tt/apple2enh-iobuf-0800.o/ which uses the memory between &dollar;800 and
the program start address for the 1 KB I/O buffers. For system programs (with
start address &dollar;2000) this results in up to 6 I/O buffers and thus up to 6
concurrently open files.
While using <tt/_heapadd()/ as described in the section above together with the
default I/O buffer allocation basically yields the same placement of I/O buffers
in memory the primary benefit of <tt/apple2enh-iobuf-0800.o/ is a reduction in code
size - and thus program file size - of more than 1400 bytes.
Using <tt/apple2enh-iobuf-0800.o/ is as simple as placing it on the linker command
line like this:
<tscreen><verb>
cl65 -t apple2enh -C apple2enh-system.cfg myprog.c apple2enh-iobuf-0800.o
</verb></tscreen>
<sect>Platform specific header files<p>
Programs containing enhanced&nbsp;Apple&nbsp;//e specific code may use the
<tt/apple2enh.h/ header file.
<sect1>Enhanced&nbsp;Apple&nbsp;//e specific functions<p>
The functions listed below are special for the enhanced&nbsp;Apple&nbsp;//e. See
the <url url="funcref.html" name="function reference"> for declaration and
usage.
<itemize>
<item>_auxtype
<item>_dos_type
<item>_filetype
<item>get_ostype
<item>rebootafterexit
<item>ser_apple2_slot
<item>textframe
<item>textframexy
<item>tgi_apple2_mix
<item>videomode
</itemize>
<sect1>Hardware access<p>
There's currently no support for direct hardware access. This does not mean
you cannot do it, it just means that there's no help.
<sect>Loadable drivers<p>
The names in the parentheses denote the symbols to be used for static linking of the drivers.
<sect1>Graphics drivers<p>
<descrip>
<tag><tt/a2e.lo.tgi (a2e_lo_tgi)/</tag>
This driver features a resolution of 40&times;48 with 16 colors.
The function <tt/tgi_apple2_mix()/ allows to activate 4 lines of text. The
function clears the corresponding area at the bottom of the screen.
<tag><tt/a2e.hi.tgi (a2e_hi_tgi)/</tag>
This driver features a resolution of 280&times;192 with 8 colors and two
hires pages. Note that programs using this driver will have to be linked
with <tt/-S $4000/ to reserve the first hires page or with <tt/-S $6000/
to reserve both hires pages.
Note that the second hires page is only available if the text display is not in
80 column mode. This can be asserted by calling <tt/videomode (VIDEOMODE_40COL);/
before installing the driver.
The function <tt/tgi_apple2_mix()/ allows to activate 4 lines of text. The
function doesn't clear the corresponding area at the bottom of the screen.
In memory constrained situations the memory from &dollar;803 to &dollar;1FFF
can be made available to a program by calling <tt/_heapadd ((void *) 0x0803, 0x17FD);/
at the beginning of <tt/main()/. Doing so is beneficial even if the program
doesn't use the the heap explicitly because loading the driver (and in fact
already opening the driver file) uses the heap implicitly.
</descrip><p>
<sect1>Extended memory drivers<p>
<descrip>
<tag><tt/a2e.auxmem.emd (a2e_auxmem_emd)/</tag>
Gives access to 47.5 KB RAM (190 pages of 256 bytes each) on an Extended
80-Column Text Card.
Note that this driver doesn't check for the actual existence of the memory
and that it doesn't check for ProDOS 8 RAM disk content!
</descrip><p>
<sect1>Joystick drivers<p>
<descrip>
<tag><tt/a2e.stdjoy.joy (a2e_stdjoy_joy)/</tag>
Supports up to two standard analog joysticks connected to the game port of
the enhanced&nbsp;Apple&nbsp;//e.
</descrip><p>
<sect1>Mouse drivers<p>
<descrip>
<tag><tt/a2e.stdmou.mou (a2e_stdmou_mou)/</tag>
Driver for the AppleMouse&nbsp;II Card. Searches all Apple&nbsp;II slots
for an AppleMouse&nbsp;II Card compatible firmware. The default bounding
box is &lsqb;0..279,0..191&rsqb;.
Note that the enhanced&nbsp;Apple&nbsp;//e default mouse callbacks support
text mode only.
</descrip><p>
<sect1>RS232 device drivers<p>
<descrip>
<tag><tt/a2e.ssc.ser (a2e_ssc_ser)/</tag>
Driver for the Apple&nbsp;II Super Serial Card. Supports up to 19200 baud,
hardware flow control (RTS/CTS) and interrupt driven receives. Note
that because of the peculiarities of the 6551 chip transmits are not
interrupt driven, and the transceiver blocks if the receiver asserts
flow control because of a full buffer.
The driver defaults to slot 2. Call <tt/ser_apple2_slot()/ prior to
<tt/ser_open()/ in order to select a different slot. <tt/ser_apple2_slot()/
succeeds for all Apple&nbsp;II slots, but <tt/ser_open()/ fails with
<tt/SER_ERR_NO_DEVICE/ if there's no SSC firmware found in the selected slot.
</descrip><p>
<sect>Limitations<p>
<sect1>DOS 3.3<p>
Although the standard binaries generated by the linker for the enhanced&nbsp;Apple&nbsp;//e
generally run both on DOS 3.3 (with Applesoft BASIC) and on ProDOS 8 (with
BASIC.SYSTEM) there are some limitations for DOS 3.3:
<descrip>
<tag>Disk File I/O</tag>
There's no disk file I/O support. Any attempt to use it yields an error with
<tt/errno/ set to <tt/ENOSYS/. This implicitly means that loadable drivers
are in general not functional as they depend on disk file I/O. Therefore the statically
linked drivers have to be used instead.
<tag/Interrupts/
There's no <tt/interruptor/ support. Any attempt to use it yields the message
'Failed to alloc interrupt' on program startup. This implicitly means that
<tt/a2e.stdmou.mou/ and <tt/a2e.ssc.ser/ are not functional as they depend on
interrupts.
</descrip><p>
<sect1>Direct console I/O<p>
<descrip>
<tag/Color/
The enhanced&nbsp;Apple&nbsp;//e has no color text mode. Therefore the functions
textcolor(), bgcolor() and bordercolor() have no effect.
</descrip><p>
<sect>Other hints<p>
<sect1>Passing arguments to the program<p>
Command line arguments can be passed to <tt/main()/ after BLOAD. Since this is not
supported by BASIC, the following syntax was chosen:
<tscreen><verb>
]CALL2051:REM ARG1 " ARG2 IS QUOTED" ARG3 "" ARG5
</verb></tscreen>
<enum>
<item>Arguments are separated by spaces.
<item>Arguments may be quoted.
<item>Leading and trailing spaces around an argument are ignored. Spaces within
a quoted argument are allowed.
<item>The first argument passed to <tt/main/ is the program name.
<item>A maximum number of 10 arguments (including the program name) are
supported.
</enum>
<sect1>Function keys<p>
These are defined to be OpenApple + number key.
<sect1>Interrupts<p>
The runtime for the enhanced&nbsp;Apple&nbsp;//e uses routines marked as
<tt/.INTERRUPTOR/ for ProDOS 8 interrupt handlers. Such routines must be
written as simple machine language subroutines and will be called
automatically by the interrupt handler code when they are linked into a
program. See the discussion of the <tt/.CONDES/ feature in the <url
url="ca65.html" name="assembler manual">.
<sect1>DIO<p>
<descrip>
<tag/Drive ID/
The function <url url="dio.html#s1" name="dio_open()"> has the single
parameter <tt/device/ to identify the device to be opened. Therefore an
Apple&nbsp;II slot and drive pair is mapped to that <tt/device/ according
to the formula
<tscreen>
device = slot + (drive - 1) * 8
</tscreen>
so that for example slot 6 drive 2 is mapped to <tt/device/ 14.
<tag/Sector count/
The function <url url="dio.html#s3" name="dio_query_sectcount()"> returns
the correct sector count for all ProDOS 8 disks. However for any non-ProDOS 8
disk it simply always returns 280 (which is only correct for a 140 KB disk).
This condition is indicated by the <tt/_oserror/ value 82.
</descrip><p>
<sect>License<p>
This software is provided 'as-is', without any expressed or implied
warranty. In no event will the authors be held liable for any damages
arising from the use of this software.
Permission is granted to anyone to use this software for any purpose,
including commercial applications, and to alter it and redistribute it
freely, subject to the following restrictions:
<enum>
<item> The origin of this software must not be misrepresented; you must not
claim that you wrote the original software. If you use this software
in a product, an acknowledgment in the product documentation would be
appreciated but is not required.
<item> Altered source versions must be plainly marked as such, and must not
be misrepresented as being the original software.
<item> This notice may not be removed or altered from any source
distribution.
</enum>
</article>