mirror of
https://github.com/simonowen/apple1emu.git
synced 2024-12-26 23:29:15 +00:00
Added Makefile and make.bat to simplify building
This commit is contained in:
parent
847fc6bf4f
commit
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3
.gitignore
vendored
3
.gitignore
vendored
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.*
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!.gitignore
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apple1emu.dsk
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apple1emu.sym
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16
Makefile
Normal file
16
Makefile
Normal file
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DISK=apple1emu.dsk
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ROMS=apple1.rom applesoft-lite-0.4-ram.bin ehbasic.bin 65C02.rom.bin applesoft-lite-0.4.bin
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.PHONY: clean
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$(DISK): apple1emu.asm font.bin opdefs.inc $(ROMS)
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pyz80.py --exportfile=apple1emu.sym apple1emu.asm
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font.bin: font.png png2bin.pl
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./png2bin.pl font.png 6 8
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opdefs.inc: opdefs.pl opimpl.inc apple1emu.asm
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./opdefs.pl
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clean:
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rm -f $(DISK) apple1emu.sym
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64
font.pl
64
font.pl
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#!/usr/bin/perl -w
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#
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# Convert PNG image to raw font binary for Apple 1 emulator
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#
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# Makes lots of assumptions about the input image!
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use Compress::Zlib;
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# Input image and output data file
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my $input = 'font.png';
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my $output = 'font.bin';
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# Our characters are 6 pixels wide
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$chrw = 6;
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# Slurp the entire PNG image
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open INPUT, "<$input" and binmode INPUT or die "$input: $!\n";
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read INPUT, $data='', -s $input;
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close INPUT;
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# Find and extract the image dimensions
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$data =~ /IHDR(.{8})/s;
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($w,$h) = unpack "N2", $1;
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# Extract and expand the compressed image data
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($data) = $data =~ /IDAT(.*).{8}IEND/s;
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$data = Compress::Zlib::uncompress($data);
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# Remove the type byte from the start of each line
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$w_2 = $w/2;
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$data =~ s/.(.{$w_2})/$1/sg;
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@data = ();
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# Unpack the pixel nibbles
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foreach (unpack "C*", $data) {
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push @data, $_>>4, $_&1;
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}
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open OUTPUT, ">$output" and binmode OUTPUT or die "$output: $!\n";
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# Process all characters
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foreach $chr (0..$w/$chrw-1)
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{
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# Process the image line by line
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foreach $y (0..$h-1)
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{
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# Locate the pixel data for the current character
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my $x = $chr*$chrw + $w*$y;
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my $b = 0;
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# Pack the 1bpp data into a single byte
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foreach (@data[$x..$x+$chrw-1]) {
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$b = ($b << 1) | $_;
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}
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# Left-align within the byte and output it
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print OUTPUT chr($b << (8-$chrw));
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}
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}
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close OUTPUT;
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12
make.bat
Executable file
12
make.bat
Executable file
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@echo off
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if "%1"=="clean" goto clean
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opimpl.pl
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pyz80.py --exportfile=apple1emu.sym apple1emu.asm
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goto end
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:clean
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if exist apple1emu.dsk del apple1emu.dsk apple1emu.sym
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:end
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11
opdefs.pl
11
opdefs.pl
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#!/usr/bin/perl -w
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#
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# Calculates opcode addresses for the inline instruction decoding table
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#
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# Used by the Apple 1 emulator, available from:
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#
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# http://simonowen.com/sam/apple1emu/
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# Allow -v option for verbose output
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use Getopt::Std;
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$opt_v = 0;
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getopts('v');
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$source = 'apple1emu.asm';
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$codeend = 0xd000;
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@ -75,7 +76,7 @@ MSB:
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# Position base so code finishes at the required point
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$base = $codeend - (($size + 0xff) & ~0xff);
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print "Size = $size, used = $used, slack = ", $size-$used, "\n";
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print "Size = $size, used = $used, slack = ", $size-$used, "\n" unless !$opt_v;
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# Output sorted list of calculated positions
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foreach (sort { $a <=> $b } @todo) {
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89
png2bin.pl
Executable file
89
png2bin.pl
Executable file
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#!/usr/bin/perl -w
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#
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# Convert PNG image to Spectrum format sprite image data
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#
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# Input image should be palettised 1-bit with no transparency
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#
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# Simon Owen <simon@simonowen.com>
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use Compress::Zlib;
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use Getopt::Std;
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# Allow -v option for verbose output
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getopts('v');
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# Strip path from input filename, and check
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$0 =~ s/.*\///;
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die "Usage: $0 <image> <sprite-width> [<sprite-height>]\n" unless @ARGV == 2 or @ARGV == 3;
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# Input image and output data file
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($file,$w,$h) = (@ARGV,$ARGV[1]); # height defaults to width if not provided
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die "Input image must be in PNG format\n" unless $file =~ /.png$/i;
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die "Sprite width should be 2-16 pixels\n" unless $w >= 2 && $w <= 16;
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die "Sprite height should be at least 1 pixel\n" unless $h > 0;
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# Slurp the entire PNG image
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open INPUT, "<$file" and binmode INPUT or die "$file: $!\n";
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read INPUT, $data='', -s $file;
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close INPUT;
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# Extract and check the image dimensions
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$data =~ /IHDR(.{8})/s;
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($iw,$ih) = unpack "N2", $1;
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die "Input image (${iw}x${ih}) must be an exact multiple of sprite size (${w}x${h})\n" if ($iw%$w) or ($ih%$h);
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# Extract and expand the compressed image data
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($data) = $data =~ /IDAT(.*).{8}IEND/s;
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$data = Compress::Zlib::uncompress($data);
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# Remove the type byte from the start of each line, leaving just 0+1 pixel values
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if (length($data) == (($iw+1)*$ih)) { # 8bpp?
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$data =~ s/.(.{$iw})/$1/sg;
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@data = map { $_&1 } unpack("C*", $data);
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} elsif (length($data) == (($iw/2+1)*$ih)) { # 4bpp?
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my $iw_2 = $iw/2;
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$data =~ s/.(.{$iw_2})/$1/sg;
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foreach (unpack("C*", $data)) {
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push @data, ($_>>4)&1, $_&1;
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}
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} else {
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die "Image data format is unsupported (size = ".@data." bytes)\n";
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}
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# Calculate rows+columns and the expected size of the output data
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($c,$r) = ($iw/$w,$ih/$h);
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$size = int(($w+7)/8)*$h*$r*$c;
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print "Input image ($file) = ${iw}x${ih}, sprite = ${w}x${h}\n" if $opt_v;
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foreach $y (0..$r-1)
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{
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foreach $x (0..$c-1)
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{
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foreach $l (0..$h-1) # line
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{
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# Calculate the offset of the required bit sequence
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my $o = ((($y*$h+$l)*$c) + $x) * $w;
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# Convert the individual bits to a binary string then a decimal value
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my $n = unpack("N", pack("B32", substr("0"x32 . join('', @data[$o..$o+$w-1]), -32)));
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# Pack into 1 or 2 bytes, with the bits left-aligned (MSB)
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$output .= pack(($w<=8)?"C":"n", $n << (8-($w & 7)));
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}
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}
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}
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# Sanity check the output data size
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die "Output data ", length($output), " is the wrong size! (should be $size)\n" unless length($output) == $size;
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# The output file is the input filename with a .bin extension instead of .png
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$file =~ s/png$/bin/i;
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open OUTPUT, ">$file" and binmode OUTPUT or die "$file: $!\n";
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# Determine the size of a single sprite, and strip blank sprites from the end of the data
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$ss = length($output) / ($r*$c);
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$output =~ s/(\0{$ss})*$//;
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print "Output data ($file) = ", length($output), " bytes = ", length($output)/$ss, " sprites\n" if $opt_v;
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print OUTPUT $output;
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close OUTPUT;
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