.. | ||
src/main/java/io/github/applecommander/bastokenizer/api | ||
build.gradle | ||
MAVEN-REPO.md | ||
README.md |
BT API
The BASIC Tokenizer API is a set of reusable code that can be used to parse a text-based AppleSoft BASIC program an generate the appropriate tokens. It also has multiple types of visitors that can re-write that parse tree to rearrange the code (calling them optimizations is a bit over-the-top).
Maven / Gradle
To include in a Maven project:
<dependency>
<groupId>net.sf.applecommander</groupId>
<artifactId>bastokenizer-api</artifactId>
<version>0.2.0</version>
</dependency>
To include in a Gradle project:
dependencies {
// ...
compile "net.sf.applecommander:bastokenizer-api:0.2.0"
// ...
}
Overview
Generally, the usage pattern is:
- Setup the
Configuration
. - Read the tokens.
- Parse the tokens into a
Program
. - Apply transformations, if applicable.
Code snippets
Configuration config = Configuration.builder()
.sourceFile(this.sourceFile)
.build();
The Configuration
class also allows the BASIC start address to be set (defaults to 0x801
), set the maximum line length (this is in bytes, and defaults to 255
, but feel free to experiment). Some of the classes report output via the debug stream, which defaults to a simple null stream (no output) - replace with System.out
or another PrintStream
.
Queue<Token> tokens = TokenReader.tokenize(config.sourceFile);
The list of tokens is a loose interpretation. It includes more of a compiler sense of tokens -- numbers, end of line markers (they're significant), AppleSoft tokens, strings, comments, identifiers, etc.
Parser parser = new Parser(tokens);
Program program = parser.parse();
The Program
is now the parsed version of the BASIC program. Various Visitor
s may be used to report, gather information, or manipulate the tree in various ways.
Directives
The framework allows embedding of directives.
$embed
$embed
will allow a binary to be embedded within the resulting application and will move it to a destination in memory. Please note that once the application is loaded on the Apple II, the program cannot be altered as the computer will crash. Usage example:
5 $embed "read.time.bin", "0x0260"
The $embed
directive must be last on the line (if there are comments, be sure to use the REMOVE_REM_STATEMENTS
optimization. It takes two parameters: file name and target address, both are strings.
From the circles-timing.bas
sample, this is the beginning of the program:
0801:9A 09 00 00 8C 32 30 36 32 3A AB 31 00 A9 2B 85
\___/ \___/ \____________/ \___/ \_______...
Ptr, Line 0, CALL 3062, :, GOTO 1, Assembly code...
The move code is based on what Beagle Bros put into their Peeks, Pokes, and Pointers poster. (See Memory Move under the Useful Calls; the CALL -468
entry.)
LDA #<embeddedStart
STA $3C
LDA #>embeddedStart
STA $3D
LDA #<embeddedEnd
STA $3E
LDA #>embeddedEnd
STA $3F
LDA #<targetAddress
STA $42
LDA #>targetAddress
STA $43
LDY #0
JMP $FE2C
Optimizations
Optimizations are mechanisms to rewrite the Program
, typically making the program smaller. Optimization
itself is an enum which has a create
method to setup the Visitor
.
Current optimizations are:
- Remove empty statements will remove all extra colons. For example, if the application in question used
:
to indicate nesting. Or just accidents! - Remove REM statements will remove all comments.
- Merge lines will identify all lines that are not a target of
GOTO
/GOSUB
-type action and rewrite the line by merging it with others. The concept involved is that the BASIC program is just a linked list and shortening the list will shorten the search path. The default max length in bytes is set to255
. - Renumber will renumber the application, beginning with line
0
. This makes the decoding a tiny bit more efficient in that the number to decode will be smaller in the token stream.
Sample use:
program = program.accept(Optimization.REMOVE_REM_STATEMENTS.create(config));