ti842py is a TI-BASIC to Python 3 transpiler. A transpiler is a piece of software that can convert code from one language to another. This program should be able to convert a lot of programs, but if you find something that it can't convert yet, start an issue. This transpiler also has the ability to automatically decompile any 8Xp file that you supply as the input file, with the help of my other project that I contribute to, basically-ti-basic. Note that this software is in beta and may produce inaccurate results.
Features
- Converts string literals to comments
- Attempts to interpret implicit multiplication
- Attempts to fix floating point arithmetic errors
-
Disp
/Output()
- Variable assignment
-
If/Then/Else
statements, includingElse If
ClrHome
-
Input
/Prompt
- For, While, and Repeat loops
Pause
Wait
Stop
DelVar
getKey
-
Goto
/Lbl
-
getDate
,getTime
, anddayOfWk
-
IS>(
/DS<(
Menu()
toString()
-
randInt()
/rand
- Most drawing functions
- List subscripting
- Matrices
Ans
prgm
round()
Planned Features
Return
-
eval()
/expr()
Known issues
Issues can be found at https://github.com/TabulateJarl8/ti842py/issues
Installation
ti842py can be installed via PyPI or by cloning the repository. To install it with PyPI, just run pip3 install ti842py
in a terminal. To install it locally, you can clone the repository and run python setup.py install --user
.
Usage
Feel free to use the programs found at https://github.com/TabulateJarl8/tiprograms to test this project out.
CLI Usage
ti842py can be used in 3 different ways. The first way is just running it from the command line. For example, if you wanted to convert the program in tiprogram.txt
to tiprogram.py
, you can this command: ti842py tiprogram.txt -o tiprogram.py
. If no value is specified for -o
, the converted program will be written to stdout
. The -n
flag can be added to force the transpiler to not decompile the input file, and the -d
flag can be added to force the transpiler to attempt and decompile the input file. If the --run
or -r
argument is supplied, the resulting python file will be run after it is done transpiling
usage: ti842py [-h] [-o OUTFILE] [-n] [-d] [--no-fix-multiplication] [--no-fix-floating-point] [--turbo-draw] [-r] [-V] [infile]
TI-BASIC to Python 3 Transpiler
positional arguments:
infile Input file (filename or stdin).
optional arguments:
-h, --help show this help message and exit
-o OUTFILE, --out OUTFILE
Optional output file to write to. Defaults to standard out.
-n, --force-normal Forces the program to not attempt and decompile the input file. Useful for false positives
-d, --force-decompile
Forces the program to attempt to decompile the input file
--no-fix-multiplication
Do not attempt to fix implicit multiplication. For example, AB -> A*B and A(1) -> A*(1)
--no-fix-floating-point
Do not attempt to fix floating point arithmetic errors. For example, 1.1 * 3 would normally say 3.3000000000000003 instead of 3.3
--turbo-draw Remove the 0.1 second delay between drawing actions
-r, --run Runs the program after it's done transpiling. Will not print to stdout
-V, --version show program's version number and exit
Advanced terminal usage
You can use ti842py by piping files to it's stdin. This can be done via pipes or redirects, and the files can be either 8Xp or plain text files, just like normal. Here's some examples:
$ cat BAR.8Xp | ti842py --run
$ ti842py -o bar.py < BAR.8Xp
$ cat CLOCK.bas | ti842py -nr
$ ti842py --no-fix-floating-point --run < CLOCK.bas
Programmatic Usage
ti842py can also be imported and used in a program. Here is an example program to convert tiprogram.txt
to tiprogram.py
:
from ti842py import transpile
transpile("tiprogram.txt", "tiprogram.py")
Again, if the second argument is not supplied, the program will be written to stdout
. The transpile
command can be supplied with optional arguments. decompileFile
, multiplication
, and floating_point
default to True
, and forceDecompile
, run
, and turbo_draw
default to False
The last way that ti842py can be ran is by running the main python file. After cloning the repository, cd into the repository and run python ti842py/main.py inputfile.txt
. You can supply any arguments that you would supply with the ti842py
command.
Special functions
-
getKey
- ThegetKey
function works just like it does in normal TI-BASIC, except with some special rules. Any key on the keyboard pressed will be converted to the corresponding key on the calculator. This works for letters, numbers, arrow keys, enter, delete, and symbols. As for the buttons not on a keyboard, the top 5 keys are the F1-F5 keys on the keyboard,2nd
is grave`
, andalpha
is tilda~
.mode
is F6,stat
is f7,vars
is F8, theX,T,θ,n
key is F9, andclear
is backspace. -
If
-If
blocks withThen
after theIf
must be ended withEnd
, they cannot be left open.If
blocks on 2 lines without aThen
cannot be closed withEnd
-
prgm
-prgm
will search the current directory for a file matching the provided name (case insensitive; extension of.8xp
). If found, the file will be passed to the commandti842py {filename} --run
, where{filename}
is the name of the file. If a path is given that contains.
or~
, or if the path is not all uppercase, the transpiler will assume that the path has been manually provided by the user (this will be useful once I implement a TI-BASIC shell).
Libraries used
-
My fork of basically-ti-basic - for decompiling
.8Xp
files -
graphics.py - for drawing features
-
insignification's fork of the goto module - for
goto
/lbl
support -
pynput - for non-blocking input support
-
pythondialog - Python wrapper around
dialog
forMenu
support -
token_utils - Support for fixing implicit multiplication