Crates.io | vtashkov-bf |
lib.rs | vtashkov-bf |
version | 1.0.1 |
source | src |
created_at | 2024-05-31 11:17:58.634743 |
updated_at | 2024-05-31 11:33:39.434775 |
description | Brainfuck interpreter |
homepage | |
repository | https://github.com/vtashkov/bf |
max_upload_size | |
id | 1257911 |
size | 43,878 |
vtashkov-bf
is a Brainfuck interpreter. It includes a library crate vtashkov_bf
that exports most of the functionality,
and an executable vtashkov-bf
that provides a command-line interface for executing
Brainfuck programs.
The following is taken from the the wiki page of the language: Brainfuck
Brainfuck is an esoteric programming language created in 1993 by Urban Müller. Notable for its extreme minimalism, the language consists of only eight simple commands, a data pointer and an instruction pointer.
The language consists of eight commands. A brainfuck program is a sequence of these commands, possibly interspersed with other characters (which are ignored). The commands are executed sequentially, with some exceptions: an instruction pointer begins at the first command, and each command it points to is executed, after which it normally moves forward to the next command. The program terminates when the instruction pointer moves past the last command.
The brainfuck language uses a simple machine model consisting of the program and instruction pointer, as well as a one-dimensional array of at least 30,000 byte cells initialized to zero; a movable data pointer (initialized to point to the leftmost byte of the array); and two streams of bytes for input and output (most often connected to a keyboard and a monitor respectively, and using the ASCII character encoding).
The eight language commands each consist of a single character:
Character | Meaning |
---|---|
> | Increment the data pointer by one (to point to the next cell to the right) |
< | Decrement the data pointer by one (to point to the next cell to the left). |
+ | Increment the byte at the data pointer by one. |
- | Decrement the byte at the data pointer by one. |
. | Output the byte at the data pointer. |
, | Accept one byte of input, storing its value in the byte at the data pointer. |
[ | If the byte at the data pointer is zero, then instead of moving the instruction pointer forward to the next command, jump it forward to the command after the matching ] command. |
] | If the byte at the data pointer is nonzero, then instead of moving the instruction pointer forward to the next command, jump it back to the command after the matching [ command. |
[ and ] match as parentheses usually do: each [ matches exactly one ] and vice versa, the [ comes first, and there can be no unmatched [ or ] between the two. This rule is removed, see below.
[
brackets, then the interpreter will assume that the corresponding ]
closing brackets are at the end (i.e. it will behave as if they were added). If a program contains a ]
closing bracket without corresponding [
opening bracket, then the interpreter will ignore all instructions after that.The goal is to minimize the errors that vtashkov-bf
produces and try to be as forgiving as possible.
rainfuck interpreter
Usage: vtashkov-bf [OPTIONS] <INPUT_FILE>
Arguments:
<INPUT_FILE> Path to the file to be interpreted
Options:
-m, --memory-size <MEMORY_SIZE> Number of the cells in the memory, defaults to 30 000 [default: 30000]
-h, --help Print help
-V, --version Print version
This will output "Hello World!\n" in the output vector:
use std::io::Cursor;
use std::str;
use vtashkov_bf::Interpreter;
let source_code = "++++++++[>++++[>++>+++>+++>+<<<<-]>+>+>->>+[<]<-]>>.>---.+++++++..+++.>>.<-.<.+++.------.--------.>>+.>++.";
let mut input = Cursor::new(vec![]);
let mut output = vec![];
let mut interpreter = Interpreter::new(&mut input, &mut output, 30000);
interpreter.execute(&source_code);
assert_eq!("Hello World!\n", str::from_utf8(output.as_slice()).unwrap());
Example programs in Brainfuck language can be found in /examples directory.
hello_world
and rot13
are taken from the wiki page of the language: Brainfuck
Written by Victor Tashkov vtashkov@gmail.com
Published with MIT License.