WARNING! THE DEVELOPMENT IS MOVED TO GITLAB: https://gitlab.com/tsoding/porth

It's like Forth but written in Python. But I don't actually know for sure since I never programmed in Forth, I only heard that it's some sort of stack-based programming language. Porth is also stack-based programming language. Which makes it just like Forth am I rite?

Porth is planned to be

• Compiled
• Native
• Stack-based (just like Forth)
• Turing-complete
• Statically typed (the type checking is probably gonna be similar to the WASM validation)
• Self-hosted (Python is used only as an initial bootstrap, once the language is mature enough we gonna rewrite it in itself)

(these are not the selling points, but rather milestones of the development)

Hello, World:

include "std.porth"

"Hello, World\n" puts

Simple program that prints numbers from 0 to 99 in an ascending order:

include "std.porth"

100 0 while 2dup > do
    dup print 1 +
end 2drop

Simulation simply interprets the program.

$ cat program.porth
34 35 + print
$ ./porth.py sim program.porth
69

It is strongly recommended to use PyPy for the Simulation Mode since CPython is too slow for that. Try to simulate ./euler/problem04.porth using CPython and compare it with PyPy and Compilation Mode.

Compilation generates assembly code, compiles it with nasm, and then links it with GNU ld. So make sure you have both available in your $PATH.

$ cat program.porth
34 35 + print
$ ./porth.py com program.porth
[INFO] Generating ./program.asm
[CMD] nasm -felf64 ./program.asm
[CMD] ld -o ./program ./program.o
$ ./program
69

Test cases are located in ./tests/ folder. The *.txt files contain inputs (command line arguments, stdin) and expected outputs (exit code, stdout, stderr) of the corresponding programs.

Run ./test.py script to execute the programs and assert their outputs:

$ ./test.py run

To updated expected outputs of the programs run the update subcommand:

$ ./test.py update

To update expected command line arguments and stdin of a specific program run the update input <path/to/program.porth> subcommand:

$ ./test.py update input ./tests/argv.porth new cmd args
[INFO] Provide the stdin for the test case. Press ^D when you are done...
Hello, World
^D
[INFO] Saving input to ./tests/argv.txt

The ./examples/ folder contains programs that are ment for showcasing the language rather then testing it, but we still can use them for testing just like the stuff in the ./tests/ folder:

$ ./test.py run ./examples/
$ ./test.py update input ./examples/name.porth
$ ./test.py update output ./examples/

For more info see ./test.py help

If you wanna use the Porth compiler separately from its codebase you only need two things:

• ./porth.py - the compiler itself,
• ./std/ - the standard library.

By default the compiler searches files to include in ./ and ./std/. You can add more search paths via the -I flag before the subcommand: ./porth.py -I <custom-path> com .... See ./porth.py help for more info.

This is what the language supports so far. Since the language is a work in progress everything in this section is the subject to change.

Currently an integer is anything that is parsable by int function of Python. When the compiler encounters an integer it pushes it onto the data stack for processing by the relevant operations.

Example:

10 20 +

The code above pushes 10 and 20 onto the data stack and sums them up with + operation.

Currently a string is any sequence of bytes sandwiched between two ". No newlines inside of the strings are allowed. Escaping is done by unicode_escape codec of Python. No way to escape " themselves for now. No special support for Unicode is provided right now too.

When the compiler encounters a string:

1. the size of the string in bytes is pushed onto the data stack,
2. the bytes of the string are copied somewhere into the memory (the exact location is implementation specific),
3. the pointer to the beginning of the string is pushed onto the data stack.

Those, a single string pushes two values onto the data stack: the size and the pointer.

Example:

include "std.porth"
"Hello, World" puts

The puts macro from std.porth module expects two values on the data stack:

1. the size of the buffer it needs to print,
2. the pointer to the beginning of the buffer.

The size and the pointer are provided by the string "Hello, World".

It's like a regular string but it does not push its size on the stack and implicitly ends with NULL-terminator. Designed specifically to interact with C code or any other kind of code that expects NULL-terminated strings.

include "std.porth"

O_RDONLY "input.txt"c AT_FDCWD openat
//                  ^
//                  |
//                  postfix that indicates a C-style string

if dup 0 < do
    "ERROR: could not open the file\n" eputs
    1 exit
else
    "Successfully opened the file!\n" puts
end

close

Here we are using openat(2) Linux syscall to open a file. The syscall expects the pathname to be a NULL-terminated string.

Currently a character is a single byte sandwiched between two '. Escaping is done by unicode_escape codec of Python. No way to escape ' themselves for now. No special support for Unicode is provided right now too.

When compiler encounters a character it pushes its value as an integer onto the stack.

Example:

'E' print

This program pushes integer 69 onto the stack (since the ASCII code of letter E is 69) and prints it with the print operation.

• dup - duplicate an element on top of the stack.

a = pop()
push(a)
push(a)

• swap - swap 2 elements on the top of the stack.

a = pop()
b = pop()
push(a)
push(b)

• drop - drops the top element of the stack.

pop()

• print - print the element on top of the stack in a free form to stdout and remove it from the stack.

a = pop()
print(a)

• over

a = pop()
b = pop()
push(b)
push(a)
push(b)

• rot - rotate the top three stack elements.

a = pop()
b = pop()
c = pop()
push(b)
push(a)
push(c)

• = - checks if two elements on top of the stack are equal. Removes the elements from the stack and pushes 1 if they are equal and 0 if they are not.

a = pop()
b = pop()
push(int(a == b))

• != - checks if two elements on top of the stack are not equal.

a = pop()
b = pop()
push(int(a != b))

• > - checks if the element below the top greater than the top.

b = pop()
a = pop()
push(int(a > b))

• < - checks if the element below the top less than the top.

b = pop()
a = pop()
push(int(a < b))

• >=

b = pop()
a = pop()
push(int(a >= b))

• <=

b = pop()
a = pop()
push(int(a >= b))

• + - sums up two elements on the top of the stack.

a = pop()
b = pop()
push(a + b)

• - - subtracts the top of the stack from the element below.

a = pop()
b = pop()
push(b - a)

• * - multiples the top of the stack with the element below the top of the stack

a = pop()
b = pop()
push(b * a)

• divmod

a = pop()
b = pop()
push(b // a)
push(b % a)

• shr

a = pop()
b = pop()
push(b >> a)

• shl

a = pop()
b = pop()
push(b << a)

• or

a = pop()
b = pop()
push(b | a)

• and

a = pop()
b = pop()
push(b & a)

• not

a = pop()
push(~a)

• if <condition> do <then-branch> else <else-branch> end - pops the element on top of the stack and if the element is not 0 executes the <then-branch>, otherwise <else-branch>.
• while <condition> do <body> end - keeps executing both <condition> and <body> until <condition> produces 0 at the top of the stack. Checking the result of the <condition> removes it from the stack.

• mem - pushes the address of the beginning of the memory where you can read and write onto the stack.

push(mem_addr)

• . - store a given byte at the address on the stack.

byte = pop()
addr = pop()
store(addr, byte)

• , - load a byte from the address on the stack.

addr = pop()
byte = load(addr)
push(byte)

• .64 - store an 8-byte word at the address on the stack.

word = pop()
addr = pop()
store(addr, word)

• ,64 - load an 8-byte word from the address on the stack.

word = pop()
byte = load(word)
push(byte)

• syscall<n> - perform a syscall with n arguments where n is in range [0..6]. (syscall1, syscall2, etc)

syscall_number = pop()
<move syscall_number to the corresponding register>
for i in range(n):
    arg = pop()
    <move arg to i-th register according to the call convention>
<perform the syscall>

Define a new word write that expands into a sequence of tokens stdout SYS_write syscall3 during the compilation.

macro write
    stdout SYS_write syscall3
end

Include tokens of file file.porth

include "file.porth"

• here - pushes a string "<file-path>:<row>:<col>" where <file-path> is the path to the file where here is located, <row> is the row on which here is located and <col> is the column from which here starts. It is useful for reporting developer errors:

include "std.porth"

here puts ": TODO: not implemented\n" puts 1 exit