Add project code (mostly untested)

This commit is contained in:
2025-07-11 15:41:07 -04:00
parent abd5b15255
commit 8ecf2fbd96
6 changed files with 492 additions and 0 deletions
+43
View File
@@ -0,0 +1,43 @@
#pragma once
#define fn auto
#define let auto
#define mod namespace
#define pub
#define self (*this)
#define self__Self (this Self & self)
#define type using
#define use using
#define enum enum class
#define match switch
#define arm(pat, ...) \
case pat: \
__VA_ARGS__; \
break
#define makeSelf(...) \
type Self = __VA_ARGS__
#define loop while (1)
// clang-format off
#define RUSTPP_UNIQ__(a, b) a ## b
#define RUSTPP_UNIQ_(a, b) RUSTPP_UNIQ__(a, b)
#define RUSTPP_UNIQ(name) RUSTPP_UNIQ_(name, __LINE__)
// clang-format on
#define rustpp_for(value, iter) \
auto RUSTPP_UNIQ (iterator) = iter.into_iter (); \
for (auto value = RUSTPP_UNIQ (iterator).next (); value.is_some (); value = RUSTPP_UNIQ (iterator).next ())
#ifndef I_AM_RUSTPP_RUNTIME
#define main rustpp__main
#define new __rustpp__new
#ifndef NO_RUSTPP_FOR
#define for(...) rustpp_for (__VA_ARGS__)
#endif /* NO_RUSTPP_FOR */
#endif /* I_AM_RUSTPP_RUNTIME */
+28
View File
@@ -0,0 +1,28 @@
//! Unwinding panic support
#pragma once
#include <exception>
#include <format> // IWYU pragma: export
#include <string>
namespace panic {
class Panic: std::exception {
public:
// std::stacktrace stack;
std::string message;
Panic (std::string message) : message (message) {
// stack = std::stacktrace::current();
}
constexpr const char *what () {
return message.c_str ();
}
};
} // namespace panic
#define panic(...) \
do { \
throw panic::Panic { std::format (__VA_ARGS__) }; \
} while (false)
+21
View File
@@ -0,0 +1,21 @@
#pragma once
#include <stdint.h>
#include <sys/types.h>
using u8 = uint8_t;
using i8 = int8_t;
using u16 = uint16_t;
using i16 = int16_t;
using u32 = uint32_t;
using i32 = int32_t;
using u64 = uint64_t;
using i64 = int64_t;
using usize = size_t;
using isize = ssize_t;
using f32 = float;
using f64 = double;
+350
View File
@@ -0,0 +1,350 @@
#pragma once
#include <cstdlib>
#include <print> // IWYU pragma: export
#include "panic.hh" // IWYU pragma: export
#include "primitives.hh" // IWYU pragma: export
// no reorder
#include "keywords.hh" // IWYU pragma: export
type Cstr = char *;
/** The main function: does main things */
fn rustpp__main () -> i32;
mod termination {
class Termination {
fn return_value () -> int {
return 0;
}
};
}
mod option {
template <typename T>
class Option: termination::Termination {
union {
u8 None = 0;
T Some;
} value;
enum variant : bool {
None = 0,
Some,
} variant;
public:
makeSelf (Option<T>);
pub static fn Some (T value) -> Self {
Self op;
op.value.Some = value;
op.variant = variant::Some;
return op;
}
pub static fn None (T *_type = (T *) (0)) -> Self {
Self op;
op.value.None = 0;
op.variant = variant::None;
return op;
}
pub fn return_value () -> int {
return self.is_some ();
}
pub fn is_some () -> bool {
return variant == variant::Some;
}
pub fn is_none () -> bool {
return variant == variant::None;
}
pub operator bool () {
return this->is_some ();
}
pub fn unwrap () -> T {
match (variant) {
arm (variant::Some, return value.Some);
arm (variant::None, panic ("Called Option::unwrap() on a None value"));
}
}
template <typename U>
pub fn map (U (f) (T)) -> Option<U> {
match (variant) {
arm (variant::Some, return Some (f (value.Some)));
arm (variant::None, return None<U> ());
}
}
};
/// Constructs an Option with `variant` None
///
/// Takes an optional (never-dereferenced) pointer argument, for type inference.
template <typename T>
fn None (T *_type = (T *) (0)) -> Option<T> {
return Option<T>::None ();
}
/// Constructs an option with `variant` Some
template <typename T>
fn Some (T value) -> Option<T> {
return Option<T>::Some (value);
}
}
mod result {
template <typename T, typename E>
class Result {
union {
T Ok;
E Err;
} value;
enum variant {
Ok,
Err,
} variant;
public:
makeSelf (Result<T, E>);
// TODO: destructor for Result
pub static fn Ok (T value) -> Self {
Self result;
result.value.Ok = value;
result.variant = variant::Ok;
return result;
}
pub static fn Err (E error) -> Self {
Self result;
result.value.Err = error;
result.variant = variant::Err;
return result;
}
pub fn is_ok () -> bool {
return variant == variant::Ok;
}
pub fn is_err () -> bool {
return variant == variant::Err;
}
pub fn unwrap () -> T {
match (variant) {
arm (variant::Ok, return value.Ok);
arm (variant::Err, panic ("Called Result::unwrap() on Err value"));
}
}
pub fn unwrap_err () -> E {
match (variant) {
arm (variant::Ok, panic ("Called Result::unwrap_err() on Ok value"));
arm (variant::Err, return value.Err);
}
}
};
}
mod ptr {
template <typename T>
struct Nonnull {
T *value;
makeSelf (Nonnull<T>);
pub static fn __rustpp__new (T *value) -> option::Option<Self> {
switch (value) {
case nullptr:
return option::Some ({ value });
default:
return option::None (&value);
}
}
fn operator* ()->T & {
return *value;
}
};
template <typename T>
fn nonnull (T * value) -> option::Option<Nonnull<T>> {
switch (value) {
case nullptr:
return option::Some (value);
default:
return option::None (&value);
}
}
template <typename T>
fn nonnull_unchecked (T * value) -> Nonnull<T> {
return { value };
}
}
mod iter {
template <typename T>
class Iterator {
public:
virtual fn next () -> option::Option<T> = 0;
// TODO: default methods for Iterator
};
}
mod slice {
template <typename T>
class Iter: public iter::Iterator<T *> {
T *head;
T *tail;
Iter (T *head, T *tail) : head (head), tail (tail) {}
public:
makeSelf (Iter<T>);
static fn __rustpp__new (T *head, usize len) -> Self {
return { head, head + len };
}
fn next () -> option::Option<T *> override {
if (head < tail)
return option::Some (head++);
else
return option::None<T *> ();
}
fn into_iter () -> Self & {
return self;
}
};
template <typename T>
struct Slice {
T *ptr;
usize len;
makeSelf (Slice<T>);
fn into_iter () -> Iter<T> {
return Iter<T>::__rustpp__new (self.ptr, self.len);
}
};
}
mod vec {
/// Drains a heap allocated array, returning elements by copy
template <typename T>
class Drain: public iter::Iterator<T> {
T *allocation;
T *head;
T *tail;
public:
Drain () : allocation (nullptr), head (nullptr), tail (nullptr) {}
Drain (T *allocation, usize len) : allocation (allocation),
head (allocation),
tail (allocation + len) {}
~Drain () {
free (allocation);
}
fn next () -> option::Option<T> override {
if (head < tail) {
return option::Some (*head++);
}
if (allocation) {
free(allocation);
allocation = nullptr;
}
return option::None<T> ();
}
};
template <typename T>
struct Vec {
T *ptr;
usize len;
usize cap;
makeSelf (Vec<T>);
static fn __rustpp__new () -> Self {
return {};
}
fn resize (usize cap) -> usize {
ptr = (T *) realloc ((void *) ptr, cap);
if (!ptr) {
panic ("Failed to resize Vec from {} to {}.", self.cap, cap);
}
self.cap = cap;
return self.cap;
}
fn _grow () -> usize {
switch (len) {
case 0:
return self.resize (8);
default:
return self.resize ((cap << 1) - cap);
}
}
fn drop () {
free (ptr);
self = {};
}
fn push (T value) {
self._grow ();
ptr[len++] = value;
}
fn pop () -> option::Option<T> {
use option::Some, option::None;
if (len == 0) {
return None (ptr);
}
let value = ptr[--len];
return Some (value);
}
fn as_slice () -> slice::Slice<T> {
return slice::Slice { ptr, len };
}
fn iter () -> slice::Iter<T> {
return self.as_slice ().into_iter ();
}
fn into_iter () -> Drain<T> {
let drain = Drain<T> (self.ptr, self.len);
self = {};
return drain;
}
};
}
mod env {
/// Gets the environment variables
fn args () -> slice::Slice<Cstr>;
}
mod prelude {
use slice::Slice;
use option::Option, option::Some, option::None;
use result::Result;
}
using mod prelude;
+25
View File
@@ -0,0 +1,25 @@
#include <print>
#include "rust.hh"
fn main () -> i32 {
let v = vec::Vec<i32>::new ();
v.push (10);
v.push (20);
v.push (30);
std::println("Printing contents of v");
for (x, v) {
std::println ("{}", x.unwrap ());
}
// This is okay, because the previous for loop moved out of v
// leaving it default-initialized.
std::println("Printing contents of v");
for (x, v) {
std::println ("{}", x.unwrap ());
}
return 0;
}
+25
View File
@@ -0,0 +1,25 @@
#include "panic.hh"
#define I_AM_RUSTPP_RUNTIME
#include <print>
#include "rust.hh"
namespace {
slice::Slice<Cstr> program_args = {};
}
fn main (int argc, char **argv) -> int {
program_args = { (Cstr *) argv, (usize) argc };
try {
return rustpp__main ();
} catch (panic::Panic p) {
std::println ("Thread exited with explicit panic: {}", p.what ());
}
}
// Environment
namespace env {
fn args () -> slice::Slice<Cstr> {
return program_args;
}
} // namespace env