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/// sforth, an implementation of forth
/// Copyright (C) 2024 Clyne Sullivan <clyne@bitgloo.com>
///
/// This program is free software: you can redistribute it and/or modify it
/// under the terms of the GNU General Public License as published by the Free
/// Software Foundation, either version 3 of the License, or (at your option)
/// any later version.
///
/// This program is distributed in the hope that it will be useful, but WITHOUT
/// ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
/// FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
/// more details.
///
/// You should have received a copy of the GNU General Public License along
/// with this program. If not, see <http://www.gnu.org/licenses/>.
#ifndef SFORTH_HPP
#define SFORTH_HPP
#include <algorithm>
#include <array>
#include <charconv>
#include <cstdint>
#include <cstddef>
#include <iterator>
#include <span>
#include <string_view>
#include <tuple>
#include <utility>
struct forth
{
using cell = std::intptr_t;
using addr = std::uintptr_t;
using func = void (*)(void *);
static constexpr bool enable_exceptions = true;
static constexpr int data_size = 16;
static constexpr int return_size = 16;
static constexpr auto npos = std::string_view::npos;
enum class error {
init_error,
parse_error,
execute_error,
dictionary_overflow,
word_not_found,
stack_underflow,
stack_overflow,
return_stack_underflow,
return_stack_overflow,
compile_only_word
};
template<error Err>
static inline void assert(bool condition) {
if constexpr (enable_exceptions) {
if (!condition)
throw Err;
}
}
struct word_base {
static constexpr addr immediate = 1 << 8;
word_base *next;
addr flags_len;
auto name() const -> std::string_view {
return {reinterpret_cast<const char *>(this + 1)};
}
auto body() -> func * {
auto ptr = reinterpret_cast<std::uint8_t *>(this + 1) + (flags_len & 0xFF);
return reinterpret_cast<func *>(ptr);
}
};
void push(cell v) {
assert<error::stack_overflow>(sp != dstack.begin());
*--sp = v;
}
void push(cell v, auto... vs) {
push(v); (push(vs), ...);
}
void rpush(func *v) {
assert<error::return_stack_overflow>(rp != rstack.begin());
*--rp = reinterpret_cast<cell>(v);
}
cell& top() {
assert<error::stack_underflow>(sp != dstack.end());
return *sp;
}
cell pop() {
assert<error::stack_underflow>(sp != dstack.end());
auto ret = *sp;
*sp++ = -1;
return ret;//*sp++;
}
auto rpop() -> func * {
assert<error::return_stack_underflow>(rp != rstack.end());
auto ret = reinterpret_cast<func *>(*rp);
*rp++ = -1;
return ret;
}
template<int N>
auto pop() {
static_assert(N > 0, "pop<N>() with N <= 0");
auto t = std::tuple {pop()};
if constexpr (N > 1)
return std::tuple_cat(t, pop<N - 1>());
else
return t;
}
forth& add(std::string_view name, func entry = nullptr) {
const auto namesz = (name.size() + 1 + sizeof(cell)) & ~(sizeof(cell) - 1);
const auto size = (sizeof(word_base) + namesz) / sizeof(cell);
assert<error::parse_error>(!name.empty());
//assert<error::dictionary_overflow>(state->here + size < &dictionary.back());
const auto h = std::exchange(here, here + size);
auto w = new (h) word_base (nullptr, namesz);
w->next = std::exchange(latest, w);
std::copy(name.begin(), name.end(),
reinterpret_cast<char *>(h) + sizeof(word_base));
if (entry)
*here++ = reinterpret_cast<cell>(entry);
return *this;
}
forth& make_immediate() {
latest->flags_len |= word_base::immediate;
return *this;
}
void parse_line(std::string_view sv) {
source = sv.data();
sourcei = sv.find_first_not_of(" \t\r\n");
while (sourcei != npos) {
const auto word = parse();
if (auto ent = get(word); !ent) {
cell n;
const auto [p, e] = std::from_chars(word.cbegin(), word.cend(), n);
assert<error::word_not_found>(e == std::errc() && p == word.cend());
push(n);
if (compiling)
execute((*get("literal"))->body());
} else {
auto body = (*ent)->body();
if (compiling && ((*ent)->flags_len & word_base::immediate) == 0) {
*here++ = reinterpret_cast<cell>(body);
} else {
execute(body);
}
}
}
}
auto parse() -> std::string_view {
const std::string_view sv {source};
const auto e = sv.find_first_of(" \t\r\n", sourcei);
const auto word = e != npos ? sv.substr(sourcei, e - sourcei)
: sv.substr(sourcei);
sourcei = sv.find_first_not_of(" \t\r\n", e);
return word;
}
void execute(func *body) {
assert<error::execute_error>(body && *body);
(*body)(body);
}
auto get(std::string_view sv) -> std::optional<word_base *> {
for (auto lt = latest; lt; lt = lt->next) {
if (sv == lt->name())
return lt;
}
return {};
}
template<forth **fthp>
static void prologue(func *body) {
static auto& fth = **fthp;
fth.rpush(fth.ip);
for (fth.ip = body + 1; *fth.ip; fth.ip++)
fth.execute(reinterpret_cast<func *>(*fth.ip));
fth.ip = fth.rpop();
}
template<forth** fthp>
static void initialize(cell *end_value)
{
assert<error::init_error>(*fthp);
static auto& fth = **fthp;
fth.end = end_value;
fth
.add("_d", [](auto) { fth.push(reinterpret_cast<cell>(&fth)); })
//.add("[", [](auto) { fth.compiling = false; }).make_immediate()
//.add("]", [](auto) { fth.compiling = true; })
.add("immediate", [](auto) { fth.make_immediate(); }).make_immediate()
.add("literal", [](auto) {
static auto lit_impl = +[] {
auto ptr = reinterpret_cast<cell *>(++fth.ip);
fth.push(*ptr);
};
assert<error::compile_only_word>(fth.compiling);
*fth.here++ = reinterpret_cast<cell>(&lit_impl);
*fth.here++ = fth.pop();
}).make_immediate()
.add("@", [](auto) { fth.push(*reinterpret_cast<cell *>(fth.pop())); })
.add("!", [](auto) {
auto [p, v] = fth.pop<2>();
*reinterpret_cast<cell *>(p) = v; })
.add("swap", [](auto) { auto [a, b] = fth.pop<2>(); fth.push(a, b); })
//.add("drop", [](auto) { fth.pop(); })
//.add("dup", [](auto) { fth.push(fth.top()); })
//.add("rot", [](auto) { auto [a, b, c] = fth.pop<3>(); fth.push(b, a, c); })
.add("+", [](auto) { fth.top() += fth.pop(); })
.add("-", [](auto) { fth.top() -= fth.pop(); })
.add("*", [](auto) { fth.top() *= fth.pop(); })
.add("/", [](auto) { fth.top() /= fth.pop(); })
.add("and", [](auto) { fth.top() &= fth.pop(); })
.add("or", [](auto) { fth.top() |= fth.pop(); })
.add("xor", [](auto) { fth.top() ^= fth.pop(); })
.add("=", [](auto) { auto v = fth.pop(); fth.top() = -(fth.top() == v); })
.add("<", [](auto) { auto v = fth.pop(); fth.top() = -(fth.top() < v); })
.add("\'", [](auto) {
auto w = fth.parse();
if (auto g = fth.get(w); g)
fth.push(reinterpret_cast<cell>((*g)->body()));
else
fth.push(0);
})
.add(":", [](auto) {
auto w = fth.parse();
fth.add(w);
*fth.here++ = reinterpret_cast<cell>(forth::prologue<fthp>);
fth.compiling = true;
})
.add(";", [](auto) {
*fth.here++ = 0;
fth.compiling = false;
}).make_immediate()
.add("\\", [](auto) {
fth.sourcei = npos;
}).make_immediate();
}
static auto error_string(error err) noexcept -> std::string_view {
using enum error;
switch (err) {
case init_error: return "init error";
case parse_error: return "parse error";
case execute_error: return "execute error";
case dictionary_overflow: return "dictionary overflow";
case word_not_found: return "word not found";
case stack_underflow: return "stack underflow";
case stack_overflow: return "stack overflow";
case return_stack_underflow: return "return stack underflow";
case return_stack_overflow: return "return stack overflow";
case compile_only_word: return "compile only word";
default: return "unknown error";
}
}
constexpr forth() {
sp = dstack.end();
rp = rstack.end();
}
cell *sp;
cell *rp;
func *ip = nullptr;
cell *here = reinterpret_cast<cell *>(this + 1);
word_base *latest = nullptr;
const char *source = nullptr;
std::size_t sourcei = npos;
cell compiling = false;
cell *end = nullptr;
std::array<cell, data_size> dstack;
std::array<cell, return_size> rstack;
};
static_assert(offsetof(forth::word_base, flags_len) == 1 * sizeof(forth::cell));
static_assert(offsetof(forth, rp) == 1 * sizeof(forth::cell));
static_assert(offsetof(forth, ip) == 2 * sizeof(forth::cell));
static_assert(offsetof(forth, here) == 3 * sizeof(forth::cell));
static_assert(offsetof(forth, latest) == 4 * sizeof(forth::cell));
static_assert(offsetof(forth, source) == 5 * sizeof(forth::cell));
static_assert(offsetof(forth, sourcei) == 6 * sizeof(forth::cell));
static_assert(offsetof(forth, compiling) == 7 * sizeof(forth::cell));
static_assert(offsetof(forth, end) == 8 * sizeof(forth::cell));
#endif // SFORTH_HPP