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alee-forth/libalee/corewords.cpp

258 lines
7.7 KiB
C++

2 years ago
/**
* Alee Forth: A portable and concise Forth implementation in modern C++.
* Copyright (C) 2023 Clyne Sullivan <clyne@bitgloo.com>
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*/
#include "alee.hpp"
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#include <utility>
static void find(State&, Word);
static DoubleCell popd(State&);
static void pushd(State&, DoubleCell);
LIBALEE_SECTION
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void CoreWords::run(Cell ins, State& state)
{
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Addr index = ins;
if (index >= Dictionary::Begin) {
auto& ip = state.ip();
state.pushr(ip);
ip = static_cast<Addr>(index - sizeof(Cell));
} else {
wordstbl[index](state);
}
}
LIBALEE_SECTION
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Cell CoreWords::findi(State& state, Word word)
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{
return findi(word.begin(&state.dict), word.size());
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}
LIBALEE_SECTION
void find(State& state, Word word)
{
Cell tok = 0;
Cell imm = 0;
if (auto j = state.dict.find(word); j > 0) {
tok = state.dict.getexec(j);
imm = (state.dict.read(j) & Dictionary::Immediate) ? 1 : -1;
} else if (tok = CoreWords::findi(state, word); tok >= 0) {
imm = (tok == CoreWords::token(";")) ? 1 : -1;
}
state.push(tok);
state.push(imm);
}
DoubleCell popd(State& s)
{
DoubleCell dcell = s.pop();
dcell <<= sizeof(Cell) * 8;
dcell |= static_cast<Addr>(s.pop());
return dcell;
}
void pushd(State& s, DoubleCell d)
{
s.push(static_cast<Cell>(d));
s.push(static_cast<Cell>(d >> (sizeof(Cell) * 8)));
}
void CoreWords::word_lit(State& state) { // Execution semantics of `literal`.
state.push(state.beyondip());
}
void CoreWords::word_drop(State& state) {
state.pop();
}
void CoreWords::word_dup(State& state) {
state.push(state.top());
}
void CoreWords::word_swap(State& state) {
std::swap(state.top(), state.pick(1));
}
void CoreWords::word_pick(State& state) {
state.push(state.pick(state.pop()));
}
void CoreWords::word_sys(State& state) { // Calls user-defined "system" handler.
user_sys(state);
}
void CoreWords::word_add(State& state) {
auto cell = state.pop();
state.top() += cell;
}
void CoreWords::word_sub(State& state) {
auto cell = state.pop();
state.top() -= cell;
}
void CoreWords::word_mul(State& state) { // ( n n -- d )
auto cell = state.pop();
auto dcell = (DoubleCell)state.pop() * cell;
pushd(state, dcell);
}
void CoreWords::word_div(State& state) { // ( d n -- n )
auto cell = state.pop();
auto dcell = (DoubleCell)popd(state);
state.push(static_cast<Cell>(dcell / cell));
}
void CoreWords::word_mod(State& state) { // ( d n -- n )
auto cell = state.pop();
auto dcell = (DoubleCell)popd(state);
state.push(static_cast<Cell>(dcell % cell));
}
void CoreWords::word_peek(State& state) { // ( addr cell? -- n )
if (state.pop())
state.push(state.dict.read(state.pop()));
else
state.push(state.dict.readbyte(state.pop()));
}
void CoreWords::word_poke(State& state) { // ( n addr cell? -- )
auto cell = state.pop();
if (auto addr = state.pop(); cell)
state.dict.write(addr, state.pop());
else
state.dict.writebyte(addr, state.pop() & 0xFFu);
}
void CoreWords::word_rpush(State& state) {
state.pushr(state.pop());
}
void CoreWords::word_rpop(State& state) {
state.push(state.popr());
}
void CoreWords::word_eq(State& state) {
auto cell = state.pop();
state.top() = state.top() == cell ? -1 : 0;
}
void CoreWords::word_lt(State& state) {
auto cell = state.pop();
state.top() = state.top() < cell ? -1 : 0;
}
void CoreWords::word_and(State& state) {
auto cell = state.pop();
state.top() &= cell;
}
void CoreWords::word_or(State& state) {
auto cell = state.pop();
state.top() |= cell;
}
void CoreWords::word_xor(State& state) {
auto cell = state.pop();
state.top() ^= cell;
}
void CoreWords::word_shl(State& state) {
auto cell = state.pop();
reinterpret_cast<Addr&>(state.top()) <<= static_cast<Addr>(cell);
}
void CoreWords::word_shr(State& state) {
auto cell = state.pop();
reinterpret_cast<Addr&>(state.top()) >>= static_cast<Addr>(cell);
}
void CoreWords::word_colon(State& state) { // Begins definition/compilation of new word.
state.push(state.dict.alignhere());
state.dict.write(Dictionary::CompToken, state.top());
while (!state.dict.hasInput())
state.input();
state.dict.addDefinition(state.dict.input());
state.compiling(true);
}
void CoreWords::word_tick(State& state) { // Collects input word and finds execution token.
while (!state.dict.hasInput())
state.input();
find(state, state.dict.input());
}
void CoreWords::word_execute(State& state) {
run(state.pop(), state);
}
void CoreWords::word_exit(State& state) {
state.ip() = state.popr();
state.verify(state.ip() != 0, Error::exit);
}
void CoreWords::word_semic(State& state) { // Concludes word definition.
state.dict.add(token("exit"));
state.compiling(false);
auto cell = state.pop();
auto dcell = (DoubleCell)cell - state.dict.latest();
if (dcell >= Dictionary::MaxDistance) {
// Large distance to previous entry: store in dedicated cell.
state.dict.write(static_cast<Addr>(cell) + sizeof(Cell),
static_cast<Cell>(dcell));
dcell = Dictionary::MaxDistance;
}
state.dict.write(cell,
(state.dict.read(cell) & 0x1F) | static_cast<Cell>(dcell << Dictionary::DistancePos));
state.dict.latest(cell);
}
void CoreWords::word_jmp0(State& state) { // Jump if popped value equals zero.
if (state.pop()) {
state.beyondip();
} else {
state.ip() = static_cast<Addr>(state.beyondip() - sizeof(Cell));
}
}
void CoreWords::word_jmp(State& state) { // Unconditional jump.
state.ip() = static_cast<Addr>(state.beyondip() - sizeof(Cell));
}
void CoreWords::word_depth(State& state) {
state.push(static_cast<Cell>(state.size()));
}
void CoreWords::word_rdepth(State& state) {
state.push(static_cast<Cell>(state.rsize()));
}
void CoreWords::word_in(State& state) { // Fetches more input from the user input source.
state.input();
}
void CoreWords::word_ev(State& state) { // Evaluates words from current input source.
const auto st = state.save();
state.ip() = 0;
Parser::parseSource(state);
state.load(st);
}
void CoreWords::word_find(State& state) {
auto cell = state.pop();
find(state,
Word::fromLength(static_cast<Addr>(cell + 1),
state.dict.readbyte(cell)));
}
void CoreWords::word_uma(State& state) { // ( d u u -- d ): Unsigned multiply-add.
const auto plus = state.pop();
auto cell = state.pop();
auto dcell = popd(state);
dcell *= static_cast<Addr>(cell);
dcell += static_cast<Addr>(plus);
pushd(state, dcell);
}
void CoreWords::word_ult(State& state) {
auto cell = state.pop();
state.top() = static_cast<Addr>(state.top()) <
static_cast<Addr>(cell) ? -1 : 0;
}
void CoreWords::word_ummod(State& state) {
auto cell = state.pop();
auto dcell = popd(state);
state.push(static_cast<Cell>(
static_cast<DoubleAddr>(dcell) %
static_cast<Addr>(cell)));
state.push(static_cast<Cell>(
static_cast<DoubleAddr>(dcell) /
static_cast<Addr>(cell)));
}