/** * Alee Forth: A portable and concise Forth implementation in modern C++. * Copyright (C) 2023 Clyne Sullivan * * 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 . */ #include "alee.hpp" LIBALEE_SECTION void Dictionary::initialize() { write(Base, 10); write(Here, Begin); write(Latest, Begin); write(Compiling, 0); write(Source, Input + sizeof(Cell)); } LIBALEE_SECTION Addr Dictionary::allot(Cell amount) noexcept { Addr old = here(); decltype(capacity()) neww = old + amount; if (neww < capacity()) { write(Here, static_cast(neww)); } else { // TODO how to handle allot failure? Error code? } return old; } LIBALEE_SECTION void Dictionary::add(Cell value) noexcept { write(allot(sizeof(Cell)), value); } LIBALEE_SECTION Addr Dictionary::aligned(Addr addr) { return (addr + (sizeof(Cell) - 1)) & ~(sizeof(Cell) - 1); } LIBALEE_SECTION Addr Dictionary::alignhere() noexcept { here(aligned(here())); return here(); } LIBALEE_SECTION void Dictionary::addDefinition(Word word) noexcept { Cell wsize = word.size(); add(wsize); if (alignhere() - latest() >= MaxDistance) add(0); auto addr = allot(wsize); auto it = word.begin(this); const auto end = word.end(this); while (it != end) writebyte(addr++, *it++); alignhere(); } LIBALEE_SECTION Addr Dictionary::find(Word word) noexcept { Addr lt = latest(); for (;;) { const Addr l = read(lt); const Addr len = l & 0x1F; Word lw; if ((l >> DistancePos) < MaxDistance) { lw = Word::fromLength(lt + sizeof(Cell), len); if (equal(word, lw)) return lt; else if (lt == Begin) break; else lt -= l >> DistancePos; } else { lw = Word::fromLength(lt + 2 * sizeof(Cell), len); if (equal(word, lw)) return lt; else if (lt == Begin) break; else lt -= static_cast(read(lt + sizeof(Cell))); } } return 0; } LIBALEE_SECTION Addr Dictionary::getexec(Addr addr) noexcept { const Addr l = read(addr); const Addr len = l & 0x1Fu; addr += sizeof(Cell); if ((l >> DistancePos) == MaxDistance) addr += sizeof(Cell); addr += len; return aligned(addr); } LIBALEE_SECTION bool Dictionary::hasInput() const noexcept { const Addr src = read(Dictionary::Source); const Addr end = read(Dictionary::SourceLen); auto idx = static_cast(read(Dictionary::Input)); while (idx < end) { auto ch = readbyte(src + idx); if (ch == '\0') { break; } else if (!isspace(ch)) { return true; } ++idx; } return false; } LIBALEE_SECTION Word Dictionary::input() noexcept { const Addr src = read(Dictionary::Source); const Addr end = read(Dictionary::SourceLen); auto idx = static_cast(read(Dictionary::Input)); Addr wstart = src + idx; Addr wend = wstart; while (idx < end) { auto ch = readbyte(wend); if (isspace(ch)) { if (wend - wstart > 0) break; ++wstart; } else if (ch == '\0') { break; } ++wend; ++idx; } writebyte(Dictionary::Input, ++idx); return Word(wstart, wend); } LIBALEE_SECTION bool Dictionary::equal(Word word, const char *str, unsigned len) const noexcept { return word.size() == len && equal(word.begin(this), word.end(this), str); } LIBALEE_SECTION bool Dictionary::equal(Word word, Word other) const noexcept { return word.size() == other.size() && equal(word.begin(this), word.end(this), other.begin(this)); }