/** * 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 "corewords.hpp" #include "parser.hpp" #include 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::Semicolon) ? 1 : -1; } state.push(tok); state.push(imm); } void CoreWords::run(Cell ins, State& state) { Cell cell; DoubleCell dcell; Addr index = ins; auto& ip = state.ip(); auto popd = [](State& s) { DoubleCell dcell = s.pop(); dcell <<= sizeof(Cell) * 8; dcell |= static_cast(s.pop()); return dcell; }; auto pushd = [](State& s, DoubleCell d) { s.push(static_cast(d)); s.push(static_cast(d >> (sizeof(Cell) * 8))); }; execute: if (index >= Dictionary::Begin) { // must be calling a defined subroutine state.pushr(ip); ip = index; return; } else switch (index) { case 0: // _lit state.push(state.beyondip()); break; case 1: // drop state.pop(); break; case 2: // dup state.push(state.top()); break; case 3: // swap std::swap(state.top(), state.pick(1)); break; case 4: // pick state.push(state.pick(state.pop())); break; case 5: // sys user_sys(state); break; case 6: // add cell = state.pop(); state.top() += cell; break; case 7: // sub cell = state.pop(); state.top() -= cell; break; case 8: // mul ( n n -- d ) cell = state.pop(); dcell = state.pop() * cell; pushd(state, dcell); break; case 9: // div ( d n -- n ) cell = state.pop(); dcell = popd(state); state.push(static_cast(dcell / cell)); break; case 10: // mod ( d n -- n ) cell = state.pop(); dcell = popd(state); state.push(static_cast(dcell % cell)); break; case 11: // peek if (state.pop()) state.push(state.dict.read(state.pop())); else state.push(state.dict.readbyte(state.pop())); break; case 12: // poke cell = state.pop(); if (auto addr = state.pop(); cell) state.dict.write(addr, state.pop()); else state.dict.writebyte(addr, state.pop() & 0xFFu); break; case 13: // pushr state.pushr(state.pop()); break; case 14: // popr state.push(state.popr()); break; case 15: // equal cell = state.pop(); state.top() = state.top() == cell ? -1 : 0; break; case 16: // lt cell = state.pop(); state.top() = state.top() < cell ? -1 : 0; break; case 17: // and cell = state.pop(); state.top() &= cell; break; case 18: // or cell = state.pop(); state.top() |= cell; break; case 19: // xor cell = state.pop(); state.top() ^= cell; break; case 20: // shl cell = state.pop(); reinterpret_cast(state.top()) <<= static_cast(cell); break; case 21: // shr cell = state.pop(); reinterpret_cast(state.top()) >>= static_cast(cell); break; case 22: // colon 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); break; case 23: // tick while (!state.dict.hasInput()) state.input(); find(state, state.dict.input()); break; case 24: // execute index = state.pop(); goto execute; case 25: // exit ip = state.popr(); state.verify(ip != 0, Error::exit); break; case 26: // semic state.dict.add(findi("exit")); state.compiling(false); cell = state.pop(); dcell = cell - state.dict.latest(); if (dcell > (1 << (sizeof(Cell) * 8 - 6)) - 1) { state.dict.write(static_cast(cell) + sizeof(Cell), static_cast(dcell)); dcell = ((1 << (sizeof(Cell) * 8 - 6)) - 1); } state.dict.write(cell, (state.dict.read(cell) & 0x1F) | static_cast(dcell << 6)); state.dict.latest(cell); break; case 27: // _jmp0 if (state.pop()) { state.beyondip(); break; } [[fallthrough]]; case 28: // _jmp ip = state.beyondip(); return; case 29: // depth state.push(static_cast(state.size())); break; case 30: // _rdepth state.push(static_cast(state.rsize())); break; case 31: // _in state.input(); break; case 32: // _ex { const auto st = state.save(); ip = 0; Parser::parseSource(state); state.load(st); } break; case 33: // find cell = state.pop(); find(state, Word::fromLength(static_cast(cell + 1), state.dict.readbyte(cell))); break; case 34: // _uma { const auto plus = state.pop(); cell = state.pop(); dcell = popd(state); dcell *= static_cast(cell); dcell += static_cast(plus); pushd(state, dcell); } break; case 35: // u< cell = state.pop(); state.top() = static_cast(state.top()) < static_cast(cell) ? -1 : 0; break; case 36: // um/mod cell = state.pop(); dcell = popd(state); state.push(static_cast( static_cast(dcell) % static_cast(cell))); state.push(static_cast( static_cast(dcell) / static_cast(cell))); break; default: state.push(ins - WordCount); break; } ip += sizeof(Cell); } Cell CoreWords::findi(State& state, Word word) { return findi(word.begin(&state.dict), word.size()); }