/* ScummVM - Graphic Adventure Engine * * ScummVM is the legal property of its developers, whose names * are too numerous to list here. Please refer to the COPYRIGHT * file distributed with this source distribution. * * 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 2 * 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, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * */ // Heavily inspired by hoc // Copyright (C) AT&T 1995 // All Rights Reserved // // Permission to use, copy, modify, and distribute this software and // its documentation for any purpose and without fee is hereby // granted, provided that the above copyright notice appear in all // copies and that both that the copyright notice and this // permission notice and warranty disclaimer appear in supporting // documentation, and that the name of AT&T or any of its entities // not be used in advertising or publicity pertaining to // distribution of the software without specific, written prior // permission. // // AT&T DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, // INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. // IN NO EVENT SHALL AT&T OR ANY OF ITS ENTITIES BE LIABLE FOR ANY // SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES // WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER // IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, // ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF // THIS SOFTWARE. #include "director/lingo/lingo.h" #include "director/lingo/lingo-gr.h" namespace Director { static struct FuncDescr { const inst func; const char *name; const char *args; } funcDescr[] = { { 0, "STOP", "" }, { Lingo::c_xpop, "c_xpop", "" }, { Lingo::c_arraypush, "c_arraypush", "i" }, { Lingo::c_printtop, "c_printtop", "" }, { Lingo::c_constpush, "c_constpush", "i" }, { Lingo::c_voidpush, "c_voidpush", "" }, { Lingo::c_fconstpush, "c_fconstpush", "f" }, { Lingo::c_stringpush, "c_stringpush", "s" }, { Lingo::c_symbolpush, "c_symbolpush", "s" }, // D3 { Lingo::c_varpush, "c_varpush", "s" }, { Lingo::c_setImmediate,"c_setImmediate","i" }, { Lingo::c_assign, "c_assign", "" }, { Lingo::c_eval, "c_eval", "s" }, { Lingo::c_theentitypush,"c_theentitypush","ii" }, // entity, field { Lingo::c_theentityassign,"c_theentityassign","ii" }, { Lingo::c_swap, "c_swap", "" }, { Lingo::c_add, "c_add", "" }, { Lingo::c_sub, "c_sub", "" }, { Lingo::c_mul, "c_mul", "" }, { Lingo::c_div, "c_div", "" }, { Lingo::c_mod, "c_mod", "" }, { Lingo::c_negate, "c_negate", "" }, { Lingo::c_ampersand, "c_ampersand", "" }, { Lingo::c_after, "c_after", "" }, // D3 { Lingo::c_before, "c_before", "" }, // D3 { Lingo::c_concat, "c_concat", "" }, { Lingo::c_contains, "c_contains", "" }, { Lingo::c_starts, "c_starts", "" }, { Lingo::c_intersects, "c_intersects", "" }, { Lingo::c_within, "c_within", "" }, { Lingo::c_charOf, "c_charOf", "" }, // D3 { Lingo::c_charToOf, "c_charToOf", "" }, // D3 { Lingo::c_itemOf, "c_itemOf", "" }, // D3 { Lingo::c_itemToOf, "c_itemToOf", "" }, // D3 { Lingo::c_lineOf, "c_lineOf", "" }, // D3 { Lingo::c_lineToOf, "c_lineToOf", "" }, // D3 { Lingo::c_wordOf, "c_wordOf", "" }, // D3 { Lingo::c_wordToOf, "c_wordToOf", "" }, // D3 { Lingo::c_and, "c_and", "" }, { Lingo::c_or, "c_or", "" }, { Lingo::c_not, "c_not", "" }, { Lingo::c_eq, "c_eq", "" }, { Lingo::c_neq, "c_neq", "" }, { Lingo::c_gt, "c_gt", "" }, { Lingo::c_lt, "c_lt", "" }, { Lingo::c_ge, "c_ge", "" }, { Lingo::c_le, "c_le", "" }, { Lingo::c_repeatwhilecode,"c_repeatwhilecode","oo" }, { Lingo::c_repeatwithcode,"c_repeatwithcode","ooooos" }, { Lingo::c_exitRepeat, "c_exitRepeat", "" }, { Lingo::c_ifcode, "c_ifcode", "oooi" }, { Lingo::c_tellcode, "c_tellcode", "o" }, { Lingo::c_whencode, "c_whencode", "os" }, { Lingo::c_goto, "c_goto", "" }, { Lingo::c_gotoloop, "c_gotoloop", "" }, { Lingo::c_gotonext, "c_gotonext", "" }, { Lingo::c_gotoprevious,"c_gotoprevious","" }, { Lingo::c_play, "c_play", "" }, { Lingo::c_playdone, "c_playdone", "" }, { Lingo::c_call, "c_call", "si" }, { Lingo::c_procret, "c_procret", "" }, { Lingo::c_global, "c_global", "s" }, { Lingo::c_property, "c_property", "s" }, { Lingo::c_instance, "c_instance", "s" }, { Lingo::c_open, "c_open", "" }, { 0, 0, 0 } }; void Lingo::initFuncs() { Symbol sym; for (FuncDescr *fnc = funcDescr; fnc->name; fnc++) { sym.u.func = fnc->func; _functions[(void *)sym.u.s] = new FuncDesc(fnc->name, fnc->args); } } void Lingo::push(Datum d) { _stack.push_back(d); } void Lingo::pushVoid() { Datum d; d.u.s = NULL; d.type = VOID; push(d); } Datum Lingo::pop(void) { if (_stack.size() == 0) error("stack underflow"); Datum ret = _stack.back(); _stack.pop_back(); return ret; } void Lingo::c_xpop() { g_lingo->pop(); } void Lingo::c_printtop(void) { Datum d = g_lingo->pop(); switch (d.type) { case VOID: warning("Void, came from %s", d.u.s ? d.u.s->c_str() : "<>"); break; case INT: warning("%d", d.u.i); break; case FLOAT: warning(g_lingo->_floatPrecisionFormat.c_str(), d.u.f); break; case VAR: if (!d.u.sym) { warning("Inconsistent stack: var, val: %d", d.u.i); } else { if (!d.u.sym->name.empty()) warning("var: %s", d.u.sym->name.c_str()); else warning("Nameless var. val: %d", d.u.sym->u.i); } break; case STRING: warning("%s", d.u.s->c_str()); break; case POINT: warning("point(%d, %d)", (int)((*d.u.arr)[0]), (int)((*d.u.arr)[1])); break; case SYMBOL: warning("%s", d.type2str(true)); break; case OBJECT: warning("#%s", d.u.s->c_str()); break; default: warning("--unknown--"); } } void Lingo::c_constpush() { Datum d; inst i = (*g_lingo->_currentScript)[g_lingo->_pc++]; d.u.i = READ_UINT32(&i); d.type = INT; g_lingo->push(d); } void Lingo::c_voidpush() { Datum d; d.u.s = NULL; d.type = VOID; g_lingo->push(d); } void Lingo::c_fconstpush() { Datum d; inst i = (*g_lingo->_currentScript)[g_lingo->_pc]; d.u.i = READ_UINT32(&i); // d.u.f value will be read d.type = FLOAT; g_lingo->_pc += g_lingo->calcCodeAlignment(sizeof(double)); g_lingo->push(d); } void Lingo::c_stringpush() { char *s = (char *)&(*g_lingo->_currentScript)[g_lingo->_pc]; g_lingo->_pc += g_lingo->calcStringAlignment(s); g_lingo->push(Datum(new Common::String(s))); } void Lingo::c_symbolpush() { char *s = (char *)&(*g_lingo->_currentScript)[g_lingo->_pc]; g_lingo->_pc += g_lingo->calcStringAlignment(s); warning("STUB: c_symbolpush()"); // TODO: FIXME: Must push symbol instead of string g_lingo->push(Datum(new Common::String(s))); } void Lingo::c_arraypush() { Datum d; inst v = (*g_lingo->_currentScript)[g_lingo->_pc++]; int arraySize = READ_UINT32(&v); warning("STUB: c_arraypush()"); for (int i = 0; i < arraySize; i++) g_lingo->pop(); d.u.i = arraySize; d.type = INT; g_lingo->push(d); } void Lingo::c_varpush() { Common::String name((char *)&(*g_lingo->_currentScript)[g_lingo->_pc]); Datum d; g_lingo->_pc += g_lingo->calcStringAlignment(name.c_str()); // In immediate mode we will push variables as strings // This is used for playAccel if (g_lingo->_immediateMode) { g_lingo->push(Datum(new Common::String(name))); return; } if (g_lingo->getHandler(name) != NULL) { d.type = HANDLER; d.u.s = new Common::String(name); g_lingo->push(d); return; } d.u.sym = g_lingo->lookupVar(name.c_str()); if (d.u.sym->type == CASTREF) { d.type = INT; int val = d.u.sym->u.i; delete d.u.sym; d.u.i = val; } else { d.type = VAR; } g_lingo->push(d); } void Lingo::c_setImmediate() { inst i = (*g_lingo->_currentScript)[g_lingo->_pc++]; g_lingo->_immediateMode = READ_UINT32(&i); } void Lingo::c_assign() { Datum d1, d2; d1 = g_lingo->pop(); d2 = g_lingo->pop(); if (d1.type != VAR) { warning("assignment to non-variable"); return; } if (d1.u.sym->type != INT && d1.u.sym->type != VOID && d1.u.sym->type != FLOAT && d1.u.sym->type != STRING) { warning("assignment to non-variable '%s'", d1.u.sym->name.c_str()); return; } if ((d1.u.sym->type == STRING || d1.u.sym->type == VOID) && d1.u.sym->u.s) // Free memory if needed delete d1.u.sym->u.s; if (d1.u.sym->type == POINT || d1.u.sym->type == RECT || d1.u.sym->type == ARRAY) delete d1.u.sym->u.arr; if (d2.type == INT) { d1.u.sym->u.i = d2.u.i; } else if (d2.type == FLOAT) { d1.u.sym->u.f = d2.u.f; } else if (d2.type == STRING) { d1.u.sym->u.s = new Common::String(*d2.u.s); delete d2.u.s; } else if (d2.type == POINT) { d1.u.sym->u.arr = new FloatArray(*d2.u.arr); delete d2.u.arr; } else if (d2.type == SYMBOL) { d1.u.sym->u.i = d2.u.i; } else if (d2.type == OBJECT) { d1.u.sym->u.s = d2.u.s; } else { warning("c_assign: unhandled type: %s", d2.type2str()); d1.u.sym->u.s = d2.u.s; } d1.u.sym->type = d2.type; g_lingo->push(d1); } bool Lingo::verify(Symbol *s) { if (s->type != INT && s->type != VOID && s->type != FLOAT && s->type != STRING && s->type != POINT && s->type != SYMBOL) { warning("attempt to evaluate non-variable '%s'", s->name.c_str()); return false; } if (s->type == VOID) warning("Variable used before assigning a value '%s'", s->name.c_str()); return true; } void Lingo::c_eval() { g_lingo->c_varpush(); Datum d; d = g_lingo->pop(); if (d.type == HANDLER) { g_lingo->call(*d.u.s, 0); delete d.u.s; return; } if (d.type != VAR) { // It could be cast ref g_lingo->push(d); return; } if (!g_lingo->verify(d.u.sym)) return; d.type = d.u.sym->type; if (d.u.sym->type == INT) d.u.i = d.u.sym->u.i; else if (d.u.sym->type == FLOAT) d.u.f = d.u.sym->u.f; else if (d.u.sym->type == STRING) d.u.s = new Common::String(*d.u.sym->u.s); else if (d.u.sym->type == POINT) d.u.arr = d.u.sym->u.arr; else if (d.u.sym->type == SYMBOL) d.u.i = d.u.sym->u.i; else if (d.u.sym->type == VOID) d.u.s = new Common::String(d.u.sym->name); else warning("c_eval: unhandled type: %s", d.type2str()); g_lingo->push(d); } void Lingo::c_theentitypush() { inst e = (*g_lingo->_currentScript)[g_lingo->_pc++]; inst f = (*g_lingo->_currentScript)[g_lingo->_pc++]; Datum id = g_lingo->pop(); int entity = READ_UINT32(&e); int field = READ_UINT32(&f); Datum d = g_lingo->getTheEntity(entity, id, field); g_lingo->push(d); } void Lingo::c_theentityassign() { inst e = (*g_lingo->_currentScript)[g_lingo->_pc++]; inst f = (*g_lingo->_currentScript)[g_lingo->_pc++]; Datum id = g_lingo->pop(); int entity = READ_UINT32(&e); int field = READ_UINT32(&f); Datum d = g_lingo->pop(); g_lingo->setTheEntity(entity, id, field, d); g_lingo->push(d); // Dummy value } void Lingo::c_swap() { Datum d2 = g_lingo->pop(); Datum d1 = g_lingo->pop(); g_lingo->push(d2); g_lingo->push(d1); } void Lingo::c_add() { Datum d2 = g_lingo->pop(); Datum d1 = g_lingo->pop(); if (g_lingo->alignTypes(d1, d2) == FLOAT) { d1.u.f += d2.u.f; } else { d1.u.i += d2.u.i; } g_lingo->push(d1); } void Lingo::c_sub() { Datum d2 = g_lingo->pop(); Datum d1 = g_lingo->pop(); if (g_lingo->alignTypes(d1, d2) == FLOAT) { d1.u.f -= d2.u.f; } else { d1.u.i -= d2.u.i; } g_lingo->push(d1); } void Lingo::c_mul() { Datum d2 = g_lingo->pop(); Datum d1 = g_lingo->pop(); if (g_lingo->alignTypes(d1, d2) == FLOAT) { d1.u.f *= d2.u.f; } else { d1.u.i *= d2.u.i; } g_lingo->push(d1); } void Lingo::c_div() { Datum d2 = g_lingo->pop(); if ((d2.type == INT && d2.u.i == 0) || (d2.type == FLOAT && d2.u.f == 0.0)) error("division by zero"); Datum d1 = g_lingo->pop(); if (g_lingo->alignTypes(d1, d2) == FLOAT) { d1.u.f /= d2.u.f; } else { d1.u.i /= d2.u.i; } g_lingo->push(d1); } void Lingo::c_mod() { Datum d2 = g_lingo->pop(); d2.toInt(); if (d2.u.i == 0) error("division by zero"); Datum d1 = g_lingo->pop(); d1.toInt(); d1.u.i %= d2.u.i; g_lingo->push(d1); } void Lingo::c_negate() { Datum d = g_lingo->pop(); if (d.type == INT) d.u.i = -d.u.i; else if (d.type == FLOAT) d.u.f = -d.u.f; g_lingo->push(d); } void Lingo::c_ampersand() { Datum d2 = g_lingo->pop(); Datum d1 = g_lingo->pop(); d1.toString(); d2.toString(); *d1.u.s += *d2.u.s; delete d2.u.s; g_lingo->push(d1); } void Lingo::c_after() { Datum d2 = g_lingo->pop(); Datum d1 = g_lingo->pop(); d1.toString(); d2.toString(); warning("STUB: c_after"); delete d2.u.s; g_lingo->push(d1); } void Lingo::c_before() { Datum d2 = g_lingo->pop(); Datum d1 = g_lingo->pop(); d1.toString(); d2.toString(); warning("STUB: c_before"); delete d2.u.s; g_lingo->push(d1); } void Lingo::c_concat() { Datum d2 = g_lingo->pop(); Datum d1 = g_lingo->pop(); d1.toString(); d2.toString(); *d1.u.s += " "; *d1.u.s += *d2.u.s; delete d2.u.s; g_lingo->push(d1); } void Lingo::c_contains() { Datum d2 = g_lingo->pop(); Datum d1 = g_lingo->pop(); d1.toString(); d2.toString(); Common::String *s1 = g_lingo->toLowercaseMac(d1.u.s); Common::String *s2 = g_lingo->toLowercaseMac(d2.u.s); int res = s1->contains(*s2) ? 1 : 0; delete d1.u.s; delete d2.u.s; delete s1; delete s2; d1.type = INT; d1.u.i = res; g_lingo->push(d1); } void Lingo::c_starts() { Datum d2 = g_lingo->pop(); Datum d1 = g_lingo->pop(); d1.toString(); d2.toString(); Common::String *s1 = g_lingo->toLowercaseMac(d1.u.s); Common::String *s2 = g_lingo->toLowercaseMac(d2.u.s); int res = s1->hasPrefix(*s2) ? 1 : 0; delete d1.u.s; delete d2.u.s; delete s1; delete s2; d1.type = INT; d1.u.i = res; g_lingo->push(d1); } void Lingo::c_intersects() { Datum d2 = g_lingo->pop(); Datum d1 = g_lingo->pop(); warning("STUB: c_intersects: %d %d", d1.u.i, d2.u.i); g_lingo->push(d1); } void Lingo::c_within() { Datum d2 = g_lingo->pop(); Datum d1 = g_lingo->pop(); warning("STUB: c_within: %d %d", d1.u.i, d2.u.i); g_lingo->push(d1); } void Lingo::c_charOf() { Datum d2 = g_lingo->pop(); Datum d1 = g_lingo->pop(); warning("STUB: c_charOf: %d %d", d1.u.i, d2.u.i); g_lingo->push(d1); } void Lingo::c_charToOf() { Datum d3 = g_lingo->pop(); Datum d2 = g_lingo->pop(); Datum d1 = g_lingo->pop(); warning("STUB: c_charToOf: %d %d %d", d1.u.i, d2.u.i, d3.u.i); g_lingo->push(d1); } void Lingo::c_itemOf() { Datum d2 = g_lingo->pop(); Datum d1 = g_lingo->pop(); warning("STUB: c_itemOf: %d %d", d1.u.i, d2.u.i); g_lingo->push(d1); } void Lingo::c_itemToOf() { Datum d3 = g_lingo->pop(); Datum d2 = g_lingo->pop(); Datum d1 = g_lingo->pop(); warning("STUB: c_itemToOf: %d %d %d", d1.u.i, d2.u.i, d3.u.i); g_lingo->push(d1); } void Lingo::c_lineOf() { Datum d2 = g_lingo->pop(); Datum d1 = g_lingo->pop(); warning("STUB: c_lineOf: %d %d", d1.u.i, d2.u.i); g_lingo->push(d1); } void Lingo::c_lineToOf() { Datum d3 = g_lingo->pop(); Datum d2 = g_lingo->pop(); Datum d1 = g_lingo->pop(); warning("STUB: c_lineToOf: %d %d %d", d1.u.i, d2.u.i, d3.u.i); g_lingo->push(d1); } void Lingo::c_wordOf() { Datum d2 = g_lingo->pop(); Datum d1 = g_lingo->pop(); warning("STUB: c_wordOf: %d %d", d1.u.i, d2.u.i); g_lingo->push(d1); } void Lingo::c_wordToOf() { Datum d3 = g_lingo->pop(); Datum d2 = g_lingo->pop(); Datum d1 = g_lingo->pop(); warning("STUB: c_wordToOf: %d %d %d", d1.u.i, d2.u.i, d3.u.i); g_lingo->push(d1); } void Lingo::c_and() { Datum d2 = g_lingo->pop(); Datum d1 = g_lingo->pop(); d1.toInt(); d2.toInt(); d1.u.i = (d1.u.i && d2.u.i) ? 1 : 0; g_lingo->push(d1); } void Lingo::c_or() { Datum d2 = g_lingo->pop(); Datum d1 = g_lingo->pop(); d1.toInt(); d2.toInt(); d1.u.i = (d1.u.i || d2.u.i) ? 1 : 0; g_lingo->push(d1); } void Lingo::c_not() { Datum d = g_lingo->pop(); d.toInt(); d.u.i = ~d.u.i ? 1 : 0; g_lingo->push(d); } void Lingo::c_eq() { Datum d2 = g_lingo->pop(); Datum d1 = g_lingo->pop(); if (g_lingo->alignTypes(d1, d2) == FLOAT) { d1.u.i = (d1.u.f == d2.u.f) ? 1 : 0; d1.type = INT; } else { d1.u.i = (d1.u.i == d2.u.i) ? 1 : 0; } g_lingo->push(d1); } void Lingo::c_neq() { Datum d2 = g_lingo->pop(); Datum d1 = g_lingo->pop(); if (g_lingo->alignTypes(d1, d2) == FLOAT) { d1.u.i = (d1.u.f != d2.u.f) ? 1 : 0; d1.type = INT; } else { d1.u.i = (d1.u.i != d2.u.i) ? 1 : 0; } g_lingo->push(d1); } void Lingo::c_gt() { Datum d2 = g_lingo->pop(); Datum d1 = g_lingo->pop(); if (g_lingo->alignTypes(d1, d2) == FLOAT) { d1.u.i = (d1.u.f > d2.u.f) ? 1 : 0; d1.type = INT; } else { d1.u.i = (d1.u.i > d2.u.i) ? 1 : 0; } g_lingo->push(d1); } void Lingo::c_lt() { Datum d2 = g_lingo->pop(); Datum d1 = g_lingo->pop(); if (g_lingo->alignTypes(d1, d2) == FLOAT) { d1.u.i = (d1.u.f < d2.u.f) ? 1 : 0; d1.type = INT; } else { d1.u.i = (d1.u.i < d2.u.i) ? 1 : 0; } g_lingo->push(d1); } void Lingo::c_ge() { Datum d2 = g_lingo->pop(); Datum d1 = g_lingo->pop(); if (g_lingo->alignTypes(d1, d2) == FLOAT) { d1.u.i = (d1.u.f >= d2.u.f) ? 1 : 0; d1.type = INT; } else { d1.u.i = (d1.u.i >= d2.u.i) ? 1 : 0; } g_lingo->push(d1); } void Lingo::c_le() { Datum d2 = g_lingo->pop(); Datum d1 = g_lingo->pop(); if (g_lingo->alignTypes(d1, d2) == FLOAT) { d1.u.i = (d1.u.f <= d2.u.f) ? 1 : 0; d1.type = INT; } else { d1.u.i = (d1.u.i <= d2.u.i) ? 1 : 0; } g_lingo->push(d1); } void Lingo::c_repeatwhilecode(void) { Datum d; int savepc = g_lingo->_pc; uint body = READ_UINT32(&(*g_lingo->_currentScript)[savepc]); uint end = READ_UINT32(&(*g_lingo->_currentScript)[savepc + 1]); g_lingo->execute(savepc + 2); /* condition */ d = g_lingo->pop(); d.toInt(); while (d.u.i) { g_lingo->execute(body); /* body */ if (g_lingo->_returning) break; if (g_lingo->_exitRepeat) { g_lingo->_exitRepeat = false; break; } g_lingo->execute(savepc + 2); /* condition */ d = g_lingo->pop(); d.toInt(); } if (!g_lingo->_returning) g_lingo->_pc = end; /* next stmt */ } void Lingo::c_repeatwithcode(void) { Datum d; int savepc = g_lingo->_pc; uint init = READ_UINT32(&(*g_lingo->_currentScript)[savepc]); uint finish = READ_UINT32(&(*g_lingo->_currentScript)[savepc + 1]); uint body = READ_UINT32(&(*g_lingo->_currentScript)[savepc + 2]); int inc = (int32)READ_UINT32(&(*g_lingo->_currentScript)[savepc + 3]); uint end = READ_UINT32(&(*g_lingo->_currentScript)[savepc + 4]); Common::String countername((char *)&(*g_lingo->_currentScript)[savepc + 5]); Symbol *counter = g_lingo->lookupVar(countername.c_str()); if (counter->type == CASTREF) { error("Cast ref used as index: %s", countername.c_str()); } g_lingo->execute(init); /* condition */ d = g_lingo->pop(); d.toInt(); counter->u.i = d.u.i; counter->type = INT; while (true) { g_lingo->execute(body); /* body */ if (g_lingo->_returning) break; if (g_lingo->_exitRepeat) { g_lingo->_exitRepeat = false; break; } counter->u.i += inc; g_lingo->execute(finish); /* condition */ d = g_lingo->pop(); d.toInt(); if (counter->u.i == d.u.i + inc) break; } if (!g_lingo->_returning) g_lingo->_pc = end; /* next stmt */ } void Lingo::c_exitRepeat(void) { g_lingo->_exitRepeat = true; } void Lingo::c_ifcode() { Datum d; int savepc = g_lingo->_pc; /* then part */ uint then = READ_UINT32(&(*g_lingo->_currentScript)[savepc]); uint elsep = READ_UINT32(&(*g_lingo->_currentScript)[savepc + 1]); uint end = READ_UINT32(&(*g_lingo->_currentScript)[savepc + 2]); uint skipEnd = READ_UINT32(&(*g_lingo->_currentScript)[savepc + 3]); debugC(8, kDebugLingoExec, "executing cond (have to %s end)", skipEnd ? "skip" : "execute"); g_lingo->execute(savepc + 4); /* condition */ d = g_lingo->pop(); if (d.toInt()) { debugC(8, kDebugLingoExec, "executing then"); g_lingo->execute(then); } else if (elsep) { /* else part? */ debugC(8, kDebugLingoExec, "executing else"); g_lingo->execute(elsep); } if (!g_lingo->_returning && !skipEnd) { g_lingo->_pc = end; /* next stmt */ debugC(8, kDebugLingoExec, "executing end"); } else { debugC(8, kDebugLingoExec, "Skipped end"); } } void Lingo::c_whencode() { Datum d; uint start = g_lingo->_pc; uint end = READ_UINT32(&(*g_lingo->_currentScript)[start]); Common::String eventname((char *)&(*g_lingo->_currentScript)[start + 1]); start += g_lingo->calcStringAlignment(eventname.c_str()) + 1; debugC(3, kDebugLingoExec, "c_whencode([%5d][%5d], %s)", start, end, eventname.c_str()); g_lingo->define(eventname, start, 0, NULL, end); if (debugChannelSet(3, kDebugLingoExec)) { uint pc = start; while (pc <= end) { Common::String instr = g_lingo->decodeInstruction(pc, &pc); debugC(3, kDebugLingoExec, "[%5d] %s", pc, instr.c_str()); } } g_lingo->_pc = end; } void Lingo::c_tellcode() { warning("STUB: c_tellcode"); } //************************ // Built-in functions //************************ void Lingo::c_goto() { Datum mode = g_lingo->pop(); Datum frame, movie; if (mode.u.i == 2 || mode.u.i == 3) movie = g_lingo->pop(); if (mode.u.i == 1 || mode.u.i == 3) frame = g_lingo->pop(); g_lingo->func_goto(frame, movie); } void Lingo::c_gotoloop() { g_lingo->func_gotoloop(); } void Lingo::c_gotonext() { g_lingo->func_gotonext(); } void Lingo::c_gotoprevious() { g_lingo->func_gotoprevious(); } void Lingo::c_play() { Datum mode = g_lingo->pop(); Datum frame, movie; if (mode.u.i == 2 || mode.u.i == 3) movie = g_lingo->pop(); if (mode.u.i == 1 || mode.u.i == 3) frame = g_lingo->pop(); if (frame.type == VOID) { frame.u.s = new Common::String(""); frame.type = STRING; } frame.toString(); if (movie.type == VOID) { movie.u.s = new Common::String(""); movie.type = STRING; } movie.toString(); warning("STUB: c_play(%s, %s)", frame.u.s->c_str(), movie.u.s->c_str()); } void Lingo::c_playdone() { warning("STUB: c_playdone()"); } void Lingo::c_call() { Common::String name((char *)&(*g_lingo->_currentScript)[g_lingo->_pc]); g_lingo->_pc += g_lingo->calcStringAlignment(name.c_str()); int nargs = READ_UINT32(&(*g_lingo->_currentScript)[g_lingo->_pc++]); g_lingo->call(name, nargs); } void Lingo::call(Common::String name, int nargs) { bool dropArgs = false; Symbol *sym = g_lingo->getHandler(name); if (!g_lingo->_eventHandlerTypeIds.contains(name)) { Symbol *s = g_lingo->lookupVar(name.c_str(), false); if (s && s->type == OBJECT) { debugC(3, kDebugLingoExec, "Dereferencing object reference: %s to %s", name.c_str(), s->u.s->c_str()); name = *s->u.s; sym = g_lingo->getHandler(name); } } if (sym == NULL) { warning("Call to undefined handler '%s'. Dropping %d stack items", name.c_str(), nargs); dropArgs = true; } else { if ((sym->type == BLTIN || sym->type == FBLTIN) && sym->nargs != -1 && sym->nargs != nargs && sym->maxArgs != nargs) { if (sym->nargs == sym->maxArgs) warning("Incorrect number of arguments to handler '%s', expecting %d. Dropping %d stack items", name.c_str(), sym->nargs, nargs); else warning("Incorrect number of arguments to handler '%s', expecting %d or %d. Dropping %d stack items", name.c_str(), sym->nargs, sym->maxArgs, nargs); dropArgs = true; } } if (dropArgs) { for (int i = 0; i < nargs; i++) g_lingo->pop(); // Push dummy value g_lingo->pushVoid(); return; } if (sym->nargs != -1 && sym->maxArgs < nargs) { warning("Incorrect number of arguments for function %s (%d, expected %d to %d). Dropping extra %d", name.c_str(), nargs, sym->nargs, sym->maxArgs, nargs - sym->nargs); for (int i = 0; i < nargs - sym->maxArgs; i++) g_lingo->pop(); } if (sym->type == BLTIN || sym->type == FBLTIN) { if (sym->u.bltin == b_factory) g_lingo->factoryCall(name, nargs); else (*sym->u.bltin)(nargs); return; } for (int i = nargs; i < sym->nargs; i++) { Datum d; d.u.s = NULL; d.type = VOID; g_lingo->push(d); } debugC(5, kDebugLingoExec, "Pushing frame %d", g_lingo->_callstack.size() + 1); CFrame *fp = new CFrame; fp->sp = sym; fp->retpc = g_lingo->_pc; fp->retscript = g_lingo->_currentScript; fp->localvars = g_lingo->_localvars; // Create new set of local variables g_lingo->_localvars = new SymbolHash; g_lingo->_callstack.push_back(fp); g_lingo->_currentScript = sym->u.defn; g_lingo->execute(0); g_lingo->_returning = false; } void Lingo::c_procret() { if (!g_lingo->_callstack.size()) { warning("Call stack underflow"); g_lingo->_returning = true; return; } debugC(5, kDebugLingoExec, "Popping frame %d", g_lingo->_callstack.size() + 1); CFrame *fp = g_lingo->_callstack.back(); g_lingo->_callstack.pop_back(); g_lingo->_currentScript = fp->retscript; g_lingo->_pc = fp->retpc; g_lingo->cleanLocalVars(); // Restore local variables g_lingo->_localvars = fp->localvars; delete fp; g_lingo->_returning = true; } void Lingo::c_global() { Common::String name((char *)&(*g_lingo->_currentScript)[g_lingo->_pc]); Symbol *s = g_lingo->lookupVar(name.c_str(), false); if (s && !s->global) { warning("Local variable %s declared as global", name.c_str()); } s = g_lingo->lookupVar(name.c_str(), true, true); s->global = true; g_lingo->_pc += g_lingo->calcStringAlignment(name.c_str()); } void Lingo::c_property() { Common::String name((char *)&(*g_lingo->_currentScript)[g_lingo->_pc]); g_lingo->_pc += g_lingo->calcStringAlignment(name.c_str()); warning("STUB: c_property()"); } void Lingo::c_instance() { Common::String name((char *)&(*g_lingo->_currentScript)[g_lingo->_pc]); warning("STUB: c_instance(%s)", name.c_str()); g_lingo->_pc += g_lingo->calcStringAlignment(name.c_str()); } void Lingo::c_open() { Datum d2 = g_lingo->pop(); Datum d1 = g_lingo->pop(); d1.toString(); d2.toString(); warning("STUB: c_open(%s, %s)", d1.u.s->c_str(), d2.u.s->c_str()); } }