/* 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. * */ /* * This code is based on the original source code of Lord Avalot d'Argent version 1.3. * Copyright (c) 1994-1995 Mike, Mark and Thomas Thurman. */ #include "graph.h" /*#include "Tommys.h"*/ /*#include "Crt.h"*/ namespace Avalanche { enum flavourtype {ch_ega, ch_bgi, last_flavourtype}; struct chunkblocktype { flavourtype flavour; integer x, y; integer xl, yl; longint size; boolean natural; boolean memorise; /* Hold it in memory? */ }; const array<1, 44, char> chunkheader = string("Chunk-type AVD file, for an Avvy game.") + '\32' + '\261' + '\x30' + '\x1' + '\x75' + '\261'; const integer arraysize = 12000; array<1, 30, longint> offsets; byte num_chunks, this_chunk; integer gd, gm; untyped_file f; array<0, arraysize, byte> aa; void finder() { char r; integer x, y; setfillstyle(0, 0); setcolor(14); x = 320; y = 100; setwritemode(xorput); do { bar(0, 0, 200, 10); outtextxy(0, 0, strf(x) + ',' + strf(y)); line(x - 20, y, x + 20, y); line(x, y - 20, x, y + 20); do { } while (!keypressed()); line(x - 20, y, x + 20, y); line(x, y - 20, x, y + 20); switch (readkey()) { case '\15': return; break; case '8': y -= 10; break; case '4': x -= 10; break; case '6': x += 10; break; case '2': y += 10; break; case '\0': switch (readkey()) { case cup: y -= 1; break; case cdown: y += 1; break; case cleft: x -= 1; break; case cright: x += 1; break; } break; } } while (!false); } void load() { byte a1 /*absolute $A400:800*/; byte bit; untyped_file f; assign(f, "place47.avd"); reset(f, 1); seek(f, 177); for (bit = 0; bit <= 3; bit ++) { port[0x3c4] = 2; port[0x3ce] = 4; port[0x3c5] = 1 << bit; port[0x3cf] = bit; blockread(f, a1, 12080); } close(f); bit = getpixel(0, 0); setvisualpage(1); setactivepage(1); finder(); setvisualpage(0); setactivepage(0); } void loadtemp() { byte a0 /*absolute $A000:800*/; byte bit; untyped_file f; assign(f, "chunkbi9.avd"); reset(f, 1); seek(f, 177); for (bit = 0; bit <= 3; bit ++) { port[0x3c4] = 2; port[0x3ce] = 4; port[0x3c5] = 1 << bit; port[0x3cf] = bit; blockread(f, a0, 12080); } close(f); bit = getpixel(0, 0); finder(); } void open_chunk() { assign(f, "chunk47.avd"); rewrite(f, 1); blockwrite(f, chunkheader, sizeof(chunkheader)); blockwrite(f, num_chunks, 1); blockwrite(f, offsets, num_chunks * 4); this_chunk = 0; } void close_chunk() { seek(f, 45); blockwrite(f, offsets, num_chunks * 4); /* make sure they're right! */ close(f); } void mgrab(integer x1, integer y1, integer x2, integer y2, word size) { integer yy; word aapos; byte length, bit; if (size > arraysize) { restorecrtmode(); output << "*** SORRY! *** Increase the arraysize constant to be greater" << NL; output << " than " << size << '.' << NL; exit(0); } aapos = 0; length = x2 - x1; for (bit = 0; bit <= 3; bit ++) { port[0x3c4] = 2; port[0x3ce] = 4; port[0x3c5] = 1 << bit; port[0x3cf] = bit; for (yy = y1; yy <= y2; yy ++) { move(mem[0xa400 * yy * 80 + x1], aa[aapos], length); aapos += length; } } bit = getpixel(0, 0); } void grab(integer x1, integer y1, integer x2, integer y2, integer realx, integer realy, flavourtype flav, boolean mem, boolean nat) /* yes, I *do* know how to spell "really"! */ { word s; pointer p; chunkblocktype ch; /* rectangle(x1,y1,x2,y2); exit;*/ this_chunk += 1; offsets[this_chunk] = filepos(f); s = imagesize(x1, y1, x2, y2); getmem(p, s); getimage(x1, y1, x2, y2, p); { ch.flavour = flav; ch.x = realx; ch.y = realy; ch.xl = x2 - x1; ch.yl = y2 - y1; ch.size = s; ch.memorise = mem; ch.natural = nat; } setvisualpage(1); setactivepage(1); input >> NL; putimage(ch.x, ch.y, p, 0); if (flav == ch_ega) { freemem(p, s); s = 4 * (((x2 / 8) - (x1 / 8)) + 2) * (y2 - y1 + 1); { ch.size = s; ch.x = ch.x / 8; ch.xl = (ch.xl / 8) + 2; mgrab(ch.x, ch.y, ch.x + ch.xl, ch.y + ch.yl, s); } } else /* For BGI pictures. */ { ch.x = ch.x / 8; ch.xl = (ch.xl + 7) / 8; ch.size = imagesize(ch.x * 8, ch.y, (ch.x + ch.xl) * 8, ch.y + ch.yl); } setvisualpage(0); setactivepage(0); blockwrite(f, ch, sizeof(ch)); switch (flav) { case ch_ega : if (! nat) blockwrite(f, aa, s); break; case ch_bgi : { if (! nat) blockwrite(f, p, s); freemem(p, s); } break; } /* rectangle(x1,y1,x2,y2);*/ } int main(int argc, const char *argv[]) { pio_initialize(argc, argv); gd = 3; gm = 0; initgraph(gd, gm, "c:\\bp\\bgi"); load(); loadtemp(); setwritemode(xorput); num_chunks = 10; open_chunk(); grab(323, 35, 340, 43, 337, 93, ch_ega, true , false); /*1 Port blinks */ grab(323, 35, 340, 43, 337, 93, ch_bgi, true , true); /*2 Port normally */ grab(421, 22, 511, 71, 474, 101, ch_ega, false, false); /*3 Avalot & Spurge */ grab(421, 22, 511, 71, 474, 101, ch_bgi, true , true); /*4 Just Spurge. */ grab(524, 40, 540, 47, 337, 93, ch_ega, true , false); /*5 Port L blinks */ grab(524, 22, 540, 29, 337, 93, ch_ega, true , false); /*6 Port L */ grab(563, 40, 579, 47, 337, 93, ch_ega, true , false); /*7 Port R blinks */ grab(563, 22, 579, 29, 337, 93, ch_ega, true , false); /*8 Port R */ grab(307, 38, 310, 38, 493, 104, ch_ega, true , false); /*9 Spurge blinks */ grab(307, 38, 310, 38, 493, 104, ch_bgi, true , true); /*10 Spurge doesn't blink */ close_chunk(); return EXIT_SUCCESS; } } // End of namespace Avalanche.