/* ScummVM - Scumm Interpreter * Copyright (C) 2001 Ludvig Strigeus * Copyright (C) 2001-2006 The ScummVM project * * 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. * * $URL$ * $Id$ * */ #include "common/stdafx.h" #include "agos/agos.h" #include "agos/intern.h" using Common::File; namespace AGOS { const byte *AGOSEngine::getStringPtrByID(uint stringId) { const byte *string_ptr; byte *dst; _freeStringSlot ^= 1; if (stringId < 0x8000) { string_ptr = _stringTabPtr[stringId]; } else { string_ptr = getLocalStringByID(stringId); } dst = _stringReturnBuffer[_freeStringSlot]; strcpy((char *)dst, (const char *)string_ptr); return dst; } const byte *AGOSEngine::getLocalStringByID(uint stringId) { if (stringId < _stringIdLocalMin || stringId >= _stringIdLocalMax) { loadTextIntoMem(stringId); } return _localStringtable[stringId - _stringIdLocalMin]; } void AGOSEngine::allocateStringTable(int num) { _stringTabPtr = (byte **)calloc(num, sizeof(byte *)); _stringTabPos = 0; _stringtab_numalloc = num; } void AGOSEngine::setupStringTable(byte *mem, int num) { int i = 0; for (;;) { _stringTabPtr[i++] = mem; if (--num == 0) break; for (; *mem; mem++); mem++; } _stringTabPos = i; } void AGOSEngine::setupLocalStringTable(byte *mem, int num) { int i = 0; for (;;) { _localStringtable[i++] = mem; if (--num == 0) break; for (; *mem; mem++); mem++; } } uint AGOSEngine::loadTextFile(const char *filename, byte *dst) { if (getFeatures() & GF_OLD_BUNDLE) return loadTextFile_simon1(filename, dst); else return loadTextFile_gme(filename, dst); } uint AGOSEngine::loadTextFile_simon1(const char *filename, byte *dst) { File fo; fo.open(filename); uint32 size; if (fo.isOpen() == false) error("loadTextFile: Can't open '%s'", filename); size = fo.size(); if (fo.read(dst, size) != size) error("loadTextFile: fread failed"); fo.close(); return size; } uint AGOSEngine::loadTextFile_gme(const char *filename, byte *dst) { uint res; uint32 offs; uint32 size; res = atoi(filename + 4) + _textIndexBase - 1; offs = _gameOffsetsPtr[res]; size = _gameOffsetsPtr[res + 1] - offs; readGameFile(dst, offs, size); return size; } void AGOSEngine::loadTextIntoMem(uint stringId) { byte *p; char filename[30]; int i; uint base_min = 0x8000, base_max, size; _tablesHeapPtr = _tablesheapPtrNew; _tablesHeapCurPos = _tablesHeapCurPosNew; p = _strippedTxtMem; // get filename while (*p) { for (i = 0; *p; p++, i++) filename[i] = *p; filename[i] = 0; p++; base_max = (p[0] * 256) | p[1]; p += 2; if (stringId < base_max) { _stringIdLocalMin = base_min; _stringIdLocalMax = base_max; _localStringtable = (byte **)_tablesHeapPtr; size = (base_max - base_min + 1) * sizeof(byte *); _tablesHeapPtr += size; _tablesHeapCurPos += size; size = loadTextFile(filename, _tablesHeapPtr); setupLocalStringTable(_tablesHeapPtr, base_max - base_min + 1); _tablesHeapPtr += size; _tablesHeapCurPos += size; if (_tablesHeapCurPos > _tablesHeapSize) { error("loadTextIntoMem: Out of table memory"); } return; } base_min = base_max; } error("loadTextIntoMem: didn't find %d", stringId); } static const byte charWidth[226] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 6, 2, 4, 8, 6,10, 9, 2, 4, 4, 6, 6, 3, 4, 2, 3, 6, 4, 6, 6, 7, 6, 6, 6, 6, 6, 2, 3, 7, 7, 7, 6,11, 8, 7, 8, 8, 7, 6, 9, 8, 2, 6, 7, 6,10, 8, 9, 7, 9, 7, 7, 8, 8, 8,12, 8, 8, 7, 3, 3, 3, 6, 8, 3, 7, 7, 6, 7, 7, 4, 7, 6, 2, 3, 6, 2,10, 6, 7, 7, 7, 5, 6, 4, 7, 7,10, 6, 6, 6, 0, 0, 0, 0, 0, 8, 6, 7, 7, 7, 7, 7, 6, 7, 7, 7, 4, 4, 3, 8, 8, 7, 0, 0, 7, 7, 7, 6, 6, 6, 9, 8, 0, 0, 0, 0, 0, 7, 3, 7, 6, 6, 8, 0, 6, 0, 0, 0, 0, 0, 2, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 7 }; const char *getPixelLength(const char *string, uint16 maxWidth, uint16 &pixels) { pixels = 0; while (*string != 0) { byte chr = *string; if ((pixels + charWidth[chr]) > maxWidth) break; pixels += charWidth[chr]; string++; } return string; } bool AGOSEngine::printTextOf(uint a, uint x, uint y) { const byte *stringPtr; uint16 pixels, w; if (getGameType() == GType_SIMON2) { if (getBitFlag(79)) { Subroutine *sub; _variableArray[84] = a; sub = getSubroutineByID(5003); if (sub != NULL) startSubroutineEx(sub); return true; } } if (a >= _numTextBoxes) return false; stringPtr = getStringPtrByID(_shortText[a]); if (getGameType() == GType_FF) { getPixelLength((const char *)stringPtr, 400, pixels); w = pixels + 1; x -= w / 2; printScreenText(6, 0, (const char *)stringPtr, x, y, w); } else { showActionString(stringPtr); } return true; } bool AGOSEngine::printNameOf(Item *item, uint x, uint y) { SubObject *subObject; const byte *stringPtr; uint16 pixels, w; if (item == 0 || item == _dummyItem2 || item == _dummyItem3) return false; subObject = (SubObject *)findChildOfType(item, 2); if (subObject == NULL) return false; stringPtr = getStringPtrByID(subObject->objectName); if (getGameType() == GType_FF) { getPixelLength((const char *)stringPtr, 400, pixels); w = pixels + 1; x -= w / 2; printScreenText(6, 0, (const char *)stringPtr, x, y, w); } else { showActionString(stringPtr); } return true; } void AGOSEngine::printInteractText(uint16 num, const char *string) { char convertedString[320]; char *convertedString2 = convertedString; const char *string2 = string; uint16 height = 15; uint16 w = 0xFFFF; uint16 b, pixels, x; // It doesn't really matter what 'w' is to begin with, as long as it's // something that cannot be generated by getPixelLength(). The original // used 620, which was a potential problem. while (1) { string2 = getPixelLength(string, 620, pixels); if (*string2 == 0x00) { if (w == 0xFFFF) w = pixels; strcpy(convertedString2, string); break; } while (*string2 != ' ') { byte chr = *string2; pixels -= charWidth[chr]; string2--; } if (w == 0xFFFF) w = pixels; b = string2 - string; strncpy(convertedString2, string, b); convertedString2 += b; *convertedString2++ = '\n'; height += 15; string = string2; } // ScrollX x = _variableArray[251]; x += 20; if (num == 1) _interactY = 385; // Returned values for box definition _variableArray[51] = x; _variableArray[52] = _interactY; _variableArray[53] = w; _variableArray[54] = height; stopAnimateSimon2(2, num + 6); renderString(num, 0, w, height, convertedString); loadSprite(4, 2, num + 6, x, _interactY, 12); _interactY += height; } void AGOSEngine::sendInteractText(uint16 num, const char *fmt, ...) { va_list arglist; char string[256]; va_start(arglist, fmt); vsprintf(string, fmt, arglist); va_end(arglist); printInteractText(num, string); } void AGOSEngine::printScreenText(uint vgaSpriteId, uint color, const char *string, int16 x, int16 y, int16 width) { char convertedString[320]; char *convertedString2 = convertedString; const char *string2 = string; int16 height, talkDelay; int stringLength = strlen(string); int padding, lettersPerRow, lettersPerRowJustified; const int textHeight = (getGameType() == GType_FF) ? 15: 10; height = textHeight; lettersPerRow = width / 6; lettersPerRowJustified = stringLength / (stringLength / lettersPerRow + 1) + 1; talkDelay = (stringLength + 3) / 3; if ((getGameType() == GType_SIMON1) && (getFeatures() & GF_TALKIE)) { if (_variableArray[141] == 0) _variableArray[141] = 9; _variableArray[85] = _variableArray[141] * talkDelay; } else { if (_variableArray[86] == 0) talkDelay /= 2; if (_variableArray[86] == 2) talkDelay *= 2; _variableArray[85] = talkDelay * 5; } assert(stringLength > 0); if (getGameType() == GType_FF) { uint16 b, pixels, spaces; while (1) { string2 = getPixelLength(string, width, pixels); if (*string2 == 0) { spaces = (width - pixels) / 12; if (spaces != 0) spaces--; while (spaces) { *convertedString2++ = ' '; spaces--; } strcpy(convertedString2, string); break; } while (*string2 != ' ') { byte chr = *string2; pixels -= charWidth[chr]; string2--; } spaces = (width - pixels) / 12; if (spaces != 0) spaces--; while (spaces) { *convertedString2++ = ' '; spaces--; } b = string2 - string; strncpy(convertedString2, string, b); convertedString2 += b; *convertedString2++ = '\n'; height += textHeight; y -= textHeight; if (y < 2) y = 2; string = string2; } } else { while (stringLength > 0) { int pos = 0; if (stringLength > lettersPerRow) { int removeLastWord = 0; if (lettersPerRow > lettersPerRowJustified) { pos = lettersPerRowJustified; while (string[pos] != ' ') pos++; if (pos > lettersPerRow) removeLastWord = 1; } if (lettersPerRow <= lettersPerRowJustified || removeLastWord) { pos = lettersPerRow; while (string[pos] != ' ' && pos > 0) pos--; } height += textHeight; y -= textHeight; } else pos = stringLength; padding = (lettersPerRow - pos) % 2 ? (lettersPerRow - pos) / 2 + 1 : (lettersPerRow - pos) / 2; while (padding--) *convertedString2++ = ' '; stringLength -= pos; while (pos--) *convertedString2++ = *string++; *convertedString2++ = '\n'; string++; // skip space stringLength--; // skip space } *(convertedString2 - 1) = '\0'; } if (getGameType() == GType_SIMON1) stopAnimateSimon1(vgaSpriteId + 199); else stopAnimateSimon2(2, vgaSpriteId); if (getGameType() == GType_FF) { renderString(1, color, width, height, convertedString); } else { color = color * 3 + 192; if (getPlatform() == Common::kPlatformAmiga) renderStringAmiga(vgaSpriteId, color, width, height, convertedString); else renderString(vgaSpriteId, color, width, height, convertedString); } int b = 4; if (getGameType() == GType_SIMON1 || getGameType() == GType_SIMON2) { if (!getBitFlag(133)) b = 3; x /= 8; if (y < 2) y = 2; } if (getGameType() == GType_SIMON1) loadSprite(b, 2, vgaSpriteId + 199, x, y, 12); else loadSprite(b, 2, vgaSpriteId, x, y, 12); } // String code for boxes in Waxworks uint16 AGOSEngine::getBoxSize() { int x; switch (_boxLineCount) { case 1: x = _lineCounts[0]; if (x <= 26) return 1; if (x <= 64) if (checkFit(_linePtrs[0], 32, 2)) return 2; if (x <= 111) if (checkFit(_linePtrs[0], 37, 3)) return 3; if (x <= 168) if (checkFit(_linePtrs[0], 42, 4)) return 4; if (x <= 240) if (checkFit(_linePtrs[0], 48, 5)) return 5; return 6; case 2: if (_lineCounts[0] <= 32) { if (_lineCounts[1] <= 32) return 2; if (_lineCounts[1] <= 74) if (checkFit(_linePtrs[1], 37, 2)) return 3; if (_lineCounts[1] <= 126) if (checkFit(_linePtrs[1], 42, 3)) return 4; if (_lineCounts[1] <= 172) if (checkFit(_linePtrs[1], 48, 4)) return 5; return 6; } if ((_lineCounts[0] <= 74) && (checkFit(_linePtrs[0], 37, 2))) { if (_lineCounts[1] <= 37) return 3; if (_lineCounts[1] <= 84) if (checkFit(_linePtrs[1], 42, 2)) return 4; if (_lineCounts[1] <= 144) if (checkFit(_linePtrs[1], 48, 3)) return 5; return 6; } if ((_lineCounts[0] <= 126) && (checkFit(_linePtrs[0], 42, 3))) { if (_lineCounts[1] <= 42) return 4; if (_lineCounts[1] <= 84) if (checkFit(_linePtrs[1], 48, 2)) return 5; return 6; } if ((_lineCounts[0] <= 192) && (checkFit(_linePtrs[0], 48, 4))) { if (_lineCounts[1] <= 48) return 5; return 6; } return 6; case 3: if (_lineCounts[0] <= 37) { if (_lineCounts[1] <= 37) { if (_lineCounts[2] <= 37) return 3; if (_lineCounts[2] <= 84) if (checkFit(_linePtrs[2], 42, 2)) return 4; if (_lineCounts[2] <= 144) if (checkFit(_linePtrs[2], 48, 3)) return 5; return 6; } if ((_lineCounts[1] <= 84) && (checkFit(_linePtrs[1], 42, 2))) { if (_lineCounts[2] <= 42) return 4; if (_lineCounts[2] <= 96) if (checkFit(_linePtrs[2], 48, 2)) return 5; return 6; } if ((_lineCounts[1] <= 144) && (checkFit(_linePtrs[1], 48, 3))) { if (_lineCounts[2] <= 48) return 5; return 6; } return 6; } if ((_lineCounts[0] <= 84) && (checkFit(_linePtrs[0], 42, 2))) { if (_lineCounts[1] <= 42) { if (_lineCounts[2] <= 42) return 4; if (_lineCounts[2] <= 96) if (checkFit(_linePtrs[2], 48, 2)) return 5; return 6; } if ((_lineCounts[1] <= 96) && (checkFit(_linePtrs[1], 48, 2))) { if (_lineCounts[2] <= 48) return 5; return 6; } return 6; } if ((_lineCounts[0] <= 96) && (checkFit(_linePtrs[0], 48, 3))) { if (_lineCounts[1] <= 48) { if (_lineCounts[2] <= 48) return 5; } return 6; } return 6; case 4: if (_lineCounts[0] <= 42) { if (_lineCounts[1] <= 42) { if (_lineCounts[2] <= 42) { if (_lineCounts[3] <= 42) return 4; if (_lineCounts[3] <= 96) if (checkFit(_linePtrs[3], 48, 2)) return 5; return 6; } if ((_lineCounts[2] <= 96) && (checkFit(_linePtrs[2], 48, 2))) if (_lineCounts[3] <= 48) return 5; return 6; } if ((_lineCounts[1] <= 96) && (checkFit(_linePtrs[1], 48, 2))) if ((_lineCounts[2] <= 48) && (_lineCounts[3] <= 48)) return 5; return 6; } if ((_lineCounts[0] <= 96) && (checkFit(_linePtrs[0], 48, 2))) if ((_lineCounts[1] <= 48) && (_lineCounts[2] <= 48) && (_lineCounts[3] <= 48)) return 5; return 6; case 5: if ((_lineCounts[0] > 48) || (_lineCounts[1] > 48) || (_lineCounts[2] > 48) || (_lineCounts[3] > 48) || (_lineCounts[4] > 48)) return 6; else return 5; default: return 6; } } uint16 AGOSEngine::checkFit(char *Ptr, int width, int lines) { int countw = 0; int countl = 0; char *x; while (*Ptr) { if (*Ptr == '\n') return 1; if (countw == width) { countl++; countw = 0; Ptr = x; } if (*Ptr == ' ') { x = Ptr; x++; } countw++; if (countl == lines) return 0; Ptr++; } return 1; } void AGOSEngine::boxTextMessage(const char *x) { char *BoxBufferPtr = _boxBuffer; sprintf(BoxBufferPtr, "%s\n", x); _lineCounts[_boxLineCount] += strlen(x); BoxBufferPtr += strlen(x) + 1; _boxLineCount++; _linePtrs[_boxLineCount] = BoxBufferPtr; _boxCR = 1; } void AGOSEngine::boxTextMsg(const char *x) { char *BoxBufferPtr = _boxBuffer; sprintf(BoxBufferPtr, "%s", x); _lineCounts[_boxLineCount] += strlen(x); BoxBufferPtr += strlen(x); _boxCR = 0; } void AGOSEngine::printBox() { char *BoxBufferPtr = 0; uint16 BoxSize; _linePtrs[0] = _boxBuffer; if (_boxCR == 0) _boxLineCount++; stopAnimateSimon1(105); BoxSize = getBoxSize(); _variableArray[53] = BoxSize; loadSprite(3, 1, 100, 0, 0, 0); changeWindow(5); switch(BoxSize) { case 1: _textWindow->x = 10; _textWindow->y = 163; _textWindow->width = 20; _textWindow->height = 1; _textWindow->textMaxLength = 26; break; case 2: _textWindow->x = 8; _textWindow->y = 160; _textWindow->width = 24; _textWindow->height = 2; _textWindow->textMaxLength = 32; break; case 3: _textWindow->x = 6; _textWindow->y = 156; _textWindow->width = 28; _textWindow->height = 3; _textWindow->textMaxLength = 37; break; case 4: _textWindow->x = 4; _textWindow->y = 153; _textWindow->width = 32; _textWindow->height = 4; _textWindow->textMaxLength = 42; break; case 5: _textWindow->x = 2; _textWindow->y = 150; _textWindow->width = 36; _textWindow->height = 5; _textWindow->textMaxLength = 48; break; default:_textWindow->x = 1; _textWindow->y = 147; _textWindow->width = 38; _textWindow->height = 6; _textWindow->textMaxLength = 50; break; } _textWindow->textColumn = 0; _textWindow->textRow = 0; _textWindow->textColumnOffset = 0; _textWindow->textLength = 0; showmessage_helper_3(_textWindow->textLength, _textWindow->textMaxLength); waitForSync(99); BoxBufferPtr = _boxBuffer; while (*BoxBufferPtr) showmessage_print_char(*BoxBufferPtr++); _boxLineCount = 0; BoxBufferPtr = _boxBuffer; _lineCounts[0] = 0; _lineCounts[1] = 0; _lineCounts[2] = 0; _lineCounts[3] = 0; _lineCounts[4] = 0; _lineCounts[5] = 0; changeWindow(0); } } // End of namespace AGOS