/* 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. * */ #include "common/system.h" #include "graphics/palette.h" #include "common/file.h" #include "common/rect.h" #include "engines/util.h" #include "hopkins/files.h" #include "hopkins/globals.h" #include "hopkins/graphics.h" #include "hopkins/hopkins.h" namespace Hopkins { GraphicsManager::GraphicsManager() { _lockCtr = 0; SDL_MODEYES = false; SDL_ECHELLE = 0; XSCREEN = YSCREEN = 0; WinScan = 0; Winbpp = 0; PAL_PIXELS = NULL; nbrligne = 0; Linear = false; VideoPtr = NULL; ofscroll = 0; SCROLL = 0; PCX_L = PCX_H = 0; DOUBLE_ECRAN = false; OLD_SCROLL = 0; MANU_SCROLL = 1; SPEED_SCROLL = 16; nbrligne2 = 0; Agr_x = Agr_y = 0; Agr_Flag_x = Agr_Flag_y = 0; FADESPD = 15; FADE_LINUX = 0; NOLOCK = false; no_scroll = 0; REDRAW = false; min_x = 0; min_y = 20; max_x = SCREEN_WIDTH * 2; max_y = SCREEN_HEIGHT - 20; clip_x = clip_y = 0; clip_x1 = clip_y1 = 0; clip_flag = false; SDL_NBLOCS = 0; Red_x = Red_y = 0; Red = 0; Largeur = 0; Compteur_y = 0; spec_largeur = 0; Common::fill(&SD_PIXELS[0], &SD_PIXELS[PALETTE_SIZE * 2], 0); Common::fill(&TABLE_COUL[0], &TABLE_COUL[PALETTE_EXT_BLOCK_SIZE], 0); Common::fill(&cmap[0], &cmap[PALETTE_BLOCK_SIZE], 0); Common::fill(&Palette[0], &Palette[PALETTE_EXT_BLOCK_SIZE], 0); Common::fill(&OLD_PAL[0], &OLD_PAL[PALETTE_EXT_BLOCK_SIZE], 0); } GraphicsManager::~GraphicsManager() { _vm->_globals.dos_free2(VESA_SCREEN); _vm->_globals.dos_free2(VESA_BUFFER); } void GraphicsManager::setParent(HopkinsEngine *vm) { _vm = vm; } void GraphicsManager::SET_MODE(int width, int height) { if (!SDL_MODEYES) { SDL_ECHELLE = 0; if (_vm->_globals.XSETMODE == 1) SDL_ECHELLE = 0; if (_vm->_globals.XSETMODE == 2) SDL_ECHELLE = 25; if (_vm->_globals.XSETMODE == 3) SDL_ECHELLE = 50; if (_vm->_globals.XSETMODE == 4) SDL_ECHELLE = 75; if (_vm->_globals.XSETMODE == 5) SDL_ECHELLE = _vm->_globals.XZOOM; int bpp = 8; if (_vm->_globals.XFORCE8 == true) bpp = 8; if (_vm->_globals.XFORCE16 == true) bpp = 16; if (SDL_ECHELLE) { width = Reel_Zoom(width, SDL_ECHELLE); height = Reel_Zoom(height, SDL_ECHELLE); } Graphics::PixelFormat pixelFormat16(2, 5, 6, 5, 0, 11, 5, 0, 0); if (bpp == 8) { initGraphics(width, height, true); } else { initGraphics(width, height, true, &pixelFormat16); } // Init surfaces VESA_SCREEN = _vm->_globals.dos_malloc2(SCREEN_WIDTH * 2 * SCREEN_HEIGHT); VESA_BUFFER = _vm->_globals.dos_malloc2(SCREEN_WIDTH * 2 * SCREEN_HEIGHT); VideoPtr = NULL; XSCREEN = width; YSCREEN = height; Linear = true; Winbpp = bpp / 8; WinScan = width * Winbpp; PAL_PIXELS = SD_PIXELS; nbrligne = width; Common::fill(&cmap[0], &cmap[256 * 3], 0); SDL_MODEYES = true; } else { error("Called SET_MODE multiple times"); } } void GraphicsManager::DD_Lock() { if (!NOLOCK) { if (_lockCtr++ == 0) VideoPtr = g_system->lockScreen(); } } void GraphicsManager::DD_Unlock() { assert(VideoPtr); if (--_lockCtr == 0) { g_system->unlockScreen(); VideoPtr = NULL; } } // Clear Screen void GraphicsManager::Cls_Video() { assert(VideoPtr); VideoPtr->fillRect(Common::Rect(0, 0, XSCREEN, YSCREEN), 0); } void GraphicsManager::LOAD_IMAGE(const Common::String &file) { Common::String filename = Common::String::format("%s.PCX", file.c_str()); CHARGE_ECRAN(filename); INIT_TABLE(165, 170, Palette); } // Load Screen void GraphicsManager::CHARGE_ECRAN(const Common::String &file) { bool flag; Common::File f; _vm->_fileManager.DMESS1(); flag = true; if (_vm->_fileManager.RECHERCHE_CAT(file, 6)) { _vm->_fileManager.CONSTRUIT_FICHIER(_vm->_globals.HOPIMAGE, file); if (!f.open(_vm->_globals.NFICHIER)) error("CHARGE_ECRAN - %s", file.c_str()); f.seek(0, SEEK_END); f.close(); flag = false; } SCROLL_ECRAN(0); A_PCX640_480((byte *)VESA_SCREEN, file, Palette, flag); SCROLL = 0; OLD_SCROLL = 0; Cls_Pal(); if (!DOUBLE_ECRAN) { souris_max(); SCANLINE(SCREEN_WIDTH); max_x = SCREEN_WIDTH; DD_Lock(); Cls_Video(); if (Winbpp == 2) { if (SDL_ECHELLE) m_scroll16A(VESA_SCREEN, 0, 0, SCREEN_WIDTH, SCREEN_HEIGHT, 0, 0); else m_scroll16(VESA_SCREEN, 0, 0, SCREEN_WIDTH, SCREEN_HEIGHT, 0, 0); } else if (Winbpp == 1) { if (!SDL_ECHELLE) m_scroll2(VESA_SCREEN, 0, 0, SCREEN_WIDTH, SCREEN_HEIGHT, 0, 0); else m_scroll2A(VESA_SCREEN, 0, 0, SCREEN_WIDTH, SCREEN_HEIGHT, 0, 0); } DD_Unlock(); } else { SCANLINE(SCREEN_WIDTH * 2); max_x = SCREEN_WIDTH * 2; DD_Lock(); Cls_Video(); DD_Unlock(); if (MANU_SCROLL == 1) { DD_Lock(); if (Winbpp == 2) { if (SDL_ECHELLE) m_scroll16A(VESA_SCREEN, 0, 0, SCREEN_WIDTH, SCREEN_HEIGHT, 0, 0); else m_scroll16(VESA_SCREEN, 0, 0, SCREEN_WIDTH, SCREEN_HEIGHT, 0, 0); } if (Winbpp == 1) { if (!SDL_ECHELLE) m_scroll2(VESA_SCREEN, 0, 0, SCREEN_WIDTH, SCREEN_HEIGHT, 0, 0); else m_scroll2A(VESA_SCREEN, 0, 0, SCREEN_WIDTH, SCREEN_HEIGHT, 0, 0); } DD_Unlock(); } } memcpy(VESA_BUFFER, VESA_SCREEN, SCREEN_WIDTH * 2 * SCREEN_HEIGHT); } void GraphicsManager::INIT_TABLE(int a1, int a2, byte *palette) { for (int idx = 0; idx < 256; ++idx) TABLE_COUL[idx] = idx; Trans_bloc(TABLE_COUL, palette, 256, a1, a2); for (int idx = 0; idx < 256; ++idx) { byte v = TABLE_COUL[idx]; if (v > 27) TABLE_COUL[idx] = 0; if (!v) TABLE_COUL[idx] = 0; } TABLE_COUL[0] = 1; } // Scroll Screen int GraphicsManager::SCROLL_ECRAN(int amount) { int result = CLIP(amount, 0, SCREEN_WIDTH); _vm->_eventsManager.start_x = result; ofscroll = result; SCROLL = result; return result; } void GraphicsManager::Trans_bloc(byte *destP, const byte *srcP, int count, int minThreshold, int maxThreshold) { byte *destPosP; int palIndex; int srcOffset; int col1, col2; destPosP = destP; for (int idx = 0; idx < count; ++idx) { palIndex = *(byte *)destPosP++; srcOffset = 3 * palIndex; col1 = *(srcP + srcOffset) + *(srcP + srcOffset + 1) + *(srcP + srcOffset + 2); for (int idx2 = 0; idx2 < 38; ++idx2) { srcOffset = 3 * idx2; col2 = *(srcP + srcOffset) + *(srcP + srcOffset + 1) + *(srcP + srcOffset + 2); col2 += minThreshold; if (col2 < col1) continue; col2 -= maxThreshold; if (col2 > col1) continue; *(destPosP - 1) = (idx2 == 0) ? 1 : idx2; break; } } } void GraphicsManager::Trans_bloc2(byte *surface, byte *col, int size) { byte *dataP; int count; byte dataVal; dataP = surface; count = size - 1; do { dataVal = *dataP++; *(dataP - 1) = *(dataVal + col); --count; } while (count); } // TODO: See if it's feasible and/or desirable to change this to use the Common PCX decoder void GraphicsManager::A_PCX640_480(byte *surface, const Common::String &file, byte *palette, bool typeFlag) { int filesize; int v6; int v7; int v8; int v9; int v10; int v11; byte v12; int v13; int v14; char v15; int v18; int v19; int v20; unsigned int v21; int v22; int32 v23; byte *ptr; Common::File f; // Clear the passed surface memset(surface, 0, SCREEN_WIDTH * 2 * SCREEN_HEIGHT); if (typeFlag) { _vm->_fileManager.CONSTRUIT_FICHIER(_vm->_globals.HOPIMAGE, "PIC.RES"); if (!f.open(_vm->_globals.NFICHIER)) error("(nom)Erreur en cours de lecture."); f.seek(_vm->_globals.CAT_POSI); v7 = _vm->_globals.CAT_TAILLE - 896; v8 = f.read(HEADER_PCX, 128); v6 = (int16)READ_LE_UINT16(&HEADER_PCX[8]) + 1; v20 = (int16)READ_LE_UINT16(&HEADER_PCX[10]) + 1; if (((int16)READ_LE_UINT16(&HEADER_PCX[8]) + 1) <= SCREEN_WIDTH) { DOUBLE_ECRAN = false; } else { v6 = SCREEN_WIDTH * 2; DOUBLE_ECRAN = true; } if (v20 > SCREEN_HEIGHT) v20 = SCREEN_HEIGHT; PCX_L = v6; PCX_H = v20; if (v8 == -1) error("Erreur en cours de lecture."); } else { _vm->_fileManager.CONSTRUIT_FICHIER(_vm->_globals.HOPIMAGE, file); if (!f.open(_vm->_globals.NFICHIER)) error("(nom)Erreur en cours de lecture."); filesize = f.size(); int bytesRead = f.read(HEADER_PCX, 128); if (bytesRead < 128) error("Erreur en cours de lecture."); v6 = (int16)READ_LE_UINT16(&HEADER_PCX[8]) + 1; v20 = (int16)READ_LE_UINT16(&HEADER_PCX[10]) + 1; if (v6 <= SCREEN_WIDTH) { DOUBLE_ECRAN = false; } else { v6 = SCREEN_WIDTH * 2; DOUBLE_ECRAN = true; } if (v20 > SCREEN_HEIGHT) v20 = SCREEN_HEIGHT; PCX_L = v6; PCX_H = v20; v7 = filesize - 896; } ptr = _vm->_globals.dos_malloc2(0xEE60u); if (v7 >= 60000) { v21 = v7 / 60000 + 1; v23 = 60000 * (v7 / 60000) - v7; if (((uint32)v23 & 0x80000000u) != 0) v23 = -v23; f.read(ptr, 60000); v7 = 60000; } else { v21 = 1; v23 = v7; f.read(ptr, v7); } v22 = v21 - 1; v18 = 0; v9 = 0; v10 = 0; v19 = v6; do { if (v9 == v7) { v9 = 0; --v22; v7 = 60000; if ( !v22 ) v7 = v23; v11 = v10; f.read(ptr, v7); v10 = v11; } v12 = *((byte *)ptr + v9++); if (v12 > 0xC0u) { v13 = v12 - 192; if (v9 == v7) { v9 = 0; --v22; v7 = 60000; if ( v22 == 1 ) v7 = v23; v14 = v10; f.read(ptr, v7); v10 = v14; } v15 = *((byte *)ptr + v9++); do { *((byte *)surface + v10++) = v15; ++v18; --v13; } while (v13); } else { *((byte *)surface + v10++) = v12; ++v18; } } while (v18 < v19 * v20); if (typeFlag) { f.seek(_vm->_globals.CAT_TAILLE + _vm->_globals.CAT_POSI - 768); } else { filesize = f.size(); f.seek(filesize - 768); } if (f.read(palette, PALETTE_BLOCK_SIZE) != (PALETTE_BLOCK_SIZE)) error("A_PCX640_480"); f.close(); _vm->_globals.dos_free2(ptr); } // Clear Palette void GraphicsManager::Cls_Pal() { Common::fill(&cmap[0], &cmap[PALETTE_BLOCK_SIZE], 0); SD_PIXELS[0] = 0; if (Winbpp == 1) { g_system->getPaletteManager()->setPalette(cmap, 0, 256); } } // TODO: Check if it's normal it's defined two times (also in events). void GraphicsManager::souris_max() { // Original has no implementation } void GraphicsManager::SCANLINE(int pitch) { nbrligne = nbrligne2 = pitch; } void GraphicsManager::m_scroll(const byte *surface, int xs, int ys, int width, int height, int destX, int destY) { const byte *v7; byte *v8; int v9; int v10; byte *v11; const byte *v12; unsigned int v13; assert(VideoPtr); v7 = xs + nbrligne2 * ys + surface; v8 = destX + WinScan * destY + (byte *)VideoPtr->pixels; v9 = height; do { v10 = v9; memcpy((byte *)v8, (const byte *)v7, 4 * (width >> 2)); v12 = (const byte *)(v7 + 4 * (width >> 2)); v11 = (byte *)(v8 + 4 * (width >> 2)); v13 = width - 4 * (width >> 2); memcpy(v11, v12, v13); v8 = v11 + v13 + WinScan - width; v7 = v12 + v13 + nbrligne2 - width; v9 = v10 - 1; } while (v10 != 1); } void GraphicsManager::m_scroll2(const byte *surface, int xs, int ys, int width, int height, int destX, int destY) { const byte *v7; byte *v8; int v9; int v10; int v11; assert(VideoPtr); v7 = xs + nbrligne2 * ys + surface; v8 = destX + WinScan * destY + (byte *)VideoPtr->pixels; v9 = WinScan - SCREEN_WIDTH; v10 = nbrligne2 - SCREEN_WIDTH; v11 = height; do { memcpy(v8, v7, SCREEN_WIDTH); v8 = v8 + v9 + SCREEN_WIDTH; v7 = v7 + v10 + SCREEN_WIDTH; --v11; } while (v11); } void GraphicsManager::m_scroll2A(const byte *surface, int xs, int ys, int width, int height, int destX, int destY) { const byte *v7; byte *v8; int v9; int v10; byte v11; const byte *v12; byte *v13; assert(VideoPtr); v7 = xs + nbrligne2 * ys + surface; v8 = destX + WinScan * destY + (byte *)VideoPtr->pixels; v9 = height; Agr_x = 0; Agr_y = 0; Agr_Flag_y = 0; do { for (;;) { v13 = v8; v12 = v7; v10 = width; Agr_x = 0; do { v11 = *v7; *v8++ = *v7++; Agr_x += SDL_ECHELLE; if ((unsigned int)Agr_x >= 100) { Agr_x -= 100; *v8++ = v11; } --v10; } while ( v10 ); v7 = v12; v8 = WinScan + v13; if (Agr_Flag_y) break; Agr_y += SDL_ECHELLE; if ((unsigned int)Agr_y < 100) break; Agr_y -= 100; Agr_Flag_y = 1; } Agr_Flag_y = 0; v7 = nbrligne2 + v12; --v9; } while (v9); } /** * Copies data from a 8-bit palette surface into the 16-bit screen */ void GraphicsManager::m_scroll16(const byte *surface, int xs, int ys, int width, int height, int destX, int destY) { DD_Lock(); assert(VideoPtr); const byte *srcP = xs + nbrligne2 * ys + surface; uint16 *destP = (uint16 *)((byte *)VideoPtr->pixels + destX * 2 + WinScan * destY); for (int yp = 0; yp < height; ++yp) { // Copy over the line, using the source pixels as lookups into the pixels palette const byte *lineSrcP = srcP; uint16 *lineDestP = destP; for (int xp = 0; xp < width; ++xp) *lineDestP++ = *(uint16 *)&PAL_PIXELS[*lineSrcP++ * 2]; // Move to the start of the next line srcP += nbrligne2; destP += WinScan / 2; } DD_Unlock(); } void GraphicsManager::m_scroll16A(const byte *surface, int xs, int ys, int width, int height, int destX, int destY) { const byte *v7; const byte *v8; int v9; int v10; const byte *v11; int v12; int v13; const byte *v14; const byte *v15; assert(VideoPtr); v7 = xs + nbrligne2 * ys + surface; v8 = destX + destX + WinScan * destY + (byte *)VideoPtr->pixels; v9 = height; Agr_x = 0; Agr_y = 0; Agr_Flag_y = 0; do { for (;;) { v15 = v8; v14 = v7; v10 = width; v13 = v9; v11 = PAL_PIXELS; Agr_x = 0; do { v12 = *(uint16 *)(v11 + 2 * *v7); *(uint16 *)v8 = v12; ++v7; v8 += 2; Agr_x += SDL_ECHELLE; if ((unsigned int)Agr_x >= 100) { Agr_x -= 100; *(uint16 *)v8 = v12; v8 += 2; } --v10; } while (v10); v9 = v13; v7 = v14; v8 = WinScan + v15; if (Agr_Flag_y == 1) break; Agr_y += SDL_ECHELLE; if ((unsigned int)Agr_y < 100) break; Agr_y -= 100; Agr_Flag_y = 1; } Agr_Flag_y = 0; v7 = nbrligne2 + v14; v9 = v13 - 1; } while (v13 != 1); } void GraphicsManager::Copy_Vga(const byte *surface, int xp, int yp, int width, int height, int destX, int destY) { const byte *v7; byte *v8; int v9; int v10; byte v11; byte *v12; byte *v13; byte *v14; byte *v15; const byte *v16; int v17; assert(VideoPtr); v7 = xp + 320 * yp + surface; v8 = 30 * WinScan + destX + destX + WinScan * 2 * destY + (byte *)VideoPtr->pixels; v9 = height; do { v17 = v9; v10 = width; v16 = v7; v15 = v8; do { v11 = *v7; *v8 = *v7; v12 = WinScan + v8; *v12 = v11; v13 = v12 - WinScan + 1; *v13 = v11; v14 = WinScan + v13; *v14 = v11; ++v7; v8 = v14 - WinScan + 1; --v10; } while (v10); v8 = WinScan + WinScan + v15; v7 = v16 + 320; v9 = v17 - 1; } while (v17 != 1); } void GraphicsManager::Copy_Vga16(const byte *surface, int xp, int yp, int width, int height, int destX, int destY) { const byte *v7; uint16 *v8; int v9; int v10; int v11; const byte *v12; uint16 *v13; uint16 v14; uint16 *v15; int v16; uint16 *v17; const byte *v18; int v19; assert(VideoPtr); v7 = xp + 320 * yp + surface; v8 = (uint16 *)(30 * WinScan + destX + destX + destX + destX + WinScan * 2 * destY + (byte *)VideoPtr->pixels); v9 = height; v10 = width; do { v19 = v9; v11 = v10; v18 = v7; v17 = v8; v16 = v10; v12 = PAL_PIXELS; do { v13 = (uint16 *)(v12 + 2 * *v7); v14 = *v13; *v8 = *v13; *(v8 + 1) = v14; v15 = (uint16 *)((byte *)v8 + WinScan); *v15 = v14; *(v15 + 1) = v14; ++v7; v8 = (uint16 *)((byte *)v15 - WinScan + 4); --v11; } while (v11); v10 = v16; v8 = (uint16 *)((byte *)v17 + WinScan * 2); v7 = v18 + 320; v9 = v19 - 1; } while (v19 != 1); } void GraphicsManager::fade_in(const byte *palette, int step, const byte *surface) { uint16 palData1[PALETTE_BLOCK_SIZE * 2]; byte palData2[PALETTE_BLOCK_SIZE]; // Initialise temporary palettes Common::fill(&palData1[0], &palData1[PALETTE_BLOCK_SIZE], 0); Common::fill(&palData2[0], &palData2[PALETTE_BLOCK_SIZE], 0); // Set current palette to black setpal_vga256(palData2); // Loop through fading in the palette uint16 *pTemp1 = &palData1[1]; for (int fadeIndex = 0; fadeIndex < FADESPD; ++fadeIndex) { uint16 *pTemp2 = &palData1[2]; for (int palOffset = 0; palOffset < PALETTE_BLOCK_SIZE; palOffset += 3) { if (palData2[palOffset] < palette[palOffset]) { uint16 v = (palette[palOffset] & 0xff) * 256 / FADESPD; palData1[palOffset] = v; palData2[palOffset] = (v >> 8) & 0xff; } if (palData2[palOffset + 1] < palette[palOffset + 1]) { uint16 *pDest = &pTemp1[palOffset]; uint16 v = (palette[palOffset] & 0xff) * 256 / FADESPD + *pDest; *pDest = v; palData2[palOffset + 1] = (v >> 8) & 0xff; } if (palData2[palOffset + 2] < palette[palOffset + 2]) { uint16 *pDest = &pTemp2[palOffset]; uint16 v = (palette[palOffset] & 0xff) * 256 / FADESPD + *pDest; *pDest = v; palData2[palOffset + 2] = (v >> 8) & 0xff; } } setpal_vga256(palData2); if (Winbpp == 2) { if (SDL_ECHELLE) m_scroll16A(surface, _vm->_eventsManager.start_x, 0, SCREEN_WIDTH, SCREEN_HEIGHT, 0, 0); else m_scroll16(surface, _vm->_eventsManager.start_x, 0, SCREEN_WIDTH, SCREEN_HEIGHT, 0, 0); DD_VBL(); } } // Set the final palette setpal_vga256(palette); // Refresh the screen if (Winbpp == 2) { if (SDL_ECHELLE) m_scroll16A(surface, _vm->_eventsManager.start_x, 0, SCREEN_WIDTH, SCREEN_HEIGHT, 0, 0); else m_scroll16(surface, _vm->_eventsManager.start_x, 0, SCREEN_WIDTH, SCREEN_HEIGHT, 0, 0); DD_VBL(); } } void GraphicsManager::fade_out(const byte *palette, int step, const byte *surface) { int v3; int v4; int v5; int v6; int v7; int v8; int v9; int v10; int v12; uint16 v13; byte palData[PALETTE_BLOCK_SIZE]; int v15[PALETTE_BLOCK_SIZE]; v13 = v3 = FADESPD; if (palette) { v4 = 0; do { v5 = v4; v3 = *(v4 + palette); v3 <<= 8; v15[v5] = v3; palData[v5] = *(v4++ + palette); } while (v4 < PALETTE_BLOCK_SIZE); setpal_vga256(palData); if (Winbpp == 2) { if (SDL_ECHELLE) m_scroll16A(surface, _vm->_eventsManager.start_x, 0, SCREEN_WIDTH, SCREEN_HEIGHT, 0, 0); else m_scroll16(surface, _vm->_eventsManager.start_x, 0, SCREEN_WIDTH, SCREEN_HEIGHT, 0, 0); DD_VBL(); } v6 = 0; if ((int)v13 > 0) { do { v7 = 0; do { v8 = v7; v9 = v15[v7] - (*(v7 + palette) << 8) / v13; v15[v8] = v9; palData[v8] = (v9 >> 8) & 0xff; ++v7; } while (v7 < (PALETTE_BLOCK_SIZE)); setpal_vga256(palData); if (Winbpp == 2) { if (SDL_ECHELLE) m_scroll16A(surface, _vm->_eventsManager.start_x, 0, SCREEN_WIDTH, SCREEN_HEIGHT, 0, 0); else m_scroll16(surface, _vm->_eventsManager.start_x, 0, SCREEN_WIDTH, SCREEN_HEIGHT, 0, 0); DD_VBL(); } ++v6; } while ((int)v13 > v6); } v10 = 0; do { palData[v10++] = 0; } while (v10 < (PALETTE_BLOCK_SIZE)); setpal_vga256(palData); if (Winbpp == 2) { if (!SDL_ECHELLE) { m_scroll16(surface, _vm->_eventsManager.start_x, 0, SCREEN_WIDTH, SCREEN_HEIGHT, 0, 0); return DD_VBL(); } goto LABEL_28; } } else { v12 = 0; do { palData[v12++] = 0; } while (v12 < (PALETTE_BLOCK_SIZE)); setpal_vga256(palData); if (Winbpp == 2) { if (!SDL_ECHELLE) { m_scroll16(surface, _vm->_eventsManager.start_x, 0, SCREEN_WIDTH, SCREEN_HEIGHT, 0, 0); return DD_VBL(); } LABEL_28: m_scroll16A(surface, _vm->_eventsManager.start_x, 0, SCREEN_WIDTH, SCREEN_HEIGHT, 0, 0); return DD_VBL(); } } } void GraphicsManager::FADE_INS() { FADESPD = 1; fade_in(Palette, 1, (const byte *)VESA_BUFFER); } void GraphicsManager::FADE_OUTS() { FADESPD = 1; fade_out(Palette, 1, (const byte *)VESA_BUFFER); } void GraphicsManager::FADE_INW() { FADESPD = 15; fade_in(Palette, 20, (const byte *)VESA_BUFFER); } void GraphicsManager::FADE_OUTW() { FADESPD = 15; fade_out(Palette, 20, (const byte *)VESA_BUFFER); } void GraphicsManager::setpal_vga256(const byte *palette) { CHANGE_PALETTE(palette); } void GraphicsManager::setpal_vga256_linux(const byte *palette, const byte *surface) { CHANGE_PALETTE(palette); if (Winbpp == 2) { if (SDL_ECHELLE) m_scroll16A(surface, _vm->_eventsManager.start_x, 0, SCREEN_WIDTH, SCREEN_HEIGHT, 0, 0); else m_scroll16(surface, _vm->_eventsManager.start_x, 0, SCREEN_WIDTH, SCREEN_HEIGHT, 0, 0); DD_VBL(); } } void GraphicsManager::SETCOLOR(int palIndex, int r, int g, int b) { _vm->_graphicsManager.Palette[palIndex * 3] = 255 * r / 100; _vm->_graphicsManager.Palette[palIndex * 3 + 1] = 255 * g / 100; _vm->_graphicsManager.Palette[palIndex * 3 + 2] = 255 * b / 100; setpal_vga256(Palette); } void GraphicsManager::SETCOLOR2(int palIndex, int r, int g, int b) { return SETCOLOR(palIndex, r, g, b); } void GraphicsManager::SETCOLOR3(int palIndex, int r, int g, int b) { Palette[palIndex * 3] = 255 * r / 100; Palette[palIndex * 3 + 1] = 255 * g / 100; Palette[palIndex * 3 + 2] = 255 * b / 100; } void GraphicsManager::SETCOLOR4(int palIndex, int r, int g, int b) { int rv, gv, bv; int palOffset; int v8; rv = 255 * r / 100; gv = 255 * g / 100; bv = 255 * b / 100; palOffset = 3 * palIndex; Palette[palOffset] = 255 * r / 100; Palette[palOffset + 1] = gv; Palette[palOffset + 2] = bv; v8 = 4 * palIndex; cmap[v8] = rv; cmap[v8 + 1] = gv; cmap[v8 + 2] = bv; WRITE_LE_UINT16(&SD_PIXELS[2 * palIndex], MapRGB(rv, gv, bv)); if (Winbpp == 1) g_system->getPaletteManager()->setPalette(cmap, palIndex, 1); } void GraphicsManager::CHANGE_PALETTE(const byte *palette) { // Copy the palette into the PALPCX block // TODO: Likely either one or both of the destination arrays can be removed, // since PALPCX is only used in SAVE_IMAGE, and cmap in the original was a RGBA // array specifically intended just for passing to the SDL palette setter Common::copy(&palette[0], &palette[PALETTE_BLOCK_SIZE], &PALPCX[0]); Common::copy(&palette[0], &palette[PALETTE_BLOCK_SIZE], &cmap[0]); const byte *srcP = &palette[0]; for (int idx = 0; idx < PALETTE_SIZE; ++idx, srcP += 3) { *(uint16 *)&SD_PIXELS[2 * idx] = MapRGB(*srcP, *(srcP + 1), *(srcP + 2)); } if (Winbpp == 1) g_system->getPaletteManager()->setPalette(cmap, 0, PALETTE_SIZE); } uint16 GraphicsManager::MapRGB(byte r, byte g, byte b) { if (Winbpp == 1) { error("TODO: Support in 8-bit graphics mode"); } else { Graphics::PixelFormat format = g_system->getScreenFormat(); return (r >> format.rLoss) << format.rShift | (g >> format.gLoss) << format.gShift | (b >> format.bLoss) << format.bShift; } } void GraphicsManager::DD_VBL() { // TODO: Is this okay here? g_system->updateScreen(); } void GraphicsManager::FADE_OUTW_LINUX(const byte *surface) { assert(surface); fade_out(Palette, FADESPD, surface); } void GraphicsManager::FADE_INW_LINUX(const byte *surface) { assert(surface); fade_in(Palette, FADESPD, surface); } void GraphicsManager::Copy_WinScan_Vbe3(const byte *srcData, byte *destSurface) { int v; int v3; int v4; const byte *v5; byte v6; int v7; byte v8; byte *v9; int v10; byte v11; byte *v12; v = 0; v3 = 0; v4 = 0; v5 = srcData; for (;;) { v6 = *v5; if (*v5 < 0xDEu) goto Video_Cont3_wVbe; if (v6 == (byte)-4) return; if (v6 < 0xFBu) { v3 += (byte)(*v5 + 35); v6 = *(v5++ + 1); } else if (v6 == (byte)-3) { v3 += *(v5 + 1); v6 = *(v5 + 2); v5 += 2; } else if (v6 == (byte)-2) { v3 += READ_LE_UINT16(v5 + 1); v6 = *(v5 + 3); v5 += 3; } else { v3 += READ_LE_UINT32(v5 + 1); v6 = *(v5 + 5); v5 += 5; } Video_Cont3_wVbe: if (v6 > 0xD2u) { if (v6 == (byte)-45) { v7 = v4; v8 = *(v5 + 1); v = *(v5 + 2); v9 = v3 + destSurface; v3 += v8; memset(v9, v, v8); v5 += 3; v4 = v7; } else { v10 = v4; v11 = (byte)(*v5 + 45); v = *(v5 + 1); v12 = v3 + destSurface; v3 += v11; memset(v12, v, v11); v5 += 2; v4 = v10; } } else { *(v3 + destSurface) = v6; ++v5; ++v3; } }} void GraphicsManager::Copy_Video_Vbe3(const byte *srcData) { int result; int v2; int v3; const byte *v4; uint8 v5; int v6; unsigned int v7; byte *v8; int v9; unsigned int v10; byte *v11; assert(VideoPtr); result = 0; v2 = 0; v3 = 0; v4 = srcData; for (;;) { v5 = *v4; if (*v4 < 222) goto Video_Cont3_Vbe; if (v5 == 252) return; if (v5 < 251) { v2 += *v4 + 35; v5 = *(v4++ + 1); } else if (v5 == (byte)-3) { v2 += *(v4 + 1); v5 = *(v4 + 2); v4 += 2; } else if (v5 == (byte)-2) { v2 += READ_LE_UINT16(v4 + 1); v5 = *(v4 + 3); v4 += 3; } else { v2 += READ_LE_UINT32(v4 + 1); v5 = *(v4 + 5); v4 += 5; } Video_Cont3_Vbe: if (v5 > 210) { if (v5 == 211) { v6 = v3; v7 = *(v4 + 1); result = *(v4 + 2); v8 = v2 + (byte *)VideoPtr->pixels; v2 += v7; memset(v8, result, v7); v4 += 3; v3 = v6; } else { v9 = v3; v10 = (byte)(*v4 + 45); result = *(v4 + 1); v11 = (byte *)(v2 + (byte *)VideoPtr->pixels); v2 += v10; memset(v11, result, v10); v4 += 2; v3 = v9; } } else { *(v2 + (byte *)VideoPtr->pixels) = v5; ++v4; ++v2; } } } void GraphicsManager::Copy_Video_Vbe16(const byte *srcData) { const byte *srcP = srcData; int destOffset = 0; assert(VideoPtr); for (;;) { byte srcByte = *srcP; if (srcByte >= 222) { if (srcByte == 252) return; if (srcByte < 251) { destOffset += srcByte - 221; srcByte = *++srcP; } else if (srcByte == 253) { destOffset += *(const byte *)(srcP + 1); srcByte = *(const byte *)(srcP + 2); srcP += 2; } else if (srcByte == 254) { destOffset += READ_LE_UINT16(srcP + 1); srcByte = *(const byte *)(srcP + 3); srcP += 3; } else { destOffset += READ_LE_UINT32(srcP + 1); srcByte = *(const byte *)(srcP + 5); srcP += 5; } } if (srcByte > 210) { if (srcByte == 211) { int pixelCount = *(srcP + 1); int pixelIndex = *(srcP + 2); uint16 *destP = (uint16 *)((byte *)VideoPtr->pixels + destOffset * 2); uint16 pixelValue = *(uint16 *)(PAL_PIXELS + 2 * pixelIndex); destOffset += pixelCount; while (pixelCount--) *destP++ = pixelValue; srcP += 3; } else { int pixelCount = srcByte - 211; int pixelIndex = *(srcP + 1); uint16 *destP = (uint16 *)((byte *)VideoPtr->pixels + destOffset * 2); uint16 pixelValue = *(uint16 *)(PAL_PIXELS + 2 * pixelIndex); destOffset += pixelCount; while (pixelCount--) *destP++ = pixelValue; srcP += 2; } } else { *((uint16 *)VideoPtr->pixels + destOffset) = *(uint16 *)(PAL_PIXELS + 2 * srcByte); ++srcP; ++destOffset; } } } void GraphicsManager::Copy_Video_Vbe16a(const byte *srcData) { int v2; const byte *v3; byte v4; v2 = 0; v3 = srcData; for (;;) { v4 = *v3; if (*v3 < 0xFCu) goto Video_Cont_Vbe16a; if (v4 == (byte)-4) return; if (v4 == (byte)-3) { v2 += *(v3 + 1); v4 = *(v3 + 2); v3 += 2; } else if (v4 == (byte)-2) { v2 += READ_LE_UINT16(v3 + 1); v4 = *(v3 + 3); v3 += 3; } else { v2 += READ_LE_UINT32(v3 + 1); v4 = *(v3 + 5); v3 += 5; } Video_Cont_Vbe16a: WRITE_LE_UINT16((byte *)VideoPtr->pixels + v2 * 2, READ_LE_UINT16(PAL_PIXELS + 2 * v4)); ++v3; ++v2; } } void GraphicsManager::Capture_Mem(const byte *srcSurface, byte *destSurface, int xs, int ys, unsigned int width, int height) { const byte *srcP; byte *destP; int rowCount; unsigned int i; int rowCount2; // TODO: This code in the original is potentially dangerous, as it doesn't clip the area to within // the screen, and so thus can read areas outside of the allocated surface buffer srcP = xs + nbrligne2 * ys + srcSurface; destP = destSurface; rowCount = height; do { rowCount2 = rowCount; if (width & 1) { memcpy(destP, srcP, width); srcP += width; destP += width; } else if (width & 2) { for (i = width >> 1; i; --i) { *(uint16 *)destP = *(uint16 *)srcP; srcP += 2; destP += 2; } } else { memcpy(destP, srcP, 4 * (width >> 2)); srcP += 4 * (width >> 2); destP += 4 * (width >> 2); } srcP = nbrligne2 + srcP - width; rowCount = rowCount2 - 1; } while (rowCount2 != 1); } void GraphicsManager::Sprite_Vesa(byte *surface, const byte *spriteData, int xp, int yp, int spriteIndex) { // Get a pointer to the start of the desired sprite const byte *spriteP = spriteData + 3; for (int i = spriteIndex; i; --i) spriteP += READ_LE_UINT32(spriteP) + 16; clip_x = 0; clip_y = 0; clip_flag = false; spriteP += 4; int width = READ_LE_UINT16(spriteP); spriteP += 2; int height = READ_LE_UINT16(spriteP); // Clip X clip_x1 = width; if ((xp + width) <= (min_x + 300)) return; if (xp < (min_x + 300)) { clip_x = min_x + 300 - xp; clip_flag = true; } // Clip Y // TODO: This is weird, but it's that way in the original. Original game bug? if ((yp + height) <= height) return; if (yp < (min_y + 300)) { clip_y = min_y + 300 - yp; clip_flag = true; } // Clip X1 if (xp >= (max_x + 300)) return; if ((xp + width) > (max_x + 300)) { int xAmount = width + 10 - (xp + width - (max_x + 300)); if (xAmount <= 10) return; clip_x1 = xAmount - 10; clip_flag = true; } // Clip Y1 if (yp >= (max_y + 300)) return; if ((yp + height) > (max_y + 300)) { int yAmount = height + 10 - (yp + height - (max_y + 300)); if (yAmount <= 10) return; clip_y1 = yAmount - 10; clip_flag = true; } // Sprite display // Set up source spriteP += 6; int srcOffset = READ_LE_UINT16(spriteP); spriteP += 4; const byte *srcP = spriteP; spriteP += srcOffset; // Set up surface destination byte *destP = surface + (yp - 300) * nbrligne2 + (xp - 300); // Handling for clipped versus non-clipped if (clip_flag) { // Clipped version for (int yc = 0; yc < height; ++yc, destP += nbrligne2) { byte *tempDestP = destP; byte byteVal; int xc = 0; while ((byteVal = *srcP) != 253) { ++srcP; width = READ_LE_UINT16(srcP); srcP += 2; if (byteVal == 254) { // Copy pixel range for (int xv = 0; xv < width; ++xv, ++xc, ++spriteP, ++tempDestP) { if (clip_y == 0 && xc >= clip_x && xc < clip_x1) *tempDestP = *spriteP; } } else { // Skip over bytes tempDestP += width; xc += width; } } if (clip_y > 0) --clip_y; srcP += 3; } } else { // Non-clipped for (int yc = 0; yc < height; ++yc, destP += nbrligne2) { byte *tempDestP = destP; byte byteVal; while ((byteVal = *srcP) != 253) { ++srcP; width = READ_LE_UINT16(srcP); srcP += 2; if (byteVal == 254) { // Copy pixel range Common::copy(spriteP, spriteP + width, tempDestP); spriteP += width; } tempDestP += width; } // Skip over control byte and width srcP += 3; } } } void GraphicsManager::FIN_VISU() { for (int idx = 1; idx <= 20; ++idx) { if (_vm->_globals.Bqe_Anim[idx].field4 == 1) _vm->_objectsManager.BOB_OFF(idx); } _vm->_eventsManager.VBL(); _vm->_eventsManager.VBL(); for (int idx = 1; idx <= 20; ++idx) { if (_vm->_globals.Bqe_Anim[idx].field4 == 1) _vm->_objectsManager.BOB_ZERO(idx); } for (int idx = 1; idx <= 29; ++idx) { _vm->_globals.BL_ANIM[idx].v1 = 0; } for (int idx = 1; idx <= 20; ++idx) { _vm->_globals.Bqe_Anim[idx].field4 = 0; } } void GraphicsManager::VISU_ALL() { for (int idx = 1; idx <= 20; ++idx) { if (_vm->_globals.Bqe_Anim[idx].field4 == 1) _vm->_objectsManager.BOB_VISU(idx); } } void GraphicsManager::RESET_SEGMENT_VESA() { int v1; int v2; if (_vm->_globals.NBBLOC > 0) { v1 = 0; v2 = _vm->_globals.NBBLOC; do { _vm->_globals.BLOC[v1++].field0 = 0; } while (v1 != v2); _vm->_globals.NBBLOC = 0; } } // Add VESA Segment void GraphicsManager::Ajoute_Segment_Vesa(int x1, int y1, int x2, int y2) { int v4; int v5; int16 v6; int16 v10; v4 = x1; v10 = 1; if (x2 > max_x) x2 = max_x; if (y2 > max_y) y2 = max_y; if (x1 < min_x) v4 = min_x; if (y1 < min_y) y1 = min_y; v5 = _vm->_globals.NBBLOC; if (_vm->_globals.NBBLOC > 1) { v6 = 0; do { BlocItem &bloc = _vm->_globals.BLOC[v6]; if (bloc.field0 == 1 && v4 >= bloc.x1 && x2 <= bloc.x2 && y1 >= bloc.y1 && y2 <= bloc.y2) v10 = 0; ++v6; v5 = v6; } while (_vm->_globals.NBBLOC + 1 != v6); } if (v10 == 1) { assert(_vm->_globals.NBBLOC < 50); BlocItem &bloc = _vm->_globals.BLOC[++_vm->_globals.NBBLOC]; bloc.field0 = 1; bloc.x1 = v4; bloc.x2 = x2; bloc.y1 = y1; bloc.y2 = y2; } } int GraphicsManager::Magic_Number(signed int v) { int result = v; if (!v) result = 4; if (result & 1) ++result; if (result & 2) result += 2; return result; } // Display VESA Segment void GraphicsManager::Affiche_Segment_Vesa() { if (_vm->_globals.NBBLOC == 0) return; SDL_NBLOCS = _vm->_globals.NBBLOC; DD_Lock(); for (int idx = 1; idx <= _vm->_globals.NBBLOC; ++idx) { BlocItem &bloc = _vm->_globals.BLOC[idx]; Common::Rect &dstRect = dstrect[idx - 1]; if (bloc.field0 != 1) continue; if (_vm->_eventsManager.CASSE != false) { if (Winbpp == 1) { Copy_Vga(VESA_BUFFER, bloc.x1, bloc.y1, bloc.x2 - bloc.x1, bloc.y2 - bloc.y1, bloc.x1, bloc.y1); } else if (Winbpp == 2) { Copy_Vga16(VESA_BUFFER, bloc.x1, bloc.y1, bloc.x2 - bloc.x1, bloc.y2 - bloc.y1, bloc.x1, bloc.y1); } dstRect.left = bloc.x1 * 2; dstRect.top = bloc.y1 * 2 + 30; dstRect.setWidth((bloc.x2 - bloc.x1) * 2); dstRect.setHeight((bloc.y2 - bloc.y1) * 2); } else if (bloc.x2 > _vm->_eventsManager.start_x && bloc.x1 < (_vm->_eventsManager.start_x + SCREEN_WIDTH)) { if (bloc.x1 < _vm->_eventsManager.start_x) bloc.x1 = _vm->_eventsManager.start_x; if (bloc.x2 > (_vm->_eventsManager.start_x + SCREEN_WIDTH)) bloc.x2 = _vm->_eventsManager.start_x + SCREEN_WIDTH; if (SDL_ECHELLE) { // Calculate the bounds int xp = Magic_Number(bloc.x1) - 4; if (xp < _vm->_eventsManager.start_x) xp = _vm->_eventsManager.start_x; int yp = Magic_Number(bloc.y1) - 4; if (yp < 0) yp = 0; int width = Magic_Number(bloc.x2) + 4 - xp; if (width < 4) width = 4; int height = Magic_Number(bloc.y2) + 4 - yp; if (height < 4) height = 4; if ((xp - _vm->_eventsManager.start_x + width) > SCREEN_WIDTH) xp -= 4; if ((height - yp) > (SCREEN_HEIGHT - 40)) yp -= 4; // WORKAROUND: Original didn't lock the screen for access DD_Lock(); if (Winbpp == 2) { m_scroll16A(VESA_BUFFER, xp, yp, width, height, Reel_Zoom(xp - _vm->_eventsManager.start_x, SDL_ECHELLE), Reel_Zoom(yp, SDL_ECHELLE)); } else { m_scroll2A(VESA_BUFFER, xp, yp, width, height, Reel_Zoom(xp - _vm->_eventsManager.start_x, SDL_ECHELLE), Reel_Zoom(yp, SDL_ECHELLE)); } DD_Unlock(); dstRect.left = Reel_Zoom(xp - _vm->_eventsManager.start_x, SDL_ECHELLE); dstRect.top = Reel_Zoom(yp, SDL_ECHELLE); dstRect.setWidth(Reel_Zoom(width, SDL_ECHELLE)); dstRect.setHeight(Reel_Zoom(height, SDL_ECHELLE)); } else { // WORKAROUND: Original didn't lock the screen for access DD_Lock(); if (Winbpp == 2) { m_scroll16(VESA_BUFFER, bloc.x1, bloc.y1, bloc.x2 - bloc.x1, bloc.y2 - bloc.y1, bloc.x1 - _vm->_eventsManager.start_x, bloc.y1); } else { m_scroll(VESA_BUFFER, bloc.x1, bloc.y1, bloc.x2 - bloc.x1, bloc.y2 - bloc.y1, bloc.x1 - _vm->_eventsManager.start_x, bloc.y1); } dstRect.left = bloc.x1 - _vm->_eventsManager.start_x; dstRect.top = bloc.y1; dstRect.setWidth(bloc.x2 - bloc.x1); dstRect.setHeight(bloc.y2 - bloc.y1); DD_Unlock(); } } _vm->_globals.BLOC[idx].field0 = 0; } _vm->_globals.NBBLOC = 0; DD_Unlock(); if (!_vm->_globals.BPP_NOAFF) { // SDL_UpdateRects(LinuxScr, SDL_NBLOCS, dstrect); } SDL_NBLOCS = 0; } void GraphicsManager::CopyAsm(const byte *surface) { const byte *v1; byte srcByte; byte *v3; signed int v4; signed int v5; byte *v6; byte *v7; byte *v8; byte *v9; const byte *v10; assert(VideoPtr); v1 = surface; srcByte = 30 * WinScan; v3 = (byte *)VideoPtr->pixels + 30 * WinScan; v4 = 200; do { v10 = v1; v9 = v3; v5 = 320; do { srcByte = *v1; *v3 = *v1; v6 = WinScan + v3; *v6 = srcByte; v7 = v6 - WinScan + 1; *v7 = srcByte; v8 = WinScan + v7; *v8 = srcByte; v3 = v8 - WinScan + 1; ++v1; --v5; } while (v5); v1 = v10 + 320; v3 = WinScan + WinScan + v9; --v4; } while (v4); } void GraphicsManager::Restore_Mem(byte *destSurface, const byte *src, int xp, int yp, int width, int height) { byte *v6; int v7; const byte *srcP; unsigned int i; int yCtr; v6 = xp + nbrligne2 * yp + destSurface; v7 = height; srcP = src; do { yCtr = v7; if (width & 1) { memcpy(v6, srcP, width); srcP += width; v6 += width; } else if (width & 2) { for (i = width >> 1; i; --i) { *(uint16 *)v6 = *(uint16 *)srcP; srcP += 2; v6 += 2; } } else { memcpy(v6, srcP, 4 * (width >> 2)); srcP += 4 * (width >> 2); v6 += 4 * (width >> 2); } v6 = nbrligne2 + v6 - width; v7 = yCtr - 1; } while (yCtr != 1); } int GraphicsManager::Reel_Zoom(int v, int percentage) { return Asm_Zoom(v, percentage); } int GraphicsManager::Asm_Zoom(int v, int percentage) { if (v) v += percentage * (long int)v / 100; return v; } int GraphicsManager::Reel_Reduc(int v, int percentage) { return Asm_Reduc(v, percentage); } int GraphicsManager::Asm_Reduc(int v, int percentage) { if (v) v -= percentage * (long int)v / 100; return v; } // Display 'Perfect?' void GraphicsManager::Affiche_Perfect(byte *surface, const byte *srcData, int xp300, int yp300, int frameIndex, int a6, int a7, int a8) { const byte *v8; int i; const byte *v10; int v11; int v12; const byte *v13; byte *v14; int v15; byte *v16; int v17; int v18; int v19; int v20; int v21 = 0; int v22; int v23; int v24; int v25; int v26; int v27; int v28; byte *v29; int v30; int v31; int v32; int v33; int v34; int v35; int v36; int v37; int v38; uint16 v39; byte *v40; int v41; uint16 v42; const byte *v43; const byte *v44; const byte *v45; const byte *v46; byte *v47; byte *v48; int v49; int v50; byte *v51; int v52; byte *v53; byte *v54; byte *v55; int v56; int v57; int v58; int v59; int v60; int v61; int v62; int v63; int v64; int v65; v8 = srcData + 3; for (i = frameIndex; i; --i) v8 += READ_LE_UINT32(v8) + 16; v11 = 0; v12 = 0; v10 = v8 + 4; v11 = (int16)READ_LE_UINT16(v10); v10 += 2; v12 = v36 = (int16)READ_LE_UINT16(v10); v13 = v10 + 10; clip_x = 0; clip_y = 0; clip_x1 = 0; clip_y1 = 0; if ((uint16)xp300 > min_x) { if ((uint16)xp300 < (uint16)(min_x + 300)) clip_x = min_x + 300 - xp300; if ((uint16)yp300 > min_y) { if ((uint16)yp300 < (uint16)(min_y + 300)) clip_y = min_y + 300 - yp300; if ((uint16)xp300 < (uint16)(max_x + 300)) { clip_x1 = max_x + 300 - xp300; if ((uint16)yp300 < (uint16)(max_y + 300)) { clip_y1 = max_y + 300 - yp300; v14 = xp300 + nbrligne2 * (yp300 - 300) - 300 + surface; if (a7) { Compteur_y = 0; Agr_x = 0; Agr_y = 0; Agr_Flag_y = 0; Agr_Flag_x = 0; Largeur = v11; v20 = Asm_Zoom(v11, a7); v22 = Asm_Zoom(v21, a7); if (a8) { v29 = v20 + v14; if (clip_y) { if ((uint16)clip_y >= v22) return; v61 = v22; v52 = v20; v30 = 0; v31 = (uint16)clip_y; while (Asm_Zoom(v30 + 1, a7) < v31) ; v20 = v52; v13 += Largeur * v30; v29 += nbrligne2 * (uint16)clip_y; v22 = v61 - (uint16)clip_y; } if (v22 > (uint16)clip_y1) v22 = (uint16)clip_y1; if (clip_x) { if ((uint16)clip_x >= v20) return; v20 -= (uint16)clip_x; } if (v20 > (uint16)clip_x1) { v32 = v20 - (uint16)clip_x1; v29 -= v32; v62 = v22; v33 = 0; while (Asm_Zoom(v33 + 1, a7) < v32) ; v34 = v33; v22 = v62; v13 += v34; v20 = (uint16)clip_x1; } do { while (1) { v63 = v22; v53 = v29; v46 = v13; Agr_Flag_x = 0; Agr_x = 0; v35 = v20; do { while (1) { if (*v13) *v29 = *v13; --v29; ++v13; if (!Agr_Flag_x) Agr_x = a7 + Agr_x; if ((uint16)Agr_x < 0x64u) break; Agr_x = Agr_x - 100; --v13; Agr_Flag_x = 1; --v35; if (!v35) goto R_Aff_Zoom_Larg_Cont1; } Agr_Flag_x = 0; --v35; } while (v35); R_Aff_Zoom_Larg_Cont1: v13 = Largeur + v46; v29 = nbrligne2 + v53; ++Compteur_y; if (!Agr_Flag_y) Agr_y = a7 + Agr_y; if ((uint16)Agr_y < 0x64u) break; Agr_y = Agr_y - 100; v13 = v46; Agr_Flag_y = 1; v22 = v63 - 1; if (v63 == 1) return; } Agr_Flag_y = 0; v22 = v63 - 1; } while (v63 != 1); } else { if (clip_y) { if ((uint16)clip_y >= v22) return; v58 = v22; v49 = v20; v23 = 0; v24 = (uint16)clip_y; while (Asm_Zoom(v23 + 1, a7) < v24) ; v20 = v49; v13 += Largeur * v23; v14 += nbrligne2 * (uint16)clip_y; v22 = v58 - (uint16)clip_y; } if (v22 > (uint16)clip_y1) v22 = (uint16)clip_y1; if (clip_x) { if ((uint16)clip_x >= v20) return; v59 = v22; v50 = v20; v25 = (uint16)clip_x; v26 = 0; while (Asm_Zoom(v26 + 1, a7) < v25) ; v27 = v26; v22 = v59; v13 += v27; v14 += (uint16)clip_x; v20 = v50 - (uint16)clip_x; } if (v20 > (uint16)clip_x1) v20 = (uint16)clip_x1; do { while (1) { v60 = v22; v51 = v14; v45 = v13; v28 = v20; Agr_Flag_x = 0; Agr_x = 0; do { while (1) { if (*v13) *v14 = *v13; ++v14; ++v13; if (!Agr_Flag_x) Agr_x = a7 + Agr_x; if ((uint16)Agr_x < 0x64u) break; Agr_x = Agr_x - 100; --v13; Agr_Flag_x = 1; --v28; if (!v28) goto Aff_Zoom_Larg_Cont1; } Agr_Flag_x = 0; --v28; } while (v28); Aff_Zoom_Larg_Cont1: v13 = Largeur + v45; v14 = nbrligne2 + v51; if (!Agr_Flag_y) Agr_y = a7 + Agr_y; if ((uint16)Agr_y < 0x64u) break; Agr_y = Agr_y - 100; v13 = v45; Agr_Flag_y = 1; v22 = v60 - 1; if (v60 == 1) return; } Agr_Flag_y = 0; v22 = v60 - 1; } while (v60 != 1); } } else if (a6) { Compteur_y = 0; Red_x = 0; Red_y = 0; Largeur = v11; Red = a6; if (a6 < 100) { v37 = Asm_Reduc(v11, Red); if (a8) { v40 = v37 + v14; do { v65 = v36; v55 = v40; Red_y = Red + Red_y; if ((uint16)Red_y < 0x64u) { Red_x = 0; v41 = Largeur; v42 = v37; do { Red_x = Red + Red_x; if ((uint16)Red_x < 0x64u) { if (v42 >= clip_x && v42 < clip_x1 && *v13) *v40 = *v13; --v40; ++v13; --v42; } else { Red_x = Red_x - 100; ++v13; } --v41; } while (v41); v36 = v65; v40 = nbrligne2 + v55; } else { Red_y = Red_y - 100; v13 += Largeur; } --v36; } while (v36); } else { do { v64 = v36; v54 = v14; Red_y = Red + Red_y; if ((uint16)Red_y < 0x64u) { Red_x = 0; v38 = Largeur; v39 = 0; do { Red_x = Red + Red_x; if ((uint16)Red_x < 0x64u) { if (v39 >= clip_x && v39 < clip_x1 && *v13) *v14 = *v13; ++v14; ++v13; ++v39; } else { Red_x = Red_x - 100; ++v13; } --v38; } while (v38); v36 = v64; v14 = nbrligne2 + v54; } else { Red_y = Red_y - 100; v13 += Largeur; } --v36; } while (v36); } } } else { Largeur = v11; Compteur_y = 0; if (a8) { v16 = v11 + v14; spec_largeur = v11; if (clip_y) { if ((uint16)clip_y >= (unsigned int)v12) return; v13 += v11 * (uint16)clip_y; v16 += nbrligne2 * (uint16)clip_y; v12 -= (uint16)clip_y; } v17 = (uint16)clip_y1; if (v12 > clip_y1) v12 = clip_y1; v17 = clip_x; if (clip_x) { if (v17 >= v11) return; v11 -= v17; } if (v11 > (uint16)clip_x1) { v18 = v11 - (uint16)clip_x1; v13 += v18; v16 -= v18; v11 = (uint16)clip_x1; } do { v57 = v12; v48 = v16; v44 = v13; v19 = v11; do { if (*v13) *v16 = *v13; ++v13; --v16; --v19; } while (v19); v13 = spec_largeur + v44; v16 = nbrligne2 + v48; v12 = v57 - 1; } while (v57 != 1); } else { spec_largeur = v11; if (clip_y) { if ((uint16)clip_y >= (unsigned int)v12) return; v13 += v11 * (uint16)clip_y; v14 += nbrligne2 * (uint16)clip_y; v12 -= (uint16)clip_y; } if (v12 > clip_y1) v12 = clip_y1; if (clip_x) { if ((uint16)clip_x >= v11) return; v13 += (uint16)clip_x; v14 += (uint16)clip_x; v11 -= (uint16)clip_x; } if (v11 > (uint16)clip_x1) v11 = (uint16)clip_x1; do { v56 = v12; v47 = v14; v43 = v13; v15 = v11; do { if (*v13) *v14 = *v13; ++v14; ++v13; --v15; } while (v15); v13 = spec_largeur + v43; v14 = nbrligne2 + v47; v12 = v56 - 1; } while (v56 != 1); } } } } } } } // Display Speed void GraphicsManager::AFFICHE_SPEED(const byte *spriteData, int xp, int yp, int spriteIndex) { int width, height; width = _vm->_objectsManager.Get_Largeur(spriteData, spriteIndex); height = _vm->_objectsManager.Get_Hauteur(spriteData, spriteIndex); if (*spriteData == 78) { Affiche_Perfect(VESA_SCREEN, spriteData, xp + 300, yp + 300, spriteIndex, 0, 0, 0); Affiche_Perfect(VESA_BUFFER, spriteData, xp + 300, yp + 300, spriteIndex, 0, 0, 0); } else { Sprite_Vesa(VESA_BUFFER, spriteData, xp + 300, yp + 300, spriteIndex); Sprite_Vesa(VESA_SCREEN, spriteData, xp + 300, yp + 300, spriteIndex); } if (!_vm->_globals.NO_VISU) Ajoute_Segment_Vesa(xp, yp, xp + width, yp + height); } void GraphicsManager::SCOPY(const byte *surface, int x1, int y1, int width, int height, byte *destSurface, int destX, int destY) { int top; int croppedWidth; int croppedHeight; int v11; int height2; int top2; int left; left = x1; top = y1; croppedWidth = width; croppedHeight = height; if (x1 < min_x) { croppedWidth = width - (min_x - x1); left = min_x; } if (y1 < min_y) { croppedHeight = height - (min_y - y1); top = min_y; } top2 = top; if (top + croppedHeight > max_y) croppedHeight = max_y - top; v11 = left + croppedWidth; if (v11 > max_x) croppedWidth = max_x - left; if (croppedWidth > 0 && croppedHeight > 0) { height2 = croppedHeight; Copy_Mem(surface, left, top2, croppedWidth, croppedHeight, destSurface, destX, destY); Ajoute_Segment_Vesa(left, top2, left + croppedWidth, top2 + height2); } } void GraphicsManager::Copy_Mem(const byte *srcSurface, int x1, int y1, unsigned int width, int height, byte *destSurface, int destX, int destY) { const byte *srcP; byte *destP; int yp; int yCurrent; byte *dest2P; const byte *src2P; unsigned int pitch; srcP = x1 + nbrligne2 * y1 + srcSurface; destP = destX + nbrligne2 * destY + destSurface; yp = height; do { yCurrent = yp; memcpy(destP, srcP, 4 * (width >> 2)); src2P = (srcP + 4 * (width >> 2)); dest2P = (destP + 4 * (width >> 2)); pitch = width - 4 * (width >> 2); memcpy(dest2P, src2P, pitch); destP = (dest2P + pitch + nbrligne2 - width); srcP = (src2P + pitch + nbrligne2 - width); yp = yCurrent - 1; } while (yCurrent != 1); } // Display Font void GraphicsManager::Affiche_Fonte(byte *surface, const byte *spriteData, int xp, int yp, int characterIndex, int colour) { const byte *v6; int i; const byte *v8; int v9; int v10; const byte *v11; byte *destP; int v13; byte v14; byte *destLineP; int v16; v6 = spriteData + 3; for (i = characterIndex; i; --i) v6 += READ_LE_UINT32(v6) + 16; v9 = 0; v10 = 0; v8 = v6 + 4; v9 = (int16)READ_LE_UINT16(v8); v8 += 2; v10 = (int16)READ_LE_UINT16(v8); v11 = v8 + 10; destP = surface + xp + nbrligne2 * yp; Largeur = v9; do { v16 = v10; destLineP = destP; v13 = v9; do { v14 = *v11; if (*v11) { if (v14 == (byte)-4) v14 = colour; *destP = v14; } ++destP; ++v11; --v13; } while (v13); destP = nbrligne2 + destLineP; v10 = v16 - 1; } while (v16 != 1); } // Init Screen void GraphicsManager::INI_ECRAN(const Common::String &file) { OPTI_INI(file, 0); } // Init Screen 2 void GraphicsManager::INI_ECRAN2(const Common::String &file) { OPTI_INI(file, 2); } void GraphicsManager::OPTI_INI(const Common::String &file, int a2) { int v2; unsigned int v3; int v6; unsigned int v9; signed int v11; byte *ptr; Common::String v13; v2 = 1; v3 = 0; v9 = 0; v13 = file + ".ini"; ptr = _vm->_fileManager.RECHERCHE_CAT(v13, 1); if (ptr == g_PTRNUL) { _vm->_fileManager.CONSTRUIT_FICHIER(_vm->_globals.HOPLINK, v13); ptr = _vm->_fileManager.CHARGE_FICHIER(_vm->_globals.NFICHIER); } if (!a2) { v13 = file + ".spr"; if (g_PTRNUL != _vm->_globals.SPRITE_ECRAN) _vm->_globals.SPRITE_ECRAN = _vm->_fileManager.LIBERE_FICHIER(_vm->_globals.SPRITE_ECRAN); if (!_vm->_globals.NOSPRECRAN) { _vm->_globals.SPRITE_ECRAN = _vm->_fileManager.RECHERCHE_CAT(v13, 8); if (_vm->_globals.SPRITE_ECRAN) { _vm->_globals.CAT_FLAG = false; _vm->_fileManager.CONSTRUIT_FICHIER(_vm->_globals.HOPLINK, v13); } else { _vm->_globals.CAT_FLAG = true; _vm->_fileManager.CONSTRUIT_FICHIER(_vm->_globals.HOPLINK, "RES_SLI.RES"); } _vm->_globals.SPRITE_ECRAN = _vm->_fileManager.CHARGE_FICHIER(_vm->_globals.NFICHIER); _vm->_globals.CAT_FLAG = false; } } if (*ptr != 'I' || *(ptr + 1) != 'N' || *(ptr + 2) != 'I') { error("Error, file not ini"); } else { v11 = 0; do { v6 = _vm->_scriptManager.Traduction(ptr + 20 * v2); if (_vm->shouldQuit()) return; if (v6 == 2) v2 = _vm->_scriptManager.Control_Goto((ptr + 20 * v2)); if (v6 == 3) v2 = _vm->_scriptManager.Control_If(ptr, v2); if (v2 == -1) error("Error, defective IFF"); if (v6 == 1 || v6 == 4) ++v2; if (!v6 || v6 == 5) v11 = 1; } while (v11 != 1); } _vm->_globals.dos_free2(ptr); if (a2 != 1) { if (g_PTRNUL != _vm->_globals.COUCOU) _vm->_globals.COUCOU = _vm->_globals.dos_free2(_vm->_globals.COUCOU); v13 = file + ".rep"; byte *dataP = _vm->_fileManager.RECHERCHE_CAT(v13, 2); _vm->_globals.COUCOU = dataP; if (g_PTRNUL == dataP) { _vm->_fileManager.CONSTRUIT_FICHIER(_vm->_globals.HOPLINK, v13); dataP = _vm->_fileManager.CHARGE_FICHIER(_vm->_globals.NFICHIER); _vm->_globals.COUCOU = dataP; } } _vm->_objectsManager.FORCEZONE = 1; _vm->_objectsManager.CHANGEVERBE = 0; } void GraphicsManager::NB_SCREEN() { byte *v0; const byte *v1; if (!_vm->_globals.NECESSAIRE) INIT_TABLE(50, 65, Palette); if (nbrligne == SCREEN_WIDTH) Trans_bloc2(VESA_BUFFER, TABLE_COUL, 307200); if (nbrligne == 1280) Trans_bloc2(VESA_BUFFER, TABLE_COUL, 614400); _vm->_graphicsManager.DD_Lock(); if (Winbpp == 2) { if (SDL_ECHELLE) m_scroll16A(VESA_BUFFER, _vm->_eventsManager.start_x, 0, SCREEN_WIDTH, SCREEN_HEIGHT, 0, 0); else m_scroll16(VESA_BUFFER, _vm->_eventsManager.start_x, 0, SCREEN_WIDTH, SCREEN_HEIGHT, 0, 0); } if (Winbpp == 1) { if (SDL_ECHELLE) m_scroll2A(VESA_BUFFER, _vm->_eventsManager.start_x, 0, SCREEN_WIDTH, SCREEN_HEIGHT, 0, 0); else m_scroll2(VESA_BUFFER, _vm->_eventsManager.start_x, 0, SCREEN_WIDTH, SCREEN_HEIGHT, 0, 0); } _vm->_graphicsManager.DD_Unlock(); v0 = VESA_SCREEN; v1 = VESA_BUFFER; memcpy(VESA_SCREEN, VESA_BUFFER, 0x95FFCu); v1 = v1 + 614396; v0 = v0 + 614396; *v0 = *v1; *(v0 + 2) = *(v1 + 2); DD_VBL(); } void GraphicsManager::SHOW_PALETTE() { setpal_vga256(Palette); } void GraphicsManager::videkey() { // Empty in original } void GraphicsManager::Copy_WinScan_Vbe(const byte *src, byte *dest) { int result; int destOffset; const byte *srcPtr; byte byteVal; result = 0; destOffset = 0; srcPtr = src; while (1) { byteVal = *srcPtr; if (*srcPtr < 0xFCu) goto Video_Cont_wVbe; if (byteVal == (byte)-4) return; if (byteVal == (byte)-3) { destOffset += *(srcPtr + 1); byteVal = *(srcPtr + 2); srcPtr += 2; } else if (byteVal == (byte)-2) { destOffset += READ_LE_UINT16(srcPtr + 1); byteVal = *(srcPtr + 3); srcPtr += 3; } else { destOffset += READ_LE_UINT32(srcPtr + 1); byteVal = *(srcPtr + 5); srcPtr += 5; } Video_Cont_wVbe: *(dest + destOffset) = byteVal; ++srcPtr; ++destOffset; } } void GraphicsManager::Copy_Video_Vbe(const byte *src) { int destOffset; const byte *srcP; byte byteVal; assert(VideoPtr); destOffset = 0; srcP = src; while (1) { byteVal = *srcP; if (*srcP < 0xFCu) goto Video_Cont_Vbe; if (byteVal == (byte)-4) return; if (byteVal == (byte)-3) { destOffset += *(srcP + 1); byteVal = *(srcP + 2); srcP += 2; } else if (byteVal == (byte)-2) { destOffset += READ_LE_UINT16(srcP + 1); byteVal = *(srcP + 3); srcP += 3; } else { destOffset += READ_LE_UINT32(srcP + 1); byteVal = *(srcP + 5); srcP += 5; } Video_Cont_Vbe: *((byte *)VideoPtr->pixels + destOffset) = byteVal; ++srcP; ++destOffset; } } // Reduce Screen void GraphicsManager::Reduc_Ecran(const byte *srcSurface, byte *destSurface, int xp, int yp, int width, int height, int zoom) { const byte *srcP; byte *destP; const byte *lineSrcP; srcP = xp + nbrligne2 * yp + srcSurface; destP = destSurface; Red = zoom; Largeur = width; Red_x = 0; Red_y = 0; if (zoom < 100) { Reduc_Ecran_L = Asm_Reduc(width, Red); Reduc_Ecran_H = Asm_Reduc(height, Red); for (int yCtr = 0; yCtr < height; ++yCtr, srcP += nbrligne2) { Red_y += Red; if (Red_y < 100) { Red_x = 0; lineSrcP = srcP; for (int xCtr = 0; xCtr < Largeur; ++xCtr) { Red_x += Red; if (Red_x < 100) { *destP++ = *lineSrcP++; } else { Red_x -= 100; ++lineSrcP; } } } else { Red_y -= 100; } } } } void GraphicsManager::Plot_Hline(byte *surface, int xp, int yp, unsigned int width, byte col) { memset(surface + xp + nbrligne2 * yp, col, width); } void GraphicsManager::Plot_Vline(byte *surface, int xp, int yp, int height, char col) { byte *v5; int v6; v5 = surface + xp + nbrligne2 * yp; v6 = height; do { *v5 = col; v5 += nbrligne2; --v6; } while (v6); } } // End of namespace Hopkins