scummvm/engines/drascula/graphics.cpp

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/* 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.
*
* $URL$
* $Id$
*
*/
#include "drascula/drascula.h"
namespace Drascula {
void DrasculaEngine::allocMemory() {
// FIXME: decodeOffset writes beyond 64000, so this
// buffer has been initialized to 64256 bytes (like
// the original did with the MiVideoSSN buffer)
screenSurface = (byte *)malloc(64256);
assert(screenSurface);
frontSurface = (byte *)malloc(64000);
assert(frontSurface);
backSurface = (byte *)malloc(64000);
assert(backSurface);
bgSurface = (byte *)malloc(64000);
assert(bgSurface);
drawSurface2 = (byte *)malloc(64000);
assert(drawSurface2);
drawSurface3 = (byte *)malloc(64000);
assert(drawSurface3);
tableSurface = (byte *)malloc(64000);
assert(tableSurface);
extraSurface = (byte *)malloc(64000);
assert(extraSurface);
crosshairCursor = (byte *)malloc(40 * 25);
assert(crosshairCursor);
mouseCursor = (byte *)malloc(OBJWIDTH * OBJHEIGHT);
assert(mouseCursor);
}
void DrasculaEngine::freeMemory() {
free(screenSurface);
free(bgSurface);
free(backSurface);
free(drawSurface2);
free(tableSurface);
free(drawSurface3);
free(extraSurface);
free(frontSurface);
free(crosshairCursor);
free(mouseCursor);
}
void DrasculaEngine::moveCursor() {
copyBackground();
updateRefresh_pre();
moveCharacters();
updateRefresh();
if (!strcmp(textName, "hacker") && hasName == 1) {
if (_color != kColorRed && menuScreen == 0)
color_abc(kColorRed);
} else if (menuScreen == 0 && _color != kColorLightGreen)
color_abc(kColorLightGreen);
if (hasName == 1 && menuScreen == 0)
centerText(textName, mouseX, mouseY);
if (menuScreen == 1)
showMenu();
else if (menuBar == 1)
clearMenu();
}
void DrasculaEngine::loadPic(const char *NamePcc, byte *targetSurface, int colorCount) {
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uint dataSize = 0;
byte *pcxData;
_arj.open(NamePcc);
if (!_arj.isOpen())
error("missing game data %s %c", NamePcc, 7);
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dataSize = _arj.size() - 128 - (256 * 3);
pcxData = (byte *)malloc(dataSize);
_arj.seek(128, SEEK_SET);
_arj.read(pcxData, dataSize);
decodeRLE(pcxData, targetSurface);
free(pcxData);
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for (int i = 0; i < 256; i++) {
cPal[i * 3 + 0] = _arj.readByte();
cPal[i * 3 + 1] = _arj.readByte();
cPal[i * 3 + 2] = _arj.readByte();
}
_arj.close();
setRGB((byte *)cPal, colorCount);
}
void DrasculaEngine::showFrame(bool firstFrame) {
int dataSize = _arj.readSint32LE();
byte *pcxData = (byte *)malloc(dataSize);
_arj.read(pcxData, dataSize);
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for (int i = 0; i < 256; i++) {
cPal[i * 3 + 0] = _arj.readByte();
cPal[i * 3 + 1] = _arj.readByte();
cPal[i * 3 + 2] = _arj.readByte();
}
byte *prevFrame = (byte *)malloc(64000);
memcpy(prevFrame, VGA, 64000);
decodeRLE(pcxData, VGA);
free(pcxData);
if (!firstFrame)
mixVideo(VGA, prevFrame);
_system->copyRectToScreen((const byte *)VGA, 320, 0, 0, 320, 200);
_system->updateScreen();
if (firstFrame)
setPalette(cPal);
free(prevFrame);
}
void DrasculaEngine::copyBackground(int xorg, int yorg, int xdes, int ydes, int width,
int height, byte *src, byte *dest) {
dest += xdes + ydes * 320;
src += xorg + yorg * 320;
/* Unoptimized code
for (int x = 0; x < height; x++) {
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memcpy(dest + 320 * x, src + 320 * x, width);
} */
// A bit more optimized code, thanks to Fingolfin
// Uses 2 less registers and performs 2 less multiplications
int x = height;
while (x--) {
memcpy(dest, src, width);
dest += 320;
src += 320;
}
}
void DrasculaEngine::copyRect(int xorg, int yorg, int xdes, int ydes, int width,
int height, byte *src, byte *dest) {
int y, x;
//
if (ydes < 0) {
yorg += -ydes;
height += ydes;
ydes = 0;
}
if (xdes < 0) {
xorg += -xdes;
width += xdes;
xdes = 0;
}
if ((xdes + width) > 319)
width -= (xdes + width) - 320;
if ((ydes + height) > 199)
height -= (ydes + height) - 200;
//
dest += xdes + ydes * 320;
src += xorg + yorg * 320;
for (y = 0; y < height; y++)
for (x = 0; x < width; x++)
if (src[x + y * 320] != 255)
dest[x + y * 320] = src[x + y * 320];
}
void DrasculaEngine::updateScreen(int xorg, int yorg, int xdes, int ydes, int width, int height, byte *buffer) {
copyBackground(xorg, yorg, xdes, ydes, width, height, buffer, VGA);
_system->copyRectToScreen((const byte *)VGA, 320, 0, 0, 320, 200);
_system->updateScreen();
}
void DrasculaEngine::print_abc(const char *said, int screenX, int screenY) {
int letterY = 0, letterX = 0, i;
uint len = strlen(said);
byte c;
for (uint h = 0; h < len; h++) {
c = toupper(said[h]);
for (i = 0; i < _charMapSize; i++) {
if (c == _charMap[i].inChar) {
letterX = _charMap[i].mappedChar;
switch (_charMap[i].charType) {
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case 0: // letters
letterY = (_lang == kSpanish) ? 149 : 158;
break;
case 1: // signs
letterY = (_lang == kSpanish) ? 160 : 169;
break;
case 2: // accented
letterY = 180;
break;
} // switch
break;
} // if
} // for
copyRect(letterX, letterY, screenX, screenY,
CHAR_WIDTH, CHAR_HEIGHT, tableSurface, screenSurface);
screenX = screenX + CHAR_WIDTH;
if (screenX > 317) {
screenX = 0;
screenY = screenY + CHAR_HEIGHT + 2;
}
} // for
}
void DrasculaEngine::print_abc_opc(const char *said, int screenY, int game) {
int signY, letterY, letterX = 0;
uint len = strlen(said);
int screenX = 1;
for (uint h = 0; h < len; h++) {
if (game == 1) {
letterY = 6;
signY = 15;
} else if (game == 3) {
letterY = 56;
signY = 65;
} else {
letterY = 31;
signY = 40;
}
byte c = toupper(said[h]);
// WORKAROUND: Even original did not process it correctly
// Fixes apostrophe rendering
if (_lang != kSpanish)
if (c == '\'')
c = (byte)'\244';
for (int i = 0; i < _charMapSize; i++) {
if (c == _charMap[i].inChar) {
// Convert the mapped char of the normal font to the
// mapped char of the dialogue font
int multiplier = (_charMap[i].mappedChar - 6) / 9;
letterX = multiplier * 7 + 10;
if (_charMap[i].charType > 0)
letterY = signY;
break;
} // if
} // for
copyRect(letterX, letterY, screenX, screenY,
CHAR_WIDTH_OPC, CHAR_HEIGHT_OPC, backSurface, screenSurface);
screenX = screenX + CHAR_WIDTH_OPC;
}
}
bool DrasculaEngine::textFitsCentered(char *text, int x) {
int len = strlen(text);
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int tmp = CLIP<int>(x - len * CHAR_WIDTH / 2, 60, 255);
return (tmp + len * CHAR_WIDTH) <= 320;
}
void DrasculaEngine::centerText(const char *message, int textX, int textY) {
char msg[200];
char messageLine[200];
char tmpMessageLine[200];
*messageLine = 0;
*tmpMessageLine = 0;
char *curWord;
int curLine = 0;
int x = 0;
// original starts printing 4 lines above textY
int y = CLIP<int>(textY - (4 * CHAR_HEIGHT), 0, 320);
strcpy(msg, message);
// If the message fits on screen as-is, just print it here
if (textFitsCentered(msg, textX)) {
x = CLIP<int>(textX - strlen(msg) * CHAR_WIDTH / 2, 60, 255);
print_abc(msg, x, y);
return;
}
// Message doesn't fit on screen, split it
// Get a word from the message
curWord = strtok(msg, " ");
while (curWord != NULL) {
// Check if the word and the current line fit on screen
if (strlen(tmpMessageLine) > 0)
strcat(tmpMessageLine, " ");
strcat(tmpMessageLine, curWord);
if (textFitsCentered(tmpMessageLine, textX)) {
// Line fits, so add the word to the current message line
strcpy(messageLine, tmpMessageLine);
} else {
// Line doesn't fit, so show the current line on screen and
// create a new one
// If it goes off screen, print_abc will adjust it
x = CLIP<int>(textX - strlen(messageLine) * CHAR_WIDTH / 2, 60, 255);
print_abc(messageLine, x, y + curLine * CHAR_HEIGHT);
strcpy(messageLine, curWord);
strcpy(tmpMessageLine, curWord);
curLine++;
}
// Get next word
curWord = strtok(NULL, " ");
if (curWord == NULL) {
x = CLIP<int>(textX - strlen(messageLine) * CHAR_WIDTH / 2, 60, 255);
print_abc(messageLine, x, y + curLine * CHAR_HEIGHT);
}
}
}
void DrasculaEngine::screenSaver() {
int xr, yr;
byte *copia, *ghost;
float coeff = 0, coeff2 = 0;
int count = 0;
int count2 = 0;
int tempLine[320];
int tempRow[200];
hideCursor();
clearRoom();
loadPic("sv.alg", bgSurface, HALF_PAL);
// inicio_ghost();
copia = (byte *)malloc(64000);
ghost = (byte *)malloc(65536);
// carga_ghost();
_arj.open("ghost.drv");
if (!_arj.isOpen())
error("Cannot open file ghost.drv");
_arj.read(ghost, 65536);
_arj.close();
updateEvents();
xr = mouseX;
yr = mouseY;
for (;;) {
// efecto(bgSurface);
memcpy(copia, bgSurface, 64000);
coeff += 0.1f;
coeff2 = coeff;
if (++count > 319)
count = 0;
for (int i = 0; i < 320; i++) {
tempLine[i] = (int)(sin(coeff2) * 16);
coeff2 += 0.02f;
tempLine[i] = checkWrapY(tempLine[i]);
}
coeff2 = coeff;
for (int i = 0; i < 200; i++) {
tempRow[i] = (int)(sin(coeff2) * 16);
coeff2 += 0.02f;
tempRow[i] = checkWrapX(tempRow[i]);
}
if (++count2 > 199)
count2 = 0;
int x1_, y1_, off1, off2;
for (int i = 0; i < 200; i++) {
for (int j = 0; j < 320; j++) {
x1_ = j + tempRow[i];
x1_ = checkWrapX(x1_);
y1_ = i + count2;
y1_ = checkWrapY(y1_);
off1 = 320 * y1_ + x1_;
x1_ = j + count;
x1_ = checkWrapX(x1_);
y1_ = i + tempLine[j];
y1_ = checkWrapY(y1_);
off2 = 320 * y1_ + x1_;
VGA[320 * i + j] = ghost[bgSurface[off2] + (copia[off1] << 8)];
}
}
_system->copyRectToScreen((const byte *)VGA, 320, 0, 0, 320, 200);
_system->updateScreen();
_system->delayMillis(20);
// end of efecto()
updateEvents();
if (rightMouseButton == 1 || leftMouseButton == 1)
break;
if (mouseX != xr)
break;
if (mouseY != yr)
break;
}
// fin_ghost();
free(copia);
free(ghost);
loadPic(roomNumber, bgSurface, HALF_PAL);
showCursor();
}
void DrasculaEngine::playFLI(const char *filefli, int vel) {
// Open file
globalSpeed = 1000 / vel;
FrameSSN = 0;
UsingMem = 0;
_arj.open(filefli);
mSession = TryInMem();
LastFrame = _system->getMillis();
while (playFrameSSN() && (!term_int)) {
if (getScan() == Common::KEYCODE_ESCAPE)
term_int = 1;
}
if (UsingMem)
free(memPtr);
else
_arj.close();
}
int DrasculaEngine::playFrameSSN() {
int Exit = 0;
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uint32 length;
byte *BufferSSN;
if (!UsingMem)
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CHUNK = _arj.readByte();
else {
memcpy(&CHUNK, mSession, 1);
mSession += 1;
}
switch (CHUNK) {
case kFrameSetPal:
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if (!UsingMem) {
for (int i = 0; i < 256; i++) {
dacSSN[i * 3 + 0] = _arj.readByte();
dacSSN[i * 3 + 1] = _arj.readByte();
dacSSN[i * 3 + 2] = _arj.readByte();
}
} else {
memcpy(dacSSN, mSession, 768);
mSession += 768;
}
setPalette(dacSSN);
break;
case kFrameEmptyFrame:
waitFrameSSN();
break;
case kFrameInit:
if (!UsingMem) {
CMP = _arj.readByte();
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length = _arj.readUint32LE();
} else {
memcpy(&CMP, mSession, 1);
mSession += 1;
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length = READ_LE_UINT32(mSession);
mSession += 4;
}
if (CMP == kFrameCmpRle) {
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BufferSSN = (byte *)malloc(length);
if (!UsingMem) {
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_arj.read(BufferSSN, length);
} else {
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memcpy(BufferSSN, mSession, length);
mSession += length;
}
decodeRLE(BufferSSN, screenSurface);
free(BufferSSN);
waitFrameSSN();
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if (FrameSSN)
mixVideo(VGA, screenSurface);
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else
memcpy(VGA, screenSurface, 64000);
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_system->copyRectToScreen((const byte *)VGA, 320, 0, 0, 320, 200);
_system->updateScreen();
FrameSSN++;
} else {
if (CMP == kFrameCmpOff) {
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BufferSSN = (byte *)malloc(length);
if (!UsingMem) {
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_arj.read(BufferSSN, length);
} else {
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memcpy(BufferSSN, mSession, length);
mSession += length;
}
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decodeOffset(BufferSSN, screenSurface, length);
free(BufferSSN);
waitFrameSSN();
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if (FrameSSN)
mixVideo(VGA, screenSurface);
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else
memcpy(VGA, screenSurface, 64000);
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_system->copyRectToScreen((const byte *)VGA, 320, 0, 0, 320, 200);
_system->updateScreen();
FrameSSN++;
}
}
break;
case kFrameEndAnim:
Exit = 1;
break;
default:
Exit = 1;
break;
}
return (!Exit);
}
byte *DrasculaEngine::TryInMem() {
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int length;
_arj.seek(0, SEEK_END);
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length = _arj.pos();
_arj.seek(0, SEEK_SET);
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memPtr = (byte *)malloc(length);
if (memPtr == NULL)
return NULL;
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_arj.read(memPtr, length);
UsingMem = 1;
_arj.close();
return memPtr;
}
void DrasculaEngine::decodeOffset(byte *BufferOFF, byte *MiVideoOFF, int length) {
int x = 0;
int size;
int offset;
memset(screenSurface, 0, 64000);
while (x < length) {
offset = BufferOFF[x] + BufferOFF[x + 1] * 256;
// FIXME: this writes beyond 64000, so the buffer has been initialized
// to 64256 bytes (like the original did)
size = BufferOFF[x + 2];
memcpy(MiVideoOFF + offset, &BufferOFF[x + 3], size);
x += 3 + size;
}
}
void DrasculaEngine::decodeRLE(byte* srcPtr, byte* dstPtr) {
bool stopProcessing = false;
byte pixel;
uint repeat;
int curByte = 0;
while (!stopProcessing) {
pixel = *srcPtr++;
repeat = 1;
if ((pixel & 192) == 192) {
repeat = (pixel & 63);
pixel = *srcPtr++;
}
for (uint j = 0; j < repeat; j++) {
*dstPtr++ = pixel;
if (++curByte >= 64000) {
stopProcessing = true;
break;
}
}
}
}
void DrasculaEngine::mixVideo(byte *OldScreen, byte *NewScreen) {
for (int x = 0; x < 64000; x++)
OldScreen[x] ^= NewScreen[x];
}
void DrasculaEngine::waitFrameSSN() {
uint32 now;
while ((now = _system->getMillis()) - LastFrame < ((uint32) globalSpeed))
_system->delayMillis(globalSpeed - (now - LastFrame));
LastFrame = LastFrame + globalSpeed;
}
bool DrasculaEngine::animate(const char *animationFile, int FPS) {
int NFrames = 1;
int cnt = 2;
_arj.open(animationFile);
if (!_arj.isOpen()) {
error("Animation file %s not found", animationFile);
}
NFrames = _arj.readSint32LE();
showFrame(true);
_system->delayMillis(1000 / FPS);
while (cnt < NFrames) {
showFrame();
_system->delayMillis(1000 / FPS);
cnt++;
byte key = getScan();
if (key == Common::KEYCODE_ESCAPE)
term_int = 1;
if (key != 0)
break;
}
_arj.close();
return ((term_int == 1) || (getScan() == Common::KEYCODE_ESCAPE));
}
} // End of namespace Drascula