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/* ScummVM - Scumm Interpreter
* Copyright (C) 2001 Ludvig Strigeus
* Copyright (C) 2001-2004 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*
* $Header$
*
*/
#ifndef GFX_H
#define GFX_H
#include "common/rect.h"
namespace Scumm {
class ScummEngine;
/** Camera modes */
enum {
kNormalCameraMode = 1,
kFollowActorCameraMode = 2,
kPanningCameraMode = 3
};
/** Camera state data */
struct CameraData {
Common::Point _cur;
Common::Point _dest;
Common::Point _accel;
Common::Point _last;
int _leftTrigger, _rightTrigger;
byte _follows, _mode;
bool _movingToActor;
};
/** Virtual screen identifiers */
enum VirtScreenNumber {
kMainVirtScreen = 0, // The 'stage'
kTextVirtScreen = 1, // In V1-V3 games: the area where text is printed
kVerbVirtScreen = 2, // The verb area
kUnkVirtScreen = 3 // ?? Not sure what this one is good for...
};
/**
* In all Scumm games, one to four virtual screen (or 'windows') together make
* up the content of the actual screen. Thinking of virtual screens as fixed
* size, fixed location windows might help understanding them. Typical, in all
* scumm games there is either one single virtual screen covering the entire
* real screen (mostly in all newer games, e.g. Sam & Max, and all V7+ games).
* The classic setup consists of three virtual screens: one at the top of the
* screen, where all conversation texts are printed; then the main one (which
* I like calling 'the stage', since all the actors are doing their stuff
* there), and finally the lower part of the real screen is taken up by the
* verb area.
* Finally, in V5 games and some V6 games, it's almost the same as in the
* original games, except that there is no separate conversation area.
*
* If you now wonder what the last screen is/was good for: I am not 100% sure,
* but it appears that it was used by the original engine to display stuff
* like the pause message, or questions ("Do you really want to restart?").
* It seems that it is not used at all by ScummVM, so we probably could just
* get rid of it and save a couple kilobytes of RAM.
*
* Each of these virtual screens has a fixed number or id (see also
* \ref VirtScreenNumber).
*/
struct VirtScreen {
/**
* The unique id of this screen (corresponds to its position in the
* ScummEngine:virtscr array).
*/
VirtScreenNumber number;
/**
* Vertical position of the virtual screen. Tells how much the virtual
* screen is shifted along the y axis relative to the real screen.
* If you wonder why there is no horizontal position: there is none,
* because all virtual screens are always exactly as wide as the
* real screen. This might change in the future to allow smooth
* horizontal scrolling in V7-V8 games.
*/
uint16 topline;
/** Width of the virtual screen (currently always identical to _screenWidth). */
uint16 width;
/** Height of the virtual screen. */
uint16 height;
/**
* Horizontal scroll offset, tells how far the screen is scrolled to the
* right. Only used for the main screen. After all, verbs and the
* conversation text box don't have to scroll.
*/
uint16 xstart;
/**
* Flag indicating which tells whether this screen has a back buffer or
* not. This is yet another feature which is only used by the main screen.
* Strictly spoken one could remove this variable and replace checks
* on it with checks on backBuf. But since some code needs to temporarily
* disable the backBuf (so it can abuse drawBitmap; see drawVerbBitmap()
* and useIm01Cursor()), we keep it (at least for now).
*/
bool hasTwoBuffers;
/**
* Pointer to the screen's data buffer. This is where the content of
* the screen is stored. Just as one would expect :-).
*/
byte *screenPtr;
/**
* Pointer to the screen's back buffer, if it has one (see also
* the hasTwoBuffers member).
* The backBuf is used by drawBitmap to store the background graphics of
* the active room. This eases redrawing: whenever a portion of the screen
* has to be redrawn, first a copy from the backBuf content to screenPtr is
* performed. Then, any objects/actors in that area are redrawn atop that.
*/
byte *backBuf;
/**
* Array containing for each visible strip of this virtual screen the
* coordinate at which the dirty region of that strip starts.
* 't' stands for 'top' - the top coordinate of the dirty region.
* This together with bdirty is used to do efficient redrawing of
* the screen.
*/
uint16 tdirty[80];
/**
* Array containing for each visible strip of this virtual screen the
* coordinate at which the dirty region of that strip end.
* 'b' stands for 'bottom' - the bottom coordinate of the dirty region.
* This together with tdirty is used to do efficient redrawing of
* the screen.
*/
uint16 bdirty[80];
/**
* Convenience method to set the whole tdirty and bdirty arrays to one
* specific value each. This is mostly used to mark every as dirty in
* a single step, like so:
* vs->setDirtyRange(0, vs->height);
* or to mark everything as clean, like so:
* vs->setDirtyRange(0, 0);
*/
void setDirtyRange(int top, int bottom) {
for (int i = 0; i < 80; i++) {
tdirty[i] = top;
bdirty[i] = bottom;
}
}
};
/** Palette cycles */
struct ColorCycle {
uint16 delay;
uint16 counter;
uint16 flags;
byte start;
byte end;
};
/** BlastObjects to draw */
struct BlastObject {
uint16 number;
Common::Rect rect;
uint16 scaleX, scaleY;
uint16 image;
uint16 mode;
};
/** Bomp graphics data, used as parameter to ScummEngine::drawBomp. */
struct BompDrawData {
byte *out;
int outwidth, outheight;
int x, y;
byte scale_x, scale_y;
const byte *dataptr;
int srcwidth, srcheight;
uint16 shadowMode;
int32 scaleRight, scaleBottom;
byte *scalingXPtr, *scalingYPtr;
byte *maskPtr;
BompDrawData() { memset(this, 0, sizeof(*this)); }
};
struct StripTable;
class Gdi {
friend class ScummEngine; // Mostly for the code in saveload.cpp ...
ScummEngine *_vm;
public:
int _numZBuffer;
int _imgBufOffs[8];
int32 _numStrips;
byte _C64Colors[4];
Gdi(ScummEngine *vm);
protected:
byte *_roomPalette;
byte _decomp_shr, _decomp_mask;
byte _transparentColor;
uint32 _vertStripNextInc;
bool _zbufferDisabled;
byte _C64CharMap[2048], _C64ObjectMap[2048], _C64PicMap[4096], _C64ColorMap[4096];
byte _C64MaskMap[4096], _C64MaskChar[4096];
bool _C64ObjectMode;
/* Bitmap decompressors */
bool decompressBitmap(byte *bgbak_ptr, const byte *src, int numLinesToProcess);
void decodeStripEGA(byte *dst, const byte *src, int height);
void decodeC64Gfx(const byte *src, byte *dst, int size);
void drawStripC64Object(byte *dst, int stripnr, int width, int height);
void drawStripC64Background(byte *dst, int stripnr, int height);
void drawStripC64Mask(byte *dst, int stripnr, int width, int height);
void unkDecodeA(byte *dst, const byte *src, int height);
void unkDecodeA_trans(byte *dst, const byte *src, int height);
void unkDecodeB(byte *dst, const byte *src, int height);
void unkDecodeB_trans(byte *dst, const byte *src, int height);
void unkDecodeC(byte *dst, const byte *src, int height);
void unkDecodeC_trans(byte *dst, const byte *src, int height);
void unkDecode7(byte *dst, const byte *src, int height);
void unkDecode8(byte *dst, const byte *src, int height);
void unkDecode9(byte *dst, const byte *src, int height);
void unkDecode10(byte *dst, const byte *src, int height);
void unkDecode11(byte *dst, const byte *src, int height);
void draw8ColWithMasking(byte *dst, const byte *src, int height, byte *mask);
void draw8Col(byte *dst, const byte *src, int height);
void clear8ColWithMasking(byte *dst, int height, byte *mask);
void clear8Col(byte *dst, int height);
void decompressMaskImgOr(byte *dst, const byte *src, int height);
void decompressMaskImg(byte *dst, const byte *src, int height);
void drawStripToScreen(VirtScreen *vs, int x, int w, int t, int b);
void updateDirtyScreen(VirtScreen *vs);
byte *getMaskBuffer(int x, int y, int z = 0);
public:
void drawBitmap(const byte *ptr, VirtScreen *vs, int x, int y, const int width, const int height,
int stripnr, int numstrip, byte flag, StripTable *table = 0);
StripTable *generateStripTable(const byte *src, int width, int height, StripTable *table);
void disableZBuffer() { _zbufferDisabled = true; }
void enableZBuffer() { _zbufferDisabled = false; }
void resetBackground(int top, int bottom, int strip);
enum DrawBitmapFlags {
dbAllowMaskOr = 1,
dbDrawMaskOnAll = 2,
dbClear = 4
};
};
// If you want to try buggy hacked smooth scrolling support in The Dig, enable
// the following preprocessor flag by uncommenting it.
//
// Note: This is purely experimental, NOT WORKING COMPLETLY and very buggy.
// Please do not make reports about problems with it - this is only in CVS
// to get it fixed and so that really interested parties can experiment it.
// It is NOT FIT FOR GENERAL USAGE! You have been warned.
//
// Doing this correctly will be complicated. Basically, with smooth scrolling,
// the virtual screen strips don't match the display screen strips. Hence we
// either have to draw partial strips (but that'd be rather cumbersome). Or the
// alternative (and IMHO more elegant) solution is to simply use a screen pitch
// that is 8 pixel wider than the real screen width, and always draw one strip
// more than needed to the backbuf. This will still require quite some code to
// be changed but should otherwise be relatively easy to understand, and using
// VirtScreen::pitch will actually clean up the code.
//
// #define V7_SMOOTH_SCROLLING_HACK
} // End of namespace Scumm
#endif
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