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mirror of https://github.com/vcmi/vcmi.git synced 2024-12-26 22:57:00 +02:00
vcmi/client/mapHandler.h
John Bolton a05ae78e67 Fixed lots of warnings.
Disabled the following (for MSVC only) that couldn't (or shouldn't) be fixed.

4003: not enough actual parameters for macro 'identifier'
4250: 'class1' : inherits 'class2::member' via dominance
4251: 'type' : class 'type1' needs to have dll-interface to be used by clients of class 'type2'
4275: non dll-interface class 'type1' used as base for dll-interface class 'type2'
2020-10-04 02:20:18 -07:00

399 lines
14 KiB
C++

/*
* mapHandler.h, part of VCMI engine
*
* Authors: listed in file AUTHORS in main folder
*
* License: GNU General Public License v2.0 or later
* Full text of license available in license.txt file, in main folder
*
*/
#pragma once
#include "../lib/int3.h"
#include "../lib/spells/ViewSpellInt.h"
#include "gui/Geometries.h"
#include "SDL.h"
#ifdef IN
#undef IN
#endif
#ifdef OUT
#undef OUT
#endif
class CGObjectInstance;
class CGHeroInstance;
class CGBoat;
class CMap;
struct TerrainTile;
struct SDL_Surface;
struct SDL_Rect;
class CAnimation;
class IImage;
class CFadeAnimation;
class PlayerColor;
enum class EWorldViewIcon
{
TOWN = 0,
HERO,
ARTIFACT,
TELEPORT,
GATE,
MINE_WOOD,
MINE_MERCURY,
MINE_STONE,
MINE_SULFUR,
MINE_CRYSTAL,
MINE_GEM,
MINE_GOLD,
RES_WOOD,
RES_MERCURY,
RES_STONE,
RES_SULFUR,
RES_CRYSTAL,
RES_GEM,
RES_GOLD,
};
enum class EMapObjectFadingType
{
NONE,
IN,
OUT
};
enum class EMapAnimRedrawStatus
{
OK,
REDRAW_REQUESTED // map blitter requests quick redraw due to current animation
};
struct TerrainTileObject
{
const CGObjectInstance *obj;
SDL_Rect rect;
int fadeAnimKey;
boost::optional<std::string> ambientSound;
TerrainTileObject(const CGObjectInstance *obj_, SDL_Rect rect_, bool visitablePos = false);
~TerrainTileObject();
};
struct TerrainTile2
{
std::vector<TerrainTileObject> objects; //pointers to objects being on this tile with rects to be easier to blit this tile on screen
};
struct MapDrawingInfo
{
bool scaled;
int3 &topTile; // top-left tile in viewport [in tiles]
const std::vector< std::vector< std::vector<ui8> > > * visibilityMap;
SDL_Rect * drawBounds; // map rect drawing bounds on screen
std::shared_ptr<CAnimation> icons; // holds overlay icons for world view mode
float scale; // map scale for world view mode (only if scaled == true)
bool otherheroAnim;
ui8 anim;
ui8 heroAnim;
int3 movement; // used for smooth map movement
bool puzzleMode;
int3 grailPos; // location of grail for puzzle mode [in tiles]
const std::vector<ObjectPosInfo> * additionalIcons;
bool showAllTerrain; //for expert viewEarth
MapDrawingInfo(int3 &topTile_, const std::vector< std::vector< std::vector<ui8> > > * visibilityMap_, SDL_Rect * drawBounds_, std::shared_ptr<CAnimation> icons_ = nullptr)
: scaled(false),
topTile(topTile_),
visibilityMap(visibilityMap_),
drawBounds(drawBounds_),
icons(icons_),
scale(1.0f),
otherheroAnim(false),
anim(0u),
heroAnim(0u),
movement(int3()),
puzzleMode(false),
grailPos(int3()),
additionalIcons(nullptr),
showAllTerrain(false)
{}
ui8 getHeroAnim() const { return otherheroAnim ? anim : heroAnim; }
};
template <typename T> class PseudoV
{
public:
PseudoV() : offset(0) { }
inline T & operator[](const int & n)
{
return inver[n+offset];
}
inline const T & operator[](const int & n) const
{
return inver[n+offset];
}
void resize(int rest, int before, int after)
{
inver.resize(before + rest + after);
offset=before;
}
int size() const
{
return static_cast<int>(inver.size());
}
private:
int offset;
std::vector<T> inver;
};
class CMapHandler
{
enum class EMapCacheType : ui8
{
TERRAIN, OBJECTS, ROADS, RIVERS, FOW, HEROES, HERO_FLAGS, FRAME, AFTER_LAST
};
/// temporarily caches rescaled frames for map world view redrawing
class CMapCache
{
std::array< std::map<intptr_t, std::shared_ptr<IImage>>, (ui8)EMapCacheType::AFTER_LAST> data;
float worldViewCachedScale;
public:
CMapCache();
/// destroys all cached data (frees surfaces)
void discardWorldViewCache();
/// updates scale and determines if currently cached data is still valid
void updateWorldViewScale(float scale);
/// asks for cached data; @returns cached data if found, new scaled surface otherwise, may return nullptr in case of scaling error
std::shared_ptr<IImage> requestWorldViewCacheOrCreate(EMapCacheType type, std::shared_ptr<IImage> fullSurface);
};
/// helper struct to pass around resolved bitmaps of an object; images can be nullptr if object doesn't have bitmap of that type
struct AnimBitmapHolder
{
std::shared_ptr<IImage> objBitmap; // main object bitmap
std::shared_ptr<IImage> flagBitmap; // flag bitmap for the object (probably only for heroes and boats with heroes)
bool isMoving; // indicates if the object is moving (again, heroes/boats only)
AnimBitmapHolder(std::shared_ptr<IImage> objBitmap_ = nullptr, std::shared_ptr<IImage> flagBitmap_ = nullptr, bool moving = false)
: objBitmap(objBitmap_),
flagBitmap(flagBitmap_),
isMoving(moving)
{}
};
class CMapBlitter
{
protected:
const int FRAMES_PER_MOVE_ANIM_GROUP = 8;
CMapHandler * parent; // ptr to enclosing map handler; generally for legacy reasons, probably could/should be refactored out of here
int tileSize; // size of a tile drawn on map [in pixels]
int halfTileSizeCeil; // half of the tile size, rounded up
int3 tileCount; // number of tiles in current viewport
int3 topTile; // top-left tile of the viewport
int3 initPos; // starting drawing position [in pixels]
int3 pos; // current position [in tiles]
int3 realPos; // current position [in pixels]
Rect realTileRect; // default rect based on current pos: [realPos.x, realPos.y, tileSize, tileSize]
Rect defaultTileRect; // default rect based on 0: [0, 0, tileSize, tileSize]
const MapDrawingInfo * info; // data for drawing passed from outside
/// general drawing method, called internally by more specialized ones
virtual void drawElement(EMapCacheType cacheType, std::shared_ptr<IImage> source, SDL_Rect * sourceRect, SDL_Surface * targetSurf, SDL_Rect * destRect) const = 0;
// first drawing pass
/// draws terrain bitmap (or custom bitmap if applicable) on current tile
virtual void drawTileTerrain(SDL_Surface * targetSurf, const TerrainTile & tinfo, const TerrainTile2 & tile) const;
/// draws a river segment on current tile
virtual void drawRiver(SDL_Surface * targetSurf, const TerrainTile & tinfo) const;
/// draws a road segment on current tile
virtual void drawRoad(SDL_Surface * targetSurf, const TerrainTile & tinfo, const TerrainTile * tinfoUpper) const;
/// draws all objects on current tile (higher-level logic, unlike other draw*** methods)
virtual void drawObjects(SDL_Surface * targetSurf, const TerrainTile2 & tile) const;
virtual void drawObject(SDL_Surface * targetSurf, std::shared_ptr<IImage> source, SDL_Rect * sourceRect, bool moving) const;
virtual void drawHeroFlag(SDL_Surface * targetSurf, std::shared_ptr<IImage> source, SDL_Rect * sourceRect, SDL_Rect * destRect, bool moving) const;
// second drawing pass
/// current tile: draws overlay over the map, used to draw world view icons
virtual void drawTileOverlay(SDL_Surface * targetSurf, const TerrainTile2 & tile) const = 0;
/// draws fog of war on current tile
virtual void drawFow(SDL_Surface * targetSurf) const;
/// draws map border frame on current position
virtual void drawFrame(SDL_Surface * targetSurf) const;
/// draws additional icons (for VIEW_AIR, VIEW_EARTH spells atm)
virtual void drawOverlayEx(SDL_Surface * targetSurf);
// third drawing pass
/// custom post-processing, if needed (used by puzzle view)
virtual void postProcessing(SDL_Surface * targetSurf) const {}
// misc methods
/// initializes frame-drawing (called at the start of every redraw)
virtual void init(const MapDrawingInfo * drawingInfo) = 0;
/// calculates clip region for map viewport
virtual SDL_Rect clip(SDL_Surface * targetSurf) const = 0;
virtual ui8 getHeroFrameGroup(ui8 dir, bool isMoving) const;
virtual ui8 getPhaseShift(const CGObjectInstance *object) const;
virtual bool canDrawObject(const CGObjectInstance * obj) const;
virtual bool canDrawCurrentTile() const;
// internal helper methods to choose correct bitmap(s) for object; called internally by findObjectBitmap
AnimBitmapHolder findHeroBitmap(const CGHeroInstance * hero, int anim) const;
AnimBitmapHolder findBoatBitmap(const CGBoat * hero, int anim) const;
std::shared_ptr<IImage> findFlagBitmap(const CGHeroInstance * obj, int anim, const PlayerColor * color, int group) const;
std::shared_ptr<IImage> findHeroFlagBitmap(const CGHeroInstance * obj, int anim, const PlayerColor * color, int group) const;
std::shared_ptr<IImage> findBoatFlagBitmap(const CGBoat * obj, int anim, const PlayerColor * color, int group, ui8 dir) const;
std::shared_ptr<IImage> findFlagBitmapInternal(std::shared_ptr<CAnimation> animation, int anim, int group, ui8 dir, bool moving) const;
public:
CMapBlitter(CMapHandler * p);
virtual ~CMapBlitter();
void blit(SDL_Surface * targetSurf, const MapDrawingInfo * info);
/// helper method that chooses correct bitmap(s) for given object
AnimBitmapHolder findObjectBitmap(const CGObjectInstance * obj, int anim) const;
};
class CMapNormalBlitter : public CMapBlitter
{
protected:
void drawElement(EMapCacheType cacheType, std::shared_ptr<IImage> source, SDL_Rect * sourceRect, SDL_Surface * targetSurf, SDL_Rect * destRect) const override;
void drawTileOverlay(SDL_Surface * targetSurf,const TerrainTile2 & tile) const override {}
void init(const MapDrawingInfo * info) override;
SDL_Rect clip(SDL_Surface * targetSurf) const override;
public:
CMapNormalBlitter(CMapHandler * parent);
virtual ~CMapNormalBlitter(){}
};
class CMapWorldViewBlitter : public CMapBlitter
{
private:
std::shared_ptr<IImage> objectToIcon(Obj id, si32 subId, PlayerColor owner) const;
protected:
void drawElement(EMapCacheType cacheType, std::shared_ptr<IImage> source, SDL_Rect * sourceRect, SDL_Surface * targetSurf, SDL_Rect * destRect) const override;
void drawTileOverlay(SDL_Surface * targetSurf, const TerrainTile2 & tile) const override;
void drawHeroFlag(SDL_Surface * targetSurf, std::shared_ptr<IImage> source, SDL_Rect * sourceRect, SDL_Rect * destRect, bool moving) const override;
void drawObject(SDL_Surface * targetSurf, std::shared_ptr<IImage> source, SDL_Rect * sourceRect, bool moving) const override;
void drawFrame(SDL_Surface * targetSurf) const override {}
void drawOverlayEx(SDL_Surface * targetSurf) override;
void init(const MapDrawingInfo * info) override;
SDL_Rect clip(SDL_Surface * targetSurf) const override;
ui8 getPhaseShift(const CGObjectInstance *object) const override { return 0u; }
void calculateWorldViewCameraPos();
public:
CMapWorldViewBlitter(CMapHandler * parent);
virtual ~CMapWorldViewBlitter(){}
};
class CMapPuzzleViewBlitter : public CMapNormalBlitter
{
std::vector<int> unblittableObjects;
void drawObjects(SDL_Surface * targetSurf, const TerrainTile2 & tile) const override;
void drawFow(SDL_Surface * targetSurf) const override {} // skipping FoW in puzzle view
void postProcessing(SDL_Surface * targetSurf) const override;
bool canDrawObject(const CGObjectInstance * obj) const override;
bool canDrawCurrentTile() const override { return true; }
public:
CMapPuzzleViewBlitter(CMapHandler * parent);
};
CMapCache cache;
CMapBlitter * normalBlitter;
CMapBlitter * worldViewBlitter;
CMapBlitter * puzzleViewBlitter;
std::map<int, std::pair<int3, CFadeAnimation*>> fadeAnims;
int fadeAnimCounter;
CMapBlitter * resolveBlitter(const MapDrawingInfo * info) const;
bool updateObjectsFade();
bool startObjectFade(TerrainTileObject & obj, bool in, int3 pos);
void initObjectRects();
void initBorderGraphics();
void initTerrainGraphics();
void prepareFOWDefs();
public:
PseudoV< PseudoV< PseudoV<TerrainTile2> > > ttiles; //informations about map tiles
int3 sizes; //map size (x = width, y = height, z = number of levels)
const CMap * map;
// Max number of tiles that will fit in the map screen. Tiles
// can be partial on each edges.
int tilesW;
int tilesH;
// size of each side of the frame around the whole map, in tiles
int frameH;
int frameW;
// Coord in pixels of the top left corner of the top left tile to
// draw. Values range is [-31..0]. A negative value
// implies that part of the tile won't be displayed.
int offsetX;
int offsetY;
//terrain graphics
//FIXME: unique_ptr should be enough, but fails to compile in MSVS 2013
typedef std::vector<std::array<std::shared_ptr<CAnimation>, 4>> TFlippedAnimations; //[type, rotation]
typedef std::vector<std::vector<std::array<std::shared_ptr<IImage>, 4>>> TFlippedCache;//[type, view type, rotation]
TFlippedAnimations terrainAnimations;//[terrain type, rotation]
TFlippedCache terrainImages;//[terrain type, view type, rotation]
TFlippedAnimations roadAnimations;//[road type, rotation]
TFlippedCache roadImages;//[road type, view type, rotation]
TFlippedAnimations riverAnimations;//[river type, rotation]
TFlippedCache riverImages;//[river type, view type, rotation]
//Fog of War cache (not owned)
std::vector<std::shared_ptr<IImage>> FoWfullHide;
std::vector<std::vector<std::vector<ui8> > > hideBitmap; //frame indexes (in FoWfullHide) of graphic that should be used to fully hide a tile
std::vector<std::shared_ptr<IImage>> FoWpartialHide;
//edge graphics
std::unique_ptr<CAnimation> egdeAnimation;
std::vector<std::shared_ptr<IImage>> egdeImages;//cache of links to egdeAnimation (for faster access)
PseudoV< PseudoV< PseudoV <ui8> > > edgeFrames; //frame indexes (in egdeImages) of tile outside of map
mutable std::map<const CGObjectInstance*, ui8> animationPhase;
CMapHandler();
~CMapHandler();
void getTerrainDescr(const int3 &pos, std::string & out, bool terName); //if tername == false => empty string when tile is clear
bool printObject(const CGObjectInstance * obj, bool fadein = false); //puts appropriate things to tiles, so obj will be visible on map
bool hideObject(const CGObjectInstance * obj, bool fadeout = false); //removes appropriate things from ttiles, so obj will be no longer visible on map (but still will exist)
void init();
EMapAnimRedrawStatus drawTerrainRectNew(SDL_Surface * targetSurface, const MapDrawingInfo * info, bool redrawOnlyAnim = false);
void updateWater();
/// determines if the map is ready to handle new hero movement (not available during fading animations)
bool canStartHeroMovement();
void discardWorldViewCache();
static bool compareObjectBlitOrder(const CGObjectInstance * a, const CGObjectInstance * b);
};