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mirror of https://github.com/vcmi/vcmi.git synced 2024-12-26 22:57:00 +02:00
vcmi/lib/NetPacks.h
beegee1 69eee05ccc - Partially fixed mantis #1065 (Gate with hex 95 can't be attacked)
- Fixed 'catapult tried to attack non-catapultable hex!' problem, now catapult attacks attackable wall parts only
- Fixed problem that the server performed applying damage on a wall part twice
- Added methods for checking what wall parts are attackable and if a wall part is potentially attackable
- Added functionality to trace net packages
- Added functionality to trace std::vectors
- Added tracing for CatapultAttack(CPack)
- Updated various toString methods to use {} instead of []
- Refactoring
2013-12-08 17:54:13 +00:00

2411 lines
61 KiB
C++

#pragma once
#include <boost/variant.hpp>
#include "BattleAction.h"
#include "HeroBonus.h"
#include "CCreatureSet.h"
#include "mapping/CMapInfo.h"
#include "StartInfo.h"
#include "ConstTransitivePtr.h"
#include "int3.h"
#include "ResourceSet.h"
#include "CObstacleInstance.h"
#include "CGameState.h"
/*
* NetPacks.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
*
*/
class CClient;
class CGameState;
class CGameHandler;
class CConnection;
class CCampaignState;
class CArtifact;
class CSelectionScreen;
class CGObjectInstance;
class CArtifactInstance;
//class CMapInfo;
struct StackLocation;
struct ArtSlotInfo;
struct QuestInfo;
struct CPack
{
ui16 type;
CPack(){};
virtual ~CPack(){};
ui16 getType() const{return type;}
template <typename Handler> void serialize(Handler &h, const int version)
{
logNetwork->errorStream() << "CPack serialized... this should not happen!";
}
void applyGs(CGameState *gs) { }
virtual std::string toString() const { return boost::str(boost::format("{CPack: type '%d'}") % type); }
};
std::ostream & operator<<(std::ostream & out, const CPack * pack);
struct CPackForClient : public CPack
{
CPackForClient(){type = 1;};
CGameState* GS(CClient *cl);
void applyFirstCl(CClient *cl)//called before applying to gs
{};
void applyCl(CClient *cl)//called after applying to gs
{};
};
struct CPackForServer : public CPack
{
PlayerColor player;
CConnection *c;
CGameState* GS(CGameHandler *gh);
CPackForServer():
player(PlayerColor::NEUTRAL),
c(nullptr)
{
type = 2;
}
bool applyGh(CGameHandler *gh);//called after applying to gs
};
struct Query : public CPackForClient
{
QueryID queryID; // equals to -1 if it is not an actual query (and should not be answered)
Query()
{
}
};
struct MetaString : public CPack //2001 helper for object scrips
{
private:
enum EMessage {TEXACT_STRING, TLOCAL_STRING, TNUMBER, TREPLACE_ESTRING, TREPLACE_LSTRING, TREPLACE_NUMBER, TREPLACE_PLUSNUMBER};
public:
enum {GENERAL_TXT=1, XTRAINFO_TXT, OBJ_NAMES, RES_NAMES, ART_NAMES, ARRAY_TXT, CRE_PL_NAMES, CREGENS, MINE_NAMES,
MINE_EVNTS, ADVOB_TXT, ART_EVNTS, SPELL_NAME, SEC_SKILL_NAME, CRE_SING_NAMES, CREGENS4, COLOR, ART_DESCR};
std::vector<ui8> message; //vector of EMessage
std::vector<std::pair<ui8,ui32> > localStrings; //pairs<text handler type, text number>; types: 1 - generaltexthandler->all; 2 - objh->xtrainfo; 3 - objh->names; 4 - objh->restypes; 5 - arth->artifacts[id].name; 6 - generaltexth->arraytxt; 7 - creh->creatures[os->subID].namePl; 8 - objh->creGens; 9 - objh->mines[ID]->first; 10 - objh->mines[ID]->second; 11 - objh->advobtxt
std::vector<std::string> exactStrings;
std::vector<si32> numbers;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & exactStrings & localStrings & message & numbers;
}
void addTxt(ui8 type, ui32 serial)
{
message.push_back(TLOCAL_STRING);
localStrings.push_back(std::pair<ui8,ui32>(type, serial));
}
MetaString& operator<<(const std::pair<ui8,ui32> &txt)
{
message.push_back(TLOCAL_STRING);
localStrings.push_back(txt);
return *this;
}
MetaString& operator<<(const std::string &txt)
{
message.push_back(TEXACT_STRING);
exactStrings.push_back(txt);
return *this;
}
MetaString& operator<<(int txt)
{
message.push_back(TNUMBER);
numbers.push_back(txt);
return *this;
}
void addReplacement(ui8 type, ui32 serial)
{
message.push_back(TREPLACE_LSTRING);
localStrings.push_back(std::pair<ui8,ui32>(type, serial));
}
void addReplacement(const std::string &txt)
{
message.push_back(TREPLACE_ESTRING);
exactStrings.push_back(txt);
}
void addReplacement(int txt)
{
message.push_back(TREPLACE_NUMBER);
numbers.push_back(txt);
}
void addReplacement2(int txt)
{
message.push_back(TREPLACE_PLUSNUMBER);
numbers.push_back(txt);
}
DLL_LINKAGE void addCreReplacement(CreatureID id, TQuantity count); //adds sing or plural name;
DLL_LINKAGE void addReplacement(const CStackBasicDescriptor &stack); //adds sing or plural name;
DLL_LINKAGE std::string buildList () const;
void clear()
{
exactStrings.clear();
localStrings.clear();
message.clear();
numbers.clear();
}
DLL_LINKAGE void toString(std::string &dst) const;
DLL_LINKAGE std::string toString() const;
void getLocalString(const std::pair<ui8,ui32> &txt, std::string &dst) const;
MetaString()
{
type = 2001;
}
};
struct StackLocation
{
ConstTransitivePtr<CArmedInstance> army;
SlotID slot;
StackLocation()
{}
StackLocation(const CArmedInstance *Army, SlotID Slot):
army(const_cast<CArmedInstance*>(Army)), //we are allowed here to const cast -> change will go through one of our packages... do not abuse!
slot(Slot)
{
}
DLL_LINKAGE const CStackInstance *getStack();
template <typename Handler> void serialize(Handler &h, const int version)
{
h & army & slot;
}
};
/***********************************************************************************************************/
struct PackageApplied : public CPackForClient //94
{
PackageApplied() {type = 94;}
PackageApplied(ui8 Result) : result(Result) {type = 94;}
void applyCl(CClient *cl);
ui8 result; //0 - something went wrong, request hasn't been realized; 1 - OK
ui32 packType; //type id of applied package
ui32 requestID; //an ID given by client to the request that was applied
PlayerColor player;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & result & packType & requestID & player;
}
};
struct SystemMessage : public CPackForClient //95
{
SystemMessage(const std::string & Text) : text(Text){type = 95;};
SystemMessage(){type = 95;};
void applyCl(CClient *cl);
std::string text;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & text;
}
};
struct PlayerBlocked : public CPackForClient //96
{
PlayerBlocked(){type = 96;};
void applyCl(CClient *cl);
enum EReason { UPCOMING_BATTLE, ONGOING_MOVEMENT };
enum EMode { BLOCKADE_STARTED, BLOCKADE_ENDED };
EReason reason;
EMode startOrEnd;
PlayerColor player;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & reason & startOrEnd & player;
}
};
struct YourTurn : public CPackForClient //100
{
YourTurn(){type = 100;};
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
PlayerColor player;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & player;
}
};
struct SetResource : public CPackForClient //102
{
SetResource(){type = 102;};
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
PlayerColor player;
Res::ERes resid;
TResourceCap val;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & player & resid & val;
}
};
struct SetResources : public CPackForClient //104
{
SetResources(){type = 104;};
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
PlayerColor player;
TResources res; //res[resid] => res amount
template <typename Handler> void serialize(Handler &h, const int version)
{
h & player & res;
}
};
struct SetPrimSkill : public CPackForClient //105
{
SetPrimSkill(){type = 105;};
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
ui8 abs; //0 - changes by value; 1 - sets to value
ObjectInstanceID id;
PrimarySkill::PrimarySkill which;
si64 val;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & abs & id & which & val;
}
};
struct SetSecSkill : public CPackForClient //106
{
SetSecSkill(){type = 106;};
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
ui8 abs; //0 - changes by value; 1 - sets to value
ObjectInstanceID id;
SecondarySkill which;
ui16 val;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & abs & id & which & val;
}
};
struct HeroVisitCastle : public CPackForClient //108
{
HeroVisitCastle(){flags=0;type = 108;};
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
ui8 flags; //1 - start
ObjectInstanceID tid, hid;
bool start() //if hero is entering castle (if false - leaving)
{
return flags & 1;
}
// bool garrison() //if hero is entering/leaving garrison (if false - it's only visiting hero)
// {
// return flags & 2;
// }
template <typename Handler> void serialize(Handler &h, const int version)
{
h & flags & tid & hid;
}
};
struct ChangeSpells : public CPackForClient //109
{
ChangeSpells(){type = 109;};
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
ui8 learn; //1 - gives spell, 0 - takes
ObjectInstanceID hid;
std::set<SpellID> spells;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & learn & hid & spells;
}
};
struct SetMana : public CPackForClient //110
{
SetMana(){type = 110;};
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
ObjectInstanceID hid;
si32 val;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & val & hid;
}
};
struct SetMovePoints : public CPackForClient //111
{
SetMovePoints(){type = 111;};
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
ObjectInstanceID hid;
si32 val;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & val & hid;
}
};
struct FoWChange : public CPackForClient //112
{
FoWChange(){type = 112;};
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
std::unordered_set<int3, struct ShashInt3 > tiles;
PlayerColor player;
ui8 mode; //mode==0 - hide, mode==1 - reveal
template <typename Handler> void serialize(Handler &h, const int version)
{
h & tiles & player & mode;
}
};
struct SetAvailableHeroes : public CPackForClient //113
{
SetAvailableHeroes()
{
type = 113;
for (int i = 0; i < GameConstants::AVAILABLE_HEROES_PER_PLAYER; i++)
army[i].clear();
}
~SetAvailableHeroes()
{
}
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
PlayerColor player;
si32 hid[GameConstants::AVAILABLE_HEROES_PER_PLAYER]; //-1 if no hero
CSimpleArmy army[GameConstants::AVAILABLE_HEROES_PER_PLAYER];
template <typename Handler> void serialize(Handler &h, const int version)
{
h & player & hid & army;
}
};
struct GiveBonus : public CPackForClient //115
{
GiveBonus(ui8 Who = 0)
{
who = Who;
type = 115;
}
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
enum {HERO, PLAYER, TOWN};
ui8 who; //who receives bonus, uses enum above
si32 id; //hero. town or player id - whoever receives it
Bonus bonus;
MetaString bdescr;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & bonus & id & bdescr & who;
}
};
struct ChangeObjPos : public CPackForClient //116
{
ChangeObjPos()
{
type = 116;
flags = 0;
}
void applyFirstCl(CClient *cl);
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
ObjectInstanceID objid;
int3 nPos;
ui8 flags; //bit flags: 1 - redraw
template <typename Handler> void serialize(Handler &h, const int version)
{
h & objid & nPos & flags;
}
};
struct PlayerEndsGame : public CPackForClient //117
{
PlayerEndsGame()
{
type = 117;
}
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
PlayerColor player;
EVictoryLossCheckResult victoryLossCheckResult;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & player & victoryLossCheckResult;
}
};
struct RemoveBonus : public CPackForClient //118
{
RemoveBonus(ui8 Who = 0)
{
who = Who;
type = 118;
}
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
enum {HERO, PLAYER, TOWN};
ui8 who; //who receives bonus, uses enum above
ui32 whoID; //hero, town or player id - whoever loses bonus
//vars to identify bonus: its source
ui8 source;
ui32 id; //source id
//used locally: copy of removed bonus
Bonus bonus;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & source & id & who & whoID;
}
};
struct UpdateCampaignState : public CPackForClient //119
{
UpdateCampaignState()
{
type = 119;
}
shared_ptr<CCampaignState> camp;
void applyCl(CClient *cl);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & camp;
}
};
struct SetCommanderProperty : public CPackForClient //120
{
enum ECommanderProperty {ALIVE, BONUS, SECONDARY_SKILL, EXPERIENCE, SPECIAL_SKILL};
SetCommanderProperty(){type = 120;};
void applyCl(CClient *cl){};
DLL_LINKAGE void applyGs(CGameState *gs);
ObjectInstanceID heroid; //for commander attached to hero
StackLocation sl; //for commander not on the hero?
ECommanderProperty which;
TExpType amount; //0 for dead, >0 for alive
si32 additionalInfo; //for secondary skills choice
Bonus accumulatedBonus;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & heroid & sl & which & amount & additionalInfo & accumulatedBonus;
}
};
struct AddQuest : public CPackForClient //121
{
AddQuest(){type = 121;};
void applyCl(CClient *cl){};
DLL_LINKAGE void applyGs(CGameState *gs);
PlayerColor player;
QuestInfo quest;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & player & quest;
}
};
struct PrepareForAdvancingCampaign : public CPackForClient //122
{
PrepareForAdvancingCampaign() {type = 122;}
void applyCl(CClient *cl);
template <typename Handler> void serialize(Handler &h, const int version)
{
}
};
struct UpdateArtHandlerLists : public CPackForClient //123
{
UpdateArtHandlerLists(){type = 123;};
std::vector<CArtifact*> treasures, minors, majors, relics;
DLL_LINKAGE void applyGs(CGameState *gs);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & treasures & minors & majors & relics;
}
};
struct UpdateMapEvents : public CPackForClient //124
{
UpdateMapEvents(){type = 124;}
std::list<CMapEvent> events;
DLL_LINKAGE void applyGs(CGameState *gs);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & events;
}
};
struct UpdateCastleEvents : public CPackForClient //125
{
UpdateCastleEvents(){type = 125;}
ObjectInstanceID town;
std::list<CCastleEvent> events;
DLL_LINKAGE void applyGs(CGameState *gs);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & town & events;
}
};
struct RemoveObject : public CPackForClient //500
{
RemoveObject(){type = 500;};
RemoveObject(ObjectInstanceID ID){id = ID;type = 500;};
void applyFirstCl(CClient *cl);
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
ObjectInstanceID id;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & id;
}
};
struct TryMoveHero : public CPackForClient //501
{
TryMoveHero(){type = 501;humanKnows=false;};
void applyFirstCl(CClient *cl);
void applyCl(CClient *cl);
void applyGs(CGameState *gs);
enum EResult
{
FAILED, SUCCESS, TELEPORTATION, RESERVED___, BLOCKING_VISIT, EMBARK, DISEMBARK
};
ObjectInstanceID id;
ui32 movePoints;
EResult result; //uses EResult
int3 start, end; //h3m format
std::unordered_set<int3, ShashInt3> fowRevealed; //revealed tiles
boost::optional<int3> attackedFrom; // Set when stepping into endangered tile.
bool humanKnows; //used locally during applying to client
template <typename Handler> void serialize(Handler &h, const int version)
{
h & id & result & start & end & movePoints & fowRevealed & attackedFrom;
}
};
// struct SetGarrisons : public CPackForClient //502
// {
// SetGarrisons(){type = 502;};
// void applyCl(CClient *cl);
// DLL_LINKAGE void applyGs(CGameState *gs);
//
// std::map<ui32,CCreatureSet> garrs;
//
// template <typename Handler> void serialize(Handler &h, const int version)
// {
// h & garrs;
// }
// };
struct NewStructures : public CPackForClient //504
{
NewStructures(){type = 504;};
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
ObjectInstanceID tid;
std::set<BuildingID> bid;
si16 builded;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & tid & bid & builded;
}
};
struct RazeStructures : public CPackForClient //505
{
RazeStructures() {type = 505;};
void applyCl (CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
ObjectInstanceID tid;
std::set<BuildingID> bid;
si16 destroyed;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & tid & bid & destroyed;
}
};
struct SetAvailableCreatures : public CPackForClient //506
{
SetAvailableCreatures(){type = 506;};
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
ObjectInstanceID tid;
std::vector<std::pair<ui32, std::vector<CreatureID> > > creatures;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & tid & creatures;
}
};
struct SetHeroesInTown : public CPackForClient //508
{
SetHeroesInTown(){type = 508;};
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
ObjectInstanceID tid, visiting, garrison; //id of town, visiting hero, hero in garrison
template <typename Handler> void serialize(Handler &h, const int version)
{
h & tid & visiting & garrison;
}
};
// struct SetHeroArtifacts : public CPackForClient //509
// {
// SetHeroArtifacts(){type = 509;};
// void applyCl(CClient *cl);
// DLL_LINKAGE void applyGs(CGameState *gs);
// DLL_LINKAGE void setArtAtPos(ui16 pos, const CArtifact* art);
//
// si32 hid;
// std::vector<const CArtifact*> artifacts; //hero's artifacts from bag
// std::map<ui16, const CArtifact*> artifWorn; //map<position,artifact_id>; positions: 0 - head; 1 - shoulders; 2 - neck; 3 - right hand; 4 - left hand; 5 - torso; 6 - right ring; 7 - left ring; 8 - feet; 9 - misc1; 10 - misc2; 11 - misc3; 12 - misc4; 13 - mach1; 14 - mach2; 15 - mach3; 16 - mach4; 17 - spellbook; 18 - misc5
//
// template <typename Handler> void serialize(Handler &h, const int version)
// {
// h & hid & artifacts & artifWorn;
// }
//
// std::vector<const CArtifact*> equipped, unequipped; //used locally
// BonusList gained, lost; //used locally as hlp when applying
// };
struct HeroRecruited : public CPackForClient //515
{
HeroRecruited(){type = 515;};
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
si32 hid;//subID of hero
ObjectInstanceID tid;
int3 tile;
PlayerColor player;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & hid & tid & tile & player;
}
};
struct GiveHero : public CPackForClient //516
{
GiveHero(){type = 516;};
void applyFirstCl(CClient *cl);
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
ObjectInstanceID id; //object id
PlayerColor player;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & id & player;
}
};
struct OpenWindow : public CPackForClient //517
{
OpenWindow(){type = 517;};
void applyCl(CClient *cl);
enum EWindow {EXCHANGE_WINDOW, RECRUITMENT_FIRST, RECRUITMENT_ALL, SHIPYARD_WINDOW, THIEVES_GUILD,
UNIVERSITY_WINDOW, HILL_FORT_WINDOW, MARKET_WINDOW, PUZZLE_MAP, TAVERN_WINDOW};
ui8 window;
si32 id1, id2;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & window & id1 & id2;
}
};
struct NewObject : public CPackForClient //518
{
NewObject()
{
type = 518;
}
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
Obj ID;
ui32 subID;
int3 pos;
ObjectInstanceID id; //used locally, filled during applyGs
template <typename Handler> void serialize(Handler &h, const int version)
{
h & ID & subID & pos;
}
};
struct SetAvailableArtifacts : public CPackForClient //519
{
SetAvailableArtifacts(){type = 519;};
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
si32 id; //two variants: id < 0: set artifact pool for Artifact Merchants in towns; id >= 0: set pool for adv. map Black Market (id is the id of Black Market instance then)
std::vector<const CArtifact *> arts;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & id & arts;
}
};
struct NewArtifact : public CPackForClient //520
{
NewArtifact(){type = 520;};
//void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
ConstTransitivePtr<CArtifactInstance> art;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & art;
}
};
struct CGarrisonOperationPack : CPackForClient
{
};
struct CArtifactOperationPack : CPackForClient
{
};
struct ChangeStackCount : CGarrisonOperationPack //521
{
StackLocation sl;
TQuantity count;
ui8 absoluteValue; //if not -> count will be added (or subtracted if negative)
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & sl & count & absoluteValue;
}
};
struct SetStackType : CGarrisonOperationPack //522
{
StackLocation sl;
CCreature *type;
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & sl & type;
}
};
struct EraseStack : CGarrisonOperationPack //523
{
StackLocation sl;
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & sl;
}
};
struct SwapStacks : CGarrisonOperationPack //524
{
StackLocation sl1, sl2;
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & sl1 & sl2;
}
};
struct InsertNewStack : CGarrisonOperationPack //525
{
StackLocation sl;
CStackBasicDescriptor stack;
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & sl & stack;
}
};
//moves creatures from src stack to dst slot, may be used for merging/splittint/moving stacks
struct RebalanceStacks : CGarrisonOperationPack //526
{
StackLocation src, dst;
TQuantity count;
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & src & dst & count;
}
};
typedef boost::variant<ConstTransitivePtr<CGHeroInstance>, ConstTransitivePtr<CStackInstance> > TArtHolder;
struct GetEngagedHeroIds : boost::static_visitor<boost::optional<ObjectInstanceID>>
{
boost::optional<ObjectInstanceID> operator()(const ConstTransitivePtr<CGHeroInstance> &h) const
{
return h->id;
}
boost::optional<ObjectInstanceID> operator()(const ConstTransitivePtr<CStackInstance> &s) const
{
if(s->armyObj && s->armyObj->ID == Obj::HERO)
return s->armyObj->id;
return boost::optional<ObjectInstanceID>();
}
};
//struct GetArtifactSet : boost::static_visitor<>
//{
// void operator()(const ConstTransitivePtr<CGHeroInstance> &h) const {}
// void operator()(const ConstTransitivePtr<CStackInstance> &s) const {}
//};
//struct GetArtifactSetPtr : boost::static_visitor<>
//{
// ConstTransitivePtr<CGHeroInstance> operator()(const ConstTransitivePtr<CGHeroInstance> &h) const { return h;}
// ConstTransitivePtr<CStackInstance> operator()(const ConstTransitivePtr<CStackInstance> &s) const { return s;}
//};
struct ArtifactLocation
{
TArtHolder artHolder;
ArtifactPosition slot;
ArtifactLocation()
{
artHolder = ConstTransitivePtr<CGHeroInstance>();
slot = ArtifactPosition::PRE_FIRST;
}
template <typename T>
ArtifactLocation(const T *ArtHolder, ArtifactPosition Slot)
{
artHolder = const_cast<T*>(ArtHolder); //we are allowed here to const cast -> change will go through one of our packages... do not abuse!
slot = Slot;
}
ArtifactLocation(TArtHolder ArtHolder, ArtifactPosition Slot)
{
artHolder = ArtHolder;
slot = Slot;
}
template <typename T>
bool isHolder(const T *t) const
{
if(auto ptrToT = boost::get<ConstTransitivePtr<T> >(&artHolder))
{
return ptrToT->get() == t;
}
return false;
}
DLL_LINKAGE const CArmedInstance *relatedObj() const; //hero or the stack owner
DLL_LINKAGE PlayerColor owningPlayer() const;
DLL_LINKAGE CArtifactSet *getHolderArtSet();
DLL_LINKAGE CBonusSystemNode *getHolderNode();
DLL_LINKAGE const CArtifactSet *getHolderArtSet() const;
DLL_LINKAGE const CBonusSystemNode *getHolderNode() const;
DLL_LINKAGE const CArtifactInstance *getArt() const;
DLL_LINKAGE CArtifactInstance *getArt();
DLL_LINKAGE const ArtSlotInfo *getSlot() const;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & artHolder & slot;
}
};
struct PutArtifact : CArtifactOperationPack //526
{
ArtifactLocation al;
ConstTransitivePtr<CArtifactInstance> art;
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & al & art;
}
};
struct EraseArtifact : CArtifactOperationPack //527
{
ArtifactLocation al;
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & al;
}
};
struct MoveArtifact : CArtifactOperationPack //528
{
ArtifactLocation src, dst;
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & src & dst;
}
};
struct AssembledArtifact : CArtifactOperationPack //529
{
ArtifactLocation al; //where assembly will be put
CArtifact *builtArt;
//std::vector<CArtifactInstance *> constituents;
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & al & builtArt/* & constituents*/;
}
};
struct DisassembledArtifact : CArtifactOperationPack //530
{
ArtifactLocation al;
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & al;
}
};
struct HeroVisit : CPackForClient //531
{
const CGHeroInstance *hero;
const CGObjectInstance *obj;
PlayerColor player; //if hero was killed during the visit, its color is already reset
bool starting; //false -> ending
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & hero & obj & player & starting;
}
};
struct NewTurn : public CPackForClient //101
{
enum weekType {NORMAL, DOUBLE_GROWTH, BONUS_GROWTH, DEITYOFFIRE, PLAGUE, NO_ACTION};
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
struct Hero
{
ObjectInstanceID id;
ui32 move, mana; //id is a general serial id
template <typename Handler> void serialize(Handler &h, const int version)
{
h & id & move & mana;
}
bool operator<(const Hero&h)const{return id < h.id;}
};
std::set<Hero> heroes; //updates movement and mana points
//std::vector<SetResources> res;//resource list
std::map<PlayerColor, TResources> res; //player ID => resource value[res_id]
std::map<ObjectInstanceID, SetAvailableCreatures> cres;//creatures to be placed in towns
ui32 day;
bool resetBuilded;
ui8 specialWeek; //weekType
CreatureID creatureid; //for creature weeks
NewTurn(){type = 101;};
template <typename Handler> void serialize(Handler &h, const int version)
{
h & heroes & cres & res & day & resetBuilded & specialWeek & creatureid;
}
};
struct Component : public CPack //2002 helper for object scrips informations
{
enum EComponentType {PRIM_SKILL, SEC_SKILL, RESOURCE, CREATURE, ARTIFACT, EXPERIENCE, SPELL, MORALE, LUCK, BUILDING, HERO_PORTRAIT, FLAG};
ui16 id, subtype; //id uses ^^^ enums, when id==EXPPERIENCE subtype==0 means exp points and subtype==1 levels)
si32 val; // + give; - take
si16 when; // 0 - now; +x - within x days; -x - per x days
template <typename Handler> void serialize(Handler &h, const int version)
{
h & id & subtype & val & when;
}
Component()
{
type = 2002;
}
DLL_LINKAGE explicit Component(const CStackBasicDescriptor &stack);
Component(Component::EComponentType Type, ui16 Subtype, si32 Val, si16 When)
:id(Type),subtype(Subtype),val(Val),when(When)
{
type = 2002;
}
};
struct InfoWindow : public CPackForClient //103 - displays simple info window
{
void applyCl(CClient *cl);
MetaString text;
std::vector<Component> components;
PlayerColor player;
ui16 soundID;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & text & components & player & soundID;
}
InfoWindow()
{
type = 103;
soundID = 0;
}
};
namespace ObjProperty
{
enum {OWNER = 1, BLOCKVIS = 2, PRIMARY_STACK_COUNT = 3, VISITORS = 4, VISITED = 5, ID = 6, AVAILABLE_CREATURE = 7, SUBID = 8,
MONSTER_COUNT = 10, MONSTER_POWER = 11, MONSTER_EXP = 12, MONSTER_RESTORE_TYPE = 13, MONSTER_REFUSED_JOIN,
//town-specific
STRUCTURE_ADD_VISITING_HERO, STRUCTURE_CLEAR_VISITORS, STRUCTURE_ADD_GARRISONED_HERO, //changing buildings state
BONUS_VALUE_FIRST, BONUS_VALUE_SECOND, //used in Rampart for special building that generates resources (storing resource type and quantity)
//creature-bank specific
BANK_DAYCOUNTER, BANK_CLEAR_ARTIFACTS, BANK_ADD_ARTIFACT, BANK_MULTIPLIER, BANK_CONFIG_PRESET,
BANK_CLEAR_CONFIG, BANK_INIT_ARMY, BANK_RESET,
//magic spring
LEFT_VISITED, RIGHT_VISITED, LEFTRIGHT_CLEAR
};
}
struct SetObjectProperty : public CPackForClient//1001
{
DLL_LINKAGE void applyGs(CGameState *gs);
void applyCl(CClient *cl);
ObjectInstanceID id;
ui8 what; //1 - owner; 2 - blockvis; 3 - first stack count; 4 - visitors; 5 - visited; 6 - ID (if 34 then also def is replaced)
ui32 val;
SetObjectProperty(){type = 1001;};
SetObjectProperty(ObjectInstanceID ID, ui8 What, ui32 Val):id(ID),what(What),val(Val){type = 1001;};
template <typename Handler> void serialize(Handler &h, const int version)
{
h & id & what & val;
}
};
struct SetHoverName : public CPackForClient//1002
{
DLL_LINKAGE void applyGs(CGameState *gs);
ObjectInstanceID id;
MetaString name;
SetHoverName(){type = 1002;};
SetHoverName(ObjectInstanceID ID, MetaString& Name):id(ID),name(Name){type = 1002;};
template <typename Handler> void serialize(Handler &h, const int version)
{
h & id & name;
}
};
struct HeroLevelUp : public Query//2000
{
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
const CGHeroInstance *hero;
PrimarySkill::PrimarySkill primskill;
ui8 level;
std::vector<SecondarySkill> skills;
HeroLevelUp(){type = 2000;};
template <typename Handler> void serialize(Handler &h, const int version)
{
h & queryID & hero & primskill & level & skills;
}
};
struct CommanderLevelUp : public Query
{
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
const CGHeroInstance *hero;
std::vector<ui32> skills; //0-5 - secondary skills, val-100 - special skill
CommanderLevelUp(){type = 2005;};
template <typename Handler> void serialize(Handler &h, const int version)
{
h & queryID & hero & skills;
}
};
struct TradeComponents : public CPackForClient, public CPackForServer
{
///used to handle info about components available in shops
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
si32 heroid;
ui32 objectid;
std::map<ui16, Component> available, chosen, bought;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & heroid & objectid & available & chosen & bought;
}
};
//A dialog that requires making decision by player - it may contain components to choose between or has yes/no options
//Client responds with QueryReply, where answer: 0 - cancel pressed, choice doesn't matter; 1/2/... - first/second/... component selected and OK pressed
//Until sending reply player won't be allowed to take any actions
struct BlockingDialog : public Query//2003
{
enum {ALLOW_CANCEL = 1, SELECTION = 2};
void applyCl(CClient *cl);
MetaString text;
std::vector<Component> components;
PlayerColor player;
ui8 flags;
ui16 soundID;
bool cancel() const
{
return flags & ALLOW_CANCEL;
}
bool selection() const
{
return flags & SELECTION;
}
BlockingDialog(bool yesno, bool Selection)
{
type = 2003;
flags = 0;
soundID = 0;
if(yesno) flags |= ALLOW_CANCEL;
if(Selection) flags |= SELECTION;
}
BlockingDialog()
{
type = 2003;
flags = 0;
soundID = 0;
};
void addResourceComponents(TResources resources)
{
for(TResources::nziterator i(resources); i.valid(); i++)
components.push_back(Component(Component::RESOURCE, i->resType, i->resVal, 0));
}
template <typename Handler> void serialize(Handler &h, const int version)
{
h & queryID & text & components & player & flags & soundID;
}
};
struct GarrisonDialog : public Query//2004
{
GarrisonDialog(){type = 2004;}
void applyCl(CClient *cl);
ObjectInstanceID objid, hid;
bool removableUnits;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & queryID & objid & hid & removableUnits;
}
};
struct ExchangeDialog : public Query//2005
{
ExchangeDialog(){type = 2005;}
void applyCl(CClient *cl);
std::array<const CGHeroInstance*, 2> heroes;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & queryID & heroes;
}
};
struct BattleInfo;
struct BattleStart : public CPackForClient//3000
{
BattleStart(){type = 3000;};
void applyFirstCl(CClient *cl);
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
BattleInfo * info;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & info;
}
};
struct BattleNextRound : public CPackForClient//3001
{
BattleNextRound(){type = 3001;};
void applyFirstCl(CClient *cl);
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs( CGameState *gs );
si32 round;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & round;
}
};
struct BattleSetActiveStack : public CPackForClient//3002
{
BattleSetActiveStack()
{
type = 3002;
askPlayerInterface = true;
}
void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
ui32 stack;
ui8 askPlayerInterface;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & stack & askPlayerInterface;
}
};
struct BattleResult : public CPackForClient//3003
{
enum EResult {NORMAL = 0, ESCAPE = 1, SURRENDER = 2};
BattleResult(){type = 3003;};
void applyFirstCl(CClient *cl);
void applyGs(CGameState *gs);
EResult result;
ui8 winner; //0 - attacker, 1 - defender, [2 - draw (should be possible?)]
std::map<ui32,si32> casualties[2]; //first => casualties of attackers - map crid => number
TExpType exp[2]; //exp for attacker and defender
std::set<ArtifactInstanceID> artifacts; //artifacts taken from loser to winner - currently unused
template <typename Handler> void serialize(Handler &h, const int version)
{
h & result & winner & casualties[0] & casualties[1] & exp & artifacts;
}
};
struct BattleStackMoved : public CPackForClient//3004
{
ui32 stack;
std::vector<BattleHex> tilesToMove;
ui8 distance, teleporting;
BattleStackMoved(){type = 3004;};
void applyFirstCl(CClient *cl);
void applyGs(CGameState *gs);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & stack & tilesToMove & distance;
}
};
struct StacksHealedOrResurrected : public CPackForClient //3013
{
StacksHealedOrResurrected(){type = 3013;}
DLL_LINKAGE void applyGs(CGameState *gs);
void applyCl(CClient *cl);
struct HealInfo
{
ui32 stackID;
ui32 healedHP;
ui8 lowLevelResurrection; //in case this stack is resurrected by this heal, it will be marked as SUMMONED //TODO: replace with separate counter
template <typename Handler> void serialize(Handler &h, const int version)
{
h & stackID & healedHP & lowLevelResurrection;
}
};
std::vector<HealInfo> healedStacks;
bool lifeDrain; //if true, this heal is an effect of life drain
bool tentHealing; //if true, than it's healing via First Aid Tent
si32 drainedFrom; //if life drain - then stack life was drain from, if tentHealing - stack that is a healer
template <typename Handler> void serialize(Handler &h, const int version)
{
h & healedStacks & lifeDrain & tentHealing & drainedFrom;
}
};
struct BattleStackAttacked : public CPackForClient//3005
{
BattleStackAttacked(){flags = 0; type = 3005;};
void applyFirstCl(CClient * cl);
//void applyCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
ui32 stackAttacked, attackerID;
ui32 newAmount, newHP, killedAmount, damageAmount;
enum EFlags {KILLED = 1, EFFECT = 2, SECONDARY = 4, REBIRTH = 8, CLONE_KILLED = 16};
ui8 flags; //uses EFlags (above)
ui32 effect; //set only if flag EFFECT is set
std::vector<StacksHealedOrResurrected> healedStacks; //used when life drain
bool killed() const//if target stack was killed
{
return flags & KILLED || flags & CLONE_KILLED;
}
bool cloneKilled() const
{
return flags & CLONE_KILLED;
}
bool isEffect() const//if stack has been attacked by a spell
{
return flags & EFFECT;
}
bool isSecondary() const//if stack was not a primary target (receives no spell effects)
{
return flags & SECONDARY;
}
bool willRebirth() const//resurrection, e.g. Phoenix
{
return flags & REBIRTH;
}
bool lifeDrain() const //if this attack involves life drain effect
{
return healedStacks.size() > 0;
}
template <typename Handler> void serialize(Handler &h, const int version)
{
h & stackAttacked & attackerID & newAmount & newHP & flags & killedAmount & damageAmount & effect
& healedStacks;
}
bool operator<(const BattleStackAttacked &b) const
{
return stackAttacked < b.stackAttacked;
}
};
struct BattleAttack : public CPackForClient//3006
{
BattleAttack(){flags = 0; type = 3006;};
void applyFirstCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
void applyCl(CClient *cl);
std::vector<BattleStackAttacked> bsa;
ui32 stackAttacking;
ui8 flags; //uses Eflags (below)
enum EFlags{SHOT = 1, COUNTER = 2, LUCKY = 4, UNLUCKY = 8, BALLISTA_DOUBLE_DMG = 16, DEATH_BLOW = 32};
bool shot() const//distance attack - decrease number of shots
{
return flags & SHOT;
}
bool counter() const//is it counterattack?
{
return flags & COUNTER;
}
bool lucky() const
{
return flags & LUCKY;
}
bool unlucky() const
{
return flags & UNLUCKY;
}
bool ballistaDoubleDmg() const //if it's ballista attack and does double dmg
{
return flags & BALLISTA_DOUBLE_DMG;
}
bool deathBlow() const
{
return flags & DEATH_BLOW;
}
//bool killed() //if target stack was killed
//{
// return bsa.killed();
//}
template <typename Handler> void serialize(Handler &h, const int version)
{
h & bsa & stackAttacking & flags;
}
};
struct StartAction : public CPackForClient//3007
{
StartAction(){type = 3007;};
StartAction(const BattleAction &act){ba = act; type = 3007;};
void applyFirstCl(CClient *cl);
DLL_LINKAGE void applyGs(CGameState *gs);
BattleAction ba;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & ba;
}
};
struct EndAction : public CPackForClient//3008
{
EndAction(){type = 3008;};
void applyCl(CClient *cl);
template <typename Handler> void serialize(Handler &h, const int version)
{
}
};
struct BattleSpellCast : public CPackForClient//3009
{
BattleSpellCast(){type = 3009;};
DLL_LINKAGE void applyGs(CGameState *gs);
void applyCl(CClient *cl);
si32 dmgToDisplay; //this amount will be displayed as amount of damage dealt by spell
ui8 side; //which hero did cast spell: 0 - attacker, 1 - defender
ui32 id; //id of spell
ui8 skill; //caster's skill level
ui8 spellCost;
ui8 manaGained; //mana channeling ability
BattleHex tile; //destination tile (may not be set in some global/mass spells
std::vector<ui32> resisted; //ids of creatures that resisted this spell
std::set<ui32> affectedCres; //ids of creatures affected by this spell, generally used if spell does not set any effect (like dispel or cure)
CreatureID attackerType;//id of caster to generate console message; -1 if not set (eg. spell casted by artifact)
bool castedByHero; //if true - spell has been casted by hero, otherwise by a creature
template <typename Handler> void serialize(Handler &h, const int version)
{
h & dmgToDisplay & side & id & skill & spellCost & manaGained & tile & resisted & affectedCres & attackerType & castedByHero;
}
};
struct SetStackEffect : public CPackForClient //3010
{
SetStackEffect(){type = 3010;};
DLL_LINKAGE void applyGs(CGameState *gs);
void applyCl(CClient *cl);
std::vector<ui32> stacks; //affected stacks (IDs)
std::vector<Bonus> effect; //bonuses to apply
std::vector<std::pair<ui32, Bonus> > uniqueBonuses; //bonuses per single stack
template <typename Handler> void serialize(Handler &h, const int version)
{
h & stacks & effect & uniqueBonuses;
}
};
struct StacksInjured : public CPackForClient //3011
{
StacksInjured(){type = 3011;}
DLL_LINKAGE void applyGs(CGameState *gs);
void applyCl(CClient *cl);
std::vector<BattleStackAttacked> stacks;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & stacks;
}
};
struct BattleResultsApplied : public CPackForClient //3012
{
BattleResultsApplied(){type = 3012;}
PlayerColor player1, player2;
void applyCl(CClient *cl);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & player1 & player2;
}
};
struct ObstaclesRemoved : public CPackForClient //3014
{
ObstaclesRemoved(){type = 3014;}
DLL_LINKAGE void applyGs(CGameState *gs);
void applyCl(CClient *cl);
std::set<si32> obstacles; //uniqueIDs of removed obstacles
template <typename Handler> void serialize(Handler &h, const int version)
{
h & obstacles;
}
};
struct CatapultAttack : public CPackForClient //3015
{
struct AttackInfo
{
si16 destinationTile;
ui8 attackedPart;
ui8 damageDealt;
DLL_LINKAGE std::string toString() const;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & destinationTile & attackedPart & damageDealt;
}
};
CatapultAttack(){type = 3015;}
DLL_LINKAGE void applyGs(CGameState *gs);
void applyCl(CClient *cl);
DLL_LINKAGE std::string toString() const override;
std::vector< AttackInfo > attackedParts;
int attacker; //if -1, then a spell caused this
template <typename Handler> void serialize(Handler &h, const int version)
{
h & attackedParts & attacker;
}
};
DLL_LINKAGE std::ostream & operator<<(std::ostream & out, const CatapultAttack::AttackInfo & attackInfo);
struct BattleStacksRemoved : public CPackForClient //3016
{
BattleStacksRemoved(){type = 3016;}
DLL_LINKAGE void applyGs(CGameState *gs);
void applyCl(CClient *cl);
std::set<ui32> stackIDs; //IDs of removed stacks
template <typename Handler> void serialize(Handler &h, const int version)
{
h & stackIDs;
}
};
struct BattleStackAdded : public CPackForClient //3017
{
BattleStackAdded(){type = 3017;};
DLL_LINKAGE void applyGs(CGameState *gs);
void applyCl(CClient *cl);
int attacker; // if true, stack belongs to attacker
CreatureID creID;
int amount;
int pos;
int summoned; //if true, remove it afterwards
template <typename Handler> void serialize(Handler &h, const int version)
{
h & attacker & creID & amount & pos & summoned;
}
};
struct BattleSetStackProperty : public CPackForClient //3018
{
BattleSetStackProperty(){type = 3018;};
enum BattleStackProperty {CASTS, ENCHANTER_COUNTER, UNBIND, CLONED};
DLL_LINKAGE void applyGs(CGameState *gs);
//void applyCl(CClient *cl){};
int stackID;
BattleStackProperty which;
int val;
int absolute;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & stackID & which & val & absolute;
}
};
struct BattleTriggerEffect : public CPackForClient //3019
{ //activated at the beginning of turn
BattleTriggerEffect(){type = 3019;};
DLL_LINKAGE void applyGs(CGameState *gs); //effect
void applyCl(CClient *cl); //play animations & stuff
//enum BattleEffect {REGENERATION, MANA_DRAIN, FEAR, MANA_CHANNELING, ENCHANTER, UNBIND, POISON, ENCHANTED, SUMMONER};
int stackID;
int effect; //use enumBattleEffect or corresponding Bonus type for sanity?
int val;
int additionalInfo;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & stackID & effect & val & additionalInfo;
}
};
struct BattleObstaclePlaced : public CPackForClient //3020
{ //activated at the beginning of turn
BattleObstaclePlaced(){type = 3020;};
DLL_LINKAGE void applyGs(CGameState *gs); //effect
void applyCl(CClient *cl); //play animations & stuff
shared_ptr<CObstacleInstance> obstacle;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & obstacle;
}
};
struct ShowInInfobox : public CPackForClient //107
{
ShowInInfobox(){type = 107;};
PlayerColor player;
Component c;
MetaString text;
void applyCl(CClient *cl);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & player & c & text;
}
};
struct AdvmapSpellCast : public CPackForClient //108
{
AdvmapSpellCast(){type = 108;}
const CGHeroInstance * caster;
SpellID spellID;
void applyCl(CClient *cl);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & caster & spellID;
}
};
/***********************************************************************************************************/
struct CommitPackage : public CPackForServer
{
bool freePack; //for local usage, DO NOT serialize
bool applyGh(CGameHandler *gh);
CPackForClient *packToCommit;
CommitPackage()
{
freePack = true;
}
~CommitPackage()
{
if(freePack)
delete packToCommit;
}
template <typename Handler> void serialize(Handler &h, const int version)
{
h & packToCommit;
}
};
struct CloseServer : public CPackForServer
{
bool applyGh(CGameHandler *gh);
template <typename Handler> void serialize(Handler &h, const int version)
{}
};
struct EndTurn : public CPackForServer
{
bool applyGh(CGameHandler *gh);
template <typename Handler> void serialize(Handler &h, const int version)
{}
};
struct DismissHero : public CPackForServer
{
DismissHero(){};
DismissHero(ObjectInstanceID HID) : hid(HID) {};
ObjectInstanceID hid;
bool applyGh(CGameHandler *gh);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & hid;
}
};
struct MoveHero : public CPackForServer
{
MoveHero(){};
MoveHero(const int3 &Dest, ObjectInstanceID HID) : dest(Dest), hid(HID){};
int3 dest;
ObjectInstanceID hid;
bool applyGh(CGameHandler *gh);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & dest & hid;
}
};
struct CastleTeleportHero : public CPackForServer
{
CastleTeleportHero(){};
CastleTeleportHero(const ObjectInstanceID HID, ObjectInstanceID Dest, ui8 Source ) : dest(Dest), hid(HID), source(Source){};
ObjectInstanceID dest;
ObjectInstanceID hid;
si8 source;//who give teleporting, 1=castle gate
bool applyGh(CGameHandler *gh);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & dest & hid;
}
};
struct ArrangeStacks : public CPackForServer
{
ArrangeStacks(){};
ArrangeStacks(ui8 W, SlotID P1, SlotID P2, ObjectInstanceID ID1, ObjectInstanceID ID2, si32 VAL)
:what(W),p1(P1),p2(P2),id1(ID1),id2(ID2),val(VAL) {};
ui8 what; //1 - swap; 2 - merge; 3 - split
SlotID p1, p2; //positions of first and second stack
ObjectInstanceID id1, id2; //ids of objects with garrison
si32 val;
bool applyGh(CGameHandler *gh);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & what & p1 & p2 & id1 & id2 & val;
}
};
struct DisbandCreature : public CPackForServer
{
DisbandCreature(){};
DisbandCreature(SlotID Pos, ObjectInstanceID ID):pos(Pos),id(ID){};
SlotID pos; //stack pos
ObjectInstanceID id; //object id
bool applyGh(CGameHandler *gh);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & pos & id;
}
};
struct BuildStructure : public CPackForServer
{
BuildStructure(){};
BuildStructure(ObjectInstanceID TID, BuildingID BID):tid(TID), bid(BID){};
ObjectInstanceID tid; //town id
BuildingID bid; //structure id
bool applyGh(CGameHandler *gh);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & tid & bid;
}
};
struct RazeStructure : public BuildStructure
{
RazeStructure(){};
//RazeStructure(si32 TID, si32 BID):bid(BID),tid(TID){};
bool applyGh(CGameHandler *gh);
};
struct RecruitCreatures : public CPackForServer
{
RecruitCreatures(){};
RecruitCreatures(ObjectInstanceID TID, CreatureID CRID, si32 Amount, si32 Level):tid(TID),crid(CRID),amount(Amount),level(Level){};
ObjectInstanceID tid; //town id
CreatureID crid;
ui32 amount;//creature amount
si32 level;//dwelling level to buy from, -1 if any
bool applyGh(CGameHandler *gh);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & tid & crid & amount & level;
}
};
struct UpgradeCreature : public CPackForServer
{
UpgradeCreature(){};
UpgradeCreature(SlotID Pos, ObjectInstanceID ID, CreatureID CRID):pos(Pos),id(ID), cid(CRID){};
SlotID pos; //stack pos
ObjectInstanceID id; //object id
CreatureID cid; //id of type to which we want make upgrade
bool applyGh(CGameHandler *gh);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & pos & id & cid;
}
};
struct GarrisonHeroSwap : public CPackForServer
{
GarrisonHeroSwap(){};
GarrisonHeroSwap(ObjectInstanceID TID):tid(TID){};
ObjectInstanceID tid;
bool applyGh(CGameHandler *gh);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & tid;
}
};
struct ExchangeArtifacts : public CPackForServer
//TODO: allow exchange between heroes, stacks and commanders
{
ArtifactLocation src, dst;
ExchangeArtifacts(){};
bool applyGh(CGameHandler *gh);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & src & dst;
}
};
struct AssembleArtifacts : public CPackForServer
{
AssembleArtifacts(){};
AssembleArtifacts(ObjectInstanceID _heroID, ArtifactPosition _artifactSlot, bool _assemble, ArtifactID _assembleTo)
: heroID(_heroID), artifactSlot(_artifactSlot), assemble(_assemble), assembleTo(_assembleTo){};
ObjectInstanceID heroID;
ArtifactPosition artifactSlot;
bool assemble; // True to assemble artifact, false to disassemble.
ArtifactID assembleTo; // Artifact to assemble into.
bool applyGh(CGameHandler *gh);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & heroID & artifactSlot & assemble & assembleTo;
}
};
struct BuyArtifact : public CPackForServer
{
BuyArtifact(){};
BuyArtifact(ObjectInstanceID HID, ArtifactID AID):hid(HID),aid(AID){};
ObjectInstanceID hid;
ArtifactID aid;
bool applyGh(CGameHandler *gh);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & hid & aid;
}
};
struct TradeOnMarketplace : public CPackForServer
{
TradeOnMarketplace(){};
const CGObjectInstance *market;
const CGHeroInstance *hero; //needed when trading artifacts / creatures
EMarketMode::EMarketMode mode;
ui32 r1, r2; //mode 0: r1 - sold resource, r2 - bought res (exception: when sacrificing art r1 is art id [todo: make r2 preferred slot?]
ui32 val; //units of sold resource
bool applyGh(CGameHandler *gh);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & market & hero & mode & r1 & r2 & val;
}
};
struct SetFormation : public CPackForServer
{
SetFormation(){};
SetFormation(ObjectInstanceID HID, ui8 Formation):hid(HID),formation(Formation){};
ObjectInstanceID hid;
ui8 formation;
bool applyGh(CGameHandler *gh);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & hid & formation;
}
};
struct HireHero : public CPackForServer
{
HireHero(){};
HireHero(si32 HID, ObjectInstanceID TID):hid(HID),tid(TID){};
si32 hid; //available hero serial
ObjectInstanceID tid; //town (tavern) id
PlayerColor player;
bool applyGh(CGameHandler *gh);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & hid & tid & player;
}
};
struct BuildBoat : public CPackForServer
{
BuildBoat(){};
ObjectInstanceID objid; //where player wants to buy a boat
bool applyGh(CGameHandler *gh);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & objid;
}
};
struct QueryReply : public CPackForServer
{
QueryReply(){type = 6000;};
QueryReply(QueryID QID, ui32 Answer):qid(QID),answer(Answer){type = 6000;};
QueryID qid;
ui32 answer; //hero and artifact id
PlayerColor player;
bool applyGh(CGameHandler *gh);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & qid & answer & player;
}
};
struct MakeAction : public CPackForServer
{
MakeAction(){};
MakeAction(const BattleAction &BA):ba(BA){};
BattleAction ba;
bool applyGh(CGameHandler *gh);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & ba;
}
};
struct MakeCustomAction : public CPackForServer
{
MakeCustomAction(){};
MakeCustomAction(const BattleAction &BA):ba(BA){};
BattleAction ba;
bool applyGh(CGameHandler *gh);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & ba;
}
};
struct DigWithHero : public CPackForServer
{
DigWithHero(){}
ObjectInstanceID id; //digging hero id
bool applyGh(CGameHandler *gh);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & id;
}
};
struct CastAdvSpell : public CPackForServer
{
CastAdvSpell(){}
ObjectInstanceID hid; //hero id
SpellID sid; //spell id
int3 pos; //selected tile (not always used)
bool applyGh(CGameHandler *gh);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & hid & sid & pos;
}
};
/***********************************************************************************************************/
struct SaveGame : public CPackForClient, public CPackForServer
{
SaveGame(){};
SaveGame(const std::string &Fname) :fname(Fname){};
std::string fname;
void applyCl(CClient *cl);
void applyGs(CGameState *gs){};
bool applyGh(CGameHandler *gh);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & fname;
}
};
struct PlayerMessage : public CPackForClient, public CPackForServer //513
{
PlayerMessage(){CPackForClient::type = 513;};
PlayerMessage(PlayerColor Player, const std::string &Text)
:player(Player),text(Text)
{CPackForClient::type = 513;};
void applyCl(CClient *cl);
void applyGs(CGameState *gs){};
bool applyGh(CGameHandler *gh);
PlayerColor player;
std::string text;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & text & player;
}
};
struct SetSelection : public CPackForClient, public CPackForServer //514
{
SetSelection(){CPackForClient::type = 514;};
DLL_LINKAGE void applyGs(CGameState *gs);
bool applyGh(CGameHandler *gh);
void applyCl(CClient *cl);
PlayerColor player;
ObjectInstanceID id;
template <typename Handler> void serialize(Handler &h, const int version)
{
h & id & player;
}
};
struct CenterView : public CPackForClient//515
{
CenterView(){CPackForClient::type = 515;};
void applyCl(CClient *cl);
PlayerColor player;
int3 pos;
ui32 focusTime; //ms
template <typename Handler> void serialize(Handler &h, const int version)
{
h & pos & player & focusTime;
}
};
/***********************************************************************************************************/
struct CPackForSelectionScreen : public CPack
{
void apply(CSelectionScreen *selScreen){}; //that functions are implemented in CPreGame.cpp
};
class CPregamePackToPropagate : public CPackForSelectionScreen
{};
class CPregamePackToHost : public CPackForSelectionScreen
{};
struct ChatMessage : public CPregamePackToPropagate
{
std::string playerName, message;
void apply(CSelectionScreen *selScreen);
template <typename Handler> void serialize(Handler &h, const int version)
{
h & playerName & message;
}
};
struct QuitMenuWithoutStarting : public CPregamePackToPropagate
{
void apply(CSelectionScreen *selScreen); //that functions are implemented in CPreGame.cpp
template <typename Handler> void serialize(Handler &h, const int version)
{}
};
struct PlayerJoined : public CPregamePackToHost
{
std::string playerName;
ui8 connectionID;
void apply(CSelectionScreen *selScreen); //that functions are implemented in CPreGame.cpp
template <typename Handler> void serialize(Handler &h, const int version)
{
h & playerName & connectionID;
}
};
struct SelectMap : public CPregamePackToPropagate
{
const CMapInfo *mapInfo;
bool free;
SelectMap(const CMapInfo &src)
{
mapInfo = &src;
free = false;
}
SelectMap()
{
mapInfo = nullptr;
free = true;
}
~SelectMap()
{
if(free)
delete mapInfo;
}
void apply(CSelectionScreen *selScreen); //that functions are implemented in CPreGame.cpp
template <typename Handler> void serialize(Handler &h, const int version)
{
h & mapInfo;
}
};
struct UpdateStartOptions : public CPregamePackToPropagate
{
StartInfo *options;
bool free;
void apply(CSelectionScreen *selScreen); //that functions are implemented in CPreGame.cpp
UpdateStartOptions(StartInfo &src)
{
options = &src;
free = false;
}
UpdateStartOptions()
{
options = nullptr;
free = true;
}
~UpdateStartOptions()
{
if(free)
delete options;
}
template <typename Handler> void serialize(Handler &h, const int version)
{
h & options;
}
};
struct PregameGuiAction : public CPregamePackToPropagate
{
enum {NO_TAB, OPEN_OPTIONS, OPEN_SCENARIO_LIST, OPEN_RANDOM_MAP_OPTIONS}
action;
void apply(CSelectionScreen *selScreen); //that functions are implemented in CPreGame.cpp
template <typename Handler> void serialize(Handler &h, const int version)
{
h & action;
}
};
struct RequestOptionsChange : public CPregamePackToHost
{
enum EWhat {TOWN, HERO, BONUS};
ui8 what;
si8 direction; //-1 or +1
ui8 playerID;
RequestOptionsChange(ui8 What, si8 Dir, ui8 Player)
:what(What), direction(Dir), playerID(Player)
{}
RequestOptionsChange(){}
void apply(CSelectionScreen *selScreen); //that functions are implemented in CPreGame.cpp
template <typename Handler> void serialize(Handler &h, const int version)
{
h & what & direction & playerID;
}
};
struct PlayerLeft : public CPregamePackToPropagate
{
ui8 playerID;
void apply(CSelectionScreen *selScreen); //that functions are implemented in CPreGame.cpp
template <typename Handler> void serialize(Handler &h, const int version)
{
h & playerID;
}
};
struct PlayersNames : public CPregamePackToPropagate
{
public:
std::map<ui8, std::string> playerNames;
void apply(CSelectionScreen *selScreen); //that functions are implemented in CPreGame.cpp
template <typename Handler> void serialize(Handler &h, const int version)
{
h & playerNames;
}
};
struct StartWithCurrentSettings : public CPregamePackToPropagate
{
public:
void apply(CSelectionScreen *selScreen); //that functions are implemented in CPreGame.cpp
template <typename Handler> void serialize(Handler &h, const int version)
{
//h & playerNames;
}
};