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mirror of https://github.com/vcmi/vcmi.git synced 2024-12-26 22:57:00 +02:00
vcmi/lib/IGameCallback.cpp
Michał W. Urbańczyk a9af0da0ab Rewritten handling mouse movement over hex and l-clicking hex into one procedure. That way the tooltip and cursor are always accurate, because they're set by the same routing that selects action. Having that logic duplicated in two methods was unmaintainable. [though the new one is still monstrous...] By the way fixed numerous issues, including:
* #785 and parts of #760
* first aid tent can heal only creatures that suffered damage
* war machines can't be healed by tent
* creatures casting spells won't try to cast them during tactic phase
* console tooltips for first aid tent
* console tooltips for teleport spell
* cursor is reset to pointer when action is requested
* fixed a few other missing or wrong tooltips/cursors

Implemented opening creature window by l-clicking on stack. Master Genie's spell is picked by server, not client.
Minor changes.
2012-03-30 21:36:07 +00:00

1321 lines
38 KiB
C++

#include "StdInc.h"
#include "IGameCallback.h"
#include "../lib/CGameState.h"
#include "../lib/map.h"
#include "CObjectHandler.h"
#include "CHeroHandler.h"
#include "StartInfo.h"
#include "CArtHandler.h"
#include "CSpellHandler.h"
#include "../lib/VCMI_Lib.h"
#include <boost/random/linear_congruential.hpp>
#include "CTownHandler.h"
#include "BattleState.h"
#include "NetPacks.h"
#include "CBuildingHandler.h"
#include "GameConstants.h"
/*
* IGameCallback.cpp, 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
*
*/
//TODO make clean
#define ERROR_SILENT_RET_VAL_IF(cond, txt, retVal) do {if(cond){return retVal;}} while(0)
#define ERROR_VERBOSE_OR_NOT_RET_VAL_IF(cond, verbose, txt, retVal) do {if(cond){if(verbose)tlog1 << BOOST_CURRENT_FUNCTION << ": " << txt << std::endl; return retVal;}} while(0)
#define ERROR_RET_IF(cond, txt) do {if(cond){tlog1 << BOOST_CURRENT_FUNCTION << ": " << txt << std::endl; return;}} while(0)
#define ERROR_RET_VAL_IF(cond, txt, retVal) do {if(cond){tlog1 << BOOST_CURRENT_FUNCTION << ": " << txt << std::endl; return retVal;}} while(0)
extern boost::rand48 ran;
boost::shared_mutex& CCallbackBase::getGsMutex()
{
return *gs->mx;
}
si8 CBattleInfoCallback::battleHasDistancePenalty( const CStack * stack, BattleHex destHex )
{
return gs->curB->hasDistancePenalty(stack, destHex);
}
si8 CBattleInfoCallback::battleHasWallPenalty( const CStack * stack, BattleHex destHex )
{
return gs->curB->hasWallPenalty(stack, destHex);
}
si8 CBattleInfoCallback::battleCanTeleportTo(const CStack * stack, BattleHex destHex, int telportLevel)
{
return gs->curB->canTeleportTo(stack, destHex, telportLevel);
}
std::vector<int> CBattleInfoCallback::battleGetDistances(const CStack * stack, BattleHex hex /*= BattleHex::INVALID*/, BattleHex * predecessors /*= NULL*/)
{
if(!hex.isValid())
hex = stack->position;
std::vector<int> ret(GameConstants::BFIELD_SIZE, -1); //fill initial ret with -1's
if(!hex.isValid()) //stack has bad position? probably castle turret, return initial values (they can't move)
return ret;
bool ac[GameConstants::BFIELD_SIZE] = {0};
std::set<BattleHex> occupyable;
gs->curB->getAccessibilityMap(ac, stack->doubleWide(), stack->attackerOwned, false, occupyable, stack->hasBonusOfType(Bonus::FLYING), stack);
BattleHex pr[GameConstants::BFIELD_SIZE];
int dist[GameConstants::BFIELD_SIZE];
gs->curB->makeBFS(stack->position, ac, pr, dist, stack->doubleWide(), stack->attackerOwned, stack->hasBonusOfType(Bonus::FLYING), false);
for(int i=0; i<GameConstants::BFIELD_SIZE; ++i)
{
if(pr[i] != -1)
ret[i] = dist[i];
}
if(predecessors)
{
memcpy(predecessors, pr, GameConstants::BFIELD_SIZE * sizeof(BattleHex));
}
return ret;
}
std::set<BattleHex> CBattleInfoCallback::battleGetAttackedHexes(const CStack* attacker, BattleHex destinationTile, BattleHex attackerPos /*= BattleHex::INVALID*/)
{
if(!gs->curB)
{
tlog1 << "battleGetAttackedHexes called when there is no battle!\n";
std::set<BattleHex> set;
return set;
}
return gs->curB->getAttackedHexes(attacker, destinationTile, attackerPos);
}
ESpellCastProblem::ESpellCastProblem CBattleInfoCallback::battleCanCastThisSpell( const CSpell * spell )
{
if(!gs->curB)
{
tlog1 << "battleCanCastThisSpell called when there is no battle!\n";
return ESpellCastProblem::NO_HERO_TO_CAST_SPELL;
}
return gs->curB->battleCanCastThisSpell(player, spell, ECastingMode::HERO_CASTING);
}
ESpellCastProblem::ESpellCastProblem CBattleInfoCallback::battleCanCastThisSpell(const CSpell * spell, BattleHex destination)
{
if(!gs->curB)
{
tlog1 << "battleCanCastThisSpell called when there is no battle!\n";
return ESpellCastProblem::NO_HERO_TO_CAST_SPELL;
}
return gs->curB->battleCanCastThisSpellHere(player, spell, ECastingMode::HERO_CASTING, destination);
}
ESpellCastProblem::ESpellCastProblem CBattleInfoCallback::battleCanCreatureCastThisSpell(const CSpell * spell, BattleHex destination)
{
if(!gs->curB)
{
tlog1 << "battleCanCastThisSpell called when there is no battle!\n";
return ESpellCastProblem::NO_HERO_TO_CAST_SPELL;
}
return gs->curB->battleCanCastThisSpellHere(player, spell, ECastingMode::CREATURE_ACTIVE_CASTING, destination);
}
si32 CBattleInfoCallback::battleGetRandomStackSpell(const CStack * stack, ERandomSpell mode)
{
switch (mode)
{
case RANDOM_GENIE:
return gs->curB->getRandomBeneficialSpell(stack); //target
break;
case RANDOM_AIMED:
return gs->curB->getRandomCastedSpell(stack); //caster
break;
default:
tlog1 << "Incorrect mode of battleGetRandomSpell (" << mode <<")\n";
return -1;
}
}
si8 CBattleInfoCallback::battleGetTacticDist()
{
if (!gs->curB)
{
tlog1 << "battleGetTacticDist called when no battle!\n";
return 0;
}
if (gs->curB->sides[gs->curB->tacticsSide] == player)
{
return gs->curB->tacticDistance;
}
return 0;
}
ui8 CBattleInfoCallback::battleGetMySide()
{
if (!gs->curB)
{
tlog1 << "battleGetMySide called when no battle!\n";
return 0;
}
return gs->curB->sides[1] == player;
}
int CBattleInfoCallback::battleGetSurrenderCost()
{
if (!gs->curB)
{
tlog1 << "battleGetSurrenderCost called when no battle!\n";
return -1;
}
return gs->curB->getSurrenderingCost(player);
}
int CBattleInfoCallback::battleGetBattlefieldType()
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
//return gs->battleGetBattlefieldType();
if(!gs->curB)
{
tlog2<<"battleGetBattlefieldType called when there is no battle!"<<std::endl;
return -1;
}
return gs->curB->battlefieldType;
}
// int CBattleInfoCallback::battleGetObstaclesAtTile(BattleHex tile) //returns bitfield
// {
// //TODO - write
// return -1;
// }
std::vector<CObstacleInstance> CBattleInfoCallback::battleGetAllObstacles()
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
if(gs->curB)
return gs->curB->obstacles;
else
return std::vector<CObstacleInstance>();
}
const CStack* CBattleInfoCallback::battleGetStackByID(int ID, bool onlyAlive)
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
if(!gs->curB) return NULL;
return gs->curB->getStack(ID, onlyAlive);
}
const CStack* CBattleInfoCallback::battleGetStackByPos(BattleHex pos, bool onlyAlive)
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
return gs->curB->battleGetStack(pos, onlyAlive);
}
BattleHex CBattleInfoCallback::battleGetPos(int stack)
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
if(!gs->curB)
{
tlog2<<"battleGetPos called when there is no battle!"<<std::endl;
return BattleHex::INVALID;
}
for(size_t g=0; g<gs->curB->stacks.size(); ++g)
{
if(gs->curB->stacks[g]->ID == stack)
return gs->curB->stacks[g]->position;
}
return BattleHex::INVALID;
}
TStacks CBattleInfoCallback::battleGetStacks(EStackOwnership whose /*= MINE_AND_ENEMY*/, bool onlyAlive /*= true*/)
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
TStacks ret;
if(!gs->curB) //there is no battle
{
tlog2<<"battleGetStacks called when there is no battle!"<<std::endl;
return ret;
}
BOOST_FOREACH(const CStack *s, gs->curB->stacks)
{
bool ownerMatches = (whose == MINE_AND_ENEMY) || (whose == ONLY_MINE && s->owner == player) || (whose == ONLY_ENEMY && s->owner != player);
bool alivenessMatches = s->alive() || !onlyAlive;
if(ownerMatches && alivenessMatches)
ret.push_back(s);
}
return ret;
}
void CBattleInfoCallback::getStackQueue( std::vector<const CStack *> &out, int howMany )
{
if(!gs->curB)
{
tlog2 << "battleGetStackQueue called when there is not battle!" << std::endl;
return;
}
gs->curB->getStackQueue(out, howMany);
}
void CBattleInfoCallback::battleGetStackCountOutsideHexes(bool *ac)
{
if(!gs->curB)
{
tlog2<<"battleGetAvailableHexes called when there is no battle!"<<std::endl;
for (int i = 0; i < GameConstants::BFIELD_SIZE; ++i) ac[i] = false;
}
else {
std::set<BattleHex> ignored;
gs->curB->getAccessibilityMap(ac, false /*ignored*/, false, false, ignored, false /*ignored*/, NULL);
}
}
std::vector<BattleHex> CBattleInfoCallback::battleGetAvailableHexes(const CStack * stack, bool addOccupiable, std::vector<BattleHex> * attackable)
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
if(!gs->curB)
{
tlog2<<"battleGetAvailableHexes called when there is no battle!"<<std::endl;
return std::vector<BattleHex>();
}
return gs->curB->getAccessibility(stack, addOccupiable, attackable);
//return gs->battleGetRange(ID);
}
bool CBattleInfoCallback::battleCanShoot(const CStack * stack, BattleHex dest)
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
if(!gs->curB) return false;
return gs->curB->battleCanShoot(stack, dest);
}
bool CBattleInfoCallback::battleCanCastSpell()
{
if(!gs->curB) //there is no battle
return false;
return gs->curB->battleCanCastSpell(player, ECastingMode::HERO_CASTING) == ESpellCastProblem::OK;
}
bool CBattleInfoCallback::battleCanFlee()
{
return gs->curB->battleCanFlee(player);
}
const CGTownInstance *CBattleInfoCallback::battleGetDefendedTown()
{
if(!gs->curB || gs->curB->town == NULL)
return NULL;
return gs->curB->town;
}
ui8 CBattleInfoCallback::battleGetWallState(int partOfWall)
{
if(!gs->curB || gs->curB->siege == 0)
{
return 0;
}
return gs->curB->si.wallState[partOfWall];
}
int CBattleInfoCallback::battleGetWallUnderHex(BattleHex hex)
{
if(!gs->curB || gs->curB->siege == 0)
{
return -1;
}
return gs->curB->hexToWallPart(hex);
}
TDmgRange CBattleInfoCallback::battleEstimateDamage(const CStack * attacker, const CStack * defender, TDmgRange * retaliationDmg)
{
if(!gs->curB)
return std::make_pair(0, 0);
const CGHeroInstance * attackerHero, * defenderHero;
bool shooting = battleCanShoot(attacker, defender->position);
if(gs->curB->sides[0] == attacker->owner)
{
attackerHero = gs->curB->heroes[0];
defenderHero = gs->curB->heroes[1];
}
else
{
attackerHero = gs->curB->heroes[1];
defenderHero = gs->curB->heroes[0];
}
TDmgRange ret = gs->curB->calculateDmgRange(attacker, defender, attackerHero, defenderHero, shooting, 0, false, false, false);
if(retaliationDmg)
{
if(shooting)
{
retaliationDmg->first = retaliationDmg->second = 0;
}
else
{
ui32 TDmgRange::* pairElems[] = {&TDmgRange::first, &TDmgRange::second};
for (int i=0; i<2; ++i)
{
BattleStackAttacked bsa;
bsa.damageAmount = ret.*pairElems[i];
retaliationDmg->*pairElems[!i] = gs->curB->calculateDmgRange(defender, attacker, bsa.newAmount, attacker->count, attackerHero, defenderHero, false, 0, false, false, false).*pairElems[!i];
}
}
}
return ret;
}
ui8 CBattleInfoCallback::battleGetSiegeLevel()
{
if(!gs->curB)
return 0;
return gs->curB->siege;
}
const CGHeroInstance * CBattleInfoCallback::battleGetFightingHero(ui8 side) const
{
if(!gs->curB)
return 0;
return gs->curB->heroes[side];
}
bool CBattleInfoCallback::battleIsBlockedByObstacle(BattleHex tile)
{
if(!gs->curB)
return 0;
return gs->curB->isObstacleOnTile(tile);
}
CGameState *const CPrivilagedInfoCallback::gameState ()
{
return gs;
}
int CGameInfoCallback::getOwner(int heroID) const
{
const CGObjectInstance *obj = getObj(heroID);
ERROR_RET_VAL_IF(!obj, "No such object!", -1);
return gs->map->objects[heroID]->tempOwner;
}
int CGameInfoCallback::getResource(int Player, int which) const
{
const PlayerState *p = getPlayer(Player);
ERROR_RET_VAL_IF(!p, "No player info!", -1);
ERROR_RET_VAL_IF(p->resources.size() <= which || which < 0, "No such resource!", -1);
return p->resources[which];
}
const CGHeroInstance* CGameInfoCallback::getSelectedHero( int Player ) const
{
const PlayerState *p = getPlayer(Player);
ERROR_RET_VAL_IF(!p, "No player info!", NULL);
return getHero(p->currentSelection);
}
const CGHeroInstance* CGameInfoCallback::getSelectedHero() const
{
return getSelectedHero(gs->currentPlayer);
}
const PlayerSettings * CGameInfoCallback::getPlayerSettings(int color) const
{
return &gs->scenarioOps->getIthPlayersSettings(color);
}
void CPrivilagedInfoCallback::getTilesInRange( boost::unordered_set<int3, ShashInt3> &tiles, int3 pos, int radious, int player/*=-1*/, int mode/*=0*/ ) const
{
if(player >= GameConstants::PLAYER_LIMIT)
{
tlog1 << "Illegal call to getTilesInRange!\n";
return;
}
if (radious == -1) //reveal entire map
getAllTiles (tiles, player, -1, 0);
else
{
const TeamState * team = gs->getPlayerTeam(player);
for (int xd = std::max<int>(pos.x - radious , 0); xd <= std::min<int>(pos.x + radious, gs->map->width - 1); xd++)
{
for (int yd = std::max<int>(pos.y - radious, 0); yd <= std::min<int>(pos.y + radious, gs->map->height - 1); yd++)
{
double distance = pos.dist2d(int3(xd,yd,pos.z)) - 0.5;
if(distance <= radious)
{
if(player < 0
|| (mode == 1 && team->fogOfWarMap[xd][yd][pos.z]==0)
|| (mode == -1 && team->fogOfWarMap[xd][yd][pos.z]==1)
)
tiles.insert(int3(xd,yd,pos.z));
}
}
}
}
}
void CPrivilagedInfoCallback::getAllTiles (boost::unordered_set<int3, ShashInt3> &tiles, int Player/*=-1*/, int level, int surface ) const
{
if(Player >= GameConstants::PLAYER_LIMIT)
{
tlog1 << "Illegal call to getAllTiles !\n";
return;
}
bool water = surface == 0 || surface == 2,
land = surface == 0 || surface == 1;
std::vector<int> floors;
if(level == -1)
{
for (int xd = 0; xd <= gs->map->width - 1; xd++)
for(int b=0; b<gs->map->twoLevel + 1; ++b) //if gs->map->twoLevel is false then false (0) + 1 is 1, if it's true (1) then we have 2
{
floors.push_back(b);
}
}
else
floors.push_back(level);
for (std::vector<int>::const_iterator i = floors.begin(); i!= floors.end(); i++)
{
register int zd = *i;
for (int xd = 0; xd < gs->map->width; xd++)
{
for (int yd = 0; yd < gs->map->height; yd++)
{
if ((getTile (int3 (xd,yd,zd))->tertype == 8 && water)
|| (getTile (int3 (xd,yd,zd))->tertype != 8 && land))
tiles.insert(int3(xd,yd,zd));
}
}
}
}
void CPrivilagedInfoCallback::getFreeTiles (std::vector<int3> &tiles) const
{
std::vector<int> floors;
for (int b=0; b<gs->map->twoLevel + 1; ++b) //if gs->map->twoLevel is false then false (0) + 1 is 1, if it's true (1) then we have 2
{
floors.push_back(b);
}
const TerrainTile *tinfo;
for (std::vector<int>::const_iterator i = floors.begin(); i!= floors.end(); i++)
{
register int zd = *i;
for (int xd = 0; xd < gs->map->width; xd++)
{
for (int yd = 0; yd < gs->map->height; yd++)
{
tinfo = getTile(int3 (xd,yd,zd));
if (tinfo->tertype != 8 && !tinfo->blocked) //land and free
tiles.push_back (int3 (xd,yd,zd));
}
}
}
}
bool CGameInfoCallback::isAllowed( int type, int id )
{
switch(type)
{
case 0:
return gs->map->allowedSpell[id];
case 1:
return gs->map->allowedArtifact[id];
case 2:
return gs->map->allowedAbilities[id];
default:
ERROR_RET_VAL_IF(1, "Wrong type!", false);
}
}
void CPrivilagedInfoCallback::pickAllowedArtsSet(std::vector<const CArtifact*> &out)
{
for (int i = 0; i < 2; i++)
{
for (int j = 0; j < 3 ; j++)
{
out.push_back(VLC->arth->artifacts[getRandomArt(CArtifact::ART_TREASURE << i)]);
}
}
out.push_back(VLC->arth->artifacts[getRandomArt(CArtifact::ART_MAJOR)]);
}
ui16 CPrivilagedInfoCallback::getRandomArt (int flags)
{
return VLC->arth->getRandomArt(flags);
}
ui16 CPrivilagedInfoCallback::getArtSync (ui32 rand, int flags)
{
return VLC->arth->getArtSync (rand, flags);
}
void CPrivilagedInfoCallback::erasePickedArt (si32 id)
{
VLC->arth->erasePickedArt(id);
}
void CPrivilagedInfoCallback::getAllowedSpells(std::vector<ui16> &out, ui16 level)
{
CSpell *spell;
for (ui32 i = 0; i < gs->map->allowedSpell.size(); i++) //spellh size appears to be greater (?)
{
spell = VLC->spellh->spells[i];
if (isAllowed (0, spell->id) && spell->level == level)
{
out.push_back(spell->id);
}
}
}
inline TerrainTile * CNonConstInfoCallback::getTile( int3 pos )
{
if(!gs->map->isInTheMap(pos))
return NULL;
return &gs->map->getTile(pos);
}
const PlayerState * CGameInfoCallback::getPlayer(int color, bool verbose) const
{
ERROR_VERBOSE_OR_NOT_RET_VAL_IF(!hasAccess(color), verbose, "Cannot access player " << color << "info!", NULL);
ERROR_VERBOSE_OR_NOT_RET_VAL_IF(!vstd::contains(gs->players,color), verbose, "Cannot find player " << color << "info!", NULL);
return &gs->players[color];
}
const CTown * CGameInfoCallback::getNativeTown(int color) const
{
const PlayerSettings *ps = getPlayerSettings(color);
ERROR_RET_VAL_IF(!ps, "There is no such player!", NULL);
return &VLC->townh->towns[ps->castle];
}
const CGObjectInstance * CGameInfoCallback::getObjByQuestIdentifier(int identifier) const
{
ERROR_RET_VAL_IF(!vstd::contains(gs->map->questIdentifierToId, identifier), "There is no object with such quest identifier!", NULL);
return getObj(gs->map->questIdentifierToId[identifier]);
}
/************************************************************************/
/* */
/************************************************************************/
const CGObjectInstance* CGameInfoCallback::getObj(int objid, bool verbose) const
{
if(objid < 0 || objid >= gs->map->objects.size())
{
if(verbose)
tlog1 << "Cannot get object with id " << objid << std::endl;
return NULL;
}
const CGObjectInstance *ret = gs->map->objects[objid];
if(!ret)
{
if(verbose)
tlog1 << "Cannot get object with id " << objid << ". Object was removed.\n";
return NULL;
}
if(!isVisible(ret, player))
{
if(verbose)
tlog1 << "Cannot get object with id " << objid << ". Object is not visible.\n";
return NULL;
}
return ret;
}
const CGHeroInstance* CGameInfoCallback::getHero(int objid) const
{
const CGObjectInstance *obj = getObj(objid, false);
if(obj)
return dynamic_cast<const CGHeroInstance*>(obj);
else
return NULL;
}
const CGTownInstance* CGameInfoCallback::getTown(int objid) const
{
const CGObjectInstance *obj = getObj(objid, false);
if(obj)
return dynamic_cast<const CGTownInstance*>(gs->map->objects[objid].get());
else
return NULL;
}
void CGameInfoCallback::getUpgradeInfo(const CArmedInstance *obj, int stackPos, UpgradeInfo &out) const
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
ERROR_RET_IF(!canGetFullInfo(obj), "Cannot get info about not owned object!");
ERROR_RET_IF(!obj->hasStackAtSlot(stackPos), "There is no such stack!");
out = gs->getUpgradeInfo(obj->getStack(stackPos));
//return gs->getUpgradeInfo(obj->getStack(stackPos));
}
const StartInfo * CGameInfoCallback::getStartInfo() const
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
return gs->scenarioOps;
}
int CGameInfoCallback::getSpellCost(const CSpell * sp, const CGHeroInstance * caster) const
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
ERROR_RET_VAL_IF(!canGetFullInfo(caster), "Cannot get info about caster!", -1);
//if there is a battle
if(gs->curB)
return gs->curB->getSpellCost(sp, caster);
//if there is no battle
return caster->getSpellCost(sp);
}
int CGameInfoCallback::estimateSpellDamage(const CSpell * sp, const CGHeroInstance * hero) const
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
ERROR_RET_VAL_IF(hero && !canGetFullInfo(hero), "Cannot get info about caster!", -1);
if(!gs->curB) //no battle
{
if (hero) //but we see hero's spellbook
return gs->curB->calculateSpellDmg(sp, hero, NULL, hero->getSpellSchoolLevel(sp), hero->getPrimSkillLevel(2));
else
return 0; //mage guild
}
//gs->getHero(gs->currentPlayer)
//const CGHeroInstance * ourHero = gs->curB->heroes[0]->tempOwner == player ? gs->curB->heroes[0] : gs->curB->heroes[1];
const CGHeroInstance * ourHero = hero;
return gs->curB->calculateSpellDmg(sp, ourHero, NULL, ourHero->getSpellSchoolLevel(sp), ourHero->getPrimSkillLevel(2));
}
void CGameInfoCallback::getThievesGuildInfo(SThievesGuildInfo & thi, const CGObjectInstance * obj)
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
ERROR_RET_IF(!obj, "No guild object!");
ERROR_RET_IF(obj->ID == GameConstants::TOWNI_TYPE && !canGetFullInfo(obj), "Cannot get info about town guild object!");
//TODO: advmap object -> check if they're visited by our hero
if(obj->ID == GameConstants::TOWNI_TYPE || obj->ID == 95) //it is a town or adv map tavern
{
gs->obtainPlayersStats(thi, gs->players[obj->tempOwner].towns.size());
}
else if(obj->ID == 97) //Den of Thieves
{
gs->obtainPlayersStats(thi, 20);
}
}
int CGameInfoCallback::howManyTowns(int Player) const
{
ERROR_RET_VAL_IF(!hasAccess(Player), "Access forbidden!", -1);
return gs->players[Player].towns.size();
}
bool CGameInfoCallback::getTownInfo( const CGObjectInstance *town, InfoAboutTown &dest ) const
{
ERROR_RET_VAL_IF(!isVisible(town, player), "Town is not visible!", false); //it's not a town or it's not visible for layer
bool detailed = hasAccess(town->tempOwner);
//TODO vision support
if(town->ID == GameConstants::TOWNI_TYPE)
dest.initFromTown(static_cast<const CGTownInstance *>(town), detailed);
else if(town->ID == 33 || town->ID == 219)
dest.initFromGarrison(static_cast<const CGGarrison *>(town), detailed);
else
return false;
return true;
}
int3 CGameInfoCallback::guardingCreaturePosition (int3 pos) const
{
ERROR_RET_VAL_IF(!isVisible(pos), "Tile is not visible!", int3(-1,-1,-1));
return gs->guardingCreaturePosition(pos);
}
bool CGameInfoCallback::getHeroInfo( const CGObjectInstance *hero, InfoAboutHero &dest ) const
{
const CGHeroInstance *h = dynamic_cast<const CGHeroInstance *>(hero);
ERROR_RET_VAL_IF(!h, "That's not a hero!", false);
ERROR_RET_VAL_IF(!isVisible(h->getPosition(false)), "That hero is not visible!", false);
//TODO vision support
dest.initFromHero(h, hasAccess(h->tempOwner));
return true;
}
int CGameInfoCallback::getDate(int mode) const
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
return gs->getDate(mode);
}
std::vector < std::string > CGameInfoCallback::getObjDescriptions(int3 pos) const
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
std::vector<std::string> ret;
const TerrainTile *t = getTile(pos);
ERROR_RET_VAL_IF(!t, "Not a valid tile given!", ret);
BOOST_FOREACH(const CGObjectInstance * obj, t->blockingObjects)
ret.push_back(obj->getHoverText());
return ret;
}
bool CGameInfoCallback::verifyPath(CPath * path, bool blockSea) const
{
for (size_t i=0; i < path->nodes.size(); ++i)
{
const TerrainTile *t = getTile(path->nodes[i].coord); //current tile
ERROR_RET_VAL_IF(!t, "Path contains not visible tile: " << path->nodes[i].coord << "!", false);
if (t->blocked && !t->visitable)
return false; //path is wrong - one of the tiles is blocked
if (blockSea)
{
if (i==0)
continue;
const TerrainTile *prev = getTile(path->nodes[i-1].coord); //tile of previous node on the path
if (( t->tertype == TerrainTile::water && prev->tertype != TerrainTile::water)
|| (t->tertype != TerrainTile::water && prev->tertype == TerrainTile::water)
|| prev->tertype == TerrainTile::rock
)
return false;
}
}
return true;
}
bool CGameInfoCallback::isVisible(int3 pos, int Player) const
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
return gs->map->isInTheMap(pos) && (Player == -1 || gs->isVisible(pos, Player));
}
bool CGameInfoCallback::isVisible(int3 pos) const
{
return isVisible(pos,player);
}
bool CGameInfoCallback::isVisible( const CGObjectInstance *obj, int Player ) const
{
return gs->isVisible(obj, Player);
}
bool CGameInfoCallback::isVisible(const CGObjectInstance *obj) const
{
return isVisible(obj, player);
}
// const CCreatureSet* CInfoCallback::getGarrison(const CGObjectInstance *obj) const
// {
// //boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
// if()
// const CArmedInstance *armi = dynamic_cast<const CArmedInstance*>(obj);
// if(!armi)
// return NULL;
// else
// return armi;
// }
std::vector < const CGObjectInstance * > CGameInfoCallback::getBlockingObjs( int3 pos ) const
{
std::vector<const CGObjectInstance *> ret;
const TerrainTile *t = getTile(pos);
ERROR_RET_VAL_IF(!t, "Not a valid tile requested!", ret);
BOOST_FOREACH(const CGObjectInstance * obj, t->blockingObjects)
ret.push_back(obj);
return ret;
}
std::vector < const CGObjectInstance * > CGameInfoCallback::getVisitableObjs( int3 pos ) const
{
std::vector<const CGObjectInstance *> ret;
const TerrainTile *t = getTile(pos);
ERROR_RET_VAL_IF(!t, "Not a valid tile requested!", ret);
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
BOOST_FOREACH(const CGObjectInstance * obj, t->visitableObjects)
ret.push_back(obj);
return ret;
}
std::vector < const CGObjectInstance * > CGameInfoCallback::getFlaggableObjects(int3 pos) const
{
std::vector<const CGObjectInstance *> ret;
const TerrainTile *t = getTile(pos);
ERROR_RET_VAL_IF(!t, "Not a valid tile requested!", ret);
BOOST_FOREACH(const CGObjectInstance *obj, t->blockingObjects)
if(obj->tempOwner != 254)
ret.push_back(obj);
// const std::vector < std::pair<const CGObjectInstance*,SDL_Rect> > & objs = CGI->mh->ttiles[pos.x][pos.y][pos.z].objects;
// for(size_t b=0; b<objs.size(); ++b)
// {
// if(objs[b].first->tempOwner!=254 && !((objs[b].first->defInfo->blockMap[pos.y - objs[b].first->pos.y + 5] >> (objs[b].first->pos.x - pos.x)) & 1))
// ret.push_back(CGI->mh->ttiles[pos.x][pos.y][pos.z].objects[b].first);
// }
return ret;
}
int3 CGameInfoCallback::getMapSize() const
{
return int3(gs->map->width, gs->map->height, gs->map->twoLevel+1);
}
std::vector<const CGHeroInstance *> CGameInfoCallback::getAvailableHeroes(const CGObjectInstance * townOrTavern) const
{
std::vector<const CGHeroInstance *> ret;
//ERROR_RET_VAL_IF(!isOwnedOrVisited(townOrTavern), "Town or tavern must be owned or visited!", ret);
//TODO: town needs to be owned, advmap tavern needs to be visited; to be reimplemented when visit tracking is done
ret.resize(gs->players[player].availableHeroes.size());
std::copy(gs->players[player].availableHeroes.begin(),gs->players[player].availableHeroes.end(),ret.begin());
return ret;
}
const TerrainTile * CGameInfoCallback::getTile( int3 tile, bool verbose) const
{
ERROR_VERBOSE_OR_NOT_RET_VAL_IF(!isVisible(tile), verbose, tile << " is not visible!", NULL);
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
return &gs->map->getTile(tile);
}
int CGameInfoCallback::canBuildStructure( const CGTownInstance *t, int ID )
{
ERROR_RET_VAL_IF(!canGetFullInfo(t), "Town is not owned!", -1);
int ret = EBuildingState::ALLOWED;
if(t->builded >= GameConstants::MAX_BUILDING_PER_TURN)
ret = EBuildingState::CANT_BUILD_TODAY; //building limit
CBuilding * pom = VLC->buildh->buildings[t->subID][ID];
if(!pom)
return EBuildingState::BUILDING_ERROR;
//checking resources
if(!pom->resources.canBeAfforded(getPlayer(t->tempOwner)->resources))
ret = EBuildingState::NO_RESOURCES; //lack of res
//checking for requirements
std::set<int> reqs = getBuildingRequiments(t, ID);//getting all requirements
for( std::set<int>::iterator ri = reqs.begin(); ri != reqs.end(); ri++ )
{
if(t->builtBuildings.find(*ri)==t->builtBuildings.end())
ret = EBuildingState::PREREQUIRES; //lack of requirements - cannot build
}
//can we build it?
if(t->forbiddenBuildings.find(ID)!=t->forbiddenBuildings.end())
ret = EBuildingState::FORBIDDEN; //forbidden
if(ID == 13) //capitol
{
const PlayerState *ps = getPlayer(t->tempOwner);
if(ps)
{
BOOST_FOREACH(const CGTownInstance *t, ps->towns)
{
if(vstd::contains(t->builtBuildings, 13))
{
ret = EBuildingState::HAVE_CAPITAL; //no more than one capitol
break;
}
}
}
}
else if(ID == 6) //shipyard
{
const TerrainTile *tile = getTile(t->bestLocation());
if(!tile || tile->tertype != TerrainTile::water )
ret = EBuildingState::NO_WATER; //lack of water
}
if(t->builtBuildings.find(ID)!=t->builtBuildings.end()) //already built
ret = EBuildingState::ALREADY_PRESENT;
return ret;
}
std::set<int> CGameInfoCallback::getBuildingRequiments( const CGTownInstance *t, int ID )
{
ERROR_RET_VAL_IF(!canGetFullInfo(t), "Town is not owned!", std::set<int>());
std::set<int> used;
used.insert(ID);
std::set<int> reqs = VLC->townh->requirements[t->subID][ID];
while(true)
{
size_t noloop=0;
for(std::set<int>::iterator i=reqs.begin();i!=reqs.end();i++)
{
if(used.find(*i)==used.end()) //we haven't added requirements for this building
{
used.insert(*i);
for(
std::set<int>::iterator j=VLC->townh->requirements[t->subID][*i].begin();
j!=VLC->townh->requirements[t->subID][*i].end();
j++)
{
reqs.insert(*j);//creating full list of requirements
}
}
else
{
noloop++;
}
}
if(noloop==reqs.size())
break;
}
return reqs;
}
const CMapHeader * CGameInfoCallback::getMapHeader() const
{
return gs->map;
}
bool CGameInfoCallback::hasAccess(int playerId) const
{
return player < 0 || gs->getPlayerRelations( playerId, player );
}
int CGameInfoCallback::getPlayerStatus(int player) const
{
const PlayerState *ps = gs->getPlayer(player, false);
if(!ps)
return -1;
return ps->status;
}
std::string CGameInfoCallback::getTavernGossip(const CGObjectInstance * townOrTavern) const
{
return "GOSSIP TEST";
}
int CGameInfoCallback::getPlayerRelations( ui8 color1, ui8 color2 ) const
{
return gs->getPlayerRelations(color1, color2);
}
bool CGameInfoCallback::canGetFullInfo(const CGObjectInstance *obj) const
{
return !obj || hasAccess(obj->tempOwner);
}
int CGameInfoCallback::getHeroCount( int player, bool includeGarrisoned ) const
{
int ret = 0;
const PlayerState *p = gs->getPlayer(player);
ERROR_RET_VAL_IF(!p, "No such player!", -1);
if(includeGarrisoned)
return p->heroes.size();
else
for(ui32 i = 0; i < p->heroes.size(); i++)
if(!p->heroes[i]->inTownGarrison)
ret++;
return ret;
}
bool CGameInfoCallback::isOwnedOrVisited(const CGObjectInstance *obj) const
{
if(canGetFullInfo(obj))
return true;
const TerrainTile *t = getTile(obj->visitablePos()); //get entrance tile
const CGObjectInstance *visitor = t->visitableObjects.back(); //visitong hero if present or the obejct itself at last
return visitor->ID == GameConstants::HEROI_TYPE && canGetFullInfo(visitor); //owned or allied hero is a visitor
}
int CGameInfoCallback::getCurrentPlayer() const
{
return gs->currentPlayer;
}
CGameInfoCallback::CGameInfoCallback()
{
}
CGameInfoCallback::CGameInfoCallback(CGameState *GS, int Player)
{
gs = GS;
player = Player;
}
const std::vector< std::vector< std::vector<ui8> > > & CPlayerSpecificInfoCallback::getVisibilityMap() const
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
return gs->getPlayerTeam(player)->fogOfWarMap;
}
int CPlayerSpecificInfoCallback::howManyTowns() const
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
ERROR_RET_VAL_IF(player == -1, "Applicable only for player callbacks", -1);
return CGameInfoCallback::howManyTowns(player);
}
std::vector < const CGTownInstance *> CPlayerSpecificInfoCallback::getTownsInfo(bool onlyOur) const
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
std::vector < const CGTownInstance *> ret = std::vector < const CGTownInstance *>();
for ( std::map<ui8, PlayerState>::iterator i=gs->players.begin() ; i!=gs->players.end();i++)
{
for (size_t j = 0; j < (*i).second.towns.size(); ++j)
{
if ((*i).first==player
|| (isVisible((*i).second.towns[j],player) && !onlyOur))
{
ret.push_back((*i).second.towns[j]);
}
}
} // for ( std::map<int, PlayerState>::iterator i=gs->players.begin() ; i!=gs->players.end();i++)
return ret;
}
std::vector < const CGHeroInstance *> CPlayerSpecificInfoCallback::getHeroesInfo(bool onlyOur) const
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
std::vector < const CGHeroInstance *> ret;
for(size_t i=0;i<gs->map->heroes.size();i++)
{
if( (gs->map->heroes[i]->tempOwner==player) ||
(isVisible(gs->map->heroes[i]->getPosition(false),player) && !onlyOur) )
{
ret.push_back(gs->map->heroes[i]);
}
}
return ret;
}
int CPlayerSpecificInfoCallback::getMyColor() const
{
return player;
}
int CPlayerSpecificInfoCallback::getHeroSerial(const CGHeroInstance * hero) const
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
for (size_t i=0; i<gs->players[player].heroes.size();i++)
{
if (gs->players[player].heroes[i]==hero)
return i;
}
return -1;
}
int3 CPlayerSpecificInfoCallback::getGrailPos( double &outKnownRatio )
{
if (CGObelisk::obeliskCount == 0)
{
outKnownRatio = 0.0;
}
else
{
outKnownRatio = static_cast<double>(CGObelisk::visited[gs->getPlayerTeam(player)->id]) / CGObelisk::obeliskCount;
}
return gs->map->grailPos;
}
std::vector < const CGObjectInstance * > CPlayerSpecificInfoCallback::getMyObjects() const
{
std::vector < const CGObjectInstance * > ret;
BOOST_FOREACH(const CGObjectInstance * obj, gs->map->objects)
{
if(obj && obj->tempOwner == player)
ret.push_back(obj);
}
return ret;
}
std::vector < const CGDwelling * > CPlayerSpecificInfoCallback::getMyDwellings() const
{
std::vector < const CGDwelling * > ret;
BOOST_FOREACH(CGDwelling * dw, gs->getPlayer(player)->dwellings)
{
ret.push_back(dw);
}
return ret;
}
int CPlayerSpecificInfoCallback::howManyHeroes(bool includeGarrisoned) const
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
ERROR_RET_VAL_IF(player == -1, "Applicable only for player callbacks", -1);
return getHeroCount(player,includeGarrisoned);
}
const CGHeroInstance* CPlayerSpecificInfoCallback::getHeroBySerial(int serialId, bool includeGarrisoned) const
{
const PlayerState *p = getPlayer(player);
ERROR_RET_VAL_IF(!p, "No player info", NULL);
if (!includeGarrisoned)
{
for(ui32 i = 0; i < p->heroes.size() && i<=serialId; i++)
if(p->heroes[i]->inTownGarrison)
serialId++;
}
ERROR_RET_VAL_IF(serialId < 0 || serialId >= p->heroes.size(), "No player info", NULL);
return p->heroes[serialId];
}
const CGTownInstance* CPlayerSpecificInfoCallback::getTownBySerial(int serialId) const
{
const PlayerState *p = getPlayer(player);
ERROR_RET_VAL_IF(!p, "No player info", NULL);
ERROR_RET_VAL_IF(serialId < 0 || serialId >= p->towns.size(), "No player info", NULL);
return p->towns[serialId];
}
int CPlayerSpecificInfoCallback::getResourceAmount(int type) const
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
ERROR_RET_VAL_IF(player == -1, "Applicable only for player callbacks", -1);
return getResource(player, type);
}
TResources CPlayerSpecificInfoCallback::getResourceAmount() const
{
//boost::shared_lock<boost::shared_mutex> lock(*gs->mx);
ERROR_RET_VAL_IF(player == -1, "Applicable only for player callbacks", TResources());
return gs->players[player].resources;
}
CGHeroInstance *CNonConstInfoCallback::getHero(int objid)
{
return const_cast<CGHeroInstance*>(CGameInfoCallback::getHero(objid));
}
CGTownInstance *CNonConstInfoCallback::getTown(int objid)
{
return const_cast<CGTownInstance*>(CGameInfoCallback::getTown(objid));
}
TeamState *CNonConstInfoCallback::getTeam(ui8 teamID)
{
return const_cast<TeamState*>(CGameInfoCallback::getTeam(teamID));
}
TeamState *CNonConstInfoCallback::getPlayerTeam(ui8 color)
{
return const_cast<TeamState*>(CGameInfoCallback::getPlayerTeam(color));
}
PlayerState * CNonConstInfoCallback::getPlayer( ui8 color, bool verbose )
{
return const_cast<PlayerState*>(CGameInfoCallback::getPlayer(color, verbose));
}
const TeamState * CGameInfoCallback::getTeam( ui8 teamID ) const
{
ERROR_RET_VAL_IF(!vstd::contains(gs->teams, teamID), "Cannot find info for team " << int(teamID), NULL);
const TeamState *ret = &gs->teams[teamID];
ERROR_RET_VAL_IF(player != -1 && !vstd::contains(ret->players, player), "Illegal attempt to access team data!", NULL);
return ret;
}
const TeamState * CGameInfoCallback::getPlayerTeam( ui8 teamID ) const
{
const PlayerState * ps = getPlayer(teamID);
if (ps)
return getTeam(ps->team);
return NULL;
}
const CGHeroInstance* CGameInfoCallback::getHeroWithSubid( int subid ) const
{
BOOST_FOREACH(const CGHeroInstance *h, gs->map->heroes)
if(h->subID == subid)
return h;
return NULL;
}
int CGameInfoCallback::getLocalPlayer() const
{
return getCurrentPlayer();
}
bool CGameInfoCallback::isInTheMap(const int3 &pos) const
{
return gs->map->isInTheMap(pos);
}
void IGameEventRealizer::showInfoDialog( InfoWindow *iw )
{
commitPackage(iw);
}
void IGameEventRealizer::showInfoDialog(const std::string &msg, int player)
{
InfoWindow iw;
iw.player = player;
iw.text << msg;
showInfoDialog(&iw);
}
void IGameEventRealizer::setObjProperty(int objid, int prop, si64 val)
{
SetObjectProperty sob;
sob.id = objid;
sob.what = prop;
sob.val = static_cast<ui32>(val);
commitPackage(&sob);
}
const CGObjectInstance * IGameCallback::putNewObject(int ID, int subID, int3 pos)
{
NewObject no;
no.ID = ID; //creature
no.subID= subID;
no.pos = pos;
commitPackage(&no);
return getObj(no.id); //id field will be filled during applying on gs
}
const CGCreature * IGameCallback::putNewMonster(int creID, int count, int3 pos)
{
const CGObjectInstance *m = putNewObject(54, creID, pos);
setObjProperty(m->id, ObjProperty::MONSTER_COUNT, count);
setObjProperty(m->id, ObjProperty::MONSTER_POWER, (si64)1000*count);
return dynamic_cast<const CGCreature*>(m);
}