int CvMapGenerator::calculateNumBonusesToAdd(BonusTypes eBonusType) { CvBonusInfo& pBonusInfo = GC.getBonusInfo(eBonusType); // Calculate iBonusCount, the amount of this bonus to be placed: int iRand1 = GC.getGameINLINE().getMapRandNum(pBonusInfo.getRandAppearance1(), "calculateNumBonusesToAdd-1"); int iRand2 = GC.getGameINLINE().getMapRandNum(pBonusInfo.getRandAppearance2(), "calculateNumBonusesToAdd-2"); int iRand3 = GC.getGameINLINE().getMapRandNum(pBonusInfo.getRandAppearance3(), "calculateNumBonusesToAdd-3"); int iRand4 = GC.getGameINLINE().getMapRandNum(pBonusInfo.getRandAppearance4(), "calculateNumBonusesToAdd-4"); int iBaseCount = pBonusInfo.getConstAppearance() + iRand1 + iRand2 + iRand3 + iRand4; bool bIgnoreLatitude = false; gDLL->getPythonIFace()->pythonIsBonusIgnoreLatitudes(&bIgnoreLatitude); // Calculate iNumPossible, the number of plots that are eligible to have this bonus: int iLandTiles = 0; if (pBonusInfo.getTilesPer() > 0) { int iNumPossible = 0; for (int iI = 0; iI < GC.getMapINLINE().numPlotsINLINE(); iI++) { CvPlot* pPlot = GC.getMapINLINE().plotByIndexINLINE(iI); if (pPlot->canHaveBonus(eBonusType, bIgnoreLatitude)) { iNumPossible++; } } iLandTiles = (iNumPossible / pBonusInfo.getTilesPer()); } int iPlayers = (GC.getGameINLINE().countCivPlayersAlive() * pBonusInfo.getPercentPerPlayer()) / 100; int iBonusCount = (iBaseCount * (iLandTiles + iPlayers)) / 100; iBonusCount = std::max(1, iBonusCount); return iBonusCount; }
bool CvMapGenerator::canPlaceBonusAt(BonusTypes eBonus, int iX, int iY, bool bIgnoreLatitude) { PROFILE_FUNC(); CvArea* pArea; CvPlot* pPlot; CvPlot* pLoopPlot; int iRange; int iDX, iDY; int iI; pPlot = GC.getMapINLINE().plotINLINE(iX, iY); pArea = pPlot->area(); if (!(pPlot->canHaveBonus(eBonus, bIgnoreLatitude))) { return false; } long result = 0; if (gDLL->getPythonIFace()->pythonCanPlaceBonusAt(pPlot, &result) && !gDLL->getPythonIFace()->pythonUsingDefaultImpl()) // Python override { if (result >= 0) { return result; } else { FAssertMsg(false, "canPlaceBonusAt() must return >= 0"); } } for (iI = 0; iI < NUM_DIRECTION_TYPES; iI++) { pLoopPlot = plotDirection(iX, iY, ((DirectionTypes)iI)); if (pLoopPlot != NULL) { if ((pLoopPlot->getBonusType() != NO_BONUS) && (pLoopPlot->getBonusType() != eBonus)) { return false; } } } CvBonusInfo& pInfo = GC.getBonusInfo(eBonus); if (pPlot->isWater()) { if (((GC.getMapINLINE().getNumBonusesOnLand(eBonus) * 100) / (GC.getMapINLINE().getNumBonuses(eBonus) + 1)) < pInfo.getMinLandPercent()) { return false; } } // Make sure there are none of the same bonus nearby: iRange = pInfo.getUniqueRange(); for (iDX = -(iRange); iDX <= iRange; iDX++) { for (iDY = -(iRange); iDY <= iRange; iDY++) { pLoopPlot = plotXY(iX, iY, iDX, iDY); if (pLoopPlot != NULL) { if (pLoopPlot->area() == pArea) { if (plotDistance(iX, iY, pLoopPlot->getX_INLINE(), pLoopPlot->getY_INLINE()) <= iRange) { if (pLoopPlot->getBonusType() == eBonus) { return false; } } } } } } return true; }
bool CvMapGenerator::canPlaceBonusAt(BonusTypes eBonus, int iX, int iY, bool bIgnoreLatitude) { PROFILE_FUNC(); CvArea* pArea; CvPlot* pPlot; CvPlot* pLoopPlot; int iRange; int iDX, iDY; int iI; pPlot = GC.getMapINLINE().plotINLINE(iX, iY); pArea = pPlot->area(); if (!(pPlot->canHaveBonus(eBonus, bIgnoreLatitude))) { return false; } long result = 0; CyPlot kPlot = CyPlot(pPlot); CyArgsList argsList; argsList.add(gDLL->getPythonIFace()->makePythonObject(&kPlot)); if (gDLL->getPythonIFace()->callFunction(gDLL->getPythonIFace()->getMapScriptModule(), "canPlaceBonusAt", argsList.makeFunctionArgs(), &result)) { if (!gDLL->getPythonIFace()->pythonUsingDefaultImpl()) { if (result >= 0) { return result; } else { FAssertMsg(false, "canPlaceBonusAt() must return >= 0"); } } } for (iI = 0; iI < NUM_DIRECTION_TYPES; iI++) { pLoopPlot = plotDirection(iX, iY, ((DirectionTypes)iI)); if (pLoopPlot != NULL) { if ((pLoopPlot->getBonusType() != NO_BONUS) && (pLoopPlot->getBonusType() != eBonus)) { return false; } } } CvBonusInfo& pInfo = GC.getBonusInfo(eBonus); CvBonusClassInfo& pClassInfo = GC.getBonusClassInfo((BonusClassTypes) pInfo.getBonusClassType()); if (pPlot->isWater()) { if (((GC.getMapINLINE().getNumBonusesOnLand(eBonus) * 100) / (GC.getMapINLINE().getNumBonuses(eBonus) + 1)) < pInfo.getMinLandPercent()) { return false; } } // Make sure there are no bonuses of the same class (but a different type) nearby: iRange = pClassInfo.getUniqueRange(); for (iDX = -(iRange); iDX <= iRange; iDX++) { for (iDY = -(iRange); iDY <= iRange; iDY++) { pLoopPlot = plotXY(iX, iY, iDX, iDY); if (pLoopPlot != NULL) { if (pLoopPlot->area() == pArea) { if (plotDistance(iX, iY, pLoopPlot->getX_INLINE(), pLoopPlot->getY_INLINE()) <= iRange) { BonusTypes eOtherBonus = pLoopPlot->getBonusType(); if (eOtherBonus != NO_BONUS) { if (GC.getBonusInfo(eOtherBonus).getBonusClassType() == pInfo.getBonusClassType()) { return false; } } } } } } } // Make sure there are none of the same bonus nearby: iRange = pInfo.getUniqueRange(); for (iDX = -(iRange); iDX <= iRange; iDX++) { for (iDY = -(iRange); iDY <= iRange; iDY++) { pLoopPlot = plotXY(iX, iY, iDX, iDY); if (pLoopPlot != NULL) { if (pLoopPlot->area() == pArea) { if (plotDistance(iX, iY, pLoopPlot->getX_INLINE(), pLoopPlot->getY_INLINE()) <= iRange) { if (pLoopPlot->getBonusType() == eBonus) { return false; } } } } } } return true; }