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/* ScummVM - Graphic Adventure Engine
*
* ScummVM is the legal property of its developers, whose names
* are too numerous to list here. Please refer to the COPYRIGHT
* file distributed with this source distribution.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
*/
#include "scumm/he/intern_he.h"
#include "scumm/he/moonbase/moonbase.h"
#include "scumm/he/moonbase/ai_targetacquisition.h"
#include "scumm/he/moonbase/ai_main.h"
#include "scumm/he/moonbase/ai_weapon.h"
namespace Scumm {
int Sortie::_sSourceX = 0;
int Sortie::_sSourceY = 0;
int Sortie::_sTargetX = 0;
int Sortie::_sTargetY = 0;
Sortie::~Sortie() {
for (Common::Array<DefenseUnit *>::iterator k = _enemyDefenses.begin(); k != _enemyDefenses.end(); k++) {
delete *k;
}
}
void Sortie::setEnemyDefenses(int enemyDefensesScummArray, int defendX, int defendY) {
DefenseUnit *thisUnit;
int currentPlayer = _ai->getCurrentPlayer();
for (int i = 0; i < 200; i++) {
int thisElement = _ai->_vm->_moonbase->readFromArray(enemyDefensesScummArray, 0, i);
if (thisElement) {
if (_ai->getBuildingOwner(thisElement)) {
if (_ai->getPlayerTeam(currentPlayer) != _ai->getBuildingTeam(thisElement)) {
int type = _ai->getBuildingType(thisElement);
switch (type) {
case BUILDING_ANTI_AIR:
thisUnit = new AntiAirUnit(_ai);
break;
case BUILDING_SHIELD:
thisUnit = new ShieldUnit(_ai);
break;
case BUILDING_EXPLOSIVE_MINE:
if (_ai->getDistance(_ai->getHubX(thisElement), _ai->getHubY(thisElement), defendX, defendY) < 90)
thisUnit = new MineUnit(_ai);
else
thisUnit = NULL;
break;
case BUILDING_CRAWLER:
thisUnit = NULL;
break;
default:
thisUnit = NULL;
break;
}
if (thisUnit != NULL) {
thisUnit->setID(thisElement);
thisUnit->setPos(_ai->getHubX(thisElement), _ai->getHubY(thisElement));
if (_ai->getBuildingState(thisElement)) thisUnit->setState(DUS_OFF);
_enemyDefenses.push_back(thisUnit);
}
}
}
} else {
i = 200;
}
}
}
int *Sortie::getShotPos() const {
int *retVal = new int[2];
retVal[0] = _shotPosX;
retVal[1] = _shotPosY;
return retVal;
}
int Sortie::numChildrenToGen() {
int retVal = MAX<uint>(_enemyDefenses.size(), 1) * NUM_SHOT_POSITIONS * NUM_WEAPONS;
return retVal;
}
IContainedObject *Sortie::createChildObj(int index, int &completionFlag) {
float thisDamage;
Sortie *retSortie = new Sortie(_ai);
int activeDefenses = 0;
Common::Array<DefenseUnit *> thisEnemyDefenses;
// Copy the defensive unit list from the parent
for (Common::Array<DefenseUnit *>::iterator k = _enemyDefenses.begin(); k != _enemyDefenses.end(); k++) {
DefenseUnit *temp;
switch ((*k)->getType()) {
case DUT_ANTI_AIR:
temp = new AntiAirUnit(*k, _ai);
break;
case DUT_SHIELD:
temp = new ShieldUnit(*k, _ai);
break;
case DUT_MINE:
temp = new MineUnit(*k, _ai);
break;
case DUT_CRAWLER:
temp = new CrawlerUnit(*k, _ai);
break;
default:
temp = new ShieldUnit(*k, _ai);
break;
}
thisEnemyDefenses.push_back(temp);
}
// Calculate the current target from the index
DefenseUnit *currentTarget = *(thisEnemyDefenses.begin() + static_cast<int>(index / (NUM_WEAPONS * NUM_SHOT_POSITIONS)));
assert(currentTarget);
// Pick correct weapon according to index
Weapon *currentWeapon = new Weapon(currentTarget->selectWeapon(index % NUM_WEAPONS));
retSortie->setUnitType(currentWeapon->getTypeID());
// Calculate distance from target to source hub
int distance = _ai->getDistance(currentTarget->getPosX(), currentTarget->getPosY(), getSourcePosX(), getSourcePosY());
// Pick correct shot position according to index
Common::Point *targetCoords;
targetCoords = currentTarget->createTargetPos((static_cast<int>(index / NUM_WEAPONS) % NUM_SHOT_POSITIONS), distance, currentWeapon->getTypeID(), getSourcePosX(), getSourcePosY());
retSortie->setShotPos(targetCoords->x, targetCoords->y);
// Set the g value based on cost of the weapon
retSortie->setValueG(getG() + currentWeapon->getCost());
int AAcounter = 3;
// Loop through defensive units, toggling anti-air units and deciding if this weapon will land safely
for (Common::Array<DefenseUnit *>::iterator i = thisEnemyDefenses.begin(); i != thisEnemyDefenses.end(); i++) {
distance = _ai->getDistance((*i)->getPosX(), (*i)->getPosY(), targetCoords->x, targetCoords->y);
// Check to see if we're within an active defense's radius
if ((distance < (*i)->getRadius()) && ((*i)->getState() == DUS_ON)) {
activeDefenses++;
// Turn off this anti-air and drop the coverage count
if (((*i)->getType() == DUT_ANTI_AIR)) {
(*i)->setState(DUS_OFF);
if (currentWeapon->getTypeID() == ITEM_CLUSTER)
AAcounter--;
else
AAcounter = 0;
}
// Essentially disable this weapon choice, due to its impact with a shield, or untriggered anti-air
if (((*i)->getType() == DUT_SHIELD) || !AAcounter) {
retSortie->setValueG(1000);
i = thisEnemyDefenses.end() - 1;
}
} else {
// Turn on any anti-airs that were off the previous turn
if (((*i)->getType() == DUT_ANTI_AIR) && ((*i)->getState() == DUS_OFF))
(*i)->setState(DUS_ON);
}
}
// Turn on all the non-anti-air units in preparation for emp's and the next turn
for (Common::Array<DefenseUnit *>::iterator i = thisEnemyDefenses.begin(); i != thisEnemyDefenses.end(); i++) {
if ((*i)->getType() != DUT_ANTI_AIR) {
(*i)->setState(DUS_ON);
}
}
// If this weapon is still valid
if (retSortie->getValueG() < 1000) {
// Apply emp effects and damage to all units in range of weapon
for (Common::Array<DefenseUnit *>::iterator i = thisEnemyDefenses.begin(); i != thisEnemyDefenses.end(); ) {
// Special simulated crawler detonation location used, since it walks a bit
if (currentWeapon->getTypeID() == ITEM_CRAWLER)
distance = _ai->getDistance((*i)->getPosX(), (*i)->getPosY(), currentTarget->getPosX(), currentTarget->getPosY());
// Normal detonation location used here
else {
distance = _ai->getDistance((*i)->getPosX(), (*i)->getPosY(), targetCoords->x, targetCoords->y);
}
if (distance < currentWeapon->getRadius()) {
// Apply damage
thisDamage = currentWeapon->getDamage();
if ((AAcounter != 3) && (currentWeapon->getTypeID() == ITEM_CLUSTER))
thisDamage = 0;
if (!_ai->_vm->_rnd.getRandomNumber(4))
currentWeapon->setTypeID(ITEM_MINE);
(*i)->setDamage((int)thisDamage);
// Apply emp effect
if (currentWeapon->getTypeID() == ITEM_EMP) {
(*i)->setState(DUS_OFF);
}
// Remove destroyed defenses
if ((*i)->getArmor() <= 0) {
delete *i;
i = thisEnemyDefenses.erase(i);
} else {
i++;
}
} else {
i++;
}
}
}
retSortie->setEnemyDefenses(thisEnemyDefenses);
delete targetCoords;
delete currentWeapon;
return retSortie;
}
float Sortie::calcH() {
float retValue = 0;
Common::Array<DefenseUnit *> thisEnemyDefenses = getEnemyDefenses();
for (Common::Array<DefenseUnit *>::iterator i = thisEnemyDefenses.begin(); i != thisEnemyDefenses.end(); i++) {
if ((*i)->getState() == DUS_ON) {
switch ((*i)->getType()) {
case DUT_ANTI_AIR:
retValue += 1;
case DUT_MINE:
retValue += 1;
break;
case DUT_SHIELD:
retValue += 1;
break;
}
}
}
return retValue;
}
int Sortie::checkSuccess() {
if (!_enemyDefenses.size())
return SUCCESS;
int targetX = getTargetPosX();
int targetY = getTargetPosY();
int targetCheck = 0;
for (Common::Array<DefenseUnit *>::iterator i = _enemyDefenses.begin(); i != _enemyDefenses.end(); i++) {
if (((*i)->getState() == DUS_ON) && ((*i)->getType() != DUT_HUB)) {
return 0;
}
if (((*i)->getPosX() == targetX) && ((*i)->getPosY() == targetY)) targetCheck = 1;
}
if (!targetCheck)
return SUCCESS;
// If shot pos == target pos return SUCCESS;
if ((targetX == getShotPosX()) && (getTargetPosY() == getShotPosY())) {
return SUCCESS;
}
return 0;
}
float Sortie::calcT() {
return (checkSuccess() != SUCCESS) ? (getG() + calcH()) : SUCCESS;
}
IContainedObject *Sortie::duplicate() {
return this;
}
void Sortie::printEnemyDefenses() {
for (Common::Array<DefenseUnit *>::iterator i = _enemyDefenses.begin(); i != _enemyDefenses.end(); i++) {
warning("Unit %d - Type: %d, Armor: %d, Status: %d", (*i)->getID(), (*i)->getType(), static_cast<int>((*i)->getArmor()), (*i)->getState());
}
}
Defender::Defender(AI *ai) : _ai(ai) {
_sourceX = _sourceY = 0;
_targetX = _targetY = 0;
_sourceUnit = 0;
_power = 0;
_angle = 0;
_unit = 0;
}
int Defender::calculateDefenseUnitPosition(int targetX, int targetY, int index) {
int currentPlayer = _ai->getCurrentPlayer();
//get list of near hubs
int unitsArray = _ai->getUnitsWithinRadius(targetX + 5, targetY, 480);
const int NUM_HUBS = 10;
//Order on dist
int hubArray[NUM_HUBS] = { 0 };
int hubIndex = 0;
for (int i = 0; i < 200; i++) {
int thisUnit = _ai->_vm->_moonbase->readFromArray(unitsArray, 0, i);
if (thisUnit) {
if (((_ai->getBuildingType(thisUnit) == BUILDING_MAIN_BASE) || (_ai->getBuildingType(thisUnit) == BUILDING_OFFENSIVE_LAUNCHER)) && (_ai->getBuildingOwner(thisUnit) == currentPlayer)) {
for (int j = 0; j < NUM_HUBS; j++) {
if (hubArray[j]) {
int distCurrent = _ai->getDistance(targetX, targetY, _ai->getHubX(thisUnit), _ai->getHubY(thisUnit));
int distSaved = _ai->getDistance(targetX, targetY, _ai->getHubX(hubArray[j]), _ai->getHubY(hubArray[j]));
if (distCurrent < distSaved) {
hubArray[hubIndex] = hubArray[j];
hubArray[j] = thisUnit;
hubIndex++;
j = 100;
}
} else {
hubArray[j] = thisUnit;
hubIndex++;
j = 100;
}
}
}
}
if (hubIndex >= NUM_HUBS) {
hubIndex = NUM_HUBS;
i = 200;
}
}
_ai->_vm->_moonbase->deallocateArray(unitsArray);
//Check if repair is needed
int targetUnit = _ai->getClosestUnit(targetX + 5, targetY, 15, currentPlayer, 1, 0, 0, 0);
if (targetUnit && (targetUnit != BUILDING_CRAWLER) && (_ai->getBuildingTeam(targetUnit) == _ai->getPlayerTeam(currentPlayer))) {
int armor = _ai->getBuildingArmor(targetUnit);
if (armor < _ai->getBuildingMaxArmor(targetUnit)) {
unitsArray = _ai->getUnitsWithinRadius(targetX + 5, targetY, 170);
int defCount = 0;
for (int i = 0; i < 200; i++) {
int thisUnit = _ai->_vm->_moonbase->readFromArray(unitsArray, 0, i);
if (thisUnit) {
if (((_ai->getBuildingType(thisUnit) == BUILDING_SHIELD) || (_ai->getBuildingType(thisUnit) == BUILDING_ANTI_AIR)) && (_ai->getBuildingOwner(thisUnit) == currentPlayer) && (_ai->getBuildingState(thisUnit) == 0)) {
defCount++;
i = 200;
}
}
}
_ai->_vm->_moonbase->deallocateArray(unitsArray);
if (defCount) {
//repair
int hubUnit = _ai->getClosestUnit(targetX, targetY, 480, currentPlayer, 1, BUILDING_MAIN_BASE, 1, 110);
if (hubUnit && (hubUnit != targetUnit)) {
int powAngle = abs(_ai->getPowerAngleFromPoint(_ai->getHubX(hubUnit), _ai->getHubY(hubUnit), targetX, targetY, 20));
int power = powAngle / 360;
int angle = powAngle - (power * 360);
setTargetX(targetX);
setTargetY(targetY);
setSourceUnit(hubUnit);
setUnit(ITEM_REPAIR);
setPower(power);
setAngle(angle);
return 1;
}
}
}
}
//For each hub
for (int i = 0; i < MIN(NUM_HUBS, hubIndex); i++) {
int hubX = _ai->getHubX(hubArray[i]);
int hubY = _ai->getHubY(hubArray[i]);
//get angle to hub
int directAngleToHub = 0;
//If this hub is the target
if ((hubX == targetX) && (hubY == targetY)) {
//make the angle seed point at the closest enemy
int enemyUnit = _ai->getClosestUnit(hubX, hubY, _ai->getMaxX(), currentPlayer, 0, 0, 0);
directAngleToHub = _ai->calcAngle(targetX, targetY, _ai->getHubX(enemyUnit), _ai->getHubY(enemyUnit));
} else {
directAngleToHub = _ai->calcAngle(targetX, targetY, hubX, hubY);
}
//Number of random chances to land
for (int j = 0; j < 3; j++) {
//Pick random angle and dist within semicircle (-90 to +90) and (40 to 150)
int randAngle = directAngleToHub + _ai->_vm->_rnd.getRandomNumber(179) - 90;
int randDist = _ai->_vm->_rnd.getRandomNumber(109) + 40;
int x = (int)(targetX + randDist * cos(_ai->degToRad(randAngle)));
int y = (int)(targetY + randDist * sin(_ai->degToRad(randAngle)));
int powAngle = _ai->getPowerAngleFromPoint(hubX, hubY, x, y, 20);
if (powAngle < 0)
continue;
int power = powAngle / 360;
int angle = powAngle - (power * 360);
int coords = 0;
coords = _ai->simulateBuildingLaunch(hubX, hubY, power, angle, 100, 0);
//if valid, return
if (coords > 0) {
//warning("The prospective launching hub for this defensive unit is: %d", hubArray[i]);
setSourceX(hubX);
setSourceY(hubY);
setTargetX((x + _ai->getMaxX()) % _ai->getMaxX());
setTargetY((y + _ai->getMaxY()) % _ai->getMaxY());
setSourceUnit(hubArray[i]);
int unitsArray2 = _ai->getUnitsWithinRadius(targetX + 5, targetY, 200);
int shieldCount = 0;
for (int k = 0; k < 200; k++) {
int thisUnit = _ai->_vm->_moonbase->readFromArray(unitsArray2, 0, k);
if (thisUnit) {
if ((_ai->getBuildingType(thisUnit) == BUILDING_SHIELD) && (_ai->getBuildingOwner(thisUnit) == currentPlayer))
shieldCount++;
if ((_ai->getBuildingType(thisUnit) == BUILDING_BRIDGE) && (_ai->getBuildingOwner(thisUnit) == currentPlayer)) {
shieldCount--;
shieldCount = MAX(-1, shieldCount);
}
}
}
if ((_ai->_vm->_rnd.getRandomNumber((int)pow(3.0f, shieldCount + 1) - 1) == 0) && (_ai->getPlayerEnergy() > 6))
setUnit(ITEM_SHIELD);
else
setUnit(ITEM_ANTIAIR);
setPower(power);
setAngle(angle);
_ai->_vm->_moonbase->deallocateArray(unitsArray2);
return 1;
}
if (coords < 0) {
//drop a bridge for the cord
int yCoord = -coords / _ai->getMaxX();
int xCoord = -coords - (yCoord * _ai->getMaxX());
if (_ai->checkIfWaterState(xCoord, yCoord)) {
int terrainSquareSize = _ai->getTerrainSquareSize();
xCoord = ((xCoord / terrainSquareSize * terrainSquareSize) + (terrainSquareSize / 2));
yCoord = ((yCoord / terrainSquareSize * terrainSquareSize) + (terrainSquareSize / 2));
int xDist = xCoord - x;
int yDist = yCoord - y;
x = (int)(xCoord + (terrainSquareSize * 1.414 * (xDist / (abs(xDist) + 1))));
y = (int)(yCoord + (terrainSquareSize * 1.414 * (yDist / (abs(yDist) + 1))));
setTargetX(x);
setTargetY(y);
int nextUnit = _ai->getClosestUnit(x, y, 480, _ai->getCurrentPlayer(), 1, BUILDING_MAIN_BASE, 1, 120);
powAngle = _ai->getPowerAngleFromPoint(_ai->getHubX(nextUnit), _ai->getHubY(nextUnit), x, y, 15);
powAngle = abs(powAngle);
power = powAngle / 360;
angle = powAngle - (power * 360);
setSourceUnit(nextUnit);
setUnit(ITEM_BRIDGE);
setPower(power);
setAngle(angle);
return 1;
}
}
}
}
// Else create new hub
int count = 0;
int coords = 0;
if (hubIndex == 0) return -3;
do {
int sourceHub = hubArray[_ai->_vm->_rnd.getRandomNumber(hubIndex - 1)];
setSourceX(_ai->getHubX(sourceHub));
setSourceY(_ai->getHubY(sourceHub));
setSourceUnit(sourceHub);
setUnit(ITEM_HUB);
setPower(_ai->_vm->_rnd.getRandomNumber(299) + 200);
setAngle(_ai->_vm->_rnd.getRandomNumber(359));
count++;
if (count > (NUM_HUBS * 3)) break;
coords = _ai->simulateBuildingLaunch(getSourceX(), getSourceY(), getPower(), getAngle(), 100, 0);
} while (coords <= 0);
if (coords > 0) {
setTargetX(coords % _ai->getMaxX());
setTargetY(coords / _ai->getMaxX());
} else {
setTargetX(0);
setTargetY(0);
}
return -1;
}
} // End of namespace Scumm
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