int main(int argc, char** argv){
struct gameState g;
int i;
srand(time(NULL));
int cardPlays;
int seed = 0;
int handPos = 0;
int randomChoice1, randomChoice2 = 0;
int handCountPre = 0;
int randomPlayer;
int cardCost1,cardCost2;
int validate = 0;
int k[10] = {adventurer, gardens, embargo, village, minion, mine, cutpurse,
sea_hag, tribute, smithy};
cardPlays = 100;
for(i = 0; i < cardPlays; i ++){
seed = (rand() % 65535);
initializeGame(4,k,seed,&g);
randomPlayer = (rand() % 4);
randomChoice2 = 0;
handPos = (rand() % 5);
handCountPre = 0;
do{
randomChoice1 = (rand() % 5);
} while(randomChoice1 == handPos);
randomChoice2 = gold;//(rand() % 26) + 1;
cardCost1 = getCost(g.hand[randomPlayer][randomChoice1]);
cardCost2 = getCost(gold);
handCountPre = g.handCount[randomPlayer];
validate = remodelCard(&g, handPos, randomPlayer, randomChoice1, randomChoice2);
if(validate ==0){
printf("hand count before %d\n", handCountPre);
printf("cost of choice1 = %d\n",cardCost1);
printf("cost of choice2 = %d\n",cardCost2);
printf("hand count after %d\n", g.handCount[randomPlayer]);
//assert(cardCost2 <= (cardCost1+2));
}
}
printf("all test passed");
return 0;
}
int cardEffect(int card, int choice1, int choice2, int choice3, struct gameState *state, int handPos, int *bonus)
{
int i;
int j;
int k;
int index;
int currentPlayer = whoseTurn(state);
int nextPlayer = currentPlayer + 1;
int tributeRevealedCards[2] = {-1, -1};
int drawntreasure=0;
if (nextPlayer > (state->numPlayers - 1)){
nextPlayer = 0;
}
//uses switch to select card and perform actions
switch( card )
{
case adventurer:
return adventurerCard (drawntreasure, state, currentPlayer);
case council_room:
return councilRoomCard (currentPlayer, state, handPos);
case feast:
return feastCard (currentPlayer, state, choice1);
case gardens:
return -1;
case mine:
return mineCard (currentPlayer, state, choice1, choice2, handPos);
case remodel:
return remodelCard (currentPlayer, state, choice1, choice2, handPos);
case smithy:
//+3 Cards
for (i = 0; i < 3; i++)
{
drawCard(currentPlayer, state);
}
//discard card from hand
discardCard(handPos, currentPlayer, state, 0);
return 0;
case village:
//+1 Card
drawCard(currentPlayer, state);
//+2 Actions
state->numActions = state->numActions + 2;
//discard played card from hand
discardCard(handPos, currentPlayer, state, 0);
return 0;
case baron:
state->numBuys++;//Increase buys by 1!
if (choice1 > 0){//Boolean true or going to discard an estate
int p = 0;//Iterator for hand!
int card_not_discarded = 1;//Flag for discard set!
while(card_not_discarded){
if (state->hand[currentPlayer][p] == estate){//Found an estate card!
state->coins += 4;//Add 4 coins to the amount of coins
state->discard[currentPlayer][state->discardCount[currentPlayer]] = state->hand[currentPlayer][p];
state->discardCount[currentPlayer]++;
for (;p < state->handCount[currentPlayer]; p++){
state->hand[currentPlayer][p] = state->hand[currentPlayer][p+1];
}
state->hand[currentPlayer][state->handCount[currentPlayer]] = -1;
state->handCount[currentPlayer]--;
card_not_discarded = 0;//Exit the loop
}
else if (p > state->handCount[currentPlayer]){
if(DEBUG) {
printf("No estate cards in your hand, invalid choice\n");
printf("Must gain an estate if there are any\n");
}
if (supplyCount(estate, state) > 0){
gainCard(estate, state, 0, currentPlayer);
state->supplyCount[estate]--;//Decrement estates
if (supplyCount(estate, state) == 0){
isGameOver(state);
}
}
card_not_discarded = 0;//Exit the loop
}
else{
p++;//Next card
}
}
}
else{
/* MUTANT (rep_op) */ if (supplyCount(estate, state) < 0){
gainCard(estate, state, 0, currentPlayer);//Gain an estate
state->supplyCount[estate]--;//Decrement Estates
if (supplyCount(estate, state) == 0){
isGameOver(state);
}
}
}
return 0;
case great_hall:
//+1 Card
drawCard(currentPlayer, state);
//+1 Actions
state->numActions++;
//discard card from hand
discardCard(handPos, currentPlayer, state, 0);
return 0;
case minion:
//+1 action
state->numActions++;
//discard card from hand
discardCard(handPos, currentPlayer, state, 0);
if (choice1) //+2 coins
{
state->coins = state->coins + 2;
}
else if (choice2) //discard hand, redraw 4, other players with 5+ cards discard hand and draw 4
{
//discard hand
while(numHandCards(state) > 0)
{
discardCard(handPos, currentPlayer, state, 0);
}
//draw 4
for (i = 0; i < 4; i++)
{
drawCard(currentPlayer, state);
}
//other players discard hand and redraw if hand size > 4
for (i = 0; i < state->numPlayers; i++)
{
if (i != currentPlayer)
{
if ( state->handCount[i] > 4 )
{
//discard hand
while( state->handCount[i] > 0 )
{
discardCard(handPos, i, state, 0);
}
//draw 4
for (j = 0; j < 4; j++)
{
drawCard(i, state);
}
}
}
}
}
return 0;
case steward:
if (choice1 == 1)
{
//+2 cards
drawCard(currentPlayer, state);
drawCard(currentPlayer, state);
}
else if (choice1 == 2)
{
//+2 coins
state->coins = state->coins + 2;
}
else
{
//trash 2 cards in hand
discardCard(choice2, currentPlayer, state, 1);
discardCard(choice3, currentPlayer, state, 1);
}
//discard card from hand
discardCard(handPos, currentPlayer, state, 0);
return 0;
case tribute:
if ((state->discardCount[nextPlayer] + state->deckCount[nextPlayer]) <= 1){
if (state->deckCount[nextPlayer] > 0){
tributeRevealedCards[0] = state->deck[nextPlayer][state->deckCount[nextPlayer]-1];
state->deckCount[nextPlayer]--;
}
else if (state->discardCount[nextPlayer] > 0){
tributeRevealedCards[0] = state->discard[nextPlayer][state->discardCount[nextPlayer]-1];
state->discardCount[nextPlayer]--;
}
else{
//No Card to Reveal
if (DEBUG){
printf("No cards to reveal\n");
}
}
}
else{
if (state->deckCount[nextPlayer] == 0){
for (i = 0; i < state->discardCount[nextPlayer]; i++){
state->deck[nextPlayer][i] = state->discard[nextPlayer][i];//Move to deck
state->deckCount[nextPlayer]++;
state->discard[nextPlayer][i] = -1;
state->discardCount[nextPlayer]--;
}
shuffle(nextPlayer,state);//Shuffle the deck
}
tributeRevealedCards[0] = state->deck[nextPlayer][state->deckCount[nextPlayer]-1];
state->deck[nextPlayer][state->deckCount[nextPlayer]--] = -1;
state->deckCount[nextPlayer]--;
tributeRevealedCards[1] = state->deck[nextPlayer][state->deckCount[nextPlayer]-1];
state->deck[nextPlayer][state->deckCount[nextPlayer]--] = -1;
state->deckCount[nextPlayer]--;
}
if (tributeRevealedCards[0] == tributeRevealedCards[1]){//If we have a duplicate card, just drop one
state->playedCards[state->playedCardCount] = tributeRevealedCards[1];
state->playedCardCount++;
tributeRevealedCards[1] = -1;
}
for (i = 0; i <= 2; i ++){
if (tributeRevealedCards[i] == copper || tributeRevealedCards[i] == silver || tributeRevealedCards[i] == gold){//Treasure cards
state->coins += 2;
}
else if (tributeRevealedCards[i] == estate || tributeRevealedCards[i] == duchy || tributeRevealedCards[i] == province || tributeRevealedCards[i] == gardens || tributeRevealedCards[i] == great_hall){//Victory Card Found
drawCard(currentPlayer, state);
drawCard(currentPlayer, state);
}
else{//Action Card
state->numActions = state->numActions + 2;
}
}
return 0;
case ambassador:
j = 0; //used to check if player has enough cards to discard
if (choice2 > 2 || choice2 < 0)
{
return -1;
}
if (choice1 == handPos)
{
return -1;
}
for (i = 0; i < state->handCount[currentPlayer]; i++)
{
if (i != handPos && i == state->hand[currentPlayer][choice1] && i != choice1)
{
j++;
}
}
if (j < choice2)
{
return -1;
}
if (DEBUG)
printf("Player %d reveals card number: %d\n", currentPlayer, state->hand[currentPlayer][choice1]);
//increase supply count for choosen card by amount being discarded
state->supplyCount[state->hand[currentPlayer][choice1]] += choice2;
//each other player gains a copy of revealed card
for (i = 0; i < state->numPlayers; i++)
{
if (i != currentPlayer)
{
gainCard(state->hand[currentPlayer][choice1], state, 0, i);
}
}
//discard played card from hand
discardCard(handPos, currentPlayer, state, 0);
//trash copies of cards returned to supply
for (j = 0; j < choice2; j++)
{
for (i = 0; i < state->handCount[currentPlayer]; i++)
{
if (state->hand[currentPlayer][i] == state->hand[currentPlayer][choice1])
{
discardCard(i, currentPlayer, state, 1);
break;
}
}
}
return 0;
case cutpurse:
updateCoins(currentPlayer, state, 2);
for (i = 0; i < state->numPlayers; i++)
{
if (i != currentPlayer)
{
for (j = 0; j < state->handCount[i]; j++)
{
if (state->hand[i][j] == copper)
{
discardCard(j, i, state, 0);
break;
}
if (j == state->handCount[i])
{
for (k = 0; k < state->handCount[i]; k++)
{
if (DEBUG)
printf("Player %d reveals card number %d\n", i, state->hand[i][k]);
}
break;
}
}
}
}
//discard played card from hand
discardCard(handPos, currentPlayer, state, 0);
return 0;
case embargo:
//+2 Coins
state->coins = state->coins + 2;
//see if selected pile is in play
if ( state->supplyCount[choice1] == -1 )
{
return -1;
}
//add embargo token to selected supply pile
state->embargoTokens[choice1]++;
//trash card
discardCard(handPos, currentPlayer, state, 1);
return 0;
case outpost:
//set outpost flag
state->outpostPlayed++;
//discard card
discardCard(handPos, currentPlayer, state, 0);
return 0;
case salvager:
//+1 buy
state->numBuys++;
if (choice1)
{
//gain coins equal to trashed card
state->coins = state->coins + getCost( handCard(choice1, state) );
//trash card
discardCard(choice1, currentPlayer, state, 1);
}
//discard card
discardCard(handPos, currentPlayer, state, 0);
return 0;
case sea_hag:
for (i = 0; i < state->numPlayers; i++){
if (i != currentPlayer){
state->discard[i][state->discardCount[i]] = state->deck[i][state->deckCount[i]-1];
state->discardCount[i]++;
state->deck[i][state->deckCount[i]-1] = curse;//Top card now a curse
}
}
return 0;
case treasure_map:
//search hand for another treasure_map
index = -1;
for (i = 0; i < state->handCount[currentPlayer]; i++)
{
if (state->hand[currentPlayer][i] == treasure_map && i != handPos)
{
index = i;
break;
}
}
if (index > -1)
{
//trash both treasure cards
discardCard(handPos, currentPlayer, state, 1);
discardCard(index, currentPlayer, state, 1);
//gain 4 Gold cards
for (i = 0; i < 4; i++)
{
gainCard(gold, state, 1, currentPlayer);
}
//return success
return 1;
}
//no second treasure_map found in hand
return -1;
}
return -1;
}
int cardEffect(int card, int choice1, int choice2, int choice3, struct gameState *state, int handPos, int *bonus)
{
int currentPlayer = whoseTurn(state);
int nextPlayer = currentPlayer + 1;
int tributeRevealedCards[2] = {-1, -1};
int temphand[MAX_HAND];// moved above the if statement
int drawntreasure=0;
int cardDrawn;
int z = 0;// this is the counter for the temp hand
if (nextPlayer > (state->numPlayers - 1))
{
nextPlayer = 0;
}
switch( card )
{
case adventurer:
return adventurerCard(&drawntreasure, state, &cardDrawn, ¤tPlayer, temphand, &z);
case council_room:
return council_roomCard(¤tPlayer, state, &handPos);
case feast:
return feastCard(state, temphand, ¤tPlayer, &choice1);
case gardens:
return -1;
case mine:
return mineCard(state, ¤tPlayer, &choice1, &choice2, &handPos);
case remodel:
return remodelCard(state, ¤tPlayer, &choice1, &choice2, &handPos);
case smithy:
return smithyCard(state, ¤tPlayer, &handPos);
case village:
return villageCard(state, ¤tPlayer, &handPos);
case baron:
return baronCard(state, ¤tPlayer, &choice1);
case great_hall:
return great_hallCard(state, ¤tPlayer, &handPos);
case minion:
return minionCard(state, ¤tPlayer, &handPos, &choice1, &choice2);
case steward:
return stewardCard(state, ¤tPlayer, &handPos, &choice1, &choice2, &choice3);
case tribute:
return tributeCard(state, ¤tPlayer, &handPos, &nextPlayer, tributeRevealedCards);
case ambassador:
return ambassadorCard(state, ¤tPlayer, &handPos, &choice1, &choice2);
case cutpurse:
return cutpurseCard(state, ¤tPlayer, &handPos);
case embargo:
return embargoCard(state, ¤tPlayer, &handPos, &choice1);
case outpost:
return outpostCard(state, ¤tPlayer, &handPos);
case salvager:
return salvagerCard(state, ¤tPlayer, &handPos, &choice1);
case sea_hag:
return sea_hagCard(state, ¤tPlayer);
case treasure_map:
return treasure_mapCard(state, ¤tPlayer, &handPos);
}
return -1;
}
