User& Battle::OnUserAdded( User& user )
{
user = IBattle::OnUserAdded( user );
if ( &user == &GetMe() )
{
m_timer = new wxTimer(this,TIMER_ID);
m_timer->Start( TIMER_INTERVAL );
}
user.SetBattle( this );
user.BattleStatus().isfromdemo = false;
if ( IsFounderMe() )
{
if ( CheckBan( user ) ) return user;
if ( ( &user != &GetMe() ) && !user.BattleStatus().IsBot() && ( m_opts.rankneeded > UserStatus::RANK_1 ) && ( user.GetStatus().rank < m_opts.rankneeded ))
{
DoAction( _T("Rank limit autospec: ") + user.GetNick() );
ForceSpectator( user, true );
}
m_ah.OnUserAdded( user );
if ( !user.BattleStatus().IsBot() && sett().GetBattleLastAutoAnnounceDescription() ) DoAction( m_opts.description );
}
// any code here may be skipped if the user was autokicked
return user;
}
void AddBan(NETADDR *pAddr, const char *pReason)
{
CBan *pBan = CheckBan(pAddr);
if(pBan)
{
dbg_msg("banmaster", "updated ban: %d.%d.%d.%d \'%s\' -> \'%s\'",
pAddr->ip[0], pAddr->ip[1], pAddr->ip[2], pAddr->ip[3], pBan->m_aReason, pReason);
str_copy(pBan->m_aReason, pReason, sizeof(m_aBans[m_NumBans].m_aReason));
pBan->m_Expire = -1;
}
else
{
if(m_NumBans == MAX_BANS)
{
dbg_msg("banmaster", "error: banmaster is full");
return;
}
m_aBans[m_NumBans].m_Address = *pAddr;
str_copy(m_aBans[m_NumBans].m_aReason, pReason, sizeof(m_aBans[m_NumBans].m_aReason));
m_aBans[m_NumBans].m_Expire = -1;
dbg_msg("banmaster", "added ban: %d.%d.%d.%d \'%s\'",
pAddr->ip[0], pAddr->ip[1], pAddr->ip[2], pAddr->ip[3], m_aBans[m_NumBans].m_aReason);
m_NumBans++;
}
}
int SendResponse(NETADDR *pAddr, NETADDR *pCheck)
{
static char aIpBan[sizeof(BANMASTER_IPBAN) + 32 + 256] = { 0 };
static char *pIpBanContent = aIpBan + sizeof(BANMASTER_IPBAN);
if (!aIpBan[0])
mem_copy(aIpBan, BANMASTER_IPBAN, sizeof(BANMASTER_IPBAN));
static CNetChunk p;
p.m_ClientID = -1;
p.m_Address = *pAddr;
p.m_Flags = NETSENDFLAG_CONNLESS;
CBan* pBan = CheckBan(pCheck);
if(pBan)
{
str_format(pIpBanContent, 32, "%d.%d.%d.%d", pCheck->ip[0], pCheck->ip[1], pCheck->ip[2], pCheck->ip[3]);
char *pIpBanReason = pIpBanContent + (str_length(pIpBanContent) + 1);
str_copy(pIpBanReason, pBan->m_aReason, 256);
p.m_pData = aIpBan;
p.m_DataSize = sizeof(BANMASTER_IPBAN) + str_length(pIpBanContent) + 1 + str_length(pIpBanReason) + 1;
m_Net.Send(&p);
return 1;
}
else
{
p.m_DataSize = sizeof(BANMASTER_IPOK);
p.m_pData = BANMASTER_IPOK;
m_Net.Send(&p);
return 0;
}
}
void ChatHandleJoin(char *user, uint32_t flags, uint32_t ping,
char *text, int joined, int index) {
char tmpclient[8], ts[16];
unsigned int tick;
LPCHUSER tmpUser;
tmpUser = HtGetItem(user, users, TL_BNUSERS);
if (!joined) {
gstate |= GFS_GETTINGUSERS;
if (tmpUser && (tmpUser->iflags & CHUSER_IF_WC3)) {
tmpUser->clan = GetClanFromStatstring(text);
printf("Clan status of %s updated.\n", user);
return;
}
}
tick = gettick();
tmpUser = malloc(sizeof(CHUSER));
tmpUser->flags = flags;
tmpUser->ping = ping;
tmpUser->client = *(uint32_t *)text;
tmpUser->iflags = GetClientIFlags(tmpUser->client);
tmpUser->jointick = tick;
tmpUser->clan = (tmpUser->iflags & CHUSER_IF_WC3) ? GetClanFromStatstring(text) : 0;
strncpy(tmpUser->username, user, sizeof(tmpUser->username));
tmpUser->username[sizeof(tmpUser->username) - 1] = 0;
HtInsertItem(user, tmpUser, users, TL_BNUSERS);
if (joined) {
if ((tick - lastjoin) < floodthresh_tick) {
floodtick++;
if (floodtick >= floodthresh_numticks)
gstate |= GFS_FLOODED;
}
}
lastjoin = tick;
numusers++;
if (joined)
CheckBan(tmpUser, text, index);
if (!(gstate & GFS_FLOODED)) {
*(uint32_t *)tmpclient = tmpUser->client;
tmpclient[4] = 0;
fastswap32((uint32_t *)tmpclient);
if (joined) {
GetTimeStamp(ts);
printf("%s -- %s [%ums] [0x%02x] has joined using %s.\n",
ts, user, ping, flags, tmpclient);
} else {
JoinNeatPrint(user);
if (!strcmp(user, bot[index]->realname))
bot[index]->flags = flags;
}
}
}
int main (void)
{
XGpio dip;
int dip_check;
static XPs2 Ps2Inst;
XPs2_Config *ConfigPtr;
u32 StatusReg;
u32 BytesReceived;
u8 RxBuffer;
int key_count=0;
int i;
status=PVP;
int x_cur=7, y_cur=7, x_pos=0, y_pos=0;
XGpio_Initialize(&dip, XPAR_DIP_SWITCHES_8BITS_DEVICE_ID);
XGpio_SetDataDirection(&dip, 1, 0xffffffff);
ConfigPtr = XPs2_LookupConfig(XPAR_XPS_PS2_0_0_DEVICE_ID);
XPs2_CfgInitialize(&Ps2Inst, ConfigPtr, ConfigPtr->BaseAddress);
XIntc_RegisterHandler(XPAR_XPS_INTC_0_BASEADDR,
XPAR_XPS_INTC_0_XPS_TIMER_0_INTERRUPT_INTR,
(XInterruptHandler) timer_int_handler,
(void *)XPAR_XPS_TIMER_0_BASEADDR);
XIntc_MasterEnable(XPAR_XPS_INTC_0_BASEADDR);
XIntc_EnableIntr(XPAR_XPS_INTC_0_BASEADDR, 0x1);
XTmrCtr_SetLoadReg(XPAR_XPS_TIMER_0_BASEADDR, 0, 333333);
XTmrCtr_SetControlStatusReg(XPAR_XPS_TIMER_0_BASEADDR, 0, XTC_CSR_INT_OCCURED_MASK | XTC_CSR_LOAD_MASK );
XIntc_EnableIntr(XPAR_XPS_TIMER_0_BASEADDR, XPAR_XPS_TIMER_0_INTERRUPT_MASK);
XTmrCtr_SetControlStatusReg(XPAR_XPS_TIMER_0_BASEADDR, 0, XTC_CSR_ENABLE_TMR_MASK | XTC_CSR_ENABLE_INT_MASK |
XTC_CSR_AUTO_RELOAD_MASK | XTC_CSR_DOWN_COUNT_MASK);
microblaze_enable_interrupts();
InitializeGame(x_cur, y_cur);status=PVP;
xil_printf("-- Game Starts! --\r\n");
xil_printf("\r\nHuman Player's turn!\r\n");
int vga_input;
vga_input=(0<<24)+(0<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(1<<24)+(0<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(2<<24)+(0<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(3<<24)+(0<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(4<<24)+(0<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(5<<24)+(0<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(6<<24)+(0<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(7<<24)+(0<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(8<<24)+(0<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(0<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(0<<24)+(17<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(1<<24)+(17<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(2<<24)+(17<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(3<<24)+(17<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(4<<24)+(17<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(5<<24)+(17<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(6<<24)+(17<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(7<<24)+(17<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(8<<24)+(17<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(17<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(0<<24)+(29<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(1<<24)+(29<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(2<<24)+(29<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(3<<24)+(29<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(4<<24)+(29<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(5<<24)+(29<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(6<<24)+(29<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(7<<24)+(29<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(8<<24)+(29<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(29<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(0<<24)+(8<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(1<<24)+(8<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(2<<24)+(8<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(3<<24)+(8<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(4<<24)+(8<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(5<<24)+(8<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(6<<24)+(8<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(7<<24)+(8<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(8<<24)+(8<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(8<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(1<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(2<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(3<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(4<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(5<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(6<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(7<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(8<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(9<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(10<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(11<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(12<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(13<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(14<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(15<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(16<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(17<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(18<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(19<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(20<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(21<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(22<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(23<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(24<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(25<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(26<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(27<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(28<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(29<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
vga_input=(9<<24)+(30<<16)+(1<<8)+3;
VGA_IP_mWriteReg(XPAR_VGA_IP_0_BASEADDR, 0, vga_input);
while (1)
{
if (turn==HUMAN_PLAYER || (turn==COMPUTER_PLAYER && status==PVP)) {
do {
if (turn==COMPUTER_PLAYER && status==PVC)
break;
dip_check=XGpio_DiscreteRead(&dip, 1);
StatusReg = XPs2_GetStatus(&Ps2Inst);
}while((StatusReg & XPS2_STATUS_RX_FULL) == 0);
BytesReceived = XPs2_Recv(&Ps2Inst, &RxBuffer, 1);
key_count=(key_count+1)%3;
if (key_count==0) {
if (RxBuffer==0x21&& win_flag==0) {
DrawNumber(level,3,2,EMPTY);
if(level==1)
level=2;
else
level=1;
if(status==PVC )
DrawNumber(level,3,2,0);
else if(status==CVP)
DrawNumber(level,3,2,1);
else
DrawNumber(level,3,2,EMPTY);
}
if (RxBuffer==0x1D && win_flag==0) {
EraseCursor(x_cur, y_cur);
if (y_cur<=0)
y_cur=14;
else
y_cur--;
DrawChess(x_cur, y_cur, CURSOR);
}
if (RxBuffer==0x1B && win_flag==0) {
EraseCursor(x_cur, y_cur);
if (y_cur>=14)
y_cur=0;
else
y_cur++;
DrawChess(x_cur, y_cur, CURSOR);
}
if (RxBuffer==0x1C && win_flag==0) {
EraseCursor(x_cur, y_cur);
if (x_cur<=0)
x_cur=14;
else
x_cur--;
DrawChess(x_cur, y_cur, CURSOR);
}
if (RxBuffer==0x23 && win_flag==0) {
EraseCursor(x_cur, y_cur);
if (x_cur>=14)
x_cur=0;
else
x_cur++;
DrawChess(x_cur, y_cur, CURSOR);
}
if (RxBuffer==0x5A && win_flag==0) {
DrawBack(3,1119,EMPTY);
if (board_state[x_cur][y_cur]==EMPTY) {
if(status==CVP)
DrawChess(x_cur, y_cur, 1-turn);
else
DrawChess(x_cur, y_cur, turn);
board_state[x_cur][y_cur]=turn;
board_record[BackTimes].x=x_cur;
board_record[BackTimes].y=y_cur;
BackTimes++;
count=0;
time0=0;
if (turn==COMPUTER_PLAYER)
step_flag=1;
if (CheckWin(x_cur,y_cur,turn)==1) {
xil_printf("\r\nHuman Player wins!\r\n");
win_flag=1;
DrawWinning(0, 1, EMPTY);
if(status==CVP)
DrawWinning(0, 1, 1-turn);
else
DrawWinning(0, 1, turn);
}
if (CheckBan(x_cur,y_cur,turn)==1){
xil_printf("\r\nComputer Player wins!\r\n");
win_flag=1;
DrawWinning(0, 1, EMPTY);
if(status==CVP)
DrawWinning(0, 1, turn);
else
DrawWinning(0, 1, 1-turn);
}
else {
if (turn==HUMAN_PLAYER)
turn=COMPUTER_PLAYER;
else
turn=HUMAN_PLAYER;
xil_printf("\r\nComputer Player's turn!\r\n");
}
}
}
if (RxBuffer==0x29 && turn==HUMAN_PLAYER && win_flag==0) {
count=0;time0=0;
if (status==PVP) {
x_cur=7;
y_cur=7;
for (i=0; i<256; i++) {
board_record[i].x=0;
board_record[i].y=0;
}
InitializeGame(x_cur, y_cur);status=PVP;
DrawStatus(1, 21, EMPTY,status);
status=PVC;
DrawNumber(level,3,2,0);
DrawStatus(1, 21, COMPUTER_PLAYER,status);
}
else if(status==PVC) {
x_cur=7;
y_cur=7;
for (i=0; i<256; i++) {
board_record[i].x=0;
board_record[i].y=0;
}
InitializeGame(x_cur, y_cur);status=PVP;
DrawStatus(1, 21, EMPTY,status);
status=CVP;
DrawNumber(level,3,2,1);
DrawStatus(1, 21, COMPUTER_PLAYER,status);
turn=COMPUTER_PLAYER;
}
else if(status==CVP) {
x_cur=7;
y_cur=7;
for (i=0; i<256; i++) {
board_record[i].x=0;
board_record[i].y=0;
}
InitializeGame(x_cur, y_cur);status=PVP;
DrawStatus(1, 21, EMPTY,status);
status=PVP;
DrawStatus(1, 21, COMPUTER_PLAYER,status);
}
}
if (RxBuffer==0x76) {
x_cur=7;
y_cur=7;
for (i=0; i<256; i++) {
board_record[i].x=0;
board_record[i].y=0;
}
InitializeGame(x_cur, y_cur);status=PVP;
}
if (RxBuffer==0x2D) {
if(BackTimes>0){
BackTimes--;
x_cur=board_record[BackTimes].x;
y_cur=board_record[BackTimes].y;
board_state[x_cur][y_cur]=EMPTY;
DrawChess(x_cur,y_cur,EMPTY);
turn=1-turn;
if(status==PVC)
{
BackTimes--;
x_cur=board_record[BackTimes].x;
y_cur=board_record[BackTimes].y;
board_state[x_cur][y_cur]=EMPTY;
DrawChess(x_cur,y_cur,EMPTY);
turn=HUMAN_PLAYER;
}
DrawBack(3,1119,turn);
}
}
}
}
if (turn==COMPUTER_PLAYER && (status==PVC ||status==CVP )&& win_flag==0) {
if (step_flag==0) {
if (x_cur-1<0)
x_pos=x_cur+1;
else
x_pos=x_cur-1;
y_pos=y_cur;
step_flag=1;
}
else {
if(level==2||level==3){
EvaluateComputerMove(board_state, 0, MIN_INFINITY, MAX_INFINITY, 0, 0);
x_pos=maxMoveX;
y_pos=maxMoveY;
xil_printf("\r\n computer \r\n");}
else
{
everyScore(Computer);
current_pos=best(Computer);
x_pos=current_pos.y;
y_pos=current_pos.x;
xil_printf("\r\n computer \r\n");
}
}
xil_printf("\r\n%x, %x\r\n", x_pos, y_pos);
if(status==CVP)
DrawChess(x_pos, y_pos, 1-turn);
else
DrawChess(x_pos, y_pos, turn);
board_state[x_pos][y_pos]=COMPUTER_PLAYER;
board_record[BackTimes].x=x_pos;
board_record[BackTimes].y=y_pos;
BackTimes++;
count=0;
time0=0;
if (CheckWin(x_pos, y_pos, turn)) {
xil_printf("\r\nComputer Player wins!\r\n");
win_flag=1;
DrawWinning(0,1, EMPTY);
if(status==CVP)
DrawWinning(0,1, 1-turn);
else
DrawWinning(0,1, turn);
turn=HUMAN_PLAYER;
}
else {
turn=HUMAN_PLAYER;
xil_printf("\r\nHuman Player's turn!\r\n");
}
}
}
return 0;
}
