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[/] [connect-6/] [trunk/] [XILINX/] [BUILD_SCC_SRCH/] [synth_src/] [main.cpp] - Rev 18
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/* main.cpp June 9,2011 Software connect6 AI program. Have your board polling for its colour before starting this program. commandline option: -port <serialport> Ex: "./connect6 -port /dev/ttyUSB0" By: Kevin Nam */ #include <iostream> #include <stdlib.h> #include <stdio.h> #include <string.h> #include <unistd.h> #include <fcntl.h> #include <errno.h> #include <termios.h> #include <sys/time.h> #include "util.h" #include "connect6.h" #include "connect6_synth.h" #ifndef EMUL #include "pico.h" #endif #include "shared.h" // The AI has as much time as it wants, but moves after 1 second. Default is to wait 2 seconds #define AI_WAIT_TIME 0.1 // FPGA has 1 second to make its move #define MOVE_TIME_LIMIT 0.1 using namespace std; extern "C" int main(int argc, char **argv); // commandline option: -port <serialport> int main(int argc, char **argv){ //for verification two runs and a reference board int i,j,k; char ref_board[19][19] = {{ 0 }}; char board[19][19] = {{ 0 }}; char move[4]; char moveport[8]={0}; char moveportout[8]={0}; int movecount=0; int y,x; char winning_colour; #ifdef EMUL // Get the serial port int port = select_com_port(argc,argv); #endif // Get software AI's colour char AI_colour = select_AI_colour(argc,argv); char FPGA_colour; #ifndef EMUL int id = PICO_initialize_PPA(connect6ai_synth); #endif // Take care of the first few moves (including sending the colour) if (AI_colour == 'D'){ FPGA_colour = 'L'; #ifdef EMUL write(port, "L",1); #endif wait(AI_WAIT_TIME); // AI makes a move connect6ai(board,AI_colour,move); movecount++; cout<<"AI MOVE: "<<move[0]<<move[1]<<move[2]<<move[3]<<endl; #ifdef EMUL write(port,&move[0],1); write(port,&move[1],1); write(port,&move[2],1); write(port,&move[3],1); #endif print_board(board); print_board_file(board); moveport[0]=move[0]; moveport[1]=move[1]; moveport[2]=move[2]; moveport[3]=move[3]; moveport[4]=0; moveport[5]=0; moveport[6]=0; moveport[7]=0; } else { FPGA_colour = 'D'; #ifdef EMUL write(port, "D",1); #endif wait(MOVE_TIME_LIMIT); move[0] = 0; move[1] = 0; move[2] = 0; move[3] = 0; ////////// Get Opponent's move #ifdef EMUL read(port,&move[0],1); read(port,&move[1],1); read(port,&move[2],1); read(port,&move[3],1); #endif // FPGA makes a move connect6ai_synth(movecount,moveport,FPGA_colour,moveportout); movecount++; #ifndef EMUL move[0]=moveportout[0];move[1]=moveportout[1];move[2]=moveportout[2];move[3]=moveportout[3]; //connect6ai_golden(board,FPGA_colour,move); #endif if (move[0] == 0 || move[1] == 0 || move[2] == 0 || move[3] == 0){ cout<<"FPGA has not completed a move in 1 second. Exiting."<<endl; return 0; } cout<<"FPGA MOVE: "<<move[0]<<move[1]<<move[2]<<move[3]<<endl; y = char_to_int(move[0])*10 + char_to_int(move[1]) - 1; x = char_to_int(move[2])*10 + char_to_int(move[3]) - 1; if (check_move_validity(board,y,x) < 0) return 0; board[y][x] = FPGA_colour; print_board(board); print_board_file(board); wait(AI_WAIT_TIME); // AI makes a move connect6ai(board,AI_colour,move); movecount++; cout<<"AI MOVE: "<<move[0]<<move[1]<<move[2]<<move[3]<<endl; #ifdef EMUL write(port,&move[0],1); write(port,&move[1],1); write(port,&move[2],1); write(port,&move[3],1); #endif moveport[0]=move[0]; moveport[1]=move[1]; moveport[2]=move[2]; moveport[3]=move[3]; // AI makes a move connect6ai(board,AI_colour,move); movecount++; cout<<"AI MOVE: "<<move[0]<<move[1]<<move[2]<<move[3]<<endl; #ifdef EMUL write(port,&move[0],1); write(port,&move[1],1); write(port,&move[2],1); write(port,&move[3],1); #endif moveport[4]=move[0]; moveport[5]=move[1]; moveport[6]=move[2]; moveport[7]=move[3]; print_board_file(board); } // Alternate between receiving and sending moves while(1){ wait(MOVE_TIME_LIMIT); // Get Opponent's move move[0] = 0; move[1] = 0; move[2] = 0; move[3] = 0; #ifdef EMUL read(port,&move[0],1); read(port,&move[1],1); read(port,&move[2],1); read(port,&move[3],1); #endif connect6ai_synth(movecount,moveport,FPGA_colour,moveportout); movecount++; #ifndef EMUL move[0]=moveportout[0];move[1]=moveportout[1];move[2]=moveportout[2];move[3]=moveportout[3]; #endif //connect6ai_golden(board,FPGA_colour,move); cout<<"FPGA MOVE: "<<move[0]<<move[1]<<move[2]<<move[3]<<endl; if (move[0] == 0 || move[1] == 0 || move[2] == 0 || move[3] == 0){ cout<<"FPGA has not completed a move in 1 second. Exiting."<<endl; break; } y = char_to_int(move[0])*10 + char_to_int(move[1]) - 1; x = char_to_int(move[2])*10 + char_to_int(move[3]) - 1; if (check_move_validity(board,y,x) < 0) break; board[y][x] = FPGA_colour; winning_colour = check_for_win(board); if (winning_colour == AI_colour){ cout<<"AI has won!" << movecount << " moves " << "Exiting."<<endl; break; } else if (winning_colour == FPGA_colour){ cout<<"FPGA has won! " << movecount << " moves " << "Exiting."<<endl; break; } if (check_board_full(board) < 0){ cout << "TIE " << movecount << " moves " << "Exiting."<<endl; break; } // Get Opponent's move move[0] = 0; move[1] = 0; move[2] = 0; move[3] = 0; #ifdef EMUL read(port,&move[0],1); read(port,&move[1],1); read(port,&move[2],1); read(port,&move[3],1); #endif ////connect6ai_synth(board,FPGA_colour,move); movecount++; #ifndef EMUL move[0]=moveportout[4];move[1]=moveportout[5];move[2]=moveportout[6];move[3]=moveportout[7]; #endif //connect6ai_golden(board,FPGA_colour,move); cout<<"FPGA MOVE: "<<move[0]<<move[1]<<move[2]<<move[3]<<endl; if (move[0] == 0 || move[1] == 0 || move[2] == 0 || move[3] == 0){ cout<<"FPGA has not completed a move in 1 second. Exiting."<<endl; break; } y = char_to_int(move[0])*10 + char_to_int(move[1]) - 1; x = char_to_int(move[2])*10 + char_to_int(move[3]) - 1; if (check_move_validity(board,y,x) < 0) break; board[y][x] = FPGA_colour; winning_colour = check_for_win(board); if (winning_colour == AI_colour){ cout<<"AI has won! " << movecount << " moves " << "Exiting."<<endl; break; } else if (winning_colour == FPGA_colour){ cout<<"FPGA has won! " << movecount << " moves " << "Exiting."<<endl; break; } if (check_board_full(board) < 0) { cout << "TIE " << movecount << " moves " << "Exiting."<<endl; break; } print_board(board); print_board_file(board); wait(AI_WAIT_TIME); // AI makes a move connect6ai(board,AI_colour,move); movecount++; cout<<"AI MOVE: "<<move[0]<<move[1]<<move[2]<<move[3]<<endl; //if(movecount >=20) return 0 ; //reducing length of simulation winning_colour = check_for_win(board); if (winning_colour == AI_colour){ cout<<"AI has won! " << movecount << " moves " << "Exiting."<<endl; break; } else if (winning_colour == FPGA_colour){ cout<<"FPGA has won! " << movecount << " moves " << "Exiting."<<endl; break; } if (check_board_full(board) < 0){ cout << "TIE " << movecount << " moves " << "Exiting."<<endl; break; } #ifdef EMUL write(port,&move[0],1); write(port,&move[1],1); write(port,&move[2],1); write(port,&move[3],1); #endif moveport[0]=move[0]; moveport[1]=move[1]; moveport[2]=move[2]; moveport[3]=move[3]; // AI makes a move connect6ai(board,AI_colour,move); movecount++; cout<<"AI MOVE: "<<move[0]<<move[1]<<move[2]<<move[3]<<endl; winning_colour = check_for_win(board); if (winning_colour == AI_colour){ cout<<"AI has won! " << movecount << " moves " << "Exiting."<<endl; break; } else if (winning_colour == FPGA_colour){ cout<<"FPGA has won! " << movecount << " moves " << "Exiting."<<endl; break; } if (check_board_full(board) < 0) { cout << "TIE " << movecount << " moves " << "Exiting."<<endl; break; } #ifdef EMUL write(port,&move[0],1); write(port,&move[1],1); write(port,&move[2],1); write(port,&move[3],1); #endif moveport[4]=move[0]; moveport[5]=move[1]; moveport[6]=move[2]; moveport[7]=move[3]; print_board(board); print_board_file(board); } #ifndef EMUL PICO_finalize_PPA(id); #endif return 0; }