Greed
This task is about making a clone of the game "GREED" by Matthew Day.
This game is played on a grid of 79 column by 22 rows of random numbers from 1 to 9. The player location is signified by the '@' symbol.
The object of Greed is to erase as much of the screen as possible by moving around (all 8 directions are allowed) in this grid. When you move in a direction, you erase N number of grid squares in that direction, N being the first number in that direction. Your score reflects the total number of squares eaten.
You may not make a move that places you off the grid or over a previously eaten square.
The game is over if there is no more valid moves.
C++
Windows console version.
<lang cpp>
- include <windows.h>
- include <iostream>
- include <ctime>
const int WID = 79, HEI = 22; const float NCOUNT = ( float )( WID * HEI );
class coord : public COORD { public:
coord( short x = 0, short y = 0 ) { set( x, y ); } void set( short x, short y ) { X = x; Y = y; }
}; class winConsole { public:
static winConsole* getInstamnce() { if( 0 == inst ) { inst = new winConsole(); } return inst; } void showCursor( bool s ) { CONSOLE_CURSOR_INFO ci = { 1, s }; SetConsoleCursorInfo( conOut, &ci ); } void setColor( WORD clr ) { SetConsoleTextAttribute( conOut, clr ); } void setCursor( coord p ) { SetConsoleCursorPosition( conOut, p ); } void flush() { FlushConsoleInputBuffer( conIn ); } void kill() { delete inst; }
private:
winConsole() { conOut = GetStdHandle( STD_OUTPUT_HANDLE ); conIn = GetStdHandle( STD_INPUT_HANDLE ); showCursor( false ); } static winConsole* inst; HANDLE conOut, conIn;
}; class greed { public:
greed() { console = winConsole::getInstamnce(); } ~greed() { console->kill(); } void play() { char g; do { console->showCursor( false ); createBoard(); do { displayBoard(); getInput(); } while( existsMoves() ); displayBoard(); console->setCursor( coord( 0, 24 ) ); console->setColor( 0x07 ); console->setCursor( coord( 19, 8 ) ); std::cout << "+----------------------------------------+"; console->setCursor( coord( 19, 9 ) ); std::cout << "| GAME OVER |"; console->setCursor( coord( 19, 10 ) ); std::cout << "| PLAY AGAIN(Y/N)? |"; console->setCursor( coord( 19, 11 ) ); std::cout << "+----------------------------------------+"; console->setCursor( coord( 48, 10 ) ); console->showCursor( true ); console->flush(); std::cin >> g; } while( g == 'Y' || g == 'y' ); }
private:
void createBoard() { for( int y = 0; y < HEI; y++ ) { for( int x = 0; x < WID; x++ ) { brd[x + WID * y] = rand() % 9 + 1; } } cursor.set( rand() % WID, rand() % HEI ); brd[cursor.X + WID * cursor.Y] = 0; score = 0; printScore(); } void displayBoard() { console->setCursor( coord() ); int i;
for( int y = 0; y < HEI; y++ ) {
for( int x = 0; x < WID; x++ ) { i = brd[x + WID * y]; console->setColor( 6 + i ); if( !i ) std::cout << " "; else std::cout << i; } std::cout << "\n"; } console->setColor( 15 ); console->setCursor( cursor ); std::cout << "@"; } void getInput() { while( 1 ) { if( ( GetAsyncKeyState( 'Q' ) & 0x8000 ) && cursor.X > 0 && cursor.Y > 0 ) { execute( -1, -1 ); break; } if( ( GetAsyncKeyState( 'W' ) & 0x8000 ) && cursor.Y > 0 ) { execute( 0, -1 ); break; } if( ( GetAsyncKeyState( 'E' ) & 0x8000 ) && cursor.X < WID - 1 && cursor.Y > 0 ) { execute( 1, -1 ); break; } if( ( GetAsyncKeyState( 'A' ) & 0x8000 ) && cursor.X > 0 ) { execute( -1, 0 ); break; } if( ( GetAsyncKeyState( 'D' ) & 0x8000 ) && cursor.X < WID - 1 ) { execute( 1, 0 ); break; } if( ( GetAsyncKeyState( 'Y' ) & 0x8000 ) && cursor.X > 0 && cursor.Y < HEI - 1 ) { execute( -1, 1 ); break; } if( ( GetAsyncKeyState( 'X' ) & 0x8000 ) && cursor.Y < HEI - 1 ) { execute( 0, 1 ); break; } if( ( GetAsyncKeyState( 'C' ) & 0x8000 ) && cursor.X < WID - 1 && cursor.Y < HEI - 1 ) { execute( 1, 1 ); break; } } console->flush(); printScore(); } void printScore() { console->setCursor( coord( 0, 24 ) ); console->setColor( 0x2a ); std::cout << " SCORE: " << score << " : " << score * 100.f / NCOUNT << "% "; } void execute( int x, int y ) { int i = brd[cursor.X + x + WID * ( cursor.Y + y )]; if( countSteps( i, x, y ) ) { score += i; while( i ) { --i; cursor.X += x; cursor.Y += y; brd[cursor.X + WID * cursor.Y] = 0; } } } bool countSteps( int i, int x, int y ) { coord t( cursor.X, cursor.Y ); while( i ) { --i; t.X += x; t.Y += y; if( t.X < 0 || t.Y < 0 || t.X >= WID || t.Y >= HEI || !brd[t.X + WID * t.Y] ) return false; } return true; } bool existsMoves() { int i; for( int y = -1; y < 2; y++ ) { for( int x = -1; x < 2; x++ ) { if( !x && !y ) continue; i = brd[cursor.X + x + WID * ( cursor.Y + y )]; if( i > 0 && countSteps( i, x, y ) ) return true; } } return false; } winConsole* console; int brd[WID * HEI]; float score; coord cursor;
}; winConsole* winConsole::inst = 0; int main( int argc, char* argv[] ) {
srand( ( unsigned )time( 0 ) ); SetConsoleTitle( "Greed" ); greed g; g.play(); return 0;
} </lang>