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count moves + change a bit the display

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Gwenhael Le Moine 2011-07-01 17:31:01 +02:00
parent b25a90e024
commit 9c50fdb739
1 changed files with 139 additions and 144 deletions
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283
star.c
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@ -4,142 +4,6 @@
#include <ncurses.h>
/* levels have fixed, hardcoded dimensions */
#define LEVEL_HEIGHT 9
#define LEVEL_WIDTH 16
enum {
color_BALL = 1,
color_CUBE,
color_VOID,
color_GIFT,
color_WALL,
color_BALL_SELECTED,
color_CUBE_SELECTED,
};
typedef enum {
WALL ='#',
BALL ='@',
CUBE ='H',
VOID =' ',
GIFT ='x'
} cell;
typedef enum {
UP ='u',
DOWN ='d',
LEFT ='l',
RIGHT ='r'
} direction;
struct state {
char level[ LEVEL_HEIGHT * LEVEL_WIDTH ];
char moving;
int moves;
};
int count_gifts( struct state *s )
{
int i, n = 0;
for( i = 0 ; i < LEVEL_HEIGHT * LEVEL_WIDTH ; i++ ) {
if ( s->level[ i ] == GIFT ) {
n++;
}
}
return n;
}
void get_pos( struct state *s, int* pos )
{
int p;
p = (int)( strchr( s->level, s->moving ) - s->level );
pos[ 1 ] = p / LEVEL_WIDTH;
pos[ 0 ] = p - ( pos[ 1 ] * LEVEL_WIDTH );
}
char get_cell( struct state *s, int x, int y )
{
return s->level[ y * LEVEL_WIDTH + x ];
}
void set_cell( struct state *s, int x, int y, cell value )
{
s->level[ y * LEVEL_WIDTH + x ] = value;
}
void load_level( struct state *s, char* lvl )
{
strncpy( s->level, lvl, LEVEL_HEIGHT * LEVEL_WIDTH );
s->moving = BALL;
s->moves = 0;
}
void switch_actor( struct state *s )
{
s->moving = (s->moving == BALL) ? CUBE : BALL;
}
int won_or_not( struct state *s )
{
return( count_gifts( s ) == 0 );
}
void make_a_move( struct state *s, direction where )
{
int dx = 0, dy = 0, tmpx, tmpy, *item_coord;
item_coord = malloc( sizeof( int ) * 2 );
get_pos( s, item_coord );
tmpx = item_coord[ 0 ];
tmpy = item_coord[ 1 ];
switch( where ) {
case UP:
dy--;
break;
case DOWN:
dy++;
break;
case LEFT:
dx--;
break;
case RIGHT:
dx++;
break;
default: break;
}
/* Calculating arrival coordinates */
while ( /* Hairy conditions ahead */
/* target cell is within level's boundaries */
( ( tmpx + dx >= 0 ) && ( tmpx + dx < LEVEL_WIDTH ) ) &&
( ( tmpy + dy >= 0 ) && ( tmpy + dy < LEVEL_HEIGHT ) ) &&
/* and target cell is empty */
( get_cell( s, tmpx + dx, tmpy + dy ) == VOID )
/* or, in case the ball is moving, target cell can be a gift (which we'll eat) */
|| ( s->moving == BALL && ( get_cell( s, tmpx + dx, tmpy + dy ) == GIFT ) )
)
{
tmpx += dx;
tmpy += dy;
if ( s->moving == BALL && get_cell( s, tmpx, tmpy ) == GIFT ) {
set_cell( s, tmpx, tmpy, VOID );
}
}
/* Moving to arrival coordinates */
set_cell( s, item_coord[ 0 ], item_coord[ 1 ], VOID );
set_cell( s, tmpx, tmpy, s->moving );
free( item_coord );
}
/* below for testing, my kind-of/sort-of unti-testing */
/* so if I declare level as cell* levels[] I get a warning :/ */
char *levels[] = { "################"
"#@## x#H#"
"# x ###"
@ -390,18 +254,145 @@ char *levels[] = { "################"
"################"
" " };
/* levels have fixed, hardcoded dimensions */
#define LEVEL_HEIGHT 9
#define LEVEL_WIDTH 16
enum {
color_BALL = 1,
color_CUBE,
color_VOID,
color_GIFT,
color_WALL,
color_BALL_SELECTED,
color_CUBE_SELECTED,
};
typedef enum {
WALL ='#',
BALL ='@',
CUBE ='H',
VOID =' ',
GIFT ='x'
} cell;
typedef enum {
UP ='u',
DOWN ='d',
LEFT ='l',
RIGHT ='r'
} direction;
struct state {
char level[ LEVEL_HEIGHT * LEVEL_WIDTH ];
char moving;
int moves;
};
int count_gifts( struct state *s )
{
int i, n = 0;
for( i = 0 ; i < LEVEL_HEIGHT * LEVEL_WIDTH ; i++ ) {
if ( s->level[ i ] == GIFT ) {
n++;
}
}
return n;
}
void get_pos( struct state *s, int* pos )
{
int p;
p = (int)( strchr( s->level, s->moving ) - s->level );
pos[ 1 ] = p / LEVEL_WIDTH;
pos[ 0 ] = p - ( pos[ 1 ] * LEVEL_WIDTH );
}
char get_cell( struct state *s, int x, int y )
{
return s->level[ y * LEVEL_WIDTH + x ];
}
void set_cell( struct state *s, int x, int y, cell value )
{
s->level[ y * LEVEL_WIDTH + x ] = value;
}
void load_level( struct state *s, char* lvl )
{
strncpy( s->level, lvl, LEVEL_HEIGHT * LEVEL_WIDTH );
s->moving = BALL;
s->moves = 0;
}
void switch_actor( struct state *s )
{
s->moving = (s->moving == BALL) ? CUBE : BALL;
}
int won_or_not( struct state *s )
{
return( count_gifts( s ) == 0 );
}
void make_a_move( struct state *s, direction where )
{
int dx = 0, dy = 0, tmpx, tmpy, *item_coord;
item_coord = malloc( sizeof( int ) * 2 );
get_pos( s, item_coord );
tmpx = item_coord[ 0 ];
tmpy = item_coord[ 1 ];
switch( where ) {
case UP:
dy--;
break;
case DOWN:
dy++;
break;
case LEFT:
dx--;
break;
case RIGHT:
dx++;
break;
default: break;
}
/* Calculating arrival coordinates */
while ( /* Hairy conditions ahead */
/* target cell is within level's boundaries */
( ( tmpx + dx >= 0 ) && ( tmpx + dx < LEVEL_WIDTH ) ) &&
( ( tmpy + dy >= 0 ) && ( tmpy + dy < LEVEL_HEIGHT ) ) &&
/* and target cell is empty */
( get_cell( s, tmpx + dx, tmpy + dy ) == VOID )
/* or, in case the ball is moving, target cell can be a gift (which we'll eat) */
|| ( s->moving == BALL && ( get_cell( s, tmpx + dx, tmpy + dy ) == GIFT ) )
)
{
tmpx += dx;
tmpy += dy;
if ( s->moving == BALL && get_cell( s, tmpx, tmpy ) == GIFT ) {
set_cell( s, tmpx, tmpy, VOID );
}
}
/* Moving to arrival coordinates */
set_cell( s, item_coord[ 0 ], item_coord[ 1 ], VOID );
set_cell( s, tmpx, tmpy, s->moving );
s->moves++;
free( item_coord );
}
void display_level( struct state *s )
{
int i, j, *ball, *cube;
mvprintw( 0, 0, "%i gifts left, ", count_gifts( s ) );
if ( won_or_not( s ) ) {
mvprintw( 0, 17, "You WON !\n");
}
else {
mvprintw( 0, 17, "go on.\n");
}
for( i = 0 ; i < LEVEL_HEIGHT ; i++ ) {
for( j = 0 ; j < LEVEL_WIDTH ; j++ ) {
switch( get_cell( s, j, i ) ) {
@ -454,6 +445,10 @@ void display_level( struct state *s )
}
}
}
mvprintw( 1, 35, "%i gifts left", count_gifts( s ) );
mvprintw( 2, 35, "%i moves made", s->moves );
refresh();
}