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This commit is contained in:
Andrew W
2022-08-28 16:12:16 -05:00
parent 5a2894ed1b
commit 7dabaef6f6
2345 changed files with 1343530 additions and 0 deletions
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16
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M 12 40
########################################
# # # #
# # # #
# # # #
# # ###### ############ ### #
# # # # # #
# # # # # #
# # ###### #### ########## #
# # # #
# # # #
# # # #
########################################
Z 8 10
P 2 10
T 8 15

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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
int main(int argc, char *argv[])
{
printf("Hello, World!\n");
FILE* mazeFile; /* Maze Input File */
char c; /* Holds character for line input from file */
int row; /* Holds number of rows for input from file */
int col; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( !feof(mazeFile) )
{
switch(shold[0])
{
case 'M':
printf ("Maze encountered\n");
fscanf(mazeFile, "%d %d", &row, &col);
break;
default:
printf ("Basic error\n");
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile))
{
break;
}
}
fclose(mazeFile);
printf ("So this line won't print without an argument.\n");
// possible dynamic allocation of 2D array
char* ptr = malloc((row * col) * sizeof(char));
return 0;
}

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#include <ncurses.h>
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
WINDOW *initscr(void);
int start_color(void);
int cbreak(void);
int noecho(void);
int nodelay(WINDOW *win, bool bf);
int keypad(WINDOW *win, bool bf);
int curs_set(int visibility);
/*void getmaxyx(WINDOW *win, int y, int x); */
int init_pair(short pair, short f, short b);
/*int attron(int attrs);
int COLOR_PAIR(int n);
int wmove(WINDOW *win, int y, int x);
nothing*/
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
unsigned int score = 0;
WINDOW* W = 0; /* Curses Window handle */
int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8);
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
W = initscr(); /* Determine terminal type and initialize curses data structures */
start_color(); /* Enable use of color with ncurses */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
noecho(); /* Disable echo printing of chars type by user */
nodelay(W, true); /* Make getch( ) a non-blocking call */
keypad(W, true); /* Enable keypad and arrow keys */
curs_set(0); /* Set cursor to be invisible - 0 */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
init_pair(2, COLOR_GREEN, COLOR_GREEN); /* Red text on Black background */
init_pair(3, COLOR_WHITE, COLOR_WHITE); /* White text on Blue background */
init_pair(4, COLOR_RED, COLOR_RED); /* Yellow text on Yellow background */
init_pair(5, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
attron(COLOR_PAIR(2));
wmove(W, c1,c2);
waddch(W,'#');
attroff(COLOR_PAIR(2));
break;
case ' ':
wmove(W, c1,c2);
waddch(W,' ');
break;
case 'P':
wmove(W, c1,c2);
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
attron(COLOR_PAIR(4));
wmove(W, c1,c2);
waddch(W,'Z');
attroff(COLOR_PAIR(4));
break;
case 'T':
attron(COLOR_PAIR(5));
wmove(W, c1,c2);
waddch(W,'T');
attroff(COLOR_PAIR(5));
break;
default:
break;
};
/*printw("%c", maze[c1][c2]);*/
}
}
deltaRow =0;
deltaCol =0;
do{
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == (int)'a' || kb == (int)'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == (int)'d' || kb == (int)'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == (int)'w' || kb == (int)'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == (int)'s' || kb == (int)'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == (int)'q')
{
/* q to exit player movement loop */
break;
};
attron(COLOR_PAIR(1));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(1));
if(((int)(prow + deltaRow) > row) || ((int)(pcol + deltaCol) > col)){
deltaRow = 0;
deltaCol = 0;
}
if(maze[(int)(prow + deltaRow)][(int)(pcol + deltaCol)] == '#'){
prow = prow;
pcol = pcol;
}
else{
prow = prow + deltaRow;
pcol = pcol + deltaCol;
}
if(maze[prow][pcol] == 'T')
{
maze[prow][pcol] = ' ';
score++;
}
if(maze[prow][pcol] == 'Z')
{
break;
}
attron(COLOR_PAIR(3));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(3));
deltaRow =0;
deltaCol =0;
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
/*printw("\n");*/
endwin();
printf("Score = %u\n", score);
return 0;
}

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#include <ncurses.h>
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
/* LDRA_EXCLUDE RULE VIOLATION <justification start> FALSE POSITIVE -- why <justification end> */
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
unsigned int score = 0;
WINDOW* W = 0; /* Curses Window handle */
int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8); /* */
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- why <justification end> */
W = initscr(); /* Determine terminal type and initialize curses data structures */
start_color(); /* Enable use of color with ncurses */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
noecho(); /* Disable echo printing of chars type by user */
if (W == NULL)
{
return 0;
}
nodelay(W, true); /* Make getch( ) a non-blocking call */
keypad(W, true); /* Enable keypad and arrow keys */
curs_set(0); /* Set cursor to be invisible - 0 */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
init_pair(2, COLOR_GREEN, COLOR_GREEN); /* Red text on Black background */
init_pair(3, COLOR_WHITE, COLOR_WHITE); /* White text on Blue background */
init_pair(4, COLOR_RED, COLOR_RED); /* Yellow text on Yellow background */
init_pair(5, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
attron(COLOR_PAIR(2));
wmove(W, c1,c2);
waddch(W,'#');
attroff(COLOR_PAIR(2));
break;
case ' ':
wmove(W, c1,c2);
waddch(W,' ');
break;
case 'P':
wmove(W, c1,c2);
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
attron(COLOR_PAIR(4));
wmove(W, c1,c2);
waddch(W,'Z');
attroff(COLOR_PAIR(4));
break;
case 'T':
attron(COLOR_PAIR(5));
wmove(W, c1,c2);
waddch(W,'T');
attroff(COLOR_PAIR(5));
break;
default:
break;
};
}
}
deltaRow =0;
deltaCol =0;
do{
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == (int)'a' || kb == (int)'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == (int)'d' || kb == (int)'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == (int)'w' || kb == (int)'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == (int)'s' || kb == (int)'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == (int)'q')
{
/* q to exit player movement loop */
break;
};
attron(COLOR_PAIR(1));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(1));
if(((prow + (unsigned int)deltaRow) > row) || ((pcol + (unsigned int)deltaCol) > col)){
deltaRow = 0;
deltaCol = 0;
}
if(maze[((int)prow + deltaRow)][((int)pcol + deltaCol)] == '#'){
prow = prow;
pcol = pcol;
}
else{
prow = prow + (unsigned int)deltaRow;
pcol = pcol + (unsigned int)deltaCol;
}
if(maze[prow][pcol] == 'T')
{
maze[prow][pcol] = ' ';
score++;
}
if(maze[prow][pcol] == 'Z')
{
break;
}
attron(COLOR_PAIR(3));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(3));
deltaRow =0;
deltaCol =0;
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
/*printw("\n");*/
endwin();
printf("Score = %u\n", score);
return 0;
}

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#include <ncurses.h>
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
extern WINDOW* initscr(void);
extern int start_color(void);
extern int noecho(void);
/* LDRA_EXCLUDE RULE VIOLATION <justification start> FALSE POSITIVE -- why <justification end> */
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
unsigned int score = 0;
WINDOW* W = 0; /* Curses Window handle */
unsigned int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to open the file so must use bad one bc we cannot create one ourselves as we are not wizards <justification end> */
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to get first char from file and we must use bad one as we cannot make one ourselves <justification end> */
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
/* parse maze file,
adding chars to array */
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to scan content from file, have ensured we will not scan extra <justification end> */
fscanf(mazeFile, "%3u %3u", &row, &col);
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to dynamially allocate memory cannot create own as we lack experience <justification end> */
maze = (char**)malloc(row * 8); /* allocate memory for rows of array, 8 reperesents size of char* */
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to dynamially allocate memory cannot create own as we lack experience <justification end> */
maze[i] = malloc(col * 8); /* allocate memory for collumns of array, 8 reperesents size of char* */
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to scan content from file, have ensured we will not scan extra <justification end> */
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to scan content from file, have ensured we will not scan extra <justification end> */
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to scan content from file, have ensured we will not scan extra <justification end> */
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to scan content from file, have ensured we will not scan extra <justification end> */
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to scan content from file, have ensured we will not scan extra <justification end> */
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to scan content from file, have ensured we will not scan extra <justification end> */
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
rowLimit = row;
colLimit = col;
fclose(mazeFile);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
W = initscr(); /* Determine terminal type and initialize curses data structures */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
start_color(); /* Enable use of color with ncurses */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
noecho(); /* Disable echo printing of chars type by user */
if (W == NULL)
{
return 0;
}
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
nodelay(W, true); /* Make getch( ) a non-blocking call */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
keypad(W, true); /* Enable keypad and arrow keys */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
curs_set(0); /* Set cursor to be invisible - 0 */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(2, COLOR_GREEN, COLOR_GREEN); /* Red text on Black background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(3, COLOR_WHITE, COLOR_WHITE); /* White text on Blue background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(4, COLOR_RED, COLOR_RED); /* Yellow text on Yellow background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(5, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
/* parse maze */
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(2));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'#');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(2));
break;
case ' ':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,' ');
break;
case 'P':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(4));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'Z');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(4));
break;
case 'T':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(5));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'T');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(5));
break;
default:
break;
};
}
}
deltaRow = 0;
deltaCol = 0;
do{
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == (int)'a' || kb == (int)'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == (int)'d' || kb == (int)'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == (int)'w' || kb == (int)'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == (int)'s' || kb == (int)'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == (int)'q')
{
/* q to exit player movement loop */
break;
};
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(1));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W,prow,pcol);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W, 'P');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(1));
/* check current player position against maze bounds,
if over the bounds, don't move */
if(((prow + (unsigned int)deltaRow) > row) || ((pcol + (unsigned int)deltaCol) > col)){
deltaRow = 0;
deltaCol = 0;
}
/* check future player position to see if wall;
if it is, stay in the same spot
else move to new postion */
if(maze[((int)prow + deltaRow)][((int)pcol + deltaCol)] == '#'){
prow = prow;
pcol = pcol;
}
else{
prow = prow + (unsigned int)deltaRow;
pcol = pcol + (unsigned int)deltaCol;
}
/* check curremt position for treasure,
make treasure position a space,
and increment score */
if(maze[prow][pcol] == 'T')
{
maze[prow][pcol] = ' ';
score++;
}
/* check curremt position for zombie,
end game */
if(maze[prow][pcol] == 'Z')
{
break;
}
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(3));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W,prow,pcol);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W, 'P');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(3));
deltaRow =0;
deltaCol =0;
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to free allocated memory, cannot create one ourselves bc we are not wizards <justification end> */
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to free allocated memory, cannot create one ourselves bc we are not wizards <justification end> */
free(maze);
}
/*printw("\n");*/
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
endwin();
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to print score for project, so even though not great have to use bad one <justification end> */
printf("Score = %u\n", score);
return 0;
/* LDRA_EXCLUDE 50 D <justification start> FALSE POSITIVE -- Y was statically allocated no need to free it <justification end> */
/* LDRA_EXCLUDE 50 D <justification start> FALSE POSITIVE -- Maze has been freed already valgrind shows no leaks error must have ocurred in analysis <justification end> */
}

8
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@ -0,0 +1,8 @@
CC = gcc
CFLAGS = -g -Wall --pedantic -ansi --coverage
game: game.c
$(CC) $(CFLAGS) game.c -o game -l ncurses
clean:
rm game *.gcda *.gcno *.gcov

126
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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
void readMaze(char *arr);
void readPlayer(char *arr);
void readZombie(char *arr);
void readTreasure(char *arr);
int main(int argc, char *argv[])
{
printf("Hello, World!\n");
FILE* mazeFile; /* Maze Input File */
char c; /* Holds character for line input from file */
int row; /* Holds number of rows for input from file */
int col; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( !feof(mazeFile) )
{
switch(shold[0])
{
case 'M':
printf ("Maze encountered\n");
fscanf(mazeFile, "%d %d", &row, &col);
printf("%d\n", row);
// possible dynamic allocation of 2D array
char* maze = malloc((row * col) * sizeof(char));
readMaze(maze);
break;
case 'P':
//case for player
printf ("Player\n");
fscanf(mazeFile, "%d %d", &row, &col);
printf("%d\n", row);
// possible dynamic allocation of 2D array
char* player = malloc((row * col) * sizeof(char));
readPlayer(player);
break;
case 'Z':
//case for zombie
printf ("Zombie\n");
fscanf(mazeFile, "%d %d", &row, &col);
printf("%d\n", row);
// possible dynamic allocation of 2D array
char* zombie = malloc((row * col) * sizeof(char));
readZombie(zombie);
break;
case 'T':
//case for treasure
printf ("Treasure\n");
fscanf(mazeFile, "%d %d", &row, &col);
printf("%d\n", row);
// possible dynamic allocation of 2D array
char* treasure = malloc((row * col) * sizeof(char));
readTreasure(treasure);
break;
default:
//printf ("Basic error\n");
break;
};
for(int i=0;i<row;i++)
{
for(int j=0;j<col;j++)
{
if(fscanf == #) //if file has #
{
maze[i][j] = #;
}
else
{
maze[i][j] = " ";
}
}
}
fgets(shold, 2, mazeFile);
if (feof(mazeFile))
{
break;
}
}
fclose(mazeFile);
//printf ("So this line won't print without an argument.\n");
//free the memory
free(maze);
return 0;
}
void readMaze(char *arr)
{
}
void readPlayer(char *arr)
{
}
void readZombie(char *arr)
{
}
void readTreasure(char *arr)
{
}

16
CPE455/gameproject/.svn/pristine/29/29dc3e2642b9819724667fefb7e8b4779ae46389.svn-base Normal file
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@ -0,0 +1,16 @@
M 12 40
########################################
# # # #
# # # #
# # # #
# # ###### ############ ### #
# # # # # #
# # # # # #
# # ###### #### ########## #
# # # #
# # # #
# # # #
########################################
T 8 15
Z 8 10
P 2 10

178
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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
#include <ncurses.h>
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
WINDOW* W = 0; /* Curses Window handle */
int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8);
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
W = initscr(); /* Determine terminal type and initialize curses data structures */
start_color(); /* Enable use of color with ncurses */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
noecho(); /* Disable echo printing of chars type by user */
nodelay(W, true); /* Make getch( ) a non-blocking call */
keypad(W, true); /* Enable keypad and arrow keys */
curs_set(0); /* Set cursor to be invisible - 0 */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
wmove(W, c1,c2);
waddch(W,'#');
break;
case ' ':
wmove(W, c1,c2);
waddch(W,' ');
break;
case 'P':
wmove(W, c1,c2);
waddch(W,'P');
break;
case 'Z':
wmove(W, c1,c2);
waddch(W,'Z');
break;
case 'T':
wmove(W, c1,c2);
waddch(W,'T');
break;
default:
break;
};
/*printw("%c", maze[c1][c2]);*/
}
}
do{
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
/*printw("\n");*/
endwin();
return 0;
}

270
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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
#include <ncurses.h>
/*nothing*/
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
WINDOW* W = 0; /* Curses Window handle */
int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8);
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
W = initscr(); /* Determine terminal type and initialize curses data structures */
start_color(); /* Enable use of color with ncurses */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
noecho(); /* Disable echo printing of chars type by user */
nodelay(W, true); /* Make getch( ) a non-blocking call */
keypad(W, true); /* Enable keypad and arrow keys */
curs_set(0); /* Set cursor to be invisible - 0 */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
init_pair(2, COLOR_GREEN, COLOR_GREEN); /* Red text on Black background */
init_pair(3, COLOR_WHITE, COLOR_WHITE); /* White text on Blue background */
init_pair(4, COLOR_RED, COLOR_RED); /* Yellow text on Yellow background */
init_pair(5, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
attron(COLOR_PAIR(2));
wmove(W, c1,c2);
waddch(W,'#');
attroff(COLOR_PAIR(2));
break;
case ' ':
wmove(W, c1,c2);
waddch(W,' ');
break;
case 'P':
wmove(W, c1,c2);
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
attron(COLOR_PAIR(4));
wmove(W, c1,c2);
waddch(W,'Z');
attroff(COLOR_PAIR(4));
break;
case 'T':
attron(COLOR_PAIR(5));
wmove(W, c1,c2);
waddch(W,'T');
attroff(COLOR_PAIR(5));
break;
default:
break;
};
/*printw("%c", maze[c1][c2]);*/
}
}
deltaRow =0;
deltaCol =0;
do{
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == 'a' || kb == 'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == 'd' || kb == 'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == 'w' || kb == 'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == 's' || kb == 'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == 'q')
{
/* q to exit player movement loop */
break;
};
attron(COLOR_PAIR(1));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(1));
if((prow + deltaRow > row) || (pcol + deltaCol > col)){
deltaRow = 0;
deltaCol = 0;
}
if(maze[prow + deltaRow][pcol + deltaCol] == '#'){
prow = prow;
pcol = pcol;
}
else{
prow = prow + deltaRow;
pcol = pcol + deltaCol;
}
attron(COLOR_PAIR(3));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(3));
deltaRow =0;
deltaCol =0;
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
/*printw("\n");*/
endwin();
return 0;
}

13
CPE455/gameproject/.svn/pristine/30/30471c6243b153a1f5bfd38a922e253a783f48e3.svn-base Normal file
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#include <stdio.h>
int main(int argc, char const *argv[])
{
printf("Hello, World!\n");
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
printf ("So this line won't print without an argument.\n");
return 0;
}

279
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@ -0,0 +1,279 @@
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
#include <ncurses.h>
/*nothing*/
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
unsigned int score = 0;
WINDOW* W = 0; /* Curses Window handle */
int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8);
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
W = initscr(); /* Determine terminal type and initialize curses data structures */
start_color(); /* Enable use of color with ncurses */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
noecho(); /* Disable echo printing of chars type by user */
nodelay(W, true); /* Make getch( ) a non-blocking call */
keypad(W, true); /* Enable keypad and arrow keys */
curs_set(0); /* Set cursor to be invisible - 0 */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
init_pair(2, COLOR_GREEN, COLOR_GREEN); /* Red text on Black background */
init_pair(3, COLOR_WHITE, COLOR_WHITE); /* White text on Blue background */
init_pair(4, COLOR_RED, COLOR_RED); /* Yellow text on Yellow background */
init_pair(5, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
attron(COLOR_PAIR(2));
wmove(W, c1,c2);
waddch(W,'#');
attroff(COLOR_PAIR(2));
break;
case ' ':
wmove(W, c1,c2);
waddch(W,' ');
break;
case 'P':
wmove(W, c1,c2);
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
attron(COLOR_PAIR(4));
wmove(W, c1,c2);
waddch(W,'Z');
attroff(COLOR_PAIR(4));
break;
case 'T':
attron(COLOR_PAIR(5));
wmove(W, c1,c2);
waddch(W,'T');
attroff(COLOR_PAIR(5));
break;
default:
break;
};
/*printw("%c", maze[c1][c2]);*/
}
}
deltaRow =0;
deltaCol =0;
do{
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == 'a' || kb == 'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == 'd' || kb == 'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == 'w' || kb == 'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == 's' || kb == 'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == 'q')
{
/* q to exit player movement loop */
break;
};
attron(COLOR_PAIR(1));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(1));
if((prow + deltaRow > row) || (pcol + deltaCol > col)){
deltaRow = 0;
deltaCol = 0;
}
if(maze[prow + deltaRow][pcol + deltaCol] == '#'){
prow = prow;
pcol = pcol;
}
else{
prow = prow + deltaRow;
pcol = pcol + deltaCol;
}
if(maze[prow][pcol] == 'T')
{
maze[prow][pcol] = ' ';
score++;
}
if(maze[prow][pcol] == 'Z')
{
break;
}
attron(COLOR_PAIR(3));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(3));
deltaRow =0;
deltaCol =0;
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
/*printw("\n");*/
endwin();
printf("Score = %u\n", score);
return 0;
}

14
CPE455/gameproject/.svn/pristine/33/335631b7e8b402171b32d068a5c94ea23720f155.svn-base Normal file
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@ -0,0 +1,14 @@
M 12 40
########################################
# # # #
# # # #
# # # #
# # ###### ############ ### #
# # # # # #
# # # # # #
# # ###### #### ########## #
# # # #
# # # #
# # # #
########################################
P 2 10

334
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#include <ncurses.h>
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
extern WINDOW* initscr(void);
extern int start_color(void);
/* LDRA_EXCLUDE RULE VIOLATION <justification start> FALSE POSITIVE -- why <justification end> */
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
unsigned int score = 0;
WINDOW* W = 0; /* Curses Window handle */
unsigned int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8); /* */
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
rowLimit = row;
colLimit = col;
fclose(mazeFile);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
W = initscr(); /* Determine terminal type and initialize curses data structures */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
start_color(); /* Enable use of color with ncurses */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
noecho(); /* Disable echo printing of chars type by user */
if (W == NULL)
{
return 0;
}
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
nodelay(W, true); /* Make getch( ) a non-blocking call */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
keypad(W, true); /* Enable keypad and arrow keys */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
curs_set(0); /* Set cursor to be invisible - 0 */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
init_pair(2, COLOR_GREEN, COLOR_GREEN); /* Red text on Black background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(3, COLOR_WHITE, COLOR_WHITE); /* White text on Blue background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(4, COLOR_RED, COLOR_RED); /* Yellow text on Yellow background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(5, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(2));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'#');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(2));
break;
case ' ':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,' ');
break;
case 'P':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(4));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'Z');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(4));
break;
case 'T':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(5));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'T');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(5));
break;
default:
break;
};
}
}
deltaRow =0;
deltaCol =0;
do{
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == (int)'a' || kb == (int)'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == (int)'d' || kb == (int)'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == (int)'w' || kb == (int)'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == (int)'s' || kb == (int)'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == (int)'q')
{
/* q to exit player movement loop */
break;
};
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(1));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W,prow,pcol);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W, 'P');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(1));
if(((prow + (unsigned int)deltaRow) > row) || ((pcol + (unsigned int)deltaCol) > col)){
deltaRow = 0;
deltaCol = 0;
}
if(maze[((int)prow + deltaRow)][((int)pcol + deltaCol)] == '#'){
prow = prow;
pcol = pcol;
}
else{
prow = prow + (unsigned int)deltaRow;
pcol = pcol + (unsigned int)deltaCol;
}
if(maze[prow][pcol] == 'T')
{
maze[prow][pcol] = ' ';
score++;
}
if(maze[prow][pcol] == 'Z')
{
break;
}
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(3));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W,prow,pcol);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W, 'P');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(3));
deltaRow =0;
deltaCol =0;
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
/*printw("\n");*/
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
endwin();
printf("Score = %u\n", score);
return 0;
}

278
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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
#include <ncurses.h>
/*nothing*/
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
unsigned int score = 0;
WINDOW* W = 0; /* Curses Window handle */
int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8);
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
W = initscr(); /* Determine terminal type and initialize curses data structures */
start_color(); /* Enable use of color with ncurses */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
noecho(); /* Disable echo printing of chars type by user */
nodelay(W, true); /* Make getch( ) a non-blocking call */
keypad(W, true); /* Enable keypad and arrow keys */
curs_set(0); /* Set cursor to be invisible - 0 */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
init_pair(2, COLOR_GREEN, COLOR_GREEN); /* Red text on Black background */
init_pair(3, COLOR_WHITE, COLOR_WHITE); /* White text on Blue background */
init_pair(4, COLOR_RED, COLOR_RED); /* Yellow text on Yellow background */
init_pair(5, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
attron(COLOR_PAIR(2));
wmove(W, c1,c2);
waddch(W,'#');
attroff(COLOR_PAIR(2));
break;
case ' ':
wmove(W, c1,c2);
waddch(W,' ');
break;
case 'P':
wmove(W, c1,c2);
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
attron(COLOR_PAIR(4));
wmove(W, c1,c2);
waddch(W,'Z');
attroff(COLOR_PAIR(4));
break;
case 'T':
attron(COLOR_PAIR(5));
wmove(W, c1,c2);
waddch(W,'T');
attroff(COLOR_PAIR(5));
break;
default:
break;
};
/*printw("%c", maze[c1][c2]);*/
}
}
deltaRow =0;
deltaCol =0;
do{
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == 'a' || kb == 'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == 'd' || kb == 'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == 'w' || kb == 'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == 's' || kb == 'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == 'q')
{
/* q to exit player movement loop */
break;
};
attron(COLOR_PAIR(1));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(1));
if((prow + deltaRow > row) || (pcol + deltaCol > col)){
deltaRow = 0;
deltaCol = 0;
}
if(maze[prow + deltaRow][pcol + deltaCol] == '#'){
prow = prow;
pcol = pcol;
}
else{
prow = prow + deltaRow;
pcol = pcol + deltaCol;
}
if(maze[prow][pcol] == 'T')
{
score++;
}
if(maze[prow][pcol] == 'Z')
{
break;
}
attron(COLOR_PAIR(3));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(3));
deltaRow =0;
deltaCol =0;
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
/*printw("\n");*/
endwin();
return 0;
}

7
CPE455/gameproject/.svn/pristine/3d/3d70931b57d57c6ce5a74eb2a8f5d6e57361de7a.svn-base Normal file
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#include <stdio.h>
int main(int argc, char const *argv[])
{
printf("Hello, World!\n");
return 0;
}

401
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#include <ncurses.h>
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
extern WINDOW* initscr(void);
extern int start_color(void);
extern int noecho(void);
/* LDRA_EXCLUDE RULE VIOLATION <justification start> FALSE POSITIVE -- why <justification end> */
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
unsigned int score = 0;
WINDOW* W = 0; /* Curses Window handle */
unsigned int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8); /* */
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
rowLimit = row;
colLimit = col;
fclose(mazeFile);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
W = initscr(); /* Determine terminal type and initialize curses data structures */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
start_color(); /* Enable use of color with ncurses */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
noecho(); /* Disable echo printing of chars type by user */
if (W == NULL)
{
return 0;
}
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
nodelay(W, true); /* Make getch( ) a non-blocking call */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
keypad(W, true); /* Enable keypad and arrow keys */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
curs_set(0); /* Set cursor to be invisible - 0 */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(2, COLOR_GREEN, COLOR_GREEN); /* Red text on Black background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(3, COLOR_WHITE, COLOR_WHITE); /* White text on Blue background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(4, COLOR_RED, COLOR_RED); /* Yellow text on Yellow background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(5, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(2));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'#');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(2));
break;
case ' ':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,' ');
break;
case 'P':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(4));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'Z');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(4));
break;
case 'T':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(5));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'T');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(5));
break;
default:
break;
};
}
}
deltaRow =0;
deltaCol =0;
do{
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == (int)'a' || kb == (int)'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == (int)'d' || kb == (int)'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == (int)'w' || kb == (int)'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == (int)'s' || kb == (int)'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == (int)'q')
{
/* q to exit player movement loop */
break;
};
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(1));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W,prow,pcol);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W, 'P');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(1));
if(((prow + (unsigned int)deltaRow) > row) || ((pcol + (unsigned int)deltaCol) > col)){
deltaRow = 0;
deltaCol = 0;
}
if(maze[((int)prow + deltaRow)][((int)pcol + deltaCol)] == '#'){
prow = prow;
pcol = pcol;
}
else{
prow = prow + (unsigned int)deltaRow;
pcol = pcol + (unsigned int)deltaCol;
}
if(maze[prow][pcol] == 'T')
{
maze[prow][pcol] = ' ';
score++;
}
if(maze[prow][pcol] == 'Z')
{
break;
}
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(3));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W,prow,pcol);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W, 'P');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(3));
deltaRow =0;
deltaCol =0;
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
/*printw("\n");*/
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
endwin();
printf("Score = %u\n", score);
return 0;
}

129
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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <ncurses.h>
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
/* check to see if argument */
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8);
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
/* print out maze */
for (c1 =(unsigned)0; c1 < row; c1++)
{
printf ("\n");
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
printf("%c", maze[c1][c2]);
}
}
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
printf("\n");
return 0;
}

256
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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
#include <ncurses.h>
/*nothing*/
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
WINDOW* W = 0; /* Curses Window handle */
int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8);
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
W = initscr(); /* Determine terminal type and initialize curses data structures */
start_color(); /* Enable use of color with ncurses */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
noecho(); /* Disable echo printing of chars type by user */
nodelay(W, true); /* Make getch( ) a non-blocking call */
keypad(W, true); /* Enable keypad and arrow keys */
curs_set(0); /* Set cursor to be invisible - 0 */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
init_pair(2, COLOR_GREEN, COLOR_GREEN); /* Red text on Black background */
init_pair(3, COLOR_WHITE, COLOR_WHITE); /* White text on Blue background */
init_pair(4, COLOR_RED, COLOR_RED); /* Yellow text on Yellow background */
init_pair(5, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
attron(COLOR_PAIR(2));
wmove(W, c1,c2);
waddch(W,'#');
attroff(COLOR_PAIR(2));
break;
case ' ':
wmove(W, c1,c2);
waddch(W,' ');
break;
case 'P':
wmove(W, c1,c2);
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
wmove(W, c1,c2);
waddch(W,'Z');
break;
case 'T':
wmove(W, c1,c2);
waddch(W,'T');
break;
default:
break;
};
/*printw("%c", maze[c1][c2]);*/
}
}
deltaRow =0;
deltaCol =0;
do{
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == 'a' || kb == 'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == 'd' || kb == 'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == 'w' || kb == 'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == 's' || kb == 'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == 'q')
{
/* q to exit player movement loop */
break;
};
attron(COLOR_PAIR(1));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(1));
prow = prow + deltaRow;
pcol = pcol + deltaCol;
attron(COLOR_PAIR(3));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(3));
deltaRow =0;
deltaCol =0;
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
/*printw("\n");*/
endwin();
return 0;
}

21
CPE455/gameproject/.svn/pristine/45/459f5f88bada382e184f36683a9b382e43642533.svn-base Normal file
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M 14 21
#####################
# # # #
# # # #
# # # #
# ####### #######
# #
# #
# ########### #
# # #
# # #
# ##### #
# #
# #
#####################
T 8 15
Z 9 10
Z 6 11
T 2 8
P 2 10
T 2 12

59
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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
void readMaze(char *arr);
int main(int argc, char *argv[])
{
printf("Hello, World!\n");
FILE* mazeFile; /* Maze Input File */
char c; /* Holds character for line input from file */
int row; /* Holds number of rows for input from file */
int col; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( !feof(mazeFile) )
{
switch(shold[0])
{
case 'M':
printf ("Maze encountered\n");
fscanf(mazeFile, "%d %d", &row, &col);
printf("%d\n", row);
// possible dynamic allocation of 2D array
char* maze = malloc((row * col) * sizeof(char));
readMaze(maze);
break;
default:
//printf ("Basic error\n");
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile))
{
break;
}
}
fclose(mazeFile);
//printf ("So this line won't print without an argument.\n");
return 0;
}
void readMaze(char *arr)
{
}

123
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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
char chold = NULL; /* Holds character for line input from file */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; // global array for maze
unsigned int c1 = 0;
unsigned int c2 = 0;
// check to see if
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
fscanf(mazeFile, "%3d %3d", &row, &col);
// dynamic allocation of array for maze
unsigned int i = 0, j = 0;
maze = malloc(row * sizeof(unsigned int *));
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * sizeof(unsigned int *));
}
for (i = (unsigned) 0; i < row; i++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[i][j]);
if (maze[i][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[i][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3d %3d", &k, &l);
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3d %3d", &k, &l);
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3d %3d", &k, &l);
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
for (c1 =(unsigned)0; c1 < row; c1++)
{
printf ("\n");
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
printf("%c", maze[c1][c2]);
}
}
//free the memory
unsigned int i = 0;
for(i = (unsigned)0; i < row; i++)
{
free(maze[i]);
}
if(maze != NULL){
free(maze);
}
printf("\n");
return 0;
}

290
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#include <ncurses.h>
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
WINDOW *initscr(void);
int start_color(void);
int cbreak(void);
int noecho(void);
int nodelay(WINDOW *win, bool bf);
int keypad(WINDOW *win, bool bf);
int curs_set(int visibility);
/*void getmaxyx(WINDOW *win, int y, int x); */
int init_pair(short pair, short f, short b);
/*int attron(int attrs);
int COLOR_PAIR(int n);
int wmove(WINDOW *win, int y, int x);
nothing*/
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
unsigned int score = 0;
WINDOW* W = 0; /* Curses Window handle */
int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8);
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
W = initscr(); /* Determine terminal type and initialize curses data structures */
start_color(); /* Enable use of color with ncurses */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
noecho(); /* Disable echo printing of chars type by user */
nodelay(W, true); /* Make getch( ) a non-blocking call */
keypad(W, true); /* Enable keypad and arrow keys */
curs_set(0); /* Set cursor to be invisible - 0 */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
init_pair(2, COLOR_GREEN, COLOR_GREEN); /* Red text on Black background */
init_pair(3, COLOR_WHITE, COLOR_WHITE); /* White text on Blue background */
init_pair(4, COLOR_RED, COLOR_RED); /* Yellow text on Yellow background */
init_pair(5, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
attron(COLOR_PAIR(2));
wmove(W, c1,c2);
waddch(W,'#');
attroff(COLOR_PAIR(2));
break;
case ' ':
wmove(W, c1,c2);
waddch(W,' ');
break;
case 'P':
wmove(W, c1,c2);
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
attron(COLOR_PAIR(4));
wmove(W, c1,c2);
waddch(W,'Z');
attroff(COLOR_PAIR(4));
break;
case 'T':
attron(COLOR_PAIR(5));
wmove(W, c1,c2);
waddch(W,'T');
attroff(COLOR_PAIR(5));
break;
default:
break;
};
/*printw("%c", maze[c1][c2]);*/
}
}
deltaRow =0;
deltaCol =0;
do{
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == (int)'a' || kb == (int)'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == (int)'d' || kb == (int)'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == (int)'w' || kb == (int)'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == (int)'s' || kb == (int)'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == (int)'q')
{
/* q to exit player movement loop */
break;
};
attron(COLOR_PAIR(1));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(1));
if((((int)prow + deltaRow) > row) || (((int)pcol + deltaCol) > col)){
deltaRow = 0;
deltaCol = 0;
}
if(maze[((int)prow + deltaRow)][((int)pcol + deltaCol)] == '#'){
prow = prow;
pcol = pcol;
}
else{
prow = prow + deltaRow;
pcol = pcol + deltaCol;
}
if(maze[prow][pcol] == 'T')
{
maze[prow][pcol] = ' ';
score++;
}
if(maze[prow][pcol] == 'Z')
{
break;
}
attron(COLOR_PAIR(3));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(3));
deltaRow =0;
deltaCol =0;
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
/*printw("\n");*/
endwin();
printf("Score = %u\n", score);
return 0;
}

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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
// read maze file in to the array
void readMaze(char *arr, int r, int c);
int main(int argc, char *argv[])
{
printf("Hello, World!\n");
FILE* mazeFile; /* Maze Input File */
char c; /* Holds character for line input from file */
int row; /* Holds number of rows for input from file */
int col; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( !feof(mazeFile) )
{
switch(shold[0])
{
case 'M':
printf ("Maze encountered\n");
fscanf(mazeFile, "%d %d", &row, &col);
printf("%d\n", row);
// possible dynamic allocation of 2D array
int i = 0, j = 0;
char **maze = malloc(row * sizeof(char *));
for(i = 0; i < row; i++)
maze[i] = malloc(col * sizeof(char));
for (i = 0; i < row; i++)
{
for (j = 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[i][j]);
printf("%c", maze[i][j]);
}
}
printf("%c", maze[0 * col + 0]);
for(i = 0; i < row; i++)
free(maze[i]);
free(maze);
//int (*maze)[col] = malloc(sizeof(int[row][col]));
//readMaze(maze, row, col);
break;
default:
//printf ("Basic error\n");
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile))
{
break;
}
}
fclose(mazeFile);
//printf ("So this line won't print without an argument.\n");
return 0;
}
void readMaze(char *arr, int row, int col)
{
}

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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
void readPlayer(char *arr);
void readZombie(char *arr);
void readTreasure(char *arr);
// read maze file in to the array
void readMaze(char *arr, int r, int c);
int main(int argc, char *argv[])
{
printf("Hello, World!\n");
FILE* mazeFile; /* Maze Input File */
char c; /* Holds character for line input from file */
int row; /* Holds number of rows for input from file */
int col; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( !feof(mazeFile) )
{
switch(shold[0])
{
case 'M':
printf ("Maze encountered\n");
fscanf(mazeFile, "%d %d", &row, &col);
printf("%d\n", row);
// possible dynamic allocation of 2D array
int i = 0, j = 0;
char **maze = malloc(row * sizeof(char *));
for(i = 0; i < row; i++)
maze[i] = malloc(col * sizeof(char));
for (i = 0; i < row; i++)
{
for (j = 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[i][j]);
printf("%c", maze[i][j]);
}
}
printf("%c", maze[0 * col + 0]);
for(i = 0; i < row; i++)
free(maze[i]);
free(maze);
//int (*maze)[col] = malloc(sizeof(int[row][col]));
//readMaze(maze, row, col);
break;
case 'P':
//case for player
printf ("Player\n");
fscanf(mazeFile, "%d %d", &row, &col);
printf("%d\n", row);
// possible dynamic allocation of 2D array
char* player = malloc((row * col) * sizeof(char));
readPlayer(player);
break;
case 'Z':
//case for zombie
printf ("Zombie\n");
fscanf(mazeFile, "%d %d", &row, &col);
printf("%d\n", row);
// possible dynamic allocation of 2D array
char* zombie = malloc((row * col) * sizeof(char));
readZombie(zombie);
break;
case 'T':
//case for treasure
printf ("Treasure\n");
fscanf(mazeFile, "%d %d", &row, &col);
printf("%d\n", row);
// possible dynamic allocation of 2D array
char* treasure = malloc((row * col) * sizeof(char));
readTreasure(treasure);
break;
default:
//printf ("Basic error\n");
break;
};
for(int i=0;i<row;i++)
{
for(int j=0;j<col;j++)
{
if(fscanf == #) //if file has #
{
maze[i][j] = #;
}
else
{
maze[i][j] = " ";
}
}
}
fgets(shold, 2, mazeFile);
if (feof(mazeFile))
{
break;
}
}
fclose(mazeFile);
//printf ("So this line won't print without an argument.\n");
//free the memory
free(maze);
return 0;
}
void readMaze(char *arr, int row, int col)
{
}
void readPlayer(char *arr)
{
}
void readZombie(char *arr)
{
}
void readTreasure(char *arr)
{
}

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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
#include <ncurses.h>
/*nothing*/
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
WINDOW* W = 0; /* Curses Window handle */
int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8);
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
W = initscr(); /* Determine terminal type and initialize curses data structures */
start_color(); /* Enable use of color with ncurses */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
noecho(); /* Disable echo printing of chars type by user */
nodelay(W, true); /* Make getch( ) a non-blocking call */
keypad(W, true); /* Enable keypad and arrow keys */
curs_set(0); /* Set cursor to be invisible - 0 */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
init_pair(2, COLOR_RED, COLOR_BLACK); /* Red text on Black background */
init_pair(3, COLOR_WHITE, COLOR_BLUE); /* White text on Blue background */
init_pair(4, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
wmove(W, c1,c2);
waddch(W,'#');
break;
case ' ':
wmove(W, c1,c2);
waddch(W,' ');
break;
case 'P':
wmove(W, c1,c2);
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
wmove(W, c1,c2);
waddch(W,'Z');
break;
case 'T':
wmove(W, c1,c2);
waddch(W,'T');
break;
default:
break;
};
/*printw("%c", maze[c1][c2]);*/
}
}
prow = rowLimit/4;
pcol = colLimit/4;
deltaRow =0;
deltaCol =0;
do{
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == 'a' || kb == 'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == 'd' || kb == 'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == 'w' || kb == 'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == 's' || kb == 'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == 'q')
{
/* q to exit player movement loop */
break;
};
attron(COLOR_PAIR(1));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(1));
prow = prow + deltaRow;
pcol = pcol + deltaCol;
attron(COLOR_PAIR(1));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(1));
deltaRow =0;
deltaCol =0;
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
/*printw("\n");*/
endwin();
return 0;
}

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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
// global array for maze
char **maze;
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
char chold; /* Holds character for line input from file */
int row = 0; /* Holds number of rows for input from file */
int col = 0; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
int l = 0;
int k = 0;
int c1 = 0;
int c2 = 0;
// check to see if
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( !feof(mazeFile) )
{
switch(shold[0])
{
case 'M':
fscanf(mazeFile, "%d %d", &row, &col);
// possible dynamic allocation of 2D array
// dynamic allocation of array for maze
int i = 0, j = 0;
maze = malloc(row * sizeof(char *));
for(i = 0; i < row; i++)
{
maze[i] = malloc(col * sizeof(char));
}
for (i = 0; i < row; i++)
{
for (j = 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[i][j]);
if (maze[i][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[i][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%d %d", &k, &l);
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%d %d", &k, &l);
maze[k][l] = 'Z';
printf("%c" , maze[k][l]);
break;
case 'T':
fscanf(mazeFile, "%d %d", &k, &l);
maze[k][l] = 'T';
break;
case '\n':
printf("\n");
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile))
{
break;
}
}
fclose(mazeFile);
for (c1 =0; c1 < row; c1++)
{
printf ("\n");
for (c2=0; c2 < col; c2++)
{
printf("%c", maze[c1][c2]);
}
}
//free the memory
int i = 0;
for(i = 0; i < row; i++)
{
free(maze[i]);
}
free(maze);
printf("\n");
return 0;
}

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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
// global array for maze
char **maze;
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
char chold; /* Holds character for line input from file */
int row = 0; /* Holds number of rows for input from file */
int col = 0; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
int l = 0;
int k = 0;
int c1 = 0;
int c2 = 0;
// check to see if
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( !feof(mazeFile) )
{
switch(shold[0])
{
case 'M':
fscanf(mazeFile, "%d %d", &row, &col);
//
// dynamic allocation of array for maze
int i = 0, j = 0;
maze = calloc(row, sizeof(unsigned int *));
for(i = 0; i < row; i++)
{
maze[i] = calloc(col, sizeof(unsigned int *));
}
for (i = 0; i < row; i++)
{
for (j = 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[i][j]);
if (maze[i][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[i][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%d %d", &k, &l);
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%d %d", &k, &l);
maze[k][l] = 'Z';
printf("%c" , maze[k][l]);
break;
case 'T':
fscanf(mazeFile, "%d %d", &k, &l);
maze[k][l] = 'T';
break;
case '\n':
printf("\n");
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile))
{
break;
}
}
fclose(mazeFile);
for (c1 =0; c1 < row; c1++)
{
printf ("\n");
for (c2=0; c2 < col; c2++)
{
printf("%c", maze[c1][c2]);
}
}
//free the memory
int i = 0;
for(i = 0; i < row; i++)
{
free(maze[i]);
}
free(maze);
printf("\n");
return 0;
}

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#include <ncurses.h>
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
extern WINDOW* initscr(void);
extern int start_color(void);
/* LDRA_EXCLUDE RULE VIOLATION <justification start> FALSE POSITIVE -- why <justification end> */
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
unsigned int score = 0;
WINDOW* W = 0; /* Curses Window handle */
unsigned int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8); /* */
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
rowLimit = row;
colLimit = col;
fclose(mazeFile);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
W = initscr(); /* Determine terminal type and initialize curses data structures */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
start_color(); /* Enable use of color with ncurses */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
noecho(); /* Disable echo printing of chars type by user */
if (W == NULL)
{
return 0;
}
nodelay(W, true); /* Make getch( ) a non-blocking call */
keypad(W, true); /* Enable keypad and arrow keys */
curs_set(0); /* Set cursor to be invisible - 0 */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
init_pair(2, COLOR_GREEN, COLOR_GREEN); /* Red text on Black background */
init_pair(3, COLOR_WHITE, COLOR_WHITE); /* White text on Blue background */
init_pair(4, COLOR_RED, COLOR_RED); /* Yellow text on Yellow background */
init_pair(5, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
attron(COLOR_PAIR(2));
wmove(W, c1,c2);
waddch(W,'#');
attroff(COLOR_PAIR(2));
break;
case ' ':
wmove(W, c1,c2);
waddch(W,' ');
break;
case 'P':
wmove(W, c1,c2);
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
attron(COLOR_PAIR(4));
wmove(W, c1,c2);
waddch(W,'Z');
attroff(COLOR_PAIR(4));
break;
case 'T':
attron(COLOR_PAIR(5));
wmove(W, c1,c2);
waddch(W,'T');
attroff(COLOR_PAIR(5));
break;
default:
break;
};
}
}
deltaRow =0;
deltaCol =0;
do{
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == (int)'a' || kb == (int)'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == (int)'d' || kb == (int)'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == (int)'w' || kb == (int)'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == (int)'s' || kb == (int)'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == (int)'q')
{
/* q to exit player movement loop */
break;
};
attron(COLOR_PAIR(1));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(1));
if(((prow + (unsigned int)deltaRow) > row) || ((pcol + (unsigned int)deltaCol) > col)){
deltaRow = 0;
deltaCol = 0;
}
if(maze[((int)prow + deltaRow)][((int)pcol + deltaCol)] == '#'){
prow = prow;
pcol = pcol;
}
else{
prow = prow + (unsigned int)deltaRow;
pcol = pcol + (unsigned int)deltaCol;
}
if(maze[prow][pcol] == 'T')
{
maze[prow][pcol] = ' ';
score++;
}
if(maze[prow][pcol] == 'Z')
{
break;
}
attron(COLOR_PAIR(3));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(3));
deltaRow =0;
deltaCol =0;
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
/*printw("\n");*/
endwin();
printf("Score = %u\n", score);
return 0;
}

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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
#include <ncurses.h>
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
WINDOW* W = 0; /* Curses Window handle */
/* check to see if argument */
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8);
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
/* Initialize ncurses -- you will want to use the following settings */
W = initscr(); /* Determine terminal type and initialize curses data structures */
start_color(); /* Enable use of color with ncurses */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
noecho(); /* Disable echo printing of chars type by user */
nodelay(W, true); /* Make getch( ) a non-blocking call */
keypad(W, true); /* Enable keypad and arrow keys */
curs_set(0); /* Set cursor to be invisible - 0 */
getmaxyx(W, row, col); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
init_pair(2, COLOR_RED, COLOR_BLACK); /* Red text on Black background */
init_pair(3, COLOR_WHITE, COLOR_BLUE); /* White text on Blue background */
init_pair(4, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
printf ("\n");
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
printf("%c", maze[c1][c2]);
}
}
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
printf("\n");
return 0;
}

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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
char chold = NULL; /* Holds character for line input from file */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; // global array for maze
unsigned int c1 = 0;
unsigned int c2 = 0;
// check to see if
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
// read array values, dynamically allocate array
fscanf(mazeFile, "%3d %3d", &row, &col);
unsigned int i = 0, j = 0;
maze = (char**)malloc(row * 8);
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (i = (unsigned) 0; i < row; i++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[i][j]);
if (maze[i][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[i][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3d %3d", &k, &l);
// check maze bounds
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3d %3d", &k, &l);
// check maze bounds
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3d %3d", &k, &l);
// check maze bounds
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
// print out maze
for (c1 =(unsigned)0; c1 < row; c1++)
{
printf ("\n");
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
printf("%c", maze[c1][c2]);
}
}
//free the memory
unsigned int i = 0;
for(i = (unsigned)0; i < row; i++)
{
free(maze[i]);
maze[i] = NULL;
}
if(maze != NULL){
free(maze);
}
printf("\n");
return 0;
}

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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
char chold = NULL; /* Holds character for line input from file */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; // global array for maze
unsigned int c1 = 0;
unsigned int c2 = 0;
// check to see if
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
// read array values, dynamically allocate array
fscanf(mazeFile, "%3d %3d", &row, &col);
unsigned int i = 0, j = 0;
maze = (char**)malloc(row * sizeof(unsigned int *));
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * sizeof(unsigned int *));
}
for (i = (unsigned) 0; i < row; i++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[i][j]);
if (maze[i][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[i][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3d %3d", &k, &l);
// check maze bounds
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3d %3d", &k, &l);
// check maze bounds
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3d %3d", &k, &l);
// check maze bounds
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
// print out maze
for (c1 =(unsigned)0; c1 < row; c1++)
{
printf ("\n");
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
printf("%c", maze[c1][c2]);
}
}
//free the memory
unsigned int i = 0;
for(i = (unsigned)0; i < row; i++)
{
free(maze[i]);
maze[i] = NULL;
}
if(maze != NULL){
free(maze);
}
printf("\n");
return 0;
}

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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
// global array for maze
char **maze;
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
char chold; /* Holds character for line input from file */
int row = 0; /* Holds number of rows for input from file */
int col = 0; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
int l = 0;
int k = 0;
int c1 = 0;
int c2 = 0;
// check to see if
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( !feof(mazeFile) )
{
switch(shold[0])
{
case 'M':
fscanf(mazeFile, "%d %d", &row, &col);
// possible dynamic allocation of 2D array
// dynamic allocation of array for maze
int i = 0, j = 0;
maze = malloc(row * sizeof(char *));
for(i = 0; i < row; i++)
{
maze[i] = malloc(col * sizeof(char));
}
for (i = 0; i < row; i++)
{
for (j = 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[i][j]);
if (maze[i][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[i][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%d %d", &k, &l);
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%d %d", &k, &l);
maze[k][l] = 'Z';
printf("%c" , maze[k][l]);
break;
case 'T':
fscanf(mazeFile, "%d %d", &k, &l);
maze[k][l] = 'T';
break;
case '\n':
printf("\n");
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile))
{
break;
}
}
fclose(mazeFile);
for (c1 =0; c1 < row; c1++)
{
printf ("\n");
for (c2=0; c2 < col; c2++)
{
printf("%c", maze[c1][c2]);
}
}
//free the memory
int i = 0;
for(i = 0; i < row; i++)
{
free(maze[i]);
}
//free(maze);
printf("\n");
return 0;
}

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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <ncurses.h>
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
/* check to see if argument */
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8);
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (i = (unsigned) 0; i < row; i++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[i][j]);
if (maze[i][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[i][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
/* print out maze */
for (c1 =(unsigned)0; c1 < row; c1++)
{
printf ("\n");
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
printf("%c", maze[c1][c2]);
}
}
/* free the memory */
for(i = (unsigned)0; i < row; i++)
{
free(maze[i]);
maze[i] = NULL;
}
if(maze != NULL){
free(maze);
}
printf("\n");
return 0;
}

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#include <ncurses.h>
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
extern WINDOW* initscr(void);
extern int start_color(void);
extern int noecho(void);
/* LDRA_EXCLUDE RULE VIOLATION <justification start> FALSE POSITIVE -- why <justification end> */
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
unsigned int score = 0;
WINDOW* W = 0; /* Curses Window handle */
unsigned int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to open the file so must use bad one bc we cannot create one ourselves as we are not wizards <justification end> */
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to get first char from file and we must use bad one as we cannot make one ourselves <justification end> */
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
/* parse maze file,
adding chars to array */
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to scan content from file, have ensured we will not scan extra <justification end> */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8); /* allocate memory for rows of array */
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8); /* allocate memory for collumns of array */
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to scan content from file, have ensured we will not scan extra <justification end> */
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to scan content from file, have ensured we will not scan extra <justification end> */
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to scan content from file, have ensured we will not scan extra <justification end> */
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to scan content from file, have ensured we will not scan extra <justification end> */
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to scan content from file, have ensured we will not scan extra <justification end> */
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to scan content from file, have ensured we will not scan extra <justification end> */
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
rowLimit = row;
colLimit = col;
fclose(mazeFile);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
W = initscr(); /* Determine terminal type and initialize curses data structures */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
start_color(); /* Enable use of color with ncurses */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
noecho(); /* Disable echo printing of chars type by user */
if (W == NULL)
{
return 0;
}
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
nodelay(W, true); /* Make getch( ) a non-blocking call */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
keypad(W, true); /* Enable keypad and arrow keys */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
curs_set(0); /* Set cursor to be invisible - 0 */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(2, COLOR_GREEN, COLOR_GREEN); /* Red text on Black background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(3, COLOR_WHITE, COLOR_WHITE); /* White text on Blue background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(4, COLOR_RED, COLOR_RED); /* Yellow text on Yellow background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(5, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
/* parse maze */
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(2));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'#');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(2));
break;
case ' ':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,' ');
break;
case 'P':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(4));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'Z');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(4));
break;
case 'T':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(5));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'T');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(5));
break;
default:
break;
};
}
}
deltaRow = 0;
deltaCol = 0;
do{
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == (int)'a' || kb == (int)'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == (int)'d' || kb == (int)'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == (int)'w' || kb == (int)'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == (int)'s' || kb == (int)'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == (int)'q')
{
/* q to exit player movement loop */
break;
};
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(1));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W,prow,pcol);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W, 'P');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(1));
/* check current player position against maze bounds,
if over the bounds, don't move */
if(((prow + (unsigned int)deltaRow) > row) || ((pcol + (unsigned int)deltaCol) > col)){
deltaRow = 0;
deltaCol = 0;
}
/* check future player position to see if wall;
if it is, stay in the same spot
else move to new postion */
if(maze[((int)prow + deltaRow)][((int)pcol + deltaCol)] == '#'){
prow = prow;
pcol = pcol;
}
else{
prow = prow + (unsigned int)deltaRow;
pcol = pcol + (unsigned int)deltaCol;
}
/* check curremt position for treasure,
make treasure position a space,
and increment score */
if(maze[prow][pcol] == 'T')
{
maze[prow][pcol] = ' ';
score++;
}
/* check curremt position for zombie,
end game */
if(maze[prow][pcol] == 'Z')
{
break;
}
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(3));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W,prow,pcol);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W, 'P');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(3));
deltaRow =0;
deltaCol =0;
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to free allocated memory, cannot create one ourselves bc we are not wizards <justification end> */
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to free allocated memory, cannot create one ourselves bc we are not wizards <justification end> */
free(maze);
}
/*printw("\n");*/
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
endwin();
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to print score for project, so even though not great have to use bad one <justification end> */
printf("Score = %u\n", score);
return 0;
/* LDRA_EXCLUDE 50 D <justification start> FALSE POSITIVE -- Y was statically allocated no need to free it <justification end> */
/* LDRA_EXCLUDE 50 D <justification start> FALSE POSITIVE -- Maze has been freed already valgrind shows no leaks error must have ocurred in analysis <justification end> */
}

151
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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
#include <ncurses.h>
int main(int argc, char *argv[])
{
/*FILE* mazeFile; Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
WINDOW* W = 0; /* Curses Window handle */
/* check to see if argument */
if (argc != 2)
{
printw("An error has ocurred no input file was given.\n");
return 1;
}
W = fopen(argv[1], "r");
if (W == NULL)
{
printw("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, W);
while ( feof(W) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
wscanw(W, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8);
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
wscanw(W, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
wscanw(W, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
wscanw(W, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
wscanw(W, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
wscanw(W, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, W);
if (feof(W) != 0)
{
break;
}
}
fclose(W);
/* Initialize ncurses -- you will want to use the following settings */
W = initscr(); /* Determine terminal type and initialize curses data structures */
start_color(); /* Enable use of color with ncurses */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
noecho(); /* Disable echo printing of chars type by user */
nodelay(W, true); /* Make getch( ) a non-blocking call */
keypad(W, true); /* Enable keypad and arrow keys */
curs_set(0); /* Set cursor to be invisible - 0 */
getmaxyx(W, row, col); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
init_pair(2, COLOR_RED, COLOR_BLACK); /* Red text on Black background */
init_pair(3, COLOR_WHITE, COLOR_BLUE); /* White text on Blue background */
init_pair(4, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
printw ("\n");
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
printw("%c", maze[c1][c2]);
}
}
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
printw("\n");
return 0;
}

285
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@ -0,0 +1,285 @@
#include <ncurses.h>
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
/* */
/* LDRA_EXCLUDE RULE VIOLATION <justification start> FALSE POSITIVE -- why <justification end> */
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
unsigned int score = 0;
WINDOW* W = 0; /* Curses Window handle */
int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8); /* */
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- why <justification end> */
W = initscr(); /* Determine terminal type and initialize curses data structures */
start_color(); /* Enable use of color with ncurses */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
noecho(); /* Disable echo printing of chars type by user */
if (W == NULL)
{
return 0;
}
nodelay(W, true); /* Make getch( ) a non-blocking call */
keypad(W, true); /* Enable keypad and arrow keys */
curs_set(0); /* Set cursor to be invisible - 0 */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
init_pair(2, COLOR_GREEN, COLOR_GREEN); /* Red text on Black background */
init_pair(3, COLOR_WHITE, COLOR_WHITE); /* White text on Blue background */
init_pair(4, COLOR_RED, COLOR_RED); /* Yellow text on Yellow background */
init_pair(5, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
attron(COLOR_PAIR(2));
wmove(W, c1,c2);
waddch(W,'#');
attroff(COLOR_PAIR(2));
break;
case ' ':
wmove(W, c1,c2);
waddch(W,' ');
break;
case 'P':
wmove(W, c1,c2);
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
attron(COLOR_PAIR(4));
wmove(W, c1,c2);
waddch(W,'Z');
attroff(COLOR_PAIR(4));
break;
case 'T':
attron(COLOR_PAIR(5));
wmove(W, c1,c2);
waddch(W,'T');
attroff(COLOR_PAIR(5));
break;
default:
break;
};
/*printw("%c", maze[c1][c2]);*/
}
}
deltaRow =0;
deltaCol =0;
do{
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == (int)'a' || kb == (int)'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == (int)'d' || kb == (int)'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == (int)'w' || kb == (int)'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == (int)'s' || kb == (int)'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == (int)'q')
{
/* q to exit player movement loop */
break;
};
attron(COLOR_PAIR(1));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(1));
if(((prow + (unsigned int)deltaRow) > row) || ((pcol + (unsigned int)deltaCol) > col)){
deltaRow = 0;
deltaCol = 0;
}
if(maze[((int)prow + deltaRow)][((int)pcol + deltaCol)] == '#'){
prow = prow;
pcol = pcol;
}
else{
prow = prow + (unsigned int)deltaRow;
pcol = pcol + (unsigned int)deltaCol;
}
if(maze[prow][pcol] == 'T')
{
maze[prow][pcol] = ' ';
score++;
}
if(maze[prow][pcol] == 'Z')
{
break;
}
attron(COLOR_PAIR(3));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(3));
deltaRow =0;
deltaCol =0;
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
/*printw("\n");*/
endwin();
printf("Score = %u\n", score);
return 0;
}

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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
char chold = NULL; /* Holds character for line input from file */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; // global array for maze
unsigned int c1 = 0;
unsigned int c2 = 0;
// check to see if
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
fscanf(mazeFile, "%3d %3d", &row, &col);
// dynamic allocation of array for maze
unsigned int i = 0, j = 0;
maze = malloc(row * sizeof(unsigned int *));
for(i = 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * sizeof(unsigned int *));
}
for (i = 0; i < row; i++)
{
for (j = 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[i][j]);
if (maze[i][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[i][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3d %3d", &k, &l);
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3d %3d", &k, &l);
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3d %3d", &k, &l);
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
for (c1 =0; c1 < row; c1++)
{
printf ("\n");
for (c2=0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
printf("%c", maze[c1][c2]);
}
}
//free the memory
unsigned int i = 0;
for(i = 0; i < row; i++)
{
free(maze[i]);
}
free(maze);
printf("\n");
return 0;
}

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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
#include <ncurses.h>
WINDOW *initscr(void);
int start_color(void);
int cbreak(void);
int noecho(void);
int nodelay(WINDOW *win, bool bf);
int keypad(WINDOW *win, bool bf);
int curs_set(int visibility);
/*void getmaxyx(WINDOW *win, int y, int x); */
int init_pair(short pair, short f, short b);
/*nothing*/
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
unsigned int score = 0;
WINDOW* W = 0; /* Curses Window handle */
int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8);
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
W = initscr(); /* Determine terminal type and initialize curses data structures */
start_color(); /* Enable use of color with ncurses */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
noecho(); /* Disable echo printing of chars type by user */
nodelay(W, true); /* Make getch( ) a non-blocking call */
keypad(W, true); /* Enable keypad and arrow keys */
curs_set(0); /* Set cursor to be invisible - 0 */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
init_pair(2, COLOR_GREEN, COLOR_GREEN); /* Red text on Black background */
init_pair(3, COLOR_WHITE, COLOR_WHITE); /* White text on Blue background */
init_pair(4, COLOR_RED, COLOR_RED); /* Yellow text on Yellow background */
init_pair(5, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
attron(COLOR_PAIR(2));
wmove(W, c1,c2);
waddch(W,'#');
attroff(COLOR_PAIR(2));
break;
case ' ':
wmove(W, c1,c2);
waddch(W,' ');
break;
case 'P':
wmove(W, c1,c2);
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
attron(COLOR_PAIR(4));
wmove(W, c1,c2);
waddch(W,'Z');
attroff(COLOR_PAIR(4));
break;
case 'T':
attron(COLOR_PAIR(5));
wmove(W, c1,c2);
waddch(W,'T');
attroff(COLOR_PAIR(5));
break;
default:
break;
};
/*printw("%c", maze[c1][c2]);*/
}
}
deltaRow =0;
deltaCol =0;
do{
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == 'a' || kb == 'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == 'd' || kb == 'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == 'w' || kb == 'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == 's' || kb == 'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == 'q')
{
/* q to exit player movement loop */
break;
};
attron(COLOR_PAIR(1));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(1));
if((prow + deltaRow > row) || (pcol + deltaCol > col)){
deltaRow = 0;
deltaCol = 0;
}
if(maze[prow + deltaRow][pcol + deltaCol] == '#'){
prow = prow;
pcol = pcol;
}
else{
prow = prow + deltaRow;
pcol = pcol + deltaCol;
}
if(maze[prow][pcol] == 'T')
{
maze[prow][pcol] = ' ';
score++;
}
if(maze[prow][pcol] == 'Z')
{
break;
}
attron(COLOR_PAIR(3));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(3));
deltaRow =0;
deltaCol =0;
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
/*printw("\n");*/
endwin();
printf("Score = %u\n", score);
return 0;
}

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#include <ncurses.h>
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
extern WINDOW* initscr(void);
extern int start_color(void);
/* LDRA_EXCLUDE RULE VIOLATION <justification start> FALSE POSITIVE -- why <justification end> */
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
unsigned int score = 0;
WINDOW* W = 0; /* Curses Window handle */
unsigned int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8); /* */
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
rowLimit = row;
colLimit = col;
fclose(mazeFile);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
W = initscr(); /* Determine terminal type and initialize curses data structures */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
start_color(); /* Enable use of color with ncurses */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
noecho(); /* Disable echo printing of chars type by user */
if (W == NULL)
{
return 0;
}
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
nodelay(W, true); /* Make getch( ) a non-blocking call */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
keypad(W, true); /* Enable keypad and arrow keys */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
curs_set(0); /* Set cursor to be invisible - 0 */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(2, COLOR_GREEN, COLOR_GREEN); /* Red text on Black background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(3, COLOR_WHITE, COLOR_WHITE); /* White text on Blue background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(4, COLOR_RED, COLOR_RED); /* Yellow text on Yellow background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(5, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(2));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'#');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(2));
break;
case ' ':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,' ');
break;
case 'P':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(4));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'Z');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(4));
break;
case 'T':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(5));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'T');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(5));
break;
default:
break;
};
}
}
deltaRow =0;
deltaCol =0;
do{
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == (int)'a' || kb == (int)'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == (int)'d' || kb == (int)'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == (int)'w' || kb == (int)'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == (int)'s' || kb == (int)'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == (int)'q')
{
/* q to exit player movement loop */
break;
};
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(1));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W,prow,pcol);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W, 'P');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(1));
if(((prow + (unsigned int)deltaRow) > row) || ((pcol + (unsigned int)deltaCol) > col)){
deltaRow = 0;
deltaCol = 0;
}
if(maze[((int)prow + deltaRow)][((int)pcol + deltaCol)] == '#'){
prow = prow;
pcol = pcol;
}
else{
prow = prow + (unsigned int)deltaRow;
pcol = pcol + (unsigned int)deltaCol;
}
if(maze[prow][pcol] == 'T')
{
maze[prow][pcol] = ' ';
score++;
}
if(maze[prow][pcol] == 'Z')
{
break;
}
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(3));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W,prow,pcol);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W, 'P');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(3));
deltaRow =0;
deltaCol =0;
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
/*printw("\n");*/
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
endwin();
printf("Score = %u\n", score);
return 0;
}

128
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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <ncurses.h>
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
/* check to see if argument */
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8);
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (i = (unsigned) 0; i < row; i++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[i][j]);
if (maze[i][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[i][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
/* print out maze */
for (c1 =(unsigned)0; c1 < row; c1++)
{
printf ("\n");
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
printf("%c", maze[c1][c2]);
}
}
/* free the memory */
for(i = (unsigned)0; i < row; i++)
{
free(maze[i]);
maze[i] = NULL;
}
if(maze != NULL){
free(maze);
}
printf("\n");
return 0;
}

156
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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
void readPlayer(char *arr);
void readZombie(char *arr);
void readTreasure(char *arr);
// global array for maze
char **maze;
// read maze file in to the array
void readMaze(char *arr, int r, int c);
int main(int argc, char *argv[])
{
printf("Hello, World!\n");
FILE* mazeFile; /* Maze Input File */
char c; /* Holds character for line input from file */
int row; /* Holds number of rows for input from file */
int col; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( !feof(mazeFile) )
{
switch(shold[0])
{
case 'M':
printf ("Maze encountered\n");
fscanf(mazeFile, "%d %d", &row, &col);
printf("%d\n", row);
// possible dynamic allocation of 2D array
// dynamic allocation of array for maze
int i = 0, j = 0;
maze = malloc(row * sizeof(char *));
for(i = 0; i < row; i++)
{
maze[i] = malloc(col * sizeof(char));
}
for (i = 0; i < row; i++)
{
for (j = 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[i][j]);
printf("%c", maze[i][j]);
}
}
printf("%c", maze[0 * col + 0]);
// for(i = 0; i < row; i++)
{
// free(maze[i]);
}
// free(maze);
// int (*maze)[col] = malloc(sizeof(int[row][col]));
//readMaze(maze, row, col);
break;
case 'P':
//case for player
printf ("Player\n");
fscanf(mazeFile, "%d %d", &row, &col);
printf("%d\n", row);
// possible dynamic allocation of 2D array
// char* player = malloc((row * col) * sizeof(char));
// readPlayer(player);
break;
case 'Z':
//case for zombie
printf ("Zombie\n");
fscanf(mazeFile, "%d %d", &row, &col);
printf("%d\n", row);
// possible dynamic allocation of 2D array
// char* zombie = malloc((row * col) * sizeof(char));
// readZombie(zombie);
break;
case 'T':
//case for treasure
printf ("Treasure\n");
fscanf(mazeFile, "%d %d", &row, &col);
printf("%d\n", row);
// possible dynamic allocation of 2D array
// char* treasure = malloc((row * col) * sizeof(char));
// readTreasure(treasure);
break;
case '\n':
break;
default:
//printf ("Basic error\n");
break;
};
// for(int i=0;i<row;i++)
// {
// for(int j=0;j<col;j++)
// {
// if(fscanf == #) //if file has #
// {
// maze[i][j] = #;
// }
// else
// {
// maze[i][j] = " ";
// }
// }
//}
// fgets(shold, 2, mazeFile);
// if (feof(mazeFile))
// {
// break;
//}
}
fclose(mazeFile);
//printf ("So this line won't print without an argument.\n");
//free the memory
// free(maze);
return 0;
}
void readMaze(char *arr, int row, int col)
{
}
void readPlayer(char *arr)
{
}
void readZombie(char *arr)
{
}
void readTreasure(char *arr)
{
}

142
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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
#include <ncurses.h>
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
WINDOW* W = 0; /* Curses Window handle */
/* check to see if argument */
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8);
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
/* Initialize ncurses -- you will want to use the following settings */
W = initscr(); /* Determine terminal type and initialize curses data structures */
start_color(); /* Enable use of color with ncurses */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
noecho(); /* Disable echo printing of chars type by user */
nodelay(W, true); /* Make getch( ) a non-blocking call */
keypad(W, true); /* Enable keypad and arrow keys */
curs_set(0); /* Set cursor to be invisible - 0 */
getmaxyx(W, row, col); /* Query terminal dimensions */
/* print out maze */
for (c1 =(unsigned)0; c1 < row; c1++)
{
printf ("\n");
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
printf("%c", maze[c1][c2]);
}
}
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
printf("\n");
return 0;
}

432
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#include <ncurses.h>
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
extern WINDOW* initscr(void);
extern int start_color(void);
extern int noecho(void);
/* LDRA_EXCLUDE RULE VIOLATION <justification start> FALSE POSITIVE -- why <justification end> */
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
unsigned int score = 0;
WINDOW* W = 0; /* Curses Window handle */
unsigned int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to open the file so must use bad one bc we cannot create one ourselves as we are not wizards <justification end> */
mazeFile = fopen(argv[1], "r"); /* open file */
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to get first char from file and we must use bad one as we cannot make one ourselves <justification end> */
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
/* parse maze file,
adding chars to array */
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to scan content from file, have ensured we will not scan extra <justification end> */
fscanf(mazeFile, "%3u %3u", &row, &col);
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to dynamially allocate memory cannot create own as we lack experience <justification end> */
maze = (char**)malloc(row * 8); /* allocate memory for rows of array, 8 reperesents size of char* */
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to dynamially allocate memory cannot create own as we lack experience <justification end> */
maze[i] = malloc(col * 8); /* allocate memory for collumns of array, 8 reperesents size of char* */
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to scan content from file, have ensured we will not scan extra <justification end> */
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to scan content from file, have ensured we will not scan extra <justification end> */
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to scan content from file, have ensured we will not scan extra <justification end> */
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to scan content from file, have ensured we will not scan extra <justification end> */
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to scan content from file, have ensured we will not scan extra <justification end> */
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to scan content from file, have ensured we will not scan extra <justification end> */
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
rowLimit = row;
colLimit = col;
fclose(mazeFile);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
W = initscr(); /* Determine terminal type and initialize curses data structures */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
start_color(); /* Enable use of color with ncurses */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
noecho(); /* Disable echo printing of chars type by user */
if (W == NULL)
{
return 0;
}
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
nodelay(W, true); /* Make getch( ) a non-blocking call */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
keypad(W, true); /* Enable keypad and arrow keys */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
curs_set(0); /* Set cursor to be invisible - 0 */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(2, COLOR_GREEN, COLOR_GREEN); /* Red text on Black background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(3, COLOR_WHITE, COLOR_WHITE); /* White text on Blue background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(4, COLOR_RED, COLOR_RED); /* Yellow text on Yellow background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(5, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
/* start ncurses coloring of maze */
for (c1 =(unsigned)0; c1 < row; c1++)
{
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
/* parse maze */
switch(maze[c1][c2])
{
/* color wall green */
case '#':
/* read array values, dynamically allocate array*/
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(2));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'#');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(2));
break;
/* place space at position specified in array */
case ' ':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,' ');
break;
/* place player at position specified in file */
case 'P':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'P');
prow=c1;
pcol=c2;
break;
/* place zombie at position specified in file */
case 'Z':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(4));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'Z');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(4));
break;
/* place treasure at position specified in file */
case 'T':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(5));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'T');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(5));
break;
default:
break;
};
}
}
deltaRow = 0;
deltaCol = 0;
do{
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == (int)'a' || kb == (int)'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == (int)'d' || kb == (int)'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == (int)'w' || kb == (int)'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == (int)'s' || kb == (int)'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == (int)'q')
{
/* q to exit player movement loop */
break;
};
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(1));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W,prow,pcol);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W, 'P');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(1));
/* check current player position against maze bounds,
if over the bounds, don't move */
if(((prow + (unsigned int)deltaRow) > row) || ((pcol + (unsigned int)deltaCol) > col)){
deltaRow = 0;
deltaCol = 0;
}
/* check future player position to see if wall;
if it is, stay in the same spot,
else move to new postion */
if(maze[((int)prow + deltaRow)][((int)pcol + deltaCol)] == '#'){
prow = prow;
pcol = pcol;
}
else{
prow = prow + (unsigned int)deltaRow;
pcol = pcol + (unsigned int)deltaCol;
}
/* check curremt position for treasure,
make treasure position a space,
and increment score */
if(maze[prow][pcol] == 'T')
{
maze[prow][pcol] = ' ';
score++;
}
/* check curremt position for zombie,
end game */
if(maze[prow][pcol] == 'Z')
{
break;
}
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(3));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W,prow,pcol);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W, 'P');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(3));
deltaRow =0;
deltaCol =0;
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to free allocated memory, cannot create one ourselves bc we are not wizards <justification end> */
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to free allocated memory, cannot create one ourselves bc we are not wizards <justification end> */
free(maze);
}
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
endwin();
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to print score for project, so even though not great have to use bad one <justification end> */
printf("Score = %u\n", score);
return 0;
/* LDRA_EXCLUDE 50 D <justification start> FALSE POSITIVE -- Y was statically allocated no need to free it <justification end> */
/* LDRA_EXCLUDE 50 D <justification start> FALSE POSITIVE -- Maze has been freed already valgrind shows no leaks error must have ocurred in analysis <justification end> */
}

18
CPE455/gameproject/.svn/pristine/7c/7c3fee53676f1b653f28dae1914c500198216af4.svn-base Normal file
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@ -0,0 +1,18 @@
M 12 40
########################################
# # # #
# # # #
# # # #
# # ###### ############ ### #
# # # # # #
# # # # # #
# # ###### #### ########## #
# # # #
# # # #
# # # #
########################################
T 8 15
Z 8 10
P 2 10
Z 7 24
T 2 20

113
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@ -0,0 +1,113 @@
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
// global array for maze
char **maze;
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
char chold = NULL; /* Holds character for line input from file */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
unsigned int c1 = 0;
unsigned int c2 = 0;
// check to see if
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
fscanf(mazeFile, "%3d %3d", &row, &col);
// dynamic allocation of array for maze
int i = 0, j = 0;
maze = malloc(row * sizeof(unsigned int *));
for(i = 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * sizeof(unsigned int *));
}
for (i = 0; i < row; i++)
{
for (j = 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[i][j]);
if (maze[i][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[i][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3d %3d", &k, &l);
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3d %3d", &k, &l);
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3d %3d", &k, &l);
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
for (c1 =0; c1 < row; c1++)
{
printf ("\n");
for (c2=0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
printf("%c", maze[c1][c2]);
}
}
//free the memory
int i = 0;
for(i = 0; i < row; i++)
{
free(maze[i]);
}
free(maze);
printf("\n");
return 0;
}

253
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@ -0,0 +1,253 @@
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
#include <ncurses.h>
/*nothing*/
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
WINDOW* W = 0; /* Curses Window handle */
int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8);
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
W = initscr(); /* Determine terminal type and initialize curses data structures */
start_color(); /* Enable use of color with ncurses */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
noecho(); /* Disable echo printing of chars type by user */
nodelay(W, true); /* Make getch( ) a non-blocking call */
keypad(W, true); /* Enable keypad and arrow keys */
curs_set(0); /* Set cursor to be invisible - 0 */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
init_pair(2, COLOR_RED, COLOR_BLACK); /* Red text on Black background */
init_pair(3, COLOR_WHITE, COLOR_BLUE); /* White text on Blue background */
init_pair(4, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
wmove(W, c1,c2);
waddch(W,'#');
break;
case ' ':
wmove(W, c1,c2);
waddch(W,' ');
break;
case 'P':
wmove(W, c1,c2);
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
wmove(W, c1,c2);
waddch(W,'Z');
break;
case 'T':
wmove(W, c1,c2);
waddch(W,'T');
break;
default:
break;
};
/*printw("%c", maze[c1][c2]);*/
}
}
deltaRow =0;
deltaCol =0;
do{
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == 'a' || kb == 'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == 'd' || kb == 'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == 'w' || kb == 'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == 's' || kb == 'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == 'q')
{
/* q to exit player movement loop */
break;
};
attron(COLOR_PAIR(1));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(1));
prow = prow + deltaRow;
pcol = pcol + deltaCol;
attron(COLOR_PAIR(3));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(3));
deltaRow =0;
deltaCol =0;
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
/*printw("\n");*/
endwin();
return 0;
}

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#include <ncurses.h>
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
unsigned int score = 0;
WINDOW* W = 0; /* Curses Window handle */
int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8);
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
W = initscr(); /* Determine terminal type and initialize curses data structures */
start_color(); /* Enable use of color with ncurses */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
noecho(); /* Disable echo printing of chars type by user */
if (W == NULL)
{
return 0;
}
nodelay(W, true); /* Make getch( ) a non-blocking call */
keypad(W, true); /* Enable keypad and arrow keys */
curs_set(0); /* Set cursor to be invisible - 0 */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
init_pair(2, COLOR_GREEN, COLOR_GREEN); /* Red text on Black background */
init_pair(3, COLOR_WHITE, COLOR_WHITE); /* White text on Blue background */
init_pair(4, COLOR_RED, COLOR_RED); /* Yellow text on Yellow background */
init_pair(5, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
attron(COLOR_PAIR(2));
wmove(W, c1,c2);
waddch(W,'#');
attroff(COLOR_PAIR(2));
break;
case ' ':
wmove(W, c1,c2);
waddch(W,' ');
break;
case 'P':
wmove(W, c1,c2);
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
attron(COLOR_PAIR(4));
wmove(W, c1,c2);
waddch(W,'Z');
attroff(COLOR_PAIR(4));
break;
case 'T':
attron(COLOR_PAIR(5));
wmove(W, c1,c2);
waddch(W,'T');
attroff(COLOR_PAIR(5));
break;
default:
break;
};
/*printw("%c", maze[c1][c2]);*/
}
}
deltaRow =0;
deltaCol =0;
do{
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == (int)'a' || kb == (int)'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == (int)'d' || kb == (int)'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == (int)'w' || kb == (int)'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == (int)'s' || kb == (int)'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == (int)'q')
{
/* q to exit player movement loop */
break;
};
attron(COLOR_PAIR(1));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(1));
if(((prow + (unsigned int)deltaRow) > row) || ((pcol + (unsigned int)deltaCol) > col)){
deltaRow = 0;
deltaCol = 0;
}
if(maze[((int)prow + deltaRow)][((int)pcol + deltaCol)] == '#'){
prow = prow;
pcol = pcol;
}
else{
prow = prow + (unsigned int)deltaRow;
pcol = pcol + (unsigned int)deltaCol;
}
if(maze[prow][pcol] == 'T')
{
maze[prow][pcol] = ' ';
score++;
}
if(maze[prow][pcol] == 'Z')
{
break;
}
attron(COLOR_PAIR(3));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(3));
deltaRow =0;
deltaCol =0;
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
/*printw("\n");*/
endwin();
printf("Score = %u\n", score);
return 0;
}

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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
void readPlayer(char *arr);
void readZombie(char *arr);
void readTreasure(char *arr);
// global array for maze
char **maze;
// read maze file in to the array
void readMaze(char *arr, int r, int c);
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
char chold; /* Holds character for line input from file */
int row; /* Holds number of rows for input from file */
int col; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( !feof(mazeFile) )
{
switch(shold[0])
{
case 'M':
//printf ("Maze encountered\n");
fscanf(mazeFile, "%d %d", &row, &col);
// printf("%d\n", row);
// possible dynamic allocation of 2D array
// dynamic allocation of array for maze
int i = 0, j = 0;
maze = malloc(row * sizeof(char *));
for(i = 0; i < row; i++)
{
maze[i] = malloc(col * sizeof(char));
}
for (i = 0; i < row; i++)
{
for (j = 0; j < col; j++)
{
//fscanf(mazeFile, "%c", &chold);
fscanf(mazeFile, "%c", &maze[i][j]);
if (maze[i][j] == '\n')
{
printf ("\n");
fscanf(mazeFile, "%c", &maze[i][j]);
}
printf("%c", maze[i][j]);
}
}
// printf("%c", maze[0 * col + 0]);
// for(i = 0; i < row; i++)
//{
// free(maze[i]);
//}
// free(maze);
// int (*maze)[col] = malloc(sizeof(int[row][col]));
//readMaze(maze, row, col);
break;
case 'P':
//case for player
//printf ("Player\n");
fscanf(mazeFile, "%d %d", &row, &col);
maze[row][col] = 'P';
//printf("%c" , maze[row][col]);
//printf("%d\n", row);
// possible dynamic allocation of 2D array
// char* player = malloc((row * col) * sizeof(char));
// readPlayer(player);
break;
case 'Z':
//case for zombie
printf ("Zombie\n");
fscanf(mazeFile, "%d %d", &row, &col);
printf("%d\n", row);
// possible dynamic allocation of 2D array
// char* zombie = malloc((row * col) * sizeof(char));
// readZombie(zombie);
break;
case 'T':
//case for treasure
printf ("Treasure\n");
fscanf(mazeFile, "%d %d", &row, &col);
printf("%d\n", row);
// possible dynamic allocation of 2D array
// char* treasure = malloc((row * col) * sizeof(char));
// readTreasure(treasure);
break;
case '\n':
printf("\n");
break;
default:
//printf ("Basic error\n");
break;
};
// for(int i=0;i<row;i++)
// {
// for(int j=0;j<col;j++)
// {
// if(fscanf == #) //if file has #
// {
// maze[i][j] = #;
// }
// else
// {
// maze[i][j] = " ";
// }
// }
//}
fgets(shold, 2, mazeFile);
if (feof(mazeFile))
{
break;
}
}
fclose(mazeFile);
//printf ("So this line won't print without an argument.\n");
//free the memory
// free(maze);
return 0;
}
void readMaze(char *arr, int row, int col)
{
}
void readPlayer(char *arr)
{
}
void readZombie(char *arr)
{
}
void readTreasure(char *arr)
{
}

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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
// global array for maze
char **maze;
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
char chold = NULL; /* Holds character for line input from file */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
unsigned int c1 = 0;
unsigned int c2 = 0;
// check to see if
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
fscanf(mazeFile, "%3d %3d", &row, &col);
// dynamic allocation of array for maze
unsigned int i = 0, j = 0;
maze = malloc(row * sizeof(unsigned int *));
for(i = 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * sizeof(unsigned int *));
}
for (i = 0; i < row; i++)
{
for (j = 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[i][j]);
if (maze[i][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[i][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3d %3d", &k, &l);
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3d %3d", &k, &l);
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3d %3d", &k, &l);
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
for (c1 =0; c1 < row; c1++)
{
printf ("\n");
for (c2=0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
printf("%c", maze[c1][c2]);
}
}
//free the memory
unsigned int i = 0;
for(i = 0; i < row; i++)
{
free(maze[i]);
}
free(maze);
printf("\n");
return 0;
}

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#include <ncurses.h>
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
extern WINDOW* initscr(void);
extern int start_color(void);
extern int noecho(void);
/* LDRA_EXCLUDE RULE VIOLATION <justification start> FALSE POSITIVE -- why <justification end> */
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
unsigned int score = 0;
WINDOW* W = 0; /* Curses Window handle */
unsigned int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to open the file so must use bad one bc we cannot create one ourselves as we are not wizards <justification end> */
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to get first char from file and we must use bad one as we cannot make one ourselves <justification end> */
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to scan content from file, have ensured we will not scan extra <justification end> */
fscanf(mazeFile, "%3u %3u", &row, &col);
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Have to use function to dynamically allocate memory even though all are named bad as no other ones exist <justification end> */
maze = (char**)malloc(row * 8); /* */
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Have to use function to dynamically allocate memory even though all are named bad as no other ones exist <justification end> */
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to scan content from file, have ensured we will not scan extra <justification end> */
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to scan content from file, have ensured we will not scan extra <justification end> */
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to scan content from file, have ensured we will not scan extra <justification end> */
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to scan content from file, have ensured we will not scan extra <justification end> */
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to scan content from file, have ensured we will not scan extra <justification end> */
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to scan content from file, have ensured we will not scan extra <justification end> */
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
rowLimit = row;
colLimit = col;
fclose(mazeFile);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
W = initscr(); /* Determine terminal type and initialize curses data structures */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
start_color(); /* Enable use of color with ncurses */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
noecho(); /* Disable echo printing of chars type by user */
if (W == NULL)
{
return 0;
}
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
nodelay(W, true); /* Make getch( ) a non-blocking call */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
keypad(W, true); /* Enable keypad and arrow keys */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
curs_set(0); /* Set cursor to be invisible - 0 */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(2, COLOR_GREEN, COLOR_GREEN); /* Red text on Black background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(3, COLOR_WHITE, COLOR_WHITE); /* White text on Blue background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(4, COLOR_RED, COLOR_RED); /* Yellow text on Yellow background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(5, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(2));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'#');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(2));
break;
case ' ':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,' ');
break;
case 'P':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(4));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'Z');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(4));
break;
case 'T':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(5));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'T');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(5));
break;
default:
break;
};
}
}
deltaRow =0;
deltaCol =0;
do{
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == (int)'a' || kb == (int)'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == (int)'d' || kb == (int)'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == (int)'w' || kb == (int)'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == (int)'s' || kb == (int)'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == (int)'q')
{
/* q to exit player movement loop */
break;
};
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(1));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W,prow,pcol);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W, 'P');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(1));
if(((prow + (unsigned int)deltaRow) > row) || ((pcol + (unsigned int)deltaCol) > col)){
deltaRow = 0;
deltaCol = 0;
}
if(maze[((int)prow + deltaRow)][((int)pcol + deltaCol)] == '#'){
prow = prow;
pcol = pcol;
}
else{
prow = prow + (unsigned int)deltaRow;
pcol = pcol + (unsigned int)deltaCol;
}
if(maze[prow][pcol] == 'T')
{
maze[prow][pcol] = ' ';
score++;
}
if(maze[prow][pcol] == 'Z')
{
break;
}
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(3));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W,prow,pcol);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W, 'P');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(3));
deltaRow =0;
deltaCol =0;
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to free allocated memory, cannot create one ourselves bc we are not wizards <justification end> */
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to free allocated memory, cannot create one ourselves bc we are not wizards <justification end> */
free(maze);
}
/*printw("\n");*/
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
endwin();
/* LDRA_EXCLUDE 44 S <justification start> FALSE POSITIVE -- Need function to print score for project, so even though not great have to use bad one <justification end> */
printf("Score = %u\n", score);
return 0;
/* LDRA_EXCLUDE 50 D <justification start> FALSE POSITIVE -- Y was statically allocated no need to free it <justification end> */
/* LDRA_EXCLUDE 50 D <justification start> FALSE POSITIVE -- Maze has been freed already valgrind shows no leaks error must have ocurred in analysis <justification end> */
}

118
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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
// global array for maze
char **maze;
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
char chold; /* Holds character for line input from file */
int row; /* Holds number of rows for input from file */
int col; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
int l;
int k;
int c1;
int c2;
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( !feof(mazeFile) )
{
switch(shold[0])
{
case 'M':
//printf ("Maze encountered\n");
fscanf(mazeFile, "%d %d", &row, &col);
// printf("%d\n", row);
// possible dynamic allocation of 2D array
// dynamic allocation of array for maze
int i = 0, j = 0;
maze = malloc(row * sizeof(char *));
for(i = 0; i < row; i++)
{
maze[i] = malloc(col * sizeof(char));
}
for (i = 0; i < row; i++)
{
for (j = 0; j < col; j++)
{
//fscanf(mazeFile, "%c", &chold);
fscanf(mazeFile, "%c", &maze[i][j]);
if (maze[i][j] == '\n')
{
printf ("\n");
fscanf(mazeFile, "%c", &maze[i][j]);
}
printf("%c", maze[i][j]);
}
}
break;
case 'P':
fscanf(mazeFile, "%d %d", &k, &l);
maze[k][l] = 'P';
printf("%c" , maze[k][l]);
break;
case 'Z':
fscanf(mazeFile, "%d %d", &k, &l);
maze[k][l] = 'Z';
printf("%c" , maze[k][l]);
break;
case 'T':
//case for treasure
printf ("Treasure\n");
fscanf(mazeFile, "%d %d", &k, &l);
maze[k][l] = 'T';
printf("%c" , maze[k][l]);
break;
case '\n':
printf("\n");
break;
default:
//printf ("Basic error\n");
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile))
{
break;
}
}
fclose(mazeFile);
for (c1 =0; c1 < row; c1++)
{
printf ("\n");
for (c2=0; c2 < col; c2++)
{
printf("%c", maze[c1][c2]);
}
}
//printf ("So this line won't print without an argument.\n");
//free the memory
int i = 0;
for(i = 0; i < row; i++)
free(maze[i]);
free(maze);
printf("\n");
return 0;
}

113
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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
// global array for maze
char **maze;
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
char chold = NULL; /* Holds character for line input from file */
int row = 0; /* Holds number of rows for input from file */
int col = 0; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
int l = 0;
int k = 0;
int c1 = 0;
int c2 = 0;
// check to see if
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( !feof(mazeFile) )
{
switch(shold[0])
{
case 'M':
fscanf(mazeFile, "%3d %3d", &row, &col);
// dynamic allocation of array for maze
int i = 0, j = 0;
maze = malloc(row * sizeof(unsigned int *));
for(i = 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * sizeof(unsigned int *));
}
for (i = 0; i < row; i++)
{
for (j = 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[i][j]);
if (maze[i][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[i][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3d %3d", &k, &l);
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3d %3d", &k, &l);
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3d %3d", &k, &l);
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile))
{
break;
}
}
fclose(mazeFile);
for (c1 =0; c1 < row; c1++)
{
printf ("\n");
for (c2=0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
printf("%c", maze[c1][c2]);
}
}
//free the memory
int i = 0;
for(i = 0; i < row; i++)
{
free(maze[i]);
}
free(maze);
printf("\n");
return 0;
}

254
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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
#include <ncurses.h>
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
WINDOW* W = 0; /* Curses Window handle */
int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8);
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
W = initscr(); /* Determine terminal type and initialize curses data structures */
start_color(); /* Enable use of color with ncurses */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
noecho(); /* Disable echo printing of chars type by user */
nodelay(W, true); /* Make getch( ) a non-blocking call */
keypad(W, true); /* Enable keypad and arrow keys */
curs_set(0); /* Set cursor to be invisible - 0 */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
init_pair(2, COLOR_RED, COLOR_BLACK); /* Red text on Black background */
init_pair(3, COLOR_WHITE, COLOR_BLUE); /* White text on Blue background */
init_pair(4, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
wmove(W, c1,c2);
waddch(W,'#');
break;
case ' ':
wmove(W, c1,c2);
waddch(W,' ');
break;
case 'P':
wmove(W, c1,c2);
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
wmove(W, c1,c2);
waddch(W,'Z');
break;
case 'T':
wmove(W, c1,c2);
waddch(W,'T');
break;
default:
break;
};
/*printw("%c", maze[c1][c2]);*/
}
}
prow = rowLimit/4;
pcol = colLimit/4;
deltaRow =0;
deltaCol =0;
do{
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == 'a' || kb == 'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == 'd' || kb == 'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == 'w' || kb == 'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == 's' || kb == 'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == 'q')
{
/* q to exit player movement loop */
break;
};
attron(COLOR_PAIR(1));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(1));
prow = prow + deltaRow;
pcol = pcol + deltaCol;
attron(COLOR_PAIR(1));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(1));
deltaRow =0;
deltaCol =0;
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
/*printw("\n");*/
endwin();
return 0;
}

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M 12 40
########################################
# # # #
# # # #
# # # #
# # ###### ############ ### #
# # # # # #
# # # # # #
# # ###### #### ########## #
# # # #
# # # #
# # # #
########################################
P 2 10
Z 8 10

27
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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
int main(int argc, char const *argv[])
{
printf("Hello, World!\n");
FILE* mazeFile; /* Maze Input File */
char c; /* Holds character for line input from file */
int row; /* Holds number of rows for input from file */
int col; /* Holds number of cols for input from file */
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fclose(mazeFile);
printf ("So this line won't print without an argument.\n");
return 0;
}

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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
void readPlayer(char *arr);
void readZombie(char *arr);
void readTreasure(char *arr);
// global array for maze
char **maze;
// read maze file in to the array
void readMaze(char *arr, int r, int c);
int main(int argc, char *argv[])
{
printf("Hello, World!\n");
FILE* mazeFile; /* Maze Input File */
char c; /* Holds character for line input from file */
int row; /* Holds number of rows for input from file */
int col; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( !feof(mazeFile) )
{
switch(shold[0])
{
case 'M':
printf ("Maze encountered\n");
fscanf(mazeFile, "%d %d", &row, &col);
printf("%d\n", row);
// possible dynamic allocation of 2D array
// dynamic allocation of array for maze
int i = 0, j = 0;
maze = malloc(row * sizeof(char *));
for(i = 0; i < row; i++)
maze[i] = malloc(col * sizeof(char));
for (i = 0; i < row; i++)
{
for (j = 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[i][j]);
printf("%c", maze[i][j]);
}
}
printf("%c", maze[0 * col + 0]);
for(i = 0; i < row; i++)
free(maze[i]);
free(maze);
//int (*maze)[col] = malloc(sizeof(int[row][col]));
//readMaze(maze, row, col);
break;
case 'P':
//case for player
printf ("Player\n");
fscanf(mazeFile, "%d %d", &row, &col);
printf("%d\n", row);
// possible dynamic allocation of 2D array
char* player = malloc((row * col) * sizeof(char));
readPlayer(player);
break;
case 'Z':
//case for zombie
printf ("Zombie\n");
fscanf(mazeFile, "%d %d", &row, &col);
printf("%d\n", row);
// possible dynamic allocation of 2D array
char* zombie = malloc((row * col) * sizeof(char));
readZombie(zombie);
break;
case 'T':
//case for treasure
printf ("Treasure\n");
fscanf(mazeFile, "%d %d", &row, &col);
printf("%d\n", row);
// possible dynamic allocation of 2D array
char* treasure = malloc((row * col) * sizeof(char));
readTreasure(treasure);
break;
default:
//printf ("Basic error\n");
break;
};
// for(int i=0;i<row;i++)
// {
// for(int j=0;j<col;j++)
// {
// if(fscanf == #) //if file has #
// {
// maze[i][j] = #;
// }
// else
// {
// maze[i][j] = " ";
// }
// }
//}
// fgets(shold, 2, mazeFile);
// if (feof(mazeFile))
// {
// break;
//}
}
fclose(mazeFile);
//printf ("So this line won't print without an argument.\n");
//free the memory
// free(maze);
return 0;
}
void readMaze(char *arr, int row, int col)
{
}
void readPlayer(char *arr)
{
}
void readZombie(char *arr)
{
}
void readTreasure(char *arr)
{
}

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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
#include <ncurses.h>
/*nothing*/
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
WINDOW* W = 0; /* Curses Window handle */
int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8);
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
W = initscr(); /* Determine terminal type and initialize curses data structures */
start_color(); /* Enable use of color with ncurses */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
noecho(); /* Disable echo printing of chars type by user */
nodelay(W, true); /* Make getch( ) a non-blocking call */
keypad(W, true); /* Enable keypad and arrow keys */
curs_set(0); /* Set cursor to be invisible - 0 */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
init_pair(2, COLOR_GREEN, COLOR_GREEN); /* Red text on Black background */
init_pair(3, COLOR_WHITE, COLOR_WHITE); /* White text on Blue background */
init_pair(4, COLOR_RED, COLOR_RED); /* Yellow text on Yellow background */
init_pair(5, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
attron(COLOR_PAIR(2));
wmove(W, c1,c2);
waddch(W,'#');
attroff(COLOR_PAIR(2));
break;
case ' ':
wmove(W, c1,c2);
waddch(W,' ');
break;
case 'P':
wmove(W, c1,c2);
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
attron(COLOR_PAIR(4));
wmove(W, c1,c2);
waddch(W,'Z');
attroff(COLOR_PAIR(4));
break;
case 'T':
attron(COLOR_PAIR(5));
wmove(W, c1,c2);
waddch(W,'T');
attroff(COLOR_PAIR(5));
break;
default:
break;
};
/*printw("%c", maze[c1][c2]);*/
}
}
deltaRow =0;
deltaCol =0;
do{
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == 'a' || kb == 'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == 'd' || kb == 'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == 'w' || kb == 'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == 's' || kb == 'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == 'q')
{
/* q to exit player movement loop */
break;
};
attron(COLOR_PAIR(1));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(1));
prow = prow + deltaRow;
pcol = pcol + deltaCol;
attron(COLOR_PAIR(3));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(3));
deltaRow =0;
deltaCol =0;
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
/*printw("\n");*/
endwin();
return 0;
}

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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
char chold = NULL; /* Holds character for line input from file */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; // global array for maze
unsigned int c1 = 0;
unsigned int c2 = 0;
// check to see if
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
fscanf(mazeFile, "%3d %3d", &row, &col);
// dynamic allocation of array for maze
unsigned int i = 0, j = 0;
maze = malloc(row * sizeof(unsigned int *));
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * sizeof(unsigned int *));
}
for (i = (unsigned) 0; i < row; i++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[i][j]);
if (maze[i][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[i][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3d %3d", &k, &l);
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3d %3d", &k, &l);
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3d %3d", &k, &l);
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
for (c1 =(unsigned)0; c1 < row; c1++)
{
printf ("\n");
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
printf("%c", maze[c1][c2]);
}
}
//free the memory
unsigned int i = 0;
for(i = (unsigned)0; i < row; i++)
{
free(maze[i]);
}
if(maze != NULL){
free(maze);
}
printf("\n");
return 0;
}

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game:
gcc game.c -o game

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#include <ncurses.h>
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
/* LDRA_EXCLUDE RULE VIOLATION <justification start> FALSE POSITIVE -- why <justification end> */
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
unsigned int score = 0;
WINDOW* W = 0; /* Curses Window handle */
unsigned int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8); /* */
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
rowLimit = row;
colLimit = col;
fclose(mazeFile);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
W = initscr(); /* Determine terminal type and initialize curses data structures */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
start_color(); /* Enable use of color with ncurses */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
noecho(); /* Disable echo printing of chars type by user */
if (W == NULL)
{
return 0;
}
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
nodelay(W, true); /* Make getch( ) a non-blocking call */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
keypad(W, true); /* Enable keypad and arrow keys */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
curs_set(0); /* Set cursor to be invisible - 0 */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(2, COLOR_GREEN, COLOR_GREEN); /* Red text on Black background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(3, COLOR_WHITE, COLOR_WHITE); /* White text on Blue background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(4, COLOR_RED, COLOR_RED); /* Yellow text on Yellow background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(5, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(2));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'#');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(2));
break;
case ' ':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,' ');
break;
case 'P':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(4));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'Z');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(4));
break;
case 'T':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(5));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'T');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(5));
break;
default:
break;
};
}
}
deltaRow =0;
deltaCol =0;
do{
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == (int)'a' || kb == (int)'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == (int)'d' || kb == (int)'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == (int)'w' || kb == (int)'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == (int)'s' || kb == (int)'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == (int)'q')
{
/* q to exit player movement loop */
break;
};
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(1));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W,prow,pcol);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W, 'P');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(1));
if(((prow + (unsigned int)deltaRow) > row) || ((pcol + (unsigned int)deltaCol) > col)){
deltaRow = 0;
deltaCol = 0;
}
if(maze[((int)prow + deltaRow)][((int)pcol + deltaCol)] == '#'){
prow = prow;
pcol = pcol;
}
else{
prow = prow + (unsigned int)deltaRow;
pcol = pcol + (unsigned int)deltaCol;
}
if(maze[prow][pcol] == 'T')
{
maze[prow][pcol] = ' ';
score++;
}
if(maze[prow][pcol] == 'Z')
{
break;
}
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(3));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W,prow,pcol);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W, 'P');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(3));
deltaRow =0;
deltaCol =0;
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
/*printw("\n");*/
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 41 D <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
endwin();
printf("Score = %u\n", score);
return 0;
}

124
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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
char chold = NULL; /* Holds character for line input from file */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; // global array for maze
unsigned int c1 = 0;
unsigned int c2 = 0;
// check to see if
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
fscanf(mazeFile, "%3d %3d", &row, &col);
// dynamic allocation of array for maze
unsigned int i = 0, j = 0;
maze = (char**)malloc(row * sizeof(unsigned int *));
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = (char*)malloc(col * sizeof(unsigned int *));
}
for (i = (unsigned) 0; i < row; i++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[i][j]);
if (maze[i][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[i][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3d %3d", &k, &l);
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3d %3d", &k, &l);
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3d %3d", &k, &l);
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
for (c1 =(unsigned)0; c1 < row; c1++)
{
printf ("\n");
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
printf("%c", maze[c1][c2]);
}
}
//free the memory
unsigned int i = 0;
for(i = (unsigned)0; i < row; i++)
{
free(maze[i]);
maze[i] = NULL;
}
if(maze != NULL){
free(maze);
}
printf("\n");
return 0;
}

128
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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <ncurses.h>
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
/* check to see if argument */
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
unsigned int i = 0, j = 0;
maze = (char**)malloc(row * 8);
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (i = (unsigned) 0; i < row; i++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[i][j]);
if (maze[i][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[i][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
/* print out maze */
for (c1 =(unsigned)0; c1 < row; c1++)
{
printf ("\n");
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
printf("%c", maze[c1][c2]);
}
}
/* free the memory */
unsigned int i = 0;
for(i = (unsigned)0; i < row; i++)
{
free(maze[i]);
maze[i] = NULL;
}
if(maze != NULL){
free(maze);
}
printf("\n");
return 0;
}

134
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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
#include <ncurses.h>
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
WINDOW* W = 0; /* Curses Window handle */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8);
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
/*printw("%c", maze[c1][c2]);*/
}
}
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
/*printw("\n");*/
return 0;
}

176
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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
void readPlayer(char *arr);
void readZombie(char *arr);
void readTreasure(char *arr);
// global array for maze
char **maze;
// read maze file in to the array
void readMaze(char *arr, int r, int c);
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
char chold; /* Holds character for line input from file */
int row; /* Holds number of rows for input from file */
int col; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
int l;
int k;
int c1;
int c2;
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( !feof(mazeFile) )
{
switch(shold[0])
{
case 'M':
//printf ("Maze encountered\n");
fscanf(mazeFile, "%d %d", &row, &col);
// printf("%d\n", row);
// possible dynamic allocation of 2D array
// dynamic allocation of array for maze
int i = 0, j = 0;
maze = malloc(row * sizeof(char *));
for(i = 0; i < row; i++)
{
maze[i] = malloc(col * sizeof(char));
}
for (i = 0; i < row; i++)
{
for (j = 0; j < col; j++)
{
//fscanf(mazeFile, "%c", &chold);
fscanf(mazeFile, "%c", &maze[i][j]);
if (maze[i][j] == '\n')
{
printf ("\n");
fscanf(mazeFile, "%c", &maze[i][j]);
}
printf("%c", maze[i][j]);
}
}
// printf("%c", maze[0 * col + 0]);
// for(i = 0; i < row; i++)
//{
// free(maze[i]);
//}
// free(maze);
// int (*maze)[col] = malloc(sizeof(int[row][col]));
//readMaze(maze, row, col);
break;
case 'P':
//case for player
//printf ("Player\n");
fscanf(mazeFile, "%d %d", &k, &l);
maze[k][l] = 'P';
printf("%c" , maze[k][l]);
//printf("%d\n", row);
// possible dynamic allocation of 2D array
// char* player = malloc((row * col) * sizeof(char));
// readPlayer(player);
break;
case 'Z':
//case for zombie
printf ("Zombie\n");
fscanf(mazeFile, "%d %d", &row, &col);
printf("%d\n", row);
// possible dynamic allocation of 2D array
// char* zombie = malloc((row * col) * sizeof(char));
// readZombie(zombie);
break;
case 'T':
//case for treasure
printf ("Treasure\n");
fscanf(mazeFile, "%d %d", &row, &col);
printf("%d\n", row);
// possible dynamic allocation of 2D array
// char* treasure = malloc((row * col) * sizeof(char));
// readTreasure(treasure);
break;
case '\n':
printf("\n");
break;
default:
//printf ("Basic error\n");
break;
};
// for(int i=0;i<row;i++)
// {
// for(int j=0;j<col;j++)
// {
// if(fscanf == #) //if file has #
// {
// maze[i][j] = #;
// }
// else
// {
// maze[i][j] = " ";
// }
// }
//}
fgets(shold, 2, mazeFile);
if (feof(mazeFile))
{
break;
}
}
fclose(mazeFile);
for (c1 =0; c1 < row; c1++)
{
printf ("\n");
for (c2=0; c2 < col; c2++)
{
printf("%c", maze[c1][c2]);
}
}
//printf ("So this line won't print without an argument.\n");
//free the memory
// free(maze);
return 0;
}
void readMaze(char *arr, int row, int col)
{
}
void readPlayer(char *arr)
{
}
void readZombie(char *arr)
{
}
void readTreasure(char *arr)
{
}

46
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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
int main(int argc, char const *argv[])
{
printf("Hello, World!\n");
FILE* mazeFile; /* Maze Input File */
char c; /* Holds character for line input from file */
int row; /* Holds number of rows for input from file */
int col; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( !feof(mazeFile) )
{
switch(shold[0])
{
case 'M':
printf ("Maze encountered\n");
break;
default:
printf ("Basic error\n");
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile))
{
break;
}
}
fclose(mazeFile);
printf ("So this line won't print without an argument.\n");
return 0;
}

39
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M 22 75
###########################################################################
# # #
# # #
# # #
# ################## # #
# # # #
# # # #
# # ############ # # #
# # # # # # #
# # # # # #
# # # # # #
# # # # # #
# # # # # #
# # # # # #
# # # # # #
# # # #
# # # #
# ######################### #
# # #
# # #
# # #
###########################################################################
P 10 30
Z 19 5
Z 19 10
Z 19 15
T 5 43
T 10 43
T 15 43
Z 2 5
Z 2 10
Z 2 15
T 5 55
T 10 55
T 15 55
T 5 67
T 10 67
T 15 67

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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
#include <ncurses.h>
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
WINDOW* W = 0; /* Curses Window handle */
/* check to see if argument */
if (argc != 2)
{
printw("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printw("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8);
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
/* Initialize ncurses -- you will want to use the following settings */
W = initscr(); /* Determine terminal type and initialize curses data structures */
start_color(); /* Enable use of color with ncurses */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
noecho(); /* Disable echo printing of chars type by user */
nodelay(W, true); /* Make getch( ) a non-blocking call */
keypad(W, true); /* Enable keypad and arrow keys */
curs_set(0); /* Set cursor to be invisible - 0 */
getmaxyx(W, row, col); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
init_pair(2, COLOR_RED, COLOR_BLACK); /* Red text on Black background */
init_pair(3, COLOR_WHITE, COLOR_BLUE); /* White text on Blue background */
init_pair(4, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
printw ("\n");
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
printw("%c", maze[c1][c2]);
}
}
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
printw("\n");
return 0;
}

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#include <ncurses.h>
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
WINDOW *initscr(void);
int start_color(void);
int cbreak(void);
int noecho(void);
int nodelay(WINDOW *win, bool bf);
int keypad(WINDOW *win, bool bf);
int curs_set(int visibility);
/*void getmaxyx(WINDOW *win, int y, int x); */
int init_pair(short pair, short f, short b);
/*int attron(int attrs);
int COLOR_PAIR(int n);
int wmove(WINDOW *win, int y, int x);
nothing*/
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
unsigned int score = 0;
WINDOW* W = 0; /* Curses Window handle */
int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8);
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
W = initscr(); /* Determine terminal type and initialize curses data structures */
start_color(); /* Enable use of color with ncurses */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
noecho(); /* Disable echo printing of chars type by user */
if (W == NULL)
{
return 0;
}
nodelay(W, true); /* Make getch( ) a non-blocking call */
keypad(W, true); /* Enable keypad and arrow keys */
curs_set(0); /* Set cursor to be invisible - 0 */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
init_pair(2, COLOR_GREEN, COLOR_GREEN); /* Red text on Black background */
init_pair(3, COLOR_WHITE, COLOR_WHITE); /* White text on Blue background */
init_pair(4, COLOR_RED, COLOR_RED); /* Yellow text on Yellow background */
init_pair(5, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
attron(COLOR_PAIR(2));
wmove(W, c1,c2);
waddch(W,'#');
attroff(COLOR_PAIR(2));
break;
case ' ':
wmove(W, c1,c2);
waddch(W,' ');
break;
case 'P':
wmove(W, c1,c2);
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
attron(COLOR_PAIR(4));
wmove(W, c1,c2);
waddch(W,'Z');
attroff(COLOR_PAIR(4));
break;
case 'T':
attron(COLOR_PAIR(5));
wmove(W, c1,c2);
waddch(W,'T');
attroff(COLOR_PAIR(5));
break;
default:
break;
};
/*printw("%c", maze[c1][c2]);*/
}
}
deltaRow =0;
deltaCol =0;
do{
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == (int)'a' || kb == (int)'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == (int)'d' || kb == (int)'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == (int)'w' || kb == (int)'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == (int)'s' || kb == (int)'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == (int)'q')
{
/* q to exit player movement loop */
break;
};
attron(COLOR_PAIR(1));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(1));
if(((prow + (unsigned int)deltaRow) > row) || ((pcol + (unsigned int)deltaCol) > col)){
deltaRow = 0;
deltaCol = 0;
}
if(maze[((int)prow + deltaRow)][((int)pcol + deltaCol)] == '#'){
prow = prow;
pcol = pcol;
}
else{
prow = prow + (unsigned int)deltaRow;
pcol = pcol + (unsigned int)deltaCol;
}
if(maze[prow][pcol] == 'T')
{
maze[prow][pcol] = ' ';
score++;
}
if(maze[prow][pcol] == 'Z')
{
break;
}
attron(COLOR_PAIR(3));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(3));
deltaRow =0;
deltaCol =0;
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
/*printw("\n");*/
endwin();
printf("Score = %u\n", score);
return 0;
}

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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <ncurses.h>
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0, j = 0;
/* check to see if argument */
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8);
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (i = (unsigned) 0; i < row; i++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[i][j]);
if (maze[i][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[i][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
/* print out maze */
for (c1 =(unsigned)0; c1 < row; c1++)
{
printf ("\n");
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
printf("%c", maze[c1][c2]);
}
}
/* free the memory */
for(i = (unsigned)0; i < row; i++)
{
free(maze[i]);
maze[i] = NULL;
}
if(maze != NULL){
free(maze);
}
printf("\n");
return 0;
}

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#include <ncurses.h>
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
/* LDRA_EXCLUDE RULE VIOLATION <justification start> FALSE POSITIVE -- why <justification end> */
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
unsigned int score = 0;
WINDOW* W = 0; /* Curses Window handle */
unsigned int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8); /* */
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
rowLimit = row;
colLimit = col;
fclose(mazeFile);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
W = initscr(); /* Determine terminal type and initialize curses data structures */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
start_color(); /* Enable use of color with ncurses */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
noecho(); /* Disable echo printing of chars type by user */
if (W == NULL)
{
return 0;
}
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
nodelay(W, true); /* Make getch( ) a non-blocking call */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
keypad(W, true); /* Enable keypad and arrow keys */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
curs_set(0); /* Set cursor to be invisible - 0 */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(2, COLOR_GREEN, COLOR_GREEN); /* Red text on Black background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(3, COLOR_WHITE, COLOR_WHITE); /* White text on Blue background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(4, COLOR_RED, COLOR_RED); /* Yellow text on Yellow background */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
init_pair(5, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(2));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'#');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(2));
break;
case ' ':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,' ');
break;
case 'P':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(4));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'Z');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(4));
break;
case 'T':
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(5));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W, c1,c2);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W,'T');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(5));
break;
default:
break;
};
}
}
deltaRow =0;
deltaCol =0;
do{
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == (int)'a' || kb == (int)'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == (int)'d' || kb == (int)'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == (int)'w' || kb == (int)'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == (int)'s' || kb == (int)'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == (int)'q')
{
/* q to exit player movement loop */
break;
};
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(1));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W,prow,pcol);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W, 'P');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(1));
if(((prow + (unsigned int)deltaRow) > row) || ((pcol + (unsigned int)deltaCol) > col)){
deltaRow = 0;
deltaCol = 0;
}
if(maze[((int)prow + deltaRow)][((int)pcol + deltaCol)] == '#'){
prow = prow;
pcol = pcol;
}
else{
prow = prow + (unsigned int)deltaRow;
pcol = pcol + (unsigned int)deltaCol;
}
if(maze[prow][pcol] == 'T')
{
maze[prow][pcol] = ' ';
score++;
}
if(maze[prow][pcol] == 'Z')
{
break;
}
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attron(COLOR_PAIR(3));
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wmove(W,prow,pcol);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
waddch(W, 'P');
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
attroff(COLOR_PAIR(3));
deltaRow =0;
deltaCol =0;
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
/*printw("\n");*/
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
/* LDRA_EXCLUDE 496 S <justification start> FALSE POSITIVE -- needed for ncurses <justification end> */
endwin();
printf("Score = %u\n", score);
return 0;
}

290
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#include <ncurses.h>
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
WINDOW *initscr(void);
int start_color(void);
int cbreak(void);
int noecho(void);
int nodelay(WINDOW *win, bool bf);
int keypad(WINDOW *win, bool bf);
int curs_set(int visibility);
/*void getmaxyx(WINDOW *win, int y, int x); */
int init_pair(short pair, short f, short b);
/*int attron(int attrs);
int COLOR_PAIR(int n);
int wmove(WINDOW *win, int y, int x);
nothing*/
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
unsigned int score = 0;
WINDOW* W = 0; /* Curses Window handle */
int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8);
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
W = initscr(); /* Determine terminal type and initialize curses data structures */
start_color(); /* Enable use of color with ncurses */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
noecho(); /* Disable echo printing of chars type by user */
nodelay(W, true); /* Make getch( ) a non-blocking call */
keypad(W, true); /* Enable keypad and arrow keys */
curs_set(0); /* Set cursor to be invisible - 0 */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
init_pair(2, COLOR_GREEN, COLOR_GREEN); /* Red text on Black background */
init_pair(3, COLOR_WHITE, COLOR_WHITE); /* White text on Blue background */
init_pair(4, COLOR_RED, COLOR_RED); /* Yellow text on Yellow background */
init_pair(5, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
attron(COLOR_PAIR(2));
wmove(W, c1,c2);
waddch(W,'#');
attroff(COLOR_PAIR(2));
break;
case ' ':
wmove(W, c1,c2);
waddch(W,' ');
break;
case 'P':
wmove(W, c1,c2);
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
attron(COLOR_PAIR(4));
wmove(W, c1,c2);
waddch(W,'Z');
attroff(COLOR_PAIR(4));
break;
case 'T':
attron(COLOR_PAIR(5));
wmove(W, c1,c2);
waddch(W,'T');
attroff(COLOR_PAIR(5));
break;
default:
break;
};
/*printw("%c", maze[c1][c2]);*/
}
}
deltaRow =0;
deltaCol =0;
do{
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == (int)'a' || kb == (int)'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == (int)'d' || kb == (int)'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == (int)'w' || kb == (int)'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == (int)'s' || kb == (int)'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == (int)'q')
{
/* q to exit player movement loop */
break;
};
attron(COLOR_PAIR(1));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(1));
if(((prow + deltaRow) > row) || ((pcol + deltaCol) > col)){
deltaRow = 0;
deltaCol = 0;
}
if(maze[prow + deltaRow][pcol + deltaCol] == '#'){
prow = prow;
pcol = pcol;
}
else{
prow = prow + deltaRow;
pcol = pcol + deltaCol;
}
if(maze[prow][pcol] == 'T')
{
maze[prow][pcol] = ' ';
score++;
}
if(maze[prow][pcol] == 'Z')
{
break;
}
attron(COLOR_PAIR(3));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(3));
deltaRow =0;
deltaCol =0;
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
/*printw("\n");*/
endwin();
printf("Score = %u\n", score);
return 0;
}

108
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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
// global array for maze
char **maze;
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
char chold; /* Holds character for line input from file */
int row; /* Holds number of rows for input from file */
int col; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
int l;
int k;
int c1;
int c2;
// check to see if
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( !feof(mazeFile) )
{
switch(shold[0])
{
case 'M':
fscanf(mazeFile, "%d %d", &row, &col);
// possible dynamic allocation of 2D array
// dynamic allocation of array for maze
int i = 0, j = 0;
maze = malloc(row * sizeof(char *));
for(i = 0; i < row; i++)
{
maze[i] = malloc(col * sizeof(char));
}
for (i = 0; i < row; i++)
{
for (j = 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[i][j]);
if (maze[i][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[i][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%d %d", &k, &l);
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%d %d", &k, &l);
maze[k][l] = 'Z';
printf("%c" , maze[k][l]);
break;
case 'T':
fscanf(mazeFile, "%d %d", &k, &l);
maze[k][l] = 'T';
break;
case '\n':
printf("\n");
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile))
{
break;
}
}
fclose(mazeFile);
for (c1 =0; c1 < row; c1++)
{
printf ("\n");
for (c2=0; c2 < col; c2++)
{
printf("%c", maze[c1][c2]);
}
}
//free the memory
int i = 0;
for(i = 0; i < row; i++)
free(maze[i]);
free(maze);
printf("\n");
return 0;
}

269
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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
#include <ncurses.h>
/*nothing*/
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
WINDOW* W = 0; /* Curses Window handle */
int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8);
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
W = initscr(); /* Determine terminal type and initialize curses data structures */
start_color(); /* Enable use of color with ncurses */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
noecho(); /* Disable echo printing of chars type by user */
nodelay(W, true); /* Make getch( ) a non-blocking call */
keypad(W, true); /* Enable keypad and arrow keys */
curs_set(0); /* Set cursor to be invisible - 0 */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
init_pair(2, COLOR_GREEN, COLOR_GREEN); /* Red text on Black background */
init_pair(3, COLOR_WHITE, COLOR_WHITE); /* White text on Blue background */
init_pair(4, COLOR_RED, COLOR_RED); /* Yellow text on Yellow background */
init_pair(5, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
attron(COLOR_PAIR(2));
wmove(W, c1,c2);
waddch(W,'#');
attroff(COLOR_PAIR(2));
break;
case ' ':
wmove(W, c1,c2);
waddch(W,' ');
break;
case 'P':
wmove(W, c1,c2);
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
attron(COLOR_PAIR(4));
wmove(W, c1,c2);
waddch(W,'Z');
attroff(COLOR_PAIR(4));
break;
case 'T':
attron(COLOR_PAIR(5));
wmove(W, c1,c2);
waddch(W,'T');
attroff(COLOR_PAIR(5));
break;
default:
break;
};
/*printw("%c", maze[c1][c2]);*/
}
}
deltaRow =0;
deltaCol =0;
do{
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == 'a' || kb == 'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == 'd' || kb == 'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == 'w' || kb == 'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == 's' || kb == 'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == 'q')
{
/* q to exit player movement loop */
break;
};
attron(COLOR_PAIR(1));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(1));
if((prow + deltaRow > row) || (pcol + deltaCol > col)){
deltaRow = 0;
deltaCol = 0;
}
if(maze[prow + deltaRow][pcol + deltaCol] == '#'){
prow = prow;
pcol = pcol;
}
else{
prow = prow + deltaRow;
pcol = pcol + deltaCol;
}
attron(COLOR_PAIR(3));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(3));
deltaRow =0;
deltaCol =0;
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
/*printw("\n");*/
endwin();
return 0;
}

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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
// global array for maze
char **maze;
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
char chold; /* Holds character for line input from file */
int row = 0; /* Holds number of rows for input from file */
int col = 0; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
int l = 0;
int k = 0;
int c1 = 0;
int c2 = 0;
// check to see if
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( !feof(mazeFile) )
{
switch(shold[0])
{
case 'M':
fscanf(mazeFile, "%3d %3d", &row, &col);
//
// dynamic allocation of array for maze
int i = 0, j = 0;
maze = malloc(row * sizeof(unsigned int *));
for(i = 0; i < row; i++)
{
maze[i] = malloc(col * sizeof(unsigned int *));
}
for (i = 0; i < row; i++)
{
for (j = 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[i][j]);
if (maze[i][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[i][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3d %3d", &k, &l);
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3d %3d", &k, &l);
maze[k][l] = 'Z';
printf("%c" , maze[k][l]);
break;
case 'T':
fscanf(mazeFile, "%3d %3d", &k, &l);
maze[k][l] = 'T';
break;
case '\n':
printf("\n");
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile))
{
break;
}
}
fclose(mazeFile);
for (c1 =0; c1 < row; c1++)
{
printf ("\n");
for (c2=0; c2 < col; c2++)
{
printf("%c", maze[c1][c2]);
}
}
//free the memory
int i = 0;
for(i = 0; i < row; i++)
{
free(maze[i]);
}
free(maze);
printf("\n");
return 0;
}

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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
// global array for maze
char **maze;
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
char chold; /* Holds character for line input from file */
int row = 0; /* Holds number of rows for input from file */
int col = 0; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
int l = 0;
int k = 0;
int c1 = 0;
int c2 = 0;
// check to see if
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( !feof(mazeFile) )
{
switch(shold[0])
{
case 'M':
fscanf(mazeFile, "%d %d", &row, &col);
//
// dynamic allocation of array for maze
int i = 0, j = 0;
maze = malloc(row * sizeof(unsigned int *));
for(i = 0; i < row; i++)
{
maze[i] = malloc(col * sizeof(unsigned int *));
}
for (i = 0; i < row; i++)
{
for (j = 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[i][j]);
if (maze[i][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[i][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%d %d", &k, &l);
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%d %d", &k, &l);
maze[k][l] = 'Z';
printf("%c" , maze[k][l]);
break;
case 'T':
fscanf(mazeFile, "%d %d", &k, &l);
maze[k][l] = 'T';
break;
case '\n':
printf("\n");
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile))
{
break;
}
}
fclose(mazeFile);
for (c1 =0; c1 < row; c1++)
{
printf ("\n");
for (c2=0; c2 < col; c2++)
{
printf("%c", maze[c1][c2]);
}
}
//free the memory
int i = 0;
for(i = 0; i < row; i++)
{
free(maze[i]);
}
free(maze);
printf("\n");
return 0;
}

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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
#include <ncurses.h>
WINDOW *initscr(void);
int start_color(void);
int cbreak(void);
int noecho(void);
int nodelay(WINDOW *win, bool bf);
int keypad(WINDOW *win, bool bf);
int curs_set(int visibility);
/*void getmaxyx(WINDOW *win, int y, int x); */
int init_pair(short pair, short f, short b);
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
unsigned int score = 0;
WINDOW* W = 0; /* Curses Window handle */
int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8);
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
W = initscr(); /* Determine terminal type and initialize curses data structures */
start_color(); /* Enable use of color with ncurses */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
noecho(); /* Disable echo printing of chars type by user */
nodelay(W, true); /* Make getch( ) a non-blocking call */
keypad(W, true); /* Enable keypad and arrow keys */
curs_set(0); /* Set cursor to be invisible - 0 */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
init_pair(2, COLOR_GREEN, COLOR_GREEN); /* Red text on Black background */
init_pair(3, COLOR_WHITE, COLOR_WHITE); /* White text on Blue background */
init_pair(4, COLOR_RED, COLOR_RED); /* Yellow text on Yellow background */
init_pair(5, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
attron(COLOR_PAIR(2));
wmove(W, c1,c2);
waddch(W,'#');
attroff(COLOR_PAIR(2));
break;
case ' ':
wmove(W, c1,c2);
waddch(W,' ');
break;
case 'P':
wmove(W, c1,c2);
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
attron(COLOR_PAIR(4));
wmove(W, c1,c2);
waddch(W,'Z');
attroff(COLOR_PAIR(4));
break;
case 'T':
attron(COLOR_PAIR(5));
wmove(W, c1,c2);
waddch(W,'T');
attroff(COLOR_PAIR(5));
break;
default:
break;
};
/*printw("%c", maze[c1][c2]);*/
}
}
deltaRow =0;
deltaCol =0;
do{
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == 'a' || kb == 'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == 'd' || kb == 'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == 'w' || kb == 'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == 's' || kb == 'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == 'q')
{
/* q to exit player movement loop */
break;
};
attron(COLOR_PAIR(1));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(1));
if((prow + deltaRow > row) || (pcol + deltaCol > col)){
deltaRow = 0;
deltaCol = 0;
}
if(maze[prow + deltaRow][pcol + deltaCol] == '#'){
prow = prow;
pcol = pcol;
}
else{
prow = prow + deltaRow;
pcol = pcol + deltaCol;
}
if(maze[prow][pcol] == 'T')
{
maze[prow][pcol] = ' ';
score++;
}
if(maze[prow][pcol] == 'Z')
{
break;
}
attron(COLOR_PAIR(3));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(3));
deltaRow =0;
deltaCol =0;
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
/*printw("\n");*/
endwin();
printf("Score = %u\n", score);
return 0;
}

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#include <ncurses.h>
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
/* LDRA_EXCLUDE RULE VIOLATION <justification start> FALSE POSITIVE -- why <justification end> */
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
unsigned int score = 0;
WINDOW* W = 0; /* Curses Window handle */
unsigned int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8); /* */
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
rowLimit = row;
colLimit = col;
fclose(mazeFile);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- why <justification end> */
W = initscr(); /* Determine terminal type and initialize curses data structures */
start_color(); /* Enable use of color with ncurses */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
noecho(); /* Disable echo printing of chars type by user */
if (W == NULL)
{
return 0;
}
nodelay(W, true); /* Make getch( ) a non-blocking call */
keypad(W, true); /* Enable keypad and arrow keys */
curs_set(0); /* Set cursor to be invisible - 0 */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
init_pair(2, COLOR_GREEN, COLOR_GREEN); /* Red text on Black background */
init_pair(3, COLOR_WHITE, COLOR_WHITE); /* White text on Blue background */
init_pair(4, COLOR_RED, COLOR_RED); /* Yellow text on Yellow background */
init_pair(5, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
attron(COLOR_PAIR(2));
wmove(W, c1,c2);
waddch(W,'#');
attroff(COLOR_PAIR(2));
break;
case ' ':
wmove(W, c1,c2);
waddch(W,' ');
break;
case 'P':
wmove(W, c1,c2);
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
attron(COLOR_PAIR(4));
wmove(W, c1,c2);
waddch(W,'Z');
attroff(COLOR_PAIR(4));
break;
case 'T':
attron(COLOR_PAIR(5));
wmove(W, c1,c2);
waddch(W,'T');
attroff(COLOR_PAIR(5));
break;
default:
break;
};
}
}
deltaRow =0;
deltaCol =0;
do{
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == (int)'a' || kb == (int)'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == (int)'d' || kb == (int)'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == (int)'w' || kb == (int)'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == (int)'s' || kb == (int)'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == (int)'q')
{
/* q to exit player movement loop */
break;
};
attron(COLOR_PAIR(1));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(1));
if(((prow + (unsigned int)deltaRow) > row) || ((pcol + (unsigned int)deltaCol) > col)){
deltaRow = 0;
deltaCol = 0;
}
if(maze[((int)prow + deltaRow)][((int)pcol + deltaCol)] == '#'){
prow = prow;
pcol = pcol;
}
else{
prow = prow + (unsigned int)deltaRow;
pcol = pcol + (unsigned int)deltaCol;
}
if(maze[prow][pcol] == 'T')
{
maze[prow][pcol] = ' ';
score++;
}
if(maze[prow][pcol] == 'Z')
{
break;
}
attron(COLOR_PAIR(3));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(3));
deltaRow =0;
deltaCol =0;
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
/*printw("\n");*/
endwin();
printf("Score = %u\n", score);
return 0;
}

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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
#include <ncurses.h>
/*nothing*/
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
WINDOW* W = 0; /* Curses Window handle */
int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8);
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
W = initscr(); /* Determine terminal type and initialize curses data structures */
start_color(); /* Enable use of color with ncurses */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
noecho(); /* Disable echo printing of chars type by user */
nodelay(W, true); /* Make getch( ) a non-blocking call */
keypad(W, true); /* Enable keypad and arrow keys */
curs_set(0); /* Set cursor to be invisible - 0 */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
init_pair(2, COLOR_RED, COLOR_BLACK); /* Red text on Black background */
init_pair(3, COLOR_WHITE, COLOR_BLUE); /* White text on Blue background */
init_pair(4, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
wmove(W, c1,c2);
waddch(W,'#');
break;
case ' ':
wmove(W, c1,c2);
waddch(W,' ');
break;
case 'P':
wmove(W, c1,c2);
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
wmove(W, c1,c2);
waddch(W,'Z');
break;
case 'T':
wmove(W, c1,c2);
waddch(W,'T');
break;
default:
break;
};
/*printw("%c", maze[c1][c2]);*/
}
}
prow = rowLimit/4;
pcol = colLimit/4;
deltaRow =0;
deltaCol =0;
do{
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == 'a' || kb == 'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == 'd' || kb == 'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == 'w' || kb == 'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == 's' || kb == 'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == 'q')
{
/* q to exit player movement loop */
break;
};
attron(COLOR_PAIR(1));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(1));
prow = prow + deltaRow;
pcol = pcol + deltaCol;
attron(COLOR_PAIR(1));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(1));
deltaRow =0;
deltaCol =0;
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
/*printw("\n");*/
endwin();
return 0;
}

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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
char chold = NULL; /* Holds character for line input from file */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; // global array for maze
unsigned int c1 = 0;
unsigned int c2 = 0;
// check to see if
if (argc != 2)
{
printf("An error has ocurred no input file was given.\n");
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
printf("Error in opening the file.\n");
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
fscanf(mazeFile, "%3d %3d", &row, &col);
// dynamic allocation of array for maze
unsigned int i = 0, j = 0;
maze = (char**)malloc(row * sizeof(unsigned int *));
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * sizeof(unsigned int *));
}
for (i = (unsigned) 0; i < row; i++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[i][j]);
if (maze[i][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[i][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3d %3d", &k, &l);
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3d %3d", &k, &l);
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3d %3d", &k, &l);
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
for (c1 =(unsigned)0; c1 < row; c1++)
{
printf ("\n");
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
printf("%c", maze[c1][c2]);
}
}
//free the memory
unsigned int i = 0;
for(i = (unsigned)0; i < row; i++)
{
free(maze[i]);
maze[i] = NULL;
}
if(maze != NULL){
free(maze);
}
printf("\n");
return 0;
}

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#include <ncurses.h>
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
WINDOW *initscr(void);
int start_color(void);
int cbreak(void);
int noecho(void);
int nodelay(WINDOW *win, bool bf);
int keypad(WINDOW *win, bool bf);
int curs_set(int visibility);
/*void getmaxyx(WINDOW *win, int y, int x); */
int init_pair(short pair, short f, short b);
/*int attron(int attrs);
int COLOR_PAIR(int n);
int wmove(WINDOW *win, int y, int x);
nothing*/
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
unsigned int score = 0;
WINDOW* W = 0; /* Curses Window handle */
int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8);
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
W = initscr(); /* Determine terminal type and initialize curses data structures */
start_color(); /* Enable use of color with ncurses */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
noecho(); /* Disable echo printing of chars type by user */
nodelay(W, true); /* Make getch( ) a non-blocking call */
keypad(W, true); /* Enable keypad and arrow keys */
curs_set(0); /* Set cursor to be invisible - 0 */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
init_pair(2, COLOR_GREEN, COLOR_GREEN); /* Red text on Black background */
init_pair(3, COLOR_WHITE, COLOR_WHITE); /* White text on Blue background */
init_pair(4, COLOR_RED, COLOR_RED); /* Yellow text on Yellow background */
init_pair(5, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
attron(COLOR_PAIR(2));
wmove(W, c1,c2);
waddch(W,'#');
attroff(COLOR_PAIR(2));
break;
case ' ':
wmove(W, c1,c2);
waddch(W,' ');
break;
case 'P':
wmove(W, c1,c2);
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
attron(COLOR_PAIR(4));
wmove(W, c1,c2);
waddch(W,'Z');
attroff(COLOR_PAIR(4));
break;
case 'T':
attron(COLOR_PAIR(5));
wmove(W, c1,c2);
waddch(W,'T');
attroff(COLOR_PAIR(5));
break;
default:
break;
};
/*printw("%c", maze[c1][c2]);*/
}
}
deltaRow =0;
deltaCol =0;
do{
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == (int)'a' || kb == (int)'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == (int)'d' || kb == (int)'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == (int)'w' || kb == (int)'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == (int)'s' || kb == (int)'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == (int)'q')
{
/* q to exit player movement loop */
break;
};
attron(COLOR_PAIR(1));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(1));
if(((prow + (unsigned int)deltaRow) > row) || ((pcol + (unsigned int)deltaCol) > col)){
deltaRow = 0;
deltaCol = 0;
}
if(maze[((int)prow + deltaRow)][((int)pcol + deltaCol)] == '#'){
prow = prow;
pcol = pcol;
}
else{
prow = prow + deltaRow;
pcol = pcol + deltaCol;
}
if(maze[prow][pcol] == 'T')
{
maze[prow][pcol] = ' ';
score++;
}
if(maze[prow][pcol] == 'Z')
{
break;
}
attron(COLOR_PAIR(3));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(3));
deltaRow =0;
deltaCol =0;
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
/*printw("\n");*/
endwin();
printf("Score = %u\n", score);
return 0;
}

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#include <ncurses.h>
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
WINDOW *initscr(void);
int start_color(void);
int cbreak(void);
int noecho(void);
int nodelay(WINDOW *win, bool bf);
int keypad(WINDOW *win, bool bf);
int curs_set(int visibility);
/*void getmaxyx(WINDOW *win, int y, int x); */
int init_pair(short pair, short f, short b);
/*int attron(int attrs);
int COLOR_PAIR(int n);
int wmove(WINDOW *win, int y, int x);
nothing*/
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
unsigned int score = 0;
WINDOW* W = 0; /* Curses Window handle */
int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8);
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
fclose(mazeFile);
W = initscr(); /* Determine terminal type and initialize curses data structures */
start_color(); /* Enable use of color with ncurses */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
noecho(); /* Disable echo printing of chars type by user */
nodelay(W, true); /* Make getch( ) a non-blocking call */
keypad(W, true); /* Enable keypad and arrow keys */
curs_set(0); /* Set cursor to be invisible - 0 */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
init_pair(2, COLOR_GREEN, COLOR_GREEN); /* Red text on Black background */
init_pair(3, COLOR_WHITE, COLOR_WHITE); /* White text on Blue background */
init_pair(4, COLOR_RED, COLOR_RED); /* Yellow text on Yellow background */
init_pair(5, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
attron(COLOR_PAIR(2));
wmove(W, c1,c2);
waddch(W,'#');
attroff(COLOR_PAIR(2));
break;
case ' ':
wmove(W, c1,c2);
waddch(W,' ');
break;
case 'P':
wmove(W, c1,c2);
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
attron(COLOR_PAIR(4));
wmove(W, c1,c2);
waddch(W,'Z');
attroff(COLOR_PAIR(4));
break;
case 'T':
attron(COLOR_PAIR(5));
wmove(W, c1,c2);
waddch(W,'T');
attroff(COLOR_PAIR(5));
break;
default:
break;
};
/*printw("%c", maze[c1][c2]);*/
}
}
deltaRow =0;
deltaCol =0;
do{
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == 'a' || kb == 'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == 'd' || kb == 'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == 'w' || kb == 'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == 's' || kb == 'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == 'q')
{
/* q to exit player movement loop */
break;
};
attron(COLOR_PAIR(1));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(1));
if((prow + deltaRow > row) || (pcol + deltaCol > col)){
deltaRow = 0;
deltaCol = 0;
}
if(maze[prow + deltaRow][pcol + deltaCol] == '#'){
prow = prow;
pcol = pcol;
}
else{
prow = prow + deltaRow;
pcol = pcol + deltaCol;
}
if(maze[prow][pcol] == 'T')
{
maze[prow][pcol] = ' ';
score++;
}
if(maze[prow][pcol] == 'Z')
{
break;
}
attron(COLOR_PAIR(3));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(3));
deltaRow =0;
deltaCol =0;
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
/*printw("\n");*/
endwin();
printf("Score = %u\n", score);
return 0;
}

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#include <ncurses.h>
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
/* LDRA_EXCLUDE RULE VIOLATION <justification start> FALSE POSITIVE -- why <justification end> */
int main(int argc, char *argv[])
{
FILE* mazeFile; /* Maze Input File */
unsigned int row = 0; /* Holds number of rows for input from file */
unsigned int col = 0; /* Holds number of cols for input from file */
unsigned int pcol = 0;
unsigned int prow = 0;
char shold[2000]; /* Holds lines for input from file */
unsigned int l = 0;
unsigned int k = 0;
char **maze; /* array for maze */
unsigned int c1 = 0;
unsigned int c2 = 0;
unsigned int i = 0;
unsigned int j = 0;
unsigned int x = 0;
unsigned int y = 0;
int deltaRow, deltaCol; /* Change in row-column position based on key input */
unsigned int score = 0;
WINDOW* W = 0; /* Curses Window handle */
int rowLimit,colLimit; /* Num of rows and columns in terminal window */
/* Initialize ncurses -- you will want to use the following settings */
/* check to see if argument */
if (argc != 2)
{
/*printw("An error has ocurred no input file was given.\n");*/
return 1;
}
mazeFile = fopen(argv[1], "r");
if (mazeFile == NULL)
{
/*printw("Error in opening the file.\n");*/
return 1;
}
fgets(shold, 2, mazeFile);
while ( feof(mazeFile) == 0 )
{
switch(shold[0])
{
case 'M':
/* read array values, dynamically allocate array */
fscanf(mazeFile, "%3u %3u", &row, &col);
maze = (char**)malloc(row * 8); /* */
for(i = (unsigned) 0; i < row; i++)
{
if (maze==NULL)
{
break;
}
maze[i] = malloc(col * 8);
}
for (x = (unsigned) 0; x < row; x++)
{
for (j = (unsigned) 0; j < col; j++)
{
fscanf(mazeFile, "%c", &maze[x][j]);
if (maze[x][j] == '\n')
{
fscanf(mazeFile, "%c", &maze[x][j]);
}
}
}
break;
case 'P':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'P';
break;
case 'Z':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'Z';
break;
case 'T':
fscanf(mazeFile, "%3u %3u", &k, &l);
/* check maze bounds */
if(k>= row || l>= col){
break;
}
maze[k][l] = 'T';
break;
default:
break;
};
fgets(shold, 2, mazeFile);
if (feof(mazeFile) != 0)
{
break;
}
}
rowLimit = row;
colLimit = col;
fclose(mazeFile);
/* LDRA_EXCLUDE 170 S <justification start> FALSE POSITIVE -- why <justification end> */
W = initscr(); /* Determine terminal type and initialize curses data structures */
start_color(); /* Enable use of color with ncurses */
cbreak(); /* Disable line buffering and make char inputs immediately accessible to program */
noecho(); /* Disable echo printing of chars type by user */
if (W == NULL)
{
return 0;
}
nodelay(W, true); /* Make getch( ) a non-blocking call */
keypad(W, true); /* Enable keypad and arrow keys */
curs_set(0); /* Set cursor to be invisible - 0 */
getmaxyx(W, rowLimit, colLimit); /* Query terminal dimensions */
/* Define color pallete foreground-background color pairs */
/* PairID#, Foreground Color, Background Color */
/* Foreground color == Background color ==> solid color block */
init_pair(1, COLOR_BLACK, COLOR_BLACK); /* Black text on Black background */
init_pair(2, COLOR_GREEN, COLOR_GREEN); /* Red text on Black background */
init_pair(3, COLOR_WHITE, COLOR_WHITE); /* White text on Blue background */
init_pair(4, COLOR_RED, COLOR_RED); /* Yellow text on Yellow background */
init_pair(5, COLOR_YELLOW, COLOR_YELLOW); /* Yellow text on Yellow background */
for (c1 =(unsigned)0; c1 < row; c1++)
{
/*printw ("\n");*/
for (c2=(unsigned)0; c2 < col; c2++)
{
if (maze==NULL)
{
break;
}
switch(maze[c1][c2])
{
case '#':
/* read array values, dynamically allocate array*/
attron(COLOR_PAIR(2));
wmove(W, c1,c2);
waddch(W,'#');
attroff(COLOR_PAIR(2));
break;
case ' ':
wmove(W, c1,c2);
waddch(W,' ');
break;
case 'P':
wmove(W, c1,c2);
waddch(W,'P');
prow=c1;
pcol=c2;
break;
case 'Z':
attron(COLOR_PAIR(4));
wmove(W, c1,c2);
waddch(W,'Z');
attroff(COLOR_PAIR(4));
break;
case 'T':
attron(COLOR_PAIR(5));
wmove(W, c1,c2);
waddch(W,'T');
attroff(COLOR_PAIR(5));
break;
default:
break;
};
}
}
deltaRow =0;
deltaCol =0;
do{
int kb = wgetch(W); /* Grab keypress */
/* Support player movement via WASD, IJKL, and arrow keys */
if (kb == (int)'a' || kb == (int)'j' || kb == KEY_LEFT)
{
/* Move Left */
deltaRow =0;
deltaCol =-1;
}
else if (kb == (int)'d' || kb == (int)'l' || kb == KEY_RIGHT)
{
/* Move Right */
deltaRow =0;
deltaCol =1;
}
else if (kb == (int)'w' || kb == (int)'i' || kb == KEY_UP)
{
/* Move Up */
deltaRow =-1;
deltaCol =0;
}
else if (kb == (int)'s' || kb == (int)'k' || kb == KEY_DOWN)
{
/* Move Down */
deltaRow =1;
deltaCol =0;
}
else if (kb == (int)'q')
{
/* q to exit player movement loop */
break;
};
attron(COLOR_PAIR(1));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(1));
if(((prow + (unsigned int)deltaRow) > row) || ((pcol + (unsigned int)deltaCol) > col)){
deltaRow = 0;
deltaCol = 0;
}
if(maze[((int)prow + deltaRow)][((int)pcol + deltaCol)] == '#'){
prow = prow;
pcol = pcol;
}
else{
prow = prow + (unsigned int)deltaRow;
pcol = pcol + (unsigned int)deltaCol;
}
if(maze[prow][pcol] == 'T')
{
maze[prow][pcol] = ' ';
score++;
}
if(maze[prow][pcol] == 'Z')
{
break;
}
attron(COLOR_PAIR(3));
wmove(W,prow,pcol);
waddch(W, 'P');
attroff(COLOR_PAIR(3));
deltaRow =0;
deltaCol =0;
wrefresh(W); /* Refresh ncurses window */
} while (true); /* Repeat until user selects q to quit */
/* free the memory */
for(y = (unsigned)0; y < row; y++)
{
free(maze[y]);
maze[y] = NULL;
}
if(maze != NULL){
free(maze);
}
/*printw("\n");*/
endwin();
printf("Score = %u\n", score);
return 0;
}