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rolldice.c
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rolldice.c
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/**
* rolldice.c - v1.14 - 18 December 2012
* (c) Stevie Strickland, 1999-2012
*
* This program has been placed under the GPL. Any bugfixes or enhancements
* will be greatly appreciated :)
*
* Stevie Strickland - sstrickl@ccs.neu.edu
*/
#include "rolldice.h"
// File pointer for random device
static FILE* ran_dev;
// Local functions
int get_num_dice(int temp_int, int default_num);
int get_num_sides(char *dice_string, int temp_int);
int get_num_drop(char *dice_string, int temp_int);
int get_num_rolls(int temp_int);
int get_mutiplier(char *dice_string, int temp_int);
int get_plus_modifier(char *dice_string, int temp_int);
int get_minus_modifier(char *dice_string, int temp_int);
int is_too_big(int num);
void print_parse_error(const char * label, const int too_big_error);
void init_random(rand_type rand_file) {
if(rand_file == RANDOM) {
if((ran_dev = fopen("/dev/random", "r")) == NULL) {
fprintf(stderr, "Error in opening /dev/random!\n");
exit(EX_OSFILE);
}
}
else if((ran_dev = fopen("/dev/urandom", "r")) == NULL) {
fprintf(stderr, "Error in opening /dev/urandom!\n");
exit(EX_OSFILE);
}
}
static int get_random(int sides) {
unsigned int ret_value;
if(!(fread(&ret_value, sizeof(unsigned int), 1, ran_dev) == 1)) {
fprintf(stderr, "Error in reading random device!\n");
exit(EX_OSFILE);
}
return (int)(ret_value % sides);
}
/* rolldie() - Rolls a single die
*
* Parameters: int num_sides - number of sides of the die to roll
* Returns: int - the result of the roll
*/
int rolldie ( int num_sides ) {
return (1 + get_random(num_sides));
}
/* parse_string() - Parses a string for dice rolling attributes
*
* Parameters: char *dice_string - string to parse
* int *dice_nums - array of size DICE_ARRAY_SIZE
* where the parsed values will be stored
* Returns: int - return non-zero value if error occured
*/
int parse_string(char *dice_string, int *dice_nums) {
int temp_int = -1, res_int;
const int DEFAULT_NUM_DICE = 1;
if (*dice_string == '\0' && dice_nums[NUM_INITIALIZED]) {
return 0;
}
else {
dice_nums[NUM_ROLLS] = 1;
dice_nums[NUM_DICE] = DEFAULT_NUM_DICE;
dice_nums[NUM_SIDES] = 6;
dice_nums[MULTIPLIER] = 1;
dice_nums[MODIFIER] = 0;
dice_nums[NUM_DROP] = 0;
dice_nums[NUM_INITIALIZED] = 1;
}
while(*dice_string != '\0') {
if( isdigit(*dice_string) ) {
sscanf(dice_string, "%d", &temp_int);
while(isdigit(*(++dice_string)));
}
else {
switch(*dice_string) {
case 'd':
dice_nums[NUM_DICE] = get_num_dice(temp_int, DEFAULT_NUM_DICE);
dice_string++;
res_int = get_num_sides(dice_string, temp_int);
if (!res_int){
return 1;
} else {
dice_nums[NUM_SIDES] = res_int;
}
break;
case 's':
dice_string++;
res_int = get_num_drop(dice_string, temp_int);
if (!res_int){
return 1;
} else {
dice_nums[NUM_DROP] = res_int;
}
break;
case 'x':
dice_string++;
res_int = get_num_rolls(temp_int);
if (!res_int){
return 1;
} else {
dice_nums[NUM_ROLLS] = res_int;
}
break;
case '*':
dice_string++;
res_int = get_mutiplier(dice_string, temp_int);
if (!res_int){
return 1;
} else {
dice_nums[MULTIPLIER] = res_int;
}
break;
case '+':
dice_string++;
res_int = get_plus_modifier(dice_string, temp_int);
if (!res_int){
return 1;
} else {
dice_nums[MODIFIER] = res_int;
}
break;
case '-':
dice_string++;
res_int = get_minus_modifier(dice_string, temp_int);
if (!res_int){
return 1;
} else {
dice_nums[MODIFIER] = res_int;
}
break;
default:
dice_string++;
break;
}
temp_int = 0;
}
}
return 0;
}
int get_num_dice(int temp_int, int default_num){
if( (temp_int <= 0 ) || is_too_big(temp_int) )
return default_num;
else
return temp_int;
}
int is_too_big(int num){
return num >= SHRT_MAX;
}
void print_parse_error(const char * label, const int too_big_error){
if (too_big_error){
fprintf(stderr, "rolldice: Requested %s is too large\n", label);
}
else{
fprintf(stderr, "rolldice: Problems with the malformed dice string (in %s)\n", label);
}
}
int get_num_sides(char *dice_string, int temp_int){
const char *PERCENT = "%";
if(strncmp(dice_string, PERCENT, 1) == 0){
temp_int = 100;
return temp_int;
}
else if( (sscanf(dice_string, "%d", &temp_int) < 1 ) ||
(temp_int < 2) || is_too_big(temp_int) ) {
print_parse_error("number of dice faces", is_too_big(temp_int));
return 0;
} else {
return temp_int;
}
}
int get_num_drop(char *dice_string, int temp_int){
if( (sscanf(dice_string, "%d", &temp_int) < 1) ||
(temp_int < 0) || is_too_big(temp_int) ) {
print_parse_error("number of dropped dice", is_too_big(temp_int));
return 0;
} else {
return temp_int;
}
}
int get_num_rolls(int temp_int){
if( ( temp_int < 1 ) || is_too_big(temp_int) ) {
print_parse_error("number of rolled dice", is_too_big(temp_int));
return 0;
} else {
return temp_int;
}
}
int get_mutiplier(char *dice_string, int temp_int){
if( (sscanf(dice_string, "%d", &temp_int) < 1) ||
(temp_int < 0) || is_too_big(temp_int) ) {
print_parse_error("multiplier", is_too_big(temp_int));
return 0;
} else {
return temp_int;
}
}
int get_plus_modifier(char *dice_string, int temp_int){
if( (sscanf(dice_string, "%d", &temp_int) < 1) ||
(temp_int < 0) || is_too_big(temp_int) ) {
print_parse_error("add modifier", is_too_big(temp_int));
return 0;
} else {
return temp_int;
}
}
int get_minus_modifier(char *dice_string, int temp_int){
if( (sscanf(dice_string, "%d", &temp_int) < 1) ||
(temp_int < 0) || is_too_big(temp_int) ) {
print_parse_error("minus modifier", is_too_big(temp_int));
return 0;
} else {
temp_int = - temp_int;
return temp_int;
}
}