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/*

 * lib.c -- the library

 */

#include "common.h"

#include "lib.h"

#include "stdarg.h"

#include "start.h"

/**************************************************************/

/*

 * This is only for debugging.

 * Place a breakpoint at the very beginning of this routine

 * and call it wherever you want to break execution.

 */

void debugBreak(void) {

}

/**************************************************************/

/*

 * Count the length of a string (without terminating null character).

 */

int strlen(const char *s) {

  const char *p;

  p = s;

  while (*p != '\0') {

    p++;

  }

  return p - s;

}

/*

 * Compare two strings.

 * Return a number < 0, = 0, or > 0 iff the first string is less

 * than, equal to, or greater than the second one, respectively.

 */

int strcmp(const char *s, const char *t) {

  while (*s == *t) {

    if (*s == '\0') {

      return 0;

    }

    s++;

    t++;

  }

  return *s - *t;

}

/*

 * Copy string t to string s (includes terminating null character).

 */

char *strcpy(char *s, const char *t) {

  char *p;

  p = s;

  while ((*p = *t) != '\0') {

    p++;

    t++;

  }

  return s;

}

/*

 * Append string t to string s.

 */

char *strcat(char *s, const char *t) {

  char *p;

  p = s;

  while (*p != '\0') {

    p++;

  }

  while ((*p = *t) != '\0') {

    p++;

    t++;

  }

  return s;

}

/*

 * Locate character c in string s.

 */

char *strchr(const char *s, char c) {

  while (*s != c) {

    if (*s == '\0') {

      return NULL;

    }

    s++;

  }

  return (char *) s;

}

/*

 * Extract the next token from the string s, delimited

 * by any character from the delimiter string t.

 */

char *strtok(char *s, const char *t) {

  static char *p;

  char *q;

  if (s != NULL) {

    p = s;

  } else {

    p++;

  }

  while (*p != '\0' && strchr(t, *p) != NULL) {

    p++;

  }

  if (*p == '\0') {

    return NULL;

  }

  q = p++;

  while (*p != '\0' && strchr(t, *p) == NULL) {

    p++;

  }

  if (*p != '\0') {

    *p = '\0';

  } else {

    p--;

  }

  return q;

}

/**************************************************************/

/*

 * Determine if a character is 'white space'.

 */

static Bool isspace(char c) {

  Bool res;

  switch (c) {

    case ' ':

    case '\f':

    case '\n':

    case '\r':

    case '\t':

    case '\v':

      res = true;

      break;

    default:

      res = false;

      break;

  }

  return res;

}

/*

 * Check for valid digit, and convert to value.

 */

static Bool checkDigit(char c, int base, int *value) {

  if (c >= '0' && c <= '9') {

    *value = c - '0';

  } else

  if (c >= 'A' && c <= 'Z') {

    *value = c - 'A' + 10;

  } else

  if (c >= 'a' && c <= 'z') {

    *value = c - 'a' + 10;

  } else {

    return false;

  }

  return *value < base;

}

/*

 * Convert initial part of string to unsigned long integer.

 */

unsigned long strtoul(const char *s, char **endp, int base) {

  unsigned long res;

  int sign;

  int digit;

  res = 0;

  while (isspace(*s)) {

    s++;

  }

  if (*s == '+') {

    sign = 1;

    s++;

  } else

  if (*s == '-') {

    sign = -1;

    s++;

  } else {

    sign = 1;

  }

  if (base == 0 || base == 16) {

    if (*s == '0' &&

        (*(s + 1) == 'x' || *(s + 1) == 'X')) {

      /* base is 16 */

      s += 2;

      base = 16;

    } else {

      /* base is 0 or 16, but number does not start with "0x" */

      if (base == 0) {

        if (*s == '0') {

          s++;

          base = 8;

        } else {

          base = 10;

        }

      } else {

        /* take base as is */

      }

    }

  } else {

    /* take base as is */

  }

  while (checkDigit(*s, base, &digit)) {

    res *= base;

    res += digit;

    s++;

  }

  if (endp != NULL) {

    *endp = (char *) s;

  }

  return sign * res;

}

/**************************************************************/

/*

 * Exchange two array items of a given size.

 */

static void xchg(char *p, char *q, int size) {

  char t;

  while (size--) {

    t = *p;

    *p++ = *q;

    *q++ = t;

  }

}

/*

 * This is a recursive version of quicksort.

 */

static void sort(char *l, char *r, int size,

                 int (*cmp)(const void *, const void *)) {

  char *i;

  char *j;

  char *x;

  i = l;

  j = r;

  x = l + (((r - l) / size) / 2) * size;

  do {

    while (cmp(i, x) < 0) {

      i += size;

    }

    while (cmp(x, j) < 0) {

      j -= size;

    }

    if (i <= j) {

      /* exchange array elements i and j */

      /* attention: update x if it is one of these */

      if (x == i) {

        x = j;

      } else

      if (x == j) {

        x = i;

      }

      xchg(i, j, size);

      i += size;

      j -= size;

    }

  } while (i <= j);

  if (l < j) {

    sort(l, j, size, cmp);

  }

  if (i < r) {

    sort(i, r, size, cmp);

  }

}

/*

 * External interface for the quicksort algorithm.

 */

void qsort(void *base, int n, int size,

           int (*cmp)(const void *, const void*)) {

  sort((char *) base, (char *) base + (n - 1) * size, size, cmp);

}

/**************************************************************/

/*

 * Input a character from the console.

 */

char getchar(void) {

  return cin();

}

/*

 * Output a character on the console.

 * Replace LF by CR/LF.

 */

void putchar(char c) {

  if (c == '\n') {

    cout('\r');

  }

  cout(c);

}

/**************************************************************/

/*

 * Count the number of characters needed to represent

 * a given number in base 10.

 */

static int countPrintn(long n) {

  long a;

  int res;

  res = 0;

  if (n < 0) {

    res++;

    n = -n;

  }

  a = n / 10;

  if (a != 0) {

    res += countPrintn(a);

  }

  return res + 1;

}

/*

 * Output a number in base 10.

 */

static void *printn(void *(*emit)(void *, char), void *arg,

                    int *nchar, long n) {

  long a;

  if (n < 0) {

    arg = emit(arg, '-');

    (*nchar)++;

    n = -n;

  }

  a = n / 10;

  if (a != 0) {

    arg = printn(emit, arg, nchar, a);

  }

  arg = emit(arg, n % 10 + '0');

  (*nchar)++;

  return arg;

}

/*

 * Count the number of characters needed to represent

 * a given number in a given base.

 */

static int countPrintu(unsigned long n, unsigned long b) {

  unsigned long a;

  int res;

  res = 0;

  a = n / b;

  if (a != 0) {

    res += countPrintu(a, b);

  }

  return res + 1;

}

/*

 * Output a number in a given base.

 */

static void *printu(void *(*emit)(void *, char), void *arg,

                    int *nchar, unsigned long n, unsigned long b,

                    Bool upperCase) {

  unsigned long a;

  a = n / b;

  if (a != 0) {

    arg = printu(emit, arg, nchar, a, b, upperCase);

  }

  if (upperCase) {

    arg = emit(arg, "0123456789ABCDEF"[n % b]);

    (*nchar)++;

  } else {

    arg = emit(arg, "0123456789abcdef"[n % b]);

    (*nchar)++;

  }

  return arg;

}

/*

 * Output a number of filler characters.

 */

static void *fill(void *(*emit)(void *, char), void *arg,

                  int *nchar, int numFillers, char filler) {

  while (numFillers-- > 0) {

    arg = emit(arg, filler);

    (*nchar)++;

  }

  return arg;

}

/*

 * This function does the real work of formatted printing.

 */

static int doPrintf(void *(*emit)(void *, char), void *arg,

                    const char *fmt, va_list ap) {

  int nchar;

  char c;

  int n;

  long ln;

  unsigned int u;

  unsigned long lu;

  char *s;

  Bool negFlag;

  char filler;

  int width, count;

  nchar = 0;

  while (1) {

    while ((c = *fmt++) != '%') {

      if (c == '\0') {

        return nchar;

      }

      arg = emit(arg, c);

      nchar++;

    }

    c = *fmt++;

    if (c == '-') {

      negFlag = true;

      c = *fmt++;

    } else {

      negFlag = false;

    }

    if (c == '0') {

      filler = '0';

      c = *fmt++;

    } else {

      filler = ' ';

    }

    width = 0;

    while (c >= '0' && c <= '9') {

      width *= 10;

      width += c - '0';

      c = *fmt++;

    }

    if (c == 'd') {

      n = va_arg(ap, int);

      count = countPrintn(n);

      if (width > 0 && !negFlag) {

        arg = fill(emit, arg, &nchar, width - count, filler);

      }

      arg = printn(emit, arg, &nchar, n);

      if (width > 0 && negFlag) {

        arg = fill(emit, arg, &nchar, width - count, filler);

      }

    } else

    if (c == 'u' || c == 'o' || c == 'x' || c == 'X') {

      u = va_arg(ap, int);

      count = countPrintu(u,

                c == 'o' ? 8 : ((c == 'x' || c == 'X') ? 16 : 10));

      if (width > 0 && !negFlag) {

        arg = fill(emit, arg, &nchar, width - count, filler);

      }

      arg = printu(emit, arg, &nchar, u,

                   c == 'o' ? 8 : ((c == 'x' || c == 'X') ? 16 : 10),

                   c == 'X');

      if (width > 0 && negFlag) {

        arg = fill(emit, arg, &nchar, width - count, filler);

      }

    } else

    if (c == 'l') {

      c = *fmt++;

      if (c == 'd') {

        ln = va_arg(ap, long);

        count = countPrintn(ln);

        if (width > 0 && !negFlag) {

          arg = fill(emit, arg, &nchar, width - count, filler);

        }

        arg = printn(emit, arg, &nchar, ln);

        if (width > 0 && negFlag) {

          arg = fill(emit, arg, &nchar, width - count, filler);

        }

      } else

      if (c == 'u' || c == 'o' || c == 'x' || c == 'X') {

        lu = va_arg(ap, long);

        count = countPrintu(lu,

                  c == 'o' ? 8 : ((c == 'x' || c == 'X') ? 16 : 10));

        if (width > 0 && !negFlag) {

          arg = fill(emit, arg, &nchar, width - count, filler);

        }

        arg = printu(emit, arg, &nchar, lu,

                     c == 'o' ? 8 : ((c == 'x' || c == 'X') ? 16 : 10),

                     c == 'X');

        if (width > 0 && negFlag) {

          arg = fill(emit, arg, &nchar, width - count, filler);

        }

      } else {

        arg = emit(arg, 'l');

        nchar++;

        arg = emit(arg, c);

        nchar++;

      }

    } else

    if (c == 's') {

      s = va_arg(ap, char *);

      count = strlen(s);

      if (width > 0 && !negFlag) {

        arg = fill(emit, arg, &nchar, width - count, filler);

      }

      while ((c = *s++) != '\0') {

        arg = emit(arg, c);

        nchar++;

      }

      if (width > 0 && negFlag) {

        arg = fill(emit, arg, &nchar, width - count, filler);

      }

    } else

    if (c == 'c') {

      c = va_arg(ap, char);

      arg = emit(arg, c);

      nchar++;

    } else {

      arg = emit(arg, c);

      nchar++;

    }

  }

  /* never reached */

  return 0;

}

/*

 * Emit a character to the console.

 */

static void *emitToConsole(void *dummy, char c) {

  putchar(c);

  return dummy;

}

/*

 * Formatted output with a variable argument list.

 */

static int vprintf(const char *fmt, va_list ap) {

  int n;

  n = doPrintf(emitToConsole, NULL, fmt, ap);

  return n;

}

/*

 * Formatted output.

 */

int printf(const char *fmt, ...) {

  int n;

  va_list ap;

  va_start(ap, fmt);

  n = vprintf(fmt, ap);

  va_end(ap);

  return n;

}

/*

 * Emit a character to a buffer.

 */

static void *emitToBuffer(void *bufptr, char c) {

  *(char *)bufptr = c;

  return (char *) bufptr + 1;

}

/*

 * Formatted output into a buffer with a variable argument list.

 */

static int vsprintf(char *s, const char *fmt, va_list ap) {

  int n;

  n = doPrintf(emitToBuffer, s, fmt, ap);

  s[n] = '\0';

  return n;

}

/*

 * Formatted output into a buffer.

 */

int sprintf(char *s, const char *fmt, ...) {

  int n;

  va_list ap;

  va_start(ap, fmt);

  n = vsprintf(s, fmt, ap);

  va_end(ap);

  return n;

}