OS/pintos-env/pintos/lib/string.c

#include <string.h>
#include <debug.h>

/* Copies SIZE bytes from SRC to DST, which must not overlap.
   Returns DST. */
void *
memcpy (void *dst_, const void *src_, size_t size) 
{
  unsigned char *dst = dst_;
  const unsigned char *src = src_;

  ASSERT (dst != NULL || size == 0);
  ASSERT (src != NULL || size == 0);

  while (size-- > 0)
    *dst++ = *src++;

  return dst_;
}

/* Copies SIZE bytes from SRC to DST, which are allowed to
   overlap.  Returns DST. */
void *
memmove (void *dst_, const void *src_, size_t size) 
{
  unsigned char *dst = dst_;
  const unsigned char *src = src_;

  ASSERT (dst != NULL || size == 0);
  ASSERT (src != NULL || size == 0);

  if (dst < src) 
    {
      while (size-- > 0)
        *dst++ = *src++;
    }
  else 
    {
      dst += size;
      src += size;
      while (size-- > 0)
        *--dst = *--src;
    }

  return dst;
}

/* Find the first differing byte in the two blocks of SIZE bytes
   at A and B.  Returns a positive value if the byte in A is
   greater, a negative value if the byte in B is greater, or zero
   if blocks A and B are equal. */
int
memcmp (const void *a_, const void *b_, size_t size) 
{
  const unsigned char *a = a_;
  const unsigned char *b = b_;

  ASSERT (a != NULL || size == 0);
  ASSERT (b != NULL || size == 0);

  for (; size-- > 0; a++, b++)
    if (*a != *b)
      return *a > *b ? +1 : -1;
  return 0;
}

/* Finds the first differing characters in strings A and B.
   Returns a positive value if the character in A (as an unsigned
   char) is greater, a negative value if the character in B (as
   an unsigned char) is greater, or zero if strings A and B are
   equal. */
int
strcmp (const char *a_, const char *b_) 
{
  const unsigned char *a = (const unsigned char *) a_;
  const unsigned char *b = (const unsigned char *) b_;

  ASSERT (a != NULL);
  ASSERT (b != NULL);

  while (*a != '\0' && *a == *b) 
    {
      a++;
      b++;
    }

  return *a < *b ? -1 : *a > *b;
}

/* Returns a pointer to the first occurrence of CH in the first
   SIZE bytes starting at BLOCK.  Returns a null pointer if CH
   does not occur in BLOCK. */
void *
memchr (const void *block_, int ch_, size_t size) 
{
  const unsigned char *block = block_;
  unsigned char ch = ch_;

  ASSERT (block != NULL || size == 0);

  for (; size-- > 0; block++)
    if (*block == ch)
      return (void *) block;

  return NULL;
}

/* Finds and returns the first occurrence of C in STRING, or a
   null pointer if C does not appear in STRING.  If C == '\0'
   then returns a pointer to the null terminator at the end of
   STRING. */
char *
strchr (const char *string, int c_) 
{
  char c = c_;

  ASSERT (string != NULL);

  for (;;) 
    if (*string == c)
      return (char *) string;
    else if (*string == '\0')
      return NULL;
    else
      string++;
}

/* Returns the length of the initial substring of STRING that
   consists of characters that are not in STOP. */
size_t
strcspn (const char *string, const char *stop) 
{
  size_t length;

  for (length = 0; string[length] != '\0'; length++)
    if (strchr (stop, string[length]) != NULL)
      break;
  return length;
}

/* Returns a pointer to the first character in STRING that is
   also in STOP.  If no character in STRING is in STOP, returns a
   null pointer. */
char *
strpbrk (const char *string, const char *stop) 
{
  for (; *string != '\0'; string++)
    if (strchr (stop, *string) != NULL)
      return (char *) string;
  return NULL;
}

/* Returns a pointer to the last occurrence of C in STRING.
   Returns a null pointer if C does not occur in STRING. */
char *
strrchr (const char *string, int c_) 
{
  char c = c_;
  const char *p = NULL;

  for (; *string != '\0'; string++)
    if (*string == c)
      p = string;
  return (char *) p;
}

/* Returns the length of the initial substring of STRING that
   consists of characters in SKIP. */
size_t
strspn (const char *string, const char *skip) 
{
  size_t length;
  
  for (length = 0; string[length] != '\0'; length++)
    if (strchr (skip, string[length]) == NULL)
      break;
  return length;
}

/* Returns a pointer to the first occurrence of NEEDLE within
   HAYSTACK.  Returns a null pointer if NEEDLE does not exist
   within HAYSTACK. */
char *
strstr (const char *haystack, const char *needle) 
{
  size_t haystack_len = strlen (haystack);
  size_t needle_len = strlen (needle);

  if (haystack_len >= needle_len) 
    {
      size_t i;

      for (i = 0; i <= haystack_len - needle_len; i++)
        if (!memcmp (haystack + i, needle, needle_len))
          return (char *) haystack + i;
    }

  return NULL;
}

/* Breaks a string into tokens separated by DELIMITERS.  The
   first time this function is called, S should be the string to
   tokenize, and in subsequent calls it must be a null pointer.
   SAVE_PTR is the address of a `char *' variable used to keep
   track of the tokenizer's position.  The return value each time
   is the next token in the string, or a null pointer if no
   tokens remain.

   This function treats multiple adjacent delimiters as a single
   delimiter.  The returned tokens will never be length 0.
   DELIMITERS may change from one call to the next within a
   single string.

   strtok_r() modifies the string S, changing delimiters to null
   bytes.  Thus, S must be a modifiable string.  String literals,
   in particular, are *not* modifiable in C, even though for
   backward compatibility they are not `const'.

   Example usage:

   char s[] = "  String to  tokenize. ";
   char *token, *save_ptr;

   for (token = strtok_r (s, " ", &save_ptr); token != NULL;
        token = strtok_r (NULL, " ", &save_ptr))
     printf ("'%s'\n", token);

   outputs:

     'String'
     'to'
     'tokenize.'
*/
char *
strtok_r (char *s, const char *delimiters, char **save_ptr) 
{
  char *token;
  
  ASSERT (delimiters != NULL);
  ASSERT (save_ptr != NULL);

  /* If S is nonnull, start from it.
     If S is null, start from saved position. */
  if (s == NULL)
    s = *save_ptr;
  ASSERT (s != NULL);

  /* Skip any DELIMITERS at our current position. */
  while (strchr (delimiters, *s) != NULL) 
    {
      /* strchr() will always return nonnull if we're searching
         for a null byte, because every string contains a null
         byte (at the end). */
      if (*s == '\0')
        {
          *save_ptr = s;
          return NULL;
        }

      s++;
    }

  /* Skip any non-DELIMITERS up to the end of the string. */
  token = s;
  while (strchr (delimiters, *s) == NULL)
    s++;
  if (*s != '\0') 
    {
      *s = '\0';
      *save_ptr = s + 1;
    }
  else 
    *save_ptr = s;
  return token;
}

/* Sets the SIZE bytes in DST to VALUE. */
void *
memset (void *dst_, int value, size_t size) 
{
  unsigned char *dst = dst_;

  ASSERT (dst != NULL || size == 0);
  
  while (size-- > 0)
    *dst++ = value;

  return dst_;
}

/* Returns the length of STRING. */
size_t
strlen (const char *string) 
{
  const char *p;

  ASSERT (string != NULL);

  for (p = string; *p != '\0'; p++)
    continue;
  return p - string;
}

/* If STRING is less than MAXLEN characters in length, returns
   its actual length.  Otherwise, returns MAXLEN. */
size_t
strnlen (const char *string, size_t maxlen) 
{
  size_t length;

  for (length = 0; string[length] != '\0' && length < maxlen; length++)
    continue;
  return length;
}

/* Copies string SRC to DST.  If SRC is longer than SIZE - 1
   characters, only SIZE - 1 characters are copied.  A null
   terminator is always written to DST, unless SIZE is 0.
   Returns the length of SRC, not including the null terminator.

   strlcpy() is not in the standard C library, but it is an
   increasingly popular extension.  See
   http://www.courtesan.com/todd/papers/strlcpy.html for
   information on strlcpy(). */
size_t
strlcpy (char *dst, const char *src, size_t size) 
{
  size_t src_len;

  ASSERT (dst != NULL);
  ASSERT (src != NULL);

  src_len = strlen (src);
  if (size > 0) 
    {
      size_t dst_len = size - 1;
      if (src_len < dst_len)
        dst_len = src_len;
      memcpy (dst, src, dst_len);
      dst[dst_len] = '\0';
    }
  return src_len;
}

/* Concatenates string SRC to DST.  The concatenated string is
   limited to SIZE - 1 characters.  A null terminator is always
   written to DST, unless SIZE is 0.  Returns the length that the
   concatenated string would have assuming that there was
   sufficient space, not including a null terminator.

   strlcat() is not in the standard C library, but it is an
   increasingly popular extension.  See
   http://www.courtesan.com/todd/papers/strlcpy.html for
   information on strlcpy(). */
size_t
strlcat (char *dst, const char *src, size_t size) 
{
  size_t src_len, dst_len;

  ASSERT (dst != NULL);
  ASSERT (src != NULL);

  src_len = strlen (src);
  dst_len = strlen (dst);
  if (size > 0 && dst_len < size) 
    {
      size_t copy_cnt = size - dst_len - 1;
      if (src_len < copy_cnt)
        copy_cnt = src_len;
      memcpy (dst + dst_len, src, copy_cnt);
      dst[dst_len + copy_cnt] = '\0';
    }
  return src_len + dst_len;
}
Added pintos source and bochs support files 2020-03-22 08:36:01 +00:00			`#include <string.h>`
			`#include <debug.h>`

			`/* Copies SIZE bytes from SRC to DST, which must not overlap.`
			`Returns DST. */`
			`void *`
			`memcpy (void dst_, const void src_, size_t size)`
			`{`
			`unsigned char *dst = dst_;`
			`const unsigned char *src = src_;`

			`ASSERT (dst != NULL \|\| size == 0);`
			`ASSERT (src != NULL \|\| size == 0);`

			`while (size-- > 0)`
			`dst++ = src++;`

			`return dst_;`
			`}`

			`/* Copies SIZE bytes from SRC to DST, which are allowed to`
			`overlap. Returns DST. */`
			`void *`
			`memmove (void dst_, const void src_, size_t size)`
			`{`
			`unsigned char *dst = dst_;`
			`const unsigned char *src = src_;`

			`ASSERT (dst != NULL \|\| size == 0);`
			`ASSERT (src != NULL \|\| size == 0);`

			`if (dst < src)`
			`{`
			`while (size-- > 0)`
			`dst++ = src++;`
			`}`
			`else`
			`{`
			`dst += size;`
			`src += size;`
			`while (size-- > 0)`
			`--dst = --src;`
			`}`

			`return dst;`
			`}`

			`/* Find the first differing byte in the two blocks of SIZE bytes`
			`at A and B. Returns a positive value if the byte in A is`
			`greater, a negative value if the byte in B is greater, or zero`
			`if blocks A and B are equal. */`
			`int`
			`memcmp (const void a_, const void b_, size_t size)`
			`{`
			`const unsigned char *a = a_;`
			`const unsigned char *b = b_;`

			`ASSERT (a != NULL \|\| size == 0);`
			`ASSERT (b != NULL \|\| size == 0);`

			`for (; size-- > 0; a++, b++)`
			`if (a != b)`
			`return a > b ? +1 : -1;`
			`return 0;`
			`}`

			`/* Finds the first differing characters in strings A and B.`
			`Returns a positive value if the character in A (as an unsigned`
			`char) is greater, a negative value if the character in B (as`
			`an unsigned char) is greater, or zero if strings A and B are`
			`equal. */`
			`int`
			`strcmp (const char a_, const char b_)`
			`{`
			`const unsigned char a = (const unsigned char ) a_;`
			`const unsigned char b = (const unsigned char ) b_;`

			`ASSERT (a != NULL);`
			`ASSERT (b != NULL);`

			`while (a != '\0' && a == *b)`
			`{`
			`a++;`
			`b++;`
			`}`

			`return a < b ? -1 : a > b;`
			`}`

			`/* Returns a pointer to the first occurrence of CH in the first`
			`SIZE bytes starting at BLOCK. Returns a null pointer if CH`
			`does not occur in BLOCK. */`
			`void *`
			`memchr (const void *block_, int ch_, size_t size)`
			`{`
			`const unsigned char *block = block_;`
			`unsigned char ch = ch_;`

			`ASSERT (block != NULL \|\| size == 0);`

			`for (; size-- > 0; block++)`
			`if (*block == ch)`
			`return (void *) block;`

			`return NULL;`
			`}`

			`/* Finds and returns the first occurrence of C in STRING, or a`
			`null pointer if C does not appear in STRING. If C == '\0'`
			`then returns a pointer to the null terminator at the end of`
			`STRING. */`
			`char *`
			`strchr (const char *string, int c_)`
			`{`
			`char c = c_;`

			`ASSERT (string != NULL);`

			`for (;;)`
			`if (*string == c)`
			`return (char *) string;`
			`else if (*string == '\0')`
			`return NULL;`
			`else`
			`string++;`
			`}`

			`/* Returns the length of the initial substring of STRING that`
			`consists of characters that are not in STOP. */`
			`size_t`
			`strcspn (const char string, const char stop)`
			`{`
			`size_t length;`

			`for (length = 0; string[length] != '\0'; length++)`
			`if (strchr (stop, string[length]) != NULL)`
			`break;`
			`return length;`
			`}`

			`/* Returns a pointer to the first character in STRING that is`
			`also in STOP. If no character in STRING is in STOP, returns a`
			`null pointer. */`
			`char *`
			`strpbrk (const char string, const char stop)`
			`{`
			`for (; *string != '\0'; string++)`
			`if (strchr (stop, *string) != NULL)`
			`return (char *) string;`
			`return NULL;`
			`}`

			`/* Returns a pointer to the last occurrence of C in STRING.`
			`Returns a null pointer if C does not occur in STRING. */`
			`char *`
			`strrchr (const char *string, int c_)`
			`{`
			`char c = c_;`
			`const char *p = NULL;`

			`for (; *string != '\0'; string++)`
			`if (*string == c)`
			`p = string;`
			`return (char *) p;`
			`}`

			`/* Returns the length of the initial substring of STRING that`
			`consists of characters in SKIP. */`
			`size_t`
			`strspn (const char string, const char skip)`
			`{`
			`size_t length;`

			`for (length = 0; string[length] != '\0'; length++)`
			`if (strchr (skip, string[length]) == NULL)`
			`break;`
			`return length;`
			`}`

			`/* Returns a pointer to the first occurrence of NEEDLE within`
			`HAYSTACK. Returns a null pointer if NEEDLE does not exist`
			`within HAYSTACK. */`
			`char *`
			`strstr (const char haystack, const char needle)`
			`{`
			`size_t haystack_len = strlen (haystack);`
			`size_t needle_len = strlen (needle);`

			`if (haystack_len >= needle_len)`
			`{`
			`size_t i;`

			`for (i = 0; i <= haystack_len - needle_len; i++)`
			`if (!memcmp (haystack + i, needle, needle_len))`
			`return (char *) haystack + i;`
			`}`

			`return NULL;`
			`}`

			`/* Breaks a string into tokens separated by DELIMITERS. The`
			`first time this function is called, S should be the string to`
			`tokenize, and in subsequent calls it must be a null pointer.`
			SAVE_PTR is the address of a `char *' variable used to keep
			`track of the tokenizer's position. The return value each time`
			`is the next token in the string, or a null pointer if no`
			`tokens remain.`

			`This function treats multiple adjacent delimiters as a single`
			`delimiter. The returned tokens will never be length 0.`
			`DELIMITERS may change from one call to the next within a`
			`single string.`

			`strtok_r() modifies the string S, changing delimiters to null`
			`bytes. Thus, S must be a modifiable string. String literals,`
			`in particular, are not modifiable in C, even though for`
			backward compatibility they are not `const'.

			`Example usage:`

			`char s[] = " String to tokenize. ";`
			`char token, save_ptr;`

			`for (token = strtok_r (s, " ", &save_ptr); token != NULL;`
			`token = strtok_r (NULL, " ", &save_ptr))`
			`printf ("'%s'\n", token);`

			`outputs:`

			`'String'`
			`'to'`
			`'tokenize.'`
			`*/`
			`char *`
			`strtok_r (char s, const char delimiters, char **save_ptr)`
			`{`
			`char *token;`

			`ASSERT (delimiters != NULL);`
			`ASSERT (save_ptr != NULL);`

			`/* If S is nonnull, start from it.`
			`If S is null, start from saved position. */`
			`if (s == NULL)`
			`s = *save_ptr;`
			`ASSERT (s != NULL);`

			`/* Skip any DELIMITERS at our current position. */`
			`while (strchr (delimiters, *s) != NULL)`
			`{`
			`/* strchr() will always return nonnull if we're searching`
			`for a null byte, because every string contains a null`
			`byte (at the end). */`
			`if (*s == '\0')`
			`{`
			`*save_ptr = s;`
			`return NULL;`
			`}`

			`s++;`
			`}`

			`/* Skip any non-DELIMITERS up to the end of the string. */`
			`token = s;`
			`while (strchr (delimiters, *s) == NULL)`
			`s++;`
			`if (*s != '\0')`
			`{`
			`*s = '\0';`
			`*save_ptr = s + 1;`
			`}`
			`else`
			`*save_ptr = s;`
			`return token;`
			`}`

			`/* Sets the SIZE bytes in DST to VALUE. */`
			`void *`
			`memset (void *dst_, int value, size_t size)`
			`{`
			`unsigned char *dst = dst_;`

			`ASSERT (dst != NULL \|\| size == 0);`

			`while (size-- > 0)`
			`*dst++ = value;`

			`return dst_;`
			`}`

			`/* Returns the length of STRING. */`
			`size_t`
			`strlen (const char *string)`
			`{`
			`const char *p;`

			`ASSERT (string != NULL);`

			`for (p = string; *p != '\0'; p++)`
			`continue;`
			`return p - string;`
			`}`

			`/* If STRING is less than MAXLEN characters in length, returns`
			`its actual length. Otherwise, returns MAXLEN. */`
			`size_t`
			`strnlen (const char *string, size_t maxlen)`
			`{`
			`size_t length;`

			`for (length = 0; string[length] != '\0' && length < maxlen; length++)`
			`continue;`
			`return length;`
			`}`

			`/* Copies string SRC to DST. If SRC is longer than SIZE - 1`
			`characters, only SIZE - 1 characters are copied. A null`
			`terminator is always written to DST, unless SIZE is 0.`
			`Returns the length of SRC, not including the null terminator.`

			`strlcpy() is not in the standard C library, but it is an`
			`increasingly popular extension. See`
			`http://www.courtesan.com/todd/papers/strlcpy.html for`
			`information on strlcpy(). */`
			`size_t`
			`strlcpy (char dst, const char src, size_t size)`
			`{`
			`size_t src_len;`

			`ASSERT (dst != NULL);`
			`ASSERT (src != NULL);`

			`src_len = strlen (src);`
			`if (size > 0)`
			`{`
			`size_t dst_len = size - 1;`
			`if (src_len < dst_len)`
			`dst_len = src_len;`
			`memcpy (dst, src, dst_len);`
			`dst[dst_len] = '\0';`
			`}`
			`return src_len;`
			`}`

			`/* Concatenates string SRC to DST. The concatenated string is`
			`limited to SIZE - 1 characters. A null terminator is always`
			`written to DST, unless SIZE is 0. Returns the length that the`
			`concatenated string would have assuming that there was`
			`sufficient space, not including a null terminator.`

			`strlcat() is not in the standard C library, but it is an`
			`increasingly popular extension. See`
			`http://www.courtesan.com/todd/papers/strlcpy.html for`
			`information on strlcpy(). */`
			`size_t`
			`strlcat (char dst, const char src, size_t size)`
			`{`
			`size_t src_len, dst_len;`

			`ASSERT (dst != NULL);`
			`ASSERT (src != NULL);`

			`src_len = strlen (src);`
			`dst_len = strlen (dst);`
			`if (size > 0 && dst_len < size)`
			`{`
			`size_t copy_cnt = size - dst_len - 1;`
			`if (src_len < copy_cnt)`
			`copy_cnt = src_len;`
			`memcpy (dst + dst_len, src, copy_cnt);`
			`dst[dst_len + copy_cnt] = '\0';`
			`}`
			`return src_len + dst_len;`
			`}`