amxmodx/plugins/include/string.inc

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/* Strings manipulation
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*
* by the AMX Mod X Development Team
* originally developed by OLO
*
* This file is provided as is (no warranties).
*/
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#if defined _string_included
#endinput
#endif
#define _string_included
#define charsmax(%1) (sizeof(%1)-1)
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/* Checks if source contains string. On success function
* returns position in source, on failure returns -1. */
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native contain(const source[],const string[]);
/* Checks if source contains string with case ignoring. On success function
* returns position in source, on failure returns -1. */
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native containi(const source[],const string[]);
/* Replaces given string to another in given text. */
native replace(text[], len, const what[], const with[]);
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/* Adds one string to another. Last parameter different from 0, specifies
* how many chars we want to add. Function returns number of all merged chars. */
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native add(dest[],len,const src[],max=0);
/* Fills string with given format and parameters.
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* Function returns number of copied chars.
* Example: format(dest,"Hello %s. You are %d years old","Tom",17).
* If any of your input buffers overlap with the destination buffer,
* format() falls back to a "copy-back" version as of 1.65. This is
* slower, so you should using a source string that is the same as
* the destination.
*/
native format(output[] ,len ,const format[] , any:...);
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/* Same as format(), except does not perform a "copy back" check.
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* This means formatex() is faster, but DOES NOT ALLOW this type
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* of call:
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* formatex(buffer, len, "%s", buffer)
* formatex(buffer, len, buffer, buffer)
* formatex(buffer, len, "%s", buffer[5])
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* This is because the output is directly stored into "buffer",
* rather than copied back at the end.
*/
native formatex(output[] ,len ,const format[] , any:...);
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/* Replacement for format_args. Much faster and %L compatible.
* This works exactly like vsnprintf() from C.
* You must pass in the output buffer and its size,
* the string to format, and the number of the FIRST variable
* argument parameter. For example, for:
* function (a, b, c, ...)
* You would pass 4 (a is 1, b is 2, c is 3, et cetera).
* There is no vformatex().
*/
native vformat(buffer[], len, const fmt[], vararg);
/*
* Same as vformat(), except works in normal style dynamic natives.
* Instead of passing the format arg string, you can only pass the
* actual format argument number itself.
* If you pass 0, it will read the format string from an optional
* fifth parameter.
*/
native vdformat(buffer[], len, fmt_arg, vararg, ...);
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/* Gets parameters from function as formated string. */
native format_args(output[] ,len ,pos = 0);
/* Converts number to string. */
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native num_to_str(num,string[],len);
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/* Returns converted string to number. */
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native str_to_num(const string[]);
/**
* Parses the 'string' interpreting its content as an integral number of the specified 'base',
* which is returned as integer value. The function also sets the value of 'endPos' to point
* to the position of the first character after the number.
*
* This is the same as C++ strtol function with a difference on second param.
*
* The function first discards as many whitespace characters as necessary until the first
* non-whitespace character is found. Then, starting from this character, takes as many
* characters as possible that are valid following a syntax that depends on the 'base' parameter,
* and interprets them as a numerical value. Finally, a position of the first character following
* the integer representation in 'string' is stored in 'endPos'.
*
* If the value of 'base' is zero, the syntax expected is similar to that of integer constants,
* which is formed by a succession of :
* An optional sign character (+ or -)
* An optional prefix indicating octal or hexadecimal base ("0" or "0x"/"0X" respectively)
* A sequence of decimal digits (if no base prefix was specified) or either octal or hexadecimal digits if a specific prefix is present
*
* If the 'base' value is between 2 and 36, the format expected for the integral number is a succession
* of any of the valid digits and/or letters needed to represent integers of the specified radix
* (starting from '0' and up to 'z'/'Z' for radix 36). The sequence may optionally be preceded by
* a sign (either + or -) and, if base is 16, an optional "0x" or "0X" prefix.
*
* If the first sequence of non-whitespace characters in 'string' is not a valid integral number
* as defined above, or if no such sequence exists because either 'string' is empty or it contains
* only whitespace characters, no conversion is performed.
*
* @param string The string to parse.
* @param endPos The position of the first character following the number.
* On success and when containing only numbers, position is at the end of string, meaning equal to 'string' length.
* On failure, position is sets always to -1.
* @param base The numerical base (radix) that determines the valid characters and their interpretation.
* If this is 0, the base used is determined by the format in the sequence.
* @return On success, the function returns the converted integral number as integer value.
* If no valid conversion could be performed, a zero value is returned.
* If the value read is out of the range of representable values by a cell,
* the function returns 'cellmin' or 'cellmax'.
*/
native strtol(const string[], &endPos = -1, base = 0);
/* Converts float to string. */
native float_to_str(Float:fl, string[], len);
/* Parses a float. */
native Float:str_to_float(const string[]);
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/* Checks if two strings equal. If len var is set
* then there are only c chars comapred. */
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native equal(const a[],const b[],c=0);
/* Checks if two strings equal with case ignoring.
* If len var is set then there are only c chars comapred. */
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native equali(const a[],const b[],c=0);
/* Copies one string to another. By len var
* you may specify max. number of chars to copy. */
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native copy(dest[],len,const src[]);
/* Copies one string to another until char ch is found.
* By len var you may specify max. number of chars to copy. */
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native copyc(dest[],len,const src[],ch);
/* Sets string with given character. */
native setc(src[],len,ch);
/* Gets parameters from text.
* Example: to split text: "^"This is^" the best year",
* call function like this: parse(text,arg1,len1,arg2,len2,arg3,len3,arg4,len4)
* and you will get: "This is", "the", "best", "year"
* Function returns number of parsed parameters. */
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native parse(const text[], ... );
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/* Breaks a string into two halves, by token.
See strbreak() for doing this with parameters.
Example:
str1[] = This *is*some text
strtok(str1, left, 24, right, 24, '*')
left will be "This "
Right will be "is*some text"
If you use trimSpaces, all spaces are trimmed from Left.
*/
native strtok(const text[], Left[], leftLen, Right[], rightLen, token=' ', trimSpaces=0);
/**
* Below are the trim flags for strtok2
*
* You can specify how the left and right buffers will
* be trimmed by strtok2. LTRIM trims spaces from the
* left side. RTRIM trims from the right side.
*
* The defines TRIM_INNER, TRIM_OUTER and TRIM_FULL are
* shorthands for commonly used flag combinations.
*
* When the initial string is trimmed, using TRIM_INNER
* for all subsequent strtok2 calls will ensure that left
* and right are always trimmed from both sides.
*
* Examples:
* str1[] = " This is * some text "
* strtok2(str1, left, 24, right, 24, '*', TRIM_FULL)
* left will be "This is", right will be "some text"
*
* str2[] = " Here is | an | example "
* trim(str2)
* strtok2(str2, left, 24, right, 24, '|', TRIM_INNER)
* left will be "Here is", right will be "an | example"
* strtok2(right, left, 24, right, 24, '|', TRIM_INNER)
* left will be "an", right will be "example"
*
* str3[] = " One - more "
* strtok2(str3, left, 24, right, 24, '-', TRIM_OUTER)
* left will be "One ", right will be " more"
*
* str4[] = " Final . example "
* strtok2(str4, left, 24, right, 24, '.', LTRIM_LEFT|LTRIM_RIGHT)
* left will be "Final ", right will be "example "
*/
#define LTRIM_LEFT (1<<0)
#define RTRIM_LEFT (1<<1)
#define LTRIM_RIGHT (1<<2)
#define RTRIM_RIGHT (1<<3)
#define TRIM_INNER RTRIM_LEFT|LTRIM_RIGHT
#define TRIM_OUTER LTRIM_LEFT|RTRIM_RIGHT
#define TRIM_FULL TRIM_OUTER|TRIM_INNER
/**
* Breaks a string in two by token
*
* Only available in 1.8.3 and above
*
* @param text String to tokenize
* @param left Buffer to store left half
* @param llen Size of left buffer
* @param right Buffer to store right half
* @param rlen Size of right buffer
* @param token Token to split by
* @param trim Flags for trimming behavior, see above
*
* @return Returns position of token in string if found,
* -1 if token was not found
*/
native strtok2(const text[], left[], const llen, right[], const rlen, const token = ' ', const trim = 0);
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/* Strips spaces from the beginning and end of a string. */
native trim(text[]);
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/* Converts all chars in string to lower case. */
native strtolower(string[]);
/* Converts all chars in string to upper case. */
native strtoupper(string[]);
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/* Make a string's first character uppercase */
native ucfirst(string[]);
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/* Returns true when value is digit. */
native isdigit(ch);
/* Returns true when value is letter. */
native isalpha(ch);
/* Returns true when value is space. */
native isspace(ch);
/* Returns true when value is letter or digit. */
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native isalnum(ch);
/* Concatenates a string. Maxlength is the total buffer of the destination. */
native strcat(dest[], const source[], maxlength);
/* Finds a string in another string. Returns -1 if not found. */
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native strfind(const string[], const sub[], ignorecase=0, pos=0);
/* Compares two strings with the C function strcmp(). Returns 0 on equal. */
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native strcmp(const string1[], const string2[], ignorecase=0);
/* Tests if given string contains only digits. Also, returns false for zero-length strings. */
stock bool:is_str_num(const sString[])
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{
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new i = 0;
while (sString[i] && isdigit(sString[i]))
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++i;
return sString[i] == 0 && i != 0;
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}
// Warning: this function is deprecated as it does not work properly. Use
// argparse() or argbreak().
native strbreak(const text[], Left[], leftLen, Right[], rightLen);
/**
* Parses an argument string to find the first argument. You can use this to
* replace strbreak().
*
* You can use argparse() to break a string into all of its arguments:
* new arg[N], pos;
* while (true) {
* pos = argparse(string, pos, arg, sizeof(arg) - 1);
* if (pos == -1)
* break;
* }
*
* All initial whitespace is removed. Remaining characters are read until an
* argument separator is encountered. A separator is any whitespace not inside
* a double-quotation pair (i.e. "x b" is one argument). If only one quotation
* mark appears, argparse() acts as if one existed at the end of the string.
* Quotation marks are never written back, and do not act as separators. For
* example, "a""b""c" will return "abc". An empty quote pair ("") will count
* as an argument containing no characters.
*
* argparse() will write an empty string to argbuffer if no argument is found.
*
* @param text String to tokenize.
* @param pos Position to start parsing from.
* @param argbuffer Buffer to store first argument.
* @param maxlen Size of the buffer.
* @return If no argument was found, -1 is returned. Otherwise,
* the index to the next position to parse from is
* returned. This might be the very end of the string.
*/
native argparse(const text[], pos, argbuffer[], maxlen);
/* Emulates strbreak() using argparse(). */
stock argbreak(const text[], left[], leftlen, right[], rightlen)
{
new pos = argparse(text, 0, left, leftlen);
if (pos == -1)
return -1;
new textlen = strlen(text);
while (pos < textlen && isspace(text[pos]))
pos++;
copy(right, rightlen, text[pos]);
return pos;
}
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/* It is basically strbreak but you have a delimiter that is more than one character in length.
You pass the Input string, the Left output, the max length of the left output,
the right output , the max right length, and then the delimiter string.
By Suicid3
*/
stock split(const szInput[], szLeft[], pL_Max, szRight[], pR_Max, const szDelim[])
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{
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new iEnd = contain(szInput, szDelim);
new iStart = iEnd + strlen(szDelim);
//If delimiter isnt in Input just split the string at max lengths
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if (iEnd == -1)
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{
iStart = copy(szLeft, pL_Max, szInput);
copy(szRight, pR_Max, szInput[iStart]);
return;
}
//If delimter is in Input then split at input for max lengths
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if (pL_Max >= iEnd)
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copy(szLeft, iEnd, szInput);
else
copy(szLeft, pL_Max, szInput);
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copy(szRight, pR_Max, szInput[iStart]);
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return;
}
/* Removes a path from szFilePath leaving the name of the file in szFile for a pMax length. */
stock remove_filepath(const szFilePath[], szFile[], pMax)
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{
new len = strlen(szFilePath);
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while ((--len >= 0) && (szFilePath[len] != '/') && (szFilePath[len] != '\')) { }
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copy(szFile, pMax, szFilePath[len + 1]);
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return;
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}
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/* Replaces a contained string iteratively.
* This ensures that no infinite replacements will take place by
* intelligently moving to the next string position each iteration.
*/
stock replace_all(string[], len, const what[], const with[])
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{
new pos = 0;
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if ((pos = contain(string, what)) == -1)
{
return 0;
}
new total = 0;
new with_len = strlen(with);
new diff = strlen(what) - with_len;
new total_len = strlen(string);
new temp_pos = 0;
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while (replace(string[pos], len - pos, what, with) != 0)
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{
total++;
/* jump to position after replacement */
pos += with_len;
/* update cached length of string */
total_len -= diff;
/* will the next call be operating on the last character? */
if (pos >= total_len)
{
break;
}
/* find the next position from our offset */
temp_pos = contain(string[pos], what);
/* if it's invalid, we're done */
if (temp_pos == -1)
{
break;
}
/* otherwise, reposition and update counters */
pos += temp_pos;
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}
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return total;
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}