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- /* math.h - interface to shell math "library" -- this allows shells to share
- * the implementation of arithmetic $((...)) expansions.
- *
- * This aims to be a POSIX shell math library as documented here:
- * http://www.opengroup.org/onlinepubs/9699919799/utilities/V3_chap02.html#tag_18_06_04
- *
- * See math.c for internal documentation.
- */
- /* The math library has just one function:
- *
- * arith_t arith(arith_state_t *state, const char *expr);
- *
- * The expr argument is the math string to parse. All normal expansions must
- * be done already. i.e. no dollar symbols should be present.
- *
- * The state argument is a pointer to a struct of hooks for your shell (see below),
- * and an error message string (NULL if no error).
- *
- * The function returns the answer to the expression. So if you called it
- * with the expression:
- * "1 + 2 + 3"
- * you would obviously get back 6.
- */
- /* To add support to a shell, you need to implement three functions:
- *
- * lookupvar() - look up and return the value of a variable
- *
- * If the shell does:
- * foo=123
- * Then the code:
- * const char *val = lookupvar("foo");
- * will result in val pointing to "123"
- *
- * setvar() - set a variable to some value
- *
- * If the arithmetic expansion does something like:
- * $(( i = 1))
- * then the math code will make a call like so:
- * setvar("i", "1", 0);
- * The storage for the first two parameters are not allocated, so your
- * shell implementation will most likely need to strdup() them to save.
- *
- * endofname() - return the end of a variable name from input
- *
- * The arithmetic code does not know about variable naming conventions.
- * So when it is given an experession, it knows something is not numeric,
- * but it is up to the shell to dictate what is a valid identifiers.
- * So when it encounters something like:
- * $(( some_var + 123 ))
- * It will make a call like so:
- * end = endofname("some_var + 123");
- * So the shell needs to scan the input string and return a pointer to the
- * first non-identifier string. In this case, it should return the input
- * pointer with an offset pointing to the first space. The typical
- * implementation will return the offset of first char that does not match
- * the regex (in C locale): ^[a-zA-Z_][a-zA-Z_0-9]*
- */
- #ifndef SHELL_MATH_H
- #define SHELL_MATH_H 1
- PUSH_AND_SET_FUNCTION_VISIBILITY_TO_HIDDEN
- #if ENABLE_SH_MATH_SUPPORT_64
- typedef long long arith_t;
- #define ARITH_FMT "%lld"
- #define strto_arith_t strtoull
- #else
- typedef long arith_t;
- #define ARITH_FMT "%ld"
- #define strto_arith_t strtoul
- #endif
- /* ash's and hush's endofname is the same, so... */
- # define is_name(c) ((c) == '_' || isalpha((unsigned char)(c)))
- # define is_in_name(c) ((c) == '_' || isalnum((unsigned char)(c)))
- const char* FAST_FUNC endofname(const char *name);
- typedef const char* FAST_FUNC (*arith_var_lookup_t)(const char *name);
- typedef void FAST_FUNC (*arith_var_set_t)(const char *name, const char *val);
- //typedef const char* FAST_FUNC (*arith_var_endofname_t)(const char *name);
- typedef struct arith_state_t {
- const char *errmsg;
- arith_var_lookup_t lookupvar;
- arith_var_set_t setvar;
- // arith_var_endofname_t endofname;
- void *list_of_recursed_names;
- } arith_state_t;
- arith_t FAST_FUNC arith(arith_state_t *state, const char *expr);
- POP_SAVED_FUNCTION_VISIBILITY
- #endif
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