index 879af9087db92d7346fee2109326df55eaf25dfc..a81cea45b5b6e5f52d5c6ba671f5b2ae42aa1e3c 100644 (file)
--- a/src/include/core/data.h
+++ b/src/include/core/data.h
#include <inttypes.h>
#include <stddef.h>
#include <inttypes.h>
#include <stddef.h>
+#include <sys/types.h>
+#include <regex.h>
+
#ifdef __cplusplus
extern "C" {
#endif
#ifdef __cplusplus
extern "C" {
#endif
SDB_TYPE_STRING,
SDB_TYPE_DATETIME,
SDB_TYPE_BINARY,
SDB_TYPE_STRING,
SDB_TYPE_DATETIME,
SDB_TYPE_BINARY,
+ SDB_TYPE_REGEX,
};
#define SDB_TYPE_TO_STRING(t) \
};
#define SDB_TYPE_TO_STRING(t) \
- (((t) == SDB_TYPE_INTEGER) \
- ? "INTEGER" \
- : ((t) == SDB_TYPE_DECIMAL) \
- ? "DECIMAL" \
- : ((t) == SDB_TYPE_STRING) \
- ? "STRING" \
- : ((t) == SDB_TYPE_DATETIME) \
- ? "DATETIME" \
- : ((t) == SDB_TYPE_BINARY) \
- ? "BINARY" \
- : "UNKNOWN")
+ (((t) == SDB_TYPE_INTEGER) ? "INTEGER" \
+ : ((t) == SDB_TYPE_DECIMAL) ? "DECIMAL" \
+ : ((t) == SDB_TYPE_STRING) ? "STRING" \
+ : ((t) == SDB_TYPE_DATETIME) ? "DATETIME" \
+ : ((t) == SDB_TYPE_BINARY) ? "BINARY" \
+ : ((t) == SDB_TYPE_REGEX) ? "REGEX" : "UNKNOWN")
/*
* sdb_data_t:
/*
* sdb_data_t:
size_t length;
unsigned char *datum;
} binary; /* SDB_TYPE_BINARY */
size_t length;
unsigned char *datum;
} binary; /* SDB_TYPE_BINARY */
+ struct {
+ char *raw;
+ regex_t regex;
+ } re; /* SDB_TYPE_REGEX */
} data;
} sdb_data_t;
} data;
} sdb_data_t;
+#define SDB_DATA_INIT { 0, { .integer = 0 } }
/*
* sdb_data_copy:
* Copy the datum stored in 'src' to the memory location pointed to by 'dst'.
* Any dynamic data (strings, binary data) is copied to newly allocated
* memory. Use, for example, sdb_data_free_datum() to free any dynamic memory
/*
* sdb_data_copy:
* Copy the datum stored in 'src' to the memory location pointed to by 'dst'.
* Any dynamic data (strings, binary data) is copied to newly allocated
* memory. Use, for example, sdb_data_free_datum() to free any dynamic memory
- * stored in a datum.
+ * stored in a datum. On error, 'dst' is unchanged. Else, any dynamic memory
+ * in 'dst' will be freed.
*
* Returns:
* - 0 on success
*
* Returns:
* - 0 on success
/*
* sdb_data_cmp:
* Compare two data points. A NULL datum is considered less than any non-NULL
/*
* sdb_data_cmp:
* Compare two data points. A NULL datum is considered less than any non-NULL
- * datum. On data-type mismatch, the function always returns a negative value.
+ * datum. On data-type mismatch, the function always returns a non-zero value.
*
* Returns:
* - a value less than zero if d1 compares less than d2
*
* Returns:
* - a value less than zero if d1 compares less than d2
* - a value greater than zero if d1 compares greater than d2
*/
int
* - a value greater than zero if d1 compares greater than d2
*/
int
-sdb_data_cmp(sdb_data_t *d1, sdb_data_t *d2);
+sdb_data_cmp(const sdb_data_t *d1, const sdb_data_t *d2);
+
+/*
+ * sdb_data_strcmp:
+ * Compare the string values of two data points. A NULL datum is considered
+ * less than any non-NULL. This function works for arbitrary combination of
+ * data-types.
+ *
+ * Returns:
+ * - a value less than zero if d1 compares less than d2
+ * - zero if d1 compares equal to d2
+ * - a value greater than zero if d1 compares greater than d2
+ */
+int
+sdb_data_strcmp(const sdb_data_t *d1, const sdb_data_t *d2);
+
+/*
+ * sdb_data_isnull:
+ * Determine whether a datum is NULL. A datum is considered to be NULL if
+ * either datum is NULL or if the string or binary datum is NULL.
+ */
+_Bool
+sdb_data_isnull(const sdb_data_t *datum);
+
+/*
+ * Operators supported by sdb_data_eval_expr.
+ */
+enum {
+ SDB_DATA_ADD = 1, /* addition */
+ SDB_DATA_SUB, /* substraction */
+ SDB_DATA_MUL, /* multiplication */
+ SDB_DATA_DIV, /* division */
+ SDB_DATA_MOD, /* modulo */
+ SDB_DATA_CONCAT, /* string / binary data concatenation */
+};
+
+#define SDB_DATA_OP_TO_STRING(op) \
+ (((op) == SDB_DATA_ADD) \
+ ? "+" \
+ : ((op) == SDB_DATA_SUB) \
+ ? "-" \
+ : ((op) == SDB_DATA_MUL) \
+ ? "*" \
+ : ((op) == SDB_DATA_DIV) \
+ ? "/" \
+ : ((op) == SDB_DATA_MOD) \
+ ? "%" \
+ : ((op) == SDB_DATA_CONCAT) \
+ ? "||" : "UNKNOWN")
+
+/*
+ * sdb_data_expr_eval:
+ * Evaluate a simple arithmetic expression on two data points. String and
+ * binary data only support concatenation and all other data types only
+ * support the other operators. The result may be allocated dynamically and
+ * has to be freed by the caller (using sdb_data_free_datum).
+ *
+ * The data-types of d1 and d2 have to be the same, except for the following
+ * cases:
+ * - <integer> or <decimal> <mul> <datetime>
+ * - <datetime> <mul> or <div> or <mod> <integer> or <decimal>
+ *
+ * Returns:
+ * - 0 on success
+ * - a negative value else
+ */
+int
+sdb_data_expr_eval(int op, const sdb_data_t *d1, const sdb_data_t *d2,
+ sdb_data_t *res);
/*
* sdb_data_strlen:
/*
* sdb_data_strlen:
int
sdb_data_format(const sdb_data_t *datum, char *buf, size_t buflen, int quoted);
int
sdb_data_format(const sdb_data_t *datum, char *buf, size_t buflen, int quoted);
+/*
+ * sdb_data_parse:
+ * Parse the specified string into a datum using the specified type. The
+ * string value is expected to be a raw value of the specified type. Integer
+ * and decimal numbers may be signed or unsigned octal (base 8, if the first
+ * character of the string is "0"), sedecimal (base 16, if the string includes
+ * the "0x" prefix), or decimal. Decimal numbers may also be "infinity" or
+ * "NaN" or may use a decimal exponent. Date-time values are expected to be
+ * specified as (floating point) number of seconds since the epoch. For string
+ * and binary data, the input string is passed to the datum. The function does
+ * not allocate new memory for that purpose. Use sdb_data_copy() if you want
+ * to do that. For regex data, the input string is copied to newly allocated
+ * memory and also compiled to a regex. Use sdb_data_free_datum() to free the
+ * dynamically allocated memory.
+ *
+ * Returns:
+ * - 0 on success
+ * - a negative value else
+ */
+int
+sdb_data_parse(char *str, int type, sdb_data_t *data);
+
#ifdef __cplusplus
} /* extern "C" */
#endif
#ifdef __cplusplus
} /* extern "C" */
#endif