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authorDaniel Baumann <daniel.baumann@progress-linux.org>2018-11-07 12:22:44 +0000
committerDaniel Baumann <daniel.baumann@progress-linux.org>2018-11-07 12:22:44 +0000
commit1e6c93250172946eeb38e94a92a1fd12c9d3011e (patch)
tree8ca5e16dfc7ad6b3bf2738ca0a48408a950f8f7e /src/eval.c
parentUpdate watch file (diff)
downloadnetdata-1e6c93250172946eeb38e94a92a1fd12c9d3011e.tar.xz
netdata-1e6c93250172946eeb38e94a92a1fd12c9d3011e.zip
Merging upstream version 1.11.0+dfsg.
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'src/eval.c')
-rw-r--r--src/eval.c1188
1 files changed, 0 insertions, 1188 deletions
diff --git a/src/eval.c b/src/eval.c
deleted file mode 100644
index 84369f6d..00000000
--- a/src/eval.c
+++ /dev/null
@@ -1,1188 +0,0 @@
-#include "common.h"
-
-// ----------------------------------------------------------------------------
-// data structures for storing the parsed expression in memory
-
-typedef struct eval_value {
- int type;
-
- union {
- calculated_number number;
- EVAL_VARIABLE *variable;
- struct eval_node *expression;
- };
-} EVAL_VALUE;
-
-typedef struct eval_node {
- int id;
- unsigned char operator;
- int precedence;
-
- int count;
- EVAL_VALUE ops[];
-} EVAL_NODE;
-
-// these are used for EVAL_NODE.operator
-// they are used as internal IDs to identify an operator
-// THEY ARE NOT USED FOR PARSING OPERATORS LIKE THAT
-#define EVAL_OPERATOR_NOP '\0'
-#define EVAL_OPERATOR_EXPRESSION_OPEN '('
-#define EVAL_OPERATOR_EXPRESSION_CLOSE ')'
-#define EVAL_OPERATOR_NOT '!'
-#define EVAL_OPERATOR_PLUS '+'
-#define EVAL_OPERATOR_MINUS '-'
-#define EVAL_OPERATOR_AND '&'
-#define EVAL_OPERATOR_OR '|'
-#define EVAL_OPERATOR_GREATER_THAN_OR_EQUAL 'G'
-#define EVAL_OPERATOR_LESS_THAN_OR_EQUAL 'L'
-#define EVAL_OPERATOR_NOT_EQUAL '~'
-#define EVAL_OPERATOR_EQUAL '='
-#define EVAL_OPERATOR_LESS '<'
-#define EVAL_OPERATOR_GREATER '>'
-#define EVAL_OPERATOR_MULTIPLY '*'
-#define EVAL_OPERATOR_DIVIDE '/'
-#define EVAL_OPERATOR_SIGN_PLUS 'P'
-#define EVAL_OPERATOR_SIGN_MINUS 'M'
-#define EVAL_OPERATOR_ABS 'A'
-#define EVAL_OPERATOR_IF_THEN_ELSE '?'
-
-// ----------------------------------------------------------------------------
-// forward function definitions
-
-static inline void eval_node_free(EVAL_NODE *op);
-static inline EVAL_NODE *parse_full_expression(const char **string, int *error);
-static inline EVAL_NODE *parse_one_full_operand(const char **string, int *error);
-static inline calculated_number eval_node(EVAL_EXPRESSION *exp, EVAL_NODE *op, int *error);
-static inline void print_parsed_as_node(BUFFER *out, EVAL_NODE *op, int *error);
-static inline void print_parsed_as_constant(BUFFER *out, calculated_number n);
-
-// ----------------------------------------------------------------------------
-// evaluation of expressions
-
-static inline calculated_number eval_variable(EVAL_EXPRESSION *exp, EVAL_VARIABLE *v, int *error) {
- static uint32_t this_hash = 0, now_hash = 0, after_hash = 0, before_hash = 0, status_hash = 0, removed_hash = 0, uninitialized_hash = 0, undefined_hash = 0, clear_hash = 0, warning_hash = 0, critical_hash = 0;
- calculated_number n;
-
- if(unlikely(this_hash == 0)) {
- this_hash = simple_hash("this");
- now_hash = simple_hash("now");
- after_hash = simple_hash("after");
- before_hash = simple_hash("before");
- status_hash = simple_hash("status");
- removed_hash = simple_hash("REMOVED");
- uninitialized_hash = simple_hash("UNINITIALIZED");
- undefined_hash = simple_hash("UNDEFINED");
- clear_hash = simple_hash("CLEAR");
- warning_hash = simple_hash("WARNING");
- critical_hash = simple_hash("CRITICAL");
- }
-
- if(unlikely(v->hash == this_hash && !strcmp(v->name, "this"))) {
- n = (exp->this)?*exp->this:NAN;
- buffer_strcat(exp->error_msg, "[ $this = ");
- print_parsed_as_constant(exp->error_msg, n);
- buffer_strcat(exp->error_msg, " ] ");
- return n;
- }
-
- if(unlikely(v->hash == after_hash && !strcmp(v->name, "after"))) {
- n = (exp->after && *exp->after)?*exp->after:NAN;
- buffer_strcat(exp->error_msg, "[ $after = ");
- print_parsed_as_constant(exp->error_msg, n);
- buffer_strcat(exp->error_msg, " ] ");
- return n;
- }
-
- if(unlikely(v->hash == before_hash && !strcmp(v->name, "before"))) {
- n = (exp->before && *exp->before)?*exp->before:NAN;
- buffer_strcat(exp->error_msg, "[ $before = ");
- print_parsed_as_constant(exp->error_msg, n);
- buffer_strcat(exp->error_msg, " ] ");
- return n;
- }
-
- if(unlikely(v->hash == now_hash && !strcmp(v->name, "now"))) {
- n = now_realtime_sec();
- buffer_strcat(exp->error_msg, "[ $now = ");
- print_parsed_as_constant(exp->error_msg, n);
- buffer_strcat(exp->error_msg, " ] ");
- return n;
- }
-
- if(unlikely(v->hash == status_hash && !strcmp(v->name, "status"))) {
- n = (exp->status)?*exp->status:RRDCALC_STATUS_UNINITIALIZED;
- buffer_strcat(exp->error_msg, "[ $status = ");
- print_parsed_as_constant(exp->error_msg, n);
- buffer_strcat(exp->error_msg, " ] ");
- return n;
- }
-
- if(unlikely(v->hash == removed_hash && !strcmp(v->name, "REMOVED"))) {
- n = RRDCALC_STATUS_REMOVED;
- buffer_strcat(exp->error_msg, "[ $REMOVED = ");
- print_parsed_as_constant(exp->error_msg, n);
- buffer_strcat(exp->error_msg, " ] ");
- return n;
- }
-
- if(unlikely(v->hash == uninitialized_hash && !strcmp(v->name, "UNINITIALIZED"))) {
- n = RRDCALC_STATUS_UNINITIALIZED;
- buffer_strcat(exp->error_msg, "[ $UNINITIALIZED = ");
- print_parsed_as_constant(exp->error_msg, n);
- buffer_strcat(exp->error_msg, " ] ");
- return n;
- }
-
- if(unlikely(v->hash == undefined_hash && !strcmp(v->name, "UNDEFINED"))) {
- n = RRDCALC_STATUS_UNDEFINED;
- buffer_strcat(exp->error_msg, "[ $UNDEFINED = ");
- print_parsed_as_constant(exp->error_msg, n);
- buffer_strcat(exp->error_msg, " ] ");
- return n;
- }
-
- if(unlikely(v->hash == clear_hash && !strcmp(v->name, "CLEAR"))) {
- n = RRDCALC_STATUS_CLEAR;
- buffer_strcat(exp->error_msg, "[ $CLEAR = ");
- print_parsed_as_constant(exp->error_msg, n);
- buffer_strcat(exp->error_msg, " ] ");
- return n;
- }
-
- if(unlikely(v->hash == warning_hash && !strcmp(v->name, "WARNING"))) {
- n = RRDCALC_STATUS_WARNING;
- buffer_strcat(exp->error_msg, "[ $WARNING = ");
- print_parsed_as_constant(exp->error_msg, n);
- buffer_strcat(exp->error_msg, " ] ");
- return n;
- }
-
- if(unlikely(v->hash == critical_hash && !strcmp(v->name, "CRITICAL"))) {
- n = RRDCALC_STATUS_CRITICAL;
- buffer_strcat(exp->error_msg, "[ $CRITICAL = ");
- print_parsed_as_constant(exp->error_msg, n);
- buffer_strcat(exp->error_msg, " ] ");
- return n;
- }
-
- if(exp->rrdcalc && health_variable_lookup(v->name, v->hash, exp->rrdcalc, &n)) {
- buffer_sprintf(exp->error_msg, "[ ${%s} = ", v->name);
- print_parsed_as_constant(exp->error_msg, n);
- buffer_strcat(exp->error_msg, " ] ");
- return n;
- }
-
- *error = EVAL_ERROR_UNKNOWN_VARIABLE;
- buffer_sprintf(exp->error_msg, "[ undefined variable '%s' ] ", v->name);
- return 0;
-}
-
-static inline calculated_number eval_value(EVAL_EXPRESSION *exp, EVAL_VALUE *v, int *error) {
- calculated_number n;
-
- switch(v->type) {
- case EVAL_VALUE_EXPRESSION:
- n = eval_node(exp, v->expression, error);
- break;
-
- case EVAL_VALUE_NUMBER:
- n = v->number;
- break;
-
- case EVAL_VALUE_VARIABLE:
- n = eval_variable(exp, v->variable, error);
- break;
-
- default:
- *error = EVAL_ERROR_INVALID_VALUE;
- n = 0;
- break;
- }
-
- return n;
-}
-
-static inline int is_true(calculated_number n) {
- if(isnan(n)) return 0;
- if(isinf(n)) return 1;
- if(n == 0) return 0;
- return 1;
-}
-
-calculated_number eval_and(EVAL_EXPRESSION *exp, EVAL_NODE *op, int *error) {
- return is_true(eval_value(exp, &op->ops[0], error)) && is_true(eval_value(exp, &op->ops[1], error));
-}
-calculated_number eval_or(EVAL_EXPRESSION *exp, EVAL_NODE *op, int *error) {
- return is_true(eval_value(exp, &op->ops[0], error)) || is_true(eval_value(exp, &op->ops[1], error));
-}
-calculated_number eval_greater_than_or_equal(EVAL_EXPRESSION *exp, EVAL_NODE *op, int *error) {
- calculated_number n1 = eval_value(exp, &op->ops[0], error);
- calculated_number n2 = eval_value(exp, &op->ops[1], error);
- return isgreaterequal(n1, n2);
-}
-calculated_number eval_less_than_or_equal(EVAL_EXPRESSION *exp, EVAL_NODE *op, int *error) {
- calculated_number n1 = eval_value(exp, &op->ops[0], error);
- calculated_number n2 = eval_value(exp, &op->ops[1], error);
- return islessequal(n1, n2);
-}
-calculated_number eval_equal(EVAL_EXPRESSION *exp, EVAL_NODE *op, int *error) {
- calculated_number n1 = eval_value(exp, &op->ops[0], error);
- calculated_number n2 = eval_value(exp, &op->ops[1], error);
- if(isnan(n1) && isnan(n2)) return 1;
- if(isinf(n1) && isinf(n2)) return 1;
- if(isnan(n1) || isnan(n2)) return 0;
- if(isinf(n1) || isinf(n2)) return 0;
- return calculated_number_equal(n1, n2);
-}
-calculated_number eval_not_equal(EVAL_EXPRESSION *exp, EVAL_NODE *op, int *error) {
- return !eval_equal(exp, op, error);
-}
-calculated_number eval_less(EVAL_EXPRESSION *exp, EVAL_NODE *op, int *error) {
- calculated_number n1 = eval_value(exp, &op->ops[0], error);
- calculated_number n2 = eval_value(exp, &op->ops[1], error);
- return isless(n1, n2);
-}
-calculated_number eval_greater(EVAL_EXPRESSION *exp, EVAL_NODE *op, int *error) {
- calculated_number n1 = eval_value(exp, &op->ops[0], error);
- calculated_number n2 = eval_value(exp, &op->ops[1], error);
- return isgreater(n1, n2);
-}
-calculated_number eval_plus(EVAL_EXPRESSION *exp, EVAL_NODE *op, int *error) {
- calculated_number n1 = eval_value(exp, &op->ops[0], error);
- calculated_number n2 = eval_value(exp, &op->ops[1], error);
- if(isnan(n1) || isnan(n2)) return NAN;
- if(isinf(n1) || isinf(n2)) return INFINITY;
- return n1 + n2;
-}
-calculated_number eval_minus(EVAL_EXPRESSION *exp, EVAL_NODE *op, int *error) {
- calculated_number n1 = eval_value(exp, &op->ops[0], error);
- calculated_number n2 = eval_value(exp, &op->ops[1], error);
- if(isnan(n1) || isnan(n2)) return NAN;
- if(isinf(n1) || isinf(n2)) return INFINITY;
- return n1 - n2;
-}
-calculated_number eval_multiply(EVAL_EXPRESSION *exp, EVAL_NODE *op, int *error) {
- calculated_number n1 = eval_value(exp, &op->ops[0], error);
- calculated_number n2 = eval_value(exp, &op->ops[1], error);
- if(isnan(n1) || isnan(n2)) return NAN;
- if(isinf(n1) || isinf(n2)) return INFINITY;
- return n1 * n2;
-}
-calculated_number eval_divide(EVAL_EXPRESSION *exp, EVAL_NODE *op, int *error) {
- calculated_number n1 = eval_value(exp, &op->ops[0], error);
- calculated_number n2 = eval_value(exp, &op->ops[1], error);
- if(isnan(n1) || isnan(n2)) return NAN;
- if(isinf(n1) || isinf(n2)) return INFINITY;
- return n1 / n2;
-}
-calculated_number eval_nop(EVAL_EXPRESSION *exp, EVAL_NODE *op, int *error) {
- return eval_value(exp, &op->ops[0], error);
-}
-calculated_number eval_not(EVAL_EXPRESSION *exp, EVAL_NODE *op, int *error) {
- return !is_true(eval_value(exp, &op->ops[0], error));
-}
-calculated_number eval_sign_plus(EVAL_EXPRESSION *exp, EVAL_NODE *op, int *error) {
- return eval_value(exp, &op->ops[0], error);
-}
-calculated_number eval_sign_minus(EVAL_EXPRESSION *exp, EVAL_NODE *op, int *error) {
- calculated_number n1 = eval_value(exp, &op->ops[0], error);
- if(isnan(n1)) return NAN;
- if(isinf(n1)) return INFINITY;
- return -n1;
-}
-calculated_number eval_abs(EVAL_EXPRESSION *exp, EVAL_NODE *op, int *error) {
- calculated_number n1 = eval_value(exp, &op->ops[0], error);
- if(isnan(n1)) return NAN;
- if(isinf(n1)) return INFINITY;
- return abs(n1);
-}
-calculated_number eval_if_then_else(EVAL_EXPRESSION *exp, EVAL_NODE *op, int *error) {
- if(is_true(eval_value(exp, &op->ops[0], error)))
- return eval_value(exp, &op->ops[1], error);
- else
- return eval_value(exp, &op->ops[2], error);
-}
-
-static struct operator {
- const char *print_as;
- char precedence;
- char parameters;
- char isfunction;
- calculated_number (*eval)(EVAL_EXPRESSION *exp, EVAL_NODE *op, int *error);
-} operators[256] = {
- // this is a random access array
- // we always access it with a known EVAL_OPERATOR_X
-
- [EVAL_OPERATOR_AND] = { "&&", 2, 2, 0, eval_and },
- [EVAL_OPERATOR_OR] = { "||", 2, 2, 0, eval_or },
- [EVAL_OPERATOR_GREATER_THAN_OR_EQUAL] = { ">=", 3, 2, 0, eval_greater_than_or_equal },
- [EVAL_OPERATOR_LESS_THAN_OR_EQUAL] = { "<=", 3, 2, 0, eval_less_than_or_equal },
- [EVAL_OPERATOR_NOT_EQUAL] = { "!=", 3, 2, 0, eval_not_equal },
- [EVAL_OPERATOR_EQUAL] = { "==", 3, 2, 0, eval_equal },
- [EVAL_OPERATOR_LESS] = { "<", 3, 2, 0, eval_less },
- [EVAL_OPERATOR_GREATER] = { ">", 3, 2, 0, eval_greater },
- [EVAL_OPERATOR_PLUS] = { "+", 4, 2, 0, eval_plus },
- [EVAL_OPERATOR_MINUS] = { "-", 4, 2, 0, eval_minus },
- [EVAL_OPERATOR_MULTIPLY] = { "*", 5, 2, 0, eval_multiply },
- [EVAL_OPERATOR_DIVIDE] = { "/", 5, 2, 0, eval_divide },
- [EVAL_OPERATOR_NOT] = { "!", 6, 1, 0, eval_not },
- [EVAL_OPERATOR_SIGN_PLUS] = { "+", 6, 1, 0, eval_sign_plus },
- [EVAL_OPERATOR_SIGN_MINUS] = { "-", 6, 1, 0, eval_sign_minus },
- [EVAL_OPERATOR_ABS] = { "abs(",6,1, 1, eval_abs },
- [EVAL_OPERATOR_IF_THEN_ELSE] = { "?", 7, 3, 0, eval_if_then_else },
- [EVAL_OPERATOR_NOP] = { NULL, 8, 1, 0, eval_nop },
- [EVAL_OPERATOR_EXPRESSION_OPEN] = { NULL, 8, 1, 0, eval_nop },
-
- // this should exist in our evaluation list
- [EVAL_OPERATOR_EXPRESSION_CLOSE] = { NULL, 99, 1, 0, eval_nop }
-};
-
-#define eval_precedence(operator) (operators[(unsigned char)(operator)].precedence)
-
-static inline calculated_number eval_node(EVAL_EXPRESSION *exp, EVAL_NODE *op, int *error) {
- if(unlikely(op->count != operators[op->operator].parameters)) {
- *error = EVAL_ERROR_INVALID_NUMBER_OF_OPERANDS;
- return 0;
- }
-
- calculated_number n = operators[op->operator].eval(exp, op, error);
-
- return n;
-}
-
-// ----------------------------------------------------------------------------
-// parsed-as generation
-
-static inline void print_parsed_as_variable(BUFFER *out, EVAL_VARIABLE *v, int *error) {
- (void)error;
- buffer_sprintf(out, "${%s}", v->name);
-}
-
-static inline void print_parsed_as_constant(BUFFER *out, calculated_number n) {
- if(unlikely(isnan(n))) {
- buffer_strcat(out, "nan");
- return;
- }
-
- if(unlikely(isinf(n))) {
- buffer_strcat(out, "inf");
- return;
- }
-
- char b[100+1], *s;
- snprintfz(b, 100, CALCULATED_NUMBER_FORMAT, n);
-
- s = &b[strlen(b) - 1];
- while(s > b && *s == '0') {
- *s ='\0';
- s--;
- }
-
- if(s > b && *s == '.')
- *s = '\0';
-
- buffer_strcat(out, b);
-}
-
-static inline void print_parsed_as_value(BUFFER *out, EVAL_VALUE *v, int *error) {
- switch(v->type) {
- case EVAL_VALUE_EXPRESSION:
- print_parsed_as_node(out, v->expression, error);
- break;
-
- case EVAL_VALUE_NUMBER:
- print_parsed_as_constant(out, v->number);
- break;
-
- case EVAL_VALUE_VARIABLE:
- print_parsed_as_variable(out, v->variable, error);
- break;
-
- default:
- *error = EVAL_ERROR_INVALID_VALUE;
- break;
- }
-}
-
-static inline void print_parsed_as_node(BUFFER *out, EVAL_NODE *op, int *error) {
- if(unlikely(op->count != operators[op->operator].parameters)) {
- *error = EVAL_ERROR_INVALID_NUMBER_OF_OPERANDS;
- return;
- }
-
- if(operators[op->operator].parameters == 1) {
-
- if(operators[op->operator].print_as)
- buffer_sprintf(out, "%s", operators[op->operator].print_as);
-
- //if(op->operator == EVAL_OPERATOR_EXPRESSION_OPEN)
- // buffer_strcat(out, "(");
-
- print_parsed_as_value(out, &op->ops[0], error);
-
- //if(op->operator == EVAL_OPERATOR_EXPRESSION_OPEN)
- // buffer_strcat(out, ")");
- }
-
- else if(operators[op->operator].parameters == 2) {
- buffer_strcat(out, "(");
- print_parsed_as_value(out, &op->ops[0], error);
-
- if(operators[op->operator].print_as)
- buffer_sprintf(out, " %s ", operators[op->operator].print_as);
-
- print_parsed_as_value(out, &op->ops[1], error);
- buffer_strcat(out, ")");
- }
- else if(op->operator == EVAL_OPERATOR_IF_THEN_ELSE && operators[op->operator].parameters == 3) {
- buffer_strcat(out, "(");
- print_parsed_as_value(out, &op->ops[0], error);
-
- if(operators[op->operator].print_as)
- buffer_sprintf(out, " %s ", operators[op->operator].print_as);
-
- print_parsed_as_value(out, &op->ops[1], error);
- buffer_strcat(out, " : ");
- print_parsed_as_value(out, &op->ops[2], error);
- buffer_strcat(out, ")");
- }
-
- if(operators[op->operator].isfunction)
- buffer_strcat(out, ")");
-}
-
-// ----------------------------------------------------------------------------
-// parsing expressions
-
-// skip spaces
-static inline void skip_spaces(const char **string) {
- const char *s = *string;
- while(isspace(*s)) s++;
- *string = s;
-}
-
-// what character can appear just after an operator keyword
-// like NOT AND OR ?
-static inline int isoperatorterm_word(const char s) {
- if(isspace(s) || s == '(' || s == '$' || s == '!' || s == '-' || s == '+' || isdigit(s) || !s)
- return 1;
-
- return 0;
-}
-
-// what character can appear just after an operator symbol?
-static inline int isoperatorterm_symbol(const char s) {
- if(isoperatorterm_word(s) || isalpha(s))
- return 1;
-
- return 0;
-}
-
-// return 1 if the character should never appear in a variable
-static inline int isvariableterm(const char s) {
- if(isalnum(s) || s == '.' || s == '_')
- return 0;
-
- return 1;
-}
-
-// ----------------------------------------------------------------------------
-// parse operators
-
-static inline int parse_and(const char **string) {
- const char *s = *string;
-
- // AND
- if((s[0] == 'A' || s[0] == 'a') && (s[1] == 'N' || s[1] == 'n') && (s[2] == 'D' || s[2] == 'd') && isoperatorterm_word(s[3])) {
- *string = &s[4];
- return 1;
- }
-
- // &&
- if(s[0] == '&' && s[1] == '&' && isoperatorterm_symbol(s[2])) {
- *string = &s[2];
- return 1;
- }
-
- return 0;
-}
-
-static inline int parse_or(const char **string) {
- const char *s = *string;
-
- // OR
- if((s[0] == 'O' || s[0] == 'o') && (s[1] == 'R' || s[1] == 'r') && isoperatorterm_word(s[2])) {
- *string = &s[3];
- return 1;
- }
-
- // ||
- if(s[0] == '|' && s[1] == '|' && isoperatorterm_symbol(s[2])) {
- *string = &s[2];
- return 1;
- }
-
- return 0;
-}
-
-static inline int parse_greater_than_or_equal(const char **string) {
- const char *s = *string;
-
- // >=
- if(s[0] == '>' && s[1] == '=' && isoperatorterm_symbol(s[2])) {
- *string = &s[2];
- return 1;
- }
-
- return 0;
-}
-
-static inline int parse_less_than_or_equal(const char **string) {
- const char *s = *string;
-
- // <=
- if (s[0] == '<' && s[1] == '=' && isoperatorterm_symbol(s[2])) {
- *string = &s[2];
- return 1;
- }
-
- return 0;
-}
-
-static inline int parse_greater(const char **string) {
- const char *s = *string;
-
- // >
- if(s[0] == '>' && isoperatorterm_symbol(s[1])) {
- *string = &s[1];
- return 1;
- }
-
- return 0;
-}
-
-static inline int parse_less(const char **string) {
- const char *s = *string;
-
- // <
- if(s[0] == '<' && isoperatorterm_symbol(s[1])) {
- *string = &s[1];
- return 1;
- }
-
- return 0;
-}
-
-static inline int parse_equal(const char **string) {
- const char *s = *string;
-
- // ==
- if(s[0] == '=' && s[1] == '=' && isoperatorterm_symbol(s[2])) {
- *string = &s[2];
- return 1;
- }
-
- // =
- if(s[0] == '=' && isoperatorterm_symbol(s[1])) {
- *string = &s[1];
- return 1;
- }
-
- return 0;
-}
-
-static inline int parse_not_equal(const char **string) {
- const char *s = *string;
-
- // !=
- if(s[0] == '!' && s[1] == '=' && isoperatorterm_symbol(s[2])) {
- *string = &s[2];
- return 1;
- }
-
- // <>
- if(s[0] == '<' && s[1] == '>' && isoperatorterm_symbol(s[2])) {
- *string = &s[2];
- }
-
- return 0;
-}
-
-static inline int parse_not(const char **string) {
- const char *s = *string;
-
- // NOT
- if((s[0] == 'N' || s[0] == 'n') && (s[1] == 'O' || s[1] == 'o') && (s[2] == 'T' || s[2] == 't') && isoperatorterm_word(s[3])) {
- *string = &s[3];
- return 1;
- }
-
- if(s[0] == '!') {
- *string = &s[1];
- return 1;
- }
-
- return 0;
-}
-
-static inline int parse_multiply(const char **string) {
- const char *s = *string;
-
- // *
- if(s[0] == '*' && isoperatorterm_symbol(s[1])) {
- *string = &s[1];
- return 1;
- }
-
- return 0;
-}
-
-static inline int parse_divide(const char **string) {
- const char *s = *string;
-
- // /
- if(s[0] == '/' && isoperatorterm_symbol(s[1])) {
- *string = &s[1];
- return 1;
- }
-
- return 0;
-}
-
-static inline int parse_minus(const char **string) {
- const char *s = *string;
-
- // -
- if(s[0] == '-' && isoperatorterm_symbol(s[1])) {
- *string = &s[1];
- return 1;
- }
-
- return 0;
-}
-
-static inline int parse_plus(const char **string) {
- const char *s = *string;
-
- // +
- if(s[0] == '+' && isoperatorterm_symbol(s[1])) {
- *string = &s[1];
- return 1;
- }
-
- return 0;
-}
-
-static inline int parse_open_subexpression(const char **string) {
- const char *s = *string;
-
- // (
- if(s[0] == '(') {
- *string = &s[1];
- return 1;
- }
-
- return 0;
-}
-
-#define parse_close_function(x) parse_close_subexpression(x)
-
-static inline int parse_close_subexpression(const char **string) {
- const char *s = *string;
-
- // )
- if(s[0] == ')') {
- *string = &s[1];
- return 1;
- }
-
- return 0;
-}
-
-static inline int parse_variable(const char **string, char *buffer, size_t len) {
- const char *s = *string;
-
- // $
- if(*s == '$') {
- size_t i = 0;
- s++;
-
- if(*s == '{') {
- // ${variable_name}
-
- s++;
- while (*s && *s != '}' && i < len)
- buffer[i++] = *s++;
-
- if(*s == '}')
- s++;
- }
- else {
- // $variable_name
-
- while (*s && !isvariableterm(*s) && i < len)
- buffer[i++] = *s++;
- }
-
- buffer[i] = '\0';
-
- if (buffer[0]) {
- *string = s;
- return 1;
- }
- }
-
- return 0;
-}
-
-static inline int parse_constant(const char **string, calculated_number *number) {
- char *end = NULL;
- calculated_number n = str2ld(*string, &end);
- if(unlikely(!end || *string == end)) {
- *number = 0;
- return 0;
- }
- *number = n;
- *string = end;
- return 1;
-}
-
-static inline int parse_abs(const char **string) {
- const char *s = *string;
-
- // ABS
- if((s[0] == 'A' || s[0] == 'a') && (s[1] == 'B' || s[1] == 'b') && (s[2] == 'S' || s[2] == 's') && s[3] == '(') {
- *string = &s[3];
- return 1;
- }
-
- return 0;
-}
-
-static inline int parse_if_then_else(const char **string) {
- const char *s = *string;
-
- // ?
- if(s[0] == '?') {
- *string = &s[1];
- return 1;
- }
-
- return 0;
-}
-
-static struct operator_parser {
- unsigned char id;
- int (*parse)(const char **);
-} operator_parsers[] = {
- // the order in this list is important!
- // the first matching will be used
- // so place the longer of overlapping ones
- // at the top
-
- { EVAL_OPERATOR_AND, parse_and },
- { EVAL_OPERATOR_OR, parse_or },
- { EVAL_OPERATOR_GREATER_THAN_OR_EQUAL, parse_greater_than_or_equal },
- { EVAL_OPERATOR_LESS_THAN_OR_EQUAL, parse_less_than_or_equal },
- { EVAL_OPERATOR_NOT_EQUAL, parse_not_equal },
- { EVAL_OPERATOR_EQUAL, parse_equal },
- { EVAL_OPERATOR_LESS, parse_less },
- { EVAL_OPERATOR_GREATER, parse_greater },
- { EVAL_OPERATOR_PLUS, parse_plus },
- { EVAL_OPERATOR_MINUS, parse_minus },
- { EVAL_OPERATOR_MULTIPLY, parse_multiply },
- { EVAL_OPERATOR_DIVIDE, parse_divide },
- { EVAL_OPERATOR_IF_THEN_ELSE, parse_if_then_else },
-
- /* we should not put in this list the following:
- *
- * - NOT
- * - (
- * - )
- *
- * these are handled in code
- */
-
- // termination
- { EVAL_OPERATOR_NOP, NULL }
-};
-
-static inline unsigned char parse_operator(const char **string, int *precedence) {
- skip_spaces(string);
-
- int i;
- for(i = 0 ; operator_parsers[i].parse != NULL ; i++)
- if(operator_parsers[i].parse(string)) {
- if(precedence) *precedence = eval_precedence(operator_parsers[i].id);
- return operator_parsers[i].id;
- }
-
- return EVAL_OPERATOR_NOP;
-}
-
-// ----------------------------------------------------------------------------
-// memory management
-
-static inline EVAL_NODE *eval_node_alloc(int count) {
- static int id = 1;
-
- EVAL_NODE *op = callocz(1, sizeof(EVAL_NODE) + (sizeof(EVAL_VALUE) * count));
-
- op->id = id++;
- op->operator = EVAL_OPERATOR_NOP;
- op->precedence = eval_precedence(EVAL_OPERATOR_NOP);
- op->count = count;
- return op;
-}
-
-static inline void eval_node_set_value_to_node(EVAL_NODE *op, int pos, EVAL_NODE *value) {
- if(pos >= op->count)
- fatal("Invalid request to set position %d of OPERAND that has only %d values", pos + 1, op->count + 1);
-
- op->ops[pos].type = EVAL_VALUE_EXPRESSION;
- op->ops[pos].expression = value;
-}
-
-static inline void eval_node_set_value_to_constant(EVAL_NODE *op, int pos, calculated_number value) {
- if(pos >= op->count)
- fatal("Invalid request to set position %d of OPERAND that has only %d values", pos + 1, op->count + 1);
-
- op->ops[pos].type = EVAL_VALUE_NUMBER;
- op->ops[pos].number = value;
-}
-
-static inline void eval_node_set_value_to_variable(EVAL_NODE *op, int pos, const char *variable) {
- if(pos >= op->count)
- fatal("Invalid request to set position %d of OPERAND that has only %d values", pos + 1, op->count + 1);
-
- op->ops[pos].type = EVAL_VALUE_VARIABLE;
- op->ops[pos].variable = callocz(1, sizeof(EVAL_VARIABLE));
- op->ops[pos].variable->name = strdupz(variable);
- op->ops[pos].variable->hash = simple_hash(op->ops[pos].variable->name);
-}
-
-static inline void eval_variable_free(EVAL_VARIABLE *v) {
- freez(v->name);
- freez(v);
-}
-
-static inline void eval_value_free(EVAL_VALUE *v) {
- switch(v->type) {
- case EVAL_VALUE_EXPRESSION:
- eval_node_free(v->expression);
- break;
-
- case EVAL_VALUE_VARIABLE:
- eval_variable_free(v->variable);
- break;
-
- default:
- break;
- }
-}
-
-static inline void eval_node_free(EVAL_NODE *op) {
- if(op->count) {
- int i;
- for(i = op->count - 1; i >= 0 ;i--)
- eval_value_free(&op->ops[i]);
- }
-
- freez(op);
-}
-
-// ----------------------------------------------------------------------------
-// the parsing logic
-
-// helper function to avoid allocations all over the place
-static inline EVAL_NODE *parse_next_operand_given_its_operator(const char **string, unsigned char operator_type, int *error) {
- EVAL_NODE *sub = parse_one_full_operand(string, error);
- if(!sub) return NULL;
-
- EVAL_NODE *op = eval_node_alloc(1);
- op->operator = operator_type;
- eval_node_set_value_to_node(op, 0, sub);
- return op;
-}
-
-// parse a full operand, including its sign or other associative operator (e.g. NOT)
-static inline EVAL_NODE *parse_one_full_operand(const char **string, int *error) {
- char variable_buffer[EVAL_MAX_VARIABLE_NAME_LENGTH + 1];
- EVAL_NODE *op1 = NULL;
- calculated_number number;
-
- *error = EVAL_ERROR_OK;
-
- skip_spaces(string);
- if(!(**string)) {
- *error = EVAL_ERROR_MISSING_OPERAND;
- return NULL;
- }
-
- if(parse_not(string)) {
- op1 = parse_next_operand_given_its_operator(string, EVAL_OPERATOR_NOT, error);
- op1->precedence = eval_precedence(EVAL_OPERATOR_NOT);
- }
- else if(parse_plus(string)) {
- op1 = parse_next_operand_given_its_operator(string, EVAL_OPERATOR_SIGN_PLUS, error);
- op1->precedence = eval_precedence(EVAL_OPERATOR_SIGN_PLUS);
- }
- else if(parse_minus(string)) {
- op1 = parse_next_operand_given_its_operator(string, EVAL_OPERATOR_SIGN_MINUS, error);
- op1->precedence = eval_precedence(EVAL_OPERATOR_SIGN_MINUS);
- }
- else if(parse_abs(string)) {
- op1 = parse_next_operand_given_its_operator(string, EVAL_OPERATOR_ABS, error);
- op1->precedence = eval_precedence(EVAL_OPERATOR_ABS);
- }
- else if(parse_open_subexpression(string)) {
- EVAL_NODE *sub = parse_full_expression(string, error);
- if(sub) {
- op1 = eval_node_alloc(1);
- op1->operator = EVAL_OPERATOR_EXPRESSION_OPEN;
- op1->precedence = eval_precedence(EVAL_OPERATOR_EXPRESSION_OPEN);
- eval_node_set_value_to_node(op1, 0, sub);
- if(!parse_close_subexpression(string)) {
- *error = EVAL_ERROR_MISSING_CLOSE_SUBEXPRESSION;
- eval_node_free(op1);
- return NULL;
- }
- }
- }
- else if(parse_variable(string, variable_buffer, EVAL_MAX_VARIABLE_NAME_LENGTH)) {
- op1 = eval_node_alloc(1);
- op1->operator = EVAL_OPERATOR_NOP;
- eval_node_set_value_to_variable(op1, 0, variable_buffer);
- }
- else if(parse_constant(string, &number)) {
- op1 = eval_node_alloc(1);
- op1->operator = EVAL_OPERATOR_NOP;
- eval_node_set_value_to_constant(op1, 0, number);
- }
- else if(**string)
- *error = EVAL_ERROR_UNKNOWN_OPERAND;
- else
- *error = EVAL_ERROR_MISSING_OPERAND;
-
- return op1;
-}
-
-// parse an operator and the rest of the expression
-// precedence processing is handled here
-static inline EVAL_NODE *parse_rest_of_expression(const char **string, int *error, EVAL_NODE *op1) {
- EVAL_NODE *op2 = NULL;
- unsigned char operator;
- int precedence;
-
- operator = parse_operator(string, &precedence);
- skip_spaces(string);
-
- if(operator != EVAL_OPERATOR_NOP) {
- op2 = parse_one_full_operand(string, error);
- if(!op2) {
- // error is already reported
- eval_node_free(op1);
- return NULL;
- }
-
- EVAL_NODE *op = eval_node_alloc(operators[operator].parameters);
- op->operator = operator;
- op->precedence = precedence;
-
- if(operator == EVAL_OPERATOR_IF_THEN_ELSE && op->count == 3) {
- skip_spaces(string);
-
- if(**string != ':') {
- eval_node_free(op);
- eval_node_free(op1);
- eval_node_free(op2);
- *error = EVAL_ERROR_IF_THEN_ELSE_MISSING_ELSE;
- return NULL;
- }
- (*string)++;
-
- skip_spaces(string);
-
- EVAL_NODE *op3 = parse_one_full_operand(string, error);
- if(!op3) {
- eval_node_free(op);
- eval_node_free(op1);
- eval_node_free(op2);
- // error is already reported
- return NULL;
- }
-
- eval_node_set_value_to_node(op, 2, op3);
- }
-
- eval_node_set_value_to_node(op, 1, op2);
-
- // precedence processing
- // if this operator has a higher precedence compared to its next
- // put the next operator on top of us (top = evaluated later)
- // function recursion does the rest...
- if(op->precedence > op1->precedence && op1->count == 2 && op1->operator != '(' && op1->ops[1].type == EVAL_VALUE_EXPRESSION) {
- eval_node_set_value_to_node(op, 0, op1->ops[1].expression);
- op1->ops[1].expression = op;
- op = op1;
- }
- else
- eval_node_set_value_to_node(op, 0, op1);
-
- return parse_rest_of_expression(string, error, op);
- }
- else if(**string == ')') {
- ;
- }
- else if(**string) {
- eval_node_free(op1);
- op1 = NULL;
- *error = EVAL_ERROR_MISSING_OPERATOR;
- }
-
- return op1;
-}
-
-// high level function to parse an expression or a sub-expression
-static inline EVAL_NODE *parse_full_expression(const char **string, int *error) {
- EVAL_NODE *op1 = parse_one_full_operand(string, error);
- if(!op1) {
- *error = EVAL_ERROR_MISSING_OPERAND;
- return NULL;
- }
-
- return parse_rest_of_expression(string, error, op1);
-}
-
-// ----------------------------------------------------------------------------
-// public API
-
-int expression_evaluate(EVAL_EXPRESSION *exp) {
- exp->error = EVAL_ERROR_OK;
-
- buffer_reset(exp->error_msg);
- exp->result = eval_node(exp, (EVAL_NODE *)exp->nodes, &exp->error);
-
- if(unlikely(isnan(exp->result))) {
- if(exp->error == EVAL_ERROR_OK)
- exp->error = EVAL_ERROR_VALUE_IS_NAN;
- }
- else if(unlikely(isinf(exp->result))) {
- if(exp->error == EVAL_ERROR_OK)
- exp->error = EVAL_ERROR_VALUE_IS_INFINITE;
- }
- else if(unlikely(exp->error == EVAL_ERROR_UNKNOWN_VARIABLE)) {
- // although there is an unknown variable
- // the expression was evaluated successfully
- exp->error = EVAL_ERROR_OK;
- }
-
- if(exp->error != EVAL_ERROR_OK) {
- exp->result = NAN;
-
- if(buffer_strlen(exp->error_msg))
- buffer_strcat(exp->error_msg, "; ");
-
- buffer_sprintf(exp->error_msg, "failed to evaluate expression with error %d (%s)", exp->error, expression_strerror(exp->error));
- return 0;
- }
-
- return 1;
-}
-
-EVAL_EXPRESSION *expression_parse(const char *string, const char **failed_at, int *error) {
- const char *s = string;
- int err = EVAL_ERROR_OK;
-
- EVAL_NODE *op = parse_full_expression(&s, &err);
-
- if(*s) {
- if(op) {
- eval_node_free(op);
- op = NULL;
- }
- err = EVAL_ERROR_REMAINING_GARBAGE;
- }
-
- if (failed_at) *failed_at = s;
- if (error) *error = err;
-
- if(!op) {
- unsigned long pos = s - string + 1;
- error("failed to parse expression '%s': %s at character %lu (i.e.: '%s').", string, expression_strerror(err), pos, s);
- return NULL;
- }
-
- BUFFER *out = buffer_create(1024);
- print_parsed_as_node(out, op, &err);
- if(err != EVAL_ERROR_OK) {
- error("failed to re-generate expression '%s' with reason: %s", string, expression_strerror(err));
- eval_node_free(op);
- buffer_free(out);
- return NULL;
- }
-
- EVAL_EXPRESSION *exp = callocz(1, sizeof(EVAL_EXPRESSION));
-
- exp->source = strdupz(string);
- exp->parsed_as = strdupz(buffer_tostring(out));
- buffer_free(out);
-
- exp->error_msg = buffer_create(100);
- exp->nodes = (void *)op;
-
- return exp;
-}
-
-void expression_free(EVAL_EXPRESSION *exp) {
- if(!exp) return;
-
- if(exp->nodes) eval_node_free((EVAL_NODE *)exp->nodes);
- freez((void *)exp->source);
- freez((void *)exp->parsed_as);
- buffer_free(exp->error_msg);
- freez(exp);
-}
-
-const char *expression_strerror(int error) {
- switch(error) {
- case EVAL_ERROR_OK:
- return "success";
-
- case EVAL_ERROR_MISSING_CLOSE_SUBEXPRESSION:
- return "missing closing parenthesis";
-
- case EVAL_ERROR_UNKNOWN_OPERAND:
- return "unknown operand";
-
- case EVAL_ERROR_MISSING_OPERAND:
- return "expected operand";
-
- case EVAL_ERROR_MISSING_OPERATOR:
- return "expected operator";
-
- case EVAL_ERROR_REMAINING_GARBAGE:
- return "remaining characters after expression";
-
- case EVAL_ERROR_INVALID_VALUE:
- return "invalid value structure - internal error";
-
- case EVAL_ERROR_INVALID_NUMBER_OF_OPERANDS:
- return "wrong number of operands for operation - internal error";
-
- case EVAL_ERROR_VALUE_IS_NAN:
- return "value is unset";
-
- case EVAL_ERROR_VALUE_IS_INFINITE:
- return "computed value is infinite";
-
- case EVAL_ERROR_UNKNOWN_VARIABLE:
- return "undefined variable";
-
- case EVAL_ERROR_IF_THEN_ELSE_MISSING_ELSE:
- return "missing second sub-expression of inline conditional";
-
- default:
- return "unknown error";
- }
-}