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/*
* EVAL.C - part of the EGG system.
*
* Helper routine for evaluating arithmetic expressions.
*
* By Shawn Hargreaves.
*/
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include <ctype.h>
#include <math.h>
#ifndef M_PI
#define M_PI 3.14159265358979323846
#endif
#ifndef M_E
#define M_E 2.7182818284590452354
#endif
#include "egg.h"
/* convert radians <-> degrees */
#define DEG2RAD(x) ((x)*M_PI/180.0)
#define RAD2DEG(x) ((x)*180.0/M_PI)
/* internal state information */
static int evaluate_error;
static char operator_stack[256];
static double value_stack[256];
static int stack_depth;
static double current_val;
static int current_valid;
/* operator tokens */
#define OP_OPEN_PAREN '('
#define OP_CLOSE_PAREN ')'
#define OP_PLUS '+'
#define OP_MINUS '-'
#define OP_MUL '*'
#define OP_DIV '/'
#define OP_POWER '^'
#define OP_NEGATE '~'
#define OP_SQRT 'q'
#define OP_SIN 's'
#define OP_COS 'c'
#define OP_TAN 't'
#define OP_ASIN 'S'
#define OP_ACOS 'C'
#define OP_ATAN 'T'
#define OP_LOG 'l'
#define OP_LN 'L'
#define OP_CEIL 'e'
#define OP_FLOOR 'f'
#define OP_ROUND 'r'
#define OP_ABS 'a'
#define OP_MOD '%'
#define OP_EQUALS '='
#define OP_NOT_EQUALS '#'
#define OP_LESS '<'
#define OP_GREATER '>'
#define OP_LESS_EQUALS '{'
#define OP_GREATER_EQUALS '}'
#define OP_OR '|'
#define OP_AND '&'
#define OP_NOT '!'
#define OP_TERMINATOR ' '
/* precedence:
* Returns the precedence of the specified operator.
*/
static int precedence(char op)
{
switch (op) {
case OP_OPEN_PAREN:
case OP_CLOSE_PAREN:
return 1;
case OP_TERMINATOR:
return 2;
case OP_OR:
case OP_AND:
return 3;
case OP_EQUALS:
case OP_NOT_EQUALS:
case OP_LESS:
case OP_GREATER:
case OP_LESS_EQUALS:
case OP_GREATER_EQUALS:
return 4;
case OP_PLUS:
case OP_MINUS:
return 5;
case OP_MUL:
case OP_DIV:
case OP_MOD:
return 6;
case OP_POWER:
return 7;
case OP_NEGATE:
case OP_NOT:
case OP_SQRT:
case OP_SIN:
case OP_COS:
case OP_TAN:
case OP_ASIN:
case OP_ACOS:
case OP_ATAN:
case OP_LOG:
case OP_LN:
case OP_CEIL:
case OP_FLOOR:
case OP_ROUND:
case OP_ABS:
return 8;
default:
return -1;
}
}
/* is_unary:
* Checks whether an operator is unary.
*/
static int is_unary(char op)
{
if ((op == OP_NEGATE) || (op == OP_SQRT) || (op == OP_SIN) ||
(op == OP_COS) || (op == OP_TAN) || (op == OP_ASIN) ||
(op == OP_ACOS) || (op == OP_ATAN) || (op == OP_LOG) ||
(op == OP_LN) || (op == OP_CEIL) || (op == OP_FLOOR) ||
(op == OP_ROUND) || (op == OP_ABS) || (op == OP_NOT))
return TRUE;
return FALSE;
}
/* add_value:
* Processes a new numeric value from the input string.
*/
static void add_value(double val)
{
if (current_valid) {
evaluate_error = TRUE;
return;
}
current_val = val;
current_valid = TRUE;
}
/* add_operator:
* Processes a new operator from the input string.
*/
static void add_operator(char op)
{
/* bodge for unary negation */
if ((op == OP_MINUS) && (!current_valid))
op = OP_NEGATE;
/* check validity */
if ((op == OP_PLUS) || (op == OP_MINUS) ||
(op == OP_MUL) || (op == OP_DIV) ||
(op == OP_POWER) || (op == OP_MOD) ||
(op == OP_EQUALS) || (op == OP_NOT_EQUALS) ||
(op == OP_LESS) || (op == OP_GREATER) ||
(op == OP_LESS_EQUALS) || (op == OP_GREATER_EQUALS) ||
(op == OP_OR) || (op == OP_AND)) {
if (!current_valid) {
evaluate_error = TRUE;
return;
}
}
/* evaluate */
if (op != OP_OPEN_PAREN) {
while ((stack_depth > 0) &&
((precedence(op) <= precedence(operator_stack[stack_depth-1]) && (!is_unary(operator_stack[stack_depth-1]))) ||
(precedence(op) < precedence(operator_stack[stack_depth-1]) && (is_unary(operator_stack[stack_depth-1]))))) {
stack_depth--;
switch (operator_stack[stack_depth]) {
case OP_PLUS:
current_val = value_stack[stack_depth] + current_val;
break;
case OP_MINUS:
current_val = value_stack[stack_depth] - current_val;
break;
case OP_MUL:
current_val = value_stack[stack_depth] * current_val;
break;
case OP_DIV:
if (current_val != 0)
current_val = value_stack[stack_depth] / current_val;
else
current_val = 0;
break;
case OP_POWER:
current_val = pow(value_stack[stack_depth], current_val);
break;
case OP_NEGATE:
current_val = -current_val;
break;
case OP_SQRT:
if (current_val >= 0)
current_val = sqrt(current_val);
else
current_val = 0;
break;
case OP_SIN:
current_val = sin(DEG2RAD(current_val));
break;
case OP_COS:
current_val = cos(DEG2RAD(current_val));
break;
case OP_TAN:
current_val = tan(DEG2RAD(current_val));
break;
case OP_ASIN:
if ((current_val >= -1) && (current_val <= 1))
current_val = RAD2DEG(asin(current_val));
else
current_val = 0;
break;
case OP_ACOS:
if ((current_val >= -1) && (current_val <= 1))
current_val = RAD2DEG(acos(current_val));
else
current_val = 0;
break;
case OP_ATAN:
current_val = RAD2DEG(atan(current_val));
break;
case OP_LOG:
if (current_val > 0)
current_val = log10(current_val);
else
current_val = 0;
break;
case OP_LN:
if (current_val > 0)
current_val = log(current_val);
else
current_val = 0;
break;
case OP_CEIL:
current_val = ceil(current_val);
break;
case OP_FLOOR:
current_val = floor(current_val);
break;
case OP_ROUND:
if (current_val < 0)
current_val = (int)(current_val - 0.5);
else
current_val = (int)(current_val + 0.5);
break;
case OP_ABS:
current_val = fabs(current_val);
break;
case OP_MOD:
if (current_val >= 1)
current_val = fmod(value_stack[stack_depth], current_val);
else
current_val = 0;
break;
case OP_EQUALS:
current_val = (value_stack[stack_depth] == current_val);
break;
case OP_NOT_EQUALS:
current_val = (value_stack[stack_depth] != current_val);
break;
case OP_LESS:
current_val = (value_stack[stack_depth] < current_val);
break;
case OP_GREATER:
current_val = (value_stack[stack_depth] > current_val);
break;
case OP_LESS_EQUALS:
current_val = (value_stack[stack_depth] <= current_val);
break;
case OP_GREATER_EQUALS:
current_val = (value_stack[stack_depth] >= current_val);
break;
case OP_OR:
current_val = ((int)value_stack[stack_depth] || (int)current_val);
break;
case OP_AND:
current_val = ((int)value_stack[stack_depth] && (int)current_val);
break;
case OP_NOT:
current_val = !(int)current_val;
break;
case OP_OPEN_PAREN:
if (op == OP_CLOSE_PAREN)
return;
break;
}
}
}
/* push onto the stack */
if (op != OP_CLOSE_PAREN) {
operator_stack[stack_depth] = op;
value_stack[stack_depth] = current_val;
stack_depth++;
current_val = 0;
current_valid = FALSE;
}
else {
if (stack_depth <= 0)
evaluate_error = TRUE;
}
}
/* evaluate:
* Top level evaluation function.
*/
double evaluate(char *equation, int *error, double (*variable)(char *name))
{
char buf[256];
double val;
int i;
stack_depth = 0;
current_val = 0;
current_valid = FALSE;
evaluate_error = FALSE;
while ((*equation) && (!evaluate_error)) {
/* skip whitespace */
while (isspace(*equation))
equation++;
switch (*equation) {
case '+':
/* addition */
add_operator(OP_PLUS);
equation++;
break;
case '-':
/* subtraction */
add_operator(OP_MINUS);
equation++;
break;
case '*':
/* multiplication */
add_operator(OP_MUL);
equation++;
break;
case '/':
/* division */
add_operator(OP_DIV);
equation++;
break;
case '^':
/* rasing to a power (_not_ XOR!) */
add_operator(OP_POWER);
equation++;
break;
case '%':
/* modulus */
add_operator(OP_MOD);
equation++;
break;
case '|':
/* logical or */
add_operator(OP_OR);
equation++;
break;
case '&':
/* logical and */
add_operator(OP_AND);
equation++;
break;
case '=':
/* equality test (requires dual ==) */
if (equation[1] == '=') {
add_operator(OP_EQUALS);
equation += 2;
}
else
evaluate_error = TRUE;
break;
case '!':
/* could be inequality test or logical not */
if (equation[1] == '=') {
add_operator(OP_NOT_EQUALS);
equation += 2;
}
else {
add_operator(OP_NOT);
equation++;
}
break;
case '<':
/* could be less than or less/equal test */
if (equation[1] == '=') {
add_operator(OP_LESS_EQUALS);
equation += 2;
}
else {
add_operator(OP_LESS);
equation++;
}
break;
case '>':
/* could be greater than or greater/equal test */
if (equation[1] == '=') {
add_operator(OP_GREATER_EQUALS);
equation += 2;
}
else {
add_operator(OP_GREATER);
equation++;
}
break;
case '(':
/* open bracket */
add_operator(OP_OPEN_PAREN);
equation++;
break;
case ')':
/* close bracket */
add_operator(OP_CLOSE_PAREN);
equation++;
break;
case '0':
/* special case for hex constants (0x prefix) */
if (equation[1] == 'x') {
equation += 2;
for (i=0; isxdigit(equation[i]); i++)
buf[i] = equation[i];
buf[i] = 0;
equation += i;
val = strtol(buf, NULL, 16);
add_value(val);
break;
}
/* else fall through */
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
case '8':
case '9':
/* floating point constant */
for (i=0; isdigit(equation[i]) || (equation[i] == '.'); i++)
buf[i] = equation[i];
buf[i] = 0;
equation += i;
val = atof(buf);
add_value(val);
break;
default:
/* this is a string, could be a variable or function */
for (i=0; (isalpha(equation[i])) || (equation[i] == '_'); i++)
buf[i] = tolower(equation[i]);
buf[i] = 0;
equation += i;
if (strcmp(buf, "pi") == 0) {
/* pi (built in constant) */
add_value(M_PI);
}
else if (strcmp(buf, "e") == 0) {
/* e (built in constant) */
add_value(M_E);
}
else if (strcmp(buf, "sqrt") == 0) {
/* square root function */
add_operator(OP_SQRT);
}
else if (strcmp(buf, "sin") == 0) {
/* sin function */
add_operator(OP_SIN);
}
else if (strcmp(buf, "cos") == 0) {
/* cos function */
add_operator(OP_COS);
}
else if (strcmp(buf, "tan") == 0) {
/* tan function */
add_operator(OP_TAN);
}
else if (strcmp(buf, "asin") == 0) {
/* inverse sin function */
add_operator(OP_ASIN);
}
else if (strcmp(buf, "acos") == 0) {
/* inverse cos function */
add_operator(OP_ACOS);
}
else if (strcmp(buf, "atan") == 0) {
/* inverse tan function */
add_operator(OP_ATAN);
}
else if (strcmp(buf, "log") == 0) {
/* base 10 logarithm function */
add_operator(OP_LOG);
}
else if (strcmp(buf, "ln") == 0) {
/* natural logarithm function */
add_operator(OP_LN);
}
else if (strcmp(buf, "ceil") == 0) {
/* round upwards function */
add_operator(OP_CEIL);
}
else if (strcmp(buf, "floor") == 0) {
/* round downwards function */
add_operator(OP_FLOOR);
}
else if (strcmp(buf, "round") == 0) {
/* round to nearest integer function */
add_operator(OP_ROUND);
}
else if (strcmp(buf, "abs") == 0) {
/* absolute value function */
add_operator(OP_ABS);
}
else if (strcmp(buf, "rand") == 0) {
/* random number between 0 and 1 */
add_value((rand()&32767)/32767.0);
}
else {
/* user-supplied callback for looking up variables */
if ((buf[0]) && (variable)) {
add_value(variable(buf));
}
else {
if (error)
*error = TRUE;
return 0;
}
}
break;
}
}
if ((evaluate_error) || (!current_valid)) {
if (error)
*error = TRUE;
return 0;
}
/* force a stack flush */
add_operator(OP_TERMINATOR);
if (stack_depth != 1) {
if (error)
*error = TRUE;
return 0;
}
if (error)
*error = FALSE;
return value_stack[0];
}
|