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kexpr.c
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kexpr.c
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#include <string.h>
#include <stdlib.h>
#include <stdint.h>
#include <assert.h>
#include <stdio.h>
#include <ctype.h>
#include <math.h>
#include "kexpr.h"
/***************
* Definitions *
***************/
#define KEO_NULL 0
#define KEO_POS 1
#define KEO_NEG 2
#define KEO_BNOT 3
#define KEO_LNOT 4
#define KEO_POW 5
#define KEO_MUL 6
#define KEO_DIV 7
#define KEO_IDIV 8
#define KEO_MOD 9
#define KEO_ADD 10
#define KEO_SUB 11
#define KEO_LSH 12
#define KEO_RSH 13
#define KEO_LT 14
#define KEO_LE 15
#define KEO_GT 16
#define KEO_GE 17
#define KEO_EQ 18
#define KEO_NE 19
#define KEO_BAND 20
#define KEO_BXOR 21
#define KEO_BOR 22
#define KEO_LAND 23
#define KEO_LOR 24
#define KET_NULL 0
#define KET_VAL 1
#define KET_OP 2
#define KET_FUNC 3
#define KEF_NULL 0
#define KEF_REAL 1
struct ke1_s;
typedef struct ke1_s {
uint32_t ttype:16, vtype:10, assigned:1, user_func:5; // ttype: token type; vtype: value type
int32_t op:8, n_args:24; // op: operator, n_args: number of arguments
char *name; // variable name or function name
union {
void (*builtin)(struct ke1_s *a, struct ke1_s *b); // execution function
double (*real_func1)(double);
double (*real_func2)(double, double);
} f;
double r;
int64_t i;
char *s;
} ke1_t;
static int ke_op[25] = {
0,
1<<1|1, 1<<1|1, 1<<1|1, 1<<1|1, // unary operators
2<<1|1, // pow()
3<<1, 3<<1, 3<<1, 3<<1, // * / // %
4<<1, 4<<1, // + and -
5<<1, 5<<1, // << and >>
6<<1, 6<<1, 6<<1, 6<<1, // < > <= >=
7<<1, 7<<1, // == !=
8<<1, // &
9<<1, // ^
10<<1,// |
11<<1,// &&
12<<1 // ||
};
static const char *ke_opstr[] = {
"",
"+(1)", "-(1)", "~", "!",
"**",
"*", "/", "//", "%",
"+", "-",
"<<", ">>",
"<", "<=", ">", ">=",
"==", "!=",
"&",
"^",
"|",
"&&",
"||"
};
struct kexpr_s {
int n;
ke1_t *e;
};
/**********************
* Operator functions *
**********************/
#define KE_GEN_CMP(_type, _op) \
static void ke_op_##_type(ke1_t *p, ke1_t *q) { \
if (p->vtype == KEV_STR && q->vtype == KEV_STR) p->i = (strcmp(p->s, q->s) _op 0); \
else p->i = p->vtype == KEV_REAL || q->vtype == KEV_REAL? (p->r _op q->r) : (p->i _op q->i); \
p->r = (double)p->i; \
p->vtype = KEV_INT; \
}
KE_GEN_CMP(KEO_LT, <)
KE_GEN_CMP(KEO_LE, <=)
KE_GEN_CMP(KEO_GT, >)
KE_GEN_CMP(KEO_GE, >=)
KE_GEN_CMP(KEO_EQ, ==)
KE_GEN_CMP(KEO_NE, !=)
#define KE_GEN_BIN_INT(_type, _op) \
static void ke_op_##_type(ke1_t *p, ke1_t *q) { \
p->i _op q->i; p->r = (double)p->i; \
p->vtype = KEV_INT; \
}
KE_GEN_BIN_INT(KEO_BAND, &=)
KE_GEN_BIN_INT(KEO_BOR, |=)
KE_GEN_BIN_INT(KEO_BXOR, ^=)
KE_GEN_BIN_INT(KEO_LSH, <<=)
KE_GEN_BIN_INT(KEO_RSH, >>=)
KE_GEN_BIN_INT(KEO_MOD, %=)
KE_GEN_BIN_INT(KEO_IDIV, /=)
#define KE_GEN_BIN_BOTH(_type, _op) \
static void ke_op_##_type(ke1_t *p, ke1_t *q) { \
p->i _op q->i; p->r _op q->r; \
p->vtype = p->vtype == KEV_REAL || q->vtype == KEV_REAL? KEV_REAL : KEV_INT; \
}
KE_GEN_BIN_BOTH(KEO_ADD, +=)
KE_GEN_BIN_BOTH(KEO_SUB, -=)
KE_GEN_BIN_BOTH(KEO_MUL, *=)
static void ke_op_KEO_DIV(ke1_t *p, ke1_t *q) { p->r /= q->r, p->i = (int64_t)(p->r + .5); p->vtype = KEV_REAL; }
static void ke_op_KEO_LAND(ke1_t *p, ke1_t *q) { p->i = (p->i && q->i); p->r = p->i; p->vtype = KEV_INT; }
static void ke_op_KEO_LOR(ke1_t *p, ke1_t *q) { p->i = (p->i || q->i); p->r = p->i; p->vtype = KEV_INT; }
static void ke_op_KEO_POW(ke1_t *p, ke1_t *q) { p->r = pow(p->r, q->r), p->i = (int64_t)(p->r + .5); p->vtype = p->vtype == KEV_REAL || q->vtype == KEV_REAL? KEV_REAL : KEV_INT; }
static void ke_op_KEO_BNOT(ke1_t *p, ke1_t *q) { p->i = ~p->i; p->r = (double)p->i; p->vtype = KEV_INT; }
static void ke_op_KEO_LNOT(ke1_t *p, ke1_t *q) { p->i = !p->i; p->r = (double)p->i; p->vtype = KEV_INT; }
static void ke_op_KEO_POS(ke1_t *p, ke1_t *q) { } // do nothing
static void ke_op_KEO_NEG(ke1_t *p, ke1_t *q) { p->i = -p->i, p->r = -p->r; }
static void ke_func1_abs(ke1_t *p, ke1_t *q) { if (p->vtype == KEV_INT) p->i = abs(p->i), p->r = (double)p->i; else p->r = fabs(p->r), p->i = (int64_t)(p->r + .5); }
/**********
* Parser *
**********/
static inline char *mystrndup(const char *src, int n)
{
char *dst;
dst = (char*)calloc(n + 1, 1);
strncpy(dst, src, n);
return dst;
}
// parse a token except "(", ")" and ","
static ke1_t ke_read_token(char *p, char **r, int *err, int last_is_val) // it doesn't parse parentheses
{
char *q = p;
ke1_t e;
memset(&e, 0, sizeof(ke1_t));
if (isalpha(*p) || *p == '_') { // a variable or a function
for (; *p && (*p == '_' || isalnum(*p)); ++p);
if (*p == '(') e.ttype = KET_FUNC, e.n_args = 1;
else e.ttype = KET_VAL, e.vtype = KEV_REAL;
e.name = mystrndup(q, p - q);
e.i = 0, e.r = 0.;
*r = p;
} else if (isdigit(*p) || *p == '.') { // a number
long x;
double y;
char *pp;
e.ttype = KET_VAL;
y = strtod(q, &p);
x = strtol(q, &pp, 0); // FIXME: check int/double parsing errors
if (q == p && q == pp) { // parse error
*err |= KEE_NUM;
} else if (p > pp) { // has "." or "[eE]"; then it is a real number
e.vtype = KEV_REAL;
e.i = (int64_t)(y + .5), e.r = y;
*r = p;
} else {
e.vtype = KEV_INT;
e.i = x, e.r = y;
*r = pp;
}
} else if (*p == '"' || *p == '\'') { // a string value
int c = *p;
for (++p; *p && *p != c; ++p)
if (*p == '\\') ++p; // escaping
if (*p == c) {
e.ttype = KET_VAL, e.vtype = KEV_STR;
e.s = mystrndup(q + 1, p - q - 1);
*r = p + 1;
} else *err |= KEE_UNQU, *r = p;
} else { // an operator
e.ttype = KET_OP;
if (*p == '*' && p[1] == '*') e.op = KEO_POW, e.f.builtin = ke_op_KEO_POW, e.n_args = 2, *r = q + 2;
else if (*p == '*') e.op = KEO_MUL, e.f.builtin = ke_op_KEO_MUL, e.n_args = 2, *r = q + 1; // FIXME: NOT working for unary operators
else if (*p == '/' && p[1] == '/') e.op = KEO_IDIV, e.f.builtin = ke_op_KEO_IDIV, e.n_args = 2, *r = q + 2;
else if (*p == '/') e.op = KEO_DIV, e.f.builtin = ke_op_KEO_DIV, e.n_args = 2, *r = q + 1;
else if (*p == '%') e.op = KEO_MOD, e.f.builtin = ke_op_KEO_MOD, e.n_args = 2, *r = q + 1;
else if (*p == '+') {
if (last_is_val) e.op = KEO_ADD, e.f.builtin = ke_op_KEO_ADD, e.n_args = 2;
else e.op = KEO_POS, e.f.builtin = ke_op_KEO_POS, e.n_args = 1;
*r = q + 1;
} else if (*p == '-') {
if (last_is_val) e.op = KEO_SUB, e.f.builtin = ke_op_KEO_SUB, e.n_args = 2;
else e.op = KEO_NEG, e.f.builtin = ke_op_KEO_NEG, e.n_args = 1;
*r = q + 1;
} else if (*p == '=' && p[1] == '=') e.op = KEO_EQ, e.f.builtin = ke_op_KEO_EQ, e.n_args = 2, *r = q + 2;
else if (*p == '!' && p[1] == '=') e.op = KEO_NE, e.f.builtin = ke_op_KEO_NE, e.n_args = 2, *r = q + 2;
else if (*p == '<' && p[1] == '>') e.op = KEO_NE, e.f.builtin = ke_op_KEO_NE, e.n_args = 2, *r = q + 2;
else if (*p == '>' && p[1] == '=') e.op = KEO_GE, e.f.builtin = ke_op_KEO_GE, e.n_args = 2, *r = q + 2;
else if (*p == '<' && p[1] == '=') e.op = KEO_LE, e.f.builtin = ke_op_KEO_LE, e.n_args = 2, *r = q + 2;
else if (*p == '>' && p[1] == '>') e.op = KEO_RSH, e.f.builtin = ke_op_KEO_RSH, e.n_args = 2, *r = q + 2;
else if (*p == '<' && p[1] == '<') e.op = KEO_LSH, e.f.builtin = ke_op_KEO_LSH, e.n_args = 2, *r = q + 2;
else if (*p == '>') e.op = KEO_GT, e.f.builtin = ke_op_KEO_GT, e.n_args = 2, *r = q + 1;
else if (*p == '<') e.op = KEO_LT, e.f.builtin = ke_op_KEO_LT, e.n_args = 2, *r = q + 1;
else if (*p == '|' && p[1] == '|') e.op = KEO_LOR, e.f.builtin = ke_op_KEO_LOR, e.n_args = 2, *r = q + 2;
else if (*p == '&' && p[1] == '&') e.op = KEO_LAND, e.f.builtin = ke_op_KEO_LAND, e.n_args = 2, *r = q + 2;
else if (*p == '|') e.op = KEO_BOR, e.f.builtin = ke_op_KEO_BOR, e.n_args = 2, *r = q + 1;
else if (*p == '&') e.op = KEO_BAND, e.f.builtin = ke_op_KEO_BAND, e.n_args = 2, *r = q + 1;
else if (*p == '^') e.op = KEO_BXOR, e.f.builtin = ke_op_KEO_BXOR, e.n_args = 2, *r = q + 1;
else if (*p == '~') e.op = KEO_BNOT, e.f.builtin = ke_op_KEO_BNOT, e.n_args = 1, *r = q + 1;
else if (*p == '!') e.op = KEO_LNOT, e.f.builtin = ke_op_KEO_LNOT, e.n_args = 1, *r = q + 1;
else e.ttype = KET_NULL, *err |= KEE_UNOP;
}
return e;
}
static inline ke1_t *push_back(ke1_t **a, int *n, int *m)
{
if (*n == *m) {
int old_m = *m;
*m = *m? *m<<1 : 8;
*a = (ke1_t*)realloc(*a, *m * sizeof(ke1_t));
memset(*a + old_m, 0, (*m - old_m) * sizeof(ke1_t));
}
return &(*a)[(*n)++];
}
static ke1_t *ke_parse_core(const char *_s, int *_n, int *err)
{
char *s, *p, *q;
int n_out, m_out, n_op, m_op, last_is_val = 0;
ke1_t *out, *op, *t, *u;
*err = 0; *_n = 0;
s = strdup(_s); // make a copy
for (p = q = s; *p; ++p) // squeeze out spaces
if (!isspace(*p)) *q++ = *p;
*q++ = 0;
out = op = 0;
n_out = m_out = n_op = m_op = 0;
p = s;
while (*p) {
if (*p == '(') {
t = push_back(&op, &n_op, &m_op); // push to the operator stack
t->op = -1, t->ttype = KET_NULL; // ->op < 0 for a left parenthsis
++p;
} else if (*p == ')') {
while (n_op > 0 && op[n_op-1].op >= 0) { // move operators to the output until we see a left parenthesis
u = push_back(&out, &n_out, &m_out);
*u = op[--n_op];
}
if (n_op == 0) { // error: extra right parenthesis
*err |= KEE_UNRP;
break;
} else --n_op; // pop out '('
if (n_op > 0 && op[n_op-1].ttype == KET_FUNC) { // the top of the operator stack is a function
u = push_back(&out, &n_out, &m_out); // move it to the output
*u = op[--n_op];
if (u->n_args == 1 && strcmp(u->name, "abs") == 0) u->f.builtin = ke_func1_abs;
}
++p;
} else if (*p == ',') { // function arguments separator
while (n_op > 0 && op[n_op-1].op >= 0) {
u = push_back(&out, &n_out, &m_out);
*u = op[--n_op];
}
if (n_op < 2 || op[n_op-2].ttype != KET_FUNC) { // we should at least see a function and a left parenthesis
*err |= KEE_FUNC;
break;
}
++op[n_op-2].n_args;
++p;
} else { // output-able token
ke1_t v;
v = ke_read_token(p, &p, err, last_is_val);
if (*err) break;
if (v.ttype == KET_VAL) {
u = push_back(&out, &n_out, &m_out);
*u = v;
last_is_val = 1;
} else if (v.ttype == KET_FUNC) {
t = push_back(&op, &n_op, &m_op);
*t = v;
last_is_val = 0;
} else if (v.ttype == KET_OP) {
int oi = ke_op[v.op];
while (n_op > 0 && op[n_op-1].ttype == KET_OP) {
int pre = ke_op[op[n_op-1].op]>>1;
if (((oi&1) && oi>>1 <= pre) || (!(oi&1) && oi>>1 < pre)) break;
u = push_back(&out, &n_out, &m_out);
*u = op[--n_op];
}
t = push_back(&op, &n_op, &m_op);
*t = v;
last_is_val = 0;
}
}
}
if (*err == 0) {
while (n_op > 0 && op[n_op-1].op >= 0) {
u = push_back(&out, &n_out, &m_out);
*u = op[--n_op];
}
if (n_op > 0) *err |= KEE_UNLP;
}
if (*err == 0) { // then check if the number of args is correct
int i, n;
for (i = n = 0; i < n_out; ++i) {
ke1_t *e = &out[i];
if (e->ttype == KET_VAL) ++n;
else n -= e->n_args - 1;
}
if (n != 1) *err |= KEE_ARG;
}
free(op); free(s);
if (*err) {
free(out);
return 0;
}
*_n = n_out;
return out;
}
kexpr_t *ke_parse(const char *_s, int *err)
{
int n;
ke1_t *e;
kexpr_t *ke;
e = ke_parse_core(_s, &n, err);
if (*err) return 0;
ke = (kexpr_t*)calloc(1, sizeof(kexpr_t));
ke->n = n, ke->e = e;
return ke;
}
int ke_eval(const kexpr_t *ke, int64_t *_i, double *_r, const char **_p, int *ret_type)
{
ke1_t *stack, *p, *q;
int i, top = 0, err = 0;
*_i = 0, *_r = 0., *ret_type = 0;
for (i = 0; i < ke->n; ++i) {
ke1_t *e = &ke->e[i];
if ((e->ttype == KET_OP || e->ttype == KET_FUNC) && e->f.builtin == 0) err |= KEE_UNFUNC;
else if (e->ttype == KET_VAL && e->name && e->assigned == 0) err |= KEE_UNVAR;
}
stack = (ke1_t*)malloc(ke->n * sizeof(ke1_t));
for (i = 0; i < ke->n; ++i) {
ke1_t *e = &ke->e[i];
if (e->ttype == KET_OP || e->ttype == KET_FUNC) {
if (e->n_args == 2 && e->f.builtin) {
q = &stack[--top], p = &stack[top-1];
if (e->user_func) {
if (e->user_func == KEF_REAL)
p->r = e->f.real_func2(p->r, q->r), p->i = (int64_t)(p->r + .5), p->vtype = KEV_REAL;
} else e->f.builtin(p, q);
} else if (e->n_args == 1 && e->f.builtin) {
p = &stack[top-1];
if (e->user_func) {
if (e->user_func == KEF_REAL)
p->r = e->f.real_func1(p->r), p->i = (int64_t)(p->r + .5), p->vtype = KEV_REAL;
} else e->f.builtin(&stack[top-1], 0);
} else top -= e->n_args - 1;
} else stack[top++] = *e;
}
*ret_type = stack->vtype;
*_i = stack->i, *_r = stack->r, *_p = stack->s;
free(stack);
return err;
}
int64_t ke_eval_int(const kexpr_t *ke, int *err)
{
int int_ret;
int64_t i;
double r;
const char *s;
*err = ke_eval(ke, &i, &r, &s, &int_ret);
return i;
}
double ke_eval_real(const kexpr_t *ke, int *err)
{
int int_ret;
int64_t i;
double r;
const char *s;
*err = ke_eval(ke, &i, &r, &s, &int_ret);
return r;
}
void ke_destroy(kexpr_t *ke)
{
int i;
if (ke == 0) return;
for (i = 0; i < ke->n; ++i) {
free(ke->e[i].name);
free(ke->e[i].s);
}
free(ke->e); free(ke);
}
int ke_set_int(kexpr_t *ke, const char *var, int64_t y)
{
int i, n = 0;
double yy = (double)y;
for (i = 0; i < ke->n; ++i) {
ke1_t *e = &ke->e[i];
if (e->ttype == KET_VAL && e->name && strcmp(e->name, var) == 0)
e->i = y, e->r = yy, e->vtype = KEV_INT, e->assigned = 1, ++n;
}
return n;
}
int ke_set_real(kexpr_t *ke, const char *var, double x)
{
int i, n = 0;
int64_t xx = (int64_t)(x + .5);
for (i = 0; i < ke->n; ++i) {
ke1_t *e = &ke->e[i];
if (e->ttype == KET_VAL && e->name && strcmp(e->name, var) == 0)
e->r = x, e->i = xx, e->vtype = KEV_REAL, e->assigned = 1, ++n;
}
return n;
}
int ke_set_str(kexpr_t *ke, const char *var, const char *x)
{
int i, n = 0;
for (i = 0; i < ke->n; ++i) {
ke1_t *e = &ke->e[i];
if (e->ttype == KET_VAL && e->name && strcmp(e->name, var) == 0) {
if (e->vtype == KEV_STR) free(e->s);
e->s = strdup(x);
e->i = 0, e->r = 0., e->assigned = 1;
e->vtype = KEV_STR;
++n;
}
}
return n;
}
int ke_set_real_func1(kexpr_t *ke, const char *name, double (*func)(double))
{
int i, n = 0;
for (i = 0; i < ke->n; ++i) {
ke1_t *e = &ke->e[i];
if (e->ttype == KET_FUNC && e->n_args == 1 && strcmp(e->name, name) == 0)
e->f.real_func1 = func, e->user_func = KEF_REAL, ++n;
}
return n;
}
int ke_set_real_func2(kexpr_t *ke, const char *name, double (*func)(double, double))
{
int i, n = 0;
for (i = 0; i < ke->n; ++i) {
ke1_t *e = &ke->e[i];
if (e->ttype == KET_FUNC && e->n_args == 2 && strcmp(e->name, name) == 0)
e->f.real_func2 = func, e->user_func = KEF_REAL, ++n;
}
return n;
}
int ke_set_default_func(kexpr_t *ke)
{
int n = 0;
n += ke_set_real_func1(ke, "exp", exp);
n += ke_set_real_func1(ke, "log", log);
n += ke_set_real_func1(ke, "log10", log10);
n += ke_set_real_func1(ke, "sqrt", sqrt);
n += ke_set_real_func1(ke, "sin", sin);
n += ke_set_real_func1(ke, "cos", cos);
n += ke_set_real_func1(ke, "tan", tan);
n += ke_set_real_func2(ke, "pow", pow);
return n;
}
void ke_unset(kexpr_t *ke)
{
int i;
for (i = 0; i < ke->n; ++i) {
ke1_t *e = &ke->e[i];
if (e->ttype == KET_VAL && e->name) e->assigned = 0;
}
}
void ke_print(const kexpr_t *ke)
{
int i;
if (ke == 0) return;
for (i = 0; i < ke->n; ++i) {
const ke1_t *u = &ke->e[i];
if (i) putchar(' ');
if (u->ttype == KET_VAL) {
if (u->name) printf("%s", u->name);
else if (u->vtype == KEV_REAL) printf("%g", u->r);
else if (u->vtype == KEV_INT) printf("%lld", (long long)u->i);
else if (u->vtype == KEV_STR) printf("\"%s\"", u->s);
} else if (u->ttype == KET_OP) {
printf("%s", ke_opstr[u->op]);
} else if (u->ttype == KET_FUNC) {
printf("%s(%d)", u->name, u->n_args);
}
}
putchar('\n');
}
#ifdef KE_MAIN
#include <unistd.h>
int main(int argc, char *argv[])
{
int c, err, to_print = 0, is_int = 0;
kexpr_t *ke;
while ((c = getopt(argc, argv, "pi")) >= 0) {
if (c == 'p') to_print = 1;
else if (c == 'i') is_int = 1;
}
if (optind == argc) {
fprintf(stderr, "Usage: %s [-pi] <expr>\n", argv[0]);
return 1;
}
ke = ke_parse(argv[optind], &err);
ke_set_default_func(ke);
if (err) {
fprintf(stderr, "Parse error: 0x%x\n", err);
return 1;
}
if (!to_print) {
int64_t vi;
double vr;
const char *vs;
int i, ret_type;
if (argc - optind > 1) {
for (i = optind + 1; i < argc; ++i) {
char *p, *s = argv[i];
for (p = s; *p && *p != '='; ++p);
if (*p == 0) continue; // not an assignment
*p = 0;
ke_set_real(ke, s, strtod(p+1, &p));
}
}
err |= ke_eval(ke, &vi, &vr, &vs, &ret_type);
if (err & KEE_UNFUNC)
fprintf(stderr, "Evaluation warning: an undefined function returns the first function argument.\n");
if (err & KEE_UNVAR) fprintf(stderr, "Evaluation warning: unassigned variables are set to 0.\n");
if (ret_type == KEV_INT) printf("%lld\n", (long long)vi);
else if (ret_type == KEV_REAL) printf("%g\n", vr);
else printf("%s\n", vs);
} else ke_print(ke);
ke_destroy(ke);
return 0;
}
#endif