ref: 1c72bb640a82a82459a4224efeea82fde5faa22b
dir: /cc2/parser.c/
#include <errno.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <cc.h>
#include <sizes.h>
#include "cc2.h"
#define MAXLINE 200
#define NR_STACKSIZ 32
#define NR_NODEPOOL 128
#define NR_EXPRESSIONS 64
enum {
LOCAL, GLOBAL, PARAMETER
};
static Symbol *curfun;
static Node *stack[NR_STACKSIZ], **stackp;
static Node *listexp[NR_EXPRESSIONS], **listp;
static Node nodepool[NR_NODEPOOL], *newp;
Type l_int8 = {
.size = 1,
.align = 2,
.sign = 1,
.c_int = 1,
};
Type l_int16 = {
.size = 2,
.align = 2,
.sign = 1,
.c_int = 1,
};
Type l_int32 = {
.size = 4,
.align = 4,
.sign = 1,
.c_int = 1,
};
Type l_int64 = {
.size = 8,
.align = 8,
.sign = 1,
.c_int = 1,
};
Type l_uint8 = {
.size = 1,
.align = 2,
.c_int = 1,
};
Type l_uint16 = {
.size = 2,
.align = 2,
.c_int = 1,
};
Type l_uint32 = {
.size = 4,
.align = 4,
.c_int = 1,
};
Type l_uint64 = {
.size = 8,
.align = 8,
.c_int = 1,
};
void
apply(Node *list[], void (*fun)(Node *))
{
Node *np;
while (np = *list++)
(*fun)(np);
}
static Symbol *
parameter(char *num)
{
static Symbol tbl[NR_FUNPARAM];
unsigned i = atoi(num);
if (!curfun)
error(ESYNTAX);
if (i >= NR_FUNPARAM)
error(EPARNUM);
return &tbl[i];
}
static Symbol *
local(char *num)
{
static Symbol tbl[NR_INT_IDENT];
unsigned i = atoi(num);
if (!curfun)
error(ESYNTAX);
if (i >= NR_INT_IDENT)
error(EINTNUM);
return &tbl[i];
}
static Symbol *
global(char *num)
{
static Symbol tbl[NR_EXT_IDENT];
unsigned i = atoi(num);
if (i >= NR_EXT_IDENT)
error(EEXTNUM);
return &tbl[i];
}
static Node *
newnode(void)
{
if (newp == &nodepool[NR_NODEPOOL])
error(ENODEOV);
return newp++;
}
static void
push(Node *np)
{
if (stackp == &stack[NR_STACKSIZ])
error(ESTACKO);
*stackp++ = np;
}
static Node *
pop(void)
{
if (stackp == stack)
error(ESTACKU);
return *--stackp;
}
static Type *
gettype(char *type)
{
switch (type[0]) {
case L_INT8:
return &l_int8;
case L_INT16:
return &l_int16;
case L_INT32:
return &l_int32;
case L_INT64:
return &l_int64;
case L_UINT8:
return &l_uint8;
case L_UINT16:
return &l_uint16;
case L_UINT32:
return &l_uint32;
case L_UINT64:
return &l_uint64;
case 'F':
return NULL;
default:
error(ETYPERR);
}
}
static Symbol *
symbol(uint8_t t, char *token)
{
static Symbol *(*tbl[3])(char *)= {
[LOCAL] = local,
[GLOBAL] = global,
[PARAMETER] = parameter
};
return (*tbl[t])(token+1);
}
static void
variable(uint8_t t, char *token)
{
Node *np = newnode();
Symbol *sym = symbol(t, token);
np->u.sym = sym;
np->op = sym->u.v.sclass;
np->type = sym->u.v.type;
np->left = np->right = NULL;
push(np);
}
static void
localvar(char *token)
{
variable(LOCAL, token);
}
static void
globvar(char *token)
{
variable(GLOBAL, token);
}
static void
paramvar(char *token)
{
variable(PARAMETER, token);
}
static void
immediate(char *token)
{
Node *np = newnode();
np->op = CONST;
np->type = gettype(token+1);
np->u.imm = atoi(token+2);
np->left = np->right = NULL;
push(np);
}
static void
unary(char *token)
{
Node *np = newnode();
np->right = NULL;
np->left = pop();
np->type = gettype(token+1);
np->op = token[0];
push(np);
}
static void
operator(char *token)
{
Node *np = newnode();
np->right = pop();
np->left = pop();
np->type = gettype(token+1);
np->op = token[0];
push(np);
}
static void
label(char *token)
{
Node *np = newnode();
np->left = np->right = NULL;
np->op = LABEL;
np->u.sym = local(token);
push(np);
}
static void
increment(char *token)
{
Node *np = newnode();
np->right = pop();
np->left = pop();
np->type = gettype(token+2);
np->op = token[0];
switch (np->subop = token[1]) {
case '-': case '+':
push(np);
break;
default:
error(ESYNTAX);
}
}
static void
assignment(char *token)
{
Node *np = newnode();
np->right = pop();
np->left = pop();
np->op = *token;
switch (*++token) {
case OADD: case OSUB: case OINC: case OMOD: case ODIV:
case OSHL: case OSHR: case OBAND: case OBOR: case OBXOR:
np->subop = *++token;
default:
np->type = gettype(token);
break;
}
push(np);
}
static void
cast(char *token)
{
Node *np = newnode();
np->right = NULL;
np->left = pop();
np->op = OCAST;
np->type = gettype(token+1);
push(np);
}
static void (*optbl[])(char *) = {
[L_INT8] = cast,
[L_INT16] = cast,
[L_INT32] = cast,
[L_INT64] = cast,
[L_UINT8] = cast,
[L_UINT16] = cast,
[L_UINT32] = cast,
[L_UINT64] = cast,
[L_BOOL] = cast,
[L_FLOAT] = cast,
[L_DOUBLE] = cast,
[L_LDOUBLE] = cast,
[L_POINTER] = cast,
[L_VOID] = cast,
['+'] = operator,
['%'] = operator,
['-'] = operator,
['*'] = operator,
['/'] = operator,
['l'] = operator,
['r'] = operator,
['&'] = operator,
['|'] = operator,
['^'] = operator,
[':'] = assignment,
[';'] = increment,
['Y'] = globvar,
['A'] = localvar,
['T'] = localvar,
['G'] = globvar,
['P'] = paramvar,
['L'] = label,
['#'] = immediate,
['@'] = unary,
['a'] = unary,
['<'] = operator,
['>'] = operator,
[']'] = operator,
['['] = operator,
['='] = operator,
['!'] = unary,
['y'] = NULL,
['j'] = NULL,
['o'] = operator,
['_'] = unary,
['~'] = unary,
[','] = operator,
['\177'] = NULL
};
static void
expression(char *token)
{
Node *np;
void (*fun)(char *);
if (!curfun)
error(ESYNTAX);
do {
if ((fun = optbl[token[0]]) == NULL)
error(ESYNTAX);
(*fun)(token);
} while (token = strtok(NULL, "\t"));
np = pop();
if (stackp != stack)
error(EEXPBAL);
if (listp == &listexp[NR_EXPRESSIONS])
error(EEXPROV);
*listp++ = np;
}
static void
deflabel(char *token)
{
Symbol *sym;
if (!curfun)
error(ESYNTAX);
sym = local(token);
sym->type = LABEL;
sym->u.l.addr = listp - listexp;
}
static Symbol *
declaration(uint8_t t, char class, char *token)
{
Symbol *sym = symbol(t, token);
char *s;
if (sym->name)
free(sym->name);
memset(sym, 0, sizeof(*sym));
sym->type = VAR;
sym->u.v.sclass = class;
if ((s = strtok(NULL, "\t")) == NULL)
error(ESYNTAX);
sym->u.v.type = gettype(s);
if ((s = strtok(NULL, "\t")) != NULL)
sym->name = xstrdup(s);
return sym;
}
static void
globdcl(char *token)
{
Symbol *sym = declaration(GLOBAL, MEM, token);
switch (token[0]) {
case 'X':
sym->extrn = 1;
break;
case 'G':
sym->public = 1;
break;
}
if (sym->u.v.type != NULL)
return;
if (curfun)
error(ESYNTAX);
sym->type = FUN;
curfun = sym;
sym->u.f.body = listp = listexp;
newp = nodepool;
}
static void
paramdcl(char *token)
{
Symbol *sym = declaration(PARAMETER, AUTO, token);
sym->u.v.off = -curfun->u.f.params;
curfun->u.f.params += sym->u.v.type->size;
}
static void
localdcl(char *token)
{
Symbol *sym = declaration(LOCAL, token[0], token);
curfun->u.f.locals += sym->u.v.type->size;
sym->u.v.off = 1-curfun->u.f.locals;
}
Symbol *
parse(void)
{
void (*fun)(char *tok);
uint8_t len;
int c;
char line[MAXLINE];
curfun = NULL;
stackp = stack;
listp = listexp;
newp = nodepool;
for (;;) {
switch (c = getchar()) {
case 'L':
fun = deflabel;
break;
case '\t':
fun = expression;
break;
case 'S':
/* struct */
break;
case 'P':
fun = paramdcl;
break;
case 'A': case 'R': case 'T':
fun = localdcl;
break;
case 'Y': case 'G':
fun = globdcl;
break;
case '}':
if (!curfun)
error(ESYNTAX);
return curfun;
case EOF:
if (ferror(stdin))
error(EFERROR, strerror(errno));
if (curfun)
goto syntax_error;
return NULL;
case '\n':
continue;
default:
goto syntax_error;
}
ungetc(c, stdin);
if (!fgets(line, sizeof(line), stdin))
break;
len = strlen(line);
if (line[len-1] != '\n')
error(ELNLINE);
line[len-1] = '\0';
(*fun)(strtok(line, "\t"));
}
found_eof:
if (!curfun)
return curfun;
syntax_error:
error(ESYNTAX);
}