ref: eda1a5eb2a36e7274ac0af63604abbd95347a564
dir: /cc2/parser.c/
#include <errno.h> #include <inttypes.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include "../inc/cc.h" #include "../inc/sizes.h" #include "cc2.h" #define MAXLINE 200 #define NR_STACKSIZ 32 #define NR_NODEPOOL 128 #define NR_EXPRESSIONS 64 enum { LOCAL, GLOBAL, PARAMETER }; Symbol *curfun; static Node *stack[NR_STACKSIZ], **stackp; static Node *listexp[NR_EXPRESSIONS], **listp; static Node nodepool[NR_NODEPOOL], *newp; static Type Funct = { .letter = L_FUNCTION, }; static Type l_int8 = { .letter = L_INT8, .size = 1, .align = 2, .flags = SIGNF | INTF }; static Type l_int16 = { .letter = L_INT16, .size = 2, .align = 2, .flags = SIGNF | INTF }; static Type l_int32 = { .letter = L_INT32, .size = 4, .align = 4, .flags = SIGNF | INTF }; static Type l_int64 = { .letter = L_INT64, .size = 8, .align = 8, .flags = SIGNF | INTF }; static Type l_uint8 = { .letter = L_UINT8, .size = 1, .align = 2, .flags = INTF }; static Type l_uint16 = { .letter = L_UINT16, .size = 2, .align = 2, .flags = INTF }; static Type l_uint32 = { .letter = L_UINT32, .size = 4, .align = 4, .flags = INTF }; static Type l_uint64 = { .letter = L_UINT64, .size = 8, .align = 8, .flags = INTF }; static void cast(char *), operator(char *), assignment(char *), increment(char *), globvar(char *), localvar(char *), paramvar(char *), label(char *), immediate(char *), unary(char *), oreturn(char *); /*TODO: Remove hardcoded symbols */ 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, ['K'] = localvar, ['T'] = localvar, ['G'] = globvar, ['P'] = paramvar, ['L'] = label, ['#'] = immediate, ['@'] = unary, ['a'] = unary, ['<'] = operator, ['>'] = operator, [']'] = operator, ['['] = operator, ['='] = operator, ['!'] = unary, ['y'] = oreturn, ['j'] = NULL, ['o'] = operator, ['_'] = unary, ['~'] = unary, [','] = operator, ['\177'] = NULL }; static void prnode(Node *np) { if (np->left) prnode(np->left); if (np->right) prnode(np->right); fprintf(stderr, "\t%c%c", np->op, np->type.letter); } void prtree(Node *np) { prnode(np); putc('\n', stderr); } void apply(Node *(*fun)(Node *)) { Node **list, *np; for (list = curfun->u.f.body; np = *list; ++list) *list++ = (*fun)(np); } static Symbol * parameter(char *num) { static Symbol tbl[NR_FUNPARAM]; Symbol *sym; unsigned i = atoi(num); if (!curfun) error(ESYNTAX); if (i >= NR_FUNPARAM) error(EPARNUM); sym = &tbl[i]; sym->id = i; return sym; } static Symbol * local(char *num) { static Symbol tbl[NR_INT_IDENT]; Symbol *sym; unsigned i = atoi(num); if (!curfun) error(ESYNTAX); if (i >= NR_INT_IDENT) error(EINTNUM); sym = &tbl[i]; sym->id = i; return sym; } static Symbol * global(char *num) { static Symbol tbl[NR_EXT_IDENT]; Symbol *sym; unsigned i = atoi(num); if (i >= NR_EXT_IDENT) error(EEXTNUM); sym = &tbl[i]; sym->id = i; return sym; } static Node * newnode(void) { if (newp == &nodepool[NR_NODEPOOL]) error(ENODEOV); return newp++; } Node * imm(TINT i) { Node *np = newnode(); np->op = CONST; np->type = l_int16; /* FIX: memory leak */ np->sym = xmalloc(sizeof(Symbol)); np->sym->u.imm = i; np->left = np->right = NULL; return np; } 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 L_FUNCTION: return &Funct;; default: error(ETYPERR); } } static Symbol * symbol(uint8_t t, char *token) { Symbol *sym; static Symbol *(*tbl[3])(char *)= { [LOCAL] = local, [GLOBAL] = global, [PARAMETER] = parameter }; sym = (*tbl[t])(token+1); sym->kind = *token; return sym; } static void variable(uint8_t t, char *token) { Node *np = newnode(); Symbol *sym = symbol(t, token); np->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) { /* TODO: check type of immediate */ push(imm(atoi(token+2))); } 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->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 expr(char *token) { Node *np; void (*fun)(char *); unsigned c; do { if ((c = token[0]) > 0x7f || (fun = optbl[c]) == NULL) error(ESYNTAX); (*fun)(token); } while (token = strtok(NULL, "\t")); } static void expression(char *token) { Node *np; void (*fun)(char *); unsigned c; if (!curfun) error(ESYNTAX); expr(token); np = pop(); if (stackp != stack) error(EEXPBAL); if (listp == &listexp[NR_EXPRESSIONS]) error(EEXPROV); *listp++ = np; } static void oreturn(char *token) { Node *np = newnode(), *lp; np->op = token[0]; if (token = strtok(NULL, "\t")) { expr(token); lp = pop(); np ->left = lp; np->type = lp->type; } else { np->left = NULL; } np->right = NULL; push(np); } static void deflabel(char *token) { Symbol *sym; if (!curfun) error(ESYNTAX); sym = local(token); } static Symbol * declaration(uint8_t t, char class, char *token) { Symbol *sym = symbol(t, token); char *s; free(sym->name); memset(sym, 0, sizeof(*sym)); 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.letter != L_FUNCTION) return; if (curfun) error(ESYNTAX); 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); char sclass = *token; if (sclass == 'A' || sclass == 'R') { uint8_t size = sym->u.v.type.size; /* stack elements are 2 byte multiple */ if (size == 1) ++size; curfun->u.f.locals += size; sym->u.v.off = curfun->u.f.locals; } } void 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': /* TODO: 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) return; 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")); } syntax_error: error(ESYNTAX); }