ref: fc4fca0fa6c64a0fbe6fbb5c8faf1e5640b784ea
dir: /parse/node.c/
#include <stdlib.h> #include <stdio.h> #include <inttypes.h> #include <stdarg.h> #include <ctype.h> #include <string.h> #include <assert.h> #include <sys/types.h> #include <sys/stat.h> #include <fcntl.h> #include <unistd.h> #include "util.h" #include "parse.h" Node **nodes; size_t nnodes; Node **decls; size_t ndecls; char * fname(Srcloc l) { return file->file.files[l.file]; } int lnum(Srcloc l) { return l.line; } /* * Bah, this is going to need to know how to fold things. * FIXME: teach it. */ uvlong arraysz(Node *sz) { Node *n; if (!sz) return 0; n = fold(sz, 1); if (exprop(n) != Olit) fatal(sz, "too much indirection when finding intializer. (initialization loop?)"); n = n->expr.args[0]; if (n->lit.littype != Lint) fatal(sz, "initializer is not an integer"); return n->lit.intval; } Node * mknode(Srcloc loc, Ntype nt) { Node *n; n = zalloc(sizeof(Node)); n->nid = nnodes; n->type = nt; n->loc = loc; lappend(&nodes, &nnodes, n); return n; } Node * mkfile(char *name) { Node *n; n = mknode(Zloc, Nfile); n->file.ns = mkht(strhash, streq); lappend(&n->file.files, &n->file.nfiles, strdup(name)); return n; } Node * mkuse(Srcloc loc, char *use, int islocal) { Node *n; n = mknode(loc, Nuse); n->use.name = strdup(use); n->use.islocal = islocal; return n; } Node * mksliceexpr(Srcloc loc, Node *sl, Node *base, Node *off) { if (!base) base = mkintlit(loc, 0); if (!off) off = mkexpr(loc, Omemb, sl, mkname(loc, "len"), NULL); return mkexpr(loc, Oslice, sl, base, off, NULL); } Node * mkexprl(Srcloc loc, Op op, Node **args, size_t nargs) { Node *n; n = mknode(loc, Nexpr); n->expr.op = op; n->expr.args = args; n->expr.nargs = nargs; return n; } Node * mkexpr(Srcloc loc, int op, ...) { Node *n; va_list ap; Node *arg; n = mknode(loc, Nexpr); n->expr.op = op; va_start(ap, op); while ((arg = va_arg(ap, Node *)) != NULL) lappend(&n->expr.args, &n->expr.nargs, arg); va_end(ap); return n; } Node * mkcall(Srcloc loc, Node *fn, Node **args, size_t nargs) { Node *n; size_t i; n = mkexpr(loc, Ocall, fn, NULL); for (i = 0; i < nargs; i++) lappend(&n->expr.args, &n->expr.nargs, args[i]); return n; } Node * mkifstmt(Srcloc loc, Node *cond, Node *iftrue, Node *iffalse) { Node *n; n = mknode(loc, Nifstmt); n->ifstmt.cond = cond; n->ifstmt.iftrue = iftrue; n->ifstmt.iffalse = iffalse; return n; } Node * mkloopstmt(Srcloc loc, Node *init, Node *cond, Node *incr, Node *body) { Node *n; n = mknode(loc, Nloopstmt); n->loopstmt.init = init; n->loopstmt.cond = cond; n->loopstmt.step = incr; n->loopstmt.body = body; n->loopstmt.scope = mkstab(0); return n; } Node * mkiterstmt(Srcloc loc, Node *elt, Node *seq, Node *body) { Node *n; n = mknode(loc, Niterstmt); n->iterstmt.elt = elt; n->iterstmt.seq = seq; n->iterstmt.body = body; return n; } Node * mkmatchstmt(Srcloc loc, Node *val, Node **matches, size_t nmatches) { Node *n; n = mknode(loc, Nmatchstmt); n->matchstmt.val = val; n->matchstmt.matches = matches; n->matchstmt.nmatches = nmatches; return n; } Node * mkmatch(Srcloc loc, Node *pat, Node *body) { Node *n; n = mknode(loc, Nmatch); n->match.pat = pat; n->match.block = body; return n; } Node * mkfunc(Srcloc loc, Node **args, size_t nargs, Type *ret, Node *body) { Node *n; Node *f; size_t i; Stab *st; f = mknode(loc, Nfunc); f->func.args = args; f->func.nargs = nargs; f->func.body = body; f->func.scope = mkstab(1); f->func.type = mktyfunc(loc, args, nargs, ret); f->func.env = mkenv(); st = body->block.scope; for (i = 0; i < nargs; i++) putdcl(st, args[i]); bindtype(f->func.env, ret); for (i = 0; i < nargs; i++) bindtype(f->func.env, decltype(args[i])); n = mknode(loc, Nlit); n->lit.littype = Lfunc; n->lit.fnval = f; return n; } Node * mkblock(Srcloc loc, Stab *scope) { Node *n; n = mknode(loc, Nblock); n->block.scope = scope; return n; } Node * mkimplstmt(Srcloc loc, Node *name, Type *t, Type **aux, size_t naux, Node **decls, size_t ndecls) { Node *n; n = mknode(loc, Nimpl); n->impl.traitname = name; n->impl.type = t; n->impl.aux = aux; n->impl.naux = naux; n->impl.decls = decls; n->impl.ndecls = ndecls; lappend(&impltab, &nimpltab, n); if (hasparams(t)) { n->impl.env = mkenv(); bindtype(n->impl.env, t); } return n; } Node * mklbl(Srcloc loc, char *lbl) { Node *n; assert(lbl != NULL); n = mknode(loc, Nlit); n->lit.littype = Llbl; n->lit.lblname = NULL; n->lit.lblval = strdup(lbl); return mkexpr(loc, Olit, n, NULL); } char * genlblstr(char *buf, size_t sz, char *suffix) { static int nextlbl; size_t len; len = snprintf(buf, 128, ".L%d%s", nextlbl++, suffix); assert(len <= sz); return buf; } Node * genlbl(Srcloc loc) { char buf[128]; genlblstr(buf, 128, ""); return mklbl(loc, buf); } Node * mkstr(Srcloc loc, Str val) { Node *n; n = mknode(loc, Nlit); n->lit.littype = Lstr; n->lit.strval.len = val.len; n->lit.strval.buf = malloc(val.len); memcpy(n->lit.strval.buf, val.buf, val.len); return n; } Node * mkint(Srcloc loc, uvlong val) { Node *n; n = mknode(loc, Nlit); n->lit.littype = Lint; n->lit.intval = val; return n; } Node * mkintlit(Srcloc loc, uvlong val) { return mkexpr(loc, Olit, mkint(loc, val), NULL); } Node * mkchar(Srcloc loc, uint32_t val) { Node *n; n = mknode(loc, Nlit); n->lit.littype = Lchr; n->lit.chrval = val; return n; } Node * mkfloat(Srcloc loc, double val) { Node *n; n = mknode(loc, Nlit); n->lit.littype = Lflt; n->lit.fltval = val; return n; } Node * mkidxinit(Srcloc loc, Node *idx, Node *init) { init->expr.idx = idx; return init; } Node * mkname(Srcloc loc, char *name) { Node *n; n = mknode(loc, Nname); n->name.name = strdup(name); return n; } Node * mknsname(Srcloc loc, char *ns, char *name) { Node *n; n = mknode(loc, Nname); if (ns) n->name.ns = strdup(ns); n->name.name = strdup(name); return n; } Node * mkdecl(Srcloc loc, Node *name, Type *ty) { Node *n; n = mknode(loc, Ndecl); n->decl.did = ndecls; n->decl.name = name; n->decl.type = ty; lappend(&decls, &ndecls, n); if (ty && hasparams(ty)) { n->decl.env = mkenv(); bindtype(n->decl.env, ty); } return n; } Node * gentemp(Srcloc loc, Type *ty, Node **dcl) { char buf[128]; static int nexttmp; Node *t, *r, *n; bprintf(buf, 128, ".t%d", nexttmp++); n = mkname(loc, buf); t = mkdecl(loc, n, ty); r = mkexpr(loc, Ovar, n, NULL); r->expr.type = t->decl.type; r->expr.did = t->decl.did; if (dcl) *dcl = t; return r; } Ucon * mkucon(Srcloc loc, Node *name, Type *ut, Type *et) { Ucon *uc; uc = zalloc(sizeof(Ucon)); uc->loc = loc; uc->name = name; uc->utype = ut; uc->etype = et; return uc; } Node * mkbool(Srcloc loc, int val) { Node *n; n = mknode(loc, Nlit); n->lit.littype = Lbool; n->lit.boolval = val; return n; } Node * mkboollit(Srcloc loc, int val) { Node *e; e = mkexpr(loc, Olit, mkbool(loc, val), NULL); e->expr.type = mktype(loc, Tybool); return e; } Node * mkvoid(Srcloc loc) { Node *n; n = mknode(loc, Nlit); n->lit.littype = Lvoid; return n; } char * declname(Node *n) { Node *name; assert(n->type == Ndecl); name = n->decl.name; return name->name.name; } Type * decltype(Node * n) { assert(n->type == Ndecl); return nodetype(n); } Type * exprtype(Node *n) { assert(n->type == Nexpr); return nodetype(n); } Type * nodetype(Node *n) { switch (n->type) { case Ndecl: return n->decl.type; break; case Nexpr: return n->expr.type; break; case Nlit: return n->lit.type; break; default: die("Node %s has no type", nodestr[n->type]); break; } return NULL; } int liteq(Node *a, Node *b) { return litvaleq(a, b) && tyeq(a->lit.type, b->lit.type); } int litvaleq(Node *a, Node *b) { assert(a->type == Nlit && b->type == Nlit); if (a->lit.littype != b->lit.littype) return 0; switch (a->lit.littype) { case Lvoid: return 1; case Lchr: return a->lit.chrval == b->lit.chrval; case Lbool: return a->lit.boolval == b->lit.boolval; case Lint: return a->lit.intval == b->lit.intval; case Lflt: return a->lit.fltval == b->lit.fltval; case Lstr: return a->lit.strval.len == b->lit.strval.len && !memcmp(a->lit.strval.buf, b->lit.strval.buf, a->lit.strval.len); case Lfunc: return a->lit.fnval == b->lit.fnval; case Llbl: return !strcmp(a->lit.lblval, b->lit.lblval); break; } return 0; } /* name hashing */ ulong namehash(void *p) { Node *n; n = p; return strhash(namestr(n)) ^ strhash(n->name.ns); } int nameeq(void *p1, void *p2) { Node *a, *b; a = p1; b = p2; if (a == b) return 1; return streq(namestr(a), namestr(b)) && streq(a->name.ns, b->name.ns); } void setns(Node *n, char *ns) { assert(!ns || !n->name.ns || !strcmp(n->name.ns, ns)); if (!ns) return; n->name.ns = strdup(ns); } Op exprop(Node *e) { assert(e->type == Nexpr); return e->expr.op; } char * namestr(Node *name) { if (!name) return ""; assert(name->type == Nname); return name->name.name; } char * lblstr(Node *n) { assert(exprop(n) == Olit); assert(n->expr.args[0]->type == Nlit); assert(n->expr.args[0]->lit.littype == Llbl); return n->expr.args[0]->lit.lblval; } static size_t did(Node *n) { if (n->type == Ndecl) { return n->decl.did; } else if (n->type == Nexpr) { assert(exprop(n) == Ovar); return n->expr.did; } dump(n, stderr); die("Can't get did"); return 0; } /* Hashes a Ovar expr or an Ndecl */ ulong varhash(void *dcl) { /* large-prime hash. meh. */ return did(dcl) * 366787; } /* Checks if the did of two vars are equal */ int vareq(void *a, void *b) { return did(a) == did(b); }