diff options
Diffstat (limited to 'Parser/pgen.c')
-rw-r--r-- | Parser/pgen.c | 964 |
1 files changed, 482 insertions, 482 deletions
diff --git a/Parser/pgen.c b/Parser/pgen.c index 959a5d3443..beaf53be0b 100644 --- a/Parser/pgen.c +++ b/Parser/pgen.c @@ -17,85 +17,85 @@ extern int Py_IgnoreEnvironmentFlag; /* needed by Py_GETENV */ /* PART ONE -- CONSTRUCT NFA -- Cf. Algorithm 3.2 from [Aho&Ullman 77] */ typedef struct _nfaarc { - int ar_label; - int ar_arrow; + int ar_label; + int ar_arrow; } nfaarc; typedef struct _nfastate { - int st_narcs; - nfaarc *st_arc; + int st_narcs; + nfaarc *st_arc; } nfastate; typedef struct _nfa { - int nf_type; - char *nf_name; - int nf_nstates; - nfastate *nf_state; - int nf_start, nf_finish; + int nf_type; + char *nf_name; + int nf_nstates; + nfastate *nf_state; + int nf_start, nf_finish; } nfa; /* Forward */ static void compile_rhs(labellist *ll, - nfa *nf, node *n, int *pa, int *pb); + nfa *nf, node *n, int *pa, int *pb); static void compile_alt(labellist *ll, - nfa *nf, node *n, int *pa, int *pb); + nfa *nf, node *n, int *pa, int *pb); static void compile_item(labellist *ll, - nfa *nf, node *n, int *pa, int *pb); + nfa *nf, node *n, int *pa, int *pb); static void compile_atom(labellist *ll, - nfa *nf, node *n, int *pa, int *pb); + nfa *nf, node *n, int *pa, int *pb); static int addnfastate(nfa *nf) { - nfastate *st; - - nf->nf_state = (nfastate *)PyObject_REALLOC(nf->nf_state, - sizeof(nfastate) * (nf->nf_nstates + 1)); - if (nf->nf_state == NULL) - Py_FatalError("out of mem"); - st = &nf->nf_state[nf->nf_nstates++]; - st->st_narcs = 0; - st->st_arc = NULL; - return st - nf->nf_state; + nfastate *st; + + nf->nf_state = (nfastate *)PyObject_REALLOC(nf->nf_state, + sizeof(nfastate) * (nf->nf_nstates + 1)); + if (nf->nf_state == NULL) + Py_FatalError("out of mem"); + st = &nf->nf_state[nf->nf_nstates++]; + st->st_narcs = 0; + st->st_arc = NULL; + return st - nf->nf_state; } static void addnfaarc(nfa *nf, int from, int to, int lbl) { - nfastate *st; - nfaarc *ar; - - st = &nf->nf_state[from]; - st->st_arc = (nfaarc *)PyObject_REALLOC(st->st_arc, - sizeof(nfaarc) * (st->st_narcs + 1)); - if (st->st_arc == NULL) - Py_FatalError("out of mem"); - ar = &st->st_arc[st->st_narcs++]; - ar->ar_label = lbl; - ar->ar_arrow = to; + nfastate *st; + nfaarc *ar; + + st = &nf->nf_state[from]; + st->st_arc = (nfaarc *)PyObject_REALLOC(st->st_arc, + sizeof(nfaarc) * (st->st_narcs + 1)); + if (st->st_arc == NULL) + Py_FatalError("out of mem"); + ar = &st->st_arc[st->st_narcs++]; + ar->ar_label = lbl; + ar->ar_arrow = to; } static nfa * newnfa(char *name) { - nfa *nf; - static int type = NT_OFFSET; /* All types will be disjunct */ - - nf = (nfa *)PyObject_MALLOC(sizeof(nfa)); - if (nf == NULL) - Py_FatalError("no mem for new nfa"); - nf->nf_type = type++; - nf->nf_name = name; /* XXX strdup(name) ??? */ - nf->nf_nstates = 0; - nf->nf_state = NULL; - nf->nf_start = nf->nf_finish = -1; - return nf; + nfa *nf; + static int type = NT_OFFSET; /* All types will be disjunct */ + + nf = (nfa *)PyObject_MALLOC(sizeof(nfa)); + if (nf == NULL) + Py_FatalError("no mem for new nfa"); + nf->nf_type = type++; + nf->nf_name = name; /* XXX strdup(name) ??? */ + nf->nf_nstates = 0; + nf->nf_state = NULL; + nf->nf_start = nf->nf_finish = -1; + return nf; } typedef struct _nfagrammar { - int gr_nnfas; - nfa **gr_nfa; - labellist gr_ll; + int gr_nnfas; + nfa **gr_nfa; + labellist gr_ll; } nfagrammar; /* Forward */ @@ -104,32 +104,32 @@ static void compile_rule(nfagrammar *gr, node *n); static nfagrammar * newnfagrammar(void) { - nfagrammar *gr; - - gr = (nfagrammar *)PyObject_MALLOC(sizeof(nfagrammar)); - if (gr == NULL) - Py_FatalError("no mem for new nfa grammar"); - gr->gr_nnfas = 0; - gr->gr_nfa = NULL; - gr->gr_ll.ll_nlabels = 0; - gr->gr_ll.ll_label = NULL; - addlabel(&gr->gr_ll, ENDMARKER, "EMPTY"); - return gr; + nfagrammar *gr; + + gr = (nfagrammar *)PyObject_MALLOC(sizeof(nfagrammar)); + if (gr == NULL) + Py_FatalError("no mem for new nfa grammar"); + gr->gr_nnfas = 0; + gr->gr_nfa = NULL; + gr->gr_ll.ll_nlabels = 0; + gr->gr_ll.ll_label = NULL; + addlabel(&gr->gr_ll, ENDMARKER, "EMPTY"); + return gr; } static nfa * addnfa(nfagrammar *gr, char *name) { - nfa *nf; - - nf = newnfa(name); - gr->gr_nfa = (nfa **)PyObject_REALLOC(gr->gr_nfa, - sizeof(nfa*) * (gr->gr_nnfas + 1)); - if (gr->gr_nfa == NULL) - Py_FatalError("out of mem"); - gr->gr_nfa[gr->gr_nnfas++] = nf; - addlabel(&gr->gr_ll, NAME, nf->nf_name); - return nf; + nfa *nf; + + nf = newnfa(name); + gr->gr_nfa = (nfa **)PyObject_REALLOC(gr->gr_nfa, + sizeof(nfa*) * (gr->gr_nnfas + 1)); + if (gr->gr_nfa == NULL) + Py_FatalError("out of mem"); + gr->gr_nfa[gr->gr_nnfas++] = nf; + addlabel(&gr->gr_ll, NAME, nf->nf_name); + return nf; } #ifdef Py_DEBUG @@ -137,203 +137,203 @@ addnfa(nfagrammar *gr, char *name) static char REQNFMT[] = "metacompile: less than %d children\n"; #define REQN(i, count) \ - if (i < count) { \ - fprintf(stderr, REQNFMT, count); \ - Py_FatalError("REQN"); \ - } else + if (i < count) { \ + fprintf(stderr, REQNFMT, count); \ + Py_FatalError("REQN"); \ + } else #else -#define REQN(i, count) /* empty */ +#define REQN(i, count) /* empty */ #endif static nfagrammar * metacompile(node *n) { - nfagrammar *gr; - int i; - - if (Py_DebugFlag) - printf("Compiling (meta-) parse tree into NFA grammar\n"); - gr = newnfagrammar(); - REQ(n, MSTART); - i = n->n_nchildren - 1; /* Last child is ENDMARKER */ - n = n->n_child; - for (; --i >= 0; n++) { - if (n->n_type != NEWLINE) - compile_rule(gr, n); - } - return gr; + nfagrammar *gr; + int i; + + if (Py_DebugFlag) + printf("Compiling (meta-) parse tree into NFA grammar\n"); + gr = newnfagrammar(); + REQ(n, MSTART); + i = n->n_nchildren - 1; /* Last child is ENDMARKER */ + n = n->n_child; + for (; --i >= 0; n++) { + if (n->n_type != NEWLINE) + compile_rule(gr, n); + } + return gr; } static void compile_rule(nfagrammar *gr, node *n) { - nfa *nf; - - REQ(n, RULE); - REQN(n->n_nchildren, 4); - n = n->n_child; - REQ(n, NAME); - nf = addnfa(gr, n->n_str); - n++; - REQ(n, COLON); - n++; - REQ(n, RHS); - compile_rhs(&gr->gr_ll, nf, n, &nf->nf_start, &nf->nf_finish); - n++; - REQ(n, NEWLINE); + nfa *nf; + + REQ(n, RULE); + REQN(n->n_nchildren, 4); + n = n->n_child; + REQ(n, NAME); + nf = addnfa(gr, n->n_str); + n++; + REQ(n, COLON); + n++; + REQ(n, RHS); + compile_rhs(&gr->gr_ll, nf, n, &nf->nf_start, &nf->nf_finish); + n++; + REQ(n, NEWLINE); } static void compile_rhs(labellist *ll, nfa *nf, node *n, int *pa, int *pb) { - int i; - int a, b; - - REQ(n, RHS); - i = n->n_nchildren; - REQN(i, 1); - n = n->n_child; - REQ(n, ALT); - compile_alt(ll, nf, n, pa, pb); - if (--i <= 0) - return; - n++; - a = *pa; - b = *pb; - *pa = addnfastate(nf); - *pb = addnfastate(nf); - addnfaarc(nf, *pa, a, EMPTY); - addnfaarc(nf, b, *pb, EMPTY); - for (; --i >= 0; n++) { - REQ(n, VBAR); - REQN(i, 1); - --i; - n++; - REQ(n, ALT); - compile_alt(ll, nf, n, &a, &b); - addnfaarc(nf, *pa, a, EMPTY); - addnfaarc(nf, b, *pb, EMPTY); - } + int i; + int a, b; + + REQ(n, RHS); + i = n->n_nchildren; + REQN(i, 1); + n = n->n_child; + REQ(n, ALT); + compile_alt(ll, nf, n, pa, pb); + if (--i <= 0) + return; + n++; + a = *pa; + b = *pb; + *pa = addnfastate(nf); + *pb = addnfastate(nf); + addnfaarc(nf, *pa, a, EMPTY); + addnfaarc(nf, b, *pb, EMPTY); + for (; --i >= 0; n++) { + REQ(n, VBAR); + REQN(i, 1); + --i; + n++; + REQ(n, ALT); + compile_alt(ll, nf, n, &a, &b); + addnfaarc(nf, *pa, a, EMPTY); + addnfaarc(nf, b, *pb, EMPTY); + } } static void compile_alt(labellist *ll, nfa *nf, node *n, int *pa, int *pb) { - int i; - int a, b; - - REQ(n, ALT); - i = n->n_nchildren; - REQN(i, 1); - n = n->n_child; - REQ(n, ITEM); - compile_item(ll, nf, n, pa, pb); - --i; - n++; - for (; --i >= 0; n++) { - REQ(n, ITEM); - compile_item(ll, nf, n, &a, &b); - addnfaarc(nf, *pb, a, EMPTY); - *pb = b; - } + int i; + int a, b; + + REQ(n, ALT); + i = n->n_nchildren; + REQN(i, 1); + n = n->n_child; + REQ(n, ITEM); + compile_item(ll, nf, n, pa, pb); + --i; + n++; + for (; --i >= 0; n++) { + REQ(n, ITEM); + compile_item(ll, nf, n, &a, &b); + addnfaarc(nf, *pb, a, EMPTY); + *pb = b; + } } static void compile_item(labellist *ll, nfa *nf, node *n, int *pa, int *pb) { - int i; - int a, b; - - REQ(n, ITEM); - i = n->n_nchildren; - REQN(i, 1); - n = n->n_child; - if (n->n_type == LSQB) { - REQN(i, 3); - n++; - REQ(n, RHS); - *pa = addnfastate(nf); - *pb = addnfastate(nf); - addnfaarc(nf, *pa, *pb, EMPTY); - compile_rhs(ll, nf, n, &a, &b); - addnfaarc(nf, *pa, a, EMPTY); - addnfaarc(nf, b, *pb, EMPTY); - REQN(i, 1); - n++; - REQ(n, RSQB); - } - else { - compile_atom(ll, nf, n, pa, pb); - if (--i <= 0) - return; - n++; - addnfaarc(nf, *pb, *pa, EMPTY); - if (n->n_type == STAR) - *pb = *pa; - else - REQ(n, PLUS); - } + int i; + int a, b; + + REQ(n, ITEM); + i = n->n_nchildren; + REQN(i, 1); + n = n->n_child; + if (n->n_type == LSQB) { + REQN(i, 3); + n++; + REQ(n, RHS); + *pa = addnfastate(nf); + *pb = addnfastate(nf); + addnfaarc(nf, *pa, *pb, EMPTY); + compile_rhs(ll, nf, n, &a, &b); + addnfaarc(nf, *pa, a, EMPTY); + addnfaarc(nf, b, *pb, EMPTY); + REQN(i, 1); + n++; + REQ(n, RSQB); + } + else { + compile_atom(ll, nf, n, pa, pb); + if (--i <= 0) + return; + n++; + addnfaarc(nf, *pb, *pa, EMPTY); + if (n->n_type == STAR) + *pb = *pa; + else + REQ(n, PLUS); + } } static void compile_atom(labellist *ll, nfa *nf, node *n, int *pa, int *pb) { - int i; - - REQ(n, ATOM); - i = n->n_nchildren; - REQN(i, 1); - n = n->n_child; - if (n->n_type == LPAR) { - REQN(i, 3); - n++; - REQ(n, RHS); - compile_rhs(ll, nf, n, pa, pb); - n++; - REQ(n, RPAR); - } - else if (n->n_type == NAME || n->n_type == STRING) { - *pa = addnfastate(nf); - *pb = addnfastate(nf); - addnfaarc(nf, *pa, *pb, addlabel(ll, n->n_type, n->n_str)); - } - else - REQ(n, NAME); + int i; + + REQ(n, ATOM); + i = n->n_nchildren; + REQN(i, 1); + n = n->n_child; + if (n->n_type == LPAR) { + REQN(i, 3); + n++; + REQ(n, RHS); + compile_rhs(ll, nf, n, pa, pb); + n++; + REQ(n, RPAR); + } + else if (n->n_type == NAME || n->n_type == STRING) { + *pa = addnfastate(nf); + *pb = addnfastate(nf); + addnfaarc(nf, *pa, *pb, addlabel(ll, n->n_type, n->n_str)); + } + else + REQ(n, NAME); } static void dumpstate(labellist *ll, nfa *nf, int istate) { - nfastate *st; - int i; - nfaarc *ar; - - printf("%c%2d%c", - istate == nf->nf_start ? '*' : ' ', - istate, - istate == nf->nf_finish ? '.' : ' '); - st = &nf->nf_state[istate]; - ar = st->st_arc; - for (i = 0; i < st->st_narcs; i++) { - if (i > 0) - printf("\n "); - printf("-> %2d %s", ar->ar_arrow, - PyGrammar_LabelRepr(&ll->ll_label[ar->ar_label])); - ar++; - } - printf("\n"); + nfastate *st; + int i; + nfaarc *ar; + + printf("%c%2d%c", + istate == nf->nf_start ? '*' : ' ', + istate, + istate == nf->nf_finish ? '.' : ' '); + st = &nf->nf_state[istate]; + ar = st->st_arc; + for (i = 0; i < st->st_narcs; i++) { + if (i > 0) + printf("\n "); + printf("-> %2d %s", ar->ar_arrow, + PyGrammar_LabelRepr(&ll->ll_label[ar->ar_label])); + ar++; + } + printf("\n"); } static void dumpnfa(labellist *ll, nfa *nf) { - int i; - - printf("NFA '%s' has %d states; start %d, finish %d\n", - nf->nf_name, nf->nf_nstates, nf->nf_start, nf->nf_finish); - for (i = 0; i < nf->nf_nstates; i++) - dumpstate(ll, nf, i); + int i; + + printf("NFA '%s' has %d states; start %d, finish %d\n", + nf->nf_name, nf->nf_nstates, nf->nf_start, nf->nf_finish); + for (i = 0; i < nf->nf_nstates; i++) + dumpstate(ll, nf, i); } @@ -342,184 +342,184 @@ dumpnfa(labellist *ll, nfa *nf) static void addclosure(bitset ss, nfa *nf, int istate) { - if (addbit(ss, istate)) { - nfastate *st = &nf->nf_state[istate]; - nfaarc *ar = st->st_arc; - int i; - - for (i = st->st_narcs; --i >= 0; ) { - if (ar->ar_label == EMPTY) - addclosure(ss, nf, ar->ar_arrow); - ar++; - } - } + if (addbit(ss, istate)) { + nfastate *st = &nf->nf_state[istate]; + nfaarc *ar = st->st_arc; + int i; + + for (i = st->st_narcs; --i >= 0; ) { + if (ar->ar_label == EMPTY) + addclosure(ss, nf, ar->ar_arrow); + ar++; + } + } } typedef struct _ss_arc { - bitset sa_bitset; - int sa_arrow; - int sa_label; + bitset sa_bitset; + int sa_arrow; + int sa_label; } ss_arc; typedef struct _ss_state { - bitset ss_ss; - int ss_narcs; - struct _ss_arc *ss_arc; - int ss_deleted; - int ss_finish; - int ss_rename; + bitset ss_ss; + int ss_narcs; + struct _ss_arc *ss_arc; + int ss_deleted; + int ss_finish; + int ss_rename; } ss_state; typedef struct _ss_dfa { - int sd_nstates; - ss_state *sd_state; + int sd_nstates; + ss_state *sd_state; } ss_dfa; /* Forward */ static void printssdfa(int xx_nstates, ss_state *xx_state, int nbits, - labellist *ll, char *msg); + labellist *ll, char *msg); static void simplify(int xx_nstates, ss_state *xx_state); static void convert(dfa *d, int xx_nstates, ss_state *xx_state); static void makedfa(nfagrammar *gr, nfa *nf, dfa *d) { - int nbits = nf->nf_nstates; - bitset ss; - int xx_nstates; - ss_state *xx_state, *yy; - ss_arc *zz; - int istate, jstate, iarc, jarc, ibit; - nfastate *st; - nfaarc *ar; - - ss = newbitset(nbits); - addclosure(ss, nf, nf->nf_start); - xx_state = (ss_state *)PyObject_MALLOC(sizeof(ss_state)); - if (xx_state == NULL) - Py_FatalError("no mem for xx_state in makedfa"); - xx_nstates = 1; - yy = &xx_state[0]; - yy->ss_ss = ss; - yy->ss_narcs = 0; - yy->ss_arc = NULL; - yy->ss_deleted = 0; - yy->ss_finish = testbit(ss, nf->nf_finish); - if (yy->ss_finish) - printf("Error: nonterminal '%s' may produce empty.\n", - nf->nf_name); - - /* This algorithm is from a book written before - the invention of structured programming... */ - - /* For each unmarked state... */ - for (istate = 0; istate < xx_nstates; ++istate) { - size_t size; - yy = &xx_state[istate]; - ss = yy->ss_ss; - /* For all its states... */ - for (ibit = 0; ibit < nf->nf_nstates; ++ibit) { - if (!testbit(ss, ibit)) - continue; - st = &nf->nf_state[ibit]; - /* For all non-empty arcs from this state... */ - for (iarc = 0; iarc < st->st_narcs; iarc++) { - ar = &st->st_arc[iarc]; - if (ar->ar_label == EMPTY) - continue; - /* Look up in list of arcs from this state */ - for (jarc = 0; jarc < yy->ss_narcs; ++jarc) { - zz = &yy->ss_arc[jarc]; - if (ar->ar_label == zz->sa_label) - goto found; - } - /* Add new arc for this state */ - size = sizeof(ss_arc) * (yy->ss_narcs + 1); - yy->ss_arc = (ss_arc *)PyObject_REALLOC( - yy->ss_arc, size); - if (yy->ss_arc == NULL) - Py_FatalError("out of mem"); - zz = &yy->ss_arc[yy->ss_narcs++]; - zz->sa_label = ar->ar_label; - zz->sa_bitset = newbitset(nbits); - zz->sa_arrow = -1; - found: ; - /* Add destination */ - addclosure(zz->sa_bitset, nf, ar->ar_arrow); - } - } - /* Now look up all the arrow states */ - for (jarc = 0; jarc < xx_state[istate].ss_narcs; jarc++) { - zz = &xx_state[istate].ss_arc[jarc]; - for (jstate = 0; jstate < xx_nstates; jstate++) { - if (samebitset(zz->sa_bitset, - xx_state[jstate].ss_ss, nbits)) { - zz->sa_arrow = jstate; - goto done; - } - } - size = sizeof(ss_state) * (xx_nstates + 1); - xx_state = (ss_state *)PyObject_REALLOC(xx_state, - size); - if (xx_state == NULL) - Py_FatalError("out of mem"); - zz->sa_arrow = xx_nstates; - yy = &xx_state[xx_nstates++]; - yy->ss_ss = zz->sa_bitset; - yy->ss_narcs = 0; - yy->ss_arc = NULL; - yy->ss_deleted = 0; - yy->ss_finish = testbit(yy->ss_ss, nf->nf_finish); - done: ; - } - } - - if (Py_DebugFlag) - printssdfa(xx_nstates, xx_state, nbits, &gr->gr_ll, - "before minimizing"); - - simplify(xx_nstates, xx_state); - - if (Py_DebugFlag) - printssdfa(xx_nstates, xx_state, nbits, &gr->gr_ll, - "after minimizing"); - - convert(d, xx_nstates, xx_state); - - /* XXX cleanup */ - PyObject_FREE(xx_state); + int nbits = nf->nf_nstates; + bitset ss; + int xx_nstates; + ss_state *xx_state, *yy; + ss_arc *zz; + int istate, jstate, iarc, jarc, ibit; + nfastate *st; + nfaarc *ar; + + ss = newbitset(nbits); + addclosure(ss, nf, nf->nf_start); + xx_state = (ss_state *)PyObject_MALLOC(sizeof(ss_state)); + if (xx_state == NULL) + Py_FatalError("no mem for xx_state in makedfa"); + xx_nstates = 1; + yy = &xx_state[0]; + yy->ss_ss = ss; + yy->ss_narcs = 0; + yy->ss_arc = NULL; + yy->ss_deleted = 0; + yy->ss_finish = testbit(ss, nf->nf_finish); + if (yy->ss_finish) + printf("Error: nonterminal '%s' may produce empty.\n", + nf->nf_name); + + /* This algorithm is from a book written before + the invention of structured programming... */ + + /* For each unmarked state... */ + for (istate = 0; istate < xx_nstates; ++istate) { + size_t size; + yy = &xx_state[istate]; + ss = yy->ss_ss; + /* For all its states... */ + for (ibit = 0; ibit < nf->nf_nstates; ++ibit) { + if (!testbit(ss, ibit)) + continue; + st = &nf->nf_state[ibit]; + /* For all non-empty arcs from this state... */ + for (iarc = 0; iarc < st->st_narcs; iarc++) { + ar = &st->st_arc[iarc]; + if (ar->ar_label == EMPTY) + continue; + /* Look up in list of arcs from this state */ + for (jarc = 0; jarc < yy->ss_narcs; ++jarc) { + zz = &yy->ss_arc[jarc]; + if (ar->ar_label == zz->sa_label) + goto found; + } + /* Add new arc for this state */ + size = sizeof(ss_arc) * (yy->ss_narcs + 1); + yy->ss_arc = (ss_arc *)PyObject_REALLOC( + yy->ss_arc, size); + if (yy->ss_arc == NULL) + Py_FatalError("out of mem"); + zz = &yy->ss_arc[yy->ss_narcs++]; + zz->sa_label = ar->ar_label; + zz->sa_bitset = newbitset(nbits); + zz->sa_arrow = -1; + found: ; + /* Add destination */ + addclosure(zz->sa_bitset, nf, ar->ar_arrow); + } + } + /* Now look up all the arrow states */ + for (jarc = 0; jarc < xx_state[istate].ss_narcs; jarc++) { + zz = &xx_state[istate].ss_arc[jarc]; + for (jstate = 0; jstate < xx_nstates; jstate++) { + if (samebitset(zz->sa_bitset, + xx_state[jstate].ss_ss, nbits)) { + zz->sa_arrow = jstate; + goto done; + } + } + size = sizeof(ss_state) * (xx_nstates + 1); + xx_state = (ss_state *)PyObject_REALLOC(xx_state, + size); + if (xx_state == NULL) + Py_FatalError("out of mem"); + zz->sa_arrow = xx_nstates; + yy = &xx_state[xx_nstates++]; + yy->ss_ss = zz->sa_bitset; + yy->ss_narcs = 0; + yy->ss_arc = NULL; + yy->ss_deleted = 0; + yy->ss_finish = testbit(yy->ss_ss, nf->nf_finish); + done: ; + } + } + + if (Py_DebugFlag) + printssdfa(xx_nstates, xx_state, nbits, &gr->gr_ll, + "before minimizing"); + + simplify(xx_nstates, xx_state); + + if (Py_DebugFlag) + printssdfa(xx_nstates, xx_state, nbits, &gr->gr_ll, + "after minimizing"); + + convert(d, xx_nstates, xx_state); + + /* XXX cleanup */ + PyObject_FREE(xx_state); } static void printssdfa(int xx_nstates, ss_state *xx_state, int nbits, - labellist *ll, char *msg) + labellist *ll, char *msg) { - int i, ibit, iarc; - ss_state *yy; - ss_arc *zz; - - printf("Subset DFA %s\n", msg); - for (i = 0; i < xx_nstates; i++) { - yy = &xx_state[i]; - if (yy->ss_deleted) - continue; - printf(" Subset %d", i); - if (yy->ss_finish) - printf(" (finish)"); - printf(" { "); - for (ibit = 0; ibit < nbits; ibit++) { - if (testbit(yy->ss_ss, ibit)) - printf("%d ", ibit); - } - printf("}\n"); - for (iarc = 0; iarc < yy->ss_narcs; iarc++) { - zz = &yy->ss_arc[iarc]; - printf(" Arc to state %d, label %s\n", - zz->sa_arrow, - PyGrammar_LabelRepr( - &ll->ll_label[zz->sa_label])); - } - } + int i, ibit, iarc; + ss_state *yy; + ss_arc *zz; + + printf("Subset DFA %s\n", msg); + for (i = 0; i < xx_nstates; i++) { + yy = &xx_state[i]; + if (yy->ss_deleted) + continue; + printf(" Subset %d", i); + if (yy->ss_finish) + printf(" (finish)"); + printf(" { "); + for (ibit = 0; ibit < nbits; ibit++) { + if (testbit(yy->ss_ss, ibit)) + printf("%d ", ibit); + } + printf("}\n"); + for (iarc = 0; iarc < yy->ss_narcs; iarc++) { + zz = &yy->ss_arc[iarc]; + printf(" Arc to state %d, label %s\n", + zz->sa_arrow, + PyGrammar_LabelRepr( + &ll->ll_label[zz->sa_label])); + } + } } @@ -535,59 +535,59 @@ printssdfa(int xx_nstates, ss_state *xx_state, int nbits, static int samestate(ss_state *s1, ss_state *s2) { - int i; - - if (s1->ss_narcs != s2->ss_narcs || s1->ss_finish != s2->ss_finish) - return 0; - for (i = 0; i < s1->ss_narcs; i++) { - if (s1->ss_arc[i].sa_arrow != s2->ss_arc[i].sa_arrow || - s1->ss_arc[i].sa_label != s2->ss_arc[i].sa_label) - return 0; - } - return 1; + int i; + + if (s1->ss_narcs != s2->ss_narcs || s1->ss_finish != s2->ss_finish) + return 0; + for (i = 0; i < s1->ss_narcs; i++) { + if (s1->ss_arc[i].sa_arrow != s2->ss_arc[i].sa_arrow || + s1->ss_arc[i].sa_label != s2->ss_arc[i].sa_label) + return 0; + } + return 1; } static void renamestates(int xx_nstates, ss_state *xx_state, int from, int to) { - int i, j; - - if (Py_DebugFlag) - printf("Rename state %d to %d.\n", from, to); - for (i = 0; i < xx_nstates; i++) { - if (xx_state[i].ss_deleted) - continue; - for (j = 0; j < xx_state[i].ss_narcs; j++) { - if (xx_state[i].ss_arc[j].sa_arrow == from) - xx_state[i].ss_arc[j].sa_arrow = to; - } - } + int i, j; + + if (Py_DebugFlag) + printf("Rename state %d to %d.\n", from, to); + for (i = 0; i < xx_nstates; i++) { + if (xx_state[i].ss_deleted) + continue; + for (j = 0; j < xx_state[i].ss_narcs; j++) { + if (xx_state[i].ss_arc[j].sa_arrow == from) + xx_state[i].ss_arc[j].sa_arrow = to; + } + } } static void simplify(int xx_nstates, ss_state *xx_state) { - int changes; - int i, j; - - do { - changes = 0; - for (i = 1; i < xx_nstates; i++) { - if (xx_state[i].ss_deleted) - continue; - for (j = 0; j < i; j++) { - if (xx_state[j].ss_deleted) - continue; - if (samestate(&xx_state[i], &xx_state[j])) { - xx_state[i].ss_deleted++; - renamestates(xx_nstates, xx_state, - i, j); - changes++; - break; - } - } - } - } while (changes); + int changes; + int i, j; + + do { + changes = 0; + for (i = 1; i < xx_nstates; i++) { + if (xx_state[i].ss_deleted) + continue; + for (j = 0; j < i; j++) { + if (xx_state[j].ss_deleted) + continue; + if (samestate(&xx_state[i], &xx_state[j])) { + xx_state[i].ss_deleted++; + renamestates(xx_nstates, xx_state, + i, j); + changes++; + break; + } + } + } + } while (changes); } @@ -598,32 +598,32 @@ simplify(int xx_nstates, ss_state *xx_state) static void convert(dfa *d, int xx_nstates, ss_state *xx_state) { - int i, j; - ss_state *yy; - ss_arc *zz; - - for (i = 0; i < xx_nstates; i++) { - yy = &xx_state[i]; - if (yy->ss_deleted) - continue; - yy->ss_rename = addstate(d); - } - - for (i = 0; i < xx_nstates; i++) { - yy = &xx_state[i]; - if (yy->ss_deleted) - continue; - for (j = 0; j < yy->ss_narcs; j++) { - zz = &yy->ss_arc[j]; - addarc(d, yy->ss_rename, - xx_state[zz->sa_arrow].ss_rename, - zz->sa_label); - } - if (yy->ss_finish) - addarc(d, yy->ss_rename, yy->ss_rename, 0); - } - - d->d_initial = 0; + int i, j; + ss_state *yy; + ss_arc *zz; + + for (i = 0; i < xx_nstates; i++) { + yy = &xx_state[i]; + if (yy->ss_deleted) + continue; + yy->ss_rename = addstate(d); + } + + for (i = 0; i < xx_nstates; i++) { + yy = &xx_state[i]; + if (yy->ss_deleted) + continue; + for (j = 0; j < yy->ss_narcs; j++) { + zz = &yy->ss_arc[j]; + addarc(d, yy->ss_rename, + xx_state[zz->sa_arrow].ss_rename, + zz->sa_label); + } + if (yy->ss_finish) + addarc(d, yy->ss_rename, yy->ss_rename, 0); + } + + d->d_initial = 0; } @@ -632,43 +632,43 @@ convert(dfa *d, int xx_nstates, ss_state *xx_state) static grammar * maketables(nfagrammar *gr) { - int i; - nfa *nf; - dfa *d; - grammar *g; - - if (gr->gr_nnfas == 0) - return NULL; - g = newgrammar(gr->gr_nfa[0]->nf_type); - /* XXX first rule must be start rule */ - g->g_ll = gr->gr_ll; - - for (i = 0; i < gr->gr_nnfas; i++) { - nf = gr->gr_nfa[i]; - if (Py_DebugFlag) { - printf("Dump of NFA for '%s' ...\n", nf->nf_name); - dumpnfa(&gr->gr_ll, nf); - printf("Making DFA for '%s' ...\n", nf->nf_name); - } - d = adddfa(g, nf->nf_type, nf->nf_name); - makedfa(gr, gr->gr_nfa[i], d); - } - - return g; + int i; + nfa *nf; + dfa *d; + grammar *g; + + if (gr->gr_nnfas == 0) + return NULL; + g = newgrammar(gr->gr_nfa[0]->nf_type); + /* XXX first rule must be start rule */ + g->g_ll = gr->gr_ll; + + for (i = 0; i < gr->gr_nnfas; i++) { + nf = gr->gr_nfa[i]; + if (Py_DebugFlag) { + printf("Dump of NFA for '%s' ...\n", nf->nf_name); + dumpnfa(&gr->gr_ll, nf); + printf("Making DFA for '%s' ...\n", nf->nf_name); + } + d = adddfa(g, nf->nf_type, nf->nf_name); + makedfa(gr, gr->gr_nfa[i], d); + } + + return g; } grammar * pgen(node *n) { - nfagrammar *gr; - grammar *g; - - gr = metacompile(n); - g = maketables(gr); - translatelabels(g); - addfirstsets(g); - PyObject_FREE(gr); - return g; + nfagrammar *gr; + grammar *g; + + gr = metacompile(n); + g = maketables(gr); + translatelabels(g); + addfirstsets(g); + PyObject_FREE(gr); + return g; } grammar * @@ -702,7 +702,7 @@ Reference --------- [Aho&Ullman 77] - Aho&Ullman, Principles of Compiler Design, Addison-Wesley 1977 - (first edition) + Aho&Ullman, Principles of Compiler Design, Addison-Wesley 1977 + (first edition) */ |