/***********************************************************************/ /* */ /* OCaml */ /* */ /* Xavier Leroy, projet Cristal, INRIA Rocquencourt */ /* */ /* Copyright 1996 Institut National de Recherche en Informatique et */ /* en Automatique. All rights reserved. This file is distributed */ /* under the terms of the GNU Library General Public License, with */ /* the special exception on linking described in file ../LICENSE. */ /* */ /***********************************************************************/ /* $Id$ */ /* The PDA automaton for parsers generated by camlyacc */ #include #include #include "config.h" #include "mlvalues.h" #include "memory.h" #include "alloc.h" #define ERRCODE 256 struct parser_tables { /* Mirrors parse_tables in ../stdlib/parsing.mli */ value actions; value transl_const; value transl_block; char * lhs; char * len; char * defred; char * dgoto; char * sindex; char * rindex; char * gindex; value tablesize; char * table; char * check; value error_function; char * names_const; char * names_block; }; struct parser_env { /* Mirrors parser_env in ../stdlib/parsing.ml */ value s_stack; value v_stack; value symb_start_stack; value symb_end_stack; value stacksize; value stackbase; value curr_char; value lval; value symb_start; value symb_end; value asp; value rule_len; value rule_number; value sp; value state; value errflag; }; #if defined(ARCH_BIG_ENDIAN) || SIZEOF_SHORT != 2 #define Short(tbl,n) \ (*((unsigned char *)((tbl) + (n) * 2)) + \ (*((schar *)((tbl) + (n) * 2 + 1)) << 8)) #else #define Short(tbl,n) (((short *)(tbl))[n]) #endif int caml_parser_trace = 0; /* Input codes */ /* Mirrors parser_input in ../stdlib/parsing.ml */ #define START 0 #define TOKEN_READ 1 #define STACKS_GROWN_1 2 #define STACKS_GROWN_2 3 #define SEMANTIC_ACTION_COMPUTED 4 #define ERROR_DETECTED 5 /* Output codes */ /* Mirrors parser_output in ../stdlib/parsing.ml */ #define READ_TOKEN Val_int(0) #define RAISE_PARSE_ERROR Val_int(1) #define GROW_STACKS_1 Val_int(2) #define GROW_STACKS_2 Val_int(3) #define COMPUTE_SEMANTIC_ACTION Val_int(4) #define CALL_ERROR_FUNCTION Val_int(5) /* To preserve local variables when communicating with the ML code */ #define SAVE \ env->sp = Val_int(sp), \ env->state = Val_int(state), \ env->errflag = Val_int(errflag) #define RESTORE \ sp = Int_val(env->sp), \ state = Int_val(env->state), \ errflag = Int_val(env->errflag) /* Auxiliary for printing token just read */ static char * token_name(char * names, int number) { for (/*nothing*/; number > 0; number--) { if (names[0] == 0) return ""; names += strlen(names) + 1; } return names; } static void print_token(struct parser_tables *tables, int state, value tok) { value v; if (Is_long(tok)) { fprintf(stderr, "State %d: read token %s\n", state, token_name(tables->names_const, Int_val(tok))); } else { fprintf(stderr, "State %d: read token %s(", state, token_name(tables->names_block, Tag_val(tok))); v = Field(tok, 0); if (Is_long(v)) fprintf(stderr, "%" ARCH_INTNAT_PRINTF_FORMAT "d", Long_val(v)); else if (Tag_val(v) == String_tag) fprintf(stderr, "%s", String_val(v)); else if (Tag_val(v) == Double_tag) fprintf(stderr, "%g", Double_val(v)); else fprintf(stderr, "_"); fprintf(stderr, ")\n"); } } /* The pushdown automata */ CAMLprim value caml_parse_engine(struct parser_tables *tables, struct parser_env *env, value cmd, value arg) { int state; mlsize_t sp, asp; int errflag; int n, n1, n2, m, state1; switch(Int_val(cmd)) { case START: state = 0; sp = Int_val(env->sp); errflag = 0; loop: n = Short(tables->defred, state); if (n != 0) goto reduce; if (Int_val(env->curr_char) >= 0) goto testshift; SAVE; return READ_TOKEN; /* The ML code calls the lexer and updates */ /* symb_start and symb_end */ case TOKEN_READ: RESTORE; if (Is_block(arg)) { env->curr_char = Field(tables->transl_block, Tag_val(arg)); caml_modify(&env->lval, Field(arg, 0)); } else { env->curr_char = Field(tables->transl_const, Int_val(arg)); caml_modify(&env->lval, Val_long(0)); } if (caml_parser_trace) print_token(tables, state, arg); testshift: n1 = Short(tables->sindex, state); n2 = n1 + Int_val(env->curr_char); if (n1 != 0 && n2 >= 0 && n2 <= Int_val(tables->tablesize) && Short(tables->check, n2) == Int_val(env->curr_char)) goto shift; n1 = Short(tables->rindex, state); n2 = n1 + Int_val(env->curr_char); if (n1 != 0 && n2 >= 0 && n2 <= Int_val(tables->tablesize) && Short(tables->check, n2) == Int_val(env->curr_char)) { n = Short(tables->table, n2); goto reduce; } if (errflag > 0) goto recover; SAVE; return CALL_ERROR_FUNCTION; /* The ML code calls the error function */ case ERROR_DETECTED: RESTORE; recover: if (errflag < 3) { errflag = 3; while (1) { state1 = Int_val(Field(env->s_stack, sp)); n1 = Short(tables->sindex, state1); n2 = n1 + ERRCODE; if (n1 != 0 && n2 >= 0 && n2 <= Int_val(tables->tablesize) && Short(tables->check, n2) == ERRCODE) { if (caml_parser_trace) fprintf(stderr, "Recovering in state %d\n", state1); goto shift_recover; } else { if (caml_parser_trace){ fprintf(stderr, "Discarding state %d\n", state1); } if (sp <= Int_val(env->stackbase)) { if (caml_parser_trace){ fprintf(stderr, "No more states to discard\n"); } return RAISE_PARSE_ERROR; /* The ML code raises Parse_error */ } sp--; } } } else { if (Int_val(env->curr_char) == 0) return RAISE_PARSE_ERROR; /* The ML code raises Parse_error */ if (caml_parser_trace) fprintf(stderr, "Discarding last token read\n"); env->curr_char = Val_int(-1); goto loop; } shift: env->curr_char = Val_int(-1); if (errflag > 0) errflag--; shift_recover: if (caml_parser_trace) fprintf(stderr, "State %d: shift to state %d\n", state, Short(tables->table, n2)); state = Short(tables->table, n2); sp++; if (sp < Long_val(env->stacksize)) goto push; SAVE; return GROW_STACKS_1; /* The ML code resizes the stacks */ case STACKS_GROWN_1: RESTORE; push: Field(env->s_stack, sp) = Val_int(state); caml_modify(&Field(env->v_stack, sp), env->lval); Store_field (env->symb_start_stack, sp, env->symb_start); Store_field (env->symb_end_stack, sp, env->symb_end); goto loop; reduce: if (caml_parser_trace) fprintf(stderr, "State %d: reduce by rule %d\n", state, n); m = Short(tables->len, n); env->asp = Val_int(sp); env->rule_number = Val_int(n); env->rule_len = Val_int(m); sp = sp - m + 1; m = Short(tables->lhs, n); state1 = Int_val(Field(env->s_stack, sp - 1)); n1 = Short(tables->gindex, m); n2 = n1 + state1; if (n1 != 0 && n2 >= 0 && n2 <= Int_val(tables->tablesize) && Short(tables->check, n2) == state1) { state = Short(tables->table, n2); } else { state = Short(tables->dgoto, m); } if (sp < Long_val(env->stacksize)) goto semantic_action; SAVE; return GROW_STACKS_2; /* The ML code resizes the stacks */ case STACKS_GROWN_2: RESTORE; semantic_action: SAVE; return COMPUTE_SEMANTIC_ACTION; /* The ML code calls the semantic action */ case SEMANTIC_ACTION_COMPUTED: RESTORE; Field(env->s_stack, sp) = Val_int(state); caml_modify(&Field(env->v_stack, sp), arg); asp = Int_val(env->asp); Store_field (env->symb_end_stack, sp, Field(env->symb_end_stack, asp)); if (sp > asp) { /* This is an epsilon production. Take symb_start equal to symb_end. */ Store_field (env->symb_start_stack, sp, Field(env->symb_end_stack, asp)); } goto loop; default: /* Should not happen */ Assert(0); return RAISE_PARSE_ERROR; /* Keeps gcc -Wall happy */ } } /* Control printing of debugging info */ CAMLprim value caml_set_parser_trace(value flag) { value oldflag = Val_bool(caml_parser_trace); caml_parser_trace = Bool_val(flag); return oldflag; }