/* $Id: plsymtab.c,v 1.33 2003/03/26 01:16:28 moniot Exp $ Routines associated with printing of local symbol table info */ /* Copyright (c) 2001 by Robert K. Moniot. Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Acknowledgement: the above permission notice is what is known as the "MIT License." */ /* Shared functions defined: local_err_head Prints module name and file name (for errors) local_warn_head Prints module name and file name (for warnings) debug_symtabs() Prints debugging info about symbol tables choose_tag Decides on tag & line no to use print_lsyms Prints symbol lists print_lsyms_briefly Brief symbol lists print_variables Prints variable symbol table sort_lsymbols Sorts a list of Lsymtab ptrs alphabetically sort_parameters Sorts Lsymtab list by seq num instead of name Private functions defined: local_msg_head Print error/warning head. print_lsyms_verbosely(sym_list,n,do_types) Verbose symbol lists. */ #include #include #include #include "ftnchek.h" #define PLSYMTAB #include "symtab.h" #include "plsymtab.h" /* Declarations of local functions */ PROTO(PRIVATE void local_msg_head,( const char *problem, const char *mod_name, const char *filename, LINENO_t lineno, const Lsymtab *symt, int force_lineno, const char *msg )); PROTO(PRIVATE int print_lsyms_verbosely,( Lsymtab **sym_list, int n, int do_types )); PROTO(PRIVATE int print_var_type,( FILE *fd, const Lsymtab *symt )); #ifdef DEBUG_SYMTABS PROTO(PRIVATE void print_arg_array,( ArgListHeader *arglist )); PROTO(PRIVATE void print_com_array,( ComListHeader *cmlist )); PROTO(PRIVATE void print_tokenlist,( TokenListHeader *toklist )); #endif void #if HAVE_STDC sort_parameters(Lsymtab **sp, int n) /* sort a given list by sequence num instead of name */ #else /* K&R style */ sort_parameters(sp,n) Lsymtab **sp; int n; #endif /* HAVE_STDC */ { int i,j,swaps; for (i = 0; i < n; i++) { swaps = 0; for (j = n-1; j >= i+1; j--) { if ( sp[j-1]->info.param->seq_num > sp[j]->info.param->seq_num ) { Lsymtab *temp = sp[j-1]; /* swap ptrs j and j-1 */ sp[j-1] = sp[j]; sp[j] = temp; swaps ++; } } if(swaps == 0) break; } } void #if HAVE_STDC sort_lsymbols(Lsymtab **sp, int n) /* bubble-sorts a given list */ #else /* K&R style */ sort_lsymbols(sp,n) Lsymtab **sp; int n; #endif /* HAVE_STDC */ { int i,j,swaps; for(i=0;i=i+1;j--) { if((strcmp(sp[j-1]->name, sp[j]->name)) > 0) { Lsymtab *temp = sp[j-1]; /* swap ptrs j and j-1 */ sp[j-1] = sp[j]; sp[j] = temp; swaps ++; } } if(swaps == 0) break; } } void #if HAVE_STDC local_err_head(const char *mod_name, const char *filename, LINENO_t lineno, const Lsymtab *symt, int force_lineno, const char *msg) #else /* K&R style */ local_err_head(mod_name, filename, lineno, symt, force_lineno, msg) char *mod_name; /* name of module where warning reported */ char *filename; /* -1 if not an include file */ LINENO_t lineno; Lsymtab *symt; /* line number for expert-style warnings */ int force_lineno; /* print line number even if brief/novice */ char *msg; /* error message */ #endif /* HAVE_STDC */ { local_msg_head("Error", mod_name, filename, lineno, symt, force_lineno, msg); ++error_count; } void #if HAVE_STDC local_warn_head(const char *mod_name, const char *filename, LINENO_t lineno, const Lsymtab *symt, int force_lineno, const char *msg) #else /* K&R style */ local_warn_head(mod_name, filename, lineno, symt, force_lineno, msg) char *mod_name; /* name of module where warning reported */ char *filename; /* file name within which problem occurred */ LINENO_t lineno; /* line number for expert-style warnings */ Lsymtab *symt; /* symbol table entry of the item */ int force_lineno; /* print line number even if brief/novice */ char *msg; /* error message */ #endif /* HAVE_STDC */ { local_msg_head("Warning", mod_name, filename, lineno, symt, force_lineno, msg); ++warning_count; } PRIVATE void #if HAVE_STDC local_msg_head(const char *problem, const char *mod_name, const char *filename, LINENO_t lineno, const Lsymtab *symt, int force_lineno, const char *msg) #else /* K&R style */ local_msg_head(problem, mod_name, filename, lineno, symt, force_lineno, msg) char *problem; /* Error or Warning */ char *mod_name; /* name of module where warning reported */ char *filename; /* file name within which problem occurred */ LINENO_t lineno; /* line number for expert-style warnings */ Lsymtab *symt; /* symbol table entry of the item */ int force_lineno; /* print line number even if brief/novice */ char *msg; /* error message */ #endif /* HAVE_STDC */ { char intro[MAXIDSIZE+19]; /* introduction to warning/error message */ char *tag; /* placeholder in choose_tag call */ /* Line number makes no sense in brief or novice modes, except when no detail follows. For that case, caller sets force_lineno = 1. In verbose expert mode, must get the right line number to accompany message, matching the line number that will appear with the first detail item (pointed to symt). Caller sets symt to NULL to cause given lineno to be used. */ if( (brief || novice_help) && ! force_lineno) { lineno = NO_LINE_NUM; } else if( symt != (Lsymtab *)NULL ) { choose_tag(TAG_DEFN,symt,&tag,&lineno); /* Use include-file name if applicable */ filename = choose_filename(symt,file_used); } if( ! quiet ) /* space between warning blocks */ (void)fprintf(list_fd,"\n"); (void)sprintf(intro,"%s in module %s",problem,mod_name); local_message(filename,lineno,msg,intro); } /* Print list of symbols, either in brief many-per-line style, or verbosely one-per-line. */ int #if HAVE_STDC print_lsyms(Lsymtab **sym_list, int n, int do_types) #else /* K&R style */ print_lsyms(sym_list,n,do_types) Lsymtab **sym_list; int n; int do_types; #endif /* HAVE_STDC */ { if(brief) return print_lsyms_briefly(sym_list,n,do_types); else return print_lsyms_verbosely(sym_list,n,do_types); } /* This routine prints symbol names in brief format. If do_types is true also prints types, with * next to implicitly typed identifiers, and returns count thereof. */ int #if HAVE_STDC print_lsyms_briefly(Lsymtab **sym_list, int n, int do_types) #else /* K&R style */ print_lsyms_briefly(sym_list,n,do_types) Lsymtab **sym_list; int n; int do_types; #endif /* HAVE_STDC */ { int i,col=0,len,implicits=0; (void)fprintf(list_fd,"\n"); for(i=0;iname);/* len=actual length of name */ /* Revise len to max(10,len)+extra 9=width of field to be printed. Adjust column count to see where this will take us. */ col += len = (len <= 10? 10: len) + 9; /* If this will run past 78 start a new line */ if(col > 78) { (void)fprintf(list_fd,"\n"); col = len; } (void)fprintf(list_fd,"%10s",sym_list[i]->name);/* Print the name in 10 cols */ if( do_types ) { /* Optionally print the datatype */ if(sym_list[i]->intrinsic) (void)fprintf(list_fd,": intrns "); else { (void)fprintf(list_fd,":"); (void) print_var_type(list_fd,sym_list[i]); if(datatype_of(sym_list[i]->type) == type_UNDECL) { implicits++; /* Flag and count undeclareds */ (void)fprintf(list_fd,"*"); } else if(sym_list[i]->size == size_DEFAULT) (void)fprintf(list_fd," "); (void)fprintf(list_fd," "); } } else /* Otherwise just 9 blanks */ (void)fprintf(list_fd,"%9s",""); } (void)fprintf(list_fd,"\n"); return implicits; }/*print_lsyms_briefly*/ /* This routine prints symbol names in verbose format, one per line with line number where defined and a tag message ("declared" or "first occurrence"). If do_types is true, also prints types, with * next to implicitly typed identifiers, and returns count thereof. */ PRIVATE int #if HAVE_STDC print_lsyms_verbosely(Lsymtab **sym_list, int n, int do_types) #else /* K&R style */ print_lsyms_verbosely(sym_list,n,do_types) Lsymtab **sym_list; int n; int do_types; #endif /* HAVE_STDC */ { int i,implicits=0; char msgbuf[6+MAX_TAG_LEN+MAXIDSIZE]; /* see sprintf below */ for(i=0;iname, tag) > (int)sizeof(msgbuf)-1 ) { oops_message(OOPS_NONFATAL,NO_LINE_NUM,NO_COL_NUM, "buffer too small in print_lsyms_verbosely for"); msg_tail(msgbuf); } inc_index = sym_list[i]->file_declared; local_detail(inc_index,lineno,(char *)NULL,msgbuf); if( do_types ) { /* Optionally print the datatype */ if(sym_list[i]->intrinsic) msg_tail("(intrinsic function)"); else { int t,s; t = get_type(sym_list[i]); s = get_size(sym_list[i],t); msg_tail("with type"); msg_tail(typespec(t,(s != size_DEFAULT),s,FALSE,0L)); if(datatype_of(sym_list[i]->type) == type_UNDECL) { implicits++; /* Flag and count undeclareds */ msg_tail("(implicitly typed)"); } } } } return implicits; }/*print_lsyms_verbosely*/ /* This routine handles the messy business of tracing a local warning detail back into an include file. The argument inc_index is the index into incfile_list for the instance (declared, used, set) being reported. If that is -1 then no include file is involved. Otherwise the table entry gives the include file name and the line in top file where the file was included. */ void local_detail(int inc_index, LINENO_t lineno, const char *tag, const char *msg) { char *fname; if( inc_index >= 0 ) { fname = incfile_list[inc_index].fname; } else { fname = top_filename; } /* Issue the main message here. */ local_message(fname,lineno,tag,msg); if( inc_index >= 0 ) { local_message(top_filename, incfile_list[inc_index].line, tag, novice_help?" included":" (where included)"); } } /* This routine prints the variables nicely, and returns count of number implicitly defined. */ int #if HAVE_STDC print_variables(Lsymtab **sym_list, int n) #else /* K&R style */ print_variables(sym_list,n) Lsymtab **sym_list; int n; #endif /* HAVE_STDC */ { int i,implicits=0,adjustables=0; (void)fprintf(list_fd,"\n "); for(i=0; i<4; i++) { (void)fprintf(list_fd,"%5sName Type Dims",""); /* 12345678901234567890 template for above*/ } for(i=0; iname); adjustables += print_var_type(list_fd,sym_list[i]); /* Print a * next to implicitly declared variables */ if(datatype_of(sym_list[i]->type) == type_UNDECL ) { implicits++; (void)fprintf(list_fd,"*"); } else if(sym_list[i]->size == size_DEFAULT) (void)fprintf(list_fd," "); /* print blank if no size or * */ /* print no. of dimensions next to var name */ if(sym_list[i]->array_var) { (void)fprintf(list_fd," %ld", array_dims(sym_list[i]->info.array_dim)); } else { (void)fprintf(list_fd,"%2s",""); } } if(adjustables > 0) (void)fprintf(list_fd,"\nchar+ indicates adjustable size"); (void)fprintf(list_fd,"\n"); return implicits; }/*print_variables*/ PRIVATE int #if HAVE_STDC print_var_type(FILE *fd, const Lsymtab *symt) /* Prints type name then size if explicit */ #else /* K&R style */ print_var_type(fd,symt) /* Prints type name then size if explicit */ #endif /* HAVE_STDC */ /* Returns 1 if adjustable size, else 0 */ #if HAVE_STDC #else /* K&R style */ FILE *fd; Lsymtab *symt; #endif /* HAVE_STDC */ { int adjustable=0; int t = get_type(symt); int s = get_size(symt,t); (void)fprintf(fd," %4s",type_name[t]); /* Usually either size or * will be printed, and usually size is 1 digit. So mostly we print 1 column in the next set of (void)fprintf's. Output will be ragged if size > 9 or implicit type has explicit size. */ if( s != size_DEFAULT ) { if(t != type_STRING || s > 1) (void)fprintf(fd,"%d",s); else if(s == size_ADJUSTABLE) { adjustable++; (void)fprintf(fd,"+"); } else (void)fprintf(fd," "); } return adjustable; } #ifdef DEBUG_SYMTABS PRIVATE void print_arg_array(arglist) /* prints type and flag info for arguments */ ArgListHeader *arglist; { int i, count; ArgListElement *a; count = arglist->numargs; if(arglist->external_decl || arglist->actual_arg) count = 0; a = arglist->arg_array; (void)fprintf(list_fd, "\n Arg list in module %s file %s line %u", arglist->module->name, arglist->filename, arglist->line_num ); if( arglist->topfile != arglist->filename ) (void)fprintf(list_fd, " (topfile %s line %u)", arglist->topfile, arglist->top_line_num ); (void)fprintf(list_fd,": defn%d call%d ext%d arg%d", arglist->is_defn, arglist->is_call, arglist->external_decl, arglist->actual_arg); if(count == 0) (void)fprintf(list_fd,"\n\t(Empty list)"); else { for (i=0; iname ); } } }/* print_arg_array */ #endif #ifdef DEBUG_SYMTABS /* prints type and dimen info for common vars */ PRIVATE void print_com_array(cmlist) ComListHeader *cmlist; { int i, count; ComListElement *c; count = cmlist->numargs; c = cmlist->com_list_array; (void)fprintf(list_fd, "\n Com list in module %s file %s line %u", cmlist->module->name, cmlist->filename, cmlist->line_num ); if( cmlist->topfile != cmlist->filename ) (void)fprintf(list_fd, " (topfile %s line %u)", cmlist->topfile, cmlist->top_line_num ); (void)fprintf(list_fd, ": anyuse%d anyset%d saved%d", cmlist->any_used, cmlist->any_set, cmlist->saved ); if(count == 0) (void)fprintf(list_fd,"\n\t(Empty list)"); else { for (i=0; itokenlist; while(t != NULL){ ++numargs; (void)fprintf(list_fd,"\n\t%d ",numargs); (void)fprintf(list_fd," %s %s %s", t->src_text, class_name[storage_class_of(t->TOK_type)], type_name[datatype_of(t->TOK_type)] ); t = t->next_token; } if(numargs == 0) (void)fprintf(list_fd,"\n\t(Empty list)"); } }/* print_tokenlist */ #endif void debug_symtabs(VOID) /* Debugging output: hashtable and symbol tables */ { #ifdef DEBUG_SYMTABS /* local symtab info printout is very incomplete */ if(debug_loc_symtab) { int i; (void)fprintf(list_fd,"\nLocal Symbol table:\n"); for(i=0; i < loc_symtab_top; i++) { (void)fprintf(list_fd, "\n%4d %s type %s %s", i, loc_symtab[i].name, class_name[storage_class_of(loc_symtab[i].type)], type_name[datatype_of(loc_symtab[i].type)] ); if( loc_symtab[i].size != size_DEFAULT ) (void)fprintf(list_fd, "*%ld", loc_symtab[i].size ); if(loc_symtab[i].common_block != NULL) (void)fprintf(list_fd, "\n\t item %ld in block %s", loc_symtab[i].common_index, loc_symtab[i].common_block->name ); switch( storage_class_of(loc_symtab[i].type) ) { case class_SUBPROGRAM: case class_COMMON_BLOCK: print_tokenlist(loc_symtab[i].info.toklist); break; } } (void)fprintf(list_fd,"\n"); } if(debug_hashtab) { int i; (void)fprintf(list_fd,"\n\nContents of hashtable\n"); for(i=0; inext; } break; } case class_SUBPROGRAM:{ ArgListHeader *alist; alist=glob_symtab[i].info.arglist; while(alist != NULL){ print_arg_array(alist); alist = alist->next; } break; } } } } #endif }/* debug_symtabs*/ /* Figure out the appropriate message to use based on what kind of item. Special cases: if symbol is an external, its line_declared is not set, so we need to change to line_used and say "referenced" instead of "defined"; if current module is a function it has class_VAR but should say "declared" even if not typed. */ void #if HAVE_STDC choose_tag(int tag_type, const Lsymtab *symt, char **tag, LINENO_t *lineno) #else /* K&R style */ choose_tag(tag_type, symt, tag, lineno) int tag_type; /* what kind of tag: defn, set, used */ Lsymtab *symt; /* the item for which tag is needed */ char **tag; /* output var = string, e.g. "defined" */ LINENO_t *lineno; /* output var = relevant line number */ #endif /* HAVE_STDC */ { /* Maintainer note: the tags defined below must not exceed MAX_TAG_LEN defined in plsymtab.h. */ switch(tag_type) { case TAG_DEFN: (*lineno) = symt->line_declared; switch( storage_class_of(symt->type) ) { case class_VAR: if(datatype_of(symt->type) == type_UNDECL && !(symt->argument) /* args are considered declared */ && symt != hashtab[current_module_hash].loc_symtab) (*tag) = "first occurrence"; else (*tag) = "declared"; break; case class_COMMON_BLOCK: (*tag) = "declared"; break; default: /* subprograms & stmt functions */ (*tag) = "defined"; if( (*lineno) == NO_LINE_NUM ) { /* External routines not explicitly declared will have line_declared unset. (Stmt functions never do.) Use invocation instead. */ (*tag) = "referenced"; (*lineno) = symt->line_used; } break; } break; case TAG_USED: (*lineno) = symt->line_used; (*tag) = "used"; break; case TAG_SET: (*lineno) = symt->line_set; if(storage_class_of(symt->type) != class_VAR) (*tag) = "defined"; else { if(symt->assigned_flag) (*tag) = "set"; else (*tag) = "may be set"; } break; default: /* for our forgetful authors, just in case */ oops_message(OOPS_FATAL,NO_LINE_NUM,NO_COL_NUM, "choose_tag called with unimplemented tag type"); break; }/* switch(tag_type) */ #ifdef DEVELOPMENT /* bug catcher */ if(strlen(*tag) > MAX_TAG_LEN) { (void)fprintf(stderr,"\n%s",*tag); oops_message(OOPS_FATAL,NO_LINE_NUM,NO_COL_NUM, "choose_tag yields tag longer than MAX_TAG_LEN"); } #endif }