/*############################################################################## FUNNNELWEB COPYRIGHT ==================== FunnelWeb is a literate-programming macro preprocessor. Copyright (C) 1992 Ross N. Williams. Ross N. Williams ross@spam.adelaide.edu.au 16 Lerwick Avenue, Hazelwood Park 5066, Australia. This program is free software; you can redistribute it and/or modify it under the terms of Version 2 of the GNU General Public License as published by the Free Software Foundation. This program is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See Version 2 of the GNU General Public License for more details. You should have received a copy of Version 2 of the GNU General Public License along with this program. If not, you can FTP the license from prep.ai.mit.edu/pub/gnu/COPYING-2 or write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. Section 2a of the license requires that all changes to this file be recorded prominently in this file. Please record all changes here. Programmers: RNW Ross N. Williams ross@spam.adelaide.edu.au Changes: 07-May-1992 RNW Program prepared for release under GNU GPL V2. 03-Sep-1994 ABC Added support for the automatic insertion of line directives when `aldmname' is a non-null string referring to a macro without parameters. It is necessary to ignore @M or @Z for the given line directive insertion macro. 25-Jul-1995 ABC Replaced `aldmname' with a list of structures containing a source code type name (or NULL) and a corresponding automatic line directive insertion macro name. ##############################################################################*/ /******************************************************************************/ /* ANALYSE.C */ /******************************************************************************/ #include "style.h" #include "analyse.h" #include "as.h" #include "data.h" #include "lister.h" #include "misc.h" #include "table.h" /******************************************************************************/ LOCAL void chk_mac P_((p_ma_t)); LOCAL void chk_mac (p_ma) p_ma_t p_ma; { mc_t *call; /* ABC { */ p_srcnmac_t p_srctype; bool isaldmQ; /* } ABC */ /* Deal with undefined macros by flagging the first invocation. */ if (!p_ma->ma_defn.md_isdef) { ls_loo(p_ma->ma_calls,(ulong) 1,PPV &call); as_cold(call!=NULL,"check_macro: No instances of \"undefined\" macro!"); lr_err(&call->mc_ps,"Call to undefined macro."); return; } /* Assert: The macro has a definition. */ /* Check that all the calls to the macro have the correct number of params. */ ls_fir(p_ma->ma_calls); ls_nxt(p_ma->ma_calls,PPV &call); while (call!=NULL) { if (call->mc_npar != p_ma->ma_defn.md_npar) { sprintf(linet1,"Call has %lu parameter%s, but the macro", (ulong) call->mc_npar, call->mc_npar==1 ? "" : "s"); lr_err(&(call->mc_ps),linet1); sprintf(linet1,"definition at line %lu specifies %lu parameter%s.", (ulong) p_ma->ma_defn.md_ps.ps_line, (ulong) p_ma->ma_defn.md_npar, p_ma->ma_defn.md_npar==1 ? "" : "s"); lr_mes(&(call->mc_ps),linet1); if (p_ma->ma_defn.md_npar==0 && call->mc_npar==1) { lr_mes(&(call->mc_ps),"Note: If your call looks like this: @@(@) then you"); lr_mes(&(call->mc_ps),"should be aware that FunnelWeb treats this as a call with"); lr_mes(&(call->mc_ps),"a single parameter consisting of the empty string. This"); lr_mes(&(call->mc_ps),"is a consequence of parameter delimiters @\"@\" being optional."); } } ls_nxt(p_ma->ma_calls,PPV &call); } /* ABC { */ /* Check if the macro is an automatic line directive insertion macro */ isaldmQ = FALSE; ls_fir(srctlist); for (;;) { /* forever */ ls_nxt(srctlist, (pp_lsel_t)&p_srctype); if (p_srctype == NULL) break; if (p_srctype->lnmac == NULL) continue; if (!strcmp(p_srctype->lnmac, p_ma->ma_name)) { isaldmQ = TRUE; break; } /* end if */ } /* end forever */ /* } ABC */ /* Check that the number of calls of the macro is legal. */ if (p_ma->ma_defn.md_isfil) { /* Flag all calls to a file macro as errors. */ if (ls_len(p_ma->ma_calls)>0) { lr_mes(&p_ma->ma_defn.md_ps, "This file macro is called one or more times."); lr_mes(&p_ma->ma_defn.md_ps, "Each call has been flagged with an error message."); } ls_fir(p_ma->ma_calls); ls_nxt(p_ma->ma_calls,PPV &call); while (call!=NULL) { lr_err(&(call->mc_ps),"Calls to file macros are not allowed."); lr_mes(&(call->mc_ps),"Reason: It should be possible to comment out a"); lr_mes(&(call->mc_ps),"file macro without a big fuss. Calling a file macro"); lr_mes(&(call->mc_ps),"just tangles it up in the macro structure,"); lr_mes(&(call->mc_ps),"making it more difficult to comment out later."); ls_nxt(p_ma->ma_calls,PPV &call); } } /* ABC { */ else if (!isaldmQ) /* } ABC */ { /* Non-file macros. */ if (ls_len(p_ma->ma_calls)==0 && !p_ma->ma_defn.md_iszer) lr_err(&p_ma->ma_defn.md_ps, "This macro is never used (and has no @Z)."); if (ls_len(p_ma->ma_calls)>1 && !p_ma->ma_defn.md_isman) lr_err(&p_ma->ma_defn.md_ps, "This macro is used more than once (and has no @M)."); } } /******************************************************************************/ LOCAL void chk_rec P_((void)); LOCAL void chk_rec() /* This macro analyses the calls between the macros in the macro */ /* table and flags all recursive macros with an error message. */ /* */ /* Def: A macro is a "level 0 macro" if it does not call any macros. */ /* Def: A macro is a "level n macro" if it calls at least one macro of level */ /* n-1, but does not call any macros of level n or higher. */ /* Def: A macro is a "level infinity macro" if it directly or indirectly */ /* calls itself. */ /* */ /* This function totally ignores undefined macros. This means that it can be */ /* invoked even if problems are detected by the other checks. */ /* */ /* Although the actions of this may seem rather time expensive, they may not */ /* be. The function repeatedly runs through the macro table and each macro's */ /* bodypart list and expression lists. However, there are not likely to be */ /* many macros and each definition expression list is likely to be quite */ /* short, as each macro will be mainly text. */ /* Even if this stuff does take a while, it is better to detect recursion now */ /* than at tangle time! */ { p_ma_t p_ma; /* General purpose pointer to macro. */ name_t dummy_name; /* Dummy name variable acts as a placeholder in calls. */ uword level; /* Level of macro currently being tagged. */ bool gotone; /* TRUE iff current loop iteration tagged >0 macros. */ /* We need a concrete number to stand for level infinity. */ /* 30000 is a nice, large 15 bit number. */ #define LEVINF 30000 /* Make sure that our idea of infinity is big enough. */ as_cold(tb_len(macro_table)ma_defn.md_isdef) p_ma->ma_level=LEVINF; gotone=TRUE; /* Work from level 0 upwards identifying macros of successive levels. */ for (level=0; levelma_defn.md_isdef && p_ma->ma_level == LEVINF) { p_bpls_t p_bpls = p_ma->ma_defn.md_body; /* Run through each body part of the macro. */ ls_fir(p_bpls); while (TRUE) { p_bp_t p_bp; ls_nxt(p_bpls,PPV &p_bp); if (p_bp==NULL) break; /* Run through the list of expression elements. */ ls_fir(p_bp->bp_ex); while (TRUE) { p_el_t p_el; ls_nxt(p_bp->bp_ex,PPV &p_el); if (p_el==NULL) break; /* Don't tag anything that calls anything that isn't tagged. */ if ((p_el->el_kind==EL_INVC ) && (p_el->el_p_mac->ma_defn.md_isdef) && (p_el->el_p_mac->ma_level==LEVINF)) goto nextmacro; } } /* If we got this far, then our macro must have called nothing but */ /* macros of levels [0,level-1]. Thus, we can tag it level 'level'. */ p_ma->ma_level=level; gotone=TRUE; } /* End if */ nextmacro:; } /* End while */ } /* End for loop. */ /* At this point, we have tagged all macros with their level number. Note */ /* that level infinity macros are discovered simply because they do not get */ /* tagged. The following loop flags all such recursive macros with errors. */ tb_fir(macro_table); while (tb_rea(macro_table,PV dummy_name,PV &p_ma)) if (p_ma->ma_defn.md_isdef && p_ma->ma_level==LEVINF) lr_err(&p_ma->ma_defn.md_ps,"This macro has an infinite expansion."); /* Note: The above message is not "This macro is defined recursively", */ /* because this function catches not only recursive macros, but also all the */ /* non-recursive macros that call the recursive macros!! To detect only */ /* the recursive macros, we really ought to use Tarjan's algorithm for the */ /* detection of strongly connected components. However, I don't have the */ /* reference handy right now and I want to finish this version of FunnelWeb */ /* soon, so I'll leave the installation of Tarjan's algorithm as a possible */ /* future enhancement. Then the error message can be changed. */ } /******************************************************************************/ EXPORT void analyse() { name_t dummy_name; p_ma_t p_ma; /* Issue an error if there are no macros. */ if (tb_len(macro_table)==0) { char *m="E: No macros defined."; wl_l(m); if (option.op_s_b) wl_sj(m); num_err++; } /* Issue an error if there are no product (output) files. */ if (tb_len(file_table)==0) { char *m="E: No output files specified."; wl_l(m); if (option.op_s_b) wl_sj(m); num_err++; } /* Take a look at each macro and issue appropriate diagnostics. */ tb_fir(macro_table); while (tb_rea(macro_table,PV dummy_name,PV &p_ma)) chk_mac(p_ma); /* Check for recursive macros. */ chk_rec(); /* Run through the document list and flag any sections that still have not */ /* been given names. */ ls_fir(document_list); while (TRUE) { p_dc_t p_dc; ls_nxt(document_list,PPV &p_dc); if (p_dc==NULL) break; if (p_dc->dc_kind==DC_TYPE && p_dc->dc_ty.ty_kind==TY_NSEC && !p_dc->dc_ty.ty_isnam) { lr_err(&p_dc->dc_ps,"This section has no name."); lr_mes(&p_dc->dc_ps,"You can give it one explicitly (As in @A@) or implicitly by"); lr_mes(&p_dc->dc_ps,"defining a macro (whose name will be inherited) within the section."); } } } /******************************************************************************/ /* End of ANALYSE.C */ /******************************************************************************/