X-Git-Url: http://git.marmaro.de/?a=blobdiff_plain;f=sbr%2Ffmt_compile.c;h=ee495f1463e87db72b981d17fa9defe554bfcd51;hb=2667af48dccbcb9e25709dea50451dd58d40aeae;hp=339ac0a21b51fb54f936de173f087068e1dffe0d;hpb=1691e80890e5d8ba258c51c214a3e91880e1db2b;p=mmh diff --git a/sbr/fmt_compile.c b/sbr/fmt_compile.c index 339ac0a..ee495f1 100644 --- a/sbr/fmt_compile.c +++ b/sbr/fmt_compile.c @@ -2,14 +2,54 @@ /* * fmt_compile.c -- "compile" format strings for fmt_scan * - * $Id$ + * This code is Copyright (c) 2002, by the authors of nmh. See the + * COPYRIGHT file in the root directory of the nmh distribution for + * complete copyright information. + * + * This code compiles the format strings (documented in mh-format(5)) into + * an internal form to be later processed by fmt_scan.c. + * + * What happens here is that the format strings are parsed and an array + * of struct format structures are returned. Each format structure is + * a single operation interpreted by the the routines in fmt_scan.c. + * + * There is a NOT a one-to-one correspondence between format strings and + * format instructions; some functions have side effects that can result + * in multiple instructions being generated. The exact list of instructions + * generated by a format string can be seem with the nmh fmtdump utility. + * + * A list of format instructions can be found in fmt_compile.h. + * + * If you wish to add a new function, you will need to do the following + * things: + * + * - Add a new instruction to the list of instructions in fmt_compile.h. + * Note that test instructions (starting with FT_IF_S_NULL) have special + * handling, so if you are NOT writing a test function then you need + * to insert it into the list before that _and_ bump all of the + * following instruction numbers. + * + * - Add the function name to the functable[] array below, and write any + * special code that your function may require in terms of parsing + * (it very well may not need anything). + * + * - Add the code in fmt_scan.c to handle your new function. + * + * - Document the new function in the mh-format(5) man page. + * */ #include #include -#include +#include #include #include +#include + +#ifdef HAVE_SYS_TIME_H +# include +#endif +#include /* * hash table for deciding if a component is "interesting" @@ -36,11 +76,42 @@ extern struct mailname fmt_mnull; #define TF_NOW 6 /* special - get current unix time */ #define TF_EXPR_SV 7 /* like expr but save current str reg */ #define TF_NOP 8 /* like expr but no result */ +#define TF_MYNAME 9 /* special - get current name of user */ +#define TF_MYHOST 10 /* special - get "local" hostname */ +#define TF_LMBOX 11 /* special - get full local mailbox */ /* ftable->flags */ +/* NB that TFL_PUTS is also used to decide whether the test + * in a "%<(function)..." should be a string or numeric one. + */ #define TFL_PUTS 1 /* implicit putstr if top level */ #define TFL_PUTN 2 /* implicit putnum if top level */ +/* + * The functable array maps between the text names of format functions and + * the format instructions interpreted by the engine in fmt_scan.c. + * + * The elements of this structure are as follows: + * + * name - The name of the function as seen in the format string. This is + * what maps a particular function name into a format instruction. + * type - The type of argument this function expects. Those types are + * listed above (with the TF_ prefix). This affects what gets + * placed in the format instruction (the f_un union). + * f_type - The instruction corresponding to this function (from the list + * in fmt_compile.h). + * extra - Used by some functions to provide extra data to the compiler. + * Uses include: + * - Providing an alternate instruction to combine a load + * and test operation (see do_if()). + * - Passed in f_value in the format instruction to provide + * extra information for the engine (see FT_LV_DAT handling + * in fmt_scan.c). + * - Provide a hint as to preprocessing that is required for + * this instruction (see do_name()). + * flags - See the definitions for TFL_PUTS & TFL_PUTN above. + */ + struct ftable { char *name; /* function name */ char type; /* argument type */ @@ -65,6 +136,7 @@ static struct ftable functable[] = { { "putnum", TF_EXPR, FT_NUM, 0, 0 }, { "putnumf", TF_EXPR, FT_NUMF, 0, 0 }, { "putaddr", TF_STR, FT_PUTADDR, 0, 0 }, + { "putlit", TF_STR, FT_STRLIT, 0, 0 }, { "void", TF_NOP, 0, 0, 0 }, { "comp", TF_COMP, FT_LS_COMP, 0, TFL_PUTS }, @@ -85,6 +157,9 @@ static struct ftable functable[] = { { "dat", TF_NUM, FT_LV_DAT, 0, TFL_PUTN }, { "strlen", TF_NONE, FT_LV_STRLEN, 0, TFL_PUTN }, { "me", TF_MYBOX, FT_LS_LIT, 0, TFL_PUTS }, + { "myname", TF_MYNAME, FT_LS_LIT, 0, TFL_PUTS }, + { "myhost", TF_MYHOST, FT_LS_LIT, 0, TFL_PUTS }, + { "localmbox", TF_LMBOX, FT_LS_LIT, 0, TFL_PUTS }, { "plus", TF_NUM, FT_LV_PLUS_L, 0, TFL_PUTN }, { "minus", TF_NUM, FT_LV_MINUS_L, 0, TFL_PUTN }, { "divide", TF_NUM, FT_LV_DIVIDE_L, 0, TFL_PUTN }, @@ -129,53 +204,54 @@ static struct ftable functable[] = { { "ingrp", TF_COMP, FT_LV_INGRPF, FT_PARSEADDR, TFL_PUTN }, { "nohost", TF_COMP, FT_LV_NOHOSTF, FT_PARSEADDR, TFL_PUTN }, { "formataddr", TF_EXPR_SV,FT_FORMATADDR, FT_FORMATADDR, 0 }, + { "concataddr", TF_EXPR_SV,FT_CONCATADDR, FT_FORMATADDR, 0 }, { "friendly", TF_COMP, FT_LS_FRIENDLY, FT_PARSEADDR, TFL_PUTS }, { "mymbox", TF_COMP, FT_LV_COMPFLAG, FT_MYMBOX, TFL_PUTN }, { "addtoseq", TF_STR, FT_ADDTOSEQ, 0, 0 }, + { "unquote", TF_EXPR, FT_LS_UNQUOTE, 0, TFL_PUTS}, + { NULL, 0, 0, 0, 0 } }; /* Add new component to the hash table */ -#define NEWCOMP(cm,name)\ +#define NEWCOMP(cm,name) do { \ cm = ((struct comp *) calloc(1, sizeof (struct comp)));\ cm->c_name = name;\ ncomp++;\ i = CHASH(name);\ cm->c_next = wantcomp[i];\ - wantcomp[i] = cm; + wantcomp[i] = cm; \ + } while (0) #define NEWFMT (next_fp++) -#define NEW(type,fill,wid)\ - fp=NEWFMT; fp->f_type=(type); fp->f_fill=(fill); fp->f_width=(wid); +#define NEW(type,fill,wid) do {\ + fp=NEWFMT; fp->f_type=(type); fp->f_fill=(fill); fp->f_width=(wid); \ + } while (0) /* Add (possibly new) component to the hash table */ -#define ADDC(name)\ +#define ADDC(name) do { \ FINDCOMP(cm, name);\ if (!cm) {\ NEWCOMP(cm,name);\ }\ - fp->f_comp = cm; + fp->f_comp = cm; \ + } while (0) -#define LV(type, value) NEW(type,0,0); fp->f_value = (value); -#define LS(type, str) NEW(type,0,0); fp->f_text = (str); +#define LV(type, value) do { NEW(type,0,0); fp->f_value = (value); } while (0) +#define LS(type, str) do { NEW(type,0,0); fp->f_text = (str); } while (0) -#define PUTCOMP(comp) NEW(FT_COMP,0,0); ADDC(comp); -#define PUTLIT(str) NEW(FT_LIT,0,0); fp->f_text = (str); -#define PUTC(c) NEW(FT_CHAR,0,0); fp->f_char = (c); +#define PUTCOMP(comp) do { NEW(FT_COMP,0,0); ADDC(comp); } while (0) +#define PUTLIT(str) do { NEW(FT_LIT,0,0); fp->f_text = (str); } while (0) +#define PUTC(c) do { NEW(FT_CHAR,0,0); fp->f_char = (c); } while (0) -static char *format_string; -static char *usr_fstring; /* for CERROR */ +char *format_string; +static unsigned char *usr_fstring; /* for CERROR */ #define CERROR(str) compile_error (str, cp) /* - * external prototypes - */ -extern char *getusername(void); - -/* * static prototypes */ static struct ftable *lookup(char *); @@ -189,6 +265,9 @@ static char *do_loop(char *); static char *do_if(char *); +/* + * Lookup a function name in the functable + */ static struct ftable * lookup(char *name) { @@ -239,7 +318,7 @@ int fmt_compile(char *fstring, struct format **fmt) { register char *cp; - int i; + size_t i; if (format_string) free (format_string); @@ -259,6 +338,7 @@ fmt_compile(char *fstring, struct format **fmt) * normal processing. */ i = strlen(fstring)/2 + 1; + if (i==1) i++; next_fp = formatvec = (struct format *)calloc ((size_t) i, sizeof(struct format)); if (next_fp == NULL) @@ -335,6 +415,9 @@ compile (char *sp) } +/* + * Process functions & components (handle field width here as well + */ static char * do_spec(char *sp) { @@ -386,6 +469,11 @@ do_spec(char *sp) return (cp); } +/* + * Process a component name. Normally this involves generating an FT_COMP + * instruction for the specified component. If preprocess is set, then we + * do some extra processing. + */ static char * do_name(char *sp, int preprocess) { @@ -407,13 +495,11 @@ do_name(char *sp, int preprocess) if (cm->c_type & CT_ADDR) { CERROR("component used as both date and address"); } - if (! (cm->c_type & CT_DATE)) { - cm->c_tws = (struct tws *) - calloc((size_t) 1, sizeof(*cm->c_tws)); - fp->f_type = preprocess; - PUTCOMP(sp); - cm->c_type |= CT_DATE; - } + cm->c_tws = (struct tws *) + calloc((size_t) 1, sizeof(*cm->c_tws)); + fp->f_type = preprocess; + PUTCOMP(sp); + cm->c_type |= CT_DATE; break; case FT_MYMBOX: @@ -421,18 +507,15 @@ do_name(char *sp, int preprocess) ismymbox ((struct mailname *) 0); primed++; } - cm->c_type |= CT_MYMBOX; /* fall through */ case FT_PARSEADDR: if (cm->c_type & CT_DATE) { CERROR("component used as both date and address"); } - if (! (cm->c_type & CT_ADDRPARSE)) { - cm->c_mn = &fmt_mnull; - fp->f_type = preprocess; - PUTCOMP(sp); - cm->c_type |= (CT_ADDR | CT_ADDRPARSE); - } + cm->c_mn = &fmt_mnull; + fp->f_type = preprocess; + PUTCOMP(sp); + cm->c_type |= CT_ADDR; break; case FT_FORMATADDR: @@ -445,6 +528,10 @@ do_name(char *sp, int preprocess) return (cp); } +/* + * Generate one or more instructions corresponding to the named function. + * The different type of function arguments are handled here. + */ static char * do_func(char *sp) { @@ -508,6 +595,18 @@ do_func(char *sp) LS(t->f_type, getusername()); break; + case TF_MYNAME: + LS(t->f_type, getfullname()); + break; + + case TF_MYHOST: + LS(t->f_type, LocalName(0)); + break; + + case TF_LMBOX: + LS(t->f_type, getlocalmbox()); + break; + case TF_NOW: LV(t->f_type, time((time_t *) 0)); break; @@ -537,6 +636,10 @@ do_func(char *sp) return (cp); } +/* + * Handle an expression as an argument. Basically we call one of do_name(), + * do_func(), or do_if() + */ static char * do_expr (char *sp, int preprocess) { @@ -558,6 +661,15 @@ do_expr (char *sp, int preprocess) return (cp); } +/* + * I am guessing this was for some kind of loop statement, which would have + * looked like %[ .... %]. It looks like the way this would have worked + * is that the format engine would have seen that FT_DONE had a 1 in the + * f_un.f_un_value and then decided whether or not to continue the loop. + * There is no support for this in the format engine, so right now if + * you try using it you will reach the FT_DONE and simply stop. I'm leaving + * this here in case someone wants to continue the work. + */ static char * do_loop(char *sp) { @@ -576,6 +688,12 @@ do_loop(char *sp) return cp; } +/* + * Handle an if-elsif-endif statement. Note here that the branching + * is handled by the f_skip member of the struct format (which is really + * just f_width overloaded). This number controls how far to move forward + * (or back) in the format instruction array. + */ static char * do_if(char *sp) { @@ -597,7 +715,14 @@ do_if(char *sp) if (ftbl->f_type >= IF_FUNCS) fp->f_type = ftbl->extra; else { - LV (FT_IF_V_NE, 0); + /* Put out a string test or a value test depending + * on what this function's return type is. + */ + if (ftbl->flags & TFL_PUTS) { + LV (FT_IF_S, 0); + } else { + LV (FT_IF_V_NE, 0); + } } } else {