/* variables.c: this package provides symbols and dynamic strings

Copyright (C) 1997 Fabrice POPINEAU.

Time-stamp: <02/05/27 11:15:05 popineau>

This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.

This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
Library General Public License for more details.

You should have received a copy of the GNU Library General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.  */

#include "stackenv.h"
#include "fileutils.h"
#include "variables.h"
#include <regex.h>

/*
  We will use kpathsea's hash tables
  */

/* The symbol table */
hash_table_type *symtab = NULL;

static string current_instance = "";
static string previous_instance = "";

void __cdecl terminate_vars(void)
{
  if (! previous_instance
      || ! *previous_instance)
    previous_instance = "0";

  if (KPSE_DEBUG_P(MKTEX_FINE_DEBUG)) {
    fprintf(stderr, "Exiting... previous_instance = %s\n", previous_instance);
  }
  setval("LIBMKTEX_INSTANCE", previous_instance);
}

/* Initialize a symbol table to store all the vars used by 
   the various shell scripts. */
void init_vars()
{
  int instance = 0;
  char buf[32];

  symtab = hash_create(719, hashtable_symtab);

  if (previous_instance = getval("LIBMKTEX_INSTANCE")) {
    instance = atoi(getval("LIBMKTEX_INSTANCE")) + 1;
  }
  sprintf(buf, "%d", instance);
  setval("LIBMKTEX_INSTANCE", buf);
  current_instance = concat("_", buf);
  atexit(terminate_vars);
}

void
hash_remove_all (hash_table_type *table, string key)
{
  string *val;
  while ((val = hash_lookup(table, key))) {
    hash_remove(table, key, *val);
    free (val);
  }
}

string getval(string vname)
{
  string *lookup = NULL;
  string res = NULL;

  string name = concat(vname, current_instance);
  /*
    Either the name is already in the symbol table ...
    */
  if ((lookup = hash_lookup(symtab, name)) != NULL) {
    /* FIXME: we return the first value ... */
    res = lookup[0];
    free(lookup);
  }
#if 0
  else if ((lookup = hash_lookup(symtab, vname)) != NULL) {
    /* FIXME: we return the first value ... */
    res = lookup[0];
    free(lookup);
  }
  else {
    string dollar_name = concat("$", vname);
    res = kpse_cnf_get(vname);
    free(dollar_name);
  }
#endif
  if (!res) {
#if 0
    /*
      ... Either it is known from kpathsea, in which case we put it 
      in the symbol table.
      */
    string dollar_name = concat("$", vname);
    res = expand_var(dollar_name);

    if (test_file('n', res)) {
      setval(vname, res);
    }
    else {
      /* res = "", so return NULL */
      res = NULL;
    }
    free (dollar_name);
#endif
    res = getenv(vname);
  }

  if (KPSE_DEBUG_P(MKTEX_FINE_DEBUG)) {
    fprintf(stderr, "GetVal %s => %s\n", name, res);
  }

  free(name);

  /* In any case ... */
  return res;
}

string setval(string vname, string value)
{
  string name = concat(vname, current_instance);
  /* Be safe ... */
  if (!value) value = "";
  hash_remove_all(symtab, name);
  hash_insert(symtab, name, value);
  if (KPSE_DEBUG_P(MKTEX_FINE_DEBUG)) {
    fprintf(stderr, "SetVal %s <= %s\n", name, value);
  }
  free(name);
  return value;
}

string setval_default(string vname, string value)
{
  string name = concat(vname, current_instance);
  string old_value;
  /* Be safe ... */
  if (!value) {
    if (KPSE_DEBUG_P(MKTEX_FINE_DEBUG)) {
      fprintf(stderr, "setval_default: inserting NULL value for %s!\n", name);
    }
    value = "";
  }

  if (KPSE_DEBUG_P(MKTEX_FINE_DEBUG)) {
    fprintf(stderr, "SetVal default %s ... ", name);
  }

  /* The mktex... scripts NEVER use ${foo:=bar}, always ${foo=bar}.
     So we only need to set NAME=VALUE if $NAME is unset.  */
  if ((old_value = getval(vname)) == NULL) {
    hash_insert(symtab, name, value);
    if (KPSE_DEBUG_P(MKTEX_FINE_DEBUG)) {
      fprintf(stderr, "SetVal %s <= %s\n", name, value);
    }
  }
  else
    value = old_value;
  free(name);
  return value;
}

string *grep(char *regexp, char *line, int num_vars) 
{
  struct re_pattern_buffer *rc;
  struct re_registers *p;
  const_string ok;
  string *vars = NULL;
  string *lookup;
  int i;

  if (KPSE_DEBUG_P(MKTEX_FINE_DEBUG)) {
    fprintf(stderr, "Grep\n\t%s\n\tin\n\t%s\n", regexp, line);
  }

  if (test_file('z', line))
    return NULL;

  /* This will retrieve the precompiled regexp or compile it and
     remember it. vars contains the strings matched, num_vars the number
     of these strings. */
#if 0
  if ((lookup = hash_lookup(symtab, regexp)))
    rc = (struct re_pattern_buffer *)lookup[0];
  else
    rc = NULL;
  if (rc == NULL) {
#endif
    /* Compile the regexp and stores the result */

    if (KPSE_DEBUG_P(MKTEX_FINE_DEBUG)) {
      fprintf(stderr, "\tCompiling the regexp\n");
    }

    re_syntax_options = RE_SYNTAX_POSIX_EGREP;
    rc = (struct re_pattern_buffer *) calloc(1, sizeof(struct re_pattern_buffer));
    rc->regs_allocated = REGS_UNALLOCATED;
    if ((ok = re_compile_pattern(regexp, strlen(regexp), rc)) != 0)
      FATAL1("Can't compile regex %s\n", regexp);
#if 0
    hash_remove_all(symtab, regexp);
    hash_insert(symtab, regexp, (char *)rc);
  }
  else   if (KPSE_DEBUG_P(MKTEX_FINE_DEBUG)) {
    fprintf(stderr, "\tAlready compiled\n");
  }
#endif

  p = (struct re_registers *) calloc(1, sizeof(struct re_registers));
  p->num_regs = num_vars;
  if ((re_match(rc, line, strlen(line), 0, p)) > 0) {
    vars = (char **) xmalloc ((num_vars+1) * sizeof(char *));
    for (i = 0; i <= num_vars; i++) {
      vars[i] = malloc((p->end[i] - p->start[i] + 1)*sizeof(char));
      strncpy(vars[i], line+p->start[i], p->end[i] - p->start[i]);
      vars[i][p->end[i] - p->start[i]] = '\0';
    }
  }
  free (p);
  if (KPSE_DEBUG_P(MKTEX_FINE_DEBUG)) {
    if (vars)
      for(i = 0; i <= num_vars; i++)
	fprintf(stderr, "String %d matches %s\n", i, vars[i]);
  }
  return vars;
}

/* read a line, trying to find 'variable = value' 
   Currently groks two constructs:
   VAR=value
   : {VAR=value}
   using regex to analyze them.
   The variable is added to the symbol table. In the first case, it
   overrides an old value, not in the second case.
 */
boolean parse_variable(string line)
{
  char **vars;

  static char *r1 = "^[[:space:]]*([[:alnum:]_]+)=[[:space:]]*([^[:space:]]*)[[:space:]]*.*$";
  static char *r2 = "^:[[:space:]]+\\$\\{([[:alnum:]_]+)=([^\\}]*)\\}[[:space:]]*.*$";

  if ((vars = grep(r1, line, 2))) {
    setval(vars[1], vars[2]);
    return true;
  }
  else if ((vars = grep(r2, line, 2))) {
    setval_default(vars[1], vars[2]);
    return true;
  }
  else
    WARNING1("The following line has not been parsed:\n%s\n", line);
  return false;
}

/* Substitute from by to in line */
string subst(string line, string from, string to)
{
  string before, after, p;

  if (KPSE_DEBUG_P(MKTEX_FINE_DEBUG)) {
    fprintf(stderr, "Substituting %s by %s in %s\n", from, to, line);
  }

  if ((p = strstr(line, from))) {
    before = xstrdup(line);
    before[p-line] = '\0';
    after = p+strlen(from);
    p = concat3(before, to , after);
    free (before);
  }
  else
    p = xstrdup(line);

  if (KPSE_DEBUG_P(MKTEX_FINE_DEBUG)) {
    fprintf(stderr, "=> gives %s\n", p);
  }

  return p;
}

/* kpse_expand_var does not remove leading !!, but we do not need
   them in mktex*
   (Parts of code shamelessly stolen from remove_dbonly on tex-file.c.)
   */
string expand_var(const_string s)
{
  string p, q;
  string res = NULL;

  if (s) {
    boolean new_elt = true;

    res = mktex_var_expand(s);

    for (p = q = res; *p; ) {
      if (new_elt && *p == '!' && p[1] == '!')
	p += 2;
      else {
	new_elt = *p == ENV_SEP;
	*q++ = *p++;
      }
    }
    *q = '\0';

    if (KPSE_DEBUG_P(MKTEX_FINE_DEBUG)) {
      fprintf(stderr, "Expanding variable %s into %s\n", s, res);
    }
  }

  return res;
}

/*
  This is shamelessly stolen from kpathsea/variable.c .
  We want to do expansion without having to put variables in the
  environment.
  */

/* We have to keep track of variables being expanded, otherwise
   constructs like TEXINPUTS = $TEXINPUTS result in an infinite loop.
   (Or indirectly recursive variables, etc.)  Our simple solution is to
   add to a list each time an expansion is started, and check the list
   before expanding.  */

typedef struct {
  const_string var;
  boolean expanding;
} expansion_type;
static expansion_type *expansions; /* The sole variable of this type.  */
static unsigned expansion_len = 0;

static void
expanding P2C(const_string, var,  boolean, xp)
{
  unsigned e;
  for (e = 0; e < expansion_len; e++) {
    if (STREQ (expansions[e].var, var)) {
      expansions[e].expanding = xp;
      return;
    }
  }

  /* New variable, add it to the list.  */
  expansion_len++;
  XRETALLOC (expansions, expansion_len, expansion_type);
  expansions[expansion_len - 1].var = xstrdup (var);
  expansions[expansion_len - 1].expanding = xp;
}


/* Return whether VAR is currently being expanding.  */

static boolean
expanding_p P1C(const_string, var)
{
  unsigned e;
  for (e = 0; e < expansion_len; e++) {
    if (STREQ (expansions[e].var, var))
      return expansions[e].expanding;
  }
  
  return false;
}

/* Append the result of value of `var' to EXPANSION, where `var' begins
   at START and ends at END.  If `var' is not set, do not complain.
   This is a subroutine for the more complicated expansion function.  */

static void
expand P3C(fn_type *, expansion,  const_string, start,  const_string, end)
{
  string value;
  unsigned len = end - start + 1;
  string var = xmalloc (len + 1);
  strncpy (var, start, len);
  var[len] = 0;

  if (expanding_p (var)) {
    WARNING1 ("kpathsea: variable `%s' references itself (eventually)", var);
  } else {
#if 1
    /* The mktex.c replacement for shell scripts needs a more sophisticated
       lookup for variables */
    value = getval(var);
#else
    /* Check for an environment variable.  */
    value = getenv (var);
#endif
    /* If no envvar, check the config files.  */
    if (!value)
      value = kpse_cnf_get (var);

    if (value) {
      expanding (var, true);
      value = mktex_var_expand (value);
      expanding (var, false);
      fn_grow (expansion, value, strlen (value));
      free (value);
    }

    free (var);
  }
}

/* Can't think of when it would be useful to change these (and the
   diagnostic messages assume them), but ... */
#ifndef IS_VAR_START /* starts all variable references */
#define IS_VAR_START(c) ((c) == '$')
#endif
#ifndef IS_VAR_CHAR  /* variable name constituent */
#define IS_VAR_CHAR(c) (ISALNUM (c) || (c) == '_')
#endif
#ifndef IS_VAR_BEGIN_DELIMITER /* start delimited variable name (after $) */
#define IS_VAR_BEGIN_DELIMITER(c) ((c) == '{')
#endif
#ifndef IS_VAR_END_DELIMITER
#define IS_VAR_END_DELIMITER(c) ((c) == '}')
#endif


/* Maybe we should support some or all of the various shell ${...}
   constructs, especially ${var-value}.  */

string
mktex_var_expand P1C(const_string, src)
{
  const_string s;
  string ret;
  fn_type expansion;
  expansion = fn_init ();
  
  /* Copy everything but variable constructs.  */
  for (s = src; *s; s++) {
    if (IS_VAR_START (*s)) {
      s++;

      /* Three cases: `$VAR', `${VAR}', `$<anything-else>'.  */
      if (IS_VAR_CHAR (*s)) {
        /* $V: collect name constituents, then expand.  */
        const_string var_end = s;

        do {
          var_end++;
        } while (IS_VAR_CHAR (*var_end));

        var_end--; /* had to go one past */
        expand (&expansion, s, var_end);
        s = var_end;

      } else if (IS_VAR_BEGIN_DELIMITER (*s)) {
        /* ${: scan ahead for matching delimiter, then expand.  */
        const_string var_end = ++s;

        while (*var_end && !IS_VAR_END_DELIMITER (*var_end))
          var_end++;

        if (! *var_end) {
          WARNING1 ("%s: No matching } for ${", src);
          s = var_end - 1; /* will incr to null at top of loop */
        } else {
          expand (&expansion, s, var_end - 1);
          s = var_end; /* will incr past } at top of loop*/
        }

      } else {
        /* $<something-else>: error.  */
        WARNING2 ("%s: Unrecognized variable construct `$%c'", src, *s);
        /* Just ignore those chars and keep going.  */
      }
    } else
     fn_1grow (&expansion, *s);
  }
  fn_1grow (&expansion, 0);
          
  ret = FN_STRING (expansion);
  return ret;
}

#ifdef TEST

main()
{
  char buf[256];
  while (gets(buf)) parse_variable(buf);
}
#endif