ctxopt.c

/* ################################################################### */
/* Copyright 2015, Pierre Gentile (p.gen.progs@gmail.com)              */
/*                                                                     */
/* This Source Code Form is subject to the terms of the Mozilla Public */
/* License, v. 2.0. If a copy of the MPL was not distributed with this */
/* file, You can obtain one at https://mozilla.org/MPL/2.0/.           */
/* ################################################################### */

#include <errno.h>
#include <stddef.h>
#include <limits.h>
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <ctype.h>
#include <sys/types.h>
#include <regex.h>
#include <stdarg.h>
#include <string.h>
#include "ctxopt.h"

/* ************************ */
/* Static global variables. */
/* ************************ */

static void *contexts_bst;
static void *options_bst;

state_t *cur_state;

/* Prototypes */

/* ************************** */
/* Fatal messages prototypes. */
/* ************************** */

static void (**err_functions)(errors e, state_t *state);

static void
fatal_internal(const char *format, ...);

static void
fatal(errors e, char *errmsg);

static int   user_rc;      /* Used by various callback functions. */
static int   user_value;   /* Used by various callback functions. */
static char *user_string;  /* Used by various callback functions. */
static char *user_string2; /* Used by various callback functions. */
static void *user_object;  /* Used by various callback functions. */

/* ************************************ */
/* Memory management static prototypes. */
/* ************************************ */

static void *
xmalloc(size_t size);

static void *
xcalloc(size_t num, size_t size);

static void *
xrealloc(void *ptr, size_t size);

static char *
xstrdup(const char *p);

static char *
xstrndup(const char *str, size_t len);

/* ********************** */
/* BST static prototypes. */
/* ********************** */

typedef struct bst_s bst_t;

typedef enum
{
  preorder,
  postorder,
  endorder,
  leaf
} walk_order_e;

#if 0 /* Unused yet. */
static void *
bst_delete(const void * vkey, void ** vrootp,
           int (*compar)(const void *, const void *));
#endif

static void
bst_destroy(void *vrootp, void (*clean)(void *));

static void *
bst_find(const void   *vkey,
         void * const *vrootp,
         int (*compar)(const void *, const void *));

static void *
bst_search(void  *vkey,
           void **vrootp,
           int (*compar)(const void *, const void *));

static void
bst_walk_recurse(const bst_t *root,
                 void (*action)(const void *, walk_order_e, int),
                 int level);

static void
bst_walk(const void *vroot, void (*action)(const void *, walk_order_e, int));

/* ****************************** */
/* Linked list static prototypes. */
/* ****************************** */

typedef struct ll_node_s ll_node_t;
typedef struct ll_s      ll_t;

static void
ll_append(ll_t * const list, void * const data);

static void
ll_prepend(ll_t * const list, void * const data);

static void
ll_insert_after(ll_t * const list, ll_node_t *node, void * const data);

static void
ll_insert_before(ll_t * const list, ll_node_t *node, void * const data);

static int
ll_delete(ll_t * const list, ll_node_t *node);

static void
ll_init(ll_t *list);

static ll_node_t *
ll_new_node(void);

static ll_t *
ll_new(void);

static void
ll_free(ll_t * const list, void (*)(void *));

static void
ll_destroy(ll_t * const list, void (*)(void *));

static int
ll_strarray(ll_t *list, ll_node_t *start_node, int *count, char ***array);

/* ************************** */
/* Various static prototypes. */
/* ************************** */

static void
ltrim(char *str, const char *trim_str);

static void
rtrim(char *str, const char *trim_str, size_t min);

static int
strchrcount(char *str, char c);

static int
strpref(char *s1, char *s2);

static int
stricmp(const char *s1, const char *s2);

static char *
xstrtok_r(char *str, const char *delim, char **end);

static int
eval_yes(char *value, int *invalid);

static char *
get_word(char *str, char *buf, size_t len);

/* ************************* */
/* ctxopt static prototypes. */
/* ************************* */

typedef struct flags_s      flags_t;
typedef struct opt_s        opt_t;
typedef struct par_s        par_t;
typedef struct ctx_s        ctx_t;
typedef struct constraint_s constraint_t;
typedef struct ctx_inst_s   ctx_inst_t;
typedef struct opt_inst_s   opt_inst_t;
typedef struct seen_opt_s   seen_opt_t;
typedef struct req_s        req_t;

static char *
strtoken(char *s, char *token, size_t tok_len, char *pattern, int *pos);

static int
ctx_compare(const void *c1, const void *c2);

static void
ctx_free(void *o);

static void
ctx_inst_free(void *ci);

static void
opt_inst_free(void *oi);

static int
seen_opt_compare(const void *so1, const void *so2);

static void
incomp_bst_free(void *b);

static void
req_free(void *r);

static void
seen_opt_free(void *seen_opt);

static int
opt_compare(const void *o1, const void *o2);

static void
opt_free(void *o);

static int
par_compare(const void *a1, const void *a2);

static void
par_free(void *p);

static void
constraint_free(void *cstr);

static ctx_t *
locate_ctx(char *name);

static opt_t *
locate_opt(char *name);

static par_t *
locate_par(char *name, ctx_t *ctx);

static void
print_before_constraints(ll_t *list);

static void
print_options(ll_t *list,
              int  *has_optional,
              int  *has_ellipsis,
              int  *has_rule,
              int  *has_generic_arg,
              int  *has_ctx_change,
              int  *has_early_eval);
static void
print_explanations(int has_early_eval,
                   int has_ctx_change,
                   int has_generic_arg,
                   int has_optional,
                   int has_ellipsis,
                   int has_rule);
static void
bst_seen_opt_cb(const void *node, walk_order_e kind, int level);

static void
bst_seen_opt_seen_cb(const void *node, walk_order_e kind, int level);

static void
bst_print_ctx_cb(const void *node, walk_order_e kind, int level);

static void
bst_check_opt_cb(const void *node, walk_order_e kind, int level);

static void
bst_match_par_cb(const void *node, walk_order_e kind, int level);

static void
match_prefix_cb(const void *node, walk_order_e kind, int level);

static int
has_unseen_mandatory_opt(ctx_inst_t *ctx_inst, char **missing);

static int
opt_parse(char *s, opt_t **opt);

static int
init_opts(char *spec, ctx_t *ctx);

static int
ctxopt_build_cmdline_list(int nb_words, char **words);

static int
opt_set_parms(char *opt_name, char *par_str);

static ctx_inst_t *
new_ctx_inst(ctx_t *ctx, ctx_inst_t *prev_ctx_inst);

static void
evaluate_ctx_inst(ctx_inst_t *ctx_inst);

/* ****************************** */
/* Fatal messages implementation. */
/* ****************************** */

/* =================================================================== */
/* Fatal error function used when a fatal condition is encountered.    */
/* This function is reserved for the ctxopt internal usage.            */
/*                                                                     */
/* format : printf like format.                                        */
/* ...    : remaining arguments interpreted using the format argument. */
/* =================================================================== */
static void
fatal_internal(const char *format, ...)
{
  va_list args;

  fprintf(stderr, "CTXOPT: ");

  va_start(args, format);
  vfprintf(stderr, format, args);
  fprintf(stderr, "\n");
  va_end(args);

  exit(EXIT_FAILURE);
}

/* ====================================================================== */
/* Generic fatal error function. This one uses the global status ctxopt   */
/* stored in the cur_state structure and can call custom error functions. */
/* registered by the users for a given error identifier if any.           */
/*                                                                        */
/* e      : Error identifier responsible of the fatal error.              */
/* errmsg : User's provided string specific to the error e.               */
/*          Note that errmsg is not used in all cases.                    */
/*                                                                        */
/*          CTXOPTMISPAR Missing parameter.                               */
/*          CTXOPTREQPAR Option: all parameters in a required group are   */
/*                               missing.                                 */
/*          CTXOPTMISARG Missing argument.                                */
/*          CTXOPTUXPARG Unexpected argument.                             */
/*          CTXOPTDUPOPT Duplicated option.                               */
/*          CTXOPTUNKPAR Unknown parameter.                               */
/*          CTXOPTINCOPT Incompatible option.                             */
/*          CTXOPTCTEOPT Option: bad number of occurrences.               */
/*          CTXOPTCTLOPT Option: not enough occurrences.                  */
/*          CTXOPTCTGOPT Option: too many occurrence of.                  */
/*          CTXOPTCTEARG Arguments: bad number of occurrences.            */
/*          CTXOPTCTLARG Arguments: not enough occurrences.               */
/*          CTXOPTCTGARG Arguments: too many occurrences.                 */
/* ====================================================================== */
static void
fatal(errors e, char *errmsg)
{
  if (err_functions[e] != NULL)
    err_functions[e](e, cur_state);
  else
  {
    switch (e)
    {
      case CTXOPTNOERR:
        break;

      case CTXOPTMISPAR:
        if (cur_state->ctx_par_name != NULL)
          fprintf(stderr,
                  "the mandatory parameter(s) %s are missing in the context "
                  "introduced by %s.\n",
                  errmsg,
                  cur_state->ctx_par_name);
        else
          fprintf(stderr,
                  "The mandatory parameter(s) %s are missing "
                  "in the main context.\n",
                  errmsg);

        free(errmsg);
        break;

      case CTXOPTREQPAR:
        fprintf(stderr,
                errmsg,
                cur_state->req_opt_par_needed,
                cur_state->req_opt_par);
        break;

      case CTXOPTUNXARG:
        if (cur_state->cur_opt_par_name != NULL)
          fprintf(stderr,
                  "The parameter %s takes no arguments "
                  "or has too many arguments.\n",
                  cur_state->cur_opt_par_name);
        break;

      case CTXOPTMISARG:
        if (cur_state->pre_opt_par_name != NULL)
          fprintf(stderr,
                  "%s requires argument(s).\n",
                  cur_state->pre_opt_par_name);
        else
          fprintf(stderr,
                  "%s requires argument(s).\n",
                  cur_state->cur_opt_par_name);
        break;

      case CTXOPTDUPOPT:
        if (cur_state->pre_opt_par_name != NULL)
          fprintf(stderr,
                  "The parameter %s can only appear once in the context "
                  "introduced by %s.\n",
                  cur_state->cur_opt_params,
                  cur_state->ctx_par_name);
        else
          fprintf(stderr,
                  "The parameter %s can only appear once "
                  "in the main context.\n",
                  cur_state->cur_opt_params);
        break;

      case CTXOPTUNKPAR:
        fprintf(stderr,
                "Unknown parameter %s.\n%s",
                cur_state->cur_opt_par_name,
                errmsg);
        break;

      case CTXOPTINCOPT:
        fprintf(stderr,
                "The parameter %s is incompatible with %s.\n",
                cur_state->cur_opt_par_name,
                errmsg);
        break;

      case CTXOPTCTEOPT:
        if (cur_state->ctx_par_name)
          fprintf(stderr,
                  "The parameter %s must appear exactly %d times "
                  "in the context introduced by %s.\n",
                  cur_state->cur_opt_params,
                  cur_state->opts_count,
                  cur_state->ctx_par_name);
        else
          fprintf(stderr,
                  "The parameter %s must appear exactly %d times "
                  "in the main context.\n",
                  cur_state->cur_opt_params,
                  cur_state->opts_count);
        break;

      case CTXOPTCTLOPT:
        if (cur_state->ctx_par_name)
          fprintf(stderr,
                  "The parameter %s must appear less than %d times "
                  "in the context introduced by %s.\n",
                  cur_state->cur_opt_params,
                  cur_state->opts_count,
                  cur_state->ctx_par_name);
        else
          fprintf(stderr,
                  "The parameter %s must appear less than %d times "
                  "in the main context.\n",
                  cur_state->cur_opt_params,
                  cur_state->opts_count);
        break;

      case CTXOPTCTGOPT:
        if (cur_state->ctx_par_name)
          fprintf(stderr,
                  "The parameter %s must appear more than %d times "
                  "in the context introduced by %s.\n",
                  cur_state->cur_opt_params,
                  cur_state->opts_count,
                  cur_state->ctx_par_name);
        else
          fprintf(stderr,
                  "The parameter %s must appear more than %d times "
                  "in the main context.\n",
                  cur_state->cur_opt_params,
                  cur_state->opts_count);
        break;

      case CTXOPTCTEARG:
        fprintf(stderr,
                "The parameter %s must have exactly %d arguments.\n",
                cur_state->cur_opt_par_name,
                cur_state->opt_args_count);
        break;

      case CTXOPTCTLARG:
        fprintf(stderr,
                "The parameter %s must have less than %d arguments.\n",
                cur_state->cur_opt_par_name,
                cur_state->opt_args_count);
        break;

      case CTXOPTCTGARG:
        fprintf(stderr,
                "The parameter %s must have more than %d arguments.\n",
                cur_state->cur_opt_par_name,
                cur_state->opt_args_count);
        break;

      case CTXOPTERRSIZ:
        break;
    }
  }

  /* CTXOPTUNKPAR should display the full usage to help the user follow   */
  /* the chaining of contexts when several possible contexts have been    */
  /* identified. Otherwise, errmsg is the empty string and the display of */
  /* the current usage is enough.                                         */
  /* """""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
  if (e == CTXOPTUNKPAR && *errmsg != '\0')
    ctxopt_disp_usage(continue_after);
  else
    ctxopt_ctx_disp_usage(NULL, continue_after);

  exit(e); /* Exit with the error id e as return code. */
}

/* ********************************* */
/* Memory management implementation. */
/* ********************************* */

/* ================== */
/* Customized malloc. */
/* ================== */
static void *
xmalloc(size_t size)
{
  void  *allocated;
  size_t real_size;

  real_size = (size > 0) ? size : 1;
  allocated = malloc(real_size);
  if (allocated == NULL)
    fatal_internal("Insufficient memory (attempt to malloc %lu bytes).\n",
                   (unsigned long int)size);

  return allocated;
}

/* ================== */
/* Customized calloc. */
/* ================== */
static void *
xcalloc(size_t n, size_t size)
{
  void *allocated;

  n         = (n > 0) ? n : 1;
  size      = (size > 0) ? size : 1;
  allocated = calloc(n, size);
  if (allocated == NULL)
    fatal_internal("Insufficient memory (attempt to calloc %lu bytes).\n",
                   (unsigned long int)size);

  return allocated;
}

/* =================== */
/* Customized realloc. */
/* =================== */
static void *
xrealloc(void *p, size_t size)
{
  void *allocated;

  allocated = realloc(p, size);
  if (allocated == NULL && size > 0)
    fatal_internal("Insufficient memory (attempt to xrealloc %lu bytes).\n",
                   (unsigned long int)size);

  return allocated;
}

/* ==================================== */
/* strdup implementation using xmalloc. */
/* ==================================== */
static char *
xstrdup(const char *p)
{
  char *allocated;

  allocated = xmalloc(strlen(p) + 1);
  strcpy(allocated, p);

  return allocated;
}

/* =================================================== */
/* strndup implementation using xmalloc.               */
/* This version guarantees that there is a final '\0'. */
/* =================================================== */
static char *
xstrndup(const char *str, size_t len)
{
  char *p;

  p = memchr(str, '\0', len);

  if (p)
    len = p - str;

  p = xmalloc(len + 1);
  memcpy(p, str, len);
  p[len] = '\0';

  return p;
}

/* *************************** */
/* Linked list implementation. */
/* *************************** */

/* Linked list node structure. */
/* """"""""""""""""""""""""""" */
struct ll_node_s
{
  void             *data;
  struct ll_node_s *next;
  struct ll_node_s *prev;
};

/* Linked List structure. */
/* """""""""""""""""""""" */
struct ll_s
{
  ll_node_t *head;
  ll_node_t *tail;
  long       len;
};

/* ========================= */
/* Create a new linked list. */
/* ========================= */
static ll_t *
ll_new(void)
{
  ll_t *ret = xmalloc(sizeof(ll_t));
  ll_init(ret);

  return ret;
}

/* =============================================== */
/* Free all the elements of a list (make it empty) */
/* NULL or a custom function may be used to free   */
/* the sub components of the elements.             */
/* =============================================== */
static void
ll_free(ll_t * const list, void (*clean)(void *))
{
  ll_node_t *node;

  if (list)
  {
    node = list->head;

    while (node)
    {
      /* Apply a custom cleaner if not NULL. */
      /* """"""""""""""""""""""""""""""""""" */
      if (clean)
        clean(node->data);

      ll_delete(list, node);

      node = list->head;
    }
  }
}

/* ==================================== */
/* Destroy a list and all its elements. */
/* ==================================== */
static void
ll_destroy(ll_t *list, void (*clean)(void *))
{
  if (list)
  {
    ll_free(list, clean);
    free(list);
  }
}

/* ========================= */
/* Initialize a linked list. */
/* ========================= */
static void
ll_init(ll_t *list)
{
  list->head = NULL;
  list->tail = NULL;
  list->len  = 0;
}

/* ===================================================== */
/* Allocate the space for a new node in the linked list. */
/* ===================================================== */
static ll_node_t *
ll_new_node(void)
{
  ll_node_t *ret = xmalloc(sizeof(ll_node_t));

  return ret;
}

/* ==================================================================== */
/* Append a new node filled with its data at the end of the linked list */
/* The user is responsible for the memory management of the data.       */
/* ==================================================================== */
static void
ll_append(ll_t * const list, void * const data)
{
  ll_node_t *node;

  node = ll_new_node(); /* ll_new_node cannot return NULL because it   *
                         | uses xmalloc which does not return if there *
                         | is an allocation error.                     */

  node->data = data;
  node->next = NULL;       /* This node will be the last. */
  node->prev = list->tail; /* NULL if it is a new list.   */

  if (list->tail)
    list->tail->next = node;
  else
    list->head = node;

  list->tail = node;

  ++list->len; /* One more node in the list. */
}

/* ================================================================== */
/* Put a new node filled with its data at the beginning of the linked */
/* list.                                                              */
/* The user is responsible for the memory management of the data.     */
/* ================================================================== */
static void
ll_prepend(ll_t * const list, void * const data)
{
  ll_node_t *node;

  node = ll_new_node(); /* ll_new_node cannot return NULL because it   *
                         | uses xmalloc which does not return if there *
                         | is an allocation error.                     */

  node->data = data;
  node->prev = NULL;       /* This node will be the first. */
  node->next = list->head; /* NULL if it is a new list.    */

  if (list->head)
    list->head->prev = node;
  else
    list->tail = node;

  list->head = node;

  ++list->len; /* One more node in the list. */
}

/* ======================================================== */
/* Insert a new node before the specified node in the list. */
/* ======================================================== */
static void
ll_insert_before(ll_t * const list, ll_node_t *node, void * const data)
{
  ll_node_t *new_node;

  if (node->prev == NULL)
    ll_prepend(list, data);
  else
  {
    new_node = ll_new_node(); /* ll_new_node cannot return NULL because it   *
                               | uses xmalloc which does not return if there *
                               | is an allocation error.                     */

    new_node->data = data;
    new_node->next = node;
    new_node->prev = node->prev;

    node->prev->next = new_node;
    node->prev       = new_node;

    ++list->len; /* One more node in the list. */
  }
}

/* ======================================================= */
/* Insert a new node after the specified node in the list. */
/* ======================================================= */
static void
ll_insert_after(ll_t * const list, ll_node_t *node, void * const data)
{
  ll_node_t *new_node;

  if (node->next == NULL)
    ll_append(list, data);
  else
  {
    new_node = ll_new_node(); /* ll_new_node cannot return NULL because it   *
                               | uses xmalloc which does not return if there *
                               | is an allocation error.                     */

    new_node->data = data;
    new_node->prev = node;
    new_node->next = node->next;

    node->next->prev = new_node;
    node->next       = new_node;

    ++list->len; /* One more node in the list. */
  }
}

/* ================================================================= */
/* Remove a node from a linked list.                                 */
/* The memory taken by the deleted node must be freed by the caller. */
/* ================================================================= */
static int
ll_delete(ll_t * const list, ll_node_t *node)
{
  if (list->head == list->tail)
  {
    /* We delete the last remaining element from the list. */
    /* """"""""""""""""""""""""""""""""""""""""""""""""""" */
    if (list->head == NULL)
      return 0;

    list->head = list->tail = NULL;
  }
  else if (node->prev == NULL)
  {
    /* We delete the first element from the list. */
    /* """""""""""""""""""""""""""""""""""""""""" */
    list->head       = node->next;
    list->head->prev = NULL;
  }
  else if (node->next == NULL)
  {
    /* We delete the last element from the list. */
    /* """"""""""""""""""""""""""""""""""""""""" */
    list->tail       = node->prev;
    list->tail->next = NULL;
  }
  else
  {
    /* We delete an element from the list. */
    /* """"""""""""""""""""""""""""""""""" */
    node->next->prev = node->prev;
    node->prev->next = node->next;
  }

  free(node);

  --list->len; /* One less node in the list. */

  return 1;
}

/* ==================================================================== */
/* Allocate and fill an array of strings from a list.                   */
/* WARNINGS:                                                            */
/*   1) The list node must contain strings (char *).                    */
/*   2) The strings in the resulting array MUST NOT be freed as the are */
/*      NOT copied from the strings of the list.                        */
/*                                                                      */
/* IN list       : The list from which the array is generated.          */
/* IN start_node : The node of the list which will be the first node to */
/*                 consider to create the array.                        */
/* OUT: count    : The number of elements of the resulting array.       */
/* OUT: array    : The resulting array or NULL if the list is empty.    */
/* RC :          : The number of elements of the resulting array.       */
/* ==================================================================== */
static int
ll_strarray(ll_t *list, ll_node_t *start_node, int *count, char ***array)
{
  int        n = 0;
  ll_node_t *node;

  *count = 0;

  node = start_node;

  if (list == NULL || node == NULL)
  {
    *array = NULL;

    return 0;
  }

  *array = xmalloc((list->len + 1) * sizeof(char *));
  while (node != NULL)
  {
    (*array)[n++] = (char *)(node->data);
    (*count)++;

    node = node->next;
  }

  (*array)[*count] = NULL;

  return *count;
}

/* ******************************************************************* */
/* BST (search.h compatible) implementation.                           */
/*                                                                     */
/* Tree search generalized from Knuth (6.2.2) Algorithm T just like    */
/* the AT&T man page says.                                             */
/*                                                                     */
/* Written by reading the System V Interface Definition, not the code. */
/*                                                                     */
/* Totally public domain.                                              */
/* ******************************************************************* */

struct bst_s
{
  void         *key;
  struct bst_s *llink;
  struct bst_s *rlink;
};

#if 0 /* Unused yet. */
/* =========================== */
/* Delete node with given key. */
/* =========================== */
static void *
bst_delete(const void * vkey, void ** vrootp,
           int (*compar)(const void *, const void *))
{
  bst_t ** rootp = (bst_t **)vrootp;
  bst_t *  p, *q, *r;
  int      cmp;

  if (rootp == NULL || (p = *rootp) == NULL)
    return NULL;

  while ((cmp = (*compar)(vkey, (*rootp)->key)) != 0)
  {
    p     = *rootp;
    rootp = (cmp < 0) ? &(*rootp)->llink  /* follow llink branch */
                      : &(*rootp)->rlink; /* follow rlink branch */
    if (*rootp == NULL)
      return NULL; /* key not found */
  }
  r = (*rootp)->rlink;               /* D1: */
  if ((q = (*rootp)->llink) == NULL) /* Left NULL? */
    q = r;
  else if (r != NULL)
  { /* Right link is NULL? */
    if (r->llink == NULL)
    { /* D2: Find successor */
      r->llink = q;
      q        = r;
    }
    else
    { /* D3: Find NULL link */
      for (q = r->llink; q->llink != NULL; q = r->llink)
        r = q;
      r->llink = q->rlink;
      q->llink = (*rootp)->llink;
      q->rlink = (*rootp)->rlink;
    }
  }
  if (p != *rootp)
    free(*rootp); /* D4: Free node */
  *rootp = q;     /* link parent to new node */
  return p;
}
#endif

/* ===================================================================== */
/* Destroy a tree.                                                       */
/* The clean function pointer can be NULL, in this case the node content */
/* is not freed.                                                         */
/* ===================================================================== */
static void
bst_destroy(void *vrootp, void (*clean)(void *))
{
  bst_t *root = (bst_t *)vrootp;

  if (root == NULL)
    return;

  bst_destroy(root->llink, clean);
  bst_destroy(root->rlink, clean);

  if (clean)
    clean((void *)root->key);

  free(root);
}

/* ========================= */
/* Find a node, or return 0. */
/* ========================= */
static void *
bst_find(const void   *vkey,
         void * const *vrootp,
         int (*compar)(const void *, const void *))
{
  bst_t * const *rootp = (bst_t * const *)vrootp;

  if (rootp == NULL)
    return NULL;

  while (*rootp != NULL)
  { /* T1: */
    int r;

    if ((r = (*compar)(vkey, (*rootp)->key)) == 0) /* T2: */
      return *rootp;                               /* key found */
    rootp = (r < 0) ? &(*rootp)->llink             /* T3: follow left branch */
                    : &(*rootp)->rlink;            /* T4: follow right branch */
  }
  return NULL;
}

/* ======================================= */
/* Find or inserts datum into search tree. */
/* ======================================= */
static void *
bst_search(void *vkey, void **vrootp, int (*compar)(const void *, const void *))
{
  bst_t  *q;
  bst_t **rootp = (bst_t **)vrootp;

  if (rootp == NULL)
    return NULL;

  while (*rootp != NULL)
  { /* Knuth's T1: */
    int r;

    if ((r = (*compar)(vkey, (*rootp)->key)) == 0) /* T2: */
      return *rootp;                               /* we found it! */

    rootp = (r < 0) ? &(*rootp)->llink  /* T3: follow left branch */
                    : &(*rootp)->rlink; /* T4: follow right branch */
  }

  q = xmalloc(sizeof(bst_t)); /* T5: key not found */
  if (q != 0)
  {                  /* make new node */
    *rootp   = q;    /* link new node to old */
    q->key   = vkey; /* initialize new node */
    q->llink = q->rlink = NULL;
  }
  return q;
}

/* ========================= */
/* Walk the nodes of a tree. */
/* ========================= */
static void
bst_walk_recurse(const bst_t *root,
                 void (*action)(const void *, walk_order_e, int),
                 int level)
{
  if (root->llink == NULL && root->rlink == NULL)
    (*action)(root, leaf, level);
  else
  {
    (*action)(root, preorder, level);
    if (root->llink != NULL)
      bst_walk_recurse(root->llink, action, level + 1);
    (*action)(root, postorder, level);
    if (root->rlink != NULL)
      bst_walk_recurse(root->rlink, action, level + 1);
    (*action)(root, endorder, level);
  }
}

static void
bst_walk(const void *vroot, void (*action)(const void *, walk_order_e, int))
{
  if (vroot != NULL && action != NULL)
    bst_walk_recurse(vroot, action, 0);
}

/* ************************ */
/* Various implementations. */
/* ************************ */

/* ======================== */
/* Trim leading characters. */
/* ======================== */
static void
ltrim(char *str, const char *trim_str)
{
  size_t len   = strlen(str);
  size_t begin = strspn(str, trim_str);
  size_t i;

  if (begin > 0)
    for (i = begin; i <= len; ++i)
      str[i - begin] = str[i];
}

/* ================================================= */
/* Trim trailing characters.                         */
/* The resulting string will have at least min bytes */
/* even if trailing spaces remain.                   */
/* ================================================= */
static void
rtrim(char *str, const char *trim_str, size_t min)
{
  size_t len = strlen(str);
  while (len > min && strchr(trim_str, str[len - 1]))
    str[--len] = '\0';
}

/* ================================================== */
/* Count the number of occurrences of the character c */
/* in the string str.                                 */
/* The str pointer is assumed to be not NULL.         */
/* ================================================== */
static int
strchrcount(char *str, char c)
{
  int count = 0;

  while (*str)
    if (*str++ == c)
      count++;

  return count;
}

/* =============================================== */
/* Is the string str2 a prefix of the string str1? */
/* =============================================== */
static int
strpref(char *str1, char *str2)
{
  while (*str1 != '\0' && *str1 == *str2)
  {
    str1++;
    str2++;
  }

  return *str2 == '\0';
}

/* ========================== */
/* Like strcmp ignoring case. */
/* ========================== */
static int
stricmp(const char *s1, const char *s2)
{
  while (tolower((unsigned char)*s1) == tolower((unsigned char)*s2))
  {
    if (*s1 == '\0')
      return 0;

    s1++;
    s2++;
  }

  return (int)tolower((unsigned char)*s1) - (int)tolower((unsigned char)*s2);
}

/* ====================================================================== */
/* Strings concatenation with dynamic memory allocation.                  */
/* IN : a variable number of char * arguments with NULL terminating       */
/*      the sequence.                                                     */
/*      The first one must have been dynamically allocated and is         */
/*      mandatory.                                                        */
/*                                                                        */
/* Returns a new allocated string containing the concatenation of all     */
/* the arguments. It is the caller's responsibility to free the resulting */
/* string.                                                                */
/* ====================================================================== */
static char *
strappend(char *str, ...)
{
  size_t  l;
  va_list args;
  char   *s;

  l = 1 + strlen(str);
  va_start(args, str);

  s = va_arg(args, char *);

  while (s)
  {
    l += strlen(s);
    s = va_arg(args, char *);
  }

  va_end(args);

  if (l > 0)
    str = xrealloc(str, l);

  va_start(args, str);
  s = va_arg(args, char *);

  while (s)
  {
    strcat(str, s);
    s = va_arg(args, char *);
  }
  va_end(args);

  return str;
}

/* ====================================================================== */
/*  Public domain strtok_r() by Charlie Gordon.                           */
/*   from comp.lang.c  9/14/2007                                          */
/*      http://groups.google.com/group/comp.lang.c/msg/2ab1ecbb86646684   */
/*                                                                        */
/*     (Declaration that it's public domain):                             */
/*      http://groups.google.com/group/comp.lang.c/msg/7c7b39328fefab9c   */
/*                                                                        */
/* Also, fixed by Fletcher T. Penney --- added the "return NULL" when     */
/* *end == NULL.                                                          */
/* ====================================================================== */
static char *
xstrtok_r(char *str, const char *delim, char **end)
{
  char *ret;

  if (str == NULL)
    str = *end;

  if (str == NULL)
    return NULL;

  str += strspn(str, delim);

  if (*str == '\0')
    return NULL;

  ret = str;

  str += strcspn(str, delim);

  if (*str)
    *str++ = '\0';

  *end = str;

  return ret;
}

/* ===================================================================== */
/* Put the first word of str, truncated to len characters, in buf.       */
/* Return a pointer in str pointing just after the word.                 */
/* buf must have been pre-allocated to accept at least len+1 characters. */
/* Note that buf can contains a sting full of spaces is str was not      */
/* trimmed before the call.                                              */
/* ===================================================================== */
char *
get_word(char *str, char *buf, size_t len)
{
  char *s = str;

  /* Skip spaces. */
  /* """""""""""" */
  while (*s && isspace(*s))
    s++;

  /* Set the new string start. */
  /* """"""""""""""""""""""""" */
  str = s;

  /* Get the word. */
  /*"""""""""""""" */
  while (*s && !isspace(*s) && s - str < (ptrdiff_t)len)
    s++;

  strncpy(buf, str, s - str);
  buf[s - str] = 0;

  return s;
}

/* ==================================================================== */
/* Return 1 is value is "1" or "yes" (ignoring case).                   */
/* Return 0 is value is "0" or "no" (ignoring case).                    */
/* If value has another value, then set invalid to 1 and also return 0  */
/* invalid is set to 0 in all the other cases.                          */
/* ==================================================================== */
static int
eval_yes(char *value, int *invalid)
{
  *invalid = 0;

  if (strcmp(value, "1") == 0 || stricmp(value, "yes") == 0)
    return 1;
  else if (strcmp(value, "0") != 0 && stricmp(value, "no") != 0)
    *invalid = 1;

  return 0;
}

/* =========================================================== */
/* Fill an array of strings from the words composing a string. */
/*                                                             */
/* str:    initial string which will be altered.               */
/* args:   array of pointers to the start of the words in str. */
/* max:    maximum number of words used before giving up.      */
/* return: the number of words (<=max).                        */
/* =========================================================== */
static int
str2argv(char *str, char **args, int max)
{
  int nb_args = 0;

  while (*str)
  {
    if (nb_args >= max)
      return nb_args;

    while (*str == ' ' || *str == '\t')
      *(str++) = '\0';

    if (!*str)
      return nb_args;

    args[nb_args] = str;
    nb_args++;

    while (*str && (*str != ' ') && (*str != '\t'))
      str++;
  }

  return nb_args;
}

/* ********************** */
/* ctxopt implementation. */
/* ********************** */

static int ctxopt_initialized = 0; /* cap_init has not yet been called. */

/* Flags structure initialized by ctxopt_init. */
/* """"""""""""""""""""""""""""""""""""""""""" */
struct flags_s
{
  int stop_if_non_option;
  int allow_abbreviations;
  int display_usage_on_error;
};

static flags_t flags = { 0, 1, 1 };

/* Context structure. */
/* """""""""""""""""" */
struct ctx_s
{
  char *name;
  ll_t *opt_list;    /* list of options allowed in this context.      */
  ll_t *incomp_list; /* list of strings containing incompatible names *
                      | of options separated by spaces or tabs.       */
  ll_t *req_list;    /* list of strings containing an option name and *
                      | all the option names where at least one of    *
                      | them is required to be also present.          */

  int (*action)(char  *name,
                int    type,
                char  *new_ctx,
                int    ctx_nb_data,
                void **ctx_data);
  void  *par_bst;
  int    nb_data;
  void **data;
};

/* https://textik.com/#488ce3649b6c60f5                          */
/*                                                               */
/*       +--------------+                                        */
/*       |first_ctx_inst|                                        */
/*       +---+----------+                                        */
/*           |                                                   */
/*        +--v-----+      +--------+     +--------+      +-----+ */
/* +---+-->ctx_inst+------>opt_inst+----->opt_inst+------> ... | */
/* |   |  +-+------+      +----+---+     +----+---+      +-----+ */
/* |   |    |                  |              |                  */
/* |   |  +-v------+           |              |                  */
/* |   +--+ctx_inst<-----------+              |                  */
/* |      +-+------+                          |                  */
/* |        |                                 |                  */
/* |      +-v------+                          |                  */
/* +------+ctx_inst<--------------------------+                  */
/*        +-+------+                                             */
/*          |                                                    */
/*        +-v---+                                                */
/*        | ... |                                                */
/*        +-----+                                                */

/* Option structure. */
/* """"""""""""""""" */
struct opt_s
{
  char *name;     /* option name.                            */
  char *next_ctx; /* new context this option may lead to     */
  ll_t *ctx_list; /* list of contexts allowing this option.  */
  char *params;   /* string containing all the parameters of *
                   | the option.                             */

  void (*action)(                    /* The option associated action.     */
                 char  *ctx_name,    /* context name.                     */
                 char  *opt_name,    /* option name.                      */
                 char  *par,         /* option parameter.                 */
                 int    nb_args,     /* number of arguments.              */
                 char **args,        /* option arguments.                 */
                 int    nb_opt_data, /* number of option data pointers.   */
                 void **opt_data,    /* option data pointers.             */
                 int    nb_ctx_data, /* nb of current  context data ptrs. */
                 void **ctx_data     /* current context data pointers.    */
  );

  int visible_in_help; /* visibility in help.                                */
  int nb_data; /* number of the data pointers passed as argument to action.  */
  void **data; /* array of data pointers passed as argument to action.       */

  int args;     /* 1 if this option takes arguments else 0.                  */
  int optional; /* 1 if the option is optional, else 0.                      */
  int multiple; /* 1 if the option can appear more than one time in a        *
                 | context, else 0.                                          */

  int  opt_count_matter; /* 1 if we must restrict the count, else 0.         */
  int  occurrences;      /* Number of option occurrences in a context.       */
  char opt_count_oper;   /* <, = or >                                        */
  int  opt_count_mark;   /* Value to be compared to with opt_count_oper.     */

  char *arg; /* symbolic text after # describing the option argument.        */

  int optional_args; /* 1 of option is optional else 0.                      */
  int multiple_args; /* 1 is option can appear more than once in a context   *
                      | instance.                                            */

  int  opt_args_count_matter; /* 1 if count is restricted, else 0.           */
  char opt_args_count_oper;   /* <, = or >                                   */
  int  opt_args_count_mark;   /* Value to be compared to with                *
                               | opt_count_oper.                             */

  int eval_first; /* 1 if this option must be evaluated before the options   *
                   | without this mark.                                      */

  ll_t *eval_before_list; /* List of pointers on options which must be       *
                           | evaluated before this option.                   */

  ll_t *constraints_list; /* List of constraint check functions pointers.    */
};

/* Context instance structure. */
/* """"""""""""""""""""""""""" */
struct ctx_inst_s
{
  ctx_t      *ctx;             /* the context whose this is an instance of  */
  ctx_inst_t *prev_ctx_inst;   /* ctx_inst of the opt_inst which led to the *
                                | creation of this ctx_inst structure.      */
  opt_inst_t *gen_opt_inst;    /* opt_inst which led to the creation of a   *
                                | instance of this structure.               */
  ll_t       *incomp_bst_list; /* list of seen_opt_t BST.                   */
  void       *seen_opt_bst;    /* tree of seen_opt_t.                       */
  ll_t       *opt_req_list;    /* list of req_t.                            */
  ll_t       *opt_inst_list;   /* The list of option instances in this      *
                                | context instance.                         */
  char       *par_name;        /* parameter which created this instance.    */
};

/* Option instance structure. */
/* """""""""""""""""""""""""" */
struct opt_inst_s
{
  opt_t      *opt;           /* The option this is an instance of.        */
  char       *opt_name;      /* The option which led to this creation.    */
  char       *par;           /* The parameter which led to this creation. */
  ll_t       *values_list;   /* The list of arguments of this option.     */
  ctx_inst_t *next_ctx_inst; /* The new context instance this option.     *
                              | instance may create.                      */
};

/* Structure used to check if an option has bee seen or not */
/* in a context instance.                                   */
/* """""""""""""""""""""""""""""""""""""""""""""""""""""""" */
struct seen_opt_s
{
  opt_t *opt;  /* The concerned option.                                */
  char  *par;  /* Parameter which led to the making of this structure. */
  int    seen; /* 1 if seen in the context instances, else 0.          */
};

/* Structure used to check if at least one instance of the options whose */
/* pointers are in or_opt_list has been seen in the ctx_inst where an    */
/* instance or opt is also present.                                      */
/* """"""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
struct req_s
{
  opt_t *opt;         /* Option that asks for other options.    */
  ll_t  *or_opt_list; /* Required options, at least one of them *
                       |  must be present.                      */
};

/* Parameter structure which links a parameter to the option it belongs to. */
/* """""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
struct par_s
{
  char  *name; /* Parameter name (with the leading -). */
  opt_t *opt;  /* Attached option.                     */
};

/* Constraint structure. */
/* """"""""""""""""""""" */
struct constraint_s
{
  int (*constraint)(int nb_args, char **args, char *value, char *parameter);
  int    nb_args;
  char **args;
  char  *to_free; /* pointer to the original string in which the array in *
                   | args points to. This pointer is kept there to allow  *
                   | it to be freed.                                      */
};

state_t           *cur_state      = NULL; /* Current analysis state.        */
static ll_t       *cmdline_list   = NULL; /* List of interpreted CLI words  *
                                           | serves as the basis for the    *
                                           | analysis of the parameters.    */
static ctx_t      *main_ctx       = NULL; /* initial context.               */
static ctx_inst_t *first_ctx_inst = NULL; /* Pointer to the fist context    *
                                           | instance which holds the       *
                                           | options instances.             */
static ll_t       *ctx_inst_list  = NULL; /* List of the context instances. */

/* ======================================================= */
/* Parse a string for the next matching token.             */
/*                                                         */
/* s:       string to parse.                               */
/* token:   pre_allocated array of max tok_len characters. */
/* pattern: scanf type pattern token must match.           */
/* pos:     number of characters successfully parsed in s. */
/*                                                         */
/* Returns: a pointer to the first unread character or     */
/*          to he terminating \0.                          */
/* ======================================================= */
static char *
strtoken(char *s, char *token, size_t tok_len, char *pattern, int *pos)
{
  char *full_pattern;
  char  len[3];
  int   n;

  *pos = 0;

  n = snprintf(len, 3, "%zu", tok_len);
  if (n < 0)
    return NULL;

  full_pattern = xmalloc(strlen(pattern) + n + 4);

  strcpy(full_pattern, "%");
  strcat(full_pattern, len);
  strcat(full_pattern, pattern);
  strcat(full_pattern, "%n");

  n = sscanf(s, full_pattern, token, pos);

  free(full_pattern);

  if (n != 1)
    return NULL;

  return s + *pos;
}

/* ****************************************** */
/* Various comparison and deletion functions. */
/* ****************************************** */

static int
ctx_compare(const void *c1, const void *c2)
{
  return strcmp(((ctx_t *)c1)->name, ((ctx_t *)c2)->name);
}

/* =========================== */
/* Free a context_bst element. */
/* =========================== */
static void
ctx_free(void *c)
{
  ctx_t *ctx = c;

  free(ctx->name);
  free(ctx->data);

  ll_destroy(ctx->opt_list, NULL);
  ll_destroy(ctx->incomp_list, free);
  ll_destroy(ctx->req_list, free);
  bst_destroy(ctx->par_bst, par_free);

  free(c);
}

/* ============================= */
/* Free a ctx_inst_list element. */
/* ============================= */
static void
ctx_inst_free(void *ci)
{
  ctx_inst_t *ctx_inst = ci;

  free(ctx_inst->par_name);
  ll_destroy(ctx_inst->incomp_bst_list, incomp_bst_free);
  bst_destroy(ctx_inst->seen_opt_bst, seen_opt_free);
  ll_destroy(ctx_inst->opt_inst_list, opt_inst_free);
  ll_destroy(ctx_inst->opt_req_list, req_free);

  free(ci);
}

/* ============================== */
/* Free an opt_inst_list element. */
/* ============================== */
static void
opt_inst_free(void *oi)
{
  opt_inst_t *opt_inst = oi;

  ll_destroy(opt_inst->values_list, NULL);

  free(oi);
}

/* ================================== */
/* Compare two seen_opt_bst elements. */
/* ================================== */
static int
seen_opt_compare(const void *so1, const void *so2)
{
  opt_t *o1, *o2;

  o1 = ((seen_opt_t *)so1)->opt;
  o2 = ((seen_opt_t *)so2)->opt;

  return strcmp(o1->name, o2->name);
}

/* ============================ */
/* Free a seen_opt_bst element. */
/* ============================ */
void
seen_opt_free(void *so)
{
  seen_opt_t *seen_opt = so;

  free(seen_opt->par);

  free(so);
}

/* =========================== */
/* Free an incomp_bst element. */
/* =========================== */
static void
incomp_bst_free(void *b)
{
  bst_t *bst = b;

  bst_destroy(bst, NULL);
}

/* ============================= */
/* Free an opt_req_list element. */
/* ============================= */
static void
req_free(void *r)
{
  req_t *req = r;

  ll_destroy(req->or_opt_list, NULL);
  free(req);
}

/* ================================= */
/* Compare two options_bst elements. */
/* ================================= */
static int
opt_compare(const void *o1, const void *o2)
{
  return strcmp(((opt_t *)o1)->name, ((opt_t *)o2)->name);
}

/* ============================= */
/* Free an options_bst elements. */
/* ============================= */
void
opt_free(void *o)
{
  opt_t *opt = o;

  free(opt->name);
  free(opt->next_ctx);
  free(opt->params);
  free(opt->arg);
  free(opt->data);

  ll_destroy(opt->ctx_list, NULL);
  ll_destroy(opt->constraints_list, constraint_free);
  ll_destroy(opt->eval_before_list, NULL);

  free(o);
}

/* ============================= */
/* Compare two par_bst elements. */
/* ============================= */
static int
par_compare(const void *a1, const void *a2)
{
  return strcmp(((par_t *)a1)->name, ((par_t *)a2)->name);
}

/* ======================= */
/* Free a par_bst element. */
/* ======================= */
static void
par_free(void *p)
{
  par_t *par = p;

  free(par->name);

  free(p);
}

/* ================================ */
/* Free a constraints_list element. */
/* ================================ */
static void
constraint_free(void *c)
{
  constraint_t *cstr = c;

  free(cstr->args);
  free(cstr->to_free);

  free(c);
}

/* ******************************************************************** */
/* Helper functions to locate contexts, options and parameters in a BST */
/* by their names.                                                      */
/* ******************************************************************** */

static ctx_t *
locate_ctx(char *name)
{
  bst_t *node;
  ctx_t  ctx = { 0 };

  ctx.name = name;

  if ((node = bst_find(&ctx, &contexts_bst, ctx_compare)) == NULL)
    return NULL;
  else
    return node->key;
}

static opt_t *
locate_opt(char *name)
{
  bst_t *node;
  opt_t  opt = { 0 };

  opt.name = name;

  if ((node = bst_find(&opt, &options_bst, opt_compare)) == NULL)
    return NULL;
  else
    return node->key;
}

static par_t *
locate_par(char *name, ctx_t *ctx)
{
  bst_t *node;
  par_t  par = { 0 };
  void  *bst = ctx->par_bst;

  par.name = name;

  if ((node = bst_find(&par, &bst, par_compare)) == NULL)
    return NULL;
  else
    return node->key;
}

/* ====================================================================== */
/* Helper function to display the dependency constraints between options. */
/* These constraints are set with the ctxopt_add_opt_settings function    */
/* using the 'before' and 'after' arguments.                              */
/* IN  list  : a list of options.                                         */
/* ====================================================================== */
static void
print_before_constraints(ll_t *list)
{
  ll_node_t *node = list->head;
  ll_node_t *before_node;
  opt_t     *opt, *before_opt;
  int        msg = 0;

  while (node != NULL)
  {
    opt = node->data;

    if (opt->eval_before_list->len > 0)
    {
      if (!msg)
      {
        printf("\n  If present in the command line,");
        msg = 1; /* Display this message only once. */
      }

      before_node = opt->eval_before_list->head;

      printf("\n  ");
      while (before_node != NULL)
      {
        before_opt = before_node->data;
        printf("%s", before_opt->params);

        before_node = before_node->next;

        if (before_node != NULL)
          printf(" and\n  ");
      }
      printf(" will be evaluated after %s\n", opt->params);
    }
    node = node->next;
  }
}

/* =================================================================== */
/* Utility function to format and print the options present in a list. */
/*                                                                     */
/* IN  list  : a list of options.                                      */
/* OUT has_* : a set of flags which will determine the content of the  */
/*             explanation given after the formatted printing of the   */
/*             options.                                                */
/* =================================================================== */
static void
print_options(ll_t *list,
              int  *has_optional,
              int  *has_ellipsis,
              int  *has_rule,
              int  *has_generic_arg,
              int  *has_ctx_change,
              int  *has_early_eval)
{
  ll_node_t *node = list->head;
  opt_t     *opt;
  char      *line;
  char      *option;

  line = xstrdup("  ");

  while (node != NULL)
  {
    option = xstrdup("");
    opt    = node->data;

    /* Skip option set as not visible in help. */
    /* """"""""""""""""""""""""""""""""""""""" */
    if (!opt->visible_in_help)
    {
      node = node->next;
      continue;
    }

    if (opt->optional)
    {
      option        = strappend(option, "[", (char *)0);
      *has_optional = 1;
    }

    if (opt->eval_first)
    {
      option          = strappend(option, "*", (char *)0);
      *has_early_eval = 1;
    }

    option = strappend(option, opt->params, (char *)0);

    if (opt->next_ctx != NULL)
    {
      option          = strappend(option, ">", opt->next_ctx, (char *)0);
      *has_ctx_change = 1;
    }

    if (opt->multiple)
    {
      if (opt->opt_count_oper != '\0')
      {
        char m[4];
        char o[2];
        o[0] = opt->opt_count_oper;
        o[1] = '\0';
        snprintf(m, 3, "%u", opt->opt_count_mark);
        option    = strappend(option, "...", o, m, (char *)0);
        *has_rule = 1;
      }
      else
        option = strappend(option, "...", (char *)0);

      *has_ellipsis = 1;
    }

    if (opt->args)
    {
      if (*(opt->arg) == '#')
        *has_generic_arg = 1;

      option = strappend(option, " ", (char *)0);

      if (opt->optional_args)
      {
        option        = strappend(option, "[", opt->arg, (char *)0);
        *has_optional = 1;
      }
      else
        option = strappend(option, opt->arg, (char *)0);

      if (opt->multiple_args)
      {
        if (opt->opt_args_count_oper != '\0')
        {
          char m[4];
          char o[2];
          o[0] = opt->opt_args_count_oper;
          o[1] = '\0';
          snprintf(m, 3, "%u", opt->opt_args_count_mark);
          option    = strappend(option, "...", o, m, (char *)0);
          *has_rule = 1;
        }
        else
          option = strappend(option, "...", (char *)0);

        *has_ellipsis = 1;
      }
      if (opt->optional_args)
        option = strappend(option, "]", (char *)0);
    }
    if (opt->optional)
      option = strappend(option, "]", (char *)0);

    if (strlen(line) + 1 + strlen(option) < 80)
      line = strappend(line, option, " ", (char *)0);
    else
    {
      printf("%s\n", line);
      line[2] = '\0';
      line    = strappend(line, option, " ", (char *)0);
    }

    free(option);

    node = node->next;
  }

  printf("%s\n", line);

  free(line);
}

/* ==================================================== */
/* Explain the special syntactic symbols present in the */
/* generated usage messages.                            */
/* ==================================================== */
static void
print_explanations(int has_early_eval,
                   int has_ctx_change,
                   int has_generic_arg,
                   int has_optional,
                   int has_ellipsis,
                   int has_rule)
{
  if (has_early_eval || has_ctx_change || has_generic_arg || has_optional
      || has_ellipsis || has_rule)
  {
    printf("\nExplanation of the syntax used above:\n");
    printf("Only the parameters (prefixed by -) and the arguments, if any, "
           "must be entered.\n");
    printf("The following is just there to explain the other symbols "
           "displayed.\n\n");

    if (has_early_eval)
      printf("*            : the parameters defined for this option will "
             "be evaluated first.\n");
    if (has_ctx_change)
      printf(">            : the context after this symbol will be the new "
             "default context.\n");
    if (has_generic_arg)
      printf("#tag         : argument with a hint about its meaning.\n");
    if (has_optional)
      printf("[...]        : the object between square brackets is "
             "optional.\n");
    if (has_ellipsis)
      printf("...          : several occurrences of the previous object "
             "are possible.\n");
    if (has_rule)
      printf("[<|=|>]number: rules constraining the number of "
             "parameters/arguments.\n");
  }
}

/* ************************************************************ */
/* Various utilities and callback functions called when walking */
/* through a BST.                                               */
/* ************************************************************ */

static void
bst_seen_opt_cb(const void *node, walk_order_e kind, int level)
{
  seen_opt_t *seen_opt = ((bst_t *)node)->key;

  if (kind == postorder || kind == leaf)
  {
    if ((!seen_opt->opt->optional) && seen_opt->seen == 0)
    {
      user_rc     = 1;
      user_string = strappend(user_string,
                              seen_opt->opt->params,
                              " ",
                              (char *)0);
    }
  }
}

static void
bst_seen_opt_seen_cb(const void *node, walk_order_e kind, int level)
{
  seen_opt_t *seen_opt = ((bst_t *)node)->key;

  if (kind == postorder || kind == leaf)
    if (seen_opt->seen == 1)
    {
      user_rc     = 1;
      user_object = seen_opt->par;
    }
}

static void
bst_print_ctx_cb(const void *node, walk_order_e kind, int level)
{
  ctx_t *ctx     = main_ctx;
  ctx_t *cur_ctx = ((bst_t *)node)->key;

  ll_t *list;

  int has_optional    = 0;
  int has_ellipsis    = 0;
  int has_rule        = 0;
  int has_generic_arg = 0;
  int has_ctx_change  = 0;
  int has_early_eval  = 0;

  if (kind == postorder || kind == leaf)
    if (strcmp(ctx->name, cur_ctx->name) != 0)
    {
      list = cur_ctx->opt_list;

      printf("\nAllowed options in the context %s:\n", cur_ctx->name);
      print_options(list,
                    &has_optional,
                    &has_ellipsis,
                    &has_rule,
                    &has_generic_arg,
                    &has_ctx_change,
                    &has_early_eval);
      print_before_constraints(list);
    }
}

static void
bst_check_opt_cb(const void *node, walk_order_e kind, int level)
{
  opt_t *opt = ((bst_t *)node)->key;

  if (kind == postorder || kind == leaf)
  {
    if (opt->params == NULL) /* opt must have associated parameters. */
      fatal_internal("Option %s has no registered parameter.\n", opt->name);

    if (opt->action == NULL) /* opt must have an action. */
      fatal_internal("Option %s has no registered action.\n", opt->name);
  }
}

static void
bst_match_par_cb(const void *node, walk_order_e kind, int level)
{
  ctx_t *ctx = ((bst_t *)node)->key;

  if (kind == postorder || kind == leaf)
  {
    char *str = xstrdup(user_string);

    while (*str != '\0')
    {
      if (locate_par(str, ctx) != NULL)
      {
        if (*user_string2 == '\0')
          user_string2 = strappend(user_string2, "- ", ctx->name, (char *)0);
        else
          user_string2 = strappend(user_string2, "\n- ", ctx->name, (char *)0);
        break;
      }
      str[strlen(str) - 1] = '\0';
    }
    free(str);
  }
}

static void
match_prefix_cb(const void *node, walk_order_e kind, int level)
{
  par_t *par = ((bst_t *)node)->key;

  if (kind == postorder || kind == leaf)
    if (strpref(par->name, (char *)user_object))
    {
      user_rc++;
      user_string = strappend(user_string, par->name, " ", (char *)0);
    }
}

/* ====================================================================== */
/* A parameter may not be separated from its first option by spaces, in   */
/* this case this function looks for a valid flag as a prefix and splits  */
/* the command line queue (eg: "-pa1" -> "-pa" "1" if "-pa" is a valid    */
/* option).                                                               */
/*                                                                        */
/* IN  word : the word to be checked.                                     */
/* IN  ctx  : the context in which the flag indexed by the word is to be  */
/*            checked.                                                    */
/* OUT pos  : the offset in word pointing just after the matching prefix. */
/* OUT opt  : a pointer to the option associated with the new parameter   */
/*            or NULL if none is found.                                   */
/*                                                                        */
/* The returned pointer must be freed by the caller.                      */
/* ====================================================================== */
static char *
look_for_valid_prefix_in_word(char *word, ctx_t *ctx, int *pos, opt_t **opt)
{
  char *new = NULL;
  int    len;
  par_t *par;
  par_t  tmp_par = { 0 };

  len = strlen(word);

  if (len > 2)
  {
    new = xstrdup(word);

    do
    {
      new[--len]   = '\0';
      tmp_par.name = new;
    } while ((par = locate_par(tmp_par.name, ctx)) == NULL && len > 2);

    if (par != NULL)
    {
      *pos = len;
      *opt = par->opt;
    }
    else
    {
      free(new);
      new = NULL;
    }
  }
  else
    *pos = 0;

  return new;
}

/* ============================================================= */
/* If par_name is an unique abbreviation of an exiting parameter */
/* in the context ctx, then return this parameter.               */
/* ============================================================= */
static char *
abbrev_expand(char *par_name, ctx_t *ctx)
{
  user_object = par_name;
  user_rc     = 0;

  *user_string = '\0';
  bst_walk(ctx->par_bst, match_prefix_cb);
  rtrim(user_string, " ", 0);

  /* The previous bst_walk has built a string of blank separated parameters */
  /* all having par_name as prefix. This string is put in the user_string   */
  /* exchange zone. The number of these words in put in user_rc.            */
  /* """""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
  if (user_rc == 1) /* The number of matching abbreviations. */
    return xstrdup(user_string);
  else /* There is at least two defined parameters starting with par_name. */
  {
    char  *s, *first_s;
    par_t *par;
    opt_t *opt;
    int    opt_count   = 0;
    void  *tmp_opt_bst = NULL;

    /* Find all the options corresponding to these words and store them   */
    /* without duplication in a temporary BST. Only their resulting count */
    /* matters.                                                           */
    /* """""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
    s = first_s = strtok(user_string, " "); /* first_s holds a copy of *
                                             | the first word.         */
    while (s != NULL)
    {
      par = locate_par(s, ctx); /* par cannot be NULL here. */
      opt = par->opt;

      if (bst_find(opt, &tmp_opt_bst, opt_compare) == NULL)
      {
        /* This option as not already been seen    */
        /* store it and increase the seen counter. */
        /* """"""""""""""""""""""""""""""""""""""" */
        bst_search(opt, &tmp_opt_bst, opt_compare);
        opt_count++;
      }
      s = strtok(NULL, " ");
    }

    /* Clean the temporary BST without removing the pointer */
    /* to the real options.                                 */
    /* """""""""""""""""""""""""""""""""""""""""""""""""""" */
    if (tmp_opt_bst != NULL)
      bst_destroy(tmp_opt_bst, NULL);

    if (opt_count == 1)
      /* All the abbreviation are leading to only one option */
      /* We can just continue as in the previous case.       */
      /* """"""""""""""""""""""""""""""""""""""""""""""""""" */
      return xstrdup(first_s);
    else
      return NULL;
  }
}

/* ================================================================ */
/* Terminate the program if mandatory options required by a context */
/* are not present.                                                 */
/* ================================================================ */
static void
check_for_missing_mandatory_opt(ctx_inst_t *ctx_inst, char *opt_par)
{
  char *missing;

  if (has_unseen_mandatory_opt(ctx_inst, &missing))
    fatal(CTXOPTMISPAR, missing);
}

/* ====================================================== */
/* Return 1 if at least one mandatory option was not seen */
/* when quitting a context, else 0.                       */
/* ====================================================== */
static int
has_unseen_mandatory_opt(ctx_inst_t *ctx_inst, char **missing)
{
  user_rc      = 0;
  *user_string = '\0';

  bst_walk(ctx_inst->seen_opt_bst, bst_seen_opt_cb);
  rtrim(user_string, " ", 0);

  *missing = user_string;

  return user_rc ? 1 : 0;
}

/* ========================================================================= */
/* This function terminates the program if an option or its arguments do not */
/* conform to its occurrences constraint.                                    */
/* There constraints can appear by trailing >, < or = in their definition    */
/* given in ctxopt_new_ctx.                                                  */
/* ========================================================================= */
static void
check_for_occurrence_issues(ctx_inst_t *ctx_inst)
{
  ctx_t      *ctx = ctx_inst->ctx;
  opt_t      *opt;
  ll_node_t  *node;
  opt_inst_t *opt_inst;
  char       *cur_opt_params   = cur_state->cur_opt_params;
  char       *cur_opt_par_name = cur_state->cur_opt_par_name;

  /* Checks options. */
  /* """"""""""""""" */
  node = ctx->opt_list->head;

  while (node != NULL)
  {
    opt = node->data;

    /* Update current_state. */
    /* """"""""""""""""""""" */
    cur_state->cur_opt_params = opt->params;
    cur_state->opts_count     = opt->opt_count_mark;
    cur_state->opt_args_count = opt->opt_args_count_mark;

    if (opt->opt_count_matter)
      switch (opt->opt_count_oper)
      {
        case '=':
          if (opt->occurrences > 0 && opt->opt_count_mark != opt->occurrences)
            fatal(CTXOPTCTEOPT, "");
          break;

        case '<':
          if (opt->occurrences > 0 && opt->opt_count_mark <= opt->occurrences)
            fatal(CTXOPTCTLOPT, "");
          break;

        case '>':
          if (opt->occurrences > 0 && opt->opt_count_mark >= opt->occurrences)
            fatal(CTXOPTCTGOPT, "");
          break;
      }

    node = node->next;
  }

  /* Checks arguments. */
  /* """"""""""""""""" */
  node = ctx_inst->opt_inst_list->head;
  while (node != NULL)
  {
    opt_inst = node->data;
    opt      = opt_inst->opt;

    /* Update current_state. */
    /* """"""""""""""""""""" */
    cur_state->cur_opt_par_name = opt_inst->par;
    cur_state->opts_count       = opt->opt_count_mark;
    cur_state->opt_args_count   = opt->opt_args_count_mark;

    int nb_values = opt_inst->values_list->len; /* Number of arguments of opt */

    if (opt->opt_args_count_matter)
      switch (opt->opt_args_count_oper)
      {
        case '=':
          if (nb_values > 0 && opt->opt_args_count_mark != nb_values)
            fatal(CTXOPTCTEARG, "");
          break;

        case '<':
          if (nb_values > 0 && opt->opt_args_count_mark <= nb_values)
            fatal(CTXOPTCTLARG, "");
          break;

        case '>':
          if (nb_values > 0 && opt->opt_args_count_mark >= nb_values)
            fatal(CTXOPTCTGARG, "");
          break;
      }

    node = node->next;
  }
  cur_state->cur_opt_params   = cur_opt_params;
  cur_state->cur_opt_par_name = cur_opt_par_name;
}

/* ====================================================================== */
/* This function terminates the program if all the options which are part */
/* of a group of required options by some other option are missing.       */
/* ====================================================================== */
static void
check_for_requirement_issues(ctx_inst_t *ctx_inst)
{
  ll_node_t *node;
  ll_node_t *req_node;
  req_t     *req;
  opt_t     *opt;
  opt_t     *req_opt;
  bst_t     *bst_node;
  seen_opt_t tmp_seen_opt;
  int        found;
  char      *needed_params = NULL;

  node = ctx_inst->opt_req_list->head;

  while (node != NULL)
  {
    req = node->data;

    opt              = req->opt;
    tmp_seen_opt.opt = opt;

    bst_node = bst_find(&tmp_seen_opt,
                        &(ctx_inst->seen_opt_bst),
                        seen_opt_compare);

    /* TODO: make sure bst_node cannot be NULL here. */

    if (bst_node && ((seen_opt_t *)(bst_node->key))->seen != 0)
    {
      found    = 0;
      req_node = req->or_opt_list->head;

      /* needed_params accumulates the params of the options in the group. */
      /* """"""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
      free(needed_params); /* free can applied to the NULL pointer. */
      needed_params = xstrdup("");

      /* Go through the list of the required group of options and */
      /* succeed when one of them has been seen in the context.   */
      /* otherwise a fatal error is triggered and the program is  */
      /* terminated.                                              */
      /* """""""""""""""""""""""""""""""""""""""""""""""""""""""" */
      while (req_node != NULL)
      {
        req_opt          = req_node->data;
        tmp_seen_opt.opt = req_opt;
        needed_params    = strappend(needed_params,
                                  req_opt->params,
                                  "\n  ",
                                  (char *)0);

        bst_node = bst_find(&tmp_seen_opt,
                            &(ctx_inst->seen_opt_bst),
                            seen_opt_compare);

        if (((seen_opt_t *)(bst_node->key))->seen != 0)
        {
          found = 1; /* A required option has been seen, */
          break;     /* accept the group.                */
        }
        req_node = req_node->next;
      }

      rtrim(needed_params, "\n ", 0);

      /* This is a fatal error if none of the options in the required */
      /* options group has been seen in the context.                  */
      /* """""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
      if (!found)
      {
        char *errmsg;

        if (req->or_opt_list->len > 1)
          errmsg = xstrdup("At least one of the parameters among:\n  %s\n"
                           "requested by %s must be present.\n");
        else
          errmsg = xstrdup("The parameter %s "
                           "requested by %s must be present.\n");

        cur_state->req_opt_par_needed = needed_params;
        cur_state->req_opt_par        = opt->params;

        fatal(CTXOPTREQPAR, errmsg);
      }
    }

    node = node->next;
  }
}

/* ======================================================================== */
/* Parse a strings describing options and some of their characteristics     */
/* The input string must have follow some rules like in the examples below: */
/*                                                                          */
/* "opt_name1 opt_name2"                                                    */
/* "[opt_name1] opt_name2"                                                  */
/* "[opt_name1] opt_name2..."                                               */
/* "[opt_name1 #...] opt_name2... [#]"                                      */
/* "[opt_name1 [#...]] opt_name2... [#...]"                                 */
/*                                                                          */
/* Where [ ] encloses an optional part, # means: has parameters and ...     */
/* means that  there can be more than one occurrence of the previous thing. */
/*                                                                          */
/* opt_name can be followed by a 'new context' change prefixed with the     */
/* symbol >, as in opt1>c2 by eg.                                           */
/*                                                                          */
/* This function returns as soon as one (or no) option has been parsed and  */
/* return the offset to the next option to parse.                           */
/*                                                                          */
/* In case of successful parsing, an new option is allocated and its        */
/* pointer returned.                                                        */
/* ======================================================================== */
static int
opt_parse(char *s, opt_t **opt)
{
  int      opt_optional          = 0;
  int      opt_multiple          = 0;
  int      opt_count_matter      = 0;
  char     opt_count_oper        = '\0';
  unsigned opt_count_mark        = 0;
  int      opt_args              = 0;
  char     opt_arg[33]           = { 0 };
  int      opt_multiple_args     = 0;
  int      opt_args_count_matter = 0;
  char     opt_args_count_oper   = '\0';
  unsigned opt_args_count_mark   = 0;
  int      opt_optional_args     = 0;
  int      opt_eval_first        = 0;

  int n;
  int pos;
  int count = 0;

  char *s_orig = s;

  char *p;
  char *opt_name = NULL;
  char *next_ctx;
  char  token[65];

  *opt = NULL;
  memset(opt_arg, '\0', 33);

  /* Strip the leading blanks. */
  /* """"""""""""""""""""""""" */
  while (isblank(*s))
    s++;

  if (*s == '[') /* Start of an optional option. */
  {
    opt_optional = 1;
    s++;
  }
  s = strtoken(s, token, sizeof(token) - 1, "[^] \n\t.]", &pos);
  if (s == NULL)
    return -1; /* Empty string. */

  /* Early EOS, only return success if the option is mandatory. */
  /* """""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
  if (!*s)
    if (opt_optional == 1)
      return -(s - s_orig - 1);

  /* Validate the option name */
  /* ALPHA+(ALPHANUM|_)*      */
  /* """""""""""""""""""""""" */
  p = token;
  if (!isalpha(*p) && *p != '*')
    return -(s - s_orig - 1); /* opt_name must start with a letter. */

  if (*p == '*')
    opt_eval_first = 1;

  p++;
  while (*p)
  {
    if (!isalnum(*p) && *p != '_' && *p != '>')
      return -(s - s_orig - 1); /* opt_name must contain a letter, *
                                 * a number or a _                 */
    p++;
  }

  if (opt_eval_first)
    opt_name = xstrdup(token + 1); /* Ignore the first '*' in token. */
  else
    opt_name = xstrdup(token);

  if (*s == ']')
  {
    s++;
    while (isblank(*s))
      s++;

    goto success;
  }

  /* Check if it can appear multiple times by looking for the dots. */
  /* """""""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
  p = strtoken(s, token, 3, "[.]", &pos);
  if (p)
  {
    if (strcmp(token, "...") == 0)
    {
      opt_multiple = 1;
      s            = p;
      if (*s == '<' || *s == '=' || *s == '>')
      {
        unsigned value;
        int      offset;

        n = sscanf(s + 1, "%u%n", &value, &offset);
        if (n == 1)
        {
          opt_count_matter = 1;
          opt_count_oper   = *s;
          opt_count_mark   = value;
        }
        s += offset + 1;
      }
    }
    else
    {
      free(opt_name);
      return -(s - s_orig - 1);
    }
  }

  if (*s == ']')
  {
    /* Abort on extraneous ] if the option is mandatory. */
    /* """"""""""""""""""""""""""""""""""""""""""""""""" */
    if (!opt_optional)
    {
      free(opt_name);
      return -(s - s_orig - 1);
    }

    s++; /* skip the ] */

    if (!*s || isblank(*s))
      goto success;
    else
    {
      free(opt_name);
      return -(s - s_orig - 1);
    }
  }

  /* A blank separates the option name and the argument tag. */
  /* """"""""""""""""""""""""""""""""""""""""""""""""""""""" */
  if (isblank(*s))
  {
    char dots[4];

    while (isblank(*s))
      s++;

    if (!*s)
      goto success;

    pos = 0;
    n   = sscanf(s, "[%32[^] .\t]%n%3[.]", opt_arg, &pos, dots);
    if (pos > 1 && *opt_arg == '#') /* [# has been read. */
    {
      opt_args          = 1;
      opt_optional_args = 1;
      if (n == 2)
        opt_multiple_args = 1; /* There were dots. */

      s += pos + !!(n == 2) * 3; /* Skips the dots. */

      if (*s == '<' || *s == '=' || *s == '>')
      {
        unsigned value;
        int      offset;

        n = sscanf(s + 1, "%u%n", &value, &offset);
        if (n == 1)
        {
          opt_args_count_matter = 1;
          opt_args_count_oper   = *s;
          opt_args_count_mark   = value;
        }
        s += offset + 1;
      }

      /* Optional arg tag must end with a ] */
      /* """""""""""""""""""""""""""""""""" */
      if (*s != ']')
      {
        free(opt_name);
        return -(s - s_orig - 1);
      }

      s++; /* Skip the ] */
    }
    else
    {
      n = sscanf(s, "%32[^] .\t]%n%3[.]", opt_arg, &pos, dots);
      if (pos > 0 && *opt_arg == '#') /* # has been read. */
      {
        opt_args = 1;
        if (n == 2) /* There were dots. */
          opt_multiple_args = 1;

        s += pos + !!(n == 2) * 3; /* Skip the dots. */

        if (*s == '<' || *s == '=' || *s == '>')
        {
          unsigned value;
          int      offset;

          n = sscanf(s + 1, "%u%n", &value, &offset);
          if (n == 1)
          {
            opt_args_count_matter = 1;
            opt_args_count_oper   = *s;
            opt_args_count_mark   = value;
          }
          s += offset + 1;
        }
      }
    }
    if (*s == ']')
    {
      /* Abort on extraneous ] if the option is mandatory. */
      /* """"""""""""""""""""""""""""""""""""""""""""""""" */
      if (!opt_optional)
      {
        free(opt_name);
        return -(s - s_orig - 1);
      }

      s++; /* skip the ] */

      /* Strip the following blanks. */
      /* """"""""""""""""""""""""""" */
      while (isblank(*s))
        s++;

      goto success;
    }
    else if (opt_optional == 0 && (!*s || isblank(*s)))
    {
      /* Strip the following blanks. */
      /* """"""""""""""""""""""""""" */
      while (isblank(*s))
        s++;

      goto success;
    }
    else if (opt_args == 0) /* # was not read it is possibly the start *
                             | of another option.                      */
      goto success;
    else
    {
      free(opt_name);
      return -(s - s_orig - 1);
    }
  }

success:

  /* Strip the following blanks. */
  /* """"""""""""""""""""""""""" */
  while (isblank(*s))
    s++;

  next_ctx = NULL;

  if (*opt_name == '>')
    fatal_internal("The option name is missing in %s.", opt_name);

  count = strchrcount(opt_name, '>');
  if (count == 1)
  {
    char *tmp = strchr(opt_name, '>');
    next_ctx  = xstrdup(tmp + 1);
    *tmp      = '\0';
  }
  else if (count > 1)
    fatal_internal("Only one occurrence of '>' is allowed in %s.", opt_name);

  *opt = xmalloc(sizeof(opt_t));

  (*opt)->name                  = opt_name;
  (*opt)->optional              = opt_optional;
  (*opt)->multiple              = opt_multiple;
  (*opt)->opt_count_matter      = opt_count_matter;
  (*opt)->opt_count_oper        = opt_count_oper;
  (*opt)->opt_count_mark        = opt_count_mark;
  (*opt)->args                  = opt_args;
  (*opt)->arg                   = xstrdup(opt_arg);
  (*opt)->optional_args         = opt_optional_args;
  (*opt)->multiple_args         = opt_multiple_args;
  (*opt)->opt_args_count_matter = opt_args_count_matter;
  (*opt)->opt_args_count_oper   = opt_args_count_oper;
  (*opt)->opt_args_count_mark   = opt_args_count_mark;
  (*opt)->eval_first            = opt_eval_first;
  (*opt)->next_ctx              = next_ctx;
  (*opt)->ctx_list              = ll_new();
  (*opt)->constraints_list      = ll_new();
  (*opt)->eval_before_list      = ll_new();
  (*opt)->action                = NULL;
  (*opt)->params                = NULL;
  (*opt)->data                  = NULL;
  (*opt)->visible_in_help       = 1;

  return s - s_orig;
}

/* ==================================================================== */
/* Try to initialize all the option in a given string.                  */
/* Each parsed option are put in a BST tree with its name as index.     */
/*                                                                      */
/* On collision, the arguments only the signature are required to be    */
/* the same else this is considered as an error. Options can be used in */
/* more than one context and can be optional in one and mandatory in    */
/* another.                                                             */
/* ==================================================================== */
static int
init_opts(char *spec, ctx_t *ctx)
{
  opt_t *opt, *bst_opt;
  bst_t *node;
  int    offset;

  while (*spec)
  {
    if ((offset = opt_parse(spec, &opt)) > 0)
    {
      spec += offset;

      if ((node = bst_find(opt, &options_bst, opt_compare)) != NULL)
      {
        int same_next_ctx = 0;

        bst_opt = node->key; /* Node extracted from the BST. */

        if (bst_opt->next_ctx == NULL && opt->next_ctx == NULL)
          same_next_ctx = 1;
        else if (bst_opt->next_ctx == NULL && opt->next_ctx != NULL)
          same_next_ctx = 0;
        else if (bst_opt->next_ctx != NULL && opt->next_ctx == NULL)
          same_next_ctx = 0;
        else
          same_next_ctx = strcmp(bst_opt->next_ctx, opt->next_ctx) == 0;

        if (bst_opt->optional_args != opt->optional_args
            || bst_opt->multiple_args != opt->multiple_args
            || bst_opt->args != opt->args || !same_next_ctx)
        {
          fatal_internal("The option %s already exists with "
                         "a different arguments signature.\n",
                         opt->name);
        }

        /* The newly created opt is already present in options_bst. */
        /* We can remove it.                                        */
        /* """""""""""""""""""""""""""""""""""""""""""""""""""""""" */
        opt_free(opt);

        /* The new occurrence of the option option is legal */
        /* append the current context ptr in the list.      */
        /* """""""""""""""""""""""""""""""""""""""""""""""" */
        ll_append(bst_opt->ctx_list, ctx);

        /* Append the new option to the context's options list. */
        /* """""""""""""""""""""""""""""""""""""""""""""""""""" */
        ll_append(ctx->opt_list, bst_opt);
      }
      else
      {
        /* Initialize the option's context list with the current context. */
        /* """""""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
        ll_append(opt->ctx_list, ctx);

        /* Append the new option to the context's options list. */
        /* """""""""""""""""""""""""""""""""""""""""""""""""""" */
        ll_append(ctx->opt_list, opt);

        /* Insert the new option in the BST. */
        /* """"""""""""""""""""""""""""""""" */
        bst_search(opt, &options_bst, opt_compare);
      }
    }
    else
    {
      char *s = xstrndup(spec, -offset);
      printf("%s <---\nSyntax error at or before offset %d\n", s, -offset);
      free(s);

      exit(EXIT_FAILURE);
    }
  }

  return 1;
}

/* ===================================================== */
/* ctxopt initialization function, must be called first. */
/* ===================================================== */
void
ctxopt_init(char *prog_name, char *init_flags)
{
  int n;

  contexts_bst = NULL;
  options_bst  = NULL;
  char *ptr;

  user_rc      = 0;
  user_value   = 0;
  user_string  = xmalloc(8);
  user_string2 = xmalloc(8);
  user_object  = NULL;
  char flag[33], fname[31], vname[31];
  int  invalid;

  ctxopt_initialized = 1;

  /* Initialize current_state.*/
  /* """""""""""""""""""""""" */
  cur_state = xcalloc(sizeof(state_t), 0);

  /* Initialize custom error function pointers to NULL. */
  /* """""""""""""""""""""""""""""""""""""""""""""""""" */
  err_functions = xmalloc(CTXOPTERRSIZ * sizeof(void *));
  for (n = 0; n < CTXOPTERRSIZ; n++)
    err_functions[n] = NULL;

  /* Parse init_flags if any. */
  /* """""""""""""""""""""""" */
  while (*init_flags && (init_flags = get_word(init_flags, flag, 32)))
  {
    if (*flag)
    {
      if (sscanf(flag, "%30[^=]=%30[^=]", fname, vname) != 2)
        fatal_internal("Invalid flag assignment: %s.", flag);

      if (strcmp(fname, "stop_if_non_option") == 0)
      {
        if (eval_yes(vname, &invalid))
          flags.stop_if_non_option = 1;
        else if (!invalid)
          flags.stop_if_non_option = 0;
        else
          fatal_internal("Invalid flag value for %s: %s.", fname, vname);
      }
      else if (strcmp(fname, "allow_abbreviations") == 0)
      {
        if (eval_yes(vname, &invalid))
          flags.allow_abbreviations = 1;
        else if (!invalid)
          flags.allow_abbreviations = 0;
        else
          fatal_internal("Invalid flag value for %s: %s.", fname, vname);
      }
      else if (strcmp(fname, "display_usage_on_error") == 0)
      {
        if (eval_yes(vname, &invalid))
          flags.display_usage_on_error = 1;
        else if (!invalid)
          flags.display_usage_on_error = 0;
        else
          fatal_internal("Invalid flag value for %s: %s.", fname, vname);
      }
      else
        fatal_internal("Invalid flag name: %s.", fname);
    }
  }

  /* Update current_state. */
  /* """"""""""""""""""""" */
  if (prog_name)
  {
    if (*prog_name == '\0')
      cur_state->prog_name = xstrdup("program_name");
    else if ((ptr = strrchr(prog_name, '/')))
      cur_state->prog_name = xstrdup(ptr + 1);
    else
      cur_state->prog_name = xstrdup(prog_name);
  }
  else
    cur_state->prog_name = xstrdup("program_name");
}

/* ========================================================================= */
/* Utility function which create and register a par_t object in a BST        */
/* embedded in a context.                                                    */
/* This object will have a name and a pointer to the option it refers to.    */
/* These object will be used to quickly find an option from a command        */
/* line parameter during the analysis phase.                                 */
/*                                                                           */
/* IN      : an option name.                                                 */
/* IN      : a string of command line parameters to associate to the option. */
/* Returns : 1 is all was fine else 0.                                       */
/* ========================================================================= */
static int
opt_set_parms(char *opt_name, char *par_str)
{
  char  *par_name, *ctx_name;
  char  *tmp_par_str, *end_tmp_par_str;
  ctx_t *ctx;
  opt_t *opt;
  bst_t *node;
  par_t *par, tmp_par;
  int    rc = 1; /* Return code. */

  ll_t      *list;
  ll_node_t *lnode;

  /* Look if the given option is defined. */
  /* """""""""""""""""""""""""""""""""""" */
  opt = locate_opt(opt_name);
  if (opt == NULL)
    fatal_internal("Unknown option %s.", opt_name);

  /* For each context using this option. */
  /* """"""""""""""""""""""""""""""""""" */
  list = opt->ctx_list;

  lnode = list->head;
  while (lnode != NULL)
  {
    /* Locate the context in the contexts tree. */
    /* """""""""""""""""""""""""""""""""""""""" */
    ctx_name = ((ctx_t *)(lnode->data))->name;

    ctx = locate_ctx(ctx_name);
    if (ctx == NULL)
      fatal_internal("Unknown context %s.", ctx_name);
    else
    {
      void *par_bst = ctx->par_bst;

      tmp_par_str = xstrdup(par_str);
      ltrim(tmp_par_str, " \t");
      rtrim(tmp_par_str, " \t", 0);
      par_name = xstrtok_r(tmp_par_str, " \t,", &end_tmp_par_str);
      if (par_name == NULL)
        fatal_internal("Parameters are missing for option %s.", opt_name);

      /* For each parameter given in par_str, creates a par_t object and */
      /* insert it the in the parameters BST of the context.             */
      /* """"""""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
      while (par_name != NULL)
      {
        tmp_par.name = par_name;

        node = bst_find(&tmp_par, &par_bst, par_compare);
        if (node != NULL)
        {
          fatal_internal("The parameter %s is already defined in context %s.",
                         par_name,
                         ctx->name);
          rc = 0;
        }
        else
        {
          par       = xmalloc(sizeof(par_t));
          par->name = xstrdup(par_name);
          par->opt  = opt; /* Link the option to this parameter. */

          bst_search(par, &par_bst, par_compare);
        }
        par_name = xstrtok_r(NULL, " \t,", &end_tmp_par_str);
      }

      /* Update the value of the root of ctx->par_bst as it may have */
      /* been modified.                                              */
      /* """"""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
      ctx->par_bst = par_bst;

      free(tmp_par_str);
    }
    lnode = lnode->next;
  }

  return rc;
}

/* ==================================================================== */
/* Create a new context instance.                                       */
/* IN ctx            : a context pointer to allow this instance to      */
/*                     access the context fields                        */
/* IN prev_ctx_inst  : the context instance whose option leading to the */
/*                     creation of this new context instance is part of */
/* Returns           : the new context.                                 */
/* ==================================================================== */
static ctx_inst_t *
new_ctx_inst(ctx_t *ctx, ctx_inst_t *prev_ctx_inst)
{
  opt_t      *opt;
  opt_inst_t *gen_opt_inst;
  ctx_inst_t *ctx_inst;
  seen_opt_t *seen_opt;
  char       *str, *opt_name;
  void       *bst;
  bst_t      *bst_node;

  /* Keep a trace of the opt_inst which was at the origin of the creation */
  /* of this context instance.                                            */
  /* This will serve during the evaluation of the option callbacks.       */
  /* """""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
  if (prev_ctx_inst != NULL)
  {
    gen_opt_inst = (opt_inst_t *)(prev_ctx_inst->opt_inst_list->tail->data);

    /* Update current_state. */
    /* """"""""""""""""""""" */
    cur_state->opt_name = gen_opt_inst->opt->name;
  }
  else
    gen_opt_inst = NULL;

  /* Create and initialize the new context instance. */
  /* """"""""""""""""""""""""""""""""""""""""""""""" */
  ctx_inst                  = xmalloc(sizeof(ctx_inst_t));
  ctx_inst->ctx             = ctx;
  ctx_inst->prev_ctx_inst   = prev_ctx_inst;
  ctx_inst->gen_opt_inst    = gen_opt_inst;
  ctx_inst->incomp_bst_list = ll_new();
  ctx_inst->opt_inst_list   = ll_new();
  ctx_inst->opt_req_list    = ll_new();
  ctx_inst->seen_opt_bst    = NULL;

  ll_node_t *node;

  if (prev_ctx_inst == NULL)
    first_ctx_inst = ctx_inst;

  /* Initialize the occurrence counters of each opt allowed in the context. */
  /* """""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
  node = ctx->opt_list->head;
  while (node != NULL)
  {
    opt              = node->data;
    opt->occurrences = 0;

    node = node->next;
  }

  /* Initialize the BST containing the seen indicator for all the options */
  /* allowed in this context instance.                                    */
  /* """""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
  node = ctx->opt_list->head;
  while (node != NULL)
  {
    opt            = node->data;
    seen_opt       = xmalloc(sizeof(seen_opt_t));
    seen_opt->opt  = opt;
    seen_opt->par  = NULL;
    seen_opt->seen = 0;

    bst_search(seen_opt, &(ctx_inst->seen_opt_bst), seen_opt_compare);

    node = node->next;
  }

  /* Initialize the BST containing the incompatibles options.              */
  /* Incompatibles option names are read from strings found in the list    */
  /* incomp_list present in each instance of ctx_t.                        */
  /* These names are then used to search for the object of type seen_opt_t */
  /* which is already present in the seen_opt_bst of the context instance. */
  /* in the BST.                                                           */
  /* Once found the seen_opt_t object in inserted in the new BST.          */
  /* At the end the new BST in added to the list incomp_bst_list.          */
  /* """"""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
  node = ctx->incomp_list->head;
  while (node != NULL)
  {
    bst = NULL;
    seen_opt_t tmp_seen_opt;

    str = xstrdup(node->data);
    ltrim(str, " \t");
    rtrim(str, " \t", 0);
    opt_name = strtok(str, " \t"); /* Extract the first option name. */

    while (opt_name != NULL) /* For each option name. */
    {
      if ((opt = locate_opt(opt_name)) != NULL)
      {
        /* The option found is searched in the tree of potential */
        /* seen options.                                         */
        /* """"""""""""""""""""""""""""""""""""""""""""""""""""" */
        tmp_seen_opt.opt = opt;

        bst_node = bst_find(&tmp_seen_opt,
                            &(ctx_inst->seen_opt_bst),
                            seen_opt_compare);

        if (bst_node != NULL)
        {
          /* If found then it is added into the new BST tree. */
          /* """""""""""""""""""""""""""""""""""""""""""""""" */
          seen_opt = bst_node->key;
          bst_search(seen_opt, &bst, seen_opt_compare);
        }
        else
          /* Not found! That means that the option is unknown in this */
          /* context as all options has have a seen_opt structure in  */
          /* seen_opt_bst.                                            */
          /* """""""""""""""""""""""""""""""""""""""""""""""""""""""" */
          fatal_internal("%s is not known in the context %s.",
                         opt->name,
                         ctx->name);
      }
      else
        fatal_internal("Unknown option %s.", opt_name);

      opt_name = strtok(NULL, " \t");
    }

    free(str);
    ll_append(ctx_inst->incomp_bst_list, bst);

    node = node->next;
  }

  /* Initialize the list of res_t structures according to the     */
  /* list set in the context by ctxopt_add_ctx_settings/required. */
  /* """""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
  node = ctx->req_list->head;
  while (node != NULL)
  {
    req_t *req = xmalloc(sizeof(req_t));

    str = xstrdup(node->data);
    ltrim(str, " \t");
    rtrim(str, " \t", 0);
    opt_name = strtok(str, " \t"); /* Extract the first option name. */

    if ((opt = locate_opt(opt_name)) != NULL)
    {
      req->opt         = opt;
      req->or_opt_list = ll_new();
      while ((opt_name = strtok(NULL, " \t")) != NULL)
      {
        if ((opt = locate_opt(opt_name)) != NULL)
          ll_append(req->or_opt_list, opt);
        else
          fatal_internal("Unknown option %s.", opt_name);
      }
      ll_append(ctx_inst->opt_req_list, req);
    }
    else
      fatal_internal("Unknown option %s.", opt_name);

    free(str);

    node = node->next;
  }
  return ctx_inst;
}

/* ====================================================================== */
/* Create a list formed by all the significant command line words         */
/* Words beginning or ending with { or } are split. Each of these         */
/* symbols will get their own place in the list.                          */
/*                                                                        */
/* the {...} part delimits a context, the { will not appear in the list   */
/* and the } will be replaced by a | in the resulting list (cmdline_list) */
/* to facilitate the parsing phase. | must not be used by the end user.   */
/*                                                                        */
/* IN nb_word : number of word to parse, this is typically argc-1 as the  */
/*              program name is not considered.                           */
/* IN words   : is the array of strings constituting the command line to  */
/*              parse.                                                    */
/* Returns    : 1 on success, 0 if a { or } is missing.                   */
/* ====================================================================== */
static int
ctxopt_build_cmdline_list(int nb_words, char **words)
{
  int        i;
  char      *prev_word = NULL;
  char      *word;
  char      *ptr;
  int        level = 0;
  ll_node_t *node, *start_node;

  /* The analysis is divided into three passes, this is not optimal but  */
  /* must be done only one time. Doing that we privilege readability.    */
  /*                                                                     */
  /* In the following, SG is the ASCII character 1d (dec 29)             */
  /*                                                                     */
  /* The first pass creates the list, extract the leading an trailing    */
  /*  SG '{' and '}' of each word and give them their own place in the   */
  /* list                                                                */
  /*                                                                     */
  /* The second pass transform the '{...}' blocks by a trailing SG       */
  /* ({...} -> ...|)                                                     */
  /*                                                                     */
  /* The last pass remove the duplicated SG, check for SG, '{' or '}' in */
  /* the middle in the remaining list elements and recreate the pseudo   */
  /* argument: {}                                                        */
  /* """"""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */

  /* If the option list is not empty, clear it before going further. */
  /* """"""""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
  if (cmdline_list != NULL)
    ll_destroy(cmdline_list, free);

  cmdline_list = ll_new();

  start_node = cmdline_list->head; /* In the following loop start_node will *
                                    | contain a pointer to the current      *
                                    | word stripped from its leading        *
                                    | sequence of {, }.                     */
  for (i = 0; i < nb_words; i++)
  {
    size_t len = strlen(words[i]);
    size_t start, end;
    char  *str;

    str = words[i];

    /* Replace each occurrence of the legal word {} by the characters */
    /* 0x02 and 0x03 to hide them from the following process.         */
    /* """""""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
    while ((ptr = strstr(str, "{}")) != NULL)
    {
      *ptr       = 0x02; /* Arbitrary values unlikely */
      *(ptr + 1) = 0x03; /* present in a word.        */
    }

    if (len > 1) /* The word contains at least 2 characters. */
    {
      start = 0;

      /* Interpret its beginning and look for the start of the real word. */
      /* """""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
      while (start <= len - 1 && (str[start] == '{' || str[start] == '}'))
      {
        ll_append(cmdline_list, xstrndup(str + start, 1));
        start++;
        start_node = cmdline_list->tail;
      }

      end = len - 1;
      if (str[end] == '{' || str[end] == '}')
      {
        if (end > 0 && str[end - 1] != '\\')
        {
          ll_append(cmdline_list, xstrndup(str + end, 1));
          end--;
          node = cmdline_list->tail;

          while (str[end] == '{' || str[end] == '}')
          {
            if (end > start && str[end - 1] == '\\')
              break;

            ll_insert_before(cmdline_list, node, xstrndup(str + end, 1));
            end--;
            node = node->prev;
          }
        }
      }

      if (start <= end)
      {
        if (start_node != NULL)
          ll_insert_after(cmdline_list,
                          start_node,
                          xstrndup(str + start, end - start + 1));
        else
          ll_append(cmdline_list, xstrndup(str + start, end - start + 1));
        start_node = cmdline_list->tail;
      }
    }
    else if (len == 1)
    {
      ll_append(cmdline_list, xstrdup(str));
      start_node = cmdline_list->tail;
    }
  }

  /* 2nd pass. */
  /* """"""""" */
  node = cmdline_list->head;

  level = 0;
  while (node != NULL)
  {
    word = node->data;

    if (strcmp(word, "{") == 0)
    {
      ll_node_t *old_node = node;
      level++;
      node = node->next;
      free(word);
      ll_delete(cmdline_list, old_node);
    }
    else if (strcmp(word, "}") == 0)
    {
      level--;

      if (level < 0)
        return 0;
      else
        *word = 0x1d;
    }
    else
      node = node->next;
  }

  if (level != 0)
    return 0;

  /* 3rd pass. */
  /* """"""""" */
  node = cmdline_list->head;

  while (node != NULL)
  {
    word = node->data;

    /* Restore the original { and } characters forming the legal word {}. */
    /* """""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
    while ((ptr = strchr(word, 0x02)) != NULL)
      *ptr = '{';
    while ((ptr = strchr(word, 0x03)) != NULL)
      *ptr = '}';

    /* Remove a SG if the previous element is SG. */
    /* """""""""""""""""""""""""""""""""""""""""" */
    if (strcmp(word, "\x1d") == 0)
    {
      if (prev_word != NULL && (strcmp(prev_word, "\x1d") == 0))
      {
        ll_node_t *old_node = node;
        node                = node->prev;
        free(old_node->data);
        ll_delete(cmdline_list, old_node);
      }
    }
    else if (strcmp(word, "-") == 0) /* A single - is a legal argument, not *
                                      | a parameter. Protect it.            */
    {
      free(node->data);
      node->data = xstrdup("\\-");
    }

    prev_word = node->data;
    node      = node->next;
  }

  /* Clean useless and SG at the beginning and end of list. */
  /* """""""""""""""""""""""""""""""""""""""""""""""""""""" */
  node = cmdline_list->head;

  if (node == NULL)
    return 1;

  word = node->data;

  if (strcmp(word, "\x1d") == 0)
  {
    free(word);
    ll_delete(cmdline_list, node);
  }

  node = cmdline_list->tail;
  if (node == NULL)
    return 1;

  word = node->data;

  if (strcmp(word, "\x1d") == 0)
  {
    free(word);
    ll_delete(cmdline_list, node);
  }

  return 1;
}

/* ===================================================================== */
/* Build and analyze the command line list and create the linked data    */
/* structures whose data will be evaluated later by ctxopt_evaluate.     */
/* This function identifies the following errors and creates an array of */
/* The remaining not yet analyzed arguments.                             */
/* - detect missing arguments                                            */
/* - detect too many arguments                                           */
/* - detect unknown parameters in a context                              */
/* - detect too many occurrences of a parameters in a context            */
/* - detect missing required arguments in a context                      */
/*                                                                       */
/* IN nb_word : number of word to parse, this is typically argc-1 as the */
/*              program name is not considered                           */
/* IN words   : is the array of strings constituting the command line to */
/*              parse.                                                   */
/* OUT nb_rem_args : nb of remaining command line arguments if a --      */
/*                   is present in the list.                             */
/* OUT rem_args    : array of remaining command line arguments if a --   */
/*                   is present in the list. This array must be free by  */
/*                   The caller as it is allocated here.                 */
/* ===================================================================== */
void
ctxopt_analyze(int nb_words, char **words, int *nb_rem_args, char ***rem_args)
{
  char *ctxopt_debug_env; /* Environment variable CTXOPT_DEBUG content.  */
  int   ctxopt_debug;     /* 1 if ctxopt_debug_env is set and not empty. *
                           | 0 if ctxopt_debug_env is unset or empty.    */

  ctx_t      *ctx;
  opt_t      *opt = NULL;
  par_t      *par;
  ctx_inst_t *ctx_inst;
  opt_inst_t *opt_inst;
  int         expect_par        = 0;
  int         expect_arg        = 0;
  int         expect_par_or_arg = 0;

  ll_node_t  *cli_node;
  bst_t      *bst_node;
  seen_opt_t *bst_seen_opt;
  char       *par_name;
  void       *bst;

  ll_node_t *node;

  if (!ctxopt_build_cmdline_list(nb_words, words))
    fatal_internal("The command line could not be parsed: "
                   "missing '{' or '}' detected.");

  if (main_ctx == NULL)
    fatal_internal("At least one context must have been created.");

  /* Check that all options has an action and at least one parameter. */
  /* """""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
  bst_walk(options_bst, bst_check_opt_cb);

  /* CTXOPT debug setting. */
  /* """"""""""""""""""""" */
  ctxopt_debug_env = getenv("CTXOPT_DEBUG");
  if (ctxopt_debug_env != NULL && *ctxopt_debug_env != '\0')
    ctxopt_debug = 1;
  else
    ctxopt_debug = 0;

  /* Create the first ctx_inst record. */
  /* """"""""""""""""""""""""""""""""" */
  ctx = main_ctx;

  ctx_inst_list      = ll_new();
  ctx_inst           = new_ctx_inst(ctx, NULL);
  ctx_inst->par_name = NULL;

  /* Update current_state. */
  /* """"""""""""""""""""" */
  cur_state->ctx_name = ctx->name;

  ll_append(ctx_inst_list, ctx_inst);

  /* For each node in the command line. */
  /* """""""""""""""""""""""""""""""""" */
  cli_node   = cmdline_list->head;
  expect_par = 1;
  par_name   = NULL;

  while (cli_node != NULL)
  {
    if (strcmp(cli_node->data, "--") == 0)
      break; /* No new parameter will be analyzed after this point. */

    par_name = cli_node->data;

    /* Replace a leading -- by a single - */
    /* """""""""""""""""""""""""""""""""" */
    if (strncmp(par_name, "--", 2) == 0)
      par_name += 1; /* Ignore the first dash. */

    if (strcmp(par_name, "\x1d") == 0)
    {
      check_for_missing_mandatory_opt(ctx_inst, (char *)(cli_node->prev->data));
      check_for_occurrence_issues(ctx_inst);
      check_for_requirement_issues(ctx_inst);

      /* Forced backtracking to the previous context instance. */
      /* """"""""""""""""""""""""""""""""""""""""""""""""""""" */
      if (ctx_inst->prev_ctx_inst != NULL)
      {
        ctx_inst = ctx_inst->prev_ctx_inst;
        ctx      = ctx_inst->ctx;

        /* Update current_states. */
        /* """""""""""""""""""""  */
        cur_state->ctx_name     = ctx->name;
        cur_state->ctx_par_name = ctx_inst->par_name;

        if (ctxopt_debug)
          fprintf(stderr,
                  "CTXOPT_DEBUG: Context forced backtrack, "
                  "new current context: %s.\n",
                  ctx->name);
      }
      else
      {
        /* Update current_state. */
        /* """"""""""""""""""""" */
        cur_state->ctx_par_name = NULL;
      }
    }
    else if (expect_par && *par_name == '-')
    {
      int   pos = 0;
      char *prefix;

      /* Update current_state. */
      /* """"""""""""""""""""" */
      cur_state->cur_opt_par_name = par_name;
      cur_state->ctx_name         = ctx->name;
      cur_state->ctx_par_name     = ctx_inst->par_name;

      if (ctxopt_debug)
        fprintf(stderr,
                "CTXOPT_DEBUG: Parameter: %s. Current context: %s.\n",
                par_name,
                cur_state->ctx_name);

      /* An expected parameter has been seen. */
      /* """""""""""""""""""""""""""""""""""" */
      if ((par = locate_par(par_name, ctx)) == NULL)
      {
        opt_t *popt;
        char  *word;

        /* Look if this parameter is an unique abbreviation of a longer */
        /* parameter. If this is the case then just replace it with its */
        /* full length version and try again.                           */
        /* """""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
        if (flags.allow_abbreviations)
          if ((word = abbrev_expand(par_name, ctx)) != NULL)
          {
            cli_node->data = word;
            continue;
          }

        /* Try to find a prefix which is a valid parameter in this context */
        /* If found, split the cli_node in two to build a new parameter    */
        /* node and followed by a node containing the remaining string     */
        /* If the new parameter corresponds to an option not taking        */
        /* argument then prefix the remaining string whit a dash as it may */
        /* contain a new parameter.                                        */
        /* The new parameter will be re-evaluated in the next iteration of */
        /* the loop.                                                       */
        /* """"""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""*/
        prefix = look_for_valid_prefix_in_word(par_name, ctx, &pos, &popt);
        if (prefix != NULL && pos != 0)
        {
          if (ctxopt_debug)
            fprintf(stderr,
                    "CTXOPT_DEBUG: Found a valid parameter "
                    "as a prefix of %s: %s.\n",
                    par_name,
                    prefix);

          cli_node->data = prefix; /* prefix contains le name of a valid *
                                    | parameter in this context.         */

          if (popt->args)
          {
            /* The parameter may be followed by arguments. */
            /* ''''''''''''''''''''''''''''''''''''''''''' */
            if (*(par_name + pos) == '-')
            {
              word = xstrdup("\\"); /* Protect the '-' */
              word = strappend(word, par_name + pos, (char *)0);
            }
            else
              word = xstrdup(par_name + pos);
          }
          else
          {
            /* The parameter does not take arguments, the    */
            /* following word must be a parameter or nothing */
            /* hence prefix it with a dash.                  */
            /* ''''''''''''''''''''''''''''''''''''''''''''' */
            word = xstrdup("-");
            word = strappend(word, par_name + pos, (char *)0);
          }

          /* Insert it after the current node in the list. */
          /* """"""""""""""""""""""""""""""""""""""""""""" */
          ll_insert_after(cmdline_list, cli_node, word);

          continue; /* loop. */
        }
        else
        {
          check_for_missing_mandatory_opt(ctx_inst, par_name);
          check_for_occurrence_issues(ctx_inst);
          check_for_requirement_issues(ctx_inst);

          if (ctx_inst->prev_ctx_inst == NULL)
          {
            char *errmsg = xstrdup("");

            /* Update current_state. */
            /* """"""""""""""""""""" */
            cur_state->ctx_par_name = NULL;

            *user_string  = '\0';
            *user_string2 = '\0';

            user_string = strappend(user_string, par_name, (char *)0);

            bst_walk(contexts_bst, bst_match_par_cb);

            if (*user_string2 != '\0')
            {
              char *help_msg;
              int   count = 0;

              count = strchrcount(user_string2, '\n');

              if (flags.display_usage_on_error)
                help_msg = ", see below";
              else
                help_msg = "";

              if (count == 0) /* Only one context involved. */
                errmsg = strappend(
                  errmsg,
                  "\nThis parameter is only valid in the following "
                  "context:\n",
                  user_string2,
                  "\n\nFirst switch to this context using the appropriate "
                  "parameter",
                  help_msg,
                  ".\n",
                  (char *)0);
              else
                errmsg = strappend(
                  errmsg,
                  "\nThis parameter is only valid in one of the following "
                  "contexts:\n",
                  user_string2,
                  "\n\nFirst switch to one of them using the appropriate "
                  "parameter",
                  help_msg,
                  ".\n",
                  (char *)0);
            }

            fatal(CTXOPTUNKPAR, errmsg);
          }
          else
          {
            /* Tries to backtrack and analyse the same parameter in the */
            /* previous context.                                        */
            /* """""""""""""""""""""""""""""""""""""""""""""""""""""""" */
            ctx_inst = ctx_inst->prev_ctx_inst;
            ctx      = ctx_inst->ctx;

            if (ctxopt_debug)
              fprintf(stderr,
                      "CTXOPT_DEBUG: Context backtrack, "
                      "new current context: %s.\n",
                      ctx->name);

            /* Update current_state. */
            /* """"""""""""""""""""" */
            cur_state->ctx_name     = ctx->name;
            cur_state->ctx_par_name = ctx_inst->par_name;

            cli_node = cli_node->prev;
          }
        }
      }
      else
      {
        seen_opt_t seen_opt;

        /* The parameter is valid in the context, create a opt_inst and */
        /* append it to the ctx_inst list options list.                 */
        /* """""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
        opt = par->opt;

        opt->occurrences++;

        opt_inst                = xmalloc(sizeof(opt_inst_t));
        opt_inst->opt           = opt;
        opt_inst->par           = par_name;
        opt_inst->values_list   = ll_new();
        opt_inst->next_ctx_inst = NULL;

        /* Update current_state. */
        /* """"""""""""""""""""" */
        cur_state->cur_opt_params = opt->params;

        /* Priority option are inserted at the start of the opt_inst list */
        /* but their order of appearance in the context definition must   */
        /* be preserver so each new priority option will be placed after  */
        /* the previous ones at the start of the opt_inst list.           */
        /* """""""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
        if (!opt->eval_first)
        {
          /* Look if we have a registered dependency in the order of the */
          /* evaluation of two options.                                  */
          /* """"""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
          if (opt->eval_before_list->len > 0)
          {
            ll_t      *list = ctx_inst->opt_inst_list;
            ll_node_t *opt_inst_node;

            ll_t      *before_list = opt->eval_before_list;
            ll_node_t *before_node = before_list->head;

            ll_node_t *target_node = NULL; /* If not NULL, the new node    *
                                            |  will be inserted before it. */

            /* For each entry in eval_before_list, try to find if it       */
            /* refers to an option already entered in the context. If this */
            /* is the case, insert it just before it instead of putting it */
            /* at the end.                                                 */
            /* """"""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
            while (before_node != NULL)
            {
              opt_inst_node = list->head;

              while (opt_inst_node != target_node)
              {
                opt_t *tmp_opt = (((opt_inst_t *)opt_inst_node->data))->opt;

                /* We have found an option mentioned if the before_list  */
                /* of the option we want to add. We can stop searching.  */
                /* """"""""""""""""""""""""""""""""""""""""""""""""""""" */
                if (strcmp(tmp_opt->name, ((opt_t *)before_node->data)->name))
                  opt_inst_node = opt_inst_node->next;
                else
                  target_node = opt_inst_node; /* Set the target node. */
              }

              before_node = before_node->next;
            }

            /* Insert or append ? */
            /* """""""""""""""""" */
            if (target_node != NULL)
              ll_insert_before(ctx_inst->opt_inst_list, target_node, opt_inst);
            else
              ll_append(ctx_inst->opt_inst_list, opt_inst);
          }
          else
            ll_append(ctx_inst->opt_inst_list, opt_inst);
        }
        else
        {
          ll_node_t  *opt_inst_node = ctx_inst->opt_inst_list->head;
          opt_inst_t *tmp_opt_inst;

          while (opt_inst_node != NULL)
          {
            tmp_opt_inst = opt_inst_node->data;
            if (!tmp_opt_inst->opt->eval_first)
            {
              ll_insert_before(ctx_inst->opt_inst_list,
                               opt_inst_node,
                               opt_inst);
              break;
            }
            else
              opt_inst_node = opt_inst_node->next;
          }
          if (opt_inst_node == NULL)
            ll_append(ctx_inst->opt_inst_list, opt_inst);
        }

        /* Check if an option was already seen in the */
        /* current context instance.                  */
        /* """""""""""""""""""""""""""""""""""""""""" */
        seen_opt.opt = opt;

        bst_node = bst_find(&seen_opt,
                            &(ctx_inst->seen_opt_bst),
                            seen_opt_compare);

        /* bst_node cannot be NULL here. */

        bst_seen_opt = (seen_opt_t *)(bst_node->key);

        if (!opt->multiple && bst_seen_opt->seen == 1)
          fatal(CTXOPTDUPOPT, "");

        /* Check if this option is compatible with the options already */
        /* seen in this context instance.                              */
        /* Look if the option is present in one on the BST present in  */
        /* the incomp_bst_list of the context instance.                */
        /* """"""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
        node = ctx_inst->incomp_bst_list->head;
        while (node != NULL)
        {
          bst         = node->data;
          user_object = NULL;

          /* There can only have one seen_opt object in the BST tree was */
          /* already seen, try to locate it, the result will be put in   */
          /* user_object by the bst_seen_opt_seen_cb function.           */
          /* """"""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
          bst_walk(bst, bst_seen_opt_seen_cb);

          /* If it is the case, look if the current option is also */
          /* in this BST.                                          */
          /* """"""""""""""""""""""""""""""""""""""""""""""""""""" */
          if (user_object != NULL)
          {
            bst_node = bst_find(bst_seen_opt, &bst, seen_opt_compare);

            if (bst_node != NULL)
            {
              bst_seen_opt = (seen_opt_t *)(bst_node->key);
              if (bst_seen_opt->seen == 0)
                fatal(CTXOPTINCOPT, (char *)user_object);
            }
          }

          node = node->next;
        }

        /* Mark this option as seen in the current context instance. */
        /* """"""""""""""""""""""""""""""""""""""""""""""""""""""""" */
        bst_seen_opt->seen = 1;
        free(bst_seen_opt->par);
        bst_seen_opt->par = xstrdup(par_name);

        /* If this option leads to a next context, create a new ctx_inst */
        /* and switch to it for the analyse of the future parameter.     */
        /* """"""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
        if (opt->next_ctx != NULL)
        {
          ctx = locate_ctx(opt->next_ctx);

          if (ctx == NULL)
            fatal_internal("Unknown context %s.", opt->next_ctx);

          opt_inst->next_ctx_inst = ctx_inst = new_ctx_inst(ctx, ctx_inst);
          ctx_inst->par_name                 = xstrdup(par_name);

          ll_append(ctx_inst_list, ctx_inst);

          if (ctxopt_debug)
            fprintf(stderr,
                    "CTXOPT_DEBUG: Context change, "
                    "new current context: %s.\n",
                    ctx->name);
        }

        /* Look is we must expect some arguments. */
        /* """""""""""""""""""""""""""""""""""""" */
        expect_par_or_arg = 0;
        expect_par        = 0;
        expect_arg        = 0;

        if (!opt->args)
          expect_par = 1; /* Parameter doesn't accept any argument. */
        else
        {
          if (!opt->optional_args)
            expect_arg = 1; /* Parameter has mandatory arguments. */
          else
            expect_par_or_arg = 1; /* Parameter has optional arguments. */
        }
      }
    }
    else if (expect_par && *par_name != '-')
    {
      ll_node_t *n = cli_node->next;

      if (!flags.stop_if_non_option)
        /* Look if potential arguments must still be analyzed until the  */
        /* end of the context/command line part to analyze/command line. */
        /* If this is the case we have met an extra argument.            */
        /* """"""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
        while (n != NULL)
        {
          if (strcmp(n->data, "--") == 0 || strcmp(n->data, "\x1d") == 0)
            fatal(CTXOPTUNXARG, "");

          if (*(char *)(n->data) == '-')
            fatal(CTXOPTUNXARG, "");

          n = n->next;
        }

      break; /* An unexpected non parameter was seen, if no Potential *
              | arguments remain in the command line or               *
              | flags.stop_if_non_option is set, assume that it is is *
              | the first of the non arguments and stop the command   *
              | line analysis.                                        */
    }
    else if (expect_arg && *par_name != '-')
    {
      ll_node_t    *cstr_node;
      constraint_t *cstr;

      if (ctxopt_debug)
        fprintf(stderr, "CTXOPT_DEBUG: Argument: %s.\n", par_name);

      /* Check if the arguments of the option respects */
      /* the attached constraints if any.              */
      /* """"""""""""""""""""""""""""""""""""""""""""" */
      cstr_node = opt->constraints_list->head;
      while (cstr_node != NULL)
      {
        cstr = cstr_node->data;
        if (!cstr->constraint(cstr->nb_args,
                              cstr->args,
                              par_name,
                              cur_state->cur_opt_par_name))
        {
          fputs("\n", stderr);
          ctxopt_ctx_disp_usage(cur_state->ctx_name, exit_after);
        }

        cstr_node = cstr_node->next;
      }

      /* If the argument is valid, store it. */
      /* """"""""""""""""""""""""""""""""""" */
      if (*par_name == '\\' && *(par_name + 1) == '-')
        ll_append(opt_inst->values_list, par_name + 1);
      else
        ll_append(opt_inst->values_list, par_name);

      expect_arg        = 0;
      expect_par        = 0;
      expect_par_or_arg = 0;

      if (opt->multiple_args)
        expect_par_or_arg = 1;
      else
        expect_par = 1; /* Parameter takes only one argument. */
    }
    else if (expect_arg && *par_name == '-')
      fatal(CTXOPTMISARG, "");
    else if (expect_par_or_arg)
    {
      expect_arg        = 0;
      expect_par        = 0;
      expect_par_or_arg = 0;

      if (*par_name != '-')
        expect_arg = 1; /* Consider this word as an argument and retry. */
      else
        expect_par = 1; /* Consider this word as a parameter and retry. */

      cli_node = cli_node->prev;
    }

    cli_node = cli_node->next;
  }

  if (cmdline_list->len > 0 && par_name && *par_name == '-')
  {
    if (expect_arg && opt && !opt->optional_args)
      fatal(CTXOPTMISARG, "");
  }

  /* Look if a context_instance has unseen mandatory options. */
  /* """""""""""""""""""""""""""""""""""""""""""""""""""""""" */
  node = ctx_inst_list->head;
  while (node != NULL)
  {
    ctx_inst = node->data;

    /* Update current_state. */
    /* """"""""""""""""""""" */
    cur_state->ctx_name     = ctx_inst->ctx->name;
    cur_state->ctx_par_name = ctx_inst->par_name;

    check_for_missing_mandatory_opt(ctx_inst, par_name);
    check_for_occurrence_issues(ctx_inst);
    check_for_requirement_issues(ctx_inst);

    node = node->next;
  }

  /* Allocate the array containing the remaining not analyzed */
  /* command line arguments.                                  */
  /* NOTE: The strings in the array are just pointer to the   */
  /*       data of the generating list and must not be freed. */
  /* """""""""""""""""""""""""""""""""""""""""""""""""""""""" */
  if (cli_node != NULL)
  {
    if (strcmp((char *)cli_node->data, "--") == 0)
      /* The special parameter -- was encountered, the -- argument is not */
      /* put in the remaining arguments.                                  */
      /* '''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''' */
      ll_strarray(cmdline_list, cli_node->next, nb_rem_args, rem_args);
    else
      /* A non parameter was encountered when a parameter was expected. We  */
      /* assume that the evaluation of the remaining command line  argument */
      /* are not the responsibility of the users code.                      */
      /* '''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''' */
      ll_strarray(cmdline_list, cli_node, nb_rem_args, rem_args);
  }
  else
  {
    *nb_rem_args   = 0;
    *rem_args      = xmalloc(sizeof(char *));
    (*rem_args)[0] = NULL;
  }
}

/* ==================================================== */
/* Free ctxopt memory used for its internal structures. */
/* ==================================================== */
void
ctxopt_free_memory(void)
{
  ll_destroy(cmdline_list, free);
  ll_destroy(ctx_inst_list, ctx_inst_free);
  bst_destroy(options_bst, opt_free);
  bst_destroy(contexts_bst, ctx_free);
}

/* ==================================================================== */
/* Parse the options data structures and launches the callback function */
/* attached to each options instances.                                  */
/* This calls a recursive function which proceeds context per context.  */
/* ==================================================================== */
void
ctxopt_evaluate(void)
{
  evaluate_ctx_inst(first_ctx_inst);
}

/* =================================================================== */
/* Recursive function called by ctxopt_evaluate to process the list of */
/* the opt_inst present in a ctx_inst and attempt  to evaluate the     */
/* action attached to the context and its option instances.            */
/* =================================================================== */
static void
evaluate_ctx_inst(ctx_inst_t *ctx_inst)
{
  opt_inst_t *opt_inst;
  ctx_t      *ctx;
  opt_t      *opt;
  ll_node_t  *opt_inst_node;
  char      **args;
  int         nb_args;

  if (ctx_inst == NULL)
    return;

  ctx = ctx_inst->ctx;

  /* Do not evaluate the action attached to this context is there is no */
  /* option to evaluate.                                                */
  /* """""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
  opt_inst_node = ctx_inst->opt_inst_list->head;
  if (opt_inst_node == NULL)
    return;

  /* Call the entering action attached to this context if any. */
  /* """"""""""""""""""""""""""""""""""""""""""""""""""""""""" */
  if (ctx->action != NULL)
  {
    if (ctx_inst->prev_ctx_inst != NULL)
      ctx->action(ctx->name,
                  entering,
                  ctx_inst->prev_ctx_inst->ctx->name,
                  ctx->nb_data,
                  ctx->data);
    else
      ctx->action(ctx->name, entering, NULL, ctx->nb_data, ctx->data);
  }

  /* For each instance of options. */
  /* """"""""""""""""""""""""""""" */
  while (opt_inst_node != NULL)
  {
    opt_inst = (opt_inst_t *)(opt_inst_node->data);
    ll_strarray(opt_inst->values_list,
                opt_inst->values_list->head,
                &nb_args,
                &args);
    opt = opt_inst->opt;

    /* Launch the attached action if any. */
    /* """""""""""""""""""""""""""""""""" */
    if (opt->action != NULL)
      opt->action(ctx->name,
                  opt->name,
                  opt_inst->par,
                  nb_args,
                  args,
                  opt->nb_data,
                  opt->data,
                  ctx->nb_data,
                  ctx->data);

    if (opt_inst->next_ctx_inst != NULL)
      evaluate_ctx_inst(opt_inst->next_ctx_inst);

    if (args != NULL)
      free(args);

    opt_inst_node = opt_inst_node->next;
  }

  /* Call the exiting action attached to this context if any. */
  /* """""""""""""""""""""""""""""""""""""""""""""""""""""""" */
  if (ctx->action != NULL)
  {
    if (ctx_inst->prev_ctx_inst != NULL)
      ctx->action(ctx->name,
                  exiting,
                  ctx_inst->prev_ctx_inst->ctx->name,
                  ctx->nb_data,
                  ctx->data);
    else
      ctx->action(ctx->name, exiting, NULL, ctx->nb_data, ctx->data);
  }
}

/* ============================================================ */
/* Create and initializes a new context.                        */
/* - allocate space.                                            */
/* - name it.                                                   */
/* - initialize its option with a few of their characteristics. */
/* ============================================================ */
void
ctxopt_new_ctx(char *name, char *opts_specs)
{
  ctx_t *ctx;
  char  *p;

  if (!ctxopt_initialized)
    fatal_internal("Please call ctxopt_init first.");

  ctx = xmalloc(sizeof(ctx_t));

  /* Validates the context name: */
  /* ALPHA+(ALPHANUM|_)*         */
  /* """"""""""""""""""""""""""" */
  p = name;
  if (*p == '\0' || !isalpha(*p))
    fatal_internal("A context name must start with a letter: %s.", name);

  p++;
  while (*p)
  {
    if (!isalnum(*p) && *p != '_')
      fatal_internal("A context name must only contain letters, "
                     "numbers or '_': %s.",
                     name);
    p++;
  }

  ctx->name        = xstrdup(name);
  ctx->opt_list    = ll_new(); /* List of options legit in this context.   */
  ctx->incomp_list = ll_new(); /* List of incompatible options strings.    */
  ctx->req_list    = ll_new(); /* List of opts/required opts tuples (str). */
  ctx->par_bst     = NULL;
  ctx->data        = NULL;
  ctx->action      = NULL;

  /* The first created context is the main one. */
  /* """""""""""""""""""""""""""""""""""""""""" */
  if (contexts_bst == NULL)
  {
    main_ctx = ctx;

    cur_state->ctx_name = ctx->name;
  }

  if (init_opts(opts_specs, ctx) == 0)
    exit(EXIT_FAILURE);
  if (bst_find(ctx, &contexts_bst, ctx_compare) != NULL)
    fatal_internal("The context %s already exists.", name);
  else
    bst_search(ctx, &contexts_bst, ctx_compare);
}

/* ==================================================== */
/* Display a usage screen limited to a specific context */
/* IN: the context name.                                */
/* IN: what to do after (continue or exit the program)  */
/*     possible values: continue_after, exit_after.     */
/* ==================================================== */
void
ctxopt_ctx_disp_usage(char *ctx_name, usage_behaviour action)
{
  ctx_t *ctx;
  ll_t  *list;

  int has_optional    = 0;
  int has_ellipsis    = 0;
  int has_rule        = 0;
  int has_generic_arg = 0;
  int has_ctx_change  = 0;
  int has_early_eval  = 0;

  if (!flags.display_usage_on_error)
    return;

  ctx = NULL;

  if (ctx_name != NULL)
    ctx = locate_ctx(ctx_name);
  else
    ctx = locate_ctx(cur_state->ctx_name);

  if (ctx == NULL)
    fatal_internal("Unknown context %s.", ctx_name);

  if (cur_state->ctx_par_name == NULL)
    printf("\nSynopsis:\n%s \\\n", cur_state->prog_name);
  else
    printf("\nSynopsis for the context introduced by %s:\n",
           cur_state->ctx_par_name);

  list = ctx->opt_list;
  print_options(list,
                &has_optional,
                &has_ellipsis,
                &has_rule,
                &has_generic_arg,
                &has_ctx_change,
                &has_early_eval);

  print_before_constraints(list);

  print_explanations(has_early_eval,
                     has_ctx_change,
                     has_generic_arg,
                     has_optional,
                     has_ellipsis,
                     has_rule);

  if (action == exit_after)
    exit(EXIT_FAILURE);
}

/* =================================================== */
/* Display a full usage screen about all contexts.     */
/* IN: what to do after (continue or exit the program) */
/*     possible values: continue_after, exit_after.    */
/* =================================================== */
void
ctxopt_disp_usage(usage_behaviour action)
{
  ll_t *list;
  int   has_optional    = 0;
  int   has_ellipsis    = 0;
  int   has_rule        = 0;
  int   has_generic_arg = 0;
  int   has_ctx_change  = 0;
  int   has_early_eval  = 0;

  if (!flags.display_usage_on_error)
    return;

  if (main_ctx == NULL)
    fatal_internal("At least one context must have been created.");

  /* Usage for the first context. */
  /* """""""""""""""""""""""""""" */
  printf("\nAllowed options in the base context:\n");
  list = main_ctx->opt_list;
  print_options(list,
                &has_optional,
                &has_ellipsis,
                &has_rule,
                &has_generic_arg,
                &has_ctx_change,
                &has_early_eval);

  /* Dependency constraints between options. */
  /* """"""""""""""""""""""""""""""""""""""" */
  print_before_constraints(list);

  /* Usage for the other contexts. */
  /* """"""""""""""""""""""""""""" */
  bst_walk(contexts_bst, bst_print_ctx_cb);

  /* Contextual syntactic explanations. */
  /* """""""""""""""""""""""""""""""""" */
  print_explanations(has_early_eval,
                     has_ctx_change,
                     has_generic_arg,
                     has_optional,
                     has_ellipsis,
                     has_rule);

  if (action == exit_after)
    exit(EXIT_FAILURE);
}

/* ************************************ */
/* Built-in constraint check functions. */
/* ************************************ */

/* ============================================================= */
/* This constraint checks if each arguments respects a format as */
/* defined for the scanf function.                               */
/* return 1 if yes and 0 if no.                                  */
/* ============================================================= */
int
ctxopt_format_constraint(int nb_args, char **args, char *value, char *par)
{
  int rc = 0;

  char  x[256];
  char  y;
  char *format;

  if (nb_args != 1)
    fatal_internal("Format constraint, invalid number of parameters.");

  if (strlen(value) > 255)
    value[255] = '\0';

  format = xstrdup(args[0]);
  format = strappend(format, "%c", (char *)0);

  rc = sscanf(value, format, x, &y);
  if (rc != 1)
    fprintf(stderr,
            "The argument %s of %s does not respect the imposed format %s.",
            value,
            par,
            args[0]);

  free(format);

  return rc == 1;
}

/* ================================================================== */
/* This constraint checks if each arguments of the option instance is */
/* between a minimum and a maximum (inclusive).                       */
/* return 1 if yes and 0 if no.                                       */
/* ================================================================== */
int
ctxopt_re_constraint(int nb_args, char **args, char *value, char *par)
{
  regex_t re;

  if (nb_args != 1)
    fatal_internal(
      "Regular expression constraint, invalid number of parameters.");

  if (regcomp(&re, args[0], REG_EXTENDED) != 0)
    fatal_internal("Invalid regular expression %s.", args[0]);

  if (regexec(&re, value, (size_t)0, NULL, 0) != 0)
  {
    fprintf(stderr,
            "The argument %s of %s doesn't match the constraining "
            "regular expression %s.",
            value,
            par,
            args[0]);
    return 0;
  }

  regfree(&re);

  return 1;
}

/* ================================================================== */
/* This constraint checks if each arguments of the option instance is */
/* between a minimum and a maximum (inclusive).                       */
/* return 1 if yes and 0 if no.                                       */
/* ================================================================== */
int
ctxopt_range_constraint(int nb_args, char **args, char *value, char *par)
{
  long  min = LONG_MIN, max = LONG_MAX;
  char  c;
  char *ptr;
  int   n;
  long  v;
  int   min_only = 0;
  int   max_only = 0;

  if (nb_args != 2)
    fatal_internal("Range constraint, invalid number of parameters.");

  n = 0;
  if (strcmp(args[0], ".") == 0)
    max_only = 1;
  else
    n = sscanf(args[0], "%ld%c", &min, &c);

  if (!max_only && n != 1)
    fatal_internal("Range constraint, min: invalid parameters.");

  n = 0;
  if (strcmp(args[1], ".") == 0)
    min_only = 1;
  else
    n = sscanf(args[1], "%ld%c", &max, &c);

  if (!min_only && n != 1)
    fatal_internal("Range constraint, max: invalid parameters.");

  if (min_only && max_only)
    fatal_internal("Range constraint, invalid parameters.");

  errno = 0;
  v     = strtol(value, &ptr, 10);
  if (errno || ptr == value)
    return 0;

  if (min_only)
  {
    if (v < min)
    {
      fprintf(stderr,
              "The argument %ld of %s is not greater than or equal to %ld.",
              v,
              par,
              min);
      return 0;
    }
    else
      return 1;
  }
  else if (max_only)
  {
    if (v > max)
    {
      fprintf(stderr,
              "The argument %ld of %s is not less than or equal to %ld.",
              v,
              par,
              max);
      return 0;
    }
    else
      return 1;
  }
  else if (v < min || v > max)
  {
    fprintf(stderr,
            "The argument %ld of %s is not between %ld and %ld.",
            v,
            par,
            min,
            max);
    return 0;
  }

  return 1; /* Check passed. */
}

/* =============================================================== */
/* This function provides a way to set the behaviour of a context. */
/* =============================================================== */
void
ctxopt_add_global_settings(settings s, ...)
{
  va_list(args);
  va_start(args, s);

  switch (s)
  {
    case error_functions:
    {
      typedef void fn(errors e, state_t * state);

      void (*function)(errors e, state_t *state);

      errors e;
      e                = va_arg(args, errors);
      function         = va_arg(args, fn *);
      err_functions[e] = function;
      break;
    }

    default:
      break;
  }
  va_end(args);
}

/* ================================================================ */
/* This function provides a way to set the behaviour of an option.  */
/* It can take a variable number of arguments according to its      */
/* first  argument:                                                 */
/* - parameter:                                                     */
/*   o a string containing an option name and all its possible      */
/*     parameters separates by spaces, tabs or commas (char *)      */
/*     (e.g: "help -h -help").                                      */
/* - actions:                                                       */
/*   o a string containing an option name.                          */
/*   o a pointer to a function which will be called at evaluation   */
/*     time.                                                        */
/* - constraints:                                                   */
/*   o a string containing an option name.                          */
/*   o a pointer to a function to check if an argument is valid.    */
/*   o a strings containing the arguments to this function.         */
/* - visible_in_help:                                               */
/*   o a string containing an option name.                          */
/*   o the string "yes" or "no" (case insensitive) which will       */
/*     determine if the option must be seen in help/usage.          */
/* ================================================================ */
void
ctxopt_add_opt_settings(settings s, ...)
{
  opt_t *opt;
  void  *ptr = NULL;

  va_list(args);
  va_start(args, s);

  switch (s)
  {
    /* This part associates some command line parameters to an option. */
    /* """"""""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
    case parameters:
    {
      char *opt_name = NULL;
      char *params;

      /* The second argument must be a string containing: */
      /* - The name of an existing option.                */
      /* - a list of parameters with a leading dash (-).  */
      /* """""""""""""""""""""""""""""""""""""""""""""""" */
      ptr      = va_arg(args, char *);
      opt_name = ptr;

      if (opt_name != NULL)
      {
        if ((opt = locate_opt(opt_name)) != NULL)
        {
          ptr    = va_arg(args, char *);
          params = ptr;

          if (!opt_set_parms(opt_name, params))
            fatal_internal(
              "Duplicated parameters or bad settings for the option %s.",
              params);
        }
        else
          fatal_internal("Unknown option %s.", opt_name);
      }
      else
        fatal_internal(
          "ctxopt_opt_add_settings: parameters: not enough arguments.");

      /* Here opt is a known option. */
      /* """"""""""""""""""""""""""" */
      if (opt->params != NULL)
        fatal_internal("Parameters are already set for %s.", opt_name);
      else
      {
        size_t n;
        size_t l = strlen(params);

        opt->params = xstrdup(params);
        while ((n = strcspn(opt->params, " \t")) < l)
          opt->params[n] = '|';
      }

      break;
    }

    /* This part associates a callback function to an option.     */
    /* This function will be called when an instance of an option */
    /* is evaluated.                                              */
    /* """""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
    case actions:
    {
      void *data;
      void (*function)();
      int nb_data = 0;

      /* The second argument must be the name of an existing option. */
      /* """"""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
      ptr = va_arg(args, char *);

      if ((opt = locate_opt(ptr)) != NULL)
      {
        typedef void
        fn(char *, char *, char *, int, char **, int, void *, int, void **);

        /* The third argument must be the callback function. */
        /* """"""""""""""""""""""""""""""""""""""""""""""""" */
        function    = va_arg(args, fn *);
        opt->action = function;

        /* The fourth argument must be a pointer to an user's defined   */
        /* variable or structure that the previous function can manage. */
        /* """""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
        while ((data = va_arg(args, void *)) != NULL)
        {
          nb_data++;
          opt->data = xrealloc(opt->data, nb_data * sizeof(void *));
          opt->data[nb_data - 1] = data;
        }
        opt->nb_data = nb_data;
      }
      else
        fatal_internal("Unknown option %s.", ptr);
      break;
    }

    /* This part associates a list of functions to control some */
    /* characteristics of the arguments of an option.           */
    /* Each function will be called in order and must return 1  */
    /* to validate the arguments.                               */
    /* """""""""""""""""""""""""""""""""""""""""""""""""""""""" */
    case constraints:
    {
      char         *value;
      constraint_t *cstr;
      int (*function)();

      /* The second argument must be a string. */
      /* """"""""""""""""""""""""""""""""""""" */
      ptr = va_arg(args, char *);

      if ((opt = locate_opt(ptr)) != NULL)
      {
        typedef int fn(int, char **, char *);

        /* The third argument must be a function. */
        /* """""""""""""""""""""""""""""""""""""" */
        function = va_arg(args, fn *);

        cstr             = xmalloc(sizeof(constraint_t));
        cstr->constraint = function;

        /* The fourth argument must be a string containing the argument of */
        /* The previous function separated by spaces or tabs.              */
        /* Theses arguments will be passed to the previous function        */
        /* max: 32 argument!                                               */
        /* """"""""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
        value = xstrdup(va_arg(args, char *));

        cstr->to_free = value;
        cstr->args    = xcalloc(sizeof(char *), 32);
        cstr->nb_args = str2argv(value, cstr->args, 32);
        ll_append(opt->constraints_list, cstr);
      }
      else
        fatal_internal("Unknown option %s.", ptr);
      break;
    }

    /* This part allows to indicate that an option must be evaluated */
    /* after a list of other options.                                */
    /* """"""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
    case after:
    {
      char *str;

      /* The second argument must be a string. */
      /* """"""""""""""""""""""""""""""""""""" */
      ptr = va_arg(args, char *);

      if ((opt = locate_opt(ptr)) != NULL)
      {
        char  *end_str;
        char  *opt_name;
        opt_t *opt_before;

        ptr = va_arg(args, char *);

        str = xstrdup(ptr);
        ltrim(str, " \t");
        rtrim(str, " \t", 0);

        /* Feed the list of options to be evaluated after the given option. */
        /* This list will contain pointers to options.                      */
        /* """""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
        opt_name = xstrtok_r(str, " \t,", &end_str);
        if (opt_name != NULL)
        {
          if ((opt_before = locate_opt(opt_name)) != NULL)
          {
            ll_append(opt->eval_before_list, opt_before);
            while ((opt_name = xstrtok_r(NULL, " \t,", &end_str)) != NULL)
            {
              if ((opt_before = locate_opt(opt_name)) != NULL)
                ll_append(opt->eval_before_list, opt_before);
              else
                fatal_internal("Unknown option %s.", opt_name);
            }
          }
          else
            fatal_internal("Unknown option %s.", opt_name);
        }
        else
          fatal_internal("Not enough options to be evaluated after %s.",
                         opt->name);

        free(str);
      }
      else
        fatal_internal("Unknown option %s.", ptr);

      break;
    }

    /* This part allows to indicate that an option must be evaluated */
    /* before a list of other options.                               */
    /* """"""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
    case before:
    {
      char *str;

      /* The second argument must be a string. */
      /* """"""""""""""""""""""""""""""""""""" */
      ptr = va_arg(args, char *);

      if ((opt = locate_opt(ptr)) != NULL)
      {
        char  *end_str;
        char  *opt_name;
        opt_t *opt_before;

        ptr = va_arg(args, char *);

        str = xstrdup(ptr);
        ltrim(str, " \t");
        rtrim(str, " \t", 0);

        /* Feed the list of options to be evaluated before the given option. */
        /* This list will contain pointers to options.                       */
        /* """"""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""" */
        opt_name = xstrtok_r(str, " \t,", &end_str);
        if (opt_name != NULL)
        {
          if ((opt_before = locate_opt(opt_name)) != NULL)
          {
            ll_append(opt_before->eval_before_list, opt);
            while ((opt_name = xstrtok_r(NULL, " \t,", &end_str)) != NULL)
            {
              if ((opt_before = locate_opt(opt_name)) != NULL)
                ll_append(opt_before->eval_before_list, opt);
              else
                fatal_internal("Unknown option %s.", opt_name);
            }
          }
          else
            fatal_internal("Unknown option %s.", opt_name);
        }
        else
          fatal_internal("Not enough options to be evaluated before %s.",
                         opt->name);

        free(str);
      }
      else
        fatal_internal("Unknown option %s.", ptr);

      break;
    }

    case visible_in_help:
    {
      char *opt_name;
      char *toggle;

      /* The second argument must be a string containing */
      /* The name of an existing option.                 */
      /* """"""""""""""""""""""""""""""""""""""""""""""" */
      ptr      = va_arg(args, char *);
      opt_name = ptr;

      if (opt_name != NULL)
      {
        if ((opt = locate_opt(opt_name)) != NULL)
        {
          ptr    = va_arg(args, char *);
          toggle = ptr;

          if (stricmp(toggle, "yes") == 0)
            opt->visible_in_help = 1;
          else if (stricmp(toggle, "no") == 0)
            opt->visible_in_help = 0;
          else
            fatal_internal("The value for the visible_in_help setting must be "
                           "\"yes\" or \"no\" (case insensitive).",
                           toggle);
        }
        else
          fatal_internal("Unknown option %s.", opt_name);
      }
      else
        fatal_internal(
          "ctxopt_opt_add_settings: visible_in_help: not enough arguments.");

      break;
    }

    default:
      break;
  }
  va_end(args);
}

/* =============================================================== */
/* This function provides a way to set the behaviour of a context. */
/* =============================================================== */
void
ctxopt_add_ctx_settings(settings s, ...)
{
  ctx_t *ctx;

  va_list(args);
  va_start(args, s);

  switch (s)
  {
    /* Add a set of mutually incompatible options in a context. */
    /* """""""""""""""""""""""""""""""""""""""""""""""""""""""" */
    case incompatibilities:
    {
      void  *ptr;
      ll_t  *list;
      size_t n;
      char  *str;

      ptr = va_arg(args, char *);
      if ((ctx = locate_ctx(ptr)) != NULL)
      {
        ptr  = va_arg(args, char *);
        list = ctx->incomp_list;

        str = xstrdup(ptr);
        ltrim(str, " \t");
        rtrim(str, " \t", 0);

        n = strcspn(str, " \t");
        if (n > 0 && n < strlen(str))
          ll_append(list, str);
        else
          fatal_internal(
            "Not enough incompatible options in the string: \"%s\".",
            str);
      }
      else
        fatal_internal("Unknown context %s.", ptr);
      break;
    }

    case requirements:
    {
      void  *ptr;
      ll_t  *list;
      size_t n;
      char  *str;

      ptr = va_arg(args, char *);
      if ((ctx = locate_ctx(ptr)) != NULL)
      {
        ptr  = va_arg(args, char *);
        list = ctx->req_list;

        str = xstrdup(ptr);
        ltrim(str, " \t");
        rtrim(str, " \t", 0);

        n = strcspn(str, " \t");
        if (n > 0 && n < strlen(str))
          ll_append(list, str);
        else
          fatal_internal("Not enough required options in the string: \"%s\".",
                         str);
      }
      else
        fatal_internal("Unknown context %s.", ptr);
      break;
    }

    /* Add functions which will be called when */
    /* entering and exiting a context.         */
    /* """"""""""""""""""""""""""""""""""""""" */
    case actions:
    {
      void *ptr;
      void *data;
      int (*function)();
      int nb_data = 0;

      ptr = va_arg(args, char *);
      if ((ctx = locate_ctx(ptr)) != NULL)
      {
        typedef int fn(char *, direction, char *, int, void **);

        function    = va_arg(args, fn *);
        ctx->action = function;

        while ((data = va_arg(args, void *)) != NULL)
        {
          nb_data++;
          ctx->data = xrealloc(ctx->data, nb_data * sizeof(void *));
          ctx->data[nb_data - 1] = data;
        }
        ctx->nb_data = nb_data;
      }
      else
        fatal_internal("Unknown context %s.", ptr);
      break;
    }

    default:
      break;
  }
  va_end(args);
}