pdfio/examples/mmd.c

//
// Implementation of miniature markdown library.
//
//     https://www.msweet.org/mmd
//
// Copyright © 2017-2024 by Michael R Sweet.
//
// Licensed under Apache License v2.0.	See the file "LICENSE" for more
// information.
//

//
// Define DEBUG to get debug printf messages to stderr.
//

#define DEBUG 0
#if DEBUG > 0
#  define DEBUG_printf(...)	fprintf(stderr, __VA_ARGS__)
#  define DEBUG_puts(s)		fputs(s, stderr);
#else
#  define DEBUG_printf(...)
#  define DEBUG_puts(s)
#endif // DEBUG > 0
#if DEBUG > 1
#  define DEBUG2_printf(...)	fprintf(stderr, __VA_ARGS__)
#  define DEBUG2_puts(s)	fputs(s, stderr);
#else
#  define DEBUG2_printf(...)
#  define DEBUG2_puts(s)
#endif // DEBUG > 1


//
// Beginning with VC2005, Microsoft breaks ISO C and POSIX conformance
// by deprecating a number of functions in the name of security, even
// when many of the affected functions are otherwise completely secure.
// The _CRT_SECURE_NO_DEPRECATE definition ensures that we won't get
// warnings from their use...
//
// Then Microsoft decided that they should ignore this in VC2008 and use
// yet another define (_CRT_SECURE_NO_WARNINGS) instead...
//

#define _CRT_SECURE_NO_DEPRECATE
#define _CRT_SECURE_NO_WARNINGS
#if _WIN32
#  define strcasecmp stricmp
#endif // _WIN32


#include "mmd.h"
#include <stdlib.h>
#include <ctype.h>
#include <string.h>


//
// Microsoft renames the POSIX functions to _name, and introduces a broken
// compatibility layer using the original names.  As a result, random crashes
// can occur when, for example, strdup() allocates memory from a different heap
// than used by malloc() and free().
//
// To avoid moronic problems like this, we #define the POSIX function names to
// the corresponding non-standard Microsoft names.
//

#ifdef _WIN32
#  define snprintf	_snprintf
#  define strdup	_strdup
#endif // _WIN32


//
// Private structures...
//

struct _mmd_s
{
  mmd_type_t	type;			// Node type
  bool		whitespace;		// Leading whitespace?
  char		*text,			// Text
		*url,			// Reference URL (image/link/etc.)
		*extra;			// Title, language name, etc.
  mmd_t		*parent,		// Parent node
		*first_child,		// First child node
		*last_child,		// Last child node
		*prev_sibling,		// Previous sibling node
		*next_sibling;		// Next sibling node
};

typedef struct _mmd_filebuf_s		// Buffered file
{
  mmd_iocb_t	cb;			// Read callback function
  void		*cbdata;		// Read callback data
  char		buffer[65536],		// Buffer
		*bufptr,		// Pointer into buffer
		*bufend;		// End of buffer
} _mmd_filebuf_t;

typedef struct _mmd_ref_s		// Reference link
{
  char		*name,			// Name of reference
		*url,			// Reference URL
		*title;			// Title, if any
  size_t	num_pending;		// Number of pending nodes
  mmd_t		**pending;		// Pending nodes
} _mmd_ref_t;

typedef struct _mmd_doc_s		// Markdown document
{
  mmd_t		*root;			// Root node
  size_t	num_references;		// Number of references
  _mmd_ref_t	*references;		// References
} _mmd_doc_t;

typedef struct _mmd_stack_s		// Markdown block stack
{
  mmd_t		*parent;		// Parent node
  int		indent;			// Indentation
  char		fence;			// Code fence character
  size_t	fencelen;		// Length of code fence
} _mmd_stack_t;


//
// Local globals...
//

static mmd_option_t	mmd_options = MMD_OPTION_ALL;
					// Markdown extensions to support


//
// Local functions...
//

static mmd_t	*mmd_add(mmd_t *parent, mmd_type_t type, int whitespace, char *text, char *url);
static void	mmd_free(mmd_t *node);
static int	mmd_has_continuation(const char *line, _mmd_filebuf_t *file, int indent);
static size_t	mmd_iocb_file(FILE *fp, char *buffer, size_t bytes);
static size_t	mmd_iocb_string(const char **s, char *buffer, size_t bytes);
static size_t	mmd_is_chars(const char *lineptr, const char *chars, size_t minchars);
static size_t	mmd_is_codefence(char *lineptr, char fence, size_t fencelen, char **language);
static bool	mmd_is_table(_mmd_filebuf_t *file, int indent);
static void	mmd_parse_inline(_mmd_doc_t *doc, mmd_t *parent, char *lineptr);
static char	*mmd_parse_link(_mmd_doc_t *doc, char *lineptr, char **text, char **url, char **title, char **refname);
static void	mmd_read_buffer(_mmd_filebuf_t *file);
static char	*mmd_read_line(_mmd_filebuf_t *file, char *line, size_t linesize);
static void	mmd_ref_add(_mmd_doc_t *doc, mmd_t *node, const char *name, const char *url, const char *title);
static _mmd_ref_t *mmd_ref_find(_mmd_doc_t *doc, const char *name);
static void	mmd_remove(mmd_t *node);
#if DEBUG
static const char *mmd_type_string(mmd_type_t type);
#endif // DEBUG


//
// 'mmdCopyAllText()' - Make a copy of all the text under a given node.
//
// The returned string must be freed using free().
//

char *					// O - Copied string
mmdCopyAllText(mmd_t *node)		// I - Parent node
{
  char		*all = NULL,		// String buffer
		*allptr = NULL,		// Pointer into string buffer
		*temp;			// Temporary pointer
  size_t	allsize = 1,		// Size of "all" buffer
		textlen;		// Length of "text" string
  mmd_t		*current,		// Current node
		*next;			// Next node


  current = mmdGetFirstChild(node);

  while (current != node)
  {
    if (current->text)
    {
      // Append this node's text to the string...
      textlen = strlen(current->text);
      allsize += textlen + (size_t)current->whitespace;
      temp    = realloc(all, allsize);

      if (!temp)
      {
	free(all);
	return (NULL);
      }

      allptr = temp + (allptr - all);
      all    = temp;

      if (current->whitespace)
	*allptr++ = ' ';

      memcpy(allptr, current->text, textlen);
      allptr += textlen;
    }

    // Find the next logical node...
    if ((next = mmdGetNextSibling(current)) == NULL)
    {
      next = mmdGetParent(current);

      while (next && next != node && mmdGetNextSibling(next) == NULL)
	next = mmdGetParent(next);

      if (next != node)
	next = mmdGetNextSibling(next);
    }

    current = next;
  }

  if (allptr)
    *allptr = '\0';

  return (all);
}


//
// 'mmdFree()' - Free a markdown tree.
//

void
mmdFree(mmd_t *node)			// I - First node
{
  mmd_t *current,			// Current node
	*next;				// Next node


  mmd_remove(node);

  for (current = node->first_child; current; current = next)
  {
    // Get the next node...
    if ((next = current->first_child) != NULL)
    {
      // Free parent nodes after child nodes have been freed...
      current->first_child = NULL;
      continue;
    }

    if ((next = current->next_sibling) == NULL)
    {
      // Next node is the parent, which we'll free as needed...
      if ((next = current->parent) == node)
	next = NULL;
    }

    // Free child...
    mmd_free(current);
  }

  // Then free the memory used by the parent node...
  mmd_free(node);
}


//
// 'mmdGetExtra()' - Get extra text (title, language, etc.) associated with a
//		     node.
//

const char *				// O - Extra text or NULL if none
mmdGetExtra(mmd_t *node)		// I - Node
{
  return (node ? node->extra : NULL);
}


//
// 'mmdGetFirstChild()' - Return the first child of a node, if any.
//

mmd_t *					// O - First child or @code NULL@ if none
mmdGetFirstChild(mmd_t *node)		// I - Node
{
  return (node ? node->first_child : NULL);
}


//
// 'mmdGetLastChild()' - Return the last child of a node, if any.
//

mmd_t *					// O - Last child or @code NULL@ if none
mmdGetLastChild(mmd_t *node)		// I - Node
{
  return (node ? node->last_child : NULL);
}


//
// 'mmdGetMetadata()' - Return the metadata for the given keyword.
//

const char *				// O - Value or @code NULL@ if none
mmdGetMetadata(mmd_t	  *doc,		// I - Document
	       const char *keyword)	// I - Keyword
{
  mmd_t		*metadata,		// Metadata node
		*current;		// Current node
  char		prefix[256];		// Prefix string
  size_t	prefix_len;		// Length of prefix string
  const char	*value;			// Pointer to value


  if (!doc || (metadata = doc->first_child) == NULL || metadata->type != MMD_TYPE_METADATA)
    return (NULL);

  snprintf(prefix, sizeof(prefix), "%s:", keyword);
  prefix_len = strlen(prefix);

  for (current = metadata->first_child; current; current = current->next_sibling)
  {
    if (strncmp(current->text, prefix, prefix_len))
      continue;

    value = current->text + prefix_len;
    while (isspace(*value & 255))
      value ++;

    return (value);
  }

  return (NULL);
}


//
// 'mmdGetNextSibling()' - Return the next sibling of a node, if any.
//

mmd_t *					// O - Next sibling or @code NULL@ if none
mmdGetNextSibling(mmd_t *node)		// I - Node
{
  return (node ? node->next_sibling : NULL);
}


//
// 'mmdGetOptions()' - Get the enabled markdown processing options/extensions.
//

mmd_option_t				// O - Enabled options
mmdGetOptions(void)
{
  return (mmd_options);
}


//
// 'mmdGetParent()' - Return the parent of a node, if any.
//

mmd_t *					// O - Parent node or @code NULL@ if none
mmdGetParent(mmd_t *node)		// I - Node
{
  return (node ? node->parent : NULL);
}


//
// 'mmdGetPrevSibling()' - Return the previous sibling of a node, if any.
//

mmd_t *					// O - Previous sibling or @code NULL@ if none
mmdGetPrevSibling(mmd_t *node)		// I - Node
{
  return (node ? node->prev_sibling : NULL);
}


//
// 'mmdGetText()' - Return the text associated with a node, if any.
//

const char *				// O - Text or @code NULL@ if none
mmdGetText(mmd_t *node)			// I - Node
{
  return (node ? node->text : NULL);
}


//
// 'mmdGetType()' - Return the type of a node, if any.
//

mmd_type_t				// O - Type or @code MMD_TYPE_NONE@ if none
mmdGetType(mmd_t *node)			// I - Node
{
  return (node ? node->type : MMD_TYPE_NONE);
}


//
// 'mmdGetURL()' - Return the URL associated with a node, if any.
//

const char *				// O - URL or @code NULL@ if none
mmdGetURL(mmd_t *node)			// I - Node
{
  return (node ? node->url : NULL);
}


//
// 'mmdGetWhitespace()' - Return whether whitespace preceded a node.
//

bool					// O - `true` for leading whitespace, `false` for none
mmdGetWhitespace(mmd_t *node)		// I - Node
{
  return (node ? node->whitespace : false);
}


//
// 'mmdIsBlock()' - Return whether the node is a block.
//

bool					// O - `true` for block nodes, `false` otherwise
mmdIsBlock(mmd_t *node)			// I - Node
{
  return (node ? node->type < MMD_TYPE_NORMAL_TEXT : false);
}


//
// 'mmdLoad()' - Load a markdown file into nodes.
//

mmd_t *					// O - Root node in markdown
mmdLoad(mmd_t      *root,		// I - Root node for document or `NULL` for a new document
        const char *filename)		// I - File to load
{
  FILE		*fp;			// File


  // Open the file and load the document...
  if ((fp = fopen(filename, "r")) == NULL)
    return (NULL);

  root = mmdLoadIO(root, (mmd_iocb_t)mmd_iocb_file, fp);

  // Close and return...
  fclose(fp);

  return (root);
}


//
// 'mmdLoadFile()' - Load a markdown file into nodes from a stdio file.
//

mmd_t *					// O - First node in markdown
mmdLoadFile(mmd_t *root,		// I - Root node for document or `NULL` for a new document
            FILE  *fp)			// I - File to load
{
  return (mmdLoadIO(root, (mmd_iocb_t)mmd_iocb_file, fp));
}


//
// 'mmdLoadIO()' - Load a markdown file into nodes using a callback.
//

mmd_t *					// O - First node in markdown
mmdLoadIO(mmd_t      *root,		// I - Root node for document or `NULL` for a new document
          mmd_iocb_t cb,		// I - Read callback function
          void       *cbdata)		// I - Read callback data
{
  size_t	i;			// Looping var
  _mmd_doc_t	doc;			// Document
  _mmd_ref_t	*reference;		// Current reference
  mmd_t		*block = NULL;		// Current block
  mmd_type_t	type;			// Type for line
  _mmd_filebuf_t file;			// File buffer
  char		line[8192],		// Read line
		*linestart,		// Start of line
		*lineptr,		// Pointer into line
		*lineend,		// End of line
		*temp;			// Temporary pointer
  int		newindent;		// New indentation
  int		blank_code = 0;		// Saved indented blank code line
  mmd_type_t	columns[256];		// Alignment of table columns
  int		num_columns = 0,	// Number of columns in table
		rows = 0;		// Number of rows in table
  _mmd_stack_t	stack[32],		// Block stack
		*stackptr = stack;	// Pointer to top of stack


  // Create an empty document as needed...
  DEBUG_printf("mmdLoadIO: mmd_options=%d%s%s\n", mmd_options, (mmd_options & MMD_OPTION_METADATA) ? " METADATA" : "", (mmd_options & MMD_OPTION_TABLES) ? " TABLES" : "");

  memset(&doc, 0, sizeof(doc));

  if (root)
    doc.root = root;
  else
    doc.root = mmd_add(NULL, MMD_TYPE_DOCUMENT, 0, NULL, NULL);

  if (!doc.root)
    return (NULL);

  // Initialize the block stack...
  memset(stack, 0, sizeof(stack));
  stackptr->parent = doc.root;

  // Read lines until end-of-file...
  memset(&file, 0, sizeof(file));
  file.cb     = cb;
  file.cbdata = cbdata;

#ifdef __clang_analyzer__
  memset(line, 0, sizeof(line));
#endif // __clang_analyzer__

  while ((lineptr = mmd_read_line(&file, line, sizeof(line))) != NULL)
  {
    DEBUG_printf("%03d	%-12s  %s", stackptr->indent, mmd_type_string(stackptr->parent->type) + 9, lineptr);
#if DEBUG
    if (stackptr->parent->type == MMD_TYPE_CODE_BLOCK)
      DEBUG2_printf("	  blank_code=%d\n", blank_code);
#endif // DEBUG

    linestart = lineptr;

    while (isspace(*lineptr & 255))
      lineptr ++;

    DEBUG2_printf("	line indent=%d\n", (int)(lineptr - line));
    DEBUG2_printf("	stackptr=%d\n", (int)(stackptr - stack));

    if (!*lineptr && stackptr->parent->type == MMD_TYPE_TABLE)
    {
      DEBUG2_puts("END TABLE\n");
      stackptr --;
      block = NULL;
      continue;
    }
    else if (stackptr->parent->type != MMD_TYPE_CODE_BLOCK && *lineptr == '>' && (lineptr - linestart) < 4)
    {
      // Block quote.  See if there is an existing blockquote...
      DEBUG_printf("	 BLOCKQUOTE (stackptr=%ld)\n", stackptr - stack);

      if (stackptr == stack || stack[1].parent->type != MMD_TYPE_BLOCK_QUOTE)
      {
	block		 = NULL;
	stackptr	 = stack + 1;
	stackptr->parent = mmd_add(doc.root, MMD_TYPE_BLOCK_QUOTE, 0, NULL, NULL);
	stackptr->indent = 2;
	stackptr->fence	 = '\0';
      }

      // Skip whitespace after the ">"...
      lineptr ++;
      if (isspace(*lineptr & 255))
	lineptr ++;

      linestart = lineptr;

      while (isspace(*lineptr & 255))
	lineptr ++;
    }
    else if (*lineptr != '>' && stackptr > stack && stack[1].parent->type == MMD_TYPE_BLOCK_QUOTE && (!block || *lineptr == '\n' || mmd_is_chars(lineptr, "- \t", 3) || mmd_is_chars(lineptr, "_ \t", 3) || mmd_is_chars(lineptr, "* \t", 3)))
    {
      // Not a lazy continuation so terminate this block quote...
      DEBUG_puts("     Terminating BLOCKQUOTE\n");
      block    = NULL;
      stackptr = stack;
    }

    // Now handle all other markup not related to block quotes...
    DEBUG2_printf("	stackptr=%d (%s), block=%p (%s)\n", (int)(stackptr - stack), mmd_type_string(stackptr->parent->type) + 9, block, block ? mmd_type_string(block->type) + 9 : "");
    DEBUG2_printf("	strchr(lineptr, '|')=%p, mmd_is_table(&file, stackptr->indent)=%d\n", strchr(lineptr, '|'), mmd_is_table(&file, stackptr->indent));
    DEBUG2_printf("	linestart=%d, lineptr=%d\n", (int)(linestart - line), (int)(lineptr - line));
    DEBUG2_printf("	mmd_is_chars(lineptr, \"-\", 1)=%d\n", (int)mmd_is_chars(lineptr, "-", 1));
    DEBUG2_printf("	mmd_is_chars(lineptr, \"=\", 1)=%d\n", (int)mmd_is_chars(lineptr, "=", 1));

    if ((lineptr - line - stackptr->indent) < 4 && ((stackptr->parent->type != MMD_TYPE_CODE_BLOCK && !stackptr->fence && mmd_is_codefence(lineptr, '\0', 0, NULL)) || (stackptr->fence && mmd_is_codefence(lineptr, stackptr->fence, stackptr->fencelen, NULL))))
    {
      // Code fence...
      DEBUG2_printf("stackptr->indent=%d, fence='%c', fencelen=%d\n", stackptr->indent, stackptr->fence, (int)stackptr->fencelen);

      if (stackptr->parent->type == MMD_TYPE_CODE_BLOCK)
      {
	DEBUG2_puts("Ending code block...\n");
	stackptr --;
      }
      else if (stackptr < (stack + sizeof(stack) / sizeof(stack[0]) - 1))
      {
	char	*language;		// Language name, if any

	DEBUG2_printf("Starting code block with fence '%c'.\n", *lineptr);

	block		     = NULL;
	stackptr[1].parent   = mmd_add(stackptr->parent, MMD_TYPE_CODE_BLOCK, 0, NULL, NULL);
	stackptr[1].indent   = lineptr - line;
	stackptr[1].fence    = *lineptr;
	stackptr[1].fencelen = mmd_is_codefence(lineptr, '\0', 0, &language);
	stackptr ++;

	DEBUG2_printf("Code language=\"%s\"\n", language);

	if (language)
	  stackptr->parent->extra = strdup(language);

	blank_code = 0;
      }
      continue;
    }
    else if (stackptr->parent->type == MMD_TYPE_CODE_BLOCK && (lineptr - line) >= stackptr->indent)
    {
      if (line[stackptr->indent] == '\n')
      {
	blank_code ++;
      }
      else
      {
	while (blank_code > 0)
	{
	  mmd_add(stackptr->parent, MMD_TYPE_CODE_TEXT, 0, "\n", NULL);
	  blank_code --;
	}

	mmd_add(stackptr->parent, MMD_TYPE_CODE_TEXT, 0, line + stackptr->indent, NULL);
      }
      continue;
    }
    else if (stackptr->parent->type == MMD_TYPE_CODE_BLOCK && stackptr->fence)
    {
      DEBUG2_printf("	  fence='%c'\n", stackptr->fence);

      if (!*lineptr)
      {
	blank_code ++;
      }
      else
      {
	while (blank_code > 0)
	{
	  mmd_add(stackptr->parent, MMD_TYPE_CODE_TEXT, 0, "\n", NULL);
	  blank_code --;
	}

	mmd_add(stackptr->parent, MMD_TYPE_CODE_TEXT, 0, lineptr, NULL);
      }
      continue;
    }
    else if (!strncmp(lineptr, "---", 3) && doc.root->first_child == NULL && (mmd_options & MMD_OPTION_METADATA))
    {
      // Document metadata...
      block = mmd_add(doc.root, MMD_TYPE_METADATA, 0, NULL, NULL);

      while ((lineptr = mmd_read_line(&file, line, sizeof(line))) != NULL)
      {
	while (isspace(*lineptr & 255))
	  lineptr ++;

	if (!strncmp(lineptr, "---", 3) || !strncmp(lineptr, "...", 3))
	  break;

	lineend = lineptr + strlen(lineptr) - 1;
	if (lineend > lineptr && *lineend == '\n')
	  *lineend = '\0';

	mmd_add(block, MMD_TYPE_METADATA_TEXT, 0, lineptr, NULL);
      }
      continue;
    }
    else if (block && block->type == MMD_TYPE_PARAGRAPH && (lineptr - linestart) < 4 && (lineptr - line) >= stackptr->indent && (mmd_is_chars(lineptr, "-", 1) || mmd_is_chars(lineptr, "=", 1)))
    {
      int ch = *lineptr;

      DEBUG_puts("     SETEXT HEADING\n");

      lineptr += 3;
      while (*lineptr == ch)
	lineptr ++;
      while (isspace(*lineptr & 255))
	lineptr ++;

      if (!*lineptr)
      {
	if (ch == '=')
	  block->type = MMD_TYPE_HEADING_1;
	else
	  block->type = MMD_TYPE_HEADING_2;

	block = NULL;
	continue;
      }

      type = MMD_TYPE_PARAGRAPH;
    }
    else if ((lineptr - linestart) < 4 && (mmd_is_chars(lineptr, "- \t", 3) || mmd_is_chars(lineptr, "_ \t", 3) || mmd_is_chars(lineptr, "* \t", 3)))
    {
      DEBUG_puts("     THEMATIC BREAK\n");

      if (line[0] == '>')
	stackptr = stack + 1;
      else
	stackptr = stack;

      mmd_add(stackptr->parent, MMD_TYPE_THEMATIC_BREAK, 0, NULL, NULL);
//      type  = MMD_TYPE_PARAGRAPH;
      block = NULL;
      continue;
    }
    else if ((*lineptr == '-' || *lineptr == '+' || *lineptr == '*') && (lineptr[1] == '\t' || lineptr[1] == ' '))
    {
      // Bulleted list...
      DEBUG_puts("     UNORDERED LIST\n");

      lineptr	+= 2;
      linestart = lineptr;
      newindent = linestart - line;

      while (isspace(*lineptr & 255))
	lineptr ++;

      while (stackptr > stack && stackptr->indent > newindent)
	stackptr --;

      if (stackptr > stack && stackptr->parent->type == MMD_TYPE_LIST_ITEM && stackptr->indent == newindent)
	stackptr --;

      if (stackptr > stack && stackptr->parent->type == MMD_TYPE_ORDERED_LIST && stackptr->indent == newindent)
	stackptr --;

      if (stackptr > stack && stackptr->parent->type == MMD_TYPE_BLOCK_QUOTE && line[0] != '>')
	stackptr --;

      if (stackptr->parent->type != MMD_TYPE_UNORDERED_LIST && stackptr < (stack + sizeof(stack) / sizeof(stack[0]) - 1))
      {
	stackptr[1].parent = mmd_add(stackptr->parent, MMD_TYPE_UNORDERED_LIST, 0, NULL, NULL);
	stackptr[1].indent = linestart - line;
	stackptr[1].fence  = '\0';
	stackptr ++;
      }

      if (stackptr < (stack + sizeof(stack) / sizeof(stack[0]) - 1))
      {
	stackptr[1].parent = mmd_add(stackptr->parent, MMD_TYPE_LIST_ITEM, 0, NULL, NULL);
	stackptr[1].indent = linestart - line;
	stackptr[1].fence  = '\0';
	stackptr ++;
      }

      type  = MMD_TYPE_PARAGRAPH;
      block = NULL;

      if (mmd_is_chars(lineptr, "- \t", 3) || mmd_is_chars(lineptr, "_ \t", 3) || mmd_is_chars(lineptr, "* \t", 3))
      {
	mmd_add(stackptr->parent, MMD_TYPE_THEMATIC_BREAK, 0, NULL, NULL);
	continue;
      }
    }
    else if (isdigit(*lineptr & 255))
    {
      // Ordered list?
      DEBUG_puts("     ORDERED LIST?\n");

      temp = lineptr + 1;

      while (isdigit(*temp & 255))
	temp ++;

      if ((*temp == '.' || *temp == ')') && (temp[1] == '\t' || temp[1] == ' '))
      {
        // Yes, ordered list.
	lineptr	  = temp + 2;
	linestart = lineptr;
	newindent = linestart - line;

	while (isspace(*lineptr & 255))
	  lineptr ++;

	while (stackptr > stack && stackptr->indent > newindent)
	  stackptr --;

	if (stackptr->parent->type == MMD_TYPE_LIST_ITEM && stackptr->indent == newindent)
	  stackptr --;

	if (stackptr->parent->type == MMD_TYPE_UNORDERED_LIST && stackptr->indent == newindent)
	  stackptr --;

	if (stackptr->parent->type == MMD_TYPE_BLOCK_QUOTE && line[0] != '>')
	  stackptr --;

	if (stackptr->parent->type != MMD_TYPE_ORDERED_LIST && stackptr < (stack + sizeof(stack) / sizeof(stack[0]) - 1))
	{
	  stackptr[1].parent = mmd_add(stackptr->parent, MMD_TYPE_ORDERED_LIST, 0, NULL, NULL);
	  stackptr[1].indent = linestart - line;
	  stackptr[1].fence  = '\0';
	  stackptr ++;
	}

	if (stackptr < (stack + sizeof(stack) / sizeof(stack[0]) - 1))
	{
	  stackptr[1].parent = mmd_add(stackptr->parent, MMD_TYPE_LIST_ITEM, 0, NULL, NULL);
	  stackptr[1].indent = linestart - line;
	  stackptr[1].fence  = '\0';
	  stackptr ++;
	}

	type  = MMD_TYPE_PARAGRAPH;
	block = NULL;
      }
      else
      {
        // No, just a regular paragraph...
	type = block ? block->type : MMD_TYPE_PARAGRAPH;
      }
    }
    else if (*lineptr == '#' && (lineptr - linestart) < 4)
    {
      // Heading, count the number of '#' for the heading level...
      DEBUG_puts("     HEADING?\n");

      newindent = lineptr - line;
      temp	= lineptr + 1;

      while (*temp == '#')
	temp ++;

      if ((temp - lineptr) <= 6 && isspace(*temp & 255))
      {
        // Heading 1-6...
	type  = MMD_TYPE_HEADING_1 + (temp - lineptr - 1);
	block = NULL;

        // Skip whitespace after "#"...
	lineptr = temp;
	while (isspace(*lineptr & 255))
	  lineptr ++;

	linestart = lineptr;

        // Strip trailing "#" characters and whitespace...
	temp = lineptr + strlen(lineptr) - 1;
	while (temp > lineptr && isspace(*temp & 255))
	  *temp-- = '\0';
	while (temp > lineptr && *temp == '#')
	  temp --;
	if (isspace(*temp & 255))
	{
	  while (temp > lineptr && isspace(*temp & 255))
	    *temp-- = '\0';
	}
	else if (temp == lineptr)
	  *temp = '\0';

	while (stackptr > stack && stackptr->indent > newindent)
	  stackptr --;

	block = mmd_add(stackptr->parent, type, 0, NULL, NULL);
      }
      else
      {
        // More than 6 #'s, just treat as a paragraph...
	type = MMD_TYPE_PARAGRAPH;
      }
    }
    else if (block && block->type >= MMD_TYPE_HEADING_1 && block->type <= MMD_TYPE_HEADING_6)
    {
      DEBUG_puts("     PARAGRAPH\n");

      type  = MMD_TYPE_PARAGRAPH;
      block = NULL;
    }
    else if (!block)
    {
      type = MMD_TYPE_PARAGRAPH;

      if (lineptr == line && stackptr->parent->type != MMD_TYPE_TABLE)
	stackptr = stack;
    }
    else
      type = block->type;

    if (!*lineptr)
    {
      if (stackptr->parent->type == MMD_TYPE_CODE_BLOCK)
	blank_code ++;
      else if (stackptr->parent->type == MMD_TYPE_BLOCK_QUOTE && line[0] != '>')
	stackptr --;

      block = NULL;
      continue;
    }
    else if (!strcmp(lineptr, "+"))
    {
      if (block)
      {
	if (block->type == MMD_TYPE_LIST_ITEM)
	  block = mmd_add(block, MMD_TYPE_PARAGRAPH, 0, NULL, NULL);
	else if (block->parent->type == MMD_TYPE_LIST_ITEM)
	  block = mmd_add(block->parent, MMD_TYPE_PARAGRAPH, 0, NULL, NULL);
	else
	  block = NULL;
      }
      continue;
    }
    else if ((mmd_options & MMD_OPTION_TABLES) && strchr(lineptr, '|') && (stackptr->parent->type == MMD_TYPE_TABLE || mmd_is_table(&file, stackptr->indent)))
    {
      // Table...
      int	col;			// Current column
      char	*start,			// Start of column/cell
		*end;			// End of column/cell
      mmd_t	*row = NULL,		// Current row
		*cell;			// Current cell

      DEBUG2_printf("TABLE stackptr->parent=%p (%d), rows=%d\n", stackptr->parent, stackptr->parent->type, rows);

      if (stackptr->parent->type != MMD_TYPE_TABLE && stackptr < (stack + sizeof(stack) / sizeof(stack[0]) - 1))
      {
	DEBUG2_printf("ADDING NEW TABLE to %p (%s)\n", stackptr->parent, mmd_type_string(stackptr->parent->type));

	stackptr[1].parent = mmd_add(stackptr->parent, MMD_TYPE_TABLE, 0, NULL, NULL);
	stackptr[1].indent = stackptr->indent;
	stackptr[1].fence  = '\0';
	stackptr ++;

	block = mmd_add(stackptr->parent, MMD_TYPE_TABLE_HEADER, 0, NULL, NULL);

	for (col = 0; col < (int)(sizeof(columns) / sizeof(columns[0])); col ++)
	  columns[col] = MMD_TYPE_TABLE_BODY_CELL_LEFT;

	num_columns = 0;
	rows	    = -1;
      }
      else if (rows > 0)
      {
	if (rows == 1)
	  block = mmd_add(stackptr->parent, MMD_TYPE_TABLE_BODY, 0, NULL, NULL);
      }
      else
	block = NULL;

      if (block)
	row = mmd_add(block, MMD_TYPE_TABLE_ROW, 0, NULL, NULL);

      if (*lineptr == '|')
	lineptr ++;			// Skip leading pipe

      if ((end = lineptr + strlen(lineptr) - 1) > lineptr)
      {
	while ((*end == '\n' || *end == 'r') && end > lineptr)
	  end --;

	if (end > lineptr && *end == '|')
	  *end = '\0';			// Truncate trailing pipe
      }

      for (col = 0; lineptr && *lineptr && col < (int)(sizeof(columns) / sizeof(columns[0])); col ++)
      {
        // Get the bounds of the stackptr->parent cell...
	start = lineptr;
	if ((lineptr = strchr(lineptr + 1, '|')) != NULL)
	  *lineptr++ = '\0';

	if (block)
	{
	  // Add a cell to this row...
	  if (block->type == MMD_TYPE_TABLE_HEADER)
	    cell = mmd_add(row, MMD_TYPE_TABLE_HEADER_CELL, 0, NULL, NULL);
	  else
	    cell = mmd_add(row, columns[col], 0, NULL, NULL);

	  mmd_parse_inline(&doc, cell, start);
	}
	else
	{
	  // Process separator row for alignment...
	  while (isspace(*start & 255))
	    start ++;

	  for (end = start + strlen(start) - 1; end > start && isspace(*end & 255); end --)
	    ;				// Find the last non-space character

	  if (*start == ':' && *end == ':')
	    columns[col] = MMD_TYPE_TABLE_BODY_CELL_CENTER;
	  else if (*end == ':')
	    columns[col] = MMD_TYPE_TABLE_BODY_CELL_RIGHT;

	  DEBUG2_printf("COLUMN %d SEPARATOR=\"%s\", TYPE=%d\n", col, start, columns[col]);
	}
      }

      // Make sure the table is balanced...
      if (col > num_columns)
      {
	num_columns = col;
      }
      else if (block && block->type != MMD_TYPE_TABLE_HEADER)
      {
	while (col < num_columns)
	{
	  mmd_add(row, columns[col], 0, NULL, NULL);
	  col ++;
	}
      }

      rows ++;
      continue;
    }
    else if (stackptr->parent->type == MMD_TYPE_TABLE)
    {
      DEBUG2_puts("END TABLE\n");
      stackptr --;
      block = NULL;
    }

    if (stackptr->parent->type != MMD_TYPE_CODE_BLOCK && (!block || block->type == MMD_TYPE_CODE_BLOCK) && (lineptr - linestart) >= (stackptr->indent + 4))
    {
      // Indented code block.
      if (stackptr->parent->type != MMD_TYPE_CODE_BLOCK && stackptr < (stack + sizeof(stack) / sizeof(stack[0]) - 1))
      {
	stackptr[1].parent = mmd_add(stackptr->parent, MMD_TYPE_CODE_BLOCK, 0, NULL, NULL);
	stackptr[1].indent = stackptr->indent + 4;
	stackptr[1].fence  = '\0';
	stackptr ++;

	blank_code = 0;
      }

      while (blank_code > 0)
      {
	mmd_add(stackptr->parent, MMD_TYPE_CODE_TEXT, 0, "\n", NULL);
	blank_code --;
      }

      mmd_add(stackptr->parent, MMD_TYPE_CODE_TEXT, 0, line + stackptr->indent, NULL);

      continue;
    }

    if (!block || block->type != type)
    {
      if (stackptr->parent->type == MMD_TYPE_CODE_BLOCK)
	stackptr --;

      block = mmd_add(stackptr->parent, type, 0, NULL, NULL);
    }

    // Read continuation lines before parsing this...
    while (mmd_has_continuation(line, &file, stackptr->indent))
    {
      char *ptr = line + strlen(line);

      if (!mmd_read_line(&file, ptr, sizeof(line) - (size_t)(ptr - line)))
	break;
      else if (line[0] == '>' && *ptr == '>')
	memmove(ptr, ptr + 1, strlen(ptr));
    }

    mmd_parse_inline(&doc, block, lineptr);

    if (block->type == MMD_TYPE_PARAGRAPH && !block->first_child)
    {
      mmd_remove(block);
      mmd_free(block);
      block = NULL;
    }
  }

  // Free any references...
  for (i = doc.num_references, reference = doc.references; i > 0; i --, reference ++)
  {
    if (reference->pending)
    {
      char	text[8192];		// Reference text
      size_t	j;			// Looping var

      DEBUG2_printf("Clearing links for '%s'.\n", reference->name);
      snprintf(text, sizeof(text), "[%s]", reference->name);

      for (j = 0; j < reference->num_pending; j ++)
      {
	free(reference->pending[j]->text);
	reference->pending[j]->text = strdup(text);
	reference->pending[j]->type = MMD_TYPE_NORMAL_TEXT;
      }

      free(reference->pending);
    }

    free(reference->name);
    free(reference->url);
  }

  free(doc.references);

  // Return the root node...
  return (doc.root);
}


//
// 'mmdLoadString()' - Load a markdown string into nodes.
//

mmd_t *					// O - Root node in markdown
mmdLoadString(mmd_t      *root,		// I - Root node for document or `NULL` for a new document
              const char *s)		// I - String to load
{
  return (mmdLoadIO(root, (mmd_iocb_t)mmd_iocb_string, &s));
}


//
// 'mmdSetOptions()' - Set (enable/disable) support for various markdown options.
//

void
mmdSetOptions(mmd_option_t options)	// I - Options
{
  mmd_options = options;
}


//
// 'mmd_add()' - Add a new markdown node.
//

static mmd_t *				// O - New node
mmd_add(mmd_t	   *parent,		// I - Parent node
	mmd_type_t type,		// I - Node type
	int	   whitespace,		// I - 1 if whitespace precedes this node
	char	   *text,		// I - Text, if any
	char	   *url)		// I - URL, if any
{
  mmd_t		*temp;			// New node


  DEBUG2_printf("Adding %s to %p(%s), whitespace=%d, text=\"%s\", url=\"%s\"\n", mmd_type_string(type), parent, parent ? mmd_type_string(parent->type) : "", whitespace, text ? text : "(null)", url ? url : "(null)");

  if (!parent && type != MMD_TYPE_DOCUMENT)
    return (NULL);			// Only document nodes can be at the root

  if ((temp = calloc(1, sizeof(mmd_t))) != NULL)
  {
    if (parent)
    {
      // Add node to the parent...
      temp->parent = parent;

      if (parent->last_child)
      {
	parent->last_child->next_sibling = temp;
	temp->prev_sibling		 = parent->last_child;
	parent->last_child		 = temp;
      }
      else
      {
	parent->first_child = parent->last_child = temp;
      }
    }

    // Copy the node values...
    temp->type	     = type;
    temp->whitespace = whitespace;

    if (text)
      temp->text = strdup(text);

    if (url)
      temp->url = strdup(url);
  }

  return (temp);
}


//
// 'mmd_free()' - Free memory used by a node.
//

static void
mmd_free(mmd_t *node)			// I - Node
{
  free(node->text);
  free(node->url);
  free(node->extra);
  free(node);
}


//
// 'mmd_has_continuation()' - Determine whether the next line is a continuation
//			      of the current one.
//

static int				// O - 1 if the next line continues, 0 otherwise
mmd_has_continuation(
    const char	   *line,		// I - Current line
    _mmd_filebuf_t *file,		// I - File buffer
    int		   indent)		// I - Indentation for current block
{
  const char	*lineptr = line;	// Pointer into current line
  const char	*fileptr = file->bufptr;// Pointer into next line


  if (*fileptr == '\n' || *fileptr == '\r')
    return (0);

  do
  {
    while (isspace(*lineptr & 255))
      lineptr ++;

    if (*lineptr == '[' && (lineptr - line - indent) < 4 && (*fileptr == ' ' || *fileptr == '\t'))
      return (1);

    while (isspace(*fileptr & 255))
      fileptr ++;

    if (*lineptr == '>' && *fileptr == '>')
    {
      lineptr ++;
      fileptr ++;
    }
    else if (*fileptr == '>')
      return (0);

    if (*fileptr == '\n' || *fileptr == '\r')
      return (0);
  }
  while (isspace(*lineptr & 255) || isspace(*fileptr & 255));

  if (*lineptr == '#')
    return (0);

  if (strchr("-+*", *fileptr) && isspace(fileptr[1] & 255))
  {
    // Bullet list item...
    return (0);
  }

  if (isdigit(*fileptr & 255))
  {
    // Ordered list item...
    while (*fileptr && isdigit(*fileptr & 255))
      fileptr ++;

    if (*fileptr == '.' || *fileptr == '(')
      return (0);
  }

  if (mmd_is_codefence((char *)fileptr, '\0', 0, NULL))
    return (0);

  if (mmd_is_chars(fileptr, "- \t", 3) || mmd_is_chars(fileptr, "_ \t", 3) || mmd_is_chars(fileptr, "* \t", 3))
  {
    // Thematic break...
    return (0);
  }

  if (mmd_is_chars(fileptr, "-", 1) || mmd_is_chars(fileptr, "=", 1))
  {
    // Heading...
    return (0);
  }

  if (*fileptr == '#')
  {
    // Possible heading...
    int count = 0;

    while (*fileptr == '#')
    {
      fileptr ++;
      count ++;
    }

    if (count <= 6)
      return (0);
  }

  return ((fileptr - file->bufptr) <= indent);
}


//
// 'mmd_iocb_file()' - Read from a file.
//

static size_t				// O - Number of bytes read
mmd_iocb_file(FILE   *fp,		// I - File pointer
              char   *buffer,		// I - Buffer
              size_t bytes)		// I - Number of bytes to read
{
  return (fread(buffer, 1, bytes, fp));
}


//
// 'mmd_iocb_string()' - Read from a string.
//

static size_t				// O - Number of bytes read
mmd_iocb_string(const char **s,		// I - Pointer into string
                char       *buffer,	// I - Buffer
                size_t     bytes)	// I - Number of bytes to read
{
  size_t	ret;			// Bytes read/returned


  // See how many bytes remain in the string...
  if ((ret = strlen(*s)) > bytes)
    ret = bytes;

  if (ret > 0)
  {
    // Copy bytes from the string...
    memcpy(buffer, *s, ret);
    (*s) += ret;
  }

  return (ret);
}


//
// 'mmd_is_chars()' - Determine whether a line consists solely of whitespace
//		      and the specified character.
//

static size_t				// O - 1 if as specified, 0 otherwise
mmd_is_chars(const char *lineptr,	// I - Current line
	     const char *chars,		// I - Non-space character
	     size_t	minchars)	// I - Minimum number of non-space characters
{
  size_t	found_ch = 0;		// Did we find the specified characters?

  while (*lineptr == *chars)
  {
    found_ch ++;
    lineptr ++;
  }

  if (minchars > 1)
  {
    while (*lineptr && strchr(chars, *lineptr))
    {
      if (*lineptr == *chars)
	found_ch ++;

      lineptr ++;
    }
  }

  while (*lineptr && isspace(*lineptr & 255) && *lineptr != '\n')
    lineptr ++;

  if ((*lineptr && *lineptr != '\n') || found_ch < minchars)
    return (0);
  else
    return (found_ch);
}


//
// 'mmd_is_codefence()' - Determine whether the line contains a code fence.
//

static size_t				// O - Length of fence or 0 otherwise
mmd_is_codefence(char	*lineptr,	// I - Line
		 char	fence,		// I - Current fence character, if any
		 size_t fencelen,	// I - Current fence length
		 char	**language)	// O - Language name, if any
{
  char		match = fence;		// Character to match
  size_t	len = 0;		// Length of fence chars


  if (language)
    *language = NULL;

  if (!match)
  {
    if (*lineptr == '~' || *lineptr == '`')
      match = *lineptr;
    else
      return (0);
  }

  while (*lineptr == match)
  {
    lineptr ++;
    len ++;
  }

  if (len < 3 || (fencelen && len < fencelen))
    return (0);

  if (*lineptr && *lineptr != '\n' && fence)
    return (0);
  else if (*lineptr && *lineptr != '\n' && !fence)
  {
    if (match == '`' && strchr(lineptr, match))
      return (0);

    while (isspace(*lineptr & 255))
      lineptr ++;

    if (*lineptr && language)
    {
      *language = lineptr;

      while (*lineptr && !isspace(*lineptr & 255))
      {
	if (*lineptr == '\\' && lineptr[1])
	{
	  // Remove "\"
	  memmove(lineptr, lineptr + 1, strlen(lineptr));
	}

	lineptr ++;
      }
      *lineptr = '\0';
    }
  }

  return (len);
}


//
// 'mmd_is_table()' - Look ahead to see if the next line contains a heading
//		      divider for a table.
//

static bool				// O - `true` if this is a table, `false` otherwise
mmd_is_table(_mmd_filebuf_t *file,	// I - File to read from
	     int	    indent)	// I - Indentation of table line
{
  const char	*ptr;			// Pointer into buffer


  ptr = file->bufptr;
  while (*ptr)
  {
    if (!strchr(" \t>", *ptr))
      break;

    ptr ++;
  }

  if ((ptr - file->bufptr - indent) >= 4)
    return (false);

  while (*ptr)
  {
    if (!strchr(" \t:-|", *ptr))
      break;

    ptr ++;
  }

  return (*ptr == '\r' || *ptr == '\n');
}


//
// 'mmd_parse_inline()' - Parse inline formatting.
//

static void
mmd_parse_inline(_mmd_doc_t *doc,	// I - Document
		 mmd_t	    *parent,	// I - Parent node
		 char	    *lineptr)	// I - Pointer into line
{
  mmd_t		*node;			// New node
  mmd_type_t	type;			// Current node type
  int		whitespace;		// Whitespace precedes?
  char		*text,			// Text fragment in line
		*title,			// Link title
		*url,			// URL in link
		*refname;		// Reference name
  const char	*delim = NULL;		// Delimiter
  size_t	delimlen = 0;		// Length of delimiter


  whitespace = parent->last_child != NULL;

  for (text = NULL, type = MMD_TYPE_NORMAL_TEXT; *lineptr; lineptr ++)
  {
    DEBUG2_printf("mmd_parse_inline: lineptr=%p(\"%32.32s...\"), type=%d, text=%p, whitespace=%d\n", lineptr, lineptr, type, text, whitespace);

    if (isspace(*lineptr & 255) && type != MMD_TYPE_CODE_TEXT)
    {
      if (text)
      {
	*lineptr = '\0';
	mmd_add(parent, type, whitespace, text, NULL);

	text = NULL;
      }

      if (!strncmp(lineptr + 1, " \n", 2) && lineptr[3])
      {
	DEBUG2_printf("mmd_parse_inline: Adding hard break to %p(%d)\n", parent, parent->type);
	mmd_add(parent, MMD_TYPE_HARD_BREAK, 0, NULL, NULL);
	lineptr += 2;
	whitespace = 0;
      }
      else
      {
	whitespace = 1;
      }
    }
    else if (*lineptr == '!' && lineptr[1] == '[' && type != MMD_TYPE_CODE_TEXT)
    {
      // Image...
      if (text)
      {
	mmd_add(parent, type, whitespace, text, NULL);

	text	   = NULL;
	whitespace = 0;
      }

      lineptr = mmd_parse_link(doc, lineptr + 1, &text, &url, NULL, &refname);

      if (url || refname)
      {
	node = mmd_add(parent, MMD_TYPE_IMAGE, whitespace, text, url);

	if (refname)
	  mmd_ref_add(doc, node, refname, NULL, NULL);
      }

      if (!*lineptr)
	return;

      text = url = NULL;
      whitespace = 0;
      lineptr --;
    }
    else if (*lineptr == '[' && type != MMD_TYPE_CODE_TEXT)
    {
      // Link or checkbox...
      if (text)
      {
        *lineptr = '\0';
	mmd_add(parent, type, whitespace, text, NULL);
	*lineptr = '[';

	text	   = NULL;
	whitespace = 0;
      }

      if ((mmd_options & MMD_OPTION_TASKS) && (!strncmp(lineptr, "[ ]", 3) || !strncmp(lineptr, "[x]", 3) || !strncmp(lineptr, "[X]", 3)))
      {
        // Checkbox
        mmd_add(parent, MMD_TYPE_CHECKBOX, 0, lineptr[1] == ' ' ? NULL : "x", NULL);
        lineptr += 2;
      }
      else
      {
        // Link
	lineptr = mmd_parse_link(doc, lineptr, &text, &url, &title, &refname);

	if (text)
	{
	  char *end = text + strlen(text) - 1;
					// End of text fragment

	  if (*text == '`' && *end == '`' && end != text)
	  {
	    // Code text
	    text ++;
	    if (end > text && *end == '`')
	      *end = '\0';

	    node = mmd_add(parent, MMD_TYPE_CODE_TEXT, whitespace, text, url);
	  }
	  else if (*text == '*' && *end == '*' && end > text)
	  {
	    // Emphasized or strong text
	    text ++;
	    if (*text == '*' && (end - 1) > text && end[-1] == '*')
	    {
	      text ++;
	      end[-1] = '\0';
	      node    = mmd_add(parent, MMD_TYPE_STRONG_TEXT, whitespace, text, url);
	    }
	    else
	    {
	      *end = '\0';
	      node = mmd_add(parent, MMD_TYPE_EMPHASIZED_TEXT, whitespace, text, url);
            }
	  }
	  else if (type == MMD_TYPE_NORMAL_TEXT)
	  {
	    // Plain linked text...
	    node = mmd_add(parent, MMD_TYPE_LINKED_TEXT, whitespace, text, url);
	  }
	  else
	  {
	    // Preserve style of linked text...
	    node = mmd_add(parent, type, whitespace, text, url);
	  }

	  if (title)
	    node->extra = strdup(title);
	}
	else
	{
	  // No text, no node...
	  node = NULL;
	}

	DEBUG2_printf("mmd_parse_inline: text=\"%s\", refname=\"%s\", node=%p\n", text, refname, node);

	if (refname && node)
	  mmd_ref_add(doc, node, refname, NULL, title);

	if (!*lineptr)
	  return;

	text = url = NULL;
	whitespace = 0;
	lineptr --;
      }
    }
    else if (*lineptr == '<' && type != MMD_TYPE_CODE_TEXT && strchr(lineptr + 1, '>'))
    {
      // Autolink...
      *lineptr++ = '\0';

      if (text)
      {
	mmd_add(parent, type, whitespace, text, NULL);

	text	   = NULL;
	whitespace = 0;
      }

      url      = lineptr;
      lineptr  = strchr(lineptr, '>');
      *lineptr = '\0';

      mmd_add(parent, MMD_TYPE_LINKED_TEXT, whitespace, url, url);

      text = url = NULL;
      whitespace = 0;
    }
    else if ((*lineptr == '*' || *lineptr == '_') && (!text || ispunct(lineptr[-1] & 255) || type != MMD_TYPE_NORMAL_TEXT) && type != MMD_TYPE_CODE_TEXT)
    {
      const char *end;			// End delimiter

      if (type != MMD_TYPE_NORMAL_TEXT || !delim)
      {
	if (!strncmp(lineptr, "**", 2))
	  delim = "**";
	else if (!strncmp(lineptr, "__", 2))
	  delim = "__";
	else if (*lineptr == '*')
	  delim = "*";
	else
	  delim = "_";

	delimlen = strlen(delim);
      }

      if (type == MMD_TYPE_NORMAL_TEXT && delim && ((end = strstr(lineptr + delimlen, delim)) == NULL || end == (lineptr + delimlen) || isspace(end[-1] & 255)))
      {
	if (!text)
	  text = lineptr;

	delim	 = NULL;
	delimlen = 0;
	continue;
      }

      if (text)
      {
	char save = *lineptr;

	*lineptr = '\0';

	mmd_add(parent, type, whitespace, text, NULL);

	*lineptr   = save;
	text	   = NULL;
	whitespace = 0;
      }

      if (type == MMD_TYPE_NORMAL_TEXT)
      {
	if (!strncmp(lineptr, delim, delimlen) && !isspace(lineptr[delimlen] & 255))
	{
	  type = delimlen == 2 ? MMD_TYPE_STRONG_TEXT : MMD_TYPE_EMPHASIZED_TEXT;
	  text = lineptr + delimlen;
	  lineptr += delimlen - 1;
	}
	else
	{
	  text = lineptr;
	}
      }
      else if (!strncmp(lineptr, delim, delimlen))
      {
	lineptr += delimlen - 1;
	type = MMD_TYPE_NORMAL_TEXT;

	delim	 = NULL;
	delimlen = 0;
      }
    }
    else if (lineptr[0] == '~' && lineptr[1] == '~' && type != MMD_TYPE_CODE_TEXT)
    {
      if (text)
      {
	*lineptr = '\0';

	mmd_add(parent, type, whitespace, text, NULL);

	*lineptr   = '~';
	text	   = NULL;
	whitespace = 0;
      }

      if (!isspace(lineptr[2] & 255) && type == MMD_TYPE_NORMAL_TEXT)
      {
	type = MMD_TYPE_STRUCK_TEXT;
	text = lineptr + 2;
      }
      else
      {
	lineptr ++;
	type = MMD_TYPE_NORMAL_TEXT;
      }
    }
    else if (*lineptr == '`' && (type != MMD_TYPE_CODE_TEXT || lineptr[-1] != '\\'))
    {
      if (type != MMD_TYPE_NORMAL_TEXT || !delim)
      {
	if (lineptr[1] == '`')
	{
	  if (lineptr[2] == '`')
	  {
	    delim    = "```";
	    delimlen = 3;
	  }
	  else
	  {
	    delim    = "``";
	    delimlen = 2;
	  }
	}
	else
	{
	  delim	   = "`";
	  delimlen = 1;
	}
      }

      if (type != MMD_TYPE_CODE_TEXT && delim && !strstr(lineptr + delimlen, delim))
      {
	if (!text)
	  text = lineptr;

	delim	 = NULL;
	delimlen = 0;
	continue;
      }

      if (text)
      {
	DEBUG2_printf("mmd_parse_inline: text=\"%s\"\n", text);

	if (!strncmp(lineptr, delim, delimlen))
	{
	  char	*textptr = lineptr;

	  while (textptr > text && isspace(textptr[-1] & 255))
	    textptr --;

	  *textptr = '\0';
	  lineptr += delimlen - 1;
	}

	if (type == MMD_TYPE_CODE_TEXT)
	{
	  if (whitespace && !*text)
	  {
	    mmd_add(parent, type, 0, " ", NULL);
	    whitespace = 0;
	  }
	}

	mmd_add(parent, type, whitespace, text, NULL);

	text	   = NULL;
	whitespace = 0;
      }

      if (type == MMD_TYPE_CODE_TEXT)
      {
	DEBUG2_puts("mmd_parse_inline: Reverting to normal text.\n");

	type	 = MMD_TYPE_NORMAL_TEXT;
	delim	 = NULL;
	delimlen = 0;
      }
      else
      {
	type	= MMD_TYPE_CODE_TEXT;
	lineptr += delimlen - 1;

	while (isspace(lineptr[1] & 255))
	  lineptr ++;

	text = lineptr + 1;
      }
    }
    else if (!strncmp(lineptr, "\\\n", 2))
    {
      // Hard break
      *lineptr++ = '\0';

      if (text)
      {
        mmd_add(parent, type, whitespace, text, NULL);

        text       = NULL;
        whitespace = false;
      }

      mmd_add(parent, MMD_TYPE_HARD_BREAK, false, NULL, NULL);
    }
    else if (!text)
    {
      if (*lineptr == '\\' && ispunct(lineptr[1] & 255) && type != MMD_TYPE_CODE_TEXT)
      {
        // Escaped character...
	lineptr ++;
      }

      text = lineptr;
    }
    else if (*lineptr == '\\' && ispunct(lineptr[1] & 255) && type != MMD_TYPE_CODE_TEXT)
    {
      // Escaped character...
      memmove(lineptr, lineptr + 1, strlen(lineptr));
    }
  }

  if (text)
  {
    DEBUG_puts("mms_parse_inline: Adding text at end.\n");
    mmd_add(parent, type, whitespace, text, NULL);
  }
}


//
// 'mmd_parse_link()' - Parse a link.
//

static char *				// O - End of link text
mmd_parse_link(_mmd_doc_t *doc,		// I - Document
	       char	  *lineptr,	// I - Pointer into line
	       char	  **text,	// O - Text
	       char	  **url,	// O - URL
	       char	  **title,	// O - Title, if any
	       char	  **refname)	// O - Reference name
{
  lineptr ++; // skip "["

  *text	   = lineptr;
  *url	   = NULL;
  *refname = NULL;

  if (title)
    *title = NULL;

  while (*lineptr && *lineptr != ']')
  {
    if (*lineptr == '\"' || *lineptr == '\'')
    {
      char quote = *lineptr++;

      while (*lineptr && *lineptr != quote)
	lineptr ++;

      if (!*lineptr)
	return (lineptr);
    }

    lineptr ++;
  }

  if (!*lineptr)
    return (lineptr);

  *lineptr++ = '\0';

  if (*lineptr == '(')
  {
    // Get URL...
    lineptr ++;
    *url = lineptr;

    while (*lineptr && *lineptr != ')')
    {
      if (isspace(*lineptr & 255))
      {
	*lineptr = '\0';
      }
      else if (*lineptr == '\\' && lineptr[1])
      {
        if (lineptr[1] == ')')
        {
	  // Remove "\"
	  memmove(lineptr, lineptr + 1, strlen(lineptr));
	}
	else
	{
	  // Keep "\"
	  lineptr ++;
	}
      }
      else if (*lineptr == '\"' || *lineptr == '\'')
      {
	char quote = *lineptr++;

	if (title)
	  *title = lineptr;

	while (*lineptr && *lineptr != quote)
	{
	  if (*lineptr == '\\' && lineptr[1])
	  {
	    // Remove "\"
	    memmove(lineptr, lineptr + 1, strlen(lineptr));
	  }

	  lineptr ++;
	}

	if (!*lineptr)
	  return (lineptr);
	else if (title)
	  *lineptr = '\0';
      }

      lineptr ++;
    }

    *lineptr++ = '\0';
  }
  else if (*lineptr == '[')
  {
    // Get reference...
    lineptr ++;
    *refname = lineptr;

    while (*lineptr && *lineptr != ']')
    {
      if (isspace(*lineptr & 255))
      {
	*lineptr = '\0';
      }
      else if (*lineptr == '\\' && lineptr[1])
      {
        if (lineptr[1] == ']')
        {
	  // Remove "\"
	  memmove(lineptr, lineptr + 1, strlen(lineptr));
	}
	else
	{
	  // Keep "\"
	  lineptr ++;
	}
      }
      else if (*lineptr == '\"' || *lineptr == '\'')
      {
	char quote = *lineptr++;

	if (title)
	  *title = lineptr;

	while (*lineptr && *lineptr != quote)
	  lineptr ++;

	if (!*lineptr)
	  return (lineptr);
	else
	  *lineptr = '\0';
      }

      lineptr ++;
    }

    *lineptr++ = '\0';
    if (!**refname)
      *refname = *text;
  }
  else if (*lineptr == ':')
  {
    // Get reference definition...
    lineptr ++;
    while (*lineptr && isspace(*lineptr & 255))
      lineptr ++;

    *url = lineptr;

    while (*lineptr && !isspace(*lineptr & 255))
    {
      if (*lineptr == '\\' && lineptr[1])
      {
        // Remove "\"
	memmove(lineptr, lineptr + 1, strlen(lineptr));
      }

      lineptr ++;
    }

    if (*lineptr)
    {
      *lineptr++ = '\0';
      while (*lineptr && isspace(*lineptr & 255))
	lineptr ++;

      if (*lineptr == '\"' || *lineptr == '\'')
      {
	char quote = *lineptr++;

	if (title)
	  *title = lineptr;

	while (*lineptr && *lineptr != quote)
	{
	  if (*lineptr == '\\' && lineptr[1])
	  {
	    // Remove "\"
	    memmove(lineptr, lineptr + 1, strlen(lineptr));
	  }

	  lineptr ++;
	}

	if (!*lineptr)
	  return (lineptr);
	else
	  *lineptr = '\0';
      }
    }

    mmd_ref_add(doc, NULL, *text, *url, title ? *title : NULL);

    *text = NULL;
    *url  = NULL;

    if (title)
      *title = NULL;
  }
  else
  {
    // Shortcut reference...
    *refname = *text;
  }

  return (lineptr);
}


//
// 'mmd_read_buffer()' - Fill the file buffer with more data from a file.
//

static void
mmd_read_buffer(_mmd_filebuf_t *file)	// I - File buffer
{
  size_t	bytes;			// Bytes read


  if (file->bufptr && file->bufptr > file->buffer)
  {
    // Discard previous characters in the buffer.
    memmove(file->buffer, file->bufptr, file->bufend - file->bufptr);
    file->bufend -= (file->bufptr - file->buffer);
  }
  else
  {
    // Otherwise just clear the buffer...
    file->bufend = file->buffer;
  }

  if ((bytes = (file->cb)(file->cbdata, file->bufend, sizeof(file->buffer) - (size_t)(file->bufend - file->buffer - 1))) > 0)
    file->bufend += bytes;

  *(file->bufend) = '\0';
  file->bufptr    = file->buffer;
}


//
// 'mmd_read_line()' - Read a line from a file in a Markdown-aware way.
//

static char *				// O - Pointer to line or `NULL` on EOF
mmd_read_line(_mmd_filebuf_t *file,	// I - File buffer
	      char	     *line,	// I - Line buffer
	      size_t	     linesize)	// I - Size of line buffer
{
  int	ch,				// Current character
	column = 0;			// Current column
  char	*lineptr = line,		// Pointer into line
	*lineend = line + linesize - 1; // Pointer to end of buffer


  // Fill the buffer as needed...
  if (!file->bufptr || (file->bufptr >= file->bufend) || !strchr(file->bufptr, '\n'))
    mmd_read_buffer(file);

  // Copy a line out of the file buffer...
  while (file->bufptr < file->bufend)
  {
    ch = *(file->bufptr);
    file->bufptr ++;

    if (ch == '\t')
    {
      // Expand tabs since nobody uses the same tab width and Markdown says
      // 4 columns per tab...
      do
      {
	column ++;
	if (lineptr < lineend)
	  *lineptr++ = ' ';
      }
      while (column  & 3);
    }
    else if (ch != '\r' && lineptr < lineend)
    {
      column ++;
      *lineptr++ = ch;
    }

    if (ch == '\n')
      break;
  }

  *lineptr = '\0';

  if (file->bufptr == file->bufend && lineptr == line)
    return (NULL);
  else if (!strchr(file->bufptr, '\n'))
    mmd_read_buffer(file);

  return (line);
}


//
// 'mmd_ref_add()' - Add or update a reference...
//

static void
mmd_ref_add(_mmd_doc_t *doc,		// I - Document
	    mmd_t      *node,		// I - Link node, if any
	    const char *name,		// I - Reference name
	    const char *url,		// I - Reference URL
	    const char *title)		// I - Title, if any
{
  size_t	i;			// Looping var
  _mmd_ref_t	*ref = mmd_ref_find(doc, name);
					// Reference


  DEBUG2_printf("mmd_ref_add(doc=%p, node=%p, name=\"%s\", url=\"%s\", title=\"%s\")\n", doc, node, name, url, title);

  if (ref)
  {
    DEBUG2_printf("mmd_ref_add: ref=%p, ref->url=\"%s\"\n", ref, ref->url);

    if (!ref->url && url)
    {
      if (node)
	node->url = strdup(url);

      ref->url = strdup(url);

      if (title)
      {
	if (node)
	  node->extra = strdup(title);

	ref->title = strdup(title);
      }

      for (i = 0; i < ref->num_pending; i ++)
      {
	ref->pending[i]->url = strdup(url);

	if (title)
	  ref->pending[i]->extra = strdup(title);
      }

      free(ref->pending);

      ref->num_pending = 0;
      ref->pending     = NULL;
      return;
    }
  }
  else if ((ref = realloc(doc->references, (doc->num_references + 1) * sizeof(_mmd_ref_t))) != NULL)
  {
    doc->references = ref;
    ref += doc->num_references;
    doc->num_references ++;

    ref->name	     = strdup(name);
    ref->url	     = url ? strdup(url) : NULL;
    ref->title	     = title ? strdup(title) : NULL;
    ref->num_pending = 0;
    ref->pending     = NULL;
  }
  else
    return;

  if (node)
  {
    if (ref->url)
    {
      node->url	  = strdup(ref->url);
      node->extra = ref->title ? strdup(ref->title) : NULL;
    }
    else if ((ref->pending = realloc(ref->pending, (ref->num_pending + 1) * sizeof(mmd_t *))) != NULL)
    {
      ref->pending[ref->num_pending ++] = node;
    }
  }
}


//
// 'mmd_ref_find()' - Find a reference...
//

static _mmd_ref_t *			// O - Reference or NULL
mmd_ref_find(_mmd_doc_t *doc,		// I - Document
	     const char *name)		// I - Reference name
{
  size_t	i;			// Looping var


  for (i = 0; i < doc->num_references; i ++)
    if (!strcasecmp(name, doc->references[i].name))
      return (doc->references + i);

  return (NULL);
}


//
// 'mmd_remove()' - Remove a node from its parent.
//

static void
mmd_remove(mmd_t *node)			// I - Node
{
  if (node && node->parent)
  {
    if (node->prev_sibling)
      node->prev_sibling->next_sibling = node->next_sibling;
    else
      node->parent->first_child = node->next_sibling;

    if (node->next_sibling)
      node->next_sibling->prev_sibling = node->prev_sibling;
    else
      node->parent->last_child = node->prev_sibling;

    node->parent       = NULL;
    node->prev_sibling = NULL;
    node->next_sibling = NULL;
  }
}


#if DEBUG
//
// 'mmd_type_string()' - Return a string for the specified type enumeration.
//

static const char *			// O - String representing the type
mmd_type_string(mmd_type_t type)	// I - Type value
{
  static char	unknown[64];		// Unknown type buffer


  switch (type)
  {
    case MMD_TYPE_NONE :
	return ("MMD_TYPE_NONE");
    case MMD_TYPE_DOCUMENT :
	return "MMD_TYPE_DOCUMENT";
    case MMD_TYPE_METADATA :
	return "MMD_TYPE_METADATA";
    case MMD_TYPE_BLOCK_QUOTE :
	return "MMD_TYPE_BLOCK_QUOTE";
    case MMD_TYPE_ORDERED_LIST :
	return "MMD_TYPE_ORDERED_LIST";
    case MMD_TYPE_UNORDERED_LIST :
	return "MMD_TYPE_UNORDERED_LIST";
    case MMD_TYPE_LIST_ITEM :
	return "MMD_TYPE_LIST_ITEM";
    case MMD_TYPE_TABLE :
	return "MMD_TYPE_TABLE";
    case MMD_TYPE_TABLE_HEADER :
	return "MMD_TYPE_TABLE_HEADER";
    case MMD_TYPE_TABLE_BODY :
	return "MMD_TYPE_TABLE_BODY";
    case MMD_TYPE_TABLE_ROW :
	return "MMD_TYPE_TABLE_ROW";
    case MMD_TYPE_HEADING_1 :
	return "MMD_TYPE_HEADING_1";
    case MMD_TYPE_HEADING_2 :
	return "MMD_TYPE_HEADING_2";
    case MMD_TYPE_HEADING_3 :
	return "MMD_TYPE_HEADING_3";
    case MMD_TYPE_HEADING_4 :
	return "MMD_TYPE_HEADING_4";
    case MMD_TYPE_HEADING_5 :
	return "MMD_TYPE_HEADING_5";
    case MMD_TYPE_HEADING_6 :
	return "MMD_TYPE_HEADING_6";
    case MMD_TYPE_PARAGRAPH :
	return "MMD_TYPE_PARAGRAPH";
    case MMD_TYPE_CODE_BLOCK :
	return "MMD_TYPE_CODE_BLOCK";
    case MMD_TYPE_THEMATIC_BREAK :
	return "MMD_TYPE_THEMATIC_BREAK";
    case MMD_TYPE_TABLE_HEADER_CELL :
	return "MMD_TYPE_TABLE_HEADER_CELL";
    case MMD_TYPE_TABLE_BODY_CELL_LEFT :
	return "MMD_TYPE_TABLE_BODY_CELL_LEFT";
    case MMD_TYPE_TABLE_BODY_CELL_CENTER :
	return "MMD_TYPE_TABLE_BODY_CELL_CENTER";
    case MMD_TYPE_TABLE_BODY_CELL_RIGHT :
	return "MMD_TYPE_TABLE_BODY_CELL_RIGHT";
    case MMD_TYPE_NORMAL_TEXT :
	return "MMD_TYPE_NORMAL_TEXT";
    case MMD_TYPE_EMPHASIZED_TEXT :
	return "MMD_TYPE_EMPHASIZED_TEXT";
    case MMD_TYPE_STRONG_TEXT :
	return "MMD_TYPE_STRONG_TEXT";
    case MMD_TYPE_STRUCK_TEXT :
	return "MMD_TYPE_STRUCK_TEXT";
    case MMD_TYPE_LINKED_TEXT :
	return "MMD_TYPE_LINKED_TEXT";
    case MMD_TYPE_CODE_TEXT :
	return "MMD_TYPE_CODE_TEXT";
    case MMD_TYPE_IMAGE :
	return "MMD_TYPE_IMAGE";
    case MMD_TYPE_HARD_BREAK :
	return "MMD_TYPE_HARD_BREAK";
    case MMD_TYPE_SOFT_BREAK :
	return "MMD_TYPE_SOFT_BREAK";
    case MMD_TYPE_METADATA_TEXT :
	return "MMD_TYPE_METADATA_TEXT";
    default :
	snprintf(unknown, sizeof(unknown), "?? %d ??", (int)type);
	return (unknown);
  }
}
#endif // DEBUG