view src/hardcopy.c @ 31952:360efef7e5df v9.0.1308

patch 9.0.1308: the code for setting options is too complicated Commit: https://github.com/vim/vim/commit/1a6476428f63e9fa0c2cbea296e475e60363af11 Author: Yegappan Lakshmanan <yegappan@yahoo.com> Date: Tue Feb 14 13:07:18 2023 +0000 patch 9.0.1308: the code for setting options is too complicated Problem: The code for setting options is too complicated. Solution: Refactor the code for setting options. (Yegappan Lakshmanan, closes #11989)
author Bram Moolenaar <Bram@vim.org>
date Tue, 14 Feb 2023 14:15:05 +0100
parents b89cfd86e18e
children ca6bc7c04163
line wrap: on
line source

/* vi:set ts=8 sts=4 sw=4 noet:
 *
 * VIM - Vi IMproved	by Bram Moolenaar
 *
 * Do ":help uganda"  in Vim to read copying and usage conditions.
 * Do ":help credits" in Vim to see a list of people who contributed.
 * See README.txt for an overview of the Vim source code.
 */

/*
 * hardcopy.c: printing to paper
 */

#include "vim.h"
#include "version.h"

#if defined(FEAT_PRINTER) || defined(PROTO)
/*
 * To implement printing on a platform, the following functions must be
 * defined:
 *
 * int mch_print_init(prt_settings_T *psettings, char_u *jobname, int forceit)
 * Called once.  Code should display printer dialogue (if appropriate) and
 * determine printer font and margin settings.  Reset has_color if the printer
 * doesn't support colors at all.
 * Returns FAIL to abort.
 *
 * int mch_print_begin(prt_settings_T *settings)
 * Called to start the print job.
 * Return FALSE to abort.
 *
 * int mch_print_begin_page(char_u *msg)
 * Called at the start of each page.
 * "msg" indicates the progress of the print job, can be NULL.
 * Return FALSE to abort.
 *
 * int mch_print_end_page()
 * Called at the end of each page.
 * Return FALSE to abort.
 *
 * int mch_print_blank_page()
 * Called to generate a blank page for collated, duplex, multiple copy
 * document.  Return FALSE to abort.
 *
 * void mch_print_end(prt_settings_T *psettings)
 * Called at normal end of print job.
 *
 * void mch_print_cleanup()
 * Called if print job ends normally or is abandoned. Free any memory, close
 * devices and handles.  Also called when mch_print_begin() fails, but not
 * when mch_print_init() fails.
 *
 * void mch_print_set_font(int Bold, int Italic, int Underline);
 * Called whenever the font style changes.
 *
 * void mch_print_set_bg(long_u bgcol);
 * Called to set the background color for the following text. Parameter is an
 * RGB value.
 *
 * void mch_print_set_fg(long_u fgcol);
 * Called to set the foreground color for the following text. Parameter is an
 * RGB value.
 *
 * mch_print_start_line(int margin, int page_line)
 * Sets the current position at the start of line "page_line".
 * If margin is TRUE start in the left margin (for header and line number).
 *
 * int mch_print_text_out(char_u *p, int len);
 * Output one character of text p[len] at the current position.
 * Return TRUE if there is no room for another character in the same line.
 *
 * Note that the generic code has no idea of margins. The machine code should
 * simply make the page look smaller!  The header and the line numbers are
 * printed in the margin.
 */

#ifdef FEAT_SYN_HL
static const long_u  cterm_color_8[8] =
{
    (long_u)0x000000L, (long_u)0xff0000L, (long_u)0x00ff00L, (long_u)0xffff00L,
    (long_u)0x0000ffL, (long_u)0xff00ffL, (long_u)0x00ffffL, (long_u)0xffffffL
};

static const long_u  cterm_color_16[16] =
{
    (long_u)0x000000L, (long_u)0x0000c0L, (long_u)0x008000L, (long_u)0x004080L,
    (long_u)0xc00000L, (long_u)0xc000c0L, (long_u)0x808000L, (long_u)0xc0c0c0L,
    (long_u)0x808080L, (long_u)0x6060ffL, (long_u)0x00ff00L, (long_u)0x00ffffL,
    (long_u)0xff8080L, (long_u)0xff40ffL, (long_u)0xffff00L, (long_u)0xffffffL
};

static int		current_syn_id;
#endif

#define PRCOLOR_BLACK	(long_u)0
#define PRCOLOR_WHITE	(long_u)0xFFFFFFL

static int	curr_italic;
static int	curr_bold;
static int	curr_underline;
static long_u	curr_bg;
static long_u	curr_fg;
static int	page_count;

#if defined(FEAT_POSTSCRIPT)
# define OPT_MBFONT_USECOURIER  0
# define OPT_MBFONT_ASCII       1
# define OPT_MBFONT_REGULAR     2
# define OPT_MBFONT_BOLD	3
# define OPT_MBFONT_OBLIQUE     4
# define OPT_MBFONT_BOLDOBLIQUE 5
# define OPT_MBFONT_NUM_OPTIONS 6

static option_table_T mbfont_opts[OPT_MBFONT_NUM_OPTIONS] =
{
    {"c",	FALSE, 0, NULL, 0, FALSE},
    {"a",	FALSE, 0, NULL, 0, FALSE},
    {"r",	FALSE, 0, NULL, 0, FALSE},
    {"b",	FALSE, 0, NULL, 0, FALSE},
    {"i",	FALSE, 0, NULL, 0, FALSE},
    {"o",	FALSE, 0, NULL, 0, FALSE},
};
#endif

/*
 * These values determine the print position on a page.
 */
typedef struct
{
    int		lead_spaces;	    // remaining spaces for a TAB
    int		print_pos;	    // virtual column for computing TABs
    colnr_T	column;		    // byte column
    linenr_T	file_line;	    // line nr in the buffer
    long_u	bytes_printed;	    // bytes printed so far
    int		ff;		    // seen form feed character
} prt_pos_T;

static char *parse_list_options(char_u *option_str, option_table_T *table, int table_size);

static colnr_T hardcopy_line(prt_settings_T *psettings, int page_line, prt_pos_T *ppos);

/*
 * Parse 'printoptions' and set the flags in "printer_opts".
 * Returns an error message or NULL;
 */
    char *
parse_printoptions(void)
{
    return parse_list_options(p_popt, printer_opts, OPT_PRINT_NUM_OPTIONS);
}

#if defined(FEAT_POSTSCRIPT) || defined(PROTO)
/*
 * Parse 'printmbfont' and set the flags in "mbfont_opts".
 * Returns an error message or NULL;
 */
    char *
parse_printmbfont(void)
{
    return parse_list_options(p_pmfn, mbfont_opts, OPT_MBFONT_NUM_OPTIONS);
}
#endif

/*
 * Parse a list of options in the form
 * option:value,option:value,option:value
 *
 * "value" can start with a number which is parsed out, e.g.  margin:12mm
 *
 * Returns an error message for an illegal option, NULL otherwise.
 * Only used for the printer at the moment...
 */
    static char *
parse_list_options(
    char_u		*option_str,
    option_table_T	*table,
    int			table_size)
{
    option_table_T *old_opts;
    char	*ret = NULL;
    char_u	*stringp;
    char_u	*colonp;
    char_u	*commap;
    char_u	*p;
    int		idx = 0;		// init for GCC
    int		len;

    // Save the old values, so that they can be restored in case of an error.
    old_opts = ALLOC_MULT(option_table_T, table_size);
    if (old_opts == NULL)
	return NULL;

    for (idx = 0; idx < table_size; ++idx)
    {
	old_opts[idx] = table[idx];
	table[idx].present = FALSE;
    }

    /*
     * Repeat for all comma separated parts.
     */
    stringp = option_str;
    while (*stringp)
    {
	colonp = vim_strchr(stringp, ':');
	if (colonp == NULL)
	{
	    ret = e_missing_colon_3;
	    break;
	}
	commap = vim_strchr(stringp, ',');
	if (commap == NULL)
	    commap = option_str + STRLEN(option_str);

	len = (int)(colonp - stringp);

	for (idx = 0; idx < table_size; ++idx)
	    if (STRNICMP(stringp, table[idx].name, len) == 0)
		break;

	if (idx == table_size)
	{
	    ret = e_illegal_component;
	    break;
	}
	p = colonp + 1;
	table[idx].present = TRUE;

	if (table[idx].hasnum)
	{
	    if (!VIM_ISDIGIT(*p))
	    {
		ret = e_digit_expected_2;
		break;
	    }

	    table[idx].number = getdigits(&p); // advances p
	}

	table[idx].string = p;
	table[idx].strlen = (int)(commap - p);

	stringp = commap;
	if (*stringp == ',')
	    ++stringp;
    }

    if (ret != NULL)
    {
	// Restore old options in case of error
	for (idx = 0; idx < table_size; ++idx)
	    table[idx] = old_opts[idx];
    }
    vim_free(old_opts);
    return ret;
}


#ifdef FEAT_SYN_HL
/*
 * If using a dark background, the colors will probably be too bright to show
 * up well on white paper, so reduce their brightness.
 */
    static long_u
darken_rgb(long_u rgb)
{
    return	((rgb >> 17) << 16)
	    +	(((rgb & 0xff00) >> 9) << 8)
	    +	((rgb & 0xff) >> 1);
}

    static long_u
prt_get_term_color(int colorindex)
{
    // TODO: Should check for xterm with 88 or 256 colors.
    if (t_colors > 8)
	return cterm_color_16[colorindex % 16];
    return cterm_color_8[colorindex % 8];
}

    static void
prt_get_attr(
    int			hl_id,
    prt_text_attr_T	*pattr,
    int			modec)
{
    int     colorindex;
    long_u  fg_color;
    long_u  bg_color;
    char    *color;

    pattr->bold = (highlight_has_attr(hl_id, HL_BOLD, modec) != NULL);
    pattr->italic = (highlight_has_attr(hl_id, HL_ITALIC, modec) != NULL);
    pattr->underline = (highlight_has_attr(hl_id, HL_UNDERLINE, modec) != NULL);
    pattr->undercurl = (highlight_has_attr(hl_id, HL_UNDERCURL, modec) != NULL);
    // TODO: HL_UNDERDOUBLE, HL_UNDERDOTTED, HL_UNDERDASHED

# if defined(FEAT_GUI) || defined(FEAT_TERMGUICOLORS)
    if (USE_24BIT)
    {
	bg_color = highlight_gui_color_rgb(hl_id, FALSE);
	if (bg_color == PRCOLOR_BLACK)
	    bg_color = PRCOLOR_WHITE;

	fg_color = highlight_gui_color_rgb(hl_id, TRUE);
    }
    else
# endif
    {
	bg_color = PRCOLOR_WHITE;

	color = (char *)highlight_color(hl_id, (char_u *)"fg", modec);
	if (color == NULL)
	    colorindex = 0;
	else
	    colorindex = atoi(color);

	if (colorindex >= 0 && colorindex < t_colors)
	    fg_color = prt_get_term_color(colorindex);
	else
	    fg_color = PRCOLOR_BLACK;
    }

    if (fg_color == PRCOLOR_WHITE)
	fg_color = PRCOLOR_BLACK;
    else if (*p_bg == 'd')
	fg_color = darken_rgb(fg_color);

    pattr->fg_color = fg_color;
    pattr->bg_color = bg_color;
}
#endif // FEAT_SYN_HL

    static void
prt_set_fg(long_u fg)
{
    if (fg == curr_fg)
	return;

    curr_fg = fg;
    mch_print_set_fg(fg);
}

    static void
prt_set_bg(long_u bg)
{
    if (bg == curr_bg)
	return;

    curr_bg = bg;
    mch_print_set_bg(bg);
}

    static void
prt_set_font(int bold, int italic, int underline)
{
    if (curr_bold == bold
	    && curr_italic == italic
	    && curr_underline == underline)
	return;

    curr_underline = underline;
    curr_italic = italic;
    curr_bold = bold;
    mch_print_set_font(bold, italic, underline);
}

/*
 * Print the line number in the left margin.
 */
    static void
prt_line_number(
    prt_settings_T *psettings,
    int		page_line,
    linenr_T	lnum)
{
    int		i;
    char_u	tbuf[20];

    prt_set_fg(psettings->number.fg_color);
    prt_set_bg(psettings->number.bg_color);
    prt_set_font(psettings->number.bold, psettings->number.italic, psettings->number.underline);
    mch_print_start_line(TRUE, page_line);

    // Leave two spaces between the number and the text; depends on
    // PRINT_NUMBER_WIDTH.
    sprintf((char *)tbuf, "%6ld", (long)lnum);
    for (i = 0; i < 6; i++)
	(void)mch_print_text_out(&tbuf[i], 1);

#ifdef FEAT_SYN_HL
    if (psettings->do_syntax)
	// Set colors for next character.
	current_syn_id = -1;
    else
#endif
    {
	// Set colors and font back to normal.
	prt_set_fg(PRCOLOR_BLACK);
	prt_set_bg(PRCOLOR_WHITE);
	prt_set_font(FALSE, FALSE, FALSE);
    }
}

/*
 * Get the currently effective header height.
 */
    int
prt_header_height(void)
{
    if (printer_opts[OPT_PRINT_HEADERHEIGHT].present)
	return printer_opts[OPT_PRINT_HEADERHEIGHT].number;
    return 2;
}

/*
 * Return TRUE if using a line number for printing.
 */
    int
prt_use_number(void)
{
    return (printer_opts[OPT_PRINT_NUMBER].present
	    && TOLOWER_ASC(printer_opts[OPT_PRINT_NUMBER].string[0]) == 'y');
}

/*
 * Return the unit used in a margin item in 'printoptions'.
 * Returns PRT_UNIT_NONE if not recognized.
 */
    int
prt_get_unit(int idx)
{
    int		u = PRT_UNIT_NONE;
    int		i;
    static char *(units[4]) = PRT_UNIT_NAMES;

    if (!printer_opts[idx].present)
	return PRT_UNIT_NONE;

    for (i = 0; i < 4; ++i)
	if (STRNICMP(printer_opts[idx].string, units[i], 2) == 0)
	{
	    u = i;
	    break;
	}
    return u;
}

/*
 * Print the page header.
 */
    static void
prt_header(
    prt_settings_T  *psettings,
    int		pagenum,
    linenr_T	lnum UNUSED)
{
    int		width = psettings->chars_per_line;
    int		page_line;
    char_u	*tbuf;
    char_u	*p;
    int		l;

    // Also use the space for the line number.
    if (prt_use_number())
	width += PRINT_NUMBER_WIDTH;

    tbuf = alloc(width + IOSIZE);
    if (tbuf == NULL)
	return;

#ifdef FEAT_STL_OPT
    if (*p_header != NUL)
    {
	linenr_T	tmp_lnum, tmp_topline, tmp_botline;

	/*
	 * Need to (temporarily) set current line number and first/last line
	 * number on the 'window'.  Since we don't know how long the page is,
	 * set the first and current line number to the top line, and guess
	 * that the page length is 64.
	 */
	tmp_lnum = curwin->w_cursor.lnum;
	tmp_topline = curwin->w_topline;
	tmp_botline = curwin->w_botline;
	curwin->w_cursor.lnum = lnum;
	curwin->w_topline = lnum;
	curwin->w_botline = lnum + 63;
	printer_page_num = pagenum;

	build_stl_str_hl(curwin, tbuf, (size_t)(width + IOSIZE), p_header,
			   (char_u *)"printheader", 0, ' ', width, NULL, NULL);

	// Reset line numbers
	curwin->w_cursor.lnum = tmp_lnum;
	curwin->w_topline = tmp_topline;
	curwin->w_botline = tmp_botline;
    }
    else
#endif
	sprintf((char *)tbuf, _("Page %d"), pagenum);

    prt_set_fg(PRCOLOR_BLACK);
    prt_set_bg(PRCOLOR_WHITE);
    prt_set_font(TRUE, FALSE, FALSE);

    // Use a negative line number to indicate printing in the top margin.
    page_line = 0 - prt_header_height();
    mch_print_start_line(TRUE, page_line);
    for (p = tbuf; *p != NUL; )
    {
	if (mch_print_text_out(p, (l = (*mb_ptr2len)(p))))
	{
	    ++page_line;
	    if (page_line >= 0) // out of room in header
		break;
	    mch_print_start_line(TRUE, page_line);
	}
	p += l;
    }

    vim_free(tbuf);

#ifdef FEAT_SYN_HL
    if (psettings->do_syntax)
	// Set colors for next character.
	current_syn_id = -1;
    else
#endif
    {
	// Set colors and font back to normal.
	prt_set_fg(PRCOLOR_BLACK);
	prt_set_bg(PRCOLOR_WHITE);
	prt_set_font(FALSE, FALSE, FALSE);
    }
}

/*
 * Display a print status message.
 */
    static void
prt_message(char_u *s)
{
    screen_fill((int)Rows - 1, (int)Rows, 0, (int)Columns, ' ', ' ', 0);
    screen_puts(s, (int)Rows - 1, 0, HL_ATTR(HLF_R));
    out_flush();
}

    void
ex_hardcopy(exarg_T *eap)
{
    linenr_T		lnum;
    int			collated_copies, uncollated_copies;
    prt_settings_T	settings;
    long_u		bytes_to_print = 0;
    int			page_line;
    int			jobsplit;

    CLEAR_FIELD(settings);
    settings.has_color = TRUE;

# ifdef FEAT_POSTSCRIPT
    if (*eap->arg == '>')
    {
	char	*errormsg = NULL;

	// Expand things like "%.ps".
	if (expand_filename(eap, eap->cmdlinep, &errormsg) == FAIL)
	{
	    if (errormsg != NULL)
		emsg(errormsg);
	    return;
	}
	settings.outfile = skipwhite(eap->arg + 1);
    }
    else if (*eap->arg != NUL)
	settings.arguments = eap->arg;
# endif

    /*
     * Initialise for printing.  Ask the user for settings, unless forceit is
     * set.
     * The mch_print_init() code should set up margins if applicable. (It may
     * not be a real printer - for example the engine might generate HTML or
     * PS.)
     */
    if (mch_print_init(&settings,
			curbuf->b_fname == NULL
			    ? buf_spname(curbuf)
			    : curbuf->b_sfname == NULL
				? curbuf->b_fname
				: curbuf->b_sfname,
			eap->forceit) == FAIL)
	return;

#ifdef FEAT_SYN_HL
# ifdef  FEAT_GUI
    if (gui.in_use)
	settings.modec = 'g';
    else
# endif
	if (t_colors > 1)
	    settings.modec = 'c';
	else
	    settings.modec = 't';

    if (!syntax_present(curwin))
	settings.do_syntax = FALSE;
    else if (printer_opts[OPT_PRINT_SYNTAX].present
	    && TOLOWER_ASC(printer_opts[OPT_PRINT_SYNTAX].string[0]) != 'a')
	settings.do_syntax =
	       (TOLOWER_ASC(printer_opts[OPT_PRINT_SYNTAX].string[0]) == 'y');
    else
	settings.do_syntax = settings.has_color;
#endif

    // Set up printing attributes for line numbers
    settings.number.fg_color = PRCOLOR_BLACK;
    settings.number.bg_color = PRCOLOR_WHITE;
    settings.number.bold = FALSE;
    settings.number.italic = TRUE;
    settings.number.underline = FALSE;
#ifdef FEAT_SYN_HL
    /*
     * Syntax highlighting of line numbers.
     */
    if (prt_use_number() && settings.do_syntax)
    {
	int		id;

	id = syn_name2id((char_u *)"LineNr");
	if (id > 0)
	    id = syn_get_final_id(id);

	prt_get_attr(id, &settings.number, settings.modec);
    }
#endif

    /*
     * Estimate the total lines to be printed
     */
    for (lnum = eap->line1; lnum <= eap->line2; lnum++)
	bytes_to_print += (long_u)STRLEN(skipwhite(ml_get(lnum)));
    if (bytes_to_print == 0)
    {
	msg(_("No text to be printed"));
	goto print_fail_no_begin;
    }

    // Set colors and font to normal.
    curr_bg = (long_u)0xffffffffL;
    curr_fg = (long_u)0xffffffffL;
    curr_italic = MAYBE;
    curr_bold = MAYBE;
    curr_underline = MAYBE;

    prt_set_fg(PRCOLOR_BLACK);
    prt_set_bg(PRCOLOR_WHITE);
    prt_set_font(FALSE, FALSE, FALSE);
#ifdef FEAT_SYN_HL
    current_syn_id = -1;
#endif

    jobsplit = (printer_opts[OPT_PRINT_JOBSPLIT].present
	   && TOLOWER_ASC(printer_opts[OPT_PRINT_JOBSPLIT].string[0]) == 'y');

    if (!mch_print_begin(&settings))
	goto print_fail_no_begin;

    /*
     * Loop over collated copies: 1 2 3, 1 2 3, ...
     */
    page_count = 0;
    for (collated_copies = 0;
	    collated_copies < settings.n_collated_copies;
	    collated_copies++)
    {
	prt_pos_T	prtpos;		// current print position
	prt_pos_T	page_prtpos;	// print position at page start
	int		side;

	CLEAR_FIELD(page_prtpos);
	page_prtpos.file_line = eap->line1;
	prtpos = page_prtpos;

	if (jobsplit && collated_copies > 0)
	{
	    // Splitting jobs: Stop a previous job and start a new one.
	    mch_print_end(&settings);
	    if (!mch_print_begin(&settings))
		goto print_fail_no_begin;
	}

	/*
	 * Loop over all pages in the print job: 1 2 3 ...
	 */
	for (page_count = 0; prtpos.file_line <= eap->line2; ++page_count)
	{
	    /*
	     * Loop over uncollated copies: 1 1 1, 2 2 2, 3 3 3, ...
	     * For duplex: 12 12 12 34 34 34, ...
	     */
	    for (uncollated_copies = 0;
		    uncollated_copies < settings.n_uncollated_copies;
		    uncollated_copies++)
	    {
		// Set the print position to the start of this page.
		prtpos = page_prtpos;

		/*
		 * Do front and rear side of a page.
		 */
		for (side = 0; side <= settings.duplex; ++side)
		{
		    /*
		     * Print one page.
		     */

		    // Check for interrupt character every page.
		    ui_breakcheck();
		    if (got_int || settings.user_abort)
			goto print_fail;

		    sprintf((char *)IObuff, _("Printing page %d (%d%%)"),
			    page_count + 1 + side,
			    prtpos.bytes_printed > 1000000
				? (int)(prtpos.bytes_printed /
						       (bytes_to_print / 100))
				: (int)((prtpos.bytes_printed * 100)
							   / bytes_to_print));
		    if (!mch_print_begin_page(IObuff))
			goto print_fail;

		    if (settings.n_collated_copies > 1)
			sprintf((char *)IObuff + STRLEN(IObuff),
				_(" Copy %d of %d"),
				collated_copies + 1,
				settings.n_collated_copies);
		    prt_message(IObuff);

		    /*
		     * Output header if required
		     */
		    if (prt_header_height() > 0)
			prt_header(&settings, page_count + 1 + side,
							prtpos.file_line);

		    for (page_line = 0; page_line < settings.lines_per_page;
								  ++page_line)
		    {
			prtpos.column = hardcopy_line(&settings,
							   page_line, &prtpos);
			if (prtpos.column == 0)
			{
			    // finished a file line
			    prtpos.bytes_printed +=
				  STRLEN(skipwhite(ml_get(prtpos.file_line)));
			    if (++prtpos.file_line > eap->line2)
				break; // reached the end
			}
			else if (prtpos.ff)
			{
			    // Line had a formfeed in it - start new page but
			    // stay on the current line
			    break;
			}
		    }

		    if (!mch_print_end_page())
			goto print_fail;
		    if (prtpos.file_line > eap->line2)
			break; // reached the end
		}

		/*
		 * Extra blank page for duplexing with odd number of pages and
		 * more copies to come.
		 */
		if (prtpos.file_line > eap->line2 && settings.duplex
								 && side == 0
		    && uncollated_copies + 1 < settings.n_uncollated_copies)
		{
		    if (!mch_print_blank_page())
			goto print_fail;
		}
	    }
	    if (settings.duplex && prtpos.file_line <= eap->line2)
		++page_count;

	    // Remember the position where the next page starts.
	    page_prtpos = prtpos;
	}

	vim_snprintf((char *)IObuff, IOSIZE, _("Printed: %s"),
							    settings.jobname);
	prt_message(IObuff);
    }

print_fail:
    if (got_int || settings.user_abort)
    {
	sprintf((char *)IObuff, "%s", _("Printing aborted"));
	prt_message(IObuff);
    }
    mch_print_end(&settings);

print_fail_no_begin:
    mch_print_cleanup();
}

/*
 * Print one page line.
 * Return the next column to print, or zero if the line is finished.
 */
    static colnr_T
hardcopy_line(
    prt_settings_T	*psettings,
    int			page_line,
    prt_pos_T		*ppos)
{
    colnr_T	col;
    char_u	*line;
    int		need_break = FALSE;
    int		outputlen;
    int		tab_spaces;
    long_u	print_pos;
#ifdef FEAT_SYN_HL
    prt_text_attr_T attr;
    int		id;
#endif

    if (ppos->column == 0 || ppos->ff)
    {
	print_pos = 0;
	tab_spaces = 0;
	if (!ppos->ff && prt_use_number())
	    prt_line_number(psettings, page_line, ppos->file_line);
	ppos->ff = FALSE;
    }
    else
    {
	// left over from wrap halfway a tab
	print_pos = ppos->print_pos;
	tab_spaces = ppos->lead_spaces;
    }

    mch_print_start_line(0, page_line);
    line = ml_get(ppos->file_line);

    /*
     * Loop over the columns until the end of the file line or right margin.
     */
    for (col = ppos->column; line[col] != NUL && !need_break; col += outputlen)
    {
	outputlen = 1;
	if (has_mbyte && (outputlen = (*mb_ptr2len)(line + col)) < 1)
	    outputlen = 1;
#ifdef FEAT_SYN_HL
	/*
	 * syntax highlighting stuff.
	 */
	if (psettings->do_syntax)
	{
	    id = syn_get_id(curwin, ppos->file_line, col, 1, NULL, FALSE);
	    if (id > 0)
		id = syn_get_final_id(id);
	    else
		id = 0;
	    // Get the line again, a multi-line regexp may invalidate it.
	    line = ml_get(ppos->file_line);

	    if (id != current_syn_id)
	    {
		current_syn_id = id;
		prt_get_attr(id, &attr, psettings->modec);
		prt_set_font(attr.bold, attr.italic, attr.underline);
		prt_set_fg(attr.fg_color);
		prt_set_bg(attr.bg_color);
	    }
	}
#endif

	/*
	 * Appropriately expand any tabs to spaces.
	 */
	if (line[col] == TAB || tab_spaces != 0)
	{
	    if (tab_spaces == 0)
#ifdef FEAT_VARTABS
		tab_spaces = tabstop_padding(print_pos, curbuf->b_p_ts,
							curbuf->b_p_vts_array);
#else
		tab_spaces = (int)(curbuf->b_p_ts - (print_pos % curbuf->b_p_ts));
#endif

	    while (tab_spaces > 0)
	    {
		need_break = mch_print_text_out((char_u *)" ", 1);
		print_pos++;
		tab_spaces--;
		if (need_break)
		    break;
	    }
	    // Keep the TAB if we didn't finish it.
	    if (need_break && tab_spaces > 0)
		break;
	}
	else if (line[col] == FF
		&& printer_opts[OPT_PRINT_FORMFEED].present
		&& TOLOWER_ASC(printer_opts[OPT_PRINT_FORMFEED].string[0])
								       == 'y')
	{
	    ppos->ff = TRUE;
	    need_break = 1;
	}
	else
	{
	    need_break = mch_print_text_out(line + col, outputlen);
	    if (has_mbyte)
		print_pos += (*mb_ptr2cells)(line + col);
	    else
		print_pos++;
	}
    }

    ppos->lead_spaces = tab_spaces;
    ppos->print_pos = (int)print_pos;

    /*
     * Start next line of file if we clip lines, or have reached end of the
     * line, unless we are doing a formfeed.
     */
    if (!ppos->ff
	    && (line[col] == NUL
		|| (printer_opts[OPT_PRINT_WRAP].present
		    && TOLOWER_ASC(printer_opts[OPT_PRINT_WRAP].string[0])
								     == 'n')))
	return 0;
    return col;
}

# if defined(FEAT_POSTSCRIPT) || defined(PROTO)

/*
 * PS printer stuff.
 *
 * Sources of information to help maintain the PS printing code:
 *
 * 1. PostScript Language Reference, 3rd Edition,
 *      Addison-Wesley, 1999, ISBN 0-201-37922-8
 * 2. PostScript Language Program Design,
 *      Addison-Wesley, 1988, ISBN 0-201-14396-8
 * 3. PostScript Tutorial and Cookbook,
 *      Addison Wesley, 1985, ISBN 0-201-10179-3
 * 4. PostScript Language Document Structuring Conventions Specification,
 *    version 3.0,
 *      Adobe Technote 5001, 25th September 1992
 * 5. PostScript Printer Description File Format Specification, Version 4.3,
 *      Adobe technote 5003, 9th February 1996
 * 6. Adobe Font Metrics File Format Specification, Version 4.1,
 *      Adobe Technote 5007, 7th October 1998
 * 7. Adobe CMap and CIDFont Files Specification, Version 1.0,
 *      Adobe Technote 5014, 8th October 1996
 * 8. Adobe CJKV Character Collections and CMaps for CID-Keyed Fonts,
 *      Adoboe Technote 5094, 8th September, 2001
 * 9. CJKV Information Processing, 2nd Edition,
 *      O'Reilly, 2002, ISBN 1-56592-224-7
 *
 * Some of these documents can be found in PDF form on Adobe's web site -
 * http://www.adobe.com
 */

#define PRT_PS_DEFAULT_DPI	    (72)    // Default user space resolution
#define PRT_PS_DEFAULT_FONTSIZE     (10)
#define PRT_PS_DEFAULT_BUFFER_SIZE  (80)

struct prt_mediasize_S
{
    char	*name;
    float	width;		// width and height in points for portrait
    float	height;
};

#define PRT_MEDIASIZE_LEN  ARRAY_LENGTH(prt_mediasize)

static struct prt_mediasize_S prt_mediasize[] =
{
    {"A4",		595.0,  842.0},
    {"letter",		612.0,  792.0},
    {"10x14",		720.0, 1008.0},
    {"A3",		842.0, 1191.0},
    {"A5",		420.0,  595.0},
    {"B4",		729.0, 1032.0},
    {"B5",		516.0,  729.0},
    {"executive",	522.0,  756.0},
    {"folio",		595.0,  935.0},
    {"ledger",	       1224.0,  792.0},   // Yes, it is wider than taller!
    {"legal",		612.0, 1008.0},
    {"quarto",		610.0,  780.0},
    {"statement",	396.0,  612.0},
    {"tabloid",		792.0, 1224.0}
};

// PS font names, must be in Roman, Bold, Italic, Bold-Italic order
struct prt_ps_font_S
{
    int		wx;
    int		uline_offset;
    int		uline_width;
    int		bbox_min_y;
    int		bbox_max_y;
    char	*(ps_fontname[4]);
};

#define PRT_PS_FONT_ROMAN	(0)
#define PRT_PS_FONT_BOLD	(1)
#define PRT_PS_FONT_OBLIQUE	(2)
#define PRT_PS_FONT_BOLDOBLIQUE (3)

// Standard font metrics for Courier family
static struct prt_ps_font_S prt_ps_courier_font =
{
    600,
    -100, 50,
    -250, 805,
    {"Courier", "Courier-Bold", "Courier-Oblique", "Courier-BoldOblique"}
};

// Generic font metrics for multi-byte fonts
static struct prt_ps_font_S prt_ps_mb_font =
{
    1000,
    -100, 50,
    -250, 805,
    {NULL, NULL, NULL, NULL}
};

// Pointer to current font set being used
static struct prt_ps_font_S* prt_ps_font;

// Structures to map user named encoding and mapping to PS equivalents for
// building CID font name
struct prt_ps_encoding_S
{
    char	*encoding;
    char	*cmap_encoding;
    int		needs_charset;
};

struct prt_ps_charset_S
{
    char	*charset;
    char	*cmap_charset;
    int		has_charset;
};


#define CS_JIS_C_1978   (0x01)
#define CS_JIS_X_1983   (0x02)
#define CS_JIS_X_1990   (0x04)
#define CS_NEC		(0x08)
#define CS_MSWINDOWS	(0x10)
#define CS_CP932	(0x20)
#define CS_KANJITALK6	(0x40)
#define CS_KANJITALK7   (0x80)

// Japanese encodings and charsets
static struct prt_ps_encoding_S j_encodings[] =
{
    {"iso-2022-jp", NULL,       (CS_JIS_C_1978|CS_JIS_X_1983|CS_JIS_X_1990|
								    CS_NEC)},
    {"euc-jp",	    "EUC",	(CS_JIS_C_1978|CS_JIS_X_1983|CS_JIS_X_1990)},
    {"sjis",	    "RKSJ",	(CS_JIS_C_1978|CS_JIS_X_1983|CS_MSWINDOWS|
						CS_KANJITALK6|CS_KANJITALK7)},
    {"cp932",       "RKSJ",     CS_JIS_X_1983},
    {"ucs-2",       "UCS2",     CS_JIS_X_1990},
    {"utf-8",       "UTF8" ,    CS_JIS_X_1990}
};
static struct prt_ps_charset_S j_charsets[] =
{
    {"JIS_C_1978",  "78",       CS_JIS_C_1978},
    {"JIS_X_1983",  NULL,       CS_JIS_X_1983},
    {"JIS_X_1990",  "Hojo",     CS_JIS_X_1990},
    {"NEC",	    "Ext",	CS_NEC},
    {"MSWINDOWS",   "90ms",     CS_MSWINDOWS},
    {"CP932",       "90ms",     CS_JIS_X_1983},
    {"KANJITALK6",  "83pv",     CS_KANJITALK6},
    {"KANJITALK7",  "90pv",     CS_KANJITALK7}
};

#define CS_GB_2312_80       (0x01)
#define CS_GBT_12345_90     (0x02)
#define CS_GBK2K	    (0x04)
#define CS_SC_MAC	    (0x08)
#define CS_GBT_90_MAC	    (0x10)
#define CS_GBK		    (0x20)
#define CS_SC_ISO10646      (0x40)

// Simplified Chinese encodings and charsets
static struct prt_ps_encoding_S sc_encodings[] =
{
    {"iso-2022",    NULL,       (CS_GB_2312_80|CS_GBT_12345_90)},
    {"gb18030",     NULL,       CS_GBK2K},
    {"euc-cn",      "EUC",      (CS_GB_2312_80|CS_GBT_12345_90|CS_SC_MAC|
								CS_GBT_90_MAC)},
    {"gbk",	    "EUC",	CS_GBK},
    {"ucs-2",       "UCS2",     CS_SC_ISO10646},
    {"utf-8",       "UTF8",     CS_SC_ISO10646}
};
static struct prt_ps_charset_S sc_charsets[] =
{
    {"GB_2312-80",  "GB",       CS_GB_2312_80},
    {"GBT_12345-90","GBT",      CS_GBT_12345_90},
    {"MAC",	    "GBpc",	CS_SC_MAC},
    {"GBT-90_MAC",  "GBTpc",	CS_GBT_90_MAC},
    {"GBK",	    "GBK",	CS_GBK},
    {"GB18030",     "GBK2K",    CS_GBK2K},
    {"ISO10646",    "UniGB",    CS_SC_ISO10646}
};

#define CS_CNS_PLANE_1      (0x01)
#define CS_CNS_PLANE_2      (0x02)
#define CS_CNS_PLANE_1_2    (0x04)
#define CS_B5		    (0x08)
#define CS_ETEN		    (0x10)
#define CS_HK_GCCS	    (0x20)
#define CS_HK_SCS	    (0x40)
#define CS_HK_SCS_ETEN	    (0x80)
#define CS_MTHKL	    (0x100)
#define CS_MTHKS	    (0x200)
#define CS_DLHKL	    (0x400)
#define CS_DLHKS	    (0x800)
#define CS_TC_ISO10646	    (0x1000)

// Traditional Chinese encodings and charsets
static struct prt_ps_encoding_S tc_encodings[] =
{
    {"iso-2022",    NULL,       (CS_CNS_PLANE_1|CS_CNS_PLANE_2)},
    {"euc-tw",      "EUC",      CS_CNS_PLANE_1_2},
    {"big5",	    "B5",	(CS_B5|CS_ETEN|CS_HK_GCCS|CS_HK_SCS|
				    CS_HK_SCS_ETEN|CS_MTHKL|CS_MTHKS|CS_DLHKL|
								    CS_DLHKS)},
    {"cp950",       "B5",       CS_B5},
    {"ucs-2",       "UCS2",     CS_TC_ISO10646},
    {"utf-8",       "UTF8",     CS_TC_ISO10646},
    {"utf-16",      "UTF16",    CS_TC_ISO10646},
    {"utf-32",      "UTF32",    CS_TC_ISO10646}
};
static struct prt_ps_charset_S tc_charsets[] =
{
    {"CNS_1992_1",  "CNS1",     CS_CNS_PLANE_1},
    {"CNS_1992_2",  "CNS2",     CS_CNS_PLANE_2},
    {"CNS_1993",    "CNS",      CS_CNS_PLANE_1_2},
    {"BIG5",	    NULL,	CS_B5},
    {"CP950",	    NULL,	CS_B5},
    {"ETEN",	    "ETen",	CS_ETEN},
    {"HK_GCCS",     "HKgccs",	CS_HK_GCCS},
    {"SCS",	    "HKscs",	CS_HK_SCS},
    {"SCS_ETEN",    "ETHK",     CS_HK_SCS_ETEN},
    {"MTHKL",       "HKm471",   CS_MTHKL},
    {"MTHKS",       "HKm314",   CS_MTHKS},
    {"DLHKL",       "HKdla",    CS_DLHKL},
    {"DLHKS",       "HKdlb",    CS_DLHKS},
    {"ISO10646",    "UniCNS",   CS_TC_ISO10646}
};

#define CS_KR_X_1992	    (0x01)
#define CS_KR_MAC	    (0x02)
#define CS_KR_X_1992_MS     (0x04)
#define CS_KR_ISO10646      (0x08)

// Korean encodings and charsets
static struct prt_ps_encoding_S k_encodings[] =
{
    {"iso-2022-kr", NULL,       CS_KR_X_1992},
    {"euc-kr",      "EUC",      (CS_KR_X_1992|CS_KR_MAC)},
    {"johab",       "Johab",    CS_KR_X_1992},
    {"cp1361",      "Johab",    CS_KR_X_1992},
    {"uhc",	    "UHC",	CS_KR_X_1992_MS},
    {"cp949",       "UHC",      CS_KR_X_1992_MS},
    {"ucs-2",       "UCS2",     CS_KR_ISO10646},
    {"utf-8",       "UTF8",     CS_KR_ISO10646}
};
static struct prt_ps_charset_S k_charsets[] =
{
    {"KS_X_1992",   "KSC",      CS_KR_X_1992},
    {"CP1361",      "KSC",      CS_KR_X_1992},
    {"MAC",	    "KSCpc",	CS_KR_MAC},
    {"MSWINDOWS",   "KSCms",    CS_KR_X_1992_MS},
    {"CP949",       "KSCms",    CS_KR_X_1992_MS},
    {"WANSUNG",     "KSCms",    CS_KR_X_1992_MS},
    {"ISO10646",    "UniKS",    CS_KR_ISO10646}
};

// Collections of encodings and charsets for multi-byte printing
struct prt_ps_mbfont_S
{
    int				num_encodings;
    struct prt_ps_encoding_S	*encodings;
    int				num_charsets;
    struct prt_ps_charset_S	*charsets;
    char			*ascii_enc;
    char			*defcs;
};

static struct prt_ps_mbfont_S prt_ps_mbfonts[] =
{
    {
	ARRAY_LENGTH(j_encodings),
	j_encodings,
	ARRAY_LENGTH(j_charsets),
	j_charsets,
	"jis_roman",
	"JIS_X_1983"
    },
    {
	ARRAY_LENGTH(sc_encodings),
	sc_encodings,
	ARRAY_LENGTH(sc_charsets),
	sc_charsets,
	"gb_roman",
	"GB_2312-80"
    },
    {
	ARRAY_LENGTH(tc_encodings),
	tc_encodings,
	ARRAY_LENGTH(tc_charsets),
	tc_charsets,
	"cns_roman",
	"BIG5"
    },
    {
	ARRAY_LENGTH(k_encodings),
	k_encodings,
	ARRAY_LENGTH(k_charsets),
	k_charsets,
	"ks_roman",
	"KS_X_1992"
    }
};

struct prt_ps_resource_S
{
    char_u  name[64];
    char_u  filename[MAXPATHL + 1];
    int     type;
    char_u  title[256];
    char_u  version[256];
};

// Types of PS resource file currently used
#define PRT_RESOURCE_TYPE_PROCSET   (0)
#define PRT_RESOURCE_TYPE_ENCODING  (1)
#define PRT_RESOURCE_TYPE_CMAP      (2)

// The PS prolog file version number has to match - if the prolog file is
// updated, increment the number in the file and here.  Version checking was
// added as of VIM 6.2.
// The CID prolog file version number behaves as per PS prolog.
// Table of VIM and prolog versions:
//
// VIM      Prolog  CIDProlog
// 6.2      1.3
// 7.0      1.4	    1.0
#define PRT_PROLOG_VERSION  ((char_u *)"1.4")
#define PRT_CID_PROLOG_VERSION  ((char_u *)"1.0")

// String versions of PS resource types - indexed by constants above so don't
// re-order!
static char *prt_resource_types[] =
{
    "procset",
    "encoding",
    "cmap"
};

// Strings to look for in a PS resource file
#define PRT_RESOURCE_HEADER	    "%!PS-Adobe-"
#define PRT_RESOURCE_RESOURCE	    "Resource-"
#define PRT_RESOURCE_PROCSET	    "ProcSet"
#define PRT_RESOURCE_ENCODING	    "Encoding"
#define PRT_RESOURCE_CMAP	    "CMap"


// Data for table based DSC comment recognition, easy to extend if VIM needs to
// read more comments.
#define PRT_DSC_MISC_TYPE	    (-1)
#define PRT_DSC_TITLE_TYPE	    (1)
#define PRT_DSC_VERSION_TYPE	    (2)
#define PRT_DSC_ENDCOMMENTS_TYPE    (3)

#define PRT_DSC_TITLE		    "%%Title:"
#define PRT_DSC_VERSION		    "%%Version:"
#define PRT_DSC_ENDCOMMENTS	    "%%EndComments:"

struct prt_dsc_comment_S
{
    char	*string;
    int		len;
    int		type;
};

struct prt_dsc_line_S
{
    int		type;
    char_u	*string;
    int		len;
};


#define SIZEOF_CSTR(s)      (sizeof(s) - 1)
static struct prt_dsc_comment_S prt_dsc_table[] =
{
    {PRT_DSC_TITLE,       SIZEOF_CSTR(PRT_DSC_TITLE),     PRT_DSC_TITLE_TYPE},
    {PRT_DSC_VERSION,     SIZEOF_CSTR(PRT_DSC_VERSION),
							PRT_DSC_VERSION_TYPE},
    {PRT_DSC_ENDCOMMENTS, SIZEOF_CSTR(PRT_DSC_ENDCOMMENTS),
						     PRT_DSC_ENDCOMMENTS_TYPE}
};

static void prt_write_file_len(char_u *buffer, int bytes);
static int prt_next_dsc(struct prt_dsc_line_S *p_dsc_line);

/*
 * Variables for the output PostScript file.
 */
static FILE *prt_ps_fd;
static int prt_file_error;
static char_u *prt_ps_file_name = NULL;

/*
 * Various offsets and dimensions in default PostScript user space (points).
 * Used for text positioning calculations
 */
static float prt_page_width;
static float prt_page_height;
static float prt_left_margin;
static float prt_right_margin;
static float prt_top_margin;
static float prt_bottom_margin;
static float prt_line_height;
static float prt_first_line_height;
static float prt_char_width;
static float prt_number_width;
static float prt_bgcol_offset;
static float prt_pos_x_moveto = 0.0;
static float prt_pos_y_moveto = 0.0;

/*
 * Various control variables used to decide when and how to change the
 * PostScript graphics state.
 */
static int prt_need_moveto;
static int prt_do_moveto;
static int prt_need_font;
static int prt_font;
static int prt_need_underline;
static int prt_underline;
static int prt_do_underline;
static int prt_need_fgcol;
static int prt_fgcol;
static int prt_need_bgcol;
static int prt_do_bgcol;
static int prt_bgcol;
static int prt_new_bgcol;
static int prt_attribute_change;
static float prt_text_run;
static int prt_page_num;
static int prt_bufsiz;

/*
 * Variables controlling physical printing.
 */
static int prt_media;
static int prt_portrait;
static int prt_num_copies;
static int prt_duplex;
static int prt_tumble;
static int prt_collate;

/*
 * Buffers used when generating PostScript output
 */
static char_u prt_line_buffer[257];
static garray_T prt_ps_buffer;

static int prt_do_conv;
static vimconv_T prt_conv;

static int prt_out_mbyte;
static int prt_custom_cmap;
static char prt_cmap[80];
static int prt_use_courier;
static int prt_in_ascii;
static int prt_half_width;
static char *prt_ascii_encoding;
static char_u prt_hexchar[] = "0123456789abcdef";

    static void
prt_write_file_raw_len(char_u *buffer, int bytes)
{
    if (!prt_file_error
	    && fwrite(buffer, sizeof(char_u), bytes, prt_ps_fd)
							     != (size_t)bytes)
    {
	emsg(_(e_error_writing_to_postscript_output_file));
	prt_file_error = TRUE;
    }
}

    static void
prt_write_file(char_u *buffer)
{
    prt_write_file_len(buffer, (int)STRLEN(buffer));
}

    static void
prt_write_file_len(char_u *buffer, int bytes)
{
    prt_write_file_raw_len(buffer, bytes);
}

/*
 * Write a string.
 */
    static void
prt_write_string(char *s)
{
    vim_snprintf((char *)prt_line_buffer, sizeof(prt_line_buffer), "%s", s);
    prt_write_file(prt_line_buffer);
}

/*
 * Write an int and a space.
 */
    static void
prt_write_int(int i)
{
    sprintf((char *)prt_line_buffer, "%d ", i);
    prt_write_file(prt_line_buffer);
}

/*
 * Write a boolean and a space.
 */
    static void
prt_write_boolean(int b)
{
    sprintf((char *)prt_line_buffer, "%s ", (b ? "T" : "F"));
    prt_write_file(prt_line_buffer);
}

/*
 * Write PostScript to re-encode and define the font.
 */
    static void
prt_def_font(
    char	*new_name,
    char	*encoding,
    int		height,
    char	*font)
{
    vim_snprintf((char *)prt_line_buffer, sizeof(prt_line_buffer),
			  "/_%s /VIM-%s /%s ref\n", new_name, encoding, font);
    prt_write_file(prt_line_buffer);
    if (prt_out_mbyte)
	sprintf((char *)prt_line_buffer, "/%s %d %f /_%s sffs\n",
		       new_name, height, 500./prt_ps_courier_font.wx, new_name);
    else
	vim_snprintf((char *)prt_line_buffer, sizeof(prt_line_buffer),
			     "/%s %d /_%s ffs\n", new_name, height, new_name);
    prt_write_file(prt_line_buffer);
}

/*
 * Write a line to define the CID font.
 */
    static void
prt_def_cidfont(char *new_name, int height, char *cidfont)
{
    vim_snprintf((char *)prt_line_buffer, sizeof(prt_line_buffer),
	      "/_%s /%s[/%s] vim_composefont\n", new_name, prt_cmap, cidfont);
    prt_write_file(prt_line_buffer);
    vim_snprintf((char *)prt_line_buffer, sizeof(prt_line_buffer),
			     "/%s %d /_%s ffs\n", new_name, height, new_name);
    prt_write_file(prt_line_buffer);
}

/*
 * Write a line to define a duplicate of a CID font
 */
    static void
prt_dup_cidfont(char *original_name, char *new_name)
{
    vim_snprintf((char *)prt_line_buffer, sizeof(prt_line_buffer),
				       "/%s %s d\n", new_name, original_name);
    prt_write_file(prt_line_buffer);
}

/*
 * Convert a real value into an integer and fractional part as integers, with
 * the fractional part being in the range [0,10^precision).  The fractional part
 * is also rounded based on the precision + 1'th fractional digit.
 */
    static void
prt_real_bits(
    double      real,
    int		precision,
    int		*pinteger,
    int		*pfraction)
{
    int     i;
    int     integer;
    float   fraction;

    integer = (int)real;
    fraction = (float)(real - integer);
    if (real < (double)integer)
	fraction = -fraction;
    for (i = 0; i < precision; i++)
	fraction *= 10.0;

    *pinteger = integer;
    *pfraction = (int)(fraction + 0.5);
}

/*
 * Write a real and a space.  Save bytes if real value has no fractional part!
 * We use prt_real_bits() as %f in sprintf uses the locale setting to decide
 * what decimal point character to use, but PS always requires a '.'.
 */
    static void
prt_write_real(double val, int prec)
{
    int     integer;
    int     fraction;

    prt_real_bits(val, prec, &integer, &fraction);
    // Emit integer part
    sprintf((char *)prt_line_buffer, "%d", integer);
    prt_write_file(prt_line_buffer);
    // Only emit fraction if necessary
    if (fraction != 0)
    {
	// Remove any trailing zeros
	while ((fraction % 10) == 0)
	{
	    prec--;
	    fraction /= 10;
	}
	// Emit fraction left padded with zeros
	sprintf((char *)prt_line_buffer, ".%0*d", prec, fraction);
	prt_write_file(prt_line_buffer);
    }
    sprintf((char *)prt_line_buffer, " ");
    prt_write_file(prt_line_buffer);
}

/*
 * Write a line to define a numeric variable.
 */
    static void
prt_def_var(char *name, double value, int prec)
{
    vim_snprintf((char *)prt_line_buffer, sizeof(prt_line_buffer),
								"/%s ", name);
    prt_write_file(prt_line_buffer);
    prt_write_real(value, prec);
    sprintf((char *)prt_line_buffer, "d\n");
    prt_write_file(prt_line_buffer);
}

// Convert size from font space to user space at current font scale
#define PRT_PS_FONT_TO_USER(scale, size)    ((size) * ((scale)/1000.0))

    static void
prt_flush_buffer(void)
{
    if (prt_ps_buffer.ga_len <= 0)
	return;

    // Any background color must be drawn first
    if (prt_do_bgcol && (prt_new_bgcol != PRCOLOR_WHITE))
    {
	int     r, g, b;

	if (prt_do_moveto)
	{
	    prt_write_real(prt_pos_x_moveto, 2);
	    prt_write_real(prt_pos_y_moveto, 2);
	    prt_write_string("m\n");
	    prt_do_moveto = FALSE;
	}

	// Size of rect of background color on which text is printed
	prt_write_real(prt_text_run, 2);
	prt_write_real(prt_line_height, 2);

	// Lastly add the color of the background
	r = ((unsigned)prt_new_bgcol & 0xff0000) >> 16;
	g = ((unsigned)prt_new_bgcol & 0xff00) >> 8;
	b = prt_new_bgcol & 0xff;
	prt_write_real(r / 255.0, 3);
	prt_write_real(g / 255.0, 3);
	prt_write_real(b / 255.0, 3);
	prt_write_string("bg\n");
    }
    // Draw underlines before the text as it makes it slightly easier to
    // find the starting point.
    if (prt_do_underline)
    {
	if (prt_do_moveto)
	{
	    prt_write_real(prt_pos_x_moveto, 2);
	    prt_write_real(prt_pos_y_moveto, 2);
	    prt_write_string("m\n");
	    prt_do_moveto = FALSE;
	}

	// Underline length of text run
	prt_write_real(prt_text_run, 2);
	prt_write_string("ul\n");
    }
    // Draw the text
    if (prt_out_mbyte)
	prt_write_string("<");
    else
	prt_write_string("(");
    prt_write_file_raw_len(prt_ps_buffer.ga_data, prt_ps_buffer.ga_len);
    if (prt_out_mbyte)
	prt_write_string(">");
    else
	prt_write_string(")");
    // Add a moveto if need be and use the appropriate show procedure
    if (prt_do_moveto)
    {
	prt_write_real(prt_pos_x_moveto, 2);
	prt_write_real(prt_pos_y_moveto, 2);
	// moveto and a show
	prt_write_string("ms\n");
	prt_do_moveto = FALSE;
    }
    else // Simple show
	prt_write_string("s\n");

    ga_clear(&prt_ps_buffer);
    ga_init2(&prt_ps_buffer, sizeof(char), prt_bufsiz);
}


    static void
prt_resource_name(char_u *filename, void *cookie)
{
    char_u *resource_filename = cookie;

    if (STRLEN(filename) >= MAXPATHL)
	*resource_filename = NUL;
    else
	STRCPY(resource_filename, filename);
}

    static int
prt_find_resource(char *name, struct prt_ps_resource_S *resource)
{
    char_u	*buffer;
    int		retval;

    buffer = alloc(MAXPATHL + 1);
    if (buffer == NULL)
	return FALSE;

    vim_strncpy(resource->name, (char_u *)name, 63);
    // Look for named resource file in runtimepath
    STRCPY(buffer, "print");
    add_pathsep(buffer);
    vim_strcat(buffer, (char_u *)name, MAXPATHL);
    vim_strcat(buffer, (char_u *)".ps", MAXPATHL);
    resource->filename[0] = NUL;
    retval = (do_in_runtimepath(buffer, 0, prt_resource_name,
							   resource->filename)
	    && resource->filename[0] != NUL);
    vim_free(buffer);
    return retval;
}

// PS CR and LF characters have platform independent values
#define PSLF  (0x0a)
#define PSCR  (0x0d)

// Static buffer to read initial comments in a resource file, some can have a
// couple of KB of comments!
#define PRT_FILE_BUFFER_LEN (2048)
struct prt_resfile_buffer_S
{
    char_u  buffer[PRT_FILE_BUFFER_LEN];
    int     len;
    int     line_start;
    int     line_end;
};

static struct prt_resfile_buffer_S prt_resfile;

    static int
prt_resfile_next_line(void)
{
    int     idx;

    // Move to start of next line and then find end of line
    idx = prt_resfile.line_end + 1;
    while (idx < prt_resfile.len)
    {
	if (prt_resfile.buffer[idx] != PSLF && prt_resfile.buffer[idx] != PSCR)
	    break;
	idx++;
    }
    prt_resfile.line_start = idx;

    while (idx < prt_resfile.len)
    {
	if (prt_resfile.buffer[idx] == PSLF || prt_resfile.buffer[idx] == PSCR)
	    break;
	idx++;
    }
    prt_resfile.line_end = idx;

    return (idx < prt_resfile.len);
}

    static int
prt_resfile_strncmp(int offset, char *string, int len)
{
    // Force not equal if string is longer than remainder of line
    if (len > (prt_resfile.line_end - (prt_resfile.line_start + offset)))
	return 1;

    return STRNCMP(&prt_resfile.buffer[prt_resfile.line_start + offset],
								string, len);
}

    static int
prt_resfile_skip_nonws(int offset)
{
    int     idx;

    idx = prt_resfile.line_start + offset;
    while (idx < prt_resfile.line_end)
    {
	if (isspace(prt_resfile.buffer[idx]))
	    return idx - prt_resfile.line_start;
	idx++;
    }
    return -1;
}

    static int
prt_resfile_skip_ws(int offset)
{
    int     idx;

    idx = prt_resfile.line_start + offset;
    while (idx < prt_resfile.line_end)
    {
	if (!isspace(prt_resfile.buffer[idx]))
	    return idx - prt_resfile.line_start;
	idx++;
    }
    return -1;
}

// prt_next_dsc() - returns detail on next DSC comment line found.  Returns true
// if a DSC comment is found, else false
    static int
prt_next_dsc(struct prt_dsc_line_S *p_dsc_line)
{
    int     comment;
    int     offset;

    // Move to start of next line
    if (!prt_resfile_next_line())
	return FALSE;

    // DSC comments always start %%
    if (prt_resfile_strncmp(0, "%%", 2) != 0)
	return FALSE;

    // Find type of DSC comment
    for (comment = 0; comment < (int)ARRAY_LENGTH(prt_dsc_table); comment++)
	if (prt_resfile_strncmp(0, prt_dsc_table[comment].string,
					    prt_dsc_table[comment].len) == 0)
	    break;

    if (comment != ARRAY_LENGTH(prt_dsc_table))
    {
	// Return type of comment
	p_dsc_line->type = prt_dsc_table[comment].type;
	offset = prt_dsc_table[comment].len;
    }
    else
    {
	// Unrecognised DSC comment, skip to ws after comment leader
	p_dsc_line->type = PRT_DSC_MISC_TYPE;
	offset = prt_resfile_skip_nonws(0);
	if (offset == -1)
	    return FALSE;
    }

    // Skip ws to comment value
    offset = prt_resfile_skip_ws(offset);
    if (offset == -1)
	return FALSE;

    p_dsc_line->string = &prt_resfile.buffer[prt_resfile.line_start + offset];
    p_dsc_line->len = prt_resfile.line_end - (prt_resfile.line_start + offset);

    return TRUE;
}

/*
 * Improved hand crafted parser to get the type, title, and version number of a
 * PS resource file so the file details can be added to the DSC header comments.
 */
    static int
prt_open_resource(struct prt_ps_resource_S *resource)
{
    int		offset;
    int		seen_all;
    int		seen_title;
    int		seen_version;
    FILE	*fd_resource;
    struct prt_dsc_line_S dsc_line;

    fd_resource = mch_fopen((char *)resource->filename, READBIN);
    if (fd_resource == NULL)
    {
	semsg(_(e_cant_open_file_str_3), resource->filename);
	return FALSE;
    }
    CLEAR_FIELD(prt_resfile.buffer);

    // Parse first line to ensure valid resource file
    prt_resfile.len = (int)fread((char *)prt_resfile.buffer, sizeof(char_u),
					    PRT_FILE_BUFFER_LEN, fd_resource);
    if (ferror(fd_resource))
    {
	semsg(_(e_cant_read_postscript_resource_file_str),
		resource->filename);
	fclose(fd_resource);
	return FALSE;
    }
    fclose(fd_resource);

    prt_resfile.line_end = -1;
    prt_resfile.line_start = 0;
    if (!prt_resfile_next_line())
	return FALSE;

    offset = 0;

    if (prt_resfile_strncmp(offset, PRT_RESOURCE_HEADER,
				       (int)STRLEN(PRT_RESOURCE_HEADER)) != 0)
    {
	semsg(_(e_file_str_is_not_postscript_resource_file),
							   resource->filename);
	return FALSE;
    }

    // Skip over any version numbers and following ws
    offset += (int)STRLEN(PRT_RESOURCE_HEADER);
    offset = prt_resfile_skip_nonws(offset);
    if (offset == -1)
	return FALSE;
    offset = prt_resfile_skip_ws(offset);
    if (offset == -1)
	return FALSE;

    if (prt_resfile_strncmp(offset, PRT_RESOURCE_RESOURCE,
				     (int)STRLEN(PRT_RESOURCE_RESOURCE)) != 0)
    {
	semsg(_(e_file_str_is_not_supported_postscript_resource_file),
							   resource->filename);
	return FALSE;
    }
    offset += (int)STRLEN(PRT_RESOURCE_RESOURCE);

    // Decide type of resource in the file
    if (prt_resfile_strncmp(offset, PRT_RESOURCE_PROCSET,
				      (int)STRLEN(PRT_RESOURCE_PROCSET)) == 0)
	resource->type = PRT_RESOURCE_TYPE_PROCSET;
    else if (prt_resfile_strncmp(offset, PRT_RESOURCE_ENCODING,
				     (int)STRLEN(PRT_RESOURCE_ENCODING)) == 0)
	resource->type = PRT_RESOURCE_TYPE_ENCODING;
    else if (prt_resfile_strncmp(offset, PRT_RESOURCE_CMAP,
					 (int)STRLEN(PRT_RESOURCE_CMAP)) == 0)
	resource->type = PRT_RESOURCE_TYPE_CMAP;
    else
    {
	semsg(_(e_file_str_is_not_supported_postscript_resource_file),
							   resource->filename);
	return FALSE;
    }

    // Look for title and version of resource
    resource->title[0] = '\0';
    resource->version[0] = '\0';
    seen_title = FALSE;
    seen_version = FALSE;
    seen_all = FALSE;
    while (!seen_all && prt_next_dsc(&dsc_line))
    {
	switch (dsc_line.type)
	{
	case PRT_DSC_TITLE_TYPE:
	    vim_strncpy(resource->title, dsc_line.string, dsc_line.len);
	    seen_title = TRUE;
	    if (seen_version)
		seen_all = TRUE;
	    break;

	case PRT_DSC_VERSION_TYPE:
	    vim_strncpy(resource->version, dsc_line.string, dsc_line.len);
	    seen_version = TRUE;
	    if (seen_title)
		seen_all = TRUE;
	    break;

	case PRT_DSC_ENDCOMMENTS_TYPE:
	    // Won't find title or resource after this comment, stop searching
	    seen_all = TRUE;
	    break;

	case PRT_DSC_MISC_TYPE:
	    // Not interested in whatever comment this line had
	    break;
	}
    }

    if (!seen_title || !seen_version)
    {
	semsg(_(e_file_str_is_not_supported_postscript_resource_file),
							   resource->filename);
	return FALSE;
    }

    return TRUE;
}

    static int
prt_check_resource(struct prt_ps_resource_S *resource, char_u *version)
{
    // Version number m.n should match, the revision number does not matter
    if (STRNCMP(resource->version, version, STRLEN(version)))
    {
	semsg(_(e_str_resource_file_has_wrong_version),
		resource->name);
	return FALSE;
    }

    // Other checks to be added as needed
    return TRUE;
}

    static void
prt_dsc_start(void)
{
    prt_write_string("%!PS-Adobe-3.0\n");
}

    static void
prt_dsc_noarg(char *comment)
{
    vim_snprintf((char *)prt_line_buffer, sizeof(prt_line_buffer),
							 "%%%%%s\n", comment);
    prt_write_file(prt_line_buffer);
}

    static void
prt_dsc_textline(char *comment, char *text)
{
    vim_snprintf((char *)prt_line_buffer, sizeof(prt_line_buffer),
					       "%%%%%s: %s\n", comment, text);
    prt_write_file(prt_line_buffer);
}

    static void
prt_dsc_text(char *comment, char *text)
{
    // TODO - should scan 'text' for any chars needing escaping!
    vim_snprintf((char *)prt_line_buffer, sizeof(prt_line_buffer),
					     "%%%%%s: (%s)\n", comment, text);
    prt_write_file(prt_line_buffer);
}

#define prt_dsc_atend(c)	prt_dsc_text((c), "atend")

    static void
prt_dsc_ints(char *comment, int count, int *ints)
{
    int		i;

    vim_snprintf((char *)prt_line_buffer, sizeof(prt_line_buffer),
							  "%%%%%s:", comment);
    prt_write_file(prt_line_buffer);

    for (i = 0; i < count; i++)
    {
	sprintf((char *)prt_line_buffer, " %d", ints[i]);
	prt_write_file(prt_line_buffer);
    }

    prt_write_string("\n");
}

    static void
prt_dsc_resources(
    char	*comment,	// if NULL add to previous
    char	*type,
    char	*string)
{
    if (comment != NULL)
	vim_snprintf((char *)prt_line_buffer, sizeof(prt_line_buffer),
						 "%%%%%s: %s", comment, type);
    else
	vim_snprintf((char *)prt_line_buffer, sizeof(prt_line_buffer),
							    "%%%%+ %s", type);
    prt_write_file(prt_line_buffer);

    vim_snprintf((char *)prt_line_buffer, sizeof(prt_line_buffer),
							     " %s\n", string);
    prt_write_file(prt_line_buffer);
}

    static void
prt_dsc_font_resource(char *resource, struct prt_ps_font_S *ps_font)
{
    int     i;

    prt_dsc_resources(resource, "font",
				    ps_font->ps_fontname[PRT_PS_FONT_ROMAN]);
    for (i = PRT_PS_FONT_BOLD ; i <= PRT_PS_FONT_BOLDOBLIQUE ; i++)
	if (ps_font->ps_fontname[i] != NULL)
	    prt_dsc_resources(NULL, "font", ps_font->ps_fontname[i]);
}

    static void
prt_dsc_requirements(
    int		duplex,
    int		tumble,
    int		collate,
    int		color,
    int		num_copies)
{
    // Only output the comment if we need to.
    // Note: tumble is ignored if we are not duplexing
    if (!(duplex || collate || color || (num_copies > 1)))
	return;

    sprintf((char *)prt_line_buffer, "%%%%Requirements:");
    prt_write_file(prt_line_buffer);

    if (duplex)
    {
	prt_write_string(" duplex");
	if (tumble)
	    prt_write_string("(tumble)");
    }
    if (collate)
	prt_write_string(" collate");
    if (color)
	prt_write_string(" color");
    if (num_copies > 1)
    {
	prt_write_string(" numcopies(");
	// Note: no space wanted so don't use prt_write_int()
	sprintf((char *)prt_line_buffer, "%d", num_copies);
	prt_write_file(prt_line_buffer);
	prt_write_string(")");
    }
    prt_write_string("\n");
}

    static void
prt_dsc_docmedia(
    char	*paper_name,
    double	width,
    double	height,
    double	weight,
    char	*colour,
    char	*type)
{
    vim_snprintf((char *)prt_line_buffer, sizeof(prt_line_buffer),
					"%%%%DocumentMedia: %s ", paper_name);
    prt_write_file(prt_line_buffer);
    prt_write_real(width, 2);
    prt_write_real(height, 2);
    prt_write_real(weight, 2);
    if (colour == NULL)
	prt_write_string("()");
    else
	prt_write_string(colour);
    prt_write_string(" ");
    if (type == NULL)
	prt_write_string("()");
    else
	prt_write_string(type);
    prt_write_string("\n");
}

    void
mch_print_cleanup(void)
{
    if (prt_out_mbyte)
    {
	int     i;

	// Free off all CID font names created, but first clear duplicate
	// pointers to the same string (when the same font is used for more than
	// one style).
	for (i = PRT_PS_FONT_ROMAN; i <= PRT_PS_FONT_BOLDOBLIQUE; i++)
	{
	    if (prt_ps_mb_font.ps_fontname[i] != NULL)
		VIM_CLEAR(prt_ps_mb_font.ps_fontname[i]);
	}
    }

    if (prt_do_conv)
    {
	convert_setup(&prt_conv, NULL, NULL);
	prt_do_conv = FALSE;
    }
    if (prt_ps_fd != NULL)
    {
	fclose(prt_ps_fd);
	prt_ps_fd = NULL;
	prt_file_error = FALSE;
    }
    if (prt_ps_file_name != NULL)
	VIM_CLEAR(prt_ps_file_name);
}

    static float
to_device_units(int idx, double physsize, int def_number)
{
    float	ret;
    int		u;
    int		nr;

    u = prt_get_unit(idx);
    if (u == PRT_UNIT_NONE)
    {
	u = PRT_UNIT_PERC;
	nr = def_number;
    }
    else
	nr = printer_opts[idx].number;

    switch (u)
    {
	case PRT_UNIT_INCH:
	    ret = (float)(nr * PRT_PS_DEFAULT_DPI);
	    break;
	case PRT_UNIT_MM:
	    ret = (float)(nr * PRT_PS_DEFAULT_DPI) / (float)25.4;
	    break;
	case PRT_UNIT_POINT:
	    ret = (float)nr;
	    break;
	case PRT_UNIT_PERC:
	default:
	    ret = (float)(physsize * nr) / 100;
	    break;
    }

    return ret;
}

/*
 * Calculate margins for given width and height from printoptions settings.
 */
    static void
prt_page_margins(
    double	width,
    double	height,
    double	*left,
    double	*right,
    double	*top,
    double	*bottom)
{
    *left   = to_device_units(OPT_PRINT_LEFT, width, 10);
    *right  = width - to_device_units(OPT_PRINT_RIGHT, width, 5);
    *top    = height - to_device_units(OPT_PRINT_TOP, height, 5);
    *bottom = to_device_units(OPT_PRINT_BOT, height, 5);
}

    static void
prt_font_metrics(int font_scale)
{
    prt_line_height = (float)font_scale;
    prt_char_width = (float)PRT_PS_FONT_TO_USER(font_scale, prt_ps_font->wx);
}


    static int
prt_get_cpl(void)
{
    if (prt_use_number())
    {
	prt_number_width = PRINT_NUMBER_WIDTH * prt_char_width;
	// If we are outputting multi-byte characters then line numbers will be
	// printed with half width characters
	if (prt_out_mbyte)
	    prt_number_width /= 2;
	prt_left_margin += prt_number_width;
    }
    else
	prt_number_width = 0.0;

    return (int)((prt_right_margin - prt_left_margin) / prt_char_width);
}

    static int
prt_build_cid_fontname(int font, char_u *name, int name_len)
{
    char    *fontname;

    fontname = alloc(name_len + 1);
    if (fontname == NULL)
	return FALSE;
    vim_strncpy((char_u *)fontname, name, name_len);
    prt_ps_mb_font.ps_fontname[font] = fontname;

    return TRUE;
}

/*
 * Get number of lines of text that fit on a page (excluding the header).
 */
    static int
prt_get_lpp(void)
{
    int lpp;

    /*
     * Calculate offset to lower left corner of background rect based on actual
     * font height (based on its bounding box) and the line height, handling the
     * case where the font height can exceed the line height.
     */
    prt_bgcol_offset = (float)PRT_PS_FONT_TO_USER(prt_line_height,
					   prt_ps_font->bbox_min_y);
    if ((prt_ps_font->bbox_max_y - prt_ps_font->bbox_min_y) < 1000.0)
    {
	prt_bgcol_offset -= (float)PRT_PS_FONT_TO_USER(prt_line_height,
				(1000.0 - (prt_ps_font->bbox_max_y -
					    prt_ps_font->bbox_min_y)) / 2);
    }

    // Get height for topmost line based on background rect offset.
    prt_first_line_height = prt_line_height + prt_bgcol_offset;

    // Calculate lpp
    lpp = (int)((prt_top_margin - prt_bottom_margin) / prt_line_height);

    // Adjust top margin if there is a header
    prt_top_margin -= prt_line_height * prt_header_height();

    return lpp - prt_header_height();
}

    static int
prt_match_encoding(
    char			*p_encoding,
    struct prt_ps_mbfont_S	*p_cmap,
    struct prt_ps_encoding_S	**pp_mbenc)
{
    int				mbenc;
    int				enc_len;
    struct prt_ps_encoding_S	*p_mbenc;

    *pp_mbenc = NULL;
    // Look for recognised encoding
    enc_len = (int)STRLEN(p_encoding);
    p_mbenc = p_cmap->encodings;
    for (mbenc = 0; mbenc < p_cmap->num_encodings; mbenc++)
    {
	if (STRNICMP(p_mbenc->encoding, p_encoding, enc_len) == 0)
	{
	    *pp_mbenc = p_mbenc;
	    return TRUE;
	}
	p_mbenc++;
    }
    return FALSE;
}

    static int
prt_match_charset(
    char		    *p_charset,
    struct prt_ps_mbfont_S  *p_cmap,
    struct prt_ps_charset_S **pp_mbchar)
{
    int			    mbchar;
    int			    char_len;
    struct prt_ps_charset_S *p_mbchar;

    // Look for recognised character set, using default if one is not given
    if (*p_charset == NUL)
	p_charset = p_cmap->defcs;
    char_len = (int)STRLEN(p_charset);
    p_mbchar = p_cmap->charsets;
    for (mbchar = 0; mbchar < p_cmap->num_charsets; mbchar++)
    {
	if (STRNICMP(p_mbchar->charset, p_charset, char_len) == 0)
	{
	    *pp_mbchar = p_mbchar;
	    return TRUE;
	}
	p_mbchar++;
    }
    return FALSE;
}

    int
mch_print_init(
    prt_settings_T *psettings,
    char_u	*jobname,
    int		forceit UNUSED)
{
    int		i;
    char	*paper_name;
    int		paper_strlen;
    int		fontsize;
    char_u	*p;
    double      left;
    double      right;
    double      top;
    double      bottom;
    int		props;
    int		cmap = 0;
    char_u	*p_encoding;
    struct prt_ps_encoding_S *p_mbenc;
    struct prt_ps_encoding_S *p_mbenc_first;
    struct prt_ps_charset_S  *p_mbchar = NULL;

#if 0
    /*
     * TODO:
     * If "forceit" is false: pop up a dialog to select:
     *	- printer name
     *	- copies
     *	- collated/uncollated
     *	- duplex off/long side/short side
     *	- paper size
     *	- portrait/landscape
     *	- font size
     *
     * If "forceit" is true: use the default printer and settings
     */
    if (forceit)
	s_pd.Flags |= PD_RETURNDEFAULT;
#endif

    /*
     * Set up font and encoding.
     */
    p_encoding = enc_skip(p_penc);
    if (*p_encoding == NUL)
	p_encoding = enc_skip(p_enc);

    // Look for a multi-byte font that matches the encoding and character set.
    // Only look if multi-byte character set is defined, or using multi-byte
    // encoding other than Unicode.  This is because a Unicode encoding does not
    // uniquely identify a CJK character set to use.
    p_mbenc = NULL;
    props = enc_canon_props(p_encoding);
    if (!(props & ENC_8BIT) && ((*p_pmcs != NUL) || !(props & ENC_UNICODE)))
    {
	int cmap_first = 0;

	p_mbenc_first = NULL;
	for (cmap = 0; cmap < (int)ARRAY_LENGTH(prt_ps_mbfonts); cmap++)
	    if (prt_match_encoding((char *)p_encoding, &prt_ps_mbfonts[cmap],
								    &p_mbenc))
	    {
		if (p_mbenc_first == NULL)
		{
		    p_mbenc_first = p_mbenc;
		    cmap_first = cmap;
		}
		if (prt_match_charset((char *)p_pmcs, &prt_ps_mbfonts[cmap],
								   &p_mbchar))
		    break;
	    }

	// Use first encoding matched if no charset matched
	if (p_mbchar == NULL && p_mbenc_first != NULL)
	{
	    p_mbenc = p_mbenc_first;
	    cmap = cmap_first;
	}
    }

    prt_out_mbyte = (p_mbenc != NULL);
    if (prt_out_mbyte)
    {
	// Build CMap name - will be same for all multi-byte fonts used
	prt_cmap[0] = NUL;

	prt_custom_cmap = (p_mbchar == NULL);
	if (!prt_custom_cmap)
	{
	    // Check encoding and character set are compatible
	    if ((p_mbenc->needs_charset & p_mbchar->has_charset) == 0)
	    {
		emsg(_(e_incompatible_multi_byte_encoding_and_character_set));
		return FALSE;
	    }

	    // Add charset name if not empty
	    if (p_mbchar->cmap_charset != NULL)
	    {
		vim_strncpy((char_u *)prt_cmap,
		      (char_u *)p_mbchar->cmap_charset, sizeof(prt_cmap) - 3);
		STRCAT(prt_cmap, "-");
	    }
	}
	else
	{
	    // Add custom CMap character set name
	    if (*p_pmcs == NUL)
	    {
		emsg(_(e_printmbcharset_cannot_be_empty_with_multi_byte_encoding));
		return FALSE;
	    }
	    vim_strncpy((char_u *)prt_cmap, p_pmcs, sizeof(prt_cmap) - 3);
	    STRCAT(prt_cmap, "-");
	}

	// CMap name ends with (optional) encoding name and -H for horizontal
	if (p_mbenc->cmap_encoding != NULL && STRLEN(prt_cmap)
		      + STRLEN(p_mbenc->cmap_encoding) + 3 < sizeof(prt_cmap))
	{
	    STRCAT(prt_cmap, p_mbenc->cmap_encoding);
	    STRCAT(prt_cmap, "-");
	}
	STRCAT(prt_cmap, "H");

	if (!mbfont_opts[OPT_MBFONT_REGULAR].present)
	{
	    emsg(_(e_no_default_font_specified_for_multi_byte_printing));
	    return FALSE;
	}

	// Derive CID font names with fallbacks if not defined
	if (!prt_build_cid_fontname(PRT_PS_FONT_ROMAN,
				    mbfont_opts[OPT_MBFONT_REGULAR].string,
				    mbfont_opts[OPT_MBFONT_REGULAR].strlen))
	    return FALSE;
	if (mbfont_opts[OPT_MBFONT_BOLD].present)
	    if (!prt_build_cid_fontname(PRT_PS_FONT_BOLD,
					mbfont_opts[OPT_MBFONT_BOLD].string,
					mbfont_opts[OPT_MBFONT_BOLD].strlen))
		return FALSE;
	if (mbfont_opts[OPT_MBFONT_OBLIQUE].present)
	    if (!prt_build_cid_fontname(PRT_PS_FONT_OBLIQUE,
					mbfont_opts[OPT_MBFONT_OBLIQUE].string,
					mbfont_opts[OPT_MBFONT_OBLIQUE].strlen))
		return FALSE;
	if (mbfont_opts[OPT_MBFONT_BOLDOBLIQUE].present)
	    if (!prt_build_cid_fontname(PRT_PS_FONT_BOLDOBLIQUE,
				   mbfont_opts[OPT_MBFONT_BOLDOBLIQUE].string,
				  mbfont_opts[OPT_MBFONT_BOLDOBLIQUE].strlen))
		return FALSE;

	// Check if need to use Courier for ASCII code range, and if so pick up
	// the encoding to use
	prt_use_courier = mbfont_opts[OPT_MBFONT_USECOURIER].present &&
	    (TOLOWER_ASC(mbfont_opts[OPT_MBFONT_USECOURIER].string[0]) == 'y');
	if (prt_use_courier)
	{
	    // Use national ASCII variant unless ASCII wanted
	    if (mbfont_opts[OPT_MBFONT_ASCII].present &&
		(TOLOWER_ASC(mbfont_opts[OPT_MBFONT_ASCII].string[0]) == 'y'))
		prt_ascii_encoding = "ascii";
	    else
		prt_ascii_encoding = prt_ps_mbfonts[cmap].ascii_enc;
	}

	prt_ps_font = &prt_ps_mb_font;
    }
    else
    {
	prt_use_courier = FALSE;
	prt_ps_font = &prt_ps_courier_font;
    }

    /*
     * Find the size of the paper and set the margins.
     */
    prt_portrait = (!printer_opts[OPT_PRINT_PORTRAIT].present
	   || TOLOWER_ASC(printer_opts[OPT_PRINT_PORTRAIT].string[0]) == 'y');
    if (printer_opts[OPT_PRINT_PAPER].present)
    {
	paper_name = (char *)printer_opts[OPT_PRINT_PAPER].string;
	paper_strlen = printer_opts[OPT_PRINT_PAPER].strlen;
    }
    else
    {
	paper_name = "A4";
	paper_strlen = 2;
    }
    for (i = 0; i < (int)PRT_MEDIASIZE_LEN; ++i)
	if (STRLEN(prt_mediasize[i].name) == (unsigned)paper_strlen
		&& STRNICMP(prt_mediasize[i].name, paper_name,
							   paper_strlen) == 0)
	    break;
    if (i == PRT_MEDIASIZE_LEN)
	i = 0;
    prt_media = i;

    /*
     * Set PS pagesize based on media dimensions and print orientation.
     * Note: Media and page sizes have defined meanings in PostScript and should
     * be kept distinct.  Media is the paper (or transparency, or ...) that is
     * printed on, whereas the page size is the area that the PostScript
     * interpreter renders into.
     */
    if (prt_portrait)
    {
	prt_page_width = prt_mediasize[i].width;
	prt_page_height = prt_mediasize[i].height;
    }
    else
    {
	prt_page_width = prt_mediasize[i].height;
	prt_page_height = prt_mediasize[i].width;
    }

    /*
     * Set PS page margins based on the PS pagesize, not the mediasize - this
     * needs to be done before the cpl and lpp are calculated.
     */
    prt_page_margins(prt_page_width, prt_page_height, &left, &right, &top,
								    &bottom);
    prt_left_margin = (float)left;
    prt_right_margin = (float)right;
    prt_top_margin = (float)top;
    prt_bottom_margin = (float)bottom;

    /*
     * Set up the font size.
     */
    fontsize = PRT_PS_DEFAULT_FONTSIZE;
    for (p = p_pfn; (p = vim_strchr(p, ':')) != NULL; ++p)
	if (p[1] == 'h' && VIM_ISDIGIT(p[2]))
	    fontsize = atoi((char *)p + 2);
    prt_font_metrics(fontsize);

    /*
     * Return the number of characters per line, and lines per page for the
     * generic print code.
     */
    psettings->chars_per_line = prt_get_cpl();
    psettings->lines_per_page = prt_get_lpp();

    // Catch margin settings that leave no space for output!
    if (psettings->chars_per_line <= 0 || psettings->lines_per_page <= 0)
	return FAIL;

    /*
     * Sort out the number of copies to be printed.  PS by default will do
     * uncollated copies for you, so once we know how many uncollated copies are
     * wanted cache it away and lie to the generic code that we only want one
     * uncollated copy.
     */
    psettings->n_collated_copies = 1;
    psettings->n_uncollated_copies = 1;
    prt_num_copies = 1;
    prt_collate = (!printer_opts[OPT_PRINT_COLLATE].present
	    || TOLOWER_ASC(printer_opts[OPT_PRINT_COLLATE].string[0]) == 'y');
    if (prt_collate)
    {
	// TODO: Get number of collated copies wanted.
	psettings->n_collated_copies = 1;
    }
    else
    {
	// TODO: Get number of uncollated copies wanted and update the cached
	// count.
	prt_num_copies = 1;
    }

    psettings->jobname = jobname;

    /*
     * Set up printer duplex and tumble based on Duplex option setting - default
     * is long sided duplex printing (i.e. no tumble).
     */
    prt_duplex = TRUE;
    prt_tumble = FALSE;
    psettings->duplex = 1;
    if (printer_opts[OPT_PRINT_DUPLEX].present)
    {
	if (STRNICMP(printer_opts[OPT_PRINT_DUPLEX].string, "off", 3) == 0)
	{
	    prt_duplex = FALSE;
	    psettings->duplex = 0;
	}
	else if (STRNICMP(printer_opts[OPT_PRINT_DUPLEX].string, "short", 5)
									 == 0)
	    prt_tumble = TRUE;
    }

    // For now user abort not supported
    psettings->user_abort = 0;

    // If the user didn't specify a file name, use a temp file.
    if (psettings->outfile == NULL)
    {
	prt_ps_file_name = vim_tempname('p', TRUE);
	if (prt_ps_file_name == NULL)
	{
	    emsg(_(e_cant_get_temp_file_name));
	    return FAIL;
	}
	prt_ps_fd = mch_fopen((char *)prt_ps_file_name, WRITEBIN);
    }
    else
    {
	p = expand_env_save(psettings->outfile);
	if (p != NULL)
	{
	    prt_ps_fd = mch_fopen((char *)p, WRITEBIN);
	    vim_free(p);
	}
    }
    if (prt_ps_fd == NULL)
    {
	emsg(_(e_cant_open_postscript_output_file));
	mch_print_cleanup();
	return FAIL;
    }

    prt_bufsiz = psettings->chars_per_line;
    if (prt_out_mbyte)
	prt_bufsiz *= 2;
    ga_init2(&prt_ps_buffer, sizeof(char), prt_bufsiz);

    prt_page_num = 0;

    prt_attribute_change = FALSE;
    prt_need_moveto = FALSE;
    prt_need_font = FALSE;
    prt_need_fgcol = FALSE;
    prt_need_bgcol = FALSE;
    prt_need_underline = FALSE;

    prt_file_error = FALSE;

    return OK;
}

    static int
prt_add_resource(struct prt_ps_resource_S *resource)
{
    FILE*	fd_resource;
    char_u	resource_buffer[512];
    size_t	bytes_read;

    fd_resource = mch_fopen((char *)resource->filename, READBIN);
    if (fd_resource == NULL)
    {
	semsg(_(e_cant_open_file_str_2), resource->filename);
	return FALSE;
    }
    prt_dsc_resources("BeginResource", prt_resource_types[resource->type],
						     (char *)resource->title);

    prt_dsc_textline("BeginDocument", (char *)resource->filename);

    for (;;)
    {
	bytes_read = fread((char *)resource_buffer, sizeof(char_u),
			   sizeof(resource_buffer), fd_resource);
	if (ferror(fd_resource))
	{
	    semsg(_(e_cant_read_postscript_resource_file_str),
							    resource->filename);
	    fclose(fd_resource);
	    return FALSE;
	}
	if (bytes_read == 0)
	    break;
	prt_write_file_raw_len(resource_buffer, (int)bytes_read);
	if (prt_file_error)
	{
	    fclose(fd_resource);
	    return FALSE;
	}
    }
    fclose(fd_resource);

    prt_dsc_noarg("EndDocument");

    prt_dsc_noarg("EndResource");

    return TRUE;
}

    int
mch_print_begin(prt_settings_T *psettings)
{
    int		bbox[4];
    double      left;
    double      right;
    double      top;
    double      bottom;
    struct prt_ps_resource_S *res_prolog;
    struct prt_ps_resource_S *res_encoding;
    char	buffer[256];
    char_u      *p_encoding;
    struct prt_ps_resource_S *res_cidfont;
    struct prt_ps_resource_S *res_cmap;
    int		retval = FALSE;

    res_prolog = (struct prt_ps_resource_S *)
				      alloc(sizeof(struct prt_ps_resource_S));
    res_encoding = (struct prt_ps_resource_S *)
				      alloc(sizeof(struct prt_ps_resource_S));
    res_cidfont = (struct prt_ps_resource_S *)
				      alloc(sizeof(struct prt_ps_resource_S));
    res_cmap = (struct prt_ps_resource_S *)
				      alloc(sizeof(struct prt_ps_resource_S));
    if (res_prolog == NULL || res_encoding == NULL
	    || res_cidfont == NULL || res_cmap == NULL)
	goto theend;

    /*
     * PS DSC Header comments - no PS code!
     */
    prt_dsc_start();
    prt_dsc_textline("Title", (char *)psettings->jobname);
    if (!get_user_name((char_u *)buffer, 256))
	STRCPY(buffer, "Unknown");
    prt_dsc_textline("For", buffer);
    prt_dsc_textline("Creator", VIM_VERSION_LONG);
    // Note: to ensure Clean8bit I don't think we can use LC_TIME

    prt_dsc_textline("CreationDate", get_ctime(time(NULL), FALSE));
    prt_dsc_textline("DocumentData", "Clean8Bit");
    prt_dsc_textline("Orientation", "Portrait");
    prt_dsc_atend("Pages");
    prt_dsc_textline("PageOrder", "Ascend");
    // The bbox does not change with orientation - it is always in the default
    // user coordinate system!  We have to recalculate right and bottom
    // coordinates based on the font metrics for the bbox to be accurate.
    prt_page_margins(prt_mediasize[prt_media].width,
					    prt_mediasize[prt_media].height,
					    &left, &right, &top, &bottom);
    bbox[0] = (int)left;
    if (prt_portrait)
    {
	// In portrait printing the fixed point is the top left corner so we
	// derive the bbox from that point.  We have the expected cpl chars
	// across the media and lpp lines down the media.
	bbox[1] = (int)(top - (psettings->lines_per_page + prt_header_height())
						    * (double)prt_line_height);
	bbox[2] = (int)(left + psettings->chars_per_line
					       * (double)prt_char_width + 0.5);
	bbox[3] = (int)(top + 0.5);
    }
    else
    {
	// In landscape printing the fixed point is the bottom left corner so we
	// derive the bbox from that point.  We have lpp chars across the media
	// and cpl lines up the media.
	bbox[1] = (int)bottom;
	bbox[2] = (int)(left + ((psettings->lines_per_page
			      + prt_header_height()) * prt_line_height) + 0.5);
	bbox[3] = (int)(bottom + psettings->chars_per_line
					       * (double)prt_char_width + 0.5);
    }
    prt_dsc_ints("BoundingBox", 4, bbox);
    // The media width and height does not change with landscape printing!
    prt_dsc_docmedia(prt_mediasize[prt_media].name,
				prt_mediasize[prt_media].width,
				prt_mediasize[prt_media].height,
				(double)0, NULL, NULL);
    // Define fonts needed
    if (!prt_out_mbyte || prt_use_courier)
	prt_dsc_font_resource("DocumentNeededResources", &prt_ps_courier_font);
    if (prt_out_mbyte)
    {
	prt_dsc_font_resource((prt_use_courier ? NULL
				: "DocumentNeededResources"), &prt_ps_mb_font);
	if (!prt_custom_cmap)
	    prt_dsc_resources(NULL, "cmap", prt_cmap);
    }

    // Search for external resources VIM supplies
    if (!prt_find_resource("prolog", res_prolog))
    {
	semsg(_(e_cant_find_postscript_resource_file_str_ps), "prolog");
	goto theend;
    }
    if (!prt_open_resource(res_prolog))
	goto theend;
    if (!prt_check_resource(res_prolog, PRT_PROLOG_VERSION))
	goto theend;
    if (prt_out_mbyte)
    {
	// Look for required version of multi-byte printing procset
	if (!prt_find_resource("cidfont", res_cidfont))
	{
	    semsg(_(e_cant_find_postscript_resource_file_str_ps), "cidfont");
	    goto theend;
	}
	if (!prt_open_resource(res_cidfont))
	    goto theend;
	if (!prt_check_resource(res_cidfont, PRT_CID_PROLOG_VERSION))
	    goto theend;
    }

    // Find an encoding to use for printing.
    // Check 'printencoding'. If not set or not found, then use 'encoding'. If
    // that cannot be found then default to "latin1".
    // Note: VIM specific encoding header is always skipped.
    if (!prt_out_mbyte)
    {
	p_encoding = enc_skip(p_penc);
	if (*p_encoding == NUL
		|| !prt_find_resource((char *)p_encoding, res_encoding))
	{
	    // 'printencoding' not set or not supported - find alternate
	    int		props;

	    p_encoding = enc_skip(p_enc);
	    props = enc_canon_props(p_encoding);
	    if (!(props & ENC_8BIT)
		    || !prt_find_resource((char *)p_encoding, res_encoding))
		// 8-bit 'encoding' is not supported
	    {
		// Use latin1 as default printing encoding
		p_encoding = (char_u *)"latin1";
		if (!prt_find_resource((char *)p_encoding, res_encoding))
		{
		    semsg(_(e_cant_find_postscript_resource_file_str_ps),
			    p_encoding);
		    goto theend;
		}
	    }
	}
	if (!prt_open_resource(res_encoding))
	    goto theend;
	// For the moment there are no checks on encoding resource files to
	// perform
    }
    else
    {
	p_encoding = enc_skip(p_penc);
	if (*p_encoding == NUL)
	    p_encoding = enc_skip(p_enc);
	if (prt_use_courier)
	{
	    // Include ASCII range encoding vector
	    if (!prt_find_resource(prt_ascii_encoding, res_encoding))
	    {
		semsg(_(e_cant_find_postscript_resource_file_str_ps),
							  prt_ascii_encoding);
		goto theend;
	    }
	    if (!prt_open_resource(res_encoding))
		goto theend;
	    // For the moment there are no checks on encoding resource files to
	    // perform
	}
    }

    prt_conv.vc_type = CONV_NONE;
    if (!(enc_canon_props(p_enc) & enc_canon_props(p_encoding) & ENC_8BIT))
    {
	// Set up encoding conversion if required
	if (FAIL == convert_setup(&prt_conv, p_enc, p_encoding))
	{
	    semsg(_(e_unable_to_convert_to_print_encoding_str), p_encoding);
	    goto theend;
	}
	prt_do_conv = TRUE;
    }
    prt_do_conv = prt_conv.vc_type != CONV_NONE;

    if (prt_out_mbyte && prt_custom_cmap)
    {
	// Find user supplied CMap
	if (!prt_find_resource(prt_cmap, res_cmap))
	{
	    semsg(_(e_cant_find_postscript_resource_file_str_ps), prt_cmap);
	    goto theend;
	}
	if (!prt_open_resource(res_cmap))
	    goto theend;
    }

    // List resources supplied
    STRCPY(buffer, res_prolog->title);
    STRCAT(buffer, " ");
    STRCAT(buffer, res_prolog->version);
    prt_dsc_resources("DocumentSuppliedResources", "procset", buffer);
    if (prt_out_mbyte)
    {
	STRCPY(buffer, res_cidfont->title);
	STRCAT(buffer, " ");
	STRCAT(buffer, res_cidfont->version);
	prt_dsc_resources(NULL, "procset", buffer);

	if (prt_custom_cmap)
	{
	    STRCPY(buffer, res_cmap->title);
	    STRCAT(buffer, " ");
	    STRCAT(buffer, res_cmap->version);
	    prt_dsc_resources(NULL, "cmap", buffer);
	}
    }
    if (!prt_out_mbyte || prt_use_courier)
    {
	STRCPY(buffer, res_encoding->title);
	STRCAT(buffer, " ");
	STRCAT(buffer, res_encoding->version);
	prt_dsc_resources(NULL, "encoding", buffer);
    }
    prt_dsc_requirements(prt_duplex, prt_tumble, prt_collate,
#ifdef FEAT_SYN_HL
					psettings->do_syntax
#else
					0
#endif
					, prt_num_copies);
    prt_dsc_noarg("EndComments");

    /*
     * PS Document page defaults
     */
    prt_dsc_noarg("BeginDefaults");

    // List font resources most likely common to all pages
    if (!prt_out_mbyte || prt_use_courier)
	prt_dsc_font_resource("PageResources", &prt_ps_courier_font);
    if (prt_out_mbyte)
    {
	prt_dsc_font_resource((prt_use_courier ? NULL : "PageResources"),
							    &prt_ps_mb_font);
	if (!prt_custom_cmap)
	    prt_dsc_resources(NULL, "cmap", prt_cmap);
    }

    // Paper will be used for all pages
    prt_dsc_textline("PageMedia", prt_mediasize[prt_media].name);

    prt_dsc_noarg("EndDefaults");

    /*
     * PS Document prolog inclusion - all required procsets.
     */
    prt_dsc_noarg("BeginProlog");

    // Add required procsets - NOTE: order is important!
    if (!prt_add_resource(res_prolog))
	goto theend;
    if (prt_out_mbyte)
    {
	// Add CID font procset, and any user supplied CMap
	if (!prt_add_resource(res_cidfont))
	    goto theend;
	if (prt_custom_cmap && !prt_add_resource(res_cmap))
	    goto theend;
    }

    if (!prt_out_mbyte || prt_use_courier)
	// There will be only one Roman font encoding to be included in the PS
	// file.
	if (!prt_add_resource(res_encoding))
	    goto theend;

    prt_dsc_noarg("EndProlog");

    /*
     * PS Document setup - must appear after the prolog
     */
    prt_dsc_noarg("BeginSetup");

    // Device setup - page size and number of uncollated copies
    prt_write_int((int)prt_mediasize[prt_media].width);
    prt_write_int((int)prt_mediasize[prt_media].height);
    prt_write_int(0);
    prt_write_string("sps\n");
    prt_write_int(prt_num_copies);
    prt_write_string("nc\n");
    prt_write_boolean(prt_duplex);
    prt_write_boolean(prt_tumble);
    prt_write_string("dt\n");
    prt_write_boolean(prt_collate);
    prt_write_string("c\n");

    // Font resource inclusion and definition
    if (!prt_out_mbyte || prt_use_courier)
    {
	// When using Courier for ASCII range when printing multi-byte, need to
	// pick up ASCII encoding to use with it.
	if (prt_use_courier)
	    p_encoding = (char_u *)prt_ascii_encoding;
	prt_dsc_resources("IncludeResource", "font",
			  prt_ps_courier_font.ps_fontname[PRT_PS_FONT_ROMAN]);
	prt_def_font("F0", (char *)p_encoding, (int)prt_line_height,
		     prt_ps_courier_font.ps_fontname[PRT_PS_FONT_ROMAN]);
	prt_dsc_resources("IncludeResource", "font",
			  prt_ps_courier_font.ps_fontname[PRT_PS_FONT_BOLD]);
	prt_def_font("F1", (char *)p_encoding, (int)prt_line_height,
		     prt_ps_courier_font.ps_fontname[PRT_PS_FONT_BOLD]);
	prt_dsc_resources("IncludeResource", "font",
			  prt_ps_courier_font.ps_fontname[PRT_PS_FONT_OBLIQUE]);
	prt_def_font("F2", (char *)p_encoding, (int)prt_line_height,
		     prt_ps_courier_font.ps_fontname[PRT_PS_FONT_OBLIQUE]);
	prt_dsc_resources("IncludeResource", "font",
			  prt_ps_courier_font.ps_fontname[PRT_PS_FONT_BOLDOBLIQUE]);
	prt_def_font("F3", (char *)p_encoding, (int)prt_line_height,
		     prt_ps_courier_font.ps_fontname[PRT_PS_FONT_BOLDOBLIQUE]);
    }
    if (prt_out_mbyte)
    {
	// Define the CID fonts to be used in the job.	Typically CJKV fonts do
	// not have an italic form being a western style, so where no font is
	// defined for these faces VIM falls back to an existing face.
	// Note: if using Courier for the ASCII range then the printout will
	// have bold/italic/bolditalic regardless of the setting of printmbfont.
	prt_dsc_resources("IncludeResource", "font",
			  prt_ps_mb_font.ps_fontname[PRT_PS_FONT_ROMAN]);
	if (!prt_custom_cmap)
	    prt_dsc_resources("IncludeResource", "cmap", prt_cmap);
	prt_def_cidfont("CF0", (int)prt_line_height,
			prt_ps_mb_font.ps_fontname[PRT_PS_FONT_ROMAN]);

	if (prt_ps_mb_font.ps_fontname[PRT_PS_FONT_BOLD] != NULL)
	{
	    prt_dsc_resources("IncludeResource", "font",
			      prt_ps_mb_font.ps_fontname[PRT_PS_FONT_BOLD]);
	    if (!prt_custom_cmap)
		prt_dsc_resources("IncludeResource", "cmap", prt_cmap);
	    prt_def_cidfont("CF1", (int)prt_line_height,
			    prt_ps_mb_font.ps_fontname[PRT_PS_FONT_BOLD]);
	}
	else
	    // Use ROMAN for BOLD
	    prt_dup_cidfont("CF0", "CF1");

	if (prt_ps_mb_font.ps_fontname[PRT_PS_FONT_OBLIQUE] != NULL)
	{
	    prt_dsc_resources("IncludeResource", "font",
			      prt_ps_mb_font.ps_fontname[PRT_PS_FONT_OBLIQUE]);
	    if (!prt_custom_cmap)
		prt_dsc_resources("IncludeResource", "cmap", prt_cmap);
	    prt_def_cidfont("CF2", (int)prt_line_height,
			    prt_ps_mb_font.ps_fontname[PRT_PS_FONT_OBLIQUE]);
	}
	else
	    // Use ROMAN for OBLIQUE
	    prt_dup_cidfont("CF0", "CF2");

	if (prt_ps_mb_font.ps_fontname[PRT_PS_FONT_BOLDOBLIQUE] != NULL)
	{
	    prt_dsc_resources("IncludeResource", "font",
			      prt_ps_mb_font.ps_fontname[PRT_PS_FONT_BOLDOBLIQUE]);
	    if (!prt_custom_cmap)
		prt_dsc_resources("IncludeResource", "cmap", prt_cmap);
	    prt_def_cidfont("CF3", (int)prt_line_height,
			    prt_ps_mb_font.ps_fontname[PRT_PS_FONT_BOLDOBLIQUE]);
	}
	else
	    // Use BOLD for BOLDOBLIQUE
	    prt_dup_cidfont("CF1", "CF3");
    }

    // Misc constant vars used for underlining and background rects
    prt_def_var("UO", PRT_PS_FONT_TO_USER(prt_line_height,
						prt_ps_font->uline_offset), 2);
    prt_def_var("UW", PRT_PS_FONT_TO_USER(prt_line_height,
						 prt_ps_font->uline_width), 2);
    prt_def_var("BO", prt_bgcol_offset, 2);

    prt_dsc_noarg("EndSetup");

    // Fail if any problems writing out to the PS file
    retval = !prt_file_error;

theend:
    vim_free(res_prolog);
    vim_free(res_encoding);
    vim_free(res_cidfont);
    vim_free(res_cmap);

    return retval;
}

    void
mch_print_end(prt_settings_T *psettings)
{
    prt_dsc_noarg("Trailer");

    /*
     * Output any info we don't know in toto until we finish
     */
    prt_dsc_ints("Pages", 1, &prt_page_num);

    prt_dsc_noarg("EOF");

    // Write CTRL-D to close serial communication link if used.
    // NOTHING MUST BE WRITTEN AFTER THIS!
    prt_write_file((char_u *)"\004");

    if (!prt_file_error && psettings->outfile == NULL
					&& !got_int && !psettings->user_abort)
    {
	// Close the file first.
	if (prt_ps_fd != NULL)
	{
	    fclose(prt_ps_fd);
	    prt_ps_fd = NULL;
	}
	prt_message((char_u *)_("Sending to printer..."));

	// Not printing to a file: use 'printexpr' to print the file.
	if (eval_printexpr(prt_ps_file_name, psettings->arguments) == FAIL)
	    emsg(_(e_failed_to_print_postscript_file));
	else
	    prt_message((char_u *)_("Print job sent."));
    }

    mch_print_cleanup();
}

    int
mch_print_end_page(void)
{
    prt_flush_buffer();

    prt_write_string("re sp\n");

    prt_dsc_noarg("PageTrailer");

    return !prt_file_error;
}

    int
mch_print_begin_page(char_u *str UNUSED)
{
    int		page_num[2];

    prt_page_num++;

    page_num[0] = page_num[1] = prt_page_num;
    prt_dsc_ints("Page", 2, page_num);

    prt_dsc_noarg("BeginPageSetup");

    prt_write_string("sv\n0 g\n");
    prt_in_ascii = !prt_out_mbyte;
    if (prt_out_mbyte)
	prt_write_string("CF0 sf\n");
    else
	prt_write_string("F0 sf\n");
    prt_fgcol = PRCOLOR_BLACK;
    prt_bgcol = PRCOLOR_WHITE;
    prt_font = PRT_PS_FONT_ROMAN;

    // Set up page transformation for landscape printing.
    if (!prt_portrait)
    {
	prt_write_int(-((int)prt_mediasize[prt_media].width));
	prt_write_string("sl\n");
    }

    prt_dsc_noarg("EndPageSetup");

    // We have reset the font attributes, force setting them again.
    curr_bg = (long_u)0xffffffff;
    curr_fg = (long_u)0xffffffff;
    curr_bold = MAYBE;

    return !prt_file_error;
}

    int
mch_print_blank_page(void)
{
    return (mch_print_begin_page(NULL) ? (mch_print_end_page()) : FALSE);
}

static float prt_pos_x = 0;
static float prt_pos_y = 0;

    void
mch_print_start_line(int margin, int page_line)
{
    prt_pos_x = prt_left_margin;
    if (margin)
	prt_pos_x -= prt_number_width;

    prt_pos_y = prt_top_margin - prt_first_line_height -
					page_line * prt_line_height;

    prt_attribute_change = TRUE;
    prt_need_moveto = TRUE;
    prt_half_width = FALSE;
}

    int
mch_print_text_out(char_u *textp, int len UNUSED)
{
    char_u	*p = textp;
    int		need_break;
    char_u	ch;
    char_u      ch_buff[8];
    float       char_width;
    float       next_pos;
    int		in_ascii;
    int		half_width;
    char_u	*tofree = NULL;

    char_width = prt_char_width;

    // Ideally VIM would create a rearranged CID font to combine a Roman and
    // CJKV font to do what VIM is doing here - use a Roman font for characters
    // in the ASCII range, and the original CID font for everything else.
    // The problem is that GhostScript still (as of 8.13) does not support
    // rearranged fonts even though they have been documented by Adobe for 7
    // years!  If they ever do, a lot of this code will disappear.
    if (prt_use_courier)
    {
	in_ascii = (len == 1 && *p < 0x80);
	if (prt_in_ascii)
	{
	    if (!in_ascii)
	    {
		// No longer in ASCII range - need to switch font
		prt_in_ascii = FALSE;
		prt_need_font = TRUE;
		prt_attribute_change = TRUE;
	    }
	}
	else if (in_ascii)
	{
	    // Now in ASCII range - need to switch font
	    prt_in_ascii = TRUE;
	    prt_need_font = TRUE;
	    prt_attribute_change = TRUE;
	}
    }
    if (prt_out_mbyte)
    {
	half_width = ((*mb_ptr2cells)(p) == 1);
	if (half_width)
	    char_width /= 2;
	if (prt_half_width)
	{
	    if (!half_width)
	    {
		prt_half_width = FALSE;
		prt_pos_x += prt_char_width/4;
		prt_need_moveto = TRUE;
		prt_attribute_change = TRUE;
	    }
	}
	else if (half_width)
	{
	    prt_half_width = TRUE;
	    prt_pos_x += prt_char_width/4;
	    prt_need_moveto = TRUE;
	    prt_attribute_change = TRUE;
	}
    }

    // Output any required changes to the graphics state, after flushing any
    // text buffered so far.
    if (prt_attribute_change)
    {
	prt_flush_buffer();
	// Reset count of number of chars that will be printed
	prt_text_run = 0;

	if (prt_need_moveto)
	{
	    prt_pos_x_moveto = prt_pos_x;
	    prt_pos_y_moveto = prt_pos_y;
	    prt_do_moveto = TRUE;

	    prt_need_moveto = FALSE;
	}
	if (prt_need_font)
	{
	    if (!prt_in_ascii)
		prt_write_string("CF");
	    else
		prt_write_string("F");
	    prt_write_int(prt_font);
	    prt_write_string("sf\n");
	    prt_need_font = FALSE;
	}
	if (prt_need_fgcol)
	{
	    int     r, g, b;
	    r = ((unsigned)prt_fgcol & 0xff0000) >> 16;
	    g = ((unsigned)prt_fgcol & 0xff00) >> 8;
	    b = prt_fgcol & 0xff;

	    prt_write_real(r / 255.0, 3);
	    if (r == g && g == b)
		prt_write_string("g\n");
	    else
	    {
		prt_write_real(g / 255.0, 3);
		prt_write_real(b / 255.0, 3);
		prt_write_string("r\n");
	    }
	    prt_need_fgcol = FALSE;
	}

	if (prt_bgcol != PRCOLOR_WHITE)
	{
	    prt_new_bgcol = prt_bgcol;
	    if (prt_need_bgcol)
		prt_do_bgcol = TRUE;
	}
	else
	    prt_do_bgcol = FALSE;
	prt_need_bgcol = FALSE;

	if (prt_need_underline)
	    prt_do_underline = prt_underline;
	prt_need_underline = FALSE;

	prt_attribute_change = FALSE;
    }

    if (prt_do_conv)
    {
	// Convert from multi-byte to 8-bit encoding
	tofree = p = string_convert(&prt_conv, p, &len);
	if (p == NULL)
	{
	    p = (char_u *)"";
	    len = 0;
	}
    }

    if (prt_out_mbyte)
    {
	// Multi-byte character strings are represented more efficiently as hex
	// strings when outputting clean 8 bit PS.
	while (len-- > 0)
	{
	    ch = prt_hexchar[(unsigned)(*p) >> 4];
	    ga_append(&prt_ps_buffer, ch);
	    ch = prt_hexchar[(*p) & 0xf];
	    ga_append(&prt_ps_buffer, ch);
	    p++;
	}
    }
    else
    {
	// Add next character to buffer of characters to output.
	// Note: One printed character may require several PS characters to
	// represent it, but we only count them as one printed character.
	ch = *p;
	if (ch < 32 || ch == '(' || ch == ')' || ch == '\\')
	{
	    // Convert non-printing characters to either their escape or octal
	    // sequence, ensures PS sent over a serial line does not interfere
	    // with the comms protocol.
	    ga_append(&prt_ps_buffer, '\\');
	    switch (ch)
	    {
		case BS:   ga_append(&prt_ps_buffer, 'b'); break;
		case TAB:  ga_append(&prt_ps_buffer, 't'); break;
		case NL:   ga_append(&prt_ps_buffer, 'n'); break;
		case FF:   ga_append(&prt_ps_buffer, 'f'); break;
		case CAR:  ga_append(&prt_ps_buffer, 'r'); break;
		case '(':  ga_append(&prt_ps_buffer, '('); break;
		case ')':  ga_append(&prt_ps_buffer, ')'); break;
		case '\\': ga_append(&prt_ps_buffer, '\\'); break;

		default:
			   sprintf((char *)ch_buff, "%03o", (unsigned int)ch);
			   ga_append(&prt_ps_buffer, ch_buff[0]);
			   ga_append(&prt_ps_buffer, ch_buff[1]);
			   ga_append(&prt_ps_buffer, ch_buff[2]);
			   break;
	    }
	}
	else
	    ga_append(&prt_ps_buffer, ch);
    }

    // Need to free any translated characters
    vim_free(tofree);

    prt_text_run += char_width;
    prt_pos_x += char_width;

    // The downside of fp - use relative error on right margin check
    next_pos = prt_pos_x + prt_char_width;
    need_break = (next_pos > prt_right_margin) &&
		    ((next_pos - prt_right_margin) > (prt_right_margin*1e-5));

    if (need_break)
	prt_flush_buffer();

    return need_break;
}

    void
mch_print_set_font(int iBold, int iItalic, int iUnderline)
{
    int		font = 0;

    if (iBold)
	font |= 0x01;
    if (iItalic)
	font |= 0x02;

    if (font != prt_font)
    {
	prt_font = font;
	prt_attribute_change = TRUE;
	prt_need_font = TRUE;
    }
    if (prt_underline != iUnderline)
    {
	prt_underline = iUnderline;
	prt_attribute_change = TRUE;
	prt_need_underline = TRUE;
    }
}

    void
mch_print_set_bg(long_u bgcol)
{
    prt_bgcol = (int)bgcol;
    prt_attribute_change = TRUE;
    prt_need_bgcol = TRUE;
}

    void
mch_print_set_fg(long_u fgcol)
{
    if (fgcol == (long_u)prt_fgcol)
	return;

    prt_fgcol = (int)fgcol;
    prt_attribute_change = TRUE;
    prt_need_fgcol = TRUE;
}

# endif //FEAT_POSTSCRIPT
#endif //FEAT_PRINTER