source/layoutex/layout/playout.h - external/github.com/unicode-org/icu - Git at Google

 /*
  *
  * (C) Copyright IBM Corp. 1998-2007 - All Rights Reserved
  *
  */

 #ifndef __PLAYOUT_H
 #define __PLAYOUT_H

 /*
  * ParagraphLayout doesn't make much sense without
  * BreakIterator...
  */
 #include "unicode/ubidi.h"
 #if ! UCONFIG_NO_BREAK_ITERATION

 #include "layout/LETypes.h"
 #include "plruns.h"

 /**
  * \file
  * \brief C API for paragraph layout.
  *
  * This is a technology preview. The API may
  * change significantly.
  *
  */

 /**
  * The opaque type for a paragraph layout.
  *
  * @internal
  */
 typedef void pl_paragraph;

 /**
  * The opaque type for a line in a paragraph layout.
  *
  * @internal
  */
 typedef void pl_line;

 /**
  * The opaque type for a visual run in a line.
  *
  * @internal
  */
 typedef void pl_visualRun;

 /**
  * Construct a <code>ParagraphLayout</code> object for a styled paragraph. The paragraph is specified
  * as runs of text all in the same font. An <code>LEFontInstance</code> object and a limit offset
  * are specified for each font run. The limit offset is the offset of the character immediately
  * after the font run.
  *
  * Clients can optionally specify directional runs and / or script runs. If these aren't specified
  * they will be computed.
  *
  * If any errors are encountered during construction, <code>status</code> will be set, and the object
  * will be set to be empty.
  *
  * @param chars is an array of the characters in the paragraph
  *
  * @param count is the number of characters in the paragraph.
  *
  * @param fontRuns a pointer to a <code>pl_fontRuns</code> object representing the font runs.
  *
  * @param levelRuns is a pointer to a <code>pl_valueRuns</code> object representing the directional levels.
  *        If this pointer in <code>NULL</code> the levels will be determined by running the Unicde
  *        Bidi algorithm.
  *
  * @param scriptRuns is a pointer to a <code>pl_valueRuns</code> object representing script runs.
  *        If this pointer in <code>NULL</code> the script runs will be determined using the
  *        Unicode code points.
  *
  * @param localeRuns is a pointer to a <code>pl_localeRuns</code> object representing locale runs.
  *        The <code>Locale</code> objects are used to determind the language of the text. If this
  *        pointer is <code>NULL</code> the default locale will be used for all of the text.
  *
  * @param paragraphLevel is the directionality of the paragraph, as in the UBiDi object.
  *
  * @param vertical is <code>TRUE</code> if the paragraph should be set vertically.
  *
  * @param status will be set to any error code encountered during construction.
  *
  * @return a pointer to the newly created <code>pl_paragraph</code> object. The object
  *         will remain valid until <code>pl_close</code> is called.
  *
  * @see ubidi.h
  * @see longine.h
  * @see plruns.h
  *
  * @internal
  */
 U_INTERNAL pl_paragraph * U_EXPORT2
 pl_create(const LEUnicode chars[],
           le_int32 count,
           const pl_fontRuns *fontRuns,
           const pl_valueRuns *levelRuns,
           const pl_valueRuns *scriptRuns,
           const pl_localeRuns *localeRuns,
           UBiDiLevel paragraphLevel,
           le_bool vertical,
           LEErrorCode *status);

 /**
  * Close the given paragraph layout object.
  *
  * @param paragraph the <code>pl_paragraph</code> object to be
  *                  closed. Once this routine returns the object
  *                  can no longer be referenced
  *
  * @internal
  */
 U_INTERNAL void U_EXPORT2
 pl_close(pl_paragraph *paragraph);

 /**
  * Examine the given text and determine if it contains characters in any
  * script which requires complex processing to be rendered correctly.
  *
  * @param chars is an array of the characters in the paragraph
  *
  * @param count is the number of characters in the paragraph.
  *
  * @return <code>TRUE</code> if any of the text requires complex processing.
  *
  * @internal
  */

 U_INTERNAL le_bool U_EXPORT2
 pl_isComplex(const LEUnicode chars[],
           le_int32 count);

 /**
  * Return the resolved paragraph level. This is useful for those cases
  * where the bidi analysis has determined the level based on the first
  * strong character in the paragraph.
  *
  * @param paragraph the <code>pl_paragraph</code>
  *
  * @return the resolved paragraph level.
  *
  * @internal
  */
 U_INTERNAL UBiDiLevel U_EXPORT2
 pl_getParagraphLevel(pl_paragraph *paragraph);

 /**
  * Return the directionality of the text in the paragraph.
  *
  * @param paragraph the <code>pl_paragraph</code>
  *
  * @return <code>UBIDI_LTR</code> if the text is all left to right,
  *         <code>UBIDI_RTL</code> if the text is all right to left,
  *         or <code>UBIDI_MIXED</code> if the text has mixed direction.
  *
  * @internal
  */
 U_INTERNAL UBiDiDirection U_EXPORT2
 pl_getTextDirection(pl_paragraph *paragraph);

 /**
  * Get the max ascent value for all the fonts
  * in the paragraph.
  *
  * @param paragraph the <code>pl_paragraph</code>
  *
  * Return the max ascent value for all the fonts
  * in the paragraph.
  *
  * @param paragraph the <code>pl_paragraph</code>
  *
  * @return the ascent value.
  *
  * @internal
  */
 U_INTERNAL le_int32 U_EXPORT2
 pl_getAscent(const pl_paragraph *paragraph);

 /**
  * Return the max descent value for all the fonts
  * in the paragraph.
  *
  * @param paragraph the <code>pl_paragraph</code>
  *
  * @return the decent value.
  *
  * @internal
  */
 U_INTERNAL le_int32 U_EXPORT2
 pl_getDescent(const pl_paragraph *paragraph);

 /**
  * Return the max leading value for all the fonts
  * in the paragraph.
  *
  * @param paragraph the <code>pl_paragraph</code>
  *
  * @return the leading value.
  *
  * @internal
  */
 U_INTERNAL le_int32 U_EXPORT2
 pl_getLeading(const pl_paragraph *paragraph);

 /**
  * Reset line breaking to start from the beginning of the paragraph.
  *
  * @param paragraph the <code>pl_paragraph</code>
  *
  * @internal
  */
 U_INTERNAL void U_EXPORT2
 pl_reflow(pl_paragraph *paragraph);

 /**
  * Return a <code>pl_line</code> object which represents next line
  * in the paragraph. The width of the line is specified each time so that it can
  * be varied to support arbitrary paragraph shapes.
  *
  * @param paragraph the <code>pl_paragraph</code>
  * @param width is the width of the line. If <code>width</code> is less than or equal
  *              to zero, a <code>ParagraphLayout::Line</code> object representing the
  *              rest of the paragraph will be returned.
  *
  * @return a <code>ParagraphLayout::Line</code> object which represents the line. The caller
  *         is responsible for deleting the object. Returns <code>NULL</code> if there are no
  *         more lines in the paragraph.
  *
  * @see pl_line
  *
  * @internal
  */
 U_INTERNAL pl_line * U_EXPORT2
 pl_nextLine(pl_paragraph *paragraph, float width);

 /**
  * Close the given line object. Line objects are created
  * by <code>pl_nextLine</code> but it is the client's responsibility
  * to close them by calling this routine.
  *
  * @param line the <code>pl_line</code> object to close.
  *
  * @internal
  */
 U_INTERNAL void U_EXPORT2
 pl_closeLine(pl_line *line);

 /**
  * Count the number of visual runs in the line.
  *
  * @param line the <code>pl_line</code> object.
  *
  * @return the number of visual runs.
  *
  * @internal
  */
 U_INTERNAL le_int32 U_EXPORT2
 pl_countLineRuns(const pl_line *line);

 /**
  * Get the ascent of the line. This is the maximum ascent
  * of all the fonts on the line.
  *
  * @param line the <code>pl_line</code> object.
  *
  * @return the ascent of the line.
  *
  * @internal
  */
 U_INTERNAL le_int32 U_EXPORT2
 pl_getLineAscent(const pl_line *line);

 /**
  * Get the descent of the line. This is the maximum descent
  * of all the fonts on the line.
  *
  * @param line the <code>pl_line</code> object.
  *
  * @return the descent of the line.
  *
  * @internal
  */
 U_INTERNAL le_int32 U_EXPORT2
 pl_getLineDescent(const pl_line *line);

 /**
  * Get the leading of the line. This is the maximum leading
  * of all the fonts on the line.
  *
  * @param line the <code>pl_line</code> object.
  *
  * @return the leading of the line.
  *
  * @internal
  */
 U_INTERNAL le_int32 U_EXPORT2
 pl_getLineLeading(const pl_line *line);

 /**
  * Get the width of the line. This is a convenience method
  * which returns the last X position of the last visual run
  * in the line.
  *
  * @param line the <code>pl_line</code> object.
  *
  * @return the width of the line.
  *
  * @internal
  */
 U_INTERNAL le_int32 U_EXPORT2
 pl_getLineWidth(const pl_line *line);

 /**
  * Get a <code>ParagraphLayout::VisualRun</code> object for a given
  * visual run in the line.
  *
  * @param line the <code>pl_line</code> object.
  * @param runIndex is the index of the run, in visual order.
  *
  * @return the <code>pl_visualRun</code> object representing the
  *         visual run. This object is owned by the <code>pl_line</code> object which
  *         created it, and will remain valid for as long as the <code>pl_line</code>
  *         object is valid.
  *
  * @see pl_visualRun
  *
  * @internal
  */
 U_INTERNAL const pl_visualRun * U_EXPORT2
 pl_getLineVisualRun(const pl_line *line, le_int32 runIndex);

 /**
  * Get the <code>le_font</code> object which
  * represents the font of the visual run. This will always
  * be a non-composite font.
  *
  * @param run the <code>pl_visualRun</code> object.
  *
  * @return the <code>le_font</code> object which represents the
  *         font of the visual run.
  *
  * @see le_font
  *
  * @internal
  */
 U_INTERNAL const le_font * U_EXPORT2
 pl_getVisualRunFont(const pl_visualRun *run);

 /**
  * Get the direction of the visual run.
  *
  * @param run the <code>pl_visualRun</code> object.
  *
  * @return the direction of the run. This will be <code>UBIDI_LTR</code> if the
  *         run is left-to-right and <code>UBIDI_RTL</code> if the line is right-to-left.
  *
  * @internal
  */
 U_INTERNAL UBiDiDirection U_EXPORT2
 pl_getVisualRunDirection(const pl_visualRun *run);

 /**
  * Get the number of glyphs in the visual run.
  *
  * @param run the <code>pl_visualRun</code> object.
  *
  * @return the number of glyphs.
  *
  * @internal
  */
 U_INTERNAL le_int32 U_EXPORT2
 pl_getVisualRunGlyphCount(const pl_visualRun *run);

 /**
  * Get the glyphs in the visual run. Glyphs with the values <code>0xFFFE</code> and
  * <code>0xFFFF</code> should be ignored.
  *
  * @param run the <code>pl_visualRun</code> object.
  *
  * @return the address of the array of glyphs for this visual run. The storage
  *         is owned by the <code>pl_visualRun</code> object and must not be deleted.
  *         It will remain valid as long as the <code>pl_visualRun</code> object is valid.
  *
  * @internal
  */
 U_INTERNAL const LEGlyphID * U_EXPORT2
 pl_getVisualRunGlyphs(const pl_visualRun *run);

 /**
  * Get the (x, y) positions of the glyphs in the visual run. To simplify storage
  * management, the x and y positions are stored in a single array with the x positions
  * at even offsets in the array and the corresponding y position in the following odd offset.
  * There is an extra (x, y) pair at the end of the array which represents the advance of
  * the final glyph in the run.
  *
  * @param run the <code>pl_visualRun</code> object.
  *
  * @return the address of the array of glyph positions for this visual run. The storage
  *         is owned by the <code>pl_visualRun</code> object and must not be deleted.
  *         It will remain valid as long as the <code>pl_visualRun</code> object is valid.
  *
  * @internal
  */
 U_INTERNAL const float * U_EXPORT2
 pl_getVisualRunPositions(const pl_visualRun *run);

 /**
  * Get the glyph-to-character map for this visual run. This maps the indices into
  * the glyph array to indices into the character array used to create the paragraph.
  *
  * @param run the <code>pl_visualRun</code> object.
  *
  * @return the address of the character-to-glyph map for this visual run. The storage
  *         is owned by the <code>pl_visualRun</code> object and must not be deleted.
  *         It will remain valid as long as the <code>pl_visualRun</code> object is valid.
  *
  * @internal
  */
 U_INTERNAL const le_int32 * U_EXPORT2
 pl_getVisualRunGlyphToCharMap(const pl_visualRun *run);

 /**
  * A convenience method which returns the ascent value for the font
  * associated with this run.
  *
  * @param run the <code>pl_visualRun</code> object.
  *
  * @return the ascent value of this run's font.
  *
  * @internal
  */
 U_INTERNAL le_int32 U_EXPORT2
 pl_getVisualRunAscent(const pl_visualRun *run);

 /**
  * A convenience method which returns the descent value for the font
  * associated with this run.
  *
  * @param run the <code>pl_visualRun</code> object.
  *
  * @return the descent value of this run's font.
  *
  * @internal
  */
 U_INTERNAL le_int32 U_EXPORT2
 pl_getVisualRunDescent(const pl_visualRun *run);

 /**
  * A convenience method which returns the leading value for the font
  * associated with this run.
  *
  * @param run the <code>pl_visualRun</code> object.
  *
  * @return the leading value of this run's font.
  *
  * @internal
  */
 U_INTERNAL le_int32 U_EXPORT2
 pl_getVisualRunLeading(const pl_visualRun *run);

 #endif
 #endif
	/*
	*
	* (C) Copyright IBM Corp. 1998-2007 - All Rights Reserved
	*
	*/

	#ifndef __PLAYOUT_H
	#define __PLAYOUT_H

	/*
	* ParagraphLayout doesn't make much sense without
	* BreakIterator...
	*/
	#include "unicode/ubidi.h"
	#if ! UCONFIG_NO_BREAK_ITERATION

	#include "layout/LETypes.h"
	#include "plruns.h"

	/**
	* \file
	* \brief C API for paragraph layout.
	*
	* This is a technology preview. The API may
	* change significantly.
	*
	*/

	/**
	* The opaque type for a paragraph layout.
	*
	* @internal
	*/
	typedef void pl_paragraph;

	/**
	* The opaque type for a line in a paragraph layout.
	*
	* @internal
	*/
	typedef void pl_line;

	/**
	* The opaque type for a visual run in a line.
	*
	* @internal
	*/
	typedef void pl_visualRun;

	/**
	* Construct a <code>ParagraphLayout</code> object for a styled paragraph. The paragraph is specified
	* as runs of text all in the same font. An <code>LEFontInstance</code> object and a limit offset
	* are specified for each font run. The limit offset is the offset of the character immediately
	* after the font run.
	*
	* Clients can optionally specify directional runs and / or script runs. If these aren't specified
	* they will be computed.
	*
	* If any errors are encountered during construction, <code>status</code> will be set, and the object
	* will be set to be empty.
	*
	* @param chars is an array of the characters in the paragraph
	*
	* @param count is the number of characters in the paragraph.
	*
	* @param fontRuns a pointer to a <code>pl_fontRuns</code> object representing the font runs.
	*
	* @param levelRuns is a pointer to a <code>pl_valueRuns</code> object representing the directional levels.
	* If this pointer in <code>NULL</code> the levels will be determined by running the Unicde
	* Bidi algorithm.
	*
	* @param scriptRuns is a pointer to a <code>pl_valueRuns</code> object representing script runs.
	* If this pointer in <code>NULL</code> the script runs will be determined using the
	* Unicode code points.
	*
	* @param localeRuns is a pointer to a <code>pl_localeRuns</code> object representing locale runs.
	* The <code>Locale</code> objects are used to determind the language of the text. If this
	* pointer is <code>NULL</code> the default locale will be used for all of the text.
	*
	* @param paragraphLevel is the directionality of the paragraph, as in the UBiDi object.
	*
	* @param vertical is <code>TRUE</code> if the paragraph should be set vertically.
	*
	* @param status will be set to any error code encountered during construction.
	*
	* @return a pointer to the newly created <code>pl_paragraph</code> object. The object
	* will remain valid until <code>pl_close</code> is called.
	*
	* @see ubidi.h
	* @see longine.h
	* @see plruns.h
	*
	* @internal
	*/
	U_INTERNAL pl_paragraph * U_EXPORT2
	pl_create(const LEUnicode chars[],
	le_int32 count,
	const pl_fontRuns *fontRuns,
	const pl_valueRuns *levelRuns,
	const pl_valueRuns *scriptRuns,
	const pl_localeRuns *localeRuns,
	UBiDiLevel paragraphLevel,
	le_bool vertical,
	LEErrorCode *status);

	/**
	* Close the given paragraph layout object.
	*
	* @param paragraph the <code>pl_paragraph</code> object to be
	* closed. Once this routine returns the object
	* can no longer be referenced
	*
	* @internal
	*/
	U_INTERNAL void U_EXPORT2
	pl_close(pl_paragraph *paragraph);

	/**
	* Examine the given text and determine if it contains characters in any
	* script which requires complex processing to be rendered correctly.
	*
	* @param chars is an array of the characters in the paragraph
	*
	* @param count is the number of characters in the paragraph.
	*
	* @return <code>TRUE</code> if any of the text requires complex processing.
	*
	* @internal
	*/

	U_INTERNAL le_bool U_EXPORT2
	pl_isComplex(const LEUnicode chars[],
	le_int32 count);

	/**
	* Return the resolved paragraph level. This is useful for those cases
	* where the bidi analysis has determined the level based on the first
	* strong character in the paragraph.
	*
	* @param paragraph the <code>pl_paragraph</code>
	*
	* @return the resolved paragraph level.
	*
	* @internal
	*/
	U_INTERNAL UBiDiLevel U_EXPORT2
	pl_getParagraphLevel(pl_paragraph *paragraph);

	/**
	* Return the directionality of the text in the paragraph.
	*
	* @param paragraph the <code>pl_paragraph</code>
	*
	* @return <code>UBIDI_LTR</code> if the text is all left to right,
	* <code>UBIDI_RTL</code> if the text is all right to left,
	* or <code>UBIDI_MIXED</code> if the text has mixed direction.
	*
	* @internal
	*/
	U_INTERNAL UBiDiDirection U_EXPORT2
	pl_getTextDirection(pl_paragraph *paragraph);

	/**
	* Get the max ascent value for all the fonts
	* in the paragraph.
	*
	* @param paragraph the <code>pl_paragraph</code>
	*
	* Return the max ascent value for all the fonts
	* in the paragraph.
	*
	* @param paragraph the <code>pl_paragraph</code>
	*
	* @return the ascent value.
	*
	* @internal
	*/
	U_INTERNAL le_int32 U_EXPORT2
	pl_getAscent(const pl_paragraph *paragraph);

	/**
	* Return the max descent value for all the fonts
	* in the paragraph.
	*
	* @param paragraph the <code>pl_paragraph</code>
	*
	* @return the decent value.
	*
	* @internal
	*/
	U_INTERNAL le_int32 U_EXPORT2
	pl_getDescent(const pl_paragraph *paragraph);

	/**
	* Return the max leading value for all the fonts
	* in the paragraph.
	*
	* @param paragraph the <code>pl_paragraph</code>
	*
	* @return the leading value.
	*
	* @internal
	*/
	U_INTERNAL le_int32 U_EXPORT2
	pl_getLeading(const pl_paragraph *paragraph);

	/**
	* Reset line breaking to start from the beginning of the paragraph.
	*
	* @param paragraph the <code>pl_paragraph</code>
	*
	* @internal
	*/
	U_INTERNAL void U_EXPORT2
	pl_reflow(pl_paragraph *paragraph);

	/**
	* Return a <code>pl_line</code> object which represents next line
	* in the paragraph. The width of the line is specified each time so that it can
	* be varied to support arbitrary paragraph shapes.
	*
	* @param paragraph the <code>pl_paragraph</code>
	* @param width is the width of the line. If <code>width</code> is less than or equal
	* to zero, a <code>ParagraphLayout::Line</code> object representing the
	* rest of the paragraph will be returned.
	*
	* @return a <code>ParagraphLayout::Line</code> object which represents the line. The caller
	* is responsible for deleting the object. Returns <code>NULL</code> if there are no
	* more lines in the paragraph.
	*
	* @see pl_line
	*
	* @internal
	*/
	U_INTERNAL pl_line * U_EXPORT2
	pl_nextLine(pl_paragraph *paragraph, float width);

	/**
	* Close the given line object. Line objects are created
	* by <code>pl_nextLine</code> but it is the client's responsibility
	* to close them by calling this routine.
	*
	* @param line the <code>pl_line</code> object to close.
	*
	* @internal
	*/
	U_INTERNAL void U_EXPORT2
	pl_closeLine(pl_line *line);

	/**
	* Count the number of visual runs in the line.
	*
	* @param line the <code>pl_line</code> object.
	*
	* @return the number of visual runs.
	*
	* @internal
	*/
	U_INTERNAL le_int32 U_EXPORT2
	pl_countLineRuns(const pl_line *line);

	/**
	* Get the ascent of the line. This is the maximum ascent
	* of all the fonts on the line.
	*
	* @param line the <code>pl_line</code> object.
	*
	* @return the ascent of the line.
	*
	* @internal
	*/
	U_INTERNAL le_int32 U_EXPORT2
	pl_getLineAscent(const pl_line *line);

	/**
	* Get the descent of the line. This is the maximum descent
	* of all the fonts on the line.
	*
	* @param line the <code>pl_line</code> object.
	*
	* @return the descent of the line.
	*
	* @internal
	*/
	U_INTERNAL le_int32 U_EXPORT2
	pl_getLineDescent(const pl_line *line);

	/**
	* Get the leading of the line. This is the maximum leading
	* of all the fonts on the line.
	*
	* @param line the <code>pl_line</code> object.
	*
	* @return the leading of the line.
	*
	* @internal
	*/
	U_INTERNAL le_int32 U_EXPORT2
	pl_getLineLeading(const pl_line *line);

	/**
	* Get the width of the line. This is a convenience method
	* which returns the last X position of the last visual run
	* in the line.
	*
	* @param line the <code>pl_line</code> object.
	*
	* @return the width of the line.
	*
	* @internal
	*/
	U_INTERNAL le_int32 U_EXPORT2
	pl_getLineWidth(const pl_line *line);

	/**
	* Get a <code>ParagraphLayout::VisualRun</code> object for a given
	* visual run in the line.
	*
	* @param line the <code>pl_line</code> object.
	* @param runIndex is the index of the run, in visual order.
	*
	* @return the <code>pl_visualRun</code> object representing the
	* visual run. This object is owned by the <code>pl_line</code> object which
	* created it, and will remain valid for as long as the <code>pl_line</code>
	* object is valid.
	*
	* @see pl_visualRun
	*
	* @internal
	*/
	U_INTERNAL const pl_visualRun * U_EXPORT2
	pl_getLineVisualRun(const pl_line *line, le_int32 runIndex);

	/**
	* Get the <code>le_font</code> object which
	* represents the font of the visual run. This will always
	* be a non-composite font.
	*
	* @param run the <code>pl_visualRun</code> object.
	*
	* @return the <code>le_font</code> object which represents the
	* font of the visual run.
	*
	* @see le_font
	*
	* @internal
	*/
	U_INTERNAL const le_font * U_EXPORT2
	pl_getVisualRunFont(const pl_visualRun *run);

	/**
	* Get the direction of the visual run.
	*
	* @param run the <code>pl_visualRun</code> object.
	*
	* @return the direction of the run. This will be <code>UBIDI_LTR</code> if the
	* run is left-to-right and <code>UBIDI_RTL</code> if the line is right-to-left.
	*
	* @internal
	*/
	U_INTERNAL UBiDiDirection U_EXPORT2
	pl_getVisualRunDirection(const pl_visualRun *run);

	/**
	* Get the number of glyphs in the visual run.
	*
	* @param run the <code>pl_visualRun</code> object.
	*
	* @return the number of glyphs.
	*
	* @internal
	*/
	U_INTERNAL le_int32 U_EXPORT2
	pl_getVisualRunGlyphCount(const pl_visualRun *run);

	/**
	* Get the glyphs in the visual run. Glyphs with the values <code>0xFFFE</code> and
	* <code>0xFFFF</code> should be ignored.
	*
	* @param run the <code>pl_visualRun</code> object.
	*
	* @return the address of the array of glyphs for this visual run. The storage
	* is owned by the <code>pl_visualRun</code> object and must not be deleted.
	* It will remain valid as long as the <code>pl_visualRun</code> object is valid.
	*
	* @internal
	*/
	U_INTERNAL const LEGlyphID * U_EXPORT2
	pl_getVisualRunGlyphs(const pl_visualRun *run);

	/**
	* Get the (x, y) positions of the glyphs in the visual run. To simplify storage
	* management, the x and y positions are stored in a single array with the x positions
	* at even offsets in the array and the corresponding y position in the following odd offset.
	* There is an extra (x, y) pair at the end of the array which represents the advance of
	* the final glyph in the run.
	*
	* @param run the <code>pl_visualRun</code> object.
	*
	* @return the address of the array of glyph positions for this visual run. The storage
	* is owned by the <code>pl_visualRun</code> object and must not be deleted.
	* It will remain valid as long as the <code>pl_visualRun</code> object is valid.
	*
	* @internal
	*/
	U_INTERNAL const float * U_EXPORT2
	pl_getVisualRunPositions(const pl_visualRun *run);

	/**
	* Get the glyph-to-character map for this visual run. This maps the indices into
	* the glyph array to indices into the character array used to create the paragraph.
	*
	* @param run the <code>pl_visualRun</code> object.
	*
	* @return the address of the character-to-glyph map for this visual run. The storage
	* is owned by the <code>pl_visualRun</code> object and must not be deleted.
	* It will remain valid as long as the <code>pl_visualRun</code> object is valid.
	*
	* @internal
	*/
	U_INTERNAL const le_int32 * U_EXPORT2
	pl_getVisualRunGlyphToCharMap(const pl_visualRun *run);

	/**
	* A convenience method which returns the ascent value for the font
	* associated with this run.
	*
	* @param run the <code>pl_visualRun</code> object.
	*
	* @return the ascent value of this run's font.
	*
	* @internal
	*/
	U_INTERNAL le_int32 U_EXPORT2
	pl_getVisualRunAscent(const pl_visualRun *run);

	/**
	* A convenience method which returns the descent value for the font
	* associated with this run.
	*
	* @param run the <code>pl_visualRun</code> object.
	*
	* @return the descent value of this run's font.
	*
	* @internal
	*/
	U_INTERNAL le_int32 U_EXPORT2
	pl_getVisualRunDescent(const pl_visualRun *run);

	/**
	* A convenience method which returns the leading value for the font
	* associated with this run.
	*
	* @param run the <code>pl_visualRun</code> object.
	*
	* @return the leading value of this run's font.
	*
	* @internal
	*/
	U_INTERNAL le_int32 U_EXPORT2
	pl_getVisualRunLeading(const pl_visualRun *run);

	#endif
	#endif