[autofit] Add embedded array of segments and edges.
Avoids multiple mallocs per typical glyphs. With this and recent changes to avoid mallocs, the thread-safe stack-based loader is now as fast as the previous model that had one cached singleton. * src/autofit/afhints.h (AF_SEGMENTS_EMBEDDED, AF_EDGES_EMBEDDED): New macros. (AF_AxisHintsRec): Add two arrays for segments and edges. * src/autofit/afhints.c (af_axis_hints_new_segment): Only allocate data if number of segments exceeds given threshold value. (af_axis_hints_new_edge): Only allocate data if number of edges exceeds given threshold value. (af_glyph_hints_done): Updated.
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ChangeLog
20
ChangeLog
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@ -1,3 +1,23 @@
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2015-01-14 Behdad Esfahbod <behdad@behdad.org>
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[autofit] Add embedded array of segments and edges.
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Avoids multiple mallocs per typical glyphs.
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With this and recent changes to avoid mallocs, the thread-safe
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stack-based loader is now as fast as the previous model that had one
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cached singleton.
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* src/autofit/afhints.h (AF_SEGMENTS_EMBEDDED, AF_EDGES_EMBEDDED):
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New macros.
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(AF_AxisHintsRec): Add two arrays for segments and edges.
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* src/autofit/afhints.c (af_axis_hints_new_segment): Only allocate
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data if number of segments exceeds given threshold value.
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(af_axis_hints_new_edge): Only allocate data if number of edges
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exceeds given threshold value.
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(af_glyph_hints_done): Updated.
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2015-01-14 Behdad Esfahbod <behdad@behdad.org>
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[autofit] Add embedded arrays for points and contours.
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@ -43,7 +43,15 @@
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AF_Segment segment = NULL;
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if ( axis->num_segments >= axis->max_segments )
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if ( axis->num_segments < AF_SEGMENTS_EMBEDDED )
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{
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if ( axis->segments == NULL )
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{
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axis->segments = axis->embedded.segments;
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axis->max_segments = AF_SEGMENTS_EMBEDDED;
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}
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}
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else if ( axis->num_segments >= axis->max_segments )
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{
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FT_Int old_max = axis->max_segments;
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FT_Int new_max = old_max;
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@ -60,8 +68,18 @@
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if ( new_max < old_max || new_max > big_max )
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new_max = big_max;
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if ( FT_RENEW_ARRAY( axis->segments, old_max, new_max ) )
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goto Exit;
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if ( axis->segments == axis->embedded.segments )
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{
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if ( FT_NEW_ARRAY( axis->segments, new_max ) )
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goto Exit;
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ft_memcpy( axis->segments, axis->embedded.segments,
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sizeof ( axis->embedded.segments ) );
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}
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else
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{
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if ( FT_RENEW_ARRAY( axis->segments, old_max, new_max ) )
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goto Exit;
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}
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axis->max_segments = new_max;
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}
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@ -89,7 +107,15 @@
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AF_Edge edges;
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if ( axis->num_edges >= axis->max_edges )
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if ( axis->num_edges < AF_EDGES_EMBEDDED )
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{
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if ( axis->edges == NULL )
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{
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axis->edges = axis->embedded.edges;
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axis->max_edges = AF_EDGES_EMBEDDED;
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}
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}
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else if ( axis->num_edges >= axis->max_edges )
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{
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FT_Int old_max = axis->max_edges;
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FT_Int new_max = old_max;
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if ( new_max < old_max || new_max > big_max )
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new_max = big_max;
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if ( FT_RENEW_ARRAY( axis->edges, old_max, new_max ) )
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goto Exit;
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if ( axis->edges == axis->embedded.edges )
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{
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if ( FT_NEW_ARRAY( axis->edges, new_max ) )
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goto Exit;
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ft_memcpy( axis->edges, axis->embedded.edges,
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sizeof ( axis->embedded.edges ) );
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}
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else
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{
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if ( FT_RENEW_ARRAY( axis->edges, old_max, new_max ) )
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goto Exit;
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}
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axis->max_edges = new_max;
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}
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@ -515,11 +551,13 @@
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axis->num_segments = 0;
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axis->max_segments = 0;
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FT_FREE( axis->segments );
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if ( axis->segments != axis->embedded.segments )
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FT_FREE( axis->segments );
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axis->num_edges = 0;
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axis->max_edges = 0;
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FT_FREE( axis->edges );
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if ( axis->edges != axis->embedded.edges )
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FT_FREE( axis->edges );
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}
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if ( hints->contours != hints->embedded.contours )
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@ -305,6 +305,8 @@ FT_BEGIN_HEADER
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} AF_EdgeRec;
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#define AF_SEGMENTS_EMBEDDED 18 /* number of embedded segments */
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#define AF_EDGES_EMBEDDED 12 /* number of embedded edges */
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typedef struct AF_AxisHintsRec_
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{
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AF_Direction major_dir; /* either vertical or horizontal */
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/* two arrays to avoid allocation penalty */
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struct
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{
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AF_SegmentRec segments[AF_SEGMENTS_EMBEDDED];
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AF_EdgeRec edges[AF_EDGES_EMBEDDED];
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} embedded;
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} AF_AxisHintsRec, *AF_AxisHints;
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