kc3-lang/freetype/src/autohint/ahhint.c
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Hash : dc8ad54f
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Date : 2003-12-09T02:12:14
* include/freetype/internal/psaux.h (PS_TableRec): Change type of `lengths' to FT_PtrDist. (T1_DecoderRec): Change type of `subrs_len' to FT_PtrDist. * include/freetype/internal/t1types.h (T1_FontRec): Change type of `subrs_len' and `charstrings_len' to FT_PtrDist. * src/base/ftobjs.c (Mac_Read_POST_Resource): Replace `junk' variable with better solution. (IsMacResource): Remove unused variable `map_len'. Replace `junk' variable with better solution. (FT_Open_Face) [!FT_MACINTOSH]: Add conditional FT_CONFIG_OPTION_MAC_FONTS. * src/autohint/ahhint.c (ah_hinter_hint_edges, ah_hinter_align_strong_points): Add some casts. * src/base/ftoutln.c (FT_OrientationExtremumRec): Change type of `pos' to FT_Long. * src/base/ftobjs.c (Mac_Read_POST_Resource, Mac_Read_sfnt_Resource): Change type of `len' to FT_Long. * src/type42/t42parse.c (t42_parse_dict): Add cast for `n_keywords'.
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src/autohint/ahhint.c
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/***************************************************************************/ /* */ /* ahhint.c */ /* */ /* Glyph hinter (body). */ /* */ /* Copyright 2000-2001, 2002, 2003 Catharon Productions Inc. */ /* Author: David Turner */ /* */ /* This file is part of the Catharon Typography Project and shall only */ /* be used, modified, and distributed under the terms of the Catharon */ /* Open Source License that should come with this file under the name */ /* `CatharonLicense.txt'. By continuing to use, modify, or distribute */ /* this file you indicate that you have read the license and */ /* understand and accept it fully. */ /* */ /* Note that this license is compatible with the FreeType license. */ /* */ /***************************************************************************/ #include <ft2build.h> #include "ahhint.h" #include "ahglyph.h" #include "ahangles.h" #include "aherrors.h" #include FT_OUTLINE_H #define FACE_GLOBALS( face ) ( (AH_Face_Globals)(face)->autohint.data ) #define AH_USE_IUP #define OPTIM_STEM_SNAP /*************************************************************************/ /*************************************************************************/ /**** ****/ /**** Hinting routines ****/ /**** ****/ /*************************************************************************/ /*************************************************************************/ /* snap a given width in scaled coordinates to one of the */ /* current standard widths */ static FT_Pos ah_snap_width( FT_Pos* widths, FT_Int count, FT_Pos width ) { int n; FT_Pos best = 64 + 32 + 2; FT_Pos reference = width; FT_Pos scaled; for ( n = 0; n < count; n++ ) { FT_Pos w; FT_Pos dist; w = widths[n]; dist = width - w; if ( dist < 0 ) dist = -dist; if ( dist < best ) { best = dist; reference = w; } } scaled = ( reference + 32 ) & -64; if ( width >= reference ) { if ( width < scaled + 48 ) width = reference; } else { if ( width > scaled - 48 ) width = reference; } return width; } /* compute the snapped width of a given stem */ #ifdef FT_CONFIG_CHESTER_SERIF static FT_Pos ah_compute_stem_width( AH_Hinter hinter, int vertical, FT_Pos width, AH_Edge_Flags base_flags, AH_Edge_Flags stem_flags ) { AH_Globals globals = &hinter->globals->scaled; FT_Pos dist = width; FT_Int sign = 0; if ( dist < 0 ) { dist = -width; sign = 1; } if ( !hinter->do_stem_adjust ) { /* leave stem widths unchanged */ } else if ( ( vertical && !hinter->do_vert_snapping ) || ( !vertical && !hinter->do_horz_snapping ) ) { /* smooth hinting process: very lightly quantize the stem width */ /* */ /* leave the widths of serifs alone */ if ( ( stem_flags & AH_EDGE_SERIF ) && vertical && ( dist < 3 * 64 ) ) goto Done_Width; else if ( ( base_flags & AH_EDGE_ROUND ) ) { if ( dist < 80 ) dist = 64; } else if ( dist < 56 ) dist = 56; { FT_Pos delta = dist - globals->stds[vertical]; if ( delta < 0 ) delta = -delta; if ( delta < 40 ) { dist = globals->stds[vertical]; if ( dist < 48 ) dist = 48; goto Done_Width; } if ( dist < 3 * 64 ) { delta = dist & 63; dist &= -64; if ( delta < 10 ) dist += delta; else if ( delta < 32 ) dist += 10; else if ( delta < 54 ) dist += 54; else dist += delta; } else dist = ( dist + 32 ) & -64; } } else { /* strong hinting process: snap the stem width to integer pixels */ /* */ if ( vertical ) { dist = ah_snap_width( globals->heights, globals->num_heights, dist ); /* in the case of vertical hinting, always round */ /* the stem heights to integer pixels */ if ( dist >= 64 ) dist = ( dist + 16 ) & -64; else dist = 64; } else { dist = ah_snap_width( globals->widths, globals->num_widths, dist ); if ( hinter->flags & AH_HINTER_MONOCHROME ) { /* monochrome horizontal hinting: snap widths to integer pixels */ /* with a different threshold */ if ( dist < 64 ) dist = 64; else dist = ( dist + 32 ) & -64; } else { /* for horizontal anti-aliased hinting, we adopt a more subtle */ /* approach: we strengthen small stems, round stems whose size */ /* is between 1 and 2 pixels to an integer, otherwise nothing */ if ( dist < 48 ) dist = ( dist + 64 ) >> 1; else if ( dist < 128 ) dist = ( dist + 22 ) & -64; else /* XXX: round otherwise to prevent color fringes in LCD mode */ dist = ( dist + 32 ) & -64; } } } Done_Width: if ( sign ) dist = -dist; return dist; } #else /* !FT_CONFIG_CHESTER_SERIF */ static FT_Pos ah_compute_stem_width( AH_Hinter hinter, int vertical, FT_Pos width ) { AH_Globals globals = &hinter->globals->scaled; FT_Pos dist = width; FT_Int sign = 0; if ( dist < 0 ) { dist = -width; sign = 1; } if ( !hinter->do_stem_adjust ) { /* leave stem widths unchanged */ } else if ( ( vertical && !hinter->do_vert_snapping ) || ( !vertical && !hinter->do_horz_snapping ) ) { /* smooth hinting process: very lightly quantize the stem width */ /* */ if ( dist < 64 ) dist = 64; { FT_Pos delta = dist - globals->stds[vertical]; if ( delta < 0 ) delta = -delta; if ( delta < 40 ) { dist = globals->stds[vertical]; if ( dist < 48 ) dist = 48; } if ( dist < 3 * 64 ) { delta = dist & 63; dist &= -64; if ( delta < 10 ) dist += delta; else if ( delta < 32 ) dist += 10; else if ( delta < 54 ) dist += 54; else dist += delta; } else dist = ( dist + 32 ) & -64; } } else { /* strong hinting process: snap the stem width to integer pixels */ /* */ if ( vertical ) { dist = ah_snap_width( globals->heights, globals->num_heights, dist ); /* in the case of vertical hinting, always round */ /* the stem heights to integer pixels */ if ( dist >= 64 ) dist = ( dist + 16 ) & -64; else dist = 64; } else { dist = ah_snap_width( globals->widths, globals->num_widths, dist ); if ( hinter->flags & AH_HINTER_MONOCHROME ) { /* monochrome horizontal hinting: snap widths to integer pixels */ /* with a different threshold */ if ( dist < 64 ) dist = 64; else dist = ( dist + 32 ) & -64; } else { /* for horizontal anti-aliased hinting, we adopt a more subtle */ /* approach: we strengthen small stems, round stems whose size */ /* is between 1 and 2 pixels to an integer, otherwise nothing */ if ( dist < 48 ) dist = ( dist + 64 ) >> 1; else if ( dist < 128 ) dist = ( dist + 22 ) & -64; else /* XXX: round otherwise to prevent color fringes in LCD mode */ dist = ( dist + 32 ) & -64; } } } if ( sign ) dist = -dist; return dist; } #endif /* !FT_CONFIG_CHESTER_SERIF */ /* align one stem edge relative to the previous stem edge */ static void ah_align_linked_edge( AH_Hinter hinter, AH_Edge base_edge, AH_Edge stem_edge, int vertical ) { FT_Pos dist = stem_edge->opos - base_edge->opos; #ifdef FT_CONFIG_CHESTER_SERIF FT_Pos fitted_width = ah_compute_stem_width( hinter, vertical, dist, base_edge->flags, stem_edge->flags ); stem_edge->pos = base_edge->pos + fitted_width; #else stem_edge->pos = base_edge->pos + ah_compute_stem_width( hinter, vertical, dist ); #endif } static void ah_align_serif_edge( AH_Hinter hinter, AH_Edge base, AH_Edge serif, int vertical ) { FT_Pos dist; FT_Pos sign = 1; FT_UNUSED( hinter ); FT_UNUSED( vertical ); dist = serif->opos - base->opos; if ( dist < 0 ) { dist = -dist; sign = -1; } #if 0 /* do not touch serifs widths! */ if ( base->flags & AH_EDGE_DONE ) { if ( dist >= 64 ) dist = ( dist + 8 ) & -64; else if ( dist <= 32 && !vertical ) dist = ( dist + 33 ) >> 1; else dist = 0; } #endif serif->pos = base->pos + sign * dist; } /*************************************************************************/ /*************************************************************************/ /*************************************************************************/ /**** ****/ /**** E D G E H I N T I N G ****/ /**** ****/ /*************************************************************************/ /*************************************************************************/ /*************************************************************************/ FT_LOCAL_DEF( void ) ah_hinter_hint_edges( AH_Hinter hinter ) { AH_Edge edges; AH_Edge edge_limit; AH_Outline outline = hinter->glyph; FT_Int dimension; FT_Int n_edges; edges = outline->horz_edges; edge_limit = edges + outline->num_hedges; for ( dimension = 1; dimension >= 0; dimension-- ) { AH_Edge edge; AH_Edge anchor = 0; int has_serifs = 0; if ( !hinter->do_horz_hints && !dimension ) goto Next_Dimension; if ( !hinter->do_vert_hints && dimension ) goto Next_Dimension; /* we begin by aligning all stems relative to the blue zone */ /* if needed -- that's only for horizontal edges */ if ( dimension ) { for ( edge = edges; edge < edge_limit; edge++ ) { FT_Pos* blue; AH_EdgeRec *edge1, *edge2; if ( edge->flags & AH_EDGE_DONE ) continue; blue = edge->blue_edge; edge1 = 0; edge2 = edge->link; if ( blue ) { edge1 = edge; } else if ( edge2 && edge2->blue_edge ) { blue = edge2->blue_edge; edge1 = edge2; edge2 = edge; } if ( !edge1 ) continue; edge1->pos = blue[0]; edge1->flags |= AH_EDGE_DONE; if ( edge2 && !edge2->blue_edge ) { ah_align_linked_edge( hinter, edge1, edge2, dimension ); edge2->flags |= AH_EDGE_DONE; } if ( !anchor ) anchor = edge; } } /* now we will align all stem edges, trying to maintain the */ /* relative order of stems in the glyph */ for ( edge = edges; edge < edge_limit; edge++ ) { AH_EdgeRec* edge2; if ( edge->flags & AH_EDGE_DONE ) continue; /* skip all non-stem edges */ edge2 = edge->link; if ( !edge2 ) { has_serifs++; continue; } /* now align the stem */ /* this should not happen, but it's better to be safe */ if ( edge2->blue_edge || edge2 < edge ) { ah_align_linked_edge( hinter, edge2, edge, dimension ); edge->flags |= AH_EDGE_DONE; continue; } if ( !anchor ) { #ifdef FT_CONFIG_CHESTER_STEM FT_Pos org_len, org_center, cur_len; FT_Pos cur_pos1, error1, error2, u_off, d_off; org_len = edge2->opos - edge->opos; cur_len = ah_compute_stem_width( hinter, dimension, org_len, edge->flags, edge2->flags ); if ( cur_len <= 64 ) u_off = d_off = 32; else { u_off = 38; d_off = 26; } if ( cur_len < 96 ) { org_center = edge->opos + ( org_len >> 1 ); cur_pos1 = ( org_center + 32 ) & -64; error1 = org_center - ( cur_pos1 - u_off ); if ( error1 < 0 ) error1 = -error1; error2 = org_center - ( cur_pos1 + d_off ); if ( error2 < 0 ) error2 = -error2; if ( error1 < error2 ) cur_pos1 -= u_off; else cur_pos1 += d_off; edge->pos = cur_pos1 - cur_len / 2; edge2->pos = cur_pos1 + cur_len / 2; } else edge->pos = ( edge->opos + 32 ) & -64; anchor = edge; edge->flags |= AH_EDGE_DONE; ah_align_linked_edge( hinter, edge, edge2, dimension ); #else /* !FT_CONFIG_CHESTER_STEM */ edge->pos = ( edge->opos + 32 ) & -64; anchor = edge; edge->flags |= AH_EDGE_DONE; ah_align_linked_edge( hinter, edge, edge2, dimension ); #endif /* !FT_CONFIG_CHESTER_STEM */ } else { FT_Pos org_pos, org_len, org_center, cur_len; FT_Pos cur_pos1, cur_pos2, delta1, delta2; org_pos = anchor->pos + ( edge->opos - anchor->opos ); org_len = edge2->opos - edge->opos; org_center = org_pos + ( org_len >> 1 ); #ifdef FT_CONFIG_CHESTER_SERIF cur_len = ah_compute_stem_width( hinter, dimension, org_len, edge->flags, edge2->flags ); #else /* !FT_CONFIG_CHESTER_SERIF */ cur_len = ah_compute_stem_width( hinter, dimension, org_len ); #endif /* !FT_CONFIG_CHESTER_SERIF */ #ifdef FT_CONFIG_CHESTER_STEM if ( cur_len < 96 ) { FT_Pos u_off, d_off; cur_pos1 = ( org_center + 32 ) & -64; if (cur_len <= 64 ) u_off = d_off = 32; else { u_off = 38; d_off = 26; } delta1 = org_center - ( cur_pos1 - u_off ); if ( delta1 < 0 ) delta1 = -delta1; delta2 = org_center - ( cur_pos1 + d_off ); if ( delta2 < 0 ) delta2 = -delta2; if ( delta1 < delta2 ) cur_pos1 -= u_off; else cur_pos1 += d_off; edge->pos = cur_pos1 - cur_len / 2; edge2->pos = cur_pos1 + cur_len / 2; } else { org_pos = anchor->pos + ( edge->opos - anchor->opos ); org_len = edge2->opos - edge->opos; org_center = org_pos + ( org_len >> 1 ); cur_len = ah_compute_stem_width( hinter, dimension, org_len, edge->flags, edge2->flags ); cur_pos1 = ( org_pos + 32 ) & -64; delta1 = ( cur_pos1 + ( cur_len >> 1 ) - org_center ); if ( delta1 < 0 ) delta1 = -delta1; cur_pos2 = ( ( org_pos + org_len + 32 ) & -64 ) - cur_len; delta2 = ( cur_pos2 + ( cur_len >> 1 ) - org_center ); if ( delta2 < 0 ) delta2 = -delta2; edge->pos = ( delta1 < delta2 ) ? cur_pos1 : cur_pos2; edge2->pos = edge->pos + cur_len; } #else /* !FT_CONFIG_CHESTER_STEM */ cur_pos1 = ( org_pos + 32 ) & -64; delta1 = ( cur_pos1 + ( cur_len >> 1 ) - org_center ); if ( delta1 < 0 ) delta1 = -delta1; cur_pos2 = ( ( org_pos + org_len + 32 ) & -64 ) - cur_len; delta2 = ( cur_pos2 + ( cur_len >> 1 ) - org_center ); if ( delta2 < 0 ) delta2 = -delta2; edge->pos = ( delta1 <= delta2 ) ? cur_pos1 : cur_pos2; edge2->pos = edge->pos + cur_len; #endif /* !FT_CONFIG_CHESTER_STEM */ edge->flags |= AH_EDGE_DONE; edge2->flags |= AH_EDGE_DONE; if ( edge > edges && edge->pos < edge[-1].pos ) edge->pos = edge[-1].pos; } } /* make sure that lowercase m's maintain their symmetry */ /* In general, lowercase m's have six vertical edges if they are sans */ /* serif, or twelve if they are avec serif. This implementation is */ /* based on that assumption, and seems to work very well with most */ /* faces. However, if for a certain face this assumption is not */ /* true, the m is just rendered like before. In addition, any stem */ /* correction will only be applied to symmetrical glyphs (even if the */ /* glyph is not an m), so the potential for unwanted distortion is */ /* relatively low. */ /* We don't handle horizontal edges since we can't easily assure that */ /* the third (lowest) stem aligns with the base line; it might end up */ /* one pixel higher or lower. */ n_edges = (FT_Int)( edge_limit - edges ); if ( !dimension && ( n_edges == 6 || n_edges == 12 ) ) { AH_EdgeRec *edge1, *edge2, *edge3; FT_Pos dist1, dist2, span, delta; if ( n_edges == 6 ) { edge1 = edges; edge2 = edges + 2; edge3 = edges + 4; } else { edge1 = edges + 1; edge2 = edges + 5; edge3 = edges + 9; } dist1 = edge2->opos - edge1->opos; dist2 = edge3->opos - edge2->opos; span = dist1 - dist2; if ( span < 0 ) span = -span; if ( span < 8 ) { delta = edge3->pos - ( 2 * edge2->pos - edge1->pos ); edge3->pos -= delta; if ( edge3->link ) edge3->link->pos -= delta; /* move the serifs along with the stem */ if ( n_edges == 12 ) { ( edges + 8 )->pos -= delta; ( edges + 11 )->pos -= delta; } edge3->flags |= AH_EDGE_DONE; if ( edge3->link ) edge3->link->flags |= AH_EDGE_DONE; } } if ( !has_serifs ) goto Next_Dimension; /* now hint the remaining edges (serifs and single) in order */ /* to complete our processing */ for ( edge = edges; edge < edge_limit; edge++ ) { if ( edge->flags & AH_EDGE_DONE ) continue; if ( edge->serif ) ah_align_serif_edge( hinter, edge->serif, edge, dimension ); else if ( !anchor ) { edge->pos = ( edge->opos + 32 ) & -64; anchor = edge; } else edge->pos = anchor->pos + ( ( edge->opos-anchor->opos + 32 ) & -64 ); edge->flags |= AH_EDGE_DONE; if ( edge > edges && edge->pos < edge[-1].pos ) edge->pos = edge[-1].pos; if ( edge + 1 < edge_limit && edge[1].flags & AH_EDGE_DONE && edge->pos > edge[1].pos ) edge->pos = edge[1].pos; } Next_Dimension: edges = outline->vert_edges; edge_limit = edges + outline->num_vedges; } } /*************************************************************************/ /*************************************************************************/ /*************************************************************************/ /**** ****/ /**** P O I N T H I N T I N G ****/ /**** ****/ /*************************************************************************/ /*************************************************************************/ /*************************************************************************/ static void ah_hinter_align_edge_points( AH_Hinter hinter ) { AH_Outline outline = hinter->glyph; AH_Edge edges; AH_Edge edge_limit; FT_Int dimension; edges = outline->horz_edges; edge_limit = edges + outline->num_hedges; for ( dimension = 1; dimension >= 0; dimension-- ) { AH_Edge edge; edge = edges; for ( ; edge < edge_limit; edge++ ) { /* move the points of each segment */ /* in each edge to the edge's position */ AH_Segment seg = edge->first; do { AH_Point point = seg->first; for (;;) { if ( dimension ) { point->y = edge->pos; point->flags |= AH_FLAG_TOUCH_Y; } else { point->x = edge->pos; point->flags |= AH_FLAG_TOUCH_X; } if ( point == seg->last ) break; point = point->next; } seg = seg->edge_next; } while ( seg != edge->first ); } edges = outline->vert_edges; edge_limit = edges + outline->num_vedges; } } /* hint the strong points -- this is equivalent to the TrueType `IP' */ /* hinting instruction */ static void ah_hinter_align_strong_points( AH_Hinter hinter ) { AH_Outline outline = hinter->glyph; FT_Int dimension; AH_Edge edges; AH_Edge edge_limit; AH_Point points; AH_Point point_limit; AH_Flags touch_flag; points = outline->points; point_limit = points + outline->num_points; edges = outline->horz_edges; edge_limit = edges + outline->num_hedges; touch_flag = AH_FLAG_TOUCH_Y; for ( dimension = 1; dimension >= 0; dimension-- ) { AH_Point point; AH_Edge edge; if ( edges < edge_limit ) for ( point = points; point < point_limit; point++ ) { FT_Pos u, ou, fu; /* point position */ FT_Pos delta; if ( point->flags & touch_flag ) continue; #ifndef AH_OPTION_NO_WEAK_INTERPOLATION /* if this point is candidate to weak interpolation, we will */ /* interpolate it after all strong points have been processed */ if ( ( point->flags & AH_FLAG_WEAK_INTERPOLATION ) && !( point->flags & AH_FLAG_INFLECTION ) ) continue; #endif if ( dimension ) { u = point->fy; ou = point->oy; } else { u = point->fx; ou = point->ox; } fu = u; /* is the point before the first edge? */ edge = edges; delta = edge->fpos - u; if ( delta >= 0 ) { u = edge->pos - ( edge->opos - ou ); goto Store_Point; } /* is the point after the last edge? */ edge = edge_limit - 1; delta = u - edge->fpos; if ( delta >= 0 ) { u = edge->pos + ( ou - edge->opos ); goto Store_Point; } #if 1 { FT_UInt min, max, mid; FT_Pos fpos; /* find enclosing edges */ min = 0; max = (FT_UInt)( edge_limit - edges ); while ( min < max ) { mid = ( max + min ) >> 1; edge = edges + mid; fpos = edge->fpos; if ( u < fpos ) max = mid; else if ( u > fpos ) min = mid + 1; else { /* we are on the edge */ u = edge->pos; goto Store_Point; } } { AH_Edge before = edges + min - 1; AH_Edge after = edges + min + 0; /* assert( before && after && before != after ) */ if ( before->scale == 0 ) before->scale = FT_DivFix( after->pos - before->pos, after->fpos - before->fpos ); u = before->pos + FT_MulFix( fu - before->fpos, before->scale ); } } #else /* !0 */ /* otherwise, interpolate the point in between */ { AH_Edge before = 0; AH_Edge after = 0; for ( edge = edges; edge < edge_limit; edge++ ) { if ( u == edge->fpos ) { u = edge->pos; goto Store_Point; } if ( u < edge->fpos ) break; before = edge; } for ( edge = edge_limit - 1; edge >= edges; edge-- ) { if ( u == edge->fpos ) { u = edge->pos; goto Store_Point; } if ( u > edge->fpos ) break; after = edge; } if ( before->scale == 0 ) before->scale = FT_DivFix( after->pos - before->pos, after->fpos - before->fpos ); u = before->pos + FT_MulFix( fu - before->fpos, before->scale ); } #endif /* !0 */ Store_Point: /* save the point position */ if ( dimension ) point->y = u; else point->x = u; point->flags |= touch_flag; } edges = outline->vert_edges; edge_limit = edges + outline->num_vedges; touch_flag = AH_FLAG_TOUCH_X; } } #ifndef AH_OPTION_NO_WEAK_INTERPOLATION static void ah_iup_shift( AH_Point p1, AH_Point p2, AH_Point ref ) { AH_Point p; FT_Pos delta = ref->u - ref->v; for ( p = p1; p < ref; p++ ) p->u = p->v + delta; for ( p = ref + 1; p <= p2; p++ ) p->u = p->v + delta; } static void ah_iup_interp( AH_Point p1, AH_Point p2, AH_Point ref1, AH_Point ref2 ) { AH_Point p; FT_Pos u; FT_Pos v1 = ref1->v; FT_Pos v2 = ref2->v; FT_Pos d1 = ref1->u - v1; FT_Pos d2 = ref2->u - v2; if ( p1 > p2 ) return; if ( v1 == v2 ) { for ( p = p1; p <= p2; p++ ) { u = p->v; if ( u <= v1 ) u += d1; else u += d2; p->u = u; } return; } if ( v1 < v2 ) { for ( p = p1; p <= p2; p++ ) { u = p->v; if ( u <= v1 ) u += d1; else if ( u >= v2 ) u += d2; else u = ref1->u + FT_MulDiv( u - v1, ref2->u - ref1->u, v2 - v1 ); p->u = u; } } else { for ( p = p1; p <= p2; p++ ) { u = p->v; if ( u <= v2 ) u += d2; else if ( u >= v1 ) u += d1; else u = ref1->u + FT_MulDiv( u - v1, ref2->u - ref1->u, v2 - v1 ); p->u = u; } } } /* interpolate weak points -- this is equivalent to the TrueType `IUP' */ /* hinting instruction */ static void ah_hinter_align_weak_points( AH_Hinter hinter ) { AH_Outline outline = hinter->glyph; FT_Int dimension; AH_Point points; AH_Point point_limit; AH_Point* contour_limit; AH_Flags touch_flag; points = outline->points; point_limit = points + outline->num_points; /* PASS 1: Move segment points to edge positions */ touch_flag = AH_FLAG_TOUCH_Y; contour_limit = outline->contours + outline->num_contours; ah_setup_uv( outline, AH_UV_OY ); for ( dimension = 1; dimension >= 0; dimension-- ) { AH_Point point; AH_Point end_point; AH_Point first_point; AH_Point* contour; point = points; contour = outline->contours; for ( ; contour < contour_limit; contour++ ) { point = *contour; end_point = point->prev; first_point = point; while ( point <= end_point && !( point->flags & touch_flag ) ) point++; if ( point <= end_point ) { AH_Point first_touched = point; AH_Point cur_touched = point; point++; while ( point <= end_point ) { if ( point->flags & touch_flag ) { /* we found two successive touched points; we interpolate */ /* all contour points between them */ ah_iup_interp( cur_touched + 1, point - 1, cur_touched, point ); cur_touched = point; } point++; } if ( cur_touched == first_touched ) { /* this is a special case: only one point was touched in the */ /* contour; we thus simply shift the whole contour */ ah_iup_shift( first_point, end_point, cur_touched ); } else { /* now interpolate after the last touched point to the end */ /* of the contour */ ah_iup_interp( cur_touched + 1, end_point, cur_touched, first_touched ); /* if the first contour point isn't touched, interpolate */ /* from the contour start to the first touched point */ if ( first_touched > points ) ah_iup_interp( first_point, first_touched - 1, cur_touched, first_touched ); } } } /* now save the interpolated values back to x/y */ if ( dimension ) { for ( point = points; point < point_limit; point++ ) point->y = point->u; touch_flag = AH_FLAG_TOUCH_X; ah_setup_uv( outline, AH_UV_OX ); } else { for ( point = points; point < point_limit; point++ ) point->x = point->u; break; /* exit loop */ } } } #endif /* !AH_OPTION_NO_WEAK_INTERPOLATION */ FT_LOCAL_DEF( void ) ah_hinter_align_points( AH_Hinter hinter ) { ah_hinter_align_edge_points( hinter ); #ifndef AH_OPTION_NO_STRONG_INTERPOLATION ah_hinter_align_strong_points( hinter ); #endif #ifndef AH_OPTION_NO_WEAK_INTERPOLATION ah_hinter_align_weak_points( hinter ); #endif } /*************************************************************************/ /*************************************************************************/ /*************************************************************************/ /**** ****/ /**** H I N T E R O B J E C T M E T H O D S ****/ /**** ****/ /*************************************************************************/ /*************************************************************************/ /*************************************************************************/ /* scale and fit the global metrics */ static void ah_hinter_scale_globals( AH_Hinter hinter, FT_Fixed x_scale, FT_Fixed y_scale ) { FT_Int n; AH_Face_Globals globals = hinter->globals; AH_Globals design = &globals->design; AH_Globals scaled = &globals->scaled; /* copy content */ *scaled = *design; /* scale the standard widths & heights */ for ( n = 0; n < design->num_widths; n++ ) scaled->widths[n] = FT_MulFix( design->widths[n], x_scale ); for ( n = 0; n < design->num_heights; n++ ) scaled->heights[n] = FT_MulFix( design->heights[n], y_scale ); scaled->stds[0] = ( design->num_widths > 0 ) ? scaled->widths[0] : 32000; scaled->stds[1] = ( design->num_heights > 0 ) ? scaled->heights[0] : 32000; /* scale the blue zones */ for ( n = 0; n < AH_BLUE_MAX; n++ ) { FT_Pos delta, delta2; delta = design->blue_shoots[n] - design->blue_refs[n]; delta2 = delta; if ( delta < 0 ) delta2 = -delta2; delta2 = FT_MulFix( delta2, y_scale ); if ( delta2 < 32 ) delta2 = 0; else if ( delta2 < 64 ) delta2 = 32 + ( ( ( delta2 - 32 ) + 16 ) & -32 ); else delta2 = ( delta2 + 32 ) & -64; if ( delta < 0 ) delta2 = -delta2; scaled->blue_refs[n] = ( FT_MulFix( design->blue_refs[n], y_scale ) + 32 ) & -64; scaled->blue_shoots[n] = scaled->blue_refs[n] + delta2; } globals->x_scale = x_scale; globals->y_scale = y_scale; } static void ah_hinter_align( AH_Hinter hinter ) { ah_hinter_align_edge_points( hinter ); ah_hinter_align_points( hinter ); } /* finalize a hinter object */ FT_LOCAL_DEF( void ) ah_hinter_done( AH_Hinter hinter ) { if ( hinter ) { FT_Memory memory = hinter->memory; ah_loader_done( hinter->loader ); ah_outline_done( hinter->glyph ); /* note: the `globals' pointer is _not_ owned by the hinter */ /* but by the current face object; we don't need to */ /* release it */ hinter->globals = 0; hinter->face = 0; FT_FREE( hinter ); } } /* create a new empty hinter object */ FT_LOCAL_DEF( FT_Error ) ah_hinter_new( FT_Library library, AH_Hinter *ahinter ) { AH_Hinter hinter = 0; FT_Memory memory = library->memory; FT_Error error; *ahinter = 0; /* allocate object */ if ( FT_NEW( hinter ) ) goto Exit; hinter->memory = memory; hinter->flags = 0; /* allocate outline and loader */ error = ah_outline_new( memory, &hinter->glyph ) || ah_loader_new ( memory, &hinter->loader ) || ah_loader_create_extra( hinter->loader ); if ( error ) goto Exit; *ahinter = hinter; Exit: if ( error ) ah_hinter_done( hinter ); return error; } /* create a face's autohint globals */ FT_LOCAL_DEF( FT_Error ) ah_hinter_new_face_globals( AH_Hinter hinter, FT_Face face, AH_Globals globals ) { FT_Error error; FT_Memory memory = hinter->memory; AH_Face_Globals face_globals; if ( FT_NEW( face_globals ) ) goto Exit; hinter->face = face; hinter->globals = face_globals; if ( globals ) face_globals->design = *globals; else ah_hinter_compute_globals( hinter ); face->autohint.data = face_globals; face->autohint.finalizer = (FT_Generic_Finalizer) ah_hinter_done_face_globals; face_globals->face = face; Exit: return error; } /* discard a face's autohint globals */ FT_LOCAL_DEF( void ) ah_hinter_done_face_globals( AH_Face_Globals globals ) { FT_Face face = globals->face; FT_Memory memory = face->memory; FT_FREE( globals ); } static FT_Error ah_hinter_load( AH_Hinter hinter, FT_UInt glyph_index, FT_Int32 load_flags, FT_UInt depth ) { FT_Face face = hinter->face; FT_GlyphSlot slot = face->glyph; FT_Slot_Internal internal = slot->internal; FT_Fixed x_scale = hinter->globals->x_scale; FT_Fixed y_scale = hinter->globals->y_scale; FT_Error error; AH_Outline outline = hinter->glyph; AH_Loader gloader = hinter->loader; /* load the glyph */ error = FT_Load_Glyph( face, glyph_index, load_flags ); if ( error ) goto Exit; /* Set `hinter->transformed' after loading with FT_LOAD_NO_RECURSE. */ hinter->transformed = internal->glyph_transformed; if ( hinter->transformed ) { FT_Matrix imatrix; imatrix = internal->glyph_matrix; hinter->trans_delta = internal->glyph_delta; hinter->trans_matrix = imatrix; FT_Matrix_Invert( &imatrix ); FT_Vector_Transform( &hinter->trans_delta, &imatrix ); } /* set linear horizontal metrics */ slot->linearHoriAdvance = slot->metrics.horiAdvance; slot->linearVertAdvance = slot->metrics.vertAdvance; switch ( slot->format ) { case FT_GLYPH_FORMAT_OUTLINE: /* translate glyph outline if we need to */ if ( hinter->transformed ) { FT_UInt n = slot->outline.n_points; FT_Vector* point = slot->outline.points; for ( ; n > 0; point++, n-- ) { point->x += hinter->trans_delta.x; point->y += hinter->trans_delta.y; } } /* copy the outline points in the loader's current */ /* extra points which is used to keep original glyph coordinates */ error = ah_loader_check_points( gloader, slot->outline.n_points + 2, slot->outline.n_contours ); if ( error ) goto Exit; FT_MEM_COPY( gloader->current.extra_points, slot->outline.points, slot->outline.n_points * sizeof ( FT_Vector ) ); FT_MEM_COPY( gloader->current.outline.contours, slot->outline.contours, slot->outline.n_contours * sizeof ( short ) ); FT_MEM_COPY( gloader->current.outline.tags, slot->outline.tags, slot->outline.n_points * sizeof ( char ) ); gloader->current.outline.n_points = slot->outline.n_points; gloader->current.outline.n_contours = slot->outline.n_contours; /* compute original phantom points */ hinter->pp1.x = 0; hinter->pp1.y = 0; hinter->pp2.x = FT_MulFix( slot->metrics.horiAdvance, x_scale ); hinter->pp2.y = 0; /* be sure to check for spacing glyphs */ if ( slot->outline.n_points == 0 ) goto Hint_Metrics; /* now load the slot image into the auto-outline and run the */ /* automatic hinting process */ error = ah_outline_load( outline, x_scale, y_scale, face ); if ( error ) goto Exit; /* perform feature detection */ ah_outline_detect_features( outline ); if ( hinter->do_vert_hints ) { ah_outline_compute_blue_edges( outline, hinter->globals ); ah_outline_scale_blue_edges( outline, hinter->globals ); } /* perform alignment control */ ah_hinter_hint_edges( hinter ); ah_hinter_align( hinter ); /* now save the current outline into the loader's current table */ ah_outline_save( outline, gloader ); /* we now need to hint the metrics according to the change in */ /* width/positioning that occured during the hinting process */ { FT_Pos old_advance, old_rsb, old_lsb, new_lsb; AH_Edge edge1 = outline->vert_edges; /* leftmost edge */ AH_Edge edge2 = edge1 + outline->num_vedges - 1; /* rightmost edge */ old_advance = hinter->pp2.x; old_rsb = old_advance - edge2->opos; old_lsb = edge1->opos; new_lsb = edge1->pos; hinter->pp1.x = ( ( new_lsb - old_lsb ) + 32 ) & -64; hinter->pp2.x = ( ( edge2->pos + old_rsb ) + 32 ) & -64; #if 0 /* try to fix certain bad advance computations */ if ( hinter->pp2.x + hinter->pp1.x == edge2->pos && old_rsb > 4 ) hinter->pp2.x += 64; #endif } /* good, we simply add the glyph to our loader's base */ ah_loader_add( gloader ); break; case FT_GLYPH_FORMAT_COMPOSITE: { FT_UInt nn, num_subglyphs = slot->num_subglyphs; FT_UInt num_base_subgs, start_point; FT_SubGlyph subglyph; start_point = gloader->base.outline.n_points; /* first of all, copy the subglyph descriptors in the glyph loader */ error = ah_loader_check_subglyphs( gloader, num_subglyphs ); if ( error ) goto Exit; FT_MEM_COPY( gloader->current.subglyphs, slot->subglyphs, num_subglyphs * sizeof ( FT_SubGlyph ) ); gloader->current.num_subglyphs = num_subglyphs; num_base_subgs = gloader->base.num_subglyphs; /* now, read each subglyph independently */ for ( nn = 0; nn < num_subglyphs; nn++ ) { FT_Vector pp1, pp2; FT_Pos x, y; FT_UInt num_points, num_new_points, num_base_points; /* gloader.current.subglyphs can change during glyph loading due */ /* to re-allocation -- we must recompute the current subglyph on */ /* each iteration */ subglyph = gloader->base.subglyphs + num_base_subgs + nn; pp1 = hinter->pp1; pp2 = hinter->pp2; num_base_points = gloader->base.outline.n_points; error = ah_hinter_load( hinter, subglyph->index, load_flags, depth + 1 ); if ( error ) goto Exit; /* recompute subglyph pointer */ subglyph = gloader->base.subglyphs + num_base_subgs + nn; if ( subglyph->flags & FT_SUBGLYPH_FLAG_USE_MY_METRICS ) { pp1 = hinter->pp1; pp2 = hinter->pp2; } else { hinter->pp1 = pp1; hinter->pp2 = pp2; } num_points = gloader->base.outline.n_points; num_new_points = num_points - num_base_points; /* now perform the transform required for this subglyph */ if ( subglyph->flags & ( FT_SUBGLYPH_FLAG_SCALE | FT_SUBGLYPH_FLAG_XY_SCALE | FT_SUBGLYPH_FLAG_2X2 ) ) { FT_Vector* cur = gloader->base.outline.points + num_base_points; FT_Vector* org = gloader->base.extra_points + num_base_points; FT_Vector* limit = cur + num_new_points; for ( ; cur < limit; cur++, org++ ) { FT_Vector_Transform( cur, &subglyph->transform ); FT_Vector_Transform( org, &subglyph->transform ); } } /* apply offset */ if ( !( subglyph->flags & FT_SUBGLYPH_FLAG_ARGS_ARE_XY_VALUES ) ) { FT_Int k = subglyph->arg1; FT_UInt l = subglyph->arg2; FT_Vector* p1; FT_Vector* p2; if ( start_point + k >= num_base_points || l >= (FT_UInt)num_new_points ) { error = AH_Err_Invalid_Composite; goto Exit; } l += num_base_points; /* for now, only use the current point coordinates; */ /* we may consider another approach in the near future */ p1 = gloader->base.outline.points + start_point + k; p2 = gloader->base.outline.points + start_point + l; x = p1->x - p2->x; y = p1->y - p2->y; } else { x = FT_MulFix( subglyph->arg1, x_scale ); y = FT_MulFix( subglyph->arg2, y_scale ); x = ( x + 32 ) & -64; y = ( y + 32 ) & -64; } { FT_Outline dummy = gloader->base.outline; dummy.points += num_base_points; dummy.n_points = (short)num_new_points; FT_Outline_Translate( &dummy, x, y ); } } } break; default: /* we don't support other formats (yet?) */ error = AH_Err_Unimplemented_Feature; } Hint_Metrics: if ( depth == 0 ) { FT_BBox bbox; /* transform the hinted outline if needed */ if ( hinter->transformed ) FT_Outline_Transform( &gloader->base.outline, &hinter->trans_matrix ); /* we must translate our final outline by -pp1.x and compute */ /* the new metrics */ if ( hinter->pp1.x ) FT_Outline_Translate( &gloader->base.outline, -hinter->pp1.x, 0 ); FT_Outline_Get_CBox( &gloader->base.outline, &bbox ); bbox.xMin &= -64; bbox.yMin &= -64; bbox.xMax = ( bbox.xMax + 63 ) & -64; bbox.yMax = ( bbox.yMax + 63 ) & -64; slot->metrics.width = bbox.xMax - bbox.xMin; slot->metrics.height = bbox.yMax - bbox.yMin; slot->metrics.horiBearingX = bbox.xMin; slot->metrics.horiBearingY = bbox.yMax; /* for mono-width fonts (like Andale, Courier, etc.) we need */ /* to keep the original rounded advance width */ if ( !FT_IS_FIXED_WIDTH( slot->face ) ) slot->metrics.horiAdvance = hinter->pp2.x - hinter->pp1.x; else slot->metrics.horiAdvance = FT_MulFix( slot->metrics.horiAdvance, x_scale ); slot->metrics.horiAdvance = ( slot->metrics.horiAdvance + 32 ) & -64; /* now copy outline into glyph slot */ ah_loader_rewind( slot->internal->loader ); error = ah_loader_copy_points( slot->internal->loader, gloader ); if ( error ) goto Exit; slot->outline = slot->internal->loader->base.outline; slot->format = FT_GLYPH_FORMAT_OUTLINE; } #ifdef DEBUG_HINTER ah_debug_hinter = hinter; #endif Exit: return error; } /* load and hint a given glyph */ FT_LOCAL_DEF( FT_Error ) ah_hinter_load_glyph( AH_Hinter hinter, FT_GlyphSlot slot, FT_Size size, FT_UInt glyph_index, FT_Int32 load_flags ) { FT_Face face = slot->face; FT_Error error; FT_Fixed x_scale = size->metrics.x_scale; FT_Fixed y_scale = size->metrics.y_scale; AH_Face_Globals face_globals = FACE_GLOBALS( face ); FT_Render_Mode hint_mode = FT_LOAD_TARGET_MODE( load_flags ); /* first of all, we need to check that we're using the correct face and */ /* global hints to load the glyph */ if ( hinter->face != face || hinter->globals != face_globals ) { hinter->face = face; if ( !face_globals ) { error = ah_hinter_new_face_globals( hinter, face, 0 ); if ( error ) goto Exit; } hinter->globals = FACE_GLOBALS( face ); face_globals = FACE_GLOBALS( face ); } #ifdef FT_CONFIG_CHESTER_BLUE_SCALE /* try to optimize the y_scale so that the top of non-capital letters * is aligned on a pixel boundary whenever possible */ { AH_Globals design = &face_globals->design; FT_Pos shoot = design->blue_shoots[AH_BLUE_SMALL_TOP]; /* the value of 'shoot' will be -1000 if the font doesn't have */ /* small latin letters; we simply check the sign here... */ if ( shoot > 0 ) { FT_Pos scaled = FT_MulFix( shoot, y_scale ); FT_Pos fitted = ( scaled + 32 ) & -64; if ( scaled != fitted ) { /* adjust y_scale */ y_scale = FT_MulDiv( y_scale, fitted, scaled ); /* adust x_scale */ if ( fitted < scaled ) x_scale -= x_scale / 50; /* x_scale*0.98 with integers */ } } } #endif /* FT_CONFIG_CHESTER_BLUE_SCALE */ /* now, we must check the current character pixel size to see if we */ /* need to rescale the global metrics */ if ( face_globals->x_scale != x_scale || face_globals->y_scale != y_scale ) ah_hinter_scale_globals( hinter, x_scale, y_scale ); ah_loader_rewind( hinter->loader ); /* reset hinting flags according to load flags and current render target */ hinter->do_horz_hints = FT_BOOL( !(load_flags & FT_LOAD_NO_AUTOHINT) ); hinter->do_vert_hints = FT_BOOL( !(load_flags & FT_LOAD_NO_AUTOHINT) ); #ifdef DEBUG_HINTER hinter->do_horz_hints = !ah_debug_disable_vert; /* not a bug, the meaning */ hinter->do_vert_hints = !ah_debug_disable_horz; /* of h/v is inverted! */ #endif /* we snap the width of vertical stems for the monochrome and */ /* horizontal LCD rendering targets only. Corresponds to X snapping. */ hinter->do_horz_snapping = FT_BOOL( hint_mode == FT_RENDER_MODE_MONO || hint_mode == FT_RENDER_MODE_LCD ); /* we snap the width of horizontal stems for the monochrome and */ /* vertical LCD rendering targets only. Corresponds to Y snapping. */ hinter->do_vert_snapping = FT_BOOL( hint_mode == FT_RENDER_MODE_MONO || hint_mode == FT_RENDER_MODE_LCD_V ); hinter->do_stem_adjust = FT_BOOL( hint_mode != FT_RENDER_MODE_LIGHT ); load_flags |= FT_LOAD_NO_SCALE | FT_LOAD_IGNORE_TRANSFORM; load_flags &= ~FT_LOAD_RENDER; error = ah_hinter_load( hinter, glyph_index, load_flags, 0 ); Exit: return error; } /* retrieve a face's autohint globals for client applications */ FT_LOCAL_DEF( void ) ah_hinter_get_global_hints( AH_Hinter hinter, FT_Face face, void** global_hints, long* global_len ) { AH_Globals globals = 0; FT_Memory memory = hinter->memory; FT_Error error; /* allocate new master globals */ if ( FT_NEW( globals ) ) goto Fail; /* compute face globals if needed */ if ( !FACE_GLOBALS( face ) ) { error = ah_hinter_new_face_globals( hinter, face, 0 ); if ( error ) goto Fail; } *globals = FACE_GLOBALS( face )->design; *global_hints = globals; *global_len = sizeof( *globals ); return; Fail: FT_FREE( globals ); *global_hints = 0; *global_len = 0; } FT_LOCAL_DEF( void ) ah_hinter_done_global_hints( AH_Hinter hinter, void* global_hints ) { FT_Memory memory = hinter->memory; FT_FREE( global_hints ); } /* END */