ref: a255125fe482772feade4334635fc8a3967199b9
dir: /src/pshinter/pshglob.c/
/**************************************************************************** * * pshglob.c * * PostScript hinter global hinting management (body). * Inspired by the new auto-hinter module. * * Copyright (C) 2001-2020 by * David Turner, Robert Wilhelm, and Werner Lemberg. * * This file is part of the FreeType project, and may only be used * modified and distributed under the terms of the FreeType project * license, LICENSE.TXT. By continuing to use, modify, or distribute * this file you indicate that you have read the license and * understand and accept it fully. * */ #include <freetype/freetype.h> #include <freetype/internal/ftobjs.h> #include <freetype/internal/ftcalc.h> #include "pshglob.h" #ifdef DEBUG_HINTER PSH_Globals ps_debug_globals = NULL; #endif /*************************************************************************/ /*************************************************************************/ /***** *****/ /***** STANDARD WIDTHS *****/ /***** *****/ /*************************************************************************/ /*************************************************************************/ /* scale the widths/heights table */ static void psh_globals_scale_widths( PSH_Globals globals, FT_UInt direction ) { PSH_Dimension dim = &globals->dimension[direction]; PSH_Widths stdw = &dim->stdw; FT_UInt count = stdw->count; PSH_Width width = stdw->widths; PSH_Width stand = width; /* standard width/height */ FT_Fixed scale = dim->scale_mult; if ( count > 0 ) { width->cur = FT_MulFix( width->org, scale ); width->fit = FT_PIX_ROUND( width->cur ); width++; count--; for ( ; count > 0; count--, width++ ) { FT_Pos w, dist; w = FT_MulFix( width->org, scale ); dist = w - stand->cur; if ( dist < 0 ) dist = -dist; if ( dist < 128 ) w = stand->cur; width->cur = w; width->fit = FT_PIX_ROUND( w ); } } } #if 0 /* org_width is in font units, result in device pixels, 26.6 format */ FT_LOCAL_DEF( FT_Pos ) psh_dimension_snap_width( PSH_Dimension dimension, FT_Int org_width ) { FT_UInt n; FT_Pos width = FT_MulFix( org_width, dimension->scale_mult ); FT_Pos best = 64 + 32 + 2; FT_Pos reference = width; for ( n = 0; n < dimension->stdw.count; n++ ) { FT_Pos w; FT_Pos dist; w = dimension->stdw.widths[n].cur; dist = width - w; if ( dist < 0 ) dist = -dist; if ( dist < best ) { best = dist; reference = w; } } if ( width >= reference ) { width -= 0x21; if ( width < reference ) width = reference; } else { width += 0x21; if ( width > reference ) width = reference; } return width; } #endif /* 0 */ /*************************************************************************/ /*************************************************************************/ /***** *****/ /***** BLUE ZONES *****/ /***** *****/ /*************************************************************************/ /*************************************************************************/ static void psh_blues_set_zones_0( PSH_Blues target, FT_Bool is_others, FT_UInt read_count, FT_Short* read, PSH_Blue_Table top_table, PSH_Blue_Table bot_table ) { FT_UInt count_top = top_table->count; FT_UInt count_bot = bot_table->count; FT_Bool first = 1; FT_UNUSED( target ); for ( ; read_count > 1; read_count -= 2 ) { FT_Int reference, delta; FT_UInt count; PSH_Blue_Zone zones, zone; FT_Bool top; /* read blue zone entry, and select target top/bottom zone */ top = 0; if ( first || is_others ) { reference = read[1]; delta = read[0] - reference; zones = bot_table->zones; count = count_bot; first = 0; } else { reference = read[0]; delta = read[1] - reference; zones = top_table->zones; count = count_top; top = 1; } /* insert into sorted table */ zone = zones; for ( ; count > 0; count--, zone++ ) { if ( reference < zone->org_ref ) break; if ( reference == zone->org_ref ) { FT_Int delta0 = zone->org_delta; /* we have two zones on the same reference position -- */ /* only keep the largest one */ if ( delta < 0 ) { if ( delta < delta0 ) zone->org_delta = delta; } else { if ( delta > delta0 ) zone->org_delta = delta; } goto Skip; } } for ( ; count > 0; count-- ) zone[count] = zone[count-1]; zone->org_ref = reference; zone->org_delta = delta; if ( top ) count_top++; else count_bot++; Skip: read += 2; } top_table->count = count_top; bot_table->count = count_bot; } /* Re-read blue zones from the original fonts and store them into our */ /* private structure. This function re-orders, sanitizes, and */ /* fuzz-expands the zones as well. */ static void psh_blues_set_zones( PSH_Blues target, FT_UInt count, FT_Short* blues, FT_UInt count_others, FT_Short* other_blues, FT_Int fuzz, FT_Int family ) { PSH_Blue_Table top_table, bot_table; FT_UInt count_top, count_bot; if ( family ) { top_table = &target->family_top; bot_table = &target->family_bottom; } else { top_table = &target->normal_top; bot_table = &target->normal_bottom; } /* read the input blue zones, and build two sorted tables */ /* (one for the top zones, the other for the bottom zones) */ top_table->count = 0; bot_table->count = 0; /* first, the blues */ psh_blues_set_zones_0( target, 0, count, blues, top_table, bot_table ); psh_blues_set_zones_0( target, 1, count_others, other_blues, top_table, bot_table ); count_top = top_table->count; count_bot = bot_table->count; /* sanitize top table */ if ( count_top > 0 ) { PSH_Blue_Zone zone = top_table->zones; for ( count = count_top; count > 0; count--, zone++ ) { FT_Int delta; if ( count > 1 ) { delta = zone[1].org_ref - zone[0].org_ref; if ( zone->org_delta > delta ) zone->org_delta = delta; } zone->org_bottom = zone->org_ref; zone->org_top = zone->org_delta + zone->org_ref; } } /* sanitize bottom table */ if ( count_bot > 0 ) { PSH_Blue_Zone zone = bot_table->zones; for ( count = count_bot; count > 0; count--, zone++ ) { FT_Int delta; if ( count > 1 ) { delta = zone[0].org_ref - zone[1].org_ref; if ( zone->org_delta < delta ) zone->org_delta = delta; } zone->org_top = zone->org_ref; zone->org_bottom = zone->org_delta + zone->org_ref; } } /* expand top and bottom tables with blue fuzz */ { FT_Int dim, top, bot, delta; PSH_Blue_Zone zone; zone = top_table->zones; count = count_top; for ( dim = 1; dim >= 0; dim-- ) { if ( count > 0 ) { /* expand the bottom of the lowest zone normally */ zone->org_bottom -= fuzz; /* expand the top and bottom of intermediate zones; */ /* checking that the interval is smaller than the fuzz */ top = zone->org_top; for ( count--; count > 0; count-- ) { bot = zone[1].org_bottom; delta = bot - top; if ( delta / 2 < fuzz ) zone[0].org_top = zone[1].org_bottom = top + delta / 2; else { zone[0].org_top = top + fuzz; zone[1].org_bottom = bot - fuzz; } zone++; top = zone->org_top; } /* expand the top of the highest zone normally */ zone->org_top = top + fuzz; } zone = bot_table->zones; count = count_bot; } } } /* reset the blues table when the device transform changes */ static void psh_blues_scale_zones( PSH_Blues blues, FT_Fixed scale, FT_Pos delta ) { FT_UInt count; FT_UInt num; PSH_Blue_Table table = NULL; /* */ /* Determine whether we need to suppress overshoots or */ /* not. We simply need to compare the vertical scale */ /* parameter to the raw bluescale value. Here is why: */ /* */ /* We need to suppress overshoots for all pointsizes. */ /* At 300dpi that satisfies: */ /* */ /* pointsize < 240*bluescale + 0.49 */ /* */ /* This corresponds to: */ /* */ /* pixelsize < 1000*bluescale + 49/24 */ /* */ /* scale*EM_Size < 1000*bluescale + 49/24 */ /* */ /* However, for normal Type 1 fonts, EM_Size is 1000! */ /* We thus only check: */ /* */ /* scale < bluescale + 49/24000 */ /* */ /* which we shorten to */ /* */ /* "scale < bluescale" */ /* */ /* Note that `blue_scale' is stored 1000 times its real */ /* value, and that `scale' converts from font units to */ /* fractional pixels. */ /* */ /* 1000 / 64 = 125 / 8 */ if ( scale >= 0x20C49BAL ) blues->no_overshoots = FT_BOOL( scale < blues->blue_scale * 8 / 125 ); else blues->no_overshoots = FT_BOOL( scale * 125 < blues->blue_scale * 8 ); /* */ /* The blue threshold is the font units distance under */ /* which overshoots are suppressed due to the BlueShift */ /* even if the scale is greater than BlueScale. */ /* */ /* It is the smallest distance such that */ /* */ /* dist <= BlueShift && dist*scale <= 0.5 pixels */ /* */ { FT_Int threshold = blues->blue_shift; while ( threshold > 0 && FT_MulFix( threshold, scale ) > 32 ) threshold--; blues->blue_threshold = threshold; } for ( num = 0; num < 4; num++ ) { PSH_Blue_Zone zone; switch ( num ) { case 0: table = &blues->normal_top; break; case 1: table = &blues->normal_bottom; break; case 2: table = &blues->family_top; break; default: table = &blues->family_bottom; break; } zone = table->zones; count = table->count; for ( ; count > 0; count--, zone++ ) { zone->cur_top = FT_MulFix( zone->org_top, scale ) + delta; zone->cur_bottom = FT_MulFix( zone->org_bottom, scale ) + delta; zone->cur_ref = FT_MulFix( zone->org_ref, scale ) + delta; zone->cur_delta = FT_MulFix( zone->org_delta, scale ); /* round scaled reference position */ zone->cur_ref = FT_PIX_ROUND( zone->cur_ref ); #if 0 if ( zone->cur_ref > zone->cur_top ) zone->cur_ref -= 64; else if ( zone->cur_ref < zone->cur_bottom ) zone->cur_ref += 64; #endif } } /* process the families now */ for ( num = 0; num < 2; num++ ) { PSH_Blue_Zone zone1, zone2; FT_UInt count1, count2; PSH_Blue_Table normal, family; switch ( num ) { case 0: normal = &blues->normal_top; family = &blues->family_top; break; default: normal = &blues->normal_bottom; family = &blues->family_bottom; } zone1 = normal->zones; count1 = normal->count; for ( ; count1 > 0; count1--, zone1++ ) { /* try to find a family zone whose reference position is less */ /* than 1 pixel far from the current zone */ zone2 = family->zones; count2 = family->count; for ( ; count2 > 0; count2--, zone2++ ) { FT_Pos Delta; Delta = zone1->org_ref - zone2->org_ref; if ( Delta < 0 ) Delta = -Delta; if ( FT_MulFix( Delta, scale ) < 64 ) { zone1->cur_top = zone2->cur_top; zone1->cur_bottom = zone2->cur_bottom; zone1->cur_ref = zone2->cur_ref; zone1->cur_delta = zone2->cur_delta; break; } } } } } /* calculate the maximum height of given blue zones */ static FT_Short psh_calc_max_height( FT_UInt num, const FT_Short* values, FT_Short cur_max ) { FT_UInt count; for ( count = 0; count < num; count += 2 ) { FT_Short cur_height = values[count + 1] - values[count]; if ( cur_height > cur_max ) cur_max = cur_height; } return cur_max; } FT_LOCAL_DEF( void ) psh_blues_snap_stem( PSH_Blues blues, FT_Int stem_top, FT_Int stem_bot, PSH_Alignment alignment ) { PSH_Blue_Table table; FT_UInt count; FT_Pos delta; PSH_Blue_Zone zone; FT_Int no_shoots; alignment->align = PSH_BLUE_ALIGN_NONE; no_shoots = blues->no_overshoots; /* look up stem top in top zones table */ table = &blues->normal_top; count = table->count; zone = table->zones; for ( ; count > 0; count--, zone++ ) { delta = SUB_LONG( stem_top, zone->org_bottom ); if ( delta < -blues->blue_fuzz ) break; if ( stem_top <= zone->org_top + blues->blue_fuzz ) { if ( no_shoots || delta <= blues->blue_threshold ) { alignment->align |= PSH_BLUE_ALIGN_TOP; alignment->align_top = zone->cur_ref; } break; } } /* look up stem bottom in bottom zones table */ table = &blues->normal_bottom; count = table->count; zone = table->zones + count-1; for ( ; count > 0; count--, zone-- ) { delta = SUB_LONG( zone->org_top, stem_bot ); if ( delta < -blues->blue_fuzz ) break; if ( stem_bot >= zone->org_bottom - blues->blue_fuzz ) { if ( no_shoots || delta < blues->blue_threshold ) { alignment->align |= PSH_BLUE_ALIGN_BOT; alignment->align_bot = zone->cur_ref; } break; } } } /*************************************************************************/ /*************************************************************************/ /***** *****/ /***** GLOBAL HINTS *****/ /***** *****/ /*************************************************************************/ /*************************************************************************/ static void psh_globals_destroy( PSH_Globals globals ) { if ( globals ) { FT_Memory memory; memory = globals->memory; globals->dimension[0].stdw.count = 0; globals->dimension[1].stdw.count = 0; globals->blues.normal_top.count = 0; globals->blues.normal_bottom.count = 0; globals->blues.family_top.count = 0; globals->blues.family_bottom.count = 0; FT_FREE( globals ); #ifdef DEBUG_HINTER ps_debug_globals = NULL; #endif } } static FT_Error psh_globals_new( FT_Memory memory, T1_Private* priv, PSH_Globals *aglobals ) { PSH_Globals globals = NULL; FT_Error error; if ( !FT_NEW( globals ) ) { FT_UInt count; FT_Short* read; globals->memory = memory; /* copy standard widths */ { PSH_Dimension dim = &globals->dimension[1]; PSH_Width write = dim->stdw.widths; write->org = priv->standard_width[0]; write++; read = priv->snap_widths; for ( count = priv->num_snap_widths; count > 0; count-- ) { write->org = *read; write++; read++; } dim->stdw.count = priv->num_snap_widths + 1; } /* copy standard heights */ { PSH_Dimension dim = &globals->dimension[0]; PSH_Width write = dim->stdw.widths; write->org = priv->standard_height[0]; write++; read = priv->snap_heights; for ( count = priv->num_snap_heights; count > 0; count-- ) { write->org = *read; write++; read++; } dim->stdw.count = priv->num_snap_heights + 1; } /* copy blue zones */ psh_blues_set_zones( &globals->blues, priv->num_blue_values, priv->blue_values, priv->num_other_blues, priv->other_blues, priv->blue_fuzz, 0 ); psh_blues_set_zones( &globals->blues, priv->num_family_blues, priv->family_blues, priv->num_family_other_blues, priv->family_other_blues, priv->blue_fuzz, 1 ); /* limit the BlueScale value to `1 / max_of_blue_zone_heights' */ { FT_Fixed max_scale; FT_Short max_height = 1; max_height = psh_calc_max_height( priv->num_blue_values, priv->blue_values, max_height ); max_height = psh_calc_max_height( priv->num_other_blues, priv->other_blues, max_height ); max_height = psh_calc_max_height( priv->num_family_blues, priv->family_blues, max_height ); max_height = psh_calc_max_height( priv->num_family_other_blues, priv->family_other_blues, max_height ); /* BlueScale is scaled 1000 times */ max_scale = FT_DivFix( 1000, max_height ); globals->blues.blue_scale = priv->blue_scale < max_scale ? priv->blue_scale : max_scale; } globals->blues.blue_shift = priv->blue_shift; globals->blues.blue_fuzz = priv->blue_fuzz; globals->dimension[0].scale_mult = 0; globals->dimension[0].scale_delta = 0; globals->dimension[1].scale_mult = 0; globals->dimension[1].scale_delta = 0; #ifdef DEBUG_HINTER ps_debug_globals = globals; #endif } *aglobals = globals; return error; } FT_LOCAL_DEF( void ) psh_globals_set_scale( PSH_Globals globals, FT_Fixed x_scale, FT_Fixed y_scale, FT_Fixed x_delta, FT_Fixed y_delta ) { PSH_Dimension dim; dim = &globals->dimension[0]; if ( x_scale != dim->scale_mult || x_delta != dim->scale_delta ) { dim->scale_mult = x_scale; dim->scale_delta = x_delta; psh_globals_scale_widths( globals, 0 ); } dim = &globals->dimension[1]; if ( y_scale != dim->scale_mult || y_delta != dim->scale_delta ) { dim->scale_mult = y_scale; dim->scale_delta = y_delta; psh_globals_scale_widths( globals, 1 ); psh_blues_scale_zones( &globals->blues, y_scale, y_delta ); } } FT_LOCAL_DEF( void ) psh_globals_funcs_init( PSH_Globals_FuncsRec* funcs ) { funcs->create = psh_globals_new; funcs->set_scale = psh_globals_set_scale; funcs->destroy = psh_globals_destroy; } /* END */