Hash :
e69f34b1
Author :
Date :
2016-07-19T07:06:19
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/***************************************************************************/
/* */
/* ttgxvar.c */
/* */
/* TrueType GX Font Variation loader */
/* */
/* Copyright 2004-2016 by */
/* David Turner, Robert Wilhelm, Werner Lemberg, and George Williams. */
/* */
/* 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. */
/* */
/***************************************************************************/
/*************************************************************************/
/* */
/* Apple documents the `fvar', `gvar', `cvar', and `avar' tables at */
/* */
/* https://developer.apple.com/fonts/TrueType-Reference-Manual/RM06/Chap6[fgca]var.html */
/* */
/* The documentation for `fvar' is inconsistent. At one point it says */
/* that `countSizePairs' should be 3, at another point 2. It should */
/* be 2. */
/* */
/* The documentation for `gvar' is not intelligible; `cvar' refers you */
/* to `gvar' and is thus also incomprehensible. */
/* */
/* The documentation for `avar' appears correct, but Apple has no fonts */
/* with an `avar' table, so it is hard to test. */
/* */
/* Many thanks to John Jenkins (at Apple) in figuring this out. */
/* */
/* */
/* Apple's `kern' table has some references to tuple indices, but as */
/* there is no indication where these indices are defined, nor how to */
/* interpolate the kerning values (different tuples have different */
/* classes) this issue is ignored. */
/* */
/*************************************************************************/
#include <ft2build.h>
#include FT_INTERNAL_DEBUG_H
#include FT_CONFIG_CONFIG_H
#include FT_INTERNAL_STREAM_H
#include FT_INTERNAL_SFNT_H
#include FT_TRUETYPE_TAGS_H
#include FT_MULTIPLE_MASTERS_H
#include "ttpload.h"
#include "ttgxvar.h"
#include "tterrors.h"
#ifdef TT_CONFIG_OPTION_GX_VAR_SUPPORT
#define FT_Stream_FTell( stream ) \
(FT_ULong)( (stream)->cursor - (stream)->base )
#define FT_Stream_SeekSet( stream, off ) \
( (stream)->cursor = (stream)->base + (off) )
/*************************************************************************/
/* */
/* The macro FT_COMPONENT is used in trace mode. It is an implicit */
/* parameter of the FT_TRACE() and FT_ERROR() macros, used to print/log */
/* messages during execution. */
/* */
#undef FT_COMPONENT
#define FT_COMPONENT trace_ttgxvar
/*************************************************************************/
/*************************************************************************/
/***** *****/
/***** Internal Routines *****/
/***** *****/
/*************************************************************************/
/*************************************************************************/
/*************************************************************************/
/* */
/* The macro ALL_POINTS is used in `ft_var_readpackedpoints'. It */
/* indicates that there is a delta for every point without needing to */
/* enumerate all of them. */
/* */
/* ensure that value `0' has the same width as a pointer */
#define ALL_POINTS (FT_UShort*)~(FT_PtrDist)0
#define GX_PT_POINTS_ARE_WORDS 0x80U
#define GX_PT_POINT_RUN_COUNT_MASK 0x7FU
/*************************************************************************/
/* */
/* <Function> */
/* ft_var_readpackedpoints */
/* */
/* <Description> */
/* Read a set of points to which the following deltas will apply. */
/* Points are packed with a run length encoding. */
/* */
/* <Input> */
/* stream :: The data stream. */
/* */
/* size :: The size of the table holding the data. */
/* */
/* <Output> */
/* point_cnt :: The number of points read. A zero value means that */
/* all points in the glyph will be affected, without */
/* enumerating them individually. */
/* */
/* <Return> */
/* An array of FT_UShort containing the affected points or the */
/* special value ALL_POINTS. */
/* */
static FT_UShort*
ft_var_readpackedpoints( FT_Stream stream,
FT_ULong size,
FT_UInt *point_cnt )
{
FT_UShort *points = NULL;
FT_UInt n;
FT_UInt runcnt;
FT_UInt i, j;
FT_UShort first;
FT_Memory memory = stream->memory;
FT_Error error = FT_Err_Ok;
FT_UNUSED( error );
*point_cnt = 0;
n = FT_GET_BYTE();
if ( n == 0 )
return ALL_POINTS;
if ( n & GX_PT_POINTS_ARE_WORDS )
{
n &= GX_PT_POINT_RUN_COUNT_MASK;
n <<= 8;
n |= FT_GET_BYTE();
}
if ( n > size )
{
FT_TRACE1(( "ft_var_readpackedpoints: number of points too large\n" ));
return NULL;
}
/* in the nested loops below we increase `i' twice; */
/* it is faster to simply allocate one more slot */
/* than to add another test within the loop */
if ( FT_NEW_ARRAY( points, n + 1 ) )
return NULL;
*point_cnt = n;
first = 0;
i = 0;
while ( i < n )
{
runcnt = FT_GET_BYTE();
if ( runcnt & GX_PT_POINTS_ARE_WORDS )
{
runcnt &= GX_PT_POINT_RUN_COUNT_MASK;
first += FT_GET_USHORT();
points[i++] = first;
/* first point not included in run count */
for ( j = 0; j < runcnt; j++ )
{
first += FT_GET_USHORT();
points[i++] = first;
if ( i == n )
break;
}
}
else
{
first += FT_GET_BYTE();
points[i++] = first;
for ( j = 0; j < runcnt; j++ )
{
first += FT_GET_BYTE();
points[i++] = first;
if ( i == n )
break;
}
}
}
return points;
}
#define GX_DT_DELTAS_ARE_ZERO 0x80U
#define GX_DT_DELTAS_ARE_WORDS 0x40U
#define GX_DT_DELTA_RUN_COUNT_MASK 0x3FU
/*************************************************************************/
/* */
/* <Function> */
/* ft_var_readpackeddeltas */
/* */
/* <Description> */
/* Read a set of deltas. These are packed slightly differently than */
/* points. In particular there is no overall count. */
/* */
/* <Input> */
/* stream :: The data stream. */
/* */
/* size :: The size of the table holding the data. */
/* */
/* delta_cnt :: The number of deltas to be read. */
/* */
/* <Return> */
/* An array of FT_Short containing the deltas for the affected */
/* points. (This only gets the deltas for one dimension. It will */
/* generally be called twice, once for x, once for y. When used in */
/* cvt table, it will only be called once.) */
/* */
static FT_Short*
ft_var_readpackeddeltas( FT_Stream stream,
FT_ULong size,
FT_UInt delta_cnt )
{
FT_Short *deltas = NULL;
FT_UInt runcnt, cnt;
FT_UInt i, j;
FT_Memory memory = stream->memory;
FT_Error error = FT_Err_Ok;
FT_UNUSED( error );
if ( delta_cnt > size )
{
FT_TRACE1(( "ft_var_readpackeddeltas: number of points too large\n" ));
return NULL;
}
if ( FT_NEW_ARRAY( deltas, delta_cnt ) )
return NULL;
i = 0;
while ( i < delta_cnt )
{
runcnt = FT_GET_BYTE();
cnt = runcnt & GX_DT_DELTA_RUN_COUNT_MASK;
if ( runcnt & GX_DT_DELTAS_ARE_ZERO )
{
/* `runcnt' zeroes get added */
for ( j = 0; j <= cnt && i < delta_cnt; j++ )
deltas[i++] = 0;
}
else if ( runcnt & GX_DT_DELTAS_ARE_WORDS )
{
/* `runcnt' shorts from the stack */
for ( j = 0; j <= cnt && i < delta_cnt; j++ )
deltas[i++] = FT_GET_SHORT();
}
else
{
/* `runcnt' signed bytes from the stack */
for ( j = 0; j <= cnt && i < delta_cnt; j++ )
deltas[i++] = FT_GET_CHAR();
}
if ( j <= cnt )
{
/* bad format */
FT_FREE( deltas );
return NULL;
}
}
return deltas;
}
/*************************************************************************/
/* */
/* <Function> */
/* ft_var_load_avar */
/* */
/* <Description> */
/* Parse the `avar' table if present. It need not be, so we return */
/* nothing. */
/* */
/* <InOut> */
/* face :: The font face. */
/* */
static void
ft_var_load_avar( TT_Face face )
{
FT_Stream stream = FT_FACE_STREAM( face );
FT_Memory memory = stream->memory;
GX_Blend blend = face->blend;
GX_AVarSegment segment;
FT_Error error = FT_Err_Ok;
FT_Long version;
FT_Long axisCount;
FT_Int i, j;
FT_ULong table_len;
FT_UNUSED( error );
FT_TRACE2(( "AVAR " ));
blend->avar_checked = TRUE;
error = face->goto_table( face, TTAG_avar, stream, &table_len );
if ( error )
{
FT_TRACE2(( "is missing\n" ));
return;
}
if ( FT_FRAME_ENTER( table_len ) )
return;
version = FT_GET_LONG();
axisCount = FT_GET_LONG();
if ( version != 0x00010000L )
{
FT_TRACE2(( "bad table version\n" ));
goto Exit;
}
FT_TRACE2(( "loaded\n" ));
if ( axisCount != (FT_Long)blend->mmvar->num_axis )
{
FT_TRACE2(( "ft_var_load_avar: number of axes in `avar' and `cvar'\n"
" table are different\n" ));
goto Exit;
}
if ( FT_NEW_ARRAY( blend->avar_segment, axisCount ) )
goto Exit;
segment = &blend->avar_segment[0];
for ( i = 0; i < axisCount; i++, segment++ )
{
FT_TRACE5(( " axis %d:\n", i ));
segment->pairCount = FT_GET_USHORT();
if ( (FT_ULong)segment->pairCount * 4 > table_len ||
FT_NEW_ARRAY( segment->correspondence, segment->pairCount ) )
{
/* Failure. Free everything we have done so far. We must do */
/* it right now since loading the `avar' table is optional. */
for ( j = i - 1; j >= 0; j-- )
FT_FREE( blend->avar_segment[j].correspondence );
FT_FREE( blend->avar_segment );
blend->avar_segment = NULL;
goto Exit;
}
for ( j = 0; j < segment->pairCount; j++ )
{
/* convert to Fixed */
segment->correspondence[j].fromCoord = FT_GET_SHORT() * 4;
segment->correspondence[j].toCoord = FT_GET_SHORT() * 4;
FT_TRACE5(( " mapping %.4f to %.4f\n",
segment->correspondence[j].fromCoord / 65536.0,
segment->correspondence[j].toCoord / 65536.0 ));
}
FT_TRACE5(( "\n" ));
}
Exit:
FT_FRAME_EXIT();
}
typedef struct GX_GVar_Head_
{
FT_Long version;
FT_UShort axisCount;
FT_UShort globalCoordCount;
FT_ULong offsetToCoord;
FT_UShort glyphCount;
FT_UShort flags;
FT_ULong offsetToData;
} GX_GVar_Head;
/*************************************************************************/
/* */
/* <Function> */
/* ft_var_load_gvar */
/* */
/* <Description> */
/* Parse the `gvar' table if present. If `fvar' is there, `gvar' had */
/* better be there too. */
/* */
/* <InOut> */
/* face :: The font face. */
/* */
/* <Return> */
/* FreeType error code. 0 means success. */
/* */
static FT_Error
ft_var_load_gvar( TT_Face face )
{
FT_Stream stream = FT_FACE_STREAM( face );
FT_Memory memory = stream->memory;
GX_Blend blend = face->blend;
FT_Error error;
FT_UInt i, j;
FT_ULong table_len;
FT_ULong gvar_start;
FT_ULong offsetToData;
GX_GVar_Head gvar_head;
static const FT_Frame_Field gvar_fields[] =
{
#undef FT_STRUCTURE
#define FT_STRUCTURE GX_GVar_Head
FT_FRAME_START( 20 ),
FT_FRAME_LONG ( version ),
FT_FRAME_USHORT( axisCount ),
FT_FRAME_USHORT( globalCoordCount ),
FT_FRAME_ULONG ( offsetToCoord ),
FT_FRAME_USHORT( glyphCount ),
FT_FRAME_USHORT( flags ),
FT_FRAME_ULONG ( offsetToData ),
FT_FRAME_END
};
FT_TRACE2(( "GVAR " ));
if ( ( error = face->goto_table( face,
TTAG_gvar,
stream,
&table_len ) ) != 0 )
{
FT_TRACE2(( "is missing\n" ));
goto Exit;
}
gvar_start = FT_STREAM_POS( );
if ( FT_STREAM_READ_FIELDS( gvar_fields, &gvar_head ) )
goto Exit;
if ( gvar_head.version != 0x00010000L )
{
FT_TRACE1(( "bad table version\n" ));
error = FT_THROW( Invalid_Table );
goto Exit;
}
if ( gvar_head.axisCount != (FT_UShort)blend->mmvar->num_axis )
{
FT_TRACE1(( "ft_var_load_gvar: number of axes in `gvar' and `cvar'\n"
" table are different\n" ));
error = FT_THROW( Invalid_Table );
goto Exit;
}
/* rough sanity check, ignoring offsets */
if ( (FT_ULong)gvar_head.globalCoordCount * gvar_head.axisCount >
table_len / 2 )
{
FT_TRACE1(( "ft_var_load_gvar:"
" invalid number of global coordinates\n" ));
error = FT_THROW( Invalid_Table );
goto Exit;
}
/* rough sanity check: offsets can be either 2 or 4 bytes, */
/* and a single variation needs at least 4 bytes per glyph */
if ( (FT_ULong)gvar_head.glyphCount *
( ( gvar_head.flags & 1 ) ? 8 : 6 ) > table_len )
{
FT_TRACE1(( "ft_var_load_gvar: invalid number of glyphs\n" ));
error = FT_THROW( Invalid_Table );
goto Exit;
}
FT_TRACE2(( "loaded\n" ));
blend->gvar_size = table_len;
blend->tuplecount = gvar_head.globalCoordCount;
blend->gv_glyphcnt = gvar_head.glyphCount;
offsetToData = gvar_start + gvar_head.offsetToData;
FT_TRACE5(( "gvar: there are %d shared coordinates:\n",
blend->tuplecount ));
if ( FT_NEW_ARRAY( blend->glyphoffsets, blend->gv_glyphcnt + 1 ) )
goto Exit;
if ( gvar_head.flags & 1 )
{
/* long offsets (one more offset than glyphs, to mark size of last) */
if ( FT_FRAME_ENTER( ( blend->gv_glyphcnt + 1 ) * 4L ) )
goto Exit;
for ( i = 0; i <= blend->gv_glyphcnt; i++ )
blend->glyphoffsets[i] = offsetToData + FT_GET_ULONG();
FT_FRAME_EXIT();
}
else
{
/* short offsets (one more offset than glyphs, to mark size of last) */
if ( FT_FRAME_ENTER( ( blend->gv_glyphcnt + 1 ) * 2L ) )
goto Exit;
for ( i = 0; i <= blend->gv_glyphcnt; i++ )
blend->glyphoffsets[i] = offsetToData + FT_GET_USHORT() * 2;
/* XXX: Undocumented: `*2'! */
FT_FRAME_EXIT();
}
if ( blend->tuplecount != 0 )
{
if ( FT_NEW_ARRAY( blend->tuplecoords,
gvar_head.axisCount * blend->tuplecount ) )
goto Exit;
if ( FT_STREAM_SEEK( gvar_start + gvar_head.offsetToCoord ) ||
FT_FRAME_ENTER( blend->tuplecount * gvar_head.axisCount * 2L ) )
goto Exit;
for ( i = 0; i < blend->tuplecount; i++ )
{
FT_TRACE5(( " [ " ));
for ( j = 0; j < (FT_UInt)gvar_head.axisCount; j++ )
{
blend->tuplecoords[i * gvar_head.axisCount + j] =
FT_GET_SHORT() * 4; /* convert to FT_Fixed */
FT_TRACE5(( "%.4f ",
blend->tuplecoords[i * gvar_head.axisCount + j] / 65536.0 ));
}
FT_TRACE5(( "]\n" ));
}
FT_TRACE5(( "\n" ));
FT_FRAME_EXIT();
}
Exit:
return error;
}
/*************************************************************************/
/* */
/* <Function> */
/* ft_var_apply_tuple */
/* */
/* <Description> */
/* Figure out whether a given tuple (design) applies to the current */
/* blend, and if so, what is the scaling factor. */
/* */
/* <Input> */
/* blend :: The current blend of the font. */
/* */
/* tupleIndex :: A flag saying whether this is an intermediate */
/* tuple or not. */
/* */
/* tuple_coords :: The coordinates of the tuple in normalized axis */
/* units. */
/* */
/* im_start_coords :: The initial coordinates where this tuple starts */
/* to apply (for intermediate coordinates). */
/* */
/* im_end_coords :: The final coordinates after which this tuple no */
/* longer applies (for intermediate coordinates). */
/* */
/* <Return> */
/* An FT_Fixed value containing the scaling factor. */
/* */
static FT_Fixed
ft_var_apply_tuple( GX_Blend blend,
FT_UShort tupleIndex,
FT_Fixed* tuple_coords,
FT_Fixed* im_start_coords,
FT_Fixed* im_end_coords )
{
FT_UInt i;
FT_Fixed apply = 0x10000L;
for ( i = 0; i < blend->num_axis; i++ )
{
FT_TRACE6(( " axis coordinate %d (%.4f):\n",
i, blend->normalizedcoords[i] / 65536.0 ));
if ( !( tupleIndex & GX_TI_INTERMEDIATE_TUPLE ) )
FT_TRACE6(( " intermediate coordinates %d (%.4f, %.4f):\n",
i,
im_start_coords[i] / 65536.0,
im_end_coords[i] / 65536.0 ));
/* It's not clear why (for intermediate tuples) we don't need */
/* to check against start/end -- the documentation says we don't. */
/* Similarly, it's unclear why we don't need to scale along the */
/* axis. */
if ( tuple_coords[i] == 0 )
{
FT_TRACE6(( " tuple coordinate is zero, ignored\n", i ));
continue;
}
if ( blend->normalizedcoords[i] == 0 )
{
FT_TRACE6(( " axis coordinate is zero, stop\n" ));
apply = 0;
break;
}
if ( blend->normalizedcoords[i] == tuple_coords[i] )
{
FT_TRACE6(( " tuple coordinate value %.4f fits perfectly\n",
tuple_coords[i] / 65536.0 ));
/* `apply' does not change */
continue;
}
if ( !( tupleIndex & GX_TI_INTERMEDIATE_TUPLE ) )
{
/* not an intermediate tuple */
if ( blend->normalizedcoords[i] < FT_MIN( 0, tuple_coords[i] ) ||
blend->normalizedcoords[i] > FT_MAX( 0, tuple_coords[i] ) )
{
FT_TRACE6(( " tuple coordinate value %.4f is exceeded, stop\n",
tuple_coords[i] / 65536.0 ));
apply = 0;
break;
}
FT_TRACE6(( " tuple coordinate value %.4f fits\n",
tuple_coords[i] / 65536.0 ));
apply = FT_MulDiv( apply,
blend->normalizedcoords[i],
tuple_coords[i] );
}
else
{
/* intermediate tuple */
if ( blend->normalizedcoords[i] < im_start_coords[i] ||
blend->normalizedcoords[i] > im_end_coords[i] )
{
FT_TRACE6(( " intermediate tuple range [%.4f;%.4f] is exceeded,"
" stop\n",
im_start_coords[i] / 65536.0,
im_end_coords[i] / 65536.0 ));
apply = 0;
break;
}
else if ( blend->normalizedcoords[i] < tuple_coords[i] )
{
FT_TRACE6(( " intermediate tuple range [%.4f;%.4f] fits\n",
im_start_coords[i] / 65536.0,
im_end_coords[i] / 65536.0 ));
apply = FT_MulDiv( apply,
blend->normalizedcoords[i] - im_start_coords[i],
tuple_coords[i] - im_start_coords[i] );
}
else
{
FT_TRACE6(( " intermediate tuple range [%.4f;%.4f] fits\n",
im_start_coords[i] / 65536.0,
im_end_coords[i] / 65536.0 ));
apply = FT_MulDiv( apply,
im_end_coords[i] - blend->normalizedcoords[i],
im_end_coords[i] - tuple_coords[i] );
}
}
}
FT_TRACE6(( " apply factor is %.4f\n", apply / 65536.0 ));
return apply;
}
/*************************************************************************/
/*************************************************************************/
/***** *****/
/***** MULTIPLE MASTERS SERVICE FUNCTIONS *****/
/***** *****/
/*************************************************************************/
/*************************************************************************/
typedef struct GX_FVar_Head_
{
FT_Long version;
FT_UShort offsetToData;
FT_UShort countSizePairs;
FT_UShort axisCount;
FT_UShort axisSize;
FT_UShort instanceCount;
FT_UShort instanceSize;
} GX_FVar_Head;
typedef struct fvar_axis_
{
FT_ULong axisTag;
FT_Fixed minValue;
FT_Fixed defaultValue;
FT_Fixed maxValue;
FT_UShort flags;
FT_UShort nameID;
} GX_FVar_Axis;
/*************************************************************************/
/* */
/* <Function> */
/* TT_Get_MM_Var */
/* */
/* <Description> */
/* Check that the font's `fvar' table is valid, parse it, and return */
/* those data. */
/* */
/* <InOut> */
/* face :: The font face. */
/* TT_Get_MM_Var initializes the blend structure. */
/* */
/* <Output> */
/* master :: The `fvar' data (must be freed by caller). Can be NULL, */
/* which makes this function simply load MM support. */
/* */
/* <Return> */
/* FreeType error code. 0 means success. */
/* */
FT_LOCAL_DEF( FT_Error )
TT_Get_MM_Var( TT_Face face,
FT_MM_Var* *master )
{
FT_Stream stream = face->root.stream;
FT_Memory memory = face->root.memory;
FT_ULong table_len;
FT_Error error = FT_Err_Ok;
FT_ULong fvar_start;
FT_Int i, j;
FT_MM_Var* mmvar = NULL;
FT_Fixed* next_coords;
FT_String* next_name;
FT_Var_Axis* a;
FT_Var_Named_Style* ns;
GX_FVar_Head fvar_head;
static const FT_Frame_Field fvar_fields[] =
{
#undef FT_STRUCTURE
#define FT_STRUCTURE GX_FVar_Head
FT_FRAME_START( 16 ),
FT_FRAME_LONG ( version ),
FT_FRAME_USHORT( offsetToData ),
FT_FRAME_USHORT( countSizePairs ),
FT_FRAME_USHORT( axisCount ),
FT_FRAME_USHORT( axisSize ),
FT_FRAME_USHORT( instanceCount ),
FT_FRAME_USHORT( instanceSize ),
FT_FRAME_END
};
static const FT_Frame_Field fvaraxis_fields[] =
{
#undef FT_STRUCTURE
#define FT_STRUCTURE GX_FVar_Axis
FT_FRAME_START( 20 ),
FT_FRAME_ULONG ( axisTag ),
FT_FRAME_LONG ( minValue ),
FT_FRAME_LONG ( defaultValue ),
FT_FRAME_LONG ( maxValue ),
FT_FRAME_USHORT( flags ),
FT_FRAME_USHORT( nameID ),
FT_FRAME_END
};
/* read the font data and set up the internal representation */
/* if not already done */
if ( face->blend == NULL )
{
FT_TRACE2(( "FVAR " ));
/* both `fvar' and `gvar' must be present */
if ( ( error = face->goto_table( face, TTAG_gvar,
stream, &table_len ) ) != 0 )
{
FT_TRACE1(( "\n"
"TT_Get_MM_Var: `gvar' table is missing\n" ));
goto Exit;
}
if ( ( error = face->goto_table( face, TTAG_fvar,
stream, &table_len ) ) != 0 )
{
FT_TRACE1(( "is missing\n" ));
goto Exit;
}
fvar_start = FT_STREAM_POS( );
if ( FT_STREAM_READ_FIELDS( fvar_fields, &fvar_head ) )
goto Exit;
if ( fvar_head.version != (FT_Long)0x00010000L ||
#if 0
/* fonts like `JamRegular.ttf' have an incorrect value for */
/* `countSizePairs'; since value 2 is hard-coded in `fvar' */
/* version 1.0, we simply ignore it */
fvar_head.countSizePairs != 2 ||
#endif
fvar_head.axisSize != 20 ||
/* axisCount limit implied by 16-bit instanceSize */
fvar_head.axisCount > 0x3FFE ||
fvar_head.instanceSize != 4 + 4 * fvar_head.axisCount ||
/* instanceCount limit implied by limited range of name IDs */
fvar_head.instanceCount > 0x7EFF ||
fvar_head.offsetToData + fvar_head.axisCount * 20U +
fvar_head.instanceCount * fvar_head.instanceSize > table_len )
{
FT_TRACE1(( "\n"
"TT_Get_MM_Var: invalid `fvar' header\n" ));
error = FT_THROW( Invalid_Table );
goto Exit;
}
FT_TRACE2(( "loaded\n" ));
FT_TRACE5(( "number of GX style axes: %d\n", fvar_head.axisCount ));
if ( FT_NEW( face->blend ) )
goto Exit;
/* cannot overflow 32-bit arithmetic because of limits above */
face->blend->mmvar_len =
sizeof ( FT_MM_Var ) +
fvar_head.axisCount * sizeof ( FT_Var_Axis ) +
fvar_head.instanceCount * sizeof ( FT_Var_Named_Style ) +
fvar_head.instanceCount * fvar_head.axisCount * sizeof ( FT_Fixed ) +
5 * fvar_head.axisCount;
if ( FT_ALLOC( mmvar, face->blend->mmvar_len ) )
goto Exit;
face->blend->mmvar = mmvar;
/* set up pointers and offsets into the `mmvar' array; */
/* the data gets filled in later on */
mmvar->num_axis =
fvar_head.axisCount;
mmvar->num_designs =
~0U; /* meaningless in this context; each glyph */
/* may have a different number of designs */
/* (or tuples, as called by Apple) */
mmvar->num_namedstyles =
fvar_head.instanceCount;
mmvar->axis =
(FT_Var_Axis*)&( mmvar[1] );
mmvar->namedstyle =
(FT_Var_Named_Style*)&( mmvar->axis[fvar_head.axisCount] );
next_coords =
(FT_Fixed*)&( mmvar->namedstyle[fvar_head.instanceCount] );
for ( i = 0; i < fvar_head.instanceCount; i++ )
{
mmvar->namedstyle[i].coords = next_coords;
next_coords += fvar_head.axisCount;
}
next_name = (FT_String*)next_coords;
for ( i = 0; i < fvar_head.axisCount; i++ )
{
mmvar->axis[i].name = next_name;
next_name += 5;
}
/* now fill in the data */
if ( FT_STREAM_SEEK( fvar_start + fvar_head.offsetToData ) )
goto Exit;
a = mmvar->axis;
for ( i = 0; i < fvar_head.axisCount; i++ )
{
GX_FVar_Axis axis_rec;
if ( FT_STREAM_READ_FIELDS( fvaraxis_fields, &axis_rec ) )
goto Exit;
a->tag = axis_rec.axisTag;
a->minimum = axis_rec.minValue;
a->def = axis_rec.defaultValue;
a->maximum = axis_rec.maxValue;
a->strid = axis_rec.nameID;
a->name[0] = (FT_String)( a->tag >> 24 );
a->name[1] = (FT_String)( ( a->tag >> 16 ) & 0xFF );
a->name[2] = (FT_String)( ( a->tag >> 8 ) & 0xFF );
a->name[3] = (FT_String)( ( a->tag ) & 0xFF );
a->name[4] = '\0';
FT_TRACE5(( " \"%s\": minimum=%.4f, default=%.4f, maximum=%.4f\n",
a->name,
a->minimum / 65536.0,
a->def / 65536.0,
a->maximum / 65536.0 ));
a++;
}
FT_TRACE5(( "\n" ));
ns = mmvar->namedstyle;
for ( i = 0; i < fvar_head.instanceCount; i++, ns++ )
{
if ( FT_FRAME_ENTER( 4L + 4L * fvar_head.axisCount ) )
goto Exit;
ns->strid = FT_GET_USHORT();
(void) /* flags = */ FT_GET_USHORT();
for ( j = 0; j < fvar_head.axisCount; j++ )
ns->coords[j] = FT_GET_LONG();
FT_FRAME_EXIT();
}
}
/* fill the output array if requested */
if ( master != NULL )
{
FT_UInt n;
if ( FT_ALLOC( mmvar, face->blend->mmvar_len ) )
goto Exit;
FT_MEM_COPY( mmvar, face->blend->mmvar, face->blend->mmvar_len );
mmvar->axis =
(FT_Var_Axis*)&( mmvar[1] );
mmvar->namedstyle =
(FT_Var_Named_Style*)&( mmvar->axis[mmvar->num_axis] );
next_coords =
(FT_Fixed*)&( mmvar->namedstyle[mmvar->num_namedstyles] );
for ( n = 0; n < mmvar->num_namedstyles; n++ )
{
mmvar->namedstyle[n].coords = next_coords;
next_coords += mmvar->num_axis;
}
a = mmvar->axis;
next_name = (FT_String*)next_coords;
for ( n = 0; n < mmvar->num_axis; n++ )
{
a->name = next_name;
/* standard PostScript names for some standard apple tags */
if ( a->tag == TTAG_wght )
a->name = (char*)"Weight";
else if ( a->tag == TTAG_wdth )
a->name = (char*)"Width";
else if ( a->tag == TTAG_opsz )
a->name = (char*)"OpticalSize";
else if ( a->tag == TTAG_slnt )
a->name = (char*)"Slant";
next_name += 5;
a++;
}
*master = mmvar;
}
Exit:
return error;
}
/*************************************************************************/
/* */
/* <Function> */
/* TT_Set_MM_Blend */
/* */
/* <Description> */
/* Set the blend (normalized) coordinates for this instance of the */
/* font. Check that the `gvar' table is reasonable and does some */
/* initial preparation. */
/* */
/* <InOut> */
/* face :: The font. */
/* Initialize the blend structure with `gvar' data. */
/* */
/* <Input> */
/* num_coords :: The number of available coordinates. If it is */
/* larger than the number of axes, ignore the excess */
/* values. If it is smaller than the number of axes, */
/* use the default value (0) for the remaining axes. */
/* */
/* coords :: An array of `num_coords', each between [-1,1]. */
/* */
/* <Return> */
/* FreeType error code. 0 means success. */
/* */
FT_LOCAL_DEF( FT_Error )
TT_Set_MM_Blend( TT_Face face,
FT_UInt num_coords,
FT_Fixed* coords )
{
FT_Error error = FT_Err_Ok;
GX_Blend blend;
FT_MM_Var* mmvar;
FT_UInt i;
FT_Memory memory = face->root.memory;
enum
{
mcvt_retain,
mcvt_modify,
mcvt_load
} manageCvt;
face->doblend = FALSE;
if ( face->blend == NULL )
{
if ( ( error = TT_Get_MM_Var( face, NULL ) ) != 0 )
goto Exit;
}
blend = face->blend;
mmvar = blend->mmvar;
if ( num_coords > mmvar->num_axis )
{
FT_TRACE2(( "TT_Set_MM_Blend: only using first %d of %d coordinates\n",
mmvar->num_axis, num_coords ));
num_coords = mmvar->num_axis;
}
FT_TRACE5(( "normalized design coordinates:\n" ));
for ( i = 0; i < num_coords; i++ )
{
FT_TRACE5(( " %.4f\n", coords[i] / 65536.0 ));
if ( coords[i] < -0x00010000L || coords[i] > 0x00010000L )
{
FT_TRACE1(( "TT_Set_MM_Blend: normalized design coordinate %.4f\n"
" is out of range [-1;1]\n",
coords[i] / 65536.0 ));
error = FT_THROW( Invalid_Argument );
goto Exit;
}
}
FT_TRACE5(( "\n" ));
if ( blend->glyphoffsets == NULL )
if ( ( error = ft_var_load_gvar( face ) ) != 0 )
goto Exit;
if ( blend->normalizedcoords == NULL )
{
if ( FT_NEW_ARRAY( blend->normalizedcoords, mmvar->num_axis ) )
goto Exit;
manageCvt = mcvt_modify;
/* If we have not set the blend coordinates before this, then the */
/* cvt table will still be what we read from the `cvt ' table and */
/* we don't need to reload it. We may need to change it though... */
}
else
{
manageCvt = mcvt_retain;
for ( i = 0; i < num_coords; i++ )
{
if ( blend->normalizedcoords[i] != coords[i] )
{
manageCvt = mcvt_load;
break;
}
}
for ( ; i < mmvar->num_axis; i++ )
{
if ( blend->normalizedcoords[i] != 0 )
{
manageCvt = mcvt_load;
break;
}
}
/* If we don't change the blend coords then we don't need to do */
/* anything to the cvt table. It will be correct. Otherwise we */
/* no longer have the original cvt (it was modified when we set */
/* the blend last time), so we must reload and then modify it. */
}
blend->num_axis = mmvar->num_axis;
FT_MEM_COPY( blend->normalizedcoords,
coords,
num_coords * sizeof ( FT_Fixed ) );
face->doblend = TRUE;
if ( face->cvt != NULL )
{
switch ( manageCvt )
{
case mcvt_load:
/* The cvt table has been loaded already; every time we change the */
/* blend we may need to reload and remodify the cvt table. */
FT_FREE( face->cvt );
face->cvt = NULL;
error = tt_face_load_cvt( face, face->root.stream );
break;
case mcvt_modify:
/* The original cvt table is in memory. All we need to do is */
/* apply the `cvar' table (if any). */
error = tt_face_vary_cvt( face, face->root.stream );
break;
case mcvt_retain:
/* The cvt table is correct for this set of coordinates. */
break;
}
}
Exit:
return error;
}
/*************************************************************************/
/* */
/* <Function> */
/* TT_Set_Var_Design */
/* */
/* <Description> */
/* Set the coordinates for the instance, measured in the user */
/* coordinate system. Parse the `avar' table (if present) to convert */
/* from user to normalized coordinates. */
/* */
/* <InOut> */
/* face :: The font face. */
/* Initialize the blend struct with `gvar' data. */
/* */
/* <Input> */
/* num_coords :: The number of available coordinates. If it is */
/* larger than the number of axes, ignore the excess */
/* values. If it is smaller than the number of axes, */
/* use the default values for the remaining axes. */
/* */
/* coords :: A coordinate array with `num_coords' elements. */
/* */
/* <Return> */
/* FreeType error code. 0 means success. */
/* */
FT_LOCAL_DEF( FT_Error )
TT_Set_Var_Design( TT_Face face,
FT_UInt num_coords,
FT_Fixed* coords )
{
FT_Error error = FT_Err_Ok;
FT_Fixed* normalized = NULL;
GX_Blend blend;
FT_MM_Var* mmvar;
FT_UInt i, j;
FT_Var_Axis* a;
GX_AVarSegment av;
FT_Memory memory = face->root.memory;
if ( face->blend == NULL )
{
if ( ( error = TT_Get_MM_Var( face, NULL ) ) != 0 )
goto Exit;
}
blend = face->blend;
mmvar = blend->mmvar;
if ( num_coords > mmvar->num_axis )
{
FT_TRACE2(( "TT_Set_Var_Design:"
" only using first %d of %d coordinates\n",
mmvar->num_axis, num_coords ));
num_coords = mmvar->num_axis;
}
/* Axis normalization is a two stage process. First we normalize */
/* based on the [min,def,max] values for the axis to be [-1,0,1]. */
/* Then, if there's an `avar' table, we renormalize this range. */
if ( FT_NEW_ARRAY( normalized, mmvar->num_axis ) )
goto Exit;
FT_TRACE5(( "design coordinates:\n" ));
a = mmvar->axis;
for ( i = 0; i < num_coords; i++, a++ )
{
FT_TRACE5(( " %.4f\n", coords[i] / 65536.0 ));
if ( coords[i] > a->maximum || coords[i] < a->minimum )
{
FT_TRACE1(( "TT_Set_Var_Design: normalized design coordinate %.4f\n"
" is out of range [%.4f;%.4f]\n",
coords[i] / 65536.0,
a->minimum / 65536.0,
a->maximum / 65536.0 ));
error = FT_THROW( Invalid_Argument );
goto Exit;
}
if ( coords[i] < a->def )
normalized[i] = -FT_DivFix( coords[i] - a->def,
a->minimum - a->def );
else if ( a->maximum == a->def )
normalized[i] = 0;
else
normalized[i] = FT_DivFix( coords[i] - a->def,
a->maximum - a->def );
}
FT_TRACE5(( "\n" ));
for ( ; i < mmvar->num_axis; i++ )
normalized[i] = 0;
if ( !blend->avar_checked )
ft_var_load_avar( face );
if ( blend->avar_segment != NULL )
{
FT_TRACE5(( "normalized design coordinates"
" before applying `avar' data:\n" ));
av = blend->avar_segment;
for ( i = 0; i < mmvar->num_axis; i++, av++ )
{
for ( j = 1; j < (FT_UInt)av->pairCount; j++ )
{
FT_TRACE5(( " %.4f\n", normalized[i] / 65536.0 ));
if ( normalized[i] < av->correspondence[j].fromCoord )
{
normalized[i] =
FT_MulDiv( normalized[i] - av->correspondence[j - 1].fromCoord,
av->correspondence[j].toCoord -
av->correspondence[j - 1].toCoord,
av->correspondence[j].fromCoord -
av->correspondence[j - 1].fromCoord ) +
av->correspondence[j - 1].toCoord;
break;
}
}
}
}
error = TT_Set_MM_Blend( face, mmvar->num_axis, normalized );
Exit:
FT_FREE( normalized );
return error;
}
/*************************************************************************/
/*************************************************************************/
/***** *****/
/***** GX VAR PARSING ROUTINES *****/
/***** *****/
/*************************************************************************/
/*************************************************************************/
/*************************************************************************/
/* */
/* <Function> */
/* tt_face_vary_cvt */
/* */
/* <Description> */
/* Modify the loaded cvt table according to the `cvar' table and the */
/* font's blend. */
/* */
/* <InOut> */
/* face :: A handle to the target face object. */
/* */
/* <Input> */
/* stream :: A handle to the input stream. */
/* */
/* <Return> */
/* FreeType error code. 0 means success. */
/* */
/* Most errors are ignored. It is perfectly valid not to have a */
/* `cvar' table even if there is a `gvar' and `fvar' table. */
/* */
FT_LOCAL_DEF( FT_Error )
tt_face_vary_cvt( TT_Face face,
FT_Stream stream )
{
FT_Error error;
FT_Memory memory = stream->memory;
FT_ULong table_start;
FT_ULong table_len;
FT_UInt tupleCount;
FT_ULong offsetToData;
FT_ULong here;
FT_UInt i, j;
FT_Fixed* tuple_coords = NULL;
FT_Fixed* im_start_coords = NULL;
FT_Fixed* im_end_coords = NULL;
GX_Blend blend = face->blend;
FT_UInt point_count;
FT_UShort* localpoints;
FT_Short* deltas;
FT_TRACE2(( "CVAR " ));
if ( blend == NULL )
{
FT_TRACE2(( "\n"
"tt_face_vary_cvt: no blend specified\n" ));
error = FT_Err_Ok;
goto Exit;
}
if ( face->cvt == NULL )
{
FT_TRACE2(( "\n"
"tt_face_vary_cvt: no `cvt ' table\n" ));
error = FT_Err_Ok;
goto Exit;
}
error = face->goto_table( face, TTAG_cvar, stream, &table_len );
if ( error )
{
FT_TRACE2(( "is missing\n" ));
error = FT_Err_Ok;
goto Exit;
}
if ( FT_FRAME_ENTER( table_len ) )
{
error = FT_Err_Ok;
goto Exit;
}
table_start = FT_Stream_FTell( stream );
if ( FT_GET_LONG() != 0x00010000L )
{
FT_TRACE2(( "bad table version\n" ));
error = FT_Err_Ok;
goto FExit;
}
FT_TRACE2(( "loaded\n" ));
if ( FT_NEW_ARRAY( tuple_coords, blend->num_axis ) ||
FT_NEW_ARRAY( im_start_coords, blend->num_axis ) ||
FT_NEW_ARRAY( im_end_coords, blend->num_axis ) )
goto FExit;
tupleCount = FT_GET_USHORT();
offsetToData = FT_GET_USHORT();
/* rough sanity test */
if ( offsetToData + tupleCount * 4 > table_len )
{
FT_TRACE2(( "tt_face_vary_cvt:"
" invalid CVT variation array header\n" ));
error = FT_THROW( Invalid_Table );
goto FExit;
}
offsetToData += table_start;
/* The documentation implies there are flags packed into */
/* `tupleCount', but John Jenkins says that shared points don't apply */
/* to `cvar', and no other flags are defined. */
FT_TRACE5(( "cvar: there are %d tuples:\n", tupleCount & 0xFFF ));
for ( i = 0; i < ( tupleCount & 0xFFF ); i++ )
{
FT_UInt tupleDataSize;
FT_UInt tupleIndex;
FT_Fixed apply;
FT_TRACE6(( " tuple %d:\n", i ));
tupleDataSize = FT_GET_USHORT();
tupleIndex = FT_GET_USHORT();
/* There is no provision here for a global tuple coordinate section, */
/* so John says. There are no tuple indices, just embedded tuples. */
if ( tupleIndex & GX_TI_EMBEDDED_TUPLE_COORD )
{
for ( j = 0; j < blend->num_axis; j++ )
tuple_coords[j] = FT_GET_SHORT() * 4; /* convert from */
/* short frac to fixed */
}
else
{
/* skip this tuple; it makes no sense */
if ( tupleIndex & GX_TI_INTERMEDIATE_TUPLE )
for ( j = 0; j < 2 * blend->num_axis; j++ )
(void)FT_GET_SHORT();
offsetToData += tupleDataSize;
continue;
}
if ( tupleIndex & GX_TI_INTERMEDIATE_TUPLE )
{
for ( j = 0; j < blend->num_axis; j++ )
im_start_coords[j] = FT_GET_SHORT() * 4;
for ( j = 0; j < blend->num_axis; j++ )
im_end_coords[j] = FT_GET_SHORT() * 4;
}
apply = ft_var_apply_tuple( blend,
(FT_UShort)tupleIndex,
tuple_coords,
im_start_coords,
im_end_coords );
if ( /* tuple isn't active for our blend */
apply == 0 ||
/* global points not allowed, */
/* if they aren't local, makes no sense */
!( tupleIndex & GX_TI_PRIVATE_POINT_NUMBERS ) )
{
offsetToData += tupleDataSize;
continue;
}
here = FT_Stream_FTell( stream );
FT_Stream_SeekSet( stream, offsetToData );
localpoints = ft_var_readpackedpoints( stream,
table_len,
&point_count );
deltas = ft_var_readpackeddeltas( stream,
table_len,
point_count == 0 ? face->cvt_size
: point_count );
if ( localpoints == NULL || deltas == NULL )
; /* failure, ignore it */
else if ( localpoints == ALL_POINTS )
{
#ifdef FT_DEBUG_LEVEL_TRACE
int count = 0;
#endif
FT_TRACE7(( " CVT deltas:\n" ));
/* this means that there are deltas for every entry in cvt */
for ( j = 0; j < face->cvt_size; j++ )
{
FT_Long orig_cvt = face->cvt[j];
face->cvt[j] = (FT_Short)( orig_cvt +
FT_MulFix( deltas[j], apply ) );
#ifdef FT_DEBUG_LEVEL_TRACE
if ( orig_cvt != face->cvt[j] )
{
FT_TRACE7(( " %d: %d -> %d\n",
j, orig_cvt, face->cvt[j] ));
count++;
}
#endif
}
#ifdef FT_DEBUG_LEVEL_TRACE
if ( !count )
FT_TRACE7(( " none\n" ));
#endif
}
else
{
#ifdef FT_DEBUG_LEVEL_TRACE
int count = 0;
#endif
FT_TRACE7(( " CVT deltas:\n" ));
for ( j = 0; j < point_count; j++ )
{
int pindex = localpoints[j];
FT_Long orig_cvt = face->cvt[pindex];
face->cvt[pindex] = (FT_Short)( orig_cvt +
FT_MulFix( deltas[j], apply ) );
#ifdef FT_DEBUG_LEVEL_TRACE
if ( orig_cvt != face->cvt[pindex] )
{
FT_TRACE7(( " %d: %d -> %d\n",
pindex, orig_cvt, face->cvt[pindex] ));
count++;
}
#endif
}
#ifdef FT_DEBUG_LEVEL_TRACE
if ( !count )
FT_TRACE7(( " none\n" ));
#endif
}
if ( localpoints != ALL_POINTS )
FT_FREE( localpoints );
FT_FREE( deltas );
offsetToData += tupleDataSize;
FT_Stream_SeekSet( stream, here );
}
FT_TRACE5(( "\n" ));
FExit:
FT_FRAME_EXIT();
Exit:
FT_FREE( tuple_coords );
FT_FREE( im_start_coords );
FT_FREE( im_end_coords );
return error;
}
/* Shift the original coordinates of all points between indices `p1' */
/* and `p2', using the same difference as given by index `ref'. */
/* modeled after `af_iup_shift' */
static void
tt_delta_shift( int p1,
int p2,
int ref,
FT_Vector* in_points,
FT_Vector* out_points )
{
int p;
FT_Vector delta;
delta.x = out_points[ref].x - in_points[ref].x;
delta.y = out_points[ref].y - in_points[ref].y;
if ( delta.x == 0 && delta.y == 0 )
return;
for ( p = p1; p < ref; p++ )
{
out_points[p].x += delta.x;
out_points[p].y += delta.y;
}
for ( p = ref + 1; p <= p2; p++ )
{
out_points[p].x += delta.x;
out_points[p].y += delta.y;
}
}
/* Interpolate the original coordinates of all points with indices */
/* between `p1' and `p2', using `ref1' and `ref2' as the reference */
/* point indices. */
/* modeled after `af_iup_interp', `_iup_worker_interpolate', and */
/* `Ins_IUP' */
static void
tt_delta_interpolate( int p1,
int p2,
int ref1,
int ref2,
FT_Vector* in_points,
FT_Vector* out_points )
{
int p, i;
FT_Pos out, in1, in2, out1, out2, d1, d2;
if ( p1 > p2 )
return;
/* handle both horizontal and vertical coordinates */
for ( i = 0; i <= 1; i++ )
{
/* shift array pointers so that we can access `foo.y' as `foo.x' */
in_points = (FT_Vector*)( (FT_Pos*)in_points + i );
out_points = (FT_Vector*)( (FT_Pos*)out_points + i );
if ( in_points[ref1].x > in_points[ref2].x )
{
p = ref1;
ref1 = ref2;
ref2 = p;
}
in1 = in_points[ref1].x;
in2 = in_points[ref2].x;
out1 = out_points[ref1].x;
out2 = out_points[ref2].x;
d1 = out1 - in1;
d2 = out2 - in2;
if ( out1 == out2 || in1 == in2 )
{
for ( p = p1; p <= p2; p++ )
{
out = in_points[p].x;
if ( out <= in1 )
out += d1;
else if ( out >= in2 )
out += d2;
else
out = out1;
out_points[p].x = out;
}
}
else
{
FT_Fixed scale = FT_DivFix( out2 - out1, in2 - in1 );
for ( p = p1; p <= p2; p++ )
{
out = in_points[p].x;
if ( out <= in1 )
out += d1;
else if ( out >= in2 )
out += d2;
else
out = out1 + FT_MulFix( out - in1, scale );
out_points[p].x = out;
}
}
}
}
/* Interpolate points without delta values, similar to */
/* the `IUP' hinting instruction. */
/* modeled after `Ins_IUP */
static void
tt_interpolate_deltas( FT_Outline* outline,
FT_Vector* out_points,
FT_Vector* in_points,
FT_Bool* has_delta )
{
FT_Int first_point;
FT_Int end_point;
FT_Int first_delta;
FT_Int cur_delta;
FT_Int point;
FT_Short contour;
/* ignore empty outlines */
if ( !outline->n_contours )
return;
contour = 0;
point = 0;
do
{
end_point = outline->contours[contour];
first_point = point;
/* search first point that has a delta */
while ( point <= end_point && !has_delta[point] )
point++;
if ( point <= end_point )
{
first_delta = point;
cur_delta = point;
point++;
while ( point <= end_point )
{
/* search next point that has a delta */
/* and interpolate intermediate points */
if ( has_delta[point] )
{
tt_delta_interpolate( cur_delta + 1,
point - 1,
cur_delta,
point,
in_points,
out_points );
cur_delta = point;
}
point++;
}
/* shift contour if we only have a single delta */
if ( cur_delta == first_delta )
tt_delta_shift( first_point,
end_point,
cur_delta,
in_points,
out_points );
else
{
/* otherwise handle remaining points */
/* at the end and beginning of the contour */
tt_delta_interpolate( cur_delta + 1,
end_point,
cur_delta,
first_delta,
in_points,
out_points );
if ( first_delta > 0 )
tt_delta_interpolate( first_point,
first_delta - 1,
cur_delta,
first_delta,
in_points,
out_points );
}
}
contour++;
} while ( contour < outline->n_contours );
}
/*************************************************************************/
/* */
/* <Function> */
/* TT_Vary_Apply_Glyph_Deltas */
/* */
/* <Description> */
/* Apply the appropriate deltas to the current glyph. */
/* */
/* <Input> */
/* face :: A handle to the target face object. */
/* */
/* glyph_index :: The index of the glyph being modified. */
/* */
/* n_points :: The number of the points in the glyph, including */
/* phantom points. */
/* */
/* <InOut> */
/* outline :: The outline to change. */
/* */
/* <Return> */
/* FreeType error code. 0 means success. */
/* */
FT_LOCAL_DEF( FT_Error )
TT_Vary_Apply_Glyph_Deltas( TT_Face face,
FT_UInt glyph_index,
FT_Outline* outline,
FT_UInt n_points )
{
FT_Stream stream = face->root.stream;
FT_Memory memory = stream->memory;
GX_Blend blend = face->blend;
FT_Vector* points_org = NULL;
FT_Vector* points_out = NULL;
FT_Bool* has_delta = NULL;
FT_Error error;
FT_ULong glyph_start;
FT_UInt tupleCount;
FT_ULong offsetToData;
FT_ULong here;
FT_UInt i, j;
FT_Fixed* tuple_coords = NULL;
FT_Fixed* im_start_coords = NULL;
FT_Fixed* im_end_coords = NULL;
FT_UInt point_count, spoint_count = 0;
FT_UShort* sharedpoints = NULL;
FT_UShort* localpoints = NULL;
FT_UShort* points;
FT_Short *deltas_x, *deltas_y;
if ( !face->doblend || blend == NULL )
return FT_THROW( Invalid_Argument );
if ( glyph_index >= blend->gv_glyphcnt ||
blend->glyphoffsets[glyph_index] ==
blend->glyphoffsets[glyph_index + 1] )
{
FT_TRACE2(( "TT_Vary_Apply_Glyph_Deltas:"
" no variation data for this glyph\n" ));
return FT_Err_Ok;
}
if ( FT_NEW_ARRAY( points_org, n_points ) ||
FT_NEW_ARRAY( points_out, n_points ) ||
FT_NEW_ARRAY( has_delta, n_points ) )
goto Fail1;
if ( FT_STREAM_SEEK( blend->glyphoffsets[glyph_index] ) ||
FT_FRAME_ENTER( blend->glyphoffsets[glyph_index + 1] -
blend->glyphoffsets[glyph_index] ) )
goto Fail1;
glyph_start = FT_Stream_FTell( stream );
/* each set of glyph variation data is formatted similarly to `cvar' */
/* (except we get shared points and global tuples) */
if ( FT_NEW_ARRAY( tuple_coords, blend->num_axis ) ||
FT_NEW_ARRAY( im_start_coords, blend->num_axis ) ||
FT_NEW_ARRAY( im_end_coords, blend->num_axis ) )
goto Fail2;
tupleCount = FT_GET_USHORT();
offsetToData = FT_GET_USHORT();
/* rough sanity test */
if ( offsetToData + tupleCount * 4 > blend->gvar_size )
{
FT_TRACE2(( "TT_Vary_Apply_Glyph_Deltas:"
" invalid glyph variation array header\n" ));
error = FT_THROW( Invalid_Table );
goto Fail2;
}
offsetToData += glyph_start;
if ( tupleCount & GX_TC_TUPLES_SHARE_POINT_NUMBERS )
{
here = FT_Stream_FTell( stream );
FT_Stream_SeekSet( stream, offsetToData );
sharedpoints = ft_var_readpackedpoints( stream,
blend->gvar_size,
&spoint_count );
offsetToData = FT_Stream_FTell( stream );
FT_Stream_SeekSet( stream, here );
}
FT_TRACE5(( "gvar: there are %d tuples:\n",
tupleCount & GX_TC_TUPLE_COUNT_MASK ));
for ( j = 0; j < n_points; j++ )
points_org[j] = outline->points[j];
for ( i = 0; i < ( tupleCount & GX_TC_TUPLE_COUNT_MASK ); i++ )
{
FT_UInt tupleDataSize;
FT_UInt tupleIndex;
FT_Fixed apply;
FT_TRACE6(( " tuple %d:\n", i ));
tupleDataSize = FT_GET_USHORT();
tupleIndex = FT_GET_USHORT();
if ( tupleIndex & GX_TI_EMBEDDED_TUPLE_COORD )
{
for ( j = 0; j < blend->num_axis; j++ )
tuple_coords[j] = FT_GET_SHORT() * 4; /* convert from */
/* short frac to fixed */
}
else if ( ( tupleIndex & GX_TI_TUPLE_INDEX_MASK ) >= blend->tuplecount )
{
FT_TRACE2(( "TT_Vary_Apply_Glyph_Deltas:"
" invalid tuple index\n" ));
error = FT_THROW( Invalid_Table );
goto Fail2;
}
else
FT_MEM_COPY(
tuple_coords,
&blend->tuplecoords[( tupleIndex & 0xFFF ) * blend->num_axis],
blend->num_axis * sizeof ( FT_Fixed ) );
if ( tupleIndex & GX_TI_INTERMEDIATE_TUPLE )
{
for ( j = 0; j < blend->num_axis; j++ )
im_start_coords[j] = FT_GET_SHORT() * 4;
for ( j = 0; j < blend->num_axis; j++ )
im_end_coords[j] = FT_GET_SHORT() * 4;
}
apply = ft_var_apply_tuple( blend,
(FT_UShort)tupleIndex,
tuple_coords,
im_start_coords,
im_end_coords );
if ( apply == 0 ) /* tuple isn't active for our blend */
{
offsetToData += tupleDataSize;
continue;
}
here = FT_Stream_FTell( stream );
if ( tupleIndex & GX_TI_PRIVATE_POINT_NUMBERS )
{
FT_Stream_SeekSet( stream, offsetToData );
localpoints = ft_var_readpackedpoints( stream,
blend->gvar_size,
&point_count );
points = localpoints;
}
else
{
points = sharedpoints;
point_count = spoint_count;
}
deltas_x = ft_var_readpackeddeltas( stream,
blend->gvar_size,
point_count == 0 ? n_points
: point_count );
deltas_y = ft_var_readpackeddeltas( stream,
blend->gvar_size,
point_count == 0 ? n_points
: point_count );
if ( points == NULL || deltas_y == NULL || deltas_x == NULL )
; /* failure, ignore it */
else if ( points == ALL_POINTS )
{
#ifdef FT_DEBUG_LEVEL_TRACE
int count = 0;
#endif
FT_TRACE7(( " point deltas:\n" ));
/* this means that there are deltas for every point in the glyph */
for ( j = 0; j < n_points; j++ )
{
FT_Pos delta_x = FT_MulFix( deltas_x[j], apply );
FT_Pos delta_y = FT_MulFix( deltas_y[j], apply );
outline->points[j].x += delta_x;
outline->points[j].y += delta_y;
#ifdef FT_DEBUG_LEVEL_TRACE
if ( delta_x || delta_y )
{
FT_TRACE7(( " %d: (%d, %d) -> (%d, %d)\n",
j,
outline->points[j].x - delta_x,
outline->points[j].y - delta_y,
outline->points[j].x,
outline->points[j].y ));
count++;
}
#endif
}
#ifdef FT_DEBUG_LEVEL_TRACE
if ( !count )
FT_TRACE7(( " none\n" ));
#endif
}
else if ( localpoints == NULL )
; /* failure, ignore it */
else
{
#ifdef FT_DEBUG_LEVEL_TRACE
int count = 0;
#endif
/* we have to interpolate the missing deltas similar to the */
/* IUP bytecode instruction */
for ( j = 0; j < n_points; j++ )
{
has_delta[j] = FALSE;
points_out[j] = points_org[j];
}
for ( j = 0; j < point_count; j++ )
{
FT_UShort idx = localpoints[j];
if ( idx >= n_points )
continue;
has_delta[idx] = TRUE;
points_out[idx].x += FT_MulFix( deltas_x[j], apply );
points_out[idx].y += FT_MulFix( deltas_y[j], apply );
}
/* no need to handle phantom points here, */
/* since solitary points can't be interpolated */
tt_interpolate_deltas( outline,
points_out,
points_org,
has_delta );
FT_TRACE7(( " point deltas:\n" ));
for ( j = 0; j < n_points; j++ )
{
FT_Pos delta_x = points_out[j].x - points_org[j].x;
FT_Pos delta_y = points_out[j].y - points_org[j].y;
outline->points[j].x += delta_x;
outline->points[j].y += delta_y;
#ifdef FT_DEBUG_LEVEL_TRACE
if ( delta_x || delta_y )
{
FT_TRACE7(( " %d: (%d, %d) -> (%d, %d)\n",
j,
outline->points[j].x - delta_x,
outline->points[j].y - delta_y,
outline->points[j].x,
outline->points[j].y ));
count++;
}
#endif
}
#ifdef FT_DEBUG_LEVEL_TRACE
if ( !count )
FT_TRACE7(( " none\n" ));
#endif
}
if ( localpoints != ALL_POINTS )
FT_FREE( localpoints );
FT_FREE( deltas_x );
FT_FREE( deltas_y );
offsetToData += tupleDataSize;
FT_Stream_SeekSet( stream, here );
}
FT_TRACE5(( "\n" ));
Fail2:
if ( sharedpoints != ALL_POINTS )
FT_FREE( sharedpoints );
FT_FREE( tuple_coords );
FT_FREE( im_start_coords );
FT_FREE( im_end_coords );
FT_FRAME_EXIT();
Fail1:
FT_FREE( points_org );
FT_FREE( points_out );
FT_FREE( has_delta );
return error;
}
/*************************************************************************/
/* */
/* <Function> */
/* tt_done_blend */
/* */
/* <Description> */
/* Free the blend internal data structure. */
/* */
FT_LOCAL_DEF( void )
tt_done_blend( FT_Memory memory,
GX_Blend blend )
{
if ( blend != NULL )
{
FT_UInt i;
FT_FREE( blend->normalizedcoords );
FT_FREE( blend->mmvar );
if ( blend->avar_segment != NULL )
{
for ( i = 0; i < blend->num_axis; i++ )
FT_FREE( blend->avar_segment[i].correspondence );
FT_FREE( blend->avar_segment );
}
FT_FREE( blend->tuplecoords );
FT_FREE( blend->glyphoffsets );
FT_FREE( blend );
}
}
#endif /* TT_CONFIG_OPTION_GX_VAR_SUPPORT */
/* END */