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|
/*--------------------------------------------------------------------------
----- File: t1trans.c
----- Author: Rainer Menzner (Rainer.Menzner@web.de)
----- Date: 2003-01-04
----- Description: This file is part of the t1-library. It contains
functions for transforming fonts and setting
line-parameters.
----- Copyright: t1lib is copyrighted (c) Rainer Menzner, 1996-2003.
As of version 0.5, t1lib is distributed under the
GNU General Public Library Lincense. The
conditions can be found in the files LICENSE and
LGPL, which should reside in the toplevel
directory of the distribution. Please note that
there are parts of t1lib that are subject to
other licenses:
The parseAFM-package is copyrighted by Adobe Systems
Inc.
The type1 rasterizer is copyrighted by IBM and the
X11-consortium.
----- Warranties: Of course, there's NO WARRANTY OF ANY KIND :-)
----- Credits: I want to thank IBM and the X11-consortium for making
their rasterizer freely available.
Also thanks to Piet Tutelaers for his ps2pk, from
which I took the rasterizer sources in a format
independent from X11.
Thanks to all people who make free software living!
--------------------------------------------------------------------------*/
#define T1TRANS_C
#include <stdio.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#if defined(_MSC_VER)
# include <io.h>
# include <sys/types.h>
# include <sys/stat.h>
#else
# include <unistd.h>
#endif
#include <stdlib.h>
#include <math.h>
#include <string.h>
#include "../type1/ffilest.h"
#include "../type1/types.h"
#include "parseAFM.h"
#include "../type1/objects.h"
#include "../type1/spaces.h"
#include "../type1/util.h"
#include "../type1/fontfcn.h"
#include "../type1/regions.h"
#include "t1types.h"
#include "t1extern.h"
#include "t1trans.h"
#include "t1base.h"
/* T1_ExtendFont(): Extend the font referenced by FontID by the factor
extend. This is only allowed if no size dependent data exists.
Of course, the font must already have been loaded.
Returns 0 for success and -1 otherwise.
*/
int T1_ExtendFont( int FontID, double extend)
{
/* First, check for font residing in memory: */
if (T1_CheckForFontID(FontID)!=1){
T1_errno=T1ERR_INVALID_FONTID;
return(-1);
}
/* Second, check whether size-dependent data exists: */
if (pFontBase->pFontArray[FontID].pFontSizeDeps != NULL){
T1_errno=T1ERR_OP_NOT_PERMITTED;
return(-1);
}
pFontBase->pFontArray[FontID].extend=extend;
pFontBase->pFontArray[FontID].FontTransform[0] = extend;
return(0);
}
/* T1_GetExtend(): Return the current extension factor of the
font FontID
Return: 0.0 if font not loaded
current extent otherwise
*/
double T1_GetExtend( int FontID)
{
/* First, check for font residing in memory: */
if (T1_CheckForFontID(FontID)!=1){
T1_errno=T1ERR_INVALID_FONTID;
return(0.0);
}
return( pFontBase->pFontArray[FontID].extend);
}
/* T1_SlantFont(): Slant the font referenced by FontID by the factor
extend. This is only allowed if no size dependent data exists.
Of course, the font must already have been loaded.
Returns 0 for success and -1 otherwise.
*/
int T1_SlantFont( int FontID, double slant)
{
/* First, check for font residing in memory: */
if (T1_CheckForFontID(FontID)!=1){
T1_errno=T1ERR_INVALID_FONTID;
return(-1);
}
/* Second, check whether size-dependent data exists: */
if (pFontBase->pFontArray[FontID].pFontSizeDeps != NULL){
T1_errno=T1ERR_OP_NOT_PERMITTED;
return(-1);
}
pFontBase->pFontArray[FontID].slant=slant;
pFontBase->pFontArray[FontID].FontTransform[2] = slant;
return(0);
}
/* T1_GetSlant(): Return the current slanting factor of the
font FontID
Return: 0.0 if font not loaded
current slant otherwise (may also be 0.0!)
*/
double T1_GetSlant( int FontID)
{
/* First, check for font residing in memory: */
if (T1_CheckForFontID(FontID)!=1){
T1_errno=T1ERR_INVALID_FONTID;
return(0.0);
}
return( pFontBase->pFontArray[FontID].slant);
}
/* T1_TransformFont(): Transform the font referenced by FontID according
to the transform matrix. This is only allowed if no size dependent
data exists. Of course, the font must already have been loaded.
Returns 0 for success and -1 otherwise.
*/
int T1_TransformFont( int FontID, T1_TMATRIX *matrix)
{
/* First, check for font residing in memory: */
if (T1_CheckForFontID(FontID)!=1){
T1_errno=T1ERR_INVALID_FONTID;
return(-1);
}
/* Second, check whether size-dependent data exists: */
if (pFontBase->pFontArray[FontID].pFontSizeDeps != NULL){
T1_errno=T1ERR_OP_NOT_PERMITTED;
return(-1);
}
pFontBase->pFontArray[FontID].FontTransform[0] = matrix->cxx;
pFontBase->pFontArray[FontID].FontTransform[1] = matrix->cxy;
pFontBase->pFontArray[FontID].FontTransform[2] = matrix->cyx;
pFontBase->pFontArray[FontID].FontTransform[3] = matrix->cyy;
return(0);
}
/* T1_GetTransform(): Return the current transformation matrix for the
font FontID
Return: [0.0, 0.0, 0.0, 0.0] if font not loaded
current tmatrix otherwise
*/
T1_TMATRIX T1_GetTransform( int FontID)
{
T1_TMATRIX tmatrix={0.0, 0.0, 0.0, 0.0};
/* First, check for font residing in memory: */
if (T1_CheckForFontID(FontID)!=1){
T1_errno=T1ERR_INVALID_FONTID;
return(tmatrix);
}
tmatrix.cxx=pFontBase->pFontArray[FontID].FontTransform[0];
tmatrix.cxy=pFontBase->pFontArray[FontID].FontTransform[1];
tmatrix.cyx=pFontBase->pFontArray[FontID].FontTransform[2];
tmatrix.cyy=pFontBase->pFontArray[FontID].FontTransform[3];
return( tmatrix);
}
/* Functions for setting line-parameters:
linetypeis expected to be an OR'ed combination of
T1_UNDERLINE, T1_OVERLINE and T1_OVERSTRIKE.
*/
int T1_SetLinePosition( int FontID, int linetype, float value)
{
if (T1_CheckForFontID(FontID)!=1){
T1_errno=T1ERR_INVALID_FONTID;
return(-1);
}
if (linetype & T1_UNDERLINE){
pFontBase->pFontArray[FontID].UndrLnPos=value;
return( 0);
}
if (linetype & T1_OVERLINE){
pFontBase->pFontArray[FontID].OvrLnPos=value;
return( 0);
}
if (linetype & T1_OVERSTRIKE){
pFontBase->pFontArray[FontID].OvrStrkPos=value;
return( 0);
}
/* The linetype was bad */
T1_errno=T1ERR_INVALID_PARAMETER;
return( -1);
}
int T1_SetLineThickness( int FontID, int linetype, float value)
{
if (T1_CheckForFontID(FontID)!=1){
T1_errno=T1ERR_INVALID_FONTID;
return(-1);
}
if (linetype & T1_UNDERLINE){
pFontBase->pFontArray[FontID].UndrLnThick=value;
return( 0);
}
if (linetype & T1_OVERLINE){
pFontBase->pFontArray[FontID].OvrLnThick=value;
return( 0);
}
if (linetype & T1_OVERSTRIKE){
pFontBase->pFontArray[FontID].OvrStrkThick=value;
return( 0);
}
/* The linetype was bad */
T1_errno=T1ERR_INVALID_PARAMETER;
return( -1);
}
float T1_GetLinePosition( int FontID, int linetype)
{
if (T1_CheckForFontID(FontID)!=1){
T1_errno=T1ERR_INVALID_FONTID;
return(0.0);
}
if (linetype & T1_UNDERLINE)
return( pFontBase->pFontArray[FontID].UndrLnPos);
if (linetype & T1_OVERLINE)
return( pFontBase->pFontArray[FontID].OvrLnPos);
if (linetype & T1_OVERSTRIKE)
return( pFontBase->pFontArray[FontID].OvrStrkPos);
/* The linetype was bad */
T1_errno=T1ERR_INVALID_PARAMETER;
return( 0.0);
}
float T1_GetLineThickness( int FontID, int linetype)
{
if (T1_CheckForFontID(FontID)!=1){
T1_errno=T1ERR_INVALID_FONTID;
return(0.0);
}
if (linetype & T1_UNDERLINE)
return( pFontBase->pFontArray[FontID].UndrLnThick);
if (linetype & T1_OVERLINE)
return( pFontBase->pFontArray[FontID].OvrLnThick);
if (linetype & T1_OVERSTRIKE)
return( pFontBase->pFontArray[FontID].OvrStrkThick);
/* The linetype was bad */
T1_errno=T1ERR_INVALID_PARAMETER;
return( 0.0);
}
/* Functions for intuitively transforming matrices. All function operate on their
original objects. In case NULL is specified, a unity-matrix is allocated by
the function and then tranformed appropriately. Note that in order to concatenate
transformation in the sense of t1lib the current transformation matrix must be
left-multiplied by the trnasformation to be applied! */
/* Rotation:
( x11' x21' ) ( cos(a) -sin(a) ) ( x11 x21 )
( ) = ( ) * ( )
( x12' x22' ) ( sin(a) cos(a) ) ( x12 x22 )
*/
T1_TMATRIX *T1_RotateMatrix( T1_TMATRIX *matrix, double angle)
{
T1_TMATRIX tmat;
if (matrix==NULL){
if ((matrix=(T1_TMATRIX *)malloc( sizeof(T1_TMATRIX)))==NULL){
T1_errno=T1ERR_ALLOC_MEM;
return( NULL);
}
matrix->cxx=1.0;
matrix->cyx=0.0;
matrix->cxy=0.0;
matrix->cyy=1.0;
}
memcpy( &tmat, matrix, sizeof(T1_TMATRIX));
/* Convert angle to radians: */
angle=angle*PI/180.0;
/* multiply matrices */
matrix->cxx=cos((double)angle) * tmat.cxx - sin((double)angle) * tmat.cxy;
matrix->cyx=cos((double)angle) * tmat.cyx - sin((double)angle) * tmat.cyy;
matrix->cxy=sin((double)angle) * tmat.cxx + cos((double)angle) * tmat.cxy;
matrix->cyy=sin((double)angle) * tmat.cyx + cos((double)angle) * tmat.cyy;
return( matrix);
}
/* Horizontal mirroring */
/* H-Mirror:
( x11' x21' ) ( -1 0 ) ( x11 x21 ) ( -x11 -x21 )
( ) = ( ) * ( ) = ( )
( x12' x22' ) ( 0 1 ) ( x12 x22 ) ( x12 x22 )
*/
T1_TMATRIX *T1_MirrorHMatrix( T1_TMATRIX *matrix)
{
if (matrix==NULL){
if ((matrix=(T1_TMATRIX *)malloc( sizeof(T1_TMATRIX)))==NULL){
T1_errno=T1ERR_ALLOC_MEM;
return( NULL);
}
matrix->cxx=1.0;
matrix->cyx=0.0;
matrix->cxy=0.0;
matrix->cyy=1.0;
}
matrix->cxx *=-1.0;
matrix->cyx *=-1.0;
return( matrix);
}
/* Vertical mirroring */
/* V-Mirror:
( x11' x21' ) ( 1 0 ) ( x11 x21 ) ( x11 x21 )
( ) = ( ) * ( ) = ( )
( x12' x22' ) ( 0 -1 ) ( x12 x22 ) ( -x12 -x22 )
*/
T1_TMATRIX *T1_MirrorVMatrix( T1_TMATRIX *matrix)
{
if (matrix==NULL){
if ((matrix=(T1_TMATRIX *)malloc( sizeof(T1_TMATRIX)))==NULL){
T1_errno=T1ERR_ALLOC_MEM;
return( NULL);
}
matrix->cxx=1.0;
matrix->cyx=0.0;
matrix->cxy=0.0;
matrix->cyy=1.0;
}
matrix->cxy *=-1.0;
matrix->cyy *=-1.0;
return( matrix);
}
/* Horizontal shearing */
/* H-Shearing:
( x11' x21' ) ( 1 f ) ( x11 x21 ) ( x11+f*x12 x21+f*x22 )
( ) = ( ) * ( ) = ( )
( x12' x22' ) ( 0 1 ) ( x12 x22 ) ( x12 x22 )
*/
T1_TMATRIX *T1_ShearHMatrix( T1_TMATRIX *matrix, double shear)
{
if (matrix==NULL){
if ((matrix=(T1_TMATRIX *)malloc( sizeof(T1_TMATRIX)))==NULL){
T1_errno=T1ERR_ALLOC_MEM;
return( NULL);
}
matrix->cxx=1.0;
matrix->cyx=0.0;
matrix->cxy=0.0;
matrix->cyy=1.0;
}
matrix->cxx +=shear*matrix->cxy;
matrix->cyx +=shear*matrix->cyy;
return( matrix);
}
/* Vertical shearing */
/* V-Shearing:
( x11' x21' ) ( 1 0 ) ( x11 x21 ) ( x11 x21 )
( ) = ( ) * ( ) = ( )
( x12' x22' ) ( f 1 ) ( x12 x22 ) ( x12+f*x11 x22+f*x21 )
*/
T1_TMATRIX *T1_ShearVMatrix( T1_TMATRIX *matrix, double shear)
{
if (matrix==NULL){
if ((matrix=(T1_TMATRIX *)malloc( sizeof(T1_TMATRIX)))==NULL){
T1_errno=T1ERR_ALLOC_MEM;
return( NULL);
}
matrix->cxx=1.0;
matrix->cyx=0.0;
matrix->cxy=0.0;
matrix->cyy=1.0;
}
matrix->cxy +=shear*matrix->cxx;
matrix->cyy +=shear*matrix->cyx;
return( matrix);
}
/* Horizontal extension */
/* Horizontal-Extension:
( x11' x21' ) ( f 0 ) ( x11 x21 ) ( f*x11 f*x21 )
( ) = ( ) * ( ) = ( )
( x12' x22' ) ( 0 1 ) ( x12 x22 ) ( x12 x22 )
*/
T1_TMATRIX *T1_ExtendHMatrix( T1_TMATRIX *matrix, double extent)
{
if (matrix==NULL){
if ((matrix=(T1_TMATRIX *)malloc( sizeof(T1_TMATRIX)))==NULL){
T1_errno=T1ERR_ALLOC_MEM;
return( NULL);
}
matrix->cxx=1.0;
matrix->cyx=0.0;
matrix->cxy=0.0;
matrix->cyy=1.0;
}
matrix->cxx *=extent;
matrix->cyx *=extent;
return( matrix);
}
/* Vertical extension */
/* Vertical-Extension:
( x11' x21' ) ( 1 0 ) ( x11 x21 ) ( x11 x21 )
( ) = ( ) * ( ) = ( )
( x12' x22' ) ( 0 f ) ( x12 x22 ) ( f*x12 f*x22 )
*/
T1_TMATRIX *T1_ExtendVMatrix( T1_TMATRIX *matrix, double extent)
{
if (matrix==NULL){
if ((matrix=(T1_TMATRIX *)malloc( sizeof(T1_TMATRIX)))==NULL){
T1_errno=T1ERR_ALLOC_MEM;
return( NULL);
}
matrix->cxx=1.0;
matrix->cyx=0.0;
matrix->cxy=0.0;
matrix->cyy=1.0;
}
matrix->cxy *=extent;
matrix->cyy *=extent;
return( matrix);
}
/* General transformation */
/*
( x11 x21 ) ( y11 y21 ) ( x11*y11+x21*y12 x11*y21+x21*y22 )
( ) * ( ) = ( )
( x12 x22 ) ( y12 y22 ) ( x12*y11+x22*y12 x12*y21+x22*y22 )
*/
T1_TMATRIX *T1_TransformMatrix( T1_TMATRIX *matrix,
double cxx, double cyx,
double cxy, double cyy)
{
T1_TMATRIX tmat;
if (matrix==NULL){
if ((matrix=(T1_TMATRIX *)malloc( sizeof(T1_TMATRIX)))==NULL){
T1_errno=T1ERR_ALLOC_MEM;
return( NULL);
}
matrix->cxx=1.0;
matrix->cyx=0.0;
matrix->cxy=0.0;
matrix->cyy=1.0;
}
memcpy( &tmat, matrix, sizeof(T1_TMATRIX));
matrix->cxx=cxx * tmat.cxx + cyx * tmat.cxy;
matrix->cyx=cxx * tmat.cyx + cyx * tmat.cyy;
matrix->cxy=cxy * tmat.cxx + cyy * tmat.cxy;
matrix->cyy=cxy * tmat.cyx + cyy * tmat.cyy;
return( matrix);
}
/* T1_StrokeFont(): Switch the font referenced by FontID to stroking
or filling. The stroked character will be cached and
filled characters are no longer cached and vice versa.
This is only allowed if no size dependent data exists.
Of course, the font must already have been loaded.
Returns 0 for success and -1 otherwise.
*/
int T1_StrokeFont( int FontID, int dostroke)
{
/* First, check for font residing in memory: */
if ( T1_CheckForFontID( FontID) != 1 ) {
T1_errno = T1ERR_INVALID_FONTID;
return -1;
}
/* Second, check whether size-dependent data exists: */
if ( pFontBase->pFontArray[FontID].pFontSizeDeps != NULL ) {
T1_errno = T1ERR_OP_NOT_PERMITTED;
return -1;
}
if ( dostroke != 0 ) {
pFontBase->pFontArray[FontID].info_flags |= RASTER_STROKED;
pFontBase->pFontArray[FontID].info_flags |= CACHE_STROKED;
}
else {
pFontBase->pFontArray[FontID].info_flags &= ~RASTER_STROKED;
pFontBase->pFontArray[FontID].info_flags &= ~CACHE_STROKED;
}
return 0;
}
/* T1_SetStrokeFlag(): Return the stroke flag for font FontID.
Return: 0 flag has been set
-1 flag could not be set
*/
int T1_SetStrokeFlag( int FontID)
{
/* First, check for font residing in memory: */
if ( T1_CheckForFontID(FontID) != 1 ) {
T1_errno = T1ERR_INVALID_FONTID;
return -1;
}
/* Set stroke flag to true */
pFontBase->pFontArray[FontID].info_flags |= RASTER_STROKED;
return 0;
}
/* T1_ClearStrokeFlag(): Reset the stroke flag for font FontID.
Return: 0 flag has been reset
-1 flag could not be reset
*/
int T1_ClearStrokeFlag( int FontID)
{
/* First, check for font residing in memory: */
if ( T1_CheckForFontID(FontID) != 1 ) {
T1_errno = T1ERR_INVALID_FONTID;
return -1;
}
/* Reset stroke flag */
pFontBase->pFontArray[FontID].info_flags &= ~RASTER_STROKED;
return 0;
}
/* T1_GetStrokeMode(): Return the stroke flag for font FontID.
Return: -1 if font is not loaded.
0 if flag is reset,
1 if stroking is enabled for this font,
2 if stroked characters are cached,
3 if stroking is enabled and stroked
characters are cached.
*/
int T1_GetStrokeMode( int FontID)
{
int outval = 0;
/* First, check for font residing in memory: */
if ( T1_CheckForFontID( FontID) != 1 ) {
T1_errno = T1ERR_INVALID_FONTID;
return -1;
}
if ( (pFontBase->pFontArray[FontID].info_flags & CACHE_STROKED) != 0 )
outval |= 0x02;
if ( (pFontBase->pFontArray[FontID].info_flags & RASTER_STROKED) != 0 )
outval |= 0x01;
return outval;
}
/* T1_SetStrokeWidth(): Set the penwidth used when stroking font FontID.
Return -1 If width could not be set.
0 if width has been set.
*/
int T1_SetStrokeWidth( int FontID, float strokewidth)
{
/* First, check for font residing in memory: */
if ( T1_CheckForFontID( FontID) != 1 ) {
T1_errno = T1ERR_INVALID_FONTID;
return -1;
}
/* Second, check whether caching stroked characters is enabled
for this font and glyph data is already existing. In this case
the operation is forbidden, unless the previous non-zero value
is just restored! */
if ( ((pFontBase->pFontArray[FontID].info_flags & CACHE_STROKED) != 0) &&
(pFontBase->pFontArray[FontID].pFontSizeDeps != NULL) &&
(pFontBase->pFontArray[FontID].SavedStrokeWidth != strokewidth)
) {
T1_errno = T1ERR_OP_NOT_PERMITTED;
return -1;
}
/* OK, accept stroke width after ensuring a numerically meaningful
value */
if ( strokewidth < 0.0f ) {
T1_errno = T1ERR_INVALID_PARAMETER;
return -1;
}
pFontBase->pFontArray[FontID].StrokeWidth = strokewidth;
if ( strokewidth != 0.0f )
pFontBase->pFontArray[FontID].SavedStrokeWidth = strokewidth;
return 0;
}
/* T1_GetStrokeWidth(): Get the penwidth used when stroking font FontID.
If 0.0 is returned, it might also indicate that the font is not loaded.
*/
float T1_GetStrokeWidth( int FontID)
{
/* First, check for font residing in memory: */
if ( T1_CheckForFontID( FontID) != 1 ) {
T1_errno = T1ERR_INVALID_FONTID;
return 0.0f;
}
return pFontBase->pFontArray[FontID].StrokeWidth;
}
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