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1119 lines
35 KiB
1119 lines
35 KiB
/***
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**
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** Module: Trans
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**
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** Description:
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** This is a module of the T1 to TT font converter. The module
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** contains functions that will convert T1 specific data into
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** corresponding TT data, such as hints and font metrics.
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**
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** Author: Michael Jansson
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**
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** Created: 5/28/93
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**
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***/
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/**** INCLUDES */
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/* General types and definitions. */
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#include <string.h>
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/* Special types and definitions. */
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#include "titott.h"
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#include "types.h"
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#include "safemem.h"
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#include "trig.h"
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#include "metrics.h"
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#include "encoding.h"
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#include "builder.h"
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#include "t1msg.h"
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/* Module dependent types and prototypes. */
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#include "trans.h"
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#include "hints.h"
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/***** CONSTANTS */
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/* PitchAndFamily pitch values (low 4 bits) */
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#define DEFAULT_PITCH 0x00
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#define FIXED_PITCH 0x01
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#define VARIABLE_PITCH 0x02
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/* PitchAndFamily family values (high 4 bits) */
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#define FF_DONTCARE 0x00
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#define FF_ROMAN 0x10
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#define FF_SWISS 0x20
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#define FF_MODERN 0x30
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#define FF_SCRIPT 0x40
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#define FF_DECORATIVE 0x50
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#define SWISS_LEADING 0x21
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#define ROMAN_LEADING 0x11
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#define NOCARE_PANOSE 0
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#define NO_PANOSE 1
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#define COVE_PANOSE 2
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#define TEXT_PANOSE 2
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#define DECORATIVE_PANOSE 4
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#define SCRIPT_PANOSE 3
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#define SANS_PANOSE 11
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#define FIXED_PANOSE 9
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#define BUFMARG 64
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#define CLIMIT 8
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#define CLIMIT2 4
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#define SUBDIVIDE 0
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#define CONVERT 1
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#define FW_THIN 100
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#define FW_EXTRALIGHT 200
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#define FW_LIGHT 300
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#define FW_NORMAL 400
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#define FW_MEDIUM 500
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#define FW_SEMIBOLD 600
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#define FW_BOLD 700
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#define FW_BLACK 900
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#define FWIDTH_ULTRA_CONDENSED 1
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#define FWIDTH_EXTRA_CONDENSED 2
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#define FWIDTH_CONDENSED 3
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#define FWIDTH_SEMI_CONDENSED 4
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#define FWIDTH_NORMAL 5
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#define FWIDTH_SEMI_EXPANDED 6
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#define FWIDTH_EXPANDED 7
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#define FWIDTH_EXTRA_EXPANDED 8
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#define FWIDTH_ULTRA_EXPANDED 9
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#define MAC_ITALIC 0x01
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#define MAC_BOLD 0x02
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#define FS_ITALIC 0x01
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#define FS_BOLD 0x20
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#define FS_NORMAL 0x40
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#define CVTSIZE 5
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/***** LOCAL TYPES */
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/* None */
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/***** MACROS */
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#define ATMSCALE(v) (((v)*31)/32)
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#define IP(v,x1,x2,x1p,x2p) /*lint -e776 */(short)((long)(v-x1)*(long)(x2p-x1p)/(long)(x2-x1)+(long)x1p)/*lint +e776*/
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#define ADDCVT(val) ttm->cvt[ttm->cvt_cnt++] = (short)(val)
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#define SGN(v) ((v)>0 ? 1 : -1)
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#define DIR(v,w) (char)((ABS((v)-(w))<16) ? 0 : SGN((w) - (v)))
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/***** PROTOTYPES */
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static USHORT SplitSpline(Point *pts, ULONG *onoff,
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int i, USHORT length,
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const funit x0, const funit y0,
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const funit x1, const funit y1,
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const funit x2, const funit y2,
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const funit x3, const funit y3,
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const int delta);
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/***** STATIC FUNCTIONS */
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/***
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** Function: LookupComposite
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**
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** Description:
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**
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***/
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static struct encoding *LookupComposite(struct Composite *comp, char *name)
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{
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while (comp) {
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if (comp->oenc && !strcmp(LookupCharName(comp->oenc), name))
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return comp->oenc;
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comp=comp->next;
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}
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return NULL;
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}
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/***
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** Function: norm
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**
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** Description:
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** Normalize an angle so that it falls within the
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** range ~[-pi, pi]
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***/
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static int norm(int a)
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{
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if (a>PI)
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a -= 2*PI;
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if (a<-PI)
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a += 2*PI;
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return ABS(a)/16;
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}
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/***
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** Function: CompareCurves
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**
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** Description:
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** Make a estimate of the error between a cubic
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** and a quadric curve, given four control points,
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** and suggest an action (sub-division or convertion).
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***/
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static boolean FASTCALL CompareCurves(const funit x0, const funit y0,
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const funit x1, const funit y1,
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const funit x2, const funit y2,
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const funit x3, const funit y3,
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const funit nx, const funit ny,
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const int delta)
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{
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int a, b;
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if ((ABS(ny-y0)>CLIMIT || ABS(nx-x0)>CLIMIT) &&
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(ABS(ny-y3)>CLIMIT || ABS(nx-x3)>CLIMIT)) {
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if (y0!=y1 || x0!=x1)
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a = norm(Atan2(ny-y0, nx-x0) - Atan2(y1-y0, x1-x0))
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* (ABS(ny-y0) + ABS(nx-x0));
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else if (y0!=y2 || x2!=x0)
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a = norm(Atan2(ny-y0, nx-x0) - Atan2(y2-y0, x2-x0))
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* (ABS(ny-y0) + ABS(nx-x0));
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else
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a = 0;
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if (a>=delta)
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return SUBDIVIDE;
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if (y2!=y3 || x2!=x3)
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b = norm(Atan2(y3-ny, x3-nx) - Atan2(y3-y2, x3-x2))
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* (ABS(ny-y0) + ABS(nx-x0));
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else if (y1!=y3 || x1!=x3)
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b = norm(Atan2(y3-ny, x3-nx) - Atan2(y3-y1, x3-x1))
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* (ABS(ny-y0) + ABS(nx-x0));
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else
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b = 0;
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if (b>=delta) /* angle too big. */
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return SUBDIVIDE;
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}
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return CONVERT;
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}
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/***
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** Function: ConvertSpline
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**
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** Description:
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** This function adds a spline to the current contour, by first
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** converting it from a cubic to a quadric spline.
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***/
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static USHORT ConvertSpline(Point *pts, ULONG *onoff,
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USHORT length, int i,
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const funit x0, const funit y0,
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const funit x1, const funit y1,
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const funit x2, const funit y2,
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const funit x3, const funit y3,
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const int delta)
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{
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funit nx, ny;
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int oi = i;
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USHORT n = 0;
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ny = (funit)(((-y0+y1+y2+((y1+y2)<<1)-y3 + 4002)/4) - (short)1000);
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nx = (funit)(((-x0+x1+x2+((x1+x2)<<1)-x3 + 4002)/4) - (short)1000);
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if (CompareCurves(x0, y0,
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x1, y1,
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x2, y2,
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x3, y3,
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nx, ny, delta)==SUBDIVIDE) {
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n = SplitSpline(pts, onoff, i, length,
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x0, y0, x1, y1, x2, y2, x3, y3, delta);
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} else /* CONVERT */ {
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if (i>1 && !OnCurve(onoff, i-2) &&
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(short)(pts[i-1].x >= pts[i-2].x) != (short)(pts[i-1].x >= nx) &&
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(short)(pts[i-1].y >= pts[i-2].y) != (short)(pts[i-1].y >= ny) &&
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(short)(pts[i-1].x > pts[i-2].x) != (short)(pts[i-1].x > nx) &&
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(short)(pts[i-1].y > pts[i-2].y) != (short)(pts[i-1].y > ny) &&
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ABS(pts[i-1].x - (nx+pts[i-2].x)/2)<CLIMIT2 &&
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ABS(pts[i-1].y - (ny+pts[i-2].y)/2)<CLIMIT2) {
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}
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SetOffPoint(onoff, i);
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pts[i].y = ny;
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pts[i].x = nx;
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i++;
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SetOnPoint(onoff, i);
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pts[i].y = y3;
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pts[i].x = x3;
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i++;
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n = (USHORT)(i-oi);
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}
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return n;
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}
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/***
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** Function: SplitSpline
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**
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** Description:
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** This function converts a cubic spline by first
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** creating two new cubic splines, using de Casteljau's
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** algorithm, and then adding the two new splines to the
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** current path.
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***/
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static USHORT SplitSpline(Point *pts, ULONG *onoff,
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int i, USHORT length,
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const funit x0, const funit y0,
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const funit x1, const funit y1,
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const funit x2, const funit y2,
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const funit x3, const funit y3,
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const int delta)
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{
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funit xt, yt;
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funit nx1, ny1;
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funit nx2, ny2;
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funit nx3, ny3;
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funit nx4, ny4;
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funit nx5, ny5;
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USHORT cnt;
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xt = (funit)(((x1+x2+8001)/2)-4000);
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yt = (funit)(((y1+y2+8001)/2)-4000);
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nx1 = (funit)(((x0+x1+8001)/2)-4000);
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ny1 = (funit)(((y0+y1+8001)/2)-4000);
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nx2 = (funit)(((nx1+xt+8001)/2)-4000);
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ny2 = (funit)(((ny1+yt+8001)/2)-4000);
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nx5 = (funit)(((x2+x3+8001)/2)-4000);
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ny5 = (funit)(((y2+y3+8001)/2)-4000);
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nx4 = (funit)(((nx5+xt+8001)/2)-4000);
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ny4 = (funit)(((ny5+yt+8001)/2)-4000);
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nx3 = (funit)(((nx2+nx4+8001)/2)-4000);
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ny3 = (funit)(((ny2+ny4+8001)/2)-4000);
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cnt = ConvertSpline(pts, onoff, length, i,
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x0, y0,
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(funit)nx1, (funit)ny1,
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(funit)nx2, (funit)ny2,
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(funit)nx3, (funit)ny3,
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delta);
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cnt = (USHORT)(cnt + ConvertSpline(pts, onoff, length, i+cnt,
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(funit)nx3, (funit)ny3,
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(funit)nx4, (funit)ny4,
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(funit)nx5, (funit)ny5,
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x3, y3,
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delta));
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return cnt;
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}
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/***
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** Function: FreeOutline
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**
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** Description:
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** This function frees the memory allocated for one
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** contour.
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**
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***/
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static void FreeOutline(Outline *path)
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{
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Outline *tmp;
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while (path) {
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tmp = path;
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path=path->next;
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Free(tmp->pts);
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Free(tmp->onoff);
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Free(tmp);
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}
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}
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/***
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** Function: ConvertOutline
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**
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** Description:
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** This function converts an outline by replacing the
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** cubic splines with quadric splines, and by scaling the
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** coordinates to the desired em-height.
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**
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***/
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static errcode ConvertOutline(const struct T1Metrics *t1m,
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Outline *src, Outline **dst,
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const int delta,
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short *sideboard)
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{
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errcode status = SUCCESS;
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f16d16 *fmatrix;
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Outline *path;
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ULONG *onoff = NULL;
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Point *pts = NULL;
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USHORT count;
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USHORT i,j,n;
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USHORT tot = 0;
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USHORT t1tot = 0;
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/* Get the T1 font transformation matrix. */
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fmatrix = GetFontMatrix(t1m);
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while (src) {
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/* Skip paths with less than three points. */
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if (src->count<3) {
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t1tot = (USHORT)(t1tot + src->count);
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src = src->next;
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continue;
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}
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/* Allocate the needed resources */
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count = (USHORT)((src->count+BUFMARG)&~0x0f);
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path = Malloc(sizeof(Outline));
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pts = Malloc(count*sizeof(Point));
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onoff = Malloc(ONOFFSIZE(count));
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if (path==NULL || pts==NULL || onoff==NULL) {
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if (path)
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Free(path);
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if (pts)
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Free(pts);
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if (onoff)
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Free(onoff);
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FreeOutline((*dst));
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(*dst) = NULL;
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SetError(status = NOMEM);
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break;
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}
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memset(onoff, '\0', ONOFFSIZE(count));
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/* Convert the splines. */ /*lint -e771 */
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i=0;
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j=0;
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while (i<src->count) {
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char prev = DIR(src->pts[(i-2+src->count)%src->count].y,
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src->pts[(i-1+src->count)%src->count].y);
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char this = DIR(src->pts[(i-1+src->count)%src->count].y,
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src->pts[i].y);
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/* Double the local extremas so that diag-cntrl will work. */
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if (prev && this && prev!=this)
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pts[j++] = src->pts[(i-1+src->count)%src->count];
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if (OnCurve(src->onoff, i)) {
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pts[j++] = src->pts[i++];
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} else {
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/* pts[j] = pts[j-1]; j++; */
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n = ConvertSpline(pts, onoff, count, (int)j,
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src->pts[i-1].x, src->pts[i-1].y,
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src->pts[i-0].x, src->pts[i-0].y,
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src->pts[i+1].x, src->pts[i+1].y,
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src->pts[i+2].x, src->pts[i+2].y,
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delta);
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/* Enforce horizontal and vertical tangents. */
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if (OnCurve(onoff, j-1)) {
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if (src->pts[i-1].x==src->pts[i-0].x)
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pts[j].x = (funit)((pts[j].x + pts[j-1].x)/2);
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if (src->pts[i-1].y==src->pts[i-0].y)
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pts[j].y = (funit)((pts[j].y + pts[j-1].y)/2);
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}
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if (src->pts[i+1].x==src->pts[i+2].x)
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pts[j+n-2].x = (funit)((pts[j+n-1].x + pts[j+n-2].x)/2);
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if (src->pts[i+1].y==src->pts[i+2].y)
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pts[j+n-2].y = (funit)((pts[j+n-2].y + pts[j+n-1].y)/2);
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j = (USHORT)(j + n);
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i += 3;
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}
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/* Both a line and a curve end with an on-curve point. */
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sideboard[t1tot+i-1] = (short)(j-1+tot);
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/* Extend the pts/onoff arrays. */
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if (j+BUFMARG/2>=count) {
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Point *newpts = NULL;
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ULONG *newonoff = NULL;
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count += BUFMARG;
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newpts = Realloc(pts, count*sizeof(Point));
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newonoff = Realloc(onoff, ONOFFSIZE(count));
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if (newpts==NULL || newonoff==NULL) {
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if (newonoff)
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Free(newonoff);
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if (newpts)
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Free(newpts);
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/*lint -e644 */
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if (onoff)
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Free(onoff);
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if (pts)
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Free(pts);
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/*lint +e644 */
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FreeOutline((*dst));
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(*dst) = NULL;
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SetError(status=NOMEM);
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break;
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}
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pts = newpts;
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onoff = newonoff;
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}
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}
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if (status!=SUCCESS)
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break;
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/* Scale the points. */
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TransAllPoints(t1m, pts, j, fmatrix);
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t1tot = (USHORT)(t1tot + src->count);
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src = src->next;
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(*dst) = path;
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path->next = NULL;
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path->pts = pts;
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path->onoff = onoff;
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path->count = (USHORT)j; /*lint +e771 */
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dst = &(path->next);
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tot = (USHORT)(tot + j);
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}
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return status;
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}
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#ifdef MSDOS
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#pragma auto_inline(off)
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#endif
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static long Mul2(long a, long b, long c, long d)
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{
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return a*b+c*d;
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}
|
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#ifdef MSDOS
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|
#pragma auto_inline(on)
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#endif
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/***** FUNCTIONS */
|
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/***
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** Function: TransAllPoints
|
|
**
|
|
** Description:
|
|
** Translate a coordinate according to a transformation matrix.
|
|
***/
|
|
void FASTCALL TransAllPoints(const struct T1Metrics *t1m,
|
|
Point *pts,
|
|
const USHORT cnt,
|
|
const f16d16 *fmatrix)
|
|
{
|
|
if (fmatrix==NULL) {
|
|
register Point *p;
|
|
register int i;
|
|
|
|
i = cnt;
|
|
p = pts;
|
|
while (i--) {
|
|
p->x = (funit)((p->x<<1)+(((p->x<<1)+
|
|
p->x+(p->x/16)+
|
|
8224)/64) - 128);
|
|
p++;
|
|
}
|
|
i = cnt;
|
|
p = pts;
|
|
while (i--) {
|
|
p->y = (funit)((p->y<<1)+(((p->y<<1)+
|
|
p->y+
|
|
(p->y/16)+
|
|
8224)/64) - 128);
|
|
p++;
|
|
}
|
|
|
|
} else {
|
|
Point *p;
|
|
int i;
|
|
long u,v;
|
|
|
|
i = cnt;
|
|
p = pts;
|
|
while (i--) {
|
|
v = (GetUPEM(t1m) * (Mul2(fmatrix[0], (long)p->x,
|
|
fmatrix[2], (long)p->y) +
|
|
fmatrix[4]) + F16D16HALF) / 524288L;
|
|
u = (GetUPEM(t1m) * (Mul2(fmatrix[1], (long)p->x,
|
|
fmatrix[3], (long)p->y) +
|
|
fmatrix[5]) + F16D16HALF) / 524288L;
|
|
p->x = (funit)v;
|
|
p->y = (funit)u;
|
|
p++;
|
|
}
|
|
}
|
|
}
|
|
|
|
|
|
|
|
/***
|
|
** Function: TransX
|
|
**
|
|
** Description:
|
|
** Translate a horizontal coordinate according to a transformation matrix.
|
|
***/
|
|
funit FASTCALL TransX(const struct T1Metrics *t1m, const funit x)
|
|
{
|
|
f16d16 *fmatrix = GetFontMatrix(t1m);
|
|
funit pos;
|
|
|
|
if (fmatrix) {
|
|
pos = (funit)((GetUPEM(t1m)* ATMSCALE(fmatrix[0] * x) +
|
|
F16D16HALF) / F16D16BASE);
|
|
} else {
|
|
pos = (funit)(((int)x<<1)-((((int)x+((int)x/64)+8224)/64) - 128));
|
|
}
|
|
|
|
return pos;
|
|
}
|
|
|
|
|
|
/***
|
|
** Function: TransY
|
|
**
|
|
** Description:
|
|
** Translate a vertical coordinate according to a transformation matrix.
|
|
***/
|
|
funit FASTCALL TransY(const struct T1Metrics *t1m, const funit y)
|
|
{
|
|
f16d16 *fmatrix = GetFontMatrix(t1m);
|
|
funit pos;
|
|
|
|
if (fmatrix) {
|
|
pos = (funit)((GetUPEM(t1m)*fmatrix[3] * y +
|
|
F16D16HALF) / F16D16BASE);
|
|
} else {
|
|
pos = (funit)(((int)y<<1)+((((int)y<<1)+
|
|
(int)y+
|
|
((int)y/16)+
|
|
8224)/64) - 128);
|
|
}
|
|
|
|
return pos;
|
|
}
|
|
|
|
|
|
/***
|
|
** Function: ConvertGlyph
|
|
**
|
|
** Description:
|
|
** This function convertes the data associated to a T1 font glyph
|
|
** into the corresponding data used in a TT font glyph.
|
|
***/
|
|
errcode FASTCALL ConvertGlyph(struct T1Metrics *t1m,
|
|
const struct T1Glyph *t1glyph,
|
|
struct TTGlyph **ttglyph,
|
|
const int delta)
|
|
{
|
|
errcode status = SUCCESS;
|
|
struct encoding *code;
|
|
|
|
if ((code = LookupPSName(CurrentEncoding(t1m),
|
|
EncodingSize(t1m),
|
|
t1glyph->name))==NULL &&
|
|
(code = LookupComposite(Composites(t1m), t1glyph->name))==NULL &&
|
|
strcmp(t1glyph->name, ".notdef")) {
|
|
LogError(MSG_INFO, MSG_BADENC, t1glyph->name);
|
|
status = SUCCESS;
|
|
} else {
|
|
|
|
if (((*ttglyph) = Malloc(sizeof(struct TTGlyph)))==NULL) {
|
|
SetError(status = NOMEM);
|
|
} else {
|
|
short *sideboard = NULL;
|
|
Outline *path;
|
|
USHORT tot;
|
|
|
|
memset((*ttglyph), '\0', sizeof(struct TTGlyph));
|
|
if (t1glyph->width.y!=0) {
|
|
LogError(MSG_WARNING, MSG_BADAW, NULL);
|
|
}
|
|
(*ttglyph)->aw = TransY(t1m, t1glyph->width.x);
|
|
(*ttglyph)->lsb = TransY(t1m, t1glyph->lsb.x);
|
|
(*ttglyph)->code = code;
|
|
(*ttglyph)->num = 0;
|
|
(*ttglyph)->twilights = 0;
|
|
|
|
/* Initiate the side board. */
|
|
for (path=t1glyph->paths, tot=0; path; path=path->next)
|
|
tot = (USHORT)(tot + path->count);
|
|
if (tot && (sideboard = Malloc((unsigned)tot*sizeof(short)))==NULL) {
|
|
SetError(status=NOMEM);
|
|
} else if ((status = ConvertOutline(t1m, t1glyph->paths,
|
|
&((*ttglyph)->paths),
|
|
delta,
|
|
sideboard))==SUCCESS)
|
|
status = ConvertHints(t1m,
|
|
&t1glyph->hints,
|
|
t1glyph->paths,
|
|
(*ttglyph)->paths,
|
|
sideboard,
|
|
&(*ttglyph)->hints,
|
|
&(*ttglyph)->num,
|
|
&(*ttglyph)->stack,
|
|
&(*ttglyph)->twilights);
|
|
|
|
if (sideboard)
|
|
Free(sideboard);
|
|
|
|
|
|
/* Pick default std widths. */
|
|
if (t1glyph->name[0]=='l' && t1glyph->name[1]=='\0') {
|
|
if (GetStdVW(t1m)==0 && t1glyph->hints.vstems)
|
|
SetDefStdVW(t1m, t1glyph->hints.vstems->width);
|
|
}
|
|
if (t1glyph->name[0]=='z' && t1glyph->name[1]=='\0') {
|
|
if (GetStdHW(t1m)==0) {
|
|
if (t1glyph->hints.hstems && t1glyph->hints.hstems->width)
|
|
SetDefStdHW(t1m, t1glyph->hints.hstems->width);
|
|
else if (t1glyph->hints.vstems && t1glyph->hints.vstems->width)
|
|
SetDefStdHW(t1m, t1glyph->hints.vstems->width);
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
return status;
|
|
}
|
|
|
|
|
|
/***
|
|
** Function: ConvertComposite
|
|
**
|
|
** Description:
|
|
** This function convertes the data associated to a T1 font seac glyph
|
|
** into the corresponding data used in a TT font composite glyph.
|
|
**
|
|
***/
|
|
errcode FASTCALL ConvertComposite(struct T1Metrics *t1m,
|
|
const struct Composite *comp,
|
|
struct TTComposite *ttcomp)
|
|
{
|
|
Point pt;
|
|
|
|
pt.x = comp->adx;
|
|
pt.y = comp->ady;
|
|
TransAllPoints(t1m, &pt, 1, GetFontMatrix(t1m));
|
|
ttcomp->dx = pt.x + (pt.x - TransX(t1m, comp->adx));
|
|
ttcomp->dy = pt.y;
|
|
ttcomp->aw = TransY(t1m, comp->aw);
|
|
ttcomp->lsb = TransY(t1m, comp->asbx);
|
|
ttcomp->aenc = LookupPSName(CurrentEncoding(t1m),
|
|
EncodingSize(t1m), comp->achar);
|
|
ttcomp->benc = LookupPSName(CurrentEncoding(t1m),
|
|
EncodingSize(t1m), comp->bchar);
|
|
if ((ttcomp->cenc = LookupPSName(CurrentEncoding(t1m),
|
|
EncodingSize(t1m), comp->cchar))==NULL) {
|
|
LogError(MSG_INFO, MSG_BADENC, comp->cchar);
|
|
}
|
|
ttcomp->oenc = comp->oenc;
|
|
|
|
if (ttcomp->aenc && ttcomp->benc)
|
|
return SUCCESS;
|
|
return SKIP;
|
|
}
|
|
|
|
|
|
|
|
|
|
|
|
/***
|
|
** Function: ConvertMetrics
|
|
**
|
|
** Description:
|
|
**
|
|
***/
|
|
errcode FASTCALL ConvertMetrics(const struct TTHandle *tt,
|
|
struct T1Metrics *t1m,
|
|
struct TTMetrics *ttm,
|
|
const char *tag)
|
|
{
|
|
const AlignmentControl *align;
|
|
const Blues *blues;
|
|
USHORT prep_size;
|
|
UBYTE *prep = NULL;
|
|
errcode status = SUCCESS;
|
|
Point bbox[2];
|
|
funit em;
|
|
funit PostAsc;
|
|
USHORT i, j;
|
|
|
|
|
|
ttm->Encoding = CurrentEncoding(t1m);
|
|
ttm->encSize = EncodingSize(t1m);
|
|
ttm->version.ver = t1m->version.ver;
|
|
ttm->version.rev = t1m->version.rev;
|
|
|
|
if ((ttm->verstr = Malloc(strlen(tag)+4+1+4+1))==NULL) {
|
|
SetError(status = NOMEM);
|
|
} else {
|
|
strcpy(ttm->verstr, tag);
|
|
(void)_itoa((int)ttm->version.ver, &ttm->verstr[strlen(ttm->verstr)], 4);
|
|
strcat(ttm->verstr, ".");
|
|
(void)_itoa((int)ttm->version.rev, &ttm->verstr[strlen(ttm->verstr)], 4);
|
|
ttm->created.a = 0;
|
|
ttm->created.b = 0;
|
|
ttm->family = t1m->family;
|
|
ttm->copyright = t1m->copyright;
|
|
ttm->name = t1m->name;
|
|
ttm->id = t1m->id;
|
|
ttm->notice = t1m->notice;
|
|
ttm->fullname = t1m->fullname;
|
|
ttm->weight = t1m->weight;
|
|
ttm->angle = t1m->angle;
|
|
ttm->underline = TransY(t1m, t1m->underline);
|
|
ttm->uthick = TransY(t1m, t1m->uthick);
|
|
ttm->usWidthClass = (USHORT)(strstr(t1m->fullname, "Ultra-condensed")
|
|
? FWIDTH_ULTRA_CONDENSED :
|
|
((strstr(t1m->fullname, "Extra-condensed") ? FWIDTH_EXTRA_CONDENSED :
|
|
((strstr(t1m->fullname, "Condensed") ? FWIDTH_CONDENSED :
|
|
((strstr(t1m->fullname, "Semi-condensed") ? FWIDTH_SEMI_CONDENSED :
|
|
((strstr(t1m->fullname, "Semi-expanded")
|
|
? FWIDTH_SEMI_EXPANDED :
|
|
((strstr(t1m->fullname, "Expanded")
|
|
? FWIDTH_EXPANDED :
|
|
((strstr(t1m->fullname, "Extra-expanded")
|
|
? FWIDTH_EXTRA_EXPANDED :
|
|
((strstr(t1m->fullname, "Ultra-expanded")
|
|
? FWIDTH_ULTRA_EXPANDED :
|
|
FWIDTH_NORMAL)))))))))))))));
|
|
|
|
|
|
/* Window based metrics. */
|
|
|
|
// ps driver does not compute asc and desc based on the
|
|
// windows charset. So, we will not do it either. We will
|
|
// also use the all glyhs supported in the font.
|
|
// Ps driver acutally trusts the values found in .pfm file.
|
|
// These values, according to afm->pfm converter code, are computed
|
|
// over all glyphs. However, some vendors ship buggy pfm's with
|
|
// zero ascenders or negative descenders. If we took these values
|
|
// literally, as ps driver does, the true type driver would
|
|
// shave off portions of glyphs and the conversion would appear broken.
|
|
// Pcl printing and screen output would be totally broken.
|
|
// Turns out that for these buggy fonts ATM on win31 also
|
|
// corrects the value from .pfm files for screen and pcl printer.
|
|
// [bodind]
|
|
|
|
|
|
// total bbox: [bodind], replaced WindowsBBox function:
|
|
|
|
GlobalBBox(tt, bbox);
|
|
|
|
ttm->winAscender = ABS(bbox[1].y);
|
|
ttm->winDescender = ABS(bbox[0].y);
|
|
|
|
|
|
ttm->panose[0] = NOCARE_PANOSE;
|
|
ttm->panose[1] = NOCARE_PANOSE;
|
|
ttm->panose[2] = NOCARE_PANOSE;
|
|
ttm->panose[3] = NOCARE_PANOSE;
|
|
ttm->panose[4] = NOCARE_PANOSE;
|
|
ttm->panose[5] = NOCARE_PANOSE;
|
|
ttm->panose[6] = NOCARE_PANOSE;
|
|
ttm->panose[6] = NOCARE_PANOSE;
|
|
ttm->panose[7] = NOCARE_PANOSE;
|
|
ttm->panose[8] = NOCARE_PANOSE;
|
|
ttm->panose[9] = NOCARE_PANOSE;
|
|
/* Fixed pitch fonts are not given a panose by ATM. */
|
|
if (!(t1m->fixedPitch)) {
|
|
switch (t1m->pitchfam & 0xf0) {
|
|
case FF_DECORATIVE:
|
|
ttm->panose[0] = (UBYTE)DECORATIVE_PANOSE;
|
|
ttm->panose[1] = (UBYTE)NO_PANOSE;
|
|
break;
|
|
case FF_ROMAN:
|
|
ttm->panose[0] = (UBYTE)TEXT_PANOSE;
|
|
ttm->panose[1] = (UBYTE)COVE_PANOSE;
|
|
break;
|
|
case FF_SWISS:
|
|
ttm->panose[0] = (UBYTE)TEXT_PANOSE;
|
|
ttm->panose[1] = (UBYTE)SANS_PANOSE;
|
|
break;
|
|
case FF_SCRIPT:
|
|
ttm->panose[0] = (UBYTE)SCRIPT_PANOSE;
|
|
ttm->panose[1] = (UBYTE)SANS_PANOSE;
|
|
break;
|
|
case FF_MODERN:
|
|
ttm->panose[0] = (UBYTE)TEXT_PANOSE;
|
|
ttm->panose[1] = (UBYTE)SANS_PANOSE;
|
|
break;
|
|
}
|
|
}
|
|
ttm->isFixPitched = t1m->fixedPitch;
|
|
ttm->panose[2] = (UBYTE)((t1m->tmweight - 500) * 12 / 900 + 6);
|
|
|
|
/* Mac based metrics. */
|
|
MacBBox(tt, bbox);
|
|
ttm->macLinegap = TransY(t1m, (funit)(t1m->extLeading +
|
|
(ttm->winAscender +
|
|
ttm->winDescender) -
|
|
(bbox[1].y-bbox[0].y)));
|
|
|
|
/* Typographical metrics. */
|
|
ttm->emheight = GetUPEM(t1m);
|
|
if (t1m->flags==DEFAULTMETRICS) {
|
|
ttm->usWeightClass = (USHORT)(strstr(t1m->fullname, "Thin") ? FW_THIN :
|
|
((strstr(t1m->fullname, "light") ? FW_EXTRALIGHT :
|
|
((strstr(t1m->fullname, "Light") ? FW_LIGHT :
|
|
((strstr(t1m->fullname, "Medium") ? FW_MEDIUM :
|
|
((strstr(t1m->fullname, "emi-bold") ? FW_SEMIBOLD :
|
|
((strstr(t1m->fullname, "Bold") ? FW_BOLD :
|
|
((strstr(t1m->fullname, "Black") ? FW_BLACK :
|
|
FW_NORMAL)))))))))))));
|
|
ttm->macStyle = (USHORT)(((ttm->usWeightClass>FW_MEDIUM)?MAC_BOLD : 0) |
|
|
((ttm->angle != 0) ? MAC_ITALIC : 0));
|
|
ttm->fsSelection = (USHORT)(((ttm->angle != 0) ? FS_ITALIC : 0) |
|
|
((ttm->usWeightClass > FW_MEDIUM) ? FS_BOLD : 0) |
|
|
((ttm->usWeightClass==FW_NORMAL)
|
|
? FS_NORMAL : 0));
|
|
ttm->typAscender = TypographicalAscender(tt);
|
|
ttm->typDescender = TypographicalDescender(tt);
|
|
em = ttm->typAscender - ttm->typDescender;
|
|
ttm->superoff.y = (funit)(em / 2);
|
|
ttm->superoff.x = 0;
|
|
ttm->supersize.y = (funit)(em * 2 / 3);
|
|
ttm->supersize.x = (funit)(em * 3 / 4);
|
|
ttm->suboff.y = (funit)(em / 5);
|
|
ttm->suboff.x = 0;
|
|
ttm->subsize.y = (funit)(em * 2 / 3);
|
|
ttm->subsize.x = (funit)(em * 3 / 4);
|
|
ttm->strikeoff = (funit)(ttm->typAscender / 2);
|
|
ttm->strikesize = (funit)(ttm->typAscender / 10);
|
|
} else {
|
|
ttm->usWeightClass = t1m->tmweight;
|
|
ttm->macStyle = (USHORT)(((t1m->tmweight>FW_MEDIUM)?MAC_BOLD : 0) |
|
|
((ttm->angle != 0) ? MAC_ITALIC : 0));
|
|
ttm->fsSelection = (USHORT)(((ttm->angle != 0) ? FS_ITALIC : 0) |
|
|
((ttm->usWeightClass > FW_MEDIUM) ? FS_BOLD : 0) |
|
|
((ttm->usWeightClass==FW_NORMAL)
|
|
? FS_NORMAL : 0));
|
|
ttm->typAscender = TransY(t1m, (funit)(t1m->ascent -
|
|
t1m->intLeading));
|
|
ttm->typDescender = (funit)(-TransY(t1m, t1m->descent)-1);
|
|
ttm->typLinegap = TransY(t1m, (funit)(t1m->intLeading +
|
|
t1m->extLeading));
|
|
ttm->superoff.y = ABS(TransY(t1m, t1m->superoff));
|
|
ttm->superoff.x = 0;
|
|
ttm->supersize.y = TransY(t1m, t1m->supersize);
|
|
ttm->supersize.x = (funit)(TransY(t1m, t1m->supersize) * 3 / 4);
|
|
ttm->suboff.y = ABS(TransY(t1m, t1m->suboff));
|
|
ttm->suboff.x = 0;
|
|
ttm->subsize.y = TransY(t1m, t1m->subsize);
|
|
ttm->subsize.x = (funit)(TransY(t1m, t1m->subsize) * 3 / 4);
|
|
ttm->strikeoff = ABS(TransY(t1m, t1m->strikeoff));
|
|
ttm->strikesize = TransY(t1m, t1m->strikesize);
|
|
|
|
// Adjust usWinAscent so that internal leading matches up.
|
|
// For fonts that do not have buggy pfm files, this adjustment
|
|
// will do nothing, for those for which intLeading is
|
|
// incorrectly set to zero, taking max means that the tops will not
|
|
// be chopped off in the converted font. ttfd shaves off anything
|
|
// that extends beyond ascender or descender. For fonts with buggy
|
|
// pfm's, tt conversions may have bogus internal leadings, but this
|
|
// is better than having glyph bottoms or tops shaved off. [bodind]
|
|
|
|
PostAsc = ttm->emheight + TransY(t1m, t1m->intLeading) - ttm->winDescender;
|
|
|
|
if (PostAsc > ttm->winAscender)
|
|
ttm->winAscender = PostAsc;
|
|
}
|
|
|
|
/* Gray-scale threshold. */
|
|
if (GetStdVW(t1m)!=0 || GetDefStdVW(t1m)!=0) {
|
|
ttm->onepix = (USHORT)(1 + GetUPEM(t1m)*3/2 /
|
|
TransY(t1m, ((GetStdVW(t1m) ?
|
|
GetStdVW(t1m) :
|
|
GetDefStdVW(t1m)))));
|
|
}
|
|
|
|
// needed in producing the correct ifimetrics for tt conversion
|
|
|
|
ttm->DefaultChar = t1m->DefaultChar;
|
|
ttm->BreakChar = t1m->BreakChar;
|
|
ttm->CharSet = t1m->CharSet; // essential for correct font mapping
|
|
|
|
/* Character widths. */
|
|
if (t1m->flags!=DEFAULTMETRICS) {
|
|
ttm->FirstChar = t1m->firstChar;
|
|
ttm->LastChar = t1m->lastChar;
|
|
if ((ttm->widths = Malloc(sizeof(funit)*
|
|
(t1m->lastChar-t1m->firstChar+1)))==NULL) {
|
|
SetError(status = NOMEM);
|
|
} else {
|
|
for (i=0; i<=(unsigned)(t1m->lastChar-t1m->firstChar); i++) {
|
|
ttm->widths[i] = TransY(t1m, t1m->widths[i]);
|
|
}
|
|
}
|
|
}
|
|
|
|
/* Pair kerning. */
|
|
if (t1m->flags!=DEFAULTMETRICS &&
|
|
t1m->kerns!=NULL) {
|
|
if ((ttm->kerns = Malloc(sizeof(struct kerning)*
|
|
t1m->kernsize))==NULL) {
|
|
SetError(status = NOMEM);
|
|
} else {
|
|
for (i=0; i<t1m->kernsize; i++) {
|
|
ttm->kerns[i].left = t1m->kerns[i].left;
|
|
ttm->kerns[i].right = t1m->kerns[i].right;
|
|
ttm->kerns[i].delta = TransY(t1m, t1m->kerns[i].delta);
|
|
}
|
|
ttm->kernsize = t1m->kernsize;
|
|
}
|
|
}
|
|
|
|
/* Pre program. */
|
|
if ((prep = GetPrep(PREPSIZE))!=NULL &&
|
|
(prep_size = BuildPreProgram(t1m,
|
|
GetWeight(t1m),
|
|
GetBlues(t1m),
|
|
GetAlignment(t1m),
|
|
&prep, PREPSIZE,
|
|
&(ttm->maxprepstack)))>0) {
|
|
|
|
/* Store the pre-program. */
|
|
UsePrep(ttm, prep, prep_size);
|
|
}
|
|
|
|
/* CVT entries. */
|
|
blues = GetBlues(t1m);
|
|
if (status!=NOMEM &&
|
|
(ttm->cvt = Malloc(blues->align.cvt * CVTSIZE)) == NULL) {
|
|
SetError(status = NOMEM);
|
|
} else {
|
|
ADDCVT(0); /* TMPCVT */
|
|
ADDCVT((GetStdVW(t1m)==0) ?
|
|
TransX(t1m, GetDefStdVW(t1m))/2 :
|
|
TransX(t1m, GetStdVW(t1m))/2);
|
|
ADDCVT((GetStdHW(t1m)==0) ?
|
|
TransY(t1m, GetDefStdHW(t1m))/2 :
|
|
TransY(t1m, GetStdHW(t1m))/2);
|
|
for (i=0; i<t1m->snapv_cnt; i++)
|
|
ADDCVT(TransY(t1m, t1m->stemsnapv[i])/2);
|
|
for (i=0; i<t1m->snaph_cnt; i++)
|
|
ADDCVT(TransY(t1m, t1m->stemsnaph[i])/2);
|
|
|
|
/* Align the top zones. */
|
|
align = GetAlignment(t1m);
|
|
for (i=0; i<blues->blue_cnt/2; i++) {
|
|
/* Skip empty zones. */
|
|
if (align->top[i].cnt==0)
|
|
continue;
|
|
|
|
ttm->cvt[align->top[i].blue_cvt]
|
|
= (short)TransY(t1m, blues->bluevalues[i*2]);
|
|
ttm->cvt[align->top[i].blue_cvt+1]
|
|
= (short)TransY(t1m, blues->bluevalues[i*2+1]);
|
|
for (j=0; j<align->top[i].cnt; j++) {
|
|
funit pos;
|
|
int k;
|
|
|
|
/* Get the closest family. */
|
|
k = MatchingFamily(blues->bluevalues[i*2],
|
|
blues->familyblues,
|
|
blues->fblue_cnt);
|
|
|
|
/* Compute the position in the zone w.r.t. the family blues. */
|
|
if (blues->bluevalues[i*2] != blues->bluevalues[i*2+1])
|
|
pos = IP(align->top[i].pos[j].y,
|
|
blues->bluevalues[i*2],
|
|
blues->bluevalues[i*2+1],
|
|
blues->familyblues[k],
|
|
blues->familyblues[k+1]);
|
|
else
|
|
pos = blues->familyblues[k];
|
|
|
|
ttm->cvt[align->top[i].pos[j].cvt]
|
|
= (short)TransY(t1m, align->top[i].pos[j].y);
|
|
ttm->cvt[align->top[i].pos[j].cvt+1]
|
|
= (short)TransY(t1m, pos);
|
|
}
|
|
}
|
|
|
|
/* Align the bottom zones. */
|
|
for (i=0; i<blues->oblue_cnt/2; i++) {
|
|
/* Skip empty zones. */
|
|
if (align->bottom[i].cnt==0)
|
|
continue;
|
|
|
|
ttm->cvt[align->bottom[i].blue_cvt]
|
|
= (short)TransY(t1m, blues->otherblues[i*2+1]);
|
|
for (j=0; j<align->bottom[i].cnt; j++) {
|
|
funit pos;
|
|
int k;
|
|
|
|
/* Get the closest family. */
|
|
k = MatchingFamily(blues->otherblues[i*2],
|
|
blues->familyotherblues,
|
|
blues->foblue_cnt);
|
|
|
|
/* Compute the position in the zone w.r.t. the family blues. */
|
|
if (blues->otherblues[i*2] != blues->otherblues[i*2+1])
|
|
pos = IP(align->bottom[i].pos[j].y,
|
|
blues->otherblues[i*2],
|
|
blues->otherblues[i*2+1],
|
|
blues->familyotherblues[k],
|
|
blues->familyotherblues[k+1]);
|
|
else
|
|
pos = blues->familyotherblues[k];
|
|
|
|
ttm->cvt[align->bottom[i].pos[j].cvt]
|
|
= (short)TransY(t1m, align->bottom[i].pos[j].y);
|
|
ttm->cvt[align->bottom[i].pos[j].cvt+1]
|
|
= (short)TransY(t1m, pos);
|
|
}
|
|
}
|
|
|
|
/* Add the family zones. */
|
|
for (i=0; i<blues->fblue_cnt/2; i++) {
|
|
if (blues->family_cvt[i]!=UNDEF_CVT) {
|
|
ttm->cvt[blues->family_cvt[i]]
|
|
= (short)TransY(t1m, blues->familyblues[i*2]);
|
|
ttm->cvt[blues->family_cvt[i]+1]
|
|
= (short)TransY(t1m, blues->familyblues[i*2+1]);
|
|
}
|
|
}
|
|
|
|
/* Add the family other zones. */
|
|
for (i=0; i<blues->foblue_cnt/2; i++) {
|
|
if (blues->familyother_cvt[i]!=UNDEF_CVT) {
|
|
ttm->cvt[blues->familyother_cvt[i]]
|
|
= (short)TransY(t1m, blues->familyotherblues[i*2+1]);
|
|
}
|
|
}
|
|
|
|
ttm->cvt_cnt = blues->align.cvt;
|
|
ttm->maxstorage = t1m->stems.storage;
|
|
|
|
/* Store the font-program. */
|
|
SetFPGM(ttm, GetFontProg(), GetFontProgSize(), GetNumFuns());
|
|
}
|
|
}
|
|
|
|
return status;
|
|
}
|