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affe84a4536c6b7966aee227ae01edbf0861c60b
blender-archive/source/blender/blenkernel/intern/font.c
Brecht Van Lommel a133e57bf3 Fix #20233: crash when entering - characters in text object, with short 
textbox width. I can't tell if this is working correct, the code is very
cryptic, with gotos even, but seems there is not enough space allocated
to permit splitting each character to it's own line.
2009-12-14 20:01:52 +00:00

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/* font.c
*
*
* $Id$
*
* ***** BEGIN GPL LICENSE BLOCK *****
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software Foundation,
* Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*
* The Original Code is Copyright (C) 2001-2002 by NaN Holding BV.
* All rights reserved.
*
* The Original Code is: all of this file.
*
* Contributor(s): none yet.
*
* ***** END GPL LICENSE BLOCK *****
*/
#include <stdio.h>
#include <string.h>
#include <math.h>
#include <stdlib.h>
#include <wchar.h>
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include "MEM_guardedalloc.h"
#include "BLI_math.h"
#include "BLI_blenlib.h"
#include "BLI_vfontdata.h"
#include "DNA_packedFile_types.h"
#include "DNA_curve_types.h"
#include "DNA_object_types.h"
#include "DNA_view3d_types.h"
#include "DNA_vfont_types.h"
#include "DNA_scene_types.h"
#include "BKE_utildefines.h"
#include "BKE_packedFile.h"
#include "BKE_library.h"
#include "BKE_font.h"
#include "BKE_global.h"
#include "BKE_main.h"
#include "BKE_screen.h"
#include "BKE_anim.h"
#include "BKE_curve.h"
#include "BKE_displist.h"
static ListBase ttfdata= {NULL, NULL};
/* UTF-8 <-> wchar transformations */
void
chtoutf8(unsigned long c, char *o)
{
// Variables and initialization
/* memset(o, 0, 16); */
// Create the utf-8 string
if (c < 0x80)
{
o[0] = (char) c;
}
else if (c < 0x800)
{
o[0] = (0xC0 | (c>>6));
o[1] = (0x80 | (c & 0x3f));
}
else if (c < 0x10000)
{
o[0] = (0xe0 | (c >> 12));
o[1] = (0x80 | (c >>6 & 0x3f));
o[2] = (0x80 | (c & 0x3f));
}
else if (c < 0x200000)
{
o[0] = (0xf0 | (c>>18));
o[1] = (0x80 | (c >>12 & 0x3f));
o[2] = (0x80 | (c >> 6 & 0x3f));
o[3] = (0x80 | (c & 0x3f));
}
}
void
wcs2utf8s(char *dst, wchar_t *src)
{
char ch[5];
while(*src)
{
memset(ch, 0, 5);
chtoutf8(*src++, ch);
strcat(dst, ch);
}
}
int
wcsleninu8(wchar_t *src)
{
char ch[16];
int len = 0;
while(*src)
{
memset(ch, 0, 16);
chtoutf8(*src++, ch);
len = len + strlen(ch);
}
return len;
}
int
static utf8slen(char *src)
{
int size = 0, index = 0;
unsigned char c;
c = src[index++];
while(c)
{
if((c & 0x80) == 0)
{
index += 0;
}
else if((c & 0xe0) == 0xe0)
{
index += 2;
}
else
{
index += 1;
}
size += 1;
c = src[index++];
}
return size;
}
/* Converts Unicode to wchar
According to RFC 3629 "UTF-8, a transformation format of ISO 10646"
(http://tools.ietf.org/html/rfc3629), the valid UTF-8 encoding are:
Char. number range | UTF-8 octet sequence
(hexadecimal) | (binary)
--------------------+---------------------------------------------
0000 0000-0000 007F | 0xxxxxxx
0000 0080-0000 07FF | 110xxxxx 10xxxxxx
0000 0800-0000 FFFF | 1110xxxx 10xxxxxx 10xxxxxx
0001 0000-0010 FFFF | 11110xxx 10xxxxxx 10xxxxxx 10xxxxxx
If the encoding incidated by the first character is incorrect (because the
1 to 3 following characters do not match 10xxxxxx), the output is a '?' and
only a single input character is consumed.
*/
int utf8towchar(wchar_t *w, char *c)
{
int len=0;
if(w==NULL || c==NULL) return(0);
while(*c) {
if ((*c & 0xe0) == 0xc0) {
if((c[1] & 0x80) && (c[1] & 0x40) == 0x00) {
*w=((c[0] &0x1f)<<6) | (c[1]&0x3f);
c++;
} else {
*w = '?';
}
} else if ((*c & 0xf0) == 0xe0) {
if((c[1] & c[2] & 0x80) && ((c[1] | c[2]) & 0x40) == 0x00) {
*w=((c[0] & 0x0f)<<12) | ((c[1]&0x3f)<<6) | (c[2]&0x3f);
c += 2;
} else {
*w = '?';
}
} else if ((*c & 0xf8) == 0xf0) {
if((c[1] & c[2] & c[3] & 0x80) && ((c[1] | c[2] | c[3]) & 0x40) == 0x00) {
*w=((c[0] & 0x07)<<18) | ((c[1]&0x1f)<<12) | ((c[2]&0x3f)<<6) | (c[3]&0x3f);
c += 3;
} else {
*w = '?';
}
} else
*w=(c[0] & 0x7f);
c++;
w++;
len++;
}
return len;
}
/* The vfont code */
void free_vfont(struct VFont *vf)
{
if (vf == 0) return;
if (vf->data) {
while(vf->data->characters.first)
{
VChar *che = vf->data->characters.first;
while (che->nurbsbase.first) {
Nurb *nu = che->nurbsbase.first;
if (nu->bezt) MEM_freeN(nu->bezt);
BLI_freelinkN(&che->nurbsbase, nu);
}
BLI_freelinkN(&vf->data->characters, che);
}
MEM_freeN(vf->data);
vf->data = NULL;
}
if (vf->packedfile) {
freePackedFile(vf->packedfile);
vf->packedfile = NULL;
}
}
static void *builtin_font_data= NULL;
static int builtin_font_size= 0;
void BKE_font_register_builtin(void *mem, int size)
{
builtin_font_data= mem;
builtin_font_size= size;
}
static PackedFile *get_builtin_packedfile(void)
{
if (!builtin_font_data) {
printf("Internal error, builtin font not loaded\n");
return NULL;
} else {
void *mem= MEM_mallocN(builtin_font_size, "vfd_builtin");
memcpy(mem, builtin_font_data, builtin_font_size);
return newPackedFileMemory(mem, builtin_font_size);
}
}
void free_ttfont(void)
{
struct TmpFont *tf;
tf= ttfdata.first;
while(tf) {
freePackedFile(tf->pf);
tf->pf= NULL;
tf->vfont= NULL;
tf= tf->next;
}
BLI_freelistN(&ttfdata);
}
struct TmpFont *vfont_find_tmpfont(VFont *vfont)
{
struct TmpFont *tmpfnt = NULL;
if(vfont==NULL) return NULL;
// Try finding the font from font list
tmpfnt = ttfdata.first;
while(tmpfnt)
{
if(tmpfnt->vfont == vfont)
break;
tmpfnt = tmpfnt->next;
}
return tmpfnt;
}
static VFontData *vfont_get_data(VFont *vfont)
{
struct TmpFont *tmpfnt = NULL;
PackedFile *tpf;
if(vfont==NULL) return NULL;
// Try finding the font from font list
tmpfnt = vfont_find_tmpfont(vfont);
// And then set the data
if (!vfont->data) {
PackedFile *pf;
if (BLI_streq(vfont->name, "<builtin>")) {
pf= get_builtin_packedfile();
} else {
if (vfont->packedfile) {
pf= vfont->packedfile;
// We need to copy a tmp font to memory unless it is already there
if(!tmpfnt)
{
tpf= MEM_callocN(sizeof(*tpf), "PackedFile");
tpf->data= MEM_mallocN(pf->size, "packFile");
tpf->size= pf->size;
memcpy(tpf->data, pf->data, pf->size);
// Add temporary packed file to globals
tmpfnt= (struct TmpFont *) MEM_callocN(sizeof(struct TmpFont), "temp_font");
tmpfnt->pf= tpf;
tmpfnt->vfont= vfont;
BLI_addtail(&ttfdata, tmpfnt);
}
} else {
pf= newPackedFile(NULL, vfont->name);
if(!tmpfnt)
{
tpf= newPackedFile(NULL, vfont->name);
// Add temporary packed file to globals
tmpfnt= (struct TmpFont *) MEM_callocN(sizeof(struct TmpFont), "temp_font");
tmpfnt->pf= tpf;
tmpfnt->vfont= vfont;
BLI_addtail(&ttfdata, tmpfnt);
}
}
if(!pf) {
printf("Font file doesn't exist: %s\n", vfont->name);
strcpy(vfont->name, "<builtin>");
pf= get_builtin_packedfile();
}
}
if (pf) {
vfont->data= BLI_vfontdata_from_freetypefont(pf);
if (pf != vfont->packedfile) {
freePackedFile(pf);
}
}
}
return vfont->data;
}
VFont *load_vfont(char *name)
{
char filename[FILE_MAXFILE];
VFont *vfont= NULL;
PackedFile *pf;
PackedFile *tpf = NULL;
int is_builtin;
struct TmpFont *tmpfnt;
if (BLI_streq(name, "<builtin>")) {
strcpy(filename, name);
pf= get_builtin_packedfile();
is_builtin= 1;
} else {
char dir[FILE_MAXDIR];
strcpy(dir, name);
BLI_splitdirstring(dir, filename);
pf= newPackedFile(NULL, name);
tpf= newPackedFile(NULL, name);
is_builtin= 0;
}
if (pf) {
VFontData *vfd;
vfd= BLI_vfontdata_from_freetypefont(pf);
if (vfd) {
vfont = alloc_libblock(&G.main->vfont, ID_VF, filename);
vfont->data = vfd;
BLI_strncpy(vfont->name, name, sizeof(vfont->name));
// if autopack is on store the packedfile in de font structure
if (!is_builtin && (G.fileflags & G_AUTOPACK)) {
vfont->packedfile = pf;
}
// Do not add <builtin> to temporary listbase
if(strcmp(filename, "<builtin>"))
{
tmpfnt= (struct TmpFont *) MEM_callocN(sizeof(struct TmpFont), "temp_font");
tmpfnt->pf= tpf;
tmpfnt->vfont= vfont;
BLI_addtail(&ttfdata, tmpfnt);
}
}
// Free the packed file
if (!vfont || vfont->packedfile != pf) {
freePackedFile(pf);
}
//XXX waitcursor(0);
}
return vfont;
}
static VFont *which_vfont(Curve *cu, CharInfo *info)
{
switch(info->flag & CU_STYLE) {
case CU_BOLD:
if (cu->vfontb) return(cu->vfontb); else return(cu->vfont);
case CU_ITALIC:
if (cu->vfonti) return(cu->vfonti); else return(cu->vfont);
case (CU_BOLD|CU_ITALIC):
if (cu->vfontbi) return(cu->vfontbi); else return(cu->vfont);
default:
return(cu->vfont);
}
}
VFont *get_builtin_font(void)
{
VFont *vf;
for (vf= G.main->vfont.first; vf; vf= vf->id.next)
if (BLI_streq(vf->name, "<builtin>"))
return vf;
return load_vfont("<builtin>");
}
static void build_underline(Curve *cu, float x1, float y1, float x2, float y2, int charidx, short mat_nr)
{
Nurb *nu2;
BPoint *bp;
nu2 =(Nurb*) MEM_callocN(sizeof(Nurb),"underline_nurb");
if (nu2 == NULL) return;
nu2->resolu= cu->resolu;
nu2->bezt = NULL;
nu2->knotsu = nu2->knotsv = NULL;
nu2->flag= CU_2D;
nu2->charidx = charidx+1000;
if (mat_nr > 0) nu2->mat_nr= mat_nr-1;
nu2->pntsu = 4;
nu2->pntsv = 1;
nu2->orderu = 4;
nu2->orderv = 1;
nu2->flagu = CU_CYCLIC;
bp = (BPoint*)MEM_callocN(4 * sizeof(BPoint),"underline_bp");
if (bp == 0){
MEM_freeN(nu2);
return;
}
nu2->bp = bp;
nu2->bp[0].vec[0] = x1;
nu2->bp[0].vec[1] = y1;
nu2->bp[0].vec[2] = 0;
nu2->bp[0].vec[3] = 1.0;
nu2->bp[1].vec[0] = x2;
nu2->bp[1].vec[1] = y1;
nu2->bp[1].vec[2] = 0;
nu2->bp[1].vec[3] = 1.0;
nu2->bp[2].vec[0] = x2;
nu2->bp[2].vec[1] = y2;
nu2->bp[2].vec[2] = 0;
nu2->bp[2].vec[3] = 1.0;
nu2->bp[3].vec[0] = x1;
nu2->bp[3].vec[1] = y2;
nu2->bp[3].vec[2] = 0;
nu2->bp[3].vec[3] = 1.0;
BLI_addtail(&(cu->nurb), nu2);
}
static void buildchar(Curve *cu, unsigned long character, CharInfo *info, float ofsx, float ofsy, float rot, int charidx)
{
BezTriple *bezt1, *bezt2;
Nurb *nu1 = NULL, *nu2 = NULL;
float *fp, fsize, shear, x, si, co;
VFontData *vfd = NULL;
VChar *che = NULL;
int i, sel=0;
vfd= vfont_get_data(which_vfont(cu, info));
if (!vfd) return;
if (cu->selend < cu->selstart) {
if ((charidx >= (cu->selend)) && (charidx <= (cu->selstart-2)))
sel= 1;
}
else {
if ((charidx >= (cu->selstart-1)) && (charidx <= (cu->selend-1)))
sel= 1;
}
/* make a copy at distance ofsx,ofsy with shear*/
fsize= cu->fsize;
shear= cu->shear;
si= (float)sin(rot);
co= (float)cos(rot);
// Find the correct character from the font
che = vfd->characters.first;
while(che)
{
if(che->index == character)
break;
che = che->next;
}
// Select the glyph data
if(che)
nu1 = che->nurbsbase.first;
// Create the character
while(nu1)
{
bezt1 = nu1->bezt;
if (bezt1){
nu2 =(Nurb*) MEM_mallocN(sizeof(Nurb),"duplichar_nurb");
if (nu2 == 0) break;
memcpy(nu2, nu1, sizeof(struct Nurb));
nu2->resolu= cu->resolu;
nu2->bp = 0;
nu2->knotsu = nu2->knotsv = NULL;
nu2->flag= CU_SMOOTH;
nu2->charidx = charidx;
if (info->mat_nr) {
nu2->mat_nr= info->mat_nr-1;
}
else {
nu2->mat_nr= 0;
}
/* nu2->trim.first = 0; */
/* nu2->trim.last = 0; */
i = nu2->pntsu;
bezt2 = (BezTriple*)MEM_mallocN(i * sizeof(BezTriple),"duplichar_bezt2");
if (bezt2 == 0){
MEM_freeN(nu2);
break;
}
memcpy(bezt2, bezt1, i * sizeof(struct BezTriple));
nu2->bezt = bezt2;
if (shear != 0.0) {
bezt2 = nu2->bezt;
for (i= nu2->pntsu; i > 0; i--) {
bezt2->vec[0][0] += shear * bezt2->vec[0][1];
bezt2->vec[1][0] += shear * bezt2->vec[1][1];
bezt2->vec[2][0] += shear * bezt2->vec[2][1];
bezt2++;
}
}
if(rot!=0.0) {
bezt2= nu2->bezt;
for (i=nu2->pntsu; i > 0; i--) {
fp= bezt2->vec[0];
x= fp[0];
fp[0]= co*x + si*fp[1];
fp[1]= -si*x + co*fp[1];
x= fp[3];
fp[3]= co*x + si*fp[4];
fp[4]= -si*x + co*fp[4];
x= fp[6];
fp[6]= co*x + si*fp[7];
fp[7]= -si*x + co*fp[7];
bezt2++;
}
}
bezt2 = nu2->bezt;
for (i= nu2->pntsu; i > 0; i--) {
fp= bezt2->vec[0];
fp[0]= (fp[0]+ofsx)*fsize;
fp[1]= (fp[1]+ofsy)*fsize;
fp[3]= (fp[3]+ofsx)*fsize;
fp[4]= (fp[4]+ofsy)*fsize;
fp[6]= (fp[6]+ofsx)*fsize;
fp[7]= (fp[7]+ofsy)*fsize;
bezt2++;
}
BLI_addtail(&(cu->nurb), nu2);
}
nu1 = nu1->next;
}
}
int BKE_font_getselection(Object *ob, int *start, int *end)
{
Curve *cu= ob->data;
if (cu->editfont==NULL || ob->type != OB_FONT) return 0;
if (cu->selstart == 0) return 0;
if (cu->selstart <= cu->selend) {
*start = cu->selstart-1;
*end = cu->selend-1;
return 1;
}
else {
*start = cu->selend;
*end = cu->selstart-2;
return -1;
}
}
struct chartrans *BKE_text_to_curve(Scene *scene, Object *ob, int mode)
{
VFont *vfont, *oldvfont;
VFontData *vfd= NULL;
Curve *cu;
CharInfo *info, *custrinfo;
TextBox *tb;
VChar *che;
struct chartrans *chartransdata=NULL, *ct;
float *f, xof, yof, xtrax, linedist, *linedata, *linedata2, *linedata3, *linedata4;
float twidth, maxlen= 0;
int i, slen, j;
int curbox;
int selstart, selend;
int utf8len;
short cnr=0, lnr=0, wsnr= 0;
wchar_t *mem, *tmp, ascii;
/* renark: do calculations including the trailing '\0' of a string
because the cursor can be at that location */
if(ob->type!=OB_FONT) return 0;
// Set font data
cu= (Curve *) ob->data;
vfont= cu->vfont;
if(cu->str == NULL) return 0;
if(vfont == NULL) return 0;
// Create unicode string
utf8len = utf8slen(cu->str);
tmp = mem = MEM_callocN(((utf8len + 1) * sizeof(wchar_t)), "convertedmem");
utf8towchar(mem, cu->str);
// Count the wchar_t string length
slen = wcslen(mem);
if (cu->ulheight == 0.0)
cu->ulheight = 0.05;
if (cu->strinfo==NULL) /* old file */
cu->strinfo = MEM_callocN((slen+4) * sizeof(CharInfo), "strinfo compat");
custrinfo= cu->strinfo;
if (cu->editfont)
custrinfo= cu->editfont->textbufinfo;
if (cu->tb==NULL)
cu->tb= MEM_callocN(MAXTEXTBOX*sizeof(TextBox), "TextBox compat");
vfd= vfont_get_data(vfont);
/* The VFont Data can not be found */
if(!vfd) {
if(mem)
MEM_freeN(mem);
return 0;
}
/* calc offset and rotation of each char */
ct = chartransdata =
(struct chartrans*)MEM_callocN((slen+1)* sizeof(struct chartrans),"buildtext");
/* We assume the worst case: 1 character per line (is freed at end anyway) */
linedata= MEM_mallocN(sizeof(float)*(slen*2 + 1),"buildtext2");
linedata2= MEM_mallocN(sizeof(float)*(slen*2 + 1),"buildtext3");
linedata3= MEM_callocN(sizeof(float)*(slen*2 + 1),"buildtext4");
linedata4= MEM_callocN(sizeof(float)*(slen*2 + 1),"buildtext5");
linedist= cu->linedist;
xof= cu->xof + (cu->tb[0].x/cu->fsize);
yof= cu->yof + (cu->tb[0].y/cu->fsize);
xtrax= 0.5f*cu->spacing-0.5f;
oldvfont = NULL;
for (i=0; i<slen; i++) custrinfo[i].flag &= ~CU_WRAP;
if (cu->selboxes) MEM_freeN(cu->selboxes);
cu->selboxes = NULL;
if (BKE_font_getselection(ob, &selstart, &selend))
cu->selboxes = MEM_callocN((selend-selstart+1)*sizeof(SelBox), "font selboxes");
tb = &(cu->tb[0]);
curbox= 0;
for (i = 0 ; i<=slen ; i++) {
makebreak:
// Characters in the list
che = vfd->characters.first;
ascii = mem[i];
info = &(custrinfo[i]);
vfont = which_vfont(cu, info);
if(vfont==NULL) break;
// Find the character
while(che) {
if(che->index == ascii)
break;
che = che->next;
}
/*
* The character wasn't in the current curve base so load it
* But if the font is <builtin> then do not try loading since
* whole font is in the memory already
*/
if(che == NULL && strcmp(vfont->name, "<builtin>")) {
BLI_vfontchar_from_freetypefont(vfont, ascii);
}
/* Try getting the character again from the list */
che = vfd->characters.first;
while(che) {
if(che->index == ascii)
break;
che = che->next;
}
/* No VFont found */
if (vfont==0) {
if(mem)
MEM_freeN(mem);
MEM_freeN(chartransdata);
return 0;
}
if (vfont != oldvfont) {
vfd= vfont_get_data(vfont);
oldvfont = vfont;
}
/* VFont Data for VFont couldn't be found */
if (!vfd) {
if(mem)
MEM_freeN(mem);
MEM_freeN(chartransdata);
return 0;
}
// The character wasn't found, propably ascii = 0, then the width shall be 0 as well
if(!che)
twidth = 0;
else
twidth = che->width;
// Calculate positions
if((tb->w != 0.0) && (ct->dobreak==0) && ((xof-(tb->x/cu->fsize)+twidth)*cu->fsize) > tb->w) {
// fprintf(stderr, "linewidth exceeded: %c%c%c...\n", mem[i], mem[i+1], mem[i+2]);
for (j=i; j && (mem[j] != '\n') && (mem[j] != '\r') && (chartransdata[j].dobreak==0); j--) {
if (mem[j]==' ' || mem[j]=='-') {
ct -= (i-(j-1));
cnr -= (i-(j-1));
if (mem[j] == ' ') wsnr--;
if (mem[j] == '-') wsnr++;
i = j-1;
xof = ct->xof;
ct[1].dobreak = 1;
custrinfo[i+1].flag |= CU_WRAP;
goto makebreak;
}
if (chartransdata[j].dobreak) {
// fprintf(stderr, "word too long: %c%c%c...\n", mem[j], mem[j+1], mem[j+2]);
ct->dobreak= 1;
custrinfo[i+1].flag |= CU_WRAP;
ct -= 1;
cnr -= 1;
i--;
xof = ct->xof;
goto makebreak;
}
}
}
if(ascii== '\n' || ascii== '\r' || ascii==0 || ct->dobreak) {
ct->xof= xof;
ct->yof= yof;
ct->linenr= lnr;
ct->charnr= cnr;
yof-= linedist;
maxlen= MAX2(maxlen, (xof-tb->x/cu->fsize));
linedata[lnr]= xof-tb->x/cu->fsize;
linedata2[lnr]= cnr;
linedata3[lnr]= tb->w/cu->fsize;
linedata4[lnr]= wsnr;
if ( (tb->h != 0.0) &&
((-(yof-(tb->y/cu->fsize))) > ((tb->h/cu->fsize)-(linedist*cu->fsize))) &&
(cu->totbox > (curbox+1)) ) {
maxlen= 0;
tb++;
curbox++;
yof= cu->yof + tb->y/cu->fsize;
}
if(ascii == '\n' || ascii == '\r')
xof = cu->xof;
else
xof= cu->xof + (tb->x/cu->fsize);
xof= cu->xof + (tb->x/cu->fsize);
lnr++;
cnr= 0;
wsnr= 0;
}
else if(ascii==9) { /* TAB */
float tabfac;
ct->xof= xof;
ct->yof= yof;
ct->linenr= lnr;
ct->charnr= cnr++;
tabfac= (xof-cu->xof+0.01f);
tabfac= (float)(2.0*ceil(tabfac/2.0));
xof= cu->xof+tabfac;
}
else {
SelBox *sb= NULL;
float wsfac;
ct->xof= xof;
ct->yof= yof;
ct->linenr= lnr;
ct->charnr= cnr++;
if (cu->selboxes && (i>=selstart) && (i<=selend)) {
sb = &(cu->selboxes[i-selstart]);
sb->y = yof*cu->fsize-linedist*cu->fsize*0.1;
sb->h = linedist*cu->fsize;
sb->w = xof*cu->fsize;
}
if (ascii==32) {
wsfac = cu->wordspace;
wsnr++;
}
else wsfac = 1.0;
// Set the width of the character
if(!che)
twidth = 0;
else
twidth = che->width;
xof += (twidth*wsfac*(1.0+(info->kern/40.0)) ) + xtrax;
if (sb)
sb->w = (xof*cu->fsize) - sb->w;
}
ct++;
}
cu->lines= 1;
ct= chartransdata;
tmp = mem;
for (i= 0; i<=slen; i++, tmp++, ct++) {
ascii = *tmp;
if(ascii== '\n' || ascii== '\r' || ct->dobreak) cu->lines++;
}
// linedata is now: width of line
// linedata2 is now: number of characters
// linedata3 is now: maxlen of that line
// linedata4 is now: number of whitespaces of line
if(cu->spacemode!=CU_LEFT) {
ct= chartransdata;
if(cu->spacemode==CU_RIGHT) {
for(i=0;i<lnr;i++) linedata[i]= linedata3[i]-linedata[i];
for (i=0; i<=slen; i++) {
ct->xof+= linedata[ct->linenr];
ct++;
}
} else if(cu->spacemode==CU_MIDDLE) {
for(i=0;i<lnr;i++) linedata[i]= (linedata3[i]-linedata[i])/2;
for (i=0; i<=slen; i++) {
ct->xof+= linedata[ct->linenr];
ct++;
}
} else if((cu->spacemode==CU_FLUSH) &&
(cu->tb[0].w != 0.0)) {
for(i=0;i<lnr;i++)
if(linedata2[i]>1)
linedata[i]= (linedata3[i]-linedata[i])/(linedata2[i]-1);
for (i=0; i<=slen; i++) {
for (j=i; (mem[j]) && (mem[j]!='\n') &&
(mem[j]!='\r') && (chartransdata[j].dobreak==0) && (j<slen); j++);
// if ((mem[j]!='\r') && (mem[j]!='\n') && (mem[j])) {
ct->xof+= ct->charnr*linedata[ct->linenr];
// }
ct++;
}
}
else if((cu->spacemode==CU_JUSTIFY) && (cu->tb[0].w != 0.0)) {
float curofs= 0.0f;
for (i=0; i<=slen; i++) {
for (j=i; (mem[j]) && (mem[j]!='\n') &&
(mem[j]!='\r') && (chartransdata[j].dobreak==0) && (j<slen); j++);
if ((mem[j]!='\r') && (mem[j]!='\n') &&
((chartransdata[j].dobreak!=0))) {
if (mem[i]==' ') curofs += (linedata3[ct->linenr]-linedata[ct->linenr])/linedata4[ct->linenr];
ct->xof+= curofs;
}
if (mem[i]=='\n' || mem[i]=='\r' || chartransdata[i].dobreak) curofs= 0;
ct++;
}
}
}
/* TEXT ON CURVE */
if(cu->textoncurve) {
Curve *cucu= cu->textoncurve->data;
int oldflag= cucu->flag;
cucu->flag |= (CU_PATH+CU_FOLLOW);
if(cucu->path==NULL) makeDispListCurveTypes(scene, cu->textoncurve, 0);
if(cucu->path) {
float distfac, imat[4][4], imat3[3][3], cmat[3][3];
float minx, maxx, miny, maxy;
float timeofs, sizefac;
invert_m4_m4(imat, ob->obmat);
copy_m3_m4(imat3, imat);
copy_m3_m4(cmat, cu->textoncurve->obmat);
mul_m3_m3m3(cmat, cmat, imat3);
sizefac= normalize_v3(cmat[0])/cu->fsize;
minx=miny= 1.0e20f;
maxx=maxy= -1.0e20f;
ct= chartransdata;
for (i=0; i<=slen; i++, ct++) {
if(minx>ct->xof) minx= ct->xof;
if(maxx<ct->xof) maxx= ct->xof;
if(miny>ct->yof) miny= ct->yof;
if(maxy<ct->yof) maxy= ct->yof;
}
/* we put the x-coordinaat exact at the curve, the y is rotated */
/* length correction */
distfac= sizefac*cucu->path->totdist/(maxx-minx);
timeofs= 0.0;
if(distfac > 1.0) {
/* path longer than text: spacemode involves */
distfac= 1.0f/distfac;
if(cu->spacemode==CU_RIGHT) {
timeofs= 1.0f-distfac;
}
else if(cu->spacemode==CU_MIDDLE) {
timeofs= (1.0f-distfac)/2.0f;
}
else if(cu->spacemode==CU_FLUSH) distfac= 1.0f;
}
else distfac= 1.0;
distfac/= (maxx-minx);
timeofs+= distfac*cu->xof; /* not cyclic */
ct= chartransdata;
for (i=0; i<=slen; i++, ct++) {
float ctime, dtime, vec[4], tvec[4], rotvec[3];
float si, co;
/* rotate around center character */
ascii = mem[i];
// Find the character
che = vfd->characters.first;
while(che) {
if(che->index == ascii)
break;
che = che->next;
}
if(che)
twidth = che->width;
else
twidth = 0;
dtime= distfac*0.35f*twidth; /* why not 0.5? */
dtime= distfac*0.5f*twidth; /* why not 0.5? */
ctime= timeofs + distfac*( ct->xof - minx);
CLAMP(ctime, 0.0, 1.0);
/* calc the right loc AND the right rot separately */
/* vec, tvec need 4 items */
where_on_path(cu->textoncurve, ctime, vec, tvec, NULL, NULL);
where_on_path(cu->textoncurve, ctime+dtime, tvec, rotvec, NULL, NULL);
mul_v3_fl(vec, sizefac);
ct->rot= (float)(M_PI-atan2(rotvec[1], rotvec[0]));
si= (float)sin(ct->rot);
co= (float)cos(ct->rot);
yof= ct->yof;
ct->xof= vec[0] + si*yof;
ct->yof= vec[1] + co*yof;
}
cucu->flag= oldflag;
}
}
if (cu->selboxes) {
ct= chartransdata;
for (i=0; i<=selend; i++, ct++) {
if (i>=selstart) {
cu->selboxes[i-selstart].x = ct->xof*cu->fsize;
cu->selboxes[i-selstart].y = ct->yof*cu->fsize;
}
}
}
if(mode==FO_CURSUP || mode==FO_CURSDOWN || mode==FO_PAGEUP || mode==FO_PAGEDOWN) {
/* 2: curs up
3: curs down */
ct= chartransdata+cu->pos;
if((mode==FO_CURSUP || mode==FO_PAGEUP) && ct->linenr==0);
else if((mode==FO_CURSDOWN || mode==FO_PAGEDOWN) && ct->linenr==lnr);
else {
switch(mode) {
case FO_CURSUP: lnr= ct->linenr-1; break;
case FO_CURSDOWN: lnr= ct->linenr+1; break;
case FO_PAGEUP: lnr= ct->linenr-10; break;
case FO_PAGEDOWN: lnr= ct->linenr+10; break;
}
cnr= ct->charnr;
/* seek for char with lnr en cnr */
cu->pos= 0;
ct= chartransdata;
for (i= 0; i<slen; i++) {
if(ct->linenr==lnr) {
if(ct->charnr==cnr) break;
if( (ct+1)->charnr==0) break;
}
else if(ct->linenr>lnr) break;
cu->pos++;
ct++;
}
}
}
/* cursor first */
if(cu->editfont) {
float si, co;
ct= chartransdata+cu->pos;
si= (float)sin(ct->rot);
co= (float)cos(ct->rot);
f= cu->editfont->textcurs[0];
f[0]= cu->fsize*(-0.1f*co + ct->xof);
f[1]= cu->fsize*(0.1f*si + ct->yof);
f[2]= cu->fsize*(0.1f*co + ct->xof);
f[3]= cu->fsize*(-0.1f*si + ct->yof);
f[4]= cu->fsize*( 0.1f*co + 0.8f*si + ct->xof);
f[5]= cu->fsize*(-0.1f*si + 0.8f*co + ct->yof);
f[6]= cu->fsize*(-0.1f*co + 0.8f*si + ct->xof);
f[7]= cu->fsize*( 0.1f*si + 0.8f*co + ct->yof);
}
MEM_freeN(linedata);
MEM_freeN(linedata2);
MEM_freeN(linedata3);
MEM_freeN(linedata4);
if (mode == FO_SELCHANGE) {
MEM_freeN(chartransdata);
MEM_freeN(mem);
return NULL;
}
if(mode==0) {
/* make nurbdata */
unsigned long cha;
freeNurblist(&cu->nurb);
ct= chartransdata;
if (cu->sepchar==0) {
for (i= 0; i<slen; i++) {
cha = (uintptr_t) mem[i];
info = &(custrinfo[i]);
if (info->mat_nr > (ob->totcol)) {
/* printf("Error: Illegal material index (%d) in text object, setting to 0\n", info->mat_nr); */
info->mat_nr = 0;
}
// We do not want to see any character for \n or \r
if(cha != '\n' && cha != '\r')
buildchar(cu, cha, info, ct->xof, ct->yof, ct->rot, i);
if ((info->flag & CU_UNDERLINE) && (cu->textoncurve == NULL) && (cha != '\n') && (cha != '\r')) {
float ulwidth, uloverlap= 0.0f;
if ( (i<(slen-1)) && (mem[i+1] != '\n') && (mem[i+1] != '\r') &&
((mem[i+1] != ' ') || (custrinfo[i+1].flag & CU_UNDERLINE)) && ((custrinfo[i+1].flag & CU_WRAP)==0)
) {
uloverlap = xtrax + 0.1;
}
// Find the character, the characters has to be in the memory already
// since character checking has been done earlier already.
che = vfd->characters.first;
while(che) {
if(che->index == cha)
break;
che = che->next;
}
if(!che) twidth =0; else twidth=che->width;
ulwidth = cu->fsize * ((twidth* (1.0+(info->kern/40.0)))+uloverlap);
build_underline(cu, ct->xof*cu->fsize, ct->yof*cu->fsize + (cu->ulpos-0.05)*cu->fsize,
ct->xof*cu->fsize + ulwidth,
ct->yof*cu->fsize + (cu->ulpos-0.05)*cu->fsize - cu->ulheight*cu->fsize,
i, info->mat_nr);
}
ct++;
}
}
else {
int outta = 0;
for (i= 0; (i<slen) && (outta==0); i++) {
ascii = mem[i];
info = &(custrinfo[i]);
if (cu->sepchar == (i+1)) {
float vecyo[3];
mem[0] = ascii;
mem[1] = 0;
custrinfo[0]= *info;
cu->pos = 1;
cu->len = 1;
vecyo[0] = ct->xof;
vecyo[1] = ct->yof;
vecyo[2] = 0;
mul_m4_v3(ob->obmat, vecyo);
VECCOPY(ob->loc, vecyo);
outta = 1;
cu->sepchar = 0;
}
ct++;
}
}
}
if(mode==FO_DUPLI) {
MEM_freeN(mem);
return chartransdata;
}
if(mem)
MEM_freeN(mem);
MEM_freeN(chartransdata);
return 0;
}
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