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blender-archive/source/blender/blenkernel/intern/font.c
Bastien Montagne e5916187e8 First step to handle missing libs/datablocks when reading a file. 
Idea is, instead of ignoring completely missing linked datablocks, to
create void placeholders for them.

That way, you can work on your file, save it, and find again your missing data once
lib becomes available again. Or you can edit missing lib's path (in Outliner),
save and reload the file, and you are done.

Also, Outliner now shows broken libraries (and placeholders) with a 'broken lib' icon.

Future plans are also to be able to relocate missing libs and reload them at runtime.

Code notes:
    - Placeholder ID is just a regular datablock of same type as expected linked one,
      with 'default' data, and a LIB_MISSING bitflag set.
    - To allow creation of such datablocks, creation of datablocks in BKE was split in two step:
        + Allocation of memory itself.
        + Setting of all internal data to default values.

See also the design task (T43351).

Reviewed by @campbellbarton, thanks a bunch!

Differential Revision: https://developer.blender.org/D1394
2015-10-20 14:44:57 +02:00

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/*
* ***** 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, 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 *****
*/
/** \file blender/blenkernel/intern/font.c
* \ingroup bke
*/
#include <stdio.h>
#include <string.h>
#include <math.h>
#include <stdlib.h>
#include <wchar.h>
#include <wctype.h>
#include "MEM_guardedalloc.h"
#include "BLI_utildefines.h"
#include "BLI_path_util.h"
#include "BLI_listbase.h"
#include "BLI_ghash.h"
#include "BLI_string.h"
#include "BLI_string_utf8.h"
#include "BLI_math.h"
#include "BLI_threads.h"
#include "BLI_vfontdata.h"
#include "DNA_packedFile_types.h"
#include "DNA_curve_types.h"
#include "DNA_vfont_types.h"
#include "DNA_object_types.h"
#include "BKE_packedFile.h"
#include "BKE_library.h"
#include "BKE_font.h"
#include "BKE_global.h"
#include "BKE_main.h"
#include "BKE_anim.h"
#include "BKE_curve.h"
static ThreadRWMutex vfont_rwlock = BLI_RWLOCK_INITIALIZER;
/* The vfont code */
void BKE_vfont_free_data(struct VFont *vfont)
{
if (vfont->data) {
if (vfont->data->characters) {
GHashIterator gh_iter;
GHASH_ITER (gh_iter, vfont->data->characters) {
VChar *che = BLI_ghashIterator_getValue(&gh_iter);
while (che->nurbsbase.first) {
Nurb *nu = che->nurbsbase.first;
if (nu->bezt) MEM_freeN(nu->bezt);
BLI_freelinkN(&che->nurbsbase, nu);
}
MEM_freeN(che);
}
BLI_ghash_free(vfont->data->characters, NULL, NULL);
}
MEM_freeN(vfont->data);
vfont->data = NULL;
}
if (vfont->temp_pf) {
freePackedFile(vfont->temp_pf); /* NULL when the font file can't be found on disk */
vfont->temp_pf = NULL;
}
}
void BKE_vfont_free(struct VFont *vf)
{
if (vf == NULL) return;
BKE_vfont_free_data(vf);
if (vf->packedfile) {
freePackedFile(vf->packedfile);
vf->packedfile = NULL;
}
}
static void *builtin_font_data = NULL;
static int builtin_font_size = 0;
bool BKE_vfont_is_builtin(struct VFont *vfont)
{
return STREQ(vfont->name, FO_BUILTIN_NAME);
}
void BKE_vfont_builtin_register(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);
}
}
static VFontData *vfont_get_data(Main *bmain, VFont *vfont)
{
if (vfont == NULL) {
return NULL;
}
/* And then set the data */
if (!vfont->data) {
PackedFile *pf;
BLI_rw_mutex_lock(&vfont_rwlock, THREAD_LOCK_WRITE);
if (vfont->data) {
/* Check data again, since it might have been already
* initialized from other thread (previous check is
* not accurate or threading, just prevents unneeded
* lock if all the data is here for sure).
*/
BLI_rw_mutex_unlock(&vfont_rwlock);
return vfont->data;
}
if (BKE_vfont_is_builtin(vfont)) {
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 (vfont->temp_pf == NULL) {
vfont->temp_pf = dupPackedFile(pf);
}
}
else {
pf = newPackedFile(NULL, vfont->name, ID_BLEND_PATH(bmain, &vfont->id));
if (vfont->temp_pf == NULL) {
vfont->temp_pf = newPackedFile(NULL, vfont->name, ID_BLEND_PATH(bmain, &vfont->id));
}
}
if (!pf) {
printf("Font file doesn't exist: %s\n", vfont->name);
/* DON'T DO THIS
* missing file shouldn't modify path! - campbell */
#if 0
strcpy(vfont->name, FO_BUILTIN_NAME);
#endif
pf = get_builtin_packedfile();
}
}
if (pf) {
vfont->data = BLI_vfontdata_from_freetypefont(pf);
if (pf != vfont->packedfile) {
freePackedFile(pf);
}
}
BLI_rw_mutex_unlock(&vfont_rwlock);
}
return vfont->data;
}
/* Bad naming actually in this case... */
void BKE_vfont_init(VFont *vfont)
{
PackedFile *pf = get_builtin_packedfile();
if (pf) {
VFontData *vfd;
vfd = BLI_vfontdata_from_freetypefont(pf);
if (vfd) {
vfont->data = vfd;
BLI_strncpy(vfont->name, FO_BUILTIN_NAME, sizeof(vfont->name));
}
/* Free the packed file */
freePackedFile(pf);
}
}
VFont *BKE_vfont_load(Main *bmain, const char *filepath)
{
char filename[FILE_MAXFILE];
VFont *vfont = NULL;
PackedFile *pf;
PackedFile *temp_pf = NULL;
bool is_builtin;
if (STREQ(filepath, FO_BUILTIN_NAME)) {
BLI_strncpy(filename, filepath, sizeof(filename));
pf = get_builtin_packedfile();
is_builtin = true;
}
else {
BLI_split_file_part(filepath, filename, sizeof(filename));
pf = newPackedFile(NULL, filepath, bmain->name);
temp_pf = newPackedFile(NULL, filepath, bmain->name);
is_builtin = false;
}
if (pf) {
VFontData *vfd;
vfd = BLI_vfontdata_from_freetypefont(pf);
if (vfd) {
vfont = BKE_libblock_alloc(bmain, ID_VF, filename);
vfont->data = vfd;
/* if there's a font name, use it for the ID name */
if (vfd->name[0] != '\0') {
BLI_strncpy(vfont->id.name + 2, vfd->name, sizeof(vfont->id.name) - 2);
}
BLI_strncpy(vfont->name, filepath, 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 FO_BUILTIN_NAME to temporary listbase */
if (!STREQ(filename, FO_BUILTIN_NAME)) {
vfont->temp_pf = temp_pf;
}
}
/* Free the packed file */
if (!vfont || vfont->packedfile != pf) {
freePackedFile(pf);
}
}
return vfont;
}
VFont *BKE_vfont_load_exists_ex(struct Main *bmain, const char *filepath, bool *r_exists)
{
VFont *vfont;
char str[FILE_MAX], strtest[FILE_MAX];
BLI_strncpy(str, filepath, sizeof(str));
BLI_path_abs(str, bmain->name);
/* first search an identical filepath */
for (vfont = bmain->vfont.first; vfont; vfont = vfont->id.next) {
BLI_strncpy(strtest, vfont->name, sizeof(vfont->name));
BLI_path_abs(strtest, ID_BLEND_PATH(bmain, &vfont->id));
if (BLI_path_cmp(strtest, str) == 0) {
vfont->id.us++; /* officially should not, it doesn't link here! */
if (r_exists)
*r_exists = true;
return vfont;
}
}
if (r_exists)
*r_exists = false;
return BKE_vfont_load(bmain, filepath);
}
VFont *BKE_vfont_load_exists(struct Main *bmain, const char *filepath)
{
return BKE_vfont_load_exists_ex(bmain, filepath, NULL);
}
static VFont *which_vfont(Curve *cu, CharInfo *info)
{
switch (info->flag & (CU_CHINFO_BOLD | CU_CHINFO_ITALIC)) {
case CU_CHINFO_BOLD:
return cu->vfontb ? cu->vfontb : cu->vfont;
case CU_CHINFO_ITALIC:
return cu->vfonti ? cu->vfonti : cu->vfont;
case (CU_CHINFO_BOLD | CU_CHINFO_ITALIC):
return cu->vfontbi ? cu->vfontbi : cu->vfont;
default:
return cu->vfont;
}
}
VFont *BKE_vfont_builtin_get(void)
{
VFont *vfont;
for (vfont = G.main->vfont.first; vfont; vfont = vfont->id.next) {
if (BKE_vfont_is_builtin(vfont)) {
return vfont;
}
}
return BKE_vfont_load(G.main, FO_BUILTIN_NAME);
}
static VChar *find_vfont_char(VFontData *vfd, unsigned int character)
{
return BLI_ghash_lookup(vfd->characters, SET_UINT_IN_POINTER(character));
}
static void build_underline(Curve *cu, ListBase *nubase, const rctf *rect,
float yofs, float rot, int charidx, short mat_nr)
{
Nurb *nu2;
BPoint *bp;
nu2 = (Nurb *) MEM_callocN(sizeof(Nurb), "underline_nurb");
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_NURB_CYCLIC;
bp = (BPoint *)MEM_callocN(4 * sizeof(BPoint), "underline_bp");
copy_v4_fl4(bp[0].vec, rect->xmin, (rect->ymax + yofs), 0.0f, 1.0f);
copy_v4_fl4(bp[1].vec, rect->xmax, (rect->ymax + yofs), 0.0f, 1.0f);
copy_v4_fl4(bp[2].vec, rect->xmax, (rect->ymin + yofs), 0.0f, 1.0f);
copy_v4_fl4(bp[3].vec, rect->xmin, (rect->ymin + yofs), 0.0f, 1.0f);
nu2->bp = bp;
BLI_addtail(nubase, nu2);
if (rot != 0.0f) {
float si, co;
int i;
si = sinf(rot);
co = cosf(rot);
for (i = nu2->pntsu; i > 0; i--) {
float *fp;
float x, y;
fp = bp->vec;
x = fp[0] - rect->xmin;
y = fp[1] - rect->ymin;
fp[0] = (+co * x + si * y) + rect->xmin;
fp[1] = (-si * x + co * y) + rect->ymin;
bp++;
}
bp = nu2->bp;
}
mul_v2_fl(bp[0].vec, cu->fsize);
mul_v2_fl(bp[1].vec, cu->fsize);
mul_v2_fl(bp[2].vec, cu->fsize);
mul_v2_fl(bp[3].vec, cu->fsize);
}
static void buildchar(Main *bmain, Curve *cu, ListBase *nubase, unsigned int 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;
vfd = vfont_get_data(bmain, which_vfont(cu, info));
if (!vfd) return;
#if 0
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;
}
#endif
/* make a copy at distance ofsx, ofsy with shear */
fsize = cu->fsize;
shear = cu->shear;
si = sinf(rot);
co = cosf(rot);
che = find_vfont_char(vfd, character);
/* 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 == NULL) break;
memcpy(nu2, nu1, sizeof(struct Nurb));
nu2->resolu = cu->resolu;
nu2->bp = NULL;
nu2->knotsu = nu2->knotsv = NULL;
nu2->flag = CU_SMOOTH;
nu2->charidx = charidx;
if (info->mat_nr > 0) {
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 == NULL) {
MEM_freeN(nu2);
break;
}
memcpy(bezt2, bezt1, i * sizeof(struct BezTriple));
nu2->bezt = bezt2;
if (shear != 0.0f) {
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 != 0.0f) {
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;
if (info->flag & CU_CHINFO_SMALLCAPS_CHECK) {
const float sca = cu->smallcaps_scale;
for (i = nu2->pntsu; i > 0; i--) {
fp = bezt2->vec[0];
fp[0] *= sca;
fp[1] *= sca;
fp[3] *= sca;
fp[4] *= sca;
fp[6] *= sca;
fp[7] *= sca;
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(nubase, nu2);
}
nu1 = nu1->next;
}
}
int BKE_vfont_select_get(Object *ob, int *r_start, int *r_end)
{
Curve *cu = ob->data;
EditFont *ef = cu->editfont;
int start, end, direction;
if ((ob->type != OB_FONT) || (ef == NULL)) return 0;
BLI_assert(ef->len >= 0);
BLI_assert(ef->selstart >= 0 && ef->selstart <= ef->len + 1);
BLI_assert(ef->selend >= 0 && ef->selend <= ef->len);
BLI_assert(ef->pos >= 0 && ef->pos <= ef->len);
if (ef->selstart == 0) {
return 0;
}
if (ef->selstart <= ef->selend) {
start = ef->selstart - 1;
end = ef->selend - 1;
direction = 1;
}
else {
start = ef->selend;
end = ef->selstart - 2;
direction = -1;
}
if (start == end + 1) {
return 0;
}
else {
BLI_assert(start < end + 1);
*r_start = start;
*r_end = end;
return direction;
}
}
void BKE_vfont_select_clamp(Object *ob)
{
Curve *cu = ob->data;
EditFont *ef = cu->editfont;
BLI_assert((ob->type == OB_FONT) && ef);
CLAMP_MAX(ef->pos, ef->len);
CLAMP_MAX(ef->selstart, ef->len + 1);
CLAMP_MAX(ef->selend, ef->len);
}
static float char_width(Curve *cu, VChar *che, CharInfo *info)
{
/* The character wasn't found, propably ascii = 0, then the width shall be 0 as well */
if (che == NULL) {
return 0.0f;
}
else if (info->flag & CU_CHINFO_SMALLCAPS_CHECK) {
return che->width * cu->smallcaps_scale;
}
else {
return che->width;
}
}
static void textbox_scale(TextBox *tb_dst, const TextBox *tb_src, float scale)
{
tb_dst->x = tb_src->x * scale;
tb_dst->y = tb_src->y * scale;
tb_dst->w = tb_src->w * scale;
tb_dst->h = tb_src->h * scale;
}
/**
* Used for storing per-line data for alignment & wrapping.
*/
struct TempLineInfo {
float x_min; /* left margin */
float x_max; /* right margin */
int char_nr; /* number of characters */
int wspace_nr; /* number of whitespaces of line */
};
bool BKE_vfont_to_curve_ex(Main *bmain, Object *ob, int mode, ListBase *r_nubase,
const wchar_t **r_text, int *r_text_len, bool *r_text_free,
struct CharTrans **r_chartransdata)
{
Curve *cu = ob->data;
EditFont *ef = cu->editfont;
EditFontSelBox *selboxes = NULL;
VFont *vfont, *oldvfont;
VFontData *vfd = NULL;
CharInfo *info = NULL, *custrinfo;
TextBox tb_scale;
bool use_textbox;
VChar *che;
struct CharTrans *chartransdata = NULL, *ct;
struct TempLineInfo *lineinfo;
float *f, xof, yof, xtrax, linedist;
float twidth, maxlen = 0;
int i, slen, j;
int curbox;
int selstart, selend;
int cnr = 0, lnr = 0, wsnr = 0;
const wchar_t *mem;
wchar_t ascii;
bool ok = false;
const float xof_scale = cu->xof / cu->fsize;
const float yof_scale = cu->yof / cu->fsize;
#define MARGIN_X_MIN (xof_scale + tb_scale.x)
#define MARGIN_Y_MIN (yof_scale + tb_scale.y)
/* remark: do calculations including the trailing '\0' of a string
* because the cursor can be at that location */
BLI_assert(ob->type == OB_FONT);
/* Set font data */
vfont = cu->vfont;
if (cu->str == NULL) return ok;
if (vfont == NULL) return ok;
vfd = vfont_get_data(bmain, vfont);
/* The VFont Data can not be found */
if (!vfd) return ok;
if (ef) {
slen = ef->len;
mem = ef->textbuf;
custrinfo = ef->textbufinfo;
}
else {
wchar_t *mem_tmp;
slen = cu->len_wchar;
/* Create unicode string */
mem_tmp = MEM_mallocN(((slen + 1) * sizeof(wchar_t)), "convertedmem");
BLI_strncpy_wchar_from_utf8(mem_tmp, cu->str, slen + 1);
if (cu->strinfo == NULL) { /* old file */
cu->strinfo = MEM_callocN((slen + 4) * sizeof(CharInfo), "strinfo compat");
}
custrinfo = cu->strinfo;
mem = mem_tmp;
}
if (cu->tb == NULL)
cu->tb = MEM_callocN(MAXTEXTBOX * sizeof(TextBox), "TextBox compat");
if (ef) {
if (ef->selboxes)
MEM_freeN(ef->selboxes);
if (BKE_vfont_select_get(ob, &selstart, &selend))
ef->selboxes = MEM_callocN((selend - selstart + 1) * sizeof(EditFontSelBox), "font selboxes");
else
ef->selboxes = NULL;
selboxes = ef->selboxes;
}
/* calc offset and rotation of each char */
ct = chartransdata = MEM_callocN((slen + 1) * sizeof(struct CharTrans), "buildtext");
/* We assume the worst case: 1 character per line (is freed at end anyway) */
lineinfo = MEM_mallocN(sizeof(*lineinfo) * (slen * 2 + 1), "lineinfo");
linedist = cu->linedist;
curbox = 0;
textbox_scale(&tb_scale, &cu->tb[curbox], 1.0f / cu->fsize);
use_textbox = (tb_scale.w != 0.0f);
xof = MARGIN_X_MIN;
yof = MARGIN_Y_MIN;
xtrax = 0.5f * cu->spacing - 0.5f;
oldvfont = NULL;
for (i = 0; i < slen; i++) {
custrinfo[i].flag &= ~(CU_CHINFO_WRAP | CU_CHINFO_SMALLCAPS_CHECK);
}
for (i = 0; i <= slen; i++) {
makebreak:
/* Characters in the list */
info = &custrinfo[i];
ascii = mem[i];
if (info->flag & CU_CHINFO_SMALLCAPS) {
ascii = towupper(ascii);
if (mem[i] != ascii) {
info->flag |= CU_CHINFO_SMALLCAPS_CHECK;
}
}
vfont = which_vfont(cu, info);
if (vfont == NULL) break;
if (vfont != oldvfont) {
vfd = vfont_get_data(bmain, vfont);
oldvfont = vfont;
}
/* VFont Data for VFont couldn't be found */
if (!vfd) {
MEM_freeN(chartransdata);
chartransdata = NULL;
MEM_freeN(lineinfo);
goto finally;
}
if (!ELEM(ascii, '\n', '\0')) {
BLI_rw_mutex_lock(&vfont_rwlock, THREAD_LOCK_READ);
che = find_vfont_char(vfd, ascii);
BLI_rw_mutex_unlock(&vfont_rwlock);
/*
* The character wasn't in the current curve base so load it
* But if the font is built-in then do not try loading since
* whole font is in the memory already
*/
if (che == NULL && BKE_vfont_is_builtin(vfont) == false) {
BLI_rw_mutex_lock(&vfont_rwlock, THREAD_LOCK_WRITE);
/* Check it once again, char might have been already load
* between previous BLI_rw_mutex_unlock() and this BLI_rw_mutex_lock().
*
* Such a check should not be a bottleneck since it wouldn't
* happen often once all the chars are load.
*/
if ((che = find_vfont_char(vfd, ascii)) == NULL) {
che = BLI_vfontchar_from_freetypefont(vfont, ascii);
}
BLI_rw_mutex_unlock(&vfont_rwlock);
}
}
else {
che = NULL;
}
twidth = char_width(cu, che, info);
/* Calculate positions */
if ((tb_scale.w != 0.0f) &&
(ct->dobreak == 0) &&
(((xof - tb_scale.x) + twidth) > xof_scale + tb_scale.w))
{
// fprintf(stderr, "linewidth exceeded: %c%c%c...\n", mem[i], mem[i+1], mem[i+2]);
for (j = i; j && (mem[j] != '\n') && (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_CHINFO_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_CHINFO_WRAP;
ct -= 1;
cnr -= 1;
i--;
xof = ct->xof;
goto makebreak;
}
}
}
if (ascii == '\n' || ascii == 0 || ct->dobreak) {
ct->xof = xof;
ct->yof = yof;
ct->linenr = lnr;
ct->charnr = cnr;
yof -= linedist;
lineinfo[lnr].x_min = (xof - xtrax) - tb_scale.x;
lineinfo[lnr].x_max = tb_scale.w;
lineinfo[lnr].char_nr = cnr;
lineinfo[lnr].wspace_nr = wsnr;
CLAMP_MIN(maxlen, lineinfo[lnr].x_min);
if ((tb_scale.h != 0.0f) &&
(cu->totbox > (curbox + 1)) &&
((-(yof - tb_scale.y)) > (tb_scale.h - linedist) - yof_scale))
{
maxlen = 0;
curbox++;
textbox_scale(&tb_scale, &cu->tb[curbox], 1.0f / cu->fsize);
yof = MARGIN_Y_MIN;
}
/* XXX, has been unused for years, need to check if this is useful, r4613 r5282 - campbell */
#if 0
if (ascii == '\n')
xof = xof_scale;
else
xof = MARGIN_X_MIN;
#else
xof = MARGIN_X_MIN;
#endif
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 - MARGIN_X_MIN + 0.01f);
tabfac = 2.0f * ceilf(tabfac / 2.0f);
xof = MARGIN_X_MIN + tabfac;
}
else {
EditFontSelBox *sb = NULL;
float wsfac;
ct->xof = xof;
ct->yof = yof;
ct->linenr = lnr;
ct->charnr = cnr++;
if (selboxes && (i >= selstart) && (i <= selend)) {
sb = &selboxes[i - selstart];
sb->y = yof * cu->fsize - linedist * cu->fsize * 0.1f;
sb->h = linedist * cu->fsize;
sb->w = xof * cu->fsize;
}
if (ascii == 32) {
wsfac = cu->wordspace;
wsnr++;
}
else {
wsfac = 1.0f;
}
/* Set the width of the character */
twidth = char_width(cu, che, info);
xof += (twidth * wsfac * (1.0f + (info->kern / 40.0f)) ) + xtrax;
if (sb) {
sb->w = (xof * cu->fsize) - sb->w;
}
}
ct++;
}
cu->lines = 1;
for (i = 0; i <= slen; i++) {
ascii = mem[i];
ct = &chartransdata[i];
if (ascii == '\n' || ct->dobreak) cu->lines++;
}
/* linedata is now: width of line */
if (cu->spacemode != CU_LEFT) {
ct = chartransdata;
if (cu->spacemode == CU_RIGHT) {
struct TempLineInfo *li;
for (i = 0, li = lineinfo; i < lnr; i++, li++) {
li->x_min = (li->x_max - li->x_min) + xof_scale;
}
for (i = 0; i <= slen; i++) {
ct->xof += lineinfo[ct->linenr].x_min;
ct++;
}
}
else if (cu->spacemode == CU_MIDDLE) {
struct TempLineInfo *li;
for (i = 0, li = lineinfo; i < lnr; i++, li++) {
li->x_min = ((li->x_max - li->x_min) + xof_scale) / 2.0f;
}
for (i = 0; i <= slen; i++) {
ct->xof += lineinfo[ct->linenr].x_min;
ct++;
}
}
else if ((cu->spacemode == CU_FLUSH) && use_textbox) {
struct TempLineInfo *li;
for (i = 0, li = lineinfo; i < lnr; i++, li++) {
li->x_min = ((li->x_max - li->x_min) + xof_scale);
if (li->char_nr > 1) {
li->x_min /= (float)(li->char_nr - 1);
}
}
for (i = 0; i <= slen; i++) {
for (j = i; (!ELEM(mem[j], '\0', '\n')) && (chartransdata[j].dobreak == 0) && (j < slen); j++) {
/* do nothing */
}
// if ((mem[j] != '\n') && (mem[j])) {
ct->xof += ct->charnr * lineinfo[ct->linenr].x_min;
// }
ct++;
}
}
else if ((cu->spacemode == CU_JUSTIFY) && use_textbox) {
float curofs = 0.0f;
for (i = 0; i <= slen; i++) {
for (j = i;
(mem[j]) && (mem[j] != '\n') && (chartransdata[j].dobreak == 0) && (j < slen);
j++)
{
/* pass */
}
if ((mem[j] != '\n') &&
((chartransdata[j].dobreak != 0)))
{
if (mem[i] == ' ') {
struct TempLineInfo *li;
li = &lineinfo[ct->linenr];
curofs += ((li->x_max - li->x_min) + xof_scale) / (float)li->wspace_nr;
}
ct->xof += curofs;
}
if (mem[i] == '\n' || chartransdata[i].dobreak) curofs = 0;
ct++;
}
}
}
MEM_freeN(lineinfo);
/* TEXT ON CURVE */
/* Note: Only OB_CURVE objects could have a path */
if (cu->textoncurve && cu->textoncurve->type == OB_CURVE) {
BLI_assert(cu->textoncurve->curve_cache != NULL);
if (cu->textoncurve->curve_cache->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 * cu->textoncurve->curve_cache->path->totdist / (maxx - minx);
timeofs = 0.0f;
if (distfac > 1.0f) {
/* 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 */
info = &custrinfo[i];
ascii = mem[i];
if (info->flag & CU_CHINFO_SMALLCAPS_CHECK) {
ascii = towupper(ascii);
}
che = find_vfont_char(vfd, ascii);
twidth = char_width(cu, che, info);
dtime = distfac * 0.5f * twidth;
ctime = timeofs + distfac * (ct->xof - minx);
CLAMP(ctime, 0.0f, 1.0f);
/* calc the right loc AND the right rot separately */
/* vec, tvec need 4 items */
where_on_path(cu->textoncurve, ctime, vec, tvec, NULL, NULL, NULL);
where_on_path(cu->textoncurve, ctime + dtime, tvec, rotvec, NULL, NULL, NULL);
mul_v3_fl(vec, sizefac);
ct->rot = (float)M_PI - atan2f(rotvec[1], rotvec[0]);
si = sinf(ct->rot);
co = cosf(ct->rot);
yof = ct->yof;
ct->xof = vec[0] + si * yof;
ct->yof = vec[1] + co * yof;
if (selboxes && (i >= selstart) && (i <= selend)) {
EditFontSelBox *sb;
sb = &selboxes[i - selstart];
sb->rot = -ct->rot;
}
}
}
}
if (selboxes) {
ct = chartransdata;
for (i = 0; i <= selend; i++, ct++) {
if (i >= selstart) {
selboxes[i - selstart].x = ct->xof * cu->fsize;
selboxes[i - selstart].y = ct->yof * cu->fsize;
}
}
}
if (mode == FO_CURSUP || mode == FO_CURSDOWN || mode == FO_PAGEUP || mode == FO_PAGEDOWN) {
ct = &chartransdata[ef->pos];
if ((mode == FO_CURSUP || mode == FO_PAGEUP) && ct->linenr == 0) {
/* pass */
}
else if ((mode == FO_CURSDOWN || mode == FO_PAGEDOWN) && ct->linenr == lnr) {
/* pass */
}
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 */
ef->pos = 0;
ct = chartransdata;
for (i = 0; i < slen; i++) {
if (ct->linenr == lnr) {
if ((ct->charnr == cnr) || ((ct + 1)->charnr == 0)) {
break;
}
}
else if (ct->linenr > lnr) {
break;
}
ef->pos++;
ct++;
}
}
}
/* cursor first */
if (ef) {
float si, co;
ct = &chartransdata[ef->pos];
si = sinf(ct->rot);
co = cosf(ct->rot);
f = ef->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);
}
if (mode == FO_SELCHANGE) {
MEM_freeN(chartransdata);
chartransdata = NULL;
goto finally;
}
if (mode == FO_EDIT) {
/* make nurbdata */
BKE_nurbList_free(r_nubase);
ct = chartransdata;
for (i = 0; i < slen; i++) {
unsigned int cha = (unsigned int) mem[i];
info = &(custrinfo[i]);
if (info->flag & CU_CHINFO_SMALLCAPS_CHECK) {
cha = towupper(cha);
}
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')
buildchar(bmain, cu, r_nubase, cha, info, ct->xof, ct->yof, ct->rot, i);
if ((info->flag & CU_CHINFO_UNDERLINE) && (cha != '\n')) {
float ulwidth, uloverlap = 0.0f;
rctf rect;
if ((i < (slen - 1)) && (mem[i + 1] != '\n') &&
((mem[i + 1] != ' ') || (custrinfo[i + 1].flag & CU_CHINFO_UNDERLINE)) &&
((custrinfo[i + 1].flag & CU_CHINFO_WRAP) == 0))
{
uloverlap = xtrax + 0.1f;
}
/* Find the character, the characters has to be in the memory already
* since character checking has been done earlier already. */
che = find_vfont_char(vfd, cha);
twidth = char_width(cu, che, info);
ulwidth = (twidth * (1.0f + (info->kern / 40.0f))) + uloverlap;
rect.xmin = ct->xof;
rect.xmax = rect.xmin + ulwidth;
rect.ymin = ct->yof;
rect.ymax = rect.ymin - cu->ulheight;
build_underline(cu, r_nubase,
&rect, cu->ulpos - 0.05f,
ct->rot, i, info->mat_nr);
}
ct++;
}
}
ok = true;
finally:
{
if (r_text) {
*r_text = mem;
*r_text_len = slen;
*r_text_free = (ef == NULL);
}
else {
if (ef == NULL) {
MEM_freeN((void *)mem);
}
}
}
if (chartransdata) {
if (ok && r_chartransdata) {
*r_chartransdata = chartransdata;
}
else {
MEM_freeN(chartransdata);
}
}
return ok;
#undef MARGIN_X_MIN
#undef MARGIN_Y_MIN
}
bool BKE_vfont_to_curve_nubase(Main *bmain, Object *ob, int mode, ListBase *r_nubase)
{
BLI_assert(ob->type == OB_FONT);
return BKE_vfont_to_curve_ex(bmain, ob, mode, r_nubase,
NULL, NULL, NULL, NULL);
}
bool BKE_vfont_to_curve(Main *bmain, Object *ob, int mode)
{
Curve *cu = ob->data;
return BKE_vfont_to_curve_ex(bmain, ob, mode, &cu->nurb, NULL, NULL, NULL, NULL);
}
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