Exemplo n.º 1
0
struct chartrans *BKE_text_to_curve(Main *bmain, Scene *scene, Object *ob, int mode)
{
	VFont *vfont, *oldvfont;
	VFontData *vfd= NULL;
	Curve *cu;
	CharInfo *info = NULL, *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 NULL;

	// Set font data
	cu= (Curve *) ob->data;
	vfont= cu->vfont;
	
	if (cu->str == NULL) return NULL;
	if (vfont == NULL) return NULL;

	// Create unicode string
	utf8len = BLI_strlen_utf8(cu->str);
	mem = MEM_callocN(((utf8len + 1) * sizeof(wchar_t)), "convertedmem");
	
	BLI_strncpy_wchar_from_utf8(mem, cu->str, utf8len + 1);

	// Count the wchar_t string length
	slen = wcslen(mem);

	if (cu->ulheight == 0.0f)
		cu->ulheight = 0.05f;
	
	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(bmain, vfont);

	/* The VFont Data can not be found */
	if (!vfd) {
		if (mem)
			MEM_freeN(mem);	
		return NULL;
	}

	/* 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_CHINFO_WRAP|CU_CHINFO_SMALLCAPS_CHECK);

	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
		info = &(custrinfo[i]);
		ascii = mem[i];
		if (info->flag & CU_CHINFO_SMALLCAPS) {
			ascii = towupper(ascii);
			if (mem[i] != ascii) {
				mem[i]= ascii;
				info->flag |= CU_CHINFO_SMALLCAPS_CHECK;
			}
		}

		vfont = which_vfont(cu, info);
		
		if (vfont==NULL) break;

		che= find_vfont_char(vfd, ascii);

		/*
		 * The character wasn't in the current curve base so load it
		 * But if the font is FO_BUILTIN_NAME then do not try loading since
		 * whole font is in the memory already
		 */
		if (che == NULL && strcmp(vfont->name, FO_BUILTIN_NAME))	{
			BLI_vfontchar_from_freetypefont(vfont, ascii);
		}

		/* Try getting the character again from the list */
		che= find_vfont_char(vfd, ascii);

		/* No VFont found */
		if (vfont==NULL) {
			if (mem)
				MEM_freeN(mem);
			MEM_freeN(chartransdata);
			return NULL;
		}

		if (vfont != oldvfont) {
			vfd= vfont_get_data(bmain, vfont);
			oldvfont = vfont;
		}

		/* VFont Data for VFont couldn't be found */
		if (!vfd) {
			if (mem)
				MEM_freeN(mem);
			MEM_freeN(chartransdata);
			return NULL;
		}

		twidth = char_width(cu, che, info);

		// Calculate positions
		if ((tb->w != 0.0f) && (ct->dobreak==0) && ((xof-(tb->x/cu->fsize)+twidth)*cu->fsize) > tb->w + cu->xof*cu->fsize) {
	//		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_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== '\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 != 0.0f) &&
				 ((-(yof-(tb->y/cu->fsize))) > ((tb->h/cu->fsize)-(linedist*cu->fsize)) - cu->yof) &&
				 (cu->totbox > (curbox+1)) ) {
				maxlen= 0;
				tb++;
				curbox++;
				yof= cu->yof + tb->y/cu->fsize;
			}

			/* XXX, has been unused for years, need to check if this is useful, r4613 r5282 - campbell */
#if 0
			if (ascii == '\n' || ascii == '\r')
				xof = cu->xof;
			else
				xof= cu->xof + (tb->x/cu->fsize);
#else
			xof= cu->xof + (tb->x/cu->fsize);
#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-cu->xof+0.01f);
			tabfac= 2.0f*ceilf(tabfac/2.0f);
			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*0.1f;
				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;
	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 != 0.0f)) {
			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; (!ELEM3(mem[j], '\0', '\n', '\r')) && (chartransdata[j].dobreak == 0) && (j < slen); j++) {
					/* do nothing */
				}

//				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 != 0.0f)) {
			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 */
	/* Note: Only OB_CURVE objects could have a path  */
	if (cu->textoncurve && cu->textoncurve->type==OB_CURVE) {
		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= 0.0f;
			
			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 */
				ascii = mem[i];

				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-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 == FO_EDIT) {
		/* make nurbdata */
		freeNurblist(&cu->nurb);
		
		ct= chartransdata;
		if (cu->sepchar==0) {
			for (i= 0; i<slen; i++) {
				unsigned long 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(bmain, cu, cha, info, ct->xof, ct->yof, ct->rot, i);
				
				if ((info->flag & CU_CHINFO_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_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 = cu->fsize * ((twidth* (1.0f+(info->kern/40.0f)))+uloverlap);
					build_underline(cu, ct->xof*cu->fsize, ct->yof*cu->fsize + (cu->ulpos-0.05f)*cu->fsize,
									ct->xof*cu->fsize + ulwidth, 
									ct->yof*cu->fsize + (cu->ulpos-0.05f)*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];

					vecyo[0]= ct->xof;
					vecyo[1]= ct->yof;
					vecyo[2]= 0.0f;

					mem[0] = ascii;
					mem[1] = 0;
					custrinfo[0]= *info;
					cu->pos = 1;
					cu->len = 1;
					mul_v3_m4v3(ob->loc, ob->obmat, 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 NULL;
}
Exemplo n.º 2
0
/* call BPY_context_set first */
void BPY_python_start(int argc, const char **argv)
{
#ifndef WITH_PYTHON_MODULE
	PyThreadState *py_tstate = NULL;

	/* not essential but nice to set our name */
	static wchar_t program_path_wchar[FILE_MAX]; /* python holds a reference */
	BLI_strncpy_wchar_from_utf8(program_path_wchar, BLI_program_path(), sizeof(program_path_wchar) / sizeof(wchar_t));
	Py_SetProgramName(program_path_wchar);

	/* must run before python initializes */
	PyImport_ExtendInittab(bpy_internal_modules);

	/* allow to use our own included python */
	PyC_SetHomePath(BLI_get_folder(BLENDER_SYSTEM_PYTHON, NULL));

	/* without this the sys.stdout may be set to 'ascii'
	 * (it is on my system at least), where printing unicode values will raise
	 * an error, this is highly annoying, another stumbling block for devs,
	 * so use a more relaxed error handler and enforce utf-8 since the rest of
	 * blender is utf-8 too - campbell */
	BLI_setenv("PYTHONIOENCODING", "utf-8:surrogateescape");

	/* Python 3.2 now looks for '2.xx/python/include/python3.2d/pyconfig.h' to
	 * parse from the 'sysconfig' module which is used by 'site',
	 * so for now disable site. alternatively we could copy the file. */
	Py_NoSiteFlag = 1;

	Py_Initialize();

	// PySys_SetArgv(argc, argv); // broken in py3, not a huge deal
	/* sigh, why do python guys not have a (char **) version anymore? */
	{
		int i;
		PyObject *py_argv = PyList_New(argc);
		for (i = 0; i < argc; i++) {
			/* should fix bug #20021 - utf path name problems, by replacing
			 * PyUnicode_FromString, with this one */
			PyList_SET_ITEM(py_argv, i, PyC_UnicodeFromByte(argv[i]));
		}

		PySys_SetObject("argv", py_argv);
		Py_DECREF(py_argv);
	}
	
	/* Initialize thread support (also acquires lock) */
	PyEval_InitThreads();
#else
	(void)argc;
	(void)argv;

	/* must run before python initializes */
	PyImport_ExtendInittab(bpy_internal_modules);
#endif

	bpy_intern_string_init();

	/* bpy.* and lets us import it */
	BPy_init_modules();

	bpy_import_init(PyEval_GetBuiltins());
	
	pyrna_alloc_types();

#ifndef WITH_PYTHON_MODULE
	/* py module runs atexit when bpy is freed */
	BPY_atexit_register(); /* this can init any time */

	py_tstate = PyGILState_GetThisThreadState();
	PyEval_ReleaseThread(py_tstate);
#endif
}
Exemplo n.º 3
0
/* call BPY_context_set first */
void BPY_python_start(int argc, const char **argv)
{
#ifndef WITH_PYTHON_MODULE
	PyThreadState *py_tstate = NULL;
	const char *py_path_bundle = BKE_appdir_folder_id(BLENDER_SYSTEM_PYTHON, NULL);

	/* not essential but nice to set our name */
	static wchar_t program_path_wchar[FILE_MAX]; /* python holds a reference */
	BLI_strncpy_wchar_from_utf8(program_path_wchar, BKE_appdir_program_path(), ARRAY_SIZE(program_path_wchar));
	Py_SetProgramName(program_path_wchar);

	/* must run before python initializes */
	PyImport_ExtendInittab(bpy_internal_modules);

	/* allow to use our own included python */
	PyC_SetHomePath(py_path_bundle);

	/* without this the sys.stdout may be set to 'ascii'
	 * (it is on my system at least), where printing unicode values will raise
	 * an error, this is highly annoying, another stumbling block for devs,
	 * so use a more relaxed error handler and enforce utf-8 since the rest of
	 * blender is utf-8 too - campbell */
	Py_SetStandardStreamEncoding("utf-8", "surrogateescape");

	/* Update, Py3.3 resolves attempting to parse non-existing header */
#if 0
	/* Python 3.2 now looks for '2.xx/python/include/python3.2d/pyconfig.h' to
	 * parse from the 'sysconfig' module which is used by 'site',
	 * so for now disable site. alternatively we could copy the file. */
	if (py_path_bundle) {
		Py_NoSiteFlag = 1;
	}
#endif

	Py_FrozenFlag = 1;

	Py_Initialize();

	// PySys_SetArgv(argc, argv);  /* broken in py3, not a huge deal */
	/* sigh, why do python guys not have a (char **) version anymore? */
	{
		int i;
		PyObject *py_argv = PyList_New(argc);
		for (i = 0; i < argc; i++) {
			/* should fix bug #20021 - utf path name problems, by replacing
			 * PyUnicode_FromString, with this one */
			PyList_SET_ITEM(py_argv, i, PyC_UnicodeFromByte(argv[i]));
		}

		PySys_SetObject("argv", py_argv);
		Py_DECREF(py_argv);
	}
	
	/* Initialize thread support (also acquires lock) */
	PyEval_InitThreads();
#else
	(void)argc;
	(void)argv;

	/* must run before python initializes */
	/* broken in py3.3, load explicitly below */
	// PyImport_ExtendInittab(bpy_internal_modules);
#endif

	bpy_intern_string_init();


#ifdef WITH_PYTHON_MODULE
	{
		/* Manually load all modules */
		struct _inittab *inittab_item;
		PyObject *sys_modules = PyImport_GetModuleDict();

		for (inittab_item = bpy_internal_modules; inittab_item->name; inittab_item++) {
			PyObject *mod = inittab_item->initfunc();
			if (mod) {
				PyDict_SetItemString(sys_modules, inittab_item->name, mod);
			}
			else {
				PyErr_Print();
				PyErr_Clear();
			}
			// Py_DECREF(mod); /* ideally would decref, but in this case we never want to free */
		}
	}
#endif

	/* bpy.* and lets us import it */
	BPy_init_modules();

	bpy_import_init(PyEval_GetBuiltins());
	
	pyrna_alloc_types();

#ifndef WITH_PYTHON_MODULE
	/* py module runs atexit when bpy is freed */
	BPY_atexit_register(); /* this can init any time */

	py_tstate = PyGILState_GetThisThreadState();
	PyEval_ReleaseThread(py_tstate);
#endif
}