/* drawf DrawFile functions */ #include "oslib/os.h" #include "oslib/osfile.h" #include "oslib/drawfile.h" #include "Python.h" #include #define PyDrawF_Check(op) ((op)->ob_type == &PyDrawFType) #define HDRSIZE 40 #define GRPHDRSIZE 36 #define DRAWTYPE 0xaff #define NEXT(d) ((drawfile_object*)((char*)(d)+(d)->size)) typedef struct { PyObject_HEAD drawfile_diagram *drawf; int size; /*length in bytes*/ int nobjs; /* no of objects */ } PyDrawFObject; typedef struct dheader { char tag [4]; int major_version; int minor_version; char source [12]; os_box bbox; } dheader; static PyObject *DrawFError; /* Exception drawf.error */ static os_error *e; static PyTypeObject PyDrawFType; static dheader header= { {'D','r','a','w'}, 201,0, {'P','y','t','h','o','n',' ',' ',' ',' ',' ',' '}, {INT_MAX,INT_MAX,INT_MIN,INT_MIN} }; static PyObject *drawf_oserror(void) { PyErr_SetString(DrawFError,e->errmess); return 0; } static PyObject *drawf_error(char *s) { PyErr_SetString(DrawFError,s); return 0; } /* DrawFile commands */ static void countobjs(PyDrawFObject *pd) { int k=0,q; drawfile_diagram *dd=pd->drawf; drawfile_object *d=dd->objects; char *end=(char*)dd+pd->size; pd->nobjs=-1; while((char*)dsize; if(q<=0||q&3) return ; d=NEXT(d); } if ((char*)d==end) pd->nobjs=k; } static drawfile_object *findobj(PyDrawFObject *pd,int n) { drawfile_diagram *dd=pd->drawf; drawfile_object *d=dd->objects; for(;n>0;n--) d=NEXT(d); return d; } static PyDrawFObject* new(int size) { PyDrawFObject *b=PyObject_NEW(PyDrawFObject,&PyDrawFType); if(!b) return NULL; size+=HDRSIZE; b->drawf=malloc(size); if(!b->drawf) { Py_DECREF(b); return (PyDrawFObject*)PyErr_NoMemory(); } b->size=size; return b; } static void extend(os_box *b,os_box *c) { if(b->x0>c->x0) b->x0=c->x0; if(b->y0>c->y0) b->y0=c->y0; if(b->x1x1) b->x1=c->x1; if(b->y1y1) b->y1=c->y1; } static PyObject *DrawF_New(PyObject *self,PyObject *args) { PyDrawFObject *b; if(!PyArg_ParseTuple(args,"")) return NULL; b=new(0); if(!b) return NULL; *((dheader*)b->drawf)=header; b->nobjs=0; return (PyObject *)b; } static PyObject *DrawF_Load(PyObject *self,PyObject *args) { int size; char *fname; PyDrawFObject *b; fileswitch_object_type ot; if(!PyArg_ParseTuple(args,"s",&fname)) return NULL; e=xosfile_read_no_path(fname,&ot,0,0,&size,0); if(e) return drawf_oserror(); size-=HDRSIZE; if(ot!=osfile_IS_FILE||size<0||size&3) return drawf_error("Bad draw file"); b=new(size); if(!b) return NULL; e=xosfile_load_stamped_no_path(fname,(byte*)(b->drawf),0,0,0,0,0); if(e) { Py_DECREF(b); return drawf_oserror(); } countobjs(b); if(b->nobjs>=0) return (PyObject *)b; Py_DECREF(b); return drawf_error("Corrupt draw file"); } static PyObject *DrawF_Save(PyDrawFObject *self,PyObject *arg) { char *fname; if(!PyArg_ParseTuple(arg,"s",&fname)) return NULL; e=xosfile_save_stamped(fname,DRAWTYPE, (byte*)(self->drawf),(byte*)(self->drawf)+self->size); if (e) return drawf_oserror(); Py_INCREF(Py_None);return Py_None; } static PyObject *DrawF_Render(PyDrawFObject *self,PyObject *arg) { int flags,trans,clip,flat; if(!PyArg_ParseTuple(arg,"iiii",&flags,&trans,&clip,&flat)) return NULL; e=xdrawfile_render((drawfile_render_flags)flags,self->drawf,self->size, (os_trfm*)trans,(os_box*)clip,flat); if(e) return drawf_oserror(); Py_INCREF(Py_None);return Py_None; } static PyObject *DrawF_Path(PyDrawFObject *self,PyObject *arg) { PyObject *pl; PyObject *dp=0; os_colour fill; os_colour outline; int width,start=0; drawfile_path_style style; int size=40; int n,i,element_count; drawfile_diagram *diag; drawfile_object *dobj; drawfile_path *dpath; draw_path *thepath; draw_line_style line_style; draw_dash_pattern *dash_pattern=0; os_box *box; long *pe; if(!PyArg_ParseTuple(arg,"O!(iiii)|O!i",&PyList_Type,&pl,(int*)&fill, (int*)&outline,&width,(int*)&style,&PyTuple_Type,&dp,&start)) return NULL; if(dp) { element_count=PyTuple_Size(dp); size+=4*element_count+8; style.flags|=drawfile_PATH_DASHED; } else style.flags&=~drawfile_PATH_DASHED; n=PyList_Size(pl); size+=4*n+8; for(i=0;idrawf,self->size+size); if(!diag) return PyErr_NoMemory(); self->drawf=diag; dobj=(drawfile_object*)((char*)diag+self->size); dobj->type=drawfile_TYPE_PATH; dobj->size=size; dpath=&dobj->data.path; self->size+=size; self->nobjs++; box=&dpath->bbox; dpath->fill=fill;dpath->outline=outline; dpath->width=width;dpath->style=style; pe=(long*)&(dpath->path); if(dp) { dash_pattern=&(((drawfile_path_with_pattern*)dpath)->pattern); dash_pattern->start=start; dash_pattern->element_count=element_count; for(i=0;ielements[i]=(int)PyInt_AsLong(PyTuple_GetItem(dp,i)); } pe+=element_count+2; } thepath=(draw_path*)pe; *pe++=draw_MOVE_TO; for(i=0;i>2; line_style.start_cap_style=(style.flags&3)>>4; line_style.reserved=0; line_style.mitre_limit=10; line_style.start_cap_width=style.cap_width; line_style.end_cap_width=style.cap_width; line_style.start_cap_length=style.cap_length; line_style.end_cap_length=style.cap_length; e=xdraw_process_path(thepath,0x70000000,0,0,width,&line_style,dash_pattern, (draw_output_path)((char*)box+0x80000000),0); if(e) return drawf_oserror(); /* draw_process_path seems to have a bug: If the bounding box size is zero, it returns 0x7FFFFFFF, ..., 0x80000000 instead of the correct size. */ if (box->x0==0x7FFFFFFF) { /* path has zero extension, so forget it; it would be invisible anyway */ self->size-=size; self->nobjs--; diag=realloc(self->drawf,self->size); if(!diag) return PyErr_NoMemory(); self->drawf=diag; } else extend(&(diag->bbox),box); Py_INCREF(Py_None);return Py_None; } static PyObject *DrawF_Text(PyDrawFObject *self,PyObject *arg) { os_colour fill,bg_hint; drawfile_text_style style; int xsize,ysize,x,y; int size,len; char *text; drawfile_diagram *diag; drawfile_object *dobj; drawfile_text *dtext; os_box *box; if(!PyArg_ParseTuple(arg,"(ii)s(iiiii)",&x,&y,&text, (int*)&fill,(int*)&bg_hint,(int*)&style,&xsize,&ysize)) return NULL; len=strlen(text); size=((len+4)&(~3))+52; diag=realloc(self->drawf,self->size+size); if(!diag) return PyErr_NoMemory(); self->drawf=diag; dobj=(drawfile_object*)((char*)diag+self->size); dobj->type=drawfile_TYPE_TEXT; dobj->size=size; dtext=&dobj->data.text; self->size+=size; self->nobjs++; dtext->fill=fill; dtext->bg_hint=bg_hint; dtext->style=style; dtext->xsize=xsize; dtext->ysize=ysize; dtext->base.x=x; dtext->base.y=y; memset(dtext->text,0,(len+4)&(~3)); sprintf(dtext->text,"%s",text); box=&(dtext->bbox); box->x0=x;box->y0=y;box->x1=x+len*xsize;box->y1=y+ysize; extend(&(diag->bbox),box); Py_INCREF(Py_None);return Py_None; } static PyObject *DrawF_TText(PyDrawFObject *self,PyObject *arg) { os_colour fill,bg_hint; drawfile_text_style style; int xsize,ysize,x,y; int t1,t2,t3,t4,t5,t6; int size,len; char *text; drawfile_diagram *diag; drawfile_object *dobj; drawfile_trfm_text *dtext; os_box *box; t1=1<<16;t2=0; t3=0;t4=1<<16; t5=t6=0; if(!PyArg_ParseTuple(arg,"(ii)s(iiiii)|(iiiiii)",&x,&y,&text, (int*)&fill,(int*)&bg_hint,(int*)&style,&xsize,&ysize,&t1,&t2,&t3,&t4,&t5,&t6)) return NULL; len=strlen(text); size=((len+4)&(~3))+52+28; diag=realloc(self->drawf,self->size+size); if(!diag) return PyErr_NoMemory(); self->drawf=diag; dobj=(drawfile_object*)((char*)diag+self->size); dobj->type=drawfile_TYPE_TRFM_TEXT; dobj->size=size; dtext=&dobj->data.trfm_text; self->size+=size; self->nobjs++; dtext->trfm.entries[0][0]=t1; dtext->trfm.entries[0][1]=t2; dtext->trfm.entries[1][0]=t3; dtext->trfm.entries[1][1]=t4; dtext->trfm.entries[2][0]=t5; dtext->trfm.entries[2][1]=t6; dtext->flags=0; dtext->fill=fill; dtext->bg_hint=bg_hint; dtext->style=style; dtext->xsize=xsize; dtext->ysize=ysize; dtext->base.x=x; dtext->base.y=y; memset(dtext->text,0,(len+4)&(~3)); sprintf(dtext->text,"%s",text); box=&(dtext->bbox); box->x0=x;box->y0=y;box->x1=x+len*xsize;box->y1=y+ysize; extend(&(diag->bbox),box); Py_INCREF(Py_None);return Py_None; } static PyObject *DrawF_FontTable(PyDrawFObject *self,PyObject *arg) { int size=8,n=0; PyObject *d,*key,*value; drawfile_diagram *diag; drawfile_object *dobj; char *dtable; if(!PyArg_ParseTuple(arg,"O!",&PyDict_Type,&d)) return NULL; while(PyDict_Next(d,&n,&key,&value)) { int m=PyString_Size(value); if(m<0||!PyInt_Check(key)) return NULL; size+=m+2; } size=(size+3)&(~3); diag=realloc(self->drawf,self->size+size); if(!diag) return PyErr_NoMemory(); self->drawf=diag; dobj=(drawfile_object*)((char*)diag+self->size); dobj->type=drawfile_TYPE_FONT_TABLE; dobj->size=size; dtable=(char*)(&dobj->data.font_table); self->size+=size; self->nobjs++; memset(dtable,0,size-8); n=0; while(PyDict_Next(d,&n,&key,&value)) { int m=PyString_Size(value); *dtable=(char)PyInt_AsLong(key); strcpy(dtable+1,PyString_AsString(value)); dtable+=m+2; } Py_INCREF(Py_None);return Py_None; } static PyObject *DrawF_Group(PyDrawFObject *self,PyObject *arg) { int size,n; PyDrawFObject *g; char *name=""; drawfile_diagram *diag; drawfile_object *dobj; drawfile_group *dgroup; if(!PyArg_ParseTuple(arg,"O!|s",&PyDrawFType,(PyObject*)&g,&name)) return NULL; size=g->size-4; diag=realloc(self->drawf,self->size+size); if(!diag) return PyErr_NoMemory(); self->drawf=diag; self->nobjs++; dobj=(drawfile_object*)((char*)diag+self->size); self->size+=size; dobj->type=drawfile_TYPE_GROUP; dobj->size=g->size-4; dgroup=&dobj->data.group; dgroup->bbox=g->drawf->bbox; memset(dgroup->name,' ',12); n=strlen(name); if(n>12) n=12; memcpy(dgroup->name,name,n); memcpy((char*)dgroup->objects,(char*)g->drawf+40,g->size-40); extend(&(diag->bbox),&(dgroup->bbox)); Py_INCREF(Py_None);return Py_None; } static PyObject *DrawF_Find(PyDrawFObject *self,PyObject *arg) { int x,y,n=0; int r=-1; drawfile_object *d; if(!PyArg_ParseTuple(arg,"ii|i",&x,&y,&n)) return NULL; if(nnobjs&&n>=0) { d=findobj(self,n); while(nnobjs) { if(x>=d->data.text.bbox.x0&&x<=d->data.text.bbox.x1&& y>=d->data.text.bbox.y0&&y<=d->data.text.bbox.y1) { r=n;break;} n++; d=NEXT(d); } } return PyInt_FromLong(r); } static PyObject *DrawF_Box(PyDrawFObject *self,PyObject *arg) { int n=-1; os_box *box; if(!PyArg_ParseTuple(arg,"|i",&n)) return NULL; if(n>=self->nobjs|n<0) box=&(self->drawf->bbox); else box=&(findobj(self,n)->data.text.bbox); return Py_BuildValue("iiii",box->x0,box->y0,box->x1,box->y1); } static void SetBlock(drawfile_object *d,int size,int type,int offset,int value) { char *end=(char*)d+size; printf("s%d t%d o%d v%d\n",size,type,offset,value); for(;(char*)dtype==type) ((int*)(d))[offset]=value; else if(d->type==drawfile_TYPE_GROUP) SetBlock((drawfile_object*)&d->data.group.objects, d->size,type,offset,value); printf("SetBlock Done\n"); } static PyObject *SetWord(PyDrawFObject *self,PyObject *arg,int type,int offset) { int n=PyTuple_Size(arg); int m,value,q; PyObject *par; drawfile_object *e,*d=self->drawf->objects; if(n==0) return drawf_error("Value Required"); par=PyTuple_GetItem(arg,0); if(!PyInt_Check(par)) { PyErr_SetString(PyExc_TypeError,"Int Required"); return 0; } value=(int)PyInt_AsLong(par); if(n==1) SetBlock(d,self->size-HDRSIZE,type,offset,value); else { for(m=1;m=self->nobjs) { PyErr_SetString(PyExc_ValueError,"Object out of range"); return 0; } e=d; for(;q>0;q--) e=NEXT(e); if(e->type==type) { ((int*)(e))[offset]=value; } else if(e->type==drawfile_TYPE_GROUP) SetBlock((drawfile_object*)&e->data.group.objects, e->size-GRPHDRSIZE,type,offset,value); } } Py_INCREF(Py_None);return Py_None; } static PyObject *DrawF_PathFill(PyDrawFObject *self,PyObject *arg) { return SetWord(self,arg,drawfile_TYPE_PATH,6); } static PyObject *DrawF_PathColour(PyDrawFObject *self,PyObject *arg) { return SetWord(self,arg,drawfile_TYPE_PATH,7); } static PyObject *DrawF_TextColour(PyDrawFObject *self,PyObject *arg) { return SetWord(self,arg,drawfile_TYPE_TEXT,6); } static PyObject *DrawF_TextBackground(PyDrawFObject *self,PyObject *arg) { return SetWord(self,arg,drawfile_TYPE_TEXT,7); } static struct PyMethodDef PyDrawF_Methods[]= { { "render",(PyCFunction)DrawF_Render,1}, { "save",(PyCFunction)DrawF_Save,1}, { "path",(PyCFunction)DrawF_Path,1}, { "text",(PyCFunction)DrawF_Text,1}, { "ttext",(PyCFunction)DrawF_TText,1}, { "fonttable",(PyCFunction)DrawF_FontTable,1}, { "group",(PyCFunction)DrawF_Group,1}, { "find",(PyCFunction)DrawF_Find,1}, { "box",(PyCFunction)DrawF_Box,1}, { "pathfill",(PyCFunction)DrawF_PathFill,1}, { "pathcolour",(PyCFunction)DrawF_PathColour,1}, { "textcolour",(PyCFunction)DrawF_TextColour,1}, { "textbackground",(PyCFunction)DrawF_TextBackground,1}, { NULL,NULL} /* sentinel */ }; static int drawf_len(PyDrawFObject *b) { return b->nobjs; } static PyObject *drawf_concat(PyDrawFObject *b,PyDrawFObject *c) { int size=b->size+c->size-2*HDRSIZE; PyDrawFObject *p=new(size); drawfile_diagram *dd; drawfile_object *d; int n; if(!p) return NULL; dd=p->drawf; d=(drawfile_object*)((char*)dd+b->size); memcpy((char*)dd,(char*)(b->drawf),b->size); memcpy(d,(char*)(c->drawf)+HDRSIZE,c->size-HDRSIZE); p->nobjs=b->nobjs+c->nobjs; for(n=c->nobjs;n>0;n--) { extend(&(dd->bbox),&(d->data.path.bbox)); d=NEXT(d); } return (PyObject*)p; } static PyObject *drawf_repeat(PyDrawFObject *b,int i) { PyErr_SetString(PyExc_IndexError,"drawf repetition not implemented"); return NULL; } static PyObject *drawf_item(PyDrawFObject *b,int i) { PyDrawFObject *c; int size; drawfile_diagram *dd; drawfile_object *d; if(i<0||i>=b->nobjs) { PyErr_SetString(PyExc_IndexError,"drawf index out of range"); return NULL; } d=findobj(b,i); size=(char*)findobj(b,i+1)-(char*)d; c=new(size); if(!c) return NULL; dd=c->drawf; *((dheader*)dd)=header; memcpy(dd->objects,d,size); c->nobjs=1; extend(&(dd->bbox),&(d->data.path.bbox)); return (PyObject*)c; } static PyObject *drawf_slice(PyDrawFObject *b,int i,int j) { PyDrawFObject *c; int size,n; drawfile_diagram *dd; drawfile_object *d; if(i<0||j>b->nobjs) { PyErr_SetString(PyExc_IndexError,"drawf index out of range"); return NULL; } d=findobj(b,i); size=(char*)findobj(b,j)-(char*)d; c=new(size); if(!c) return NULL; dd=c->drawf; *((dheader*)dd)=header; memcpy(dd->objects,d,size); c->nobjs=j-i; for(n=j-i;n>0;n--) { extend(&(dd->bbox),&(d->data.path.bbox)); d=NEXT(d); } return (PyObject*)c; } static int drawf_ass_item(PyDrawFObject *b,int i,PyObject *v) { PyErr_SetString(PyExc_IndexError,"drawf ass not implemented"); return NULL; } /*{ if(i<0||4*i>=b->length) { PyErr_SetString(PyExc_IndexError,"drawf index out of range"); return -1; } if(!PyInt_Check(v)) { PyErr_SetString(PyExc_TypeError,"drawf item must be integer"); return -1; } ((long*)(b->drawf))[i]=PyInt_AsLong(v); return 0; } */ static int drawf_ass_slice(PyDrawFObject *b,int i,int j,PyObject *v) { PyErr_SetString(PyExc_IndexError,"drawf ass_slice not implemented"); return NULL; } static PySequenceMethods drawf_as_sequence= { (inquiry)drawf_len, (binaryfunc)drawf_concat, (intargfunc)drawf_repeat, (intargfunc)drawf_item, (intintargfunc)drawf_slice, (intobjargproc)drawf_ass_item, (intintobjargproc)drawf_ass_slice, }; static PyObject *PyDrawF_GetAttr(PyDrawFObject *s,char *name) { if (!strcmp(name, "size")) return PyInt_FromLong((long)s->size); if (!strcmp(name, "start")) return PyInt_FromLong((long)s->drawf); if (!strcmp(name, "__members__")) { PyObject *list = PyList_New(2); if (list) { PyList_SetItem(list, 0, PyString_FromString("size")); PyList_SetItem(list, 1, PyString_FromString("start")); if (PyErr_Occurred()) { Py_DECREF(list);list = NULL;} } return list; } return Py_FindMethod(PyDrawF_Methods, (PyObject*) s,name); } static void PyDrawF_Dealloc(PyDrawFObject *b) { if (b->drawf) ; else PyMem_DEL(b->drawf); PyMem_DEL(b); } static PyTypeObject PyDrawFType= { PyObject_HEAD_INIT(&PyType_Type) 0, /*ob_size*/ "drawf", /*tp_name*/ sizeof(PyDrawFObject), /*tp_size*/ 0, /*tp_itemsize*/ /* methods */ (destructor)PyDrawF_Dealloc, /*tp_dealloc*/ 0, /*tp_print*/ (getattrfunc)PyDrawF_GetAttr, /*tp_getattr*/ 0, /*tp_setattr*/ 0, /*tp_compare*/ 0, /*tp_repr*/ 0, /*tp_as_number*/ &drawf_as_sequence, /*tp_as_sequence*/ 0, /*tp_as_mapping*/ 0, /*tp_hash*/ }; static PyMethodDef DrawFMethods[]= { { "load",DrawF_Load,1}, { "new",DrawF_New,1}, { NULL,NULL} /* Sentinel */ }; void initdrawf() { PyObject *m, *d; m = Py_InitModule("drawf", DrawFMethods); d = PyModule_GetDict(m); DrawFError=PyString_FromString("drawf.error"); PyDict_SetItemString(d,"error",DrawFError); }