/* property.c * * $Id$ * * Copyright 1990, 1991, 1992, 1993, 1994, 1995, Oliver Laumann, Berlin * Copyright 2002, 2003 Sam Hocevar , Paris * * This software was derived from Elk 1.2, which was Copyright 1987, 1988, * 1989, Nixdorf Computer AG and TELES GmbH, Berlin (Elk 1.2 has been written * by Oliver Laumann for TELES Telematic Services, Berlin, in a joint project * between TELES and Nixdorf Microprocessor Engineering, Berlin). * * Oliver Laumann, TELES GmbH, Nixdorf Computer AG and Sam Hocevar, as co- * owners or individual owners of copyright in this software, grant to any * person or company a worldwide, royalty free, license to * * i) copy this software, * ii) prepare derivative works based on this software, * iii) distribute copies of this software or derivative works, * iv) perform this software, or * v) display this software, * * provided that this notice is not removed and that neither Oliver Laumann * nor Teles nor Nixdorf are deemed to have made any representations as to * the suitability of this software for any purpose nor are held responsible * for any defects of this software. * * THERE IS ABSOLUTELY NO WARRANTY FOR THIS SOFTWARE. */ #include "xlib.h" #include Object Sym_Now; Generic_Predicate (Atom) Generic_Simple_Equal (Atom, ATOM, atom) Generic_Print (Atom, "#[atom %lu]", ATOM(x)->atom) Object Make_Atom (Atom a) { Object atom; if (a == None) return Sym_None; atom = Find_Object (T_Atom, (GENERIC)0, Match_X_Obj, a); if (Nullp (atom)) { atom = Alloc_Object (sizeof (struct S_Atom), T_Atom, 0); ATOM(atom)->tag = Null; ATOM(atom)->atom = a; Register_Object (atom, (GENERIC)0, (PFO)0, 0); } return atom; } /* Should be used with care */ static Object P_Make_Atom (Object n) { return Make_Atom ((Atom)Get_Long (n)); } static Object P_Intern_Atom (Object d, Object name) { Check_Type (d, T_Display); return Make_Atom (XInternAtom (DISPLAY(d)->dpy, Get_Strsym (name), 0)); } static Object P_Find_Atom (Object d, Object name) { Check_Type (d, T_Display); return Make_Atom (XInternAtom (DISPLAY(d)->dpy, Get_Strsym (name), 1)); } static Object P_Atom_Name (Object d, Object a) { register char *s; Check_Type (d, T_Display); Check_Type (a, T_Atom); Disable_Interrupts; s = XGetAtomName (DISPLAY(d)->dpy, ATOM(a)->atom); Enable_Interrupts; return Make_String (s, strlen (s)); } static Object P_List_Properties (Object w) { register int i; int n; register Atom *ap; Object v; GC_Node; Check_Type (w, T_Window); Disable_Interrupts; ap = XListProperties (WINDOW(w)->dpy, WINDOW(w)->win, &n); Enable_Interrupts; v = Make_Vector (n, Null); GC_Link (v); for (i = 0; i < n; i++) { Object x; x = Make_Atom (ap[i]); VECTOR(v)->data[i] = x; } GC_Unlink; XFree ((char *)ap); return v; } static Object P_Get_Property (Object w, Object prop, Object type, Object start, Object len, Object deletep) { Atom req_type = AnyPropertyType, actual_type; int format; unsigned long nitems, bytes_left; unsigned char *data; Object ret, t, x; register unsigned int i; GC_Node2; Check_Type (w, T_Window); Check_Type (prop, T_Atom); if (!EQ(type, False)) { Check_Type (type, T_Atom); req_type = ATOM(type)->atom; } Check_Type (deletep, T_Boolean); Disable_Interrupts; if (XGetWindowProperty (WINDOW(w)->dpy, WINDOW(w)->win, ATOM(prop)->atom, Get_Long (start), Get_Long (len), EQ(deletep, True), req_type, &actual_type, &format, &nitems, &bytes_left, &data) != Success) Primitive_Error ("cannot get property"); Enable_Interrupts; ret = t = P_Make_List (Make_Integer (4), Null); GC_Link2 (ret, t); x = Make_Atom (actual_type); Car (t) = x; t = Cdr (t); x = Make_Integer (format); Car (t) = x; t = Cdr (t); if (nitems) { if (format == 8) { Object s; x = Make_String ((char *)0, (int)nitems); s = Car (t) = x; memcpy (STRING(s)->data, (char *)data, (int)nitems); } else { Object v; GC_Node; v = Make_Vector ((int)nitems, Null); GC_Link (v); for (i = 0; i < nitems; i++) { x = Make_Unsigned (format == 16 ? *((int16_t *)data + i) : *((int32_t *)data + i)); VECTOR(v)->data[i] = x; } Car (t) = v; GC_Unlink; } } t = Cdr (t); x = Make_Unsigned_Long (bytes_left); Car (t) = x; GC_Unlink; return ret; } static Object P_Change_Property (Object w, Object prop, Object type, Object format, Object mode, Object data) { register int i, m, x, nitems, f; char *buf; Alloca_Begin; Check_Type (w, T_Window); Check_Type (prop, T_Atom); Check_Type (type, T_Atom); m = Symbols_To_Bits (mode, 0, Propmode_Syms); switch (f = Get_Integer (format)) { case 8: Check_Type (data, T_String); buf = STRING(data)->data; nitems = STRING(data)->size; break; case 16: case 32: Check_Type (data, T_Vector); nitems = VECTOR(data)->size; Alloca (buf, char*, nitems * (f / sizeof (char))); for (i = 0; i < nitems; i++) { x = Get_Integer (VECTOR(data)->data[i]); if (f == 16) { if (x > 65535) Primitive_Error ("format mismatch"); *((int16_t *)buf + i) = x; } else *((int32_t *)buf + i) = x; } break; default: Primitive_Error ("invalid format: ~s", format); } XChangeProperty (WINDOW(w)->dpy, WINDOW(w)->win, ATOM(prop)->atom, ATOM(type)->atom, f, m, (unsigned char *)buf, nitems); Alloca_End; return Void; } static Object P_Delete_Property (Object w, Object prop) { Check_Type (w, T_Window); Check_Type (prop, T_Atom); XDeleteProperty (WINDOW(w)->dpy, WINDOW(w)->win, ATOM(prop)->atom); return Void; } static Object P_Rotate_Properties (Object w, Object v, Object delta) { Atom *p; register int i, n; Alloca_Begin; Check_Type (w, T_Window); Check_Type (v, T_Vector); n = VECTOR(v)->size; Alloca (p, Atom*, n * sizeof (Atom)); for (i = 0; i < n; i++) { Object a; a = VECTOR(v)->data[i]; Check_Type (a, T_Atom); p[i] = ATOM(a)->atom; } XRotateWindowProperties (WINDOW(w)->dpy, WINDOW(w)->win, p, n, Get_Integer (delta)); Alloca_End; return Void; } static Object P_Set_Selection_Owner (Object d, Object s, Object owner, Object time) { Check_Type (d, T_Display); Check_Type (s, T_Atom); XSetSelectionOwner (DISPLAY(d)->dpy, ATOM(s)->atom, Get_Window (owner), Get_Time (time)); return Void; } static Object P_Selection_Owner (Object d, Object s) { Check_Type (d, T_Display); Check_Type (s, T_Atom); return Make_Window (0, DISPLAY(d)->dpy, XGetSelectionOwner (DISPLAY(d)->dpy, ATOM(s)->atom)); } static Object P_Convert_Selection (Object s, Object target, Object prop, Object w, Object time) { Atom p = None; Check_Type (s, T_Atom); Check_Type (target, T_Atom); if (!EQ(prop, Sym_None)) { Check_Type (prop, T_Atom); p = ATOM(prop)->atom; } Check_Type (w, T_Window); XConvertSelection (WINDOW(w)->dpy, ATOM(s)->atom, ATOM(target)->atom, p, WINDOW(w)->win, Get_Time (time)); return Void; } void elk_init_xlib_property () { Define_Symbol (&Sym_Now, "now"); Generic_Define (Atom, "atom", "atom?"); Define_Primitive (P_Make_Atom, "make-atom", 1, 1, EVAL); Define_Primitive (P_Intern_Atom, "intern-atom", 2, 2, EVAL); Define_Primitive (P_Find_Atom, "find-atom", 2, 2, EVAL); Define_Primitive (P_Atom_Name, "atom-name", 2, 2, EVAL); Define_Primitive (P_List_Properties, "list-properties", 1, 1, EVAL); Define_Primitive (P_Get_Property, "get-property", 6, 6, EVAL); Define_Primitive (P_Change_Property, "change-property", 6, 6, EVAL); Define_Primitive (P_Delete_Property, "delete-property", 2, 2, EVAL); Define_Primitive (P_Rotate_Properties, "rotate-properties", 3, 3, EVAL); Define_Primitive (P_Set_Selection_Owner, "set-selection-owner!", 4, 4, EVAL); Define_Primitive (P_Selection_Owner, "selection-owner", 2, 2, EVAL); Define_Primitive (P_Convert_Selection, "convert-selection", 5, 5, EVAL); }