Rapicorn - Experimental UI Toolkit - Source Code
13.07.0
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00001 // --- Generated by AidaCxxStub --- 00002 #ifndef __RAPICORN_CLIENTAPI_HH_ 00003 #define __RAPICORN_CLIENTAPI_HH_ 00004 00005 // includes: 00006 #include <ui/utilities.hh> 00007 namespace Rapicorn { 00008 class WidgetImpl; // FIXME 00009 class WindowImpl; 00010 } 00011 00012 // --- ClientHH Boilerplate --- 00013 #include <rapicorn-core.hh> 00014 00015 // --- Interfaces (class declarations) --- 00016 00017 namespace Rapicorn { 00018 00020 enum AdjustmentSourceType { 00021 ADJUSTMENT_SOURCE_NONE = 0, 00022 ADJUSTMENT_SOURCE_ANCESTRY_HORIZONTAL = 1, 00023 ADJUSTMENT_SOURCE_ANCESTRY_VERTICAL = 2, 00024 ADJUSTMENT_SOURCE_ANCESTRY_VALUE = 3, 00025 }; 00026 inline void operator<<= (Rapicorn::Aida::FieldBuffer &fb, AdjustmentSourceType e) { fb <<= Rapicorn::Aida::EnumValue (e); } 00027 inline void operator>>= (Rapicorn::Aida::FieldReader &frr, AdjustmentSourceType &e) { e = AdjustmentSourceType (frr.pop_evalue()); } 00029 00031 enum AlignType { 00032 ALIGN_LEFT = 1, 00033 ALIGN_CENTER = 2, 00034 ALIGN_RIGHT = 3, 00035 }; 00036 inline void operator<<= (Rapicorn::Aida::FieldBuffer &fb, AlignType e) { fb <<= Rapicorn::Aida::EnumValue (e); } 00037 inline void operator>>= (Rapicorn::Aida::FieldReader &frr, AlignType &e) { e = AlignType (frr.pop_evalue()); } 00039 00041 enum AnchorType { 00042 ANCHOR_NONE = 0, 00043 ANCHOR_CENTER = 1, 00044 ANCHOR_EAST = 2, 00045 ANCHOR_NORTH_EAST = 3, 00046 ANCHOR_NORTH = 4, 00047 ANCHOR_NORTH_WEST = 5, 00048 ANCHOR_WEST = 6, 00049 ANCHOR_SOUTH_WEST = 7, 00050 ANCHOR_SOUTH = 8, 00051 ANCHOR_SOUTH_EAST = 9, 00052 }; 00053 inline void operator<<= (Rapicorn::Aida::FieldBuffer &fb, AnchorType e) { fb <<= Rapicorn::Aida::EnumValue (e); } 00054 inline void operator>>= (Rapicorn::Aida::FieldReader &frr, AnchorType &e) { e = AnchorType (frr.pop_evalue()); } 00056 00058 enum ClickType { 00059 CLICK_ON_PRESS = 1, 00060 CLICK_ON_RELEASE = 2, 00061 CLICK_SLOW_REPEAT = 3, 00062 CLICK_FAST_REPEAT = 4, 00063 CLICK_KEY_REPEAT = 5, 00064 }; 00065 inline void operator<<= (Rapicorn::Aida::FieldBuffer &fb, ClickType e) { fb <<= Rapicorn::Aida::EnumValue (e); } 00066 inline void operator>>= (Rapicorn::Aida::FieldReader &frr, ClickType &e) { e = ClickType (frr.pop_evalue()); } 00068 00070 enum ColorType { 00071 COLOR_NONE = 0, 00072 COLOR_FOREGROUND = 1, 00073 COLOR_BACKGROUND = 2, 00074 COLOR_BACKGROUND_EVEN = 3, 00075 COLOR_BACKGROUND_ODD = 4, 00076 COLOR_DARK = 5, 00077 COLOR_DARK_SHADOW = 6, 00078 COLOR_DARK_GLINT = 7, 00079 COLOR_LIGHT = 8, 00080 COLOR_LIGHT_SHADOW = 9, 00081 COLOR_LIGHT_GLINT = 10, 00082 COLOR_FOCUS = 11, 00083 COLOR_BLACK = 12, 00084 COLOR_WHITE = 13, 00085 COLOR_RED = 14, 00086 COLOR_YELLOW = 15, 00087 COLOR_GREEN = 16, 00088 COLOR_CYAN = 17, 00089 COLOR_BLUE = 18, 00090 COLOR_MAGENTA = 19, 00091 }; 00092 inline void operator<<= (Rapicorn::Aida::FieldBuffer &fb, ColorType e) { fb <<= Rapicorn::Aida::EnumValue (e); } 00093 inline void operator>>= (Rapicorn::Aida::FieldReader &frr, ColorType &e) { e = ColorType (frr.pop_evalue()); } 00095 00097 enum ColorSchemeType { 00098 COLOR_INHERIT = 0, 00099 COLOR_NORMAL = 1, 00100 COLOR_SELECTED = 2, 00101 COLOR_BASE = 3, 00102 }; 00103 inline void operator<<= (Rapicorn::Aida::FieldBuffer &fb, ColorSchemeType e) { fb <<= Rapicorn::Aida::EnumValue (e); } 00104 inline void operator>>= (Rapicorn::Aida::FieldReader &frr, ColorSchemeType &e) { e = ColorSchemeType (frr.pop_evalue()); } 00106 00108 enum DirType { 00109 DIR_NONE = 0, 00110 DIR_RIGHT = 1, 00111 DIR_UP = 2, 00112 DIR_LEFT = 3, 00113 DIR_DOWN = 4, 00114 }; 00115 inline void operator<<= (Rapicorn::Aida::FieldBuffer &fb, DirType e) { fb <<= Rapicorn::Aida::EnumValue (e); } 00116 inline void operator>>= (Rapicorn::Aida::FieldReader &frr, DirType &e) { e = DirType (frr.pop_evalue()); } 00118 00120 enum EllipsizeType { 00121 ELLIPSIZE_START = 1, 00122 ELLIPSIZE_MIDDLE = 2, 00123 ELLIPSIZE_END = 3, 00124 }; 00125 inline void operator<<= (Rapicorn::Aida::FieldBuffer &fb, EllipsizeType e) { fb <<= Rapicorn::Aida::EnumValue (e); } 00126 inline void operator>>= (Rapicorn::Aida::FieldReader &frr, EllipsizeType &e) { e = EllipsizeType (frr.pop_evalue()); } 00128 00130 enum FocusDirType { 00131 FOCUS_NEXT = 1, 00132 FOCUS_PREV = 2, 00133 FOCUS_RIGHT = 3, 00134 FOCUS_UP = 4, 00135 FOCUS_LEFT = 5, 00136 FOCUS_DOWN = 6, 00137 }; 00138 inline void operator<<= (Rapicorn::Aida::FieldBuffer &fb, FocusDirType e) { fb <<= Rapicorn::Aida::EnumValue (e); } 00139 inline void operator>>= (Rapicorn::Aida::FieldReader &frr, FocusDirType &e) { e = FocusDirType (frr.pop_evalue()); } 00141 00143 enum FrameType { 00144 FRAME_NONE = 0, 00145 FRAME_BACKGROUND = 1, 00146 FRAME_IN = 2, 00147 FRAME_OUT = 3, 00148 FRAME_ETCHED_IN = 4, 00149 FRAME_ETCHED_OUT = 5, 00150 FRAME_FOCUS = 6, 00151 FRAME_ALERT_FOCUS = 7, 00152 }; 00153 inline void operator<<= (Rapicorn::Aida::FieldBuffer &fb, FrameType e) { fb <<= Rapicorn::Aida::EnumValue (e); } 00154 inline void operator>>= (Rapicorn::Aida::FieldReader &frr, FrameType &e) { e = FrameType (frr.pop_evalue()); } 00156 00158 enum LightingType { 00159 LIGHTING_NONE = 0, 00160 LIGHTING_UPPER_LEFT = 1, 00161 LIGHTING_UPPER_RIGHT = 2, 00162 LIGHTING_LOWER_LEFT = 3, 00163 LIGHTING_LOWER_RIGHT = 4, 00164 LIGHTING_CENTER = 5, 00165 LIGHTING_DIFFUSE = 6, 00166 LIGHTING_DARK_FLAG = 128, 00167 LIGHTING_DARK_UPPER_LEFT = 129, 00168 LIGHTING_DARK_UPPER_RIGHT = 130, 00169 LIGHTING_DARK_LOWER_LEFT = 131, 00170 LIGHTING_DARK_LOWER_RIGHT = 132, 00171 LIGHTING_DARK_CENTER = 133, 00172 LIGHTING_DARK_DIFFUSE = 134, 00173 }; 00174 inline void operator<<= (Rapicorn::Aida::FieldBuffer &fb, LightingType e) { fb <<= Rapicorn::Aida::EnumValue (e); } 00175 inline void operator>>= (Rapicorn::Aida::FieldReader &frr, LightingType &e) { e = LightingType (frr.pop_evalue()); } 00176 inline LightingType operator& (LightingType s1, LightingType s2) { return LightingType (s1 & Rapicorn::Aida::uint64 (s2)); } 00177 inline LightingType& operator&= (LightingType &s1, LightingType s2) { s1 = s1 & s2; return s1; } 00178 inline LightingType operator| (LightingType s1, LightingType s2) { return LightingType (s1 | Rapicorn::Aida::uint64 (s2)); } 00179 inline LightingType& operator|= (LightingType &s1, LightingType s2) { s1 = s1 | s2; return s1; } 00181 00183 enum SelectionMode { 00184 SELECTION_NONE = 0, 00185 SELECTION_SINGLE = 1, 00186 SELECTION_BROWSE = 2, 00187 SELECTION_MULTIPLE = 3, 00188 }; 00189 inline void operator<<= (Rapicorn::Aida::FieldBuffer &fb, SelectionMode e) { fb <<= Rapicorn::Aida::EnumValue (e); } 00190 inline void operator>>= (Rapicorn::Aida::FieldReader &frr, SelectionMode &e) { e = SelectionMode (frr.pop_evalue()); } 00192 00194 enum SizePolicyType { 00195 SIZE_POLICY_NORMAL = 0, 00196 SIZE_POLICY_WIDTH_FROM_HEIGHT = 1, 00197 SIZE_POLICY_HEIGHT_FROM_WIDTH = 2, 00198 }; 00199 inline void operator<<= (Rapicorn::Aida::FieldBuffer &fb, SizePolicyType e) { fb <<= Rapicorn::Aida::EnumValue (e); } 00200 inline void operator>>= (Rapicorn::Aida::FieldReader &frr, SizePolicyType &e) { e = SizePolicyType (frr.pop_evalue()); } 00202 00204 enum StateType { 00205 STATE_NORMAL = 0, 00206 STATE_INSENSITIVE = 1, 00207 STATE_PRELIGHT = 2, 00208 STATE_IMPRESSED = 4, 00209 STATE_FOCUS = 8, 00210 STATE_DEFAULT = 16, 00211 }; 00212 inline void operator<<= (Rapicorn::Aida::FieldBuffer &fb, StateType e) { fb <<= Rapicorn::Aida::EnumValue (e); } 00213 inline void operator>>= (Rapicorn::Aida::FieldReader &frr, StateType &e) { e = StateType (frr.pop_evalue()); } 00214 inline StateType operator& (StateType s1, StateType s2) { return StateType (s1 & Rapicorn::Aida::uint64 (s2)); } 00215 inline StateType& operator&= (StateType &s1, StateType s2) { s1 = s1 & s2; return s1; } 00216 inline StateType operator| (StateType s1, StateType s2) { return StateType (s1 | Rapicorn::Aida::uint64 (s2)); } 00217 inline StateType& operator|= (StateType &s1, StateType s2) { s1 = s1 | s2; return s1; } 00219 00221 enum TextMode { 00222 TEXT_MODE_WRAPPED = 1, 00223 TEXT_MODE_ELLIPSIZED = 2, 00224 TEXT_MODE_SINGLE_LINE = 3, 00225 }; 00226 inline void operator<<= (Rapicorn::Aida::FieldBuffer &fb, TextMode e) { fb <<= Rapicorn::Aida::EnumValue (e); } 00227 inline void operator>>= (Rapicorn::Aida::FieldReader &frr, TextMode &e) { e = TextMode (frr.pop_evalue()); } 00229 00231 enum WindowType { 00232 WINDOW_TYPE_NORMAL = 0, 00233 WINDOW_TYPE_DESKTOP = 1, 00234 WINDOW_TYPE_DOCK = 2, 00235 WINDOW_TYPE_TOOLBAR = 3, 00236 WINDOW_TYPE_MENU = 4, 00237 WINDOW_TYPE_UTILITY = 5, 00238 WINDOW_TYPE_SPLASH = 6, 00239 WINDOW_TYPE_DIALOG = 7, 00240 WINDOW_TYPE_DROPDOWN_MENU = 8, 00241 WINDOW_TYPE_POPUP_MENU = 9, 00242 WINDOW_TYPE_TOOLTIP = 10, 00243 WINDOW_TYPE_NOTIFICATION = 11, 00244 WINDOW_TYPE_COMBO = 12, 00245 WINDOW_TYPE_DND = 13, 00246 }; 00247 inline void operator<<= (Rapicorn::Aida::FieldBuffer &fb, WindowType e) { fb <<= Rapicorn::Aida::EnumValue (e); } 00248 inline void operator>>= (Rapicorn::Aida::FieldReader &frr, WindowType &e) { e = WindowType (frr.pop_evalue()); } 00250 00251 struct BoolSeq : public std::vector<bool> 00252 { 00253 typedef std::vector<bool> Sequence; 00254 reference append_back(); 00255 std::string __aida_type_name__ () const { return "Rapicorn::BoolSeq"; } 00256 Rapicorn::Aida::TypeCode __aida_type_code__ () const { return Rapicorn::Aida::TypeMap::lookup (__aida_type_name__()); } 00257 }; 00258 void operator<<= (Rapicorn::Aida::FieldBuffer&, const BoolSeq&); 00259 void operator>>= (Rapicorn::Aida::FieldReader&, BoolSeq&); 00260 00261 struct StringSeq : public std::vector<std::string> 00262 { 00263 typedef std::vector<std::string> Sequence; 00264 reference append_back(); 00265 std::string __aida_type_name__ () const { return "Rapicorn::StringSeq"; } 00266 Rapicorn::Aida::TypeCode __aida_type_code__ () const { return Rapicorn::Aida::TypeMap::lookup (__aida_type_name__()); } 00267 // class_scope:StringSeq: 00268 explicit StringSeq () {} 00269 /*ctor*/ StringSeq (const std::vector<std::string> &strv) : Sequence (strv) {} 00270 }; 00271 void operator<<= (Rapicorn::Aida::FieldBuffer&, const StringSeq&); 00272 void operator>>= (Rapicorn::Aida::FieldReader&, StringSeq&); 00273 00274 struct AnySeq : public std::vector<Rapicorn::Aida::Any> 00275 { 00276 typedef std::vector<Rapicorn::Aida::Any> Sequence; 00277 reference append_back(); 00278 std::string __aida_type_name__ () const { return "Rapicorn::AnySeq"; } 00279 Rapicorn::Aida::TypeCode __aida_type_code__ () const { return Rapicorn::Aida::TypeMap::lookup (__aida_type_name__()); } 00280 }; 00281 void operator<<= (Rapicorn::Aida::FieldBuffer&, const AnySeq&); 00282 void operator>>= (Rapicorn::Aida::FieldReader&, AnySeq&); 00283 00284 struct AnySeqSeq : public std::vector<AnySeq> 00285 { 00286 typedef std::vector<AnySeq> Sequence; 00287 reference append_back(); 00288 std::string __aida_type_name__ () const { return "Rapicorn::AnySeqSeq"; } 00289 Rapicorn::Aida::TypeCode __aida_type_code__ () const { return Rapicorn::Aida::TypeMap::lookup (__aida_type_name__()); } 00290 }; 00291 void operator<<= (Rapicorn::Aida::FieldBuffer&, const AnySeqSeq&); 00292 void operator>>= (Rapicorn::Aida::FieldReader&, AnySeqSeq&); 00293 00294 struct PixelSeq : public std::vector<int> 00295 { 00296 typedef std::vector<int> Sequence; 00297 reference append_back(); 00298 std::string __aida_type_name__ () const { return "Rapicorn::PixelSeq"; } 00299 Rapicorn::Aida::TypeCode __aida_type_code__ () const { return Rapicorn::Aida::TypeMap::lookup (__aida_type_name__()); } 00300 }; 00301 void operator<<= (Rapicorn::Aida::FieldBuffer&, const PixelSeq&); 00302 void operator>>= (Rapicorn::Aida::FieldReader&, PixelSeq&); 00303 00304 struct Pixbuf 00305 { 00307 int row_length; 00308 PixelSeq pixels; 00309 StringSeq variables; 00311 inline Pixbuf () { row_length = 0; } 00312 std::string __aida_type_name__ () const { return "Rapicorn::Pixbuf"; } 00313 Rapicorn::Aida::TypeCode __aida_type_code__ () const { return Rapicorn::Aida::TypeMap::lookup (__aida_type_name__()); } 00314 bool operator== (const Pixbuf &other) const; 00315 bool operator!= (const Pixbuf &other) const { return !operator== (other); } 00316 void operator<<= (Rapicorn::Aida::Any &any); 00317 friend void operator<<= (Rapicorn::Aida::Any &any, const Pixbuf &rec); 00318 // class_scope:Pixbuf: 00320 explicit Pixbuf (uint w, uint h) : row_length (0) { pixels.resize (w, h); } 00322 void resize (uint w, uint h) { row_length = w; pixels.resize (row_length * h); } 00324 uint32_t* row (uint y) { return y < uint32_t (height()) ? (uint32_t*) &pixels[row_length * y] : NULL; } 00326 const uint32_t* row (uint y) const { return y < uint32_t (height()) ? (uint32_t*) &pixels[row_length * y] : NULL; } 00328 int width () const { return row_length; } 00330 int height () const { return row_length ? pixels.size() / row_length : 0; } 00331 }; 00332 void operator<<= (Rapicorn::Aida::FieldBuffer&, const Pixbuf&); 00333 void operator>>= (Rapicorn::Aida::FieldReader&, Pixbuf&); 00334 00336 enum UpdateKind { 00337 UPDATE_READ = 1, 00338 UPDATE_CHANGE = 2, 00339 UPDATE_INSERTION = 3, 00340 UPDATE_DELETION = 4, 00341 }; 00342 inline void operator<<= (Rapicorn::Aida::FieldBuffer &fb, UpdateKind e) { fb <<= Rapicorn::Aida::EnumValue (e); } 00343 inline void operator>>= (Rapicorn::Aida::FieldReader &frr, UpdateKind &e) { e = UpdateKind (frr.pop_evalue()); } 00345 00346 struct UpdateSpan 00347 { 00349 int start; 00350 int length; 00352 inline UpdateSpan () { start = 0; length = 0; } 00353 std::string __aida_type_name__ () const { return "Rapicorn::UpdateSpan"; } 00354 Rapicorn::Aida::TypeCode __aida_type_code__ () const { return Rapicorn::Aida::TypeMap::lookup (__aida_type_name__()); } 00355 bool operator== (const UpdateSpan &other) const; 00356 bool operator!= (const UpdateSpan &other) const { return !operator== (other); } 00357 void operator<<= (Rapicorn::Aida::Any &any); 00358 friend void operator<<= (Rapicorn::Aida::Any &any, const UpdateSpan &rec); 00359 // class_scope:UpdateSpan: 00360 explicit UpdateSpan (int _start, int _length) : start (_start), length (_length) {} 00361 }; 00362 void operator<<= (Rapicorn::Aida::FieldBuffer&, const UpdateSpan&); 00363 void operator>>= (Rapicorn::Aida::FieldReader&, UpdateSpan&); 00364 00365 struct UpdateRequest 00366 { 00368 UpdateKind kind; 00369 UpdateSpan rowspan; 00370 UpdateSpan colspan; 00371 StringSeq variables; 00372 Rapicorn::Aida::Any value; 00374 inline UpdateRequest () { kind = UpdateKind (0); } 00375 std::string __aida_type_name__ () const { return "Rapicorn::UpdateRequest"; } 00376 Rapicorn::Aida::TypeCode __aida_type_code__ () const { return Rapicorn::Aida::TypeMap::lookup (__aida_type_name__()); } 00377 bool operator== (const UpdateRequest &other) const; 00378 bool operator!= (const UpdateRequest &other) const { return !operator== (other); } 00379 void operator<<= (Rapicorn::Aida::Any &any); 00380 friend void operator<<= (Rapicorn::Aida::Any &any, const UpdateRequest &rec); 00381 // class_scope:UpdateRequest: 00382 explicit UpdateRequest (UpdateKind _kind, const UpdateSpan &rs, const UpdateSpan &cs = UpdateSpan()) : 00383 kind (_kind), rowspan (rs), colspan (cs) {} 00384 }; 00385 void operator<<= (Rapicorn::Aida::FieldBuffer&, const UpdateRequest&); 00386 void operator>>= (Rapicorn::Aida::FieldReader&, UpdateRequest&); 00387 00390 00391 class ListModelHandle : public virtual Rapicorn::Aida::SmartHandle 00392 { 00393 typedef Rapicorn::Aida::Connector<ListModelHandle, void (const UpdateRequest &urequest)> __Aida_Signal__updated; 00394 size_t __aida_connect__updated (size_t, const std::function<void (const UpdateRequest &urequest)>&); 00395 static ListModelHandle __aida_cast__ (Rapicorn::Aida::SmartHandle&, const Rapicorn::Aida::TypeHashList&); 00396 static const Rapicorn::Aida::TypeHash& __aida_typeid__(); 00397 protected: 00398 public: 00399 static Rapicorn::Aida::BaseConnection* __aida_connection__(); 00400 const Rapicorn::Aida::TypeHashList __aida_typelist__(); 00401 template<class SmartHandle> 00402 static ListModelHandle down_cast (SmartHandle smh) { return smh == NULL ? ListModelHandle() : __aida_cast__ (smh, smh.__aida_typelist__()); } 00403 explicit ListModelHandle (); 00404 __Aida_Signal__updated sig_updated () { return __Aida_Signal__updated (*this, &ListModelHandle::__aida_connect__updated); } 00405 int count (); 00406 Rapicorn::Aida::Any row (int index); 00407 }; 00408 void operator<<= (Rapicorn::Aida::FieldBuffer&, const ListModelHandle&); 00409 void operator>>= (Rapicorn::Aida::FieldReader&, ListModelHandle&); 00410 typedef ListModelHandle ListModelH; 00411 00414 00415 class ListModelRelayHandle : public virtual Rapicorn::Aida::SmartHandle 00416 { 00417 typedef Rapicorn::Aida::Connector<ListModelRelayHandle, void (const UpdateRequest &urequest)> __Aida_Signal__refill; 00418 size_t __aida_connect__refill (size_t, const std::function<void (const UpdateRequest &urequest)>&); 00419 static ListModelRelayHandle __aida_cast__ (Rapicorn::Aida::SmartHandle&, const Rapicorn::Aida::TypeHashList&); 00420 static const Rapicorn::Aida::TypeHash& __aida_typeid__(); 00421 protected: 00422 public: 00423 static Rapicorn::Aida::BaseConnection* __aida_connection__(); 00424 const Rapicorn::Aida::TypeHashList __aida_typelist__(); 00425 template<class SmartHandle> 00426 static ListModelRelayHandle down_cast (SmartHandle smh) { return smh == NULL ? ListModelRelayHandle() : __aida_cast__ (smh, smh.__aida_typelist__()); } 00427 explicit ListModelRelayHandle (); 00428 __Aida_Signal__refill sig_refill () { return __Aida_Signal__refill (*this, &ListModelRelayHandle::__aida_connect__refill); } 00429 ListModelHandle model (); 00430 void fill (int first, 00431 const AnySeq &asq); 00432 void update (const UpdateRequest &urequest); 00433 }; 00434 void operator<<= (Rapicorn::Aida::FieldBuffer&, const ListModelRelayHandle&); 00435 void operator>>= (Rapicorn::Aida::FieldReader&, ListModelRelayHandle&); 00436 typedef ListModelRelayHandle ListModelRelayH; 00437 00438 struct Requisition 00439 { 00441 double width; 00442 double height; 00444 inline Requisition () { width = 0; height = 0; } 00445 std::string __aida_type_name__ () const { return "Rapicorn::Requisition"; } 00446 Rapicorn::Aida::TypeCode __aida_type_code__ () const { return Rapicorn::Aida::TypeMap::lookup (__aida_type_name__()); } 00447 bool operator== (const Requisition &other) const; 00448 bool operator!= (const Requisition &other) const { return !operator== (other); } 00449 void operator<<= (Rapicorn::Aida::Any &any); 00450 friend void operator<<= (Rapicorn::Aida::Any &any, const Requisition &rec); 00451 // class_scope:Requisition: 00452 inline Requisition (double w, double h) : width (w), height (h) {} 00453 }; 00454 void operator<<= (Rapicorn::Aida::FieldBuffer&, const Requisition&); 00455 void operator>>= (Rapicorn::Aida::FieldReader&, Requisition&); 00456 00457 class WidgetHandle; 00458 00459 struct WidgetSeq : public std::vector<Rapicorn::Aida::SmartMember<WidgetHandle>> 00460 { 00461 typedef std::vector<Rapicorn::Aida::SmartMember<WidgetHandle>> Sequence; 00462 reference append_back(); 00463 std::string __aida_type_name__ () const { return "Rapicorn::WidgetSeq"; } 00464 Rapicorn::Aida::TypeCode __aida_type_code__ () const { return Rapicorn::Aida::TypeMap::lookup (__aida_type_name__()); } 00465 }; 00466 void operator<<= (Rapicorn::Aida::FieldBuffer&, const WidgetSeq&); 00467 void operator>>= (Rapicorn::Aida::FieldReader&, WidgetSeq&); 00468 00471 00472 class WidgetHandle : public virtual Rapicorn::Aida::SmartHandle 00473 { 00474 static WidgetHandle __aida_cast__ (Rapicorn::Aida::SmartHandle&, const Rapicorn::Aida::TypeHashList&); 00475 static const Rapicorn::Aida::TypeHash& __aida_typeid__(); 00476 protected: 00477 public: 00478 static Rapicorn::Aida::BaseConnection* __aida_connection__(); 00479 const Rapicorn::Aida::TypeHashList __aida_typelist__(); 00480 template<class SmartHandle> 00481 static WidgetHandle down_cast (SmartHandle smh) { return smh == NULL ? WidgetHandle() : __aida_cast__ (smh, smh.__aida_typelist__()); } 00482 explicit WidgetHandle (); 00483 std::string name () const; 00484 void name (const std::string&); 00485 double width () const; 00486 void width (double); 00487 double height () const; 00488 void height (double); 00489 bool hexpand () const; 00490 void hexpand (bool); 00491 bool vexpand () const; 00492 void vexpand (bool); 00493 bool hspread () const; 00494 void hspread (bool); 00495 bool vspread () const; 00496 void vspread (bool); 00497 bool hshrink () const; 00498 void hshrink (bool); 00499 bool vshrink () const; 00500 void vshrink (bool); 00501 bool visible () const; 00502 void visible (bool); 00503 bool sensitive () const; 00504 void sensitive (bool); 00505 double hposition () const; 00506 void hposition (double); 00507 double hspan () const; 00508 void hspan (double); 00509 double vposition () const; 00510 void vposition (double); 00511 double vspan () const; 00512 void vspan (double); 00513 int left_spacing () const; 00514 void left_spacing (int); 00515 int right_spacing () const; 00516 void right_spacing (int); 00517 int bottom_spacing () const; 00518 void bottom_spacing (int); 00519 int top_spacing () const; 00520 void top_spacing (int); 00521 double hanchor () const; 00522 void hanchor (double); 00523 double vanchor () const; 00524 void vanchor (double); 00525 double halign () const; 00526 void halign (double); 00527 double hscale () const; 00528 void hscale (double); 00529 double valign () const; 00530 void valign (double); 00531 double vscale () const; 00532 void vscale (double); 00533 ColorSchemeType color_scheme () const; 00534 void color_scheme (ColorSchemeType); 00535 bool match_selector (const std::string &selector); 00536 WidgetHandle query_selector (const std::string &selector); 00537 WidgetSeq query_selector_all (const std::string &selector); 00538 WidgetHandle query_selector_unique (const std::string &selector); 00539 std::string test_dump (); 00540 // class_scope:Widget: 00542 template<class Target> Target component (const std::string &selector) { return Target::down_cast (query_selector_unique (selector)); } 00543 }; 00544 void operator<<= (Rapicorn::Aida::FieldBuffer&, const WidgetHandle&); 00545 void operator>>= (Rapicorn::Aida::FieldReader&, WidgetHandle&); 00546 typedef WidgetHandle WidgetH; 00547 00550 00551 class ContainerHandle : public WidgetHandle 00552 { 00553 static ContainerHandle __aida_cast__ (Rapicorn::Aida::SmartHandle&, const Rapicorn::Aida::TypeHashList&); 00554 static const Rapicorn::Aida::TypeHash& __aida_typeid__(); 00555 protected: 00556 public: 00557 const Rapicorn::Aida::TypeHashList __aida_typelist__(); 00558 template<class SmartHandle> 00559 static ContainerHandle down_cast (SmartHandle smh) { return smh == NULL ? ContainerHandle() : __aida_cast__ (smh, smh.__aida_typelist__()); } 00560 explicit ContainerHandle (); 00561 WidgetHandle create_child (const std::string &widget_identifier, 00562 const StringSeq &args = StringSeq()); 00563 }; 00564 void operator<<= (Rapicorn::Aida::FieldBuffer&, const ContainerHandle&); 00565 void operator>>= (Rapicorn::Aida::FieldReader&, ContainerHandle&); 00566 typedef ContainerHandle ContainerH; 00567 00570 00571 class ButtonAreaHandle : public ContainerHandle 00572 { 00573 static ButtonAreaHandle __aida_cast__ (Rapicorn::Aida::SmartHandle&, const Rapicorn::Aida::TypeHashList&); 00574 static const Rapicorn::Aida::TypeHash& __aida_typeid__(); 00575 protected: 00576 public: 00577 const Rapicorn::Aida::TypeHashList __aida_typelist__(); 00578 template<class SmartHandle> 00579 static ButtonAreaHandle down_cast (SmartHandle smh) { return smh == NULL ? ButtonAreaHandle() : __aida_cast__ (smh, smh.__aida_typelist__()); } 00580 explicit ButtonAreaHandle (); 00581 std::string on_click () const; 00582 void on_click (const std::string&); 00583 std::string on_click2 () const; 00584 void on_click2 (const std::string&); 00585 std::string on_click3 () const; 00586 void on_click3 (const std::string&); 00587 }; 00588 void operator<<= (Rapicorn::Aida::FieldBuffer&, const ButtonAreaHandle&); 00589 void operator>>= (Rapicorn::Aida::FieldReader&, ButtonAreaHandle&); 00590 typedef ButtonAreaHandle ButtonAreaH; 00591 00594 00595 class DrawableHandle : public WidgetHandle 00596 { 00597 typedef Rapicorn::Aida::Connector<DrawableHandle, void (int x, int y, int w, int h)> __Aida_Signal__redraw; 00598 size_t __aida_connect__redraw (size_t, const std::function<void (int x, int y, int w, int h)>&); 00599 static DrawableHandle __aida_cast__ (Rapicorn::Aida::SmartHandle&, const Rapicorn::Aida::TypeHashList&); 00600 static const Rapicorn::Aida::TypeHash& __aida_typeid__(); 00601 protected: 00602 public: 00603 const Rapicorn::Aida::TypeHashList __aida_typelist__(); 00604 template<class SmartHandle> 00605 static DrawableHandle down_cast (SmartHandle smh) { return smh == NULL ? DrawableHandle() : __aida_cast__ (smh, smh.__aida_typelist__()); } 00606 explicit DrawableHandle (); 00607 __Aida_Signal__redraw sig_redraw () { return __Aida_Signal__redraw (*this, &DrawableHandle::__aida_connect__redraw); } 00608 void draw_rect (int x, 00609 int y, 00610 const Pixbuf &pixbuf); 00611 }; 00612 void operator<<= (Rapicorn::Aida::FieldBuffer&, const DrawableHandle&); 00613 void operator>>= (Rapicorn::Aida::FieldReader&, DrawableHandle&); 00614 typedef DrawableHandle DrawableH; 00615 00618 00619 class WidgetListHandle : public ContainerHandle 00620 { 00621 static WidgetListHandle __aida_cast__ (Rapicorn::Aida::SmartHandle&, const Rapicorn::Aida::TypeHashList&); 00622 static const Rapicorn::Aida::TypeHash& __aida_typeid__(); 00623 protected: 00624 public: 00625 const Rapicorn::Aida::TypeHashList __aida_typelist__(); 00626 template<class SmartHandle> 00627 static WidgetListHandle down_cast (SmartHandle smh) { return smh == NULL ? WidgetListHandle() : __aida_cast__ (smh, smh.__aida_typelist__()); } 00628 explicit WidgetListHandle (); 00629 std::string model () const; 00630 void model (const std::string&); 00631 SelectionMode selection_mode () const; 00632 void selection_mode (SelectionMode); 00633 void set_selection (const BoolSeq &selection); 00634 BoolSeq get_selection (); 00635 void select_range (int first, 00636 int length); 00637 void unselect_range (int first, 00638 int length); 00639 }; 00640 void operator<<= (Rapicorn::Aida::FieldBuffer&, const WidgetListHandle&); 00641 void operator>>= (Rapicorn::Aida::FieldReader&, WidgetListHandle&); 00642 typedef WidgetListHandle WidgetListH; 00643 00646 00647 class WindowHandle : public ContainerHandle 00648 { 00649 typedef Rapicorn::Aida::Connector<WindowHandle, bool (const std::string &cmdname, const StringSeq &args)> __Aida_Signal__commands; 00650 size_t __aida_connect__commands (size_t, const std::function<bool (const std::string &cmdname, const StringSeq &args)>&); 00651 typedef Rapicorn::Aida::Connector<WindowHandle, void ()> __Aida_Signal__displayed; 00652 size_t __aida_connect__displayed (size_t, const std::function<void ()>&); 00653 static WindowHandle __aida_cast__ (Rapicorn::Aida::SmartHandle&, const Rapicorn::Aida::TypeHashList&); 00654 static const Rapicorn::Aida::TypeHash& __aida_typeid__(); 00655 protected: 00656 public: 00657 const Rapicorn::Aida::TypeHashList __aida_typelist__(); 00658 template<class SmartHandle> 00659 static WindowHandle down_cast (SmartHandle smh) { return smh == NULL ? WindowHandle() : __aida_cast__ (smh, smh.__aida_typelist__()); } 00660 explicit WindowHandle (); 00661 std::string title () const; 00662 void title (const std::string&); 00663 bool auto_focus () const; 00664 void auto_focus (bool); 00665 __Aida_Signal__commands sig_commands () { return __Aida_Signal__commands (*this, &WindowHandle::__aida_connect__commands); } 00666 __Aida_Signal__displayed sig_displayed () { return __Aida_Signal__displayed (*this, &WindowHandle::__aida_connect__displayed); } 00667 bool viewable (); 00668 void show (); 00669 bool closed (); 00670 void close (); 00671 bool snapshot (const std::string &pngname); 00672 bool synthesize_click (WidgetHandle &widget, 00673 int button, 00674 double xalign = 0.5, 00675 double yalign = 0.5); 00676 bool synthesize_enter (double xalign = 0.5, 00677 double yalign = 0.5); 00678 bool synthesize_leave (); 00679 bool synthesize_delete (); 00680 }; 00681 void operator<<= (Rapicorn::Aida::FieldBuffer&, const WindowHandle&); 00682 void operator>>= (Rapicorn::Aida::FieldReader&, WindowHandle&); 00683 typedef WindowHandle WindowH; 00684 00685 struct WindowList : public std::vector<Rapicorn::Aida::SmartMember<WindowHandle>> 00686 { 00687 typedef std::vector<Rapicorn::Aida::SmartMember<WindowHandle>> Sequence; 00688 reference append_back(); 00689 std::string __aida_type_name__ () const { return "Rapicorn::WindowList"; } 00690 Rapicorn::Aida::TypeCode __aida_type_code__ () const { return Rapicorn::Aida::TypeMap::lookup (__aida_type_name__()); } 00691 }; 00692 void operator<<= (Rapicorn::Aida::FieldBuffer&, const WindowList&); 00693 void operator>>= (Rapicorn::Aida::FieldReader&, WindowList&); 00694 00697 00698 class ApplicationHandle : public virtual Rapicorn::Aida::SmartHandle 00699 { 00700 typedef Rapicorn::Aida::Connector<ApplicationHandle, void ()> __Aida_Signal__missing_primary; 00701 size_t __aida_connect__missing_primary (size_t, const std::function<void ()>&); 00702 static ApplicationHandle __aida_cast__ (Rapicorn::Aida::SmartHandle&, const Rapicorn::Aida::TypeHashList&); 00703 static const Rapicorn::Aida::TypeHash& __aida_typeid__(); 00704 protected: 00705 public: 00706 static Rapicorn::Aida::BaseConnection* __aida_connection__(); 00707 const Rapicorn::Aida::TypeHashList __aida_typelist__(); 00708 template<class SmartHandle> 00709 static ApplicationHandle down_cast (SmartHandle smh) { return smh == NULL ? ApplicationHandle() : __aida_cast__ (smh, smh.__aida_typelist__()); } 00710 explicit ApplicationHandle (); 00711 __Aida_Signal__missing_primary sig_missing_primary () { return __Aida_Signal__missing_primary (*this, &ApplicationHandle::__aida_connect__missing_primary); } 00712 std::string auto_path (const std::string &file_name, 00713 const std::string &binary_path, 00714 bool search_vpath = 1); 00715 StringSeq auto_load (const std::string &defs_domain, 00716 const std::string &file_name, 00717 const std::string &binary_path, 00718 const std::string &i18n_domain = ""); 00719 bool factory_window (const std::string &factory_definition); 00720 void load_string (const std::string &defs_domain, 00721 const std::string &xml_string, 00722 const std::string &i18n_domain = ""); 00723 WindowHandle create_window (const std::string &window_identifier, 00724 const StringSeq &arguments = StringSeq()); 00725 bool finishable (); 00726 void close_all (); 00727 WindowHandle query_window (const std::string &selector); 00728 WindowList query_windows (const std::string &selector); 00729 WindowList list_windows (); 00730 ListModelRelayHandle create_list_model_relay (const std::string &name = ""); 00731 void test_counter_set (int val); 00732 void test_counter_add (int val); 00733 int test_counter_get (); 00734 int test_counter_inc_fetch (); 00735 Rapicorn::Aida::int64 test_hook (); 00736 // class_scope:Application: 00737 static int run (); 00738 static void quit (int quit_code = 0); 00739 static void shutdown (); 00740 static int run_and_exit () RAPICORN_NORETURN; 00741 static ApplicationHandle the (); 00742 protected: 00743 static MainLoop* main_loop (); 00744 }; 00745 void operator<<= (Rapicorn::Aida::FieldBuffer&, const ApplicationHandle&); 00746 void operator>>= (Rapicorn::Aida::FieldReader&, ApplicationHandle&); 00747 typedef ApplicationHandle ApplicationH; 00748 00750 enum TestEnum { 00751 TEST_ENUM_VALUE1 = 1, 00752 TEST_ENUM_VALUE2 = 2, 00753 TEST_ENUM_VALUE3 = 3, 00754 }; 00755 inline void operator<<= (Rapicorn::Aida::FieldBuffer &fb, TestEnum e) { fb <<= Rapicorn::Aida::EnumValue (e); } 00756 inline void operator>>= (Rapicorn::Aida::FieldReader &frr, TestEnum &e) { e = TestEnum (frr.pop_evalue()); } 00758 00761 00762 class IdlTestWidgetHandle : public WidgetHandle 00763 { 00764 static IdlTestWidgetHandle __aida_cast__ (Rapicorn::Aida::SmartHandle&, const Rapicorn::Aida::TypeHashList&); 00765 static const Rapicorn::Aida::TypeHash& __aida_typeid__(); 00766 protected: 00767 public: 00768 const Rapicorn::Aida::TypeHashList __aida_typelist__(); 00769 template<class SmartHandle> 00770 static IdlTestWidgetHandle down_cast (SmartHandle smh) { return smh == NULL ? IdlTestWidgetHandle() : __aida_cast__ (smh, smh.__aida_typelist__()); } 00771 explicit IdlTestWidgetHandle (); 00772 bool bool_prop () const; 00773 void bool_prop (bool); 00774 int int_prop () const; 00775 void int_prop (int); 00776 double float_prop () const; 00777 void float_prop (double); 00778 std::string string_prop () const; 00779 void string_prop (const std::string&); 00780 TestEnum enum_prop () const; 00781 void enum_prop (TestEnum); 00782 Requisition record_prop () const; 00783 void record_prop (const Requisition&); 00784 StringSeq sequence_prop () const; 00785 void sequence_prop (const StringSeq&); 00786 IdlTestWidgetHandle self_prop () const; 00787 void self_prop (IdlTestWidgetHandle); 00788 }; 00789 void operator<<= (Rapicorn::Aida::FieldBuffer&, const IdlTestWidgetHandle&); 00790 void operator>>= (Rapicorn::Aida::FieldReader&, IdlTestWidgetHandle&); 00791 typedef IdlTestWidgetHandle IdlTestWidgetH; 00792 } // Rapicorn 00793 00794 namespace Rapicorn { 00795 00796 namespace Aida { 00797 00798 template<> inline TypeCode TypeCode::from_enum<Rapicorn::AdjustmentSourceType>() { return TypeMap::lookup ("Rapicorn::AdjustmentSourceType"); } 00799 00800 template<> inline TypeCode TypeCode::from_enum<Rapicorn::AlignType>() { return TypeMap::lookup ("Rapicorn::AlignType"); } 00801 00802 template<> inline TypeCode TypeCode::from_enum<Rapicorn::AnchorType>() { return TypeMap::lookup ("Rapicorn::AnchorType"); } 00803 00804 template<> inline TypeCode TypeCode::from_enum<Rapicorn::ClickType>() { return TypeMap::lookup ("Rapicorn::ClickType"); } 00805 00806 template<> inline TypeCode TypeCode::from_enum<Rapicorn::ColorType>() { return TypeMap::lookup ("Rapicorn::ColorType"); } 00807 00808 template<> inline TypeCode TypeCode::from_enum<Rapicorn::ColorSchemeType>() { return TypeMap::lookup ("Rapicorn::ColorSchemeType"); } 00809 00810 template<> inline TypeCode TypeCode::from_enum<Rapicorn::DirType>() { return TypeMap::lookup ("Rapicorn::DirType"); } 00811 00812 template<> inline TypeCode TypeCode::from_enum<Rapicorn::EllipsizeType>() { return TypeMap::lookup ("Rapicorn::EllipsizeType"); } 00813 00814 template<> inline TypeCode TypeCode::from_enum<Rapicorn::FocusDirType>() { return TypeMap::lookup ("Rapicorn::FocusDirType"); } 00815 00816 template<> inline TypeCode TypeCode::from_enum<Rapicorn::FrameType>() { return TypeMap::lookup ("Rapicorn::FrameType"); } 00817 00818 template<> inline TypeCode TypeCode::from_enum<Rapicorn::LightingType>() { return TypeMap::lookup ("Rapicorn::LightingType"); } 00819 00820 template<> inline TypeCode TypeCode::from_enum<Rapicorn::SelectionMode>() { return TypeMap::lookup ("Rapicorn::SelectionMode"); } 00821 00822 template<> inline TypeCode TypeCode::from_enum<Rapicorn::SizePolicyType>() { return TypeMap::lookup ("Rapicorn::SizePolicyType"); } 00823 00824 template<> inline TypeCode TypeCode::from_enum<Rapicorn::StateType>() { return TypeMap::lookup ("Rapicorn::StateType"); } 00825 00826 template<> inline TypeCode TypeCode::from_enum<Rapicorn::TextMode>() { return TypeMap::lookup ("Rapicorn::TextMode"); } 00827 00828 template<> inline TypeCode TypeCode::from_enum<Rapicorn::WindowType>() { return TypeMap::lookup ("Rapicorn::WindowType"); } 00829 00830 template<> inline TypeCode TypeCode::from_enum<Rapicorn::UpdateKind>() { return TypeMap::lookup ("Rapicorn::UpdateKind"); } 00831 00832 template<> inline TypeCode TypeCode::from_enum<Rapicorn::TestEnum>() { return TypeMap::lookup ("Rapicorn::TestEnum"); } 00833 } // Aida 00834 } // Rapicorn 00835 00836 // global_scope: 00837 namespace Rapicorn { 00838 00839 bool init_app_initialized (); 00840 ApplicationHandle init_app (const String &app_ident, 00841 int *argcp, 00842 char **argv, 00843 const StringVector &args = StringVector()); 00844 ApplicationHandle init_test_app (const String &app_ident, 00845 int *argcp, 00846 char **argv, 00847 const StringVector &args = StringVector()); 00848 void exit_app (int status) RAPICORN_NORETURN; 00849 00850 } // Rapicorn 00851 #define RAPICORN_PIXBUF_TYPE Rapicorn::Pixbuf 00852 #include <ui/pixmap.hh> 00853 #endif /* __RAPICORN_CLIENTAPI_HH_ */