/* $Id$ */
/** @file window.h regroups declarations for all windowing system, as well as a few helper functions */
#ifndef WINDOW_H
#define WINDOW_H
#include "widget/widget.h"
#include <map>
struct WindowEvent;
typedef void WindowProc(BaseWindow *w, WindowEvent *e);
/* How the resize system works:
First, you need to add a WWT_RESIZEBOX to the widgets, and you need
to add the flag WDF_RESIZABLE to the window. Now the window is ready
to resize itself.
As you may have noticed, all widgets have a RESIZE_XXX in their line.
This lines controls how the widgets behave on resize. RESIZE_NONE means
it doesn't do anything. Any other option let's one of the borders
move with the changed width/height. So if a widget has
RESIZE_RIGHT, and the window is made 5 pixels wider by the user,
the right of the window will also be made 5 pixels wider.
Now, what if you want to clamp a widget to the bottom? Give it the flag
RESIZE_TB. This is RESIZE_TOP + RESIZE_BOTTOM. Now if the window gets
5 pixels bigger, both the top and bottom gets 5 bigger, so the whole
widgets moves downwards without resizing, and appears to be clamped
to the bottom. Nice aint it?
You should know one more thing about this system. Most windows can't
handle an increase of 1 pixel. So there is a step function, which
let the windowsize only be changed by X pixels. You configure this
after making the window, like this:
w->resize.step_height = 10;
Now the window will only change in height in steps of 10.
You can also give a minimum width and height. The default value is
the default height/width of the window itself. You can change this
AFTER window-creation, with:
w->resize.width or w->resize.height.
That was all.. good luck, and enjoy :) -- TrueLight */
enum ResizeFlag {
RESIZE_NONE = 0, ///< no resize required
RESIZE_LEFT = 1, ///< left resize flag
RESIZE_RIGHT = 2, ///< rigth resize flag
RESIZE_TOP = 4, ///< top resize flag
RESIZE_BOTTOM = 8, ///< bottom resize flag
RESIZE_LR = RESIZE_LEFT | RESIZE_RIGHT, ///< combination of left and right resize flags
RESIZE_RB = RESIZE_RIGHT | RESIZE_BOTTOM, ///< combination of right and bottom resize flags
RESIZE_TB = RESIZE_TOP | RESIZE_BOTTOM, ///< combination of top and bottom resize flags
RESIZE_LRB = RESIZE_LEFT | RESIZE_RIGHT | RESIZE_BOTTOM, ///< combination of left, right and bottom resize flags
RESIZE_LRTB = RESIZE_LEFT | RESIZE_RIGHT | RESIZE_TOP | RESIZE_BOTTOM, ///< combination of all resize flags
RESIZE_RTB = RESIZE_RIGHT | RESIZE_TOP | RESIZE_BOTTOM, ///< combination of right, top and bottom resize flag
/* The following flags are used by the system to specify what is disabled, hidden, or clicked
* They are used in the same place as the above RESIZE_x flags, Widget visual_flags.
* These states are used in exceptions. If nothing is specified, they will indicate
* Enabled, visible or unclicked widgets*/
WIDG_DISABLED = 4, ///< widget is greyed out, not available
WIDG_HIDDEN = 5, ///< widget is made invisible
WIDG_LOWERED = 6, ///< widget is paint lowered, a pressed button in fact
};
DECLARE_ENUM_AS_BIT_SET(ResizeFlag);
enum WindowFlags {
//WF_TIMEOUT_SHL = 0,
//WF_TIMEOUT_MASK = 7,
WF_DRAGGING = 1 << 3,
WF_SCROLL_UP = 1 << 4,
WF_SCROLL_DOWN = 1 << 5,
WF_SCROLL_MIDDLE = 1 << 6,
WF_HSCROLL = 1 << 7,
WF_SIZING = 1 << 8,
WF_STICKY = 1 << 9,
WF_DISABLE_VP_SCROLL = 1 << 10,
//WF_WHITE_BORDER_ONE = 1 << 11,
//WF_WHITE_BORDER_MASK = 1 << 12 | WF_WHITE_BORDER_ONE,
WF_SCROLL2 = 1 << 13,
};
DECLARE_ENUM_AS_BIT_SET(WindowFlags);
/* used to indicate the end of widgets' list for vararg functions */
enum {
WIDGET_LIST_END = -1, ///< indicate the end of widgets' list for vararg functions
};
/****************** THESE ARE NOT WIDGET TYPES!!!!! *******************/
enum WindowWidgetBehaviours {
WWB_PUSHBUTTON = 1 << 5,
WWB_MASK = 0xE0,
};
enum WindowWidgetTypes {
WWT_EMPTY,
WWT_PANEL, /* simple depressed panel */
WWT_INSET, /* pressed (inset) panel, most commonly used as combo box _text_ area */
WWT_IMGBTN, /* button with image */
WWT_IMGBTN_2, /* button with diff image when clicked */
WWT_TEXTBTN, /* button with text */
WWT_TEXTBTN_2, /* button with diff text when clicked */
WWT_LABEL, /* centered label */
WWT_TEXT, /* pure simple text */
WWT_MATRIX,
WWT_SCROLLBAR,
WWT_FRAME, /* frame */
WWT_CAPTION,
WWT_HSCROLLBAR,
WWT_STICKYBOX,
WWT_SCROLL2BAR, /* 2nd vertical scrollbar*/
WWT_RESIZEBOX,
WWT_CLOSEBOX,
WWT_LAST, /* Last Item. use WIDGETS_END to fill up padding!! */
WWT_MASK = 0x1F,
WWT_PUSHBTN = WWT_PANEL | WWB_PUSHBUTTON,
WWT_PUSHTXTBTN = WWT_TEXTBTN | WWB_PUSHBUTTON,
WWT_PUSHIMGBTN = WWT_IMGBTN | WWB_PUSHBUTTON,
};
#define WIDGETS_END WWT_LAST, RESIZE_NONE, 0, 0, 0, 0, 0, 0, STR_NULL
void DrawFrameRect(int left, int top, int right, int bottom, int color, FrameFlags flags);
enum WindowEventCodes {
WE_CREATE,
WE_DESTROY,
WE_PAINT,
WE_KEYPRESS,
WE_CLICK,
WE_RCLICK,
WE_MOUSEOVER,
WE_MOUSELOOP,
WE_MOUSEWHEEL,
WE_TICK,
WE_4,
WE_TIMEOUT,
WE_PLACE_OBJ,
WE_ABORT_PLACE_OBJ,
WE_ON_EDIT_TEXT,
WE_ON_EDIT_TEXT_CANCEL,
WE_POPUPMENU_SELECT,
WE_POPUPMENU_OVER,
WE_DRAGDROP,
WE_PLACE_DRAG,
WE_PLACE_MOUSEUP,
WE_PLACE_PRESIZE,
WE_DROPDOWN_SELECT,
WE_RESIZE,
WE_MESSAGE,
WE_SCROLL,
WE_INVALIDATE_DATA,
};
struct WindowEvent {
byte event;
union {
struct{
PointRaw pt;
int widget;
} click;
struct {
PointRaw pt;
TileIndex tile;
TileIndex starttile;
int userdata;
} place;
struct {
PointRaw pt;
int widget;
} dragdrop;
struct {
PointRaw size;
PointRaw diff;
} sizing;
struct {
char *str;
} edittext;
struct {
PointRaw pt;
} popupmenu;
struct {
int button;
int index;
} dropdown;
struct {
PointRaw pt;
int widget;
} mouseover;
struct {
bool cont; ///< continue the search? (default true)
uint16 key; ///< 16-bit Unicode value of the key
uint16 keycode; ///< untranslated key (including shift-state)
} keypress;
struct {
int msg; ///< message to be sent
int wparam; ///< additional message-specific information
int lparam; ///< additional message-specific information
} message;
struct {
PointRaw delta; ///< delta position against position of last call
} scroll;
struct {
int wheel; ///< how much was 'wheel'd'
} wheel;
} we;
};
struct OldWidget;
struct WindowDesc {
int16 left, top, width, height;
WindowClass cls;
WindowClass parent_cls;
uint32 flags;
const OldWidget *widgets;
WindowProc *proc;
};
enum WindowDefaultFlag {
WDF_STD_TOOLTIPS = 1, ///< use standard routine when displaying tooltips
WDF_DEF_WIDGET = 2, ///< default widget control for some widgets in the on click event
WDF_STD_BTN = 4, ///< default handling for close and drag widgets (widget no 0 and 1)
WDF_UNCLICK_BUTTONS = 16, ///< Unclick buttons when the window event times out */
WDF_STICKY_BUTTON = 32, ///< Set window to sticky mode; they are not closed unless closed with 'X' (widget 2)
WDF_RESIZABLE = 64, ///< A window can be resized
WDF_MODAL = 128, ///< The window is a modal child of some other window, meaning the parent is 'inactive'
};
/* can be used as x or y coordinates to cause a specific placement */
enum WindowDefaultPosition {
WDP_AUTO = -1, ///< Find a place automatically
WDP_CENTER = -2, ///< Center the window (left/right or top/bottom)
WDP_ALIGN_TBR = -3, ///< Align the right side of the window with the right side of the main toolbar
WDP_ALIGN_TBL = -4, ///< Align the left side of the window with the left side of the main toolbar
};
struct Textbuf {
char *buf; ///< buffer in which text is saved
uint16 maxlength, maxwidth; ///< the maximum size of the buffer. Maxwidth specifies screensize in pixels, maxlength is in bytes
uint16 length, width; ///< the current size of the string. Width specifies screensize in pixels, length is in bytes
bool caret; ///< is the caret ("_") visible or not
uint16 caretpos; ///< the current position of the caret in the buffer, in bytes
uint16 caretxoffs; ///< the current position of the caret in pixels
};
#define WP(ptr,str) (*(str*)(ptr)->custom)
/* You cannot 100% reliably calculate the biggest custom struct as
* the number of pointers in it and alignment will have a huge impact.
* 96 is the largest window-size for 64-bit machines currently */
#define WINDOW_CUSTOM_SIZE 96
struct Scrollbar {
uint16 count, cap, pos;
};
struct ResizeInfo {
uint width; ///< Minimum width and height
uint height;
uint step_width; ///< In how big steps the width and height go
uint step_height;
};
struct WindowMessage {
int msg;
int wparam;
int lparam;
};
struct OldWidget {
WindowWidgetTypes type; ///< OldWidget type, see @WindowWidgetTypes
byte m_display_flags; ///< Resize direction, alignment, etc. during resizing, see @ResizeFlags
byte color; ///< OldWidget colour, see docs/ottd-colourtext-palette.png
int16 left, right, top, bottom; ///< The position offsets inside the window
uint16 data; ///< The String/Image or special code (list-matrixes) of a widget
StringID tooltips; ///< Tooltips that are shown when rightclicking on a widget
};
struct BaseWindow;
typedef CCountedPtr<BaseWindow> WindowPtr;
struct WindowList {
struct Item {
WindowPtr w;
Item(BaseWindow *v = NULL) : w(v) {}
Item(const Item &src) : w(src.w) {}
~Item()
{}
};
typedef std::list<Item> List;
typedef List::iterator Iterator;
typedef List::reverse_iterator ReverseIterator;
List m_list;
void Add(BaseWindow *w);
void Remove(BaseWindow *w);
void CloseAll();
Iterator Find(BaseWindow *w);
Iterator FindFirstVitalWindow();
Iterator FindByClass(WindowClass cls);
Iterator FindById(WindowClass cls, WindowNumber num);
Iterator FindFromPt(int x, int y);
Iterator EnumT(bool (*enum_proc)(Iterator))
{
for (Iterator it = m_list.begin(); it != m_list.end(); ++it) {
if (enum_proc(it)) return it;
}
return m_list.end();
}
template <class Tmatch_1> Iterator EnumT(bool (*enum_proc)(Iterator, Tmatch_1), Tmatch_1 match)
{
for (Iterator it = m_list.begin(); it != m_list.end(); ++it) {
if (enum_proc(it, match)) return it;
}
return m_list.end();
}
template <class Tmatch_1, class Tmatch_2> Iterator EnumT(bool (*enum_proc)(Iterator, Tmatch_1, Tmatch_2), Tmatch_1 match_1, Tmatch_2 match_2)
{
for (Iterator it = m_list.begin(); it != m_list.end(); ++it) {
if (enum_proc(it, match_1, match_2)) return it;
}
return m_list.end();
}
Iterator ReverseEnumT(bool (*enum_proc)(Iterator))
{
for (Iterator it = m_list.end(); it != m_list.begin(); ) {
--it;
if (enum_proc(it)) return it;
}
return m_list.end();
}
template <class Tmatch_1> Iterator ReverseEnumT(bool (*enum_proc)(Iterator, Tmatch_1), Tmatch_1 match)
{
for (Iterator it = m_list.end(); it != m_list.begin(); ) {
--it;
if (enum_proc(it, match)) return it;
}
return m_list.end();
}
template <class Tmatch_1, class Tmatch_2> Iterator ReverseEnumT(bool (*enum_proc)(Iterator, Tmatch_1, Tmatch_2), Tmatch_1 match_1, Tmatch_2 match_2)
{
for (Iterator it = m_list.end(); it != m_list.begin(); ) {
--it;
if (enum_proc(it, match_1, match_2)) return it;
}
return m_list.end();
}
};
struct BaseWindow : public gui::Panel {
public:
typedef gui::Panel super;
static WindowList s_list;
ZeroInitBegin m_zero_init_area; ///< following members get cleared by constructor
WindowFlags flags4;
WindowClass window_class;
WindowNumber window_number;
protected:
Point16 m_wnd_pos;
public:
StringID m_caption_text;
Scrollbar hscroll, vscroll, vscroll2;
ResizeInfo resize;
byte caption_color;
byte autorepeat_timeout; ///< timer for scroll (spin) click autorepeat
byte flash_timeout; ///< timer for flashing white border
WindowProc *wndproc;
ViewPort *viewport;
const OldWidget *original_widget;
OldWidget *widget;
uint widget_count;
uint32 desc_flags;
WindowMessage message;
BaseWindow *parent;
byte custom[WINDOW_CUSTOM_SIZE];
ZeroInitEnd m_zero_init_end; ///< end of zero initialization area
protected:
BaseWindow(WindowClass cls, StringID caption_text = 0, byte color = COLOUR_GREY, gui::FeatureFlags feature_flags = gui::FF_NONE)
: super(NULL, feature_flags, 0, color)
, m_zero_init_area(m_zero_init_end)
, window_class(cls)
, m_caption_text(caption_text)
{}
public:
BaseWindow(const WindowDesc *desc, WindowNumber num = 0)
: m_zero_init_area(m_zero_init_end)
{
Create(desc, num);
}
int16 Left() const;
int16 Top() const;
int16 Right() const;
int16 Bottom() const;
const Point16& TopLeft() const;
Point16 BottomRight() const;
Rect16 GetRect() const;
void SetLeft(int16 val);
void SetTop(int16 val);
void SetRight(int16 val);
void SetBottom(int16 val);
void SetTopLeft(const Point16 &pt);
void SetBottomRight(const Point16 &pt);
void SetSize(const Point16 &pt);
void SetRect(const Rect16 &rect);
virtual bool Create(WindowNumber num);
virtual bool Create(const WindowDesc *desc, WindowNumber num = 0);
/*virtual*/ void CreateNcWidgets();
/*virtual*/ void CreateWidgets(); ///< @TODO remove it when old gui infrastructure will no longer be used
/*virtual*/ void OnCreate(gui::EvtCreate &ev);
/*virtual*/ void OnPaint(gui::EvtPaint &ev);
/*virtual*/ void OnResize(gui::EvtResize &ev);
static BaseWindow* Allocate(int x, int y, int width, int height, WindowProc *proc, WindowClass cls, const OldWidget *widget);
static BaseWindow* Allocate(const WindowDesc *desc, int window_number = 0);
static BaseWindow* AllocateFront(const WindowDesc *desc, int window_number = 0);
/*virtual*/ BaseWindow* GetWindow();
BaseWindow* FindChild() const;
void SetDirty() const;
void CDECL SetWidgetsDisabledState(bool disab_stat, int widgets, ...);
void CDECL SetWidgetsHiddenState(bool hidden_stat, int widgets, ...);
void CDECL SetWidgetsLoweredState(bool lowered_stat, int widgets, ...);
void RaiseButtons();
void HandleButtonClick(byte widget);
void BringToFront();
static BaseWindow* BringToFrontById(WindowClass cls, WindowNumber number);
void StartDrag();
bool ContinueDrag();
void StartSizing();
bool ContinueSizing();
static bool HandleWindowDragging(void);
void DispatchLeftClickEvent(int x, int y);
void DispatchRightClickEvent(int x, int y);
void DispatchMouseWheelEvent(int widget, int wheel);
/*virtual*/ void FinalRelease();
virtual void Close();
virtual bool IsVital();
static BaseWindow* Get(WindowList::Iterator it);
static BaseWindow* FindFromPt(int x, int y);
static BaseWindow* FindById(WindowClass cls, WindowNumber num);
static void SetDirtyById(WindowClass cls, WindowNumber num);
bool IsOfPrototype(const OldWidget *widgets) const;
int GetMenuItemIndex(int x, int y) const;
void Resize(int x, int y);
void CallEventNP(int event);
void OldWndProc(WindowEvent *e);
static void DefaultWndProc(BaseWindow *w, WindowEvent *e);
void AssignWidget(const OldWidget *widget);
void InvalidateData();
void InvalidateWidget(byte widget_index) const;
static void DeleteNonVitalWindows(void);
static void DeleteAllNonVitalWindows(void);
static void ShowVitalWindows(void);
static void HideVitalWindows(void);
/* viewport.cpp */
void DrawViewport() const;
/* widget.cpp */
int GetWidgetFromPos(int x, int y) const;
void DrawWidgets() const;
void ShowDropDownMenu(const StringID *strings, int selected, int button, uint32 disabled_mask, uint32 hidden_mask);
void ResizeButtons(byte left, byte right);
private:
void ScrollbarClickHandler(const OldWidget *wi, int x, int y);
public:
/*inline*/ void SetWidgetDisabledState(byte widget_index, bool disab_stat);
/*inline*/ void DisableWidget(byte widget_index);
/*inline*/ void EnableWidget(byte widget_index);
/*inline*/ bool IsWidgetDisabled(byte widget_index) const;
/*inline*/ void SetWidgetHiddenState(byte widget_index, bool hidden_stat);
/*inline*/ void HideWidget(byte widget_index);
/*inline*/ void ShowWidget(byte widget_index);
/*inline*/ bool IsWidgetHidden(byte widget_index) const;
/*inline*/ void SetWidgetLoweredState(byte widget_index, bool lowered_stat);
/*inline*/ void ToggleWidgetLoweredState(byte widget_index);
/*inline*/ void LowerWidget(byte widget_index);
/*inline*/ void RaiseWidget(byte widget_index);
/*inline*/ bool IsWidgetLowered(byte widget_index) const;
//int32 AddRef()
//{
// const char *name = NULL;
// switch (window_class)
// {
// case WC_MAIN_WINDOW: name = "mw"; break;
// case WC_SELECT_GAME: name = "sg"; break;
// case WC_INDUSTRY_VIEW: name = "iw"; break;
// default: break;
// }
// if (name != NULL) printf("%s+\n", name);
// return SimpleCountedObject::AddRef();
//}
//int32 Release()
//{
// const char *name = NULL;
// switch (window_class)
// {
// case WC_MAIN_WINDOW: name = "mw"; break;
// case WC_SELECT_GAME: name = "sg"; break;
// case WC_INDUSTRY_VIEW: name = "iw"; break;
// default: break;
// }
// if (name != NULL) printf("%s-\n", name);
// return SimpleCountedObject::Release();
//}
template <class Tmatch> struct EnumMatch {
Tmatch &m_match;
EnumMatch(Tmatch &m)
: m_match(m)
{}
bool EnumProc(WindowList::Iterator it)
{
return m_match->EnumProc((*it).w);
}
};
//template <class Tmatch> BaseWindow* EnumT(Tmatch m)
//{
// WindowList::Iterator it = BaseWindow::s_list.EnumT(EnumMatch<Tmatch>(m));
// return (it == BaseWindow::s_list.m_list.end()) ? NULL : (*it).w;
//}
//template <class Tmatch> BaseWindow* ReverseEnumT(Tmatch m)
//{
// WindowList::Iterator it = BaseWindow::s_list.ReverseEnumT(EnumMatch<Tmatch>(m));
// return (it == BaseWindow::s_list.m_list.end()) ? NULL : (*it).w;
//}
};
#define FOR_ALL_WINDOWS(wz) \
for (WindowList::Iterator it = BaseWindow::s_list.m_list.begin(); it != BaseWindow::s_list.m_list.end() && (wz = (*it).w) != NULL; it++)
#define REVERSED_FOR_ALL_WINDOWS(wz) \
for (WindowList::ReverseIterator it = BaseWindow::s_list.m_list.rbegin(); it != BaseWindow::s_list.m_list.rend() && (wz = (*it).w) != NULL; it++)
struct querystr_d {
StringID caption;
Textbuf text;
const char *orig;
CharSetFilter afilter;
bool handled;
};
assert_compile(WINDOW_CUSTOM_SIZE >= sizeof(querystr_d));
struct menu_d {
byte item_count; ///< follow_vehicle
byte sel_index; ///< scrollpos_x
byte main_button; ///< scrollpos_y
byte action_id;
StringID string_id; ///< unk30
uint16 checked_items; ///< unk32
byte disabled_items;
};
assert_compile(WINDOW_CUSTOM_SIZE >= sizeof(menu_d));
struct def_d {
int16 data_1, data_2, data_3;
int16 data_4, data_5;
bool close;
byte byte_1;
};
assert_compile(WINDOW_CUSTOM_SIZE >= sizeof(def_d));
struct void_d {
void *data;
};
assert_compile(WINDOW_CUSTOM_SIZE >= sizeof(void_d));
struct tree_d {
uint16 base;
uint16 count;
};
assert_compile(WINDOW_CUSTOM_SIZE >= sizeof(tree_d));
struct tooltips_d {
StringID string_id;
byte paramcount;
uint32 params[5];
};
assert_compile(WINDOW_CUSTOM_SIZE >= sizeof(tooltips_d));
struct buildvehicle_d {
byte vehicle_type;
union {
RailTypeByte railtype;
AirportFTAClass::Flags flags;
} filter;
byte sel_index; ///< deprecated value, used for 'unified' ship and road
bool descending_sort_order;
byte sort_criteria;
bool regenerate_list;
EngineID sel_engine;
EngineID rename_engine;
EngineList eng_list;
};
assert_compile(WINDOW_CUSTOM_SIZE >= sizeof(buildvehicle_d));
struct replaceveh_d {
byte sel_index[2];
EngineID sel_engine[2];
uint16 count[2];
bool wagon_btnstate; ///< true means engine is selected
EngineList list[2];
bool update_left;
bool update_right;
bool init_lists;
};
assert_compile(WINDOW_CUSTOM_SIZE >= sizeof(replaceveh_d));
struct depot_d {
VehicleID sel;
byte type;
bool generate_list;
uint16 engine_list_length;
uint16 wagon_list_length;
uint16 engine_count;
uint16 wagon_count;
Vehicle **vehicle_list;
Vehicle **wagon_list;
};
assert_compile(WINDOW_CUSTOM_SIZE >= sizeof(depot_d));
struct order_d {
int sel;
};
assert_compile(WINDOW_CUSTOM_SIZE >= sizeof(order_d));
struct traindetails_d {
byte tab;
};
assert_compile(WINDOW_CUSTOM_SIZE >= sizeof(traindetails_d));
struct smallmap_d {
int32 scroll_x;
int32 scroll_y;
int32 subscroll;
};
assert_compile(WINDOW_CUSTOM_SIZE >= sizeof(smallmap_d));
struct facesel_d {
uint32 face;
byte gender;
};
assert_compile(WINDOW_CUSTOM_SIZE >= sizeof(facesel_d));
struct refit_d {
int sel;
struct RefitOption *cargo;
struct RefitList *list;
uint length;
VehicleOrderID order;
};
assert_compile(WINDOW_CUSTOM_SIZE >= sizeof(refit_d));
struct vp_d {
VehicleID follow_vehicle;
int32 scrollpos_x;
int32 scrollpos_y;
};
assert_compile(WINDOW_CUSTOM_SIZE >= sizeof(vp_d));
/* vp2_d is the same as vp_d, except for the data_# values.. */
struct vp2_d {
VehicleID follow_vehicle;
int32 scrollpos_x;
int32 scrollpos_y;
byte data_1;
byte data_2;
byte data_3;
};
assert_compile(WINDOW_CUSTOM_SIZE >= sizeof(vp2_d));
struct news_d {
uint16 follow_vehicle;
int32 scrollpos_x;
int32 scrollpos_y;
NewsItem *ni;
};
assert_compile(WINDOW_CUSTOM_SIZE >= sizeof(news_d));
struct highscore_d {
uint32 background_img;
int8 rank;
};
assert_compile(WINDOW_CUSTOM_SIZE >= sizeof(highscore_d));
struct scroller_d {
int height;
uint16 counter;
};
assert_compile(WINDOW_CUSTOM_SIZE >= sizeof(scroller_d));
enum SortListFlags {
VL_NONE = 0x00, ///< no sort
VL_DESC = 0x01, ///< sort descending or ascending
VL_RESORT = 0x02, ///< instruct the code to resort the list in the next loop
VL_REBUILD = 0x04, ///< create sort-listing to use for qsort and friends
VL_END = 0x08
};
DECLARE_ENUM_AS_BIT_SET(SortListFlags);
struct Listing {
bool order; ///< Ascending/descending
byte criteria; ///< Sorting criteria
};
struct list_d {
uint16 list_length; ///< length of the list being sorted
byte sort_type; ///< what criteria to sort on
SortListFlags flags; ///< used to control sorting/resorting/etc.
uint16 resort_timer; ///< resort list after a given amount of ticks if set
};
assert_compile(WINDOW_CUSTOM_SIZE >= sizeof(list_d));
struct message_d {
int msg;
int wparam;
int lparam;
};
assert_compile(WINDOW_CUSTOM_SIZE >= sizeof(message_d));
struct dropdown_d {
uint32 disabled_state;
uint32 hidden_state;
WindowClass parent_wnd_class;
WindowNumber parent_wnd_num;
byte parent_button;
byte num_items;
byte selected_index;
const StringID *items;
byte click_delay;
bool drag_mode;
};
assert_compile(WINDOW_CUSTOM_SIZE >= sizeof(dropdown_d));
/* window.cpp */
//void CallWindowEventNP(BaseWindow *w, int event);
void CallWindowTickEvent();
//void SetWindowDirty(const BaseWindow *w);
void SendWindowMessage(WindowClass wnd_class, WindowNumber wnd_num, int msg, int wparam, int lparam);
void SendWindowMessageClass(WindowClass wnd_class, int msg, int wparam, int lparam);
//BaseWindow *FindWindowById(WindowClass cls, WindowNumber number);
//void DeleteWindow(BaseWindow *w);
void DeletePlayerWindows(PlayerID pi);
void ChangeWindowOwner(PlayerID old_player, PlayerID new_player);
//BaseWindow *BringWindowToFrontById(WindowClass cls, WindowNumber number);
//BaseWindow *FindWindowFromPt(int x, int y);
//BaseWindow *AllocateWindow(
// int x,
// int y,
// int width,
// int height,
// WindowProc *proc,
// WindowClass cls,
// const Widget *widget);
//BaseWindow *AllocateWindowDesc(const WindowDesc *desc);
//BaseWindow *AllocateWindowDescFront(const WindowDesc *desc, int window_number);
//void DrawWindowViewport(const BaseWindow *w);
/**
* Sets the enabled/disabled status of a widget.
* By default, widgets are enabled.
* On certain conditions, they have to be disabled.
* @param w : BaseWindow on which the widget is located
* @param widget_index : index of this widget in the window
* @param disab_stat : status to use ie: disabled = true, enabled = false
*/
inline void BaseWindow::SetWidgetDisabledState(byte widget_index, bool disab_stat)
{
assert(widget_index < widget_count);
SB(widget[widget_index].m_display_flags, WIDG_DISABLED, 1, !!disab_stat);
}
/**
* Sets a widget to disabled.
* @param w : BaseWindow on which the widget is located
* @param widget_index : index of this widget in the window
*/
inline void BaseWindow::DisableWidget(byte widget_index)
{
SetWidgetDisabledState(widget_index, true);
}
/**
* Sets a widget to Enabled.
* @param w : BaseWindow on which the widget is located
* @param widget_index : index of this widget in the window
*/
inline void BaseWindow::EnableWidget(byte widget_index)
{
SetWidgetDisabledState(widget_index, false);
}
/**
* Gets the enabled/disabled status of a widget.
* @param w : BaseWindow on which the widget is located
* @param widget_index : index of this widget in the window
* @return status of the widget ie: disabled = true, enabled = false
*/
inline bool BaseWindow::IsWidgetDisabled(byte widget_index) const
{
assert(widget_index < widget_count);
return HASBIT(widget[widget_index].m_display_flags, WIDG_DISABLED);
}
/**
* Sets the hidden/shown status of a widget.
* By default, widgets are visible.
* On certain conditions, they have to be hidden.
* @param w BaseWindow on which the widget is located
* @param widget_index index of this widget in the window
* @param hidden_stat status to use ie. hidden = true, visible = false
*/
inline void BaseWindow::SetWidgetHiddenState(byte widget_index, bool hidden_stat)
{
assert(widget_index < widget_count);
SB(widget[widget_index].m_display_flags, WIDG_HIDDEN, 1, !!hidden_stat);
}
/**
* Sets a widget hidden.
* @param w : BaseWindow on which the widget is located
* @param widget_index : index of this widget in the window
*/
inline void BaseWindow::HideWidget(byte widget_index)
{
SetWidgetHiddenState(widget_index, true);
}
/**
* Sets a widget visible.
* @param w : BaseWindow on which the widget is located
* @param widget_index : index of this widget in the window
*/
inline void BaseWindow::ShowWidget(byte widget_index)
{
SetWidgetHiddenState(widget_index, false);
}
/**
* Gets the visibility of a widget.
* @param w : BaseWindow on which the widget is located
* @param widget_index : index of this widget in the window
* @return status of the widget ie: hidden = true, visible = false
*/
inline bool BaseWindow::IsWidgetHidden(byte widget_index) const
{
assert(widget_index < widget_count);
return HASBIT(widget[widget_index].m_display_flags, WIDG_HIDDEN);
}
/**
* Sets the lowered/raised status of a widget.
* @param w : BaseWindow on which the widget is located
* @param widget_index : index of this widget in the window
* @param lowered_stat : status to use ie: lowered = true, raised = false
*/
inline void BaseWindow::SetWidgetLoweredState(byte widget_index, bool lowered_stat)
{
assert(widget_index < widget_count);
SB(widget[widget_index].m_display_flags, WIDG_LOWERED, 1, !!lowered_stat);
}
/**
* Invert the lowered/raised status of a widget.
* @param w : BaseWindow on which the widget is located
* @param widget_index : index of this widget in the window
*/
inline void BaseWindow::ToggleWidgetLoweredState(byte widget_index)
{
assert(widget_index < widget_count);
TOGGLEBIT(widget[widget_index].m_display_flags, WIDG_LOWERED);
}
/**
* Marks a widget as lowered.
* @param w : BaseWindow on which the widget is located
* @param widget_index : index of this widget in the window
*/
inline void BaseWindow::LowerWidget(byte widget_index)
{
SetWidgetLoweredState(widget_index, true);
}
/**
* Marks a widget as raised.
* @param w : BaseWindow on which the widget is located
* @param widget_index : index of this widget in the window
*/
inline void BaseWindow::RaiseWidget(byte widget_index)
{
SetWidgetLoweredState(widget_index, false);
}
/**
* Gets the lowered state of a widget.
* @param w : BaseWindow on which the widget is located
* @param widget_index : index of this widget in the window
* @return status of the widget ie: lowered = true, raised= false
*/
inline bool BaseWindow::IsWidgetLowered(byte widget_index) const
{
assert(widget_index < widget_count);
return HASBIT(widget[widget_index].m_display_flags, WIDG_LOWERED);
}
void InitWindowSystem();
void UnInitWindowSystem();
void ResetWindowSystem();
void InputLoop();
//void InvalidateThisWindowData(BaseWindow *w);
void InvalidateWindowData(WindowClass cls, WindowNumber number);
//void RaiseWindowButtons(BaseWindow *w);
void RelocateAllWindows(int neww, int newh);
int PositionMainToolbar(BaseWindow *w);
//void CDECL SetWindowWidgetsDisabledState(BaseWindow *w, bool disab_stat, int widgets, ...);
//void CDECL SetWindowWidgetsHiddenState(BaseWindow *w, bool hidden_stat, int widgets, ...);
//void CDECL SetWindowWidgetsLoweredState(BaseWindow *w, bool lowered_stat, int widgets, ...);
/* misc_gui.cpp */
void GuiShowTooltipsWithArgs(StringID str, uint paramcount, const uint params[]);
static inline void GuiShowTooltips(StringID str)
{
GuiShowTooltipsWithArgs(str, 0, NULL);
}
//void HandleButtonClick(BaseWindow *w, byte widget);
BaseWindow *GetCallbackWnd(void);
//WindowList::Iterator FindWindowZPosition(const BaseWindow *w);
/* window.cpp */
//extern BaseWindow *_z_windows[];
//extern BaseWindow **_last_z_window;
VARDEF Point _cursorpos_drag_start;
VARDEF int _scrollbar_start_pos;
VARDEF int _scrollbar_size;
VARDEF byte _scroller_click_timeout;
VARDEF bool _scrolling_scrollbar;
VARDEF bool _scrolling_viewport;
VARDEF bool _popup_menu_active;
VARDEF byte _special_mouse_mode;
enum SpecialMouseMode {
WSM_NONE = 0,
WSM_DRAGDROP = 1,
WSM_SIZING = 2,
WSM_PRESIZE = 3,
};
/** Evenly distribute some widgets when resizing horizontally (often a button row)
* The widgets are presumed to be in a line and numberef from left to right (without gaps)
* @param w widow to modify
* @param left The leftmost widget to resize
* @param right The rightmost widget to resize. Since right side of it is used, remember to set it to RESIZE_RIGHT
*/
//void ResizeButtons(BaseWindow *w, byte left, byte right);
template <WindowClass Tcls> struct WindowT;
struct WindowFactory
{
typedef BaseWindow* (*CreateFn)(WindowNumber);
typedef std::map<WindowClass, WindowFactory*> Factories;
static Factories& GetFactories()
{
static Factories s_factories;
return s_factories;
}
WindowClass m_cls;
CreateFn m_creator;
WindowFactory(WindowClass cls, CreateFn creator)
: m_cls(cls)
, m_creator(creator)
{
std::pair<Factories::iterator, bool> P = GetFactories().insert(Factories::value_type(m_cls, this));
assert(P.second);
}
~WindowFactory()
{
GetFactories().erase(m_cls);
}
static BaseWindow* NewWindow(WindowClass cls, WindowNumber num)
{
Factories::iterator it = GetFactories().find(cls);
if (it == GetFactories().end()) return NULL;
WindowFactory *f = (*it).second;
BaseWindow *w = f->m_creator(num);
return w;
}
};
template <WindowClass Tcls> struct WindowFactoryT : public WindowFactory
{
WindowFactoryT()
: WindowFactory(Tcls, &NewWindow)
{}
static BaseWindow* NewWindow(WindowNumber num)
{
WindowT<Tcls> *w = new WindowT<Tcls>();
w->Create(num);
return w;
}
};
#endif /* WINDOW_H */