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ez_controls.c
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ez_controls.c
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/*
Copyright (C) 2007 ezQuake team
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
See the GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
$Id: ez_controls.c,v 1.78 2007/10/27 14:51:15 cokeman1982 Exp $
*/
#include "quakedef.h"
#include "keys.h"
#include "utils.h"
#include "common_draw.h"
#include "ez_controls.h"
#ifdef _MSC_VER
#pragma warning( disable : 4189 )
#endif
// =========================================================================================
// Double Linked List
// =========================================================================================
//
// Add item to double linked list.
//
void EZ_double_linked_list_Add(ez_double_linked_list_t *list, void *payload)
{
ez_dllist_node_t *item = (ez_dllist_node_t *)Q_malloc(sizeof(ez_dllist_node_t));
memset(item, 0, sizeof(ez_dllist_node_t));
item->payload = payload;
item->next = NULL;
// Add the item to the start of the list if it's empty
// otherwise add it to the tail.
if(!list->head)
{
list->head = item;
item->next = NULL;
item->previous = NULL;
}
else
{
item->previous = list->tail;
}
// Make sure the previous item knows who we are.
if(item->previous)
{
item->previous->next = item;
}
list->tail = item;
list->count++;
}
//
// Finds a given node based on the specified payload.
//
ez_dllist_node_t *EZ_double_linked_list_FindByPayload(const ez_double_linked_list_t *list, const void *payload)
{
ez_dllist_node_t *iter = list->head;
while(iter)
{
if(iter->payload == payload)
{
return iter;
}
iter = iter->next;
}
return NULL;
}
//
// Double Linked List - Find a item by its index.
//
ez_dllist_node_t *EZ_double_linked_list_FindByIndex(const ez_double_linked_list_t *list, int index)
{
int i;
ez_dllist_node_t *iter = NULL;
qbool fromStart = (list->count - index) >= index;
if (fromStart)
{
iter = list->head;
for (i = 0; i < index; i++)
{
iter = iter->next;
}
}
else
{
iter = list->tail;
for (i = list->count - 1; i >= index; i--)
{
iter = iter->previous;
}
}
return iter;
}
//
// Double Linked List - Removes the first occurance of the item from double linked list and returns its payload.
//
void *EZ_double_linked_list_Remove(ez_double_linked_list_t *list, ez_dllist_node_t *item)
{
void *payload = item->payload;
if (item->previous)
{
item->previous->next = item->next;
}
else
{
// We removed the first item, so make sure we still have a head.
list->head = item->next;
}
if (item->next)
{
item->next->previous = item->previous;
}
else if (item->previous)
{
// We removed the last item, so make sure we have a tail.
list->tail = item->previous;
}
list->count--;
Q_free(item);
return payload; // WARNING THIS MUST BE FREED BY THE CALLER!
}
//
// Double Linked List - Removes an item from a linked list by its index.
//
void *EZ_double_linked_list_RemoveByIndex(ez_double_linked_list_t *list, int index)
{
ez_dllist_node_t *node;
if ((index < 0) || (index >= list->count))
{
return NULL;
}
node = EZ_double_linked_list_FindByIndex(list, index);
return EZ_double_linked_list_Remove(list, node);
}
//
// Double Linked List - Removes a range of items in the list.
// A cleanup function needs to be supplied so that the payload of the item is also cleaned up.
//
void EZ_double_linked_list_RemoveRange(ez_double_linked_list_t *list, int start, int end, ez_removerange_cleanup_function_t func)
{
int i;
ez_dllist_node_t *iter = list->head;
ez_dllist_node_t *tmp;
if (!iter || (start < 0) || (end < 0) || (start >= list->count) || (end >= list->count) || (start > end))
{
return;
}
// Find the start index.
for (i = 0; i <= start; i++)
{
iter = iter->next;
}
// Remove all items until the end.
for (i = start; i <= end; i++)
{
tmp = iter;
// Run the cleanup function on the current
func(EZ_double_linked_list_Remove(list, iter));
iter = tmp->next;
}
}
//
// Double Linked List - Removes an item from a linked list by its payload.
//
void *EZ_double_linked_list_RemoveByPayload(ez_double_linked_list_t *list, void *payload)
{
ez_dllist_node_t *node = EZ_double_linked_list_FindByPayload(list, payload);
return EZ_double_linked_list_Remove(list, node);
}
typedef void * PVOID;
//
// Double Linked List - Orders a list.
//
void EZ_double_linked_list_Sort(ez_double_linked_list_t *list, PtFuncCompare compare_function)
{
int i = 0;
ez_dllist_node_t *iter = NULL;
PVOID **items = (PVOID **)Q_calloc(list->count, sizeof(PVOID *));
iter = list->head;
while(iter)
{
items[i] = iter->payload;
i++;
iter = iter->next;
}
qsort(items, list->count, sizeof(PVOID *), compare_function);
iter = list->head;
for(i = 0; i < list->count; i++)
{
iter->payload = items[i];
iter = iter->next;
}
Q_free(items);
}
// =========================================================================================
// Control Tree
// =========================================================================================
//
// Control tree -
// Sets the drawing bounds for a control and then calls the function
// recursivly on all it's children. These bounds are used to restrict the drawing
// of all children that should be contained within it's parent, and their children
// to within the bounds of the parent.
//
static void EZ_tree_SetDrawBounds(ez_control_t *control)
{
ez_dllist_node_t *iter = NULL;
ez_control_t *child = NULL;
ez_control_t *p = control->parent;
qbool contained = control->ext_flags & control_contained;
// Calculate the controls bounds.
int top = control->absolute_y;
int bottom = control->absolute_y + control->height;
int left = control->absolute_x;
int right = control->absolute_x + control->width;
int p_bound_top = p ? p->bound_top : 0;
int p_bound_bottom = p ? p->bound_bottom : 0;
int p_bound_left = p ? p->bound_left : 0;
int p_bound_right = p ? p->bound_right : 0;
// Change the bounds so that we don't draw over our parents resize handles.
if (p)
{
if (p->ext_flags & control_resize_h)
{
p_bound_right -= p->resize_handle_thickness;
p_bound_left += p->resize_handle_thickness;
}
if (p->ext_flags & control_resize_v)
{
p_bound_bottom -= p->resize_handle_thickness;
p_bound_top += p->resize_handle_thickness;
}
}
// If the control has a parent (and should be contained within it's parent),
// set the corresponding bound to the parents bound (ex. button),
// otherwise use the drawing area of the control as bounds (ex. windows).
control->bound_top = (p && contained && (top < p_bound_top)) ? (p_bound_top) : top;
control->bound_bottom = (p && contained && (bottom > p_bound_bottom)) ? (p_bound_bottom) : bottom;
control->bound_left = (p && contained && (left < p_bound_left)) ? (p_bound_left) : left;
control->bound_right = (p && contained && (right > p_bound_right)) ? (p_bound_right) : right;
// Make sure that the left bounds isn't greater than the right bounds and so on.
// This would lead to controls being visible in a few incorrect cases.
clamp(control->bound_top, 0, max(0, control->bound_bottom));
clamp(control->bound_bottom, control->bound_top, vid.conheight);
clamp(control->bound_left, 0, max(0, control->bound_right));
clamp(control->bound_right, control->bound_left, vid.conwidth);
// Calculate the bounds for the children.
for (iter = control->children.head; iter; iter = iter->next)
{
child = (ez_control_t *)iter->payload;
// TODO : Probably should some better check for infinte loop here also.
if (child == control)
{
Sys_Error("EZ_tree_SetDrawBounds(): Infinite loop, child is its own parent.\n");
}
EZ_tree_SetDrawBounds(child);
}
}
//
// Control Tree - Draws a control tree.
//
static void EZ_tree_Draw(ez_tree_t *tree)
{
ez_control_t *payload = NULL;
ez_dllist_node_t *iter = tree->drawlist.head;
while (iter)
{
payload = (ez_control_t *)iter->payload;
// TODO : Remove this test stuff.
/*
Draw_AlphaRectangleRGB(
payload->absolute_virtual_x,
payload->absolute_virtual_y,
payload->virtual_width,
payload->virtual_height,
1, false, RGBA_TO_COLOR(255, 0, 0, 125));
*/
// Don't draw the invisible controls.
if (!(payload->ext_flags & control_visible) || (payload->int_flags & control_hidden_by_parent))
{
iter = iter->next;
continue;
}
// TODO : Remove this test stuff.
/*
if (!strcmp(payload->name, "Close button"))
{
Draw_String(payload->absolute_virtual_x, payload->absolute_virtual_y - 10,
va("x: %i y: %i", payload->x, payload->y));
}
*/
/*
if (!strcmp(payload->name, "label"))
{
Draw_String(payload->absolute_virtual_x, payload->absolute_virtual_y - 10,
va("avx: %i avy: %i vx: %i vy %i",
payload->absolute_virtual_x, payload->absolute_virtual_y, payload->virtual_x, payload->virtual_y));
}
if (!strcasecmp(payload->name, "Child 1"))
{
Draw_String(payload->absolute_virtual_x, payload->absolute_virtual_y - 10,
va("vw: %i vh: %i w: %i h %i",
payload->virtual_width, payload->virtual_height, payload->width, payload->height));
}
*/
/*
if (!strcasecmp(payload->name, "button"))
{
Draw_AlphaLineRGB(payload->bound_left, 0, payload->bound_left, vid.conheight, 1, RGBA_TO_COLOR(255, 0, 0, 255));
Draw_AlphaLineRGB(payload->bound_right, 0, payload->bound_right, vid.conheight, 1, RGBA_TO_COLOR(255, 0, 0, 255));
}
*/
/*
if (!strcasecmp(payload->name, "Vertical scrollbar"))
{
Draw_String(payload->absolute_virtual_x, payload->absolute_virtual_y - 10,
va("b: %i r: %i", payload->bottom_edge_gap, payload->right_edge_gap));
}
*/
/*
if (!strcmp(payload->name, "Close button") || !strcmp(payload->name, "Window titlebar"))
{
Draw_AlphaRectangleRGB(
payload->absolute_virtual_x,
payload->absolute_virtual_y,
payload->virtual_width,
payload->virtual_height,
1, false, RGBA_TO_COLOR(0, 0, 255, 125));
}
*/
// Bugfix: Make sure we don't even bother trying to draw something that is completly offscreen
// it will cause a weird flickering bug because of glScissor.
if ((payload->bound_left == payload->bound_right) || (payload->bound_top == payload->bound_bottom))
{
iter = iter->next;
continue;
}
// Make sure we keep raising Mouse hover events while inside the control.
if (POINT_IN_CONTROL_DRAWBOUNDS(payload, payload->prev_mouse_state.x, payload->prev_mouse_state.y))
{
CONTROL_RAISE_EVENT(NULL, payload, ez_control_t, OnMouseHover, &payload->prev_mouse_state);
}
// Make sure that the control draws only within its bounds.
Draw_EnableScissor(payload->bound_left, payload->bound_right, payload->bound_top, payload->bound_bottom);
Draw_SetOverallAlpha(payload->overall_opacity);
// Raise the draw event for the control.
CONTROL_RAISE_EVENT(NULL, payload, ez_control_t, OnDraw, NULL);
// Reset the drawing bounds to the entire screen after the control has been drawn.
Draw_DisableScissor();
Draw_SetOverallAlpha(1.0);
iter = iter->next;
}
}
//
// Control Tree - Checks how long mouse buttons have been pressed.
//
static void EZ_tree_RaiseRepeatedMouseButtonEvents(ez_tree_t *tree)
{
if (tree->focused_node && tree->focused_node->payload)
{
ez_control_t *control = (ez_control_t *)tree->focused_node->payload;
// Notify controls that are listening to repeat mouse events
// if the control's set delay has been reached.
if (control->ext_flags & control_listen_repeat_mouse)
{
int i;
double now = Sys_DoubleTime();
mouse_state_t ms = tree->prev_mouse_state;
ms.button_up = 0;
// Go through all the mouse buttons and compare the time since
// the mouse buttons where pressed with the controls delay time.
for (i = 1; i <= 8; i++)
{
// Only repeat the mouse click if the button is already down
// and the repeat isn't set to be all the time.
if (ms.buttons[i]
&& (control->mouse_repeat_delay > 0.0) && (tree->mouse_pressed_time[i] > 0.0)
&& ((now - tree->mouse_pressed_time[i]) >= control->mouse_repeat_delay))
{
ms.button_down = i;
CONTROL_RAISE_EVENT(NULL, control, ez_control_t, OnMouseEvent, &ms);
}
}
}
}
}
//
// Control Tree - Needs to be called every frame to keep the tree alive.
//
void EZ_tree_EventLoop(ez_tree_t *tree)
{
if (!tree)
{
return;
}
// We wait with destroying until after all events have run.
if (tree->destroying)
{
EZ_control_Destroy(tree->root, true);
memset(tree, 0, sizeof(ez_tree_t));
return;
}
if (!tree->root)
{
return;
}
// Check if it's time to raise any repeat mouse events for controls listening to those.
EZ_tree_RaiseRepeatedMouseButtonEvents(tree);
// Calculate the drawing bounds for all the controls in the control tree.
EZ_tree_SetDrawBounds(tree->root);
EZ_tree_Draw(tree);
}
//
// Control Tree - Dispatches a mouse event to a control tree.
//
qbool EZ_tree_MouseEvent(ez_tree_t *tree, mouse_state_t *ms)
{
int mouse_handled = false;
ez_control_t *control = NULL;
ez_dllist_node_t *iter = NULL;
if (!tree)
{
Sys_Error("EZ_tree_MouseEvent: NULL tree reference.\n");
}
// Save the time that the specified button was last pressed.
if (ms->button_down || ms->button_up)
{
// Set the time for the pressed button.
if (ms->button_down)
{
tree->mouse_pressed_time[ms->button_down] = Sys_DoubleTime();
}
else if (ms->button_up)
{
tree->mouse_pressed_time[ms->button_up] = 0.0;
}
}
// Save the mouse state so that it can be used when raising
// repeated mouse click events for controls that wants them.
tree->prev_mouse_state = *ms;
// Propagate the mouse event in the opposite order that we drew
// the controls (Since they are drawn from back to front), so
// that the foremost control gets it first.
for (iter = tree->drawlist.tail; iter; iter = iter->previous)
{
control = (ez_control_t *)iter->payload;
// Notify the control of the mouse event.
CONTROL_RAISE_EVENT(&mouse_handled, control, ez_control_t, OnMouseEvent, ms);
if (mouse_handled)
{
return mouse_handled;
}
}
return mouse_handled;
}
//
// Control Tree - Refreshes the position of all controls in the tree.
//
void EZ_tree_Refresh(ez_tree_t *tree)
{
if (tree->root)
{
ez_dllist_node_t *iter = tree->drawlist.head;
ez_control_t *payload = NULL;
//CONTROL_RAISE_EVENT(NULL, (ez_control_t *)tree->root, ez_control_t, OnResize, NULL);
//CONTROL_RAISE_EVENT(NULL, (ez_control_t *)tree->root, ez_control_t, OnMove, NULL);
while (iter)
{
payload = (ez_control_t *)iter->payload;
CONTROL_RAISE_EVENT(NULL, payload, ez_control_t, OnResize, NULL);
CONTROL_RAISE_EVENT(NULL, payload, ez_control_t, OnMove, NULL);
CONTROL_RAISE_EVENT(NULL, payload, ez_control_t, OnAnchorChanged, NULL);
iter = iter->next;
}
}
}
//
// Control Tree - Moves the focus to the next control in the control tree.
//
void EZ_tree_ChangeFocus(ez_tree_t *tree, qbool next_control)
{
qbool found = false;
ez_dllist_node_t *node_iter = NULL;
if(tree->focused_node)
{
node_iter = (next_control) ? tree->focused_node->next : tree->focused_node->previous;
// Find the next control that can be focused.
while(node_iter && !found)
{
// ez_control_t *ha = (ez_control_t *)node_iter->payload;
found = EZ_control_SetFocusByNode((ez_control_t *)node_iter->payload, node_iter);
node_iter = (next_control) ? node_iter->next : node_iter->previous;
}
}
// We haven't found a focusable control yet,
// or there was no focused control to start with.
// So search for one from the start/end of the tab list
// (depending on what direction we're searching in)
if(!found || !tree->focused_node)
{
node_iter = (next_control) ? tree->tablist.head : tree->tablist.tail;
// Find the next control that can be focused.
while(node_iter && !found)
{
found = EZ_control_SetFocusByNode((ez_control_t *)node_iter->payload, node_iter);
node_iter = (next_control) ? node_iter->next : node_iter->previous;
}
}
// There is nothing to focus on.
if(!found)
{
tree->focused_node = NULL;
}
}
//
// Control Tree - Key event.
//
qbool EZ_tree_KeyEvent(ez_tree_t *tree, int key, int unichar, qbool down)
{
int key_handled = false;
// ez_control_t *payload = NULL;
// ez_dllist_node_t *iter = NULL;
if (!tree)
{
Sys_Error("EZ_tree_KeyEvent(): NULL control tree specified.\n");
}
if (tree->root && down)
{
switch (key)
{
case 'k' :
key_handled = true;
break;
case K_TAB :
{
// Focus on the next focusable control (TAB)
// or the previous (Shift + TAB)
EZ_tree_ChangeFocus(tree, !isShiftDown());
key_handled = true;
break;
}
}
}
// Send key events to the focused control.
if (tree->focused_node && tree->focused_node->payload)
{
CONTROL_RAISE_EVENT(&key_handled, (ez_control_t *)tree->focused_node->payload, ez_control_t, OnKeyEvent, key, unichar, down);
}
return key_handled;
}
//
// Control Tree - Finds any orphans and adds them to the root control.
//
void EZ_tree_UnOrphanizeChildren(ez_tree_t *tree)
{
ez_control_t *payload = NULL;
ez_dllist_node_t *iter = NULL;
if(!tree)
{
assert(!"EZ_control_UnOrphanizeChildren: No control tree specified.\n");
return;
}
iter = tree->drawlist.head;
while(iter)
{
payload = (ez_control_t *)iter->payload;
if(!payload->parent && payload != tree->root)
{
// The control is an orphan, and not the root control.
EZ_double_linked_list_Add(&tree->root->children, payload);
}
else if(!tree->root)
{
// There was no root (should never happen).
tree->root = payload;
}
iter = iter->next;
}
}
//
// Control Tree - Destroys a tree. Will not free the memory for the tree.
//
void EZ_tree_Destroy(ez_tree_t *tree)
{
if (!tree)
{
return;
}
// Make sure we abort all events before we destroy the tree
// or they might try to read from freed memory.
// The actual destruction is done in EZ_tree_EventLoop.
tree->destroying = true;
}
//
// Control Tree - Order function for the draw list based on the draw_order property.
//
static int EZ_tree_DrawOrderFunc(const void *val1, const void *val2)
{
const ez_control_t **control1 = (const ez_control_t **)val1;
const ez_control_t **control2 = (const ez_control_t **)val2;
return ((*control1)->draw_order - (*control2)->draw_order);
}
//
// Control Tree - Orders the draw list based on the draw order property.
//
void EZ_tree_OrderDrawList(ez_tree_t *tree)
{
EZ_double_linked_list_Sort(&tree->drawlist, EZ_tree_DrawOrderFunc);
}
//
// Control Tree - Tree Order function for the tab list based on the tab_order property.
//
static int EZ_tree_TabOrderFunc(const void *val1, const void *val2)
{
const ez_control_t **control1 = (const ez_control_t **)val1;
const ez_control_t **control2 = (const ez_control_t **)val2;
return ((*control1)->tab_order - (*control2)->tab_order);
}
//
// Control Tree - Orders the tab list based on the tab order property.
//
void EZ_tree_OrderTabList(ez_tree_t *tree)
{
EZ_double_linked_list_Sort(&tree->tablist, EZ_tree_TabOrderFunc);
}
// =========================================================================================
// Control
// =========================================================================================
//
// Control - Creates a new control and initializes it.
//
ez_control_t *EZ_control_Create(ez_tree_t *tree, ez_control_t *parent,
char *name, char *description,
int x, int y, int width, int height,
int flags)
{
ez_control_t *control = NULL;
// We have to have a tree to add the control to.
if(!tree || tree->destroying)
{
return NULL;
}
control = (ez_control_t *)Q_malloc(sizeof(ez_control_t));
memset(control, 0, sizeof(ez_control_t));
EZ_control_Init(control, tree, parent, name, description, x, y, width, height, flags);
return control;
}
//
// Control -
// Returns the screen position of the control. This will be different for a scrollable window
// since it's drawing position differs from the windows actual position on screen.
//
void EZ_control_GetDrawingPosition(ez_control_t *self, int *x, int *y)
{
if (self->ext_flags & control_scrollable)
{
(*x) = self->absolute_virtual_x;
(*y) = self->absolute_virtual_y;
}
else
{
(*x) = self->absolute_x;
(*y) = self->absolute_y;
}
}
//
// Eventhandler - Creates a eventhandler.
//
ez_eventhandler_t *EZ_eventhandler_Create(void *event_func, int func_type, void *payload)
{
ez_eventhandler_t *e = Q_calloc(1, sizeof(ez_eventhandler_t));
e->function_type = func_type;
e->payload = payload;
switch(func_type)
{
case EZ_CONTROL_HANDLER :
e->function.normal = (ez_eventhandler_fp)event_func;
break;
case EZ_CONTROL_MOUSE_HANDLER :
e->function.mouse = (ez_mouse_eventhandler_fp)event_func;
break;
case EZ_CONTROL_KEY_HANDLER :
e->function.key = (ez_key_eventhandler_fp)event_func;
break;
case EZ_CONTROL_KEYSP_HANDLER :
e->function.key_sp = (ez_keyspecific_eventhandler_fp)event_func;
break;
case EZ_CONTROL_DESTROY_HANDLER :
e->function.destroy = (ez_destroy_eventhandler_fp)event_func;
break;
case EZ_CONTROL_CHILD_HANDLER :
e->function.child = (ez_child_eventhandler_event_fp)event_func;
break;
default :
e->function.normal = NULL;
break;
}
e->next = NULL;
return e;
}
//
// Eventhandler - Goes through the list of events and removes the one with the specified function.
//
void EZ_eventhandler_Remove(ez_eventhandler_t *eventhandler, void *event_func, qbool all)
{
ez_eventhandler_t *it = eventhandler;
ez_eventhandler_t *prev = NULL;
while (it)
{
if (all)
{
prev = it->next;
Q_free(it);
it = prev;
}
else
{
if (event_func && ((void *)it->function.normal == (void *)event_func))
{
if (prev)
{
prev->next = it->next;
}
Q_free(it);
return;
}
prev = it;
it = it->next;
}
}
}
//
// Eventhandler - Execute an event handler.
//
void EZ_eventhandler_Exec(ez_eventhandler_t *event_handler, ez_control_t *ctrl, ...)
{
va_list argptr;
int ft = event_handler->function_type;
void *payload = event_handler->payload;
ez_eventhandlerfunction_t *et = &event_handler->function;
va_start(argptr, ctrl);
// Pass on the proper amount of arguments, depending on the type of function.
if (ft == EZ_CONTROL_HANDLER)
{
et->normal(ctrl, payload, va_arg(argptr, void *));
}
else if (ft == EZ_CONTROL_MOUSE_HANDLER)
{
et->mouse(ctrl, payload, va_arg(argptr, mouse_state_t *));
}
else if (ft == EZ_CONTROL_KEY_HANDLER)
{
et->key(ctrl, payload, va_arg(argptr, int), va_arg(argptr, int), va_arg(argptr, qbool));
}
else if (ft == EZ_CONTROL_KEYSP_HANDLER)
{
et->key_sp(ctrl, payload, va_arg(argptr, int), va_arg(argptr, int));
}
else if (ft == EZ_CONTROL_DESTROY_HANDLER)
{
et->destroy(ctrl, payload, va_arg(argptr, qbool));
}
else if (ft == EZ_CONTROL_CHILD_HANDLER)
{
et->child(ctrl, payload, va_arg(argptr, ez_control_t *));
}
va_end(argptr);
}
//
// Control - Initializes a control and adds it to the specified control tree.
//
void EZ_control_Init(ez_control_t *control, ez_tree_t *tree, ez_control_t *parent,
char *name, char *description,
int x, int y, int width, int height,
ez_control_flags_t flags)
{
static int order = 0;
control->initializing = true;
control->CLASS_ID = EZ_CONTROL_ID;
control->control_tree = tree;
control->name = name;
control->description = description;
control->ext_flags = flags | control_enabled | control_visible | control_bg_tile_center | control_bg_tile_edges | control_resizeable;
control->anchor_flags = anchor_none;
// Set the default opacity to full :)
control->overall_opacity = 1.0;
control->opacity = 1.0;
// Default to containing a child within it's parent
// if the parent is being contained by it's parent.
if (parent && (parent->ext_flags & control_contained))
{
control->ext_flags |= control_contained;
}
control->draw_order = order++;
control->resize_handle_thickness = 5;
control->width_max = vid.conwidth;
control->height_max = vid.conheight;
control->width_min = 5;
control->height_min = 5;
// Setup the default event functions, none of these should ever be NULL.
CONTROL_REGISTER_EVENT(control, EZ_control_OnMouseEvent, OnMouseEvent, ez_control_t);
CONTROL_REGISTER_EVENT(control, EZ_control_OnMouseClick, OnMouseClick, ez_control_t);
CONTROL_REGISTER_EVENT(control, EZ_control_OnMouseDown, OnMouseDown, ez_control_t);
CONTROL_REGISTER_EVENT(control, EZ_control_OnMouseUp, OnMouseUp, ez_control_t);
CONTROL_REGISTER_EVENT(control, EZ_control_OnMouseUpOutside, OnMouseUpOutside, ez_control_t);
CONTROL_REGISTER_EVENT(control, EZ_control_OnMouseEnter, OnMouseEnter, ez_control_t);
CONTROL_REGISTER_EVENT(control, EZ_control_OnMouseLeave, OnMouseLeave, ez_control_t);
CONTROL_REGISTER_EVENT(control, EZ_control_OnMouseHover, OnMouseHover, ez_control_t);
CONTROL_REGISTER_EVENT(control, EZ_control_Destroy, OnDestroy, ez_control_t);
CONTROL_REGISTER_EVENT(control, EZ_control_OnDraw, OnDraw, ez_control_t);
CONTROL_REGISTER_EVENT(control, EZ_control_OnGotFocus, OnGotFocus, ez_control_t);
CONTROL_REGISTER_EVENT(control, EZ_control_OnKeyEvent, OnKeyEvent, ez_control_t);
CONTROL_REGISTER_EVENT(control, EZ_control_OnKeyDown, OnKeyDown, ez_control_t);
CONTROL_REGISTER_EVENT(control, EZ_control_OnKeyUp, OnKeyUp, ez_control_t);
CONTROL_REGISTER_EVENT(control, EZ_control_OnLostFocus, OnLostFocus, ez_control_t);
CONTROL_REGISTER_EVENT(control, EZ_control_OnLayoutChildren, OnLayoutChildren, ez_control_t);
CONTROL_REGISTER_EVENT(control, EZ_control_OnMove, OnMove, ez_control_t);
CONTROL_REGISTER_EVENT(control, EZ_control_OnScroll, OnScroll, ez_control_t);
CONTROL_REGISTER_EVENT(control, EZ_control_OnParentScroll, OnParentScroll, ez_control_t);
CONTROL_REGISTER_EVENT(control, EZ_control_OnResize, OnResize, ez_control_t);
CONTROL_REGISTER_EVENT(control, EZ_control_OnParentResize, OnParentResize, ez_control_t);
CONTROL_REGISTER_EVENT(control, EZ_control_OnMinVirtualResize, OnMinVirtualResize, ez_control_t);
CONTROL_REGISTER_EVENT(control, EZ_control_OnVirtualResize, OnVirtualResize, ez_control_t);
CONTROL_REGISTER_EVENT(control, EZ_control_OnFlagsChanged, OnFlagsChanged, ez_control_t);
CONTROL_REGISTER_EVENT(control, EZ_control_OnEventHandlerChanged, OnEventHandlerChanged, ez_control_t);
CONTROL_REGISTER_EVENT(control, EZ_control_OnAnchorChanged, OnAnchorChanged, ez_control_t);
CONTROL_REGISTER_EVENT(control, EZ_control_OnVisibilityChanged, OnVisibilityChanged, ez_control_t);
CONTROL_REGISTER_EVENT(control, EZ_control_OnOpacityChanged, OnOpacityChanged, ez_control_t);
CONTROL_REGISTER_EVENT(control, EZ_control_OnChildMoved, OnChildMoved, ez_control_t);
CONTROL_REGISTER_EVENT(control, EZ_control_OnChildResize, OnChildResize, ez_control_t);
// Add the control to the draw and tab list.
EZ_double_linked_list_Add(&tree->drawlist, (void *)control);
EZ_double_linked_list_Add(&tree->tablist, (void *)control);
// Order the lists.
EZ_tree_OrderDrawList(tree);
EZ_tree_OrderTabList(tree);
// Position and size of the control.
control->width = width;
control->height = height;
control->virtual_width = width;
control->virtual_height = height;
control->prev_width = width;
control->prev_height = height;