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|
/**
* @file lllayoutstack.cpp
* @brief LLLayout class - dynamic stacking of UI elements
*
* $LicenseInfo:firstyear=2001&license=viewergpl$
*
* Copyright (c) 2001-2009, Linden Research, Inc.
*
* Second Life Viewer Source Code
* The source code in this file ("Source Code") is provided by Linden Lab
* to you under the terms of the GNU General Public License, version 2.0
* ("GPL"), unless you have obtained a separate licensing agreement
* ("Other License"), formally executed by you and Linden Lab. Terms of
* the GPL can be found in doc/GPL-license.txt in this distribution, or
* online at http://secondlifegrid.net/programs/open_source/licensing/gplv2
*
* There are special exceptions to the terms and conditions of the GPL as
* it is applied to this Source Code. View the full text of the exception
* in the file doc/FLOSS-exception.txt in this software distribution, or
* online at
* http://secondlifegrid.net/programs/open_source/licensing/flossexception
*
* By copying, modifying or distributing this software, you acknowledge
* that you have read and understood your obligations described above,
* and agree to abide by those obligations.
*
* ALL LINDEN LAB SOURCE CODE IS PROVIDED "AS IS." LINDEN LAB MAKES NO
* WARRANTIES, EXPRESS, IMPLIED OR OTHERWISE, REGARDING ITS ACCURACY,
* COMPLETENESS OR PERFORMANCE.
* $/LicenseInfo$
*/
// Opaque view with a background and a border. Can contain LLUICtrls.
#include "linden_common.h"
#include "lllayoutstack.h"
#include "lllocalcliprect.h"
#include "llpanel.h"
#include "llresizebar.h"
#include "llcriticaldamp.h"
static LLDefaultChildRegistry::Register<LLLayoutStack> register_layout_stack("layout_stack", &LLLayoutStack::fromXML);
//
// LLLayoutStack
//
struct LLLayoutStack::LayoutPanel
{
LayoutPanel(LLPanel* panelp, ELayoutOrientation orientation, S32 min_width, S32 min_height, BOOL auto_resize, BOOL user_resize) : mPanel(panelp),
mMinWidth(min_width),
mMinHeight(min_height),
mAutoResize(auto_resize),
mUserResize(user_resize),
mOrientation(orientation),
mCollapsed(FALSE),
mCollapseAmt(0.f),
mVisibleAmt(1.f), // default to fully visible
mResizeBar(NULL)
{
LLResizeBar::Side side = (orientation == HORIZONTAL) ? LLResizeBar::RIGHT : LLResizeBar::BOTTOM;
LLRect resize_bar_rect = panelp->getRect();
S32 min_dim;
if (orientation == HORIZONTAL)
{
min_dim = mMinHeight;
}
else
{
min_dim = mMinWidth;
}
LLResizeBar::Params p;
p.name("resize");
p.resizing_view(mPanel);
p.min_size(min_dim);
p.side(side);
p.snapping_enabled(false);
mResizeBar = LLUICtrlFactory::create<LLResizeBar>(p);
// panels initialized as hidden should not start out partially visible
if (!mPanel->getVisible())
{
mVisibleAmt = 0.f;
}
}
~LayoutPanel()
{
// probably not necessary, but...
delete mResizeBar;
mResizeBar = NULL;
}
F32 getCollapseFactor()
{
if (mOrientation == HORIZONTAL)
{
F32 collapse_amt =
clamp_rescale(mCollapseAmt, 0.f, 1.f, 1.f, (F32)mMinWidth / (F32)llmax(1, mPanel->getRect().getWidth()));
return mVisibleAmt * collapse_amt;
}
else
{
F32 collapse_amt =
clamp_rescale(mCollapseAmt, 0.f, 1.f, 1.f, llmin(1.f, (F32)mMinHeight / (F32)llmax(1, mPanel->getRect().getHeight())));
return mVisibleAmt * collapse_amt;
}
}
LLPanel* mPanel;
S32 mMinWidth;
S32 mMinHeight;
BOOL mAutoResize;
BOOL mUserResize;
BOOL mCollapsed;
LLResizeBar* mResizeBar;
ELayoutOrientation mOrientation;
F32 mVisibleAmt;
F32 mCollapseAmt;
};
LLLayoutStack::Params::Params()
: orientation("orientation", std::string("vertical")),
animate("animate", true),
clip("clip", true),
border_size("border_size", LLCachedControl<S32>(*LLUI::sSettingGroups["config"], "UIResizeBarHeight", 0))
{
name="stack";
}
LLLayoutStack::LLLayoutStack(const LLLayoutStack::Params& p)
: LLView(p),
mMinWidth(0),
mMinHeight(0),
mPanelSpacing(p.border_size),
mOrientation((p.orientation() == "vertical") ? VERTICAL : HORIZONTAL),
mAnimate(p.animate),
mAnimatedThisFrame(false),
mClip(p.clip)
{}
LLLayoutStack::~LLLayoutStack()
{
e_panel_list_t panels = mPanels; // copy list of panel pointers
mPanels.clear(); // clear so that removeChild() calls don't cause trouble
std::for_each(panels.begin(), panels.end(), DeletePointer());
}
void LLLayoutStack::draw()
{
updateLayout();
e_panel_list_t::iterator panel_it;
for (panel_it = mPanels.begin(); panel_it != mPanels.end(); ++panel_it)
{
// clip to layout rectangle, not bounding rectangle
LLRect clip_rect = (*panel_it)->mPanel->getRect();
// scale clipping rectangle by visible amount
if (mOrientation == HORIZONTAL)
{
clip_rect.mRight = clip_rect.mLeft + llround((F32)clip_rect.getWidth() * (*panel_it)->getCollapseFactor());
}
else
{
clip_rect.mBottom = clip_rect.mTop - llround((F32)clip_rect.getHeight() * (*panel_it)->getCollapseFactor());
}
LLPanel* panelp = (*panel_it)->mPanel;
LLLocalClipRect clip(clip_rect, mClip);
// only force drawing invisible children if visible amount is non-zero
drawChild(panelp, 0, 0, !clip_rect.isEmpty());
}
mAnimatedThisFrame = false;
}
void LLLayoutStack::removeChild(LLView* view)
{
LayoutPanel* embedded_panelp = findEmbeddedPanel(dynamic_cast<LLPanel*>(view));
if (embedded_panelp)
{
mPanels.erase(std::find(mPanels.begin(), mPanels.end(), embedded_panelp));
delete embedded_panelp;
}
// need to update resizebars
calcMinExtents();
LLView::removeChild(view);
}
BOOL LLLayoutStack::postBuild()
{
updateLayout();
return TRUE;
}
static void get_attribute_s32_and_write(LLXMLNodePtr node,
const char* name,
S32 *value,
S32 default_value,
LLXMLNodePtr output_child)
{
BOOL has_attr = node->getAttributeS32(name, *value);
if (has_attr && *value != default_value && output_child)
{
// create an attribute child node
LLXMLNodePtr child_attr = output_child->createChild(name, TRUE);
child_attr->setIntValue(*value);
}
}
static void get_attribute_bool_and_write(LLXMLNodePtr node,
const char* name,
BOOL *value,
BOOL default_value,
LLXMLNodePtr output_child)
{
BOOL has_attr = node->getAttributeBOOL(name, *value);
if (has_attr && *value != default_value && output_child)
{
LLXMLNodePtr child_attr = output_child->createChild(name, TRUE);
child_attr->setBoolValue(*value);
}
}
//static
LLView* LLLayoutStack::fromXML(LLXMLNodePtr node, LLView *parent, LLXMLNodePtr output_node)
{
LLLayoutStack::Params p(LLUICtrlFactory::getDefaultParams<LLLayoutStack>());
LLXUIParser::instance().readXUI(node, p, LLUICtrlFactory::getInstance()->getCurFileName());
// Export must happen before setupParams() mungles rectangles and before
// this item gets added to parent (otherwise screws up last_child_rect
// logic). JC
if (output_node)
{
Params output_params(p);
setupParamsForExport(output_params, parent);
LLLayoutStack::Params default_params(LLUICtrlFactory::getDefaultParams<LLLayoutStack>());
output_node->setName(node->getName()->mString);
LLXUIParser::instance().writeXUI(
output_node, output_params, &default_params);
}
p.from_xui = true;
applyXUILayout(p, parent);
LLLayoutStack* layout_stackp = LLUICtrlFactory::create<LLLayoutStack>(p);
if (parent && layout_stackp)
{
S32 tab_group = p.tab_group.isProvided() ? p.tab_group() : parent->getLastTabGroup();
parent->addChild(layout_stackp, tab_group);
}
for (LLXMLNodePtr child_node = node->getFirstChild(); child_node.notNull(); child_node = child_node->getNextSibling())
{
const S32 DEFAULT_MIN_WIDTH = 0;
const S32 DEFAULT_MIN_HEIGHT = 0;
const BOOL DEFAULT_AUTO_RESIZE = TRUE;
S32 min_width = DEFAULT_MIN_WIDTH;
S32 min_height = DEFAULT_MIN_HEIGHT;
BOOL auto_resize = DEFAULT_AUTO_RESIZE;
LLXMLNodePtr output_child;
if (output_node)
{
output_child = output_node->createChild("", FALSE);
}
// Layout stack allows child nodes to acquire additional attributes,
// such as "min_width" in: <button label="Foo" min_width="100"/>
// If these attributes exist and have non-default values, write them
// to the output node.
get_attribute_s32_and_write(child_node, "min_width", &min_width,
DEFAULT_MIN_WIDTH, output_child);
get_attribute_s32_and_write(child_node, "min_height", &min_height,
DEFAULT_MIN_HEIGHT, output_child);
get_attribute_bool_and_write(child_node, "auto_resize", &auto_resize,
DEFAULT_AUTO_RESIZE, output_child);
if (child_node->hasName("layout_panel"))
{
BOOL user_resize = TRUE;
get_attribute_bool_and_write(child_node, "user_resize", &user_resize,
TRUE, output_child);
LLPanel* panelp = (LLPanel*)LLPanel::fromXML(child_node, layout_stackp, output_child);
if (panelp)
{
panelp->setFollowsNone();
layout_stackp->addPanel(panelp, min_width, min_height, auto_resize, user_resize);
}
}
else
{
BOOL user_resize = FALSE;
get_attribute_bool_and_write(child_node, "user_resize", &user_resize,
FALSE, output_child);
LLPanel::Params p;
p.mouse_opaque(false);
LLPanel* panelp = LLUICtrlFactory::create<LLPanel>(p);
LLView* new_child = LLUICtrlFactory::getInstance()->createFromXML(child_node, panelp, LLStringUtil::null, LLPanel::child_registry_t::instance(), output_child);
if (new_child)
{
// put child in new embedded panel
layout_stackp->addPanel(panelp, min_width, min_height, auto_resize, user_resize);
// resize panel to contain widget and move widget to be contained in panel
panelp->setRect(new_child->getRect());
new_child->setOrigin(0, 0);
}
else
{
panelp->die();
}
}
if (output_child && !output_child->mChildren && output_child->mAttributes.empty() && output_child->getValue().empty())
{
output_node->deleteChild(output_child);
}
}
if (!layout_stackp->postBuild())
{
delete layout_stackp;
return NULL;
}
return layout_stackp;
}
S32 LLLayoutStack::getDefaultHeight(S32 cur_height)
{
// if we are spanning our children (crude upward propagation of size)
// then don't enforce our size on our children
if (mOrientation == HORIZONTAL)
{
cur_height = llmax(mMinHeight, getRect().getHeight());
}
return cur_height;
}
S32 LLLayoutStack::getDefaultWidth(S32 cur_width)
{
// if we are spanning our children (crude upward propagation of size)
// then don't enforce our size on our children
if (mOrientation == VERTICAL)
{
cur_width = llmax(mMinWidth, getRect().getWidth());
}
return cur_width;
}
void LLLayoutStack::addPanel(LLPanel* panel, S32 min_width, S32 min_height, BOOL auto_resize, BOOL user_resize, EAnimate animate, S32 index)
{
// panel starts off invisible (collapsed)
if (animate == ANIMATE)
{
panel->setVisible(FALSE);
}
LayoutPanel* embedded_panel = new LayoutPanel(panel, mOrientation, min_width, min_height, auto_resize, user_resize);
mPanels.insert(mPanels.begin() + llclamp(index, 0, (S32)mPanels.size()), embedded_panel);
if (panel->getParent() != this)
{
addChild(panel);
}
addChild(embedded_panel->mResizeBar);
// bring all resize bars to the front so that they are clickable even over the panels
// with a bit of overlap
for (e_panel_list_t::iterator panel_it = mPanels.begin(); panel_it != mPanels.end(); ++panel_it)
{
LLResizeBar* resize_barp = (*panel_it)->mResizeBar;
sendChildToFront(resize_barp);
}
// start expanding panel animation
if (animate == ANIMATE)
{
panel->setVisible(TRUE);
}
}
void LLLayoutStack::removePanel(LLPanel* panel)
{
removeChild(panel);
}
void LLLayoutStack::collapsePanel(LLPanel* panel, BOOL collapsed)
{
LayoutPanel* panel_container = findEmbeddedPanel(panel);
if (!panel_container) return;
panel_container->mCollapsed = collapsed;
}
void LLLayoutStack::updatePanelAutoResize(const std::string& panel_name, BOOL auto_resize)
{
LayoutPanel* panel = findEmbeddedPanelByName(panel_name);
if (panel)
{
panel->mAutoResize = auto_resize;
}
}
bool LLLayoutStack::getPanelMinSize(const std::string& panel_name, S32* min_widthp, S32* min_heightp)
{
LayoutPanel* panel = findEmbeddedPanelByName(panel_name);
if (panel)
{
if (min_widthp) *min_widthp = panel->mMinWidth;
if (min_heightp) *min_heightp = panel->mMinHeight;
}
return NULL != panel;
}
static LLFastTimer::DeclareTimer FTM_UPDATE_LAYOUT("Update LayoutStacks");
void LLLayoutStack::updateLayout(BOOL force_resize)
{
LLFastTimer ft(FTM_UPDATE_LAYOUT);
static LLUICachedControl<S32> resize_bar_overlap ("UIResizeBarOverlap", 0);
calcMinExtents();
// calculate current extents
S32 total_width = 0;
S32 total_height = 0;
const F32 ANIM_OPEN_TIME = 0.02f;
const F32 ANIM_CLOSE_TIME = 0.03f;
e_panel_list_t::iterator panel_it;
for (panel_it = mPanels.begin(); panel_it != mPanels.end(); ++panel_it)
{
LLPanel* panelp = (*panel_it)->mPanel;
if (panelp->getVisible())
{
if (mAnimate)
{
if (!mAnimatedThisFrame)
{
(*panel_it)->mVisibleAmt = lerp((*panel_it)->mVisibleAmt, 1.f, LLCriticalDamp::getInterpolant(ANIM_OPEN_TIME));
if ((*panel_it)->mVisibleAmt > 0.99f)
{
(*panel_it)->mVisibleAmt = 1.f;
}
}
}
else
{
(*panel_it)->mVisibleAmt = 1.f;
}
}
else // not visible
{
if (mAnimate)
{
if (!mAnimatedThisFrame)
{
(*panel_it)->mVisibleAmt = lerp((*panel_it)->mVisibleAmt, 0.f, LLCriticalDamp::getInterpolant(ANIM_CLOSE_TIME));
if ((*panel_it)->mVisibleAmt < 0.001f)
{
(*panel_it)->mVisibleAmt = 0.f;
}
}
}
else
{
(*panel_it)->mVisibleAmt = 0.f;
}
}
if ((*panel_it)->mCollapsed)
{
(*panel_it)->mCollapseAmt = lerp((*panel_it)->mCollapseAmt, 1.f, LLCriticalDamp::getInterpolant(ANIM_CLOSE_TIME));
}
else
{
(*panel_it)->mCollapseAmt = lerp((*panel_it)->mCollapseAmt, 0.f, LLCriticalDamp::getInterpolant(ANIM_CLOSE_TIME));
}
if (mOrientation == HORIZONTAL)
{
// enforce minimize size constraint by default
if (panelp->getRect().getWidth() < (*panel_it)->mMinWidth)
{
panelp->reshape((*panel_it)->mMinWidth, panelp->getRect().getHeight());
}
total_width += llround(panelp->getRect().getWidth() * (*panel_it)->getCollapseFactor());
// want n-1 panel gaps for n panels
if (panel_it != mPanels.begin())
{
total_width += mPanelSpacing;
}
}
else //VERTICAL
{
// enforce minimize size constraint by default
if (panelp->getRect().getHeight() < (*panel_it)->mMinHeight)
{
panelp->reshape(panelp->getRect().getWidth(), (*panel_it)->mMinHeight);
}
total_height += llround(panelp->getRect().getHeight() * (*panel_it)->getCollapseFactor());
if (panel_it != mPanels.begin())
{
total_height += mPanelSpacing;
}
}
}
S32 num_resizable_panels = 0;
S32 shrink_headroom_available = 0;
S32 shrink_headroom_total = 0;
for (panel_it = mPanels.begin(); panel_it != mPanels.end(); ++panel_it)
{
// panels that are not fully visible do not count towards shrink headroom
if ((*panel_it)->getCollapseFactor() < 1.f)
{
continue;
}
// if currently resizing a panel or the panel is flagged as not automatically resizing
// only track total available headroom, but don't use it for automatic resize logic
if ((*panel_it)->mResizeBar->hasMouseCapture()
|| (!(*panel_it)->mAutoResize
&& !force_resize))
{
if (mOrientation == HORIZONTAL)
{
shrink_headroom_total += (*panel_it)->mPanel->getRect().getWidth() - (*panel_it)->mMinWidth;
}
else //VERTICAL
{
shrink_headroom_total += (*panel_it)->mPanel->getRect().getHeight() - (*panel_it)->mMinHeight;
}
}
else
{
num_resizable_panels++;
if (mOrientation == HORIZONTAL)
{
shrink_headroom_available += (*panel_it)->mPanel->getRect().getWidth() - (*panel_it)->mMinWidth;
shrink_headroom_total += (*panel_it)->mPanel->getRect().getWidth() - (*panel_it)->mMinWidth;
}
else //VERTICAL
{
shrink_headroom_available += (*panel_it)->mPanel->getRect().getHeight() - (*panel_it)->mMinHeight;
shrink_headroom_total += (*panel_it)->mPanel->getRect().getHeight() - (*panel_it)->mMinHeight;
}
}
}
// calculate how many pixels need to be distributed among layout panels
// positive means panels need to grow, negative means shrink
S32 pixels_to_distribute;
if (mOrientation == HORIZONTAL)
{
pixels_to_distribute = getRect().getWidth() - total_width;
}
else //VERTICAL
{
pixels_to_distribute = getRect().getHeight() - total_height;
}
// now we distribute the pixels...
S32 cur_x = 0;
S32 cur_y = getRect().getHeight();
for (panel_it = mPanels.begin(); panel_it != mPanels.end(); ++panel_it)
{
LLPanel* panelp = (*panel_it)->mPanel;
S32 cur_width = panelp->getRect().getWidth();
S32 cur_height = panelp->getRect().getHeight();
S32 new_width = llmax((*panel_it)->mMinWidth, cur_width);
S32 new_height = llmax((*panel_it)->mMinHeight, cur_height);
S32 delta_size = 0;
// if panel can automatically resize (not animating, and resize flag set)...
if ((*panel_it)->getCollapseFactor() == 1.f
&& (force_resize || (*panel_it)->mAutoResize)
&& !(*panel_it)->mResizeBar->hasMouseCapture())
{
if (mOrientation == HORIZONTAL)
{
// if we're shrinking
if (pixels_to_distribute < 0)
{
// shrink proportionally to amount over minimum
// so we can do this in one pass
delta_size = (shrink_headroom_available > 0) ? llround((F32)pixels_to_distribute * ((F32)(cur_width - (*panel_it)->mMinWidth) / (F32)shrink_headroom_available)) : 0;
shrink_headroom_available -= (cur_width - (*panel_it)->mMinWidth);
}
else
{
// grow all elements equally
delta_size = llround((F32)pixels_to_distribute / (F32)num_resizable_panels);
num_resizable_panels--;
}
pixels_to_distribute -= delta_size;
new_width = llmax((*panel_it)->mMinWidth, cur_width + delta_size);
}
else
{
new_width = getDefaultWidth(new_width);
}
if (mOrientation == VERTICAL)
{
if (pixels_to_distribute < 0)
{
// shrink proportionally to amount over minimum
// so we can do this in one pass
delta_size = (shrink_headroom_available > 0) ? llround((F32)pixels_to_distribute * ((F32)(cur_height - (*panel_it)->mMinHeight) / (F32)shrink_headroom_available)) : 0;
shrink_headroom_available -= (cur_height - (*panel_it)->mMinHeight);
}
else
{
delta_size = llround((F32)pixels_to_distribute / (F32)num_resizable_panels);
num_resizable_panels--;
}
pixels_to_distribute -= delta_size;
new_height = llmax((*panel_it)->mMinHeight, cur_height + delta_size);
}
else
{
new_height = getDefaultHeight(new_height);
}
}
else
{
if (mOrientation == HORIZONTAL)
{
new_height = getDefaultHeight(new_height);
}
else // VERTICAL
{
new_width = getDefaultWidth(new_width);
}
}
// adjust running headroom count based on new sizes
shrink_headroom_total += delta_size;
LLRect panel_rect;
panel_rect.setLeftTopAndSize(cur_x, cur_y, new_width, new_height);
panelp->setShape(panel_rect);
LLRect resize_bar_rect = panel_rect;
if (mOrientation == HORIZONTAL)
{
resize_bar_rect.mLeft = panel_rect.mRight - resize_bar_overlap;
resize_bar_rect.mRight = panel_rect.mRight + mPanelSpacing + resize_bar_overlap;
}
else
{
resize_bar_rect.mTop = panel_rect.mBottom + resize_bar_overlap;
resize_bar_rect.mBottom = panel_rect.mBottom - mPanelSpacing - resize_bar_overlap;
}
(*panel_it)->mResizeBar->setRect(resize_bar_rect);
if (mOrientation == HORIZONTAL)
{
cur_x += llround(new_width * (*panel_it)->getCollapseFactor()) + mPanelSpacing;
}
else //VERTICAL
{
cur_y -= llround(new_height * (*panel_it)->getCollapseFactor()) + mPanelSpacing;
}
}
// update resize bars with new limits
LLResizeBar* last_resize_bar = NULL;
for (panel_it = mPanels.begin(); panel_it != mPanels.end(); ++panel_it)
{
LLPanel* panelp = (*panel_it)->mPanel;
if (mOrientation == HORIZONTAL)
{
(*panel_it)->mResizeBar->setResizeLimits(
(*panel_it)->mMinWidth,
(*panel_it)->mMinWidth + shrink_headroom_total);
}
else //VERTICAL
{
(*panel_it)->mResizeBar->setResizeLimits(
(*panel_it)->mMinHeight,
(*panel_it)->mMinHeight + shrink_headroom_total);
}
// toggle resize bars based on panel visibility, resizability, etc
BOOL resize_bar_enabled = panelp->getVisible() && (*panel_it)->mUserResize;
(*panel_it)->mResizeBar->setVisible(resize_bar_enabled);
if (resize_bar_enabled)
{
last_resize_bar = (*panel_it)->mResizeBar;
}
}
// hide last resize bar as there is nothing past it
// resize bars need to be in between two resizable panels
if (last_resize_bar)
{
last_resize_bar->setVisible(FALSE);
}
// not enough room to fit existing contents
if (force_resize == FALSE
// layout did not complete by reaching target position
&& ((mOrientation == VERTICAL && cur_y != -mPanelSpacing)
|| (mOrientation == HORIZONTAL && cur_x != getRect().getWidth() + mPanelSpacing)))
{
// do another layout pass with all stacked elements contributing
// even those that don't usually resize
llassert_always(force_resize == FALSE);
updateLayout(TRUE);
}
mAnimatedThisFrame = true;
} // end LLLayoutStack::updateLayout
LLLayoutStack::LayoutPanel* LLLayoutStack::findEmbeddedPanel(LLPanel* panelp) const
{
if (!panelp) return NULL;
e_panel_list_t::const_iterator panel_it;
for (panel_it = mPanels.begin(); panel_it != mPanels.end(); ++panel_it)
{
if ((*panel_it)->mPanel == panelp)
{
return *panel_it;
}
}
return NULL;
}
LLLayoutStack::LayoutPanel* LLLayoutStack::findEmbeddedPanelByName(const std::string& name) const
{
LayoutPanel* result = NULL;
for (e_panel_list_t::const_iterator panel_it = mPanels.begin(); panel_it != mPanels.end(); ++panel_it)
{
LayoutPanel* p = *panel_it;
if (p->mPanel->getName() == name)
{
result = p;
break;
}
}
return result;
}
// Compute sum of min_width or min_height of children
void LLLayoutStack::calcMinExtents()
{
mMinWidth = 0;
mMinHeight = 0;
e_panel_list_t::iterator panel_it;
for (panel_it = mPanels.begin(); panel_it != mPanels.end(); ++panel_it)
{
if (mOrientation == HORIZONTAL)
{
mMinHeight = llmax( mMinHeight,
(*panel_it)->mMinHeight);
mMinWidth += (*panel_it)->mMinWidth;
if (panel_it != mPanels.begin())
{
mMinWidth += mPanelSpacing;
}
}
else //VERTICAL
{
mMinWidth = llmax( mMinWidth,
(*panel_it)->mMinWidth);
mMinHeight += (*panel_it)->mMinHeight;
if (panel_it != mPanels.begin())
{
mMinHeight += mPanelSpacing;
}
}
}
}
// update layout stack animations, etc. once per frame
// NOTE: we use this to size world view based on animating UI, *before* we draw the UI
// we might still need to call updateLayout during UI draw phase, in case UI elements
// are resizing themselves dynamically
//static
void LLLayoutStack::updateClass()
{
for (LLLayoutStack::instance_iter it = beginInstances(); it != endInstances(); ++it)
{
it->updateLayout();
}
}
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