// virtual
void LLFloaterTexturePicker::draw()
{
if (mOwner)
{
// draw cone of context pointing back to texture swatch
LLRect owner_rect;
mOwner->localRectToOtherView(mOwner->getLocalRect(), &owner_rect, this);
LLRect local_rect = getLocalRect();
if (gFocusMgr.childHasKeyboardFocus(this) && mOwner->isInVisibleChain() && mContextConeOpacity > 0.001f)
{
gGL.getTexUnit(0)->unbind(LLTexUnit::TT_TEXTURE);
LLGLEnable(GL_CULL_FACE);
gGL.begin(LLRender::QUADS);
{
gGL.color4f(0.f, 0.f, 0.f, CONTEXT_CONE_IN_ALPHA * mContextConeOpacity);
gGL.vertex2i(owner_rect.mLeft, owner_rect.mTop);
gGL.vertex2i(owner_rect.mRight, owner_rect.mTop);
gGL.color4f(0.f, 0.f, 0.f, CONTEXT_CONE_OUT_ALPHA * mContextConeOpacity);
gGL.vertex2i(local_rect.mRight, local_rect.mTop);
gGL.vertex2i(local_rect.mLeft, local_rect.mTop);
gGL.color4f(0.f, 0.f, 0.f, CONTEXT_CONE_OUT_ALPHA * mContextConeOpacity);
gGL.vertex2i(local_rect.mLeft, local_rect.mTop);
gGL.vertex2i(local_rect.mLeft, local_rect.mBottom);
gGL.color4f(0.f, 0.f, 0.f, CONTEXT_CONE_IN_ALPHA * mContextConeOpacity);
gGL.vertex2i(owner_rect.mLeft, owner_rect.mBottom);
gGL.vertex2i(owner_rect.mLeft, owner_rect.mTop);
gGL.color4f(0.f, 0.f, 0.f, CONTEXT_CONE_OUT_ALPHA * mContextConeOpacity);
gGL.vertex2i(local_rect.mRight, local_rect.mBottom);
gGL.vertex2i(local_rect.mRight, local_rect.mTop);
gGL.color4f(0.f, 0.f, 0.f, CONTEXT_CONE_IN_ALPHA * mContextConeOpacity);
gGL.vertex2i(owner_rect.mRight, owner_rect.mTop);
gGL.vertex2i(owner_rect.mRight, owner_rect.mBottom);
gGL.color4f(0.f, 0.f, 0.f, CONTEXT_CONE_OUT_ALPHA * mContextConeOpacity);
gGL.vertex2i(local_rect.mLeft, local_rect.mBottom);
gGL.vertex2i(local_rect.mRight, local_rect.mBottom);
gGL.color4f(0.f, 0.f, 0.f, CONTEXT_CONE_IN_ALPHA * mContextConeOpacity);
gGL.vertex2i(owner_rect.mRight, owner_rect.mBottom);
gGL.vertex2i(owner_rect.mLeft, owner_rect.mBottom);
}
gGL.end();
}
}
if (gFocusMgr.childHasMouseCapture(getDragHandle()))
{
mContextConeOpacity = lerp(mContextConeOpacity, gSavedSettings.getF32("PickerContextOpacity"), LLCriticalDamp::getInterpolant(CONTEXT_FADE_TIME));
}
else
{
mContextConeOpacity = lerp(mContextConeOpacity, 0.f, LLCriticalDamp::getInterpolant(CONTEXT_FADE_TIME));
}
updateImageStats();
// if we're inactive, gray out "apply immediate" checkbox
childSetEnabled("show_folders_check", mActive && mCanApplyImmediately && !mNoCopyTextureSelected);
childSetEnabled("Select", mActive);
childSetEnabled("Pipette", mActive);
childSetValue("Pipette", LLToolMgr::getInstance()->getCurrentTool() == LLToolPipette::getInstance());
//RN: reset search bar to reflect actual search query (all caps, for example)
mSearchEdit->setText(mInventoryPanel->getFilterSubString());
//BOOL allow_copy = FALSE;
if( mOwner )
{
mTexturep = NULL;
if(mImageAssetID.notNull())
{
mTexturep = gImageList.getImage(mImageAssetID, MIPMAP_YES, IMMEDIATE_NO);
mTexturep->setBoostLevel(LLViewerImageBoostLevel::BOOST_PREVIEW);
}
else if (!mFallbackImageName.empty())
{
mTexturep = gImageList.getImageFromFile(mFallbackImageName);
mTexturep->setBoostLevel(LLViewerImageBoostLevel::BOOST_PREVIEW);
}
if (mTentativeLabel)
{
mTentativeLabel->setVisible( FALSE );
}
childSetEnabled("Default", mImageAssetID != mOwner->getDefaultImageAssetID());
childSetEnabled("Blank", mImageAssetID != mWhiteImageAssetID );
childSetEnabled("Invisible", mOwner->getAllowInvisibleTexture() && mImageAssetID != mInvisibleImageAssetID );
childSetEnabled("None", mOwner->getAllowNoTexture() && !mImageAssetID.isNull() );
LLFloater::draw();
if( isMinimized() )
{
return;
}
// Border
LLRect border( BORDER_PAD,
getRect().getHeight() - LLFLOATER_HEADER_SIZE - BORDER_PAD,
((TEX_PICKER_MIN_WIDTH / 2) - TEXTURE_INVENTORY_PADDING - HPAD) - BORDER_PAD,
BORDER_PAD + FOOTER_HEIGHT + (getRect().getHeight() - TEX_PICKER_MIN_HEIGHT));
gl_rect_2d( border, LLColor4::black, FALSE );
// Interior
LLRect interior = border;
interior.stretch( -1 );
if( mTexturep )
{
if( mTexturep->getComponents() == 4 )
{
gl_rect_2d_checkerboard( interior );
}
gl_draw_scaled_image( interior.mLeft, interior.mBottom, interior.getWidth(), interior.getHeight(), mTexturep );
// Pump the priority
mTexturep->addTextureStats( (F32)(interior.getWidth() * interior.getHeight()) );
// Draw Tentative Label over the image
if( mOwner->getTentative() && !mIsDirty )
{
mTentativeLabel->setVisible( TRUE );
drawChild(mTentativeLabel);
}
}
else
{
gl_rect_2d( interior, LLColor4::grey, TRUE );
// Draw X
gl_draw_x(interior, LLColor4::black );
}
}
}
void InputSettingsWindow::inputEvent(uint16_t scancode) {
if(!activeInput) return;
if(!isActiveWindow() || isMinimized()) return;
int16_t state = mapper().state(scancode);
if(dynamic_cast<DigitalInput*>(activeInput)) {
if(Keyboard::isAnyKey(scancode) && mapper().state(scancode)) {
for(unsigned i = 0; i < Keyboard::Count; i++) {
//don't map escape key, as it is reserved by the user interface
if(scancode == keyboard(i)[Keyboard::Escape]) return;
}
setAssignment(string() << mapper().modifierString() << Scancode::encode(scancode));
} else if(Keyboard::isAnyModifier(scancode) && !config().input.modifierEnable) {
setAssignment(string() << Scancode::encode(scancode));
} else if(Mouse::isAnyButton(scancode) && !mapper().state(scancode)) {
//ensure button was clicked inside list box
unsigned wx = 0, wy = 0;
QWidget *widget = buttonBox;
while(widget) {
wx += widget->geometry().x();
wy += widget->geometry().y();
widget = widget->parentWidget();
}
unsigned px = QCursor::pos().x();
unsigned py = QCursor::pos().y();
if(px < wx || px >= wx + buttonBox->size().width()) return;
if(py < wy || py >= wy + buttonBox->size().height()) return;
setAssignment(string() << mapper().modifierString() << Scancode::encode(scancode));
} else if(Joypad::isAnyHat(scancode)) {
string position;
if(state == Joypad::HatUp) position = ".Up";
else if(state == Joypad::HatDown) position = ".Down";
else if(state == Joypad::HatLeft) position = ".Left";
else if(state == Joypad::HatRight) position = ".Right";
else return;
setAssignment(string() << mapper().modifierString() << Scancode::encode(scancode) << position);
} else if(Joypad::isAnyAxis(scancode) && mapper().distance(scancode) > 64) {
if(mapper().calibrated == false) {
MappedInput *temp = activeInput;
activeInput = 0;
mapper().calibrate();
activeInput = temp;
return;
}
if(mapper().isTrigger[Joypad::numberDecode(scancode)][Joypad::axisDecode(scancode)] == false) {
string position;
if(state < -24576) position = ".Lo";
else if(state > +24576) position = ".Hi";
else return;
setAssignment(string() << mapper().modifierString() << Scancode::encode(scancode) << position);
} else {
if(state >= 0) return;
setAssignment(string() << mapper().modifierString() << Scancode::encode(scancode) << ".Trigger");
}
} else if(Joypad::isAnyButton(scancode) && mapper().state(scancode)) {
setAssignment(string() << mapper().modifierString() << Scancode::encode(scancode));
}
} else if(dynamic_cast<AnalogInput*>(activeInput)) {
if(Mouse::isAnyButton(scancode) && mapper().state(scancode)) {
//actual assignment occurs during (x,y)AxisButton::released()
activeMouse = Mouse::numberDecode(scancode);
} else if(Joypad::isAnyAxis(scancode) && mapper().distance(scancode) > 64) {
if(mapper().calibrated == false) {
MappedInput *temp = activeInput;
activeInput = 0;
mapper().calibrate();
activeInput = temp;
return;
}
if(mapper().isTrigger[Joypad::numberDecode(scancode)][Joypad::axisDecode(scancode)] == false) {
if(state < -24576 || state > +24576) {
setAssignment(string() << Scancode::encode(scancode));
}
}
}
}
}
void LLPreviewTexture::draw()
{
updateDimensions();
LLPreview::draw();
if (!isMinimized())
{
LLGLSUIDefault gls_ui;
gGL.getTexUnit(0)->unbind(LLTexUnit::TT_TEXTURE);
const LLRect& border = mClientRect;
LLRect interior = mClientRect;
interior.stretch(-PREVIEW_BORDER_WIDTH );
// ...border
gl_rect_2d( border, LLColor4(0.f, 0.f, 0.f, 1.f));
gl_rect_2d_checkerboard(interior);
if (mImage.notNull())
{
// Draw the texture
glColor3f( 1.f, 1.f, 1.f );
gl_draw_scaled_image(interior.mLeft,
interior.mBottom,
interior.getWidth(),
interior.getHeight(),
mImage);
// Pump the texture priority
F32 pixel_area = mLoadingFullImage ? (F32)MAX_IMAGE_AREA : (F32)(interior.getWidth() * interior.getHeight());
mImage->addTextureStats(pixel_area);
if (pixel_area > 0.f)
{
//boost the previewed image priority to the highest to make it to get loaded first.
mImage->setAdditionalDecodePriority(1.0f);
}
std::string assetid(mImageID.asString());
if (mIsCopyable) childSetText("uuid", assetid);
if (uploaderkey.isNull()&&(mImage->mDecodedComment.find("a")!=mImage->mDecodedComment.end()))
{
uploaderkey = LLUUID(mImage->mDecodedComment["a"]);
childSetText("uploader", mImage->mDecodedComment["a"]);
// Ansariel: Changed to boost::bind callback
//gCacheName->get(uploaderkey, FALSE, callbackLoadAvatarName);
gCacheName->get(uploaderkey, false, boost::bind(&callbackLoadAvatarName, _1, _2, _3, this));
}
if (color.empty()&&(mImage->mDecodedComment.find("c")!=mImage->mDecodedComment.end()))
{
color = mImage->mDecodedComment["c"];
}
if (time.empty()&&(mImage->mDecodedComment.find("z")!=mImage->mDecodedComment.end()))
{
time=mImage->mDecodedComment["z"];
std::string year = time.substr(0,4);
std::string month = time.substr(4,2);
std::string day = time.substr(6,2);
std::string hour = time.substr(8,2);
std::string minute = time.substr(10,2);
std::string second = time.substr(12,2);
time = llformat("%s/%s/%s - %s:%s:%s",year.c_str(),month.c_str(),day.c_str(),hour.c_str(),minute.c_str(),second.c_str());
childSetText("uploadtime", time);
}
// Don't bother decoding more than we can display, unless
// we're loading the full image.
if (!mLoadingFullImage)
{
S32 int_width = interior.getWidth();
S32 int_height = interior.getHeight();
mImage->setKnownDrawSize(int_width, int_height);
}
else
{
// Don't use this feature
mImage->setKnownDrawSize(0, 0);
}
if (mLoadingFullImage)
{
// *TODO: Translate
LLFontGL::getFontSansSerif()->renderUTF8(std::string("Receiving:"), 0,
interior.mLeft + 4,
interior.mBottom + 4,
LLColor4::white, LLFontGL::LEFT, LLFontGL::BOTTOM,
LLFontGL::DROP_SHADOW);
F32 data_progress = mImage->getDownloadProgress();
// Draw the progress bar.
const S32 BAR_HEIGHT = 12;
const S32 BAR_LEFT_PAD = 80;
S32 left = interior.mLeft + 4 + BAR_LEFT_PAD;
S32 bar_width = getRect().getWidth() - left - RESIZE_HANDLE_WIDTH - 2;
S32 top = interior.mBottom + 4 + BAR_HEIGHT;
S32 right = left + bar_width;
S32 bottom = top - BAR_HEIGHT;
LLColor4 background_color(0.f, 0.f, 0.f, 0.75f);
LLColor4 decoded_color(0.f, 1.f, 0.f, 1.0f);
LLColor4 downloaded_color(0.f, 0.5f, 0.f, 1.0f);
gl_rect_2d(left, top, right, bottom, background_color);
if (data_progress > 0.0f)
{
// Downloaded bytes
right = left + llfloor(data_progress * (F32)bar_width);
if (right > left)
{
gl_rect_2d(left, top, right, bottom, downloaded_color);
}
}
}
else
if (!mSavedFileTimer.hasExpired())
{
// *TODO: Translate
LLFontGL::getFontSansSerif()->renderUTF8(std::string("File Saved"), 0,
interior.mLeft + 4,
interior.mBottom + 4,
LLColor4::white, LLFontGL::LEFT, LLFontGL::BOTTOM,
LLFontGL::DROP_SHADOW);
}
}
}
}
void LLPreviewTexture::draw()
{
updateDimensions();
LLPreview::draw();
if (!isMinimized())
{
LLGLSUIDefault gls_ui;
gGL.getTexUnit(0)->unbind(LLTexUnit::TT_TEXTURE);
const LLRect& border = mClientRect;
LLRect interior = mClientRect;
interior.stretch( -PREVIEW_BORDER_WIDTH );
// ...border
gl_rect_2d( border, LLColor4(0.f, 0.f, 0.f, 1.f));
gl_rect_2d_checkerboard( interior );
if ( mImage.notNull() )
{
// Draw the texture
glColor3f( 1.f, 1.f, 1.f );
gl_draw_scaled_image(interior.mLeft,
interior.mBottom,
interior.getWidth(),
interior.getHeight(),
mImage);
// Pump the texture priority
F32 pixel_area = mLoadingFullImage ? (F32)MAX_IMAGE_AREA : (F32)(interior.getWidth() * interior.getHeight() );
mImage->addTextureStats( pixel_area );
if(pixel_area > 0.f)
{
//boost the previewed image priority to the highest to make it to get loaded first.
mImage->setAdditionalDecodePriority(1.0f) ;
}
// Don't bother decoding more than we can display, unless
// we're loading the full image.
if (!mLoadingFullImage)
{
S32 int_width = interior.getWidth();
S32 int_height = interior.getHeight();
mImage->setKnownDrawSize(int_width, int_height);
}
else
{
// Don't use this feature
mImage->setKnownDrawSize(0, 0);
}
if( mLoadingFullImage )
{
// *TODO: Translate
LLFontGL::getFontSansSerif()->renderUTF8(std::string("Receiving:"), 0,
interior.mLeft + 4,
interior.mBottom + 4,
LLColor4::white, LLFontGL::LEFT, LLFontGL::BOTTOM,
LLFontGL::DROP_SHADOW);
F32 data_progress = mImage->mDownloadProgress;
// Draw the progress bar.
const S32 BAR_HEIGHT = 12;
const S32 BAR_LEFT_PAD = 80;
S32 left = interior.mLeft + 4 + BAR_LEFT_PAD;
S32 bar_width = getRect().getWidth() - left - RESIZE_HANDLE_WIDTH - 2;
S32 top = interior.mBottom + 4 + BAR_HEIGHT;
S32 right = left + bar_width;
S32 bottom = top - BAR_HEIGHT;
LLColor4 background_color(0.f, 0.f, 0.f, 0.75f);
LLColor4 decoded_color(0.f, 1.f, 0.f, 1.0f);
LLColor4 downloaded_color(0.f, 0.5f, 0.f, 1.0f);
gl_rect_2d(left, top, right, bottom, background_color);
if (data_progress > 0.0f)
{
// Downloaded bytes
right = left + llfloor(data_progress * (F32)bar_width);
if (right > left)
{
gl_rect_2d(left, top, right, bottom, downloaded_color);
}
}
}
else
if( !mSavedFileTimer.hasExpired() )
{
// *TODO: Translate
LLFontGL::getFontSansSerif()->renderUTF8(std::string("File Saved"), 0,
interior.mLeft + 4,
interior.mBottom + 4,
LLColor4::white, LLFontGL::LEFT, LLFontGL::BOTTOM,
LLFontGL::DROP_SHADOW);
}
}
}
}
void LLFloaterTools::updatePopup(LLCoordGL center, MASK mask)
{
LLTool *tool = LLToolMgr::getInstance()->getCurrentTool();
// HACK to allow seeing the buttons when you have the app in a window.
// Keep the visibility the same as it
if (tool == gToolNull)
{
return;
}
if ( isMinimized() )
{ // SL looks odd if we draw the tools while the window is minimized
return;
}
// Focus buttons
BOOL focus_visible = ( tool == LLToolCamera::getInstance() );
mBtnFocus ->setToggleState( focus_visible );
mRadioZoom ->setVisible( focus_visible );
mRadioOrbit ->setVisible( focus_visible );
mRadioPan ->setVisible( focus_visible );
childSetVisible("slider zoom", focus_visible);
childSetEnabled("slider zoom", gCameraBtnZoom);
mRadioZoom ->set( !gCameraBtnOrbit &&
!gCameraBtnPan &&
!(mask == MASK_ORBIT) &&
!(mask == (MASK_ORBIT | MASK_ALT)) &&
!(mask == MASK_PAN) &&
!(mask == (MASK_PAN | MASK_ALT)) );
mRadioOrbit ->set( gCameraBtnOrbit ||
(mask == MASK_ORBIT) ||
(mask == (MASK_ORBIT | MASK_ALT)) );
mRadioPan ->set( gCameraBtnPan ||
(mask == MASK_PAN) ||
(mask == (MASK_PAN | MASK_ALT)) );
// multiply by correction factor because volume sliders go [0, 0.5]
childSetValue( "slider zoom", gAgent.getCameraZoomFraction() * 0.5f);
// Move buttons
BOOL move_visible = (tool == LLToolGrab::getInstance());
if (mBtnMove) mBtnMove ->setToggleState( move_visible );
// HACK - highlight buttons for next click
if (mRadioMove)
{
mRadioMove ->setVisible( move_visible );
mRadioMove ->set( !gGrabBtnSpin &&
!gGrabBtnVertical &&
!(mask == MASK_VERTICAL) &&
!(mask == MASK_SPIN) );
}
if (mRadioLift)
{
mRadioLift ->setVisible( move_visible );
mRadioLift ->set( gGrabBtnVertical ||
(mask == MASK_VERTICAL) );
}
if (mRadioSpin)
{
mRadioSpin ->setVisible( move_visible );
mRadioSpin ->set( gGrabBtnSpin ||
(mask == MASK_SPIN) );
}
// Edit buttons
BOOL edit_visible = tool == LLToolCompTranslate::getInstance() ||
tool == LLToolCompRotate::getInstance() ||
tool == LLToolCompScale::getInstance() ||
tool == LLToolFace::getInstance() ||
tool == LLToolIndividual::getInstance() ||
tool == LLToolPipette::getInstance();
mBtnEdit ->setToggleState( edit_visible );
mRadioPosition ->setVisible( edit_visible );
mRadioRotate ->setVisible( edit_visible );
mRadioStretch ->setVisible( edit_visible );
if (mRadioSelectFace)
{
mRadioSelectFace->setVisible( edit_visible );
mRadioSelectFace->set( tool == LLToolFace::getInstance() );
}
if (mCheckSelectIndividual)
{
mCheckSelectIndividual->setVisible(edit_visible);
//mCheckSelectIndividual->set(gSavedSettings.getBOOL("EditLinkedParts"));
}
mRadioPosition ->set( tool == LLToolCompTranslate::getInstance() );
mRadioRotate ->set( tool == LLToolCompRotate::getInstance() );
mRadioStretch ->set( tool == LLToolCompScale::getInstance() );
if (mComboGridMode)
{
mComboGridMode->setVisible( edit_visible );
S32 index = mComboGridMode->getCurrentIndex();
mComboGridMode->removeall();
switch (mObjectSelection->getSelectType())
{
case SELECT_TYPE_HUD:
mComboGridMode->add(getString("grid_screen_text"));
mComboGridMode->add(getString("grid_local_text"));
//mComboGridMode->add(getString("grid_reference_text"));
break;
case SELECT_TYPE_WORLD:
mComboGridMode->add(getString("grid_world_text"));
mComboGridMode->add(getString("grid_local_text"));
mComboGridMode->add(getString("grid_reference_text"));
break;
case SELECT_TYPE_ATTACHMENT:
mComboGridMode->add(getString("grid_attachment_text"));
mComboGridMode->add(getString("grid_local_text"));
mComboGridMode->add(getString("grid_reference_text"));
break;
}
mComboGridMode->setCurrentByIndex(index);
}
if (mTextGridMode) mTextGridMode->setVisible( edit_visible );
// Snap to grid disabled for grab tool - very confusing
if (mCheckSnapToGrid) mCheckSnapToGrid->setVisible( edit_visible /* || tool == LLToolGrab::getInstance() */ );
if (mBtnGridOptions) mBtnGridOptions->setVisible( edit_visible /* || tool == LLToolGrab::getInstance() */ );
//mCheckSelectLinked ->setVisible( edit_visible );
if (mCheckStretchUniform) mCheckStretchUniform->setVisible( edit_visible );
if (mCheckStretchTexture) mCheckStretchTexture->setVisible( edit_visible );
if (mBtnLink) mBtnLink->setVisible( edit_visible );
if (mBtnUnlink) mBtnUnlink->setVisible( edit_visible );
//TODO: Move these into llselectmgr
// Check to see if we can link things
bool can_link = false;
if (!gSavedSettings.getBOOL("EditLinkedParts"))
{
if(LLSelectMgr::getInstance()->selectGetAllRootsValid() && LLSelectMgr::getInstance()->getSelection()->getRootObjectCount() >= 2)
{
struct f : public LLSelectedObjectFunctor
{
virtual bool apply(LLViewerObject* object)
{
return object->permModify();
}
}
func;
const bool firstonly = true;
can_link = LLSelectMgr::getInstance()->getSelection()->applyToRootObjects(&func, firstonly);
}
}
mBtnLink->setEnabled(can_link);
// Check to see if we can unlink things
bool can_unlink = false;
if (tool != LLToolFace::getInstance())
{
if (LLSelectMgr::getInstance()->selectGetAllRootsValid() &&
LLSelectMgr::getInstance()->getSelection()->getFirstEditableObject() &&
!LLSelectMgr::getInstance()->getSelection()->isAttachment())
{
// LL's viewer unlinks the last linkset selected,
// regardless of how many linksets or prims are selected total.
// Preserve that behavior when enabling the unlink option.
if (gSavedSettings.getBOOL("EditLinkedParts"))
{
struct f : public LLSelectedNodeFunctor
{
virtual bool apply(LLSelectNode* pNode)
{
// Return the first selection node that is
// 1) not a root prim
// 2) or a root prim that has child prims
// or in other words: any prim that is part of a linkset
return (pNode->getObject() != pNode->getObject()->getRootEdit()) ||
(pNode->getObject()->numChildren() != 0);
}
} func;
if (LLSelectMgr::getInstance()->getSelection()->getFirstRootNode(&func, TRUE))
{
// the selection contains at least one prim (child or root) that is part of a linkset
can_unlink = true;
}
}
else
{
if (LLSelectMgr::getInstance()->getSelection()->getRootObjectCount() !=
LLSelectMgr::getInstance()->getSelection()->getObjectCount())
{
can_unlink = true;
}
}
}
}
mBtnUnlink->setEnabled(can_unlink);
// Create buttons
BOOL create_visible = (tool == LLToolCompCreate::getInstance());
mBtnCreate ->setToggleState( tool == LLToolCompCreate::getInstance() );
updateTreeGrassCombo(create_visible);
if (mCheckCopySelection
&& mCheckCopySelection->get())
{
// don't highlight any placer button
for (std::vector<LLButton*>::size_type i = 0; i < mButtons.size(); i++)
{
mButtons[i]->setToggleState(FALSE);
mButtons[i]->setVisible( create_visible );
}
}
else
{
// Highlight the correct placer button
for( std::vector<LLButton*>::size_type i = 0; i < mButtons.size(); i++ )
{
LLPCode pcode = LLToolPlacer::getObjectType();
void *userdata = mButtons[i]->getCallbackUserData();
LLPCode *cur = (LLPCode*) userdata;
BOOL state = (pcode == *cur);
mButtons[i]->setToggleState( state );
mButtons[i]->setVisible( create_visible );
}
}
if (mCheckSticky) mCheckSticky ->setVisible( create_visible );
if (mCheckCopySelection) mCheckCopySelection ->setVisible( create_visible );
if (mCheckCopyCenters) mCheckCopyCenters ->setVisible( create_visible );
if (mCheckCopyRotates) mCheckCopyRotates ->setVisible( create_visible );
if (mCheckCopyCenters) mCheckCopyCenters->setEnabled( mCheckCopySelection->get() );
if (mCheckCopyRotates) mCheckCopyRotates->setEnabled( mCheckCopySelection->get() );
// Land buttons
BOOL land_visible = (tool == LLToolBrushLand::getInstance() || tool == LLToolSelectLand::getInstance() );
if (mBtnLand) mBtnLand ->setToggleState( land_visible );
// mRadioEditLand ->set( tool == LLToolBrushLand::getInstance() );
if (mRadioSelectLand) mRadioSelectLand->set( tool == LLToolSelectLand::getInstance() );
// mRadioEditLand ->setVisible( land_visible );
if (mRadioSelectLand) mRadioSelectLand->setVisible( land_visible );
S32 dozer_mode = gSavedSettings.getS32("RadioLandBrushAction");
if (mRadioDozerFlatten)
{
mRadioDozerFlatten ->set( tool == LLToolBrushLand::getInstance() && dozer_mode == 0);
mRadioDozerFlatten ->setVisible( land_visible );
}
if (mRadioDozerRaise)
{
mRadioDozerRaise ->set( tool == LLToolBrushLand::getInstance() && dozer_mode == 1);
mRadioDozerRaise ->setVisible( land_visible );
}
if (mRadioDozerLower)
{
mRadioDozerLower ->set( tool == LLToolBrushLand::getInstance() && dozer_mode == 2);
mRadioDozerLower ->setVisible( land_visible );
}
if (mRadioDozerSmooth)
{
mRadioDozerSmooth ->set( tool == LLToolBrushLand::getInstance() && dozer_mode == 3);
mRadioDozerSmooth ->setVisible( land_visible );
}
if (mRadioDozerNoise)
{
mRadioDozerNoise ->set( tool == LLToolBrushLand::getInstance() && dozer_mode == 4);
mRadioDozerNoise ->setVisible( land_visible );
}
if (mRadioDozerRevert)
{
mRadioDozerRevert ->set( tool == LLToolBrushLand::getInstance() && dozer_mode == 5);
mRadioDozerRevert ->setVisible( land_visible );
}
if (mBtnApplyToSelection)
{
mBtnApplyToSelection->setVisible( land_visible );
mBtnApplyToSelection->setEnabled( land_visible && !LLViewerParcelMgr::getInstance()->selectionEmpty() && tool != LLToolSelectLand::getInstance());
}
if (mSliderDozerSize)
{
mSliderDozerSize ->setVisible( land_visible );
childSetVisible("Bulldozer:", land_visible);
childSetVisible("Dozer Size:", land_visible);
}
if (mSliderDozerForce)
{
mSliderDozerForce ->setVisible( land_visible );
childSetVisible("Strength:", land_visible);
}
childSetVisible("obj_count", !land_visible);
childSetVisible("prim_count", !land_visible);
mTab->setVisible(!land_visible);
mPanelLandInfo->setVisible(land_visible);
}
void *Container::processEvent(Event *e)
{
if (m_tabBar == NULL)
return NULL;
UserWnd *userWnd;
Contact *contact;
CommandDef *cmd;
Message *msg;
switch (e->type()){
case EventMessageReceived:
msg = (Message*)(e->param());
if (msg->type() == MessageStatus){
contact = getContacts()->contact(msg->contact());
if (contact)
contactChanged(contact);
return NULL;
}
if (msg->getFlags() & MESSAGE_NOVIEW)
return NULL;
if (CorePlugin::m_plugin->getContainerMode()){
if (isActiveWindow() && !isMinimized()){
userWnd = m_tabBar->currentWnd();
if (userWnd && (userWnd->id() == msg->contact()))
userWnd->markAsRead();
}else{
msg = (Message*)(e->param());
userWnd = wnd(msg->contact());
if (userWnd)
QTimer::singleShot(0, this, SLOT(flash()));
}
}
case EventMessageRead:
msg = (Message*)(e->param());
userWnd = wnd(msg->contact());
if (userWnd){
bool bBold = false;
for (list<msg_id>::iterator it = CorePlugin::m_plugin->unread.begin(); it != CorePlugin::m_plugin->unread.end(); ++it){
if ((*it).contact != msg->contact())
continue;
bBold = true;
break;
}
m_tabBar->setBold(msg->contact(), bBold);
}
break;
case EventActiveContact:
if (!isActiveWindow())
return NULL;
userWnd = m_tabBar->currentWnd();
if (userWnd)
return (void*)(userWnd->id());
break;
case EventContactDeleted:
contact = (Contact*)(e->param());
userWnd = wnd(contact->id());
if (userWnd)
removeUserWnd(userWnd);
break;
case EventContactChanged:
contact = (Contact*)(e->param());
userWnd = wnd(contact->id());
if (userWnd){
if (contact->getIgnore()){
removeUserWnd(userWnd);
break;
}
m_tabBar->changeTab(contact->id());
contactChanged(contact);
}
case EventClientsChanged:
setupAccel();
break;
case EventContactStatus:
contact = (Contact*)(e->param());
userWnd = m_tabBar->wnd(contact->id());
if (userWnd){
unsigned style = 0;
string wrkIcons;
const char *statusIcon = NULL;
contact->contactInfo(style, statusIcon, &wrkIcons);
bool bTyping = false;
while (!wrkIcons.empty()){
if (getToken(wrkIcons, ',') == "typing"){
bTyping = true;
break;
}
}
if (userWnd->m_bTyping != bTyping){
userWnd->m_bTyping = bTyping;
if (bTyping){
userWnd->setStatus(g_i18n("%1 is typing", contact) .arg(contact->getName()));
}else{
userWnd->setStatus("");
}
userWnd = m_tabBar->currentWnd();
if (userWnd && (contact->id() == userWnd->id()))
m_status->message(userWnd->status());
}
}
break;
case EventContactClient:
contactChanged((Contact*)(e->param()));
break;
case EventInit:
init();
break;
case EventCommandExec:
cmd = (CommandDef*)(e->param());
userWnd = m_tabBar->currentWnd();
if (userWnd && ((unsigned)(cmd->param) == userWnd->id())){
if (cmd->menu_id == MenuContainerContact){
m_tabBar->raiseTab(cmd->id);
return e->param();
}
if (cmd->id == CmdClose){
delete userWnd;
return e->param();
}
if (cmd->id == CmdInfo){
CommandDef c = *cmd;
c.menu_id = MenuContact;
c.param = (void*)userWnd->id();
Event eExec(EventCommandExec, &c);
eExec.process();
return e->param();
}
}
break;
case EventCheckState:
cmd = (CommandDef*)(e->param());
userWnd = m_tabBar->currentWnd();
if (userWnd && ((unsigned)(cmd->param) == userWnd->id()) &&
(cmd->menu_id == MenuContainerContact) &&
(cmd->id == CmdContainerContacts)){
list<UserWnd*> userWnds = m_tabBar->windows();
CommandDef *cmds = new CommandDef[userWnds.size() + 1];
memset(cmds, 0, sizeof(CommandDef) * (userWnds.size() + 1));
unsigned n = 0;
for (list<UserWnd*>::iterator it = userWnds.begin(); it != userWnds.end(); ++it){
cmds[n].id = (*it)->id();
cmds[n].flags = COMMAND_DEFAULT;
cmds[n].text_wrk = strdup((*it)->getName().utf8());
cmds[n].icon = (*it)->getIcon();
cmds[n].text = "_";
cmds[n].menu_id = n + 1;
if (n < sizeof(accels) / sizeof(const char*))
cmds[n].accel = accels[n];
if (*it == m_tabBar->currentWnd())
cmds[n].flags |= COMMAND_CHECKED;
n++;
}
cmd->param = cmds;
cmd->flags |= COMMAND_RECURSIVE;
return e->param();
}
break;
}
return NULL;
}
void MdiWindow::mouseReleaseEvent(QMouseEvent *event)
{
QStyleOptionTitleBar option;
option.initFrom(this);
option.titleBarFlags = windowFlags();
option.titleBarState = windowState();
option.subControls = QStyle::SC_All;
option.activeSubControls = QStyle::SC_None;
if (!isMinimized())
{
option.rect.setHeight(height() - widget()->height());
}
if (!isMaximized() && style()->subControlRect(QStyle::CC_TitleBar, &option, QStyle::SC_TitleBarMaxButton, this).contains(event->pos()))
{
setWindowFlags(Qt::SubWindow | Qt::CustomizeWindowHint | Qt::FramelessWindowHint);
showMaximized();
SessionsManager::markSessionModified();
}
else if (!isMinimized() && style()->subControlRect(QStyle::CC_TitleBar, &option, QStyle::SC_TitleBarMinButton, this).contains(event->pos()))
{
const QList<QMdiSubWindow*> subWindows(mdiArea()->subWindowList());
int activeSubWindows(0);
for (int i = 0; i < subWindows.count(); ++i)
{
if (!subWindows.at(i)->isMinimized())
{
++activeSubWindows;
}
}
storeState();
setWindowFlags(Qt::SubWindow);
showMinimized();
if (activeSubWindows == 1)
{
MainWindow *mainWindow(MainWindow::findMainWindow(mdiArea()));
if (mainWindow)
{
mainWindow->getWindowsManager()->setActiveWindowByIndex(-1);
}
else
{
mdiArea()->setActiveSubWindow(NULL);
}
}
else if (activeSubWindows > 1)
{
ActionsManager::triggerAction(ActionsManager::ActivatePreviouslyUsedTabAction, mdiArea());
}
SessionsManager::markSessionModified();
}
else if (isMinimized())
{
restoreState();
}
QMdiSubWindow::mouseReleaseEvent(event);
}
bool MainWindow::isActive() {
return isActiveWindow() && !isMinimized();
}
