/*
* This file is part of RawTherapee.
*
* RawTherapee 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 3 of the License, or
* (at your option) any later version.
*
* RawTherapee 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 RawTherapee. If not, see .
*/
#include
#include "../rtengine/rt_math.h"
#include "thumbbrowserbase.h"
#include "multilangmgr.h"
#include "options.h"
#include "../rtengine/mytime.h"
using namespace std;
ThumbBrowserBase::ThumbBrowserBase ()
: lastClicked(NULL), previewHeight(options.thumbSize), numOfCols(1), inspector(NULL), isInspectorActive(false)
{
location = THLOC_FILEBROWSER;
inW = -1;
inH = -1;
Gtk::HBox* hb1 = Gtk::manage( new Gtk::HBox () );
Gtk::HBox* hb2 = Gtk::manage( new Gtk::HBox () );
Gtk::Frame* frame = Gtk::manage( new Gtk::Frame () );
frame->add (internal);
frame->set_shadow_type (Gtk::SHADOW_IN );
hb1->pack_start (*frame);
hb1->pack_end (vscroll, Gtk::PACK_SHRINK, 0);
pack_start (*hb1);
hb2->pack_start (hscroll);
pack_start (*hb2, Gtk::PACK_SHRINK, 0);
internal.setParent (this);
show_all ();
hscroll.set_update_policy (Gtk::UPDATE_CONTINUOUS);
vscroll.set_update_policy (Gtk::UPDATE_CONTINUOUS);
vscroll.signal_value_changed().connect( sigc::mem_fun(*this, &ThumbBrowserBase::scrollChanged) );
hscroll.signal_value_changed().connect( sigc::mem_fun(*this, &ThumbBrowserBase::scrollChanged) );
internal.signal_size_allocate().connect( sigc::mem_fun(*this, &ThumbBrowserBase::internalAreaResized) );
}
void ThumbBrowserBase::scrollChanged ()
{
{
#if PROTECT_VECTORS
MYWRITERLOCK(l, entryRW);
#endif
for (size_t i = 0; i < fd.size(); i++) {
fd[i]->setOffset ((int)(hscroll.get_value()), (int)(vscroll.get_value()));
}
}
internal.setPosition ((int)(hscroll.get_value()), (int)(vscroll.get_value()));
if (!internal.isDirty()) {
internal.setDirty ();
internal.queue_draw ();
}
}
void ThumbBrowserBase::scroll (int direction)
{
// GUI already acquired when here
if (arrangement == TB_Vertical) {
vscroll.set_value (vscroll.get_value() + (direction == GDK_SCROLL_DOWN ? +1 : -1) * vscroll.get_adjustment()->get_step_increment());
} else {
hscroll.set_value (hscroll.get_value() + (direction == GDK_SCROLL_DOWN ? +1 : -1) * hscroll.get_adjustment()->get_step_increment());
}
}
void ThumbBrowserBase::scrollPage (int direction)
{
// GUI already acquired when here
if (arrangement == TB_Vertical) {
vscroll.set_value (vscroll.get_value() + (direction == GDK_SCROLL_DOWN ? +1 : -1) * vscroll.get_adjustment()->get_page_increment());
} else {
hscroll.set_value (hscroll.get_value() + (direction == GDK_SCROLL_DOWN ? +1 : -1) * hscroll.get_adjustment()->get_page_increment());
}
}
static void scrollToEntry (double& h, double& v, int iw, int ih, ThumbBrowserEntryBase* entry)
{
const int hmin = entry->getX ();
const int hmax = hmin + entry->getEffectiveWidth () - iw;
const int vmin = entry->getY ();
const int vmax = vmin + entry->getEffectiveHeight () - ih;
if (hmin < 0) {
h += hmin;
} else if (hmax > 0) {
h += hmax;
}
if(vmin < 0) {
v += vmin;
} else if (vmax > 0) {
v += vmax;
}
}
void ThumbBrowserBase::selectPrev (int distance, bool enlarge)
{
double h, v;
getScrollPosition (h, v);
{
#if PROTECT_VECTORS
MYWRITERLOCK(l, entryRW);
#endif
if (!selected.empty ()) {
std::vector::iterator front = std::find (fd.begin (), fd.end (), selected.front ());
std::vector::iterator back = std::find (fd.begin (), fd.end (), selected.back ());
std::vector::iterator last = std::find (fd.begin (), fd.end (), lastClicked);
if (front > back) {
std::swap(front, back);
}
std::vector::iterator& curr = last == front ? front : back;
// find next thumbnail at filtered distance before current
for (; curr >= fd.begin (); --curr) {
if (!(*curr)->filtered) {
if (distance-- == 0) {
// clear current selection
for (size_t i = 0; i < selected.size (); ++i) {
selected[i]->selected = false;
redrawNeeded (selected[i]);
}
selected.clear ();
// make sure the newly selected thumbnail is visible and make it current
scrollToEntry (h, v, internal.get_width (), internal.get_height (), *curr);
lastClicked = *curr;
// either enlarge current selection or set new selection
if(enlarge) {
// reverse direction if distance is too large
if(front > back) {
std::swap(front, back);
}
for (; front <= back; ++front) {
if (!(*front)->filtered) {
(*front)->selected = true;
redrawNeeded (*front);
selected.push_back (*front);
}
}
} else {
(*curr)->selected = true;
redrawNeeded (*curr);
selected.push_back (*curr);
}
break;
}
}
}
}
#if PROTECT_VECTORS
MYWRITERLOCK_RELEASE(l);
#endif
selectionChanged ();
}
setScrollPosition (h, v);
}
void ThumbBrowserBase::selectNext (int distance, bool enlarge)
{
double h, v;
getScrollPosition (h, v);
{
#if PROTECT_VECTORS
MYWRITERLOCK(l, entryRW);
#endif
if (!selected.empty ()) {
std::vector::iterator front = std::find (fd.begin (), fd.end (), selected.front ());
std::vector::iterator back = std::find (fd.begin (), fd.end (), selected.back ());
std::vector::iterator last = std::find (fd.begin (), fd.end (), lastClicked);
if (front > back) {
std::swap(front, back);
}
std::vector::iterator& curr = last == back ? back : front;
// find next thumbnail at filtered distance after current
for (; curr < fd.end (); ++curr) {
if (!(*curr)->filtered) {
if (distance-- == 0) {
// clear current selection
for (size_t i = 0; i < selected.size (); ++i) {
selected[i]->selected = false;
redrawNeeded (selected[i]);
}
selected.clear ();
// make sure the newly selected thumbnail is visible and make it current
scrollToEntry (h, v, internal.get_width (), internal.get_height (), *curr);
lastClicked = *curr;
// either enlarge current selection or set new selection
if(enlarge) {
// reverse direction if distance is too large
if(front > back) {
std::swap(front, back);
}
for (; front <= back; ++front) {
if (!(*front)->filtered) {
(*front)->selected = true;
redrawNeeded (*front);
selected.push_back (*front);
}
}
} else {
(*curr)->selected = true;
redrawNeeded (*curr);
selected.push_back (*curr);
}
break;
}
}
}
}
#if PROTECT_VECTORS
MYWRITERLOCK_RELEASE(l);
#endif
selectionChanged ();
}
setScrollPosition (h, v);
}
void ThumbBrowserBase::selectFirst (bool enlarge)
{
double h, v;
getScrollPosition (h, v);
{
#if PROTECT_VECTORS
MYWRITERLOCK(l, entryRW);
#endif
if (!fd.empty ()) {
// find first unfiltered entry
std::vector::iterator first = fd.begin ();
for (; first < fd.end (); ++first) {
if (!(*first)->filtered) {
break;
}
}
scrollToEntry (h, v, internal.get_width (), internal.get_height (), *first);
ThumbBrowserEntryBase* lastEntry = lastClicked;
lastClicked = *first;
if(selected.empty ()) {
(*first)->selected = true;
redrawNeeded (*first);
selected.push_back (*first);
} else {
std::vector::iterator back = std::find (fd.begin (), fd.end (), lastEntry ? lastEntry : selected.back ());
if (first > back) {
std::swap(first, back);
}
// clear current selection
for (size_t i = 0; i < selected.size (); ++i) {
selected[i]->selected = false;
redrawNeeded (selected[i]);
}
selected.clear ();
// either enlarge current selection or set new selection
for (; first <= back; ++first) {
if (!(*first)->filtered) {
(*first)->selected = true;
redrawNeeded (*first);
selected.push_back (*first);
}
if (!enlarge) {
break;
}
}
}
}
#if PROTECT_VECTORS
MYWRITERLOCK_RELEASE(l);
#endif
selectionChanged ();
}
setScrollPosition (h, v);
}
void ThumbBrowserBase::selectLast (bool enlarge)
{
double h, v;
getScrollPosition (h, v);
{
#if PROTECT_VECTORS
MYWRITERLOCK(l, entryRW);
#endif
if (!fd.empty ()) {
// find last unfiltered entry
std::vector::iterator last = fd.end () - 1;
for (; last >= fd.begin (); --last) {
if (!(*last)->filtered) {
break;
}
}
scrollToEntry (h, v, internal.get_width (), internal.get_height (), *last);
ThumbBrowserEntryBase* lastEntry = lastClicked;
lastClicked = *last;
if(selected.empty()) {
(*last)->selected = true;
redrawNeeded (*last);
selected.push_back (*last);
} else {
std::vector::iterator front = std::find (fd.begin (), fd.end (), lastEntry ? lastEntry : selected.front ());
if (last < front) {
std::swap(last, front);
}
// clear current selection
for (size_t i = 0; i < selected.size (); ++i) {
selected[i]->selected = false;
redrawNeeded (selected[i]);
}
selected.clear ();
// either enlarge current selection or set new selection
for (; front <= last; --last) {
if (!(*last)->filtered) {
(*last)->selected = true;
redrawNeeded (*last);
selected.push_back (*last);
}
if (!enlarge) {
break;
}
}
std::reverse(selected.begin (), selected.end ());
}
}
#if PROTECT_VECTORS
MYWRITERLOCK_RELEASE(l);
#endif
selectionChanged ();
}
setScrollPosition (h, v);
}
void ThumbBrowserBase::resizeThumbnailArea (int w, int h)
{
inW = w;
inH = h;
if (hscroll.get_value() + internal.get_width() > inW) {
hscroll.set_value (inW - internal.get_width());
}
if (vscroll.get_value() + internal.get_height() > inH) {
vscroll.set_value (inH - internal.get_height());
}
configScrollBars ();
}
void ThumbBrowserBase::internalAreaResized (Gtk::Allocation& req)
{
if (inW > 0 && inH > 0) {
configScrollBars ();
redraw ();
}
}
void ThumbBrowserBase::configScrollBars ()
{
// HOMBRE:DELETE ME?
GThreadLock tLock; // Acquire the GUI
if (inW > 0 && inH > 0) {
int iw = internal.get_width ();
int ih = internal.get_height ();
hscroll.get_adjustment()->set_upper (inW);
vscroll.get_adjustment()->set_upper (inH);
hscroll.get_adjustment()->set_lower (0);
vscroll.get_adjustment()->set_lower (0);
hscroll.get_adjustment()->set_step_increment (32);
vscroll.get_adjustment()->set_step_increment (32);
hscroll.get_adjustment()->set_page_increment (iw);
vscroll.get_adjustment()->set_page_increment (ih);
hscroll.get_adjustment()->set_page_size (iw);
vscroll.get_adjustment()->set_page_size (ih);
if(iw >= inW) {
hscroll.hide();
} else {
hscroll.show();
}
if(ih >= inH) {
vscroll.hide();
} else {
vscroll.show();
}
}
}
void ThumbBrowserBase::arrangeFiles ()
{
#if PROTECT_VECTORS
MYREADERLOCK(l, entryRW);
#endif
// GUI already locked by ::redraw, the only caller of this method for now.
// We could lock it one more time, there's no harm excepted (negligible) speed penalty
//GThreadLock lock;
int N = fd.size ();
// apply filter
for (int i = 0; i < N; i++) {
fd[i]->filtered = !checkFilter (fd[i]);
}
int rowHeight = 0;
// compute size of the items
for (int i = 0; i < N; i++)
if (!fd[i]->filtered && fd[i]->getMinimalHeight() > rowHeight) {
rowHeight = fd[i]->getMinimalHeight ();
}
if (arrangement == TB_Horizontal) {
numOfCols = 1;
int numOfRows = 1;
// if (rowHeight>0) {
// numOfRows = (internal.get_height()+rowHeight/2)/rowHeight;
// if (numOfRows<1)
// numOfRows = 1;
// }
int ct = 0;
int currx = 0;
int curry = 0;
while (ct < N) {
// find widest item in the column
int maxw = 0;
for (int i = 0; ct + i < N && i < numOfRows; i++)
if (fd[ct + i]->getMinimalWidth() > maxw) {
maxw = fd[ct + i]->getMinimalWidth ();
}
// arrange items in the column
curry = 0;
for (int i = 0; ct < N && i < numOfRows; i++, ct++) {
while (ct < N && fd[ct]->filtered) {
fd[ct++]->drawable = false;
}
if (ct < N) {
fd[ct]->setPosition (currx, curry, maxw, rowHeight);
fd[ct]->drawable = true;
curry += rowHeight;
}
}
currx += maxw;
}
#if PROTECT_VECTORS
MYREADERLOCK_RELEASE(l);
#endif
// This will require a Writer access
resizeThumbnailArea (currx, numOfRows * rowHeight);
} else {
int availWidth = internal.get_width();
// initial number of columns
numOfCols = 0;
int colsWidth = 0;
for (int i = 0; i < N; i++)
if (!fd[i]->filtered && colsWidth + fd[i]->getMinimalWidth() <= availWidth) {
colsWidth += fd[numOfCols]->getMinimalWidth ();
numOfCols++;
}
if (numOfCols < 1) {
numOfCols = 1;
}
std::vector colWidths;
for (; numOfCols > 0; numOfCols--) {
// compute column widths
colWidths.resize (numOfCols);
for (int i = 0; i < numOfCols; i++) {
colWidths[i] = 0;
}
for (int i = 0, j = 0; i < N; i++) {
if (!fd[i]->filtered && fd[i]->getMinimalWidth() > colWidths[j % numOfCols]) {
colWidths[j % numOfCols] = fd[i]->getMinimalWidth ();
}
if (!fd[i]->filtered) {
j++;
}
}
// if not wider than the space available, arrange it and we are ready
colsWidth = 0;
for (int i = 0; i < numOfCols; i++) {
colsWidth += colWidths[i];
}
if (numOfCols == 1 || colsWidth < availWidth) {
break;
}
}
// arrange files
int ct = 0;
int currx = 0;
int curry = 0;
while (ct < N) {
// arrange items in the row
currx = 0;
for (int i = 0; ct < N && i < numOfCols; i++, ct++) {
while (ct < N && fd[ct]->filtered) {
fd[ct++]->drawable = false;
}
if (ct < N) {
fd[ct]->setPosition (currx, curry, colWidths[i % numOfCols], rowHeight);
fd[ct]->drawable = true;
currx += colWidths[i % numOfCols];
}
}
if (currx > 0) { // there were thumbnails placed in the row
curry += rowHeight;
}
}
#if PROTECT_VECTORS
MYREADERLOCK_RELEASE(l);
#endif
// This will require a Writer access
resizeThumbnailArea (colsWidth, curry);
}
}
void ThumbBrowserBase::disableInspector()
{
if (inspector) {
inspector->setActive(false);
}
}
void ThumbBrowserBase::enableInspector()
{
if (inspector) {
inspector->setActive(true);
}
}
void ThumbBrowserBase::Internal::on_realize()
{
// Gtk signals automatically acquire the GUI (i.e. this method is enclosed by gdk_thread_enter and gdk_thread_leave)
Cairo::FontOptions cfo;
cfo.set_antialias (Cairo::ANTIALIAS_SUBPIXEL);
get_pango_context()->set_cairo_font_options (cfo);
Gtk::DrawingArea::on_realize();
Glib::RefPtr window = get_window();
set_flags (Gtk::CAN_FOCUS);
add_events(Gdk::EXPOSURE_MASK | Gdk::BUTTON_PRESS_MASK | Gdk::BUTTON_RELEASE_MASK | Gdk::POINTER_MOTION_MASK | Gdk::SCROLL_MASK | Gdk::KEY_PRESS_MASK);
gc_ = Gdk::GC::create(window);
set_has_tooltip (true);
signal_query_tooltip().connect( sigc::mem_fun(*this, &ThumbBrowserBase::Internal::on_query_tooltip) );
}
bool ThumbBrowserBase::Internal::on_query_tooltip (int x, int y, bool keyboard_tooltip, const Glib::RefPtr& tooltip)
{
// Gtk signals automatically acquire the GUI (i.e. this method is enclosed by gdk_thread_enter and gdk_thread_leave)
Glib::ustring ttip = "";
{
#if PROTECT_VECTORS
MYREADERLOCK(l, parent->entryRW);
#endif
for (size_t i = 0; i < parent->fd.size(); i++)
if (parent->fd[i]->drawable && parent->fd[i]->inside (x, y)) {
ttip = parent->fd[i]->getToolTip (x, y);
break;
}
}
if (ttip != "") {
tooltip->set_markup (ttip);
return true;
} else {
return false;
}
}
void ThumbBrowserBase::on_style_changed (const Glib::RefPtr& style)
{
// GUI will be acquired by refreshThumbImages
refreshThumbImages ();
}
ThumbBrowserBase::Internal::Internal () : ofsX(0), ofsY(0), parent(NULL), dirty(true)
{
}
void ThumbBrowserBase::Internal::setParent (ThumbBrowserBase* p)
{
parent = p;
}
void ThumbBrowserBase::Internal::setPosition (int x, int y)
{
ofsX = x;
ofsY = y;
}
bool ThumbBrowserBase::Internal::on_key_press_event (GdkEventKey* event)
{
// Gtk signals automatically acquire the GUI (i.e. this method is enclosed by gdk_thread_enter and gdk_thread_leave)
return parent->keyPressed (event);
}
bool ThumbBrowserBase::Internal::on_button_press_event (GdkEventButton* event)
{
// Gtk signals automatically acquire the GUI (i.e. this method is enclosed by gdk_thread_enter and gdk_thread_leave)
grab_focus ();
parent->eventTime = event->time;
parent->buttonPressed ((int)event->x, (int)event->y, event->button, event->type, event->state, 0, 0, get_width(), get_height());
Glib::RefPtr window = get_window();
GdkRectangle rect;
rect.x = 0;
rect.y = 0;
window->get_size (rect.width, rect.height);
gdk_window_invalidate_rect (window->gobj(), &rect, true);
gdk_window_process_updates (window->gobj(), true);
return true;
}
void ThumbBrowserBase::buttonPressed (int x, int y, int button, GdkEventType type, int state, int clx, int cly, int clw, int clh)
{
// GUI already acquired
ThumbBrowserEntryBase* fileDescr = NULL;
bool handled = false;
{
#if PROTECT_VECTORS
MYREADERLOCK(l, entryRW);
#endif
for (size_t i = 0; i < fd.size(); i++)
if (fd[i]->drawable) {
if (fd[i]->inside (x, y) && fd[i]->insideWindow (clx, cly, clw, clh)) {
fileDescr = fd[i];
}
bool b = fd[i]->pressNotify (button, type, state, x, y);
handled = handled || b;
}
}
if (handled || (fileDescr && fileDescr->processing)) {
return;
}
{
#if PROTECT_VECTORS
MYWRITERLOCK(l, entryRW);
#endif
if (selected.size() == 1 && type == GDK_2BUTTON_PRESS && button == 1) {
doubleClicked (selected[0]);
} else if (button == 1 && type == GDK_BUTTON_PRESS) {
if (fileDescr && (state & GDK_SHIFT_MASK)) {
if (selected.empty()) {
selected.push_back (fileDescr);
fileDescr->selected = true;
lastClicked = fileDescr;
#if PROTECT_VECTORS
MYWRITERLOCK_RELEASE(l);
#endif
selectionChanged ();
} else {
// find the start and the end of the selection interval
size_t startx = fd.size() - 1;
if (lastClicked) {
for (; startx > 0; startx--)
if (fd[startx] == lastClicked) {
break;
}
} else {
for (; startx > 0; startx--)
if (fd[startx] == selected[0]) {
break;
}
}
size_t endx = 0;
for (; endx < fd.size(); endx++)
if (fd[endx] == fileDescr) {
break;
}
if (endx < startx) {
int tmp = endx;
endx = startx;
startx = tmp;
}
// clear current selection
for (size_t i = 0; i < selected.size(); i++) {
selected[i]->selected = false;
}
selected.clear ();
// select thumbnails in the interval
for (size_t i = startx; i <= endx; i++) {
if (!fd[i]->filtered) {
fd[i]->selected = true;
selected.push_back (fd[i]);
}
}
lastClicked = fileDescr;
#if PROTECT_VECTORS
MYWRITERLOCK_RELEASE(l);
#endif
selectionChanged ();
}
} else if (fileDescr && (state & GDK_CONTROL_MASK)) {
std::vector::iterator i = std::find (selected.begin(), selected.end(), fileDescr);
if (i != selected.end()) {
(*i)->selected = false;
selected.erase (i);
} else {
selected.push_back (fileDescr);
fileDescr->selected = true;
}
lastClicked = fileDescr;
#if PROTECT_VECTORS
MYWRITERLOCK_RELEASE(l);
#endif
selectionChanged ();
} else {
for (size_t i = 0; i < selected.size(); i++) {
selected[i]->selected = false;
}
selected.clear ();
if (fileDescr) {
selected.push_back (fileDescr);
fileDescr->selected = true;
}
lastClicked = fileDescr;
#if PROTECT_VECTORS
MYWRITERLOCK_RELEASE(l);
#endif
selectionChanged ();
}
} else if (fileDescr && button == 3 && type == GDK_BUTTON_PRESS) {
if (!fileDescr->selected) {
for (size_t i = 0; i < selected.size(); i++) {
selected[i]->selected = false;
}
selected.clear ();
fileDescr->selected = true;
selected.push_back (fileDescr);
lastClicked = fileDescr;
#if PROTECT_VECTORS
MYWRITERLOCK_RELEASE(l);
#endif
selectionChanged ();
}
#if PROTECT_VECTORS
MYWRITERLOCK_RELEASE(l);
#endif
rightClicked (fileDescr);
}
} // end of MYWRITERLOCK(l, entryRW);
}
bool ThumbBrowserBase::Internal::on_expose_event(GdkEventExpose* event)
{
// Gtk signals automatically acquire the GUI (i.e. this method is enclosed by gdk_thread_enter and gdk_thread_leave)
dirty = false;
Glib::RefPtr window = get_window();
int w = get_width();
int h = get_height();
window->clear();
// draw thumbnails
Glib::RefPtr context = get_pango_context ();
context->set_font_description (get_style()->get_font());
{
#if PROTECT_VECTORS
MYWRITERLOCK(l, parent->entryRW);
#endif
for (size_t i = 0; i < parent->fd.size() && !dirty; i++) { // if dirty meanwhile, cancel and wait for next redraw
if (!parent->fd[i]->drawable || !parent->fd[i]->insideWindow (0, 0, w, h)) {
parent->fd[i]->updatepriority = false;
} else {
parent->fd[i]->updatepriority = true;
parent->fd[i]->draw ();
}
}
}
return true;
}
bool ThumbBrowserBase::Internal::on_button_release_event (GdkEventButton* event)
{
// Gtk signals automatically acquire the GUI (i.e. this method is enclosed by gdk_thread_enter and gdk_thread_leave)
int w = get_width();
int h = get_height();
#if PROTECT_VECTORS
MYREADERLOCK(l, parent->entryRW);
#endif
for (size_t i = 0; i < parent->fd.size(); i++)
if (parent->fd[i]->drawable && parent->fd[i]->insideWindow (0, 0, w, h)) {
ThumbBrowserEntryBase* tbe = parent->fd[i];
#if PROTECT_VECTORS
MYREADERLOCK_RELEASE(l);
#endif
// This will require a Writer access...
tbe->releaseNotify (event->button, event->type, event->state, (int)event->x, (int)event->y);
#if PROTECT_VECTORS
MYREADERLOCK_ACQUIRE(l);
#endif
}
return true;
}
bool ThumbBrowserBase::Internal::on_motion_notify_event (GdkEventMotion* event)
{
// Gtk signals automatically acquire the GUI (i.e. this method is enclosed by gdk_thread_enter and gdk_thread_leave)
int w = get_width();
int h = get_height();
#if PROTECT_VECTORS
MYREADERLOCK(l, parent->entryRW);
#endif
for (size_t i = 0; i < parent->fd.size(); i++)
if (parent->fd[i]->drawable && parent->fd[i]->insideWindow (0, 0, w, h)) {
/*#if PROTECT_VECTORS
MYREADERLOCK_RELEASE(l); // motionNotify calls the queue, which locks
#endif*/
parent->fd[i]->motionNotify ((int)event->x, (int)event->y);
}
return true;
}
bool ThumbBrowserBase::Internal::on_scroll_event (GdkEventScroll* event)
{
// Gtk signals automatically acquire the GUI (i.e. this method is enclosed by gdk_thread_enter and gdk_thread_leave)
parent->scroll (event->direction);
return true;
}
void ThumbBrowserBase::redraw ()
{
GThreadLock lock;
arrangeFiles ();
queue_draw ();
}
void ThumbBrowserBase::zoomChanged (bool zoomIn)
{
int newHeight = 0;
int optThumbSize = getThumbnailHeight();
if (zoomIn)
for (size_t i = 0; i < options.thumbnailZoomRatios.size(); i++) {
newHeight = (int)(options.thumbnailZoomRatios[i] * getMaxThumbnailHeight());
if (newHeight > optThumbSize) {
break;
}
}
else
for (size_t i = options.thumbnailZoomRatios.size() - 1; i > 0; i--) {
newHeight = (int)(options.thumbnailZoomRatios[i] * getMaxThumbnailHeight());
if (newHeight < optThumbSize) {
break;
}
}
previewHeight = newHeight;
saveThumbnailHeight(newHeight);
{
#if PROTECT_VECTORS
MYWRITERLOCK(l, entryRW);
#endif
for (size_t i = 0; i < fd.size(); i++) {
fd[i]->resize (previewHeight);
}
}
redraw ();
#ifdef WIN32
gdk_window_process_updates (get_window()->gobj(), true);
#endif
}
void ThumbBrowserBase::refreshThumbImages ()
{
int previewHeight = getThumbnailHeight();
{
#if PROTECT_VECTORS
MYWRITERLOCK(l, entryRW);
#endif
for (size_t i = 0; i < fd.size(); i++) {
fd[i]->resize (previewHeight);
}
}
redraw ();
}
void ThumbBrowserBase::refreshQuickThumbImages ()
{
#if PROTECT_VECTORS
MYWRITERLOCK(l, entryRW);
#endif
for (size_t i = 0; i < fd.size(); ++i) {
fd[i]->refreshQuickThumbnailImage ();
}
}
void ThumbBrowserBase::refreshEditedState (const std::set& efiles)
{
editedFiles = efiles;
{
#if PROTECT_VECTORS
MYREADERLOCK(l, entryRW);
#endif
for (size_t i = 0; i < fd.size(); i++) {
fd[i]->framed = editedFiles.find (fd[i]->filename) != editedFiles.end();
}
}
queue_draw ();
}
void ThumbBrowserBase::setArrangement (Arrangement a)
{
arrangement = a;
redraw ();
}
void ThumbBrowserBase::enableTabMode(bool enable)
{
location = enable ? THLOC_EDITOR : THLOC_FILEBROWSER;
arrangement = enable ? ThumbBrowserBase::TB_Horizontal : ThumbBrowserBase::TB_Vertical;
if ((!options.sameThumbSize && (options.thumbSizeTab != options.thumbSize)) || (options.showFileNames || options.filmStripShowFileNames)) {
#if PROTECT_VECTORS
MYWRITERLOCK(l, entryRW);
#endif
for (size_t i = 0; i < fd.size(); i++) {
fd[i]->resize (getThumbnailHeight());
}
}
redraw ();
// Scroll to selected position if going into ribbon mode or back
// Tab mode is horizontal, file browser is vertical
{
#if PROTECT_VECTORS
MYREADERLOCK(l, entryRW);
#endif
if (!selected.empty()) {
if (enable) {
double h = selected[0]->getStartX();
#if PROTECT_VECTORS
MYREADERLOCK_RELEASE(l);
#endif
hscroll.set_value (min(h, hscroll.get_adjustment()->get_upper()));
} else {
double v = selected[0]->getStartY();
#if PROTECT_VECTORS
MYREADERLOCK_RELEASE(l);
#endif
vscroll.set_value (min(v, vscroll.get_adjustment()->get_upper()));
}
}
}
}
void ThumbBrowserBase::initEntry (ThumbBrowserEntryBase* entry)
{
entry->setOffset ((int)(hscroll.get_value()), (int)(vscroll.get_value()));
}
void ThumbBrowserBase::getScrollPosition (double& h, double& v)
{
h = hscroll.get_value ();
v = vscroll.get_value ();
}
void ThumbBrowserBase::setScrollPosition (double h, double v)
{
hscroll.set_value (h > hscroll.get_adjustment()->get_upper() ? hscroll.get_adjustment()->get_upper() : h);
vscroll.set_value (v > vscroll.get_adjustment()->get_upper() ? vscroll.get_adjustment()->get_upper() : v);
}
// needed for auto-height in single tab
int ThumbBrowserBase::getEffectiveHeight()
{
int h = hscroll.get_height() + 2; // have 2 pixels rounding error for scroll bars to appear
#if PROTECT_VECTORS
MYREADERLOCK(l, entryRW);
#endif
// Filtered items do not change in size, so take a non-filtered
for (size_t i = 0; i < fd.size(); i++)
if (!fd[i]->filtered) {
h += fd[i]->getEffectiveHeight();
break;
}
return h;
}
void ThumbBrowserBase::redrawNeeded (ThumbBrowserEntryBase* entry)
{
// HOMBRE:DELETE ME?
GThreadLock tLock; // Acquire the GUI
if (entry->insideWindow (0, 0, internal.get_width(), internal.get_height())) {
if (!internal.isDirty ()) {
internal.setDirty ();
internal.queue_draw ();
}
}
}