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rawTherapee/rtgui/resize.cc
Bezierr d86888e93f
Add resizing options "long edge" and "short edge" (#6263) 
Introduces "long edge" and "short edge" options to resize an image. The GUI is made such that the relevant spinboxes only appear for the selected option. Unrelated values (e.g. for box-mode) are not updated.
2021-06-05 07:37:09 +02:00

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/*
* This file is part of RawTherapee.
*
* Copyright (c) 2004-2010 Gabor Horvath <hgabor@rawtherapee.com>
*
* 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 <https://www.gnu.org/licenses/>.
*/
#include <iomanip>
#include "resize.h"
#include "eventmapper.h"
#include "guiutils.h"
#include "../rtengine/procparams.h"
using namespace rtengine;
using namespace rtengine::procparams;
Resize::Resize () : FoldableToolPanel(this, "resize", M("TP_RESIZE_LABEL"), false, true), maxw(100000), maxh(100000)
{
auto m = ProcEventMapper::getInstance();
EvResizeAllowUpscaling = m->newEvent(RESIZE, "HISTORY_MSG_RESIZE_ALLOWUPSCALING");
EvResizeLongedge = m->newEvent (RESIZE, "HISTORY_MSG_RESIZE_LONGEDGE");
EvResizeShortedge = m->newEvent (RESIZE, "HISTORY_MSG_RESIZE_SHORTEDGE");
cropw = 0;
croph = 0;
Gtk::Grid* combos = Gtk::manage (new Gtk::Grid());
combos->set_row_spacing(4);
appliesTo = Gtk::manage (new MyComboBoxText ());
appliesTo->append (M("TP_RESIZE_CROPPEDAREA"));
appliesTo->append (M("TP_RESIZE_FULLIMAGE"));
appliesTo->set_active (0);
appliesTo->set_hexpand();
appliesTo->set_halign(Gtk::ALIGN_FILL);
Gtk::Label *label = Gtk::manage (new Gtk::Label (M("TP_RESIZE_APPLIESTO"), Gtk::ALIGN_START));
combos->attach(*label, 0, 0, 1, 1);
combos->attach(*appliesTo, 1, 0, 1, 1);
// See Resize::methodChanged() when adding a new method.
method = Gtk::manage (new MyComboBoxText ());
method->append (M("TP_RESIZE_LANCZOS"));
method->append (M("TP_RESIZE_NEAREST"));
method->set_active (0);
method->set_hexpand();
method->set_halign(Gtk::ALIGN_FILL);
label = Gtk::manage (new Gtk::Label (M("TP_RESIZE_METHOD"), Gtk::ALIGN_START));
combos->attach(*label, 0, 1, 1, 1);
combos->attach(*method, 1, 1, 1, 1);
spec = Gtk::manage (new MyComboBoxText ());
spec->append (M("TP_RESIZE_SCALE"));
spec->append (M("TP_RESIZE_WIDTH"));
spec->append (M("TP_RESIZE_HEIGHT"));
spec->append (M("TP_RESIZE_FITBOX"));
spec->append (M("TP_RESIZE_LONG"));
spec->append (M("TP_RESIZE_SHORT"));
spec->set_active (0);
spec->set_hexpand();
spec->set_halign(Gtk::ALIGN_FILL);
label = Gtk::manage (new Gtk::Label (M("TP_RESIZE_SPECIFY"), Gtk::ALIGN_START));
combos->attach(*label, 0, 2, 1, 1);
combos->attach(*spec, 1, 2, 1, 1);
pack_start (*combos, Gtk::PACK_SHRINK, 4);
scale = new Adjuster (M("TP_RESIZE_SCALE"), 0.01, MAX_SCALE, 0.01, 1.);
scale->setAdjusterListener (this);
pack_start (*scale, Gtk::PACK_SHRINK, 4);
sizeBox = Gtk::manage (new Gtk::Box(Gtk::ORIENTATION_VERTICAL));
Gtk::Box* sbox = Gtk::manage (new Gtk::Box ());
Gtk::Box* wbox = Gtk::manage (new Gtk::Box ());
Gtk::Box* hbox = Gtk::manage (new Gtk::Box ());
Gtk::Box* ebox = Gtk::manage (new Gtk::Box ());
Gtk::Box* lebox = Gtk::manage (new Gtk::Box ());
Gtk::Box* sebox = Gtk::manage (new Gtk::Box ());
w = Gtk::manage (new MySpinButton ());
w->set_width_chars(5);
setExpandAlignProperties(w, false, false, Gtk::ALIGN_END, Gtk::ALIGN_CENTER);
h = Gtk::manage (new MySpinButton ());
h->set_width_chars(5);
setExpandAlignProperties(h, false, false, Gtk::ALIGN_END, Gtk::ALIGN_CENTER);
le = Gtk::manage (new MySpinButton ());
le->set_width_chars(5);
setExpandAlignProperties(le, false, false, Gtk::ALIGN_END, Gtk::ALIGN_CENTER);
se = Gtk::manage (new MySpinButton ());
se->set_width_chars(5);
setExpandAlignProperties(se, false, false, Gtk::ALIGN_END, Gtk::ALIGN_CENTER);
wbox->pack_start (*Gtk::manage (new Gtk::Label (M("TP_RESIZE_W"))), Gtk::PACK_SHRINK, 0);
wbox->pack_start (*w);
hbox->set_spacing(3);
hbox->pack_start (*Gtk::manage (new Gtk::Label (M("TP_RESIZE_H"))), Gtk::PACK_SHRINK, 0);
hbox->pack_start (*h);
lebox->set_spacing(3);
lebox->pack_start (*Gtk::manage (new Gtk::Label (M("TP_RESIZE_LE"))), Gtk::PACK_SHRINK, 0);
lebox->pack_start (*le);
sebox->set_spacing(3);
sebox->pack_start (*Gtk::manage (new Gtk::Label (M("TP_RESIZE_SE"))), Gtk::PACK_SHRINK, 0);
sebox->pack_start (*se);
sbox->set_spacing(4);
sbox->pack_start (*wbox);
sbox->pack_start (*hbox);
sbox->set_homogeneous();
ebox->set_spacing(4);
ebox->pack_start (*lebox);
ebox->pack_start (*sebox);
ebox->set_homogeneous();
sizeBox->pack_start (*sbox, Gtk::PACK_SHRINK, 0);
sizeBox->pack_start (*ebox, Gtk::PACK_SHRINK, 0);
sizeBox->show_all ();
sizeBox->reference ();
allowUpscaling = Gtk::manage(new Gtk::CheckButton(M("TP_RESIZE_ALLOW_UPSCALING")));
pack_start(*allowUpscaling);
allowUpscaling->signal_toggled().connect(sigc::mem_fun(*this, &Resize::allowUpscalingChanged));
w->set_digits (0);
w->set_increments (1, 100);
w->set_range (32, MAX_SCALE * maxw);
w->set_value (800); // Doesn't seem to have any effect (overwritten in Resize::read)
h->set_digits (0);
h->set_increments (1, 100);
h->set_range (32, MAX_SCALE * maxh);
h->set_value (600); // Doesn't seem to have any effect (overwritten in Resize::read)
le->set_digits (0);
le->set_increments (1, 100);
le->set_range (32, MAX_SCALE * maxw);
le->set_value (900);
se->set_digits (0);
se->set_increments (1, 100);
se->set_range (32, MAX_SCALE * maxh);
se->set_value (900);
wconn = w->signal_value_changed().connect ( sigc::mem_fun(*this, &Resize::entryWChanged), true);
hconn = h->signal_value_changed().connect ( sigc::mem_fun(*this, &Resize::entryHChanged), true);
leconn = le->signal_value_changed().connect ( sigc::mem_fun(*this, &Resize::entryLEChanged), true);
seconn = se->signal_value_changed().connect ( sigc::mem_fun(*this, &Resize::entrySEChanged), true);
aconn = appliesTo->signal_changed().connect ( sigc::mem_fun(*this, &Resize::appliesToChanged) );
method->signal_changed().connect ( sigc::mem_fun(*this, &Resize::methodChanged) );
sconn = spec->signal_changed().connect ( sigc::mem_fun(*this, &Resize::specChanged) );
packBox = Gtk::manage (new ToolParamBlock ());
pack_end (*packBox);
packBox->hide();
packBox->set_tooltip_markup (M("TP_PRSHARPENING_TOOLTIP"));
show_all();
}
Resize::~Resize ()
{
idle_register.destroy();
delete scale;
delete sizeBox;
}
void Resize::read (const ProcParams* pp, const ParamsEdited* pedited)
{
disableListener ();
aconn.block (true);
wconn.block (true);
hconn.block (true);
leconn.block (true);
seconn.block (true);
sconn.block (true);
scale->block(true);
scale->setValue (pp->resize.scale);
w->set_value (pp->resize.width);
h->set_value (pp->resize.height);
le->set_value (pp->resize.longedge);
se->set_value (pp->resize.shortedge);
setEnabled (pp->resize.enabled);
spec->set_active (pp->resize.dataspec);
allowUpscaling->set_active(pp->resize.allowUpscaling);
setDimensions(); // Sets Width/Height in the GUI according to value of Specify after loading a .pp3 profile (same behavior as if changed manually)
updateGUI();
appliesTo->set_active (0);
if (pp->resize.appliesTo == "Cropped area") {
appliesTo->set_active (0);
} else if (pp->resize.appliesTo == "Full image") {
appliesTo->set_active (1);
}
if (pp->resize.method == "Lanczos") {
method->set_active (0);
} else if (pp->resize.method == "Nearest") {
method->set_active (1);
} else {
method->set_active (0);
}
wDirty = false;
hDirty = false;
leDirty = false;
seDirty = false;
if (pedited) {
wDirty = pedited->resize.width;
hDirty = pedited->resize.height;
leDirty = pedited->resize.longedge;
seDirty = pedited->resize.shortedge;
scale->setEditedState (pedited->resize.scale ? Edited : UnEdited);
if (!pedited->resize.appliesTo) {
appliesTo->set_active (2);
}
if (!pedited->resize.method) {
method->set_active (3);
}
if (!pedited->resize.dataspec) {
spec->set_active (6);
}
allowUpscaling->set_inconsistent(!pedited->resize.allowUpscaling);
set_inconsistent (multiImage && !pedited->resize.enabled);
}
scale->block(false);
sconn.block (false);
wconn.block (false);
hconn.block (false);
leconn.block (false);
seconn.block (false);
aconn.block (false);
enableListener ();
}
void Resize::write (ProcParams* pp, ParamsEdited* pedited)
{
int dataSpec = spec->get_active_row_number();
pp->resize.scale = scale->getValue();
pp->resize.appliesTo = "Cropped area";
if (appliesTo->get_active_row_number() == 0) {
pp->resize.appliesTo = "Cropped area";
} else if (appliesTo->get_active_row_number() == 1) {
pp->resize.appliesTo = "Full image";
}
pp->resize.method = "Lanczos";
if (method->get_active_row_number() == 0) {
pp->resize.method = "Lanczos";
} else if (method->get_active_row_number() == 1) {
pp->resize.method = "Nearest";
}
pp->resize.dataspec = dataSpec;
pp->resize.width = w->get_value_as_int ();
pp->resize.height = h->get_value_as_int ();
pp->resize.longedge = le->get_value_as_int ();
pp->resize.shortedge = se->get_value_as_int ();
pp->resize.enabled = getEnabled ();
//printf(" L:%d H:%d\n", pp->resize.width, pp->resize.height);
pp->resize.allowUpscaling = allowUpscaling->get_active();
if (pedited) {
pedited->resize.enabled = !get_inconsistent();
pedited->resize.dataspec = dataSpec != 6;
pedited->resize.appliesTo = appliesTo->get_active_row_number() != 2;
pedited->resize.method = method->get_active_row_number() != 3;
if (pedited->resize.dataspec) {
pedited->resize.scale = scale->getEditedState ();
pedited->resize.width = wDirty;
pedited->resize.height = hDirty;
pedited->resize.longedge = leDirty;
pedited->resize.shortedge = seDirty;
} else {
pedited->resize.scale = false;
pedited->resize.width = false;
pedited->resize.height = false;
pedited->resize.longedge = false;
pedited->resize.shortedge = false;
}
pedited->resize.allowUpscaling = !allowUpscaling->get_inconsistent();
}
}
void Resize::setDefaults (const ProcParams* defParams, const ParamsEdited* pedited)
{
scale->setDefault (defParams->resize.scale);
if (pedited) {
scale->setDefaultEditedState (pedited->resize.scale ? Edited : UnEdited);
} else {
scale->setDefaultEditedState (Irrelevant);
}
}
void Resize::adjusterChanged(Adjuster* a, double newval)
{
if (!batchMode) {
wconn.block (true);
hconn.block (true);
h->set_value ((croph && appliesTo->get_active_row_number() == 0 ? croph : maxh) * a->getValue ());
w->set_value ((cropw && appliesTo->get_active_row_number() == 0 ? cropw : maxw) * a->getValue ());
wconn.block (false);
hconn.block (false);
}
if (listener && (getEnabled () || batchMode)) {
listener->panelChanged (EvResizeScale, Glib::ustring::format (std::setw(5), std::fixed, std::setprecision(2), scale->getValue()));
}
}
int Resize::getComputedWidth(double height)
{
if (cropw && appliesTo->get_active_row_number() == 0)
// we use the crop dimensions
{
return (int)((double)(cropw) * (height / (double)(croph)) + 0.5);
} else
// we use the image dimensions
{
return (int)((double)(maxw) * (height / (double)(maxh)) + 0.5);
}
}
int Resize::getComputedHeight(double width)
{
if (croph && appliesTo->get_active_row_number() == 0)
// we use the crop dimensions
{
return (int)((double)(croph) * (width / (double)(cropw)) + 0.5);
} else
// we use the image dimensions
{
return (int)((double)(maxh) * (width / (double)(maxw)) + 0.5);
}
}
void Resize::appliesToChanged ()
{
//printf("\nPASSAGE EN MODE \"%s\"\n\n", appliesTo->get_active_text().c_str());
setDimensions();
if (listener && (getEnabled () || batchMode)) {
//printf("Appel du listener\n");
listener->panelChanged (EvResizeAppliesTo, appliesTo->get_active_text());
}
}
void Resize::methodChanged ()
{
if (listener && (getEnabled () || batchMode)) {
listener->panelChanged (EvResizeMethod, method->get_active_text());
}
// Post-resize Sharpening assumes the image is in Lab space, and currently Lanczos is the only method which uses that space, and Lanczos is on row 0.
if (method->get_active_row_number() == 0) {
packBox->set_sensitive(true);
} else {
packBox->set_sensitive(false);
}
}
void Resize::update (bool isCropped, int cw, int ch, int ow, int oh)
{
// updating crop values now
if (isCropped) {
cropw = cw;
croph = ch;
} else {
cropw = 0;
croph = 0;
}
// updating the full image dimensions
if (ow && oh) {
maxw = ow;
maxh = oh;
}
// updating the GUI synchronously
setDimensions();
}
void Resize::sizeChanged(int mw, int mh, int ow, int oh)
{
// updating max values now
maxw = ow;
maxh = oh;
// updating the GUI synchronously
setDimensions();
}
void Resize::setDimensions ()
{
idle_register.add(
[this]() -> bool
{
wconn.block(true);
hconn.block(true);
leconn.block(true);
seconn.block(true);
scale->block(true);
int refw, refh;
if (appliesTo->get_active_row_number() == 0 && cropw) {
// Applies to Cropped area
refw = cropw;
refh = croph;
} else {
// Applies to Full image or crop is disabled
refw = maxw;
refh = maxh;
}
w->set_range(32, MAX_SCALE * refw);
h->set_range(32, MAX_SCALE * refh);
switch (spec->get_active_row_number()) {
case 0: {
// Scale mode
w->set_value(static_cast<double>(static_cast<int>(static_cast<double>(refw) * scale->getValue() + 0.5)));
h->set_value(static_cast<double>(static_cast<int>(static_cast<double>(refh) * scale->getValue() + 0.5)));
break;
}
case 1: {
// Width mode
const double tmp_scale = w->get_value() / static_cast<double>(refw);
scale->setValue(tmp_scale);
h->set_value(static_cast<double>(static_cast<int>(static_cast<double>(refh) * tmp_scale + 0.5)));
break;
}
case 2: {
// Height mode
const double tmp_scale = h->get_value() / static_cast<double>(refh);
scale->setValue(tmp_scale);
w->set_value(static_cast<double>(static_cast<int>(static_cast<double>(refw) * tmp_scale + 0.5)));
break;
}
case 3: {
// Bounding box mode
const double tmp_scale =
w->get_value() / h->get_value() < static_cast<double>(refw) / static_cast<double>(refh)
? w->get_value() / static_cast<double>(refw)
: h->get_value() / static_cast<double>(refh);
scale->setValue(tmp_scale);
break;
}
case 4: {
// Long edge mode
if (refw > refh) {
const double tmp_scale = le->get_value() / static_cast<double>(refw);
scale->setValue(tmp_scale);
se->set_value(static_cast<double>(static_cast<int>(static_cast<double>(refh) * tmp_scale + 0.5)));
} else {
const double tmp_scale = le->get_value() / static_cast<double>(refh);
scale->setValue(tmp_scale);
se->set_value(static_cast<double>(static_cast<int>(static_cast<double>(refw) * tmp_scale + 0.5)));
}
break;
}
case 5: {
// Short edge mode
if (refw > refh) {
const double tmp_scale = se->get_value() / static_cast<double>(refh);
scale->setValue(tmp_scale);
le->set_value(static_cast<double>(static_cast<int>(static_cast<double>(refw) * tmp_scale + 0.5)));
} else {
const double tmp_scale = se->get_value() / static_cast<double>(refw);
scale->setValue(tmp_scale);
le->set_value(static_cast<double>(static_cast<int>(static_cast<double>(refh) * tmp_scale + 0.5)));
}
break;
}
default: {
break;
}
}
scale->block(false);
wconn.block(false);
hconn.block(false);
leconn.block(false);
seconn.block(false);
return false;
}
);
}
void Resize::fitBoxScale()
{
double tmpScale;
double neww = w->get_value ();
double newh = h->get_value ();
if (cropw && appliesTo->get_active_row_number() == 0) {
// we use the crop dimensions
if (((double)(cropw) / (double)(croph)) > (neww / newh)) {
// the new scale is given by the image width
tmpScale = neww / (double)(cropw);
} else {
// the new scale is given by the image height
tmpScale = newh / (double)(croph);
}
} else {
// we use the image dimensions
if (((double)(maxw) / (double)(maxh)) > (neww / newh)) {
// the new scale is given by the image width
tmpScale = neww / (double)(maxw);
} else {
// the new scale is given by the image height
tmpScale = newh / (double)(maxh);
}
}
scale->setValue (tmpScale);
}
void Resize::entryWChanged ()
{
wDirty = true;
// updating width
if (!batchMode) {
if (spec->get_active_row_number() == 3) {
// Fit box mode
fitBoxScale();
} else {
// Other modes
hconn.block (true);
scale->block (true);
h->set_value ((double)(getComputedHeight(w->get_value())));
scale->setValue (w->get_value () / (cropw && appliesTo->get_active_row_number() == 0 ? (double)cropw : (double)maxw));
scale->block (false);
hconn.block (false);
}
}
if (listener) {
if (spec->get_active_row_number() == 3) {
notifyBBox();
} else {
if (getEnabled () || batchMode) {
listener->panelChanged (EvResizeWidth, Glib::ustring::format (w->get_value_as_int()));
}
}
}
}
void Resize::entryHChanged ()
{
hDirty = true;
if (!batchMode && listener) {
if (spec->get_active_row_number() == 3) {
// Fit box mode
fitBoxScale();
} else {
// Other modes
wconn.block (true);
scale->block (true);
w->set_value ((double)(getComputedWidth(h->get_value())));
scale->setValue (h->get_value () / (croph && appliesTo->get_active_row_number() == 0 ? (double)croph : (double)maxh));
scale->block (false);
wconn.block (false);
}
}
if (listener) {
if (spec->get_active_row_number() == 3) {
notifyBBox();
} else {
if (getEnabled () || batchMode) {
listener->panelChanged (EvResizeHeight, Glib::ustring::format (h->get_value_as_int()));
}
}
}
}
void Resize::entryLEChanged ()
{
leDirty = true;
// updating long edge
if (!batchMode && listener) {
int refw, refh;
seconn.block (true);
scale->block (true);
if (cropw && appliesTo->get_active_row_number() == 0) {
// we use the crop dimensions
refw = cropw;
refh = croph;
} else {
// we use the image dimensions
refw = maxw;
refh = maxh;
}
if (refw > refh) {
se->set_value ((double) (getComputedHeight(le->get_value())));
scale->setValue (le->get_value () / (cropw && appliesTo->get_active_row_number() == 0 ? (double)cropw : (double)maxw));
} else {
se->set_value ((double)(getComputedWidth(le->get_value())));
scale->setValue (le->get_value () / (croph && appliesTo->get_active_row_number() == 0 ? (double)croph : (double)maxh));
}
scale->block (false);
seconn.block (false);
}
if (listener) {
if (getEnabled () || batchMode) {
listener->panelChanged (EvResizeLongedge, Glib::ustring::format (le->get_value_as_int()));
}
}
}
void Resize::entrySEChanged ()
{
seDirty = true;
// updating short edge
if (!batchMode && listener) {
int refw, refh;
leconn.block (true);
scale->block (true);
if (cropw && appliesTo->get_active_row_number() == 0) {
// we use the crop dimensions
refw = cropw;
refh = croph;
} else {
// we use the image dimensions
refw = maxw;
refh = maxh;
}
if (refw > refh) {
le->set_value ((double)(getComputedWidth(se->get_value())));
scale->setValue (se->get_value () / (croph && appliesTo->get_active_row_number() == 0 ? (double)croph : (double)maxh));
} else {
le->set_value ((double)(getComputedHeight(se->get_value())));
scale->setValue (se->get_value () / (cropw && appliesTo->get_active_row_number() == 0 ? (double)cropw : (double)maxw));
}
scale->block (false);
leconn.block (false);
}
if (listener) {
if (getEnabled () || batchMode) {
listener->panelChanged (EvResizeShortedge, Glib::ustring::format (se->get_value_as_int()));
}
}
}
void Resize::specChanged ()
{
switch (spec->get_active_row_number()) {
case (0):
// Scale mode
scale->sliderChanged();
break;
case (1):
// Width mode
w->set_value((double)(getComputedWidth(h->get_value())));
entryWChanged();
break;
case (2):
// Height mode
h->set_value((double)(getComputedHeight(w->get_value())));
entryHChanged();
break;
case (3):
// Bounding box mode
notifyBBox();
break;
case (4):
// Long edge mode
entryLEChanged();
break;
case (5):
// Short edge mode
entrySEChanged();
break;
default:
break;
}
updateGUI();
}
void Resize::updateGUI ()
{
removeIfThere (this, scale, false);
removeIfThere (this, sizeBox, false);
switch (spec->get_active_row_number()) {
case (0):
// Scale mode
pack_start (*scale, Gtk::PACK_SHRINK, 4);
reorder_child(*allowUpscaling, 4);
break;
case (1):
// Width mode
pack_start (*sizeBox, Gtk::PACK_SHRINK, 4);
reorder_child(*allowUpscaling, 4);
w->set_sensitive (true);
h->set_sensitive (false);
w->get_parent()->get_parent()->show();
le->get_parent()->get_parent()->hide();
break;
case (2):
// Height mode
pack_start (*sizeBox, Gtk::PACK_SHRINK, 4);
reorder_child(*allowUpscaling, 4);
w->set_sensitive (false);
h->set_sensitive (true);
w->get_parent()->get_parent()->show();
le->get_parent()->get_parent()->hide();
break;
case (3):
// Bounding box mode
pack_start (*sizeBox, Gtk::PACK_SHRINK, 4);
reorder_child(*allowUpscaling, 4);
w->set_sensitive (true);
h->set_sensitive (true);
w->get_parent()->get_parent()->show();
le->get_parent()->get_parent()->hide();
break;
case (4):
// Long edge mode
pack_start (*sizeBox, Gtk::PACK_SHRINK, 4);
reorder_child(*allowUpscaling, 4);
le->set_sensitive (true);
se->set_sensitive (false);
w->get_parent()->get_parent()->hide();
le->get_parent()->get_parent()->show();
break;
case (5):
// Short edge mode
pack_start (*sizeBox, Gtk::PACK_SHRINK, 4);
reorder_child(*allowUpscaling, 4);
le->set_sensitive (false);
se->set_sensitive (true);
w->get_parent()->get_parent()->hide();
le->get_parent()->get_parent()->show();
break;
default:
break;
}
}
void Resize::notifyBBox()
{
if (listener && (getEnabled () || batchMode)) {
listener->panelChanged (EvResizeBoundingBox, Glib::ustring::compose("(%1x%2)", (int)w->get_value(), (int)h->get_value() ));
}
}
void Resize::setBatchMode (bool batchMode)
{
method->append (M("GENERAL_UNCHANGED"));
spec->append (M("GENERAL_UNCHANGED"));
ToolPanel::setBatchMode (batchMode);
scale->showEditedCB ();
}
void Resize::enabledChanged ()
{
if (listener) {
if (get_inconsistent()) {
listener->panelChanged (EvResizeEnabled, M("GENERAL_UNCHANGED"));
} else if (getEnabled()) {
listener->panelChanged (EvResizeEnabled, M("GENERAL_ENABLED"));
} else {
listener->panelChanged (EvResizeEnabled, M("GENERAL_DISABLED"));
}
}
}
void Resize::allowUpscalingChanged()
{
if (listener) {
if (allowUpscaling->get_inconsistent()) {
listener->panelChanged(EvResizeAllowUpscaling, M("GENERAL_UNCHANGED"));
} else if (allowUpscaling->get_active()) {
listener->panelChanged(EvResizeAllowUpscaling, M("GENERAL_ENABLED"));
} else {
listener->panelChanged(EvResizeAllowUpscaling, M("GENERAL_DISABLED"));
}
}
}
void Resize::setAdjusterBehavior (bool scaleadd)
{
scale->setAddMode(scaleadd);
}
void Resize::trimValues (rtengine::procparams::ProcParams* pp)
{
scale->trimValue(pp->resize.scale);
}
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