tiledialog.cpp revision b6534ae963bb0f40d95b848aa2d12109969c71aa
/*
* A simple dialog for creating grid type arrangements of selected objects
*
* Authors:
* Bob Jamison ( based off trace dialog)
* John Cliff
* Other dudes from The Inkscape Organization
*
* Copyright (C) 2004 Bob Jamison
* Copyright (C) 2004 John Cliff
*
* Released under GNU GPL, read the file 'COPYING' for more information
*/
//#define DEBUG_GRID_ARRANGE 1
#ifdef HAVE_CONFIG_H
# include <config.h>
#endif
#include <gtk/gtkdialog.h> //for GTK_RESPONSE* types
#include <gtk/gtksizegroup.h>
#include <glibmm/i18n.h>
#include <gtkmm/stock.h>
#include "verbs.h"
#include "prefs-utils.h"
#include "inkscape.h"
#include "desktop-handles.h"
#include "selection.h"
#include "document.h"
#include "sp-item.h"
#include "widgets/icon.h"
#include "tiledialog.h"
/*
* Sort items by their x co-ordinates, taking account of y (keeps rows intact)
*
* <0 *elem1 goes before *elem2
* 0 *elem1 == *elem2
* >0 *elem1 goes after *elem2
*/
int
sp_compare_x_position(SPItem *first, SPItem *second)
{
using Geom::X;
using Geom::Y;
boost::optional<Geom::Rect> a = to_2geom(first->getBounds(sp_item_i2doc_affine(first)));
boost::optional<Geom::Rect> b = to_2geom(second->getBounds(sp_item_i2doc_affine(second)));
if ( !a || !b ) {
// FIXME?
return 0;
}
double const a_height = a->dimensions()[Y];
double const b_height = b->dimensions()[Y];
bool a_in_b_vert = false;
if ((a->min()[Y] < b->min()[Y] + 0.1) && (a->min()[Y] > b->min()[Y] - b_height)) {
a_in_b_vert = true;
} else if ((b->min()[Y] < a->min()[Y] + 0.1) && (b->min()[Y] > a->min()[Y] - a_height)) {
a_in_b_vert = true;
} else if (b->min()[Y] == a->min()[Y]) {
a_in_b_vert = true;
} else {
a_in_b_vert = false;
}
if (!a_in_b_vert) {
return -1;
}
if (a_in_b_vert && a->min()[X] > b->min()[X]) {
return 1;
}
if (a_in_b_vert && a->min()[X] < b->min()[X]) {
return -1;
}
return 0;
}
/*
* Sort items by their y co-ordinates.
*/
int
sp_compare_y_position(SPItem *first, SPItem *second)
{
boost::optional<Geom::Rect> a = to_2geom(first->getBounds(sp_item_i2doc_affine(first)));
boost::optional<Geom::Rect> b = to_2geom(second->getBounds(sp_item_i2doc_affine(second)));
if ( !a || !b ) {
// FIXME?
return 0;
}
if (a->min()[Geom::Y] > b->min()[Geom::Y]) {
return 1;
}
if (a->min()[Geom::Y] < b->min()[Geom::Y]) {
return -1;
}
return 0;
}
namespace Inkscape {
namespace UI {
namespace Dialog {
//#########################################################################
//## E V E N T S
//#########################################################################
/*
*
* This arranges the selection in a grid pattern.
*
*/
void TileDialog::Grid_Arrange ()
{
int cnt,row_cnt,col_cnt,a,row,col;
double grid_left,grid_top,col_width,row_height,paddingx,paddingy,width, height, new_x, new_y,cx,cy;
double total_col_width,total_row_height;
col_width = 0;
row_height = 0;
total_col_width=0;
total_row_height=0;
// check for correct numbers in the row- and col-spinners
on_col_spinbutton_changed();
on_row_spinbutton_changed();
// set padding to manual values
paddingx = XPadSpinner.get_value();
paddingy = YPadSpinner.get_value();
std::vector<double> row_heights;
std::vector<double> col_widths;
std::vector<double> row_ys;
std::vector<double> col_xs;
int NoOfCols = NoOfColsSpinner.get_value_as_int();
int NoOfRows = NoOfRowsSpinner.get_value_as_int();
width = 0;
for (a=0;a<NoOfCols; a++){
col_widths.push_back(width);
}
height = 0;
for (a=0;a<NoOfRows; a++){
row_heights.push_back(height);
}
grid_left = 99999;
grid_top = 99999;
SPDesktop *desktop = getDesktop();
sp_document_ensure_up_to_date(sp_desktop_document(desktop));
Inkscape::Selection *selection = sp_desktop_selection (desktop);
const GSList *items = selection->itemList();
cnt=0;
for (; items != NULL; items = items->next) {
SPItem *item = SP_ITEM(items->data);
boost::optional<Geom::Rect> b = to_2geom(item->getBounds(sp_item_i2doc_affine(item)));
if (!b) {
continue;
}
width = b->dimensions()[Geom::X];
height = b->dimensions()[Geom::Y];
cx = b->midpoint()[Geom::X];
cy = b->midpoint()[Geom::Y];
if (b->min()[Geom::X] < grid_left) {
grid_left = b->min()[Geom::X];
}
if (b->min()[Geom::Y] < grid_top) {
grid_top = b->min()[Geom::Y];
}
if (width > col_width) {
col_width = width;
}
if (height > row_height) {
row_height = height;
}
}
// require the sorting done before we can calculate row heights etc.
const GSList *items2 = selection->itemList();
GSList *rev = g_slist_copy((GSList *) items2);
GSList *sorted = NULL;
rev = g_slist_sort(rev, (GCompareFunc) sp_compare_y_position);
sorted = g_slist_sort(rev, (GCompareFunc) sp_compare_x_position);
// Calculate individual Row and Column sizes if necessary
cnt=0;
const GSList *sizes = sorted;
for (; sizes != NULL; sizes = sizes->next) {
SPItem *item = SP_ITEM(sizes->data);
boost::optional<Geom::Rect> b = to_2geom(item->getBounds(sp_item_i2doc_affine(item)));
if (b) {
width = b->dimensions()[Geom::X];
height = b->dimensions()[Geom::Y];
if (width > col_widths[(cnt % NoOfCols)]) {
col_widths[(cnt % NoOfCols)] = width;
}
if (height > row_heights[(cnt / NoOfCols)]) {
row_heights[(cnt / NoOfCols)] = height;
}
}
cnt++;
}
/// Make sure the top and left of the grid dont move by compensating for align values.
if (RowHeightButton.get_active()){
grid_top = grid_top - (((row_height - row_heights[0]) / 2)*(VertAlign));
}
if (ColumnWidthButton.get_active()){
grid_left = grid_left - (((col_width - col_widths[0]) /2)*(HorizAlign));
}
#ifdef DEBUG_GRID_ARRANGE
g_print("\n cx = %f cy= %f gridleft=%f",cx,cy,grid_left);
#endif
// Calculate total widths and heights, allowing for columns and rows non uniformly sized.
if (ColumnWidthButton.get_active()){
total_col_width = col_width * NoOfCols;
col_widths.clear();
for (a=0;a<NoOfCols; a++){
col_widths.push_back(col_width);
}
} else {
for (a = 0; a < (int)col_widths.size(); a++)
{
total_col_width += col_widths[a] ;
}
}
if (RowHeightButton.get_active()){
total_row_height = row_height * NoOfRows;
row_heights.clear();
for (a=0;a<NoOfRows; a++){
row_heights.push_back(row_height);
}
} else {
for (a = 0; a < (int)row_heights.size(); a++)
{
total_row_height += row_heights[a] ;
}
}
boost::optional<Geom::Rect> sel_bbox = to_2geom(selection->bounds());
// Fit to bbox, calculate padding between rows accordingly.
if ( sel_bbox && !SpaceManualRadioButton.get_active() ){
#ifdef DEBUG_GRID_ARRANGE
g_print("\n row = %f col = %f selection x= %f selection y = %f", total_row_height,total_col_width, b.extent(Geom::X), b.extent(Geom::Y));
#endif
paddingx = (sel_bbox->width() - total_col_width) / (NoOfCols -1);
paddingy = (sel_bbox->height() - total_row_height) / (NoOfRows -1);
}
/*
Horizontal align - Left = 0
Centre = 1
Right = 2
Vertical align - Top = 0
Middle = 1
Bottom = 2
X position is calculated by taking the grids left co-ord, adding the distance to the column,
then adding 1/2 the spacing multiplied by the align variable above,
Y position likewise, takes the top of the grid, adds the y to the current row then adds the padding in to align it.
*/
// Calculate row and column x and y coords required to allow for columns and rows which are non uniformly sized.
for (a=0;a<NoOfCols; a++){
if (a<1) col_xs.push_back(0);
else col_xs.push_back(col_widths[a-1]+paddingx+col_xs[a-1]);
}
for (a=0;a<NoOfRows; a++){
if (a<1) row_ys.push_back(0);
else row_ys.push_back(row_heights[a-1]+paddingy+row_ys[a-1]);
}
cnt=0;
for (row_cnt=0; ((sorted != NULL) && (row_cnt<NoOfRows)); row_cnt++) {
GSList *current_row = NULL;
for (col_cnt = 0; ((sorted != NULL) && (col_cnt<NoOfCols)); col_cnt++) {
current_row = g_slist_append (current_row, sorted->data);
sorted = sorted->next;
}
for (; current_row != NULL; current_row = current_row->next) {
SPItem *item=SP_ITEM(current_row->data);
Inkscape::XML::Node *repr = SP_OBJECT_REPR(item);
boost::optional<Geom::Rect> b = to_2geom(item->getBounds(sp_item_i2doc_affine(item)));
Geom::Point min;
if (b) {
width = b->dimensions()[Geom::X];
height = b->dimensions()[Geom::Y];
min = b->min();
} else {
width = height = 0;
min = Geom::Point(0, 0);
}
row = cnt / NoOfCols;
col = cnt % NoOfCols;
new_x = grid_left + (((col_widths[col] - width)/2)*HorizAlign) + col_xs[col];
new_y = grid_top + (((row_heights[row] - height)/2)*VertAlign) + row_ys[row];
// signs are inverted between x and y due to y inversion
Geom::Point move = Geom::Point(new_x - min[Geom::X], min[Geom::Y] - new_y);
Geom::Matrix const affine = Geom::Matrix(Geom::Translate(move));
sp_item_set_i2d_affine(item, sp_item_i2d_affine(item) * affine);
sp_item_write_transform(item, repr, item->transform, NULL);
SP_OBJECT (current_row->data)->updateRepr();
cnt +=1;
}
g_slist_free (current_row);
}
NRRect b;
selection->bounds(&b);
sp_document_done (sp_desktop_document (desktop), SP_VERB_SELECTION_GRIDTILE,
_("Arrange in a grid"));
}
//#########################################################################
//## E V E N T S
//#########################################################################
void TileDialog::_apply()
{
Grid_Arrange();
}
/**
* changed value in # of columns spinbox.
*/
void TileDialog::on_row_spinbutton_changed()
{
// quit if run by the attr_changed listener
if (updating) {
return;
}
// in turn, prevent listener from responding
updating = true;
SPDesktop *desktop = getDesktop();
Inkscape::Selection *selection = sp_desktop_selection (desktop);
GSList const *items = selection->itemList();
int selcount = g_slist_length((GSList *)items);
double PerCol = ceil(selcount / NoOfColsSpinner.get_value());
NoOfRowsSpinner.set_value(PerCol);
prefs_set_double_attribute ("dialogs.gridtiler", "NoOfCols", NoOfColsSpinner.get_value());
updating=false;
}
/**
* changed value in # of rows spinbox.
*/
void TileDialog::on_col_spinbutton_changed()
{
// quit if run by the attr_changed listener
if (updating) {
return;
}
// in turn, prevent listener from responding
updating = true;
SPDesktop *desktop = getDesktop();
Inkscape::Selection *selection = sp_desktop_selection (desktop);
GSList const *items = selection->itemList();
int selcount = g_slist_length((GSList *)items);
double PerRow = ceil(selcount / NoOfRowsSpinner.get_value());
NoOfColsSpinner.set_value(PerRow);
prefs_set_double_attribute ("dialogs.gridtiler", "NoOfCols", PerRow);
updating=false;
}
/**
* changed value in x padding spinbox.
*/
void TileDialog::on_xpad_spinbutton_changed()
{
prefs_set_double_attribute ("dialogs.gridtiler", "XPad", XPadSpinner.get_value());
}
/**
* changed value in y padding spinbox.
*/
void TileDialog::on_ypad_spinbutton_changed()
{
prefs_set_double_attribute ("dialogs.gridtiler", "YPad", YPadSpinner.get_value());
}
/**
* checked/unchecked autosize Rows button.
*/
void TileDialog::on_RowSize_checkbutton_changed()
{
if (RowHeightButton.get_active()) {
prefs_set_double_attribute ("dialogs.gridtiler", "AutoRowSize", 20);
} else {
prefs_set_double_attribute ("dialogs.gridtiler", "AutoRowSize", -20);
}
RowHeightBox.set_sensitive ( !RowHeightButton.get_active());
}
/**
* checked/unchecked autosize Rows button.
*/
void TileDialog::on_ColSize_checkbutton_changed()
{
if (ColumnWidthButton.get_active()) {
prefs_set_double_attribute ("dialogs.gridtiler", "AutoColSize", 20);
} else {
prefs_set_double_attribute ("dialogs.gridtiler", "AutoColSize", -20);
}
ColumnWidthBox.set_sensitive ( !ColumnWidthButton.get_active());
}
/**
* changed value in columns spinbox.
*/
void TileDialog::on_rowSize_spinbutton_changed()
{
// quit if run by the attr_changed listener
if (updating) {
return;
}
// in turn, prevent listener from responding
updating = true;
prefs_set_double_attribute ("dialogs.gridtiler", "RowHeight", RowHeightSpinner.get_value());
updating=false;
}
/**
* changed value in rows spinbox.
*/
void TileDialog::on_colSize_spinbutton_changed()
{
// quit if run by the attr_changed listener
if (updating) {
return;
}
// in turn, prevent listener from responding
updating = true;
prefs_set_double_attribute ("dialogs.gridtiler", "ColWidth", ColumnWidthSpinner.get_value());
updating=false;
}
/**
* changed Radio button in Spacing group.
*/
void TileDialog::Spacing_button_changed()
{
if (SpaceManualRadioButton.get_active()) {
prefs_set_double_attribute ("dialogs.gridtiler", "SpacingType", 20);
} else {
prefs_set_double_attribute ("dialogs.gridtiler", "SpacingType", -20);
}
SizesHBox.set_sensitive ( SpaceManualRadioButton.get_active());
}
/**
* changed Radio button in Vertical Align group.
*/
void TileDialog::VertAlign_changed()
{
if (VertTopRadioButton.get_active()) {
VertAlign = 0;
prefs_set_double_attribute ("dialogs.gridtiler", "VertAlign", 0);
} else if (VertCentreRadioButton.get_active()){
VertAlign = 1;
prefs_set_double_attribute ("dialogs.gridtiler", "VertAlign", 1);
} else if (VertBotRadioButton.get_active()){
VertAlign = 2;
prefs_set_double_attribute ("dialogs.gridtiler", "VertAlign", 2);
}
}
/**
* changed Radio button in Vertical Align group.
*/
void TileDialog::HorizAlign_changed()
{
if (HorizLeftRadioButton.get_active()) {
HorizAlign = 0;
prefs_set_double_attribute ("dialogs.gridtiler", "HorizAlign", 0);
} else if (HorizCentreRadioButton.get_active()){
HorizAlign = 1;
prefs_set_double_attribute ("dialogs.gridtiler", "HorizAlign", 1);
} else if (HorizRightRadioButton.get_active()){
HorizAlign = 2;
prefs_set_double_attribute ("dialogs.gridtiler", "HorizAlign", 2);
}
}
/**
* Desktop selection changed
*/
void TileDialog::updateSelection()
{
double col_width, row_height;
// quit if run by the attr_changed listener
if (updating) {
return;
}
col_width=0;
row_height=0;
// in turn, prevent listener from responding
updating = true;
SPDesktop *desktop = getDesktop();
Inkscape::Selection *selection = sp_desktop_selection (desktop);
const GSList *items = selection->itemList();
int selcount = g_slist_length((GSList *)items);
if (NoOfColsSpinner.get_value()>1){
// Update the number of rows assuming number of columns wanted remains same.
double NoOfRows = ceil(selcount / NoOfColsSpinner.get_value());
NoOfRowsSpinner.set_value(NoOfRows);
// if the selection has less than the number set for one row, reduce it appropriately
if (selcount<NoOfColsSpinner.get_value()) {
double NoOfCols = ceil(selcount / NoOfRowsSpinner.get_value());
NoOfColsSpinner.set_value(NoOfCols);
prefs_set_double_attribute ("dialogs.gridtiler", "NoOfCols", NoOfCols);
}
} else {
NoOfColsSpinner.set_value(selcount);
prefs_set_double_attribute ("dialogs.gridtiler", "NoOfCols", selcount);
}
updating=false;
}
/*##########################
## Experimental
##########################*/
static void updateSelectionCallback(Inkscape::Application */*inkscape*/, Inkscape::Selection */*selection*/, TileDialog *dlg)
{
TileDialog *tledlg = (TileDialog *) dlg;
tledlg->updateSelection();
}
//#########################################################################
//## C O N S T R U C T O R / D E S T R U C T O R
//#########################################################################
/**
* Constructor
*/
TileDialog::TileDialog()
: UI::Widget::Panel("", "dialogs.gridtiler", SP_VERB_SELECTION_GRIDTILE)
{
// bool used by spin button callbacks to stop loops where they change each other.
updating = false;
// could not do this in gtkmm - there's no Gtk::SizeGroup public constructor (!)
GtkSizeGroup *_col1 = gtk_size_group_new(GTK_SIZE_GROUP_HORIZONTAL);
GtkSizeGroup *_col2 = gtk_size_group_new(GTK_SIZE_GROUP_HORIZONTAL);
GtkSizeGroup *_col3 = gtk_size_group_new(GTK_SIZE_GROUP_HORIZONTAL);
{
// Selection Change signal
g_signal_connect ( G_OBJECT (INKSCAPE), "change_selection", G_CALLBACK (updateSelectionCallback), this);
}
Gtk::Box *contents = _getContents();
#define MARGIN 2
//##Set up the panel
SPDesktop *desktop = getDesktop();
Inkscape::Selection *selection = sp_desktop_selection (desktop);
int selcount = 1;
if (!selection->isEmpty()) {
GSList const *items = selection->itemList();
selcount = g_slist_length((GSList *)items);
}
/*#### Number of Rows ####*/
double PerRow = selcount;
double PerCol = 1;
#ifdef DEBUG_GRID_ARRANGE
g_print("/n PerRox = %f PerCol = %f selcount = %d",PerRow,PerCol,selcount);
#endif
NoOfRowsLabel.set_label(_("Rows:"));
NoOfRowsBox.pack_start(NoOfRowsLabel, false, false, MARGIN);
NoOfRowsSpinner.set_digits(0);
NoOfRowsSpinner.set_increments(1, 5);
NoOfRowsSpinner.set_range(1.0, 100.0);
NoOfRowsSpinner.set_value(PerCol);
NoOfRowsSpinner.signal_changed().connect(sigc::mem_fun(*this, &TileDialog::on_col_spinbutton_changed));
tips.set_tip(NoOfRowsSpinner, _("Number of rows"));
NoOfRowsBox.pack_start(NoOfRowsSpinner, false, false, MARGIN);
gtk_size_group_add_widget(_col1, (GtkWidget *) NoOfRowsBox.gobj());
RowHeightButton.set_label(_("Equal height"));
double AutoRow = prefs_get_double_attribute ("dialogs.gridtiler", "AutoRowSize", 15);
if (AutoRow>0)
AutoRowSize=true;
else
AutoRowSize=false;
RowHeightButton.set_active(AutoRowSize);
NoOfRowsBox.pack_start(RowHeightButton, false, false, MARGIN);
tips.set_tip(RowHeightButton, _("If not set, each row has the height of the tallest object in it"));
RowHeightButton.signal_toggled().connect(sigc::mem_fun(*this, &TileDialog::on_RowSize_checkbutton_changed));
{
/*#### Radio buttons to control vertical alignment ####*/
VertAlignLabel.set_label(_("Align:"));
VertAlignHBox.pack_start(VertAlignLabel, false, false, MARGIN);
VertTopRadioButton.signal_toggled().connect(sigc::mem_fun(*this, &TileDialog::VertAlign_changed));
VertAlignGroup = VertTopRadioButton.get_group();
VertAlignVBox.pack_start(VertTopRadioButton, false, false, 0);
VertCentreRadioButton.set_group(VertAlignGroup);
VertCentreRadioButton.signal_toggled().connect(sigc::mem_fun(*this, &TileDialog::VertAlign_changed));
VertAlignVBox.pack_start(VertCentreRadioButton, false, false, 0);
VertBotRadioButton.set_group(VertAlignGroup);
VertBotRadioButton.signal_toggled().connect(sigc::mem_fun(*this, &TileDialog::VertAlign_changed));
VertAlignVBox.pack_start(VertBotRadioButton, false, false, 0);
VertAlign = prefs_get_double_attribute ("dialogs.gridtiler", "VertAlign", 1);
if (VertAlign == 0) {
VertTopRadioButton.set_active(TRUE);
}
else if (VertAlign == 1) {
VertCentreRadioButton.set_active(TRUE);
}
else if (VertAlign == 2){
VertBotRadioButton.set_active(TRUE);
}
VertAlignHBox.pack_start(VertAlignVBox, false, false, MARGIN);
NoOfRowsBox.pack_start(VertAlignHBox, false, false, MARGIN);
}
SpinsHBox.pack_start(NoOfRowsBox, false, false, MARGIN);
/*#### Label for X ####*/
padXByYLabel.set_label(" ");
XByYLabelVBox.pack_start(padXByYLabel, false, false, MARGIN);
XByYLabel.set_markup(" &#215; ");
XByYLabelVBox.pack_start(XByYLabel, false, false, MARGIN);
SpinsHBox.pack_start(XByYLabelVBox, false, false, MARGIN);
gtk_size_group_add_widget(_col2, (GtkWidget *) XByYLabelVBox.gobj());
/*#### Number of columns ####*/
NoOfColsLabel.set_label(_("Columns:"));
NoOfColsBox.pack_start(NoOfColsLabel, false, false, MARGIN);
NoOfColsSpinner.set_digits(0);
NoOfColsSpinner.set_increments(1, 5);
NoOfColsSpinner.set_range(1.0, 100.0);
NoOfColsSpinner.set_value(PerRow);
NoOfColsSpinner.signal_changed().connect(sigc::mem_fun(*this, &TileDialog::on_row_spinbutton_changed));
tips.set_tip(NoOfColsSpinner, _("Number of columns"));
NoOfColsBox.pack_start(NoOfColsSpinner, false, false, MARGIN);
gtk_size_group_add_widget(_col3, (GtkWidget *) NoOfColsBox.gobj());
ColumnWidthButton.set_label(_("Equal width"));
double AutoCol = prefs_get_double_attribute ("dialogs.gridtiler", "AutoColSize", 15);
if (AutoCol>0)
AutoColSize=true;
else
AutoColSize=false;
ColumnWidthButton.set_active(AutoColSize);
NoOfColsBox.pack_start(ColumnWidthButton, false, false, MARGIN);
tips.set_tip(ColumnWidthButton, _("If not set, each column has the width of the widest object in it"));
ColumnWidthButton.signal_toggled().connect(sigc::mem_fun(*this, &TileDialog::on_ColSize_checkbutton_changed));
{
/*#### Radio buttons to control horizontal alignment ####*/
HorizAlignLabel.set_label(_("Align:"));
HorizAlignVBox.pack_start(HorizAlignLabel, false, false, MARGIN);
HorizAlignHBox.pack_start(*(new Gtk::HBox()), true, true, 0); // centering strut
HorizLeftRadioButton.signal_toggled().connect(sigc::mem_fun(*this, &TileDialog::HorizAlign_changed));
HorizAlignGroup = HorizLeftRadioButton.get_group();
HorizAlignHBox.pack_start(HorizLeftRadioButton, false, false, 0);
HorizCentreRadioButton.set_group(HorizAlignGroup);
HorizCentreRadioButton.signal_toggled().connect(sigc::mem_fun(*this, &TileDialog::HorizAlign_changed));
HorizAlignHBox.pack_start(HorizCentreRadioButton, false, false, 0);
HorizRightRadioButton.set_group(HorizAlignGroup);
HorizRightRadioButton.signal_toggled().connect(sigc::mem_fun(*this, &TileDialog::HorizAlign_changed));
HorizAlignHBox.pack_start(HorizRightRadioButton, false, false, 0);
HorizAlignHBox.pack_start(*(new Gtk::HBox()), true, true, 0); // centering strut
HorizAlign = prefs_get_double_attribute ("dialogs.gridtiler", "HorizAlign", 1);
if (HorizAlign == 0) {
HorizLeftRadioButton.set_active(TRUE);
}
else if (HorizAlign == 1) {
HorizCentreRadioButton.set_active(TRUE);
}
else if (HorizAlign == 2) {
HorizRightRadioButton.set_active(TRUE);
}
HorizAlignVBox.pack_start(HorizAlignHBox, false, false, MARGIN);
NoOfColsBox.pack_start(HorizAlignVBox, false, false, MARGIN);
}
SpinsHBox.pack_start(NoOfColsBox, false, false, MARGIN);
TileBox.pack_start(SpinsHBox, false, false, MARGIN);
{
/*#### Radio buttons to control spacing manually or to fit selection bbox ####*/
SpaceByBBoxRadioButton.set_label(_("Fit into selection box"));
SpaceByBBoxRadioButton.signal_toggled().connect(sigc::mem_fun(*this, &TileDialog::Spacing_button_changed));
SpacingGroup = SpaceByBBoxRadioButton.get_group();
SpacingVBox.pack_start(SpaceByBBoxRadioButton, false, false, MARGIN);
SpaceManualRadioButton.set_label(_("Set spacing:"));
SpaceManualRadioButton.set_group(SpacingGroup);
SpaceManualRadioButton.signal_toggled().connect(sigc::mem_fun(*this, &TileDialog::Spacing_button_changed));
SpacingVBox.pack_start(SpaceManualRadioButton, false, false, MARGIN);
TileBox.pack_start(SpacingVBox, false, false, MARGIN);
}
{
/*#### Y Padding ####*/
GtkWidget *i = sp_icon_new (Inkscape::ICON_SIZE_MENU, "clonetiler_per_row");
YPadBox.pack_start (*(Glib::wrap(i)), false, false, MARGIN);
YPadSpinner.set_digits(1);
YPadSpinner.set_increments(0.2, 2);
YPadSpinner.set_range(-10000, 10000);
double YPad = prefs_get_double_attribute ("dialogs.gridtiler", "YPad", 15);
YPadSpinner.set_value(YPad);
YPadBox.pack_start(YPadSpinner, true, true, MARGIN);
tips.set_tip(YPadSpinner, _("Vertical spacing between rows (px units)"));
YPadSpinner.signal_changed().connect(sigc::mem_fun(*this, &TileDialog::on_ypad_spinbutton_changed));
gtk_size_group_add_widget(_col1, (GtkWidget *) YPadBox.gobj());
SizesHBox.pack_start(YPadBox, false, false, MARGIN);
}
{
Gtk::HBox *spacer = new Gtk::HBox;
SizesHBox.pack_start(*spacer, false, false, 0);
gtk_size_group_add_widget(_col2, (GtkWidget *) spacer->gobj());
}
{
/*#### X padding ####*/
GtkWidget *i = sp_icon_new (Inkscape::ICON_SIZE_MENU, "clonetiler_per_column");
XPadBox.pack_start (*(Glib::wrap(i)), false, false, MARGIN);
XPadSpinner.set_digits(1);
XPadSpinner.set_increments(0.2, 2);
XPadSpinner.set_range(-10000, 10000);
double XPad = prefs_get_double_attribute ("dialogs.gridtiler", "XPad", 15);
XPadSpinner.set_value(XPad);
XPadBox.pack_start(XPadSpinner, true, true, MARGIN);
tips.set_tip(XPadSpinner, _("Horizontal spacing between columns (px units)"));
XPadSpinner.signal_changed().connect(sigc::mem_fun(*this, &TileDialog::on_xpad_spinbutton_changed));
gtk_size_group_add_widget(_col3, (GtkWidget *) XPadBox.gobj());
SizesHBox.pack_start(XPadBox, false, false, MARGIN);
}
TileBox.pack_start(SizesHBox, false, false, MARGIN);
contents->pack_start(TileBox);
double SpacingType = prefs_get_double_attribute ("dialogs.gridtiler", "SpacingType", 15);
if (SpacingType>0) {
ManualSpacing=true;
} else {
ManualSpacing=false;
}
SpaceManualRadioButton.set_active(ManualSpacing);
SpaceByBBoxRadioButton.set_active(!ManualSpacing);
SizesHBox.set_sensitive (ManualSpacing);
//## The OK button
TileOkButton = addResponseButton(_("Arrange"), GTK_RESPONSE_APPLY);
tips.set_tip((*TileOkButton), _("Arrange selected objects"));
show_all_children();
}
} //namespace Dialog
} //namespace UI
} //namespace Inkscape
//#########################################################################
//## E N D O F F I L E
//#########################################################################
/*
Local Variables:
mode:c++
c-file-style:"stroustrup"
c-file-offsets:((innamespace . 0)(inline-open . 0)(case-label . +))
indent-tabs-mode:nil
fill-column:99
End:
*/
// vim: filetype=cpp:expandtab:shiftwidth=4:tabstop=8:softtabstop=4 :