# Copyright 2007, 2008, 2009, 2010, 2011 Kevin Ryde
# This file is part of Gtk2-Ex-NumAxis.
#
# Gtk2-Ex-NumAxis 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, or (at your option) any later
# version.
#
# Gtk2-Ex-NumAxis 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 Gtk2-Ex-NumAxis. If not, see <http://www.gnu.org/licenses/>.
package Gtk2::Ex::NumAxis;
use 5.008;
use strict;
use warnings;
use Gtk2 1.220;
use List::Util qw(min max);
use Math::Round;
use POSIX qw(floor ceil);
use Gtk2::Ex::AdjustmentBits;
# uncomment this to run the ### lines
#use Smart::Comments;
our $VERSION = 5;
use Glib::Ex::SignalBits;
use Glib::Ex::SignalIds;
use Glib::Object::Subclass
'Gtk2::DrawingArea',
signals => { expose_event => \&_do_expose_event,
size_request => \&_do_size_request,
style_set => \&_do_style_or_direction,
direction_changed => \&_do_style_or_direction,
scroll_event => \&_do_scroll_event,
'set-scroll-adjustments' =>
{ param_types => ['Gtk2::Adjustment',
'Gtk2::Adjustment'],
return_type => undef,
class_closure => \&_do_set_scroll_adjustments },
'number-to-text' =>
{ param_types => ['Glib::Double','Glib::Int'],
return_type => 'Glib::String',
flags => ['run-last'],
accumulator => \&Glib::Ex::SignalBits::accumulator_first_defined,
class_closure => \&_do_number_to_text },
# Glib::ParamSpec->scalar
# ('transform',
# 'transform',
# '',
# Glib::G_PARAM_READWRITE),
#
# Glib::ParamSpec->scalar
# ('untransform',
# 'untransform',
# '',
# Glib::G_PARAM_READWRITE),
},
properties => [Glib::ParamSpec->object
('adjustment',
'Adjustment object',
'The adjustment object to display values from.',
'Gtk2::Adjustment',
Glib::G_PARAM_READWRITE),
Glib::ParamSpec->int
('min-decimals',
'Minimum decimals',
'A minimum number of decimal places to display.',
# range limited to 1000 decimals to try to catch garbage
# going in and to try to stop calculated width becoming
# something wild
0, 1000, # min, max
0, # default
Glib::G_PARAM_READWRITE),
Glib::ParamSpec->boolean
('inverted',
(do { # translation from GtkScrollbar
my $str = 'Inverted';
eval { require Locale::Messages;
Locale::Messages::dgettext('gtk20-properties',$str)
} || $str }),
'Invert the scale so numbers are drawn increasing from the bottom up, instead of the default top down.',
0, # default
Glib::G_PARAM_READWRITE),
Glib::ParamSpec->enum
('orientation',
(do { # translation from GtkOrientable
my $str = 'Orientation';
eval { require Locale::Messages;
Locale::Messages::dgettext('gtk20-properties',$str)
} || $str }),
'Horizontal or vertical display and scrolling.',
'Gtk2::Orientation',
'vertical',
Glib::G_PARAM_READWRITE),
];
# as fraction of digit width
# these not documented, could be properties or style properties
use constant { TICK_WIDTH_FRAC => 0.8,
TICK_GAP_FRAC => 0.5,
TICK_HEIGHT_FRAC => 0.4,
TICK_VGAP_FRAC => 0.1,
};
# right-margin 0.2 between number and right edge of window
sub INIT_INSTANCE {
my ($self) = @_;
$self->{'min_decimals'} = 0; # default
$self->{'decided_done_for'} = 'x';
}
sub SET_PROPERTY {
my ($self, $pspec, $newval) = @_;
my $pname = $pspec->get_name;
### SET_PROPERTY: $pname, $newval
$self->{$pname} = $newval; # per default GET_PROPERTY
if ($pname eq 'adjustment') {
my $adj = $newval;
$self->{'adjustment_ids'} = $adj && do {
Scalar::Util::weaken (my $weak_self = $self);
Glib::Ex::SignalIds->new
($adj,
$newval->signal_connect (value_changed => \&_do_adj_value_changed,
\$weak_self),
$newval->signal_connect (changed => \&_do_adj_other_changed,
\$weak_self));
};
}
$self->{'decided_done_for'} = 'x';
$self->queue_resize;
$self->queue_draw;
}
# 'set-scroll-adjustments' class closure
sub _do_set_scroll_adjustments {
my ($self, $hadj, $vadj) = @_;
$self->set (adjustment => ($self->get('orientation') eq 'horizontal'
? $hadj : $vadj));
}
# my %direction_to_orientation = (up => 'vertical',
# down => 'vertical',
# left => 'horizontal',
# right => 'horizontal');
# 'scroll-event' class closure
sub _do_scroll_event {
my ($self, $event) = @_;
### NumAxis _do_scroll_event(): $event->direction
if (my $adj = $self->{'adjustment'}) {
_adjustment_scroll_event ($adj, $event, $self->{'inverted'});
}
return $self->signal_chain_from_overridden ($event);
}
my %direction_inverted = (up => 1,
down => 0,
left => 1,
right => 0);
# $event is a Gtk2::Gdk::Event::Scroll
sub _adjustment_scroll_event {
my ($adj, $event, $inverted) = @_;
my $inctype = ($event->state & 'control-mask'
? 'page_increment'
: 'step_increment');
my $add = $adj->$inctype;
unless ((!$inverted) ^ $direction_inverted{$event->direction}) {
$add = -$add;
}
Gtk2::Ex::AdjustmentBits::scroll_value ($adj, $add);
}
# 'size-request' class closure
sub _do_size_request {
my ($self, $req) = @_;
### NumAxis _do_size_request()
### orientation: $self->get('orientation')
if ($self->get('orientation') eq 'horizontal') {
$req->width (0);
$req->height (_decide_height ($self));
} else {
$req->width (_decide_width ($self));
$req->height (0);
}
### NumAxis _do_size_request() return: $req->width . 'x' . $req->height
}
# 'number-to-text' class closure
sub _do_number_to_text {
my ($self, $number, $decimals) = @_;
### _do_number_to_text()
### $number
### $decimals
return sprintf ('%.*f', $decimals, $number);
}
sub identity {
return $_[0];
}
my %wh = (horizontal => 'width',
vertical => 'height');
sub _do_expose_event {
my ($self, $event) = @_;
### NumAxis _do_expose_event(): $self->get_name
### decided width: $self->{'decided_width'}
my $adj = $self->{'adjustment'} || do {
### no adjustment, no draw
return Gtk2::EVENT_PROPAGATE;
};
my $page_size = $adj->page_size || do {
### zero height page, no draw
return Gtk2::EVENT_PROPAGATE;
};
my $lo = $adj->get_value;
my ($unit, $unit_decimals) = _decide_unit ($self, $lo);
### $unit
### $unit_decimals
if ($unit == 0) {
### unit zero, no draw
return Gtk2::EVENT_PROPAGATE;
}
my $hi = $lo + $page_size;
### $lo
### $hi
my $layout = _layout($self);
my $decimals = $self->{'min_decimals'};
my $state = $self->state;
my $style = $self->style;
my $win = $self->window;
my $orientation = $self->get('orientation');
my $win_pixels = do {
my $method = $wh{$orientation};
$self->allocation->$method
};
my $clip_rect = $event->area;
my $factor = $win_pixels / $page_size;
my $offset = 0;
if ($self->{'inverted'}) {
$factor = -$factor;
$offset = $win_pixels;
### invert
### $factor
### $offset
}
$offset += -$lo * $factor;
my $digit_height = $self->{'digit_height'};
$decimals = max ($decimals, $unit_decimals);
my $widen = $digit_height / abs($factor);
$lo -= $widen;
$hi += $widen;
### $win_pixels
### $factor
### digit_height pixels: $digit_height
### which is widen value: $widen
### widen to: "lo=$lo hi=$hi"
### $unit
### $decimals
my $tick_gc = $style->fg_gc($state);
my $transform = $self->{'transform'} || \&identity;
my $untransform = $self->{'untransform'} || \&identity;
$lo = $transform->($lo);
$hi = $transform->($hi);
my $n = Math::Round::nhimult ($unit, $lo);
### loop: "$lo to $hi, starting $n"
# ENHANCE-ME: stop looping when a string goes past the end of the
# $clip_rect, in whichever direction
if ($orientation eq 'horizontal') {
my $decided_height = _decide_height($self);
my $tick_height = ceil (TICK_HEIGHT_FRAC * $digit_height);
my $text_y = $tick_height + ceil (TICK_VGAP_FRAC * $digit_height);
for ( ; $n <= $hi; $n += $unit) {
my $str = $self->signal_emit ('number-to-text', $n, $decimals);
$layout->set_text ($str);
my ($str_width, $str_height) = $layout->get_pixel_size;
my $u = $untransform->($n);
my $x = floor ($factor * $u + $offset);
my $text_x = $x - int ($str_width/2); # left of text to centre
### $x
### $text_x
$win->draw_rectangle ($tick_gc,
1, # filled
$x, # x
0, # y
1, # width==1
$tick_height); # height
$style->paint_layout ($win,
$state,
1, # use_text, for the text gc instead of the fg one
$clip_rect,
$self, # widget
__PACKAGE__, # style detail string
$text_x,
$text_y,
$layout);
if ($x >= 0 && $x < $win_pixels # only values more than half in window
&& ($str_height += $text_y) > $decided_height) {
### draw is higher than decided_height: "str=$str, height=$str_height cf decided_height=$decided_height"
$decided_height = $self->{'decided_height'} = $str_height;
$self->queue_resize;
}
}
} else { # vertical
my $decided_width = _decide_width($self);
my $digit_width = $self->{'digit_width'};
my $tick_width = ceil (TICK_WIDTH_FRAC * $digit_width);
my $text_x = $tick_width + ceil (TICK_GAP_FRAC * $digit_width);
for ( ; $n <= $hi; $n += $unit) {
my $str = $self->signal_emit ('number-to-text', $n, $decimals);
$layout->set_text ($str);
my ($str_width, $str_height) = $layout->get_pixel_size;
my $u = $untransform->($n);
my $y = floor ($factor * $u + $offset);
### $str
### $y
### $str_width
my $text_y = $y - int ($str_height/2); # top of text
if ($text_y >= $win_pixels || $y + $str_height <= 0) {
### outside window, skip
next;
}
$win->draw_rectangle ($tick_gc,
1, # filled
0, # x
$y, # y
$tick_width, # width
1); # height==1
$style->paint_layout ($win,
$state,
1, # use_text, for the text gc instead of the fg one
$clip_rect,
$self, # widget
__PACKAGE__, # style detail string
$text_x,
$text_y,
$layout);
if ($y >= 0 && $y < $win_pixels # only values more than half in window
&& ($str_width += $text_x) > $decided_width) {
### draw is wider than decided_width: "str=$str, width=$str_width cf decided_width=$decided_width"
$decided_width = $self->{'decided_width'} = $str_width;
$self->queue_resize;
}
}
}
return Gtk2::EVENT_PROPAGATE;
}
sub _decide_width {
my ($self) = @_;
### NumAxis _decide_width()
my $adj = $self->{'adjustment'};
my $for = ($adj
? join(',', $adj->lower, $adj->upper, $adj->page_size)
: '');
if ($self->{'decided_done_for'} eq $for) {
return $self->{'decided_width'};
}
### old decided width: $self->{'decided_width'}
### was for: $self->{'decided_done_for'}
### now for: $for
$self->{'decided_done_for'} = $for;
my $layout = _layout($self);
my $decimals = $self->{'min_decimals'};
my $digit_width = $self->{'digit_width'};
my $width = $digit_width * $decimals;
if ($adj) {
my $lower = $adj->lower;
my ($unit, $unit_decimals) = _decide_unit ($self, $lower);
### $unit
### $unit_decimals
$decimals = max ($decimals, $unit_decimals);
my $transform = $self->{'transform'} || \&identity;
# my $n = Math::Round::nhimult ($unit, $lo);
foreach my $un ($lower,
$adj->upper - $adj->page_size) {
my $n = $transform->($un);
# increase $n to 99.999 etc per its integer part and $decimals
$n = ($n < 0 ? '-' : '')
. ('9' x _num_integer_digits($n))
. '.'
. ('9' x $decimals);
my $str = $self->signal_emit ('number-to-text', $n, $decimals);
$layout->set_text ($str);
$width = max ($width, ($layout->get_pixel_size)[0]);
### this str: $str
### gives width pixels: $width
}
}
$width += ceil (TICK_WIDTH_FRAC * $digit_width)
+ ceil (TICK_GAP_FRAC * $digit_width);
### tick width: ceil (TICK_WIDTH_FRAC * $digit_width)
### tick gap: ceil (TICK_GAP_FRAC * $digit_width)
### _decide_width() result: $width
return ($self->{'decided_width'} = $width);
}
sub _decide_height {
my ($self) = @_;
if ($self->{'decided_done_for'} eq '1') {
return $self->{'decided_height'};
}
$self->{'decided_done_for'} = 1;
my $adj = $self->{'adjustment'};
### _decide_height()
my $layout = _layout($self);
my $decimals = $self->{'min_decimals'};
my $transform = $self->{'transform'} || \&identity;
my $digit_height = $self->{'digit_height'};
my $height = $digit_height;
foreach my $un ($adj
? ($adj->lower, $adj->upper - $adj->page_size)
: (0)) {
my $n = $transform->($un);
my $str = $self->signal_emit ('number-to-text', $n, $decimals);
$layout->set_text ($str);
$height = max ($height, ($layout->get_pixel_size)[1]);
### this str: $str
### this height: ($layout->get_pixel_size)[1]
### gives height pixels: $height
}
$height += ceil(TICK_HEIGHT_FRAC * $digit_height)
+ ceil(TICK_VGAP_FRAC * $digit_height);
### tick height: ceil (TICK_HEIGHT_FRAC * $digit_height)
### tick vgap: ceil (TICK_VGAP_FRAC * $digit_height)
### _decide_height() result: $height
return ($self->{'decided_height'} = $height);
}
# return ($step, $decimals)
sub _decide_unit {
my ($self, $value) = @_;
### _decide_unit(): "value=$value"
my ($win, $adj, $page_size);
unless (($win = $self->window)
&& ($adj = $self->{'adjustment'})
&& ($page_size = $adj->page_size) != 0) {
return (0, 0);
}
my $transform = $self->{'transform'} || \&identity;
my $min_decimals = $self->{'min_decimals'};
### $min_decimals
if ($self->get('orientation') eq 'horizontal') {
my $win_width = $self->allocation->width;
my $layout = _layout($self);
my @samples = ($adj->value + 0.05 * $adj->page_size,
$adj->value + 0.95 * $adj->page_size);
for (;;) {
my $str_width = max (map {
$layout->set_text ($self->signal_emit
('number-to-text', $_, $min_decimals));
($layout->get_pixel_size)[0]
} @samples);
my $untrans_min_step = 2.0 * $adj->page_size * $str_width / $win_width;
### page_size: $adj->page_size
### $win_width
### $str_width
### $untrans_min_step
my $low_step = abs ($transform->($value)
- $transform->($value + $untrans_min_step));
my $high_step = abs ($transform->($value + $page_size)
- $transform->($value + $page_size
- $untrans_min_step));
### $low_step
### $high_step
my ($unit, $decimals) = round_up_2_5_pow_10 (max ($low_step, $high_step));
if ($decimals <= $min_decimals) {
return ($unit, $decimals);
}
$min_decimals = $decimals;
}
} else {
my $win_height = $self->allocation->height;
my $str_height = $self->{'digit_height'};
my $untrans_min_step = 2.0 * $adj->page_size * $str_height / $win_height;
### page_size: $adj->page_size
### win_height: $win_height
### $str_height
### $untrans_min_step
my $low_step = abs ($transform->($value)
- $transform->($value + $untrans_min_step));
my $high_step = abs ($transform->($value + $page_size)
- $transform->($value + $page_size
- $untrans_min_step));
### $low_step
### $high_step
return round_up_2_5_pow_10 (max ($low_step, $high_step));
}
# return round_up_2_5_pow_10 (2 * $str_height / $factor);
}
sub _layout {
my ($self) = @_;
my $layout = ($self->{'layout'} ||= do {
my $l = $self->create_pango_layout ('');
$l->set_alignment ('center'); # perhaps a 'justify' prop like GtkLabel?
$l
});
if (! defined $self->{'digit_width'}) {
($self->{'digit_width'}, $self->{'digit_height'})
= layout_digit_size ($layout);
}
return $layout;
}
# 'style-set' and 'direction-changed' class closures
#
sub _do_style_or_direction {
my ($self, $prev_style) = @_;
# context_changed() as advised by gtk_widget_create_pango_layout()
if (my $layout = $self->{'layout'}) {
$layout->context_changed;
delete @{$self}{'digit_width','digit_height'}; # hash slice
}
$self->{'decided_done_for'} = 'x'; # possible new font or kerning
$self->queue_resize;
$self->queue_draw;
return shift->signal_chain_from_overridden(@_);
}
# 'value-changed' on the adjustment
sub _do_adj_value_changed {
my ($adj, $ref_weak_self) = @_;
### _do_adj_value_changed(), queue_draw
my $self = $$ref_weak_self || return;
$self->queue_draw;
}
# 'changed' on the adjustment
sub _do_adj_other_changed {
my ($adj, $ref_weak_self) = @_;
my $self = $$ref_weak_self || return;
### _do_adj_other_changed(), resize
$self->queue_resize; # possible width for new upper/lower
$self->queue_draw; # possible new page-size
}
#------------------------------------------------------------------------------
# mostly generic
# Return ($digit_width, $digit_height) which is the size in pixels of a
# digit in the given $layout.
#
sub layout_digit_size {
my ($layout) = @_;
my $digit_width = 0;
my $digit_height = 0;
foreach my $n (0 .. 9) {
$layout->set_text ($n);
my ($str_width, $str_height) = $layout->get_pixel_size;
$digit_width = max ($digit_width, $str_width);
$digit_height = max ($digit_height, $str_height);
}
return ($digit_width, $digit_height);
}
# Round $n up to the next higher unit of the form 10^k, 2*10^k or 5*10^k
# (for an integer k, possibly negative) and return two values "($unit,
# $decimals)", where $decimals is how many decimal places are necessary to
# represent that unit. For instance,
#
# round_up_2_5_pow_10(0.0099) = (0.01, 2)
# round_up_2_5_pow_10(0.15) = (0.2, 1)
# round_up_2_5_pow_10(3.5) = (5, 0)
# round_up_2_5_pow_10(60) = (100, 0)
#
sub round_up_2_5_pow_10 {
my ($n) = @_;
my $k = ceil (POSIX::log10 ($n));
my $unit = POSIX::pow (10, $k);
# at this point $unit is the next higher value of the form 10^k, see if
# either 5*10^(k-1) or 2*10^(k-1) would suffice to be bigger than $n
if ($unit * 0.2 >= $n) {
$unit *= 0.2;
$k--;
} elsif ($unit * 0.5 >= $n) {
$unit *= 0.5;
$k--;
}
### $unit
### $k
### decimals: max (-$k, 0)
return ($unit, max (-$k, 0));
}
# Return the number of digits in the integer part of $n, so for instance
# _num_integer_digits(0) == 1
# _num_integer_digits(99) == 2
# _num_integer_digits(100.25) == 3
# Just the absolute value is used, so the results are the same for negatives,
# num_integer_digits(-100.25) == 3
#
sub _num_integer_digits {
my ($n) = @_;
return 1 + max (0, floor (POSIX::log10 (abs ($n))));
}
# configure_event => \&_do_configure_event,
# # 'configure-event' class closure
# sub _do_configure_event {
# my ($self, $event) = @_;
# $self->queue_draw;
# return shift->signal_chain_from_overridden(@_);
# }
1;
__END__
=for stopwords NumAxis VScrollbar boolean subr resize BUILDABLE Gtk2-Ex-NumAxis Ryde enum scrollbar Gtk
=head1 NAME
Gtk2::Ex::NumAxis -- numeric axis display widget
=for test_synopsis my ($adj)
=head1 SYNOPSIS
use Gtk2::Ex::NumAxis;
my $axis = Gtk2::Ex::NumAxis->new (adjustment => $adj,
orientation => 'vertical');
=head1 WIDGET HIERARCHY
C<Gtk2::Ex::NumAxis> is a subclass of C<Gtk2::DrawingArea>, but don't rely
on more than C<Gtk2::Widget>, and probably don't rely on it being a windowed
widget.
Gtk2::Widget
Gtk2::DrawingArea
Gtk2::Ex::NumAxis
=head1 DESCRIPTION
A C<Gtk2::Ex::NumAxis> widget displays a vertical axis of values like
+---------+
| |
| -- 8.5 |
| |
| -- 9 |
| | +--------------------------------------+
| -- 9.5 | | : : : : : |
| | | 8.2 8.4 8.6 8.8 9.0 |
| -- 10 | +--------------------------------------+
| |
| -- 10.5 |
| |
+---------+
The numbers are the "page" portion of a C<Gtk2::Adjustment> and update with
changes in that Adjustment. A unit step is chosen automatically according
to what fits in the window, by either 1, 2 or 5.
Decimal places are shown as necessary and the C<min-decimals> property can
force a certain minimum decimals for example to show dollars and cents. The
C<number-to-text> signal allows formatting like a thousands separator or
different decimal point.
Pixel x=0 or y=0 is the "value" from the adjustment and the window width or
height is the "page" amount. The C<inverted> property swaps that to the
"value" at the bottom or right of the display. (This is the same sense as
"inverted" on C<Gtk2::Scrollbar>.)
=head2 Scrolling
A C<scroll-event> handler moves the Adjustment for mouse wheel and similar
events arriving on the NumAxis. If the control key is held down then it's
moved by C<page-increment>, otherwise C<step-increment>.
In a horizontal NumAxis an C<up> and C<down> scroll is applied as well as
C<right> and C<left>. Conversely a vertical takes C<right> and C<left> too.
This is a bit experimental but allows a mouse with only a vertical wheel to
move a horizontal NumAxis.
=head2 Size Request
A vertical NumAxis has a desired width, but doesn't ask for any particular
height. A horizontal NumAxis conversely has a desired height but no
particular width.
For a vertical NumAxis the height provided by the container parent
determines the step between displayed values and thus how many decimal
places are needed, which can in turn affect what width is necessary.
If the drawing code notices a number shown is wider than a width previously
requested then a resize is queued. Hopefully such a resize only happens if
a C<number-to-text> handler is doing strange things. It may cause a
disconcerting size increase while scrolling, but at least ensures values are
not truncated. Of course a size request is only ever a request, the parent
container determines how much space its children get.
A C<Gtk2::Ex::NoShrink> container can help keep a lid on resizing if for
instance changes to the Adjustment range would often cause a different
width.
=head1 FUNCTIONS
=over 4
=item C<< $axis = Gtk2::Ex::NumAxis->new (key=>value,...) >>
Create and return a new NumAxis widget. Optional key/value pairs set
initial properties per C<< Glib::Object->new >>.
my $adj = Gtk2::Adjustment->new (5,0,20, 1,8, 10);
Gtk2::Ex::NumAxis->new (adjustment => $adj,
min_decimals => 1);
=item C<< $axis->set_scroll_adjustments ($hadj, $vadj) >>
This is the usual C<Gtk2::Widget> method setting the C<adjustment> property
to C<$hadj> when horizontal or C<$vadj> when vertical.
Currently either C<$hadj> or C<$vadj> is taken according to the current
orientation. The other is not recorded and is not switched to if the
orientation is later changed. This is simplest, but is it a good idea?
Orientation changes will be a bit unusual, but perhaps it should switch
dynamically between the adjustments too.
=back
=head1 PROPERTIES
=over 4
=item C<orientation> (enum C<Gtk2::Orientation>, default "vertical")
The direction to draw in the axis, either vertically or horizontally.
=item C<adjustment> (C<Gtk2::Adjustment>, default C<undef>)
The adjustment object giving the values to display and track. NumAxis is
blank until an adjustment is set and it has a non-zero C<page-size>.
=item C<inverted> (boolean, default 0)
For vertical the normal drawing is the adjustment C<value> at the top and
numbers increasing downwards. If C<inverted> is true then instead C<value>
is at the bottom and numbers increase upwards.
Conversely for horizontal the normal drawing is adjustment C<value> at the
left and numbers increasing rightwards. If C<inverted> is true then instead
C<value> at the right and numbers increasing to the left.
This sense of C<inverted> is the same as C<Gtk2::HScrollbar> or
C<Gtk2::VScrollbar>. If using an NumAxis and a scrollbar together then
generally the C<inverted> setting should be the same in the two.
=item C<min-decimals> (integer, default 0)
The minimum number of decimal places to show on the numbers. Further
decimals are shown if the unit step chosen needs more, but at least this
many are always shown.
=back
=head1 SIGNALS
=over 4
=item C<number-to-text> ($number double, $decimals int -> return string)
Callback to format a number for display with a given number of decimal
places. The default display is an C<sprintf("%.*f")>. This signal allows
things like a thousands separator or different decimal point. For example a
C<Number::Format>,
my $nf = Number::Format->new (-thousands_sep => ' ',
-decimal_point => ',');
sub my_number_to_text_handler {
my ($axis, $number, $decimals) = @_;
return $nf->format_number ($number, $decimals,
1); # include trailing zeros
}
$axis->signal_connect (number_to_text =>
\&my_number_to_text_handler);
The C<$decimals> parameter is how many decimals are being shown. This is
either C<min-decimals> or more if a higher resolution fits in the axis
window. The handler can decide how many trailing zeros to actually show (or
any separator within the decimals, etc).
Strings formed shouldn't be too bizarre, mainly because the NumAxis width is
established just from some representative values based on the adjustment
C<upper> and C<lower> (but not necessarily those particular values). Things
like +/- sign or leading and trailing zeros are fine.
=back
=head1 BUILDABLE
C<Gtk2::Ex::NumAxis> inherits the usual widget C<Gtk2::Buildable> interface
in Gtk 2.12 and up, so C<Gtk2::Builder> can construct a NumAxis. The class
name is C<Gtk2__Ex__NumAxis> and properties and signal handlers can be set
in the usual way. Here's a sample fragment, or see F<examples/builder.pl>
in the NumAxis sources for a complete program.
<object class="Gtk2__Ex__NumAxis" id="my_axis">
<property name="adjustment">my_adj</property>
<signal name="number-to-text" handler="my_number_to_text"/>
</object>
=head1 SEE ALSO
L<Gtk2::Widget>, L<Gtk2::Adjustment>, L<Gtk2::VScrollbar>, L<Gtk2::Builder>,
L<Gtk2::Ex::NoShrink>
For number formatting see L<Number::Format>, L<Locale::Currency::Format>,
L<PAB3::Utils> (has an C<strfmon>)
=head1 HOME PAGE
L<http://user42.tuxfamily.org/gtk2-ex-numaxis/index.html>
=head1 COPYRIGHT
Copyright 2007, 2008, 2009, 2010, 2011 Kevin Ryde
Gtk2-Ex-NumAxis 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, or (at your option) any later
version.
Gtk2-Ex-NumAxis 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
Gtk2-Ex-NumAxis. If not, see L<http://www.gnu.org/licenses/>.
=cut