Provided by: libsvg-tt-graph-perl_0.25-1_all 
NAME
SVG::TT::Graph::TimeSeries - Create presentation quality SVG line graphs of time series easily
SYNOPSIS
use SVG::TT::Graph::TimeSeries;
my @data_cpu = ('2003-09-03 09:30:00',23,'2003-09-03 09:45:00',54,'2003-09-03 10:00:00',67,'2003-09-03 10:15:00',12);
my @data_disk = ('2003-09-03 09:00:00',12,'2003-09-03 10:00:00',26,'2003-09-03 11:00:00',23);
my $graph = SVG::TT::Graph::TimeSeries->new({
'height' => '500',
'width' => '300',
});
$graph->add_data({
'data' => \@data_cpu,
'title' => 'CPU',
});
$graph->add_data({
'data' => \@data_disk,
'title' => 'Disk',
});
print "Content-type: image/svg+xml\n\n";
print $graph->burn();
DESCRIPTION
This object aims to allow you to easily create high quality SVG line graphs of time series. You can
either use the default style sheet or supply your own. Either way there are many options which can be
configured to give you control over how the graph is generated - with or without a key, data elements at
each point, title, subtitle etc. All times must be given a format parseable by HTTP::Date. The DateTime
module is used for all date/time calculations.
Note that the module is currently limited to the Unix-style epoch-based date range limited by 32 bit
signed integers (around 1902 to 2038).
METHODS
new()
use SVG::TT::Graph::TimeSeries;
my $graph = SVG::TT::Graph::TimeSeries->new({
# Optional - defaults shown
'height' => 500,
'width' => 300,
'show_y_labels' => 1,
'scale_divisions' => '',
'min_scale_value' => 0,
'max_scale_value' => '',
'show_x_labels' => 1,
'timescale_divisions' => '',
'min_timescale_value' => '',
'max_timescale_value' => '',
'x_label_format' => '%Y-%m-%d %H:%M:%S',
'stagger_x_labels' => 0,
'rotate_x_labels' => 0,
'y_label_formatter' => sub { return @_ },
'x_label_formatter' => sub { return @_ },
'show_data_points' => 1,
'show_data_values' => 1,
'rollover_values' => 0,
'area_fill' => 0,
'show_x_title' => 0,
'x_title' => 'X Field names',
'show_y_title' => 0,
'y_title' => 'Y Scale',
'show_graph_title' => 0,
'graph_title' => 'Graph Title',
'show_graph_subtitle' => 0,
'graph_subtitle' => 'Graph Sub Title',
'key' => 0,
'key_position' => 'right',
# Stylesheet defaults
'style_sheet' => '/includes/graph.css', # internal stylesheet
'random_colors' => 0,
});
The constructor takes a hash reference with values defaulted to those shown above - with the exception of
style_sheet which defaults to using the internal style sheet.
add_data()
my @data_cpu = ('2003-09-03 09:30:00',23,'2003-09-03 09:45:00',54,'2003-09-03 10:00:00',67,'2003-09-03 10:15:00',12);
or
my @data_cpu = (['2003-09-03 09:30:00',23],['2003-09-03 09:45:00',54],['2003-09-03 10:00:00',67],['2003-09-03 10:15:00',12]);
or
my @data_cpu = (['2003-09-03 09:30:00',23,'23%'],['2003-09-03 09:45:00',54,'54%'],['2003-09-03 10:00:00',67,'67%'],['2003-09-03 10:15:00',12,'12%']);
$graph->add_data({
'data' => \@data_cpu,
'title' => 'CPU',
});
This method allows you to add data to the graph object. The data are expected to be either a list of
scalars (in which case pairs of elements are taken to be time, value pairs) or a list of array
references. In the latter case, the first two elements in each referenced array are taken to be time and
value, and the optional third element (if present) is used as the text to display for that point for
show_data_values and rollover_values (otherwise the value itself is displayed). It can be called several
times to add more data sets in.
clear_data()
my $graph->clear_data();
This method removes all data from the object so that you can reuse it to create a new graph but with the
same config options.
burn()
print $graph->burn();
This method processes the template with the data and config which has been set and returns the resulting
SVG.
This method will croak unless at least one data set has been added to the graph object.
config methods
my $value = $graph->method();
my $confirmed_new_value = $graph->method($value);
The following is a list of the methods which are available to change the config of the graph object after
it has been created.
height()
Set the height of the graph box, this is the total height of the SVG box created - not the graph it
self which auto scales to fix the space.
width()
Set the width of the graph box, this is the total width of the SVG box created - not the graph it
self which auto scales to fix the space.
compress()
Whether or not to compress the content of the SVG file (Compress::Zlib required).
tidy()
Whether or not to tidy the content of the SVG file (XML::Tidy required).
style_sheet()
Set the path to an external stylesheet, set to '' if you want to revert back to using the default
internal version.
The default stylesheet handles up to 12 data sets. All data series over the 12th will have no style
and be in black. If you have over 12 data sets you can assign them all random colors (see the
random_color() method) or create your own stylesheet and add the additional settings for the extra
data sets.
To create an external stylesheet create a graph using the default internal version and copy the
stylesheet section to an external file and edit from there.
random_colors()
Use random colors in the internal stylesheet.
show_data_values()
Show the value of each element of data on the graph (or optionally a user-defined label; see
add_data).
show_data_points()
Show a small circle on the graph where the line goes from one point to the next.
rollover_values()
Shows data values and data points when the mouse is over the point. Used in combination with
show_data_values and/or show_data_points.
data_value_format()
Format specifier to for data values (as per printf).
max_time_span()
Maximum timespan for a line between data points. If this span is exceeded, the points are not
connected. This is useful for skipping missing data sections. The expected form is:
'<integer> [years | months | days | hours | minutes | seconds]'
stacked()
Accumulates each data set. (i.e. Each point increased by sum of all previous series at same time).
Default is 0, set to '1' to show. All data series have the same number of points and must have the
same sequence of time values for this option.
min_scale_value()
The point at which the Y axis starts, defaults to '0', if set to '' it will default to the minimum
data value.
max_scale_value()
The point at which the Y axis ends, if set to '' it will default to the maximum data value.
scale_divisions()
This defines the gap between markers on the Y axis, default is a 10th of the range, e.g. you will
have 10 markers on the Y axis. NOTE: do not set this too low - you are limited to 999 markers, after
that the graph won't generate.
show_x_labels()
Whether to show labels on the X axis or not, defaults to 1, set to '0' if you want to turn them off.
x_label_format()
Format string for presenting the X axis labels. The POSIX strftime() function is used for formatting
(see strftime man pages and LC_TIME locale information).
show_y_labels()
Whether to show labels on the Y axis or not, defaults to 1, set to '0' if you want to turn them off.
y_label_format()
Format string for presenting the Y axis labels (as per printf).
timescale_divisions()
This defines the gap between markers on the X axis. Default is the entire range (only start and end
axis labels). The expected form is:
'<integer> [years | months | days | hours | minutes | seconds]' The default time period if not
provided is 'days'. These time periods are used by the DateTime::Duration methods.
timescale_time_zone
This determines the time zone used for the date intervals on the X axis. Values are those that
DateTime accepts for its constructor's 'time_zone' parameter. The default is 'floating'.
stagger_x_labels()
This puts the labels at alternative levels so if they are long field names they will not overlap so
easily. Default it '0', to turn on set to '1'.
rotate_x_labels()
This turns the X axis labels by 90 degrees. Default it '0', to turn on set to '1'.
min_timescale_value()
This sets the minimum timescale value (X axis). Any data points before this time will not be shown.
The date/time is expected in ISO format: YYYY-MM-DD hh:mm:ss.
max_timescale_value()
This sets the maximum timescale value (X axis). Any data points after this time will not be shown.
The date/time is expected in ISO format: YYYY-MM-DD hh:mm:ss.
show_x_title()
Whether to show the title under the X axis labels, default is 0, set to '1' to show.
x_title()
What the title under X axis should be, e.g. 'Months'.
show_y_title()
Whether to show the title under the Y axis labels, default is 0, set to '1' to show.
y_title()
What the title under Y axis should be, e.g. 'Sales in thousands'.
show_graph_title()
Whether to show a title on the graph, default is 0, set to '1' to show.
graph_title()
What the title on the graph should be.
show_graph_subtitle()
Whether to show a subtitle on the graph, default is 0, set to '1' to show.
graph_subtitle()
What the subtitle on the graph should be.
key()
Whether to show a key, defaults to 0, set to '1' if you want to show it.
key_position()
Where the key should be positioned, defaults to 'right', set to 'bottom' if you want to move it.
x_label_formatter ()
A callback subroutine which will format a label on the x axis. For example:
$graph->x_label_formatter( sub { return '$' . $_[0] } );
y_label_formatter()
A callback subroutine which will format a label on the y axis. For example:
$graph->y_label_formatter( sub { return '$' . $_[0] } );
EXAMPLES
For examples look at the project home page http://leo.cuckoo.org/projects/SVG-TT-Graph/
EXPORT
None by default.
SEE ALSO
SVG::TT::Graph, SVG::TT::Graph::Line, SVG::TT::Graph::Bar, SVG::TT::Graph::BarHorizontal,
SVG::TT::Graph::BarLine, SVG::TT::Graph::Pie, SVG::TT::Graph::XY, Compress::Zlib, XML::Tidy