Labels are objects used to display text throughout the system. This applies to titles, axis labels, legends, annotations, decals, etc. Labels are self-contained text boxes that manage attributes such as:
- Text content
- Font
- Font color
- Background color
- Outline
- Text alignment
- Justification
- Line spacing
- Orientation
- Minimum size
- Line decorations
- Margins
- Headers
- Legend attributes
They can be displayed horizontally or vertically (via Label::SetTextOrientation()
), and support multiline text.
A Label
is edited mostly through its GetGraphItemInfo()
method. This returns its GraphItemInfo
, which can edit
multiple fields through chainable property calls. For example, the following will set a right axis title's font color,
font background color, outline, and text all in one call:
theChart->GetRightYAxis().GetTitle().GetGraphItemInfo().FontColor(*wxBLUE).
FontBackgroundColor(*wxWHITE).Pen(*wxGREEN).Text(_(L"Header"));
There are functions available for splitting text to control how it is displayed. For example,
Label::SplitTextByCharacter()
will insert a newline after each character, causing the text to appear as a vertical column:
I
S
S
U
E
S
This can be useful for Y axis titles, as demonstrated below:
// set the left title of a plot to be written downward, letter-by-letter
thePlot->GetLeftYAxis().GetTitle().GetGraphItemInfo().
Text(L"ISSUES").Orient(Orientation::Horizontal).
// center the text for the best appearance
LabelAlignment(TextAlignment::Centered);
thePlot->GetLeftYAxis().GetTitle().SplitTextByCharacter();
Another feature is to split the text based on a maximum line length or bounding box. Refer to
Label::SplitTextToFitLength()
and Label::SplitTextToFitBoundingBox()
for these features.
The text alignment of the label, as well as its alignment relative to its parent, can be customized. The following demonstrates left aligning a chart's caption and justifying its content:
theChart->GetCaption().GetGraphItemInfo().
// push the caption to the left of the chart's area
ChildAlignment(RelativeAlignment::FlushLeft).
// justify its text
LabelAlignment(TextAlignment::Justified).
Text(_(L"Bar widths indicate the proportional number of respondents"));
// split the text so that the justification is enacted
theChart->GetCaption().SplitTextToFitLength(20);
If using a minimum user-defined size (see "Uniform Widths" below), then the vertical
alignment of a Label can also be controlled via Label::GetGraphItemInfo().SetPageAlignment()
(or the LabelPageAlignment
property when being constructed).
Label groupHeader(
GraphItemInfo(
L"My Section Header").
Scaling(GetScaling()).
// call this if being constructed inside of a graph's
// size calculation function
DPIScaling(GetDPIScaleFactor()).
// bottom align text within its (minimum-sized bounding box)
LabelPageVerticalAlignment(PageVerticalAlignment::BottomAligned));
// At least 200 pixels (not DIPs) tall.
// (The minimum user width is left unused with std::nullopt)
groupHeader.SetMinimumUserSize(wxSize(std::nullopt, 200));
Stylings can be applied to make the label appear like an index card:
First line
---------------
Second line
---------------
Third line
---------------
or dotted lined paper:
First line
- - - - - - - -
Second line
- - - - - - - -
Third line
- - - - - - - -
or even arrowed, lined paper:
First line
-------------->
Second line
-------------->
Third line
-------------->
This is controlled via Label::SetLabelStyle()
.
The first line of a Label
can be treated as a header, where subsequent lines will appear like a list. For example:
theChart->GetTitle().GetHeaderInfo().
// specify that we want to use the first line as a header
Enable(true).
// center the header
Alignment(TextAlignment::Centered).
// make the first line (i.e., the header) bold
GetFont().MakeBold();
theChart->GetTitle().
SetText(L"REMAINING\n- Critical issues\n- Focus group feedback\n- Help integration");
To use this feature, access a label's GetHeaderInfo()
, enable it, and set any of its properties. Note that a label's
header manages its own properties, so it can have a different font and alignment compared to the rest of the label's content.
This feature can be useful when creating a legend (see below).
To ensure that a label fits within a given area, use CalcFontSizeToFitBoundingBox()
to find the proper font size
to make the label fit.
A label can be added to a plot to act as an annotation. This can be done via Graph2D::AddAnnotation()
, where
the label will be anchored by the provided data point. (The label's anchoring value will determine how the anchor
point is used). In the following example, a note will be added at the
intersection of 3 (the X axis value) and 59 (the Y axis values):
auto note = std::make_unique<Label>(
GraphItemInfo(L"What happened this week?\nAre we sure this is correct???").
Pen(*wxLIGHT_GREY).
FontBackgroundColor(ColorBrewer::GetColor(Color::AntiqueWhite)).
Anchoring(Anchoring::TopRightCorner).Padding(4, 4, 4, 4));
linePlot->AddAnnotation(note,
// top corner of note
wxPoint(3, 38));
Optionally, a line from the note can also be drawn to a specific data point:
linePlot->AddAnnotation(note,
// top corner of note
wxPoint(3, 38),
// the suspect data point to make the note point to
wxPoint(4, 59));
Labels can also be used to construct a legend.
auto legend = std::make_unique<GraphItems::Label>(
// set the legend's text (newlines start a new legend item)
GraphItemInfo(_(L"Items:\nFirst item\nSecond Item")).
// don't show an outline around the legend
Pen(wxNullPen).
// tells the canvas to limit the width for this legend
// to its content's calculated width
FixedWidthOnCanvas(true).
// add space for the icons
Padding(8, 8, 0, Label::GetMinLegendWidth() );
// set the first line of the text ("Items:"), as the header of the legend
legend->GetHeaderInfo().Alignment(TextAlignment::FlushLeft).Enable(true);
// add icons to the legend
legend->GetLegendIcons().emplace_back(
LegendIcon(IconShape::AsteriskIcon, *wxBLACK,
*wxBLACK));
legend->GetLegendIcons().emplace_back(
LegendIcon(IconShape::CrossIcon, *wxBLACK,
*wxBLACK));
// "canvas" is the parent canvas that this legend will be added to.
// Canvas::CalcMinWidthProportion() calculates the percent of the canvas
// that the legend will need, and passing this value to SetCanvasWidthProportion()
// will tell the canvas later what this size is.
legend->SetCanvasWidthProportion(canvas->CalcMinWidthProportion(legend));
// note that instead of calling the above, you can also call the canvas's
// CalcRowDimensions() method after adding the legend to it. See example below.
Note that the text for a legend is one string, where each newline indicates a new item in the legend.
If the Label
's header is enabled, then the first line will be treated as the header and subsequent
lines as the legend items.
After a legend is constructed, it can be added to a canvas. For example, here we could have a canvas that will hold a graph and a legend to the right of it:
canvas->SetFixedObjectsGridSize(1, 2);
canvas->SetFixedObject(0, 0, graph);
// add the legend
canvas->SetFixedObject(0, 1, legend);
// calculate the layout of the canvas's items, taking into account
// that the legend should not use more width than its measured width
canvas->CalcRowDimensions();
By default, a legend placed next to a graph will be top aligned inside of its area. To center or
bottom align it, use the legend's SetPageVerticalAlignment()
method:
legend->SetPageVerticalAlignment(PageVerticalAlignment::Centered);
Likewise, a legend beneath or above its graph can be horizontally centered or right aligned
via SetPageHorizontalAlignment()
.
Most graph types have built-in functions to construct a legend, which can be edited prior to moving
into a canvas. If edits are made to the returned legend, be sure to call Canvas::CalcRowDimensions()
(see above) to recalculate its best fit after adding it to a canvas.
Finally, an extra step is required for legends that are placed above or below a graph. When placing a legend on a separate row in a canvas, its row most be specified as having its proportion locked to the canvas. Basically, this will tell the canvas to maintain the proportion of the legend row to its original calculation, no matter how much title spacing (or even height adjustments) the canvas undergoes.
A canvas's GetRowInfo().LockProportion()
method will do this if you have manually specified your rows'
heights. However, if your rows are simply fitting their content or using equally divided heights
(or a combination of the two), then CalcRowDimensions()
can handle this.
auto legend = roadmap->CreateLegend(LegendCanvasPlacementHint::AboveOrBeneathGraph, true);
canvas->SetFixedObject(2, 0, std::move(legend)); // move the legend unique_ptr into a shared_ptr
// This will fit the legend row to its content and then lock its height proportion of the canvas.
// This way, if the canvas' aspect ratio is altered, the legend will be properly adjusted and not
// appear stretched.
canvas->CalcRowDimensions();
To set a group of labels to a uniform width, call Label::SetMinimumUserSize()
for each label, passing
in the same size value. This can be useful when lining up a series of labels to appear as a column.
Note that this uniform width will be more noticeable if the labels are either showing a
background color (via Label::GetGraphItemInfo().FontBackgroundColor()
) or outline
(via Label::GetGraphItemInfo().Pen()
).