.

The Vector Properties Dialog

The Layer Properties dialog for a vector layer provides information about the layer, symbology settings and labeling options. If your vector layer has been loaded from a PostgreSQL/PostGIS datastore, you can also alter the underlying SQL for the layer by invoking the Query Builder dialog on the General tab. To access the Layer Properties dialog, double-click on a layer in the legend or right-click on the layer and select Properties from the pop-up menu.

Figure Vector Properties 1:

../../../_images/vector_general_menu.png

Vector Layer Properties Dialog nix

Style Menu

The Style menu provides you with a comprehensive tool for rendering and symbolizing your vector data. You can use Layer rendering ‣ tools that are common to all vector data, as well as special symbolizing tools that were designed for the different kinds of vector data.

Layer rendering

  • Layer transparency slider: You can make the underlying layer in the map canvas visible with this tool. Use the slider to adapt the visibility of your vector layer to your needs. You can also make a precise definition of the percentage of visibility in the the menu beside the slider.
  • Layer blending mode and Feature blending mode: You can achieve special rendering effects with these tools that you may previously only know from graphics programs. The pixels of your overlaying and underlaying layers are mixed through the settings described below.
    • Normal: This is the standard blend mode, which uses the alpha channel of the top pixel to blend with the pixel beneath it. The colors aren’t mixed.
    • Lighten: This selects the maximum of each component from the foreground and background pixels. Be aware that the results tend to be jagged and harsh.
    • Screen: Light pixels from the source are painted over the destination, while dark pixels are not. This mode is most useful for mixing the texture of one layer with another layer (e.g., you can use a hillshade to texture another layer).
    • Dodge: Dodge will brighten and saturate underlying pixels based on the lightness of the top pixel. So, brighter top pixels cause the saturation and brightness of the underlying pixels to increase. This works best if the top pixels aren’t too bright; otherwise the effect is too extreme.
    • Addition: This blend mode simply adds pixel values of one layer with the other. In case of values above one (in the case of RGB), white is displayed. This mode is suitable for highlighting features.
    • Darken: This creates a resultant pixel that retains the smallest components of the foreground and background pixels. Like lighten, the results tend to be jagged and harsh.
    • Multiply: Here, the numbers for each pixel of the top layer are multiplied with the corresponding pixels for the bottom layer. The results are darker pictures.
    • Burn: Darker colors in the top layer cause the underlying layers to darken. Burn can be used to tweak and colorise underlying layers.
    • Overlay: This mode combines the multiply and screen blending modes. In the resulting picture, light parts become lighter and dark parts become darker.
    • Soft light: This is very similar to overlay, but instead of using multiply/screen it uses color burn/dodge. This is supposed to emulate shining a soft light onto an image.
    • Hard light: Hard light is also very similar to the overlay mode. It’s supposed to emulate projecting a very intense light onto an image.
    • Difference: Difference subtracts the top pixel from the bottom pixel, or the other way around, to always get a positive value. Blending with black produces no change, as the difference with all colors is zero.
    • Subtract: This blend mode simply subtracts pixel values of one layer from the other. In case of negative values, black is displayed.

Renderers

The renderer is responsible for drawing a feature together with the correct symbol. There are four types of renderers: single symbol, categorized, graduated and rule-based. There is no continuous color renderer, because it is in fact only a special case of the graduated renderer. The categorized and graduated renderers can be created by specifying a symbol and a color ramp - they will set the colors for symbols appropriately. For point layers, there is a point displacement renderer available. For each data type (points, lines and polygons), vector symbol layer types are available. Depending on the chosen renderer, the Style menu provides different additional sections. On the bottom right of the symbology dialog, there is a [Symbol] button, which gives access to the Style Manager (see section vector_style_manager). The Style Manager allows you to edit and remove existing symbols and add new ones.

Tip

Select and change multiple symbols

The Symbology allows you to select multiple symbols and right click to change color, transparency, size, or width of selected entries.

Single Symbol Renderer

The Single Symbol Renderer is used to render all features of the layer using a single user-defined symbol. The properties, which can be adjusted in the Style menu, depend partially on the type of layer, but all types share the following dialog structure. In the top-left part of the menu, there is a preview of the current symbol to be rendered. On the right part of the menu, there is a list of symbols already defined for the current style, prepared to be used by selecting them from the list. The current symbol can be modified using the menu on the right side.

If you click on the first level in the Symbol layers dialog on the left side, it’s possible to define basic parameters like Size, Transparency, Color and Rotation. Here, the layers are joined together.

Figure Symbology 1:

../../../_images/singlesymbol_ng_line.png

Single symbol line properties nix

More detailed settings can be made when clicking on the second level in the Symbol layers dialog. You can define Symbol layers that are combined afterwards. A symbol can consist of several Symbol layers. The following settings are possible:

  • Point layers:
  • Symbol layer type: You have the option to use Ellipse markers, Font markers, Simple markers, SVG markers and Vector Field markers.
  • Colors
  • Size
  • Outline style
  • Outline width
  • Angle
  • Offset X,Y: You can shift the symbol in the x- or y-direction.
  • Anchor point
  • Data defined properties ...
  • Line layers:
  • Symbol layer type: Here you can use Simple Lines and Marker Lines.
  • Color
  • Pen width
  • Offset
  • Pen style
  • Join style
  • Cap style
  • checkbox Use custom dash pattern
  • Dash pattern unit
  • Data defined properties ...
  • Polygon Layers:
  • Symbol layer type: It’s possible to use Centroid Fill, Gradient Fill, Line Pattern Fill, Point Pattern Fill, SVG Fill, Simple Fill and two Outlines (Marker line and Simple line).
  • Colors
  • Fill style
  • Border style
  • Border width
  • Offset X,Y
  • Data defined properties ...

‘Gradient Fill’ Symbol layer type allows you to select between a radiobuttonon Two color and radiobuttonoff Color ramp setting. You can use the checkbox Feature centroid as Referencepoint. All fills ‘Gradient Fill` Symbol layer type is also available through the Symbol menu of the Categorized and Graduated Renderer and through the Rule properties menu of the Rule-based renderer.

It is possible to only draw polygon borders inside the polygon. Using ‘Outline: Simple line’ select checkbox Draw line only inside polygon.

Note that once you have set the size in the lower levels of the Symbol layers dialog, the size of the whole symbol can be changed with the Size menu in the first level again. The size of the lower levels changes accordingly, while the size ratio is maintained. After having made any needed changes, the symbol can be added to the list of current style symbols (using [Symbol] selectstring Save in symbol library), and then it can easily be used in the future. Furthermore, you can use the [Save Style] selectstring button to save the symbol as a QGIS layer style file (.qml) or SLD file (.sld). SLDs can be exported from any type of renderer – single symbol, categorized, graduated or rule-based – but when importing an SLD, either a single symbol or rule-based renderer is created. That means that categorized or graduated styles are converted to rule-based. If you want to preserve those renderers, you have to stick to the QML format. On the other hand, it can be very handy sometimes to have this easy way of converting styles to rule-based.

With the Style manager from the [Symbol] selectstring menu you can administer your symbols. You can mActionSignPlus add item, editedit item, mActionSignMinus remove item and user share item. ‘Marker’ symbols, ‘Line’ symbols, ‘Fill’ patterns and ‘Color ramps’ can be used to create the symbols (see defining_symbols). The symbols are then assigned to ‘All Symbols’, ‘Groups’ or ‘Smart groups’.

Categorized Renderer

The Categorized Renderer is used to render all features from a layer, using a single user-defined symbol whose color reflects the value of a selected feature’s attribute. The Style menu allows you to select:

  • The attribute (using the Column listbox or the mActionmIconExpressionEditorOpen Set column expression function)
  • The symbol (using the Symbol dialog)
  • The colors (using the Color Ramp listbox)

The [Advanced] button in the lower-right corner of the dialog allows you to set the fields containing rotation and size scale information. For convenience, the center of the menu lists the values of all currently selected attributes together, including the symbols that will be rendered.

The example in figure_symbology_2 shows the category rendering dialog used for the rivers layer of the QGIS sample dataset.

Figure Symbology 2:

../../../_images/categorysymbol_ng_line.png

Categorized Symbolizing options nix

You can create a custom color ramp choosing New color ramp... from the Color ramp drop-down menu. A dialog will prompt for the ramp type: Gradient, Random, ColorBrewer, or cpt-city. The first three have options for number of steps and/or multiple stops in the color ramp. You can use the checkbox Invert option while classifying the data with a color ramp. See figure_symbology_3 for an example of custom color ramp and figure_symbology_3a for the cpt-city dialog.

Figure Symbology 3:

../../../_images/customColorRampGradient.png

Example of custom gradient color ramp with multiple stops nix

The cpt-city option opens a new dialog with hundreds of themes included ‘out of the box’.

Figure Symbology 3a:

../../../_images/cpt-cityColorRamps.png

cpt-city dialog with hundreds of color ramps nix

Graduated Renderer

The Graduated Renderer is used to render all the features from a layer, using a single user-defined symbol whose color reflects the assignment of a selected feature’s attribute to a class.

Figure Symbology 4:

../../../_images/graduatesymbol_ng_line.png

Graduated Symbolizing options nix

Like the Categorized Renderer, the Graduated Renderer allows you to define rotation and size scale from specified columns.

Also, analogous to the Categorized Renderer, the Style tab allows you to select:

  • The attribute (using the Column listbox or the mActionmIconExpressionEditorOpen Set column expression function)
  • The symbol (using the Symbol Properties button)
  • The colors (using the Color Ramp list)

Additionally, you can specify the number of classes and also the mode for classifying features within the classes (using the Mode list). The available modes are:

  • Equal Interval
  • Quantile
  • Natural Breaks (Jenks)
  • Standard Deviation
  • Pretty Breaks

The listbox in the center part of the Style menu lists the classes together with their ranges, labels and symbols that will be rendered.

The example in figure_symbology_4 shows the graduated rendering dialog for the rivers layer of the QGIS sample dataset.

Tip

Thematic maps using an expression

Categorized and graduated thematic maps can now be created using the result of an expression. In the properties dialog for vector layers, the attribute chooser has been augmented with a mActionmIconExpressionEditorOpen Set column expression function. So now you no longer need to write the classification attribute to a new column in your attribute table if you want the classification attribute to be a composite of multiple fields, or a formula of some sort.

Rule-based rendering

The Rule-based Renderer is used to render all the features from a layer, using rule based symbols whose color reflects the assignment of a selected feature’s attribute to a class. The rules are based on SQL statements. The dialog allows rule grouping by filter or scale, and you can decide if you want to enable symbol levels or use only the first-matched rule.

The example in figure_symbology_5 shows the rule-based rendering dialog for the rivers layer of the QGIS sample dataset.

To create a rule, activate an existing row by double-clicking on it, or click on ‘+’ and click on the new rule. In the Rule properties dialog, you can define a label for the rule. Press the browsebutton button to open the expression string builder. In the Function List, click on Fields and Values to view all attributes of the attribute table to be searched. To add an attribute to the field calculator Expression field, double click its name in the Fields and Values list. Generally, you can use the various fields, values and functions to construct the calculation expression, or you can just type it into the box (see Field Calculator). Since QGIS 2.2, you can create a new rule by copying and pasting an existing rule with the right mouse button. Also since QGIS 2.2, you can use the ‘ELSE’ rule that will be run if none of the other rules on that level match.

Figure Symbology 5:

../../../_images/rulesymbol_ng_line.png

Rule-based Symbolizing options nix

Point displacement

The Point Displacement Renderer works to visualize all features of a point layer, even if they have the same location. To do this, the symbols of the points are placed on a displacement circle around a center symbol.

Figure Symbology 6:

../../../_images/poi_displacement.png

Point displacement dialog nix

Tip

Export vector symbology

You have the option to export vector symbology from QGIS into Google *.kml, *.dxf and MapInfo *.tab files. Just open the right mouse menu of the layer and click on Save selection as ‣ to specify the name of the output file and its format. In the dialog, use the Symbology export menu to save the symbology either as Feature symbology ‣ or as Symbol layer symbology ‣. If you have used symbol layers, it is recommended to use the second setting.

Labels Menu

The mActionLabeling Labels core application provides smart labeling for vector point, line and polygon layers, and it only requires a few parameters. This new application also supports on-the-fly transformed layers. The core functions of the application have been redesigned. In QGIS, there are a number of other features that improve the labeling. The following menus have been created for labeling the vector layers:

  • Text
  • Formatting
  • Buffer
  • Background
  • Shadow
  • Placement
  • Rendering

Let us see how the new menus can be used for various vector layers.

Labeling point layers

Start QGIS and load a vector point layer. Activate the layer in the legend and click on the mActionLabeling Layer Labeling Options icon in the QGIS toolbar menu.

The first step is to activate the checkbox Label this layer with checkbox and select an attribute column to use for labeling. Click mActionmIconExpressionEditorOpen if you want to define labels based on expressions - See labeling_with_expressions.

The following steps describe a simple labeling without using the Data defined override functions, which are situated next to the drop-down menus.

You can define the text style in the Text menu (see Figure_labels_1 ). Use the Type case option to influence the text rendering. You have the possibility to render the text ‘All uppercase’, ‘All lowercase’ or ‘Capitalize first letter’. Use the blend modes to create effects known from graphics programs (see blend_modes).

In the Formatting menu, you can define a character for a line break in the labels with the ‘Wrap on character’ function. Use the checkbox Formatted numbers option to format the numbers in an attribute table. Here, decimal places may be inserted. If you enable this option, three decimal places are initially set by default.

To create a buffer, just activate the checkbox Draw text buffer checkbox in the Buffer menu. The buffer color is variable. Here, you can also use blend modes (see blend_modes).

If the checkbox Color buffer’s fill checkbox is activated, it will interact with partially transparent text and give mixed color transparency results. Turning off the buffer fill fixes that issue (except where the interior aspect of the buffer’s stroke intersects with the text’s fill) and also allows you to make outlined text.

In the Background menu, you can define with Size X and Size Y the shape of your background. Use Size type to insert an additional ‘Buffer’ into your background. The buffer size is set by default here. The background then consists of the buffer plus the background in Size X and Size Y. You can set a Rotation where you can choose between ‘Sync with label’, ‘Offset of label’ and ‘Fixed’. Using ‘Offset of label’ and ‘Fixed’, you can rotate the background. Define an Offset X,Y with X and Y values, and the background will be shifted. When applying Radius X,Y, the background gets rounded corners. Again, it is possible to mix the background with the underlying layers in the map canvas using the Blend mode (see blend_modes).

Use the Shadow menu for a user-defined Drop shadow. The drawing of the background is very variable. Choose between ‘Lowest label component’, ‘Text’, ‘Buffer’ and ‘Background’. The Offset angle depends on the orientation of the label. If you choose the checkbox Use global shadow checkbox, then the zero point of the angle is always oriented to the north and doesn’t depend on the orientation of the label. You can influence the appearance of the shadow with the Blur radius. The higher the number, the softer the shadows. The appearance of the drop shadow can also be altered by choosing a blend mode (see blend_modes).

Choose the Placement menu for the label placement and the labeling priority. Using the radiobuttonon Offset from point setting, you now have the option to use Quadrants to place your label. Additionally, you can alter the angle of the label placement with the Rotation setting. Thus, a placement in a certain quadrant with a certain rotation is possible.

In the Rendering menu, you can define label and feature options. Under Label options, you find the scale-based visibility setting now. You can prevent QGIS from rendering only selected labels with the checkbox Show all labels for this layer (including colliding labels) checkbox. Under Feature options, you can define whether every part of a multipart feature is to be labeled. It’s possible to define whether the number of features to be labeled is limited and to checkbox Discourage labels from covering features.

Figure Labels 1:

../../../_images/label_points.png

Smart labeling of vector point layers nix

Labeling line layers

The first step is to activate the checkbox Label this layer checkbox in the Label settings tab and select an attribute column to use for labeling. Click mActionmIconExpressionEditorOpen if you want to define labels based on expressions - See labeling_with_expressions.

After that, you can define the text style in the Text menu. Here, you can use the same settings as for point layers.

Also, in the Formatting menu, the same settings as for point layers are possible.

The Buffer menu has the same functions as described in section labeling_point_layers.

The Background menu has the same entries as described in section labeling_point_layers.

Also, the Shadow menu has the same entries as described in section labeling_point_layers.

In the Placement menu, you find special settings for line layers. The label can be placed radiobuttonon Parallel, radiobuttonoff Curved or radiobuttonoff Horizontal. With the radiobuttonon Parallel and radiobuttonoff Curved option, you can define the position checkbox Above line, checkbox On line and checkbox Below line. It’s possible to select several options at once. In that case, QGIS will look for the optimal position of the label. Remember that here you can also use the line orientation for the position of the label. Additionally, you can define a Maximum angle between curved characters when selecting the radiobuttonoff Curved option (see Figure_labels_2 ).

The Rendering menu has nearly the same entries as for point layers. In the Feature options, you can now Suppress labeling of features smaller than.

Figure Labels 2:

../../../_images/label_line.png

Smart labeling of vector line layers nix

Labeling polygon layers

The first step is to activate the checkbox Label this layer checkbox and select an attribute column to use for labeling. Click mActionmIconExpressionEditorOpen if you want to define labels based on expressions - See labeling_with_expressions.

In the Text menu, define the text style. The entries are the same as for point and line layers.

The Formatting menu allows you to format multiple lines, also similar to the cases of point and line layers.

As with point and line layers, you can create a text buffer in the Buffer menu.

Use the Background menu to create a complex user-defined background for the polygon layer. You can use the menu also as with the point and line layers.

The entries in the Shadow menu are the same as for point and line layers.

In the Placement menu, you find special settings for polygon layers (see Figure_labels_3). radiobuttonon Offset from centroid, radiobuttonoff Horizontal (slow), radiobuttonoff Around centroid, radiobuttonoff Free and radiobuttonoff Using perimeter are possible.

In the radiobuttonon Offset from centroid settings, you can specify if the centroid is of the radiobuttonon visible polygon or radiobuttonoff whole polygon. That means that either the centroid is used for the polygon you can see on the map or the centroid is determined for the whole polygon, no matter if you can see the whole feature on the map. You can place your label with the quadrants here, and define offset and rotation. The radiobuttonoff Around centroid setting makes it possible to place the label around the centroid with a certain distance. Again, you can define radiobuttonon visible polygon or radiobuttonoff whole polygon for the centroid. With the radiobuttonoff Using perimeter settings, you can define a position and a distance for the label. For the position, checkbox Above line, checkbox On line, checkbox Below line and checkbox Line orientation dependent position are possible.

The entries in the Rendering menu are the same as for line layers. You can also use Suppress labeling of features smaller than in the Feature options.

Figure Labels 3:

../../../_images/label_area.png

Smart labeling of vector polygon layers nix

Define labels based on expressions

QGIS allows to use expressions to label features. Just click the mActionmIconExpressionEditorOpen icon in the mActionLabeling Labels menu of the properties dialog. In figure_labels_4 you see a sample expression to label the alaska regions with name and area size, based on the field ‘NAME_2’, some descriptive text and the function ‘$area()’ in combination with ‘format_number()’ to make it look nicer.

Figure Labels 4:

../../../_images/label_expression.png

Using expressions for labeling nix

Expression based labeling is easy to work with. All you have to take care of is, that you need to combine all elements (strings, fields and functions) with a string concatenation sign ‘||’ and that fields a written in “double quotes” and strings in ‘single quotes’. Let’s have a look at some examples:

 # label based on two fields 'name' and 'place' with a
 "name" || ', ' || "place"

 -> John Smith, Paris

 # label based on two fields 'name' and 'place' with a descriptive text
 'My name is ' || "name" || 'and I live in ' || "place"

 -> My name is John Smith and I live in Paris

 # label based on two fields 'name' and 'place' with a descriptive text
 # and a line break (\n)
 'My name is ' || "name" || '\nI live in ' || "place"

 -> My name is John Smith
    I live in Paris

 # create a multi-line label based on a field and the $area function
 # to show the place name and its area size based on unit meter.
 'The area of ' || "place" || 'has a size of ' || $area || 'm²'

 -> The area of Paris has a size of 105000000 m²

 # create a CASE ELSE condition. If the population value in field
 # population is <= 50000 it is a town, otherwise a city.
 'This place is a ' || CASE WHEN "population <= 50000" THEN 'town' ELSE 'city' END

-> This place is a town

As you can see in the expression builder, you have hundreds if functions available to create simple and very complex expressions to label your data in QGIS.

Using data-defined override for labeling

With the data-defined override functions, the settings for the labeling are overridden by entries in the attribute table. You can activate and deactivate the function with the right-mouse button. Hover over the symbol and you see the information about the data-defined override, including the current definition field. We now describe an example using the data-defined override function for the mActionMoveLabelMove label function (see figure_labels_5 ).

  1. Import lakes.shp from the QGIS sample dataset.
  2. Double-click the layer to open the Layer Properties. Click on Labels and Placement. Select radiobuttonon Offset from centroid.
  3. Look for the Data defined entries. Click the mIconDataDefine icon to define the field type for the Coordinate. Choose ‘xlabel’ for X and ‘ylabel’ for Y. The icons are now highlighted in yellow.
  4. Zoom into a lake.
  5. Go to the Label toolbar and click the mActionMoveLabel icon. Now you can shift the label manually to another position (see figure_labels_6 ). The new position of the label is saved in the ‘xlabel’ and ‘ylabel’ columns of the attribute table.

Figure Labels 5:

../../../_images/label_data_defined.png

Labeling of vector polygon layers with data-defined override nix

Figure Labels 6:

../../../_images/move_label.png

Move labels nix

Fields Menu

attributes Within the Fields menu, the field attributes of the selected dataset can be manipulated. The buttons mActionNewAttribute New Column and mActionDeleteAttribute Delete Column can be used when the dataset is in mActionToggleEditing Editing mode.

Edit Widget

Figure Fields 1:

../../../_images/editwidgetsdialog.png

Dialog to select an edit widget for an attribute column nix

Within the Fields menu, you also find an edit widget column. This column can be used to define values or a range of values that are allowed to be added to the specific attribute table column. If you click on the [edit widget] button, a dialog opens, where you can define different widgets. These widgets are:

  • Line edit: An edit field that allows you to enter simple text (or restrict to numbers for numeric attributes).
  • Classification: Displays a combo box with the values used for classification, if you have chosen ‘unique value’ as legend type in the Style menu of the properties dialog.
  • Range: Allows you to set numeric values from a specific range. The edit widget can be either a slider or a spin box.
  • Unique values: You can select one of the values already used in the attribute table. If ‘Editable’ is activated, a line edit is shown with autocompletion support, otherwise a combo box is used.
  • File name: Simplifies the selection by adding a file chooser dialog.
  • Value map: A combo box with predefined items. The value is stored in the attribute, the description is shown in the combo box. You can define values manually or load them from a layer or a CSV file.
  • Enumeration: Opens a combo box with values that can be used within the columns type. This is currently only supported by the PostgreSQL provider.
  • Immutable: The immutable attribute column is read-only. The user is not able to modify the content.
  • Hidden: A hidden attribute column is invisible. The user is not able to see its contents.
  • Checkbox: Displays a checkbox, and you can define what attribute is added to the column when the checkbox is activated or not.
  • Text edit: This opens a text edit field that allows multiple lines to be used.
  • Calendar: Opens a calendar widget to enter a date. Column type must be text.
  • Value Relation: Offers values from a related table in a combobox. You can select layer, key column and value column.
  • UUID Generator: Generates a read-only UUID (Universally Unique Identifiers) field, if empty.
  • Photo: Field contains a filename for a picture. The width and height of the field can be defined.
  • Webview: Field contains a URL. The width and height of the field is variable.
  • Color: A field that allows you to enter color codes. During data entry, the color is visible through a color bar included in the field.
  • Relation Reference: This widged lets you embed the feature form of the referenced layer on the feature form of the actual layer. See Creating one to many relations.

With the Attribute editor layout, you can now define built-in forms for data entry jobs (see figure_fields_2). Choose ‘Drag and drop designer’ and an attribute column. Use the mActionSignPlus icon to create a category that will then be shown during the digitizing session (see figure_fields_3). The next step will be to assign the relevant fields to the category with the mActionArrowRight icon. You can create more categories and use the same fields again. When creating a new category, QGIS will insert a new tab for the category in the built-in form.

Other options in the dialog are ‘Autogenerate’ and ‘Provide ui-file’. ‘Autogenerate’ just creates editors for all fields and tabulates them. The ‘Provide ui-file’ option allows you to use complex dialogs made with the Qt-Designer. Using a UI-file allows a great deal of freedom in creating a dialog. For detailed information, see http://nathanw.net/2011/09/05/qgis-tips-custom-feature-forms-with-python-logic/.

QGIS dialogs can have a Python function that is called when the dialog is opened. Use this function to add extra logic to your dialogs. An example is (in module MyForms.py):

def open(dialog,layer,feature):
geom = feature.geometry()
control = dialog.findChild(QWidged,"My line edit")

Reference in Python Init Function like so: MyForms.open

MyForms.py must live on PYTHONPATH, in .qgis2/python, or inside the project folder.

Figure Fields 2:

../../../_images/attribute_editor_layout.png

Dialog to create categories with the Attribute editor layout

Figure Fields 3:

../../../_images/resulting_feature_form.png

Resulting built-in form in a data entry session

General Menu

general Use this menu to make general settings for the vector layer. There are several options available:

Layer Info

  • Change the display name of the layer in displayed as
  • Define the Layer source of the vector layer
  • Define the Data source encoding to define provider-specific options and to be able to read the file

Coordinate Reference System

  • Specify the coordinate reference system. Here, you can view or change the projection of the specific vector layer.
  • Create a Spatial Index (only for OGR-supported formats)
  • Update Extents information for a layer
  • View or change the projection of the specific vector layer, clicking on Specify ...

checkbox Scale dependent visibility

  • You can set the Maximum (inclusive) and Minimum (exclusive) scale. The scale can also be set by the [Current] buttons.

Feature subset

Figure General 1:

../../../_images/vector_general_menu.png

General menu in vector layers properties dialog nix

Rendering Menu

QGIS 2.2 introduces support for on-the-fly feature generalisation. This can improve rendering times when drawing many complex features at small scales. This feature can be enabled or disabled in the layer settings using the checkbox Simplify geometry option. There is also a new global setting that enables generalisation by default for newly added layers (see section Options). Note: Feature generalisation may introduce artefacts into your rendered output in some cases. These may include slivers between polygons and inaccurate rendering when using offset-based symbol layers.

Display Menu

mActionMapTips This menu is specifically created for Map Tips. It includes a new feature: Map Tip display text in HTML. While you can still choose a radiobuttonoff Field to be displayed when hovering over a feature on the map, it is now possible to insert HTML code that creates a complex display when hovering over a feature. To activate Map Tips, select the menu option View ‣ MapTips. Figure Display 1 shows an example of HTML code.

Figure Display 1:

../../../_images/display_html.png

HTML code for map tip nix

Figure Display 2:

../../../_images/map_tip.png

Map tip made with HTML code nix

Actions Menu

action QGIS provides the ability to perform an action based on the attributes of a feature. This can be used to perform any number of actions, for example, running a program with arguments built from the attributes of a feature or passing parameters to a web reporting tool.

Figure Actions 1:

../../../_images/action_dialog.png

Overview action dialog with some sample actions nix

Actions are useful when you frequently want to run an external application or view a web page based on one or more values in your vector layer. They are divided into six types and can be used like this:

  • Generic, Mac, Windows and Unix actions start an external process.
  • Python actions execute a Python expression.
  • Generic and Python actions are visible everywhere.
  • Mac, Windows and Unix actions are visible only on the respective platform (i.e., you can define three ‘Edit’ actions to open an editor and the users can only see and execute the one ‘Edit’ action for their platform to run the editor).

There are several examples included in the dialog. You can load them by clicking on [Add default actions]. One example is performing a search based on an attribute value. This concept is used in the following discussion.

Defining Actions

Attribute actions are defined from the vector Layer Properties dialog. To define an action, open the vector Layer Properties dialog and click on the Actions menu. Go to the Action properties. Select ‘Generic’ as type and provide a descriptive name for the action. The action itself must contain the name of the application that will be executed when the action is invoked. You can add one or more attribute field values as arguments to the application. When the action is invoked, any set of characters that start with a % followed by the name of a field will be replaced by the value of that field. The special characters %% will be replaced by the value of the field that was selected from the identify results or attribute table (see using_actions below). Double quote marks can be used to group text into a single argument to the program, script or command. Double quotes will be ignored if preceded by a backslash.

If you have field names that are substrings of other field names (e.g., col1 and col10), you should indicate that by surrounding the field name (and the % character) with square brackets (e.g., [%col10]). This will prevent the %col10 field name from being mistaken for the %col1 field name with a 0 on the end. The brackets will be removed by QGIS when it substitutes in the value of the field. If you want the substituted field to be surrounded by square brackets, use a second set like this: [[%col10]].

Using the Identify Features tool, you can open the Identify Results dialog. It includes a (Derived) item that contains information relevant to the layer type. The values in this item can be accessed in a similar way to the other fields by preceeding the derived field name with (Derived).. For example, a point layer has an X and Y field, and the values of these fields can be used in the action with %(Derived).X and %(Derived).Y. The derived attributes are only available from the Identify Results dialog box, not the Attribute Table dialog box.

Two example actions are shown below:

  • konqueror http://www.google.com/search?q=%nam
  • konqueror http://www.google.com/search?q=%%

In the first example, the web browser konqueror is invoked and passed a URL to open. The URL performs a Google search on the value of the nam field from our vector layer. Note that the application or script called by the action must be in the path, or you must provide the full path. To be certain, we could rewrite the first example as: /opt/kde3/bin/konqueror http://www.google.com/search?q=%nam. This will ensure that the konqueror application will be executed when the action is invoked.

The second example uses the %% notation, which does not rely on a particular field for its value. When the action is invoked, the %% will be replaced by the value of the selected field in the identify results or attribute table.

Using Actions

Actions can be invoked from either the Identify Results dialog, an Attribute Table dialog or from Run Feature Action (recall that these dialogs can be opened by clicking mActionIdentify Identify Features or mActionOpenTable Open Attribute Table or mAction Run Feature Action). To invoke an action, right click on the record and choose the action from the pop-up menu. Actions are listed in the popup menu by the name you assigned when defining the action. Click on the action you wish to invoke.

If you are invoking an action that uses the %% notation, right-click on the field value in the Identify Results dialog or the Attribute Table dialog that you wish to pass to the application or script.

Here is another example that pulls data out of a vector layer and inserts it into a file using bash and the echo command (so it will only work on nix or perhaps osx). The layer in question has fields for a species name taxon_name, latitude lat and longitude long. We would like to be able to make a spatial selection of localities and export these field values to a text file for the selected record (shown in yellow in the QGIS map area). Here is the action to achieve this:

bash -c "echo \"%taxon_name %lat %long\" >> /tmp/species_localities.txt"

After selecting a few localities and running the action on each one, opening the output file will show something like this:

Acacia mearnsii -34.0800000000 150.0800000000
Acacia mearnsii -34.9000000000 150.1200000000
Acacia mearnsii -35.2200000000 149.9300000000
Acacia mearnsii -32.2700000000 150.4100000000

As an exercise, we can create an action that does a Google search on the lakes layer. First, we need to determine the URL required to perform a search on a keyword. This is easily done by just going to Google and doing a simple search, then grabbing the URL from the address bar in your browser. From this little effort, we see that the format is http://google.com/search?q=qgis, where QGIS is the search term. Armed with this information, we can proceed:

  1. Make sure the lakes layer is loaded.

  2. Open the Layer Properties dialog by double-clicking on the layer in the legend, or right-click and choose Properties from the pop-up menu.

  3. Click on the Actions menu.

  4. Enter a name for the action, for example Google Search.

  5. For the action, we need to provide the name of the external program to run. In this case, we can use Firefox. If the program is not in your path, you need to provide the full path.

  6. Following the name of the external application, add the URL used for doing a Google search, up to but not including the search term: http://google.com/search?q=

  7. The text in the Action field should now look like this: firefox http://google.com/search?q=

  8. Click on the drop-down box containing the field names for the lakes layer. It’s located just to the left of the [Insert Field] button.

  9. From the drop-down box, select ‘NAMES’ and click [Insert Field].

  10. Your action text now looks like this:

    firefox http://google.com/search?q=%NAMES

  11. To finalize the action, click the [Add to action list] button.

This completes the action, and it is ready to use. The final text of the action should look like this:

firefox http://google.com/search?q=%NAMES

We can now use the action. Close the Layer Properties dialog and zoom in to an area of interest. Make sure the lakes layer is active and identify a lake. In the result box you’ll now see that our action is visible:

Figure Actions 2:

../../../_images/action_identifyaction.png

Select feature and choose action nix

When we click on the action, it brings up Firefox and navigates to the URL http://www.google.com/search?q=Tustumena. It is also possible to add further attribute fields to the action. Therefore, you can add a + to the end of the action text, select another field and click on [Insert Field]. In this example, there is just no other field available that would make sense to search for.

You can define multiple actions for a layer, and each will show up in the Identify Results dialog.

There are all kinds of uses for actions. For example, if you have a point layer containing locations of images or photos along with a file name, you could create an action to launch a viewer to display the image. You could also use actions to launch web-based reports for an attribute field or combination of fields, specifying them in the same way we did in our Google search example.

We can also make more complex examples, for instance, using Python actions.

Usually, when we create an action to open a file with an external application, we can use absolute paths, or eventually relative paths. In the second case, the path is relative to the location of the external program executable file. But what about if we need to use relative paths, relative to the selected layer (a file-based one, like a shapefile or SpatiaLite)? The following code will do the trick:

command = "firefox";
imagerelpath = "images_test/test_image.jpg";
layer = qgis.utils.iface.activeLayer();
import os.path;
layerpath = layer.source() if layer.providerType() == 'ogr'
  else (qgis.core.QgsDataSourceURI(layer.source()).database()
  if layer.providerType() == 'spatialite' else None);
path = os.path.dirname(str(layerpath));
image = os.path.join(path,imagerelpath);
import subprocess;
subprocess.Popen( [command, image ] );

We just have to remember that the action is one of type Python and the command and imagerelpath variables must be changed to fit our needs.

But what about if the relative path needs to be relative to the (saved) project file? The code of the Python action would be:

command="firefox";
imagerelpath="images/test_image.jpg";
projectpath=qgis.core.QgsProject.instance().fileName();
import os.path; path=os.path.dirname(str(projectpath)) if projectpath != '' else None;
image=os.path.join(path, imagerelpath);
import subprocess;
subprocess.Popen( [command, image ] );

Another Python action example is the one that allows us to add new layers to the project. For instance, the following examples will add to the project respectively a vector and a raster. The names of the files to be added to the project and the names to be given to the layers are data driven (filename and layername are column names of the table of attributes of the vector where the action was created):

qgis.utils.iface.addVectorLayer('/yourpath/[% "filename" %].shp','[% "layername" %]',
  'ogr')

To add a raster (a TIF image in this example), it becomes:

qgis.utils.iface.addRasterLayer('/yourpath/[% "filename" %].tif','[% "layername" %]
')

Joins Menu

join The Joins menu allows you to join a loaded attribute table to a loaded vector layer. After clicking mActionSignPlus, the Add vector join dialog appears. As key columns, you have to define a join layer you want to connect with the target vector layer. Then, you have to specify the join field that is common to both the join layer and the target layer. As a result of the join, all information from the join layer and the target layer are displayed in the attribute table of the target layer as joined information.

QGIS currently has support for joining non-spatial table formats supported by OGR (e.g., CSV, DBF and Excel), delimited text and the PostgreSQL provider (see figure_joins_1).

Figure Joins 1:

../../../_images/join_attributes.png

Join an attribute table to an existing vector layer nix

Additionally, the add vector join dialog allows you to:

  • checkbox Cache join layer in virtual memory
  • checkbox Create attribute index on the join field

Diagrams Menu

diagram The Diagrams menu allows you to add a graphic overlay to a vector layer (see figure_diagrams_1).

The current core implementation of diagrams provides support for pie charts, text diagrams and histograms.

The menu is divided into four tabs: Appearance, Size, Postion and Options.

In the cases of the text diagram and pie chart, text values of different data columns are displayed one below the other with a circle or a box and dividers. In the Size tab, diagram size is based on a fixed size or on linear scaling according to a classification attribute. The placement of the diagrams, which is done in the Position tab, interacts with the new labeling, so position conflicts between diagrams and labels are detected and solved. In addition, chart positions can be fixed manually.

Figure Diagrams 1:

../../../_images/diagram_tab.png

Vector properties dialog with diagram menu nix

We will demonstrate an example and overlay on the Alaska boundary layer a text diagram showing temperature data from a climate vector layer. Both vector layers are part of the QGIS sample dataset (see section Sample Data).

  1. First, click on the mActionAddOgrLayer Load Vector icon, browse to the QGIS sample dataset folder, and load the two vector shape layers alaska.shp and climate.shp.
  2. Double click the climate layer in the map legend to open the Layer Properties dialog.
  3. Click on the Diagrams menu, activate checkboxDisplay diagrams, and from the Diagram type selectstring combo box, select ‘Text diagram’.
  4. In the Appearance tab, we choose a light blue as background color, and in the Size tab, we set a fixed size to 18 mm.
  5. In the Position tab, placement could be set to ‘Around Point’.
  6. In the diagram, we want to display the values of the three columns T_F_JAN, T_F_JUL and T_F_MEAN. First select T_F_JAN as Attributes and click the mActionSignPlus button, then T_F_JUL, and finally T_F_MEAN.
  7. Now click [Apply] to display the diagram in the QGIS main window.
  8. You can adapt the chart size in the Size tab. Deactivate the checkbox Fixed size and set the size of the diagrams on the basis of an attribute with the [Find maximum value] button and the Size menu. If the diagrams appear too small on the screen, you can activate the checkbox Increase size of small diagrams checkbox and define the minimum size of the diagrams.
  9. Change the attribute colors by double clicking on the color values in the Assigned attributes field. Figure_diagrams_2 gives an idea of the result.
  10. Finally, click [Ok].

Figure Diagrams 2:

../../../_images/climate_diagram.png

Diagram from temperature data overlayed on a map nix

Remember that in the Position tab, a checkbox Data defined position of the diagrams is possible. Here, you can use attributes to define the position of the diagram. You can also set a scale-dependent visibility in the Appearance tab.

The size and the attributes can also be an expression. Use the mActionmIconExpressionEditorOpen button to add an expression.

Metadata Menu

metadata The Metadata menu consists of Description, Attribution, MetadataURL and Properties sections.

In the Properties section, you get general information about the layer, including specifics about the type and location, number of features, feature type, and editing capabilities. The Extents table provides you with layer extent information and the Layer Spatial Reference System, which is information about the CRS of the layer. This is a quick way to get information about the layer.

Additionally, you can add or edit a title and abstract for the layer in the Description section. It’s also possible to define a Keyword list here. These keyword lists can be used in a metadata catalogue. If you want to use a title from an XML metadata file, you have to fill in a link in the DataUrl field. Use Attribution to get attribute data from an XML metadata catalogue. In MetadataUrl, you can define the general path to the XML metadata catalogue. This information will be saved in the QGIS project file for subsequent sessions and will be used for QGIS server.

Figure Metadata 1:

../../../_images/vector_metadata_tab.png

Metadata menu in vector layers properties dialog nix