11 Working with Vector Data

Now let’s learn about working with vector data. In the Layers panel, turn off the DEM and turn on the streets layer. Notice that the streets are represented with lines.

11.1 Single Symbol Styling

Your street layer is loaded by default with a randomly selected color. Let’s start our vector work by changing the styling of our streets to something more appropriate.

  1. If your Layer Styling panel isn’t still open, reopen it from the View menu by selecting Panels and then checking the box next to Layer Styling.
  2. Make sure the drop-down to select the layers to work with is set to your streets data.
  3. Leave the drop-down for selecting the method of symbolizing the data on Single symbol. We’ll look at some of the other options later.
  4. In the white box near the top, you’ll see the word Line and Simple line. Click on the words Simple line. This will let us access lots of options for how to symbolize this set of lines.
  5. In the Color box, click on the colored box to open the color selection dialog.
  6. The color selection dialog has multiple options for how you select your colors. Take a minute to get a feel for how each of these works. I find each of these has advantages for certain situations.
  7. Choose a color that you think represents roads well. I used a dark gray. You can enter #666666 into the HTML notation box to use the same color if you’d like.
  8. Once you’ve picked a color, use the Go Back button to return to the main dialog. alt text

11.2 Attributes tables

Vector data is typically made of up of two parts: (1) the points, lines, or polygons that represent real-world entities called the geometry and (2) information about those entities, typically in table format, called attributes.

Let’s look at the attribute table for our streets:

  1. In the Layers panel, right click on the streets layer and select Open Attribute Table.
  2. Scroll to the right to explore the information in this table. We have information like the name of the street, whether or not it’s a one-way street, and the name of the neighborhood it’s in.
  3. Each row in this table is linked to a street in our data set. Click on the row number of any row. The program will automatically highlight this street in the map canvas HOWEVER, many of these streets are small so we might not see it right away. We can zoom to the selected row by clicking the Zoom map to selected row button. alt text
  4. Minimize the attribute table, and use the zoom in and out tools alt text to adjust your view. The Pan tool can also help navigate. alt text
  5. You can clear the selection (make nothing selected) with the Deselect Features tool. alt text This tool just makes nothing selected, it doesn’t delete data.
  6. If you’d like to zoom to see all of the streets data, right click on the streets layer in the Layers panel and select Zoom to layer(s).

11.3 Select by attributes

Selecting streets by hand is helpful, but depending on what we want to do, we might want an automated way to select the streets that we want to highlight. Let’s investigate the classcode column.

  1. In the attribute table for the streets layer, click on the Select features using an expression alt text to open the Select by Expression tool.
  2. We’ll build an expression in the white box on the left side of the tool. In the center panel, expand the Fields and Values list.
  3. Double click the classcode field to add it to the expression box on the left.
  4. Then click the = button to add an equal sign to the equation.
  5. We can also click the All Unique button on the right to see all of the values that are found in the classcode column. I don’t recommend using this option on continuous data; it’s best for categorical data with a relatively small number of unique values. Click ‘1’ in the list. Note that while we think of the items in this list as numbers, this column was likely defined as text, so this is why the numbers are wrapped in quotes. If we tried to use the number without the quotes, the GIS would find no matches because it would be looking for the number 1, not the text 1. Your expression should look like “classcode” = ‘1’. If QGIS read the classcode field as numbers, your expression should look like this: “classcode” = 1 NOTE: in QGIS 3.24, both options work.
  6. Click Select features. You’ll notice that rows in the attribute table and lines on the map have been highlighted. What do you think a classcode of 1 means?

Challenge: Try changing the expression to select different classcode categories. What do you think each category means?

You can review the metadata/data dictionary on the About tab on the data’s homepage. 1 Freeways; 2 Highways; 3 Major Streets; 4 Secondary Streets; 5 Local Streets; 6 Freeway Ramps; 0 Private Streets

Selecting our data based on the attribute information is a good way to explore and understand data, but it is only a temporary way to highlight data. To use differences in attribute data in a map, we’ll need to work with the layer symbology.

11.4 Symbolizing layers by attributes

11.4.1 Classifying Attributes

Let’s style this street data based on the kind of street. This will be a good visualization for giving context to some of the other data we have to work with.

  1. Clear out any selections you may still have with the Deselect Features tool. alt text
  2. In the Layer Styling panel, pick the street data from the dropdown list so we are working with this data.
  3. Instead of Single symbol, pick Categorized from the dropdown menu near the top of the dialog. (Don’t worry if the data disappears.)
  4. For the Value dropdown, pick the classcode column so we can use this data for our categories.
  5. Click the Classify button to see our categories.

Ok! We can see each road classified by it’s classcode. The colors will default to Random Colors for the palette. We can change the colors to meet our needs and communicate better. Let’s use the width of the line rather than color to indicate the type of road.

  1. You can uncheck the last row in the list of symbols. This category is for data with no classcode.
  2. Select all of the symbol levels in the list of symbols by selecting the first row and then the last row while holding down the shift key.
  3. Right click on the highlighted symbols and choose Change Color.
  4. Pick a gray color. I used HTML code #a0a0a0. Click Apply. All of the roads will now be the same gray color. Remember that our goal is to vary the widths of the lines based on the type of road.
  5. Click the Go Back button alt text to return to the main window.

To guide our work, let’s change the text of the legend. For each legend item, double click on the label and change the number label to the following text:

Value Legend
0 Private Streets
1 Freeways
2 Highways
3 Major Streets
4 Secondary Streets
5 Local Streets
6 Freeway Ramps

Next we’ll change the line width (also known as the line weight).

  1. For each row in the legend, double click on the line symbol to open the Symbol Selector dialog.
  2. Change the Width to match the Line Weight in the table below.
Value Legend Line Weight
0 Private Streets 0.26
1 Freeways 2.0
2 Highways 2.0
3 Major Streets 1.0
4 Secondary Streets 0.26
5 Local Streets 0.26
6 Freeway Ramps 0.5

alt text

11.4.2 Rule-Based Symbology

We’ve just seen how we can use an automated classification method to change the symbology of data. Now let’s look at how we can build rules based on attributes to create tailored symbology. The street tree layer has many, many tree locations - too many to make a useful map of all the trees so we’ll need to select a subset of the data to include.

Here’s a real-world scenario for us to think about: in recent years, a number of non-native bark beetles have been introduced to California. These beetles can damage and kill trees. Let’s make a map of one species of tree that might be affected, Canary Pine (Pinus canariensis), to investigate their spatial distribution and think about where you might want to concentrate monitoring efforts. The UC IPM site has more information about bark beetle species and tree species affected by them.

Let’s look at rule-based symbology:

  1. In the Layer Styling panel, select the street tree data.
  2. Select Rule-Based from the drop-down menu for the symbology method.
  3. Click the green + button (near the bottom) to add a rule.
  4. In the Label box, type “Canary Pine”. This will give our new rule a name we can easily understand.
  5. Next to the Filter box, click on the Expression button alt text to open the Expression String Builder dialog. This should look familiar - it’s very similar to how we selected rows by their attributes earlier.
  6. Add the qSpecies field to the expression window from the Fields & Values list.
  7. Next, type the word LIKE. LIKE is a comparison operator for strings. You might think of this as = for text.
  8. Finally, we need to say which species we want. You may have noticed that the species column typically contains a long string with several pieces of information. We can search for a portion of the text by using a wildcard character to match part of the string in the column. Type ‘%Pinus canariensis%’ after LIKE in your expression. The single quotes indicate that the words we just typed are a string (and not another variable or field from the attribute table) and the % means “it doesn’t matter what text is here”. So the program will search for rows that contain the sting Pinus canariensis, regardless of what else the column says.
  9. Your expression string should look like this: “qSpecies” LIKE ‘%Pinus canariensis%’ Click OK when you are done.
  10. In the Rule Editing dialog, you can also make changes to the color, size, and shape.
  11. Click the back button when you are done. alt text
  12. You may need to uncheck the box next to the (no filter) rule to see the results of our Canary Pine filter.

Based on where the Canary Pines are in the city, where would you want to focus your monitoring efforts? Are there places you think might be impacted more quickly if a bark beetle came to the city?

alt text

Challenge: Choose another species to add to your map. Add another rule-based classification with a different map symbol.

To learn more about processing and analyzing vector data, see the QGIS Training Manual’s Module on Vector Analysis. To learn about creating vector data, see the QGIS Training Manual’s Module on Creating Vector Data.