diff --git a/geometry_test.go b/geometry_test.go
index 8ac01c36cfbf19ab0a5a1ceb0d63a96880f2295c..b517f4864574641541ac73c8fcc85e56500ff4e6 100644
--- a/geometry_test.go
+++ b/geometry_test.go
@@ -121,16 +121,19 @@ func TestMatrix_Unproject(t *testing.T) {
 		assert.InDelta(t, unprojected.Y, 0, delta)
 	})
 	t.Run("for projected vertices using all kinds of matrices", func(t *testing.T) {
-		matrices := [...]pixel.Matrix{
-			pixel.IM,
-			pixel.IM.Scaled(pixel.ZV, 0.5),
-			pixel.IM.Scaled(pixel.ZV, 2),
-			pixel.IM.Rotated(pixel.ZV, math.Pi/4),
-			pixel.IM.Moved(pixel.V(0.5, 1)),
-			pixel.IM.Moved(pixel.V(-1, -0.5)),
-			pixel.IM.Scaled(pixel.ZV, 0.5).Rotated(pixel.ZV, math.Pi/4),
-			pixel.IM.Scaled(pixel.ZV, 0.5).Rotated(pixel.ZV, math.Pi/4).Moved(pixel.V(1, 2)),
-			pixel.IM.Rotated(pixel.ZV, math.Pi/4).Moved(pixel.V(1, 2)),
+		namedMatrices := []struct {
+			name   string
+			matrix pixel.Matrix
+		}{
+			{"IM", pixel.IM},
+			{"Scaled", pixel.IM.Scaled(pixel.ZV, 0.5)},
+			{"Scaled x 2", pixel.IM.Scaled(pixel.ZV, 2)},
+			{"Rotated", pixel.IM.Rotated(pixel.ZV, math.Pi/4)},
+			{"Moved", pixel.IM.Moved(pixel.V(0.5, 1))},
+			{"Moved 2", pixel.IM.Moved(pixel.V(-1, -0.5))},
+			{"Scaled and Rotated", pixel.IM.Scaled(pixel.ZV, 0.5).Rotated(pixel.ZV, math.Pi/4)},
+			{"Scaled, Rotated and Moved", pixel.IM.Scaled(pixel.ZV, 0.5).Rotated(pixel.ZV, math.Pi/4).Moved(pixel.V(1, 2))},
+			{"Rotated and Moved", pixel.IM.Rotated(pixel.ZV, math.Pi/4).Moved(pixel.V(1, 2))},
 		}
 		vertices := [...]pixel.Vec{
 			pixel.V(0, 0),
@@ -143,10 +146,11 @@ func TestMatrix_Unproject(t *testing.T) {
 			pixel.V(0, -10),
 			pixel.V(5, -10),
 		}
-		for _, matrix := range matrices {
+		for _, namedMatrix := range namedMatrices {
 			for _, vertex := range vertices {
-				testCase := fmt.Sprintf("for matrix %v and vertex %v", matrix, vertex)
+				testCase := fmt.Sprintf("for matrix %s and vertex %v", namedMatrix.name, vertex)
 				t.Run(testCase, func(t *testing.T) {
+					matrix := namedMatrix.matrix
 					projected := matrix.Project(vertex)
 					unprojected := matrix.Unproject(projected)
 					assert.InDelta(t, vertex.X, unprojected.X, delta)