ref: a866b48426076fef2339047792d39ca92676103c
dir: /style/stylesheets_test.go/
package style import ( "fmt" "github.com/mjl-/duit" "github.com/psilva261/opossum/logger" "golang.org/x/net/html" "strings" "testing" ) func init() { log.Debug = true } func TestColorHex(t *testing.T) { tri, ok := colorHex("red") if !ok { t.Fail() } hri, ok := colorHex("#ff0000") if !ok { t.Fail() } if tri != hri { t.Fatalf("tri=%x hri=%x", tri, hri) } if _, ok := colorHex("rgb(1,2)"); ok { t.Fail() } } func TestColorHex3(t *testing.T) { c, ok := colorHex("#fff") if !ok { t.Fail() } if uint32(c) != 0xffffffff { t.Errorf("c=%x", c) } } func TestFetchNodeRules(t *testing.T) { data := `<body> <h2 id="foo">a header</h2> <h2 id="bar">another header</h2> <p>Some text <b>in bold</b></p> </body>` doc, err := html.Parse(strings.NewReader(data)) if err != nil { t.Fail() } css := AddOnCSS + ` b { width: 100px!important; } @media only screen and (max-width: 600px) { body { background-color: lightblue; } } ` for _, w := range []int{400, 800} { MediaValues["width"] = fmt.Sprintf("%vpx", w) t.Logf("w=%v", w) m, _, err := FetchNodeRules(doc, css) if err != nil { t.Fail() } t.Logf("m=%+v", m) var b *html.Node var body *html.Node var f func(n *html.Node) f = func(n *html.Node) { switch n.Data { case "b": b = n case "body": body = n } for c := n.FirstChild; c != nil; c = c.NextSibling { f(c) } } f(doc) importantFound := false for _, r := range m[b] { if r.Declarations[0].Important { importantFound = true } for _, d := range r.Declarations { if d.Specificity[0] != 0 || d.Specificity[1] != 0 || d.Specificity[2] != 1 { t.Fail() } } } if !importantFound { t.Fail() } if w == 400 { _ = m[body][0] if v := m[body][0].Declarations[0].Val; v != "lightblue" { t.Fatalf("%v", v) } t.Logf("%v", m[body][0]) } else { if _, ok := m[body]; ok { t.Fatalf("body ok") } } } } func TestFetchNodeRules2(t *testing.T) { data := `<h2 id="outer"> <h2 id="sp1">[</h2> <h2 id="sp2">]</h2> </h2>` doc, err := html.Parse(strings.NewReader(data)) if err != nil { t.Fail() } m, _, err := FetchNodeRules(doc, AddOnCSS) if err != nil { t.Fail() } t.Logf("m=%+v", m) var outer *html.Node var sp1 *html.Node var sp2 *html.Node var f func(n *html.Node) f = func(n *html.Node) { if len(n.Attr) == 1 { switch n.Attr[0].Val { case "outer": outer = n case "sp1": sp1 = n case "sp2": sp2 = n } } for c := n.FirstChild; c != nil; c = c.NextSibling { f(c) } } f(doc) /*t.Logf("outer=%+v", outer) t.Logf("sp1=%+v", sp1) t.Logf("sp2=%+v", sp2)*/ for _, n := range []*html.Node{outer, sp1, sp2} { _, ok := m[n] if !ok { t.Errorf("not found: %+v", n) } else { t.Logf("success: %+v", n) } } } func TestFetchNodeMap(t *testing.T) { data := `<p> <h2 id="foo">a header</h2> <h2 id="bar">another header</h2> <p>Some text <b>in bold</b></p> </p>` doc, err := html.Parse(strings.NewReader(data)) if err != nil { t.Fail() } m, err := FetchNodeMap(doc, AddOnCSS) if err != nil { t.Fail() } t.Logf("m=%+v", m) } func TestMergeNodeMaps(t *testing.T) { nodeMap := make(map[*html.Node]Map) data := `<p> <a class="link" href="http://example.com">Test</a> </p>` doc, err := html.Parse(strings.NewReader(data)) if err != nil { t.Fail() } a := grep(doc, "a") m, err := FetchNodeMap(doc, AddOnCSS) if err != nil { t.Fail() } MergeNodeMaps(nodeMap, m) if nodeMap[a].Css("color") != "blue" { t.Fatalf("%v", nodeMap[a]) } m2, err := FetchNodeMap(doc, `.link { color: red; }`) if err != nil { t.Fail() } MergeNodeMaps(nodeMap, m2) if nodeMap[a].Css("color") != "red" { t.Fatalf("%v", nodeMap[a]) } } func TestNewMapStyle(t *testing.T) { htms := []string{ `<h2 style="color: green;">a header</h2>`, `<h2 style="color: green">a header</h2>`, } for _, htm := range htms { doc, err := html.Parse(strings.NewReader(htm)) if err != nil { t.Fail() } h2 := grep(doc, "h2") m := NewMap(h2) if m.Declarations["color"].Val != "green" { t.Errorf("%+v", m) } } } func grep(nn *html.Node, tag string) *html.Node { var f func(n *html.Node) *html.Node f = func(n *html.Node) *html.Node { if n.Data == tag { return n } for c := n.FirstChild; c != nil; c = c.NextSibling { if m := f(c); m != nil { return m } } return nil } return f(nn) } func TestSmaller(t *testing.T) { d := Declaration{ Important: false, } dd := Declaration{ Important: true, } if !smaller(d, dd) { t.Fail() } } func TestApplyChildStyleInherit(t *testing.T) { parent := Map{ Declarations: make(map[string]Declaration), } parent.Declarations["height"] = Declaration{ Prop: "height", Val: "80px", } child := Map{ Declarations: make(map[string]Declaration), } res := parent.ApplyChildStyle(child, true) if v := res.Declarations["height"].Val; v != "80px" { t.Fatalf(v) } } func TestApplyChildStyleInherit2(t *testing.T) { parent := Map{ Declarations: make(map[string]Declaration), } child := Map{ Declarations: make(map[string]Declaration), } parent.Declarations["font-size"] = Declaration{ Prop: "font-size", Val: "12pt", } child.Declarations["font-size"] = Declaration{ Prop: "font-size", Val: "inherit", } res := parent.ApplyChildStyle(child, true) if v := res.Declarations["font-size"].Val; v != "12pt" { t.Fatalf(v) } } func TestApplyChildStyleInherit3(t *testing.T) { parent := Map{ Declarations: make(map[string]Declaration), } child := Map{ Declarations: make(map[string]Declaration), } parent.Declarations["font-size"] = Declaration{ Prop: "font-size", Val: "12pt", } child.Declarations["font-size"] = Declaration{ Prop: "font-size", Val: "13pt", } res := parent.ApplyChildStyle(child, true) if v := res.Declarations["font-size"].Val; v != "13pt" { t.Fatalf(v) } } func TestApplyChildStyleInherit4(t *testing.T) { parent := Map{ Declarations: make(map[string]Declaration), } child := Map{ Declarations: make(map[string]Declaration), } parent.Declarations["font-size"] = Declaration{ Prop: "font-size", Val: "12pt", Specificity: [3]int{0, 2, 0}, } child.Declarations["font-size"] = Declaration{ Prop: "font-size", Val: "13pt", Specificity: [3]int{0, 1, 0}, } res := parent.ApplyChildStyle(child, true) if v := res.Declarations["font-size"].Val; v != "12pt" { t.Fatalf(v) } } func TestCalc(t *testing.T) { tests := map[string]float64{ "calc(1px+2px)": 3.0, "calc(1px + 2px)": 3.0, "calc(1em+2px)": 13.0, "calc(1em+(2px-1px))": 12.0, "calc(1em+(2px-1.5px))": 11.5, } for x, px := range tests { f, _, err := length(nil, x) if err != nil { t.Fatalf("%v: %v", x, err) } if f != px { t.Fatalf("expected %v but got %v", px, f) } } } func TestCalc2(t *testing.T) { fails := []string{ "calc(a+2px)", "calc(if(1)2)", "calc(quit)", "calc(1;)", "calc()", "calc(" + strings.Repeat("1", 51) + ")", } for _, x := range fails { _, _, err := length(nil, x) if err == nil { t.Fatalf("%v: %v", x, err) } } } func TestLength(t *testing.T) { lpx := map[string]float64{ "auto": 0.0, "inherit": 0.0, "17px": 17.0, "10em": 110.0, "10ex": 110.0, "10vw": 128.0, "10vh": 108.0, "10%": 0, "101.6mm": 400, } for l, px := range lpx { f, _, err := length(nil, l) if err != nil { t.Fatalf("%v: %v", l, err) } if f != px { t.Fatalf("expected %v but got %v", px, f) } } } func TestTlbr(tt *testing.T) { cases := map[string]duit.Space{ "1px 2px 3px 4px": duit.Space{1, 2, 3, 4}, "1px 2px 3px": duit.Space{1, 2, 3, 2}, "1px 2px": duit.Space{1, 2, 1, 2}, "1px": duit.Space{1, 1, 1, 1}, } for v, exp := range cases { m := Map{ Declarations: make(map[string]Declaration), } m.Declarations["margin"] = Declaration{ Prop: "margin", Val: v, } s, err := m.Tlbr("margin") if err != nil { tt.Errorf("%v", s) } if s != exp { tt.Errorf("%v: %v", s, exp) } } } func TestCssVars(t *testing.T) { data := `<body> <h2 id="foo">a header</h2> <h2 id="bar">another header</h2> <p>Some text <b>in bold</b></p> </body>` doc, err := html.Parse(strings.NewReader(data)) if err != nil { t.Fail() } css := AddOnCSS + ` :root { --emph: red; --h: 10px; } b { color: var(--emph); } ` _, rv, err := FetchNodeRules(doc, css) if err != nil { t.Fail() } if len(rv) != 2 || rv["--emph"] != "red" || rv["--h"] != "10px" { t.Fail() } var b *html.Node var f func(n *html.Node) f = func(n *html.Node) { if n.Data == "b" { b = n } for c := n.FirstChild; c != nil; c = c.NextSibling { f(c) } } f(doc) nm, err := FetchNodeMap(doc, css) if err != nil { t.Fail() } d := nm[b] t.Logf("d=%+v", d) if d.Declarations["color"].Val != "red" { t.Fatalf("%+v", d.Declarations) } }