package goquery
import (
"strings"
"testing"
)
func TestFind(t *testing.T) {
sel := Doc().Find("div.row-fluid")
assertLength(t, sel.Nodes, 9)
}
func TestFindRollback(t *testing.T) {
sel := Doc().Find("div.row-fluid")
sel2 := sel.Find("a").End()
assertEqual(t, sel, sel2)
}
func TestFindNotSelf(t *testing.T) {
sel := Doc().Find("h1").Find("h1")
assertLength(t, sel.Nodes, 0)
}
func TestFindInvalid(t *testing.T) {
sel := Doc().Find(":+ ^")
assertLength(t, sel.Nodes, 0)
}
func TestFindBig(t *testing.T) {
doc := DocW()
sel := doc.Find("li")
assertLength(t, sel.Nodes, 373)
sel2 := doc.Find("span")
assertLength(t, sel2.Nodes, 448)
sel3 := sel.FindSelection(sel2)
assertLength(t, sel3.Nodes, 248)
}
func TestChainedFind(t *testing.T) {
sel := Doc().Find("div.hero-unit").Find(".row-fluid")
assertLength(t, sel.Nodes, 4)
}
func TestChainedFindInvalid(t *testing.T) {
sel := Doc().Find("div.hero-unit").Find("")
assertLength(t, sel.Nodes, 0)
}
func TestChildren(t *testing.T) {
sel := Doc().Find(".pvk-content").Children()
assertLength(t, sel.Nodes, 5)
}
func TestChildrenRollback(t *testing.T) {
sel := Doc().Find(".pvk-content")
sel2 := sel.Children().End()
assertEqual(t, sel, sel2)
}
func TestContents(t *testing.T) {
sel := Doc().Find(".pvk-content").Contents()
assertLength(t, sel.Nodes, 13)
}
func TestContentsRollback(t *testing.T) {
sel := Doc().Find(".pvk-content")
sel2 := sel.Contents().End()
assertEqual(t, sel, sel2)
}
func TestChildrenFiltered(t *testing.T) {
sel := Doc().Find(".pvk-content").ChildrenFiltered(".hero-unit")
assertLength(t, sel.Nodes, 1)
}
func TestChildrenFilteredInvalid(t *testing.T) {
sel := Doc().Find(".pvk-content").ChildrenFiltered("")
assertLength(t, sel.Nodes, 0)
}
func TestChildrenFilteredRollback(t *testing.T) {
sel := Doc().Find(".pvk-content")
sel2 := sel.ChildrenFiltered(".hero-unit").End()
assertEqual(t, sel, sel2)
}
func TestContentsFiltered(t *testing.T) {
sel := Doc().Find(".pvk-content").ContentsFiltered(".hero-unit")
assertLength(t, sel.Nodes, 1)
}
func TestContentsFilteredInvalid(t *testing.T) {
sel := Doc().Find(".pvk-content").ContentsFiltered("~")
assertLength(t, sel.Nodes, 0)
}
func TestContentsFilteredRollback(t *testing.T) {
sel := Doc().Find(".pvk-content")
sel2 := sel.ContentsFiltered(".hero-unit").End()
assertEqual(t, sel, sel2)
}
func TestChildrenFilteredNone(t *testing.T) {
sel := Doc().Find(".pvk-content").ChildrenFiltered("a.btn")
assertLength(t, sel.Nodes, 0)
}
func TestParent(t *testing.T) {
sel := Doc().Find(".container-fluid").Parent()
assertLength(t, sel.Nodes, 3)
}
func TestParentRollback(t *testing.T) {
sel := Doc().Find(".container-fluid")
sel2 := sel.Parent().End()
assertEqual(t, sel, sel2)
}
func TestParentBody(t *testing.T) {
sel := Doc().Find("body").Parent()
assertLength(t, sel.Nodes, 1)
}
func TestParentFiltered(t *testing.T) {
sel := Doc().Find(".container-fluid").ParentFiltered(".hero-unit")
assertLength(t, sel.Nodes, 1)
assertClass(t, sel, "hero-unit")
}
func TestParentFilteredInvalid(t *testing.T) {
sel := Doc().Find(".container-fluid").ParentFiltered("")
assertLength(t, sel.Nodes, 0)
}
func TestParentFilteredRollback(t *testing.T) {
sel := Doc().Find(".container-fluid")
sel2 := sel.ParentFiltered(".hero-unit").End()
assertEqual(t, sel, sel2)
}
func TestParents(t *testing.T) {
sel := Doc().Find(".container-fluid").Parents()
assertLength(t, sel.Nodes, 8)
}
func TestParentsOrder(t *testing.T) {
sel := Doc().Find("#cf2").Parents()
assertLength(t, sel.Nodes, 6)
assertSelectionIs(t, sel, ".hero-unit", ".pvk-content", "div.row-fluid", "#cf1", "body", "html")
}
func TestParentsRollback(t *testing.T) {
sel := Doc().Find(".container-fluid")
sel2 := sel.Parents().End()
assertEqual(t, sel, sel2)
}
func TestParentsFiltered(t *testing.T) {
sel := Doc().Find(".container-fluid").ParentsFiltered("body")
assertLength(t, sel.Nodes, 1)
}
func TestParentsFilteredInvalid(t *testing.T) {
sel := Doc().Find(".container-fluid").ParentsFiltered("")
assertLength(t, sel.Nodes, 0)
}
func TestParentsFilteredRollback(t *testing.T) {
sel := Doc().Find(".container-fluid")
sel2 := sel.ParentsFiltered("body").End()
assertEqual(t, sel, sel2)
}
func TestParentsUntil(t *testing.T) {
sel := Doc().Find(".container-fluid").ParentsUntil("body")
assertLength(t, sel.Nodes, 6)
}
func TestParentsUntilInvalid(t *testing.T) {
sel := Doc().Find(".container-fluid").ParentsUntil("")
assertLength(t, sel.Nodes, 8)
}
func TestParentsUntilRollback(t *testing.T) {
sel := Doc().Find(".container-fluid")
sel2 := sel.ParentsUntil("body").End()
assertEqual(t, sel, sel2)
}
func TestParentsUntilSelection(t *testing.T) {
sel := Doc().Find(".container-fluid")
sel2 := Doc().Find(".pvk-content")
sel = sel.ParentsUntilSelection(sel2)
assertLength(t, sel.Nodes, 3)
}
func TestParentsUntilSelectionRollback(t *testing.T) {
sel := Doc().Find(".container-fluid")
sel2 := Doc().Find(".pvk-content")
sel2 = sel.ParentsUntilSelection(sel2).End()
assertEqual(t, sel, sel2)
}
func TestParentsUntilNodes(t *testing.T) {
sel := Doc().Find(".container-fluid")
sel2 := Doc().Find(".pvk-content, .hero-unit")
sel = sel.ParentsUntilNodes(sel2.Nodes...)
assertLength(t, sel.Nodes, 2)
}
func TestParentsUntilNodesRollback(t *testing.T) {
sel := Doc().Find(".container-fluid")
sel2 := Doc().Find(".pvk-content, .hero-unit")
sel2 = sel.ParentsUntilNodes(sel2.Nodes...).End()
assertEqual(t, sel, sel2)
}
func TestParentsFilteredUntil(t *testing.T) {
sel := Doc().Find(".container-fluid").ParentsFilteredUntil(".pvk-content", "body")
assertLength(t, sel.Nodes, 2)
}
func TestParentsFilteredUntilInvalid(t *testing.T) {
sel := Doc().Find(".container-fluid").ParentsFilteredUntil("", "")
assertLength(t, sel.Nodes, 0)
}
func TestParentsFilteredUntilRollback(t *testing.T) {
sel := Doc().Find(".container-fluid")
sel2 := sel.ParentsFilteredUntil(".pvk-content", "body").End()
assertEqual(t, sel, sel2)
}
func TestParentsFilteredUntilSelection(t *testing.T) {
sel := Doc().Find(".container-fluid")
sel2 := Doc().Find(".row-fluid")
sel = sel.ParentsFilteredUntilSelection("div", sel2)
assertLength(t, sel.Nodes, 3)
}
func TestParentsFilteredUntilSelectionRollback(t *testing.T) {
sel := Doc().Find(".container-fluid")
sel2 := Doc().Find(".row-fluid")
sel2 = sel.ParentsFilteredUntilSelection("div", sel2).End()
assertEqual(t, sel, sel2)
}
func TestParentsFilteredUntilNodes(t *testing.T) {
sel := Doc().Find(".container-fluid")
sel2 := Doc().Find(".row-fluid")
sel = sel.ParentsFilteredUntilNodes("body", sel2.Nodes...)
assertLength(t, sel.Nodes, 1)
}
func TestParentsFilteredUntilNodesRollback(t *testing.T) {
sel := Doc().Find(".container-fluid")
sel2 := Doc().Find(".row-fluid")
sel2 = sel.ParentsFilteredUntilNodes("body", sel2.Nodes...).End()
assertEqual(t, sel, sel2)
}
func TestSiblings(t *testing.T) {
sel := Doc().Find("h1").Siblings()
assertLength(t, sel.Nodes, 1)
}
func TestSiblingsRollback(t *testing.T) {
sel := Doc().Find("h1")
sel2 := sel.Siblings().End()
assertEqual(t, sel, sel2)
}
func TestSiblings2(t *testing.T) {
sel := Doc().Find(".pvk-gutter").Siblings()
assertLength(t, sel.Nodes, 9)
}
func TestSiblings3(t *testing.T) {
sel := Doc().Find("body>.container-fluid").Siblings()
assertLength(t, sel.Nodes, 0)
}
func TestSiblingsFiltered(t *testing.T) {
sel := Doc().Find(".pvk-gutter").SiblingsFiltered(".pvk-content")
assertLength(t, sel.Nodes, 3)
}
func TestSiblingsFilteredInvalid(t *testing.T) {
sel := Doc().Find(".pvk-gutter").SiblingsFiltered("")
assertLength(t, sel.Nodes, 0)
}
func TestSiblingsFilteredRollback(t *testing.T) {
sel := Doc().Find(".pvk-gutter")
sel2 := sel.SiblingsFiltered(".pvk-content").End()
assertEqual(t, sel, sel2)
}
func TestNext(t *testing.T) {
sel := Doc().Find("h1").Next()
assertLength(t, sel.Nodes, 1)
}
func TestNextRollback(t *testing.T) {
sel := Doc().Find("h1")
sel2 := sel.Next().End()
assertEqual(t, sel, sel2)
}
func TestNext2(t *testing.T) {
sel := Doc().Find(".close").Next()
assertLength(t, sel.Nodes, 1)
}
func TestNextNone(t *testing.T) {
sel := Doc().Find("small").Next()
assertLength(t, sel.Nodes, 0)
}
func TestNextFiltered(t *testing.T) {
sel := Doc().Find(".container-fluid").NextFiltered("div")
assertLength(t, sel.Nodes, 2)
}
func TestNextFilteredInvalid(t *testing.T) {
sel := Doc().Find(".container-fluid").NextFiltered("")
assertLength(t, sel.Nodes, 0)
}
func TestNextFilteredRollback(t *testing.T) {
sel := Doc().Find(".container-fluid")
sel2 := sel.NextFiltered("div").End()
assertEqual(t, sel, sel2)
}
func TestNextFiltered2(t *testing.T) {
sel := Doc().Find(".container-fluid").NextFiltered("[ng-view]")
assertLength(t, sel.Nodes, 1)
}
func TestPrev(t *testing.T) {
sel := Doc().Find(".red").Prev()
assertLength(t, sel.Nodes, 1)
assertClass(t, sel, "green")
}
func TestPrevRollback(t *testing.T) {
sel := Doc().Find(".red")
sel2 := sel.Prev().End()
assertEqual(t, sel, sel2)
}
func TestPrev2(t *testing.T) {
sel := Doc().Find(".row-fluid").Prev()
assertLength(t, sel.Nodes, 5)
}
func TestPrevNone(t *testing.T) {
sel := Doc().Find("h2").Prev()
assertLength(t, sel.Nodes, 0)
}
func TestPrevFiltered(t *testing.T) {
sel := Doc().Find(".row-fluid").PrevFiltered(".row-fluid")
assertLength(t, sel.Nodes, 5)
}
func TestPrevFilteredInvalid(t *testing.T) {
sel := Doc().Find(".row-fluid").PrevFiltered("")
assertLength(t, sel.Nodes, 0)
}
func TestPrevFilteredRollback(t *testing.T) {
sel := Doc().Find(".row-fluid")
sel2 := sel.PrevFiltered(".row-fluid").End()
assertEqual(t, sel, sel2)
}
func TestNextAll(t *testing.T) {
sel := Doc().Find("#cf2 div:nth-child(1)").NextAll()
assertLength(t, sel.Nodes, 3)
}
func TestNextAllRollback(t *testing.T) {
sel := Doc().Find("#cf2 div:nth-child(1)")
sel2 := sel.NextAll().End()
assertEqual(t, sel, sel2)
}
func TestNextAll2(t *testing.T) {
sel := Doc().Find("div[ng-cloak]").NextAll()
assertLength(t, sel.Nodes, 1)
}
func TestNextAllNone(t *testing.T) {
sel := Doc().Find(".footer").NextAll()
assertLength(t, sel.Nodes, 0)
}
func TestNextAllFiltered(t *testing.T) {
sel := Doc().Find("#cf2 .row-fluid").NextAllFiltered("[ng-cloak]")
assertLength(t, sel.Nodes, 2)
}
func TestNextAllFilteredInvalid(t *testing.T) {
sel := Doc().Find("#cf2 .row-fluid").NextAllFiltered("")
assertLength(t, sel.Nodes, 0)
}
func TestNextAllFilteredRollback(t *testing.T) {
sel := Doc().Find("#cf2 .row-fluid")
sel2 := sel.NextAllFiltered("[ng-cloak]").End()
assertEqual(t, sel, sel2)
}
func TestNextAllFiltered2(t *testing.T) {
sel := Doc().Find(".close").NextAllFiltered("h4")
assertLength(t, sel.Nodes, 1)
}
func TestPrevAll(t *testing.T) {
sel := Doc().Find("[ng-view]").PrevAll()
assertLength(t, sel.Nodes, 2)
}
func TestPrevAllOrder(t *testing.T) {
sel := Doc().Find("[ng-view]").PrevAll()
assertLength(t, sel.Nodes, 2)
assertSelectionIs(t, sel, "#cf4", "#cf3")
}
func TestPrevAllRollback(t *testing.T) {
sel := Doc().Find("[ng-view]")
sel2 := sel.PrevAll().End()
assertEqual(t, sel, sel2)
}
func TestPrevAll2(t *testing.T) {
sel := Doc().Find(".pvk-gutter").PrevAll()
assertLength(t, sel.Nodes, 6)
}
func TestPrevAllFiltered(t *testing.T) {
sel := Doc().Find(".pvk-gutter").PrevAllFiltered(".pvk-content")
assertLength(t, sel.Nodes, 3)
}
func TestPrevAllFilteredInvalid(t *testing.T) {
sel := Doc().Find(".pvk-gutter").PrevAllFiltered("")
assertLength(t, sel.Nodes, 0)
}
func TestPrevAllFilteredRollback(t *testing.T) {
sel := Doc().Find(".pvk-gutter")
sel2 := sel.PrevAllFiltered(".pvk-content").End()
assertEqual(t, sel, sel2)
}
func TestNextUntil(t *testing.T) {
sel := Doc().Find(".alert a").NextUntil("p")
assertLength(t, sel.Nodes, 1)
assertSelectionIs(t, sel, "h4")
}
func TestNextUntilInvalid(t *testing.T) {
sel := Doc().Find(".alert a").NextUntil("")
assertLength(t, sel.Nodes, 2)
}
func TestNextUntil2(t *testing.T) {
sel := Doc().Find("#cf2-1").NextUntil("[ng-cloak]")
assertLength(t, sel.Nodes, 1)
assertSelectionIs(t, sel, "#cf2-2")
}
func TestNextUntilOrder(t *testing.T) {
sel := Doc().Find("#cf2-1").NextUntil("#cf2-4")
assertLength(t, sel.Nodes, 2)
assertSelectionIs(t, sel, "#cf2-2", "#cf2-3")
}
func TestNextUntilRollback(t *testing.T) {
sel := Doc().Find("#cf2-1")
sel2 := sel.PrevUntil("#cf2-4").End()
assertEqual(t, sel, sel2)
}
func TestNextUntilSelection(t *testing.T) {
sel := Doc2().Find("#n2")
sel2 := Doc2().Find("#n4")
sel2 = sel.NextUntilSelection(sel2)
assertLength(t, sel2.Nodes, 1)
assertSelectionIs(t, sel2, "#n3")
}
func TestNextUntilSelectionRollback(t *testing.T) {
sel := Doc2().Find("#n2")
sel2 := Doc2().Find("#n4")
sel2 = sel.NextUntilSelection(sel2).End()
assertEqual(t, sel, sel2)
}
func TestNextUntilNodes(t *testing.T) {
sel := Doc2().Find("#n2")
sel2 := Doc2().Find("#n5")
sel2 = sel.NextUntilNodes(sel2.Nodes...)
assertLength(t, sel2.Nodes, 2)
assertSelectionIs(t, sel2, "#n3", "#n4")
}
func TestNextUntilNodesRollback(t *testing.T) {
sel := Doc2().Find("#n2")
sel2 := Doc2().Find("#n5")
sel2 = sel.NextUntilNodes(sel2.Nodes...).End()
assertEqual(t, sel, sel2)
}
func TestPrevUntil(t *testing.T) {
sel := Doc().Find(".alert p").PrevUntil("a")
assertLength(t, sel.Nodes, 1)
assertSelectionIs(t, sel, "h4")
}
func TestPrevUntilInvalid(t *testing.T) {
sel := Doc().Find(".alert p").PrevUntil("")
assertLength(t, sel.Nodes, 2)
}
func TestPrevUntil2(t *testing.T) {
sel := Doc().Find("[ng-cloak]").PrevUntil(":not([ng-cloak])")
assertLength(t, sel.Nodes, 1)
assertSelectionIs(t, sel, "[ng-cloak]")
}
func TestPrevUntilOrder(t *testing.T) {
sel := Doc().Find("#cf2-4").PrevUntil("#cf2-1")
assertLength(t, sel.Nodes, 2)
assertSelectionIs(t, sel, "#cf2-3", "#cf2-2")
}
func TestPrevUntilRollback(t *testing.T) {
sel := Doc().Find("#cf2-4")
sel2 := sel.PrevUntil("#cf2-1").End()
assertEqual(t, sel, sel2)
}
func TestPrevUntilSelection(t *testing.T) {
sel := Doc2().Find("#n4")
sel2 := Doc2().Find("#n2")
sel2 = sel.PrevUntilSelection(sel2)
assertLength(t, sel2.Nodes, 1)
assertSelectionIs(t, sel2, "#n3")
}
func TestPrevUntilSelectionRollback(t *testing.T) {
sel := Doc2().Find("#n4")
sel2 := Doc2().Find("#n2")
sel2 = sel.PrevUntilSelection(sel2).End()
assertEqual(t, sel, sel2)
}
func TestPrevUntilNodes(t *testing.T) {
sel := Doc2().Find("#n5")
sel2 := Doc2().Find("#n2")
sel2 = sel.PrevUntilNodes(sel2.Nodes...)
assertLength(t, sel2.Nodes, 2)
assertSelectionIs(t, sel2, "#n4", "#n3")
}
func TestPrevUntilNodesRollback(t *testing.T) {
sel := Doc2().Find("#n5")
sel2 := Doc2().Find("#n2")
sel2 = sel.PrevUntilNodes(sel2.Nodes...).End()
assertEqual(t, sel, sel2)
}
func TestNextFilteredUntil(t *testing.T) {
sel := Doc2().Find(".two").NextFilteredUntil(".even", ".six")
assertLength(t, sel.Nodes, 4)
assertSelectionIs(t, sel, "#n3", "#n5", "#nf3", "#nf5")
}
func TestNextFilteredUntilInvalid(t *testing.T) {
sel := Doc2().Find(".two").NextFilteredUntil("", "")
assertLength(t, sel.Nodes, 0)
}
func TestNextFilteredUntilRollback(t *testing.T) {
sel := Doc2().Find(".two")
sel2 := sel.NextFilteredUntil(".even", ".six").End()
assertEqual(t, sel, sel2)
}
func TestNextFilteredUntilSelection(t *testing.T) {
sel := Doc2().Find(".even")
sel2 := Doc2().Find(".five")
sel = sel.NextFilteredUntilSelection(".even", sel2)
assertLength(t, sel.Nodes, 2)
assertSelectionIs(t, sel, "#n3", "#nf3")
}
func TestNextFilteredUntilSelectionRollback(t *testing.T) {
sel := Doc2().Find(".even")
sel2 := Doc2().Find(".five")
sel3 := sel.NextFilteredUntilSelection(".even", sel2).End()
assertEqual(t, sel, sel3)
}
func TestNextFilteredUntilNodes(t *testing.T) {
sel := Doc2().Find(".even")
sel2 := Doc2().Find(".four")
sel = sel.NextFilteredUntilNodes(".odd", sel2.Nodes...)
assertLength(t, sel.Nodes, 4)
assertSelectionIs(t, sel, "#n2", "#n6", "#nf2", "#nf6")
}
func TestNextFilteredUntilNodesRollback(t *testing.T) {
sel := Doc2().Find(".even")
sel2 := Doc2().Find(".four")
sel3 := sel.NextFilteredUntilNodes(".odd", sel2.Nodes...).End()
assertEqual(t, sel, sel3)
}
func TestPrevFilteredUntil(t *testing.T) {
sel := Doc2().Find(".five").PrevFilteredUntil(".odd", ".one")
assertLength(t, sel.Nodes, 4)
assertSelectionIs(t, sel, "#n4", "#n2", "#nf4", "#nf2")
}
func TestPrevFilteredUntilInvalid(t *testing.T) {
sel := Doc2().Find(".five").PrevFilteredUntil("", "")
assertLength(t, sel.Nodes, 0)
}
func TestPrevFilteredUntilRollback(t *testing.T) {
sel := Doc2().Find(".four")
sel2 := sel.PrevFilteredUntil(".odd", ".one").End()
assertEqual(t, sel, sel2)
}
func TestPrevFilteredUntilSelection(t *testing.T) {
sel := Doc2().Find(".odd")
sel2 := Doc2().Find(".two")
sel = sel.PrevFilteredUntilSelection(".odd", sel2)
assertLength(t, sel.Nodes, 2)
assertSelectionIs(t, sel, "#n4", "#nf4")
}
func TestPrevFilteredUntilSelectionRollback(t *testing.T) {
sel := Doc2().Find(".even")
sel2 := Doc2().Find(".five")
sel3 := sel.PrevFilteredUntilSelection(".even", sel2).End()
assertEqual(t, sel, sel3)
}
func TestPrevFilteredUntilNodes(t *testing.T) {
sel := Doc2().Find(".even")
sel2 := Doc2().Find(".four")
sel = sel.PrevFilteredUntilNodes(".odd", sel2.Nodes...)
assertLength(t, sel.Nodes, 2)
assertSelectionIs(t, sel, "#n2", "#nf2")
}
func TestPrevFilteredUntilNodesRollback(t *testing.T) {
sel := Doc2().Find(".even")
sel2 := Doc2().Find(".four")
sel3 := sel.PrevFilteredUntilNodes(".odd", sel2.Nodes...).End()
assertEqual(t, sel, sel3)
}
func TestClosestItself(t *testing.T) {
sel := Doc2().Find(".three")
sel2 := sel.Closest(".row")
assertLength(t, sel2.Nodes, sel.Length())
assertSelectionIs(t, sel2, "#n3", "#nf3")
}
func TestClosestNoDupes(t *testing.T) {
sel := Doc().Find(".span12")
sel2 := sel.Closest(".pvk-content")
assertLength(t, sel2.Nodes, 1)
assertClass(t, sel2, "pvk-content")
}
func TestClosestNone(t *testing.T) {
sel := Doc().Find("h4")
sel2 := sel.Closest("a")
assertLength(t, sel2.Nodes, 0)
}
func TestClosestInvalid(t *testing.T) {
sel := Doc().Find("h4")
sel2 := sel.Closest("")
assertLength(t, sel2.Nodes, 0)
}
func TestClosestMany(t *testing.T) {
sel := Doc().Find(".container-fluid")
sel2 := sel.Closest(".pvk-content")
assertLength(t, sel2.Nodes, 2)
assertSelectionIs(t, sel2, "#pc1", "#pc2")
}
func TestClosestRollback(t *testing.T) {
sel := Doc().Find(".container-fluid")
sel2 := sel.Closest(".pvk-content").End()
assertEqual(t, sel, sel2)
}
func TestClosestSelectionItself(t *testing.T) {
sel := Doc2().Find(".three")
sel2 := sel.ClosestSelection(Doc2().Find(".row"))
assertLength(t, sel2.Nodes, sel.Length())
}
func TestClosestSelectionNoDupes(t *testing.T) {
sel := Doc().Find(".span12")
sel2 := sel.ClosestSelection(Doc().Find(".pvk-content"))
assertLength(t, sel2.Nodes, 1)
assertClass(t, sel2, "pvk-content")
}
func TestClosestSelectionNone(t *testing.T) {
sel := Doc().Find("h4")
sel2 := sel.ClosestSelection(Doc().Find("a"))
assertLength(t, sel2.Nodes, 0)
}
func TestClosestSelectionMany(t *testing.T) {
sel := Doc().Find(".container-fluid")
sel2 := sel.ClosestSelection(Doc().Find(".pvk-content"))
assertLength(t, sel2.Nodes, 2)
assertSelectionIs(t, sel2, "#pc1", "#pc2")
}
func TestClosestSelectionRollback(t *testing.T) {
sel := Doc().Find(".container-fluid")
sel2 := sel.ClosestSelection(Doc().Find(".pvk-content")).End()
assertEqual(t, sel, sel2)
}
func TestClosestNodesItself(t *testing.T) {
sel := Doc2().Find(".three")
sel2 := sel.ClosestNodes(Doc2().Find(".row").Nodes...)
assertLength(t, sel2.Nodes, sel.Length())
}
func TestClosestNodesNoDupes(t *testing.T) {
sel := Doc().Find(".span12")
sel2 := sel.ClosestNodes(Doc().Find(".pvk-content").Nodes...)
assertLength(t, sel2.Nodes, 1)
assertClass(t, sel2, "pvk-content")
}
func TestClosestNodesNone(t *testing.T) {
sel := Doc().Find("h4")
sel2 := sel.ClosestNodes(Doc().Find("a").Nodes...)
assertLength(t, sel2.Nodes, 0)
}
func TestClosestNodesMany(t *testing.T) {
sel := Doc().Find(".container-fluid")
sel2 := sel.ClosestNodes(Doc().Find(".pvk-content").Nodes...)
assertLength(t, sel2.Nodes, 2)
assertSelectionIs(t, sel2, "#pc1", "#pc2")
}
func TestClosestNodesRollback(t *testing.T) {
sel := Doc().Find(".container-fluid")
sel2 := sel.ClosestNodes(Doc().Find(".pvk-content").Nodes...).End()
assertEqual(t, sel, sel2)
}
func TestIssue26(t *testing.T) {
img1 := `
`
img2 := ``
cases := []struct {
s string
l int
}{
{s: img1 + img2, l: 2},
{s: img1, l: 1},
{s: img2, l: 1},
}
for _, c := range cases {
doc, err := NewDocumentFromReader(strings.NewReader(c.s))
if err != nil {
t.Fatal(err)
}
sel := doc.Find("img[src]")
assertLength(t, sel.Nodes, c.l)
}
}