xmpp-rs-mirror/src/tests.rs

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use std::io::Cursor;
use std::iter::Iterator;
use xml::reader::EventReader;
use xml::writer::EventWriter;
use element::Element;
const TEST_STRING: &'static str = r#"<?xml version="1.0" encoding="utf-8"?><root xmlns="root_ns" a="b" xml:lang="en">meow<child c="d" /><child xmlns="child_ns" d="e" xml:lang="fr" />nya</root>"#;
fn build_test_tree() -> Element {
let mut root = Element::builder("root")
.ns("root_ns")
.attr("xml:lang", "en")
.attr("a", "b")
.build();
root.append_text_node("meow");
let child = Element::builder("child")
.attr("c", "d")
.build();
root.append_child(child);
let other_child = Element::builder("child")
.ns("child_ns")
.attr("d", "e")
.attr("xml:lang", "fr")
.build();
root.append_child(other_child);
root.append_text_node("nya");
root
}
#[test]
fn reader_works() {
let mut reader = EventReader::new(Cursor::new(TEST_STRING));
assert_eq!(Element::from_reader(&mut reader).unwrap(), build_test_tree());
}
#[test]
fn writer_works() {
let root = build_test_tree();
let mut out = Vec::new();
{
let mut writer = EventWriter::new(&mut out);
root.write_to(&mut writer).unwrap();
}
assert_eq!(String::from_utf8(out).unwrap(), TEST_STRING);
}
#[test]
fn builder_works() {
let elem = Element::builder("a")
.ns("b")
.attr("c", "d")
.append(Element::builder("child"))
.append("e")
.build();
assert_eq!(elem.name(), "a");
assert_eq!(elem.ns(), Some("b"));
assert_eq!(elem.attr("c"), Some("d"));
assert_eq!(elem.attr("x"), None);
assert_eq!(elem.text(), "e");
assert!(elem.has_child("child", "b"));
assert!(elem.is("a", "b"));
}
#[test]
fn children_iter_works() {
let root = build_test_tree();
let mut iter = root.children();
assert!(iter.next().unwrap().is("child", "root_ns"));
assert!(iter.next().unwrap().is("child", "child_ns"));
assert_eq!(iter.next(), None);
}
#[test]
fn get_child_works() {
let root = build_test_tree();
assert_eq!(root.get_child("child", "inexistent_ns"), None);
assert_eq!(root.get_child("not_a_child", "root_ns"), None);
assert!(root.get_child("child", "root_ns").unwrap().is("child", "root_ns"));
assert!(root.get_child("child", "child_ns").unwrap().is("child", "child_ns"));
assert_eq!(root.get_child("child", "root_ns").unwrap().attr("c"), Some("d"));
assert_eq!(root.get_child("child", "child_ns").unwrap().attr("d"), Some("e"));
}
#[test]
fn namespace_propagation_works() {
let mut root = Element::builder("root").ns("root_ns").build();
let mut child = Element::bare("child");
let grandchild = Element::bare("grandchild");
child.append_child(grandchild);
root.append_child(child);
assert_eq!(root.get_child("child", "root_ns").unwrap().ns(), root.ns());
assert_eq!(root.get_child("child", "root_ns").unwrap()
.get_child("grandchild", "root_ns").unwrap()
.ns(), root.ns());
}
#[test]
fn two_elements_with_same_arguments_different_order_are_equal() {
let elem1: Element = "<a b='a' c=''/>".parse().unwrap();
let elem2: Element = "<a c='' b='a'/>".parse().unwrap();
assert_eq!(elem1, elem2);
let elem1: Element = "<a b='a' c=''/>".parse().unwrap();
let elem2: Element = "<a c='d' b='a'/>".parse().unwrap();
assert_ne!(elem1, elem2);
}
#[test]
fn namespace_attributes_works() {
let mut reader = EventReader::new(Cursor::new(TEST_STRING));
let root = Element::from_reader(&mut reader).unwrap();
assert_eq!("en", root.attr("xml:lang").unwrap());
assert_eq!("fr", root.get_child("child", "child_ns").unwrap().attr("xml:lang").unwrap());
}