using System;
using System.Text;
using System.Collections.Generic;
using System.Linq;
using Microsoft.VisualStudio.TestTools.UnitTesting;
using Novacode;
using System.Xml.Linq;
namespace UnitTests
{
///
/// This class tests the SplitText function of Novacode.Paragraph
///
[TestClass]
public class SplitTextTests
{
public SplitTextTests()
{
//
// TODO: Add constructor logic here
//
}
private TestContext testContextInstance;
///
///Gets or sets the test context which provides
///information about and functionality for the current test run.
///
public TestContext TestContext
{
get
{
return testContextInstance;
}
set
{
testContextInstance = value;
}
}
#region Additional test attributes
//
// You can use the following additional attributes as you write your tests:
//
// Use ClassInitialize to run code before running the first test in the class
// [ClassInitialize()]
// public static void MyClassInitialize(TestContext testContext) { }
//
// Use ClassCleanup to run code after all tests in a class have run
// [ClassCleanup()]
// public static void MyClassCleanup() { }
//
// Use TestInitialize to run code before running each test
// [TestInitialize()]
// public void MyTestInitialize() { }
//
// Use TestCleanup to run code after each test has run
// [TestCleanup()]
// public void MyTestCleanup() { }
//
#endregion
[TestMethod]
public void TestSplitText()
{
// The test text element to split
Text t = new Text(0, new XElement(DocX.w + "t", "Hello I am a string"));
#region Split at index 0
/*
* Split t at index 0.
* This will cause the left side of the split to be null and the right side to be equal to t.
*/
XElement[] splitText_indexZero = Text.SplitText(t, 0);
// Check if my expectations have been met
Assert.IsNull(splitText_indexZero[0]);
Assert.AreEqual(t.Xml.ToString(), splitText_indexZero[1].ToString());
#endregion
#region Split at index 1
XElement[] splitText_indexOne = Text.SplitText(t, 1);
// The result I expect to get from splitText1
XElement splitText_indexOne_left = new XElement(DocX.w + "t", "H");
XElement splitText_indexOne_right = new XElement(DocX.w + "t", "ello I am a string");
// Check if my expectations have been met
Assert.AreEqual(splitText_indexOne_left.ToString(), splitText_indexOne[0].ToString());
Assert.AreEqual(splitText_indexOne_right.ToString(), splitText_indexOne[1].ToString());
#endregion
#region Split near the middle causing starting and ending spaces
/*
* Split the text at index 11.
* This will cause the left side of the split to end with a space and the right to start with a space.
*/
XElement[] splitText_nearMiddle = Text.SplitText(t, 11);
// The result I expect to get from splitText1
XElement splitText_nearMiddle_left = new XElement(DocX.w + "t", new object[] { new XAttribute(XNamespace.Xml + "space", "preserve"), "Hello I am " });
XElement splitText_nearMiddle_right = new XElement(DocX.w + "t", new object[] { new XAttribute(XNamespace.Xml + "space", "preserve"), " a string" });
// Check if my expectations have been met
Assert.AreEqual(splitText_nearMiddle_left.ToString(), splitText_nearMiddle[0].ToString());
Assert.AreEqual(splitText_nearMiddle_right.ToString(), splitText_nearMiddle[1].ToString());
#endregion
#region Split at text.Value.Length - 1
XElement[] splitText_indexOneFromLength = Text.SplitText(t, t.Value.Length - 1);
// The result I expect to get from splitText1
XElement splitText_indexOneFromLength_left = new XElement(DocX.w + "t", "Hello I am a strin");
XElement splitText_indexOneFromLength_right = new XElement(DocX.w + "t", "g");
// Check if my expectations have been met
Assert.AreEqual(splitText_indexOneFromLength_left.ToString(), splitText_indexOneFromLength[0].ToString());
Assert.AreEqual(splitText_indexOneFromLength_right.ToString(), splitText_indexOneFromLength[1].ToString());
#endregion
#region Split at index text.Value.Length
/*
* Split the text at index text.Value.Length.
* This will cause the left side of the split to be equal to text and the right side to be null.
*/
XElement[] splitText_indexLength = Text.SplitText(t, t.Value.Length);
// Check if my expectations have been met
Assert.AreEqual(t.Xml.ToString(), splitText_indexLength[0].ToString());
Assert.IsNull(splitText_indexLength[1]);
#endregion
}
[TestMethod, ExpectedException(typeof(ArgumentOutOfRangeException))]
public void TestSplitText_IndexLessThanTextStartIndex()
{
// The test text element to split
Text t = new Text(0, new XElement(DocX.w + "t", "Hello I am a string"));
/*
* Split t at a negative index.
* This will cause an argument out of range exception to be thrown.
*/
Text.SplitText(t, t.StartIndex - 1);
}
[TestMethod, ExpectedException(typeof(ArgumentOutOfRangeException))]
public void TestSplitText_IndexGreaterThanTextEndIndex()
{
// The test text element to split
Text t = new Text(0, new XElement(DocX.w + "t", "Hello I am a string"));
/*
* Split t at an index greater than its text length.
* This will cause an argument out of range exception to be thrown.
*/
Text.SplitText(t, t.EndIndex + 1);
}
[TestMethod]
public void TestSplitTextOfLengthOne()
{
// The test text element to split
Text t = new Text(0, new XElement(DocX.w + "tab"));
XElement[] splitTextOfLengthOne;
#region Split before
splitTextOfLengthOne = Text.SplitText(t, t.StartIndex);
// Check if my expectations have been met
Assert.AreEqual(t.Xml.ToString(), splitTextOfLengthOne[0].ToString());
Assert.IsNull(splitTextOfLengthOne[1]);
#endregion
#region Split after
splitTextOfLengthOne = Text.SplitText(t, t.EndIndex);
// Check if my expectations have been met
Assert.IsNull(splitTextOfLengthOne[0]);
Assert.AreEqual(t.Xml.ToString(), splitTextOfLengthOne[1].ToString());
#endregion
}
}
}