core/tests/coretests/src/android/text/TextUtilsTest.java - platform/frameworks/base - Git at Google

 /*
  * Copyright (C) 2008 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 package android.text;

 import com.google.android.collect.Lists;

 import android.test.MoreAsserts;
 import android.os.Parcel;
 import android.test.suitebuilder.annotation.LargeTest;
 import android.test.suitebuilder.annotation.SmallTest;
 import android.text.style.StyleSpan;
 import android.text.util.Rfc822Token;
 import android.text.util.Rfc822Tokenizer;

 import java.util.ArrayList;
 import java.util.List;

 import junit.framework.TestCase;

 /**
  * TextUtilsTest tests {@link TextUtils}.
  */
 public class TextUtilsTest extends TestCase {

     @SmallTest
     public void testBasic() throws Exception {
         assertEquals("", TextUtils.concat());
         assertEquals("foo", TextUtils.concat("foo"));
         assertEquals("foobar", TextUtils.concat("foo", "bar"));
         assertEquals("foobarbaz", TextUtils.concat("foo", "bar", "baz"));

         SpannableString foo = new SpannableString("foo");
         foo.setSpan("foo", 1, 2, Spannable.SPAN_EXCLUSIVE_INCLUSIVE);

         SpannableString bar = new SpannableString("bar");
         bar.setSpan("bar", 1, 2, Spannable.SPAN_EXCLUSIVE_INCLUSIVE);

         SpannableString baz = new SpannableString("baz");
         baz.setSpan("baz", 1, 2, Spannable.SPAN_EXCLUSIVE_INCLUSIVE);

         assertEquals("foo", TextUtils.concat(foo).toString());
         assertEquals("foobar", TextUtils.concat(foo, bar).toString());
         assertEquals("foobarbaz", TextUtils.concat(foo, bar, baz).toString());

         assertEquals(1, ((Spanned) TextUtils.concat(foo)).getSpanStart("foo"));

         assertEquals(1, ((Spanned) TextUtils.concat(foo, bar)).getSpanStart("foo"));
         assertEquals(4, ((Spanned) TextUtils.concat(foo, bar)).getSpanStart("bar"));

         assertEquals(1, ((Spanned) TextUtils.concat(foo, bar, baz)).getSpanStart("foo"));
         assertEquals(4, ((Spanned) TextUtils.concat(foo, bar, baz)).getSpanStart("bar"));
         assertEquals(7, ((Spanned) TextUtils.concat(foo, bar, baz)).getSpanStart("baz"));

         assertTrue(TextUtils.concat("foo", "bar") instanceof String);
         assertTrue(TextUtils.concat(foo, bar) instanceof SpannedString);
     }

     @SmallTest
     public void testTemplateString() throws Exception {
         CharSequence result;

         result = TextUtils.expandTemplate("This is a ^1 of the ^2 broadcast ^3.",
                                           "test", "emergency", "system");
         assertEquals("This is a test of the emergency broadcast system.",
                      result.toString());

         result = TextUtils.expandTemplate("^^^1^^^2^3^a^1^^b^^^c",
                                           "one", "two", "three");
         assertEquals("^one^twothree^aone^b^^c",
                      result.toString());

         result = TextUtils.expandTemplate("^");
         assertEquals("^", result.toString());

         result = TextUtils.expandTemplate("^^");
         assertEquals("^", result.toString());

         result = TextUtils.expandTemplate("^^^");
         assertEquals("^^", result.toString());

         result = TextUtils.expandTemplate("shorter ^1 values ^2.", "a", "");
         assertEquals("shorter a values .", result.toString());

         try {
             TextUtils.expandTemplate("Only ^1 value given, but ^2 used.", "foo");
             fail();
         } catch (IllegalArgumentException e) {
         }

         try {
             TextUtils.expandTemplate("^1 value given, and ^0 used.", "foo");
             fail();
         } catch (IllegalArgumentException e) {
         }

         result = TextUtils.expandTemplate("^1 value given, and ^9 used.",
                                           "one", "two", "three", "four", "five",
                                           "six", "seven", "eight", "nine");
         assertEquals("one value given, and nine used.", result.toString());

         try {
             TextUtils.expandTemplate("^1 value given, and ^10 used.",
                                      "one", "two", "three", "four", "five",
                                      "six", "seven", "eight", "nine", "ten");
             fail();
         } catch (IllegalArgumentException e) {
         }

         // putting carets in the values: expansion is not recursive.

         result = TextUtils.expandTemplate("^2", "foo", "^^");
         assertEquals("^^", result.toString());

         result = TextUtils.expandTemplate("^^2", "foo", "1");
         assertEquals("^2", result.toString());

         result = TextUtils.expandTemplate("^1", "value with ^2 in it", "foo");
         assertEquals("value with ^2 in it", result.toString());
     }

     /** Fail unless text+spans contains a span 'spanName' with the given start and end. */
     private void checkContains(Spanned text, String[] spans, String spanName,
                                int start, int end) throws Exception {
         for (String i: spans) {
             if (i.equals(spanName)) {
                 assertEquals(start, text.getSpanStart(i));
                 assertEquals(end, text.getSpanEnd(i));
                 return;
             }
         }
         fail();
     }

     @SmallTest
     public void testTemplateSpan() throws Exception {
         SpannableString template;
         Spanned result;
         String[] spans;

         // ordinary replacement

         template = new SpannableString("a^1b");
         template.setSpan("before", 0, 1, Spannable.SPAN_EXCLUSIVE_EXCLUSIVE);
         template.setSpan("during", 1, 3, Spannable.SPAN_EXCLUSIVE_EXCLUSIVE);
         template.setSpan("after", 3, 4, Spannable.SPAN_EXCLUSIVE_EXCLUSIVE);
         template.setSpan("during+after", 1, 4, Spannable.SPAN_EXCLUSIVE_EXCLUSIVE);

         result = (Spanned) TextUtils.expandTemplate(template, "foo");
         assertEquals(5, result.length());
         spans = result.getSpans(0, result.length(), String.class);

         // value is one character longer, so span endpoints should change.
         assertEquals(4, spans.length);
         checkContains(result, spans, "before", 0, 1);
         checkContains(result, spans, "during", 1, 4);
         checkContains(result, spans, "after", 4, 5);
         checkContains(result, spans, "during+after", 1, 5);


         // replacement with empty string

         result = (Spanned) TextUtils.expandTemplate(template, "");
         assertEquals(2, result.length());
         spans = result.getSpans(0, result.length(), String.class);

         // the "during" span should disappear.
         assertEquals(3, spans.length);
         checkContains(result, spans, "before", 0, 1);
         checkContains(result, spans, "after", 1, 2);
         checkContains(result, spans, "during+after", 1, 2);
     }

     @SmallTest
     public void testStringSplitterSimple() {
         stringSplitterTestHelper("a,b,cde", new String[] {"a", "b", "cde"});
     }

     @SmallTest
     public void testStringSplitterEmpty() {
         stringSplitterTestHelper("", new String[] {});
     }

     @SmallTest
     public void testStringSplitterWithLeadingEmptyString() {
         stringSplitterTestHelper(",a,b,cde", new String[] {"", "a", "b", "cde"});
     }

     @SmallTest
     public void testStringSplitterWithInternalEmptyString() {
         stringSplitterTestHelper("a,b,,cde", new String[] {"a", "b", "", "cde"});
     }

     @SmallTest
     public void testStringSplitterWithTrailingEmptyString() {
         // A single trailing emtpy string should be ignored.
         stringSplitterTestHelper("a,b,cde,", new String[] {"a", "b", "cde"});
     }

     private void stringSplitterTestHelper(String string, String[] expectedStrings) {
         TextUtils.StringSplitter splitter = new TextUtils.SimpleStringSplitter(',');
         splitter.setString(string);
         List<String> strings = Lists.newArrayList();
         for (String s : splitter) {
             strings.add(s);
         }
         MoreAsserts.assertEquals(expectedStrings, strings.toArray(new String[]{}));
     }

     @SmallTest
     public void testTrim() {
         String[] strings = { "abc", " abc", "  abc", "abc ", "abc  ",
                              " abc ", "  abc  ", "\nabc\n", "\nabc", "abc\n" };

         for (String s : strings) {
             assertEquals(s.trim().length(), TextUtils.getTrimmedLength(s));
         }
     }

     @SmallTest
     public void testRfc822TokenizerFullAddress() {
         Rfc822Token[] tokens = Rfc822Tokenizer.tokenize("Foo Bar (something) <foo@google.com>");
         assertNotNull(tokens);
         assertEquals(1, tokens.length);
         assertEquals("foo@google.com", tokens[0].getAddress());
         assertEquals("Foo Bar", tokens[0].getName());
         assertEquals("something",tokens[0].getComment());
     }

     @SmallTest
     public void testRfc822TokenizeItemWithError() {
         Rfc822Token[] tokens = Rfc822Tokenizer.tokenize("\"Foo Bar\\");
         assertNotNull(tokens);
         assertEquals(1, tokens.length);
         assertEquals("Foo Bar", tokens[0].getAddress());
     }

     @SmallTest
     public void testRfc822FindToken() {
         Rfc822Tokenizer tokenizer = new Rfc822Tokenizer();
         //                0           1         2           3         4
         //                0 1234 56789012345678901234 5678 90123456789012345
         String address = "\"Foo\" <foo@google.com>, \"Bar\" <bar@google.com>";
         assertEquals(0, tokenizer.findTokenStart(address, 21));
         assertEquals(22, tokenizer.findTokenEnd(address, 21));
         assertEquals(24, tokenizer.findTokenStart(address, 25));
         assertEquals(46, tokenizer.findTokenEnd(address, 25));
     }

     @SmallTest
     public void testRfc822FindTokenWithError() {
         assertEquals(9, new Rfc822Tokenizer().findTokenEnd("\"Foo Bar\\", 0));
     }

     @LargeTest
     public void testEllipsize() {
         CharSequence s1 = "The quick brown fox jumps over \u00FEhe lazy dog.";
         CharSequence s2 = new Wrapper(s1);
         Spannable s3 = new SpannableString(s1);
         s3.setSpan(new StyleSpan(0), 5, 10, Spannable.SPAN_EXCLUSIVE_EXCLUSIVE);
         TextPaint p = new TextPaint();
         p.setFlags(p.getFlags() & ~p.DEV_KERN_TEXT_FLAG);

         for (int i = 0; i < 100; i++) {
             for (int j = 0; j < 3; j++) {
                 TextUtils.TruncateAt kind = null;

                 switch (j) {
                 case 0:
                     kind = TextUtils.TruncateAt.START;
                     break;

                 case 1:
                     kind = TextUtils.TruncateAt.END;
                     break;

                 case 2:
                     kind = TextUtils.TruncateAt.MIDDLE;
                     break;
                 }

                 String out1 = TextUtils.ellipsize(s1, p, i, kind).toString();
                 String out2 = TextUtils.ellipsize(s2, p, i, kind).toString();
                 String out3 = TextUtils.ellipsize(s3, p, i, kind).toString();

                 String keep1 = TextUtils.ellipsize(s1, p, i, kind, true, null).toString();
                 String keep2 = TextUtils.ellipsize(s2, p, i, kind, true, null).toString();
                 String keep3 = TextUtils.ellipsize(s3, p, i, kind, true, null).toString();

                 String trim1 = keep1.replace("\uFEFF", "");

                 // Are all normal output strings identical?
                 assertEquals("wid " + i + " pass " + j, out1, out2);
                 assertEquals("wid " + i + " pass " + j, out2, out3);

                 // Are preserved output strings identical?
                 assertEquals("wid " + i + " pass " + j, keep1, keep2);
                 assertEquals("wid " + i + " pass " + j, keep2, keep3);

                 // Does trimming padding from preserved yield normal?
                 assertEquals("wid " + i + " pass " + j, out1, trim1);

                 // Did preserved output strings preserve length?
                 assertEquals("wid " + i + " pass " + j, keep1.length(), s1.length());

                 // Does the output string actually fit in the space?
                 assertTrue("wid " + i + " pass " + j, p.measureText(out1) <= i);

                 // Is the padded output the same width as trimmed output?
                 assertTrue("wid " + i + " pass " + j, p.measureText(keep1) == p.measureText(out1));
             }
         }
     }

     @SmallTest
     public void testDelimitedStringContains() {
         assertFalse(TextUtils.delimitedStringContains("", ',', null));
         assertFalse(TextUtils.delimitedStringContains(null, ',', ""));
         // Whole match
         assertTrue(TextUtils.delimitedStringContains("gps", ',', "gps"));
         // At beginning.
         assertTrue(TextUtils.delimitedStringContains("gps,gpsx,network,mock", ',', "gps"));
         assertTrue(TextUtils.delimitedStringContains("gps,network,mock", ',', "gps"));
         // In middle, both without, before & after a false match.
         assertTrue(TextUtils.delimitedStringContains("network,gps,mock", ',', "gps"));
         assertTrue(TextUtils.delimitedStringContains("network,gps,gpsx,mock", ',', "gps"));
         assertTrue(TextUtils.delimitedStringContains("network,gpsx,gps,mock", ',', "gps"));
         // At the end.
         assertTrue(TextUtils.delimitedStringContains("network,mock,gps", ',', "gps"));
         assertTrue(TextUtils.delimitedStringContains("network,mock,gpsx,gps", ',', "gps"));
         // Not present (but with a false match)
         assertFalse(TextUtils.delimitedStringContains("network,mock,gpsx", ',', "gps"));
     }

     @SmallTest
     public void testCharSequenceCreator() {
         Parcel p = Parcel.obtain();
         TextUtils.writeToParcel(null, p, 0);
         CharSequence text = TextUtils.CHAR_SEQUENCE_CREATOR.createFromParcel(p);
         assertNull("null CharSequence should generate null from parcel", text);
         p = Parcel.obtain();
         TextUtils.writeToParcel("test", p, 0);
         text = TextUtils.CHAR_SEQUENCE_CREATOR.createFromParcel(p);
         assertEquals("conversion to/from parcel failed", "test", text);
     }

     @SmallTest
     public void testCharSequenceCreatorNull() {
         Parcel p;
         CharSequence text;
         p = Parcel.obtain();
         TextUtils.writeToParcel(null, p, 0);
         p.setDataPosition(0);
         text = TextUtils.CHAR_SEQUENCE_CREATOR.createFromParcel(p);
         assertNull("null CharSequence should generate null from parcel", text);
     }

     @SmallTest
     public void testCharSequenceCreatorSpannable() {
         Parcel p;
         CharSequence text;
         p = Parcel.obtain();
         TextUtils.writeToParcel(new SpannableString("test"), p, 0);
         p.setDataPosition(0);
         text = TextUtils.CHAR_SEQUENCE_CREATOR.createFromParcel(p);
         assertEquals("conversion to/from parcel failed", "test", text.toString());
     }

     @SmallTest
     public void testCharSequenceCreatorString() {
         Parcel p;
         CharSequence text;
         p = Parcel.obtain();
         TextUtils.writeToParcel("test", p, 0);
         p.setDataPosition(0);
         text = TextUtils.CHAR_SEQUENCE_CREATOR.createFromParcel(p);
         assertEquals("conversion to/from parcel failed", "test", text.toString());
     }

     /**
      * CharSequence wrapper for testing the cases where text is copied into
      * a char array instead of working from a String or a Spanned.
      */
     private static class Wrapper implements CharSequence {
         private CharSequence mString;

         public Wrapper(CharSequence s) {
             mString = s;
         }

         public int length() {
             return mString.length();
         }

         public char charAt(int off) {
             return mString.charAt(off);
         }

         @Override
         public String toString() {
             return mString.toString();
         }

         public CharSequence subSequence(int start, int end) {
             return new Wrapper(mString.subSequence(start, end));
         }
     }

     @LargeTest
     public void testRemoveEmptySpans() {
         MockSpanned spanned = new MockSpanned();

         spanned.test();
         spanned.addSpan().test();
         spanned.addSpan().test();
         spanned.addSpan().test();
         spanned.addEmptySpan().test();
         spanned.addSpan().test();
         spanned.addEmptySpan().test();
         spanned.addEmptySpan().test();
         spanned.addSpan().test();

         spanned.clear();
         spanned.addEmptySpan().test();
         spanned.addEmptySpan().test();
         spanned.addEmptySpan().test();
         spanned.addSpan().test();
         spanned.addEmptySpan().test();
         spanned.addSpan().test();

         spanned.clear();
         spanned.addSpan().test();
         spanned.addEmptySpan().test();
         spanned.addSpan().test();
         spanned.addEmptySpan().test();
         spanned.addSpan().test();
         spanned.addSpan().test();
     }

     protected static class MockSpanned implements Spanned {

         private List<Object> allSpans = new ArrayList<Object>();
         private List<Object> nonEmptySpans = new ArrayList<Object>();

         public void clear() {
             allSpans.clear();
             nonEmptySpans.clear();
         }

         public MockSpanned addSpan() {
             Object o = new Object();
             allSpans.add(o);
             nonEmptySpans.add(o);
             return this;
         }

         public MockSpanned addEmptySpan() {
             Object o = new Object();
             allSpans.add(o);
             return this;
         }

         public void test() {
             Object[] nonEmpty = TextUtils.removeEmptySpans(allSpans.toArray(), this, Object.class);
             assertEquals("Mismatched array size", nonEmptySpans.size(), nonEmpty.length);
             for (int i=0; i<nonEmpty.length; i++) {
                 assertEquals("Span differ", nonEmptySpans.get(i), nonEmpty[i]);
             }
         }

         public char charAt(int arg0) {
             return 0;
         }

         public int length() {
             return 0;
         }

         public CharSequence subSequence(int arg0, int arg1) {
             return null;
         }

         @Override
         public <T> T[] getSpans(int start, int end, Class<T> type) {
             return null;
         }

         @Override
         public int getSpanStart(Object tag) {
             return 0;
         }

         @Override
         public int getSpanEnd(Object tag) {
             return nonEmptySpans.contains(tag) ? 1 : 0;
         }

         @Override
         public int getSpanFlags(Object tag) {
             return 0;
         }

         @Override
         public int nextSpanTransition(int start, int limit, Class type) {
             return 0;
         }
     }
 }
	/*
	* Copyright (C) 2008 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	package android.text;

	import com.google.android.collect.Lists;

	import android.test.MoreAsserts;
	import android.os.Parcel;
	import android.test.suitebuilder.annotation.LargeTest;
	import android.test.suitebuilder.annotation.SmallTest;
	import android.text.style.StyleSpan;
	import android.text.util.Rfc822Token;
	import android.text.util.Rfc822Tokenizer;

	import java.util.ArrayList;
	import java.util.List;

	import junit.framework.TestCase;

	/**
	* TextUtilsTest tests {@link TextUtils}.
	*/
	public class TextUtilsTest extends TestCase {

	@SmallTest
	public void testBasic() throws Exception {
	assertEquals("", TextUtils.concat());
	assertEquals("foo", TextUtils.concat("foo"));
	assertEquals("foobar", TextUtils.concat("foo", "bar"));
	assertEquals("foobarbaz", TextUtils.concat("foo", "bar", "baz"));

	SpannableString foo = new SpannableString("foo");
	foo.setSpan("foo", 1, 2, Spannable.SPAN_EXCLUSIVE_INCLUSIVE);

	SpannableString bar = new SpannableString("bar");
	bar.setSpan("bar", 1, 2, Spannable.SPAN_EXCLUSIVE_INCLUSIVE);

	SpannableString baz = new SpannableString("baz");
	baz.setSpan("baz", 1, 2, Spannable.SPAN_EXCLUSIVE_INCLUSIVE);

	assertEquals("foo", TextUtils.concat(foo).toString());
	assertEquals("foobar", TextUtils.concat(foo, bar).toString());
	assertEquals("foobarbaz", TextUtils.concat(foo, bar, baz).toString());

	assertEquals(1, ((Spanned) TextUtils.concat(foo)).getSpanStart("foo"));

	assertEquals(1, ((Spanned) TextUtils.concat(foo, bar)).getSpanStart("foo"));
	assertEquals(4, ((Spanned) TextUtils.concat(foo, bar)).getSpanStart("bar"));

	assertEquals(1, ((Spanned) TextUtils.concat(foo, bar, baz)).getSpanStart("foo"));
	assertEquals(4, ((Spanned) TextUtils.concat(foo, bar, baz)).getSpanStart("bar"));
	assertEquals(7, ((Spanned) TextUtils.concat(foo, bar, baz)).getSpanStart("baz"));

	assertTrue(TextUtils.concat("foo", "bar") instanceof String);
	assertTrue(TextUtils.concat(foo, bar) instanceof SpannedString);
	}

	@SmallTest
	public void testTemplateString() throws Exception {
	CharSequence result;

	result = TextUtils.expandTemplate("This is a ^1 of the ^2 broadcast ^3.",
	"test", "emergency", "system");
	assertEquals("This is a test of the emergency broadcast system.",
	result.toString());

	result = TextUtils.expandTemplate("^^^1^^^2^3^a^1^^b^^^c",
	"one", "two", "three");
	assertEquals("^one^twothree^aone^b^^c",
	result.toString());

	result = TextUtils.expandTemplate("^");
	assertEquals("^", result.toString());

	result = TextUtils.expandTemplate("^^");
	assertEquals("^", result.toString());

	result = TextUtils.expandTemplate("^^^");
	assertEquals("^^", result.toString());

	result = TextUtils.expandTemplate("shorter ^1 values ^2.", "a", "");
	assertEquals("shorter a values .", result.toString());

	try {
	TextUtils.expandTemplate("Only ^1 value given, but ^2 used.", "foo");
	fail();
	} catch (IllegalArgumentException e) {
	}

	try {
	TextUtils.expandTemplate("^1 value given, and ^0 used.", "foo");
	fail();
	} catch (IllegalArgumentException e) {
	}

	result = TextUtils.expandTemplate("^1 value given, and ^9 used.",
	"one", "two", "three", "four", "five",
	"six", "seven", "eight", "nine");
	assertEquals("one value given, and nine used.", result.toString());

	try {
	TextUtils.expandTemplate("^1 value given, and ^10 used.",
	"one", "two", "three", "four", "five",
	"six", "seven", "eight", "nine", "ten");
	fail();
	} catch (IllegalArgumentException e) {
	}

	// putting carets in the values: expansion is not recursive.

	result = TextUtils.expandTemplate("^2", "foo", "^^");
	assertEquals("^^", result.toString());

	result = TextUtils.expandTemplate("^^2", "foo", "1");
	assertEquals("^2", result.toString());

	result = TextUtils.expandTemplate("^1", "value with ^2 in it", "foo");
	assertEquals("value with ^2 in it", result.toString());
	}

	/** Fail unless text+spans contains a span 'spanName' with the given start and end. */
	private void checkContains(Spanned text, String[] spans, String spanName,
	int start, int end) throws Exception {
	for (String i: spans) {
	if (i.equals(spanName)) {
	assertEquals(start, text.getSpanStart(i));
	assertEquals(end, text.getSpanEnd(i));
	return;
	}
	}
	fail();
	}

	@SmallTest
	public void testTemplateSpan() throws Exception {
	SpannableString template;
	Spanned result;
	String[] spans;

	// ordinary replacement

	template = new SpannableString("a^1b");
	template.setSpan("before", 0, 1, Spannable.SPAN_EXCLUSIVE_EXCLUSIVE);
	template.setSpan("during", 1, 3, Spannable.SPAN_EXCLUSIVE_EXCLUSIVE);
	template.setSpan("after", 3, 4, Spannable.SPAN_EXCLUSIVE_EXCLUSIVE);
	template.setSpan("during+after", 1, 4, Spannable.SPAN_EXCLUSIVE_EXCLUSIVE);

	result = (Spanned) TextUtils.expandTemplate(template, "foo");
	assertEquals(5, result.length());
	spans = result.getSpans(0, result.length(), String.class);

	// value is one character longer, so span endpoints should change.
	assertEquals(4, spans.length);
	checkContains(result, spans, "before", 0, 1);
	checkContains(result, spans, "during", 1, 4);
	checkContains(result, spans, "after", 4, 5);
	checkContains(result, spans, "during+after", 1, 5);


	// replacement with empty string

	result = (Spanned) TextUtils.expandTemplate(template, "");
	assertEquals(2, result.length());
	spans = result.getSpans(0, result.length(), String.class);

	// the "during" span should disappear.
	assertEquals(3, spans.length);
	checkContains(result, spans, "before", 0, 1);
	checkContains(result, spans, "after", 1, 2);
	checkContains(result, spans, "during+after", 1, 2);
	}

	@SmallTest
	public void testStringSplitterSimple() {
	stringSplitterTestHelper("a,b,cde", new String[] {"a", "b", "cde"});
	}

	@SmallTest
	public void testStringSplitterEmpty() {
	stringSplitterTestHelper("", new String[] {});
	}

	@SmallTest
	public void testStringSplitterWithLeadingEmptyString() {
	stringSplitterTestHelper(",a,b,cde", new String[] {"", "a", "b", "cde"});
	}

	@SmallTest
	public void testStringSplitterWithInternalEmptyString() {
	stringSplitterTestHelper("a,b,,cde", new String[] {"a", "b", "", "cde"});
	}

	@SmallTest
	public void testStringSplitterWithTrailingEmptyString() {
	// A single trailing emtpy string should be ignored.
	stringSplitterTestHelper("a,b,cde,", new String[] {"a", "b", "cde"});
	}

	private void stringSplitterTestHelper(String string, String[] expectedStrings) {
	TextUtils.StringSplitter splitter = new TextUtils.SimpleStringSplitter(',');
	splitter.setString(string);
	List<String> strings = Lists.newArrayList();
	for (String s : splitter) {
	strings.add(s);
	}
	MoreAsserts.assertEquals(expectedStrings, strings.toArray(new String[]{}));
	}

	@SmallTest
	public void testTrim() {
	String[] strings = { "abc", " abc", " abc", "abc ", "abc ",
	" abc ", " abc ", "\nabc\n", "\nabc", "abc\n" };

	for (String s : strings) {
	assertEquals(s.trim().length(), TextUtils.getTrimmedLength(s));
	}
	}

	@SmallTest
	public void testRfc822TokenizerFullAddress() {
	Rfc822Token[] tokens = Rfc822Tokenizer.tokenize("Foo Bar (something) <foo@google.com>");
	assertNotNull(tokens);
	assertEquals(1, tokens.length);
	assertEquals("foo@google.com", tokens[0].getAddress());
	assertEquals("Foo Bar", tokens[0].getName());
	assertEquals("something",tokens[0].getComment());
	}

	@SmallTest
	public void testRfc822TokenizeItemWithError() {
	Rfc822Token[] tokens = Rfc822Tokenizer.tokenize("\"Foo Bar\\");
	assertNotNull(tokens);
	assertEquals(1, tokens.length);
	assertEquals("Foo Bar", tokens[0].getAddress());
	}

	@SmallTest
	public void testRfc822FindToken() {
	Rfc822Tokenizer tokenizer = new Rfc822Tokenizer();
	// 0 1 2 3 4
	// 0 1234 56789012345678901234 5678 90123456789012345
	String address = "\"Foo\" <foo@google.com>, \"Bar\" <bar@google.com>";
	assertEquals(0, tokenizer.findTokenStart(address, 21));
	assertEquals(22, tokenizer.findTokenEnd(address, 21));
	assertEquals(24, tokenizer.findTokenStart(address, 25));
	assertEquals(46, tokenizer.findTokenEnd(address, 25));
	}

	@SmallTest
	public void testRfc822FindTokenWithError() {
	assertEquals(9, new Rfc822Tokenizer().findTokenEnd("\"Foo Bar\\", 0));
	}

	@LargeTest
	public void testEllipsize() {
	CharSequence s1 = "The quick brown fox jumps over \u00FEhe lazy dog.";
	CharSequence s2 = new Wrapper(s1);
	Spannable s3 = new SpannableString(s1);
	s3.setSpan(new StyleSpan(0), 5, 10, Spannable.SPAN_EXCLUSIVE_EXCLUSIVE);
	TextPaint p = new TextPaint();
	p.setFlags(p.getFlags() & ~p.DEV_KERN_TEXT_FLAG);

	for (int i = 0; i < 100; i++) {
	for (int j = 0; j < 3; j++) {
	TextUtils.TruncateAt kind = null;

	switch (j) {
	case 0:
	kind = TextUtils.TruncateAt.START;
	break;

	case 1:
	kind = TextUtils.TruncateAt.END;
	break;

	case 2:
	kind = TextUtils.TruncateAt.MIDDLE;
	break;
	}

	String out1 = TextUtils.ellipsize(s1, p, i, kind).toString();
	String out2 = TextUtils.ellipsize(s2, p, i, kind).toString();
	String out3 = TextUtils.ellipsize(s3, p, i, kind).toString();

	String keep1 = TextUtils.ellipsize(s1, p, i, kind, true, null).toString();
	String keep2 = TextUtils.ellipsize(s2, p, i, kind, true, null).toString();
	String keep3 = TextUtils.ellipsize(s3, p, i, kind, true, null).toString();

	String trim1 = keep1.replace("\uFEFF", "");

	// Are all normal output strings identical?
	assertEquals("wid " + i + " pass " + j, out1, out2);
	assertEquals("wid " + i + " pass " + j, out2, out3);

	// Are preserved output strings identical?
	assertEquals("wid " + i + " pass " + j, keep1, keep2);
	assertEquals("wid " + i + " pass " + j, keep2, keep3);

	// Does trimming padding from preserved yield normal?
	assertEquals("wid " + i + " pass " + j, out1, trim1);

	// Did preserved output strings preserve length?
	assertEquals("wid " + i + " pass " + j, keep1.length(), s1.length());

	// Does the output string actually fit in the space?
	assertTrue("wid " + i + " pass " + j, p.measureText(out1) <= i);

	// Is the padded output the same width as trimmed output?
	assertTrue("wid " + i + " pass " + j, p.measureText(keep1) == p.measureText(out1));
	}
	}
	}

	@SmallTest
	public void testDelimitedStringContains() {
	assertFalse(TextUtils.delimitedStringContains("", ',', null));
	assertFalse(TextUtils.delimitedStringContains(null, ',', ""));
	// Whole match
	assertTrue(TextUtils.delimitedStringContains("gps", ',', "gps"));
	// At beginning.
	assertTrue(TextUtils.delimitedStringContains("gps,gpsx,network,mock", ',', "gps"));
	assertTrue(TextUtils.delimitedStringContains("gps,network,mock", ',', "gps"));
	// In middle, both without, before & after a false match.
	assertTrue(TextUtils.delimitedStringContains("network,gps,mock", ',', "gps"));
	assertTrue(TextUtils.delimitedStringContains("network,gps,gpsx,mock", ',', "gps"));
	assertTrue(TextUtils.delimitedStringContains("network,gpsx,gps,mock", ',', "gps"));
	// At the end.
	assertTrue(TextUtils.delimitedStringContains("network,mock,gps", ',', "gps"));
	assertTrue(TextUtils.delimitedStringContains("network,mock,gpsx,gps", ',', "gps"));
	// Not present (but with a false match)
	assertFalse(TextUtils.delimitedStringContains("network,mock,gpsx", ',', "gps"));
	}

	@SmallTest
	public void testCharSequenceCreator() {
	Parcel p = Parcel.obtain();
	TextUtils.writeToParcel(null, p, 0);
	CharSequence text = TextUtils.CHAR_SEQUENCE_CREATOR.createFromParcel(p);
	assertNull("null CharSequence should generate null from parcel", text);
	p = Parcel.obtain();
	TextUtils.writeToParcel("test", p, 0);
	text = TextUtils.CHAR_SEQUENCE_CREATOR.createFromParcel(p);
	assertEquals("conversion to/from parcel failed", "test", text);
	}

	@SmallTest
	public void testCharSequenceCreatorNull() {
	Parcel p;
	CharSequence text;
	p = Parcel.obtain();
	TextUtils.writeToParcel(null, p, 0);
	p.setDataPosition(0);
	text = TextUtils.CHAR_SEQUENCE_CREATOR.createFromParcel(p);
	assertNull("null CharSequence should generate null from parcel", text);
	}

	@SmallTest
	public void testCharSequenceCreatorSpannable() {
	Parcel p;
	CharSequence text;
	p = Parcel.obtain();
	TextUtils.writeToParcel(new SpannableString("test"), p, 0);
	p.setDataPosition(0);
	text = TextUtils.CHAR_SEQUENCE_CREATOR.createFromParcel(p);
	assertEquals("conversion to/from parcel failed", "test", text.toString());
	}

	@SmallTest
	public void testCharSequenceCreatorString() {
	Parcel p;
	CharSequence text;
	p = Parcel.obtain();
	TextUtils.writeToParcel("test", p, 0);
	p.setDataPosition(0);
	text = TextUtils.CHAR_SEQUENCE_CREATOR.createFromParcel(p);
	assertEquals("conversion to/from parcel failed", "test", text.toString());
	}

	/**
	* CharSequence wrapper for testing the cases where text is copied into
	* a char array instead of working from a String or a Spanned.
	*/
	private static class Wrapper implements CharSequence {
	private CharSequence mString;

	public Wrapper(CharSequence s) {
	mString = s;
	}

	public int length() {
	return mString.length();
	}

	public char charAt(int off) {
	return mString.charAt(off);
	}

	@Override
	public String toString() {
	return mString.toString();
	}

	public CharSequence subSequence(int start, int end) {
	return new Wrapper(mString.subSequence(start, end));
	}
	}

	@LargeTest
	public void testRemoveEmptySpans() {
	MockSpanned spanned = new MockSpanned();

	spanned.test();
	spanned.addSpan().test();
	spanned.addSpan().test();
	spanned.addSpan().test();
	spanned.addEmptySpan().test();
	spanned.addSpan().test();
	spanned.addEmptySpan().test();
	spanned.addEmptySpan().test();
	spanned.addSpan().test();

	spanned.clear();
	spanned.addEmptySpan().test();
	spanned.addEmptySpan().test();
	spanned.addEmptySpan().test();
	spanned.addSpan().test();
	spanned.addEmptySpan().test();
	spanned.addSpan().test();

	spanned.clear();
	spanned.addSpan().test();
	spanned.addEmptySpan().test();
	spanned.addSpan().test();
	spanned.addEmptySpan().test();
	spanned.addSpan().test();
	spanned.addSpan().test();
	}

	protected static class MockSpanned implements Spanned {

	private List<Object> allSpans = new ArrayList<Object>();
	private List<Object> nonEmptySpans = new ArrayList<Object>();

	public void clear() {
	allSpans.clear();
	nonEmptySpans.clear();
	}

	public MockSpanned addSpan() {
	Object o = new Object();
	allSpans.add(o);
	nonEmptySpans.add(o);
	return this;
	}

	public MockSpanned addEmptySpan() {
	Object o = new Object();
	allSpans.add(o);
	return this;
	}

	public void test() {
	Object[] nonEmpty = TextUtils.removeEmptySpans(allSpans.toArray(), this, Object.class);
	assertEquals("Mismatched array size", nonEmptySpans.size(), nonEmpty.length);
	for (int i=0; i<nonEmpty.length; i++) {
	assertEquals("Span differ", nonEmptySpans.get(i), nonEmpty[i]);
	}
	}

	public char charAt(int arg0) {
	return 0;
	}

	public int length() {
	return 0;
	}

	public CharSequence subSequence(int arg0, int arg1) {
	return null;
	}

	@Override
	public <T> T[] getSpans(int start, int end, Class<T> type) {
	return null;
	}

	@Override
	public int getSpanStart(Object tag) {
	return 0;
	}

	@Override
	public int getSpanEnd(Object tag) {
	return nonEmptySpans.contains(tag) ? 1 : 0;
	}

	@Override
	public int getSpanFlags(Object tag) {
	return 0;
	}

	@Override
	public int nextSpanTransition(int start, int limit, Class type) {
	return 0;
	}
	}
	}