target stringlengths 20 113k | src_fm stringlengths 11 86.3k | src_fm_fc stringlengths 21 86.4k | src_fm_fc_co stringlengths 30 86.4k | src_fm_fc_ms stringlengths 42 86.8k | src_fm_fc_ms_ff stringlengths 43 86.8k |
|---|---|---|---|---|---|
@Test public void consumeLetterSequence() { CharacterReader r = new CharacterReader("One &bar; qux"); assertEquals("One", r.consumeLetterSequence()); assertEquals(" &", r.consumeTo("bar;")); assertEquals("bar", r.consumeLetterSequence()); assertEquals("; qux", r.consumeToEnd()); } | String consumeLetterSequence() { bufferUp(); int start = bufPos; while (bufPos < bufLength) { char c = charBuf[bufPos]; if ((c >= 'A' && c <= 'Z') || (c >= 'a' && c <= 'z') || Character.isLetter(c)) bufPos++; else break; } return cacheString(charBuf, stringCache, start, bufPos - start); } | CharacterReader { String consumeLetterSequence() { bufferUp(); int start = bufPos; while (bufPos < bufLength) { char c = charBuf[bufPos]; if ((c >= 'A' && c <= 'Z') || (c >= 'a' && c <= 'z') || Character.isLetter(c)) bufPos++; else break; } return cacheString(charBuf, stringCache, start, bufPos - start); } } | CharacterReader { String consumeLetterSequence() { bufferUp(); int start = bufPos; while (bufPos < bufLength) { char c = charBuf[bufPos]; if ((c >= 'A' && c <= 'Z') || (c >= 'a' && c <= 'z') || Character.isLetter(c)) bufPos++; else break; } return cacheString(charBuf, stringCache, start, bufPos - start); } CharacterRea... | CharacterReader { String consumeLetterSequence() { bufferUp(); int start = bufPos; while (bufPos < bufLength) { char c = charBuf[bufPos]; if ((c >= 'A' && c <= 'Z') || (c >= 'a' && c <= 'z') || Character.isLetter(c)) bufPos++; else break; } return cacheString(charBuf, stringCache, start, bufPos - start); } CharacterRea... | CharacterReader { String consumeLetterSequence() { bufferUp(); int start = bufPos; while (bufPos < bufLength) { char c = charBuf[bufPos]; if ((c >= 'A' && c <= 'Z') || (c >= 'a' && c <= 'z') || Character.isLetter(c)) bufPos++; else break; } return cacheString(charBuf, stringCache, start, bufPos - start); } CharacterRea... |
@Test public void consumeLetterThenDigitSequence() { CharacterReader r = new CharacterReader("One12 Two &bar; qux"); assertEquals("One12", r.consumeLetterThenDigitSequence()); assertEquals(' ', r.consume()); assertEquals("Two", r.consumeLetterThenDigitSequence()); assertEquals(" &bar; qux", r.consumeToEnd()); } | String consumeLetterThenDigitSequence() { bufferUp(); int start = bufPos; while (bufPos < bufLength) { char c = charBuf[bufPos]; if ((c >= 'A' && c <= 'Z') || (c >= 'a' && c <= 'z') || Character.isLetter(c)) bufPos++; else break; } while (!isEmpty()) { char c = charBuf[bufPos]; if (c >= '0' && c <= '9') bufPos++; else ... | CharacterReader { String consumeLetterThenDigitSequence() { bufferUp(); int start = bufPos; while (bufPos < bufLength) { char c = charBuf[bufPos]; if ((c >= 'A' && c <= 'Z') || (c >= 'a' && c <= 'z') || Character.isLetter(c)) bufPos++; else break; } while (!isEmpty()) { char c = charBuf[bufPos]; if (c >= '0' && c <= '9... | CharacterReader { String consumeLetterThenDigitSequence() { bufferUp(); int start = bufPos; while (bufPos < bufLength) { char c = charBuf[bufPos]; if ((c >= 'A' && c <= 'Z') || (c >= 'a' && c <= 'z') || Character.isLetter(c)) bufPos++; else break; } while (!isEmpty()) { char c = charBuf[bufPos]; if (c >= '0' && c <= '9... | CharacterReader { String consumeLetterThenDigitSequence() { bufferUp(); int start = bufPos; while (bufPos < bufLength) { char c = charBuf[bufPos]; if ((c >= 'A' && c <= 'Z') || (c >= 'a' && c <= 'z') || Character.isLetter(c)) bufPos++; else break; } while (!isEmpty()) { char c = charBuf[bufPos]; if (c >= '0' && c <= '9... | CharacterReader { String consumeLetterThenDigitSequence() { bufferUp(); int start = bufPos; while (bufPos < bufLength) { char c = charBuf[bufPos]; if ((c >= 'A' && c <= 'Z') || (c >= 'a' && c <= 'z') || Character.isLetter(c)) bufPos++; else break; } while (!isEmpty()) { char c = charBuf[bufPos]; if (c >= '0' && c <= '9... |
@Test public void matches() { CharacterReader r = new CharacterReader("One Two Three"); assertTrue(r.matches('O')); assertTrue(r.matches("One Two Three")); assertTrue(r.matches("One")); assertFalse(r.matches("one")); assertEquals('O', r.consume()); assertFalse(r.matches("One")); assertTrue(r.matches("ne Two Three")); a... | boolean matches(char c) { return !isEmpty() && charBuf[bufPos] == c; } | CharacterReader { boolean matches(char c) { return !isEmpty() && charBuf[bufPos] == c; } } | CharacterReader { boolean matches(char c) { return !isEmpty() && charBuf[bufPos] == c; } CharacterReader(Reader input, int sz); CharacterReader(Reader input); CharacterReader(String input); } | CharacterReader { boolean matches(char c) { return !isEmpty() && charBuf[bufPos] == c; } CharacterReader(Reader input, int sz); CharacterReader(Reader input); CharacterReader(String input); int pos(); boolean isEmpty(); char current(); void advance(); String consumeTo(char c); String consumeToAny(final char... chars)... | CharacterReader { boolean matches(char c) { return !isEmpty() && charBuf[bufPos] == c; } CharacterReader(Reader input, int sz); CharacterReader(Reader input); CharacterReader(String input); int pos(); boolean isEmpty(); char current(); void advance(); String consumeTo(char c); String consumeToAny(final char... chars)... |
@Test public void matchesIgnoreCase() { CharacterReader r = new CharacterReader("One Two Three"); assertTrue(r.matchesIgnoreCase("O")); assertTrue(r.matchesIgnoreCase("o")); assertTrue(r.matches('O')); assertFalse(r.matches('o')); assertTrue(r.matchesIgnoreCase("One Two Three")); assertTrue(r.matchesIgnoreCase("ONE two... | boolean matchesIgnoreCase(String seq) { bufferUp(); int scanLength = seq.length(); if (scanLength > bufLength - bufPos) return false; for (int offset = 0; offset < scanLength; offset++) { char upScan = Character.toUpperCase(seq.charAt(offset)); char upTarget = Character.toUpperCase(charBuf[bufPos + offset]); if (upScan... | CharacterReader { boolean matchesIgnoreCase(String seq) { bufferUp(); int scanLength = seq.length(); if (scanLength > bufLength - bufPos) return false; for (int offset = 0; offset < scanLength; offset++) { char upScan = Character.toUpperCase(seq.charAt(offset)); char upTarget = Character.toUpperCase(charBuf[bufPos + of... | CharacterReader { boolean matchesIgnoreCase(String seq) { bufferUp(); int scanLength = seq.length(); if (scanLength > bufLength - bufPos) return false; for (int offset = 0; offset < scanLength; offset++) { char upScan = Character.toUpperCase(seq.charAt(offset)); char upTarget = Character.toUpperCase(charBuf[bufPos + of... | CharacterReader { boolean matchesIgnoreCase(String seq) { bufferUp(); int scanLength = seq.length(); if (scanLength > bufLength - bufPos) return false; for (int offset = 0; offset < scanLength; offset++) { char upScan = Character.toUpperCase(seq.charAt(offset)); char upTarget = Character.toUpperCase(charBuf[bufPos + of... | CharacterReader { boolean matchesIgnoreCase(String seq) { bufferUp(); int scanLength = seq.length(); if (scanLength > bufLength - bufPos) return false; for (int offset = 0; offset < scanLength; offset++) { char upScan = Character.toUpperCase(seq.charAt(offset)); char upTarget = Character.toUpperCase(charBuf[bufPos + of... |
@Test public void containsIgnoreCase() { CharacterReader r = new CharacterReader("One TWO three"); assertTrue(r.containsIgnoreCase("two")); assertTrue(r.containsIgnoreCase("three")); assertFalse(r.containsIgnoreCase("one")); } | boolean containsIgnoreCase(String seq) { String loScan = seq.toLowerCase(Locale.ENGLISH); String hiScan = seq.toUpperCase(Locale.ENGLISH); return (nextIndexOf(loScan) > -1) || (nextIndexOf(hiScan) > -1); } | CharacterReader { boolean containsIgnoreCase(String seq) { String loScan = seq.toLowerCase(Locale.ENGLISH); String hiScan = seq.toUpperCase(Locale.ENGLISH); return (nextIndexOf(loScan) > -1) || (nextIndexOf(hiScan) > -1); } } | CharacterReader { boolean containsIgnoreCase(String seq) { String loScan = seq.toLowerCase(Locale.ENGLISH); String hiScan = seq.toUpperCase(Locale.ENGLISH); return (nextIndexOf(loScan) > -1) || (nextIndexOf(hiScan) > -1); } CharacterReader(Reader input, int sz); CharacterReader(Reader input); CharacterReader(String i... | CharacterReader { boolean containsIgnoreCase(String seq) { String loScan = seq.toLowerCase(Locale.ENGLISH); String hiScan = seq.toUpperCase(Locale.ENGLISH); return (nextIndexOf(loScan) > -1) || (nextIndexOf(hiScan) > -1); } CharacterReader(Reader input, int sz); CharacterReader(Reader input); CharacterReader(String i... | CharacterReader { boolean containsIgnoreCase(String seq) { String loScan = seq.toLowerCase(Locale.ENGLISH); String hiScan = seq.toUpperCase(Locale.ENGLISH); return (nextIndexOf(loScan) > -1) || (nextIndexOf(hiScan) > -1); } CharacterReader(Reader input, int sz); CharacterReader(Reader input); CharacterReader(String i... |
@Test public void matchesAny() { char[] scan = {' ', '\n', '\t'}; CharacterReader r = new CharacterReader("One\nTwo\tThree"); assertFalse(r.matchesAny(scan)); assertEquals("One", r.consumeToAny(scan)); assertTrue(r.matchesAny(scan)); assertEquals('\n', r.consume()); assertFalse(r.matchesAny(scan)); } | boolean matchesAny(char... seq) { if (isEmpty()) return false; bufferUp(); char c = charBuf[bufPos]; for (char seek : seq) { if (seek == c) return true; } return false; } | CharacterReader { boolean matchesAny(char... seq) { if (isEmpty()) return false; bufferUp(); char c = charBuf[bufPos]; for (char seek : seq) { if (seek == c) return true; } return false; } } | CharacterReader { boolean matchesAny(char... seq) { if (isEmpty()) return false; bufferUp(); char c = charBuf[bufPos]; for (char seek : seq) { if (seek == c) return true; } return false; } CharacterReader(Reader input, int sz); CharacterReader(Reader input); CharacterReader(String input); } | CharacterReader { boolean matchesAny(char... seq) { if (isEmpty()) return false; bufferUp(); char c = charBuf[bufPos]; for (char seek : seq) { if (seek == c) return true; } return false; } CharacterReader(Reader input, int sz); CharacterReader(Reader input); CharacterReader(String input); int pos(); boolean isEmpty()... | CharacterReader { boolean matchesAny(char... seq) { if (isEmpty()) return false; bufferUp(); char c = charBuf[bufPos]; for (char seek : seq) { if (seek == c) return true; } return false; } CharacterReader(Reader input, int sz); CharacterReader(Reader input); CharacterReader(String input); int pos(); boolean isEmpty()... |
@Test public void rangeEquals() { CharacterReader r = new CharacterReader("Check\tCheck\tCheck\tCHOKE"); assertTrue(r.rangeEquals(0, 5, "Check")); assertFalse(r.rangeEquals(0, 5, "CHOKE")); assertFalse(r.rangeEquals(0, 5, "Chec")); assertTrue(r.rangeEquals(6, 5, "Check")); assertFalse(r.rangeEquals(6, 5, "Chuck")); ass... | static boolean rangeEquals(final char[] charBuf, final int start, int count, final String cached) { if (count == cached.length()) { int i = start; int j = 0; while (count-- != 0) { if (charBuf[i++] != cached.charAt(j++)) return false; } return true; } return false; } | CharacterReader { static boolean rangeEquals(final char[] charBuf, final int start, int count, final String cached) { if (count == cached.length()) { int i = start; int j = 0; while (count-- != 0) { if (charBuf[i++] != cached.charAt(j++)) return false; } return true; } return false; } } | CharacterReader { static boolean rangeEquals(final char[] charBuf, final int start, int count, final String cached) { if (count == cached.length()) { int i = start; int j = 0; while (count-- != 0) { if (charBuf[i++] != cached.charAt(j++)) return false; } return true; } return false; } CharacterReader(Reader input, int ... | CharacterReader { static boolean rangeEquals(final char[] charBuf, final int start, int count, final String cached) { if (count == cached.length()) { int i = start; int j = 0; while (count-- != 0) { if (charBuf[i++] != cached.charAt(j++)) return false; } return true; } return false; } CharacterReader(Reader input, int ... | CharacterReader { static boolean rangeEquals(final char[] charBuf, final int start, int count, final String cached) { if (count == cached.length()) { int i = start; int j = 0; while (count-- != 0) { if (charBuf[i++] != cached.charAt(j++)) return false; } return true; } return false; } CharacterReader(Reader input, int ... |
@Test public void chompBalanced() { TokenQueue tq = new TokenQueue(":contains(one (two) three) four"); String pre = tq.consumeTo("("); String guts = tq.chompBalanced('(', ')'); String remainder = tq.remainder(); assertEquals(":contains", pre); assertEquals("one (two) three", guts); assertEquals(" four", remainder); } | public String chompBalanced(char open, char close) { int start = -1; int end = -1; int depth = 0; char last = 0; boolean inQuote = false; do { if (isEmpty()) break; Character c = consume(); if (last == 0 || last != ESC) { if ((c.equals('\'') || c.equals('"')) && c != open) inQuote = !inQuote; if (inQuote) continue; if ... | TokenQueue { public String chompBalanced(char open, char close) { int start = -1; int end = -1; int depth = 0; char last = 0; boolean inQuote = false; do { if (isEmpty()) break; Character c = consume(); if (last == 0 || last != ESC) { if ((c.equals('\'') || c.equals('"')) && c != open) inQuote = !inQuote; if (inQuote) ... | TokenQueue { public String chompBalanced(char open, char close) { int start = -1; int end = -1; int depth = 0; char last = 0; boolean inQuote = false; do { if (isEmpty()) break; Character c = consume(); if (last == 0 || last != ESC) { if ((c.equals('\'') || c.equals('"')) && c != open) inQuote = !inQuote; if (inQuote) ... | TokenQueue { public String chompBalanced(char open, char close) { int start = -1; int end = -1; int depth = 0; char last = 0; boolean inQuote = false; do { if (isEmpty()) break; Character c = consume(); if (last == 0 || last != ESC) { if ((c.equals('\'') || c.equals('"')) && c != open) inQuote = !inQuote; if (inQuote) ... | TokenQueue { public String chompBalanced(char open, char close) { int start = -1; int end = -1; int depth = 0; char last = 0; boolean inQuote = false; do { if (isEmpty()) break; Character c = consume(); if (last == 0 || last != ESC) { if ((c.equals('\'') || c.equals('"')) && c != open) inQuote = !inQuote; if (inQuote) ... |
@Test public void testApply() throws Exception { A a = new A(); Method m = A.class.getDeclaredMethod("getX"); GetterInvoker invoker = FunctionalGetterInvoker.create("x", m); a.setX(new long[]{1, 2, 3}); assertThat((String) invoker.invoke(a), is("1,2,3")); a.setX(null); assertThat(invoker.invoke(a), nullValue()); a.setX... | @Nullable @Override public String apply(@Nullable long[] input) { if (input == null) { return null; } if (input.length == 0) { return ""; } StringBuilder builder = new StringBuilder(); builder.append(input[0]); for (int i = 1; i < input.length; i++) { builder.append(SEPARATOR).append(input[i]); } return builder.toStrin... | LongArrayToStringFunction implements GetterFunction<long[], String> { @Nullable @Override public String apply(@Nullable long[] input) { if (input == null) { return null; } if (input.length == 0) { return ""; } StringBuilder builder = new StringBuilder(); builder.append(input[0]); for (int i = 1; i < input.length; i++) ... | LongArrayToStringFunction implements GetterFunction<long[], String> { @Nullable @Override public String apply(@Nullable long[] input) { if (input == null) { return null; } if (input.length == 0) { return ""; } StringBuilder builder = new StringBuilder(); builder.append(input[0]); for (int i = 1; i < input.length; i++) ... | LongArrayToStringFunction implements GetterFunction<long[], String> { @Nullable @Override public String apply(@Nullable long[] input) { if (input == null) { return null; } if (input.length == 0) { return ""; } StringBuilder builder = new StringBuilder(); builder.append(input[0]); for (int i = 1; i < input.length; i++) ... | LongArrayToStringFunction implements GetterFunction<long[], String> { @Nullable @Override public String apply(@Nullable long[] input) { if (input == null) { return null; } if (input.length == 0) { return ""; } StringBuilder builder = new StringBuilder(); builder.append(input[0]); for (int i = 1; i < input.length; i++) ... |
@Test public void unescape() { assertEquals("one ( ) \\", TokenQueue.unescape("one \\( \\) \\\\")); } | public static String unescape(String in) { StringBuilder out = StringUtil.stringBuilder(); char last = 0; for (char c : in.toCharArray()) { if (c == ESC) { if (last != 0 && last == ESC) out.append(c); } else out.append(c); last = c; } return out.toString(); } | TokenQueue { public static String unescape(String in) { StringBuilder out = StringUtil.stringBuilder(); char last = 0; for (char c : in.toCharArray()) { if (c == ESC) { if (last != 0 && last == ESC) out.append(c); } else out.append(c); last = c; } return out.toString(); } } | TokenQueue { public static String unescape(String in) { StringBuilder out = StringUtil.stringBuilder(); char last = 0; for (char c : in.toCharArray()) { if (c == ESC) { if (last != 0 && last == ESC) out.append(c); } else out.append(c); last = c; } return out.toString(); } TokenQueue(String data); } | TokenQueue { public static String unescape(String in) { StringBuilder out = StringUtil.stringBuilder(); char last = 0; for (char c : in.toCharArray()) { if (c == ESC) { if (last != 0 && last == ESC) out.append(c); } else out.append(c); last = c; } return out.toString(); } TokenQueue(String data); boolean isEmpty(); cha... | TokenQueue { public static String unescape(String in) { StringBuilder out = StringUtil.stringBuilder(); char last = 0; for (char c : in.toCharArray()) { if (c == ESC) { if (last != 0 && last == ESC) out.append(c); } else out.append(c); last = c; } return out.toString(); } TokenQueue(String data); boolean isEmpty(); cha... |
@Test public void testSimpleXmlParse() { String xml = "<doc id=2 href='/bar'>Foo <br /><link>One</link><link>Two</link></doc>"; XmlTreeBuilder tb = new XmlTreeBuilder(); Document doc = tb.parse(xml, "http: assertEquals("<doc id=\"2\" href=\"/bar\">Foo <br /><link>One</link><link>Two</link></doc>", TextUtil.stripNewline... | Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } |
@Test public void testPopToClose() { String xml = "<doc><val>One<val>Two</val></bar>Three</doc>"; XmlTreeBuilder tb = new XmlTreeBuilder(); Document doc = tb.parse(xml, "http: assertEquals("<doc><val>One<val>Two</val>Three</val></doc>", TextUtil.stripNewlines(doc.html())); } | Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } |
@Test public void testCommentAndDocType() { String xml = "<!DOCTYPE HTML><!-- a comment -->One <qux />Two"; XmlTreeBuilder tb = new XmlTreeBuilder(); Document doc = tb.parse(xml, "http: assertEquals("<!DOCTYPE HTML><!-- a comment -->One <qux />Two", TextUtil.stripNewlines(doc.html())); } | Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } |
@Test public void testSupplyParserToJsoupClass() { String xml = "<doc><val>One<val>Two</val></bar>Three</doc>"; Document doc = Jsoup.parse(xml, "http: assertEquals("<doc><val>One<val>Two</val>Three</val></doc>", TextUtil.stripNewlines(doc.html())); } | Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } |
@Test public void testSupplyParserToDataStream() throws IOException, URISyntaxException { File xmlFile = new File(XmlTreeBuilder.class.getResource("/htmltests/xml-test.xml").toURI()); InputStream inStream = new FileInputStream(xmlFile); Document doc = Jsoup.parse(inStream, null, "http: assertEquals("<doc><val>One<val>T... | Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } |
@Test public void testDoesNotForceSelfClosingKnownTags() { Document htmlDoc = Jsoup.parse("<br>one</br>"); assertEquals("<br>one\n<br>", htmlDoc.body().html()); Document xmlDoc = Jsoup.parse("<br>one</br>", "", Parser.xmlParser()); assertEquals("<br>one</br>", xmlDoc.html()); } | Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } |
@Test public void handlesXmlDeclarationAsDeclaration() { String html = "<?xml encoding='UTF-8' ?><body>One</body><!-- comment -->"; Document doc = Jsoup.parse(html, "", Parser.xmlParser()); assertEquals("<?xml encoding=\"UTF-8\"?> <body> One </body> <!-- comment -->", StringUtil.normaliseWhitespace(doc.outerHtml())); a... | Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } |
@Test public void testApply() throws Exception { A a = new A(); Method m = A.class.getDeclaredMethod("getX"); GetterInvoker invoker = FunctionalGetterInvoker.create("x", m); a.setX(Lists.newArrayList(1000000000000000L, 2l, 3L)); assertThat((String) invoker.invoke(a), is("1000000000000000,2,3")); a.setX(null); assertTha... | @Nullable @Override public String apply(@Nullable List<Long> input) { if (input == null) { return null; } if (input.size() == 0) { return ""; } StringBuilder builder = new StringBuilder(); builder.append(input.get(0)); for (int i = 1; i < input.size(); i++) { builder.append(SEPARATOR).append(input.get(i)); } return bui... | LongListToStringFunction implements GetterFunction<List<Long>, String> { @Nullable @Override public String apply(@Nullable List<Long> input) { if (input == null) { return null; } if (input.size() == 0) { return ""; } StringBuilder builder = new StringBuilder(); builder.append(input.get(0)); for (int i = 1; i < input.si... | LongListToStringFunction implements GetterFunction<List<Long>, String> { @Nullable @Override public String apply(@Nullable List<Long> input) { if (input == null) { return null; } if (input.size() == 0) { return ""; } StringBuilder builder = new StringBuilder(); builder.append(input.get(0)); for (int i = 1; i < input.si... | LongListToStringFunction implements GetterFunction<List<Long>, String> { @Nullable @Override public String apply(@Nullable List<Long> input) { if (input == null) { return null; } if (input.size() == 0) { return ""; } StringBuilder builder = new StringBuilder(); builder.append(input.get(0)); for (int i = 1; i < input.si... | LongListToStringFunction implements GetterFunction<List<Long>, String> { @Nullable @Override public String apply(@Nullable List<Long> input) { if (input == null) { return null; } if (input.size() == 0) { return ""; } StringBuilder builder = new StringBuilder(); builder.append(input.get(0)); for (int i = 1; i < input.si... |
@Test public void xmlParseDefaultsToHtmlOutputSyntax() { Document doc = Jsoup.parse("x", "", Parser.xmlParser()); assertEquals(Syntax.xml, doc.outputSettings().syntax()); } | Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } |
@Test public void testDoesHandleEOFInTag() { String html = "<img src=asdf onerror=\"alert(1)\" x="; Document xmlDoc = Jsoup.parse(html, "", Parser.xmlParser()); assertEquals("<img src=\"asdf\" onerror=\"alert(1)\" x=\"\" />", xmlDoc.html()); } | Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } |
@Test public void testDetectCharsetEncodingDeclaration() throws IOException, URISyntaxException { File xmlFile = new File(XmlTreeBuilder.class.getResource("/htmltests/xml-charset.xml").toURI()); InputStream inStream = new FileInputStream(xmlFile); Document doc = Jsoup.parse(inStream, null, "http: assertEquals("ISO-8859... | Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } |
@Test public void testParseDeclarationAttributes() { String xml = "<?xml version='1' encoding='UTF-8' something='else'?><val>One</val>"; Document doc = Jsoup.parse(xml, "", Parser.xmlParser()); XmlDeclaration decl = (XmlDeclaration) doc.childNode(0); assertEquals("1", decl.attr("version")); assertEquals("UTF-8", decl.a... | Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } |
@Test public void caseSensitiveDeclaration() { String xml = "<?XML version='1' encoding='UTF-8' something='else'?>"; Document doc = Jsoup.parse(xml, "", Parser.xmlParser()); assertEquals("<?XML version=\"1\" encoding=\"UTF-8\" something=\"else\"?>", doc.outerHtml()); } | Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } |
@Test public void preservesCaseByDefault() { String xml = "<TEST ID=1>Check</TEST>"; Document doc = Jsoup.parse(xml, "", Parser.xmlParser()); assertEquals("<TEST ID=\"1\">Check</TEST>", TextUtil.stripNewlines(doc.html())); } | Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } |
@Test public void canNormalizeCase() { String xml = "<TEST ID=1>Check</TEST>"; Document doc = Jsoup.parse(xml, "", Parser.xmlParser().settings(ParseSettings.htmlDefault)); assertEquals("<test id=\"1\">Check</test>", TextUtil.stripNewlines(doc.html())); } | Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } | XmlTreeBuilder extends TreeBuilder { Document parse(Reader input, String baseUri) { return parse(input, baseUri, ParseErrorList.noTracking(), ParseSettings.preserveCase); } } |
@Test @MultiLocaleTest public void canBeInsensitive() { Tag script1 = Tag.valueOf("script", ParseSettings.htmlDefault); Tag script2 = Tag.valueOf("SCRIPT", ParseSettings.htmlDefault); assertSame(script1, script2); } | public static Tag valueOf(String tagName, ParseSettings settings) { Validate.notNull(tagName); Tag tag = tags.get(tagName); if (tag == null) { tagName = settings.normalizeTag(tagName); Validate.notEmpty(tagName); tag = tags.get(tagName); if (tag == null) { tag = new Tag(tagName); tag.isBlock = false; } } return tag; } | Tag { public static Tag valueOf(String tagName, ParseSettings settings) { Validate.notNull(tagName); Tag tag = tags.get(tagName); if (tag == null) { tagName = settings.normalizeTag(tagName); Validate.notEmpty(tagName); tag = tags.get(tagName); if (tag == null) { tag = new Tag(tagName); tag.isBlock = false; } } return t... | Tag { public static Tag valueOf(String tagName, ParseSettings settings) { Validate.notNull(tagName); Tag tag = tags.get(tagName); if (tag == null) { tagName = settings.normalizeTag(tagName); Validate.notEmpty(tagName); tag = tags.get(tagName); if (tag == null) { tag = new Tag(tagName); tag.isBlock = false; } } return t... | Tag { public static Tag valueOf(String tagName, ParseSettings settings) { Validate.notNull(tagName); Tag tag = tags.get(tagName); if (tag == null) { tagName = settings.normalizeTag(tagName); Validate.notEmpty(tagName); tag = tags.get(tagName); if (tag == null) { tag = new Tag(tagName); tag.isBlock = false; } } return t... | Tag { public static Tag valueOf(String tagName, ParseSettings settings) { Validate.notNull(tagName); Tag tag = tags.get(tagName); if (tag == null) { tagName = settings.normalizeTag(tagName); Validate.notEmpty(tagName); tag = tags.get(tagName); if (tag == null) { tag = new Tag(tagName); tag.isBlock = false; } } return t... |
@Test public void trims() { Tag p1 = Tag.valueOf("p"); Tag p2 = Tag.valueOf(" p "); assertEquals(p1, p2); } | public static Tag valueOf(String tagName, ParseSettings settings) { Validate.notNull(tagName); Tag tag = tags.get(tagName); if (tag == null) { tagName = settings.normalizeTag(tagName); Validate.notEmpty(tagName); tag = tags.get(tagName); if (tag == null) { tag = new Tag(tagName); tag.isBlock = false; } } return tag; } | Tag { public static Tag valueOf(String tagName, ParseSettings settings) { Validate.notNull(tagName); Tag tag = tags.get(tagName); if (tag == null) { tagName = settings.normalizeTag(tagName); Validate.notEmpty(tagName); tag = tags.get(tagName); if (tag == null) { tag = new Tag(tagName); tag.isBlock = false; } } return t... | Tag { public static Tag valueOf(String tagName, ParseSettings settings) { Validate.notNull(tagName); Tag tag = tags.get(tagName); if (tag == null) { tagName = settings.normalizeTag(tagName); Validate.notEmpty(tagName); tag = tags.get(tagName); if (tag == null) { tag = new Tag(tagName); tag.isBlock = false; } } return t... | Tag { public static Tag valueOf(String tagName, ParseSettings settings) { Validate.notNull(tagName); Tag tag = tags.get(tagName); if (tag == null) { tagName = settings.normalizeTag(tagName); Validate.notEmpty(tagName); tag = tags.get(tagName); if (tag == null) { tag = new Tag(tagName); tag.isBlock = false; } } return t... | Tag { public static Tag valueOf(String tagName, ParseSettings settings) { Validate.notNull(tagName); Tag tag = tags.get(tagName); if (tag == null) { tagName = settings.normalizeTag(tagName); Validate.notEmpty(tagName); tag = tags.get(tagName); if (tag == null) { tag = new Tag(tagName); tag.isBlock = false; } } return t... |
@Test(expected = IllegalArgumentException.class) public void valueOfChecksNotNull() { Tag.valueOf(null); } | public static Tag valueOf(String tagName, ParseSettings settings) { Validate.notNull(tagName); Tag tag = tags.get(tagName); if (tag == null) { tagName = settings.normalizeTag(tagName); Validate.notEmpty(tagName); tag = tags.get(tagName); if (tag == null) { tag = new Tag(tagName); tag.isBlock = false; } } return tag; } | Tag { public static Tag valueOf(String tagName, ParseSettings settings) { Validate.notNull(tagName); Tag tag = tags.get(tagName); if (tag == null) { tagName = settings.normalizeTag(tagName); Validate.notEmpty(tagName); tag = tags.get(tagName); if (tag == null) { tag = new Tag(tagName); tag.isBlock = false; } } return t... | Tag { public static Tag valueOf(String tagName, ParseSettings settings) { Validate.notNull(tagName); Tag tag = tags.get(tagName); if (tag == null) { tagName = settings.normalizeTag(tagName); Validate.notEmpty(tagName); tag = tags.get(tagName); if (tag == null) { tag = new Tag(tagName); tag.isBlock = false; } } return t... | Tag { public static Tag valueOf(String tagName, ParseSettings settings) { Validate.notNull(tagName); Tag tag = tags.get(tagName); if (tag == null) { tagName = settings.normalizeTag(tagName); Validate.notEmpty(tagName); tag = tags.get(tagName); if (tag == null) { tag = new Tag(tagName); tag.isBlock = false; } } return t... | Tag { public static Tag valueOf(String tagName, ParseSettings settings) { Validate.notNull(tagName); Tag tag = tags.get(tagName); if (tag == null) { tagName = settings.normalizeTag(tagName); Validate.notEmpty(tagName); tag = tags.get(tagName); if (tag == null) { tag = new Tag(tagName); tag.isBlock = false; } } return t... |
@Test public void testApply() throws Exception { A a = new A(); Method m = A.class.getDeclaredMethod("setX", List.class); SetterInvoker invoker = FunctionalSetterInvoker.create("x", m); invoker.invoke(a, "1,2,3"); List<String> list = Lists.newArrayList("1", "2", "3"); assertThat(a.getX().toString(), is(list.toString())... | @Nullable @Override public List<String> apply(@Nullable String input) { if (input == null) { return null; } if (input.length() == 0) { return new ArrayList<String>(); } String[] ss = input.split(SEPARATOR); List<String> r = new ArrayList<String>(); for (int i = 0; i < ss.length; i++) { r.add(ss[i]); } return r; } | StringToStringListFunction implements SetterFunction<String, List<String>> { @Nullable @Override public List<String> apply(@Nullable String input) { if (input == null) { return null; } if (input.length() == 0) { return new ArrayList<String>(); } String[] ss = input.split(SEPARATOR); List<String> r = new ArrayList<Strin... | StringToStringListFunction implements SetterFunction<String, List<String>> { @Nullable @Override public List<String> apply(@Nullable String input) { if (input == null) { return null; } if (input.length() == 0) { return new ArrayList<String>(); } String[] ss = input.split(SEPARATOR); List<String> r = new ArrayList<Strin... | StringToStringListFunction implements SetterFunction<String, List<String>> { @Nullable @Override public List<String> apply(@Nullable String input) { if (input == null) { return null; } if (input.length() == 0) { return new ArrayList<String>(); } String[] ss = input.split(SEPARATOR); List<String> r = new ArrayList<Strin... | StringToStringListFunction implements SetterFunction<String, List<String>> { @Nullable @Override public List<String> apply(@Nullable String input) { if (input == null) { return null; } if (input.length() == 0) { return new ArrayList<String>(); } String[] ss = input.split(SEPARATOR); List<String> r = new ArrayList<Strin... |
@Test(expected = IllegalArgumentException.class) public void valueOfChecksNotEmpty() { Tag.valueOf(" "); } | public static Tag valueOf(String tagName, ParseSettings settings) { Validate.notNull(tagName); Tag tag = tags.get(tagName); if (tag == null) { tagName = settings.normalizeTag(tagName); Validate.notEmpty(tagName); tag = tags.get(tagName); if (tag == null) { tag = new Tag(tagName); tag.isBlock = false; } } return tag; } | Tag { public static Tag valueOf(String tagName, ParseSettings settings) { Validate.notNull(tagName); Tag tag = tags.get(tagName); if (tag == null) { tagName = settings.normalizeTag(tagName); Validate.notEmpty(tagName); tag = tags.get(tagName); if (tag == null) { tag = new Tag(tagName); tag.isBlock = false; } } return t... | Tag { public static Tag valueOf(String tagName, ParseSettings settings) { Validate.notNull(tagName); Tag tag = tags.get(tagName); if (tag == null) { tagName = settings.normalizeTag(tagName); Validate.notEmpty(tagName); tag = tags.get(tagName); if (tag == null) { tag = new Tag(tagName); tag.isBlock = false; } } return t... | Tag { public static Tag valueOf(String tagName, ParseSettings settings) { Validate.notNull(tagName); Tag tag = tags.get(tagName); if (tag == null) { tagName = settings.normalizeTag(tagName); Validate.notEmpty(tagName); tag = tags.get(tagName); if (tag == null) { tag = new Tag(tagName); tag.isBlock = false; } } return t... | Tag { public static Tag valueOf(String tagName, ParseSettings settings) { Validate.notNull(tagName); Tag tag = tags.get(tagName); if (tag == null) { tagName = settings.normalizeTag(tagName); Validate.notEmpty(tagName); tag = tags.get(tagName); if (tag == null) { tag = new Tag(tagName); tag.isBlock = false; } } return t... |
@Test public void headers() { Connection con = HttpConnection.connect("http: Map<String, String> headers = new HashMap<String, String>(); headers.put("content-type", "text/html"); headers.put("Connection", "keep-alive"); headers.put("Host", "http: con.headers(headers); assertEquals("text/html", con.request().header("co... | public Connection headers(Map<String,String> headers) { Validate.notNull(headers, "Header map must not be null"); for (Map.Entry<String,String> entry : headers.entrySet()) { req.header(entry.getKey(),entry.getValue()); } return this; } | HttpConnection implements Connection { public Connection headers(Map<String,String> headers) { Validate.notNull(headers, "Header map must not be null"); for (Map.Entry<String,String> entry : headers.entrySet()) { req.header(entry.getKey(),entry.getValue()); } return this; } } | HttpConnection implements Connection { public Connection headers(Map<String,String> headers) { Validate.notNull(headers, "Header map must not be null"); for (Map.Entry<String,String> entry : headers.entrySet()) { req.header(entry.getKey(),entry.getValue()); } return this; } private HttpConnection(); } | HttpConnection implements Connection { public Connection headers(Map<String,String> headers) { Validate.notNull(headers, "Header map must not be null"); for (Map.Entry<String,String> entry : headers.entrySet()) { req.header(entry.getKey(),entry.getValue()); } return this; } private HttpConnection(); static Connection ... | HttpConnection implements Connection { public Connection headers(Map<String,String> headers) { Validate.notNull(headers, "Header map must not be null"); for (Map.Entry<String,String> entry : headers.entrySet()) { req.header(entry.getKey(),entry.getValue()); } return this; } private HttpConnection(); static Connection ... |
@Test public void sameHeadersCombineWithComma() { Map<String, List<String>> headers = new HashMap<String, List<String>>(); List<String> values = new ArrayList<String>(); values.add("no-cache"); values.add("no-store"); headers.put("Cache-Control", values); HttpConnection.Response res = new HttpConnection.Response(); res... | public Connection header(String name, String value) { req.header(name, value); return this; } | HttpConnection implements Connection { public Connection header(String name, String value) { req.header(name, value); return this; } } | HttpConnection implements Connection { public Connection header(String name, String value) { req.header(name, value); return this; } private HttpConnection(); } | HttpConnection implements Connection { public Connection header(String name, String value) { req.header(name, value); return this; } private HttpConnection(); static Connection connect(String url); static Connection connect(URL url); Connection url(URL url); Connection url(String url); Connection proxy(Proxy proxy); C... | HttpConnection implements Connection { public Connection header(String name, String value) { req.header(name, value); return this; } private HttpConnection(); static Connection connect(String url); static Connection connect(URL url); Connection url(URL url); Connection url(String url); Connection proxy(Proxy proxy); C... |
@Test public void ignoresEmptySetCookies() { Map<String, List<String>> headers = new HashMap<String, List<String>>(); headers.put("Set-Cookie", Collections.<String>emptyList()); HttpConnection.Response res = new HttpConnection.Response(); res.processResponseHeaders(headers); assertEquals(0, res.cookies().size()); } | public Connection cookies(Map<String, String> cookies) { Validate.notNull(cookies, "Cookie map must not be null"); for (Map.Entry<String, String> entry : cookies.entrySet()) { req.cookie(entry.getKey(), entry.getValue()); } return this; } | HttpConnection implements Connection { public Connection cookies(Map<String, String> cookies) { Validate.notNull(cookies, "Cookie map must not be null"); for (Map.Entry<String, String> entry : cookies.entrySet()) { req.cookie(entry.getKey(), entry.getValue()); } return this; } } | HttpConnection implements Connection { public Connection cookies(Map<String, String> cookies) { Validate.notNull(cookies, "Cookie map must not be null"); for (Map.Entry<String, String> entry : cookies.entrySet()) { req.cookie(entry.getKey(), entry.getValue()); } return this; } private HttpConnection(); } | HttpConnection implements Connection { public Connection cookies(Map<String, String> cookies) { Validate.notNull(cookies, "Cookie map must not be null"); for (Map.Entry<String, String> entry : cookies.entrySet()) { req.cookie(entry.getKey(), entry.getValue()); } return this; } private HttpConnection(); static Connecti... | HttpConnection implements Connection { public Connection cookies(Map<String, String> cookies) { Validate.notNull(cookies, "Cookie map must not be null"); for (Map.Entry<String, String> entry : cookies.entrySet()) { req.cookie(entry.getKey(), entry.getValue()); } return this; } private HttpConnection(); static Connecti... |
@Test(expected=IllegalArgumentException.class) public void throwsOnMalformedUrl() { Connection con = HttpConnection.connect("bzzt"); } | public static Connection connect(String url) { Connection con = new HttpConnection(); con.url(url); return con; } | HttpConnection implements Connection { public static Connection connect(String url) { Connection con = new HttpConnection(); con.url(url); return con; } } | HttpConnection implements Connection { public static Connection connect(String url) { Connection con = new HttpConnection(); con.url(url); return con; } private HttpConnection(); } | HttpConnection implements Connection { public static Connection connect(String url) { Connection con = new HttpConnection(); con.url(url); return con; } private HttpConnection(); static Connection connect(String url); static Connection connect(URL url); Connection url(URL url); Connection url(String url); Connection p... | HttpConnection implements Connection { public static Connection connect(String url) { Connection con = new HttpConnection(); con.url(url); return con; } private HttpConnection(); static Connection connect(String url); static Connection connect(URL url); Connection url(URL url); Connection url(String url); Connection p... |
@Test public void userAgent() { Connection con = HttpConnection.connect("http: assertEquals(HttpConnection.DEFAULT_UA, con.request().header("User-Agent")); con.userAgent("Mozilla"); assertEquals("Mozilla", con.request().header("User-Agent")); } | public Connection userAgent(String userAgent) { Validate.notNull(userAgent, "User agent must not be null"); req.header(USER_AGENT, userAgent); return this; } | HttpConnection implements Connection { public Connection userAgent(String userAgent) { Validate.notNull(userAgent, "User agent must not be null"); req.header(USER_AGENT, userAgent); return this; } } | HttpConnection implements Connection { public Connection userAgent(String userAgent) { Validate.notNull(userAgent, "User agent must not be null"); req.header(USER_AGENT, userAgent); return this; } private HttpConnection(); } | HttpConnection implements Connection { public Connection userAgent(String userAgent) { Validate.notNull(userAgent, "User agent must not be null"); req.header(USER_AGENT, userAgent); return this; } private HttpConnection(); static Connection connect(String url); static Connection connect(URL url); Connection url(URL ur... | HttpConnection implements Connection { public Connection userAgent(String userAgent) { Validate.notNull(userAgent, "User agent must not be null"); req.header(USER_AGENT, userAgent); return this; } private HttpConnection(); static Connection connect(String url); static Connection connect(URL url); Connection url(URL ur... |
@Test public void timeout() { Connection con = HttpConnection.connect("http: assertEquals(30 * 1000, con.request().timeout()); con.timeout(1000); assertEquals(1000, con.request().timeout()); } | public Connection timeout(int millis) { req.timeout(millis); return this; } | HttpConnection implements Connection { public Connection timeout(int millis) { req.timeout(millis); return this; } } | HttpConnection implements Connection { public Connection timeout(int millis) { req.timeout(millis); return this; } private HttpConnection(); } | HttpConnection implements Connection { public Connection timeout(int millis) { req.timeout(millis); return this; } private HttpConnection(); static Connection connect(String url); static Connection connect(URL url); Connection url(URL url); Connection url(String url); Connection proxy(Proxy proxy); Connection proxy(St... | HttpConnection implements Connection { public Connection timeout(int millis) { req.timeout(millis); return this; } private HttpConnection(); static Connection connect(String url); static Connection connect(URL url); Connection url(URL url); Connection url(String url); Connection proxy(Proxy proxy); Connection proxy(St... |
@Test public void referrer() { Connection con = HttpConnection.connect("http: con.referrer("http: assertEquals("http: } | public Connection referrer(String referrer) { Validate.notNull(referrer, "Referrer must not be null"); req.header("Referer", referrer); return this; } | HttpConnection implements Connection { public Connection referrer(String referrer) { Validate.notNull(referrer, "Referrer must not be null"); req.header("Referer", referrer); return this; } } | HttpConnection implements Connection { public Connection referrer(String referrer) { Validate.notNull(referrer, "Referrer must not be null"); req.header("Referer", referrer); return this; } private HttpConnection(); } | HttpConnection implements Connection { public Connection referrer(String referrer) { Validate.notNull(referrer, "Referrer must not be null"); req.header("Referer", referrer); return this; } private HttpConnection(); static Connection connect(String url); static Connection connect(URL url); Connection url(URL url); Con... | HttpConnection implements Connection { public Connection referrer(String referrer) { Validate.notNull(referrer, "Referrer must not be null"); req.header("Referer", referrer); return this; } private HttpConnection(); static Connection connect(String url); static Connection connect(URL url); Connection url(URL url); Con... |
@Test public void method() { Connection con = HttpConnection.connect("http: assertEquals(Connection.Method.GET, con.request().method()); con.method(Connection.Method.POST); assertEquals(Connection.Method.POST, con.request().method()); } | public Connection method(Method method) { req.method(method); return this; } | HttpConnection implements Connection { public Connection method(Method method) { req.method(method); return this; } } | HttpConnection implements Connection { public Connection method(Method method) { req.method(method); return this; } private HttpConnection(); } | HttpConnection implements Connection { public Connection method(Method method) { req.method(method); return this; } private HttpConnection(); static Connection connect(String url); static Connection connect(URL url); Connection url(URL url); Connection url(String url); Connection proxy(Proxy proxy); Connection proxy(S... | HttpConnection implements Connection { public Connection method(Method method) { req.method(method); return this; } private HttpConnection(); static Connection connect(String url); static Connection connect(URL url); Connection url(URL url); Connection url(String url); Connection proxy(Proxy proxy); Connection proxy(S... |
@Test public void data() { Connection con = HttpConnection.connect("http: con.data("Name", "Val", "Foo", "bar"); Collection<Connection.KeyVal> values = con.request().data(); Object[] data = values.toArray(); Connection.KeyVal one = (Connection.KeyVal) data[0]; Connection.KeyVal two = (Connection.KeyVal) data[1]; assert... | public Connection data(String key, String value) { req.data(KeyVal.create(key, value)); return this; } | HttpConnection implements Connection { public Connection data(String key, String value) { req.data(KeyVal.create(key, value)); return this; } } | HttpConnection implements Connection { public Connection data(String key, String value) { req.data(KeyVal.create(key, value)); return this; } private HttpConnection(); } | HttpConnection implements Connection { public Connection data(String key, String value) { req.data(KeyVal.create(key, value)); return this; } private HttpConnection(); static Connection connect(String url); static Connection connect(URL url); Connection url(URL url); Connection url(String url); Connection proxy(Proxy ... | HttpConnection implements Connection { public Connection data(String key, String value) { req.data(KeyVal.create(key, value)); return this; } private HttpConnection(); static Connection connect(String url); static Connection connect(URL url); Connection url(URL url); Connection url(String url); Connection proxy(Proxy ... |
@Test public void testApply() throws Exception { A a = new A(); Method m = A.class.getDeclaredMethod("getX"); GetterInvoker invoker = FunctionalGetterInvoker.create("x", m); a.setX(Lists.newArrayList(1, 2, 3)); assertThat((String) invoker.invoke(a), is("1,2,3")); a.setX(null); assertThat(invoker.invoke(a), nullValue())... | @Nullable @Override public String apply(@Nullable List<Integer> input) { if (input == null) { return null; } if (input.size() == 0) { return ""; } StringBuilder builder = new StringBuilder(); builder.append(input.get(0)); for (int i = 1; i < input.size(); i++) { builder.append(SEPARATOR).append(input.get(i)); } return ... | IntegerListToStringFunction implements GetterFunction<List<Integer>, String> { @Nullable @Override public String apply(@Nullable List<Integer> input) { if (input == null) { return null; } if (input.size() == 0) { return ""; } StringBuilder builder = new StringBuilder(); builder.append(input.get(0)); for (int i = 1; i <... | IntegerListToStringFunction implements GetterFunction<List<Integer>, String> { @Nullable @Override public String apply(@Nullable List<Integer> input) { if (input == null) { return null; } if (input.size() == 0) { return ""; } StringBuilder builder = new StringBuilder(); builder.append(input.get(0)); for (int i = 1; i <... | IntegerListToStringFunction implements GetterFunction<List<Integer>, String> { @Nullable @Override public String apply(@Nullable List<Integer> input) { if (input == null) { return null; } if (input.size() == 0) { return ""; } StringBuilder builder = new StringBuilder(); builder.append(input.get(0)); for (int i = 1; i <... | IntegerListToStringFunction implements GetterFunction<List<Integer>, String> { @Nullable @Override public String apply(@Nullable List<Integer> input) { if (input == null) { return null; } if (input.size() == 0) { return ""; } StringBuilder builder = new StringBuilder(); builder.append(input.get(0)); for (int i = 1; i <... |
@Test public void cookie() { Connection con = HttpConnection.connect("http: con.cookie("Name", "Val"); assertEquals("Val", con.request().cookie("Name")); } | public Connection cookie(String name, String value) { req.cookie(name, value); return this; } | HttpConnection implements Connection { public Connection cookie(String name, String value) { req.cookie(name, value); return this; } } | HttpConnection implements Connection { public Connection cookie(String name, String value) { req.cookie(name, value); return this; } private HttpConnection(); } | HttpConnection implements Connection { public Connection cookie(String name, String value) { req.cookie(name, value); return this; } private HttpConnection(); static Connection connect(String url); static Connection connect(URL url); Connection url(URL url); Connection url(String url); Connection proxy(Proxy proxy); C... | HttpConnection implements Connection { public Connection cookie(String name, String value) { req.cookie(name, value); return this; } private HttpConnection(); static Connection connect(String url); static Connection connect(URL url); Connection url(URL url); Connection url(String url); Connection proxy(Proxy proxy); C... |
@Test public void requestBody() { Connection con = HttpConnection.connect("http: con.requestBody("foo"); assertEquals("foo", con.request().requestBody()); } | public Connection requestBody(String body) { req.requestBody(body); return this; } | HttpConnection implements Connection { public Connection requestBody(String body) { req.requestBody(body); return this; } } | HttpConnection implements Connection { public Connection requestBody(String body) { req.requestBody(body); return this; } private HttpConnection(); } | HttpConnection implements Connection { public Connection requestBody(String body) { req.requestBody(body); return this; } private HttpConnection(); static Connection connect(String url); static Connection connect(URL url); Connection url(URL url); Connection url(String url); Connection proxy(Proxy proxy); Connection p... | HttpConnection implements Connection { public Connection requestBody(String body) { req.requestBody(body); return this; } private HttpConnection(); static Connection connect(String url); static Connection connect(URL url); Connection url(URL url); Connection url(String url); Connection proxy(Proxy proxy); Connection p... |
@Test public void encodeUrl() throws MalformedURLException { URL url1 = new URL("http: URL url2 = HttpConnection.encodeUrl(url1); assertEquals("http: } | private static String encodeUrl(String url) { try { URL u = new URL(url); return encodeUrl(u).toExternalForm(); } catch (Exception e) { return url; } } | HttpConnection implements Connection { private static String encodeUrl(String url) { try { URL u = new URL(url); return encodeUrl(u).toExternalForm(); } catch (Exception e) { return url; } } } | HttpConnection implements Connection { private static String encodeUrl(String url) { try { URL u = new URL(url); return encodeUrl(u).toExternalForm(); } catch (Exception e) { return url; } } private HttpConnection(); } | HttpConnection implements Connection { private static String encodeUrl(String url) { try { URL u = new URL(url); return encodeUrl(u).toExternalForm(); } catch (Exception e) { return url; } } private HttpConnection(); static Connection connect(String url); static Connection connect(URL url); Connection url(URL url); Co... | HttpConnection implements Connection { private static String encodeUrl(String url) { try { URL u = new URL(url); return encodeUrl(u).toExternalForm(); } catch (Exception e) { return url; } } private HttpConnection(); static Connection connect(String url); static Connection connect(URL url); Connection url(URL url); Co... |
@Test public void join() { assertEquals("", StringUtil.join(Arrays.asList(""), " ")); assertEquals("one", StringUtil.join(Arrays.asList("one"), " ")); assertEquals("one two three", StringUtil.join(Arrays.asList("one", "two", "three"), " ")); } | public static String join(Collection strings, String sep) { return join(strings.iterator(), sep); } | StringUtil { public static String join(Collection strings, String sep) { return join(strings.iterator(), sep); } } | StringUtil { public static String join(Collection strings, String sep) { return join(strings.iterator(), sep); } } | StringUtil { public static String join(Collection strings, String sep) { return join(strings.iterator(), sep); } static String join(Collection strings, String sep); static String join(Iterator strings, String sep); static String padding(int width); static boolean isBlank(String string); static boolean isNumeric(String... | StringUtil { public static String join(Collection strings, String sep) { return join(strings.iterator(), sep); } static String join(Collection strings, String sep); static String join(Iterator strings, String sep); static String padding(int width); static boolean isBlank(String string); static boolean isNumeric(String... |
@Test public void padding() { assertEquals("", StringUtil.padding(0)); assertEquals(" ", StringUtil.padding(1)); assertEquals(" ", StringUtil.padding(2)); assertEquals(" ", StringUtil.padding(15)); assertEquals(" ", StringUtil.padding(45)); } | public static String padding(int width) { if (width < 0) throw new IllegalArgumentException("width must be > 0"); if (width < padding.length) return padding[width]; char[] out = new char[width]; for (int i = 0; i < width; i++) out[i] = ' '; return String.valueOf(out); } | StringUtil { public static String padding(int width) { if (width < 0) throw new IllegalArgumentException("width must be > 0"); if (width < padding.length) return padding[width]; char[] out = new char[width]; for (int i = 0; i < width; i++) out[i] = ' '; return String.valueOf(out); } } | StringUtil { public static String padding(int width) { if (width < 0) throw new IllegalArgumentException("width must be > 0"); if (width < padding.length) return padding[width]; char[] out = new char[width]; for (int i = 0; i < width; i++) out[i] = ' '; return String.valueOf(out); } } | StringUtil { public static String padding(int width) { if (width < 0) throw new IllegalArgumentException("width must be > 0"); if (width < padding.length) return padding[width]; char[] out = new char[width]; for (int i = 0; i < width; i++) out[i] = ' '; return String.valueOf(out); } static String join(Collection strin... | StringUtil { public static String padding(int width) { if (width < 0) throw new IllegalArgumentException("width must be > 0"); if (width < padding.length) return padding[width]; char[] out = new char[width]; for (int i = 0; i < width; i++) out[i] = ' '; return String.valueOf(out); } static String join(Collection strin... |
@Test public void isBlank() { assertTrue(StringUtil.isBlank(null)); assertTrue(StringUtil.isBlank("")); assertTrue(StringUtil.isBlank(" ")); assertTrue(StringUtil.isBlank(" \r\n ")); assertFalse(StringUtil.isBlank("hello")); assertFalse(StringUtil.isBlank(" hello ")); } | public static boolean isBlank(String string) { if (string == null || string.length() == 0) return true; int l = string.length(); for (int i = 0; i < l; i++) { if (!StringUtil.isWhitespace(string.codePointAt(i))) return false; } return true; } | StringUtil { public static boolean isBlank(String string) { if (string == null || string.length() == 0) return true; int l = string.length(); for (int i = 0; i < l; i++) { if (!StringUtil.isWhitespace(string.codePointAt(i))) return false; } return true; } } | StringUtil { public static boolean isBlank(String string) { if (string == null || string.length() == 0) return true; int l = string.length(); for (int i = 0; i < l; i++) { if (!StringUtil.isWhitespace(string.codePointAt(i))) return false; } return true; } } | StringUtil { public static boolean isBlank(String string) { if (string == null || string.length() == 0) return true; int l = string.length(); for (int i = 0; i < l; i++) { if (!StringUtil.isWhitespace(string.codePointAt(i))) return false; } return true; } static String join(Collection strings, String sep); static Stri... | StringUtil { public static boolean isBlank(String string) { if (string == null || string.length() == 0) return true; int l = string.length(); for (int i = 0; i < l; i++) { if (!StringUtil.isWhitespace(string.codePointAt(i))) return false; } return true; } static String join(Collection strings, String sep); static Stri... |
@Test public void isNumeric() { assertFalse(StringUtil.isNumeric(null)); assertFalse(StringUtil.isNumeric(" ")); assertFalse(StringUtil.isNumeric("123 546")); assertFalse(StringUtil.isNumeric("hello")); assertFalse(StringUtil.isNumeric("123.334")); assertTrue(StringUtil.isNumeric("1")); assertTrue(StringUtil.isNumeric(... | public static boolean isNumeric(String string) { if (string == null || string.length() == 0) return false; int l = string.length(); for (int i = 0; i < l; i++) { if (!Character.isDigit(string.codePointAt(i))) return false; } return true; } | StringUtil { public static boolean isNumeric(String string) { if (string == null || string.length() == 0) return false; int l = string.length(); for (int i = 0; i < l; i++) { if (!Character.isDigit(string.codePointAt(i))) return false; } return true; } } | StringUtil { public static boolean isNumeric(String string) { if (string == null || string.length() == 0) return false; int l = string.length(); for (int i = 0; i < l; i++) { if (!Character.isDigit(string.codePointAt(i))) return false; } return true; } } | StringUtil { public static boolean isNumeric(String string) { if (string == null || string.length() == 0) return false; int l = string.length(); for (int i = 0; i < l; i++) { if (!Character.isDigit(string.codePointAt(i))) return false; } return true; } static String join(Collection strings, String sep); static String ... | StringUtil { public static boolean isNumeric(String string) { if (string == null || string.length() == 0) return false; int l = string.length(); for (int i = 0; i < l; i++) { if (!Character.isDigit(string.codePointAt(i))) return false; } return true; } static String join(Collection strings, String sep); static String ... |
@Test public void isWhitespace() { assertTrue(StringUtil.isWhitespace('\t')); assertTrue(StringUtil.isWhitespace('\n')); assertTrue(StringUtil.isWhitespace('\r')); assertTrue(StringUtil.isWhitespace('\f')); assertTrue(StringUtil.isWhitespace(' ')); assertFalse(StringUtil.isWhitespace('\u00a0')); assertFalse(StringUtil.... | public static boolean isWhitespace(int c){ return c == ' ' || c == '\t' || c == '\n' || c == '\f' || c == '\r'; } | StringUtil { public static boolean isWhitespace(int c){ return c == ' ' || c == '\t' || c == '\n' || c == '\f' || c == '\r'; } } | StringUtil { public static boolean isWhitespace(int c){ return c == ' ' || c == '\t' || c == '\n' || c == '\f' || c == '\r'; } } | StringUtil { public static boolean isWhitespace(int c){ return c == ' ' || c == '\t' || c == '\n' || c == '\f' || c == '\r'; } static String join(Collection strings, String sep); static String join(Iterator strings, String sep); static String padding(int width); static boolean isBlank(String string); static boolean is... | StringUtil { public static boolean isWhitespace(int c){ return c == ' ' || c == '\t' || c == '\n' || c == '\f' || c == '\r'; } static String join(Collection strings, String sep); static String join(Iterator strings, String sep); static String padding(int width); static boolean isBlank(String string); static boolean is... |
@Test public void normaliseWhiteSpace() { assertEquals(" ", normaliseWhitespace(" \r \n \r\n")); assertEquals(" hello there ", normaliseWhitespace(" hello \r \n there \n")); assertEquals("hello", normaliseWhitespace("hello")); assertEquals("hello there", normaliseWhitespace("hello\nthere")); } | public static String normaliseWhitespace(String string) { StringBuilder sb = StringUtil.stringBuilder(); appendNormalisedWhitespace(sb, string, false); return sb.toString(); } | StringUtil { public static String normaliseWhitespace(String string) { StringBuilder sb = StringUtil.stringBuilder(); appendNormalisedWhitespace(sb, string, false); return sb.toString(); } } | StringUtil { public static String normaliseWhitespace(String string) { StringBuilder sb = StringUtil.stringBuilder(); appendNormalisedWhitespace(sb, string, false); return sb.toString(); } } | StringUtil { public static String normaliseWhitespace(String string) { StringBuilder sb = StringUtil.stringBuilder(); appendNormalisedWhitespace(sb, string, false); return sb.toString(); } static String join(Collection strings, String sep); static String join(Iterator strings, String sep); static String padding(int wi... | StringUtil { public static String normaliseWhitespace(String string) { StringBuilder sb = StringUtil.stringBuilder(); appendNormalisedWhitespace(sb, string, false); return sb.toString(); } static String join(Collection strings, String sep); static String join(Iterator strings, String sep); static String padding(int wi... |
@Test public void normaliseWhiteSpaceHandlesHighSurrogates() { String test71540chars = "\ud869\udeb2\u304b\u309a 1"; String test71540charsExpectedSingleWhitespace = "\ud869\udeb2\u304b\u309a 1"; assertEquals(test71540charsExpectedSingleWhitespace, normaliseWhitespace(test71540chars)); String extractedText = Jsoup.parse... | public static String normaliseWhitespace(String string) { StringBuilder sb = StringUtil.stringBuilder(); appendNormalisedWhitespace(sb, string, false); return sb.toString(); } | StringUtil { public static String normaliseWhitespace(String string) { StringBuilder sb = StringUtil.stringBuilder(); appendNormalisedWhitespace(sb, string, false); return sb.toString(); } } | StringUtil { public static String normaliseWhitespace(String string) { StringBuilder sb = StringUtil.stringBuilder(); appendNormalisedWhitespace(sb, string, false); return sb.toString(); } } | StringUtil { public static String normaliseWhitespace(String string) { StringBuilder sb = StringUtil.stringBuilder(); appendNormalisedWhitespace(sb, string, false); return sb.toString(); } static String join(Collection strings, String sep); static String join(Iterator strings, String sep); static String padding(int wi... | StringUtil { public static String normaliseWhitespace(String string) { StringBuilder sb = StringUtil.stringBuilder(); appendNormalisedWhitespace(sb, string, false); return sb.toString(); } static String join(Collection strings, String sep); static String join(Iterator strings, String sep); static String padding(int wi... |
@Test public void testApply() throws Exception { A a = new A(); Method m = A.class.getDeclaredMethod("setE", E.class); SetterInvoker invoker = FunctionalSetterInvoker.create("e", m); invoker.invoke(a, 2); assertThat(a.getE(), is(E.Z)); Method m2 = A.class.getDeclaredMethod("setE2", E2.class); SetterInvoker invoker2 = F... | @Nullable @Override public Enum apply(@Nullable Integer input, Type runtimeOutputType) { if (input == null) { return null; } Class<?> rawType = TypeToken.of(runtimeOutputType).getRawType(); EnumSet<?> es = cache.get(rawType); for (Enum<?> e : es) { if (e.ordinal() == input) { return e; } } throw new IllegalStateExcepti... | IntegerToEnumFunction implements RuntimeSetterFunction<Integer, Enum> { @Nullable @Override public Enum apply(@Nullable Integer input, Type runtimeOutputType) { if (input == null) { return null; } Class<?> rawType = TypeToken.of(runtimeOutputType).getRawType(); EnumSet<?> es = cache.get(rawType); for (Enum<?> e : es) {... | IntegerToEnumFunction implements RuntimeSetterFunction<Integer, Enum> { @Nullable @Override public Enum apply(@Nullable Integer input, Type runtimeOutputType) { if (input == null) { return null; } Class<?> rawType = TypeToken.of(runtimeOutputType).getRawType(); EnumSet<?> es = cache.get(rawType); for (Enum<?> e : es) {... | IntegerToEnumFunction implements RuntimeSetterFunction<Integer, Enum> { @Nullable @Override public Enum apply(@Nullable Integer input, Type runtimeOutputType) { if (input == null) { return null; } Class<?> rawType = TypeToken.of(runtimeOutputType).getRawType(); EnumSet<?> es = cache.get(rawType); for (Enum<?> e : es) {... | IntegerToEnumFunction implements RuntimeSetterFunction<Integer, Enum> { @Nullable @Override public Enum apply(@Nullable Integer input, Type runtimeOutputType) { if (input == null) { return null; } Class<?> rawType = TypeToken.of(runtimeOutputType).getRawType(); EnumSet<?> es = cache.get(rawType); for (Enum<?> e : es) {... |
@Test public void resolvesRelativeUrls() { assertEquals("http: assertEquals("http: assertEquals("http: assertEquals("https: assertEquals("http: assertEquals("https: assertEquals("https: assertEquals("https: assertEquals("https: assertEquals("https: assertEquals("", resolve("wrong", "also wrong")); assertEquals("ftp: as... | public static URL resolve(URL base, String relUrl) throws MalformedURLException { if (relUrl.startsWith("?")) relUrl = base.getPath() + relUrl; if (relUrl.indexOf('.') == 0 && base.getFile().indexOf('/') != 0) { base = new URL(base.getProtocol(), base.getHost(), base.getPort(), "/" + base.getFile()); } return new URL(b... | StringUtil { public static URL resolve(URL base, String relUrl) throws MalformedURLException { if (relUrl.startsWith("?")) relUrl = base.getPath() + relUrl; if (relUrl.indexOf('.') == 0 && base.getFile().indexOf('/') != 0) { base = new URL(base.getProtocol(), base.getHost(), base.getPort(), "/" + base.getFile()); } ret... | StringUtil { public static URL resolve(URL base, String relUrl) throws MalformedURLException { if (relUrl.startsWith("?")) relUrl = base.getPath() + relUrl; if (relUrl.indexOf('.') == 0 && base.getFile().indexOf('/') != 0) { base = new URL(base.getProtocol(), base.getHost(), base.getPort(), "/" + base.getFile()); } ret... | StringUtil { public static URL resolve(URL base, String relUrl) throws MalformedURLException { if (relUrl.startsWith("?")) relUrl = base.getPath() + relUrl; if (relUrl.indexOf('.') == 0 && base.getFile().indexOf('/') != 0) { base = new URL(base.getProtocol(), base.getHost(), base.getPort(), "/" + base.getFile()); } ret... | StringUtil { public static URL resolve(URL base, String relUrl) throws MalformedURLException { if (relUrl.startsWith("?")) relUrl = base.getPath() + relUrl; if (relUrl.indexOf('.') == 0 && base.getFile().indexOf('/') != 0) { base = new URL(base.getProtocol(), base.getHost(), base.getPort(), "/" + base.getFile()); } ret... |
@Test public void namespacePreservation() throws IOException { File in = ParseTest.getFile("/htmltests/namespaces.xhtml"); org.jsoup.nodes.Document jsoupDoc; jsoupDoc = Jsoup.parse(in, "UTF-8"); Document doc; org.jsoup.helper.W3CDom jDom = new org.jsoup.helper.W3CDom(); doc = jDom.fromJsoup(jsoupDoc); Node htmlEl = doc... | public Document fromJsoup(org.jsoup.nodes.Document in) { Validate.notNull(in); DocumentBuilder builder; try { factory.setNamespaceAware(true); builder = factory.newDocumentBuilder(); Document out = builder.newDocument(); convert(in, out); return out; } catch (ParserConfigurationException e) { throw new IllegalStateExce... | W3CDom { public Document fromJsoup(org.jsoup.nodes.Document in) { Validate.notNull(in); DocumentBuilder builder; try { factory.setNamespaceAware(true); builder = factory.newDocumentBuilder(); Document out = builder.newDocument(); convert(in, out); return out; } catch (ParserConfigurationException e) { throw new Illegal... | W3CDom { public Document fromJsoup(org.jsoup.nodes.Document in) { Validate.notNull(in); DocumentBuilder builder; try { factory.setNamespaceAware(true); builder = factory.newDocumentBuilder(); Document out = builder.newDocument(); convert(in, out); return out; } catch (ParserConfigurationException e) { throw new Illegal... | W3CDom { public Document fromJsoup(org.jsoup.nodes.Document in) { Validate.notNull(in); DocumentBuilder builder; try { factory.setNamespaceAware(true); builder = factory.newDocumentBuilder(); Document out = builder.newDocument(); convert(in, out); return out; } catch (ParserConfigurationException e) { throw new Illegal... | W3CDom { public Document fromJsoup(org.jsoup.nodes.Document in) { Validate.notNull(in); DocumentBuilder builder; try { factory.setNamespaceAware(true); builder = factory.newDocumentBuilder(); Document out = builder.newDocument(); convert(in, out); return out; } catch (ParserConfigurationException e) { throw new Illegal... |
@Test public void handlesInvalidAttributeNames() { String html = "<html><head></head><body style=\"color: red\" \" name\"></body></html>"; org.jsoup.nodes.Document jsoupDoc; jsoupDoc = Jsoup.parse(html); Element body = jsoupDoc.select("body").first(); assertTrue(body.hasAttr("\"")); assertTrue(body.hasAttr("name\"")); ... | public Document fromJsoup(org.jsoup.nodes.Document in) { Validate.notNull(in); DocumentBuilder builder; try { factory.setNamespaceAware(true); builder = factory.newDocumentBuilder(); Document out = builder.newDocument(); convert(in, out); return out; } catch (ParserConfigurationException e) { throw new IllegalStateExce... | W3CDom { public Document fromJsoup(org.jsoup.nodes.Document in) { Validate.notNull(in); DocumentBuilder builder; try { factory.setNamespaceAware(true); builder = factory.newDocumentBuilder(); Document out = builder.newDocument(); convert(in, out); return out; } catch (ParserConfigurationException e) { throw new Illegal... | W3CDom { public Document fromJsoup(org.jsoup.nodes.Document in) { Validate.notNull(in); DocumentBuilder builder; try { factory.setNamespaceAware(true); builder = factory.newDocumentBuilder(); Document out = builder.newDocument(); convert(in, out); return out; } catch (ParserConfigurationException e) { throw new Illegal... | W3CDom { public Document fromJsoup(org.jsoup.nodes.Document in) { Validate.notNull(in); DocumentBuilder builder; try { factory.setNamespaceAware(true); builder = factory.newDocumentBuilder(); Document out = builder.newDocument(); convert(in, out); return out; } catch (ParserConfigurationException e) { throw new Illegal... | W3CDom { public Document fromJsoup(org.jsoup.nodes.Document in) { Validate.notNull(in); DocumentBuilder builder; try { factory.setNamespaceAware(true); builder = factory.newDocumentBuilder(); Document out = builder.newDocument(); convert(in, out); return out; } catch (ParserConfigurationException e) { throw new Illegal... |
@Test public void testCharset() { assertEquals("utf-8", DataUtil.getCharsetFromContentType("text/html;charset=utf-8 ")); assertEquals("UTF-8", DataUtil.getCharsetFromContentType("text/html; charset=UTF-8")); assertEquals("ISO-8859-1", DataUtil.getCharsetFromContentType("text/html; charset=ISO-8859-1")); assertEquals(nu... | static String getCharsetFromContentType(String contentType) { if (contentType == null) return null; Matcher m = charsetPattern.matcher(contentType); if (m.find()) { String charset = m.group(1).trim(); charset = charset.replace("charset=", ""); return validateCharset(charset); } return null; } | DataUtil { static String getCharsetFromContentType(String contentType) { if (contentType == null) return null; Matcher m = charsetPattern.matcher(contentType); if (m.find()) { String charset = m.group(1).trim(); charset = charset.replace("charset=", ""); return validateCharset(charset); } return null; } } | DataUtil { static String getCharsetFromContentType(String contentType) { if (contentType == null) return null; Matcher m = charsetPattern.matcher(contentType); if (m.find()) { String charset = m.group(1).trim(); charset = charset.replace("charset=", ""); return validateCharset(charset); } return null; } private DataUt... | DataUtil { static String getCharsetFromContentType(String contentType) { if (contentType == null) return null; Matcher m = charsetPattern.matcher(contentType); if (m.find()) { String charset = m.group(1).trim(); charset = charset.replace("charset=", ""); return validateCharset(charset); } return null; } private DataUt... | DataUtil { static String getCharsetFromContentType(String contentType) { if (contentType == null) return null; Matcher m = charsetPattern.matcher(contentType); if (m.find()) { String charset = m.group(1).trim(); charset = charset.replace("charset=", ""); return validateCharset(charset); } return null; } private DataUt... |
@Test public void testQuotedCharset() { assertEquals("utf-8", DataUtil.getCharsetFromContentType("text/html; charset=\"utf-8\"")); assertEquals("UTF-8", DataUtil.getCharsetFromContentType("text/html;charset=\"UTF-8\"")); assertEquals("ISO-8859-1", DataUtil.getCharsetFromContentType("text/html; charset=\"ISO-8859-1\""))... | static String getCharsetFromContentType(String contentType) { if (contentType == null) return null; Matcher m = charsetPattern.matcher(contentType); if (m.find()) { String charset = m.group(1).trim(); charset = charset.replace("charset=", ""); return validateCharset(charset); } return null; } | DataUtil { static String getCharsetFromContentType(String contentType) { if (contentType == null) return null; Matcher m = charsetPattern.matcher(contentType); if (m.find()) { String charset = m.group(1).trim(); charset = charset.replace("charset=", ""); return validateCharset(charset); } return null; } } | DataUtil { static String getCharsetFromContentType(String contentType) { if (contentType == null) return null; Matcher m = charsetPattern.matcher(contentType); if (m.find()) { String charset = m.group(1).trim(); charset = charset.replace("charset=", ""); return validateCharset(charset); } return null; } private DataUt... | DataUtil { static String getCharsetFromContentType(String contentType) { if (contentType == null) return null; Matcher m = charsetPattern.matcher(contentType); if (m.find()) { String charset = m.group(1).trim(); charset = charset.replace("charset=", ""); return validateCharset(charset); } return null; } private DataUt... | DataUtil { static String getCharsetFromContentType(String contentType) { if (contentType == null) return null; Matcher m = charsetPattern.matcher(contentType); if (m.find()) { String charset = m.group(1).trim(); charset = charset.replace("charset=", ""); return validateCharset(charset); } return null; } private DataUt... |
@Test public void discardsSpuriousByteOrderMark() throws IOException { String html = "\uFEFF<html><head><title>One</title></head><body>Two</body></html>"; Document doc = DataUtil.parseInputStream(stream(html), "UTF-8", "http: assertEquals("One", doc.head().text()); } | static Document parseInputStream(InputStream input, String charsetName, String baseUri, Parser parser) throws IOException { if (input == null) return new Document(baseUri); if (!(input instanceof ConstrainableInputStream)) input = new ConstrainableInputStream(input, bufferSize, 0); Document doc = null; boolean fullyRea... | DataUtil { static Document parseInputStream(InputStream input, String charsetName, String baseUri, Parser parser) throws IOException { if (input == null) return new Document(baseUri); if (!(input instanceof ConstrainableInputStream)) input = new ConstrainableInputStream(input, bufferSize, 0); Document doc = null; boole... | DataUtil { static Document parseInputStream(InputStream input, String charsetName, String baseUri, Parser parser) throws IOException { if (input == null) return new Document(baseUri); if (!(input instanceof ConstrainableInputStream)) input = new ConstrainableInputStream(input, bufferSize, 0); Document doc = null; boole... | DataUtil { static Document parseInputStream(InputStream input, String charsetName, String baseUri, Parser parser) throws IOException { if (input == null) return new Document(baseUri); if (!(input instanceof ConstrainableInputStream)) input = new ConstrainableInputStream(input, bufferSize, 0); Document doc = null; boole... | DataUtil { static Document parseInputStream(InputStream input, String charsetName, String baseUri, Parser parser) throws IOException { if (input == null) return new Document(baseUri); if (!(input instanceof ConstrainableInputStream)) input = new ConstrainableInputStream(input, bufferSize, 0); Document doc = null; boole... |
@Test public void discardsSpuriousByteOrderMarkWhenNoCharsetSet() throws IOException { String html = "\uFEFF<html><head><title>One</title></head><body>Two</body></html>"; Document doc = DataUtil.parseInputStream(stream(html), null, "http: assertEquals("One", doc.head().text()); assertEquals("UTF-8", doc.outputSettings(... | static Document parseInputStream(InputStream input, String charsetName, String baseUri, Parser parser) throws IOException { if (input == null) return new Document(baseUri); if (!(input instanceof ConstrainableInputStream)) input = new ConstrainableInputStream(input, bufferSize, 0); Document doc = null; boolean fullyRea... | DataUtil { static Document parseInputStream(InputStream input, String charsetName, String baseUri, Parser parser) throws IOException { if (input == null) return new Document(baseUri); if (!(input instanceof ConstrainableInputStream)) input = new ConstrainableInputStream(input, bufferSize, 0); Document doc = null; boole... | DataUtil { static Document parseInputStream(InputStream input, String charsetName, String baseUri, Parser parser) throws IOException { if (input == null) return new Document(baseUri); if (!(input instanceof ConstrainableInputStream)) input = new ConstrainableInputStream(input, bufferSize, 0); Document doc = null; boole... | DataUtil { static Document parseInputStream(InputStream input, String charsetName, String baseUri, Parser parser) throws IOException { if (input == null) return new Document(baseUri); if (!(input instanceof ConstrainableInputStream)) input = new ConstrainableInputStream(input, bufferSize, 0); Document doc = null; boole... | DataUtil { static Document parseInputStream(InputStream input, String charsetName, String baseUri, Parser parser) throws IOException { if (input == null) return new Document(baseUri); if (!(input instanceof ConstrainableInputStream)) input = new ConstrainableInputStream(input, bufferSize, 0); Document doc = null; boole... |
@Test public void shouldNotThrowExceptionOnEmptyCharset() { assertEquals(null, DataUtil.getCharsetFromContentType("text/html; charset=")); assertEquals(null, DataUtil.getCharsetFromContentType("text/html; charset=;")); } | static String getCharsetFromContentType(String contentType) { if (contentType == null) return null; Matcher m = charsetPattern.matcher(contentType); if (m.find()) { String charset = m.group(1).trim(); charset = charset.replace("charset=", ""); return validateCharset(charset); } return null; } | DataUtil { static String getCharsetFromContentType(String contentType) { if (contentType == null) return null; Matcher m = charsetPattern.matcher(contentType); if (m.find()) { String charset = m.group(1).trim(); charset = charset.replace("charset=", ""); return validateCharset(charset); } return null; } } | DataUtil { static String getCharsetFromContentType(String contentType) { if (contentType == null) return null; Matcher m = charsetPattern.matcher(contentType); if (m.find()) { String charset = m.group(1).trim(); charset = charset.replace("charset=", ""); return validateCharset(charset); } return null; } private DataUt... | DataUtil { static String getCharsetFromContentType(String contentType) { if (contentType == null) return null; Matcher m = charsetPattern.matcher(contentType); if (m.find()) { String charset = m.group(1).trim(); charset = charset.replace("charset=", ""); return validateCharset(charset); } return null; } private DataUt... | DataUtil { static String getCharsetFromContentType(String contentType) { if (contentType == null) return null; Matcher m = charsetPattern.matcher(contentType); if (m.find()) { String charset = m.group(1).trim(); charset = charset.replace("charset=", ""); return validateCharset(charset); } return null; } private DataUt... |
@Test public void shouldSelectFirstCharsetOnWeirdMultileCharsetsInMetaTags() { assertEquals("ISO-8859-1", DataUtil.getCharsetFromContentType("text/html; charset=ISO-8859-1, charset=1251")); } | static String getCharsetFromContentType(String contentType) { if (contentType == null) return null; Matcher m = charsetPattern.matcher(contentType); if (m.find()) { String charset = m.group(1).trim(); charset = charset.replace("charset=", ""); return validateCharset(charset); } return null; } | DataUtil { static String getCharsetFromContentType(String contentType) { if (contentType == null) return null; Matcher m = charsetPattern.matcher(contentType); if (m.find()) { String charset = m.group(1).trim(); charset = charset.replace("charset=", ""); return validateCharset(charset); } return null; } } | DataUtil { static String getCharsetFromContentType(String contentType) { if (contentType == null) return null; Matcher m = charsetPattern.matcher(contentType); if (m.find()) { String charset = m.group(1).trim(); charset = charset.replace("charset=", ""); return validateCharset(charset); } return null; } private DataUt... | DataUtil { static String getCharsetFromContentType(String contentType) { if (contentType == null) return null; Matcher m = charsetPattern.matcher(contentType); if (m.find()) { String charset = m.group(1).trim(); charset = charset.replace("charset=", ""); return validateCharset(charset); } return null; } private DataUt... | DataUtil { static String getCharsetFromContentType(String contentType) { if (contentType == null) return null; Matcher m = charsetPattern.matcher(contentType); if (m.find()) { String charset = m.group(1).trim(); charset = charset.replace("charset=", ""); return validateCharset(charset); } return null; } private DataUt... |
@Test public void shouldCorrectCharsetForDuplicateCharsetString() { assertEquals("iso-8859-1", DataUtil.getCharsetFromContentType("text/html; charset=charset=iso-8859-1")); } | static String getCharsetFromContentType(String contentType) { if (contentType == null) return null; Matcher m = charsetPattern.matcher(contentType); if (m.find()) { String charset = m.group(1).trim(); charset = charset.replace("charset=", ""); return validateCharset(charset); } return null; } | DataUtil { static String getCharsetFromContentType(String contentType) { if (contentType == null) return null; Matcher m = charsetPattern.matcher(contentType); if (m.find()) { String charset = m.group(1).trim(); charset = charset.replace("charset=", ""); return validateCharset(charset); } return null; } } | DataUtil { static String getCharsetFromContentType(String contentType) { if (contentType == null) return null; Matcher m = charsetPattern.matcher(contentType); if (m.find()) { String charset = m.group(1).trim(); charset = charset.replace("charset=", ""); return validateCharset(charset); } return null; } private DataUt... | DataUtil { static String getCharsetFromContentType(String contentType) { if (contentType == null) return null; Matcher m = charsetPattern.matcher(contentType); if (m.find()) { String charset = m.group(1).trim(); charset = charset.replace("charset=", ""); return validateCharset(charset); } return null; } private DataUt... | DataUtil { static String getCharsetFromContentType(String contentType) { if (contentType == null) return null; Matcher m = charsetPattern.matcher(contentType); if (m.find()) { String charset = m.group(1).trim(); charset = charset.replace("charset=", ""); return validateCharset(charset); } return null; } private DataUt... |
@Test public void testApply() throws Exception { A a = new A(); Method m = A.class.getDeclaredMethod("setE", E.class); SetterInvoker invoker = FunctionalSetterInvoker.create("e", m); invoker.invoke(a, "Y"); assertThat(a.getE(), is(E.Y)); } | @Nullable @Override public Enum apply(@Nullable String input, Type runtimeOutputType) { if (input == null) { return null; } Class rawType = TypeToken.of(runtimeOutputType).getRawType(); Enum r = Enum.valueOf(rawType, input); return r; } | StringToEnumFunction implements RuntimeSetterFunction<String, Enum> { @Nullable @Override public Enum apply(@Nullable String input, Type runtimeOutputType) { if (input == null) { return null; } Class rawType = TypeToken.of(runtimeOutputType).getRawType(); Enum r = Enum.valueOf(rawType, input); return r; } } | StringToEnumFunction implements RuntimeSetterFunction<String, Enum> { @Nullable @Override public Enum apply(@Nullable String input, Type runtimeOutputType) { if (input == null) { return null; } Class rawType = TypeToken.of(runtimeOutputType).getRawType(); Enum r = Enum.valueOf(rawType, input); return r; } } | StringToEnumFunction implements RuntimeSetterFunction<String, Enum> { @Nullable @Override public Enum apply(@Nullable String input, Type runtimeOutputType) { if (input == null) { return null; } Class rawType = TypeToken.of(runtimeOutputType).getRawType(); Enum r = Enum.valueOf(rawType, input); return r; } @Nullable @O... | StringToEnumFunction implements RuntimeSetterFunction<String, Enum> { @Nullable @Override public Enum apply(@Nullable String input, Type runtimeOutputType) { if (input == null) { return null; } Class rawType = TypeToken.of(runtimeOutputType).getRawType(); Enum r = Enum.valueOf(rawType, input); return r; } @Nullable @O... |
@Test public void shouldReturnNullForIllegalCharsetNames() { assertEquals(null, DataUtil.getCharsetFromContentType("text/html; charset=$HJKDF§$/(")); } | static String getCharsetFromContentType(String contentType) { if (contentType == null) return null; Matcher m = charsetPattern.matcher(contentType); if (m.find()) { String charset = m.group(1).trim(); charset = charset.replace("charset=", ""); return validateCharset(charset); } return null; } | DataUtil { static String getCharsetFromContentType(String contentType) { if (contentType == null) return null; Matcher m = charsetPattern.matcher(contentType); if (m.find()) { String charset = m.group(1).trim(); charset = charset.replace("charset=", ""); return validateCharset(charset); } return null; } } | DataUtil { static String getCharsetFromContentType(String contentType) { if (contentType == null) return null; Matcher m = charsetPattern.matcher(contentType); if (m.find()) { String charset = m.group(1).trim(); charset = charset.replace("charset=", ""); return validateCharset(charset); } return null; } private DataUt... | DataUtil { static String getCharsetFromContentType(String contentType) { if (contentType == null) return null; Matcher m = charsetPattern.matcher(contentType); if (m.find()) { String charset = m.group(1).trim(); charset = charset.replace("charset=", ""); return validateCharset(charset); } return null; } private DataUt... | DataUtil { static String getCharsetFromContentType(String contentType) { if (contentType == null) return null; Matcher m = charsetPattern.matcher(contentType); if (m.find()) { String charset = m.group(1).trim(); charset = charset.replace("charset=", ""); return validateCharset(charset); } return null; } private DataUt... |
@Test public void generatesMimeBoundaries() { String m1 = DataUtil.mimeBoundary(); String m2 = DataUtil.mimeBoundary(); assertEquals(DataUtil.boundaryLength, m1.length()); assertEquals(DataUtil.boundaryLength, m2.length()); assertNotSame(m1, m2); } | static String mimeBoundary() { final StringBuilder mime = new StringBuilder(boundaryLength); final Random rand = new Random(); for (int i = 0; i < boundaryLength; i++) { mime.append(mimeBoundaryChars[rand.nextInt(mimeBoundaryChars.length)]); } return mime.toString(); } | DataUtil { static String mimeBoundary() { final StringBuilder mime = new StringBuilder(boundaryLength); final Random rand = new Random(); for (int i = 0; i < boundaryLength; i++) { mime.append(mimeBoundaryChars[rand.nextInt(mimeBoundaryChars.length)]); } return mime.toString(); } } | DataUtil { static String mimeBoundary() { final StringBuilder mime = new StringBuilder(boundaryLength); final Random rand = new Random(); for (int i = 0; i < boundaryLength; i++) { mime.append(mimeBoundaryChars[rand.nextInt(mimeBoundaryChars.length)]); } return mime.toString(); } private DataUtil(); } | DataUtil { static String mimeBoundary() { final StringBuilder mime = new StringBuilder(boundaryLength); final Random rand = new Random(); for (int i = 0; i < boundaryLength; i++) { mime.append(mimeBoundaryChars[rand.nextInt(mimeBoundaryChars.length)]); } return mime.toString(); } private DataUtil(); static Document lo... | DataUtil { static String mimeBoundary() { final StringBuilder mime = new StringBuilder(boundaryLength); final Random rand = new Random(); for (int i = 0; i < boundaryLength; i++) { mime.append(mimeBoundaryChars[rand.nextInt(mimeBoundaryChars.length)]); } return mime.toString(); } private DataUtil(); static Document lo... |
@Test public void wrongMetaCharsetFallback() throws IOException { String html = "<html><head><meta charset=iso-8></head><body></body></html>"; Document doc = DataUtil.parseInputStream(stream(html), null, "http: final String expected = "<html>\n" + " <head>\n" + " <meta charset=\"iso-8\">\n" + " </head>\n" + " <body></b... | static Document parseInputStream(InputStream input, String charsetName, String baseUri, Parser parser) throws IOException { if (input == null) return new Document(baseUri); if (!(input instanceof ConstrainableInputStream)) input = new ConstrainableInputStream(input, bufferSize, 0); Document doc = null; boolean fullyRea... | DataUtil { static Document parseInputStream(InputStream input, String charsetName, String baseUri, Parser parser) throws IOException { if (input == null) return new Document(baseUri); if (!(input instanceof ConstrainableInputStream)) input = new ConstrainableInputStream(input, bufferSize, 0); Document doc = null; boole... | DataUtil { static Document parseInputStream(InputStream input, String charsetName, String baseUri, Parser parser) throws IOException { if (input == null) return new Document(baseUri); if (!(input instanceof ConstrainableInputStream)) input = new ConstrainableInputStream(input, bufferSize, 0); Document doc = null; boole... | DataUtil { static Document parseInputStream(InputStream input, String charsetName, String baseUri, Parser parser) throws IOException { if (input == null) return new Document(baseUri); if (!(input instanceof ConstrainableInputStream)) input = new ConstrainableInputStream(input, bufferSize, 0); Document doc = null; boole... | DataUtil { static Document parseInputStream(InputStream input, String charsetName, String baseUri, Parser parser) throws IOException { if (input == null) return new Document(baseUri); if (!(input instanceof ConstrainableInputStream)) input = new ConstrainableInputStream(input, bufferSize, 0); Document doc = null; boole... |
@Test public void secondMetaElementWithContentTypeContainsCharsetParameter() throws Exception { String html = "<html><head>" + "<meta http-equiv=\"Content-Type\" content=\"text/html\">" + "<meta http-equiv=\"Content-Type\" content=\"text/html; charset=euc-kr\">" + "</head><body>한국어</body></html>"; Document doc = DataUt... | static Document parseInputStream(InputStream input, String charsetName, String baseUri, Parser parser) throws IOException { if (input == null) return new Document(baseUri); if (!(input instanceof ConstrainableInputStream)) input = new ConstrainableInputStream(input, bufferSize, 0); Document doc = null; boolean fullyRea... | DataUtil { static Document parseInputStream(InputStream input, String charsetName, String baseUri, Parser parser) throws IOException { if (input == null) return new Document(baseUri); if (!(input instanceof ConstrainableInputStream)) input = new ConstrainableInputStream(input, bufferSize, 0); Document doc = null; boole... | DataUtil { static Document parseInputStream(InputStream input, String charsetName, String baseUri, Parser parser) throws IOException { if (input == null) return new Document(baseUri); if (!(input instanceof ConstrainableInputStream)) input = new ConstrainableInputStream(input, bufferSize, 0); Document doc = null; boole... | DataUtil { static Document parseInputStream(InputStream input, String charsetName, String baseUri, Parser parser) throws IOException { if (input == null) return new Document(baseUri); if (!(input instanceof ConstrainableInputStream)) input = new ConstrainableInputStream(input, bufferSize, 0); Document doc = null; boole... | DataUtil { static Document parseInputStream(InputStream input, String charsetName, String baseUri, Parser parser) throws IOException { if (input == null) return new Document(baseUri); if (!(input instanceof ConstrainableInputStream)) input = new ConstrainableInputStream(input, bufferSize, 0); Document doc = null; boole... |
@Test public void firstMetaElementWithCharsetShouldBeUsedForDecoding() throws Exception { String html = "<html><head>" + "<meta http-equiv=\"Content-Type\" content=\"text/html; charset=iso-8859-1\">" + "<meta http-equiv=\"Content-Type\" content=\"text/html; charset=koi8-u\">" + "</head><body>Übergrößenträger</body></ht... | static Document parseInputStream(InputStream input, String charsetName, String baseUri, Parser parser) throws IOException { if (input == null) return new Document(baseUri); if (!(input instanceof ConstrainableInputStream)) input = new ConstrainableInputStream(input, bufferSize, 0); Document doc = null; boolean fullyRea... | DataUtil { static Document parseInputStream(InputStream input, String charsetName, String baseUri, Parser parser) throws IOException { if (input == null) return new Document(baseUri); if (!(input instanceof ConstrainableInputStream)) input = new ConstrainableInputStream(input, bufferSize, 0); Document doc = null; boole... | DataUtil { static Document parseInputStream(InputStream input, String charsetName, String baseUri, Parser parser) throws IOException { if (input == null) return new Document(baseUri); if (!(input instanceof ConstrainableInputStream)) input = new ConstrainableInputStream(input, bufferSize, 0); Document doc = null; boole... | DataUtil { static Document parseInputStream(InputStream input, String charsetName, String baseUri, Parser parser) throws IOException { if (input == null) return new Document(baseUri); if (!(input instanceof ConstrainableInputStream)) input = new ConstrainableInputStream(input, bufferSize, 0); Document doc = null; boole... | DataUtil { static Document parseInputStream(InputStream input, String charsetName, String baseUri, Parser parser) throws IOException { if (input == null) return new Document(baseUri); if (!(input instanceof ConstrainableInputStream)) input = new ConstrainableInputStream(input, bufferSize, 0); Document doc = null; boole... |
@Test public void testExceptionClosure() { assertNotNull(ClosureUtils.exceptionClosure()); assertSame(ClosureUtils.exceptionClosure(), ClosureUtils.exceptionClosure()); try { ClosureUtils.exceptionClosure().execute(null); } catch (final FunctorException ex) { try { ClosureUtils.exceptionClosure().execute(cString); } ca... | public static <E> Closure<E> exceptionClosure() { return ExceptionClosure.<E>exceptionClosure(); } | ClosureUtils { public static <E> Closure<E> exceptionClosure() { return ExceptionClosure.<E>exceptionClosure(); } } | ClosureUtils { public static <E> Closure<E> exceptionClosure() { return ExceptionClosure.<E>exceptionClosure(); } private ClosureUtils(); } | ClosureUtils { public static <E> Closure<E> exceptionClosure() { return ExceptionClosure.<E>exceptionClosure(); } private ClosureUtils(); static Closure<E> exceptionClosure(); static Closure<E> nopClosure(); static Closure<E> asClosure(final Transformer<? super E, ?> transformer); static Closure<E> forClosure(final in... | ClosureUtils { public static <E> Closure<E> exceptionClosure() { return ExceptionClosure.<E>exceptionClosure(); } private ClosureUtils(); static Closure<E> exceptionClosure(); static Closure<E> nopClosure(); static Closure<E> asClosure(final Transformer<? super E, ?> transformer); static Closure<E> forClosure(final in... |
@Test public void testNopClosure() { final StringBuilder buf = new StringBuilder("Hello"); ClosureUtils.nopClosure().execute(null); assertEquals("Hello", buf.toString()); ClosureUtils.nopClosure().execute("Hello"); assertEquals("Hello", buf.toString()); } | public static <E> Closure<E> nopClosure() { return NOPClosure.<E>nopClosure(); } | ClosureUtils { public static <E> Closure<E> nopClosure() { return NOPClosure.<E>nopClosure(); } } | ClosureUtils { public static <E> Closure<E> nopClosure() { return NOPClosure.<E>nopClosure(); } private ClosureUtils(); } | ClosureUtils { public static <E> Closure<E> nopClosure() { return NOPClosure.<E>nopClosure(); } private ClosureUtils(); static Closure<E> exceptionClosure(); static Closure<E> nopClosure(); static Closure<E> asClosure(final Transformer<? super E, ?> transformer); static Closure<E> forClosure(final int count, final Clo... | ClosureUtils { public static <E> Closure<E> nopClosure() { return NOPClosure.<E>nopClosure(); } private ClosureUtils(); static Closure<E> exceptionClosure(); static Closure<E> nopClosure(); static Closure<E> asClosure(final Transformer<? super E, ?> transformer); static Closure<E> forClosure(final int count, final Clo... |
@Test public void testInvokeClosure() { StringBuffer buf = new StringBuffer("Hello"); ClosureUtils.invokerClosure("reverse").execute(buf); assertEquals("olleH", buf.toString()); buf = new StringBuffer("Hello"); ClosureUtils.invokerClosure("setLength", new Class[] {Integer.TYPE}, new Object[] {Integer.valueOf(2)}).execu... | public static <E> Closure<E> invokerClosure(final String methodName) { return asClosure(InvokerTransformer.<E, Object>invokerTransformer(methodName)); } | ClosureUtils { public static <E> Closure<E> invokerClosure(final String methodName) { return asClosure(InvokerTransformer.<E, Object>invokerTransformer(methodName)); } } | ClosureUtils { public static <E> Closure<E> invokerClosure(final String methodName) { return asClosure(InvokerTransformer.<E, Object>invokerTransformer(methodName)); } private ClosureUtils(); } | ClosureUtils { public static <E> Closure<E> invokerClosure(final String methodName) { return asClosure(InvokerTransformer.<E, Object>invokerTransformer(methodName)); } private ClosureUtils(); static Closure<E> exceptionClosure(); static Closure<E> nopClosure(); static Closure<E> asClosure(final Transformer<? super E, ... | ClosureUtils { public static <E> Closure<E> invokerClosure(final String methodName) { return asClosure(InvokerTransformer.<E, Object>invokerTransformer(methodName)); } private ClosureUtils(); static Closure<E> exceptionClosure(); static Closure<E> nopClosure(); static Closure<E> asClosure(final Transformer<? super E, ... |
@Test public void testForClosure() { final MockClosure<Object> cmd = new MockClosure<Object>(); ClosureUtils.forClosure(5, cmd).execute(null); assertEquals(5, cmd.count); assertSame(NOPClosure.INSTANCE, ClosureUtils.forClosure(0, new MockClosure<Object>())); assertSame(NOPClosure.INSTANCE, ClosureUtils.forClosure(-1, n... | public static <E> Closure<E> forClosure(final int count, final Closure<? super E> closure) { return ForClosure.forClosure(count, closure); } | ClosureUtils { public static <E> Closure<E> forClosure(final int count, final Closure<? super E> closure) { return ForClosure.forClosure(count, closure); } } | ClosureUtils { public static <E> Closure<E> forClosure(final int count, final Closure<? super E> closure) { return ForClosure.forClosure(count, closure); } private ClosureUtils(); } | ClosureUtils { public static <E> Closure<E> forClosure(final int count, final Closure<? super E> closure) { return ForClosure.forClosure(count, closure); } private ClosureUtils(); static Closure<E> exceptionClosure(); static Closure<E> nopClosure(); static Closure<E> asClosure(final Transformer<? super E, ?> transform... | ClosureUtils { public static <E> Closure<E> forClosure(final int count, final Closure<? super E> closure) { return ForClosure.forClosure(count, closure); } private ClosureUtils(); static Closure<E> exceptionClosure(); static Closure<E> nopClosure(); static Closure<E> asClosure(final Transformer<? super E, ?> transform... |
@Test public void testWhileClosure() { MockClosure<Object> cmd = new MockClosure<Object>(); ClosureUtils.whileClosure(FalsePredicate.falsePredicate(), cmd).execute(null); assertEquals(0, cmd.count); cmd = new MockClosure<Object>(); ClosureUtils.whileClosure(PredicateUtils.uniquePredicate(), cmd).execute(null); assertEq... | public static <E> Closure<E> whileClosure(final Predicate<? super E> predicate, final Closure<? super E> closure) { return WhileClosure.<E>whileClosure(predicate, closure, false); } | ClosureUtils { public static <E> Closure<E> whileClosure(final Predicate<? super E> predicate, final Closure<? super E> closure) { return WhileClosure.<E>whileClosure(predicate, closure, false); } } | ClosureUtils { public static <E> Closure<E> whileClosure(final Predicate<? super E> predicate, final Closure<? super E> closure) { return WhileClosure.<E>whileClosure(predicate, closure, false); } private ClosureUtils(); } | ClosureUtils { public static <E> Closure<E> whileClosure(final Predicate<? super E> predicate, final Closure<? super E> closure) { return WhileClosure.<E>whileClosure(predicate, closure, false); } private ClosureUtils(); static Closure<E> exceptionClosure(); static Closure<E> nopClosure(); static Closure<E> asClosure(... | ClosureUtils { public static <E> Closure<E> whileClosure(final Predicate<? super E> predicate, final Closure<? super E> closure) { return WhileClosure.<E>whileClosure(predicate, closure, false); } private ClosureUtils(); static Closure<E> exceptionClosure(); static Closure<E> nopClosure(); static Closure<E> asClosure(... |
@Test public void testApply() throws Exception { A a = new A(); a.setE(E.Y); Method m = A.class.getDeclaredMethod("getE"); GetterInvoker invoker = FunctionalGetterInvoker.create("e", m); String r = (String) invoker.invoke(a); assertThat(r, is("Y")); } | @Nullable @Override public String apply(@Nullable Enum input) { return input == null ? null : input.name(); } | EnumToStringFunction implements GetterFunction<Enum, String> { @Nullable @Override public String apply(@Nullable Enum input) { return input == null ? null : input.name(); } } | EnumToStringFunction implements GetterFunction<Enum, String> { @Nullable @Override public String apply(@Nullable Enum input) { return input == null ? null : input.name(); } } | EnumToStringFunction implements GetterFunction<Enum, String> { @Nullable @Override public String apply(@Nullable Enum input) { return input == null ? null : input.name(); } @Nullable @Override String apply(@Nullable Enum input); } | EnumToStringFunction implements GetterFunction<Enum, String> { @Nullable @Override public String apply(@Nullable Enum input) { return input == null ? null : input.name(); } @Nullable @Override String apply(@Nullable Enum input); } |
@Test public void testDoWhileClosure() { MockClosure<Object> cmd = new MockClosure<Object>(); ClosureUtils.doWhileClosure(cmd, FalsePredicate.falsePredicate()).execute(null); assertEquals(1, cmd.count); cmd = new MockClosure<Object>(); ClosureUtils.doWhileClosure(cmd, PredicateUtils.uniquePredicate()).execute(null); as... | public static <E> Closure<E> doWhileClosure(final Closure<? super E> closure, final Predicate<? super E> predicate) { return WhileClosure.<E>whileClosure(predicate, closure, true); } | ClosureUtils { public static <E> Closure<E> doWhileClosure(final Closure<? super E> closure, final Predicate<? super E> predicate) { return WhileClosure.<E>whileClosure(predicate, closure, true); } } | ClosureUtils { public static <E> Closure<E> doWhileClosure(final Closure<? super E> closure, final Predicate<? super E> predicate) { return WhileClosure.<E>whileClosure(predicate, closure, true); } private ClosureUtils(); } | ClosureUtils { public static <E> Closure<E> doWhileClosure(final Closure<? super E> closure, final Predicate<? super E> predicate) { return WhileClosure.<E>whileClosure(predicate, closure, true); } private ClosureUtils(); static Closure<E> exceptionClosure(); static Closure<E> nopClosure(); static Closure<E> asClosure... | ClosureUtils { public static <E> Closure<E> doWhileClosure(final Closure<? super E> closure, final Predicate<? super E> predicate) { return WhileClosure.<E>whileClosure(predicate, closure, true); } private ClosureUtils(); static Closure<E> exceptionClosure(); static Closure<E> nopClosure(); static Closure<E> asClosure... |
@Test @SuppressWarnings("unchecked") public void testChainedClosure() { MockClosure<Object> a = new MockClosure<Object>(); MockClosure<Object> b = new MockClosure<Object>(); ClosureUtils.chainedClosure(a, b).execute(null); assertEquals(1, a.count); assertEquals(1, b.count); a = new MockClosure<Object>(); b = new MockCl... | public static <E> Closure<E> chainedClosure(final Closure<? super E>... closures) { return ChainedClosure.chainedClosure(closures); } | ClosureUtils { public static <E> Closure<E> chainedClosure(final Closure<? super E>... closures) { return ChainedClosure.chainedClosure(closures); } } | ClosureUtils { public static <E> Closure<E> chainedClosure(final Closure<? super E>... closures) { return ChainedClosure.chainedClosure(closures); } private ClosureUtils(); } | ClosureUtils { public static <E> Closure<E> chainedClosure(final Closure<? super E>... closures) { return ChainedClosure.chainedClosure(closures); } private ClosureUtils(); static Closure<E> exceptionClosure(); static Closure<E> nopClosure(); static Closure<E> asClosure(final Transformer<? super E, ?> transformer); st... | ClosureUtils { public static <E> Closure<E> chainedClosure(final Closure<? super E>... closures) { return ChainedClosure.chainedClosure(closures); } private ClosureUtils(); static Closure<E> exceptionClosure(); static Closure<E> nopClosure(); static Closure<E> asClosure(final Transformer<? super E, ?> transformer); st... |
@Test public void testIfClosure() { MockClosure<Object> a = new MockClosure<Object>(); MockClosure<Object> b = null; ClosureUtils.ifClosure(TruePredicate.truePredicate(), a).execute(null); assertEquals(1, a.count); a = new MockClosure<Object>(); ClosureUtils.ifClosure(FalsePredicate.<Object>falsePredicate(), a).execute... | public static <E> Closure<E> ifClosure(final Predicate<? super E> predicate, final Closure<? super E> trueClosure) { return IfClosure.<E>ifClosure(predicate, trueClosure); } | ClosureUtils { public static <E> Closure<E> ifClosure(final Predicate<? super E> predicate, final Closure<? super E> trueClosure) { return IfClosure.<E>ifClosure(predicate, trueClosure); } } | ClosureUtils { public static <E> Closure<E> ifClosure(final Predicate<? super E> predicate, final Closure<? super E> trueClosure) { return IfClosure.<E>ifClosure(predicate, trueClosure); } private ClosureUtils(); } | ClosureUtils { public static <E> Closure<E> ifClosure(final Predicate<? super E> predicate, final Closure<? super E> trueClosure) { return IfClosure.<E>ifClosure(predicate, trueClosure); } private ClosureUtils(); static Closure<E> exceptionClosure(); static Closure<E> nopClosure(); static Closure<E> asClosure(final Tr... | ClosureUtils { public static <E> Closure<E> ifClosure(final Predicate<? super E> predicate, final Closure<? super E> trueClosure) { return IfClosure.<E>ifClosure(predicate, trueClosure); } private ClosureUtils(); static Closure<E> exceptionClosure(); static Closure<E> nopClosure(); static Closure<E> asClosure(final Tr... |
@Test @SuppressWarnings("unchecked") public void testSwitchClosure() { final MockClosure<String> a = new MockClosure<String>(); final MockClosure<String> b = new MockClosure<String>(); ClosureUtils.<String>switchClosure( new Predicate[] { EqualPredicate.equalPredicate("HELLO"), EqualPredicate.equalPredicate("THERE") },... | public static <E> Closure<E> switchClosure(final Predicate<? super E>[] predicates, final Closure<? super E>[] closures) { return SwitchClosure.<E>switchClosure(predicates, closures, null); } | ClosureUtils { public static <E> Closure<E> switchClosure(final Predicate<? super E>[] predicates, final Closure<? super E>[] closures) { return SwitchClosure.<E>switchClosure(predicates, closures, null); } } | ClosureUtils { public static <E> Closure<E> switchClosure(final Predicate<? super E>[] predicates, final Closure<? super E>[] closures) { return SwitchClosure.<E>switchClosure(predicates, closures, null); } private ClosureUtils(); } | ClosureUtils { public static <E> Closure<E> switchClosure(final Predicate<? super E>[] predicates, final Closure<? super E>[] closures) { return SwitchClosure.<E>switchClosure(predicates, closures, null); } private ClosureUtils(); static Closure<E> exceptionClosure(); static Closure<E> nopClosure(); static Closure<E> ... | ClosureUtils { public static <E> Closure<E> switchClosure(final Predicate<? super E>[] predicates, final Closure<? super E>[] closures) { return SwitchClosure.<E>switchClosure(predicates, closures, null); } private ClosureUtils(); static Closure<E> exceptionClosure(); static Closure<E> nopClosure(); static Closure<E> ... |
@Test public void testSwitchMapClosure() { final MockClosure<String> a = new MockClosure<String>(); final MockClosure<String> b = new MockClosure<String>(); final Map<String, Closure<String>> map = new HashMap<String, Closure<String>>(); map.put("HELLO", a); map.put("THERE", b); ClosureUtils.switchMapClosure(map).execu... | @SuppressWarnings("unchecked") public static <E> Closure<E> switchMapClosure(final Map<? extends E, Closure<E>> objectsAndClosures) { if (objectsAndClosures == null) { throw new NullPointerException("The object and closure map must not be null"); } final Closure<? super E> def = objectsAndClosures.remove(null); final i... | ClosureUtils { @SuppressWarnings("unchecked") public static <E> Closure<E> switchMapClosure(final Map<? extends E, Closure<E>> objectsAndClosures) { if (objectsAndClosures == null) { throw new NullPointerException("The object and closure map must not be null"); } final Closure<? super E> def = objectsAndClosures.remove... | ClosureUtils { @SuppressWarnings("unchecked") public static <E> Closure<E> switchMapClosure(final Map<? extends E, Closure<E>> objectsAndClosures) { if (objectsAndClosures == null) { throw new NullPointerException("The object and closure map must not be null"); } final Closure<? super E> def = objectsAndClosures.remove... | ClosureUtils { @SuppressWarnings("unchecked") public static <E> Closure<E> switchMapClosure(final Map<? extends E, Closure<E>> objectsAndClosures) { if (objectsAndClosures == null) { throw new NullPointerException("The object and closure map must not be null"); } final Closure<? super E> def = objectsAndClosures.remove... | ClosureUtils { @SuppressWarnings("unchecked") public static <E> Closure<E> switchMapClosure(final Map<? extends E, Closure<E>> objectsAndClosures) { if (objectsAndClosures == null) { throw new NullPointerException("The object and closure map must not be null"); } final Closure<? super E> def = objectsAndClosures.remove... |
@Test public void testBadNoopComparatorChain() { final ComparatorChain<Integer> chain = new ComparatorChain<Integer>(); final Integer i1 = Integer.valueOf(4); final Integer i2 = Integer.valueOf(6); try { chain.compare(i1,i2); fail("An exception should be thrown when a chain contains zero comparators."); } catch (final ... | @Override public int compare(final E o1, final E o2) throws UnsupportedOperationException { if (isLocked == false) { checkChainIntegrity(); isLocked = true; } final Iterator<Comparator<E>> comparators = comparatorChain.iterator(); for (int comparatorIndex = 0; comparators.hasNext(); ++comparatorIndex) { final Comparato... | ComparatorChain implements Comparator<E>, Serializable { @Override public int compare(final E o1, final E o2) throws UnsupportedOperationException { if (isLocked == false) { checkChainIntegrity(); isLocked = true; } final Iterator<Comparator<E>> comparators = comparatorChain.iterator(); for (int comparatorIndex = 0; co... | ComparatorChain implements Comparator<E>, Serializable { @Override public int compare(final E o1, final E o2) throws UnsupportedOperationException { if (isLocked == false) { checkChainIntegrity(); isLocked = true; } final Iterator<Comparator<E>> comparators = comparatorChain.iterator(); for (int comparatorIndex = 0; co... | ComparatorChain implements Comparator<E>, Serializable { @Override public int compare(final E o1, final E o2) throws UnsupportedOperationException { if (isLocked == false) { checkChainIntegrity(); isLocked = true; } final Iterator<Comparator<E>> comparators = comparatorChain.iterator(); for (int comparatorIndex = 0; co... | ComparatorChain implements Comparator<E>, Serializable { @Override public int compare(final E o1, final E o2) throws UnsupportedOperationException { if (isLocked == false) { checkChainIntegrity(); isLocked = true; } final Iterator<Comparator<E>> comparators = comparatorChain.iterator(); for (int comparatorIndex = 0; co... |
@Test public void testListComparatorChain() { final List<Comparator<Integer>> list = new LinkedList<Comparator<Integer>>(); list.add(new ComparableComparator<Integer>()); final ComparatorChain<Integer> chain = new ComparatorChain<Integer>(list); final Integer i1 = Integer.valueOf(4); final Integer i2 = Integer.valueOf(... | @Override public int compare(final E o1, final E o2) throws UnsupportedOperationException { if (isLocked == false) { checkChainIntegrity(); isLocked = true; } final Iterator<Comparator<E>> comparators = comparatorChain.iterator(); for (int comparatorIndex = 0; comparators.hasNext(); ++comparatorIndex) { final Comparato... | ComparatorChain implements Comparator<E>, Serializable { @Override public int compare(final E o1, final E o2) throws UnsupportedOperationException { if (isLocked == false) { checkChainIntegrity(); isLocked = true; } final Iterator<Comparator<E>> comparators = comparatorChain.iterator(); for (int comparatorIndex = 0; co... | ComparatorChain implements Comparator<E>, Serializable { @Override public int compare(final E o1, final E o2) throws UnsupportedOperationException { if (isLocked == false) { checkChainIntegrity(); isLocked = true; } final Iterator<Comparator<E>> comparators = comparatorChain.iterator(); for (int comparatorIndex = 0; co... | ComparatorChain implements Comparator<E>, Serializable { @Override public int compare(final E o1, final E o2) throws UnsupportedOperationException { if (isLocked == false) { checkChainIntegrity(); isLocked = true; } final Iterator<Comparator<E>> comparators = comparatorChain.iterator(); for (int comparatorIndex = 0; co... | ComparatorChain implements Comparator<E>, Serializable { @Override public int compare(final E o1, final E o2) throws UnsupportedOperationException { if (isLocked == false) { checkChainIntegrity(); isLocked = true; } final Iterator<Comparator<E>> comparators = comparatorChain.iterator(); for (int comparatorIndex = 0; co... |
@Test public void testBadListComparatorChain() { final List<Comparator<Integer>> list = new LinkedList<Comparator<Integer>>(); final ComparatorChain<Integer> chain = new ComparatorChain<Integer>(list); final Integer i1 = Integer.valueOf(4); final Integer i2 = Integer.valueOf(6); try { chain.compare(i1, i2); fail("An ex... | @Override public int compare(final E o1, final E o2) throws UnsupportedOperationException { if (isLocked == false) { checkChainIntegrity(); isLocked = true; } final Iterator<Comparator<E>> comparators = comparatorChain.iterator(); for (int comparatorIndex = 0; comparators.hasNext(); ++comparatorIndex) { final Comparato... | ComparatorChain implements Comparator<E>, Serializable { @Override public int compare(final E o1, final E o2) throws UnsupportedOperationException { if (isLocked == false) { checkChainIntegrity(); isLocked = true; } final Iterator<Comparator<E>> comparators = comparatorChain.iterator(); for (int comparatorIndex = 0; co... | ComparatorChain implements Comparator<E>, Serializable { @Override public int compare(final E o1, final E o2) throws UnsupportedOperationException { if (isLocked == false) { checkChainIntegrity(); isLocked = true; } final Iterator<Comparator<E>> comparators = comparatorChain.iterator(); for (int comparatorIndex = 0; co... | ComparatorChain implements Comparator<E>, Serializable { @Override public int compare(final E o1, final E o2) throws UnsupportedOperationException { if (isLocked == false) { checkChainIntegrity(); isLocked = true; } final Iterator<Comparator<E>> comparators = comparatorChain.iterator(); for (int comparatorIndex = 0; co... | ComparatorChain implements Comparator<E>, Serializable { @Override public int compare(final E o1, final E o2) throws UnsupportedOperationException { if (isLocked == false) { checkChainIntegrity(); isLocked = true; } final Iterator<Comparator<E>> comparators = comparatorChain.iterator(); for (int comparatorIndex = 0; co... |
@Test public void testConstructorPlusAdd() { final FixedOrderComparator<String> comparator = new FixedOrderComparator<String>(); for (final String topCitie : topCities) { comparator.add(topCitie); } final String[] keys = topCities.clone(); assertComparatorYieldsOrder(keys, comparator); } | public boolean add(final T obj) { checkLocked(); final Integer position = map.put(obj, Integer.valueOf(counter++)); return position == null; } | FixedOrderComparator implements Comparator<T>, Serializable { public boolean add(final T obj) { checkLocked(); final Integer position = map.put(obj, Integer.valueOf(counter++)); return position == null; } } | FixedOrderComparator implements Comparator<T>, Serializable { public boolean add(final T obj) { checkLocked(); final Integer position = map.put(obj, Integer.valueOf(counter++)); return position == null; } FixedOrderComparator(); FixedOrderComparator(final T... items); FixedOrderComparator(final List<T> items); } | FixedOrderComparator implements Comparator<T>, Serializable { public boolean add(final T obj) { checkLocked(); final Integer position = map.put(obj, Integer.valueOf(counter++)); return position == null; } FixedOrderComparator(); FixedOrderComparator(final T... items); FixedOrderComparator(final List<T> items); boolea... | FixedOrderComparator implements Comparator<T>, Serializable { public boolean add(final T obj) { checkLocked(); final Integer position = map.put(obj, Integer.valueOf(counter++)); return position == null; } FixedOrderComparator(); FixedOrderComparator(final T... items); FixedOrderComparator(final List<T> items); boolea... |
@Test public void testAddAsEqual() { final FixedOrderComparator<String> comparator = new FixedOrderComparator<String>(topCities); comparator.addAsEqual("New York", "Minneapolis"); assertEquals(0, comparator.compare("New York", "Minneapolis")); assertEquals(-1, comparator.compare("Tokyo", "Minneapolis")); assertEquals(1... | public boolean addAsEqual(final T existingObj, final T newObj) { checkLocked(); final Integer position = map.get(existingObj); if (position == null) { throw new IllegalArgumentException(existingObj + " not known to " + this); } final Integer result = map.put(newObj, position); return result == null; } | FixedOrderComparator implements Comparator<T>, Serializable { public boolean addAsEqual(final T existingObj, final T newObj) { checkLocked(); final Integer position = map.get(existingObj); if (position == null) { throw new IllegalArgumentException(existingObj + " not known to " + this); } final Integer result = map.put... | FixedOrderComparator implements Comparator<T>, Serializable { public boolean addAsEqual(final T existingObj, final T newObj) { checkLocked(); final Integer position = map.get(existingObj); if (position == null) { throw new IllegalArgumentException(existingObj + " not known to " + this); } final Integer result = map.put... | FixedOrderComparator implements Comparator<T>, Serializable { public boolean addAsEqual(final T existingObj, final T newObj) { checkLocked(); final Integer position = map.get(existingObj); if (position == null) { throw new IllegalArgumentException(existingObj + " not known to " + this); } final Integer result = map.put... | FixedOrderComparator implements Comparator<T>, Serializable { public boolean addAsEqual(final T existingObj, final T newObj) { checkLocked(); final Integer position = map.get(existingObj); if (position == null) { throw new IllegalArgumentException(existingObj + " not known to " + this); } final Integer result = map.put... |
@Test public void testApply() throws Exception { A a = new A(); a.setE(E.Y); Method m = A.class.getDeclaredMethod("getE"); GetterInvoker invoker = FunctionalGetterInvoker.create("e", m); Integer r = (Integer) invoker.invoke(a); assertThat(r, is(1)); } | @Nullable @Override public Integer apply(@Nullable Enum input) { return input == null ? null : input.ordinal(); } | EnumToIntegerFunction implements GetterFunction<Enum, Integer> { @Nullable @Override public Integer apply(@Nullable Enum input) { return input == null ? null : input.ordinal(); } } | EnumToIntegerFunction implements GetterFunction<Enum, Integer> { @Nullable @Override public Integer apply(@Nullable Enum input) { return input == null ? null : input.ordinal(); } } | EnumToIntegerFunction implements GetterFunction<Enum, Integer> { @Nullable @Override public Integer apply(@Nullable Enum input) { return input == null ? null : input.ordinal(); } @Nullable @Override Integer apply(@Nullable Enum input); } | EnumToIntegerFunction implements GetterFunction<Enum, Integer> { @Nullable @Override public Integer apply(@Nullable Enum input) { return input == null ? null : input.ordinal(); } @Nullable @Override Integer apply(@Nullable Enum input); } |
@Test public void testOf() throws Exception { TypeToken<String> token = TypeToken.of(String.class); assertThat(token.getType().equals(String.class), is(true)); assertThat(token.getRawType().equals(String.class), is(true)); } | public static <T> TypeToken<T> of(Class<T> type) { return new SimpleTypeToken<T>(type); } | TypeToken extends TypeCapture<T> implements Serializable { public static <T> TypeToken<T> of(Class<T> type) { return new SimpleTypeToken<T>(type); } } | TypeToken extends TypeCapture<T> implements Serializable { public static <T> TypeToken<T> of(Class<T> type) { return new SimpleTypeToken<T>(type); } protected TypeToken(); private TypeToken(Type type); } | TypeToken extends TypeCapture<T> implements Serializable { public static <T> TypeToken<T> of(Class<T> type) { return new SimpleTypeToken<T>(type); } protected TypeToken(); private TypeToken(Type type); static TypeToken<T> of(Class<T> type); static TypeToken<?> of(Type type); final Class<? super T> getRawType(); final... | TypeToken extends TypeCapture<T> implements Serializable { public static <T> TypeToken<T> of(Class<T> type) { return new SimpleTypeToken<T>(type); } protected TypeToken(); private TypeToken(Type type); static TypeToken<T> of(Class<T> type); static TypeToken<?> of(Type type); final Class<? super T> getRawType(); final... |
@Test public void testReadableMap() { final IterableMap<String, Integer> map = SplitMapUtils.readableMap(transformedMap); for (int i = 0; i < 10; i++) { assertFalse(map.containsValue(String.valueOf(i))); assertEquals(i, map.get(String.valueOf(i)).intValue()); } final MapIterator<String, Integer> it = map.mapIterator();... | @SuppressWarnings("unchecked") public static <K, V> IterableMap<K, V> readableMap(final Get<K, V> get) { if (get == null) { throw new NullPointerException("Get must not be null"); } if (get instanceof Map) { return get instanceof IterableMap ? ((IterableMap<K, V>) get) : MapUtils.iterableMap((Map<K, V>) get); } return ... | SplitMapUtils { @SuppressWarnings("unchecked") public static <K, V> IterableMap<K, V> readableMap(final Get<K, V> get) { if (get == null) { throw new NullPointerException("Get must not be null"); } if (get instanceof Map) { return get instanceof IterableMap ? ((IterableMap<K, V>) get) : MapUtils.iterableMap((Map<K, V>)... | SplitMapUtils { @SuppressWarnings("unchecked") public static <K, V> IterableMap<K, V> readableMap(final Get<K, V> get) { if (get == null) { throw new NullPointerException("Get must not be null"); } if (get instanceof Map) { return get instanceof IterableMap ? ((IterableMap<K, V>) get) : MapUtils.iterableMap((Map<K, V>)... | SplitMapUtils { @SuppressWarnings("unchecked") public static <K, V> IterableMap<K, V> readableMap(final Get<K, V> get) { if (get == null) { throw new NullPointerException("Get must not be null"); } if (get instanceof Map) { return get instanceof IterableMap ? ((IterableMap<K, V>) get) : MapUtils.iterableMap((Map<K, V>)... | SplitMapUtils { @SuppressWarnings("unchecked") public static <K, V> IterableMap<K, V> readableMap(final Get<K, V> get) { if (get == null) { throw new NullPointerException("Get must not be null"); } if (get instanceof Map) { return get instanceof IterableMap ? ((IterableMap<K, V>) get) : MapUtils.iterableMap((Map<K, V>)... |
@Test public void testAlreadyReadableMap() { final HashedMap<String, Integer> hashedMap = new HashedMap<String, Integer>(); assertSame(hashedMap, SplitMapUtils.readableMap(hashedMap)); } | @SuppressWarnings("unchecked") public static <K, V> IterableMap<K, V> readableMap(final Get<K, V> get) { if (get == null) { throw new NullPointerException("Get must not be null"); } if (get instanceof Map) { return get instanceof IterableMap ? ((IterableMap<K, V>) get) : MapUtils.iterableMap((Map<K, V>) get); } return ... | SplitMapUtils { @SuppressWarnings("unchecked") public static <K, V> IterableMap<K, V> readableMap(final Get<K, V> get) { if (get == null) { throw new NullPointerException("Get must not be null"); } if (get instanceof Map) { return get instanceof IterableMap ? ((IterableMap<K, V>) get) : MapUtils.iterableMap((Map<K, V>)... | SplitMapUtils { @SuppressWarnings("unchecked") public static <K, V> IterableMap<K, V> readableMap(final Get<K, V> get) { if (get == null) { throw new NullPointerException("Get must not be null"); } if (get instanceof Map) { return get instanceof IterableMap ? ((IterableMap<K, V>) get) : MapUtils.iterableMap((Map<K, V>)... | SplitMapUtils { @SuppressWarnings("unchecked") public static <K, V> IterableMap<K, V> readableMap(final Get<K, V> get) { if (get == null) { throw new NullPointerException("Get must not be null"); } if (get instanceof Map) { return get instanceof IterableMap ? ((IterableMap<K, V>) get) : MapUtils.iterableMap((Map<K, V>)... | SplitMapUtils { @SuppressWarnings("unchecked") public static <K, V> IterableMap<K, V> readableMap(final Get<K, V> get) { if (get == null) { throw new NullPointerException("Get must not be null"); } if (get instanceof Map) { return get instanceof IterableMap ? ((IterableMap<K, V>) get) : MapUtils.iterableMap((Map<K, V>)... |
@Test @SuppressWarnings("unchecked") public void testWritableMap() { final Map<String, String> map = SplitMapUtils.writableMap(transformedMap); attemptGetOperation(new Runnable() { public void run() { map.get(null); } }); attemptGetOperation(new Runnable() { public void run() { map.entrySet(); } }); attemptGetOperation... | @SuppressWarnings("unchecked") public static <K, V> Map<K, V> writableMap(final Put<K, V> put) { if (put == null) { throw new NullPointerException("Put must not be null"); } if (put instanceof Map) { return (Map<K, V>) put; } return new WrappedPut<K, V>(put); } | SplitMapUtils { @SuppressWarnings("unchecked") public static <K, V> Map<K, V> writableMap(final Put<K, V> put) { if (put == null) { throw new NullPointerException("Put must not be null"); } if (put instanceof Map) { return (Map<K, V>) put; } return new WrappedPut<K, V>(put); } } | SplitMapUtils { @SuppressWarnings("unchecked") public static <K, V> Map<K, V> writableMap(final Put<K, V> put) { if (put == null) { throw new NullPointerException("Put must not be null"); } if (put instanceof Map) { return (Map<K, V>) put; } return new WrappedPut<K, V>(put); } private SplitMapUtils(); } | SplitMapUtils { @SuppressWarnings("unchecked") public static <K, V> Map<K, V> writableMap(final Put<K, V> put) { if (put == null) { throw new NullPointerException("Put must not be null"); } if (put instanceof Map) { return (Map<K, V>) put; } return new WrappedPut<K, V>(put); } private SplitMapUtils(); @SuppressWarning... | SplitMapUtils { @SuppressWarnings("unchecked") public static <K, V> Map<K, V> writableMap(final Put<K, V> put) { if (put == null) { throw new NullPointerException("Put must not be null"); } if (put instanceof Map) { return (Map<K, V>) put; } return new WrappedPut<K, V>(put); } private SplitMapUtils(); @SuppressWarning... |
@Test public void testAlreadyWritableMap() { final HashedMap<String, String> hashedMap = new HashedMap<String, String>(); assertSame(hashedMap, SplitMapUtils.writableMap(hashedMap)); } | @SuppressWarnings("unchecked") public static <K, V> Map<K, V> writableMap(final Put<K, V> put) { if (put == null) { throw new NullPointerException("Put must not be null"); } if (put instanceof Map) { return (Map<K, V>) put; } return new WrappedPut<K, V>(put); } | SplitMapUtils { @SuppressWarnings("unchecked") public static <K, V> Map<K, V> writableMap(final Put<K, V> put) { if (put == null) { throw new NullPointerException("Put must not be null"); } if (put instanceof Map) { return (Map<K, V>) put; } return new WrappedPut<K, V>(put); } } | SplitMapUtils { @SuppressWarnings("unchecked") public static <K, V> Map<K, V> writableMap(final Put<K, V> put) { if (put == null) { throw new NullPointerException("Put must not be null"); } if (put instanceof Map) { return (Map<K, V>) put; } return new WrappedPut<K, V>(put); } private SplitMapUtils(); } | SplitMapUtils { @SuppressWarnings("unchecked") public static <K, V> Map<K, V> writableMap(final Put<K, V> put) { if (put == null) { throw new NullPointerException("Put must not be null"); } if (put instanceof Map) { return (Map<K, V>) put; } return new WrappedPut<K, V>(put); } private SplitMapUtils(); @SuppressWarning... | SplitMapUtils { @SuppressWarnings("unchecked") public static <K, V> Map<K, V> writableMap(final Put<K, V> put) { if (put == null) { throw new NullPointerException("Put must not be null"); } if (put instanceof Map) { return (Map<K, V>) put; } return new WrappedPut<K, V>(put); } private SplitMapUtils(); @SuppressWarning... |
@Test public void testSynchronizedBag() { Bag<Object> bag = BagUtils.synchronizedBag(new HashBag<Object>()); assertTrue("Returned object should be a SynchronizedBag.", bag instanceof SynchronizedBag); try { BagUtils.synchronizedBag(null); fail("Expecting NullPointerException for null bag."); } catch (final NullPointerE... | public static <E> Bag<E> synchronizedBag(final Bag<E> bag) { return SynchronizedBag.synchronizedBag(bag); } | BagUtils { public static <E> Bag<E> synchronizedBag(final Bag<E> bag) { return SynchronizedBag.synchronizedBag(bag); } } | BagUtils { public static <E> Bag<E> synchronizedBag(final Bag<E> bag) { return SynchronizedBag.synchronizedBag(bag); } private BagUtils(); } | BagUtils { public static <E> Bag<E> synchronizedBag(final Bag<E> bag) { return SynchronizedBag.synchronizedBag(bag); } private BagUtils(); static Bag<E> synchronizedBag(final Bag<E> bag); static Bag<E> unmodifiableBag(final Bag<? extends E> bag); static Bag<E> predicatedBag(final Bag<E> bag, final Predicate<? super E>... | BagUtils { public static <E> Bag<E> synchronizedBag(final Bag<E> bag) { return SynchronizedBag.synchronizedBag(bag); } private BagUtils(); static Bag<E> synchronizedBag(final Bag<E> bag); static Bag<E> unmodifiableBag(final Bag<? extends E> bag); static Bag<E> predicatedBag(final Bag<E> bag, final Predicate<? super E>... |
@Test public void testUnmodifiableBag() { Bag<Object> bag = BagUtils.unmodifiableBag(new HashBag<Object>()); assertTrue("Returned object should be an UnmodifiableBag.", bag instanceof UnmodifiableBag); try { BagUtils.unmodifiableBag(null); fail("Expecting NullPointerException for null bag."); } catch (final NullPointer... | public static <E> Bag<E> unmodifiableBag(final Bag<? extends E> bag) { return UnmodifiableBag.unmodifiableBag(bag); } | BagUtils { public static <E> Bag<E> unmodifiableBag(final Bag<? extends E> bag) { return UnmodifiableBag.unmodifiableBag(bag); } } | BagUtils { public static <E> Bag<E> unmodifiableBag(final Bag<? extends E> bag) { return UnmodifiableBag.unmodifiableBag(bag); } private BagUtils(); } | BagUtils { public static <E> Bag<E> unmodifiableBag(final Bag<? extends E> bag) { return UnmodifiableBag.unmodifiableBag(bag); } private BagUtils(); static Bag<E> synchronizedBag(final Bag<E> bag); static Bag<E> unmodifiableBag(final Bag<? extends E> bag); static Bag<E> predicatedBag(final Bag<E> bag, final Predicate<... | BagUtils { public static <E> Bag<E> unmodifiableBag(final Bag<? extends E> bag) { return UnmodifiableBag.unmodifiableBag(bag); } private BagUtils(); static Bag<E> synchronizedBag(final Bag<E> bag); static Bag<E> unmodifiableBag(final Bag<? extends E> bag); static Bag<E> predicatedBag(final Bag<E> bag, final Predicate<... |
@Test public void testPredicatedBag() { Bag<Object> bag = BagUtils.predicatedBag(new HashBag<Object>(), truePredicate); assertTrue("Returned object should be a PredicatedBag.", bag instanceof PredicatedBag); try { BagUtils.predicatedBag(null,truePredicate); fail("Expecting NullPointerException for null bag."); } catch ... | public static <E> Bag<E> predicatedBag(final Bag<E> bag, final Predicate<? super E> predicate) { return PredicatedBag.predicatedBag(bag, predicate); } | BagUtils { public static <E> Bag<E> predicatedBag(final Bag<E> bag, final Predicate<? super E> predicate) { return PredicatedBag.predicatedBag(bag, predicate); } } | BagUtils { public static <E> Bag<E> predicatedBag(final Bag<E> bag, final Predicate<? super E> predicate) { return PredicatedBag.predicatedBag(bag, predicate); } private BagUtils(); } | BagUtils { public static <E> Bag<E> predicatedBag(final Bag<E> bag, final Predicate<? super E> predicate) { return PredicatedBag.predicatedBag(bag, predicate); } private BagUtils(); static Bag<E> synchronizedBag(final Bag<E> bag); static Bag<E> unmodifiableBag(final Bag<? extends E> bag); static Bag<E> predicatedBag(f... | BagUtils { public static <E> Bag<E> predicatedBag(final Bag<E> bag, final Predicate<? super E> predicate) { return PredicatedBag.predicatedBag(bag, predicate); } private BagUtils(); static Bag<E> synchronizedBag(final Bag<E> bag); static Bag<E> unmodifiableBag(final Bag<? extends E> bag); static Bag<E> predicatedBag(f... |
@Test public void testTransformedBag() { Bag<Object> bag = BagUtils.transformingBag(new HashBag<Object>(), nopTransformer); assertTrue("Returned object should be an TransformedBag.", bag instanceof TransformedBag); try { BagUtils.transformingBag(null, nopTransformer); fail("Expecting NullPointerException for null bag."... | public static <E> Bag<E> transformingBag(final Bag<E> bag, final Transformer<? super E, ? extends E> transformer) { return TransformedBag.transformingBag(bag, transformer); } | BagUtils { public static <E> Bag<E> transformingBag(final Bag<E> bag, final Transformer<? super E, ? extends E> transformer) { return TransformedBag.transformingBag(bag, transformer); } } | BagUtils { public static <E> Bag<E> transformingBag(final Bag<E> bag, final Transformer<? super E, ? extends E> transformer) { return TransformedBag.transformingBag(bag, transformer); } private BagUtils(); } | BagUtils { public static <E> Bag<E> transformingBag(final Bag<E> bag, final Transformer<? super E, ? extends E> transformer) { return TransformedBag.transformingBag(bag, transformer); } private BagUtils(); static Bag<E> synchronizedBag(final Bag<E> bag); static Bag<E> unmodifiableBag(final Bag<? extends E> bag); stati... | BagUtils { public static <E> Bag<E> transformingBag(final Bag<E> bag, final Transformer<? super E, ? extends E> transformer) { return TransformedBag.transformingBag(bag, transformer); } private BagUtils(); static Bag<E> synchronizedBag(final Bag<E> bag); static Bag<E> unmodifiableBag(final Bag<? extends E> bag); stati... |
@Test public void testSynchronizedSortedBag() { Bag<Object> bag = BagUtils.synchronizedSortedBag(new TreeBag<Object>()); assertTrue("Returned object should be a SynchronizedSortedBag.", bag instanceof SynchronizedSortedBag); try { BagUtils.synchronizedSortedBag(null); fail("Expecting NullPointerException for null bag."... | public static <E> SortedBag<E> synchronizedSortedBag(final SortedBag<E> bag) { return SynchronizedSortedBag.synchronizedSortedBag(bag); } | BagUtils { public static <E> SortedBag<E> synchronizedSortedBag(final SortedBag<E> bag) { return SynchronizedSortedBag.synchronizedSortedBag(bag); } } | BagUtils { public static <E> SortedBag<E> synchronizedSortedBag(final SortedBag<E> bag) { return SynchronizedSortedBag.synchronizedSortedBag(bag); } private BagUtils(); } | BagUtils { public static <E> SortedBag<E> synchronizedSortedBag(final SortedBag<E> bag) { return SynchronizedSortedBag.synchronizedSortedBag(bag); } private BagUtils(); static Bag<E> synchronizedBag(final Bag<E> bag); static Bag<E> unmodifiableBag(final Bag<? extends E> bag); static Bag<E> predicatedBag(final Bag<E> b... | BagUtils { public static <E> SortedBag<E> synchronizedSortedBag(final SortedBag<E> bag) { return SynchronizedSortedBag.synchronizedSortedBag(bag); } private BagUtils(); static Bag<E> synchronizedBag(final Bag<E> bag); static Bag<E> unmodifiableBag(final Bag<? extends E> bag); static Bag<E> predicatedBag(final Bag<E> b... |
@Test public void testUnmodifiableSortedBag() { SortedBag<Object> bag = BagUtils.unmodifiableSortedBag(new TreeBag<Object>()); assertTrue("Returned object should be an UnmodifiableSortedBag.", bag instanceof UnmodifiableSortedBag); try { BagUtils.unmodifiableSortedBag(null); fail("Expecting NullPointerException for nul... | public static <E> SortedBag<E> unmodifiableSortedBag(final SortedBag<E> bag) { return UnmodifiableSortedBag.unmodifiableSortedBag(bag); } | BagUtils { public static <E> SortedBag<E> unmodifiableSortedBag(final SortedBag<E> bag) { return UnmodifiableSortedBag.unmodifiableSortedBag(bag); } } | BagUtils { public static <E> SortedBag<E> unmodifiableSortedBag(final SortedBag<E> bag) { return UnmodifiableSortedBag.unmodifiableSortedBag(bag); } private BagUtils(); } | BagUtils { public static <E> SortedBag<E> unmodifiableSortedBag(final SortedBag<E> bag) { return UnmodifiableSortedBag.unmodifiableSortedBag(bag); } private BagUtils(); static Bag<E> synchronizedBag(final Bag<E> bag); static Bag<E> unmodifiableBag(final Bag<? extends E> bag); static Bag<E> predicatedBag(final Bag<E> b... | BagUtils { public static <E> SortedBag<E> unmodifiableSortedBag(final SortedBag<E> bag) { return UnmodifiableSortedBag.unmodifiableSortedBag(bag); } private BagUtils(); static Bag<E> synchronizedBag(final Bag<E> bag); static Bag<E> unmodifiableBag(final Bag<? extends E> bag); static Bag<E> predicatedBag(final Bag<E> b... |
@Test public void testResolveType() throws Exception { TypeToken<?> daoTypeToken = TypeToken.of(SubDao.class); Method m = SubDao.class.getMethod("add", Object.class); Type type = Methods.fixAndResolveType(m.getGenericReturnType(), daoTypeToken); assertThat(type, equalTo((Type) void.class)); type = Methods.fixAndResolve... | static Type resolveType(Type type, TypeToken<?> daoTypeToken) { return genericTypeToken.isAssignableFrom(daoTypeToken) ? daoTypeToken.resolveType(type).getType() : type; } | Methods { static Type resolveType(Type type, TypeToken<?> daoTypeToken) { return genericTypeToken.isAssignableFrom(daoTypeToken) ? daoTypeToken.resolveType(type).getType() : type; } } | Methods { static Type resolveType(Type type, TypeToken<?> daoTypeToken) { return genericTypeToken.isAssignableFrom(daoTypeToken) ? daoTypeToken.resolveType(type).getType() : type; } } | Methods { static Type resolveType(Type type, TypeToken<?> daoTypeToken) { return genericTypeToken.isAssignableFrom(daoTypeToken) ? daoTypeToken.resolveType(type).getType() : type; } static MethodDescriptor getMethodDescriptor(Class<?> daoClass, Method method, boolean isUseActualParamName); static List<Method> listMeth... | Methods { static Type resolveType(Type type, TypeToken<?> daoTypeToken) { return genericTypeToken.isAssignableFrom(daoTypeToken) ? daoTypeToken.resolveType(type).getType() : type; } static MethodDescriptor getMethodDescriptor(Class<?> daoClass, Method method, boolean isUseActualParamName); static List<Method> listMeth... |
@Test public void testPredicatedSortedBag() { Bag<Object> bag = BagUtils.predicatedSortedBag(new TreeBag<Object>(), truePredicate); assertTrue("Returned object should be a PredicatedSortedBag.", bag instanceof PredicatedSortedBag); try { BagUtils.predicatedSortedBag(null, truePredicate); fail("Expecting NullPointerExce... | public static <E> SortedBag<E> predicatedSortedBag(final SortedBag<E> bag, final Predicate<? super E> predicate) { return PredicatedSortedBag.predicatedSortedBag(bag, predicate); } | BagUtils { public static <E> SortedBag<E> predicatedSortedBag(final SortedBag<E> bag, final Predicate<? super E> predicate) { return PredicatedSortedBag.predicatedSortedBag(bag, predicate); } } | BagUtils { public static <E> SortedBag<E> predicatedSortedBag(final SortedBag<E> bag, final Predicate<? super E> predicate) { return PredicatedSortedBag.predicatedSortedBag(bag, predicate); } private BagUtils(); } | BagUtils { public static <E> SortedBag<E> predicatedSortedBag(final SortedBag<E> bag, final Predicate<? super E> predicate) { return PredicatedSortedBag.predicatedSortedBag(bag, predicate); } private BagUtils(); static Bag<E> synchronizedBag(final Bag<E> bag); static Bag<E> unmodifiableBag(final Bag<? extends E> bag);... | BagUtils { public static <E> SortedBag<E> predicatedSortedBag(final SortedBag<E> bag, final Predicate<? super E> predicate) { return PredicatedSortedBag.predicatedSortedBag(bag, predicate); } private BagUtils(); static Bag<E> synchronizedBag(final Bag<E> bag); static Bag<E> unmodifiableBag(final Bag<? extends E> bag);... |
@Test public void testTransformedSortedBag() { Bag<Object> bag = BagUtils.transformingSortedBag(new TreeBag<Object>(), nopTransformer); assertTrue("Returned object should be an TransformedSortedBag", bag instanceof TransformedSortedBag); try { BagUtils.transformingSortedBag(null, nopTransformer); fail("Expecting NullPo... | public static <E> SortedBag<E> transformingSortedBag(final SortedBag<E> bag, final Transformer<? super E, ? extends E> transformer) { return TransformedSortedBag.transformingSortedBag(bag, transformer); } | BagUtils { public static <E> SortedBag<E> transformingSortedBag(final SortedBag<E> bag, final Transformer<? super E, ? extends E> transformer) { return TransformedSortedBag.transformingSortedBag(bag, transformer); } } | BagUtils { public static <E> SortedBag<E> transformingSortedBag(final SortedBag<E> bag, final Transformer<? super E, ? extends E> transformer) { return TransformedSortedBag.transformingSortedBag(bag, transformer); } private BagUtils(); } | BagUtils { public static <E> SortedBag<E> transformingSortedBag(final SortedBag<E> bag, final Transformer<? super E, ? extends E> transformer) { return TransformedSortedBag.transformingSortedBag(bag, transformer); } private BagUtils(); static Bag<E> synchronizedBag(final Bag<E> bag); static Bag<E> unmodifiableBag(fina... | BagUtils { public static <E> SortedBag<E> transformingSortedBag(final SortedBag<E> bag, final Transformer<? super E, ? extends E> transformer) { return TransformedSortedBag.transformingSortedBag(bag, transformer); } private BagUtils(); static Bag<E> synchronizedBag(final Bag<E> bag); static Bag<E> unmodifiableBag(fina... |
@Test public void forEach() { final List<Integer> listA = new ArrayList<Integer>(); listA.add(1); final List<Integer> listB = new ArrayList<Integer>(); listB.add(2); final Closure<List<Integer>> testClosure = ClosureUtils.invokerClosure("clear"); final Collection<List<Integer>> col = new ArrayList<List<Integer>>(); col... | public static <E> void forEach(final Iterable<E> iterable, final Closure<? super E> closure) { IteratorUtils.forEach(emptyIteratorIfNull(iterable), closure); } | IterableUtils { public static <E> void forEach(final Iterable<E> iterable, final Closure<? super E> closure) { IteratorUtils.forEach(emptyIteratorIfNull(iterable), closure); } } | IterableUtils { public static <E> void forEach(final Iterable<E> iterable, final Closure<? super E> closure) { IteratorUtils.forEach(emptyIteratorIfNull(iterable), closure); } } | IterableUtils { public static <E> void forEach(final Iterable<E> iterable, final Closure<? super E> closure) { IteratorUtils.forEach(emptyIteratorIfNull(iterable), closure); } @SuppressWarnings("unchecked") // OK, empty collection is compatible with any type static Iterable<E> emptyIterable(); @SuppressWarnings("unche... | IterableUtils { public static <E> void forEach(final Iterable<E> iterable, final Closure<? super E> closure) { IteratorUtils.forEach(emptyIteratorIfNull(iterable), closure); } @SuppressWarnings("unchecked") // OK, empty collection is compatible with any type static Iterable<E> emptyIterable(); @SuppressWarnings("unche... |
@Test(expected = FunctorException.class) public void forEachFailure() { final Closure<String> testClosure = ClosureUtils.invokerClosure("clear"); final Collection<String> col = new ArrayList<String>(); col.add("x"); IterableUtils.forEach(col, testClosure); } | public static <E> void forEach(final Iterable<E> iterable, final Closure<? super E> closure) { IteratorUtils.forEach(emptyIteratorIfNull(iterable), closure); } | IterableUtils { public static <E> void forEach(final Iterable<E> iterable, final Closure<? super E> closure) { IteratorUtils.forEach(emptyIteratorIfNull(iterable), closure); } } | IterableUtils { public static <E> void forEach(final Iterable<E> iterable, final Closure<? super E> closure) { IteratorUtils.forEach(emptyIteratorIfNull(iterable), closure); } } | IterableUtils { public static <E> void forEach(final Iterable<E> iterable, final Closure<? super E> closure) { IteratorUtils.forEach(emptyIteratorIfNull(iterable), closure); } @SuppressWarnings("unchecked") // OK, empty collection is compatible with any type static Iterable<E> emptyIterable(); @SuppressWarnings("unche... | IterableUtils { public static <E> void forEach(final Iterable<E> iterable, final Closure<? super E> closure) { IteratorUtils.forEach(emptyIteratorIfNull(iterable), closure); } @SuppressWarnings("unchecked") // OK, empty collection is compatible with any type static Iterable<E> emptyIterable(); @SuppressWarnings("unche... |
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