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 |
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@Test public void testToStringTwoAliases() { Collection<Alias> aliases = new ArrayList<>(); aliases.add(fooAsBar); aliases.add(new Alias(new RelationName(null, "abc"), new RelationName(null, "xyz"))); Assert.assertEquals("AliasMap(foo AS bar, abc AS xyz)", new AliasMap(aliases).toString()); } | @Override public String toString() { StringBuilder result = new StringBuilder(); result.append("AliasMap("); List<RelationName> tables = new ArrayList<>(this.byAlias.keySet()); Collections.sort(tables); Iterator<RelationName> it = tables.iterator(); while (it.hasNext()) { result.append(this.byAlias.get(it.next())); if ... | AliasMap extends ColumnRenamer { @Override public String toString() { StringBuilder result = new StringBuilder(); result.append("AliasMap("); List<RelationName> tables = new ArrayList<>(this.byAlias.keySet()); Collections.sort(tables); Iterator<RelationName> it = tables.iterator(); while (it.hasNext()) { result.append(... | AliasMap extends ColumnRenamer { @Override public String toString() { StringBuilder result = new StringBuilder(); result.append("AliasMap("); List<RelationName> tables = new ArrayList<>(this.byAlias.keySet()); Collections.sort(tables); Iterator<RelationName> it = tables.iterator(); while (it.hasNext()) { result.append(... | AliasMap extends ColumnRenamer { @Override public String toString() { StringBuilder result = new StringBuilder(); result.append("AliasMap("); List<RelationName> tables = new ArrayList<>(this.byAlias.keySet()); Collections.sort(tables); Iterator<RelationName> it = tables.iterator(); while (it.hasNext()) { result.append(... | AliasMap extends ColumnRenamer { @Override public String toString() { StringBuilder result = new StringBuilder(); result.append("AliasMap("); List<RelationName> tables = new ArrayList<>(this.byAlias.keySet()); Collections.sort(tables); Iterator<RelationName> it = tables.iterator(); while (it.hasNext()) { result.append(... |
@Test public void testWithSchema() { RelationName table = new RelationName(null, "table"); RelationName schema_table = new RelationName("schema", "table"); RelationName schema_alias = new RelationName("schema", "alias"); AliasMap m = new AliasMap(Collections.singleton(new Alias(schema_table, schema_alias))); Assert.ass... | public RelationName applyTo(RelationName original) { if (!hasAlias(original)) { return original; } Alias alias = this.byOriginal.get(original); return alias.alias(); } | AliasMap extends ColumnRenamer { public RelationName applyTo(RelationName original) { if (!hasAlias(original)) { return original; } Alias alias = this.byOriginal.get(original); return alias.alias(); } } | AliasMap extends ColumnRenamer { public RelationName applyTo(RelationName original) { if (!hasAlias(original)) { return original; } Alias alias = this.byOriginal.get(original); return alias.alias(); } AliasMap(Collection<Alias> aliases); } | AliasMap extends ColumnRenamer { public RelationName applyTo(RelationName original) { if (!hasAlias(original)) { return original; } Alias alias = this.byOriginal.get(original); return alias.alias(); } AliasMap(Collection<Alias> aliases); static AliasMap create1(RelationName original, RelationName alias); boolean isAlia... | AliasMap extends ColumnRenamer { public RelationName applyTo(RelationName original) { if (!hasAlias(original)) { return original; } Alias alias = this.byOriginal.get(original); return alias.alias(); } AliasMap(Collection<Alias> aliases); static AliasMap create1(RelationName original, RelationName alias); boolean isAlia... |
@Test public void testToString() { Join join = new Join(table1foo, table2foo, Join.DIRECTION_UNDIRECTED); Assert.assertEquals("Join(table1.foo <=> table2.foo)", join.toString()); } | @Override public String toString() { StringBuilder result = new StringBuilder("Join("); Iterator<Attribute> it = this.attributes1.iterator(); while (it.hasNext()) { Attribute attribute = it.next(); result.append(attribute.qualifiedName()); if (it.hasNext()) { result.append(", "); } } result.append(joinDirection == DIRE... | Join { @Override public String toString() { StringBuilder result = new StringBuilder("Join("); Iterator<Attribute> it = this.attributes1.iterator(); while (it.hasNext()) { Attribute attribute = it.next(); result.append(attribute.qualifiedName()); if (it.hasNext()) { result.append(", "); } } result.append(joinDirection ... | Join { @Override public String toString() { StringBuilder result = new StringBuilder("Join("); Iterator<Attribute> it = this.attributes1.iterator(); while (it.hasNext()) { Attribute attribute = it.next(); result.append(attribute.qualifiedName()); if (it.hasNext()) { result.append(", "); } } result.append(joinDirection ... | Join { @Override public String toString() { StringBuilder result = new StringBuilder("Join("); Iterator<Attribute> it = this.attributes1.iterator(); while (it.hasNext()) { Attribute attribute = it.next(); result.append(attribute.qualifiedName()); if (it.hasNext()) { result.append(", "); } } result.append(joinDirection ... | Join { @Override public String toString() { StringBuilder result = new StringBuilder("Join("); Iterator<Attribute> it = this.attributes1.iterator(); while (it.hasNext()) { Attribute attribute = it.next(); result.append(attribute.qualifiedName()); if (it.hasNext()) { result.append(", "); } } result.append(joinDirection ... |
@Test public void testToStringRetainsTableOrder() { Join join = new Join(table2foo, table1foo, Join.DIRECTION_RIGHT); Assert.assertEquals("Join(table2.foo => table1.foo)", join.toString()); } | @Override public String toString() { StringBuilder result = new StringBuilder("Join("); Iterator<Attribute> it = this.attributes1.iterator(); while (it.hasNext()) { Attribute attribute = it.next(); result.append(attribute.qualifiedName()); if (it.hasNext()) { result.append(", "); } } result.append(joinDirection == DIRE... | Join { @Override public String toString() { StringBuilder result = new StringBuilder("Join("); Iterator<Attribute> it = this.attributes1.iterator(); while (it.hasNext()) { Attribute attribute = it.next(); result.append(attribute.qualifiedName()); if (it.hasNext()) { result.append(", "); } } result.append(joinDirection ... | Join { @Override public String toString() { StringBuilder result = new StringBuilder("Join("); Iterator<Attribute> it = this.attributes1.iterator(); while (it.hasNext()) { Attribute attribute = it.next(); result.append(attribute.qualifiedName()); if (it.hasNext()) { result.append(", "); } } result.append(joinDirection ... | Join { @Override public String toString() { StringBuilder result = new StringBuilder("Join("); Iterator<Attribute> it = this.attributes1.iterator(); while (it.hasNext()) { Attribute attribute = it.next(); result.append(attribute.qualifiedName()); if (it.hasNext()) { result.append(", "); } } result.append(joinDirection ... | Join { @Override public String toString() { StringBuilder result = new StringBuilder("Join("); Iterator<Attribute> it = this.attributes1.iterator(); while (it.hasNext()) { Attribute attribute = it.next(); result.append(attribute.qualifiedName()); if (it.hasNext()) { result.append(", "); } } result.append(joinDirection ... |
@Test public void testToStringRetainsAttributeOrder() { Join join = new Join( Arrays.asList(table1foo, table1bar), Arrays.asList(table2bar, table2foo), Join.DIRECTION_RIGHT); Assert.assertEquals("Join(table1.foo, table1.bar => table2.bar, table2.foo)", join.toString()); } | @Override public String toString() { StringBuilder result = new StringBuilder("Join("); Iterator<Attribute> it = this.attributes1.iterator(); while (it.hasNext()) { Attribute attribute = it.next(); result.append(attribute.qualifiedName()); if (it.hasNext()) { result.append(", "); } } result.append(joinDirection == DIRE... | Join { @Override public String toString() { StringBuilder result = new StringBuilder("Join("); Iterator<Attribute> it = this.attributes1.iterator(); while (it.hasNext()) { Attribute attribute = it.next(); result.append(attribute.qualifiedName()); if (it.hasNext()) { result.append(", "); } } result.append(joinDirection ... | Join { @Override public String toString() { StringBuilder result = new StringBuilder("Join("); Iterator<Attribute> it = this.attributes1.iterator(); while (it.hasNext()) { Attribute attribute = it.next(); result.append(attribute.qualifiedName()); if (it.hasNext()) { result.append(", "); } } result.append(joinDirection ... | Join { @Override public String toString() { StringBuilder result = new StringBuilder("Join("); Iterator<Attribute> it = this.attributes1.iterator(); while (it.hasNext()) { Attribute attribute = it.next(); result.append(attribute.qualifiedName()); if (it.hasNext()) { result.append(", "); } } result.append(joinDirection ... | Join { @Override public String toString() { StringBuilder result = new StringBuilder("Join("); Iterator<Attribute> it = this.attributes1.iterator(); while (it.hasNext()) { Attribute attribute = it.next(); result.append(attribute.qualifiedName()); if (it.hasNext()) { result.append(", "); } } result.append(joinDirection ... |
@Test public void testRenameColumns() { ColumnRenamer renamer = new ColumnRenamerMap(Collections.singletonMap(table1foo, table1bar)); Join join = new Join(table1foo, table2foo, Join.DIRECTION_RIGHT); Assert.assertEquals("Join(table1.bar => table2.foo)", join.renameColumns(renamer).toString()); } | public Join renameColumns(ColumnRenamer columnRenamer) { List<Attribute> oneSide = new ArrayList<>(); List<Attribute> otherSide = new ArrayList<>(); for (Attribute column : attributes1) { oneSide.add(columnRenamer.applyTo(column)); otherSide.add(columnRenamer.applyTo(equalAttribute(column))); } return new Join(oneSide,... | Join { public Join renameColumns(ColumnRenamer columnRenamer) { List<Attribute> oneSide = new ArrayList<>(); List<Attribute> otherSide = new ArrayList<>(); for (Attribute column : attributes1) { oneSide.add(columnRenamer.applyTo(column)); otherSide.add(columnRenamer.applyTo(equalAttribute(column))); } return new Join(o... | Join { public Join renameColumns(ColumnRenamer columnRenamer) { List<Attribute> oneSide = new ArrayList<>(); List<Attribute> otherSide = new ArrayList<>(); for (Attribute column : attributes1) { oneSide.add(columnRenamer.applyTo(column)); otherSide.add(columnRenamer.applyTo(equalAttribute(column))); } return new Join(o... | Join { public Join renameColumns(ColumnRenamer columnRenamer) { List<Attribute> oneSide = new ArrayList<>(); List<Attribute> otherSide = new ArrayList<>(); for (Attribute column : attributes1) { oneSide.add(columnRenamer.applyTo(column)); otherSide.add(columnRenamer.applyTo(equalAttribute(column))); } return new Join(o... | Join { public Join renameColumns(ColumnRenamer columnRenamer) { List<Attribute> oneSide = new ArrayList<>(); List<Attribute> otherSide = new ArrayList<>(); for (Attribute column : attributes1) { oneSide.add(columnRenamer.applyTo(column)); otherSide.add(columnRenamer.applyTo(equalAttribute(column))); } return new Join(o... |
@Test public void testTableOrderIsRetained() { Assert.assertEquals(table1, new Join(table1foo, table2foo, Join.DIRECTION_RIGHT).table1()); Assert.assertEquals(table2, new Join(table2foo, table1foo, Join.DIRECTION_RIGHT).table1()); } | public RelationName table1() { return this.table1; } | Join { public RelationName table1() { return this.table1; } } | Join { public RelationName table1() { return this.table1; } Join(Attribute oneSide, Attribute otherSide, int joinDirection); Join(List<Attribute> oneSideAttributes, List<Attribute> otherSideAttributes, int joinDirection); } | Join { public RelationName table1() { return this.table1; } Join(Attribute oneSide, Attribute otherSide, int joinDirection); Join(List<Attribute> oneSideAttributes, List<Attribute> otherSideAttributes, int joinDirection); boolean isSameTable(); boolean containsColumn(Attribute column); RelationName table1(); RelationN... | Join { public RelationName table1() { return this.table1; } Join(Attribute oneSide, Attribute otherSide, int joinDirection); Join(List<Attribute> oneSideAttributes, List<Attribute> otherSideAttributes, int joinDirection); boolean isSameTable(); boolean containsColumn(Attribute column); RelationName table1(); RelationN... |
@Test public void testJoinOverSameAttributesIsEqual() { Join j1 = new Join(table1foo, table2foo, Join.DIRECTION_RIGHT); Join j2 = new Join(table1foo, table2foo, Join.DIRECTION_RIGHT); Assert.assertEquals(j1, j2); Assert.assertEquals(j2, j1); Assert.assertEquals(j1.hashCode(), j2.hashCode()); } | @Override public int hashCode() { switch (this.joinDirection) { case DIRECTION_RIGHT: return 31 * (this.attributes1.hashCode() ^ this.attributes2.hashCode()); case DIRECTION_LEFT: return 31 * (this.attributes2.hashCode() ^ this.attributes1.hashCode()); case DIRECTION_UNDIRECTED: default: return 31 * (this.attributes1.h... | Join { @Override public int hashCode() { switch (this.joinDirection) { case DIRECTION_RIGHT: return 31 * (this.attributes1.hashCode() ^ this.attributes2.hashCode()); case DIRECTION_LEFT: return 31 * (this.attributes2.hashCode() ^ this.attributes1.hashCode()); case DIRECTION_UNDIRECTED: default: return 31 * (this.attrib... | Join { @Override public int hashCode() { switch (this.joinDirection) { case DIRECTION_RIGHT: return 31 * (this.attributes1.hashCode() ^ this.attributes2.hashCode()); case DIRECTION_LEFT: return 31 * (this.attributes2.hashCode() ^ this.attributes1.hashCode()); case DIRECTION_UNDIRECTED: default: return 31 * (this.attrib... | Join { @Override public int hashCode() { switch (this.joinDirection) { case DIRECTION_RIGHT: return 31 * (this.attributes1.hashCode() ^ this.attributes2.hashCode()); case DIRECTION_LEFT: return 31 * (this.attributes2.hashCode() ^ this.attributes1.hashCode()); case DIRECTION_UNDIRECTED: default: return 31 * (this.attrib... | Join { @Override public int hashCode() { switch (this.joinDirection) { case DIRECTION_RIGHT: return 31 * (this.attributes1.hashCode() ^ this.attributes2.hashCode()); case DIRECTION_LEFT: return 31 * (this.attributes2.hashCode() ^ this.attributes1.hashCode()); case DIRECTION_UNDIRECTED: default: return 31 * (this.attrib... |
@Test public void testSideOrderDoesNotAffectEquality1() { Join j1 = new Join(table1foo, table2foo, Join.DIRECTION_RIGHT); Join j2 = new Join(table2foo, table1foo, Join.DIRECTION_LEFT); Assert.assertEquals(j1, j2); Assert.assertEquals(j2, j1); Assert.assertEquals(j1.hashCode(), j2.hashCode()); } | @Override public int hashCode() { switch (this.joinDirection) { case DIRECTION_RIGHT: return 31 * (this.attributes1.hashCode() ^ this.attributes2.hashCode()); case DIRECTION_LEFT: return 31 * (this.attributes2.hashCode() ^ this.attributes1.hashCode()); case DIRECTION_UNDIRECTED: default: return 31 * (this.attributes1.h... | Join { @Override public int hashCode() { switch (this.joinDirection) { case DIRECTION_RIGHT: return 31 * (this.attributes1.hashCode() ^ this.attributes2.hashCode()); case DIRECTION_LEFT: return 31 * (this.attributes2.hashCode() ^ this.attributes1.hashCode()); case DIRECTION_UNDIRECTED: default: return 31 * (this.attrib... | Join { @Override public int hashCode() { switch (this.joinDirection) { case DIRECTION_RIGHT: return 31 * (this.attributes1.hashCode() ^ this.attributes2.hashCode()); case DIRECTION_LEFT: return 31 * (this.attributes2.hashCode() ^ this.attributes1.hashCode()); case DIRECTION_UNDIRECTED: default: return 31 * (this.attrib... | Join { @Override public int hashCode() { switch (this.joinDirection) { case DIRECTION_RIGHT: return 31 * (this.attributes1.hashCode() ^ this.attributes2.hashCode()); case DIRECTION_LEFT: return 31 * (this.attributes2.hashCode() ^ this.attributes1.hashCode()); case DIRECTION_UNDIRECTED: default: return 31 * (this.attrib... | Join { @Override public int hashCode() { switch (this.joinDirection) { case DIRECTION_RIGHT: return 31 * (this.attributes1.hashCode() ^ this.attributes2.hashCode()); case DIRECTION_LEFT: return 31 * (this.attributes2.hashCode() ^ this.attributes1.hashCode()); case DIRECTION_UNDIRECTED: default: return 31 * (this.attrib... |
@Test public void testSideOrderDoesNotAffectEquality2() { Join j1 = new Join(table1foo, table2foo, Join.DIRECTION_UNDIRECTED); Join j2 = new Join(table2foo, table1foo, Join.DIRECTION_UNDIRECTED); Assert.assertEquals(j1, j2); Assert.assertEquals(j2, j1); Assert.assertEquals(j1.hashCode(), j2.hashCode()); } | @Override public int hashCode() { switch (this.joinDirection) { case DIRECTION_RIGHT: return 31 * (this.attributes1.hashCode() ^ this.attributes2.hashCode()); case DIRECTION_LEFT: return 31 * (this.attributes2.hashCode() ^ this.attributes1.hashCode()); case DIRECTION_UNDIRECTED: default: return 31 * (this.attributes1.h... | Join { @Override public int hashCode() { switch (this.joinDirection) { case DIRECTION_RIGHT: return 31 * (this.attributes1.hashCode() ^ this.attributes2.hashCode()); case DIRECTION_LEFT: return 31 * (this.attributes2.hashCode() ^ this.attributes1.hashCode()); case DIRECTION_UNDIRECTED: default: return 31 * (this.attrib... | Join { @Override public int hashCode() { switch (this.joinDirection) { case DIRECTION_RIGHT: return 31 * (this.attributes1.hashCode() ^ this.attributes2.hashCode()); case DIRECTION_LEFT: return 31 * (this.attributes2.hashCode() ^ this.attributes1.hashCode()); case DIRECTION_UNDIRECTED: default: return 31 * (this.attrib... | Join { @Override public int hashCode() { switch (this.joinDirection) { case DIRECTION_RIGHT: return 31 * (this.attributes1.hashCode() ^ this.attributes2.hashCode()); case DIRECTION_LEFT: return 31 * (this.attributes2.hashCode() ^ this.attributes1.hashCode()); case DIRECTION_UNDIRECTED: default: return 31 * (this.attrib... | Join { @Override public int hashCode() { switch (this.joinDirection) { case DIRECTION_RIGHT: return 31 * (this.attributes1.hashCode() ^ this.attributes2.hashCode()); case DIRECTION_LEFT: return 31 * (this.attributes2.hashCode() ^ this.attributes1.hashCode()); case DIRECTION_UNDIRECTED: default: return 31 * (this.attrib... |
@Test public void testSomeRDFDatatypeToString() { RDFDatatype someDatatype = TypeMapper.getInstance().getSafeTypeByName("http: Assert.assertEquals("<http: } | public static String toString(Node n) { return toString(n, null); } | PrettyPrinter { public static String toString(Node n) { return toString(n, null); } } | PrettyPrinter { public static String toString(Node n) { return toString(n, null); } } | PrettyPrinter { public static String toString(Node n) { return toString(n, null); } static String toString(Node n); static String toString(Node n, PrefixMapping prefixes); static String toString(Statement s); static String toString(Triple t); static String toString(Triple t, PrefixMapping prefixes); static String toSt... | PrettyPrinter { public static String toString(Node n) { return toString(n, null); } static String toString(Node n); static String toString(Node n, PrefixMapping prefixes); static String toString(Statement s); static String toString(Triple t); static String toString(Triple t, PrefixMapping prefixes); static String toSt... |
@Test public void testDifferentAttributesNotEqual() { Join j1 = new Join(table1foo, table2foo, Join.DIRECTION_RIGHT); Join j2 = new Join(table1foo, table2bar, Join.DIRECTION_RIGHT); Assert.assertNotEquals(j1, j2); Assert.assertNotEquals(j2, j1); Assert.assertNotEquals(j1.hashCode(), j2.hashCode()); } | @Override public int hashCode() { switch (this.joinDirection) { case DIRECTION_RIGHT: return 31 * (this.attributes1.hashCode() ^ this.attributes2.hashCode()); case DIRECTION_LEFT: return 31 * (this.attributes2.hashCode() ^ this.attributes1.hashCode()); case DIRECTION_UNDIRECTED: default: return 31 * (this.attributes1.h... | Join { @Override public int hashCode() { switch (this.joinDirection) { case DIRECTION_RIGHT: return 31 * (this.attributes1.hashCode() ^ this.attributes2.hashCode()); case DIRECTION_LEFT: return 31 * (this.attributes2.hashCode() ^ this.attributes1.hashCode()); case DIRECTION_UNDIRECTED: default: return 31 * (this.attrib... | Join { @Override public int hashCode() { switch (this.joinDirection) { case DIRECTION_RIGHT: return 31 * (this.attributes1.hashCode() ^ this.attributes2.hashCode()); case DIRECTION_LEFT: return 31 * (this.attributes2.hashCode() ^ this.attributes1.hashCode()); case DIRECTION_UNDIRECTED: default: return 31 * (this.attrib... | Join { @Override public int hashCode() { switch (this.joinDirection) { case DIRECTION_RIGHT: return 31 * (this.attributes1.hashCode() ^ this.attributes2.hashCode()); case DIRECTION_LEFT: return 31 * (this.attributes2.hashCode() ^ this.attributes1.hashCode()); case DIRECTION_UNDIRECTED: default: return 31 * (this.attrib... | Join { @Override public int hashCode() { switch (this.joinDirection) { case DIRECTION_RIGHT: return 31 * (this.attributes1.hashCode() ^ this.attributes2.hashCode()); case DIRECTION_LEFT: return 31 * (this.attributes2.hashCode() ^ this.attributes1.hashCode()); case DIRECTION_UNDIRECTED: default: return 31 * (this.attrib... |
@Test public void testDifferentDirectionsNotEqual() { Join j1 = new Join(table1foo, table2foo, Join.DIRECTION_RIGHT); Join j2 = new Join(table1foo, table2foo, Join.DIRECTION_UNDIRECTED); Assert.assertNotEquals(j1, j2); Assert.assertNotEquals(j2, j1); Assert.assertNotEquals(j1.hashCode(), j2.hashCode()); } | @Override public int hashCode() { switch (this.joinDirection) { case DIRECTION_RIGHT: return 31 * (this.attributes1.hashCode() ^ this.attributes2.hashCode()); case DIRECTION_LEFT: return 31 * (this.attributes2.hashCode() ^ this.attributes1.hashCode()); case DIRECTION_UNDIRECTED: default: return 31 * (this.attributes1.h... | Join { @Override public int hashCode() { switch (this.joinDirection) { case DIRECTION_RIGHT: return 31 * (this.attributes1.hashCode() ^ this.attributes2.hashCode()); case DIRECTION_LEFT: return 31 * (this.attributes2.hashCode() ^ this.attributes1.hashCode()); case DIRECTION_UNDIRECTED: default: return 31 * (this.attrib... | Join { @Override public int hashCode() { switch (this.joinDirection) { case DIRECTION_RIGHT: return 31 * (this.attributes1.hashCode() ^ this.attributes2.hashCode()); case DIRECTION_LEFT: return 31 * (this.attributes2.hashCode() ^ this.attributes1.hashCode()); case DIRECTION_UNDIRECTED: default: return 31 * (this.attrib... | Join { @Override public int hashCode() { switch (this.joinDirection) { case DIRECTION_RIGHT: return 31 * (this.attributes1.hashCode() ^ this.attributes2.hashCode()); case DIRECTION_LEFT: return 31 * (this.attributes2.hashCode() ^ this.attributes1.hashCode()); case DIRECTION_UNDIRECTED: default: return 31 * (this.attrib... | Join { @Override public int hashCode() { switch (this.joinDirection) { case DIRECTION_RIGHT: return 31 * (this.attributes1.hashCode() ^ this.attributes2.hashCode()); case DIRECTION_LEFT: return 31 * (this.attributes2.hashCode() ^ this.attributes1.hashCode()); case DIRECTION_UNDIRECTED: default: return 31 * (this.attrib... |
@Test public void testEmpty() throws ParseException { Assert.assertEquals("", toString(new FilterParser("").parse())); } | public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { break; } index++; ... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... |
@Test public void testSimple() throws ParseException { Assert.assertEquals("'foo'", toString(new FilterParser("foo").parse())); } | public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { break; } index++; ... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... |
@Test public void testMultipleStrings() throws ParseException { Assert.assertEquals("'foo'.'bar'", toString(new FilterParser("foo.bar").parse())); } | public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { break; } index++; ... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... |
@Test public void testMultipleFilters() throws ParseException { Assert.assertEquals("'foo','bar'", toString(new FilterParser("foo,bar").parse())); } | public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { break; } index++; ... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... |
@Test public void testMultipleFiltersNewline() throws ParseException { Assert.assertEquals("'foo','bar'", toString(new FilterParser("foo\n\rbar").parse())); } | public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { break; } index++; ... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... |
@Test public void testRegex() throws ParseException { Assert.assertEquals("/foo/0", toString(new FilterParser("/foo/").parse())); } | public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { break; } index++; ... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... |
@Test public void testRegexWithFlag() throws ParseException { Assert.assertEquals("/foo/2", toString(new FilterParser("/foo/i").parse())); } | public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { break; } index++; ... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... |
@Test public void testMutlipleRegexes() throws ParseException { Assert.assertEquals("/foo/0./bar/0", toString(new FilterParser("/foo/./bar/").parse())); } | public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { break; } index++; ... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... |
@Test public void testXSDTypeToString() { Assert.assertEquals("xsd:string", PrettyPrinter.toString(XSDDatatype.XSDstring)); } | public static String toString(Node n) { return toString(n, null); } | PrettyPrinter { public static String toString(Node n) { return toString(n, null); } } | PrettyPrinter { public static String toString(Node n) { return toString(n, null); } } | PrettyPrinter { public static String toString(Node n) { return toString(n, null); } static String toString(Node n); static String toString(Node n, PrefixMapping prefixes); static String toString(Statement s); static String toString(Triple t); static String toString(Triple t, PrefixMapping prefixes); static String toSt... | PrettyPrinter { public static String toString(Node n) { return toString(n, null); } static String toString(Node n); static String toString(Node n, PrefixMapping prefixes); static String toString(Statement s); static String toString(Triple t); static String toString(Triple t, PrefixMapping prefixes); static String toSt... |
@Test public void testMutlipleRegexFilters() throws ParseException { Assert.assertEquals("/foo/0,/bar/0", toString(new FilterParser("/foo/,/bar/").parse())); } | public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { break; } index++; ... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... |
@Test public void testDotInRegex() throws ParseException { Assert.assertEquals("/foo.bar/0", toString(new FilterParser("/foo.bar/").parse())); } | public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { break; } index++; ... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... |
@Test public void testEscapedDotInRegex() throws ParseException { Assert.assertEquals("/foo\\.bar/0", toString(new FilterParser("/foo\\.bar/").parse())); } | public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { break; } index++; ... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... |
@Test public void testCommaInRegex() throws ParseException { Assert.assertEquals("/foo,bar/0", toString(new FilterParser("/foo,bar/").parse())); } | public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { break; } index++; ... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... |
@Test public void testIncompleteRegex() { try { new FilterParser("/foo").parse(); Assert.fail("Should have thrown ParseException because of unterminated regex"); } catch (ParseException ex) { } } | public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { break; } index++; ... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... |
@Test public void testIncompleteRegexNewline() { try { new FilterParser("/foo\nbar/").parse(); Assert.fail("Should have thrown ParseException because of unterminated regex"); } catch (ParseException ex) { } } | public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { break; } index++; ... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... |
@Test public void testComplex() throws ParseException { Assert.assertEquals("/.*/0.'CHECKSUM','USER'.'PASSWORD'", toString(new FilterParser("/.*/.CHECKSUM,USER.PASSWORD").parse())); } | public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { break; } index++; ... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... | FilterParser { public List<List<IdentifierMatcher>> parse() throws ParseException { eatSeparators(); while (!atEnd()) { List<IdentifierMatcher> list = new ArrayList<>(); while (!atEnd()) { if (current() == '/') { list.add(parseRegex()); } else { list.add(parseIdentifier()); } if (!atEnd() && atFilterTerminator()) { bre... |
@Test public void testParseAsSchemaFilter() throws ParseException { Filter result = new FilterParser("schema1,schema2").parseSchemaFilter(); Assert.assertTrue(result.matchesSchema("schema1")); Assert.assertTrue(result.matchesSchema("schema2")); Assert.assertFalse(result.matchesSchema("schema3")); Assert.assertFalse(res... | public Filter parseSchemaFilter() throws ParseException { List<Filter> result = new ArrayList<>(); for (List<IdentifierMatcher> list : parse()) { if (list.size() != 1) { throw new ParseException("Syntax error in schema filter list; expected list of comma- or newline-separated schema names: '" + s + "'"); } result.add(n... | FilterParser { public Filter parseSchemaFilter() throws ParseException { List<Filter> result = new ArrayList<>(); for (List<IdentifierMatcher> list : parse()) { if (list.size() != 1) { throw new ParseException("Syntax error in schema filter list; expected list of comma- or newline-separated schema names: '" + s + "'");... | FilterParser { public Filter parseSchemaFilter() throws ParseException { List<Filter> result = new ArrayList<>(); for (List<IdentifierMatcher> list : parse()) { if (list.size() != 1) { throw new ParseException("Syntax error in schema filter list; expected list of comma- or newline-separated schema names: '" + s + "'");... | FilterParser { public Filter parseSchemaFilter() throws ParseException { List<Filter> result = new ArrayList<>(); for (List<IdentifierMatcher> list : parse()) { if (list.size() != 1) { throw new ParseException("Syntax error in schema filter list; expected list of comma- or newline-separated schema names: '" + s + "'");... | FilterParser { public Filter parseSchemaFilter() throws ParseException { List<Filter> result = new ArrayList<>(); for (List<IdentifierMatcher> list : parse()) { if (list.size() != 1) { throw new ParseException("Syntax error in schema filter list; expected list of comma- or newline-separated schema names: '" + s + "'");... |
@Test public void testParseAsSchemaFilterWithRegex() throws ParseException { Filter result = new FilterParser("/schema[12]/i").parseSchemaFilter(); Assert.assertTrue(result.matchesSchema("schema1")); Assert.assertTrue(result.matchesSchema("SCHEMA2")); Assert.assertFalse(result.matchesSchema("schema3")); Assert.assertFa... | public Filter parseSchemaFilter() throws ParseException { List<Filter> result = new ArrayList<>(); for (List<IdentifierMatcher> list : parse()) { if (list.size() != 1) { throw new ParseException("Syntax error in schema filter list; expected list of comma- or newline-separated schema names: '" + s + "'"); } result.add(n... | FilterParser { public Filter parseSchemaFilter() throws ParseException { List<Filter> result = new ArrayList<>(); for (List<IdentifierMatcher> list : parse()) { if (list.size() != 1) { throw new ParseException("Syntax error in schema filter list; expected list of comma- or newline-separated schema names: '" + s + "'");... | FilterParser { public Filter parseSchemaFilter() throws ParseException { List<Filter> result = new ArrayList<>(); for (List<IdentifierMatcher> list : parse()) { if (list.size() != 1) { throw new ParseException("Syntax error in schema filter list; expected list of comma- or newline-separated schema names: '" + s + "'");... | FilterParser { public Filter parseSchemaFilter() throws ParseException { List<Filter> result = new ArrayList<>(); for (List<IdentifierMatcher> list : parse()) { if (list.size() != 1) { throw new ParseException("Syntax error in schema filter list; expected list of comma- or newline-separated schema names: '" + s + "'");... | FilterParser { public Filter parseSchemaFilter() throws ParseException { List<Filter> result = new ArrayList<>(); for (List<IdentifierMatcher> list : parse()) { if (list.size() != 1) { throw new ParseException("Syntax error in schema filter list; expected list of comma- or newline-separated schema names: '" + s + "'");... |
@Test public void testParseAsSchemaFilterFail() { try { new FilterParser("schema.table").parseSchemaFilter(); Assert.fail("Should have failed because schema.table is not in schema notation"); } catch (ParseException ex) { } } | public Filter parseSchemaFilter() throws ParseException { List<Filter> result = new ArrayList<>(); for (List<IdentifierMatcher> list : parse()) { if (list.size() != 1) { throw new ParseException("Syntax error in schema filter list; expected list of comma- or newline-separated schema names: '" + s + "'"); } result.add(n... | FilterParser { public Filter parseSchemaFilter() throws ParseException { List<Filter> result = new ArrayList<>(); for (List<IdentifierMatcher> list : parse()) { if (list.size() != 1) { throw new ParseException("Syntax error in schema filter list; expected list of comma- or newline-separated schema names: '" + s + "'");... | FilterParser { public Filter parseSchemaFilter() throws ParseException { List<Filter> result = new ArrayList<>(); for (List<IdentifierMatcher> list : parse()) { if (list.size() != 1) { throw new ParseException("Syntax error in schema filter list; expected list of comma- or newline-separated schema names: '" + s + "'");... | FilterParser { public Filter parseSchemaFilter() throws ParseException { List<Filter> result = new ArrayList<>(); for (List<IdentifierMatcher> list : parse()) { if (list.size() != 1) { throw new ParseException("Syntax error in schema filter list; expected list of comma- or newline-separated schema names: '" + s + "'");... | FilterParser { public Filter parseSchemaFilter() throws ParseException { List<Filter> result = new ArrayList<>(); for (List<IdentifierMatcher> list : parse()) { if (list.size() != 1) { throw new ParseException("Syntax error in schema filter list; expected list of comma- or newline-separated schema names: '" + s + "'");... |
@Test public void testEmpty() { Collection<TranslationTableParser.Row> translations = new TranslationTableParser(new StringReader("")).parseTranslations(); Assert.assertTrue(translations.isEmpty()); } | public Collection<Row> parseTranslations() { try { List<Row> result = new ArrayList<>(); while (true) { String line = this.reader.readLine(); if (line == null) { break; } String[] fields = this.csvLineParser.parse(line); if (fields.length != 2) { LOGGER.warn("Skipping line with {} instead of 2 columns in CSV file {}", ... | TranslationTableParser { public Collection<Row> parseTranslations() { try { List<Row> result = new ArrayList<>(); while (true) { String line = this.reader.readLine(); if (line == null) { break; } String[] fields = this.csvLineParser.parse(line); if (fields.length != 2) { LOGGER.warn("Skipping line with {} instead of 2 ... | TranslationTableParser { public Collection<Row> parseTranslations() { try { List<Row> result = new ArrayList<>(); while (true) { String line = this.reader.readLine(); if (line == null) { break; } String[] fields = this.csvLineParser.parse(line); if (fields.length != 2) { LOGGER.warn("Skipping line with {} instead of 2 ... | TranslationTableParser { public Collection<Row> parseTranslations() { try { List<Row> result = new ArrayList<>(); while (true) { String line = this.reader.readLine(); if (line == null) { break; } String[] fields = this.csvLineParser.parse(line); if (fields.length != 2) { LOGGER.warn("Skipping line with {} instead of 2 ... | TranslationTableParser { public Collection<Row> parseTranslations() { try { List<Row> result = new ArrayList<>(); while (true) { String line = this.reader.readLine(); if (line == null) { break; } String[] fields = this.csvLineParser.parse(line); if (fields.length != 2) { LOGGER.warn("Skipping line with {} instead of 2 ... |
@Test public void test() throws Exception { final NiFIAtlasHook hook = new NiFIAtlasHook(); hook.createLineageToKafkaTopic(); } | public void createLineageToKafkaTopic() throws Exception { final List<HookNotification.HookNotificationMessage> messages = new ArrayList<>(); final Referenceable topic = new Referenceable("kafka_topic"); topic.set(ATTR_NAME, "notification"); topic.set("topic", "notification"); topic.set(ATTR_QUALIFIED_NAME, "notificati... | NiFIAtlasHook extends AtlasHook { public void createLineageToKafkaTopic() throws Exception { final List<HookNotification.HookNotificationMessage> messages = new ArrayList<>(); final Referenceable topic = new Referenceable("kafka_topic"); topic.set(ATTR_NAME, "notification"); topic.set("topic", "notification"); topic.se... | NiFIAtlasHook extends AtlasHook { public void createLineageToKafkaTopic() throws Exception { final List<HookNotification.HookNotificationMessage> messages = new ArrayList<>(); final Referenceable topic = new Referenceable("kafka_topic"); topic.set(ATTR_NAME, "notification"); topic.set("topic", "notification"); topic.se... | NiFIAtlasHook extends AtlasHook { public void createLineageToKafkaTopic() throws Exception { final List<HookNotification.HookNotificationMessage> messages = new ArrayList<>(); final Referenceable topic = new Referenceable("kafka_topic"); topic.set(ATTR_NAME, "notification"); topic.set("topic", "notification"); topic.se... | NiFIAtlasHook extends AtlasHook { public void createLineageToKafkaTopic() throws Exception { final List<HookNotification.HookNotificationMessage> messages = new ArrayList<>(); final Referenceable topic = new Referenceable("kafka_topic"); topic.set(ATTR_NAME, "notification"); topic.set("topic", "notification"); topic.se... |
@Test public void testHBaseTable() { final String processorName = "FetchHBaseRow"; final String transitUri = "hbase: final ProvenanceEventRecord record = Mockito.mock(ProvenanceEventRecord.class); when(record.getComponentType()).thenReturn(processorName); when(record.getTransitUri()).thenReturn(transitUri); when(record... | @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Matcher uriMatcher = URI_PATTERN.matcher(event.getTransitUri()); if (!uriMatcher.matches()) { logger.warn("Unexpected transit URI: {}", new Object[]{event.getTransitUri()}); return null; } final Referenceable ref = new Re... | HBaseTable extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Matcher uriMatcher = URI_PATTERN.matcher(event.getTransitUri()); if (!uriMatcher.matches()) { logger.warn("Unexpected transit URI: {}", new Object[]{event.getTransi... | HBaseTable extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Matcher uriMatcher = URI_PATTERN.matcher(event.getTransitUri()); if (!uriMatcher.matches()) { logger.warn("Unexpected transit URI: {}", new Object[]{event.getTransi... | HBaseTable extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Matcher uriMatcher = URI_PATTERN.matcher(event.getTransitUri()); if (!uriMatcher.matches()) { logger.warn("Unexpected transit URI: {}", new Object[]{event.getTransi... | HBaseTable extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Matcher uriMatcher = URI_PATTERN.matcher(event.getTransitUri()); if (!uriMatcher.matches()) { logger.warn("Unexpected transit URI: {}", new Object[]{event.getTransi... |
@Test public void testHBaseTableWithMultipleZkHosts() { final String processorName = "FetchHBaseRow"; final String transitUri = "hbase: final ProvenanceEventRecord record = Mockito.mock(ProvenanceEventRecord.class); when(record.getComponentType()).thenReturn(processorName); when(record.getTransitUri()).thenReturn(trans... | @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Matcher uriMatcher = URI_PATTERN.matcher(event.getTransitUri()); if (!uriMatcher.matches()) { logger.warn("Unexpected transit URI: {}", new Object[]{event.getTransitUri()}); return null; } final Referenceable ref = new Re... | HBaseTable extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Matcher uriMatcher = URI_PATTERN.matcher(event.getTransitUri()); if (!uriMatcher.matches()) { logger.warn("Unexpected transit URI: {}", new Object[]{event.getTransi... | HBaseTable extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Matcher uriMatcher = URI_PATTERN.matcher(event.getTransitUri()); if (!uriMatcher.matches()) { logger.warn("Unexpected transit URI: {}", new Object[]{event.getTransi... | HBaseTable extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Matcher uriMatcher = URI_PATTERN.matcher(event.getTransitUri()); if (!uriMatcher.matches()) { logger.warn("Unexpected transit URI: {}", new Object[]{event.getTransi... | HBaseTable extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Matcher uriMatcher = URI_PATTERN.matcher(event.getTransitUri()); if (!uriMatcher.matches()) { logger.warn("Unexpected transit URI: {}", new Object[]{event.getTransi... |
@Test public void testGenerateFlowFile() { final String processorName = "GenerateFlowFile"; final String processorId = "processor-1234"; final ProvenanceEventRecord record = Mockito.mock(ProvenanceEventRecord.class); when(record.getComponentType()).thenReturn(processorName); when(record.getComponentId()).thenReturn(pro... | @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final String componentId = event.getComponentId(); final List<ConnectionStatus> incomingConnections = context.findConnectionTo(componentId); if (incomingConnections != null && !incomingConnections.isEmpty()) { return null; } fi... | CreateObscureInputDataSet extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final String componentId = event.getComponentId(); final List<ConnectionStatus> incomingConnections = context.findConnectionTo(componentId); if (incomingCo... | CreateObscureInputDataSet extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final String componentId = event.getComponentId(); final List<ConnectionStatus> incomingConnections = context.findConnectionTo(componentId); if (incomingCo... | CreateObscureInputDataSet extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final String componentId = event.getComponentId(); final List<ConnectionStatus> incomingConnections = context.findConnectionTo(componentId); if (incomingCo... | CreateObscureInputDataSet extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final String componentId = event.getComponentId(); final List<ConnectionStatus> incomingConnections = context.findConnectionTo(componentId); if (incomingCo... |
@Test public void testSomethingHavingIncomingConnection() { final String processorName = "SomeProcessor"; final String processorId = "processor-1234"; final ProvenanceEventRecord record = Mockito.mock(ProvenanceEventRecord.class); when(record.getComponentType()).thenReturn(processorName); when(record.getComponentId()).... | @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final String componentId = event.getComponentId(); final List<ConnectionStatus> incomingConnections = context.findConnectionTo(componentId); if (incomingConnections != null && !incomingConnections.isEmpty()) { return null; } fi... | CreateObscureInputDataSet extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final String componentId = event.getComponentId(); final List<ConnectionStatus> incomingConnections = context.findConnectionTo(componentId); if (incomingCo... | CreateObscureInputDataSet extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final String componentId = event.getComponentId(); final List<ConnectionStatus> incomingConnections = context.findConnectionTo(componentId); if (incomingCo... | CreateObscureInputDataSet extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final String componentId = event.getComponentId(); final List<ConnectionStatus> incomingConnections = context.findConnectionTo(componentId); if (incomingCo... | CreateObscureInputDataSet extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final String componentId = event.getComponentId(); final List<ConnectionStatus> incomingConnections = context.findConnectionTo(componentId); if (incomingCo... |
@Test public void testHDFSPath() { final String processorName = "PutHDFS"; final String transitUri = "hdfs: final ProvenanceEventRecord record = Mockito.mock(ProvenanceEventRecord.class); when(record.getComponentType()).thenReturn(processorName); when(record.getTransitUri()).thenReturn(transitUri); when(record.getEvent... | @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Referenceable ref = new Referenceable(TYPE); final URI uri = parseUri(event.getTransitUri()); final String clusterName = context.getClusterResolver().fromHostname(uri.getHost()); final String path = uri.getPath(); ref.set... | HDFSPath extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Referenceable ref = new Referenceable(TYPE); final URI uri = parseUri(event.getTransitUri()); final String clusterName = context.getClusterResolver().fromHostname(uri... | HDFSPath extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Referenceable ref = new Referenceable(TYPE); final URI uri = parseUri(event.getTransitUri()); final String clusterName = context.getClusterResolver().fromHostname(uri... | HDFSPath extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Referenceable ref = new Referenceable(TYPE); final URI uri = parseUri(event.getTransitUri()); final String clusterName = context.getClusterResolver().fromHostname(uri... | HDFSPath extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Referenceable ref = new Referenceable(TYPE); final URI uri = parseUri(event.getTransitUri()); final String clusterName = context.getClusterResolver().fromHostname(uri... |
@Test public void testPublishKafka() { final String processorName = "PublishKafka"; final String transitUri = "PLAINTEXT: final ProvenanceEventRecord record = Mockito.mock(ProvenanceEventRecord.class); when(record.getComponentType()).thenReturn(processorName); when(record.getTransitUri()).thenReturn(transitUri); when(r... | @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Referenceable ref = new Referenceable(TYPE); final String transitUri = event.getTransitUri(); final Matcher uriMatcher = URI_PATTERN.matcher(transitUri); if (!uriMatcher.matches()) { logger.warn("Unexpected transit URI: {... | KafkaTopic extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Referenceable ref = new Referenceable(TYPE); final String transitUri = event.getTransitUri(); final Matcher uriMatcher = URI_PATTERN.matcher(transitUri); if (!uriMa... | KafkaTopic extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Referenceable ref = new Referenceable(TYPE); final String transitUri = event.getTransitUri(); final Matcher uriMatcher = URI_PATTERN.matcher(transitUri); if (!uriMa... | KafkaTopic extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Referenceable ref = new Referenceable(TYPE); final String transitUri = event.getTransitUri(); final Matcher uriMatcher = URI_PATTERN.matcher(transitUri); if (!uriMa... | KafkaTopic extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Referenceable ref = new Referenceable(TYPE); final String transitUri = event.getTransitUri(); final Matcher uriMatcher = URI_PATTERN.matcher(transitUri); if (!uriMa... |
@Test public void testPublishKafkaMultipleBrokers() { final String processorName = "PublishKafka"; final String transitUri = "PLAINTEXT: final ProvenanceEventRecord record = Mockito.mock(ProvenanceEventRecord.class); when(record.getComponentType()).thenReturn(processorName); when(record.getTransitUri()).thenReturn(tran... | @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Referenceable ref = new Referenceable(TYPE); final String transitUri = event.getTransitUri(); final Matcher uriMatcher = URI_PATTERN.matcher(transitUri); if (!uriMatcher.matches()) { logger.warn("Unexpected transit URI: {... | KafkaTopic extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Referenceable ref = new Referenceable(TYPE); final String transitUri = event.getTransitUri(); final Matcher uriMatcher = URI_PATTERN.matcher(transitUri); if (!uriMa... | KafkaTopic extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Referenceable ref = new Referenceable(TYPE); final String transitUri = event.getTransitUri(); final Matcher uriMatcher = URI_PATTERN.matcher(transitUri); if (!uriMa... | KafkaTopic extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Referenceable ref = new Referenceable(TYPE); final String transitUri = event.getTransitUri(); final Matcher uriMatcher = URI_PATTERN.matcher(transitUri); if (!uriMa... | KafkaTopic extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Referenceable ref = new Referenceable(TYPE); final String transitUri = event.getTransitUri(); final Matcher uriMatcher = URI_PATTERN.matcher(transitUri); if (!uriMa... |
@Test public void testConsumeKafka() { final String processorName = "ConsumeKafka"; final String transitUri = "PLAINTEXT: final ProvenanceEventRecord record = Mockito.mock(ProvenanceEventRecord.class); when(record.getComponentType()).thenReturn(processorName); when(record.getTransitUri()).thenReturn(transitUri); when(r... | @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Referenceable ref = new Referenceable(TYPE); final String transitUri = event.getTransitUri(); final Matcher uriMatcher = URI_PATTERN.matcher(transitUri); if (!uriMatcher.matches()) { logger.warn("Unexpected transit URI: {... | KafkaTopic extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Referenceable ref = new Referenceable(TYPE); final String transitUri = event.getTransitUri(); final Matcher uriMatcher = URI_PATTERN.matcher(transitUri); if (!uriMa... | KafkaTopic extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Referenceable ref = new Referenceable(TYPE); final String transitUri = event.getTransitUri(); final Matcher uriMatcher = URI_PATTERN.matcher(transitUri); if (!uriMa... | KafkaTopic extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Referenceable ref = new Referenceable(TYPE); final String transitUri = event.getTransitUri(); final Matcher uriMatcher = URI_PATTERN.matcher(transitUri); if (!uriMa... | KafkaTopic extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Referenceable ref = new Referenceable(TYPE); final String transitUri = event.getTransitUri(); final Matcher uriMatcher = URI_PATTERN.matcher(transitUri); if (!uriMa... |
@Test public void testConsumeKafkaRecord_0_10() { final String processorName = "ConsumeKafkaRecord_0_10"; final String transitUri = "PLAINTEXT: final ProvenanceEventRecord record = Mockito.mock(ProvenanceEventRecord.class); when(record.getComponentType()).thenReturn(processorName); when(record.getTransitUri()).thenRetu... | @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Referenceable ref = new Referenceable(TYPE); final String transitUri = event.getTransitUri(); final Matcher uriMatcher = URI_PATTERN.matcher(transitUri); if (!uriMatcher.matches()) { logger.warn("Unexpected transit URI: {... | KafkaTopic extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Referenceable ref = new Referenceable(TYPE); final String transitUri = event.getTransitUri(); final Matcher uriMatcher = URI_PATTERN.matcher(transitUri); if (!uriMa... | KafkaTopic extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Referenceable ref = new Referenceable(TYPE); final String transitUri = event.getTransitUri(); final Matcher uriMatcher = URI_PATTERN.matcher(transitUri); if (!uriMa... | KafkaTopic extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Referenceable ref = new Referenceable(TYPE); final String transitUri = event.getTransitUri(); final Matcher uriMatcher = URI_PATTERN.matcher(transitUri); if (!uriMa... | KafkaTopic extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final Referenceable ref = new Referenceable(TYPE); final String transitUri = event.getTransitUri(); final Matcher uriMatcher = URI_PATTERN.matcher(transitUri); if (!uriMa... |
@Test public void testInputPort() { final String processorName = "Input Port"; ConnectionStatus con1 = Mockito.mock(ConnectionStatus.class); when(con1.getDestinationId()).thenReturn("101"); List<ConnectionStatus> connectionStatuses = new ArrayList<>(); connectionStatuses.add(con1); final String componentId = "100"; fin... | @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final List<ConnectionStatus> connections = context.findConnectionFrom(event.getComponentId()); if (connections == null || connections.isEmpty()) { logger.warn("Connection was not found: {}", new Object[]{event}); return null; }... | InputPort extends AbstractFileAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final List<ConnectionStatus> connections = context.findConnectionFrom(event.getComponentId()); if (connections == null || connections.isEmpty()) { logger.warn("Connection was not found: ... | InputPort extends AbstractFileAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final List<ConnectionStatus> connections = context.findConnectionFrom(event.getComponentId()); if (connections == null || connections.isEmpty()) { logger.warn("Connection was not found: ... | InputPort extends AbstractFileAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final List<ConnectionStatus> connections = context.findConnectionFrom(event.getComponentId()); if (connections == null || connections.isEmpty()) { logger.warn("Connection was not found: ... | InputPort extends AbstractFileAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final List<ConnectionStatus> connections = context.findConnectionFrom(event.getComponentId()); if (connections == null || connections.isEmpty()) { logger.warn("Connection was not found: ... |
@Test public void testClone() throws IOException { ProcessGroupStatus root = new ProcessGroupStatus(); MockComponentLog logger = new MockComponentLog("0", this); NiFIAtlasHook atlasHook = new NiFIAtlasHook() { protected void notifyEntities(List<HookNotification.HookNotificationMessage> messages) { assertEquals(4, messa... | public void processEvent (ProvenanceEventRecord event, NiFiFlow nifiFlow, AnalysisContext analysisContext) { try { if (event.getEventType() == ProvenanceEventType.CLONE) { createParentProcess (event, nifiFlow); ProcessorStatus pr = nifiFlow.getProcessors().get(event.getComponentId()); Collection<Referenceable> inputs =... | ByFileLineageStrategy implements LineageEventProcessor { public void processEvent (ProvenanceEventRecord event, NiFiFlow nifiFlow, AnalysisContext analysisContext) { try { if (event.getEventType() == ProvenanceEventType.CLONE) { createParentProcess (event, nifiFlow); ProcessorStatus pr = nifiFlow.getProcessors().get(ev... | ByFileLineageStrategy implements LineageEventProcessor { public void processEvent (ProvenanceEventRecord event, NiFiFlow nifiFlow, AnalysisContext analysisContext) { try { if (event.getEventType() == ProvenanceEventType.CLONE) { createParentProcess (event, nifiFlow); ProcessorStatus pr = nifiFlow.getProcessors().get(ev... | ByFileLineageStrategy implements LineageEventProcessor { public void processEvent (ProvenanceEventRecord event, NiFiFlow nifiFlow, AnalysisContext analysisContext) { try { if (event.getEventType() == ProvenanceEventType.CLONE) { createParentProcess (event, nifiFlow); ProcessorStatus pr = nifiFlow.getProcessors().get(ev... | ByFileLineageStrategy implements LineageEventProcessor { public void processEvent (ProvenanceEventRecord event, NiFiFlow nifiFlow, AnalysisContext analysisContext) { try { if (event.getEventType() == ProvenanceEventType.CLONE) { createParentProcess (event, nifiFlow); ProcessorStatus pr = nifiFlow.getProcessors().get(ev... |
@Test public void testEmptyFlow() throws Exception { ReportingContext reportingContext = Mockito.mock(ReportingContext.class); EventAccess eventAccess = Mockito.mock(EventAccess.class); ProcessGroupStatus rootPG = createEmptyProcessGroupStatus(); when(reportingContext.getEventAccess()).thenReturn(eventAccess); when(eve... | public NiFiFlow analyzeProcessGroup(AtlasVariables atlasVariables, ReportingContext context) throws IOException { final ProcessGroupStatus rootProcessGroup = context.getEventAccess().getGroupStatus("root"); final String flowName = rootProcessGroup.getName(); final String nifiUrlForAtlasMetadata = atlasVariables.getNifi... | NiFiFlowAnalyzer { public NiFiFlow analyzeProcessGroup(AtlasVariables atlasVariables, ReportingContext context) throws IOException { final ProcessGroupStatus rootProcessGroup = context.getEventAccess().getGroupStatus("root"); final String flowName = rootProcessGroup.getName(); final String nifiUrlForAtlasMetadata = atl... | NiFiFlowAnalyzer { public NiFiFlow analyzeProcessGroup(AtlasVariables atlasVariables, ReportingContext context) throws IOException { final ProcessGroupStatus rootProcessGroup = context.getEventAccess().getGroupStatus("root"); final String flowName = rootProcessGroup.getName(); final String nifiUrlForAtlasMetadata = atl... | NiFiFlowAnalyzer { public NiFiFlow analyzeProcessGroup(AtlasVariables atlasVariables, ReportingContext context) throws IOException { final ProcessGroupStatus rootProcessGroup = context.getEventAccess().getGroupStatus("root"); final String flowName = rootProcessGroup.getName(); final String nifiUrlForAtlasMetadata = atl... | NiFiFlowAnalyzer { public NiFiFlow analyzeProcessGroup(AtlasVariables atlasVariables, ReportingContext context) throws IOException { final ProcessGroupStatus rootProcessGroup = context.getEventAccess().getGroupStatus("root"); final String flowName = rootProcessGroup.getName(); final String nifiUrlForAtlasMetadata = atl... |
@Test public void testTableLineage() { final String processorName = "PutHiveStreaming"; final String transitUri = "thrift: final ProvenanceEventRecord record = Mockito.mock(ProvenanceEventRecord.class); when(record.getComponentType()).thenReturn(processorName); when(record.getTransitUri()).thenReturn(transitUri); when(... | @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final URI uri = parseUri(event.getTransitUri()); final String clusterName = context.getClusterResolver().fromHostname(uri.getHost()); final Set<Tuple<String, String>> outputTables = parseTableNames(null, event.getAttribute(ATTR... | PutHiveStreaming extends AbstractHiveAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final URI uri = parseUri(event.getTransitUri()); final String clusterName = context.getClusterResolver().fromHostname(uri.getHost()); final Set<Tuple<String, String>> outputTables... | PutHiveStreaming extends AbstractHiveAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final URI uri = parseUri(event.getTransitUri()); final String clusterName = context.getClusterResolver().fromHostname(uri.getHost()); final Set<Tuple<String, String>> outputTables... | PutHiveStreaming extends AbstractHiveAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final URI uri = parseUri(event.getTransitUri()); final String clusterName = context.getClusterResolver().fromHostname(uri.getHost()); final Set<Tuple<String, String>> outputTables... | PutHiveStreaming extends AbstractHiveAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final URI uri = parseUri(event.getTransitUri()); final String clusterName = context.getClusterResolver().fromHostname(uri.getHost()); final Set<Tuple<String, String>> outputTables... |
@Test public void testDatabaseLineage() { final String processorName = "PutHiveQL"; final String transitUri = "jdbc:hive2: final ProvenanceEventRecord record = Mockito.mock(ProvenanceEventRecord.class); when(record.getComponentType()).thenReturn(processorName); when(record.getTransitUri()).thenReturn(transitUri); when(... | @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final String transitUri = event.getTransitUri().replaceFirst("^jdbc:hive2", "jdbc-hive2"); final URI uri = parseUri(transitUri); final String clusterName = context.getClusterResolver().fromHostname(uri.getHost()); final String ... | Hive2JDBC extends AbstractHiveAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final String transitUri = event.getTransitUri().replaceFirst("^jdbc:hive2", "jdbc-hive2"); final URI uri = parseUri(transitUri); final String clusterName = context.getClusterResolver().f... | Hive2JDBC extends AbstractHiveAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final String transitUri = event.getTransitUri().replaceFirst("^jdbc:hive2", "jdbc-hive2"); final URI uri = parseUri(transitUri); final String clusterName = context.getClusterResolver().f... | Hive2JDBC extends AbstractHiveAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final String transitUri = event.getTransitUri().replaceFirst("^jdbc:hive2", "jdbc-hive2"); final URI uri = parseUri(transitUri); final String clusterName = context.getClusterResolver().f... | Hive2JDBC extends AbstractHiveAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final String transitUri = event.getTransitUri().replaceFirst("^jdbc:hive2", "jdbc-hive2"); final URI uri = parseUri(transitUri); final String clusterName = context.getClusterResolver().f... |
@Test public void testTableLineage() { final String processorName = "PutHiveQL"; final String transitUri = "jdbc:hive2: final ProvenanceEventRecord record = Mockito.mock(ProvenanceEventRecord.class); when(record.getComponentType()).thenReturn(processorName); when(record.getTransitUri()).thenReturn(transitUri); when(rec... | @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final String transitUri = event.getTransitUri().replaceFirst("^jdbc:hive2", "jdbc-hive2"); final URI uri = parseUri(transitUri); final String clusterName = context.getClusterResolver().fromHostname(uri.getHost()); final String ... | Hive2JDBC extends AbstractHiveAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final String transitUri = event.getTransitUri().replaceFirst("^jdbc:hive2", "jdbc-hive2"); final URI uri = parseUri(transitUri); final String clusterName = context.getClusterResolver().f... | Hive2JDBC extends AbstractHiveAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final String transitUri = event.getTransitUri().replaceFirst("^jdbc:hive2", "jdbc-hive2"); final URI uri = parseUri(transitUri); final String clusterName = context.getClusterResolver().f... | Hive2JDBC extends AbstractHiveAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final String transitUri = event.getTransitUri().replaceFirst("^jdbc:hive2", "jdbc-hive2"); final URI uri = parseUri(transitUri); final String clusterName = context.getClusterResolver().f... | Hive2JDBC extends AbstractHiveAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final String transitUri = event.getTransitUri().replaceFirst("^jdbc:hive2", "jdbc-hive2"); final URI uri = parseUri(transitUri); final String clusterName = context.getClusterResolver().f... |
@Test public void testGetFile() { final String processorName = "GetFile"; final String transitUri = "file:/var/data/landing/sample_z"; final ProvenanceEventRecord record = Mockito.mock(ProvenanceEventRecord.class); when(record.getComponentType()).thenReturn(processorName); when(record.getTransitUri()).thenReturn(transi... | @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final URI uri = parseUri(event.getTransitUri()); final String clusterName = context.getClusterResolver().fromHostname(uri.getHost()); final DataSetRefs refs = new DataSetRefs(event.getComponentId()); final Referenceable ref = c... | GetPutFile extends AbstractFileAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final URI uri = parseUri(event.getTransitUri()); final String clusterName = context.getClusterResolver().fromHostname(uri.getHost()); final DataSetRefs refs = new DataSetRefs(event.getC... | GetPutFile extends AbstractFileAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final URI uri = parseUri(event.getTransitUri()); final String clusterName = context.getClusterResolver().fromHostname(uri.getHost()); final DataSetRefs refs = new DataSetRefs(event.getC... | GetPutFile extends AbstractFileAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final URI uri = parseUri(event.getTransitUri()); final String clusterName = context.getClusterResolver().fromHostname(uri.getHost()); final DataSetRefs refs = new DataSetRefs(event.getC... | GetPutFile extends AbstractFileAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final URI uri = parseUri(event.getTransitUri()); final String clusterName = context.getClusterResolver().fromHostname(uri.getHost()); final DataSetRefs refs = new DataSetRefs(event.getC... |
@Test public void testPutFile() { final String processorName = "PutFile"; final String transitUri = "file:/var/data/landing/sample_z"; final ProvenanceEventRecord record = Mockito.mock(ProvenanceEventRecord.class); when(record.getComponentType()).thenReturn(processorName); when(record.getTransitUri()).thenReturn(transi... | @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final URI uri = parseUri(event.getTransitUri()); final String clusterName = context.getClusterResolver().fromHostname(uri.getHost()); final DataSetRefs refs = new DataSetRefs(event.getComponentId()); final Referenceable ref = c... | GetPutFile extends AbstractFileAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final URI uri = parseUri(event.getTransitUri()); final String clusterName = context.getClusterResolver().fromHostname(uri.getHost()); final DataSetRefs refs = new DataSetRefs(event.getC... | GetPutFile extends AbstractFileAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final URI uri = parseUri(event.getTransitUri()); final String clusterName = context.getClusterResolver().fromHostname(uri.getHost()); final DataSetRefs refs = new DataSetRefs(event.getC... | GetPutFile extends AbstractFileAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final URI uri = parseUri(event.getTransitUri()); final String clusterName = context.getClusterResolver().fromHostname(uri.getHost()); final DataSetRefs refs = new DataSetRefs(event.getC... | GetPutFile extends AbstractFileAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final URI uri = parseUri(event.getTransitUri()); final String clusterName = context.getClusterResolver().fromHostname(uri.getHost()); final DataSetRefs refs = new DataSetRefs(event.getC... |
@Test public void testOutputPort() { final String processorName = "Output Port"; ConnectionStatus con1 = Mockito.mock(ConnectionStatus.class); when(con1.getSourceId()).thenReturn("101"); List<ConnectionStatus> connectionStatuses = new ArrayList<>(); connectionStatuses.add(con1); final ProvenanceEventRecord sendEvent = ... | @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final List<ConnectionStatus> connections = context.findConnectionTo(event.getComponentId()); if (connections == null || connections.isEmpty()) { logger.warn("Connection was not found: {}", new Object[]{event}); return null; } S... | OutputPort extends AbstractFileAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final List<ConnectionStatus> connections = context.findConnectionTo(event.getComponentId()); if (connections == null || connections.isEmpty()) { logger.warn("Connection was not found: {... | OutputPort extends AbstractFileAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final List<ConnectionStatus> connections = context.findConnectionTo(event.getComponentId()); if (connections == null || connections.isEmpty()) { logger.warn("Connection was not found: {... | OutputPort extends AbstractFileAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final List<ConnectionStatus> connections = context.findConnectionTo(event.getComponentId()); if (connections == null || connections.isEmpty()) { logger.warn("Connection was not found: {... | OutputPort extends AbstractFileAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final List<ConnectionStatus> connections = context.findConnectionTo(event.getComponentId()); if (connections == null || connections.isEmpty()) { logger.warn("Connection was not found: {... |
@Test public void testRemoteInputPort() { final String componentType = "Remote Input Port"; final String transitUri = "http: final ProvenanceEventRecord sendEvent = Mockito.mock(ProvenanceEventRecord.class); when(sendEvent.getEventId()).thenReturn(123L); when(sendEvent.getComponentId()).thenReturn("port-guid"); when(se... | @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final boolean isRemoteInputPort = event.getComponentType().equals("Remote Input Port"); final String type = isRemoteInputPort ? TYPE_NIFI_INPUT_PORT : TYPE_NIFI_OUTPUT_PORT; final String remotePortId = event.getComponentId(); f... | NiFiRemotePort extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final boolean isRemoteInputPort = event.getComponentType().equals("Remote Input Port"); final String type = isRemoteInputPort ? TYPE_NIFI_INPUT_PORT : TYPE_NIFI_OUTPU... | NiFiRemotePort extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final boolean isRemoteInputPort = event.getComponentType().equals("Remote Input Port"); final String type = isRemoteInputPort ? TYPE_NIFI_INPUT_PORT : TYPE_NIFI_OUTPU... | NiFiRemotePort extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final boolean isRemoteInputPort = event.getComponentType().equals("Remote Input Port"); final String type = isRemoteInputPort ? TYPE_NIFI_INPUT_PORT : TYPE_NIFI_OUTPU... | NiFiRemotePort extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final boolean isRemoteInputPort = event.getComponentType().equals("Remote Input Port"); final String type = isRemoteInputPort ? TYPE_NIFI_INPUT_PORT : TYPE_NIFI_OUTPU... |
@Test public void testRemoteOutputPort() { final String componentType = "Remote Output Port"; final String transitUri = "http: final String sourceSystemFlowFileIdentifier = "urn:nifi:7ce27bc3-b128-4128-aba2-3a366435fd05"; final ProvenanceEventRecord record = Mockito.mock(ProvenanceEventRecord.class); when(record.getCom... | @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final boolean isRemoteInputPort = event.getComponentType().equals("Remote Input Port"); final String type = isRemoteInputPort ? TYPE_NIFI_INPUT_PORT : TYPE_NIFI_OUTPUT_PORT; final String remotePortId = event.getComponentId(); f... | NiFiRemotePort extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final boolean isRemoteInputPort = event.getComponentType().equals("Remote Input Port"); final String type = isRemoteInputPort ? TYPE_NIFI_INPUT_PORT : TYPE_NIFI_OUTPU... | NiFiRemotePort extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final boolean isRemoteInputPort = event.getComponentType().equals("Remote Input Port"); final String type = isRemoteInputPort ? TYPE_NIFI_INPUT_PORT : TYPE_NIFI_OUTPU... | NiFiRemotePort extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final boolean isRemoteInputPort = event.getComponentType().equals("Remote Input Port"); final String type = isRemoteInputPort ? TYPE_NIFI_INPUT_PORT : TYPE_NIFI_OUTPU... | NiFiRemotePort extends AbstractNiFiProvenanceEventAnalyzer { @Override public DataSetRefs analyze(AnalysisContext context, ProvenanceEventRecord event) { final boolean isRemoteInputPort = event.getComponentType().equals("Remote Input Port"); final String type = isRemoteInputPort ? TYPE_NIFI_INPUT_PORT : TYPE_NIFI_OUTPU... |
@Test public void testGetStats() throws ParseException { Map<String, Object> fakeStats = new HashMap<>(); fakeStats.put("stat1", "value1"); fakeStats.put("stat2", "value2"); VideobridgeStatistics videobridgeStatistics = mock(VideobridgeStatistics.class); when(videobridgeStatistics.getStats()).thenReturn(fakeStats); whe... | @GET @Produces(MediaType.APPLICATION_JSON) public String getStats() { StatsManager statsManager = this.statsManager; if (this.statsManager != null) { return JSONSerializer.serializeStatistics(statsManager.getStatistics()).toJSONString(); } return new JSONObject().toJSONString(); } | Stats { @GET @Produces(MediaType.APPLICATION_JSON) public String getStats() { StatsManager statsManager = this.statsManager; if (this.statsManager != null) { return JSONSerializer.serializeStatistics(statsManager.getStatistics()).toJSONString(); } return new JSONObject().toJSONString(); } } | Stats { @GET @Produces(MediaType.APPLICATION_JSON) public String getStats() { StatsManager statsManager = this.statsManager; if (this.statsManager != null) { return JSONSerializer.serializeStatistics(statsManager.getStatistics()).toJSONString(); } return new JSONObject().toJSONString(); } } | Stats { @GET @Produces(MediaType.APPLICATION_JSON) public String getStats() { StatsManager statsManager = this.statsManager; if (this.statsManager != null) { return JSONSerializer.serializeStatistics(statsManager.getStatistics()).toJSONString(); } return new JSONObject().toJSONString(); } @GET @Produces(MediaType.APPL... | Stats { @GET @Produces(MediaType.APPLICATION_JSON) public String getStats() { StatsManager statsManager = this.statsManager; if (this.statsManager != null) { return JSONSerializer.serializeStatistics(statsManager.getStatistics()).toJSONString(); } return new JSONObject().toJSONString(); } @GET @Produces(MediaType.APPL... |
@Test public void test_collectDeclaredProperties_one_level_only() throws IntrospectionException { List<GrainProperty> result; result = collectDeclaredProperties(Organism.class); assertEquals(1, result.size()); assertEquals("id", result.get(0).getName()); assertEquals(int.class, result.get(0).getType()); assertTrue(resu... | static List<GrainProperty> collectDeclaredProperties(Type type) throws IntrospectionException { List<GrainProperty> results = new ArrayList<>(); LateParameterizedType lpt = asLateParameterizedType(type); Class<?> clazz = erase(type); BeanInfo bi = Introspector.getBeanInfo(clazz); for (PropertyDescriptor pd : bi.getProp... | SymbolTable { static List<GrainProperty> collectDeclaredProperties(Type type) throws IntrospectionException { List<GrainProperty> results = new ArrayList<>(); LateParameterizedType lpt = asLateParameterizedType(type); Class<?> clazz = erase(type); BeanInfo bi = Introspector.getBeanInfo(clazz); for (PropertyDescriptor p... | SymbolTable { static List<GrainProperty> collectDeclaredProperties(Type type) throws IntrospectionException { List<GrainProperty> results = new ArrayList<>(); LateParameterizedType lpt = asLateParameterizedType(type); Class<?> clazz = erase(type); BeanInfo bi = Introspector.getBeanInfo(clazz); for (PropertyDescriptor p... | SymbolTable { static List<GrainProperty> collectDeclaredProperties(Type type) throws IntrospectionException { List<GrainProperty> results = new ArrayList<>(); LateParameterizedType lpt = asLateParameterizedType(type); Class<?> clazz = erase(type); BeanInfo bi = Introspector.getBeanInfo(clazz); for (PropertyDescriptor p... | SymbolTable { static List<GrainProperty> collectDeclaredProperties(Type type) throws IntrospectionException { List<GrainProperty> results = new ArrayList<>(); LateParameterizedType lpt = asLateParameterizedType(type); Class<?> clazz = erase(type); BeanInfo bi = Introspector.getBeanInfo(clazz); for (PropertyDescriptor p... |
@Test public void test_delete() { compare_lists(Collections.emptyList(), new BasicList1<>(1).delete(0)); } | @Override public ConstList<E> delete(int index) { if (index == 0) { return emptyList(); } throw new IndexOutOfBoundsException(); } | BasicList1 extends BasicConstList<E> { @Override public ConstList<E> delete(int index) { if (index == 0) { return emptyList(); } throw new IndexOutOfBoundsException(); } } | BasicList1 extends BasicConstList<E> { @Override public ConstList<E> delete(int index) { if (index == 0) { return emptyList(); } throw new IndexOutOfBoundsException(); } @SuppressWarnings("unchecked") BasicList1(Object e0); } | BasicList1 extends BasicConstList<E> { @Override public ConstList<E> delete(int index) { if (index == 0) { return emptyList(); } throw new IndexOutOfBoundsException(); } @SuppressWarnings("unchecked") BasicList1(Object e0); @Override int size(); @Override boolean isEmpty(); @Override boolean contains(Object o); @Overr... | BasicList1 extends BasicConstList<E> { @Override public ConstList<E> delete(int index) { if (index == 0) { return emptyList(); } throw new IndexOutOfBoundsException(); } @SuppressWarnings("unchecked") BasicList1(Object e0); @Override int size(); @Override boolean isEmpty(); @Override boolean contains(Object o); @Overr... |
@Test(expected = IndexOutOfBoundsException.class) public void test_delete_out_of_bounds() { new BasicList1<>(1).delete(1); } | @Override public ConstList<E> delete(int index) { if (index == 0) { return emptyList(); } throw new IndexOutOfBoundsException(); } | BasicList1 extends BasicConstList<E> { @Override public ConstList<E> delete(int index) { if (index == 0) { return emptyList(); } throw new IndexOutOfBoundsException(); } } | BasicList1 extends BasicConstList<E> { @Override public ConstList<E> delete(int index) { if (index == 0) { return emptyList(); } throw new IndexOutOfBoundsException(); } @SuppressWarnings("unchecked") BasicList1(Object e0); } | BasicList1 extends BasicConstList<E> { @Override public ConstList<E> delete(int index) { if (index == 0) { return emptyList(); } throw new IndexOutOfBoundsException(); } @SuppressWarnings("unchecked") BasicList1(Object e0); @Override int size(); @Override boolean isEmpty(); @Override boolean contains(Object o); @Overr... | BasicList1 extends BasicConstList<E> { @Override public ConstList<E> delete(int index) { if (index == 0) { return emptyList(); } throw new IndexOutOfBoundsException(); } @SuppressWarnings("unchecked") BasicList1(Object e0); @Override int size(); @Override boolean isEmpty(); @Override boolean contains(Object o); @Overr... |
@Test public void test_withoutAll() { ConstList<Integer> list = new BasicList1<>(1); assertSame(BasicList0.instance(), list.withoutAll(Arrays.asList(1))); assertSame(BasicList0.instance(), list.withoutAll(Arrays.asList(2, 1))); assertSame(list, list.withoutAll(Arrays.asList(2))); assertSame(list, list.withoutAll(Arrays... | @Override public ConstList<E> withoutAll(Collection<?> c) { return !c.contains(e0) ? this : BasicCollections.<E>emptyList(); } | BasicList1 extends BasicConstList<E> { @Override public ConstList<E> withoutAll(Collection<?> c) { return !c.contains(e0) ? this : BasicCollections.<E>emptyList(); } } | BasicList1 extends BasicConstList<E> { @Override public ConstList<E> withoutAll(Collection<?> c) { return !c.contains(e0) ? this : BasicCollections.<E>emptyList(); } @SuppressWarnings("unchecked") BasicList1(Object e0); } | BasicList1 extends BasicConstList<E> { @Override public ConstList<E> withoutAll(Collection<?> c) { return !c.contains(e0) ? this : BasicCollections.<E>emptyList(); } @SuppressWarnings("unchecked") BasicList1(Object e0); @Override int size(); @Override boolean isEmpty(); @Override boolean contains(Object o); @Override ... | BasicList1 extends BasicConstList<E> { @Override public ConstList<E> withoutAll(Collection<?> c) { return !c.contains(e0) ? this : BasicCollections.<E>emptyList(); } @SuppressWarnings("unchecked") BasicList1(Object e0); @Override int size(); @Override boolean isEmpty(); @Override boolean contains(Object o); @Override ... |
@Test(expected = NullPointerException.class) public void test_withoutAll_throws() { new BasicList1<>(1).withoutAll(null); } | @Override public ConstList<E> withoutAll(Collection<?> c) { return !c.contains(e0) ? this : BasicCollections.<E>emptyList(); } | BasicList1 extends BasicConstList<E> { @Override public ConstList<E> withoutAll(Collection<?> c) { return !c.contains(e0) ? this : BasicCollections.<E>emptyList(); } } | BasicList1 extends BasicConstList<E> { @Override public ConstList<E> withoutAll(Collection<?> c) { return !c.contains(e0) ? this : BasicCollections.<E>emptyList(); } @SuppressWarnings("unchecked") BasicList1(Object e0); } | BasicList1 extends BasicConstList<E> { @Override public ConstList<E> withoutAll(Collection<?> c) { return !c.contains(e0) ? this : BasicCollections.<E>emptyList(); } @SuppressWarnings("unchecked") BasicList1(Object e0); @Override int size(); @Override boolean isEmpty(); @Override boolean contains(Object o); @Override ... | BasicList1 extends BasicConstList<E> { @Override public ConstList<E> withoutAll(Collection<?> c) { return !c.contains(e0) ? this : BasicCollections.<E>emptyList(); } @SuppressWarnings("unchecked") BasicList1(Object e0); @Override int size(); @Override boolean isEmpty(); @Override boolean contains(Object o); @Override ... |
@Test public void test_subList() { ConstList<Integer> list = new BasicList1<>(1); assertSame(BasicList0.instance(), list.subList(0, 0)); assertSame(list, list.subList(0, 1)); assertSame(BasicList0.instance(), list.subList(1, 1)); } | @Override public ConstList<E> subList(int fromIndex, int toIndex) { ArrayTools.checkRange(fromIndex, toIndex, 1); return fromIndex != toIndex ? this : BasicCollections.<E>emptyList(); } | BasicList1 extends BasicConstList<E> { @Override public ConstList<E> subList(int fromIndex, int toIndex) { ArrayTools.checkRange(fromIndex, toIndex, 1); return fromIndex != toIndex ? this : BasicCollections.<E>emptyList(); } } | BasicList1 extends BasicConstList<E> { @Override public ConstList<E> subList(int fromIndex, int toIndex) { ArrayTools.checkRange(fromIndex, toIndex, 1); return fromIndex != toIndex ? this : BasicCollections.<E>emptyList(); } @SuppressWarnings("unchecked") BasicList1(Object e0); } | BasicList1 extends BasicConstList<E> { @Override public ConstList<E> subList(int fromIndex, int toIndex) { ArrayTools.checkRange(fromIndex, toIndex, 1); return fromIndex != toIndex ? this : BasicCollections.<E>emptyList(); } @SuppressWarnings("unchecked") BasicList1(Object e0); @Override int size(); @Override boolean ... | BasicList1 extends BasicConstList<E> { @Override public ConstList<E> subList(int fromIndex, int toIndex) { ArrayTools.checkRange(fromIndex, toIndex, 1); return fromIndex != toIndex ? this : BasicCollections.<E>emptyList(); } @SuppressWarnings("unchecked") BasicList1(Object e0); @Override int size(); @Override boolean ... |
@Test public void test_non_equality() { assertFalse(new BasicList1<>(1).equals(Arrays.asList(2))); assertFalse(Arrays.asList(2).equals(new BasicList1<>(1))); ConstList<Integer> empty = BasicList0.instance(); assertFalse(new BasicList1<>(1).equals(empty)); } | private boolean equals(List<?> that) { if (that.size() == 1) { Object o; try { o = that.get(0); } catch (IndexOutOfBoundsException e) { return false; } return Objects.equals(o, e0); } return false; } | BasicList1 extends BasicConstList<E> { private boolean equals(List<?> that) { if (that.size() == 1) { Object o; try { o = that.get(0); } catch (IndexOutOfBoundsException e) { return false; } return Objects.equals(o, e0); } return false; } } | BasicList1 extends BasicConstList<E> { private boolean equals(List<?> that) { if (that.size() == 1) { Object o; try { o = that.get(0); } catch (IndexOutOfBoundsException e) { return false; } return Objects.equals(o, e0); } return false; } @SuppressWarnings("unchecked") BasicList1(Object e0); } | BasicList1 extends BasicConstList<E> { private boolean equals(List<?> that) { if (that.size() == 1) { Object o; try { o = that.get(0); } catch (IndexOutOfBoundsException e) { return false; } return Objects.equals(o, e0); } return false; } @SuppressWarnings("unchecked") BasicList1(Object e0); @Override int size(); @Ove... | BasicList1 extends BasicConstList<E> { private boolean equals(List<?> that) { if (that.size() == 1) { Object o; try { o = that.get(0); } catch (IndexOutOfBoundsException e) { return false; } return Objects.equals(o, e0); } return false; } @SuppressWarnings("unchecked") BasicList1(Object e0); @Override int size(); @Ove... |
@Test public void test_with() { ConstMap<Object, Object> map; map = new BasicMap1<>("a", 1); compare_maps(newMap("a", 1, "b", 2), map.with("b", 2)); compare_maps(newMap("a", 2), map.with("a", 2)); compare_maps(newMap("a", 1, null, null), map.with(null, null)); compare_maps(newMap("a", null), map.with("a", null)); asser... | @Override public ConstMap<K, V> with(K key, V value) { if (Objects.equals(key, k0)) { if (Objects.equals(value, v0)) { return this; } return new BasicMap1<>(k0, value); } return new BasicMapN<>(new Object[] {k0, key}, new Object[] {v0, value}); } | BasicMap1 extends BasicConstMap<K, V> { @Override public ConstMap<K, V> with(K key, V value) { if (Objects.equals(key, k0)) { if (Objects.equals(value, v0)) { return this; } return new BasicMap1<>(k0, value); } return new BasicMapN<>(new Object[] {k0, key}, new Object[] {v0, value}); } } | BasicMap1 extends BasicConstMap<K, V> { @Override public ConstMap<K, V> with(K key, V value) { if (Objects.equals(key, k0)) { if (Objects.equals(value, v0)) { return this; } return new BasicMap1<>(k0, value); } return new BasicMapN<>(new Object[] {k0, key}, new Object[] {v0, value}); } @SuppressWarnings("unchecked") B... | BasicMap1 extends BasicConstMap<K, V> { @Override public ConstMap<K, V> with(K key, V value) { if (Objects.equals(key, k0)) { if (Objects.equals(value, v0)) { return this; } return new BasicMap1<>(k0, value); } return new BasicMapN<>(new Object[] {k0, key}, new Object[] {v0, value}); } @SuppressWarnings("unchecked") B... | BasicMap1 extends BasicConstMap<K, V> { @Override public ConstMap<K, V> with(K key, V value) { if (Objects.equals(key, k0)) { if (Objects.equals(value, v0)) { return this; } return new BasicMap1<>(k0, value); } return new BasicMapN<>(new Object[] {k0, key}, new Object[] {v0, value}); } @SuppressWarnings("unchecked") B... |
@Test public void test_withAll() { ConstMap<Object, Object> map = new BasicMap1<>("a", 1); compare_maps(newMap("a", 2, "b", 2, "c", 3), map.withAll(newMap("b", 2, "c", 3, "a", 2))); compare_maps(map, map.withAll(newMap("a", 1))); assertSame(map, map.withAll(newMap())); } | @Override public ConstMap<K, V> withAll(Map<? extends K, ? extends V> map) { if (map.isEmpty()) { return this; } MapColumns mc = copy(map); return condenseToMap(unionInto(new Object[] {k0}, new Object[] {v0}, mc.keys, mc.values)); } | BasicMap1 extends BasicConstMap<K, V> { @Override public ConstMap<K, V> withAll(Map<? extends K, ? extends V> map) { if (map.isEmpty()) { return this; } MapColumns mc = copy(map); return condenseToMap(unionInto(new Object[] {k0}, new Object[] {v0}, mc.keys, mc.values)); } } | BasicMap1 extends BasicConstMap<K, V> { @Override public ConstMap<K, V> withAll(Map<? extends K, ? extends V> map) { if (map.isEmpty()) { return this; } MapColumns mc = copy(map); return condenseToMap(unionInto(new Object[] {k0}, new Object[] {v0}, mc.keys, mc.values)); } @SuppressWarnings("unchecked") BasicMap1(Objec... | BasicMap1 extends BasicConstMap<K, V> { @Override public ConstMap<K, V> withAll(Map<? extends K, ? extends V> map) { if (map.isEmpty()) { return this; } MapColumns mc = copy(map); return condenseToMap(unionInto(new Object[] {k0}, new Object[] {v0}, mc.keys, mc.values)); } @SuppressWarnings("unchecked") BasicMap1(Objec... | BasicMap1 extends BasicConstMap<K, V> { @Override public ConstMap<K, V> withAll(Map<? extends K, ? extends V> map) { if (map.isEmpty()) { return this; } MapColumns mc = copy(map); return condenseToMap(unionInto(new Object[] {k0}, new Object[] {v0}, mc.keys, mc.values)); } @SuppressWarnings("unchecked") BasicMap1(Objec... |
@Test(expected = NullPointerException.class) public void test_withAll_throws() { new BasicMap1<>("a", 1).withAll(null); } | @Override public ConstMap<K, V> withAll(Map<? extends K, ? extends V> map) { if (map.isEmpty()) { return this; } MapColumns mc = copy(map); return condenseToMap(unionInto(new Object[] {k0}, new Object[] {v0}, mc.keys, mc.values)); } | BasicMap1 extends BasicConstMap<K, V> { @Override public ConstMap<K, V> withAll(Map<? extends K, ? extends V> map) { if (map.isEmpty()) { return this; } MapColumns mc = copy(map); return condenseToMap(unionInto(new Object[] {k0}, new Object[] {v0}, mc.keys, mc.values)); } } | BasicMap1 extends BasicConstMap<K, V> { @Override public ConstMap<K, V> withAll(Map<? extends K, ? extends V> map) { if (map.isEmpty()) { return this; } MapColumns mc = copy(map); return condenseToMap(unionInto(new Object[] {k0}, new Object[] {v0}, mc.keys, mc.values)); } @SuppressWarnings("unchecked") BasicMap1(Objec... | BasicMap1 extends BasicConstMap<K, V> { @Override public ConstMap<K, V> withAll(Map<? extends K, ? extends V> map) { if (map.isEmpty()) { return this; } MapColumns mc = copy(map); return condenseToMap(unionInto(new Object[] {k0}, new Object[] {v0}, mc.keys, mc.values)); } @SuppressWarnings("unchecked") BasicMap1(Objec... | BasicMap1 extends BasicConstMap<K, V> { @Override public ConstMap<K, V> withAll(Map<? extends K, ? extends V> map) { if (map.isEmpty()) { return this; } MapColumns mc = copy(map); return condenseToMap(unionInto(new Object[] {k0}, new Object[] {v0}, mc.keys, mc.values)); } @SuppressWarnings("unchecked") BasicMap1(Objec... |
@Test public void test_without() { ConstMap<Object, Object> map = new BasicMap1<>("a", 1); assertSame(BasicMap0.instance(), map.without("a")); assertSame(map, map.without("b")); assertSame(map, map.without(null)); } | @Override public ConstMap<K, V> without(Object key) { return !containsKey(key) ? this : BasicCollections.<K, V>emptyMap(); } | BasicMap1 extends BasicConstMap<K, V> { @Override public ConstMap<K, V> without(Object key) { return !containsKey(key) ? this : BasicCollections.<K, V>emptyMap(); } } | BasicMap1 extends BasicConstMap<K, V> { @Override public ConstMap<K, V> without(Object key) { return !containsKey(key) ? this : BasicCollections.<K, V>emptyMap(); } @SuppressWarnings("unchecked") BasicMap1(Object k0, Object v0); } | BasicMap1 extends BasicConstMap<K, V> { @Override public ConstMap<K, V> without(Object key) { return !containsKey(key) ? this : BasicCollections.<K, V>emptyMap(); } @SuppressWarnings("unchecked") BasicMap1(Object k0, Object v0); @Override int size(); @Override boolean isEmpty(); @Override boolean containsKey(Object ke... | BasicMap1 extends BasicConstMap<K, V> { @Override public ConstMap<K, V> without(Object key) { return !containsKey(key) ? this : BasicCollections.<K, V>emptyMap(); } @SuppressWarnings("unchecked") BasicMap1(Object k0, Object v0); @Override int size(); @Override boolean isEmpty(); @Override boolean containsKey(Object ke... |
@Test public void test_immutify_grain() { assertSame(Grain.class, immutify(Grain.class)); assertSame(PartGrain.class, immutify(Compound.Part.class)); assertSame(PartGrain.class, immutify(PartGrain.class)); assertEquals("interface net.nullschool.grains.generate.FooGrain", immutify(Foo.class).toString()); } | Immutify(TypeTable typeTable) { this.typeTable = typeTable; } | Immutify extends AbstractTypeOperator<Type> { Immutify(TypeTable typeTable) { this.typeTable = typeTable; } } | Immutify extends AbstractTypeOperator<Type> { Immutify(TypeTable typeTable) { this.typeTable = typeTable; } Immutify(TypeTable typeTable); } | Immutify extends AbstractTypeOperator<Type> { Immutify(TypeTable typeTable) { this.typeTable = typeTable; } Immutify(TypeTable typeTable); @Override Class<?> apply(Class<?> clazz); @Override Type apply(ParameterizedType pt); @Override Type apply(GenericArrayType gat); @Override Type apply(WildcardType wt); @Override Ty... | Immutify extends AbstractTypeOperator<Type> { Immutify(TypeTable typeTable) { this.typeTable = typeTable; } Immutify(TypeTable typeTable); @Override Class<?> apply(Class<?> clazz); @Override Type apply(ParameterizedType pt); @Override Type apply(GenericArrayType gat); @Override Type apply(WildcardType wt); @Override Ty... |
@Test public void test_withoutAll() { ConstMap<Object, Object> map = new BasicMap1<>("a", 1); assertSame(BasicMap0.instance(), map.withoutAll(Arrays.asList("a"))); assertSame(BasicMap0.instance(), map.withoutAll(Arrays.asList("b", "a", "b", "a"))); assertSame(map, map.withoutAll(Arrays.asList("b"))); assertSame(map, ma... | @Override public ConstMap<K, V> withoutAll(Collection<?> keys) { return !keys.contains(k0) ? this : BasicCollections.<K, V>emptyMap(); } | BasicMap1 extends BasicConstMap<K, V> { @Override public ConstMap<K, V> withoutAll(Collection<?> keys) { return !keys.contains(k0) ? this : BasicCollections.<K, V>emptyMap(); } } | BasicMap1 extends BasicConstMap<K, V> { @Override public ConstMap<K, V> withoutAll(Collection<?> keys) { return !keys.contains(k0) ? this : BasicCollections.<K, V>emptyMap(); } @SuppressWarnings("unchecked") BasicMap1(Object k0, Object v0); } | BasicMap1 extends BasicConstMap<K, V> { @Override public ConstMap<K, V> withoutAll(Collection<?> keys) { return !keys.contains(k0) ? this : BasicCollections.<K, V>emptyMap(); } @SuppressWarnings("unchecked") BasicMap1(Object k0, Object v0); @Override int size(); @Override boolean isEmpty(); @Override boolean containsK... | BasicMap1 extends BasicConstMap<K, V> { @Override public ConstMap<K, V> withoutAll(Collection<?> keys) { return !keys.contains(k0) ? this : BasicCollections.<K, V>emptyMap(); } @SuppressWarnings("unchecked") BasicMap1(Object k0, Object v0); @Override int size(); @Override boolean isEmpty(); @Override boolean containsK... |
@Test(expected = NullPointerException.class) public void test_withoutAll_throws() { new BasicMap1<>("a", 1).withoutAll(null); } | @Override public ConstMap<K, V> withoutAll(Collection<?> keys) { return !keys.contains(k0) ? this : BasicCollections.<K, V>emptyMap(); } | BasicMap1 extends BasicConstMap<K, V> { @Override public ConstMap<K, V> withoutAll(Collection<?> keys) { return !keys.contains(k0) ? this : BasicCollections.<K, V>emptyMap(); } } | BasicMap1 extends BasicConstMap<K, V> { @Override public ConstMap<K, V> withoutAll(Collection<?> keys) { return !keys.contains(k0) ? this : BasicCollections.<K, V>emptyMap(); } @SuppressWarnings("unchecked") BasicMap1(Object k0, Object v0); } | BasicMap1 extends BasicConstMap<K, V> { @Override public ConstMap<K, V> withoutAll(Collection<?> keys) { return !keys.contains(k0) ? this : BasicCollections.<K, V>emptyMap(); } @SuppressWarnings("unchecked") BasicMap1(Object k0, Object v0); @Override int size(); @Override boolean isEmpty(); @Override boolean containsK... | BasicMap1 extends BasicConstMap<K, V> { @Override public ConstMap<K, V> withoutAll(Collection<?> keys) { return !keys.contains(k0) ? this : BasicCollections.<K, V>emptyMap(); } @SuppressWarnings("unchecked") BasicMap1(Object k0, Object v0); @Override int size(); @Override boolean isEmpty(); @Override boolean containsK... |
@Test public void test_get_key() { assertEquals("a", new BasicMap1<>("a", 1).getKey(0)); } | @Override K getKey(int index) { if (index == 0) { return k0; } throw new IndexOutOfBoundsException(); } | BasicMap1 extends BasicConstMap<K, V> { @Override K getKey(int index) { if (index == 0) { return k0; } throw new IndexOutOfBoundsException(); } } | BasicMap1 extends BasicConstMap<K, V> { @Override K getKey(int index) { if (index == 0) { return k0; } throw new IndexOutOfBoundsException(); } @SuppressWarnings("unchecked") BasicMap1(Object k0, Object v0); } | BasicMap1 extends BasicConstMap<K, V> { @Override K getKey(int index) { if (index == 0) { return k0; } throw new IndexOutOfBoundsException(); } @SuppressWarnings("unchecked") BasicMap1(Object k0, Object v0); @Override int size(); @Override boolean isEmpty(); @Override boolean containsKey(Object key); @Override boolean... | BasicMap1 extends BasicConstMap<K, V> { @Override K getKey(int index) { if (index == 0) { return k0; } throw new IndexOutOfBoundsException(); } @SuppressWarnings("unchecked") BasicMap1(Object k0, Object v0); @Override int size(); @Override boolean isEmpty(); @Override boolean containsKey(Object key); @Override boolean... |
@Test public void test_get_value() { assertEquals(1, new BasicMap1<>("a", 1).getValue(0)); } | @Override V getValue(int index) { if (index == 0) { return v0; } throw new IndexOutOfBoundsException(); } | BasicMap1 extends BasicConstMap<K, V> { @Override V getValue(int index) { if (index == 0) { return v0; } throw new IndexOutOfBoundsException(); } } | BasicMap1 extends BasicConstMap<K, V> { @Override V getValue(int index) { if (index == 0) { return v0; } throw new IndexOutOfBoundsException(); } @SuppressWarnings("unchecked") BasicMap1(Object k0, Object v0); } | BasicMap1 extends BasicConstMap<K, V> { @Override V getValue(int index) { if (index == 0) { return v0; } throw new IndexOutOfBoundsException(); } @SuppressWarnings("unchecked") BasicMap1(Object k0, Object v0); @Override int size(); @Override boolean isEmpty(); @Override boolean containsKey(Object key); @Override boole... | BasicMap1 extends BasicConstMap<K, V> { @Override V getValue(int index) { if (index == 0) { return v0; } throw new IndexOutOfBoundsException(); } @SuppressWarnings("unchecked") BasicMap1(Object k0, Object v0); @Override int size(); @Override boolean isEmpty(); @Override boolean containsKey(Object key); @Override boole... |
@Test(expected = IndexOutOfBoundsException.class) public void test_out_of_bounds_get_key() { new BasicMap1<>("a", 1).getKey(1); } | @Override K getKey(int index) { if (index == 0) { return k0; } throw new IndexOutOfBoundsException(); } | BasicMap1 extends BasicConstMap<K, V> { @Override K getKey(int index) { if (index == 0) { return k0; } throw new IndexOutOfBoundsException(); } } | BasicMap1 extends BasicConstMap<K, V> { @Override K getKey(int index) { if (index == 0) { return k0; } throw new IndexOutOfBoundsException(); } @SuppressWarnings("unchecked") BasicMap1(Object k0, Object v0); } | BasicMap1 extends BasicConstMap<K, V> { @Override K getKey(int index) { if (index == 0) { return k0; } throw new IndexOutOfBoundsException(); } @SuppressWarnings("unchecked") BasicMap1(Object k0, Object v0); @Override int size(); @Override boolean isEmpty(); @Override boolean containsKey(Object key); @Override boolean... | BasicMap1 extends BasicConstMap<K, V> { @Override K getKey(int index) { if (index == 0) { return k0; } throw new IndexOutOfBoundsException(); } @SuppressWarnings("unchecked") BasicMap1(Object k0, Object v0); @Override int size(); @Override boolean isEmpty(); @Override boolean containsKey(Object key); @Override boolean... |
@Test(expected = IndexOutOfBoundsException.class) public void test_out_of_bounds_get_value() { new BasicMap1<>("a", 1).getValue(1); } | @Override V getValue(int index) { if (index == 0) { return v0; } throw new IndexOutOfBoundsException(); } | BasicMap1 extends BasicConstMap<K, V> { @Override V getValue(int index) { if (index == 0) { return v0; } throw new IndexOutOfBoundsException(); } } | BasicMap1 extends BasicConstMap<K, V> { @Override V getValue(int index) { if (index == 0) { return v0; } throw new IndexOutOfBoundsException(); } @SuppressWarnings("unchecked") BasicMap1(Object k0, Object v0); } | BasicMap1 extends BasicConstMap<K, V> { @Override V getValue(int index) { if (index == 0) { return v0; } throw new IndexOutOfBoundsException(); } @SuppressWarnings("unchecked") BasicMap1(Object k0, Object v0); @Override int size(); @Override boolean isEmpty(); @Override boolean containsKey(Object key); @Override boole... | BasicMap1 extends BasicConstMap<K, V> { @Override V getValue(int index) { if (index == 0) { return v0; } throw new IndexOutOfBoundsException(); } @SuppressWarnings("unchecked") BasicMap1(Object k0, Object v0); @Override int size(); @Override boolean isEmpty(); @Override boolean containsKey(Object key); @Override boole... |
@Test public void test_emptySortedSet() { assertSame(BasicSortedSet0.instance(null), emptySortedSet(null)); Comparator<Object> reverse = reverseOrder(); assertSame(BasicSortedSet0.instance(reverse).comparator(), emptySortedSet(reverse).comparator()); } | @Override public Comparator<? super E> comparator() { return comparator; } | BasicConstSortedSet extends BasicConstSet<E> implements ConstSortedSet<E> { @Override public Comparator<? super E> comparator() { return comparator; } } | BasicConstSortedSet extends BasicConstSet<E> implements ConstSortedSet<E> { @Override public Comparator<? super E> comparator() { return comparator; } BasicConstSortedSet(Comparator<? super E> comparator); } | BasicConstSortedSet extends BasicConstSet<E> implements ConstSortedSet<E> { @Override public Comparator<? super E> comparator() { return comparator; } BasicConstSortedSet(Comparator<? super E> comparator); @Override Comparator<? super E> comparator(); } | BasicConstSortedSet extends BasicConstSet<E> implements ConstSortedSet<E> { @Override public Comparator<? super E> comparator() { return comparator; } BasicConstSortedSet(Comparator<? super E> comparator); @Override Comparator<? super E> comparator(); } |
@Test public void test_with() { ConstSortedSet<Integer> set; set = new BasicSortedSet1<>(null, 1); compare_sorted_sets(newSortedSet(null, 1, 2), set.with(2)); assertSame(set, set.with(1)); set = new BasicSortedSet1<>(reverseOrder(), 1); compare_sorted_sets(newSortedSet(reverseOrder(), 2, 1), set.with(2)); assertSame(se... | @Override public ConstSortedSet<E> with(E e) { int cmp = compare(e, e0); return cmp == 0 ? this : cmp < 0 ? new BasicSortedSetN<>(comparator, new Object[] {e, e0}) : new BasicSortedSetN<>(comparator, new Object[] {e0, e}); } | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override public ConstSortedSet<E> with(E e) { int cmp = compare(e, e0); return cmp == 0 ? this : cmp < 0 ? new BasicSortedSetN<>(comparator, new Object[] {e, e0}) : new BasicSortedSetN<>(comparator, new Object[] {e0, e}); } } | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override public ConstSortedSet<E> with(E e) { int cmp = compare(e, e0); return cmp == 0 ? this : cmp < 0 ? new BasicSortedSetN<>(comparator, new Object[] {e, e0}) : new BasicSortedSetN<>(comparator, new Object[] {e0, e}); } @SuppressWarnings("unchecked") BasicSortedSet... | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override public ConstSortedSet<E> with(E e) { int cmp = compare(e, e0); return cmp == 0 ? this : cmp < 0 ? new BasicSortedSetN<>(comparator, new Object[] {e, e0}) : new BasicSortedSetN<>(comparator, new Object[] {e0, e}); } @SuppressWarnings("unchecked") BasicSortedSet... | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override public ConstSortedSet<E> with(E e) { int cmp = compare(e, e0); return cmp == 0 ? this : cmp < 0 ? new BasicSortedSetN<>(comparator, new Object[] {e, e0}) : new BasicSortedSetN<>(comparator, new Object[] {e0, e}); } @SuppressWarnings("unchecked") BasicSortedSet... |
@Test public void test_withAll() { ConstSortedSet<Integer> set; set = new BasicSortedSet1<>(null, 1); compare_sorted_sets(newSortedSet(null, 1, 2, 3), set.withAll(Arrays.asList(1, 2, 3, 3, 2, 1))); assertSame(set, set.withAll(Arrays.asList(1, 1, 1, 1, 1, 1))); assertSame(set, set.withAll(Collections.<Integer>emptyList(... | @Override public ConstSortedSet<E> withAll(Collection<? extends E> c) { if (c.isEmpty()) { return this; } Object[] expanded = unionInto(new Object[] {e0}, c.toArray(), comparator); return expanded.length == size() ? this : condenseToSortedSet(comparator, expanded); } | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override public ConstSortedSet<E> withAll(Collection<? extends E> c) { if (c.isEmpty()) { return this; } Object[] expanded = unionInto(new Object[] {e0}, c.toArray(), comparator); return expanded.length == size() ? this : condenseToSortedSet(comparator, expanded); } } | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override public ConstSortedSet<E> withAll(Collection<? extends E> c) { if (c.isEmpty()) { return this; } Object[] expanded = unionInto(new Object[] {e0}, c.toArray(), comparator); return expanded.length == size() ? this : condenseToSortedSet(comparator, expanded); } @Su... | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override public ConstSortedSet<E> withAll(Collection<? extends E> c) { if (c.isEmpty()) { return this; } Object[] expanded = unionInto(new Object[] {e0}, c.toArray(), comparator); return expanded.length == size() ? this : condenseToSortedSet(comparator, expanded); } @Su... | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override public ConstSortedSet<E> withAll(Collection<? extends E> c) { if (c.isEmpty()) { return this; } Object[] expanded = unionInto(new Object[] {e0}, c.toArray(), comparator); return expanded.length == size() ? this : condenseToSortedSet(comparator, expanded); } @Su... |
@Test(expected = NullPointerException.class) public void test_withAll_throws() { new BasicSortedSet1<>(null, 1).withAll(null); } | @Override public ConstSortedSet<E> withAll(Collection<? extends E> c) { if (c.isEmpty()) { return this; } Object[] expanded = unionInto(new Object[] {e0}, c.toArray(), comparator); return expanded.length == size() ? this : condenseToSortedSet(comparator, expanded); } | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override public ConstSortedSet<E> withAll(Collection<? extends E> c) { if (c.isEmpty()) { return this; } Object[] expanded = unionInto(new Object[] {e0}, c.toArray(), comparator); return expanded.length == size() ? this : condenseToSortedSet(comparator, expanded); } } | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override public ConstSortedSet<E> withAll(Collection<? extends E> c) { if (c.isEmpty()) { return this; } Object[] expanded = unionInto(new Object[] {e0}, c.toArray(), comparator); return expanded.length == size() ? this : condenseToSortedSet(comparator, expanded); } @Su... | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override public ConstSortedSet<E> withAll(Collection<? extends E> c) { if (c.isEmpty()) { return this; } Object[] expanded = unionInto(new Object[] {e0}, c.toArray(), comparator); return expanded.length == size() ? this : condenseToSortedSet(comparator, expanded); } @Su... | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override public ConstSortedSet<E> withAll(Collection<? extends E> c) { if (c.isEmpty()) { return this; } Object[] expanded = unionInto(new Object[] {e0}, c.toArray(), comparator); return expanded.length == size() ? this : condenseToSortedSet(comparator, expanded); } @Su... |
@Test public void test_grain_array_not_immutable() { try { immutify(PartGrain[].class); fail(); } catch (IllegalArgumentException expected) {} } | Immutify(TypeTable typeTable) { this.typeTable = typeTable; } | Immutify extends AbstractTypeOperator<Type> { Immutify(TypeTable typeTable) { this.typeTable = typeTable; } } | Immutify extends AbstractTypeOperator<Type> { Immutify(TypeTable typeTable) { this.typeTable = typeTable; } Immutify(TypeTable typeTable); } | Immutify extends AbstractTypeOperator<Type> { Immutify(TypeTable typeTable) { this.typeTable = typeTable; } Immutify(TypeTable typeTable); @Override Class<?> apply(Class<?> clazz); @Override Type apply(ParameterizedType pt); @Override Type apply(GenericArrayType gat); @Override Type apply(WildcardType wt); @Override Ty... | Immutify extends AbstractTypeOperator<Type> { Immutify(TypeTable typeTable) { this.typeTable = typeTable; } Immutify(TypeTable typeTable); @Override Class<?> apply(Class<?> clazz); @Override Type apply(ParameterizedType pt); @Override Type apply(GenericArrayType gat); @Override Type apply(WildcardType wt); @Override Ty... |
@Test public void test_without() { ConstSortedSet<Integer> set; set = new BasicSortedSet1<>(null, 1); compare_sorted_sets(BasicSortedSet0.instance(null), set.without(1)); assertSame(set, set.without(2)); set = new BasicSortedSet1<>(reverseOrder(), 1); compare_sorted_sets(BasicSortedSet0.instance(reverseOrder()), set.wi... | @Override public ConstSortedSet<E> without(Object o) { return !contains(o) ? this : emptySortedSet(comparator); } | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override public ConstSortedSet<E> without(Object o) { return !contains(o) ? this : emptySortedSet(comparator); } } | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override public ConstSortedSet<E> without(Object o) { return !contains(o) ? this : emptySortedSet(comparator); } @SuppressWarnings("unchecked") BasicSortedSet1(Comparator<? super E> comparator, Object e0); } | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override public ConstSortedSet<E> without(Object o) { return !contains(o) ? this : emptySortedSet(comparator); } @SuppressWarnings("unchecked") BasicSortedSet1(Comparator<? super E> comparator, Object e0); @Override int size(); @Override boolean isEmpty(); @Override bo... | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override public ConstSortedSet<E> without(Object o) { return !contains(o) ? this : emptySortedSet(comparator); } @SuppressWarnings("unchecked") BasicSortedSet1(Comparator<? super E> comparator, Object e0); @Override int size(); @Override boolean isEmpty(); @Override bo... |
@Test public void test_withoutAll() { ConstSortedSet<Integer> set; set = new BasicSortedSet1<>(null, 1); compare_sorted_sets(BasicSortedSet0.instance(null), set.withoutAll(Arrays.asList(1))); compare_sorted_sets(BasicSortedSet0.instance(null), set.withoutAll(Arrays.asList(2, 1))); assertSame(set, set.withoutAll(Arrays.... | @Override public ConstSortedSet<E> withoutAll(Collection<?> c) { return !c.contains(e0) ? this : emptySortedSet(comparator); } | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override public ConstSortedSet<E> withoutAll(Collection<?> c) { return !c.contains(e0) ? this : emptySortedSet(comparator); } } | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override public ConstSortedSet<E> withoutAll(Collection<?> c) { return !c.contains(e0) ? this : emptySortedSet(comparator); } @SuppressWarnings("unchecked") BasicSortedSet1(Comparator<? super E> comparator, Object e0); } | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override public ConstSortedSet<E> withoutAll(Collection<?> c) { return !c.contains(e0) ? this : emptySortedSet(comparator); } @SuppressWarnings("unchecked") BasicSortedSet1(Comparator<? super E> comparator, Object e0); @Override int size(); @Override boolean isEmpty();... | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override public ConstSortedSet<E> withoutAll(Collection<?> c) { return !c.contains(e0) ? this : emptySortedSet(comparator); } @SuppressWarnings("unchecked") BasicSortedSet1(Comparator<? super E> comparator, Object e0); @Override int size(); @Override boolean isEmpty();... |
@Test(expected = NullPointerException.class) public void test_withoutAll_throws() { new BasicSortedSet1<>(null, 1).withoutAll(null); } | @Override public ConstSortedSet<E> withoutAll(Collection<?> c) { return !c.contains(e0) ? this : emptySortedSet(comparator); } | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override public ConstSortedSet<E> withoutAll(Collection<?> c) { return !c.contains(e0) ? this : emptySortedSet(comparator); } } | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override public ConstSortedSet<E> withoutAll(Collection<?> c) { return !c.contains(e0) ? this : emptySortedSet(comparator); } @SuppressWarnings("unchecked") BasicSortedSet1(Comparator<? super E> comparator, Object e0); } | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override public ConstSortedSet<E> withoutAll(Collection<?> c) { return !c.contains(e0) ? this : emptySortedSet(comparator); } @SuppressWarnings("unchecked") BasicSortedSet1(Comparator<? super E> comparator, Object e0); @Override int size(); @Override boolean isEmpty();... | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override public ConstSortedSet<E> withoutAll(Collection<?> c) { return !c.contains(e0) ? this : emptySortedSet(comparator); } @SuppressWarnings("unchecked") BasicSortedSet1(Comparator<? super E> comparator, Object e0); @Override int size(); @Override boolean isEmpty();... |
@Test public void test_get() { assertEquals(1, new BasicSortedSet1<>(null, 1).get(0)); } | @Override E get(int index) { if (index == 0) { return e0; } throw new IndexOutOfBoundsException(); } | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override E get(int index) { if (index == 0) { return e0; } throw new IndexOutOfBoundsException(); } } | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override E get(int index) { if (index == 0) { return e0; } throw new IndexOutOfBoundsException(); } @SuppressWarnings("unchecked") BasicSortedSet1(Comparator<? super E> comparator, Object e0); } | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override E get(int index) { if (index == 0) { return e0; } throw new IndexOutOfBoundsException(); } @SuppressWarnings("unchecked") BasicSortedSet1(Comparator<? super E> comparator, Object e0); @Override int size(); @Override boolean isEmpty(); @Override boolean contain... | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override E get(int index) { if (index == 0) { return e0; } throw new IndexOutOfBoundsException(); } @SuppressWarnings("unchecked") BasicSortedSet1(Comparator<? super E> comparator, Object e0); @Override int size(); @Override boolean isEmpty(); @Override boolean contain... |
@Test(expected = IndexOutOfBoundsException.class) public void test_out_of_bounds_get() { new BasicSortedSet1<>(null, 1).get(1); } | @Override E get(int index) { if (index == 0) { return e0; } throw new IndexOutOfBoundsException(); } | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override E get(int index) { if (index == 0) { return e0; } throw new IndexOutOfBoundsException(); } } | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override E get(int index) { if (index == 0) { return e0; } throw new IndexOutOfBoundsException(); } @SuppressWarnings("unchecked") BasicSortedSet1(Comparator<? super E> comparator, Object e0); } | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override E get(int index) { if (index == 0) { return e0; } throw new IndexOutOfBoundsException(); } @SuppressWarnings("unchecked") BasicSortedSet1(Comparator<? super E> comparator, Object e0); @Override int size(); @Override boolean isEmpty(); @Override boolean contain... | BasicSortedSet1 extends BasicConstSortedSet<E> { @Override E get(int index) { if (index == 0) { return e0; } throw new IndexOutOfBoundsException(); } @SuppressWarnings("unchecked") BasicSortedSet1(Comparator<? super E> comparator, Object e0); @Override int size(); @Override boolean isEmpty(); @Override boolean contain... |
@Test public void test_with() { ConstMap<Object, Object> map; map = new BasicMapN<>(new Object[] {"a", "b", "c", "d"}, new Object[] {1, 2, 3, 4}); compare_maps(newMap("a", 1, "b", 2, "c", 3, "d", 4, "e", 5), map.with("e", 5)); compare_maps(newMap("a", 1, "b", 9, "c", 3, "d", 4), map.with("b", 9)); compare_maps(newMap("... | @Override public ConstMap<K, V> with(K key, V value) { final int index = ArrayTools.indexOf(key, keys); if (index >= 0) { if (Objects.equals(value, values[index])) { return this; } return new BasicMapN<>(keys, replace(values, index, value)); } final int length = keys.length; return new BasicMapN<>(insert(keys, length, ... | BasicMapN extends BasicConstMap<K, V> { @Override public ConstMap<K, V> with(K key, V value) { final int index = ArrayTools.indexOf(key, keys); if (index >= 0) { if (Objects.equals(value, values[index])) { return this; } return new BasicMapN<>(keys, replace(values, index, value)); } final int length = keys.length; retu... | BasicMapN extends BasicConstMap<K, V> { @Override public ConstMap<K, V> with(K key, V value) { final int index = ArrayTools.indexOf(key, keys); if (index >= 0) { if (Objects.equals(value, values[index])) { return this; } return new BasicMapN<>(keys, replace(values, index, value)); } final int length = keys.length; retu... | BasicMapN extends BasicConstMap<K, V> { @Override public ConstMap<K, V> with(K key, V value) { final int index = ArrayTools.indexOf(key, keys); if (index >= 0) { if (Objects.equals(value, values[index])) { return this; } return new BasicMapN<>(keys, replace(values, index, value)); } final int length = keys.length; retu... | BasicMapN extends BasicConstMap<K, V> { @Override public ConstMap<K, V> with(K key, V value) { final int index = ArrayTools.indexOf(key, keys); if (index >= 0) { if (Objects.equals(value, values[index])) { return this; } return new BasicMapN<>(keys, replace(values, index, value)); } final int length = keys.length; retu... |
@Test public void test_withAll() { ConstMap<Object, Object> map = new BasicMapN<>(new Object[] {"a", "b", "c", "d"}, new Object[] {1, 2, 3, 4}); compare_maps( newMap("a", 1, "b", 9, "c", 3, "d", 4, "e", 5, "f", 6), map.withAll(newMap("e", 5, "f", 6, "b", 9))); compare_maps(map, map.withAll(newMap("a", 1, "b", 2))); ass... | @Override public ConstMap<K, V> withAll(Map<? extends K, ? extends V> map) { if (map.isEmpty()) { return this; } MapColumns mc = copy(map); return condenseToMap(unionInto(keys, values, mc.keys, mc.values)); } | BasicMapN extends BasicConstMap<K, V> { @Override public ConstMap<K, V> withAll(Map<? extends K, ? extends V> map) { if (map.isEmpty()) { return this; } MapColumns mc = copy(map); return condenseToMap(unionInto(keys, values, mc.keys, mc.values)); } } | BasicMapN extends BasicConstMap<K, V> { @Override public ConstMap<K, V> withAll(Map<? extends K, ? extends V> map) { if (map.isEmpty()) { return this; } MapColumns mc = copy(map); return condenseToMap(unionInto(keys, values, mc.keys, mc.values)); } @SuppressWarnings("unchecked") BasicMapN(Object[] keys, Object[] value... | BasicMapN extends BasicConstMap<K, V> { @Override public ConstMap<K, V> withAll(Map<? extends K, ? extends V> map) { if (map.isEmpty()) { return this; } MapColumns mc = copy(map); return condenseToMap(unionInto(keys, values, mc.keys, mc.values)); } @SuppressWarnings("unchecked") BasicMapN(Object[] keys, Object[] value... | BasicMapN extends BasicConstMap<K, V> { @Override public ConstMap<K, V> withAll(Map<? extends K, ? extends V> map) { if (map.isEmpty()) { return this; } MapColumns mc = copy(map); return condenseToMap(unionInto(keys, values, mc.keys, mc.values)); } @SuppressWarnings("unchecked") BasicMapN(Object[] keys, Object[] value... |
@Test(expected = NullPointerException.class) public void test_withAll_throws() { new BasicMapN<>(new Object[] {"a", "b", "c", "d"}, new Object[] {1, 2, 3, 4}).withAll(null); } | @Override public ConstMap<K, V> withAll(Map<? extends K, ? extends V> map) { if (map.isEmpty()) { return this; } MapColumns mc = copy(map); return condenseToMap(unionInto(keys, values, mc.keys, mc.values)); } | BasicMapN extends BasicConstMap<K, V> { @Override public ConstMap<K, V> withAll(Map<? extends K, ? extends V> map) { if (map.isEmpty()) { return this; } MapColumns mc = copy(map); return condenseToMap(unionInto(keys, values, mc.keys, mc.values)); } } | BasicMapN extends BasicConstMap<K, V> { @Override public ConstMap<K, V> withAll(Map<? extends K, ? extends V> map) { if (map.isEmpty()) { return this; } MapColumns mc = copy(map); return condenseToMap(unionInto(keys, values, mc.keys, mc.values)); } @SuppressWarnings("unchecked") BasicMapN(Object[] keys, Object[] value... | BasicMapN extends BasicConstMap<K, V> { @Override public ConstMap<K, V> withAll(Map<? extends K, ? extends V> map) { if (map.isEmpty()) { return this; } MapColumns mc = copy(map); return condenseToMap(unionInto(keys, values, mc.keys, mc.values)); } @SuppressWarnings("unchecked") BasicMapN(Object[] keys, Object[] value... | BasicMapN extends BasicConstMap<K, V> { @Override public ConstMap<K, V> withAll(Map<? extends K, ? extends V> map) { if (map.isEmpty()) { return this; } MapColumns mc = copy(map); return condenseToMap(unionInto(keys, values, mc.keys, mc.values)); } @SuppressWarnings("unchecked") BasicMapN(Object[] keys, Object[] value... |
@Test public void test_without() { ConstMap<Object, Object> map = new BasicMapN<>(new Object[] {"a", "b", "c", "d"}, new Object[] {1, 2, 3, 4}); compare_maps(newMap("a", 1, "b", 2, "c", 3), map.without("d")); assertSame(map, map.without("e")); assertSame(map, map.without(null)); } | @Override public ConstMap<K, V> without(Object key) { int index = ArrayTools.indexOf(key, keys); return index < 0 ? this : BasicCollections.<K, V>condenseToMap(delete(keys, index), delete(values, index)); } | BasicMapN extends BasicConstMap<K, V> { @Override public ConstMap<K, V> without(Object key) { int index = ArrayTools.indexOf(key, keys); return index < 0 ? this : BasicCollections.<K, V>condenseToMap(delete(keys, index), delete(values, index)); } } | BasicMapN extends BasicConstMap<K, V> { @Override public ConstMap<K, V> without(Object key) { int index = ArrayTools.indexOf(key, keys); return index < 0 ? this : BasicCollections.<K, V>condenseToMap(delete(keys, index), delete(values, index)); } @SuppressWarnings("unchecked") BasicMapN(Object[] keys, Object[] values)... | BasicMapN extends BasicConstMap<K, V> { @Override public ConstMap<K, V> without(Object key) { int index = ArrayTools.indexOf(key, keys); return index < 0 ? this : BasicCollections.<K, V>condenseToMap(delete(keys, index), delete(values, index)); } @SuppressWarnings("unchecked") BasicMapN(Object[] keys, Object[] values)... | BasicMapN extends BasicConstMap<K, V> { @Override public ConstMap<K, V> without(Object key) { int index = ArrayTools.indexOf(key, keys); return index < 0 ? this : BasicCollections.<K, V>condenseToMap(delete(keys, index), delete(values, index)); } @SuppressWarnings("unchecked") BasicMapN(Object[] keys, Object[] values)... |
@Test(expected = NullPointerException.class) public void test_withoutAll_throws() { new BasicMapN<>(new Object[] {"a", "b", "c", "d"}, new Object[] {1, 2, 3, 4}).withoutAll(null); } | @Override public ConstMap<K, V> withoutAll(Collection<?> keysToDelete) { if (keysToDelete.isEmpty()) { return this; } return condenseToMap(deleteAll(keys, values, keysToDelete)); } | BasicMapN extends BasicConstMap<K, V> { @Override public ConstMap<K, V> withoutAll(Collection<?> keysToDelete) { if (keysToDelete.isEmpty()) { return this; } return condenseToMap(deleteAll(keys, values, keysToDelete)); } } | BasicMapN extends BasicConstMap<K, V> { @Override public ConstMap<K, V> withoutAll(Collection<?> keysToDelete) { if (keysToDelete.isEmpty()) { return this; } return condenseToMap(deleteAll(keys, values, keysToDelete)); } @SuppressWarnings("unchecked") BasicMapN(Object[] keys, Object[] values); } | BasicMapN extends BasicConstMap<K, V> { @Override public ConstMap<K, V> withoutAll(Collection<?> keysToDelete) { if (keysToDelete.isEmpty()) { return this; } return condenseToMap(deleteAll(keys, values, keysToDelete)); } @SuppressWarnings("unchecked") BasicMapN(Object[] keys, Object[] values); @Override int size(); @O... | BasicMapN extends BasicConstMap<K, V> { @Override public ConstMap<K, V> withoutAll(Collection<?> keysToDelete) { if (keysToDelete.isEmpty()) { return this; } return condenseToMap(deleteAll(keys, values, keysToDelete)); } @SuppressWarnings("unchecked") BasicMapN(Object[] keys, Object[] values); @Override int size(); @O... |
@Test public void test_immutify_generic_types() { assertEquals( new TypeToken<ConstCollection<Integer>>(){}.asType(), immutify(new TypeToken<Collection<Integer>>(){}.asType())); assertEquals( new TypeToken<ConstList<Integer>>(){}.asType(), immutify(new TypeToken<List<Integer>>(){}.asType())); assertEquals( new TypeToke... | Immutify(TypeTable typeTable) { this.typeTable = typeTable; } | Immutify extends AbstractTypeOperator<Type> { Immutify(TypeTable typeTable) { this.typeTable = typeTable; } } | Immutify extends AbstractTypeOperator<Type> { Immutify(TypeTable typeTable) { this.typeTable = typeTable; } Immutify(TypeTable typeTable); } | Immutify extends AbstractTypeOperator<Type> { Immutify(TypeTable typeTable) { this.typeTable = typeTable; } Immutify(TypeTable typeTable); @Override Class<?> apply(Class<?> clazz); @Override Type apply(ParameterizedType pt); @Override Type apply(GenericArrayType gat); @Override Type apply(WildcardType wt); @Override Ty... | Immutify extends AbstractTypeOperator<Type> { Immutify(TypeTable typeTable) { this.typeTable = typeTable; } Immutify(TypeTable typeTable); @Override Class<?> apply(Class<?> clazz); @Override Type apply(ParameterizedType pt); @Override Type apply(GenericArrayType gat); @Override Type apply(WildcardType wt); @Override Ty... |
@Test(expected = IndexOutOfBoundsException.class) public void test_out_of_bounds_get_key() { new BasicMapN<>(new Object[] {"1", "2", "3", "4"}, new Object[] {1, 2, 3, 4}).getKey(5); } | @Override K getKey(int index) { return keys[index]; } | BasicMapN extends BasicConstMap<K, V> { @Override K getKey(int index) { return keys[index]; } } | BasicMapN extends BasicConstMap<K, V> { @Override K getKey(int index) { return keys[index]; } @SuppressWarnings("unchecked") BasicMapN(Object[] keys, Object[] values); } | BasicMapN extends BasicConstMap<K, V> { @Override K getKey(int index) { return keys[index]; } @SuppressWarnings("unchecked") BasicMapN(Object[] keys, Object[] values); @Override int size(); @Override boolean containsKey(Object key); @Override boolean containsValue(Object value); @Override V get(Object key); @Override ... | BasicMapN extends BasicConstMap<K, V> { @Override K getKey(int index) { return keys[index]; } @SuppressWarnings("unchecked") BasicMapN(Object[] keys, Object[] values); @Override int size(); @Override boolean containsKey(Object key); @Override boolean containsValue(Object value); @Override V get(Object key); @Override ... |
@Test(expected = IndexOutOfBoundsException.class) public void test_out_of_bounds_get_value() { new BasicMapN<>(new Object[] {"1", "2", "3", "4"}, new Object[] {1, 2, 3, 4}).getValue(5); } | @Override V getValue(int index) { return values[index]; } | BasicMapN extends BasicConstMap<K, V> { @Override V getValue(int index) { return values[index]; } } | BasicMapN extends BasicConstMap<K, V> { @Override V getValue(int index) { return values[index]; } @SuppressWarnings("unchecked") BasicMapN(Object[] keys, Object[] values); } | BasicMapN extends BasicConstMap<K, V> { @Override V getValue(int index) { return values[index]; } @SuppressWarnings("unchecked") BasicMapN(Object[] keys, Object[] values); @Override int size(); @Override boolean containsKey(Object key); @Override boolean containsValue(Object value); @Override V get(Object key); @Overr... | BasicMapN extends BasicConstMap<K, V> { @Override V getValue(int index) { return values[index]; } @SuppressWarnings("unchecked") BasicMapN(Object[] keys, Object[] values); @Override int size(); @Override boolean containsKey(Object key); @Override boolean containsValue(Object value); @Override V get(Object key); @Overr... |
@Test public void test_comparison() { compare_lists(Collections.emptyList(), BasicList0.instance()); } | @SuppressWarnings("unchecked") static <E> BasicList0<E> instance() { return INSTANCE; } | BasicList0 extends BasicConstList<E> { @SuppressWarnings("unchecked") static <E> BasicList0<E> instance() { return INSTANCE; } } | BasicList0 extends BasicConstList<E> { @SuppressWarnings("unchecked") static <E> BasicList0<E> instance() { return INSTANCE; } private BasicList0(); } | BasicList0 extends BasicConstList<E> { @SuppressWarnings("unchecked") static <E> BasicList0<E> instance() { return INSTANCE; } private BasicList0(); @Override int size(); @Override boolean isEmpty(); @Override Iterator<E> iterator(); @Override ListIterator<E> listIterator(); @Override ListIterator<E> listIterator(int ... | BasicList0 extends BasicConstList<E> { @SuppressWarnings("unchecked") static <E> BasicList0<E> instance() { return INSTANCE; } private BasicList0(); @Override int size(); @Override boolean isEmpty(); @Override Iterator<E> iterator(); @Override ListIterator<E> listIterator(); @Override ListIterator<E> listIterator(int ... |
@Test public void test_immutable() { assert_list_immutable(BasicList0.instance()); } | @SuppressWarnings("unchecked") static <E> BasicList0<E> instance() { return INSTANCE; } | BasicList0 extends BasicConstList<E> { @SuppressWarnings("unchecked") static <E> BasicList0<E> instance() { return INSTANCE; } } | BasicList0 extends BasicConstList<E> { @SuppressWarnings("unchecked") static <E> BasicList0<E> instance() { return INSTANCE; } private BasicList0(); } | BasicList0 extends BasicConstList<E> { @SuppressWarnings("unchecked") static <E> BasicList0<E> instance() { return INSTANCE; } private BasicList0(); @Override int size(); @Override boolean isEmpty(); @Override Iterator<E> iterator(); @Override ListIterator<E> listIterator(); @Override ListIterator<E> listIterator(int ... | BasicList0 extends BasicConstList<E> { @SuppressWarnings("unchecked") static <E> BasicList0<E> instance() { return INSTANCE; } private BasicList0(); @Override int size(); @Override boolean isEmpty(); @Override Iterator<E> iterator(); @Override ListIterator<E> listIterator(); @Override ListIterator<E> listIterator(int ... |
@Test public void test_serialization() throws Exception { ByteArrayOutputStream baos = new ByteArrayOutputStream(); ObjectOutputStream out = new ObjectOutputStream(baos); out.writeObject(BasicList0.instance()); byte[] data = baos.toByteArray(); assertEquals( "aced05sr0&net.nullschool.collect.basic.ListProxy00000001300x... | @SuppressWarnings("unchecked") static <E> BasicList0<E> instance() { return INSTANCE; } | BasicList0 extends BasicConstList<E> { @SuppressWarnings("unchecked") static <E> BasicList0<E> instance() { return INSTANCE; } } | BasicList0 extends BasicConstList<E> { @SuppressWarnings("unchecked") static <E> BasicList0<E> instance() { return INSTANCE; } private BasicList0(); } | BasicList0 extends BasicConstList<E> { @SuppressWarnings("unchecked") static <E> BasicList0<E> instance() { return INSTANCE; } private BasicList0(); @Override int size(); @Override boolean isEmpty(); @Override Iterator<E> iterator(); @Override ListIterator<E> listIterator(); @Override ListIterator<E> listIterator(int ... | BasicList0 extends BasicConstList<E> { @SuppressWarnings("unchecked") static <E> BasicList0<E> instance() { return INSTANCE; } private BasicList0(); @Override int size(); @Override boolean isEmpty(); @Override Iterator<E> iterator(); @Override ListIterator<E> listIterator(); @Override ListIterator<E> listIterator(int ... |
@Test public void test_copy_array() { Object[] src = new Object[] {1, 2, 3}; assertArrayEquals(src, copy(src)); assertNotSame(src, copy(src)); assertArrayEquals(EMPTY_OBJECT_ARRAY, copy(EMPTY_OBJECT_ARRAY)); assertArrayEquals(src, copy(new Integer[] {1, 2, 3})); assertEquals(Object[].class, copy(new Integer[] {1, 2, 3}... | static Object[] copy(Object[] original) { return Arrays.copyOf(original, original.length, Object[].class); } | BasicTools { static Object[] copy(Object[] original) { return Arrays.copyOf(original, original.length, Object[].class); } } | BasicTools { static Object[] copy(Object[] original) { return Arrays.copyOf(original, original.length, Object[].class); } private BasicTools(); } | BasicTools { static Object[] copy(Object[] original) { return Arrays.copyOf(original, original.length, Object[].class); } private BasicTools(); } | BasicTools { static Object[] copy(Object[] original) { return Arrays.copyOf(original, original.length, Object[].class); } private BasicTools(); } |
@Test(expected = NullPointerException.class) public void test_copy_array_null() { copy((Object[])null); } | static Object[] copy(Object[] original) { return Arrays.copyOf(original, original.length, Object[].class); } | BasicTools { static Object[] copy(Object[] original) { return Arrays.copyOf(original, original.length, Object[].class); } } | BasicTools { static Object[] copy(Object[] original) { return Arrays.copyOf(original, original.length, Object[].class); } private BasicTools(); } | BasicTools { static Object[] copy(Object[] original) { return Arrays.copyOf(original, original.length, Object[].class); } private BasicTools(); } | BasicTools { static Object[] copy(Object[] original) { return Arrays.copyOf(original, original.length, Object[].class); } private BasicTools(); } |
@Test public void test_copy_array_length() { Object[] src = new Object[] {1, 2, 3}; assertArrayEquals(src, copy(src, 3)); assertNotSame(src, copy(src, 3)); assertArrayEquals(src, copy(new Integer[] {1, 2, 3}, 3)); assertEquals(Object[].class, copy(new Integer[] {1, 2, 3}, 3).getClass()); assertArrayEquals(new Object[] ... | static Object[] copy(Object[] original) { return Arrays.copyOf(original, original.length, Object[].class); } | BasicTools { static Object[] copy(Object[] original) { return Arrays.copyOf(original, original.length, Object[].class); } } | BasicTools { static Object[] copy(Object[] original) { return Arrays.copyOf(original, original.length, Object[].class); } private BasicTools(); } | BasicTools { static Object[] copy(Object[] original) { return Arrays.copyOf(original, original.length, Object[].class); } private BasicTools(); } | BasicTools { static Object[] copy(Object[] original) { return Arrays.copyOf(original, original.length, Object[].class); } private BasicTools(); } |
@Test(expected = NullPointerException.class) public void test_copy_array_length_null() { copy(null, 0); } | static Object[] copy(Object[] original) { return Arrays.copyOf(original, original.length, Object[].class); } | BasicTools { static Object[] copy(Object[] original) { return Arrays.copyOf(original, original.length, Object[].class); } } | BasicTools { static Object[] copy(Object[] original) { return Arrays.copyOf(original, original.length, Object[].class); } private BasicTools(); } | BasicTools { static Object[] copy(Object[] original) { return Arrays.copyOf(original, original.length, Object[].class); } private BasicTools(); } | BasicTools { static Object[] copy(Object[] original) { return Arrays.copyOf(original, original.length, Object[].class); } private BasicTools(); } |
@Test(expected = NegativeArraySizeException.class) public void test_copy_array_length_negative_size() { copy(EMPTY_OBJECT_ARRAY, -1); } | static Object[] copy(Object[] original) { return Arrays.copyOf(original, original.length, Object[].class); } | BasicTools { static Object[] copy(Object[] original) { return Arrays.copyOf(original, original.length, Object[].class); } } | BasicTools { static Object[] copy(Object[] original) { return Arrays.copyOf(original, original.length, Object[].class); } private BasicTools(); } | BasicTools { static Object[] copy(Object[] original) { return Arrays.copyOf(original, original.length, Object[].class); } private BasicTools(); } | BasicTools { static Object[] copy(Object[] original) { return Arrays.copyOf(original, original.length, Object[].class); } private BasicTools(); } |
@Test public void test_immutify_fails_on_non_immutable_types() { try { immutify(Object.class); fail(); } catch (IllegalArgumentException expected) {} try { immutify(Number.class); fail(); } catch (IllegalArgumentException expected) {} try { immutify(String[].class); fail(); } catch (IllegalArgumentException expected) {... | Immutify(TypeTable typeTable) { this.typeTable = typeTable; } | Immutify extends AbstractTypeOperator<Type> { Immutify(TypeTable typeTable) { this.typeTable = typeTable; } } | Immutify extends AbstractTypeOperator<Type> { Immutify(TypeTable typeTable) { this.typeTable = typeTable; } Immutify(TypeTable typeTable); } | Immutify extends AbstractTypeOperator<Type> { Immutify(TypeTable typeTable) { this.typeTable = typeTable; } Immutify(TypeTable typeTable); @Override Class<?> apply(Class<?> clazz); @Override Type apply(ParameterizedType pt); @Override Type apply(GenericArrayType gat); @Override Type apply(WildcardType wt); @Override Ty... | Immutify extends AbstractTypeOperator<Type> { Immutify(TypeTable typeTable) { this.typeTable = typeTable; } Immutify(TypeTable typeTable); @Override Class<?> apply(Class<?> clazz); @Override Type apply(ParameterizedType pt); @Override Type apply(GenericArrayType gat); @Override Type apply(WildcardType wt); @Override Ty... |
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