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package de.mpii.rdf3x; import java.io.InputStream; import java.io.Reader; import java.sql.Array; import java.sql.Blob; import java.sql.Clob; import java.sql.Date; import java.sql.NClob; import java.sql.Ref; import java.sql.RowId; import java.sql.SQLException; import java.sql.SQLFeatureNotSupportedException; import java.sql.SQLWarning; import java.sql.SQLXML; import java.sql.Time; import java.sql.Timestamp; import java.util.Map; // RDF-3X // (c) 2009 Thomas Neumann. Web site: http://www.mpi-inf.mpg.de/~neumann/rdf3x // // This work is licensed under the Creative Commons // Attribution-Noncommercial-Share Alike 3.0 Unported License. To view a copy // of this license, visit http://creativecommons.org/licenses/by-nc-sa/3.0/ // or send a letter to Creative Commons, 171 Second Street, Suite 300, // San Francisco, California, 94105, USA. public final class ResultSet implements java.sql.ResultSet { // The header private String[] header; // The data private String[][] data; // The current position private int row; // The last column private int lastCol; // Constructor ResultSet(String[] header,String[][] data) { this.header=header; this.data=data; row=-1; } // Move absolutely public boolean absolute(int row) { if (row>0) { if (row>(data.length+1)) return false; this.row=row-1; return true; } else { if ((-row)>data.length) return false; this.row=data.length-row; return true; } } // Move after the last entry public void afterLast() { row=data.length; } // Move before the first entry public void beforeFirst() throws SQLException { throw new SQLFeatureNotSupportedException(); } // Cancel all updates public void cancelRowUpdates() throws SQLException { throw new SQLFeatureNotSupportedException(); } // Clear all warnings public void clearWarnings() {} // Releases resources public void close() { data=null; } // Deletes the current row public void deleteRow() throws SQLException { throw new SQLFeatureNotSupportedException(); } // Find a column public int findColumn(String columnLabel) throws SQLException { for (int index=0;index<header.length;index++) if (header[index].equals(columnLabel)) return index+1; throw new SQLException(); } // Go to the first entry public boolean first() { row=0; return row<data.length; } // Get an entry as array public Array getArray(int columnIndex) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Get an entry as array public Array getArray(String columnLabel) throws SQLException { return getArray(findColumn(columnLabel)); } // Get an entry as ascii stream public InputStream getAsciiStream(int columnIndex) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Get an entry as ascii stream public InputStream getAsciiStream(String columnLabel) throws SQLException { return getAsciiStream(findColumn(columnLabel)); } // Get an entry as big decimal public java.math.BigDecimal getBigDecimal(int columnIndex) throws SQLException { throw new SQLFeatureNotSupportedException(); } /** * Get an entry as big decimal * @deprecated */ public java.math.BigDecimal getBigDecimal(int columnIndex, int scale) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Get an entry as big decimal public java.math.BigDecimal getBigDecimal(String columnLabel) throws SQLException { return getBigDecimal(findColumn(columnLabel)); } /** * Get an entry as big decimal. * @deprecated */ public java.math.BigDecimal getBigDecimal(String columnLabel, int scale) throws SQLException { return getBigDecimal(findColumn(columnLabel),scale); } // Get an entry as binary stream public InputStream getBinaryStream(int columnIndex) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Get an entry as binary stream public InputStream getBinaryStream(String columnLabel) throws SQLException { return getBinaryStream(findColumn(columnLabel)); } // Get an entry as blob public Blob getBlob(int columnIndex) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Get an entry as blob public Blob getBlob(String columnLabel) throws SQLException { return getBlob(findColumn(columnLabel)); } // Get an entry as boolean public boolean getBoolean(int columnIndex) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Get an entry as boolean public boolean getBoolean(String columnLabel) throws SQLException { return getBoolean(findColumn(columnLabel)); } // Get an entry as byte public byte getByte(int columnIndex) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Get an entry as byte public byte getByte(String columnLabel) throws SQLException { return getByte(findColumn(columnLabel)); } // Get an entry as bytes public byte[] getBytes(int columnIndex) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Get an entry as bytes public byte[] getBytes(String columnLabel) throws SQLException { return getBytes(findColumn(columnLabel)); } // Get an entry as character stream public Reader getCharacterStream(int columnIndex) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Get an entry as character stream public Reader getCharacterStream(String columnLabel) throws SQLException { return getCharacterStream(findColumn(columnLabel)); } // Get an entry as clob public Clob getClob(int columnIndex) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Get an entry as clob public Clob getClob(String columnLabel) throws SQLException { return getClob(findColumn(columnLabel)); } // Get the concurrency setting public int getConcurrency() { return java.sql.ResultSet.CONCUR_READ_ONLY; } // Get the cursor name public String getCursorName() throws SQLException { throw new SQLFeatureNotSupportedException(); } // Get an entry as date public Date getDate(int columnIndex) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Get an entry as date public Date getDate(int columnIndex, java.util.Calendar cal) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Get an entry as date public Date getDate(String columnLabel) throws SQLException { return getDate(findColumn(columnLabel)); } // Get an entry as date public Date getDate(String columnLabel, java.util.Calendar cal) throws SQLException { return getDate(findColumn(columnLabel),cal); } // Get an entry as double public double getDouble(int columnIndex) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Get an entry as double public double getDouble(String columnLabel) throws SQLException { return getDouble(findColumn(columnLabel)); } // Get the fetch direction public int getFetchDirection() { return java.sql.ResultSet.FETCH_FORWARD; } // Get the fetch size public int getFetchSize() { return 0; } // Get an entry as float public float getFloat(int columnIndex) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Get an entry as float public float getFloat(String columnLabel) throws SQLException { return getFloat(findColumn(columnLabel)); } // Get the holdability public int getHoldability() { return java.sql.ResultSet.CLOSE_CURSORS_AT_COMMIT; } // Get an entry as int public int getInt(int columnIndex) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Get an entry as int public int getInt(String columnLabel) throws SQLException { return getInt(findColumn(columnLabel)); } // Get an entry as long public long getLong(int columnIndex) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Get an entry as long public long getLong(String columnLabel) throws SQLException { return getLong(findColumn(columnLabel)); } // Get the meta data public java.sql.ResultSetMetaData getMetaData() { return new ResultSetMetaData(header); } // Get an entry as stream public Reader getNCharacterStream(int columnIndex) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Get an entry as stream public Reader getNCharacterStream(String columnLabel) throws SQLException { return getNCharacterStream(findColumn(columnLabel)); } // Get an entry as nclob public NClob getNClob(int columnIndex) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Get an entry as nclob public NClob getNClob(String columnLabel) throws SQLException { return getNClob(findColumn(columnLabel)); } // Get an entry as string public String getNString(int columnIndex) throws SQLException { return getString(columnIndex); } // Get an entry as string public String getNString(String columnLabel) throws SQLException { return getNString(findColumn(columnLabel)); } // Get an entry public Object getObject(int columnIndex) throws SQLException { return getString(columnIndex); } // Get an entry public Object getObject(int columnIndex, Map<String,Class<?>> map) throws SQLException { return getString(columnIndex); } // Get an entry public Object getObject(String columnLabel) throws SQLException { return getObject(findColumn(columnLabel)); } // Get an entry public Object getObject(String columnLabel, Map<String,Class<?>> map) throws SQLException { return getObject(findColumn(columnLabel),map); } // Get an entry as ref public Ref getRef(int columnIndex) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Get an entry as ref public Ref getRef(String columnLabel) throws SQLException { return getRef(findColumn(columnLabel)); } // Get the current row number public int getRow() { return row+1; } // Get an entry as rowid public RowId getRowId(int columnIndex) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Get an entry as rowid public RowId getRowId(String columnLabel) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Get an entry as short public short getShort(int columnIndex) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Get an entry as short public short getShort(String columnLabel) throws SQLException { return getShort(findColumn(columnLabel)); } // Get an entry as SQL public SQLXML getSQLXML(int columnIndex) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Get an entry as SQL public SQLXML getSQLXML(String columnLabel) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Get the corresponding statement public Statement getStatement() throws SQLException { throw new SQLFeatureNotSupportedException(); } // Get an entry as string public String getString(int columnIndex) throws SQLException { if ((row>=data.length)||(columnIndex<1)||(columnIndex>data[row].length)) throw new SQLException(); String s=data[row][columnIndex-1]; lastCol=columnIndex; if ("NULL".equals(s)) return null; else return s; } // Get an entry as string public String getString(String columnLabel) throws SQLException { return getString(findColumn(columnLabel)); } // Get an entry as time public Time getTime(int columnIndex) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Get an entry as time public Time getTime(int columnIndex, java.util.Calendar cal) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Get an entry as time public Time getTime(String columnLabel) throws SQLException { return getTime(findColumn(columnLabel)); } // Get an entry as tme public Time getTime(String columnLabel, java.util.Calendar cal) throws SQLException { return getTime(findColumn(columnLabel),cal); } // Get an entry as timestamp public Timestamp getTimestamp(int columnIndex) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Get an entry as timestamp public Timestamp getTimestamp(int columnIndex, java.util.Calendar cal) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Get an entry as timestamp public Timestamp getTimestamp(String columnLabel) throws SQLException { return getTimestamp(findColumn(columnLabel)); } // Get an entry as timestamp public Timestamp getTimestamp(String columnLabel, java.util.Calendar cal) throws SQLException { return getTimestamp(findColumn(columnLabel),cal); } // Get the type public int getType() { return java.sql.ResultSet.TYPE_FORWARD_ONLY; } /** * Get an entry as unicode stream * @deprecated */ public InputStream getUnicodeStream(int columnIndex) throws SQLException { throw new SQLFeatureNotSupportedException(); } /** * Get an entry as unicode stream * @deprecated */ public InputStream getUnicodeStream(String columnLabel) throws SQLException { return getUnicodeStream(findColumn(columnLabel)); } // Get an entry as URL public java.net.URL getURL(int columnIndex) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Get an entry as URL public java.net.URL getURL(String columnLabel) throws SQLException { return getURL(findColumn(columnLabel)); } // Get warnings public SQLWarning getWarnings() { return null; } // Insert a row public void insertRow() throws SQLException { throw new SQLFeatureNotSupportedException(); } // After the last row public boolean isAfterLast() { return row>=data.length; } // Before the first row public boolean isBeforeFirst() { return false; } // Closed public boolean isClosed() { return data==null; } // At first row public boolean isFirst() { return row==0; } // At last row public boolean isLast() { return row==(data.length-1); } // Go to the last row public boolean last() { if (data.length>0) { row=data.length-1; return true; } else return false; } // Move the cursor public void moveToCurrentRow() throws SQLException { throw new SQLFeatureNotSupportedException(); } // Move the cursor public void moveToInsertRow() throws SQLException { throw new SQLFeatureNotSupportedException(); } // Go to the next row public boolean next() { if (row>=data.length) return false; ++row; return row<data.length; } // Go to the previous row public boolean previous() { if (row==0) return false; --row; return true; } // Refresh the current tow public void refreshRow() {} // Move the cursor relatively public boolean relative(int rows) { if (rows>=0) { if (row+rows>=data.length) { row=data.length; return false; } else { row+=rows; return true; } } else { if (row+rows<0) { row=0; return true; } else { row+=rows; return true; } } } // Deleted public boolean rowDeleted() { return false; } // Inserted public boolean rowInserted() { return false; } // Updated public boolean rowUpdated() { return false; } // Fetch direction public void setFetchDirection(int direction) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Fetch size public void setFetchSize(int rows) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateArray(int columnIndex, Array x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateArray(String columnLabel, Array x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateAsciiStream(int columnIndex, InputStream x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateAsciiStream(int columnIndex, InputStream x, int length) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateAsciiStream(int columnIndex, InputStream x, long length) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateAsciiStream(String columnLabel, InputStream x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateAsciiStream(String columnLabel, InputStream x, int length) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateAsciiStream(String columnLabel, InputStream x, long length) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateBigDecimal(int columnIndex, java.math.BigDecimal x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateBigDecimal(String columnLabel, java.math.BigDecimal x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateBinaryStream(int columnIndex, InputStream x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateBinaryStream(int columnIndex, InputStream x, int length) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateBinaryStream(int columnIndex, InputStream x, long length) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateBinaryStream(String columnLabel, InputStream x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Updare public void updateBinaryStream(String columnLabel, InputStream x, int length) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateBinaryStream(String columnLabel, InputStream x, long length) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateBlob(int columnIndex, Blob x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateBlob(int columnIndex, InputStream inputStream) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateBlob(int columnIndex, InputStream inputStream, long length) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateBlob(String columnLabel, Blob x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateBlob(String columnLabel, InputStream inputStream) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateBlob(String columnLabel, InputStream inputStream, long length) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateBoolean(int columnIndex, boolean x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateBoolean(String columnLabel, boolean x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateByte(int columnIndex, byte x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateByte(String columnLabel, byte x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateBytes(int columnIndex, byte[] x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateBytes(String columnLabel, byte[] x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateCharacterStream(int columnIndex, Reader x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateCharacterStream(int columnIndex, Reader x, int length) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateCharacterStream(int columnIndex, Reader x, long length) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateCharacterStream(String columnLabel, Reader reader) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateCharacterStream(String columnLabel, Reader reader, int length) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateCharacterStream(String columnLabel, Reader reader, long length) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateClob(int columnIndex, Clob x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateClob(int columnIndex, Reader reader) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateClob(int columnIndex, Reader reader, long length) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateClob(String columnLabel, Clob x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateClob(String columnLabel, Reader reader) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateClob(String columnLabel, Reader reader, long length) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateDate(int columnIndex, Date x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateDate(String columnLabel, Date x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateDouble(int columnIndex, double x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateDouble(String columnLabel, double x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateFloat(int columnIndex, float x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateFloat(String columnLabel, float x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateInt(int columnIndex, int x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateInt(String columnLabel, int x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateLong(int columnIndex, long x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateLong(String columnLabel, long x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateNCharacterStream(int columnIndex, Reader x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateNCharacterStream(int columnIndex, Reader x, long length) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateNCharacterStream(String columnLabel, Reader reader) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateNCharacterStream(String columnLabel, Reader reader, long length) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateNClob(int columnIndex, NClob nClob) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateNClob(int columnIndex, Reader reader) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateNClob(int columnIndex, Reader reader, long length) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateNClob(String columnLabel, NClob nClob) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateNClob(String columnLabel, Reader reader) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateNClob(String columnLabel, Reader reader, long length) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateNString(int columnIndex, String nString) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateNString(String columnLabel, String nString) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateNull(int columnIndex) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateNull(String columnLabel) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateObject(int columnIndex, Object x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateObject(int columnIndex, Object x, int scaleOrLength) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateObject(String columnLabel, Object x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateObject(String columnLabel, Object x, int scaleOrLength) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateRef(int columnIndex, Ref x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateRef(String columnLabel, Ref x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateRow() throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateRowId(int columnIndex, RowId x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateRowId(String columnLabel, RowId x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateShort(int columnIndex, short x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateShort(String columnLabel, short x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateSQLXML(int columnIndex, SQLXML xmlObject) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateSQLXML(String columnLabel, SQLXML xmlObject) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateString(int columnIndex, String x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateString(String columnLabel, String x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateTime(int columnIndex, Time x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateTime(String columnLabel, Time x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateTimestamp(int columnIndex, Timestamp x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Update public void updateTimestamp(String columnLabel, Timestamp x) throws SQLException { throw new SQLFeatureNotSupportedException(); } // Was the last column NULL? public boolean wasNull() throws SQLException { return getString(lastCol)==null; } // Wrapper? public boolean isWrapperFor(Class<?> iface) { return false; } // Unwrap public <T> T unwrap(Class<T> iface) throws SQLException { throw new SQLException(); } public <T> T getObject(int columnIndex, Class<T> type) throws SQLException { // TODO Auto-generated method stub return null; } public <T> T getObject(String columnLabel, Class<T> type) throws SQLException { // TODO Auto-generated method stub return null; } }
/* * Copyright 2011 Greg Haines * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package net.greghaines.jesque.meta.dao.impl; import static net.greghaines.jesque.utils.ResqueConstants.FAILED; import static net.greghaines.jesque.utils.ResqueConstants.QUEUE; import static net.greghaines.jesque.utils.ResqueConstants.QUEUES; import static net.greghaines.jesque.utils.ResqueConstants.STAT; import java.io.IOException; import java.util.ArrayList; import java.util.Date; import java.util.List; import java.util.UUID; import net.greghaines.jesque.Config; import net.greghaines.jesque.Job; import net.greghaines.jesque.JobFailure; import net.greghaines.jesque.json.ObjectMapperFactory; import net.greghaines.jesque.meta.dao.FailureDAO; import net.greghaines.jesque.utils.JesqueUtils; import net.greghaines.jesque.utils.PoolUtils; import net.greghaines.jesque.utils.PoolUtils.PoolWork; import redis.clients.jedis.Jedis; import redis.clients.jedis.util.Pool; /** * Accesses failure information about Jesque/Resque from Redis. * * @author Greg Haines */ public class FailureDAORedisImpl implements FailureDAO { private final Config config; private final Pool<Jedis> jedisPool; /** * Constructor. * @param config the Jesque configuration * @param jedisPool the connection pool to Redis */ public FailureDAORedisImpl(final Config config, final Pool<Jedis> jedisPool) { if (config == null) { throw new IllegalArgumentException("config must not be null"); } if (jedisPool == null) { throw new IllegalArgumentException("jedisPool must not be null"); } this.config = config; this.jedisPool = jedisPool; } /** * {@inheritDoc} */ @Override public long getCount() { return PoolUtils.doWorkInPoolNicely(this.jedisPool, new PoolWork<Jedis, Long>() { /** * {@inheritDoc} */ @Override public Long doWork(final Jedis jedis) throws Exception { final String failedStr = jedis.get(key(STAT, FAILED)); return (failedStr == null) ? 0L : Long.parseLong(failedStr); } }); } /** * {@inheritDoc} */ @Override public long getFailQueueJobCount() { return PoolUtils.doWorkInPoolNicely(this.jedisPool, new PoolWork<Jedis, Long>() { /** * {@inheritDoc} */ @Override public Long doWork(final Jedis jedis) throws Exception { return jedis.llen(key(FAILED)); } }); } /** * {@inheritDoc} */ @Override public List<JobFailure> getFailures(final long offset, final long count) { return PoolUtils.doWorkInPoolNicely(this.jedisPool, new PoolWork<Jedis, List<JobFailure>>() { /** * {@inheritDoc} */ @Override public List<JobFailure> doWork(final Jedis jedis) throws Exception { final List<String> payloads = jedis.lrange(key(FAILED), offset, offset + count - 1); final List<JobFailure> failures = new ArrayList<JobFailure>(payloads.size()); for (final String payload : payloads) { if (payload.charAt(0) == '{') { // Ignore non-JSON strings failures.add(ObjectMapperFactory.get().readValue(payload, JobFailure.class)); } } return failures; } }); } /** * {@inheritDoc} */ @Override public void clear() { PoolUtils.doWorkInPoolNicely(this.jedisPool, new PoolWork<Jedis, Void>() { /** * {@inheritDoc} */ @Override public Void doWork(final Jedis jedis) throws Exception { jedis.del(key(FAILED)); return null; } }); } /** * {@inheritDoc} */ @Override public Date requeue(final long index) { Date retryDate = null; final List<JobFailure> failures = getFailures(index, 1); if (!failures.isEmpty()) { retryDate = PoolUtils.doWorkInPoolNicely(this.jedisPool, new PoolWork<Jedis, Date>() { /** * {@inheritDoc} */ @Override public Date doWork(final Jedis jedis) throws Exception { final Date retriedAt = new Date(); final JobFailure failure = failures.get(0); failure.setRetriedAt(retriedAt); jedis.lset(key(FAILED), index, ObjectMapperFactory.get().writeValueAsString(failure)); enqueue(jedis, failure.getQueue(), failure.getPayload()); return retriedAt; } }); } return retryDate; } /** * {@inheritDoc} */ @Override public void remove(final long index) { PoolUtils.doWorkInPoolNicely(this.jedisPool, new PoolWork<Jedis, Void>() { /** * {@inheritDoc} */ @Override public Void doWork(final Jedis jedis) throws Exception { final String failedKey = key(FAILED); final String randId = UUID.randomUUID().toString(); jedis.lset(failedKey, index, randId); jedis.lrem(failedKey, 1, randId); return null; } }); } protected void enqueue(final Jedis jedis, final String queue, final Job job) throws IOException { if (queue == null || "".equals(queue)) { throw new IllegalArgumentException("queue must not be null or empty: " + queue); } if (job == null) { throw new IllegalArgumentException("job must not be null"); } if (!job.isValid()) { throw new IllegalStateException("job is not valid: " + job); } final String msg = ObjectMapperFactory.get().writeValueAsString(job); jedis.sadd(key(QUEUES), queue); jedis.rpush(key(QUEUE, queue), msg); } /** * Builds a namespaced Redis key with the given arguments. * * @param parts * the key parts to be joined * @return an assembled String key */ private String key(final String... parts) { return JesqueUtils.createKey(this.config.getNamespace(), parts); } }
/** * Portions Copyright 2001 Sun Microsystems, Inc. * Portions Copyright 1999-2001 Language Technologies Institute, * Carnegie Mellon University. * All Rights Reserved. Use is subject to license terms. * * See the file "license.terms" for information on usage and * redistribution of this file, and for a DISCLAIMER OF ALL * WARRANTIES. */ package com.sun.speech.freetts; import java.io.BufferedReader; import java.io.IOException; import java.io.InputStream; import java.io.InputStreamReader; import java.io.PrintWriter; import java.io.Reader; import java.net.URL; import java.util.ArrayList; import java.util.Collections; import java.util.HashMap; import java.util.Iterator; import java.util.List; import java.util.Locale; import java.util.Map; import java.util.logging.Level; import java.util.logging.Logger; import org.w3c.dom.Document; import org.w3c.dom.Node; import org.w3c.dom.Text; import com.sun.speech.freetts.audio.AudioPlayer; import com.sun.speech.freetts.lexicon.Lexicon; import com.sun.speech.freetts.relp.LPCResult; import com.sun.speech.freetts.util.BulkTimer; import com.sun.speech.freetts.util.Utilities; /** * Performs text-to-speech using a series of * <code>UtteranceProcessors</code>. It is the main conduit to the FreeTTS * speech synthesizer. It can perform TTS on ASCII text, * a JSML document, an <code>InputStream</code>, or a * <code>FreeTTSSpeakable</code>, by invoking the method <code>speak</code>. * * <p>Before a Voice can perform TTS, it must have a * <code>Lexicon</code>, from which it gets the vocabulary, and * an <code>AudioPlayer</code>, to which it sends the synthesized output. * * <p><b>Example</b> (using the <code>CMUDiphoneVoice</code>, * <code>CMULexicon</code> and <code>JavaClipAudioPlayer</code>): * * <pre> * Voice voice = new CMUDiphoneVoice(); * * // sets the Lexicon * voice.setLexicon(new CMULexicon()); * * // sets the AudioPlayer * voice.setAudioPlayer(new JavaClipAudioPlayer()); * * // loads the Voice * voice.allocate(); * * // start talking * voice.speak("I can talk forever without getting tired!"); * </pre> * * * <p>A user can override the AudioPlayer to use by defining the * "com.sun.speech.freetts.voice.defaultAudioPlayer" system property. * The value of this property must be the name of a class that * implements the AudioPlayer interface, and which also has a no-arg * constructor. * * @see VoiceManager * @see VoiceDirectory */ public abstract class Voice implements UtteranceProcessor, Dumpable { /** Logger instance. */ private static final Logger LOGGER = Logger.getLogger(Voice.class.getName()); /** * Constant that describes the name of the unit database used by * this voice. */ public final static String DATABASE_NAME = "databaseName"; private List utteranceProcessors; private Map featureProcessors; private FeatureSetImpl features; private boolean metrics = false; private boolean detailedMetrics = false; private boolean dumpUtterance = false; private boolean dumpRelations = false; private String runTitle = "unnamed run"; private Lexicon lexicon = null; private AudioPlayer defaultAudioPlayer = null; private AudioPlayer audioPlayer = null; private UtteranceProcessor audioOutput; private OutputQueue outputQueue = null; private String waveDumpFile = null; private BulkTimer runTimer = new BulkTimer(); private BulkTimer threadTimer = new BulkTimer(); private boolean externalOutputQueue = false; private boolean externalAudioPlayer = false; private float nominalRate = 150; // nominal speaking rate for this voice private float pitch = 100; // pitch baseline (hertz) private float range = 10; // pitch range (hertz) private float pitchShift = 1; // F0 Shift private float volume = 0.8f; // the volume (range 0 to 1) private float durationStretch = 1f; // the duration stretch private boolean loaded = false; private String name = "default_name"; private Age age = Age.DONT_CARE; private Gender gender = Gender.DONT_CARE; private String description = "default description"; private Locale locale = Locale.getDefault(); private String domain = "general"; private String style = "standard"; private String organization = "unknown"; /** * Prefix for System property names. */ public final static String PROP_PREFIX = "com.sun.speech.freetts.voice."; /** * Feature name for the silence phone string. */ public final static String FEATURE_SILENCE = "silence"; /** * Feature name for the join type string. */ public final static String FEATURE_JOIN_TYPE = "join_type"; /** * Feature name for the default AudioPlayer class to use. */ public final static String DEFAULT_AUDIO_PLAYER = PROP_PREFIX + "defaultAudioPlayer"; /** * The default class to use for the DEFAULT_AUDIO_PLAYER. */ public final static String DEFAULT_AUDIO_PLAYER_DEFAULT = "com.sun.speech.freetts.audio.JavaStreamingAudioPlayer"; /** * Creates a new Voice. Utterances are sent to an * output queue to be rendered as audio. Utterances are placed * on the queue by an output thread. This * queue is usually created via a call to 'createOutputThread,' * which creates a thread that waits on the queue and sends the * output to the audio player associated with this voice. If * the queue is null, the output is rendered in the calling * thread. * * @see #createOutputThread */ public Voice() { /* Make the utteranceProcessors a synchronized list to avoid * some threading issues. */ utteranceProcessors = Collections.synchronizedList(new ArrayList()); features = new FeatureSetImpl(); featureProcessors = new HashMap(); try { nominalRate = Float.parseFloat( Utilities.getProperty(PROP_PREFIX + "speakingRate","150")); pitch = Float.parseFloat( Utilities.getProperty(PROP_PREFIX + "pitch","100")); range = Float.parseFloat( Utilities.getProperty(PROP_PREFIX + "range","10")); volume = Float.parseFloat( Utilities.getProperty(PROP_PREFIX + "volume","1.0")); } catch (SecurityException se) { // can't get properties, just use defaults } outputQueue = null; audioPlayer = null; defaultAudioPlayer = null; } /** * Creates a new Voice like above, except that it also * stores the properties of the voice. * @param name the name of the voice * @param gender the gender of the voice * @param age the age of the voice * @param description a human-readable string providing a * description that can be displayed for the users. * @param locale the locale of the voice * @param domain the domain of this voice. For example, * @param organization the organization which created the voice * &quot;general&quot;, &quot;time&quot;, or * &quot;weather&quot;. * * @see #Voice() */ public Voice(String name, Gender gender, Age age, String description, Locale locale, String domain, String organization) { this(); setName(name); setGender(gender); setAge(age); setDescription(description); setLocale(locale); setDomain(domain); setOrganization(organization); } /** * Speaks the given text. * * @param text the text to speak * * @return <code>true</code> if the given text is spoken properly; * otherwise <code>false</code> */ public boolean speak(String text) { return speak(new FreeTTSSpeakableImpl(text)); } /** * Speaks the given document. * * @param doc the JSML document to speak * * @return <code>true</code> if the given document is spoken properly; * otherwise <code>false</code> */ public boolean speak(Document doc) { return speak(new FreeTTSSpeakableImpl(doc)); } /** * Speaks the input stream. * * @param inputStream the inputStream to speak * * @return <code>true</code> if the given input stream is spoken properly; * otherwise <code>false</code> */ public boolean speak(InputStream inputStream) { return speak(new FreeTTSSpeakableImpl(inputStream)); } /** * Speak the given queue item. This is a synchronous method that * does not return until the speakable is completely * spoken or has been cancelled. * * @param speakable the item to speak * * @return <code>true</code> if the utterance was spoken properly, * <code>false</code> otherwise */ public boolean speak(FreeTTSSpeakable speakable) { if (LOGGER.isLoggable(Level.FINE)) { LOGGER.fine("speak(FreeTTSSpeakable) called"); } boolean ok = true; boolean posted = false; getAudioPlayer().startFirstSampleTimer(); for (Iterator i = tokenize(speakable); !speakable.isCompleted() && i.hasNext() ; ) { try { Utterance utterance = (Utterance) i.next(); if (utterance != null) { processUtterance(utterance); posted = true; } } catch (ProcessException pe) { ok = false; } } if (ok && posted) { runTimer.start("WaitAudio"); ok = speakable.waitCompleted(); runTimer.stop("WaitAudio"); } if (LOGGER.isLoggable(Level.FINE)) { LOGGER.fine("speak(FreeTTSSpeakable) completed"); } return ok; } /** * @deprecated As of FreeTTS 1.2, replaced by {@link #allocate}. */ public void load() { allocate(); } /** * Allocate this Voice. It loads the lexicon and the * audio output handler, and creates an audio output thread by * invoking <code>createOutputThread()</code>, if * one is not already created. It then calls the <code>loader()</code> * method to load Voice-specific data, which include utterance processors. */ public void allocate() { if (isLoaded()) { return; } BulkTimer.LOAD.start(); if (!lexicon.isLoaded()) { try { lexicon.load(); } catch (IOException ioe) { LOGGER.severe("Can't load voice " + ioe); throw new Error(ioe); } } try { audioOutput = getAudioOutput(); } catch (IOException ioe) { LOGGER.severe("Can't load audio output handler for voice " + ioe); throw new Error(ioe); } if (outputQueue == null) { outputQueue = createOutputThread(); } try { loader(); } catch (IOException ioe) { LOGGER.severe("Can't load voice " + ioe); throw new Error(ioe); } BulkTimer.LOAD.stop(); if (isMetrics()) { BulkTimer.LOAD.show("loading " + toString() + " for " + getRunTitle()); } setLoaded(true); } /** * Returns true if this voice is loaded. * * @return <code>true</code> if the voice is loaded; * otherwise <code>false</code> */ public boolean isLoaded() { return loaded; } /** * Sets the loaded state * * @param loaded the new loaded state * otherwise <code>false</code> */ protected void setLoaded(boolean loaded) { this.loaded = loaded; } /** * Processes the given Utterance by passing it to each * UtteranceProcessor managed by this Voice. The * UtteranceProcessors are called in the order they were added to * the Voice. * * @param u the Utterance to process * * @throws ProcessException if an exception occurred while performing * operations on the Utterance */ public void processUtterance(Utterance u) throws ProcessException { UtteranceProcessor[] processors; if (utteranceProcessors == null) { return; } if (u == null) { throw new ProcessException("Utterance is null."); } runTimer.start("processing"); processors = new UtteranceProcessor[utteranceProcessors.size()]; processors = (UtteranceProcessor[]) utteranceProcessors.toArray(processors); if (LOGGER.isLoggable(Level.FINE)) { LOGGER.fine("Processing Utterance: " + u.getString("input_text")); } try { for (int i = 0; i < processors.length && !u.getSpeakable().isCompleted(); i++) { runProcessor(processors[i], u, runTimer); } if (!u.getSpeakable().isCompleted()) { if (outputQueue == null) { if (LOGGER.isLoggable(Level.FINE)) { LOGGER.fine("To AudioOutput"); } outputUtterance(u, runTimer); } else { runTimer.start("..post"); outputQueue.post(u); runTimer.stop("..post"); } } } catch (ProcessException pe) { System.err.println("Processing Utterance: " + pe); } catch (Exception e) { System.err.println("Trouble while processing utterance " + e); e.printStackTrace(); u.getSpeakable().cancelled(); } if (LOGGER.isLoggable(Level.FINE)) { LOGGER.fine("Done Processing Utterance: " + u.getString("input_text")); } runTimer.stop("processing"); if (dumpUtterance) { u.dump("Utterance"); } if (dumpRelations) { u.dumpRelations("Utterance"); } dumpASCII(u); } /** * Dumps the wave for the given utterance. * * @param utterance the utterance of interest */ private void dumpASCII(Utterance utterance) { if (waveDumpFile != null) { LPCResult lpcResult = (LPCResult) utterance.getObject("target_lpcres"); try { if (waveDumpFile.equals("-")) { lpcResult.dumpASCII(); } else { lpcResult.dumpASCII(waveDumpFile); } } catch (IOException ioe) { LOGGER.severe("Can't dump file to " + waveDumpFile + " " + ioe); throw new Error(ioe); } } } /** * Creates an output thread that will asynchronously * output utterances that are generated by this voice (and other * voices). * * @return the queue where utterances should be placed. */ public static OutputQueue createOutputThread() { final OutputQueue queue = new OutputQueue(); Thread t = new Thread() { public void run() { Utterance utterance = null; do { utterance = queue.pend(); if (utterance != null) { Voice voice = utterance.getVoice(); if (LOGGER.isLoggable(Level.FINE)) { LOGGER.fine("OUT: " + utterance.getString("input_text")); } voice.outputUtterance(utterance, voice.threadTimer); } } while (utterance != null); } }; t.setDaemon(true); t.start(); return queue; } /** * Sends the given utterance to the audio output processor * associated with this voice. If the queue item associated with * this utterance is completed, then this set of utterances has * been cancelled or otherwise aborted and the utterance should * not be output. * * @param utterance the utterance to be output * @param timer the timer for gathering performance metrics * * @return true if the utterance was output properly; otherwise * false */ private boolean outputUtterance(Utterance utterance, BulkTimer timer) { boolean ok = true; FreeTTSSpeakable speakable = utterance.getSpeakable(); if (!speakable.isCompleted()) { if (utterance.isFirst()) { getAudioPlayer().reset(); speakable.started(); if (LOGGER.isLoggable(Level.FINE)) { LOGGER.fine(" --- started ---"); } } // log(" utt: " + utterance.getString("input_text")); try { if (!speakable.isCompleted()) { runProcessor(audioOutput, utterance, timer); } else { ok = false; } } catch (ProcessException pe) { ok = false; } if (ok && utterance.isLast()) { getAudioPlayer().drain(); speakable.completed(); if (LOGGER.isLoggable(Level.FINE)) { LOGGER.fine(" --- completed ---"); } } else if (!ok) { // getAudioPlayer().drain(); speakable.cancelled(); if (LOGGER.isLoggable(Level.FINE)) { LOGGER.fine(" --- cancelled ---"); } } else { if (LOGGER.isLoggable(Level.FINE)) { LOGGER.fine(" --- not last: " + speakable.getText() + " --- "); } } if (LOGGER.isLoggable(Level.FINE)) { LOGGER.fine("Calling speakable.completed() on " + speakable.getText()); } } else { ok = false; if (LOGGER.isLoggable(Level.FINE)) { LOGGER.fine("STRANGE: speakable already completed: " + speakable.getText()); } } return ok; } /** * Runs the given utterance processor. * * @param processor the processor to run. If the processor * is null, it is ignored * @param utterance the utterance to process * * @throws ProcessException if an exceptin occurs while processing * the utterance */ private void runProcessor(UtteranceProcessor processor, Utterance utterance, BulkTimer timer) throws ProcessException { if (processor != null) { String processorName = ".." + processor.toString(); if (LOGGER.isLoggable(Level.FINE)) { LOGGER.fine(" Running " + processorName); } timer.start(processorName); processor.processUtterance(utterance); timer.stop(processorName); } } /** * Returns the tokenizer associated with this voice. * * @return the tokenizer */ public abstract Tokenizer getTokenizer(); /** * Return the list of UtteranceProcessor instances. Applications * should use this to obtain and modify the contents of the * UtteranceProcessor list. * * @return a List containing UtteranceProcessor instances */ public List getUtteranceProcessors() { return utteranceProcessors; } /** * Returns the feature set associated with this voice. * * @return the feature set. */ public FeatureSet getFeatures() { return features; } /** * Starts a batch of utterances. Utterances are sometimes * batched in groups for timing purposes. * * @see #endBatch */ public void startBatch() { runTimer.setVerbose(detailedMetrics); runTimer.start(); } /** * Ends a batch of utterances. * * @see #startBatch */ public void endBatch() { runTimer.stop(); if (metrics) { runTimer.show(getRunTitle() + " run"); threadTimer.show(getRunTitle() + " thread"); getAudioPlayer().showMetrics(); long totalMemory = Runtime.getRuntime().totalMemory(); LOGGER.info ("Memory Use : " + (totalMemory - Runtime.getRuntime().freeMemory()) / 1024 + "k of " + totalMemory / 1024 + "k"); } } /** * Sets the output queue for this voice. If no output queue is set * for the voice when the voice is loaded, a queue and thread will * be created when the voice is loaded. If the outputQueue is set * by an external entity by calling setOutputQueue, the caller is * responsible for shutting down the output thread. That is, if * you call 'setOutputQueue' then you are responsible for shutting * down the output thread on your own. This is necessary since the * output queue may be shared by a number of voices. * * <p>Utterances are placed on the * queue to be output by an output thread. This queue is * usually created via a call to 'createOutputThread' which * creates a thread that waits on the queue and sends the * output to the audio player associated with this voice. If * the queue is null, the output is rendered in the calling * thread. * * @param queue the output queue */ public void setOutputQueue(OutputQueue queue) { externalOutputQueue = true; outputQueue = queue; } /** * Returns the output queue associated with this voice. * * @return the output queue associated with this voice */ public OutputQueue getOutputQueue() { return outputQueue; } /** * Loads voice specific data. Subclasses of voice should * implement this to perform class specific loading. */ protected abstract void loader() throws IOException; /** * tokenizes the given the queue item. * * @return an iterator that will yield a series of utterances */ private Iterator tokenize(FreeTTSSpeakable speakable) { return new FreeTTSSpeakableTokenizer(speakable).iterator(); } /** * Converts the document to a string (a placeholder for more * sophisticated logic to be done). * * @param dom the jsml document * * @return the document as a string. */ private String documentToString(Document dom) { StringBuffer buf = new StringBuffer(); linearize(dom, buf); return buf.toString(); } /** * Appends the text for this node to the given StringBuffer. * * @param n the node to traverse in depth-first order * @param buf the buffer to append text to */ private void linearize(Node n, StringBuffer buf) { StringBuffer endText = processNode(n, buf); for (Node child = n.getFirstChild(); child != null; child = child.getNextSibling()) { linearize(child, buf); } if (endText != null) { buf.append(endText); } } /** * Adds text for just this node and returns any text that might * be needed to undo the effects of this node after it is * processed. * * @param n the node to traverse in depth-first order * @param buf the buffer to append text to * * @return a <code>String</code> containing text to undo the * effects of the node */ protected StringBuffer processNode(Node n, StringBuffer buf) { StringBuffer endText = null; int type = n.getNodeType(); switch (type) { case Node.ATTRIBUTE_NODE: break; case Node.DOCUMENT_NODE: break; case Node.ELEMENT_NODE: // endText = processElement((Element) n, buf); break; case Node.TEXT_NODE: buf.append(((Text) n).getData()); break; // Pass processing instructions (e.g., <?blah?> // right on to the synthesizer. These types of things // probably should not be used. Instead the 'engine' // element is probably the best thing to do. // case Node.PROCESSING_INSTRUCTION_NODE: break; // The document type had better be JSML. // case Node.DOCUMENT_TYPE_NODE: break; // I think NOTATION nodes are only DTD's. // case Node.NOTATION_NODE: break; // Should not get COMMENTS because the JSMLParser // ignores them. // case Node.COMMENT_NODE: break; // Should not get CDATA because the JSMLParser is // coalescing. // case Node.CDATA_SECTION_NODE: break; // Should not get ENTITY related notes because // entities are expanded by the JSMLParser // case Node.ENTITY_NODE: case Node.ENTITY_REFERENCE_NODE: break; // Should not get DOCUMENT_FRAGMENT nodes because I // [[[WDW]]] think they are only created via the API's // and cannot be defined via content. // case Node.DOCUMENT_FRAGMENT_NODE: break; default: break; } return endText; } /** * Dumps the voice in textual form. * * @param output where to send the formatted output * @param pad the initial padding * @param title the title to print when dumping out */ public void dump(PrintWriter output, int pad, String title) { Utilities.dump(output, pad, title); features.dump(output, pad + 4, title + " Features"); dumpProcessors(output, pad + 4, title + " Processors"); } /** * Dumps the voice processors. * * @param output where to send the formatted output * @param pad the initial padding * @param title the title to print when dumping out */ public void dumpProcessors(PrintWriter output, int pad, String title) { UtteranceProcessor[] processors; if (utteranceProcessors == null) { return; } processors = new UtteranceProcessor[utteranceProcessors.size()]; processors = (UtteranceProcessor[]) utteranceProcessors.toArray(processors); Utilities.dump(output, pad, title); for (int i = 0; i < processors.length; i++) { Utilities.dump(output, pad + 4, processors[i].toString()); } } /** * Returns a language/voice specific Feature Processor. * * @param name the name of the processor * * @return the processor associated with the name or null if none * could be found */ public FeatureProcessor getFeatureProcessor(String name) { return (FeatureProcessor) featureProcessors.get(name); } /** * Adds a language/voice specific Feature Processor to the set of * FeatureProcessors supported by this voice. * * @param name the name of the processor * @param fp the processor */ public void addFeatureProcessor(String name, FeatureProcessor fp) { featureProcessors.put(name, fp); } /** * Gets the state of the metrics mode. * * @return true if metrics mode is on */ public boolean isMetrics() { return metrics; } /** * Sets the metrics mode. * * @param metrics true if metrics mode should be on */ public void setMetrics(boolean metrics) { this.metrics = metrics; if (LOGGER.isLoggable(Level.FINE)) { LOGGER.fine("Metrics mode is " + metrics); } } /** * Gets the state of the detailedMetrics mode. * * @return true if detailedMetrics mode is on */ public boolean isDetailedMetrics() { return detailedMetrics; } /** * Sets the state of the detailedMetrics mode. * * @param detailedMetrics true if detailedMetrics mode should be on */ public void setDetailedMetrics(boolean detailedMetrics) { this.detailedMetrics = detailedMetrics; if (LOGGER.isLoggable(Level.FINE)) { LOGGER.fine("DetailedMetrics mode is " + detailedMetrics); } } /** * Gets the state of the dumpUtterance mode. * * @return true if dumpUtterance mode is on */ public boolean isDumpUtterance() { return dumpUtterance; } /** * Sets the state of the dumpUtterance mode. * * @param dumpUtterance true if dumpUtterance mode should be on */ public void setDumpUtterance(boolean dumpUtterance) { this.dumpUtterance = dumpUtterance; if (LOGGER.isLoggable(Level.FINE)) { LOGGER.fine("DumpUtterance mode is " + dumpUtterance); } } /** * Gets the state of the dumpRelations mode. * * @return true if dumpRelations mode is on */ public boolean isDumpRelations() { return dumpRelations; } /** * Sets the state of the dumpRelations mode. * * @param dumpRelations true if dumpRelations mode should be on */ public void setDumpRelations(boolean dumpRelations) { this.dumpRelations = dumpRelations; if (LOGGER.isLoggable(Level.FINE)) { LOGGER.fine("DumpRelations mode is " + dumpRelations); } } /** * Sets the title for this run. * * @param runTitle the title for the run */ public void setRunTitle(String runTitle) { this.runTitle = runTitle; } /** * Gets the title for this run. * * @return the title for the run */ public String getRunTitle() { return runTitle; } /** * Given a phoneme and a feature name, returns the feature. * * @param phone the phoneme of interest * @param featureName the name of the feature of interest * * @return the feature with the given name */ public String getPhoneFeature(String phone, String featureName) { return null; } /** * Shuts down the voice processing. */ public void deallocate() { setLoaded(false); if (!externalAudioPlayer) { if (audioPlayer != null) { audioPlayer.close(); audioPlayer = null; } } if (!externalOutputQueue) { outputQueue.close(); } } /** * Sets the baseline pitch. * * @param hertz the baseline pitch in hertz */ public void setPitch(float hertz) { this.pitch = hertz; } /** * Retreives the baseline pitch. * * @return the baseline pitch in hertz */ public float getPitch() { return pitch; } /** * Sets the pitch range. * * @param range the range in hertz */ public void setPitchRange(float range) { this.range = range; } /** * Gets the pitch range. * * @return the range in hertz */ public float getPitchRange() { return range; } /** * Sets the pitch shift * * @param shift the pitch shift (1.0 is no shift) */ public void setPitchShift(float shift) { this.pitchShift = shift; } /** * Gets the pitch shift. * * @return the pitch shift */ public float getPitchShift() { return pitchShift; } /** * Sets the duration stretch * * @param stretch the duration stretch (1.0 is no stretch) */ public void setDurationStretch(float stretch) { this.durationStretch = stretch; } /** * Gets the duration Stretch * * @return the duration stretch */ public float getDurationStretch() { return durationStretch; } /** * Sets the rate of speech. * * @param wpm words per minute */ public void setRate(float wpm) { if (wpm > 0 && wpm < 1000) { setDurationStretch(nominalRate / wpm); } } /** * Gets the rate of speech. * * @return words per minute */ public float getRate() { return durationStretch * nominalRate; } /** * Sets the volume. * * @param vol the volume (0 to 1.0) */ public void setVolume(float vol) { volume = vol; } /** * Gets the volume. * * @return the volume (0 to 1.0) */ public float getVolume() { return volume; } /** * Gets the lexicon for this voice. * * @return the lexicon (or null if there is no lexicon) */ public Lexicon getLexicon() { return lexicon; } /** * Sets the lexicon to be used by this voice. * * @param lexicon the lexicon to use */ public void setLexicon(Lexicon lexicon) { this.lexicon = lexicon; } /** * Sets the dumpfile for this voice. * * @param waveDumpFile the dumpfile */ public void setWaveDumpFile(String waveDumpFile) { this.waveDumpFile = waveDumpFile; } /** * Gets the dumpfile for this voice. * * @return the dumpfile */ public String getWaveDumpFile() { return waveDumpFile; } /** * Sets the audio player associated with this voice. The caller is * responsible for closing this player. * * @param player the audio player */ public void setAudioPlayer(AudioPlayer player) { audioPlayer = player; externalAudioPlayer = true; } /** * Gets the default audio player for this voice. The return * value will be non-null only if the DEFAULT_AUDIO_PLAYER * system property has been set to the name of an AudioPlayer * class, and that class is able to be instantiated via a * no arg constructor. getAudioPlayer will automatically set * the audio player for this voice to the default audio player * if the audio player has not yet been set. * * @see #DEFAULT_AUDIO_PLAYER * @see #getAudioPlayer * @return the default AudioPlayer */ public AudioPlayer getDefaultAudioPlayer() throws InstantiationException { if (defaultAudioPlayer != null) { return defaultAudioPlayer; } String className = Utilities.getProperty( DEFAULT_AUDIO_PLAYER, DEFAULT_AUDIO_PLAYER_DEFAULT); try { Class cls = Class.forName(className); defaultAudioPlayer = (AudioPlayer) cls.newInstance(); return defaultAudioPlayer; } catch (ClassNotFoundException e) { throw new InstantiationException("Can't find class " + className); } catch (IllegalAccessException e) { throw new InstantiationException("Can't find class " + className); } catch (ClassCastException e) { throw new InstantiationException(className + " cannot be cast " + "to AudioPlayer"); } } /** * Gets the audio player associated with this voice. If the * audio player has not yet been set, the value will default * to the return value of getDefaultAudioPlayer. * * @see #getDefaultAudioPlayer * @return the audio player */ public AudioPlayer getAudioPlayer() { if (audioPlayer == null) { try { audioPlayer = getDefaultAudioPlayer(); } catch (InstantiationException e) { e.printStackTrace(); } } return audioPlayer; } /** * Get a resource for this voice. * By default, the voice is searched for in the package * to which the voice class belongs. Subclasses are free to * override this behaviour. */ protected URL getResource(String resource) { return this.getClass().getResource(resource); } /** * Set the name of this voice. * [[[TODO: any standard format to the name?]]] * * @param name the name to assign this voice */ protected void setName(String name) { this.name = name; } /** * Get the name of this voice. * * @return the name */ public String getName() { return name; } /** * Returns the name of this Voice. * * @return the name of this Voice */ public String toString() { return getName(); } /** * Set the gender of this voice. * * @param gender the gender to assign */ protected void setGender(Gender gender) { this.gender = gender; } /** * Get the gender of this voice. * * @return the gender of this voice */ public Gender getGender() { return gender; } /** * Set the age of this voice. * * @param age the age to assign */ protected void setAge(Age age) { this.age = age; } /** * Get the age of this voice. * * @return the age of this voice */ public Age getAge() { return age; } /** * Set the description of this voice. * * @param description the human readable description to assign */ protected void setDescription(String description) { this.description = description; } /** * Get the description of this voice. * * @return the human readable description of this voice */ public String getDescription() { return description; } /** * Set the locale of this voice. * * @param locale the locale of this voice. */ protected void setLocale(Locale locale) { this.locale = locale; } /** * Get the locale of this voice. * * @return the locale of this voice. */ public Locale getLocale() { return locale; } /** * Set the domain of this voice. * * @param domain the domain of this voice. For example, * &quot;general&quot;, &quot;time&quot;, or * &quot;weather&quot;. */ protected void setDomain(String domain) { this.domain = domain; } /** * Get the domain of this voice. * * @return the domain of this voice. For example, * &quot;general&quot;, &quot;time&quot;, or * &quot;weather&quot;. */ public String getDomain() { return domain; } /** * Sets the voice style. This parameter is designed for human * interpretation. Values might include "business", "casual", * "robotic", "breathy" * * @param style the stile of this voice. */ public void setStyle(String style) { this.style = style; } /** * Gets the voice style. This parameter is designed for human * interpretation. Values might include "business", "casual", * "robotic", "breathy". */ public String getStyle() { return style; } /** * Sets the organization which created this voice. For example * "cmu", "sun", ... * * @param organization the name of the organization */ protected void setOrganization(String organization) { this.organization = organization; } /** * Gets the organization which created this voice. For example * "cmu", "sun", ... * * @return the name of the organization */ public String getOrganization() { return organization; } /** * Returns the AudioOutput processor to be used by this voice. * Derived voices typically override this to customize behaviors. * * @return the audio output processor * * @throws IOException if an IO error occurs while getting * processor */ protected abstract UtteranceProcessor getAudioOutput() throws IOException ; /** * Tokenizes a FreeTTSSpeakable */ private class FreeTTSSpeakableTokenizer { FreeTTSSpeakable speakable; Tokenizer tok = getTokenizer(); /** * Constructor. * * @param speakable the queue item to be pretokenized */ public FreeTTSSpeakableTokenizer(FreeTTSSpeakable speakable) { this.speakable = speakable; if (speakable.isPlainText()) { tok.setInputText(speakable.getText()); } else if (speakable.isStream()) { Reader reader = new BufferedReader( new InputStreamReader(speakable.getInputStream())); tok.setInputReader(reader); } else if (speakable.isDocument()) { tok.setInputText(documentToString(speakable.getDocument())); } } /** * Returns an iterator for this text item. */ public Iterator iterator() { return new Iterator() { boolean first = true; Token savedToken = null; /** * Determines if there are more utterances * * @return true if there are more tokens */ public boolean hasNext() { return savedToken != null || tok.hasMoreTokens(); } /** * Returns the next utterance. * * @return the next utterance (as an object) or * null if there is are no utterances left */ public Object next() { ArrayList tokenList = new ArrayList(); Utterance utterance = null; if (savedToken != null) { tokenList.add(savedToken); savedToken = null; } while (tok.hasMoreTokens()) { Token token = tok.getNextToken(); if ((token.getWord().length() == 0) || (tokenList.size() > 500) || tok.isBreak()) { savedToken = token; break; } tokenList.add(token); } utterance = new Utterance(Voice.this, tokenList); utterance.setSpeakable(speakable); utterance.setFirst(first); first = false; boolean isLast = (!tok.hasMoreTokens() && (savedToken == null || savedToken.getWord().length() == 0)); utterance.setLast(isLast); return utterance; } public void remove() { throw new UnsupportedOperationException("remove"); } }; } } }
/* * ==================================================================== * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * ==================================================================== * * This software consists of voluntary contributions made by many * individuals on behalf of the Apache Software Foundation. For more * information on the Apache Software Foundation, please see * <http://www.apache.org/>. * */ package org.apache.http.impl.cookie; import java.util.ArrayList; import java.util.HashMap; import java.util.List; import java.util.Locale; import java.util.Map; import org.apache.http.annotation.NotThreadSafe; import org.apache.http.Header; import org.apache.http.HeaderElement; import org.apache.http.NameValuePair; import org.apache.http.cookie.ClientCookie; import org.apache.http.cookie.Cookie; import org.apache.http.cookie.CookieAttributeHandler; import org.apache.http.cookie.CookieOrigin; import org.apache.http.cookie.CookieSpec; import org.apache.http.cookie.MalformedCookieException; import org.apache.http.cookie.SM; import org.apache.http.message.BufferedHeader; import org.apache.http.util.CharArrayBuffer; /** * RFC 2965 compliant {@link CookieSpec} implementation. * * @since 4.0 */ @NotThreadSafe // superclass is @NotThreadSafe public class RFC2965Spec extends RFC2109Spec { /** * Default constructor * */ public RFC2965Spec() { this(null, false); } public RFC2965Spec(final String[] datepatterns, boolean oneHeader) { super(datepatterns, oneHeader); registerAttribHandler(ClientCookie.DOMAIN_ATTR, new RFC2965DomainAttributeHandler()); registerAttribHandler(ClientCookie.PORT_ATTR, new RFC2965PortAttributeHandler()); registerAttribHandler(ClientCookie.COMMENTURL_ATTR, new RFC2965CommentUrlAttributeHandler()); registerAttribHandler(ClientCookie.DISCARD_ATTR, new RFC2965DiscardAttributeHandler()); registerAttribHandler(ClientCookie.VERSION_ATTR, new RFC2965VersionAttributeHandler()); } @Override public List<Cookie> parse( final Header header, CookieOrigin origin) throws MalformedCookieException { if (header == null) { throw new IllegalArgumentException("Header may not be null"); } if (origin == null) { throw new IllegalArgumentException("Cookie origin may not be null"); } if (!header.getName().equalsIgnoreCase(SM.SET_COOKIE2)) { throw new MalformedCookieException("Unrecognized cookie header '" + header.toString() + "'"); } origin = adjustEffectiveHost(origin); HeaderElement[] elems = header.getElements(); return createCookies(elems, origin); } @Override protected List<Cookie> parse( final HeaderElement[] elems, CookieOrigin origin) throws MalformedCookieException { origin = adjustEffectiveHost(origin); return createCookies(elems, origin); } private List<Cookie> createCookies( final HeaderElement[] elems, final CookieOrigin origin) throws MalformedCookieException { List<Cookie> cookies = new ArrayList<Cookie>(elems.length); for (HeaderElement headerelement : elems) { String name = headerelement.getName(); String value = headerelement.getValue(); if (name == null || name.length() == 0) { throw new MalformedCookieException("Cookie name may not be empty"); } BasicClientCookie2 cookie = new BasicClientCookie2(name, value); cookie.setPath(getDefaultPath(origin)); cookie.setDomain(getDefaultDomain(origin)); cookie.setPorts(new int [] { origin.getPort() }); // cycle through the parameters NameValuePair[] attribs = headerelement.getParameters(); // Eliminate duplicate attributes. The first occurrence takes precedence // See RFC2965: 3.2 Origin Server Role Map<String, NameValuePair> attribmap = new HashMap<String, NameValuePair>(attribs.length); for (int j = attribs.length - 1; j >= 0; j--) { NameValuePair param = attribs[j]; attribmap.put(param.getName().toLowerCase(Locale.ENGLISH), param); } for (Map.Entry<String, NameValuePair> entry : attribmap.entrySet()) { NameValuePair attrib = entry.getValue(); String s = attrib.getName().toLowerCase(Locale.ENGLISH); cookie.setAttribute(s, attrib.getValue()); CookieAttributeHandler handler = findAttribHandler(s); if (handler != null) { handler.parse(cookie, attrib.getValue()); } } cookies.add(cookie); } return cookies; } @Override public void validate(final Cookie cookie, CookieOrigin origin) throws MalformedCookieException { if (cookie == null) { throw new IllegalArgumentException("Cookie may not be null"); } if (origin == null) { throw new IllegalArgumentException("Cookie origin may not be null"); } origin = adjustEffectiveHost(origin); super.validate(cookie, origin); } @Override public boolean match(final Cookie cookie, CookieOrigin origin) { if (cookie == null) { throw new IllegalArgumentException("Cookie may not be null"); } if (origin == null) { throw new IllegalArgumentException("Cookie origin may not be null"); } origin = adjustEffectiveHost(origin); return super.match(cookie, origin); } /** * Adds valid Port attribute value, e.g. "8000,8001,8002" */ @Override protected void formatCookieAsVer(final CharArrayBuffer buffer, final Cookie cookie, int version) { super.formatCookieAsVer(buffer, cookie, version); // format port attribute if (cookie instanceof ClientCookie) { // Test if the port attribute as set by the origin server is not blank String s = ((ClientCookie) cookie).getAttribute(ClientCookie.PORT_ATTR); if (s != null) { buffer.append("; $Port"); buffer.append("=\""); if (s.trim().length() > 0) { int[] ports = cookie.getPorts(); if (ports != null) { for (int i = 0, len = ports.length; i < len; i++) { if (i > 0) { buffer.append(","); } buffer.append(Integer.toString(ports[i])); } } } buffer.append("\""); } } } /** * Set 'effective host name' as defined in RFC 2965. * <p> * If a host name contains no dots, the effective host name is * that name with the string .local appended to it. Otherwise * the effective host name is the same as the host name. Note * that all effective host names contain at least one dot. * * @param origin origin where cookie is received from or being sent to. */ private static CookieOrigin adjustEffectiveHost(final CookieOrigin origin) { String host = origin.getHost(); // Test if the host name appears to be a fully qualified DNS name, // IPv4 address or IPv6 address boolean isLocalHost = true; for (int i = 0; i < host.length(); i++) { char ch = host.charAt(i); if (ch == '.' || ch == ':') { isLocalHost = false; break; } } if (isLocalHost) { host += ".local"; return new CookieOrigin( host, origin.getPort(), origin.getPath(), origin.isSecure()); } else { return origin; } } @Override public int getVersion() { return 1; } @Override public Header getVersionHeader() { CharArrayBuffer buffer = new CharArrayBuffer(40); buffer.append(SM.COOKIE2); buffer.append(": "); buffer.append("$Version="); buffer.append(Integer.toString(getVersion())); return new BufferedHeader(buffer); } @Override public String toString() { return "rfc2965"; } }
/*************************************************************************** * Copyright 2017 Kieker Project (http://kieker-monitoring.net) * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. ***************************************************************************/ package kieker.common.record.misc; import java.nio.BufferOverflowException; import kieker.common.record.AbstractMonitoringRecord; import kieker.common.record.IMonitoringRecord; import kieker.common.record.io.IValueDeserializer; import kieker.common.record.io.IValueSerializer; import kieker.common.util.registry.IRegistry; /** * @author Jan Waller * API compatibility: Kieker 1.13.0 * * @since 1.7 */ public class KiekerMetadataRecord extends AbstractMonitoringRecord implements IMonitoringRecord.Factory, IMonitoringRecord.BinaryFactory { private static final long serialVersionUID = 8241152536143822747L; /** Descriptive definition of the serialization size of the record. */ public static final int SIZE = TYPE_SIZE_STRING // KiekerMetadataRecord.version + TYPE_SIZE_STRING // KiekerMetadataRecord.controllerName + TYPE_SIZE_STRING // KiekerMetadataRecord.hostname + TYPE_SIZE_INT // KiekerMetadataRecord.experimentId + TYPE_SIZE_BOOLEAN // KiekerMetadataRecord.debugMode + TYPE_SIZE_LONG // KiekerMetadataRecord.timeOffset + TYPE_SIZE_STRING // KiekerMetadataRecord.timeUnit + TYPE_SIZE_LONG // KiekerMetadataRecord.numberOfRecords ; public static final Class<?>[] TYPES = { String.class, // KiekerMetadataRecord.version String.class, // KiekerMetadataRecord.controllerName String.class, // KiekerMetadataRecord.hostname int.class, // KiekerMetadataRecord.experimentId boolean.class, // KiekerMetadataRecord.debugMode long.class, // KiekerMetadataRecord.timeOffset String.class, // KiekerMetadataRecord.timeUnit long.class, // KiekerMetadataRecord.numberOfRecords }; /** user-defined constants. */ public static final String NO_CONTROLLERNAME = "<no-controller-name>"; public static final String NO_HOSTNAME = "<no-hostname>"; public static final String NO_TIMESOURCE = "<no-timesource>"; public static final String NO_TIMEUNIT = "NANOSECONDS"; /** default constants. */ public static final String VERSION = kieker.common.util.Version.getVERSION(); public static final String CONTROLLER_NAME = NO_CONTROLLERNAME; public static final String HOSTNAME = NO_HOSTNAME; public static final int EXPERIMENT_ID = 0; public static final boolean DEBUG_MODE = false; public static final long TIME_OFFSET = 0L; public static final String TIME_UNIT = NO_TIMEUNIT; public static final long NUMBER_OF_RECORDS = 0L; /** property name array. */ private static final String[] PROPERTY_NAMES = { "version", "controllerName", "hostname", "experimentId", "debugMode", "timeOffset", "timeUnit", "numberOfRecords", }; /** property declarations. */ private final String version; private final String controllerName; private final String hostname; private final int experimentId; private final boolean debugMode; private final long timeOffset; private final String timeUnit; private final long numberOfRecords; /** * Creates a new instance of this class using the given parameters. * * @param version * version * @param controllerName * controllerName * @param hostname * hostname * @param experimentId * experimentId * @param debugMode * debugMode * @param timeOffset * timeOffset * @param timeUnit * timeUnit * @param numberOfRecords * numberOfRecords */ public KiekerMetadataRecord(final String version, final String controllerName, final String hostname, final int experimentId, final boolean debugMode, final long timeOffset, final String timeUnit, final long numberOfRecords) { this.version = version == null?VERSION:version; this.controllerName = controllerName == null?NO_CONTROLLERNAME:controllerName; this.hostname = hostname == null?NO_HOSTNAME:hostname; this.experimentId = experimentId; this.debugMode = debugMode; this.timeOffset = timeOffset; this.timeUnit = timeUnit == null?NO_TIMEUNIT:timeUnit; this.numberOfRecords = numberOfRecords; } /** * This constructor converts the given array into a record. * It is recommended to use the array which is the result of a call to {@link #toArray()}. * * @param values * The values for the record. * * @deprecated since 1.13. Use {@link #KiekerMetadataRecord(IValueDeserializer)} instead. */ @Deprecated public KiekerMetadataRecord(final Object[] values) { // NOPMD (direct store of values) AbstractMonitoringRecord.checkArray(values, TYPES); this.version = (String) values[0]; this.controllerName = (String) values[1]; this.hostname = (String) values[2]; this.experimentId = (Integer) values[3]; this.debugMode = (Boolean) values[4]; this.timeOffset = (Long) values[5]; this.timeUnit = (String) values[6]; this.numberOfRecords = (Long) values[7]; } /** * This constructor uses the given array to initialize the fields of this record. * * @param values * The values for the record. * @param valueTypes * The types of the elements in the first array. * * @deprecated since 1.13. Use {@link #KiekerMetadataRecord(IValueDeserializer)} instead. */ @Deprecated protected KiekerMetadataRecord(final Object[] values, final Class<?>[] valueTypes) { // NOPMD (values stored directly) AbstractMonitoringRecord.checkArray(values, valueTypes); this.version = (String) values[0]; this.controllerName = (String) values[1]; this.hostname = (String) values[2]; this.experimentId = (Integer) values[3]; this.debugMode = (Boolean) values[4]; this.timeOffset = (Long) values[5]; this.timeUnit = (String) values[6]; this.numberOfRecords = (Long) values[7]; } /** * @param deserializer * The deserializer to use */ public KiekerMetadataRecord(final IValueDeserializer deserializer) { this.version = deserializer.getString(); this.controllerName = deserializer.getString(); this.hostname = deserializer.getString(); this.experimentId = deserializer.getInt(); this.debugMode = deserializer.getBoolean(); this.timeOffset = deserializer.getLong(); this.timeUnit = deserializer.getString(); this.numberOfRecords = deserializer.getLong(); } /** * {@inheritDoc} * * @deprecated since 1.13. Use {@link #serialize(IValueSerializer)} with an array serializer instead. */ @Override @Deprecated public Object[] toArray() { return new Object[] { this.getVersion(), this.getControllerName(), this.getHostname(), this.getExperimentId(), this.isDebugMode(), this.getTimeOffset(), this.getTimeUnit(), this.getNumberOfRecords() }; } /** * {@inheritDoc} */ @Override public void registerStrings(final IRegistry<String> stringRegistry) { // NOPMD (generated code) stringRegistry.get(this.getVersion()); stringRegistry.get(this.getControllerName()); stringRegistry.get(this.getHostname()); stringRegistry.get(this.getTimeUnit()); } /** * {@inheritDoc} */ @Override public void serialize(final IValueSerializer serializer) throws BufferOverflowException { //super.serialize(serializer); serializer.putString(this.getVersion()); serializer.putString(this.getControllerName()); serializer.putString(this.getHostname()); serializer.putInt(this.getExperimentId()); serializer.putBoolean(this.isDebugMode()); serializer.putLong(this.getTimeOffset()); serializer.putString(this.getTimeUnit()); serializer.putLong(this.getNumberOfRecords()); } /** * {@inheritDoc} */ @Override public Class<?>[] getValueTypes() { return TYPES; // NOPMD } /** * {@inheritDoc} */ @Override public String[] getValueNames() { return PROPERTY_NAMES; // NOPMD } /** * {@inheritDoc} */ @Override public int getSize() { return SIZE; } /** * {@inheritDoc} * * @deprecated This record uses the {@link kieker.common.record.IMonitoringRecord.Factory} mechanism. Hence, this method is not implemented. */ @Override @Deprecated public void initFromArray(final Object[] values) { throw new UnsupportedOperationException(); } /** * {@inheritDoc} */ @Override public boolean equals(final Object obj) { if (obj == null) return false; if (obj == this) return true; if (obj.getClass() != this.getClass()) return false; final KiekerMetadataRecord castedRecord = (KiekerMetadataRecord) obj; if (this.getLoggingTimestamp() != castedRecord.getLoggingTimestamp()) return false; if (!this.getVersion().equals(castedRecord.getVersion())) return false; if (!this.getControllerName().equals(castedRecord.getControllerName())) return false; if (!this.getHostname().equals(castedRecord.getHostname())) return false; if (this.getExperimentId() != castedRecord.getExperimentId()) return false; if (this.isDebugMode() != castedRecord.isDebugMode()) return false; if (this.getTimeOffset() != castedRecord.getTimeOffset()) return false; if (!this.getTimeUnit().equals(castedRecord.getTimeUnit())) return false; if (this.getNumberOfRecords() != castedRecord.getNumberOfRecords()) return false; return true; } public final String getVersion() { return this.version; } public final String getControllerName() { return this.controllerName; } public final String getHostname() { return this.hostname; } public final int getExperimentId() { return this.experimentId; } public final boolean isDebugMode() { return this.debugMode; } public final long getTimeOffset() { return this.timeOffset; } public final String getTimeUnit() { return this.timeUnit; } public final long getNumberOfRecords() { return this.numberOfRecords; } }
/* * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package org.apache.hadoop.fs.s3a; import javax.annotation.Nullable; import java.io.File; import java.io.FileNotFoundException; import java.io.IOException; import java.io.InputStream; import java.util.List; import java.util.Map; import java.util.concurrent.atomic.AtomicInteger; import com.amazonaws.services.s3.model.AmazonS3Exception; import com.amazonaws.services.s3.model.CompleteMultipartUploadRequest; import com.amazonaws.services.s3.model.CompleteMultipartUploadResult; import com.amazonaws.services.s3.model.InitiateMultipartUploadRequest; import com.amazonaws.services.s3.model.MultipartUpload; import com.amazonaws.services.s3.model.ObjectMetadata; import com.amazonaws.services.s3.model.PartETag; import com.amazonaws.services.s3.model.PutObjectRequest; import com.amazonaws.services.s3.model.PutObjectResult; import com.amazonaws.services.s3.model.SelectObjectContentRequest; import com.amazonaws.services.s3.model.SelectObjectContentResult; import com.amazonaws.services.s3.model.UploadPartRequest; import com.amazonaws.services.s3.model.UploadPartResult; import com.amazonaws.services.s3.transfer.model.UploadResult; import org.apache.hadoop.util.Preconditions; import org.slf4j.Logger; import org.slf4j.LoggerFactory; import org.apache.hadoop.classification.InterfaceAudience; import org.apache.hadoop.classification.InterfaceStability; import org.apache.hadoop.conf.Configuration; import org.apache.hadoop.fs.Path; import org.apache.hadoop.fs.PathIOException; import org.apache.hadoop.fs.s3a.api.RequestFactory; import org.apache.hadoop.fs.s3a.impl.StoreContext; import org.apache.hadoop.fs.s3a.statistics.S3AStatisticsContext; import org.apache.hadoop.fs.s3a.select.SelectBinding; import org.apache.hadoop.fs.store.audit.AuditSpan; import org.apache.hadoop.fs.store.audit.AuditSpanSource; import org.apache.hadoop.util.DurationInfo; import org.apache.hadoop.util.functional.CallableRaisingIOE; import static org.apache.hadoop.util.Preconditions.checkNotNull; import static org.apache.hadoop.fs.s3a.Invoker.*; import static org.apache.hadoop.fs.store.audit.AuditingFunctions.withinAuditSpan; /** * Helper for low-level operations against an S3 Bucket for writing data, * creating and committing pending writes, and other S3-layer operations. * <p> * It hides direct access to the S3 API * and is a location where the object operations can be evolved/enhanced. * <p> * Features * <ul> * <li>Methods to create and submit requests to S3, so avoiding * all direct interaction with the AWS APIs.</li> * <li>Some extra preflight checks of arguments, so failing fast on * errors.</li> * <li>Callbacks to let the FS know of events in the output stream * upload process.</li> * <li>Other low-level access to S3 functions, for private use.</li> * <li>Failure handling, including converting exceptions to IOEs.</li> * <li>Integration with instrumentation.</li> * <li>Evolution to add more low-level operations, such as S3 select.</li> * </ul> * * This API is for internal use only. * Span scoping: This helper is instantiated with span; it will be used * before operations which query/update S3 * * History * <pre> * - A nested class in S3AFileSystem * - Single shared instance created and reused. * - [HADOOP-13786] A separate class, single instance in S3AFS * - [HDFS-13934] Split into interface and implementation * - [HADOOP-15711] Adds audit tracking; one instance per use. * </pre> */ @InterfaceAudience.Private @InterfaceStability.Unstable public class WriteOperationHelper implements WriteOperations { private static final Logger LOG = LoggerFactory.getLogger(WriteOperationHelper.class); /** * Owning filesystem. */ private final S3AFileSystem owner; /** * Invoker for operations; uses the S3A retry policy and calls int * {@link #operationRetried(String, Exception, int, boolean)} on retries. */ private final Invoker invoker; /** Configuration of the owner. This is a reference, not a copy. */ private final Configuration conf; /** Bucket of the owner FS. */ private final String bucket; /** * statistics context. */ private final S3AStatisticsContext statisticsContext; /** * Store Context; extracted from owner. */ private final StoreContext storeContext; /** * Source of Audit spans. */ private final AuditSpanSource auditSpanSource; /** * Audit Span. */ private AuditSpan auditSpan; /** * Factory for AWS requests. */ private final RequestFactory requestFactory; /** * Constructor. * @param owner owner FS creating the helper * @param conf Configuration object * @param statisticsContext statistics context * @param auditSpanSource source of spans * @param auditSpan span to activate * */ protected WriteOperationHelper(S3AFileSystem owner, Configuration conf, S3AStatisticsContext statisticsContext, final AuditSpanSource auditSpanSource, final AuditSpan auditSpan) { this.owner = owner; this.invoker = new Invoker(new S3ARetryPolicy(conf), this::operationRetried); this.conf = conf; this.statisticsContext = statisticsContext; this.storeContext = owner.createStoreContext(); this.bucket = owner.getBucket(); this.auditSpanSource = auditSpanSource; this.auditSpan = checkNotNull(auditSpan); this.requestFactory = owner.getRequestFactory(); } /** * Callback from {@link Invoker} when an operation is retried. * @param text text of the operation * @param ex exception * @param retries number of retries * @param idempotent is the method idempotent */ void operationRetried(String text, Exception ex, int retries, boolean idempotent) { LOG.info("{}: Retried {}: {}", text, retries, ex.toString()); LOG.debug("Stack", ex); owner.operationRetried(text, ex, retries, idempotent); } /** * Execute a function with retry processing. * Also activates the current span. * @param <T> type of return value * @param action action to execute (used in error messages) * @param path path of work (used in error messages) * @param idempotent does the operation have semantics * which mean that it can be retried even if was already executed? * @param operation operation to execute * @return the result of the call * @throws IOException any IOE raised, or translated exception */ public <T> T retry(String action, String path, boolean idempotent, CallableRaisingIOE<T> operation) throws IOException { activateAuditSpan(); return invoker.retry(action, path, idempotent, operation); } /** * Get the audit span this object was created with. * @return the audit span */ public AuditSpan getAuditSpan() { return auditSpan; } /** * Activate the audit span. * @return the span */ private AuditSpan activateAuditSpan() { return auditSpan.activate(); } /** * Deactivate the audit span. */ private void deactivateAuditSpan() { auditSpan.deactivate(); } /** * Create a {@link PutObjectRequest} request against the specific key. * @param destKey destination key * @param inputStream source data. * @param length size, if known. Use -1 for not known * @param headers optional map of custom headers. * @return the request */ @Retries.OnceRaw public PutObjectRequest createPutObjectRequest(String destKey, InputStream inputStream, long length, final Map<String, String> headers) { activateAuditSpan(); ObjectMetadata objectMetadata = newObjectMetadata(length); if (headers != null) { objectMetadata.setUserMetadata(headers); } return getRequestFactory().newPutObjectRequest( destKey, objectMetadata, inputStream); } /** * Create a {@link PutObjectRequest} request to upload a file. * @param dest key to PUT to. * @param sourceFile source file * @return the request */ @Retries.OnceRaw public PutObjectRequest createPutObjectRequest(String dest, File sourceFile) { Preconditions.checkState(sourceFile.length() < Integer.MAX_VALUE, "File length is too big for a single PUT upload"); activateAuditSpan(); return getRequestFactory(). newPutObjectRequest(dest, newObjectMetadata((int) sourceFile.length()), sourceFile); } /** * Callback on a successful write. * @param length length of the write */ public void writeSuccessful(long length) { } /** * Callback on a write failure. * @param ex Any exception raised which triggered the failure. */ public void writeFailed(Exception ex) { LOG.debug("Write to {} failed", this, ex); } /** * Create a new object metadata instance. * Any standard metadata headers are added here, for example: * encryption. * @param length size, if known. Use -1 for not known * @return a new metadata instance */ public ObjectMetadata newObjectMetadata(long length) { return getRequestFactory().newObjectMetadata(length); } /** * Start the multipart upload process. * Retry policy: retrying, translated. * @param destKey destination of upload * @return the upload result containing the ID * @throws IOException IO problem */ @Retries.RetryTranslated public String initiateMultiPartUpload(String destKey) throws IOException { LOG.debug("Initiating Multipart upload to {}", destKey); try (AuditSpan span = activateAuditSpan()) { return retry("initiate MultiPartUpload", destKey, true, () -> { final InitiateMultipartUploadRequest initiateMPURequest = getRequestFactory().newMultipartUploadRequest( destKey); return owner.initiateMultipartUpload(initiateMPURequest) .getUploadId(); }); } } /** * Finalize a multipart PUT operation. * This completes the upload, and, if that works, calls * {@link S3AFileSystem#finishedWrite(String, long, String, String)} * to update the filesystem. * Retry policy: retrying, translated. * @param destKey destination of the commit * @param uploadId multipart operation Id * @param partETags list of partial uploads * @param length length of the upload * @param retrying retrying callback * @return the result of the operation. * @throws IOException on problems. */ @Retries.RetryTranslated private CompleteMultipartUploadResult finalizeMultipartUpload( String destKey, String uploadId, List<PartETag> partETags, long length, Retried retrying) throws IOException { if (partETags.isEmpty()) { throw new PathIOException(destKey, "No upload parts in multipart upload"); } try (AuditSpan span = activateAuditSpan()) { CompleteMultipartUploadResult uploadResult; uploadResult = invoker.retry("Completing multipart upload", destKey, true, retrying, () -> { final CompleteMultipartUploadRequest request = getRequestFactory().newCompleteMultipartUploadRequest( destKey, uploadId, partETags); return owner.getAmazonS3Client().completeMultipartUpload( request); }); owner.finishedWrite(destKey, length, uploadResult.getETag(), uploadResult.getVersionId()); return uploadResult; } } /** * This completes a multipart upload to the destination key via * {@code finalizeMultipartUpload()}. * Retry policy: retrying, translated. * Retries increment the {@code errorCount} counter. * @param destKey destination * @param uploadId multipart operation Id * @param partETags list of partial uploads * @param length length of the upload * @param errorCount a counter incremented by 1 on every error; for * use in statistics * @return the result of the operation. * @throws IOException if problems arose which could not be retried, or * the retry count was exceeded */ @Retries.RetryTranslated public CompleteMultipartUploadResult completeMPUwithRetries( String destKey, String uploadId, List<PartETag> partETags, long length, AtomicInteger errorCount) throws IOException { checkNotNull(uploadId); checkNotNull(partETags); LOG.debug("Completing multipart upload {} with {} parts", uploadId, partETags.size()); return finalizeMultipartUpload(destKey, uploadId, partETags, length, (text, e, r, i) -> errorCount.incrementAndGet() ); } /** * Abort a multipart upload operation. * @param destKey destination key of the upload * @param uploadId multipart operation Id * @param shouldRetry should failures trigger a retry? * @param retrying callback invoked on every retry * @throws IOException failure to abort * @throws FileNotFoundException if the abort ID is unknown */ @Retries.RetryTranslated public void abortMultipartUpload(String destKey, String uploadId, boolean shouldRetry, Retried retrying) throws IOException { if (shouldRetry) { // retrying option invoker.retry("Aborting multipart upload ID " + uploadId, destKey, true, retrying, withinAuditSpan(getAuditSpan(), () -> owner.abortMultipartUpload( destKey, uploadId))); } else { // single pass attempt. once("Aborting multipart upload ID " + uploadId, destKey, withinAuditSpan(getAuditSpan(), () -> owner.abortMultipartUpload( destKey, uploadId))); } } /** * Abort a multipart commit operation. * @param upload upload to abort. * @throws IOException on problems. */ @Retries.RetryTranslated public void abortMultipartUpload(MultipartUpload upload) throws IOException { invoker.retry("Aborting multipart commit", upload.getKey(), true, withinAuditSpan(getAuditSpan(), () -> owner.abortMultipartUpload(upload))); } /** * Abort multipart uploads under a path: limited to the first * few hundred. * @param prefix prefix for uploads to abort * @return a count of aborts * @throws IOException trouble; FileNotFoundExceptions are swallowed. */ @Retries.RetryTranslated public int abortMultipartUploadsUnderPath(String prefix) throws IOException { LOG.debug("Aborting multipart uploads under {}", prefix); int count = 0; List<MultipartUpload> multipartUploads = listMultipartUploads(prefix); LOG.debug("Number of outstanding uploads: {}", multipartUploads.size()); for (MultipartUpload upload: multipartUploads) { try { abortMultipartUpload(upload); count++; } catch (FileNotFoundException e) { LOG.debug("Already aborted: {}", upload.getKey(), e); } } return count; } @Override @Retries.RetryTranslated public List<MultipartUpload> listMultipartUploads(final String prefix) throws IOException { activateAuditSpan(); return owner.listMultipartUploads(prefix); } /** * Abort a multipart commit operation. * @param destKey destination key of ongoing operation * @param uploadId multipart operation Id * @throws IOException on problems. * @throws FileNotFoundException if the abort ID is unknown */ @Override @Retries.RetryTranslated public void abortMultipartCommit(String destKey, String uploadId) throws IOException { abortMultipartUpload(destKey, uploadId, true, invoker.getRetryCallback()); } /** * Create and initialize a part request of a multipart upload. * Exactly one of: {@code uploadStream} or {@code sourceFile} * must be specified. * A subset of the file may be posted, by providing the starting point * in {@code offset} and a length of block in {@code size} equal to * or less than the remaining bytes. * The part number must be less than 10000. * Retry policy is once-translated; to much effort * @param destKey destination key of ongoing operation * @param uploadId ID of ongoing upload * @param partNumber current part number of the upload * @param size amount of data * @param uploadStream source of data to upload * @param sourceFile optional source file. * @param offset offset in file to start reading. * @return the request. * @throws IllegalArgumentException if the parameters are invalid. * @throws PathIOException if the part number is out of range. */ @Override @Retries.OnceTranslated public UploadPartRequest newUploadPartRequest( String destKey, String uploadId, int partNumber, int size, InputStream uploadStream, File sourceFile, Long offset) throws IOException { return once("upload part request", destKey, withinAuditSpan(getAuditSpan(), () -> getRequestFactory().newUploadPartRequest( destKey, uploadId, partNumber, size, uploadStream, sourceFile, offset))); } /** * The toString method is intended to be used in logging/toString calls. * @return a string description. */ @Override public String toString() { final StringBuilder sb = new StringBuilder( "WriteOperationHelper {bucket=").append(bucket); sb.append('}'); return sb.toString(); } /** * PUT an object directly (i.e. not via the transfer manager). * Byte length is calculated from the file length, or, if there is no * file, from the content length of the header. * @param putObjectRequest the request * @return the upload initiated * @throws IOException on problems */ @Retries.RetryTranslated public PutObjectResult putObject(PutObjectRequest putObjectRequest) throws IOException { return retry("Writing Object", putObjectRequest.getKey(), true, withinAuditSpan(getAuditSpan(), () -> owner.putObjectDirect(putObjectRequest))); } /** * PUT an object via the transfer manager. * @param putObjectRequest the request * @return the result of the operation * @throws IOException on problems */ @Retries.RetryTranslated public UploadResult uploadObject(PutObjectRequest putObjectRequest) throws IOException { // no retry; rely on xfer manager logic return retry("Writing Object", putObjectRequest.getKey(), true, withinAuditSpan(getAuditSpan(), () -> owner.executePut(putObjectRequest, null))); } /** * Revert a commit by deleting the file. * Relies on retry code in filesystem * @throws IOException on problems * @param destKey destination key */ @Retries.OnceTranslated public void revertCommit(String destKey) throws IOException { once("revert commit", destKey, withinAuditSpan(getAuditSpan(), () -> { Path destPath = owner.keyToQualifiedPath(destKey); owner.deleteObjectAtPath(destPath, destKey, true); owner.maybeCreateFakeParentDirectory(destPath); })); } /** * This completes a multipart upload to the destination key via * {@code finalizeMultipartUpload()}. * Retry policy: retrying, translated. * Retries increment the {@code errorCount} counter. * @param destKey destination * @param uploadId multipart operation Id * @param partETags list of partial uploads * @param length length of the upload * @return the result of the operation. * @throws IOException if problems arose which could not be retried, or * the retry count was exceeded */ @Retries.RetryTranslated public CompleteMultipartUploadResult commitUpload( String destKey, String uploadId, List<PartETag> partETags, long length) throws IOException { checkNotNull(uploadId); checkNotNull(partETags); LOG.debug("Completing multipart upload {} with {} parts", uploadId, partETags.size()); return finalizeMultipartUpload(destKey, uploadId, partETags, length, Invoker.NO_OP ); } /** * Upload part of a multi-partition file. * @param request request * @return the result of the operation. * @throws IOException on problems */ @Retries.RetryTranslated public UploadPartResult uploadPart(UploadPartRequest request) throws IOException { return retry("upload part #" + request.getPartNumber() + " upload ID " + request.getUploadId(), request.getKey(), true, withinAuditSpan(getAuditSpan(), () -> owner.uploadPart(request))); } /** * Get the configuration of this instance; essentially the owning * filesystem configuration. * @return the configuration. */ public Configuration getConf() { return conf; } /** * Create a S3 Select request for the destination path. * This does not build the query. * @param path pre-qualified path for query * @return the request */ public SelectObjectContentRequest newSelectRequest(Path path) { try (AuditSpan span = getAuditSpan()) { return getRequestFactory().newSelectRequest( storeContext.pathToKey(path)); } } /** * Execute an S3 Select operation. * On a failure, the request is only logged at debug to avoid the * select exception being printed. * @param source source for selection * @param request Select request to issue. * @param action the action for use in exception creation * @return response * @throws IOException failure */ @Retries.RetryTranslated public SelectObjectContentResult select( final Path source, final SelectObjectContentRequest request, final String action) throws IOException { // no setting of span here as the select binding is (statically) created // without any span. String bucketName = request.getBucketName(); Preconditions.checkArgument(bucket.equals(bucketName), "wrong bucket: %s", bucketName); if (LOG.isDebugEnabled()) { LOG.debug("Initiating select call {} {}", source, request.getExpression()); LOG.debug(SelectBinding.toString(request)); } return invoker.retry( action, source.toString(), true, withinAuditSpan(getAuditSpan(), () -> { try (DurationInfo ignored = new DurationInfo(LOG, "S3 Select operation")) { try { return owner.getAmazonS3Client().selectObjectContent(request); } catch (AmazonS3Exception e) { LOG.error("Failure of S3 Select request against {}", source); LOG.debug("S3 Select request against {}:\n{}", source, SelectBinding.toString(request), e); throw e; } } })); } @Override public AuditSpan createSpan(final String operation, @Nullable final String path1, @Nullable final String path2) throws IOException { return auditSpanSource.createSpan(operation, path1, path2); } @Override public void incrementWriteOperations() { owner.incrementWriteOperations(); } /** * Deactivate the audit span. */ @Override public void close() throws IOException { deactivateAuditSpan(); } /** * Get the request factory which uses this store's audit span. * @return the request factory. */ public RequestFactory getRequestFactory() { return requestFactory; } }
/* * Copyright 2016 DiffPlug * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.diffplug.gradle.spotless; import java.io.File; import java.io.Serializable; import java.nio.charset.Charset; import java.util.ArrayList; import java.util.Arrays; import java.util.List; import java.util.Map; import java.util.Objects; import java.util.Random; import java.util.stream.Stream; import javax.annotation.Nullable; import org.gradle.api.GradleException; import org.gradle.api.Project; import org.gradle.api.file.FileCollection; import org.gradle.api.internal.file.UnionFileCollection; import com.diffplug.spotless.FormatExceptionPolicyStrict; import com.diffplug.spotless.FormatterFunc; import com.diffplug.spotless.FormatterStep; import com.diffplug.spotless.LazyForwardingEquality; import com.diffplug.spotless.LineEnding; import com.diffplug.spotless.ThrowingEx; import com.diffplug.spotless.generic.EndWithNewlineStep; import com.diffplug.spotless.generic.IndentStep; import com.diffplug.spotless.generic.LicenseHeaderStep; import com.diffplug.spotless.generic.ReplaceRegexStep; import com.diffplug.spotless.generic.ReplaceStep; import com.diffplug.spotless.generic.TrimTrailingWhitespaceStep; import groovy.lang.Closure; /** Adds a `spotless{Name}Check` and `spotless{Name}Apply` task. */ public class FormatExtension { final SpotlessExtension root; public FormatExtension(SpotlessExtension root) { this.root = root; } private String formatName() { for (Map.Entry<String, FormatExtension> entry : root.formats.entrySet()) { if (entry.getValue() == this) { return entry.getKey(); } } throw new IllegalStateException("This format is not contained by any SpotlessExtension."); } boolean paddedCell = false; /** Enables paddedCell mode. @see <a href="https://github.com/diffplug/spotless/blob/master/PADDEDCELL.md">Padded cell</a> */ public void paddedCell() { paddedCell(true); } /** Enables paddedCell mode. @see <a href="https://github.com/diffplug/spotless/blob/master/PADDEDCELL.md">Padded cell</a> */ public void paddedCell(boolean paddedCell) { this.paddedCell = paddedCell; } LineEnding lineEndings; /** Returns the line endings to use (defaults to {@link SpotlessExtension#getLineEndings()}. */ public LineEnding getLineEndings() { return lineEndings == null ? root.getLineEndings() : lineEndings; } /** Sets the line endings to use (defaults to {@link SpotlessExtension#getLineEndings()}. */ public void setLineEndings(LineEnding lineEndings) { this.lineEndings = lineEndings; } Charset encoding; /** Returns the encoding to use (defaults to {@link SpotlessExtension#getEncoding()}. */ public Charset getEncoding() { return encoding == null ? root.getEncoding() : encoding; } /** Sets the encoding to use (defaults to {@link SpotlessExtension#getEncoding()}. */ public void setEncoding(String name) { setEncoding(Charset.forName(name)); } /** Sets the encoding to use (defaults to {@link SpotlessExtension#getEncoding()}. */ public void setEncoding(Charset charset) { encoding = Objects.requireNonNull(charset); } FormatExceptionPolicyStrict exceptionPolicy = new FormatExceptionPolicyStrict(); /** Ignores errors in the given step. */ public void ignoreErrorForStep(String stepName) { exceptionPolicy.excludeStep(stepName); } /** Ignores errors for the given relative path. */ public void ignoreErrorForPath(String relativePath) { exceptionPolicy.excludePath(relativePath); } /** Sets encoding to use (defaults to {@link SpotlessExtension#getEncoding()}). */ public void encoding(String charset) { setEncoding(charset); } /** The files that need to be formatted. */ protected FileCollection target; /** * FileCollections pass through raw. * Strings are treated as the 'include' arg to fileTree, with project.rootDir as the dir. * List<String> are treated as the 'includes' arg to fileTree, with project.rootDir as the dir. * Anything else gets passed to getProject().files(). */ public void target(Object... targets) { if (targets.length == 0) { this.target = getProject().files(); } else if (targets.length == 1) { this.target = parseTarget(targets[0]); } else { if (Stream.of(targets).allMatch(o -> o instanceof String)) { this.target = parseTarget(Arrays.asList(targets)); } else { UnionFileCollection union = new UnionFileCollection(); for (Object target : targets) { union.add(parseTarget(target)); } this.target = union; } } } @SuppressWarnings("unchecked") protected FileCollection parseTarget(Object target) { if (target instanceof FileCollection) { return (FileCollection) target; } else if (target instanceof String || (target instanceof List && ((List<?>) target).stream().allMatch(o -> o instanceof String))) { // since people are likely to do '**/*.md', we want to make sure to exclude folders // they don't want to format which will slow down the operation greatly File dir = getProject().getProjectDir(); List<String> excludes = new ArrayList<>(); // no git excludes.add(".git"); // no .gradle if (getProject() == getProject().getRootProject()) { excludes.add(".gradle"); } // no build folders excludes.add(relativize(dir, getProject().getBuildDir())); for (Project subproject : getProject().getSubprojects()) { excludes.add(relativize(dir, subproject.getBuildDir())); } if (target instanceof String) { return (FileCollection) getProject().fileTree(dir).include((String) target).exclude(excludes); } else { // target can only be a List<String> at this point return (FileCollection) getProject().fileTree(dir).include((List<String>) target).exclude(excludes); } } else { return getProject().files(target); } } static String relativize(File root, File dest) { String rootPath = root.getAbsolutePath(); String destPath = dest.getAbsolutePath(); if (!destPath.startsWith(rootPath)) { throw new IllegalArgumentException(dest + " is not a child of " + root); } else { return destPath.substring(rootPath.length()); } } /** The steps that need to be added. */ protected List<FormatterStep> steps = new ArrayList<>(); /** Adds a new step. */ public void addStep(FormatterStep newStep) { FormatterStep existing = getExistingStep(newStep.getName()); if (existing != null) { throw new GradleException("Multiple steps with name '" + newStep.getName() + "' for spotless format '" + formatName() + "'"); } steps.add(newStep); } /** Returns the existing step with the given name, if any. */ @Nullable protected FormatterStep getExistingStep(String stepName) { for (FormatterStep step : steps) { if (stepName.equals(step.getName())) { return step; } } return null; } /** Replaces the given step. */ protected void replaceStep(FormatterStep replacementStep) { FormatterStep existing = getExistingStep(replacementStep.getName()); if (existing == null) { throw new GradleException("Cannot replace step '" + replacementStep.getName() + "' for spotless format '" + formatName() + "' because it hasn't been added yet."); } int index = steps.indexOf(existing); steps.set(index, replacementStep); } /** Clears all of the existing steps. */ public void clearSteps() { steps.clear(); } /** * An optional performance optimization if you are using any of the `custom` or `customLazy` * methods. If you aren't explicitly calling `custom` or `customLazy`, then this method * has no effect. * * Spotless tracks what files have changed from run to run, so that it can run faster * by only checking files which have changed, or whose formatting steps have changed. * If you use either the `custom` or `customLazy` methods, then gradle can never mark * your files as `up-to-date`, because it can't know if perhaps the behavior of your * custom function has changed. * * If you set `bumpThisNumberIfACustomStepChanges( <some number> )`, then spotless will * assume that the custom rules have not changed if the number has not changed. If a * custom rule does change, then you must bump the number so that spotless will know * that it must recheck the files it has already checked. */ public void bumpThisNumberIfACustomStepChanges(int number) { globalState = number; } private Serializable globalState = new NeverUpToDateBetweenRuns(); static class NeverUpToDateBetweenRuns extends LazyForwardingEquality<Integer> { private static final long serialVersionUID = 1L; private static final Random RANDOM = new Random(); @Override protected Integer calculateState() throws Exception { return RANDOM.nextInt(); } } /** * Adds the given custom step, which is constructed lazily for performance reasons. * * The resulting function will receive a string with unix-newlines, and it must return a string unix newlines. * * If you're getting errors about `closure cannot be cast to com.diffplug.common.base.Throwing$Function`, then use * {@link #customLazyGroovy(String, ThrowingEx.Supplier)}. */ public void customLazy(String name, ThrowingEx.Supplier<FormatterFunc> formatterSupplier) { addStep(FormatterStep.createLazy(name, () -> globalState, unusedState -> formatterSupplier.get())); } /** Same as {@link #customLazy(String, ThrowingEx.Supplier)}, but for Groovy closures. */ public void customLazyGroovy(String name, ThrowingEx.Supplier<Closure<String>> formatterSupplier) { customLazy(name, () -> formatterSupplier.get()::call); } /** Adds a custom step. Receives a string with unix-newlines, must return a string with unix newlines. */ public void custom(String name, Closure<String> formatter) { custom(name, formatter::call); } /** Adds a custom step. Receives a string with unix-newlines, must return a string with unix newlines. */ public void custom(String name, FormatterFunc formatter) { customLazy(name, () -> formatter); } /** Highly efficient find-replace char sequence. */ public void replace(String name, CharSequence original, CharSequence after) { addStep(ReplaceStep.create(name, original, after)); } /** Highly efficient find-replace regex. */ public void replaceRegex(String name, String regex, String replacement) { addStep(ReplaceRegexStep.create(name, regex, replacement)); } /** Removes trailing whitespace. */ public void trimTrailingWhitespace() { addStep(TrimTrailingWhitespaceStep.create()); } /** Ensures that files end with a single newline. */ public void endWithNewline() { addStep(EndWithNewlineStep.create()); } /** Ensures that the files are indented using spaces. */ public void indentWithSpaces(int numSpacesPerTab) { addStep(IndentStep.Type.SPACE.create(numSpacesPerTab)); } /** Ensures that the files are indented using spaces. */ public void indentWithSpaces() { indentWithSpaces(4); } /** Ensures that the files are indented using tabs. */ public void indentWithTabs(int tabToSpaces) { addStep(IndentStep.Type.TAB.create(tabToSpaces)); } /** Ensures that the files are indented using tabs. */ public void indentWithTabs() { indentWithTabs(4); } /** * @param licenseHeader * Content that should be at the top of every file * @param delimiter * Spotless will look for a line that starts with this to know what the "top" is. */ public void licenseHeader(String licenseHeader, String delimiter) { addStep(LicenseHeaderStep.createFromHeader(licenseHeader, delimiter)); } /** * @param licenseHeaderFile * Content that should be at the top of every file * @param delimiter * Spotless will look for a line that starts with this to know what the "top" is. */ public void licenseHeaderFile(Object licenseHeaderFile, String delimiter) { addStep(LicenseHeaderStep.createFromFile(getProject().file(licenseHeaderFile), getEncoding(), delimiter)); } /** Sets up a format task according to the values in this extension. */ protected void setupTask(SpotlessTask task) { task.setPaddedCell(paddedCell); task.setEncoding(getEncoding().name()); task.setExceptionPolicy(exceptionPolicy); task.setTarget(target); task.setSteps(steps); task.setLineEndingsPolicy(getLineEndings().createPolicy(getProject().getProjectDir(), () -> task.target)); } /** Returns the project that this extension is attached to. */ protected Project getProject() { return root.project; } }
/* * Copyright 2014-2019 Amazon.com, Inc. or its affiliates. All Rights Reserved. * * Licensed under the Apache License, Version 2.0 (the "License"). You may not use this file except in compliance with * the License. A copy of the License is located at * * http://aws.amazon.com/apache2.0 * * or in the "license" file accompanying this file. This file is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR * CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions * and limitations under the License. */ package com.amazonaws.services.athena.model; import java.io.Serializable; import javax.annotation.Generated; import com.amazonaws.protocol.StructuredPojo; import com.amazonaws.protocol.ProtocolMarshaller; /** * <p> * A workgroup, which contains a name, description, creation time, state, and other configuration, listed under * <a>WorkGroup$Configuration</a>. Each workgroup enables you to isolate queries for you or your group of users from * other queries in the same account, to configure the query results location and the encryption configuration (known as * workgroup settings), to enable sending query metrics to Amazon CloudWatch, and to establish per-query data usage * control limits for all queries in a workgroup. The workgroup settings override is specified in * EnforceWorkGroupConfiguration (true/false) in the WorkGroupConfiguration. See * <a>WorkGroupConfiguration$EnforceWorkGroupConfiguration</a>. * </p> * * @see <a href="http://docs.aws.amazon.com/goto/WebAPI/athena-2017-05-18/WorkGroup" target="_top">AWS API * Documentation</a> */ @Generated("com.amazonaws:aws-java-sdk-code-generator") public class WorkGroup implements Serializable, Cloneable, StructuredPojo { /** * <p> * The workgroup name. * </p> */ private String name; /** * <p> * The state of the workgroup: ENABLED or DISABLED. * </p> */ private String state; /** * <p> * The configuration of the workgroup, which includes the location in Amazon S3 where query results are stored, the * encryption configuration, if any, used for query results; whether the Amazon CloudWatch Metrics are enabled for * the workgroup; whether workgroup settings override client-side settings; and the data usage limits for the amount * of data scanned per query or per workgroup. The workgroup settings override is specified in * EnforceWorkGroupConfiguration (true/false) in the WorkGroupConfiguration. See * <a>WorkGroupConfiguration$EnforceWorkGroupConfiguration</a>. * </p> */ private WorkGroupConfiguration configuration; /** * <p> * The workgroup description. * </p> */ private String description; /** * <p> * The date and time the workgroup was created. * </p> */ private java.util.Date creationTime; /** * <p> * The workgroup name. * </p> * * @param name * The workgroup name. */ public void setName(String name) { this.name = name; } /** * <p> * The workgroup name. * </p> * * @return The workgroup name. */ public String getName() { return this.name; } /** * <p> * The workgroup name. * </p> * * @param name * The workgroup name. * @return Returns a reference to this object so that method calls can be chained together. */ public WorkGroup withName(String name) { setName(name); return this; } /** * <p> * The state of the workgroup: ENABLED or DISABLED. * </p> * * @param state * The state of the workgroup: ENABLED or DISABLED. * @see WorkGroupState */ public void setState(String state) { this.state = state; } /** * <p> * The state of the workgroup: ENABLED or DISABLED. * </p> * * @return The state of the workgroup: ENABLED or DISABLED. * @see WorkGroupState */ public String getState() { return this.state; } /** * <p> * The state of the workgroup: ENABLED or DISABLED. * </p> * * @param state * The state of the workgroup: ENABLED or DISABLED. * @return Returns a reference to this object so that method calls can be chained together. * @see WorkGroupState */ public WorkGroup withState(String state) { setState(state); return this; } /** * <p> * The state of the workgroup: ENABLED or DISABLED. * </p> * * @param state * The state of the workgroup: ENABLED or DISABLED. * @return Returns a reference to this object so that method calls can be chained together. * @see WorkGroupState */ public WorkGroup withState(WorkGroupState state) { this.state = state.toString(); return this; } /** * <p> * The configuration of the workgroup, which includes the location in Amazon S3 where query results are stored, the * encryption configuration, if any, used for query results; whether the Amazon CloudWatch Metrics are enabled for * the workgroup; whether workgroup settings override client-side settings; and the data usage limits for the amount * of data scanned per query or per workgroup. The workgroup settings override is specified in * EnforceWorkGroupConfiguration (true/false) in the WorkGroupConfiguration. See * <a>WorkGroupConfiguration$EnforceWorkGroupConfiguration</a>. * </p> * * @param configuration * The configuration of the workgroup, which includes the location in Amazon S3 where query results are * stored, the encryption configuration, if any, used for query results; whether the Amazon CloudWatch * Metrics are enabled for the workgroup; whether workgroup settings override client-side settings; and the * data usage limits for the amount of data scanned per query or per workgroup. The workgroup settings * override is specified in EnforceWorkGroupConfiguration (true/false) in the WorkGroupConfiguration. See * <a>WorkGroupConfiguration$EnforceWorkGroupConfiguration</a>. */ public void setConfiguration(WorkGroupConfiguration configuration) { this.configuration = configuration; } /** * <p> * The configuration of the workgroup, which includes the location in Amazon S3 where query results are stored, the * encryption configuration, if any, used for query results; whether the Amazon CloudWatch Metrics are enabled for * the workgroup; whether workgroup settings override client-side settings; and the data usage limits for the amount * of data scanned per query or per workgroup. The workgroup settings override is specified in * EnforceWorkGroupConfiguration (true/false) in the WorkGroupConfiguration. See * <a>WorkGroupConfiguration$EnforceWorkGroupConfiguration</a>. * </p> * * @return The configuration of the workgroup, which includes the location in Amazon S3 where query results are * stored, the encryption configuration, if any, used for query results; whether the Amazon CloudWatch * Metrics are enabled for the workgroup; whether workgroup settings override client-side settings; and the * data usage limits for the amount of data scanned per query or per workgroup. The workgroup settings * override is specified in EnforceWorkGroupConfiguration (true/false) in the WorkGroupConfiguration. See * <a>WorkGroupConfiguration$EnforceWorkGroupConfiguration</a>. */ public WorkGroupConfiguration getConfiguration() { return this.configuration; } /** * <p> * The configuration of the workgroup, which includes the location in Amazon S3 where query results are stored, the * encryption configuration, if any, used for query results; whether the Amazon CloudWatch Metrics are enabled for * the workgroup; whether workgroup settings override client-side settings; and the data usage limits for the amount * of data scanned per query or per workgroup. The workgroup settings override is specified in * EnforceWorkGroupConfiguration (true/false) in the WorkGroupConfiguration. See * <a>WorkGroupConfiguration$EnforceWorkGroupConfiguration</a>. * </p> * * @param configuration * The configuration of the workgroup, which includes the location in Amazon S3 where query results are * stored, the encryption configuration, if any, used for query results; whether the Amazon CloudWatch * Metrics are enabled for the workgroup; whether workgroup settings override client-side settings; and the * data usage limits for the amount of data scanned per query or per workgroup. The workgroup settings * override is specified in EnforceWorkGroupConfiguration (true/false) in the WorkGroupConfiguration. See * <a>WorkGroupConfiguration$EnforceWorkGroupConfiguration</a>. * @return Returns a reference to this object so that method calls can be chained together. */ public WorkGroup withConfiguration(WorkGroupConfiguration configuration) { setConfiguration(configuration); return this; } /** * <p> * The workgroup description. * </p> * * @param description * The workgroup description. */ public void setDescription(String description) { this.description = description; } /** * <p> * The workgroup description. * </p> * * @return The workgroup description. */ public String getDescription() { return this.description; } /** * <p> * The workgroup description. * </p> * * @param description * The workgroup description. * @return Returns a reference to this object so that method calls can be chained together. */ public WorkGroup withDescription(String description) { setDescription(description); return this; } /** * <p> * The date and time the workgroup was created. * </p> * * @param creationTime * The date and time the workgroup was created. */ public void setCreationTime(java.util.Date creationTime) { this.creationTime = creationTime; } /** * <p> * The date and time the workgroup was created. * </p> * * @return The date and time the workgroup was created. */ public java.util.Date getCreationTime() { return this.creationTime; } /** * <p> * The date and time the workgroup was created. * </p> * * @param creationTime * The date and time the workgroup was created. * @return Returns a reference to this object so that method calls can be chained together. */ public WorkGroup withCreationTime(java.util.Date creationTime) { setCreationTime(creationTime); return this; } /** * Returns a string representation of this object. This is useful for testing and debugging. Sensitive data will be * redacted from this string using a placeholder value. * * @return A string representation of this object. * * @see java.lang.Object#toString() */ @Override public String toString() { StringBuilder sb = new StringBuilder(); sb.append("{"); if (getName() != null) sb.append("Name: ").append(getName()).append(","); if (getState() != null) sb.append("State: ").append(getState()).append(","); if (getConfiguration() != null) sb.append("Configuration: ").append(getConfiguration()).append(","); if (getDescription() != null) sb.append("Description: ").append(getDescription()).append(","); if (getCreationTime() != null) sb.append("CreationTime: ").append(getCreationTime()); sb.append("}"); return sb.toString(); } @Override public boolean equals(Object obj) { if (this == obj) return true; if (obj == null) return false; if (obj instanceof WorkGroup == false) return false; WorkGroup other = (WorkGroup) obj; if (other.getName() == null ^ this.getName() == null) return false; if (other.getName() != null && other.getName().equals(this.getName()) == false) return false; if (other.getState() == null ^ this.getState() == null) return false; if (other.getState() != null && other.getState().equals(this.getState()) == false) return false; if (other.getConfiguration() == null ^ this.getConfiguration() == null) return false; if (other.getConfiguration() != null && other.getConfiguration().equals(this.getConfiguration()) == false) return false; if (other.getDescription() == null ^ this.getDescription() == null) return false; if (other.getDescription() != null && other.getDescription().equals(this.getDescription()) == false) return false; if (other.getCreationTime() == null ^ this.getCreationTime() == null) return false; if (other.getCreationTime() != null && other.getCreationTime().equals(this.getCreationTime()) == false) return false; return true; } @Override public int hashCode() { final int prime = 31; int hashCode = 1; hashCode = prime * hashCode + ((getName() == null) ? 0 : getName().hashCode()); hashCode = prime * hashCode + ((getState() == null) ? 0 : getState().hashCode()); hashCode = prime * hashCode + ((getConfiguration() == null) ? 0 : getConfiguration().hashCode()); hashCode = prime * hashCode + ((getDescription() == null) ? 0 : getDescription().hashCode()); hashCode = prime * hashCode + ((getCreationTime() == null) ? 0 : getCreationTime().hashCode()); return hashCode; } @Override public WorkGroup clone() { try { return (WorkGroup) super.clone(); } catch (CloneNotSupportedException e) { throw new IllegalStateException("Got a CloneNotSupportedException from Object.clone() " + "even though we're Cloneable!", e); } } @com.amazonaws.annotation.SdkInternalApi @Override public void marshall(ProtocolMarshaller protocolMarshaller) { com.amazonaws.services.athena.model.transform.WorkGroupMarshaller.getInstance().marshall(this, protocolMarshaller); } }
/** * Copyright (c) 2016-present, RxJava Contributors. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package io.reactivex.flowable; import static org.junit.Assert.assertEquals; import java.util.*; import org.junit.Test; import org.reactivestreams.Publisher; import io.reactivex.Flowable; import io.reactivex.FlowableTransformer; import io.reactivex.flowables.GroupedFlowable; import io.reactivex.functions.*; import io.reactivex.subscribers.TestSubscriber; /** * Test super/extends of generics. * * See https://github.com/Netflix/RxJava/pull/331 */ public class FlowableCovarianceTest { /** * This won't compile if super/extends isn't done correctly on generics. */ @Test public void testCovarianceOfFrom() { Flowable.<Movie> just(new HorrorMovie()); Flowable.<Movie> fromIterable(new ArrayList<HorrorMovie>()); // Observable.<HorrorMovie>from(new Movie()); // may not compile } @Test public void testSortedList() { Comparator<Media> sortFunction = new Comparator<Media>() { @Override public int compare(Media t1, Media t2) { return 1; } }; // this one would work without the covariance generics Flowable<Media> f = Flowable.just(new Movie(), new TVSeason(), new Album()); f.toSortedList(sortFunction); // this one would NOT work without the covariance generics Flowable<Movie> f2 = Flowable.just(new Movie(), new ActionMovie(), new HorrorMovie()); f2.toSortedList(sortFunction); } @Test public void testGroupByCompose() { Flowable<Movie> movies = Flowable.just(new HorrorMovie(), new ActionMovie(), new Movie()); TestSubscriber<String> ts = new TestSubscriber<String>(); movies .groupBy(new Function<Movie, Object>() { @Override public Object apply(Movie v) { return v.getClass(); } }) .doOnNext(new Consumer<GroupedFlowable<Object, Movie>>() { @Override public void accept(GroupedFlowable<Object, Movie> g) { System.out.println(g.getKey()); } }) .flatMap(new Function<GroupedFlowable<Object, Movie>, Publisher<String>>() { @Override public Publisher<String> apply(GroupedFlowable<Object, Movie> g) { return g .doOnNext(new Consumer<Movie>() { @Override public void accept(Movie v) { System.out.println(v); } }) .compose(new FlowableTransformer<Movie, Movie>() { @Override public Publisher<Movie> apply(Flowable<Movie> m) { return m.concatWith(Flowable.just(new ActionMovie())); } } ) .map(new Function<Object, String>() { @Override public String apply(Object v) { return v.toString(); } }); } }) .subscribe(ts); ts.assertTerminated(); ts.assertNoErrors(); // System.out.println(ts.getOnNextEvents()); assertEquals(6, ts.valueCount()); } @SuppressWarnings("unused") @Test public void testCovarianceOfCompose() { Flowable<HorrorMovie> movie = Flowable.just(new HorrorMovie()); Flowable<Movie> movie2 = movie.compose(new FlowableTransformer<HorrorMovie, Movie>() { @Override public Publisher<Movie> apply(Flowable<HorrorMovie> t) { return Flowable.just(new Movie()); } }); } @SuppressWarnings("unused") @Test public void testCovarianceOfCompose2() { Flowable<Movie> movie = Flowable.<Movie> just(new HorrorMovie()); Flowable<HorrorMovie> movie2 = movie.compose(new FlowableTransformer<Movie, HorrorMovie>() { @Override public Publisher<HorrorMovie> apply(Flowable<Movie> t) { return Flowable.just(new HorrorMovie()); } }); } @SuppressWarnings("unused") @Test public void testCovarianceOfCompose3() { Flowable<Movie> movie = Flowable.<Movie>just(new HorrorMovie()); Flowable<HorrorMovie> movie2 = movie.compose(new FlowableTransformer<Movie, HorrorMovie>() { @Override public Publisher<HorrorMovie> apply(Flowable<Movie> t) { return Flowable.just(new HorrorMovie()).map(new Function<HorrorMovie, HorrorMovie>() { @Override public HorrorMovie apply(HorrorMovie v) { return v; } }); } } ); } @SuppressWarnings("unused") @Test public void testCovarianceOfCompose4() { Flowable<HorrorMovie> movie = Flowable.just(new HorrorMovie()); Flowable<HorrorMovie> movie2 = movie.compose(new FlowableTransformer<HorrorMovie, HorrorMovie>() { @Override public Publisher<HorrorMovie> apply(Flowable<HorrorMovie> t1) { return t1.map(new Function<HorrorMovie, HorrorMovie>() { @Override public HorrorMovie apply(HorrorMovie v) { return v; } }); } }); } @Test public void testComposeWithDeltaLogic() { List<Movie> list1 = Arrays.asList(new Movie(), new HorrorMovie(), new ActionMovie()); List<Movie> list2 = Arrays.asList(new ActionMovie(), new Movie(), new HorrorMovie(), new ActionMovie()); Flowable<List<Movie>> movies = Flowable.just(list1, list2); movies.compose(deltaTransformer); } static Function<List<List<Movie>>, Flowable<Movie>> calculateDelta = new Function<List<List<Movie>>, Flowable<Movie>>() { @Override public Flowable<Movie> apply(List<List<Movie>> listOfLists) { if (listOfLists.size() == 1) { return Flowable.fromIterable(listOfLists.get(0)); } else { // diff the two List<Movie> newList = listOfLists.get(1); List<Movie> oldList = new ArrayList<Movie>(listOfLists.get(0)); Set<Movie> delta = new LinkedHashSet<Movie>(); delta.addAll(newList); // remove all that match in old delta.removeAll(oldList); // filter oldList to those that aren't in the newList oldList.removeAll(newList); // for all left in the oldList we'll create DROP events for (@SuppressWarnings("unused") Movie old : oldList) { delta.add(new Movie()); } return Flowable.fromIterable(delta); } } }; static FlowableTransformer<List<Movie>, Movie> deltaTransformer = new FlowableTransformer<List<Movie>, Movie>() { @Override public Publisher<Movie> apply(Flowable<List<Movie>> movieList) { return movieList .startWith(new ArrayList<Movie>()) .buffer(2, 1) .skip(1) .flatMap(calculateDelta); } }; /* * Most tests are moved into their applicable classes such as [Operator]Tests.java */ static class Media { } static class Movie extends Media { } static class HorrorMovie extends Movie { } static class ActionMovie extends Movie { } static class Album extends Media { } static class TVSeason extends Media { } static class Rating { } static class CoolRating extends Rating { } static class Result { } static class ExtendedResult extends Result { } }
/* * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package org.apache.accumulo.server.zookeeper; import static java.nio.charset.StandardCharsets.UTF_8; import java.util.ArrayList; import java.util.Collections; import java.util.List; import java.util.Random; import java.util.Set; import java.util.concurrent.ThreadPoolExecutor; import java.util.concurrent.atomic.AtomicInteger; import org.apache.accumulo.core.conf.AccumuloConfiguration; import org.apache.accumulo.fate.zookeeper.ZooUtil.NodeExistsPolicy; import org.apache.accumulo.fate.zookeeper.ZooUtil.NodeMissingPolicy; import org.apache.accumulo.server.util.time.SimpleTimer; import org.apache.zookeeper.KeeperException; import org.apache.zookeeper.KeeperException.NodeExistsException; import org.apache.zookeeper.WatchedEvent; import org.apache.zookeeper.Watcher; import org.slf4j.Logger; import org.slf4j.LoggerFactory; /** * Provides a way to push work out to tablet servers via zookeeper and wait for that work to be done. Any tablet server can pick up a work item and process it. * * Worker processes watch a zookeeper node for tasks to be performed. After getting an exclusive lock on the node, the worker will perform the task. */ public class DistributedWorkQueue { private static final String LOCKS_NODE = "locks"; private static final Logger log = LoggerFactory.getLogger(DistributedWorkQueue.class); private ThreadPoolExecutor threadPool; private ZooReaderWriter zoo = ZooReaderWriter.getInstance(); private String path; private AccumuloConfiguration config; private long timerInitialDelay, timerPeriod; private AtomicInteger numTask = new AtomicInteger(0); private void lookForWork(final Processor processor, List<String> children) { if (children.size() == 0) return; if (numTask.get() >= threadPool.getCorePoolSize()) return; Random random = new Random(); Collections.shuffle(children, random); try { for (final String child : children) { if (child.equals(LOCKS_NODE)) continue; final String lockPath = path + "/locks/" + child; try { // no need to use zoolock, because a queue (ephemeral sequential) is not needed // if can not get the lock right now then do not want to wait zoo.putEphemeralData(lockPath, new byte[0]); } catch (NodeExistsException nee) { // someone else has reserved it continue; } final String childPath = path + "/" + child; // check to see if another node processed it already if (!zoo.exists(childPath)) { zoo.recursiveDelete(lockPath, NodeMissingPolicy.SKIP); continue; } // Great... we got the lock, but maybe we're too busy if (numTask.get() >= threadPool.getCorePoolSize()) { zoo.recursiveDelete(lockPath, NodeMissingPolicy.SKIP); break; } log.debug("got lock for " + child); Runnable task = new Runnable() { @Override public void run() { try { try { processor.newProcessor().process(child, zoo.getData(childPath, null)); // if the task fails, then its entry in the Q is not deleted... so it will be retried try { zoo.recursiveDelete(childPath, NodeMissingPolicy.SKIP); } catch (Exception e) { log.error("Error received when trying to delete entry in zookeeper " + childPath, e); } } catch (Exception e) { log.warn("Failed to process work " + child, e); } try { zoo.recursiveDelete(lockPath, NodeMissingPolicy.SKIP); } catch (Exception e) { log.error("Error received when trying to delete entry in zookeeper " + childPath, e); } } finally { numTask.decrementAndGet(); } try { // its important that this is called after numTask is decremented lookForWork(processor, zoo.getChildren(path)); } catch (KeeperException e) { log.error("Failed to look for work", e); } catch (InterruptedException e) { log.info("Interrupted looking for work", e); } } }; numTask.incrementAndGet(); threadPool.execute(task); } } catch (Throwable t) { log.error("Unexpected error", t); } } public interface Processor { Processor newProcessor(); void process(String workID, byte[] data); } public DistributedWorkQueue(String path, AccumuloConfiguration config) { // Preserve the old delay and period this(path, config, new Random().nextInt(60 * 1000), 60 * 1000); } public DistributedWorkQueue(String path, AccumuloConfiguration config, long timerInitialDelay, long timerPeriod) { this.path = path; this.config = config; this.timerInitialDelay = timerInitialDelay; this.timerPeriod = timerPeriod; } public void startProcessing(final Processor processor, ThreadPoolExecutor executorService) throws KeeperException, InterruptedException { threadPool = executorService; zoo.mkdirs(path); zoo.mkdirs(path + "/" + LOCKS_NODE); List<String> children = zoo.getChildren(path, new Watcher() { @Override public void process(WatchedEvent event) { switch (event.getType()) { case NodeChildrenChanged: if (event.getPath().equals(path)) try { lookForWork(processor, zoo.getChildren(path, this)); } catch (KeeperException e) { log.error("Failed to look for work", e); } catch (InterruptedException e) { log.info("Interrupted looking for work", e); } else log.info("Unexpected path for NodeChildrenChanged event " + event.getPath()); break; case NodeCreated: case NodeDataChanged: case NodeDeleted: case None: log.info("Got unexpected zookeeper event: " + event.getType() + " for " + path); break; } } }); lookForWork(processor, children); // Add a little jitter to avoid all the tservers slamming zookeeper at once SimpleTimer.getInstance(config).schedule(new Runnable() { @Override public void run() { log.debug("Looking for work in " + path); try { lookForWork(processor, zoo.getChildren(path)); } catch (KeeperException e) { log.error("Failed to look for work", e); } catch (InterruptedException e) { log.info("Interrupted looking for work", e); } } }, timerInitialDelay, timerPeriod); } /** * Adds work to the queue, automatically converting the String to bytes using UTF-8 */ public void addWork(String workId, String data) throws KeeperException, InterruptedException { addWork(workId, data.getBytes(UTF_8)); } public void addWork(String workId, byte[] data) throws KeeperException, InterruptedException { if (workId.equalsIgnoreCase(LOCKS_NODE)) throw new IllegalArgumentException("locks is reserved work id"); zoo.mkdirs(path); zoo.putPersistentData(path + "/" + workId, data, NodeExistsPolicy.SKIP); } public List<String> getWorkQueued() throws KeeperException, InterruptedException { ArrayList<String> children = new ArrayList<String>(zoo.getChildren(path)); children.remove(LOCKS_NODE); return children; } public void waitUntilDone(Set<String> workIDs) throws KeeperException, InterruptedException { final Object condVar = new Object(); Watcher watcher = new Watcher() { @Override public void process(WatchedEvent event) { switch (event.getType()) { case NodeChildrenChanged: synchronized (condVar) { condVar.notify(); } break; case NodeCreated: case NodeDataChanged: case NodeDeleted: case None: log.info("Got unexpected zookeeper event: " + event.getType() + " for " + path); break; } } }; List<String> children = zoo.getChildren(path, watcher); while (!Collections.disjoint(children, workIDs)) { synchronized (condVar) { condVar.wait(10000); } children = zoo.getChildren(path, watcher); } } }
package com.fincatto.documentofiscal.nfe310.classes.inutilizacao; import org.junit.Assert; import org.junit.Test; import com.fincatto.documentofiscal.DFAmbiente; import com.fincatto.documentofiscal.DFUnidadeFederativa; import com.fincatto.documentofiscal.nfe310.FabricaDeObjetosFake; import com.fincatto.documentofiscal.nfe310.classes.evento.inutilizacao.NFEventoInutilizacaoDados; public class NFEventoCancelamentoDadosTest { @Test(expected = IllegalStateException.class) public void naoDevePermitirModeloInvalido() { final NFEventoInutilizacaoDados dados = new NFEventoInutilizacaoDados(); dados.setModeloDocumentoFiscal("75"); } @Test public void devePermitirAmbosModelosDeNFe() { final NFEventoInutilizacaoDados dados = new NFEventoInutilizacaoDados(); dados.setModeloDocumentoFiscal("55"); dados.setModeloDocumentoFiscal("65"); } @Test(expected = IllegalStateException.class) public void naoDevePermitirJustificativaInvalido() { final NFEventoInutilizacaoDados dados = new NFEventoInutilizacaoDados(); try { dados.setJustificativa("rcAYGVaFoYcW8q"); } catch (final IllegalStateException e) { dados.setJustificativa("WDou2V29BncPEppZRB7XnD7BAQPYFgewTmEu2kCCRbESq01soGjLJVxhJmcYMxAY3t0nXCXmWJh8suPIikxWuUxaJCAMBKUiMMm04AyySjtjSrNqThH0W14IpNWM5bCkKOqyoV58HFVxfZLfZOYmn7SCUW3QTOoaos09TFbMMIccnW2kfVMrb8T419Mpy60IIjo6hqORvMPZiDKjSrmpWiYLCIGLLBpqjbO9XmSHryazw2XoT2yJMpfE9N53GCRh"); } } @Test(expected = IllegalStateException.class) public void naoDevePermitirCNPJInvalido() { final NFEventoInutilizacaoDados dados = new NFEventoInutilizacaoDados(); dados.setCnpj("1234567890123"); } @Test(expected = NumberFormatException.class) public void naoDevePermitirAnoDiferenteDeDuasCasas() { final NFEventoInutilizacaoDados dados = new NFEventoInutilizacaoDados(); try { dados.setAno(9); } catch (final NumberFormatException e) { dados.setAno(100); } } @Test(expected = IllegalStateException.class) public void naoDevePermitirNumeroNFInicialInvalido() { final NFEventoInutilizacaoDados dados = new NFEventoInutilizacaoDados(); try { dados.setNumeroNFInicial(""); } catch (final IllegalStateException e) { dados.setNumeroNFInicial("1000000000"); } } @Test(expected = IllegalStateException.class) public void naoDevePermitirNumeroNFFinalInvalido() { final NFEventoInutilizacaoDados dados = new NFEventoInutilizacaoDados(); try { dados.setNumeroNFFinal(""); } catch (final IllegalStateException e) { dados.setNumeroNFFinal("1000000000"); } } @Test(expected = IllegalStateException.class) public void naoDevePermitirSerieInvalido() { final NFEventoInutilizacaoDados dados = new NFEventoInutilizacaoDados(); try { dados.setSerie(""); } catch (final IllegalStateException e) { dados.setSerie("1000"); } } @Test(expected = IllegalStateException.class) public void naoDevePermitirServicoInvalido() { final NFEventoInutilizacaoDados dados = new NFEventoInutilizacaoDados(); dados.setNomeServico("inutiliza"); } @Test(expected = IllegalStateException.class) public void naoDevePermitirIDInvalido() { final NFEventoInutilizacaoDados dados = new NFEventoInutilizacaoDados(); dados.setIdentificador("IDw6cRIPJzP4sv6gBWQFCNcFSITQK7rOxjmBFcW2Mzf"); } @Test(expected = IllegalStateException.class) public void naoDevePermitirIdentificadorNulo() { final NFEventoInutilizacaoDados dados = new NFEventoInutilizacaoDados(); dados.setAmbiente(DFAmbiente.HOMOLOGACAO); dados.setAno(15); dados.setCnpj("12345678901234"); dados.setJustificativa("u2MGhwXFQDFtSuKsLkmgowBZNNhOWBL4JKIqYnIj5iDPTAUqHSwKL1O2olgmZwigRS1P58Zoc1qDxzqmvv3hBE1LYuLHNPbFXuLwM5ZxvH7xfSpnkX5VBGjrkR3cuiXLr1uz3chFb9JrNY5xU3X0eF9Byc2Q9TkPbFyPj7iRwwQVMNt6FGvpUyRMHGmhSDYhFRD2Dst0UaauvA4V0breWHyN4WUSEm9z377jXHNwtVLQQCxB2wcEIZGWVIT4CF5"); dados.setModeloDocumentoFiscal("55"); dados.setNomeServico("INUTILIZAR"); dados.setNumeroNFInicial("1"); dados.setNumeroNFFinal("999999999"); dados.setSerie("999"); dados.setUf(DFUnidadeFederativa.SC); dados.toString(); } @Test(expected = IllegalStateException.class) public void naoDevePermitirAmbienteNulo() { final NFEventoInutilizacaoDados dados = new NFEventoInutilizacaoDados(); dados.setAno(15); dados.setCnpj("12345678901234"); dados.setIdentificador("ID55605654557305333405403926218856863798956"); dados.setJustificativa("u2MGhwXFQDFtSuKsLkmgowBZNNhOWBL4JKIqYnIj5iDPTAUqHSwKL1O2olgmZwigRS1P58Zoc1qDxzqmvv3hBE1LYuLHNPbFXuLwM5ZxvH7xfSpnkX5VBGjrkR3cuiXLr1uz3chFb9JrNY5xU3X0eF9Byc2Q9TkPbFyPj7iRwwQVMNt6FGvpUyRMHGmhSDYhFRD2Dst0UaauvA4V0breWHyN4WUSEm9z377jXHNwtVLQQCxB2wcEIZGWVIT4CF5"); dados.setModeloDocumentoFiscal("55"); dados.setNomeServico("INUTILIZAR"); dados.setNumeroNFInicial("1"); dados.setNumeroNFFinal("999999999"); dados.setSerie("999"); dados.setUf(DFUnidadeFederativa.SC); dados.toString(); } @Test(expected = IllegalStateException.class) public void naoDevePermitirServicoNulo() { final NFEventoInutilizacaoDados dados = new NFEventoInutilizacaoDados(); dados.setAmbiente(DFAmbiente.HOMOLOGACAO); dados.setAno(15); dados.setCnpj("12345678901234"); dados.setIdentificador("ID55605654557305333405403926218856863798956"); dados.setJustificativa("u2MGhwXFQDFtSuKsLkmgowBZNNhOWBL4JKIqYnIj5iDPTAUqHSwKL1O2olgmZwigRS1P58Zoc1qDxzqmvv3hBE1LYuLHNPbFXuLwM5ZxvH7xfSpnkX5VBGjrkR3cuiXLr1uz3chFb9JrNY5xU3X0eF9Byc2Q9TkPbFyPj7iRwwQVMNt6FGvpUyRMHGmhSDYhFRD2Dst0UaauvA4V0breWHyN4WUSEm9z377jXHNwtVLQQCxB2wcEIZGWVIT4CF5"); dados.setModeloDocumentoFiscal("55"); dados.setNumeroNFInicial("1"); dados.setNumeroNFFinal("999999999"); dados.setSerie("999"); dados.setUf(DFUnidadeFederativa.SC); dados.toString(); } @Test(expected = IllegalStateException.class) public void naoDevePermitirUFNulo() { final NFEventoInutilizacaoDados dados = new NFEventoInutilizacaoDados(); dados.setAmbiente(DFAmbiente.HOMOLOGACAO); dados.setAno(15); dados.setCnpj("12345678901234"); dados.setIdentificador("ID55605654557305333405403926218856863798956"); dados.setJustificativa("u2MGhwXFQDFtSuKsLkmgowBZNNhOWBL4JKIqYnIj5iDPTAUqHSwKL1O2olgmZwigRS1P58Zoc1qDxzqmvv3hBE1LYuLHNPbFXuLwM5ZxvH7xfSpnkX5VBGjrkR3cuiXLr1uz3chFb9JrNY5xU3X0eF9Byc2Q9TkPbFyPj7iRwwQVMNt6FGvpUyRMHGmhSDYhFRD2Dst0UaauvA4V0breWHyN4WUSEm9z377jXHNwtVLQQCxB2wcEIZGWVIT4CF5"); dados.setModeloDocumentoFiscal("55"); dados.setNomeServico("INUTILIZAR"); dados.setNumeroNFInicial("1"); dados.setNumeroNFFinal("999999999"); dados.setSerie("999"); dados.toString(); } @Test(expected = IllegalStateException.class) public void naoDevePermitirAnoNulo() { final NFEventoInutilizacaoDados dados = new NFEventoInutilizacaoDados(); dados.setAmbiente(DFAmbiente.HOMOLOGACAO); dados.setCnpj("12345678901234"); dados.setIdentificador("ID55605654557305333405403926218856863798956"); dados.setJustificativa("u2MGhwXFQDFtSuKsLkmgowBZNNhOWBL4JKIqYnIj5iDPTAUqHSwKL1O2olgmZwigRS1P58Zoc1qDxzqmvv3hBE1LYuLHNPbFXuLwM5ZxvH7xfSpnkX5VBGjrkR3cuiXLr1uz3chFb9JrNY5xU3X0eF9Byc2Q9TkPbFyPj7iRwwQVMNt6FGvpUyRMHGmhSDYhFRD2Dst0UaauvA4V0breWHyN4WUSEm9z377jXHNwtVLQQCxB2wcEIZGWVIT4CF5"); dados.setModeloDocumentoFiscal("55"); dados.setNomeServico("INUTILIZAR"); dados.setNumeroNFInicial("1"); dados.setNumeroNFFinal("999999999"); dados.setSerie("999"); dados.setUf(DFUnidadeFederativa.SC); dados.toString(); } @Test(expected = IllegalStateException.class) public void naoDevePermitirCNPJNulo() { final NFEventoInutilizacaoDados dados = new NFEventoInutilizacaoDados(); dados.setAmbiente(DFAmbiente.HOMOLOGACAO); dados.setAno(15); dados.setIdentificador("ID55605654557305333405403926218856863798956"); dados.setJustificativa("u2MGhwXFQDFtSuKsLkmgowBZNNhOWBL4JKIqYnIj5iDPTAUqHSwKL1O2olgmZwigRS1P58Zoc1qDxzqmvv3hBE1LYuLHNPbFXuLwM5ZxvH7xfSpnkX5VBGjrkR3cuiXLr1uz3chFb9JrNY5xU3X0eF9Byc2Q9TkPbFyPj7iRwwQVMNt6FGvpUyRMHGmhSDYhFRD2Dst0UaauvA4V0breWHyN4WUSEm9z377jXHNwtVLQQCxB2wcEIZGWVIT4CF5"); dados.setModeloDocumentoFiscal("55"); dados.setNomeServico("INUTILIZAR"); dados.setNumeroNFInicial("1"); dados.setNumeroNFFinal("999999999"); dados.setSerie("999"); dados.setUf(DFUnidadeFederativa.SC); dados.toString(); } @Test(expected = IllegalStateException.class) public void naoDevePermitirModeloNulo() { final NFEventoInutilizacaoDados dados = new NFEventoInutilizacaoDados(); dados.setAmbiente(DFAmbiente.HOMOLOGACAO); dados.setAno(15); dados.setCnpj("12345678901234"); dados.setIdentificador("ID55605654557305333405403926218856863798956"); dados.setJustificativa("u2MGhwXFQDFtSuKsLkmgowBZNNhOWBL4JKIqYnIj5iDPTAUqHSwKL1O2olgmZwigRS1P58Zoc1qDxzqmvv3hBE1LYuLHNPbFXuLwM5ZxvH7xfSpnkX5VBGjrkR3cuiXLr1uz3chFb9JrNY5xU3X0eF9Byc2Q9TkPbFyPj7iRwwQVMNt6FGvpUyRMHGmhSDYhFRD2Dst0UaauvA4V0breWHyN4WUSEm9z377jXHNwtVLQQCxB2wcEIZGWVIT4CF5"); dados.setNomeServico("INUTILIZAR"); dados.setNumeroNFInicial("1"); dados.setNumeroNFFinal("999999999"); dados.setSerie("999"); dados.setUf(DFUnidadeFederativa.SC); dados.toString(); } @Test(expected = IllegalStateException.class) public void naoDevePermitirSerieNulo() { final NFEventoInutilizacaoDados dados = new NFEventoInutilizacaoDados(); dados.setAmbiente(DFAmbiente.HOMOLOGACAO); dados.setAno(15); dados.setCnpj("12345678901234"); dados.setIdentificador("ID55605654557305333405403926218856863798956"); dados.setJustificativa("u2MGhwXFQDFtSuKsLkmgowBZNNhOWBL4JKIqYnIj5iDPTAUqHSwKL1O2olgmZwigRS1P58Zoc1qDxzqmvv3hBE1LYuLHNPbFXuLwM5ZxvH7xfSpnkX5VBGjrkR3cuiXLr1uz3chFb9JrNY5xU3X0eF9Byc2Q9TkPbFyPj7iRwwQVMNt6FGvpUyRMHGmhSDYhFRD2Dst0UaauvA4V0breWHyN4WUSEm9z377jXHNwtVLQQCxB2wcEIZGWVIT4CF5"); dados.setModeloDocumentoFiscal("55"); dados.setNomeServico("INUTILIZAR"); dados.setNumeroNFInicial("1"); dados.setNumeroNFFinal("999999999"); dados.setUf(DFUnidadeFederativa.SC); dados.toString(); } @Test(expected = IllegalStateException.class) public void naoDevePermitirNumeroNotaInicialNulo() { final NFEventoInutilizacaoDados dados = new NFEventoInutilizacaoDados(); dados.setAmbiente(DFAmbiente.HOMOLOGACAO); dados.setAno(15); dados.setCnpj("12345678901234"); dados.setIdentificador("ID55605654557305333405403926218856863798956"); dados.setJustificativa("u2MGhwXFQDFtSuKsLkmgowBZNNhOWBL4JKIqYnIj5iDPTAUqHSwKL1O2olgmZwigRS1P58Zoc1qDxzqmvv3hBE1LYuLHNPbFXuLwM5ZxvH7xfSpnkX5VBGjrkR3cuiXLr1uz3chFb9JrNY5xU3X0eF9Byc2Q9TkPbFyPj7iRwwQVMNt6FGvpUyRMHGmhSDYhFRD2Dst0UaauvA4V0breWHyN4WUSEm9z377jXHNwtVLQQCxB2wcEIZGWVIT4CF5"); dados.setModeloDocumentoFiscal("55"); dados.setNomeServico("INUTILIZAR"); dados.setNumeroNFFinal("999999999"); dados.setSerie("999"); dados.setUf(DFUnidadeFederativa.SC); dados.toString(); } @Test(expected = IllegalStateException.class) public void naoDevePermitirNumeroNotaFinalNulo() { final NFEventoInutilizacaoDados dados = new NFEventoInutilizacaoDados(); dados.setAmbiente(DFAmbiente.HOMOLOGACAO); dados.setAno(15); dados.setCnpj("12345678901234"); dados.setIdentificador("ID55605654557305333405403926218856863798956"); dados.setJustificativa("u2MGhwXFQDFtSuKsLkmgowBZNNhOWBL4JKIqYnIj5iDPTAUqHSwKL1O2olgmZwigRS1P58Zoc1qDxzqmvv3hBE1LYuLHNPbFXuLwM5ZxvH7xfSpnkX5VBGjrkR3cuiXLr1uz3chFb9JrNY5xU3X0eF9Byc2Q9TkPbFyPj7iRwwQVMNt6FGvpUyRMHGmhSDYhFRD2Dst0UaauvA4V0breWHyN4WUSEm9z377jXHNwtVLQQCxB2wcEIZGWVIT4CF5"); dados.setModeloDocumentoFiscal("55"); dados.setNomeServico("INUTILIZAR"); dados.setNumeroNFInicial("1"); dados.setSerie("999"); dados.setUf(DFUnidadeFederativa.SC); dados.toString(); } @Test(expected = IllegalStateException.class) public void naoDevePermitirJustificativaNulo() { final NFEventoInutilizacaoDados dados = new NFEventoInutilizacaoDados(); dados.setAmbiente(DFAmbiente.HOMOLOGACAO); dados.setAno(15); dados.setCnpj("12345678901234"); dados.setIdentificador("ID55605654557305333405403926218856863798956"); dados.setModeloDocumentoFiscal("55"); dados.setNomeServico("INUTILIZAR"); dados.setNumeroNFInicial("1"); dados.setNumeroNFFinal("999999999"); dados.setSerie("999"); dados.setUf(DFUnidadeFederativa.SC); dados.toString(); } @Test public void deveGerarXMLDeAcordoComOPadraoEstabelecido() { final String xmlEsperado = "<infInut Id=\"ID42161234567890123455123123456789987654321\"><tpAmb>2</tpAmb><xServ>INUTILIZAR</xServ><cUF>42</cUF><ano>16</ano><CNPJ>12345678901234</CNPJ><mod>55</mod><serie>123</serie><nNFIni>123456789</nNFIni><nNFFin>987654321</nNFFin><xJust>u2MGhwXFQDFtSuKsLkmgowBZNNhOWBL4JKIqYnIj5iDPTAUqHSwKL1O2olgmZwigRS1P58Zoc1qDxzqmvv3hBE1LYuLHNPbFXuLwM5ZxvH7xfSpnkX5VBGjrkR3cuiXLr1uz3chFb9JrNY5xU3X0eF9Byc2Q9TkPbFyPj7iRwwQVMNt6FGvpUyRMHGmhSDYhFRD2Dst0UaauvA4V0breWHyN4WUSEm9z377jXHNwtVLQQCxB2wcEIZGWVIT4CF5</xJust></infInut>"; Assert.assertEquals(xmlEsperado, FabricaDeObjetosFake.getNFEventoInutilizacaoDados().toString()); } }

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