EMMA Coverage Report

EMMA Coverage Report (generated Wed Jun 28 19:54:35 CEST 2006)
[all classes][smallsql.database]

COVERAGE SUMMARY FOR SOURCE FILE [Index.java]

name	class, %	method, %	block, %	line, %
Index.java	100% (1/1)	96% (23/24)	88% (843/953)	88% (185,9/212)

COVERAGE BREAKDOWN BY CLASS AND METHOD

name	class, %	method, %	block, %	line, %

class Index	100% (1/1)	96% (23/24)	88% (843/953)	88% (185,9/212)
removeValue (long, Expressions): void		0% (0/1)	0% (0/58)	0% (0/15)
findRows (Expression [], ArrayList): Object		100% (1/1)	78% (32/41)	77% (7,7/10)
find (IndexNode, char [], ArrayList): IndexNode		100% (1/1)	87% (41/47)	93% (11,2/12)
find (IndexNode, long, int, ArrayList): IndexNode		100% (1/1)	90% (37/41)	92% (7,3/8)
findRows (Expressions, ArrayList): Object		100% (1/1)	90% (37/41)	90% (9/10)
add (IndexNode, long, long, boolean, int): IndexNode		100% (1/1)	90% (65/72)	89% (17/19)
add (IndexNode, long, char [], boolean): IndexNode		100% (1/1)	93% (67/72)	90% (19/21)
findRows (IndexNode, Expression, ArrayList): IndexNode		100% (1/1)	95% (128/135)	96% (26/27)
equals (char [], long, int): boolean		100% (1/1)	95% (37/39)	96% (5,8/6)
addValues (long, Expressions): void		100% (1/1)	96% (166/173)	97% (31/32)
numericToBinarySortOrder (MutableNumeric): char []		100% (1/1)	98% (61/62)	99% (11,9/12)
Index (boolean): void		100% (1/1)	100% (10/10)	100% (3/3)
addNull (IndexNode, long, boolean): IndexNode		100% (1/1)	100% (12/12)	100% (4/4)
bytesToBinarySortOrder (byte []): char []		100% (1/1)	100% (24/24)	100% (5/5)
clear (): void		100% (1/1)	100% (4/4)	100% (2/2)
createScrollStatus (Expressions): IndexScrollStatus		100% (1/1)	100% (7/7)	100% (1/1)
doubleToBinarySortOrder (double): long		100% (1/1)	100% (15/15)	100% (4/4)
equals (char [], char [], int): boolean		100% (1/1)	100% (35/35)	100% (6/6)
findNull (IndexNode): IndexNode		100% (1/1)	100% (4/4)	100% (1/1)
floatToBinarySortOrder (float): int		100% (1/1)	100% (13/13)	100% (4/4)
intToBinarySortOrder (int): int		100% (1/1)	100% (4/4)	100% (1/1)
longToBinarySortOrder (long): long		100% (1/1)	100% (4/4)	100% (1/1)
shortToBinarySortOrder (int): int		100% (1/1)	100% (4/4)	100% (1/1)
stringToBinarySortOrder (String, boolean): char []		100% (1/1)	100% (36/36)	100% (7/7)

1	/* =============================================================
2	* SmallSQL : a free Java DBMS library for the Java(tm) platform
3	* =============================================================
4	*
5	* (C) Copyright 2004-2006, by Volker Berlin.
6	*
7	* Project Info: http://www.smallsql.de/
8	*
9	* This library is free software; you can redistribute it and/or modify it
10	* under the terms of the GNU Lesser General Public License as published by
11	* the Free Software Foundation; either version 2.1 of the License, or
12	* (at your option) any later version.
13	*
14	* This library is distributed in the hope that it will be useful, but
15	* WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
16	* or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public
17	* License for more details.
18	*
19	* You should have received a copy of the GNU Lesser General Public
20	* License along with this library; if not, write to the Free Software
21	* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301,
22	* USA.
23	*
24	* [Java is a trademark or registered trademark of Sun Microsystems, Inc.
25	* in the United States and other countries.]
26	*
27	* ---------------
28	* Index.java
29	* ---------------
30	* Author: Volker Berlin
31	*
32	*/
33	package smallsql.database;
34
35	import java.sql.SQLException;
36	import java.util.ArrayList;
37
38
39	/**
40	* To index data there need to solv the follow problems
41	* - change the values that need to save in the index to a value with sort order that is compatible
42	* with the index algorithmus.
43	* - multiple column index need to support. There should no identical save with combinations of values.
44	* - The data type for column should be const.
45	* - the data need to save fast.
46	* - the size of the index should be small (also with a small count of values)
47	* - It should use for unique index and nor unique. The unique index can save only one rowOffset.
48	* The non unique can save multiple rowOffsets in a LongTreeList.
49	* - Problem ORDER BY with Joins? There are more as one rowOffset per row.
50	*
51	*
52	* Algorithmus:
53	* - convert the values that the binary order is equals to the value order. We need to handle
54	* sign, floating numbers, case insensitive, different binary length (MutableNumeric).
55	* - create a 256 byte large mask for the first byte.
56	* - create a 256 byte large status mask
57	* - create a 256 large Object array
58	*
59	*
60	* @author Volker Berlin
61	*
62	*/
63	final class Index {
64
65	/*static public void main(String args[]) throws Exception{
66	Index index = new Index(false);
67	Expressions expressions = new Expressions();
68	ExpressionValue value = new ExpressionValue();
69	expressions.add(value);
70	value.set( "150", SQLTokenizer.VARCHAR);
71	index.addValues(1, expressions);
72	value.set( "15", SQLTokenizer.VARCHAR);
73	index.addValues(2, expressions);
74	print(index,expressions);
75	}
76
77	static void print(Index index, Expressions expressions){
78	index.reset(expressions);
79	long l;
80	while((l= index.getRowOffset(expressions, true)) >=0){
81	System.out.println(l);
82	}
83	System.out.println("============================");
84	}*/
85
86	private final IndexNode rootPage;
87
88	/**
89	* Create a Index. A Index is like a sorted list.
90	* @param unique true if there are no duplicated values allow.
91	*/
92	Index(boolean unique){
93	rootPage = new IndexNode(unique, (char)-1);
94	}
95
96
97	IndexScrollStatus createScrollStatus(Expressions expressions){
98	return new IndexScrollStatus(rootPage, expressions);
99	}
100
101	/**
102	* Returns a Long (unigue) or a LongTreeList with rowOffsets. If the value in expressions
103	* does not exist then it return a null.
104	* @param expressions The value that are search in the Index.
105	*/
106	final Object findRows( Expressions expressions, ArrayList nodeList ) throws Exception{
107	IndexNode page = rootPage;
108	int count = expressions.size();
109	for(int i=0; i<count; i++){
110	page = findRows( page, expressions.get(i), nodeList);
111	if(page == null)
112	return null;
113	if(i+1 == count)
114	return page.getValue();
115	else
116	page = (IndexNode)page.getValue();
117	}
118	throw new Error();
119	}
120
121
122	/**
123	* Returns a Long (unigue) or a LongTreeList with rowOffsets. If the value in expressions
124	* does not exist then it return a null.
125	* @param expressions The value that are search in the Index.
126	*/
127	final Object findRows( Expression[] expressions, ArrayList nodeList ) throws Exception{
128	IndexNode page = rootPage;
129	int count = expressions.length;
130	for(int i=0; i<count; i++){
131	page = findRows( page, expressions[i], nodeList);
132	if(page == null)
133	return null;
134	if(i+1 == count)
135	return page.getValue();
136	else
137	page = (IndexNode)page.getValue();
138	}
139	throw new Error();
140	}
141
142
143	/** Return the last IndexNode for the expression */
144	final private IndexNode findRows(IndexNode page, Expression expr, ArrayList nodeList) throws Exception{
145	if(expr.isNull()){
146	page = findNull(page);
147	}else{
148	switch(expr.getDataType()){
149	case SQLTokenizer.REAL:
150	page = find( page, floatToBinarySortOrder( expr.getFloat()), 2, nodeList );
151	break;
152	case SQLTokenizer.DOUBLE:
153	case SQLTokenizer.FLOAT:
154	page = find( page, doubleToBinarySortOrder( expr.getDouble()), 4, nodeList );
155	break;
156	case SQLTokenizer.TINYINT:
157	page = find( page, expr.getInt(), 1, nodeList );
158	break;
159	case SQLTokenizer.SMALLINT:
160	page = find( page, shortToBinarySortOrder( expr.getInt()), 1, nodeList );
161	break;
162	case SQLTokenizer.INT:
163	page = find( page, intToBinarySortOrder( expr.getInt()), 2, nodeList );
164	break;
165	case SQLTokenizer.BIGINT:
166	case SQLTokenizer.DATE:
167	case SQLTokenizer.TIME:
168	case SQLTokenizer.TIMESTAMP:
169	case SQLTokenizer.SMALLDATETIME:
170	case SQLTokenizer.MONEY:
171	case SQLTokenizer.SMALLMONEY:
172	page = find( page, longToBinarySortOrder( expr.getLong()), 4, nodeList );
173	break;
174	case SQLTokenizer.VARCHAR:
175	case SQLTokenizer.NVARCHAR:
176	case SQLTokenizer.LONGVARCHAR:
177	case SQLTokenizer.LONGNVARCHAR:
178	case SQLTokenizer.CLOB:
179	page = find( page, stringToBinarySortOrder( expr.getString(), false ), nodeList );
180	break;
181	case SQLTokenizer.NCHAR:
182	case SQLTokenizer.CHAR:
183	page = find( page, stringToBinarySortOrder( expr.getString(), true ), nodeList );
184	break;
185	case SQLTokenizer.VARBINARY:
186	case SQLTokenizer.BINARY:
187	case SQLTokenizer.LONGVARBINARY:
188	case SQLTokenizer.BLOB:
189	case SQLTokenizer.UNIQUEIDENTIFIER:
190	page = find( page, bytesToBinarySortOrder( expr.getBytes()), nodeList );
191	break;
192	case SQLTokenizer.BIT:
193	case SQLTokenizer.BOOLEAN:
194	page = find( page, expr.getBoolean() ? 2 : 1, 1, nodeList );
195	break;
196	case SQLTokenizer.NUMERIC:
197	case SQLTokenizer.DECIMAL:
198	page = find( page, numericToBinarySortOrder( expr.getNumeric() ), nodeList );
199	break;
200	default:
201	//TODO weitere Datentypen
202	throw new Error(String.valueOf(expr.getDataType()));
203	}
204	}
205	return page;
206	}
207
208
209	/**
210	* Add a value to the index.
211	* @param rowOffset Is the value that is save in the index. It is typical a row number or a rowOffset.
212	* @param expressions This is the list of ORDER BY columns and descript the position in the index.
213	*/
214	final void addValues( long rowOffset, Expressions expressions ) throws Exception{
215	IndexNode page = this.rootPage;
216	int count = expressions.size();
217	for(int i=0; i<count; i++){
218	Expression expr = expressions.get(i);
219	boolean isLastValues = (i == count-1);
220	if(expr.isNull()){
221	page = addNull(page, rowOffset, isLastValues);
222	}else{
223	switch(expr.getDataType()){
224	case SQLTokenizer.REAL:
225	page = add( page, rowOffset, floatToBinarySortOrder( expr.getFloat()), isLastValues, 2 );
226	break;
227	case SQLTokenizer.DOUBLE:
228	case SQLTokenizer.FLOAT:
229	page = add( page, rowOffset, doubleToBinarySortOrder( expr.getDouble()), isLastValues, 4 );
230	break;
231	case SQLTokenizer.TINYINT:
232	page = add( page, rowOffset, expr.getInt(), isLastValues, 1 );
233	break;
234	case SQLTokenizer.SMALLINT:
235	page = add( page, rowOffset, shortToBinarySortOrder( expr.getInt()), isLastValues, 1 );
236	break;
237	case SQLTokenizer.INT:
238	page = add( page, rowOffset, intToBinarySortOrder( expr.getInt()), isLastValues, 2 );
239	break;
240	case SQLTokenizer.BIGINT:
241	case SQLTokenizer.DATE:
242	case SQLTokenizer.TIME:
243	case SQLTokenizer.TIMESTAMP:
244	case SQLTokenizer.SMALLDATETIME:
245	case SQLTokenizer.MONEY:
246	case SQLTokenizer.SMALLMONEY:
247	page = add( page, rowOffset, longToBinarySortOrder( expr.getLong()), isLastValues, 4 );
248	break;
249	case SQLTokenizer.VARCHAR:
250	case SQLTokenizer.NVARCHAR:
251	case SQLTokenizer.LONGVARCHAR:
252	case SQLTokenizer.LONGNVARCHAR:
253	page = add( page, rowOffset, stringToBinarySortOrder( expr.getString(), false ), isLastValues );
254	break;
255	case SQLTokenizer.NCHAR:
256	case SQLTokenizer.CHAR:
257	page = add( page, rowOffset, stringToBinarySortOrder( expr.getString(), true ), isLastValues );
258	break;
259	case SQLTokenizer.VARBINARY:
260	case SQLTokenizer.BINARY:
261	case SQLTokenizer.LONGVARBINARY:
262	case SQLTokenizer.BLOB:
263	case SQLTokenizer.UNIQUEIDENTIFIER:
264	page = add( page, rowOffset, bytesToBinarySortOrder( expr.getBytes()), isLastValues );
265	break;
266	case SQLTokenizer.BIT:
267	case SQLTokenizer.BOOLEAN:
268	page = add( page, rowOffset, expr.getBoolean() ? 2 : 1, isLastValues, 1 );
269	break;
270	case SQLTokenizer.NUMERIC:
271	case SQLTokenizer.DECIMAL:
272	page = add( page, rowOffset, numericToBinarySortOrder( expr.getNumeric()), isLastValues );
273	break;
274	default:
275	//TODO weitere Datentypen
276	throw new Error(String.valueOf(expr.getDataType()));
277	}
278	}
279	}
280	}
281
282
283	final void removeValue( long rowOffset, Expressions expressions ) throws Exception{
284	ArrayList nodeList = new ArrayList();
285	Object obj = findRows(expressions, nodeList);
286	if(!rootPage.getUnique()){
287	LongTreeList list = (LongTreeList)obj;
288	list.remove(rowOffset);
289	if(list.getSize() > 0) return;
290	}
291	IndexNode node = (IndexNode)nodeList.get(nodeList.size()-1);;
292	node.clearValue();
293	for(int i = nodeList.size()-2; i >= 0; i--){
294	if(!node.isEmpty())
295	break;
296	IndexNode parent = (IndexNode)nodeList.get(i);
297	parent.removeNode( node.getDigit() );
298	node = parent;
299	}
300	}
301
302
303	final private IndexNode findNull(IndexNode page) throws SQLException{
304	return page.getChildNode( (char)0 );
305	}
306
307
308	final private IndexNode addNull(IndexNode page, long rowOffset, boolean isLastValue) throws SQLException{
309	if(isLastValue){
310	page.addNode( (char)0, rowOffset );
311	return null;
312	}else
313	return page.addRoot((char)0);
314	}
315
316
317	final private IndexNode find(IndexNode node, long key, int digitCount, ArrayList nodeList) throws SQLException{
318	for(int i=digitCount-1; i>=0; i--){
319	char digit = (char)(key >> (i<<4));
320	node = node.getChildNode(digit);
321
322	if(node == null) return null;
323	if(nodeList != null) nodeList.add(node);
324
325	if(equals(node.getRemainderValue(), key, i)){
326	return node;
327	}
328	}
329	return node;
330	}
331
332
333	/**
334	* The key has a binary sort order. This means the most significate byte is in the high byte.
335	* @param digitCount The count of 16Bit digits.
336	*/
337	final private IndexNode add(IndexNode node, long rowOffset, long key, boolean isLastValue, int digitCount) throws SQLException{
338	for(int i=digitCount-1; i>=0; i--){
339	char digit = (char)(key >> (i<<4));
340	if(i == 0){
341	if(isLastValue){
342	node.addNode( digit, rowOffset );
343	return null;
344	}
345	return node.addRoot(digit);
346	}
347	node = node.addNode(digit);
348	if(node.isEmpty()){
349	if(isLastValue){
350	node.addRemainderKey( rowOffset, key, i );
351	return null;
352	}
353	return node.addRootValue( key, i);
354	}else
355	if(equals(node.getRemainderValue(), key, i)){
356	if(isLastValue){
357	node.saveValue( rowOffset);
358	return null;
359	}
360	return node.addRoot();
361	}
362	}
363	throw new Error();
364	}
365
366
367	final private IndexNode find(IndexNode node, char[] key, ArrayList nodeList) throws SQLException{
368	int length = key.length;
369	int i=-1;
370	while(true){
371	// the first digit include 0-null; 1-empty; 2 another value
372	char digit = (i<0) ? (length == 0 ? (char)1 : 2)
373	: (key[i]);
374	node = node.getChildNode(digit);
375
376	if(node == null) return null;
377	if(nodeList != null) nodeList.add(node);
378	if(++i == length){
379	return node;
380	}
381
382	if(equals(node.getRemainderValue(), key, i)){
383	return node;
384	}
385	}
386	}
387
388
389	/**
390	* Add a byte array to the Index.
391	*/
392	final private IndexNode add(IndexNode node, long rowOffset, char[] key, boolean isLast) throws SQLException{
393	int length = key.length;
394	int i=-1;
395	while(true){
396	// the first digit include 0-null; 1-empty; 2 another value
397	char digit = (i<0) ? (length == 0 ? (char)1 : 2)
398	: (key[i]);
399	if(++i == length){
400	if(isLast){
401	node.addNode( digit, rowOffset );
402	return null;
403	}
404	return node.addRoot(digit);
405	}
406	node = node.addNode(digit);
407	if(node.isEmpty()){
408	if(isLast){
409	node.addRemainderKey( rowOffset, key, i );
410	return null;
411	}
412	return node.addRootValue( key, i );
413	}else
414	if(equals(node.getRemainderValue(), key, i)){
415	if(isLast){
416	node.saveValue(rowOffset);
417	return null;
418	}
419	return node.addRoot();
420	}
421	}
422	}
423
424
425	/**
426	* Remove all enties
427	*/
428	final void clear(){
429	rootPage.clear();
430	}
431	/*================================================================
432	* Normalize functions
433	* convert the value to a binary with identical sort order
434	* like the orginal values.
435	================================================================*/
436
437
438	final static private int floatToBinarySortOrder(float value){
439	int intValue = Float.floatToIntBits(value);
440	return (intValue<0) ?
441	~intValue :
442	intValue ^ 0x80000000;
443	}
444
445	final static private long doubleToBinarySortOrder(double value){
446	long intValue = Double.doubleToLongBits(value);
447	return (intValue<0) ?
448	~intValue :
449	intValue ^ 0x8000000000000000L;
450	}
451
452	final static private int shortToBinarySortOrder(int value){
453	return value ^ 0x8000;
454	}
455
456	final static private int intToBinarySortOrder(int value){
457	return value ^ 0x80000000;
458	}
459
460	final static private long longToBinarySortOrder(long value){
461	return value ^ 0x8000000000000000L;
462	}
463
464
465	final static private char[] stringToBinarySortOrder(String value, boolean needTrim){
466	int length = value.length();
467	if(needTrim){
468	while(length > 0 && value.charAt(length-1) == ' ') length--;
469	}
470	char[] puffer = new char[length];
471	for(int i=0; i<length; i++){
472	puffer[i] = Character.toLowerCase(Character.toUpperCase( value.charAt(i) ));
473	}
474	return puffer;
475	}
476
477
478	final static private char[] bytesToBinarySortOrder(byte[] value){
479	int length = value.length;
480	char[] puffer = new char[length];
481	for(int i=0; i<length; i++){
482	puffer[i] = (char)(value[i] & 0xFF);
483	}
484	return puffer;
485	}
486
487
488	final static private char[] numericToBinarySortOrder(MutableNumeric numeric){
489	int[] value = numeric.value;
490	int count = 1;
491	int i;
492	for(i=0; i<value.length; i++){
493	if(value[i] != 0){
494	count = 2*(value.length - i)+1;
495	break;
496	}
497	}
498	char[] puffer = new char[count];
499	puffer[0] = (char)count;
500	for(int c=1; c<count;){
501	puffer[c++] = (char)(value[i] >> 16);
502	puffer[c++] = (char)value[i++];
503	}
504	return puffer;
505	}
506
507
508	/*================================================================
509	*
510	* Functions for reading the index.
511	*
512	================================================================*/
513
514
515
516	private final boolean equals(char[] src1, char[] src2, int offset2){
517	if(src1 == null) return false;
518	int length = src1.length;
519	if(length != src2.length - offset2) return false;
520	for(int i=0; i<length; i++){
521	if(src1[i] != src2[i+offset2]) return false;
522	}
523	return true;
524	}
525
526
527	private final boolean equals(char[] src1, long src2, int charCount){
528	if(src1 == null) return false;
529	int length = src1.length;
530	if(length != charCount) return false;
531	for(int i=0, d = charCount-1; i<length; i++){
532	if(src1[i] != (char)((src2 >> (d-- << 4)))) return false;
533	}
534	return true;
535	}
536	}

[all classes][smallsql.database]

EMMA 2.1.5320 (stable) (C) Vladimir Roubtsov