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24<h2>Results</h2>
25
26<b>ProGuard</b> successfully processes any Java bytecode, ranging from small
27midlets to entire run-time libraries. It primarily reduces the size of the
28processed code, with some potential increase in efficiency as an added bonus.
29The improvements obviously depend on the original code. The table below
30presents some typical results:
31<p>
32
33<table>
34
35<tr>
36<th width="28%">Input Program</th>
37<th width="12%">Original size</th>
38<th width="12%">After shrinking</th>
39<th width="12%">After optim.</th>
40<th width="12%">After obfusc.</th>
41<th width="12%">Total reduction</th>
42<th width="12%">Time</th>
43<th width="12%">Memory usage</th>
44</tr>
45
46<tr>
47<td><a target="other" href="http://www.oracle.com/technetwork/java/javame/index.html">Worm</a>, a sample midlet from Oracle's JME</td>
48<td align="center">10.3 K</td>
49<td align="center">9.8 K</td>
50<td align="center">9.6 K</td>
51<td align="center">8.5 K</td>
52<td align="center">18 %</td>
53<td align="center">2 s</td>
54<td align="center">19 M</td>
55</tr>
56
57<tr>
58<td><a target="other" href="http://www.javadocking.com/">Javadocking</a>, a docking library</td>
59<td align="center">290 K</td>
60<td align="center">281 K</td>
61<td align="center">270 K</td>
62<td align="center">201 K</td>
63<td align="center">30 %</td>
64<td align="center">12 s</td>
65<td align="center">32 M</td>
66</tr>
67
68<tr>
69<td><b>ProGuard</b> itself</td>
70<td align="center">648 K</td>
71<td align="center">579 K</td>
72<td align="center">557 K</td>
73<td align="center">348 K</td>
74<td align="center">46 %</td>
75<td align="center">28 s</td>
76<td align="center">66 M</td>
77</tr>
78
79<tr>
80<td><a target="other" href="http://www.clarkware.com/software/JDepend.html">JDepend</a>, a Java quality metrics tool</td>
81<td align="center">57 K</td>
82<td align="center">36 K</td>
83<td align="center">33 K</td>
84<td align="center">28 K</td>
85<td align="center">51 %</td>
86<td align="center">6 s</td>
87<td align="center">24 M</td>
88</tr>
89
90<tr>
91<td><a target="other" href="ihttp://www.oracle.com/technetwork/java/javase/overview/index.html">the run-time classes</a> from Oracle's Java 6</td>
92<td align="center">53 M</td>
93<td align="center">23 M</td>
94<td align="center">22 M</td>
95<td align="center">18 M</td>
96<td align="center">66 %</td>
97<td align="center">16 min</td>
98<td align="center">270 M</td>
99</tr>
100
101<tr>
102<td><a target="other" href="http://tomcat.apache.org/">Tomcat</a>, the Apache servlet container</td>
103<td align="center">1.1 M</td>
104<td align="center">466 K</td>
105<td align="center">426 K</td>
106<td align="center">295 K</td>
107<td align="center">74 %</td>
108<td align="center">17 s</td>
109<td align="center">44 M</td>
110</tr>
111
112<tr>
113<td><a target="other" href="http://javancss.codehaus.org/">JavaNCSS</a>, a Java source metrics tool</td>
114<td align="center">632 K</td>
115<td align="center">242 K</td>
116<td align="center">212 K</td>
117<td align="center">152 K</td>
118<td align="center">75 %</td>
119<td align="center">20 s</td>
120<td align="center">36 M</td>
121</tr>
122
123<tr>
124<td><a target="other" href="http://ant.apache.org/">Ant</a>, the Apache build tool</td>
125<td align="center">2.4 M</td>
126<td align="center">401 K</td>
127<td align="center">325 K</td>
128<td align="center">242 K</td>
129<td align="center">90 %</td>
130<td align="center">23 s</td>
131<td align="center">61 M</td>
132</tr>
133
134</table>
135<p>
136Results were measured with ProGuard 4.0 on a 2.6 GHz Pentium 4 with 512 MB
137of memory, using Sun JDK 1.5.0 in Fedora Core 3 Linux. All of this technology
138and software has evolved since, but the gist of the results remains the same.
139<p>
140The program sizes include companion libraries. The shrinking step produces the
141best results for programs that use only small parts of their libraries. The
142obfuscation step can significantly shrink large programs even further, since
143the identifiers of their many internal references can be replaced by short
144identifiers.
145<p>
146The Java 6 run-time classes are the most complex example. The classes perform
147a lot of introspection, interacting with the native code of the virtual
148machine. The 1500+ lines of configuration were largely composed by automated
149analysis, complemented by a great deal of trial and error. The configuration
150is probably not complete, but the resulting library successfully serves as a
151run-time environment for running applications like ProGuard and the ProGuard
152GUI.
153<p>
154For small inputs, timings are governed by the reading and parsing of the jars.
155For large inputs, the optimization step becomes more important. For instance,
156processing the Java 6 run-time classes without optimization only takes 2
157minutes.
158<p>
159Memory usage (the amount of physical memory used by ProGuard while processing)
160is governed by the basic java virtual machine and by the total size of the
161library jars and program jars.
162
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164<address>
165Copyright &copy; 2002-2014
166<a target="other" href="http://www.lafortune.eu/">Eric Lafortune</a> @ <a target="top" href="http://www.saikoa.com/">Saikoa</a>.
167</address>
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