8140189: [TESTBUG] Get rid of "@library /../../test/lib" in jtreg tests
Summary: Use new external.lib.roots property in TEST.ROOT so /../../test/lib is not needed.
Reviewed-by: mseledtsov, sla, iklam
/*
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* 2 along with this work; if not, write to the Free Software Foundation,
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*/
/*
* @test
* @bug 8072909
* @library /lib/testlibrary /test/lib
* @build jdk.testlibrary.*
* @build TimSortStackSize2
* @run main ClassFileInstaller sun.hotspot.WhiteBox
* @run main/othervm -Xbootclasspath/a:. -XX:+UnlockDiagnosticVMOptions
* -XX:+WhiteBoxAPI TimSortStackSize2
* @summary Test TimSort stack size on big arrays
*/
import java.util.ArrayList;
import java.util.Arrays;
import java.util.List;
import java.util.function.Consumer;
import jdk.testlibrary.OutputAnalyzer;
import jdk.testlibrary.ProcessTools;
import jdk.testlibrary.Utils;
import sun.hotspot.WhiteBox;
public class TimSortStackSize2 {
public static void main(String[] args) {
if ( args == null || args.length == 0 ){
startMeWithArgs();
} else {
doTestOfTwoTimSorts(Integer.parseInt(args[0]));
}
}
private static void startMeWithArgs(){
/*
* big tests not for regular execution on all platforms:
* run main/othervm -Xmx8g TimSortStackSize2 1073741824
* run main/othervm -Xmx16g TimSortStackSize2 2147483644
*/
try {
Boolean compressedOops = WhiteBox.getWhiteBox()
.getBooleanVMFlag("UseCompressedOops");
final String xmsValue = "-Xms" +
((compressedOops == null || compressedOops) ? "385" : "770")
+ "m";
System.out.println( "compressedOops: " + compressedOops
+ "; Test will be started with \"" + xmsValue + "\"");
ProcessBuilder processBuilder = ProcessTools
.createJavaProcessBuilder(Utils.addTestJavaOpts(xmsValue,
"TimSortStackSize2", "67108864"
)
);
OutputAnalyzer output = ProcessTools.executeProcess(processBuilder);
System.out.println(output.getOutput());
output.shouldHaveExitValue(0);
} catch( Exception e ){
e.printStackTrace();
throw new RuntimeException(e);
}
}
private static void doTestOfTwoTimSorts(final int lengthOfTest){
boolean passed = doTest("TimSort", lengthOfTest,
(Integer [] a) -> Arrays.sort(a));
passed = doTest("ComparableTimSort", lengthOfTest, (Integer [] a) ->
Arrays.sort(a, (Object first, Object second) -> {
return ((Comparable<Object>)first).compareTo(second);
}))
&& passed;
if ( !passed ){
throw new RuntimeException();
}
}
private static boolean doTest(final String msg, final int lengthOfTest,
final Consumer<Integer[]> c){
Integer [] a = null;
try {
a = new TimSortStackSize2(lengthOfTest).createArray();
long begin = System.nanoTime();
c.accept(a);
long end = System.nanoTime();
System.out.println(msg + " OK. Time: " + (end - begin) + "ns");
} catch (ArrayIndexOutOfBoundsException e){
System.out.println(msg + " broken:");
e.printStackTrace();
return false;
} finally {
a = null;
}
return true;
}
private static final int MIN_MERGE = 32;
private final int minRun;
private final int length;
private final List<Long> runs = new ArrayList<Long>();
public TimSortStackSize2(final int len) {
this.length = len;
minRun = minRunLength(len);
fillRunsJDKWorstCase();
}
private static int minRunLength(int n) {
assert n >= 0;
int r = 0; // Becomes 1 if any 1 bits are shifted off
while (n >= MIN_MERGE) {
r |= (n & 1);
n >>= 1;
}
return n + r;
}
/**
* Adds a sequence x_1, ..., x_n of run lengths to <code>runs</code> such that:<br>
* 1. X = x_1 + ... + x_n <br>
* 2. x_j >= minRun for all j <br>
* 3. x_1 + ... + x_{j-2} < x_j < x_1 + ... + x_{j-1} for all j <br>
* These conditions guarantee that TimSort merges all x_j's one by one
* (resulting in X) using only merges on the second-to-last element.
* @param X The sum of the sequence that should be added to runs.
*/
private void generateJDKWrongElem(long X) {
for(long newTotal; X >= 2 * minRun + 1; X = newTotal) {
//Default strategy
newTotal = X / 2 + 1;
//Specialized strategies
if(3 * minRun + 3 <= X && X <= 4*minRun+1) {
// add x_1=MIN+1, x_2=MIN, x_3=X-newTotal to runs
newTotal = 2 * minRun + 1;
} else if (5 * minRun + 5 <= X && X <= 6 * minRun + 5) {
// add x_1=MIN+1, x_2=MIN, x_3=MIN+2, x_4=X-newTotal to runs
newTotal = 3 * minRun + 3;
} else if (8 * minRun + 9 <= X && X <= 10 * minRun + 9) {
// add x_1=MIN+1, x_2=MIN, x_3=MIN+2, x_4=2MIN+2, x_5=X-newTotal to runs
newTotal = 5 * minRun + 5;
} else if (13 * minRun + 15 <= X && X <= 16 * minRun + 17) {
// add x_1=MIN+1, x_2=MIN, x_3=MIN+2, x_4=2MIN+2, x_5=3MIN+4, x_6=X-newTotal to runs
newTotal = 8 * minRun + 9;
}
runs.add(0, X - newTotal);
}
runs.add(0, X);
}
/**
* Fills <code>runs</code> with a sequence of run lengths of the form<br>
* Y_n x_{n,1} x_{n,2} ... x_{n,l_n} <br>
* Y_{n-1} x_{n-1,1} x_{n-1,2} ... x_{n-1,l_{n-1}} <br>
* ... <br>
* Y_1 x_{1,1} x_{1,2} ... x_{1,l_1}<br>
* The Y_i's are chosen to satisfy the invariant throughout execution,
* but the x_{i,j}'s are merged (by <code>TimSort.mergeCollapse</code>)
* into an X_i that violates the invariant.
* X is the sum of all run lengths that will be added to <code>runs</code>.
*/
private void fillRunsJDKWorstCase() {
long runningTotal = 0;
long Y = minRun + 4;
long X = minRun;
while (runningTotal + Y + X <= length) {
runningTotal += X + Y;
generateJDKWrongElem(X);
runs.add(0, Y);
// X_{i+1} = Y_i + x_{i,1} + 1, since runs.get(1) = x_{i,1}
X = Y + runs.get(1) + 1;
// Y_{i+1} = X_{i+1} + Y_i + 1
Y += X + 1;
}
if (runningTotal + X <= length) {
runningTotal += X;
generateJDKWrongElem(X);
}
runs.add(length - runningTotal);
}
private Integer [] createArray() {
Integer [] a = new Integer[length];
Arrays.fill(a, 0);
int endRun = -1;
for (long len : runs) {
a[endRun += len] = 1;
}
a[length - 1] = 0;
return a;
}
}