From: bryce Date: Thu, 4 Apr 2002 11:58:38 +0000 (+0000) Subject: * java/util/Arrays.java (qsort): Fix off-by-one errors and use of X-Git-Tag: upstream/4.9.2~87509 X-Git-Url: http://review.tizen.org/git/?a=commitdiff_plain;h=dcc54a3c7889340d1e9d261ab9d013f685eea54a;p=platform%2Fupstream%2Flinaro-gcc.git * java/util/Arrays.java (qsort): Fix off-by-one errors and use of incorrect "hi" value when count > 40. git-svn-id: svn+ssh://gcc.gnu.org/svn/gcc/trunk@51854 138bc75d-0d04-0410-961f-82ee72b054a4 --- diff --git a/libjava/ChangeLog b/libjava/ChangeLog index 60d7242..e2a1fe7 100644 --- a/libjava/ChangeLog +++ b/libjava/ChangeLog @@ -1,3 +1,8 @@ +2002-04-04 Bryce McKinlay + + * java/util/Arrays.java (qsort): Fix off-by-one errors and use of + incorrect "hi" value when count > 40. + 2002-04-03 Mark Wielaard * java/lang/reflect/Modifier.java (toString(int,StringBuffer)): Fix diff --git a/libjava/java/util/Arrays.java b/libjava/java/util/Arrays.java index 13f9be0..8126cf2 100644 --- a/libjava/java/util/Arrays.java +++ b/libjava/java/util/Arrays.java @@ -1078,9 +1078,9 @@ public class Arrays if (count > 40) { // big arrays, pseudomedian of 9 int s = count / 8; - lo = med3(lo, lo + s, lo + s + s, array); + lo = med3(lo, lo + s, lo + 2 * s, array); mid = med3(mid - s, mid, mid + s, array); - hi = med3(hi - s - s, hi - s, hi, array); + hi = med3(hi - 2 * s, hi - s, hi, array); } mid = med3(lo, mid, hi, array); @@ -1089,8 +1089,8 @@ public class Arrays // Pull the median element out of the fray, and use it as a pivot. swap(from, mid, array); - a = b = from + 1; - c = d = hi; + a = b = from; + c = d = from + count - 1; // Repeatedly move b and c to each other, swapping elements so // that all elements before index b are less than the pivot, and all @@ -1124,12 +1124,13 @@ public class Arrays } // Swap pivot(s) back in place, the recurse on left and right sections. + hi = from + count; int span; span = Math.min(a - from, b - a); vecswap(from, b - span, span, array); span = Math.min(d - c, hi - d - 1); - vecswap(b, hi - span + 1, span, array); + vecswap(b, hi - span, span, array); span = b - a; if (span > 1) @@ -1137,7 +1138,7 @@ public class Arrays span = d - c; if (span > 1) - qsort(array, hi - span + 1, span); + qsort(array, hi - span, span); } /** @@ -1239,9 +1240,9 @@ public class Arrays if (count > 40) { // big arrays, pseudomedian of 9 int s = count / 8; - lo = med3(lo, lo + s, lo + s + s, array); + lo = med3(lo, lo + s, lo + 2 * s, array); mid = med3(mid - s, mid, mid + s, array); - hi = med3(hi - s - s, hi - s, hi, array); + hi = med3(hi - 2 * s, hi - s, hi, array); } mid = med3(lo, mid, hi, array); @@ -1250,8 +1251,8 @@ public class Arrays // Pull the median element out of the fray, and use it as a pivot. swap(from, mid, array); - a = b = from + 1; - c = d = hi; + a = b = from; + c = d = from + count - 1; // Repeatedly move b and c to each other, swapping elements so // that all elements before index b are less than the pivot, and all @@ -1285,12 +1286,13 @@ public class Arrays } // Swap pivot(s) back in place, the recurse on left and right sections. + hi = from + count; int span; span = Math.min(a - from, b - a); vecswap(from, b - span, span, array); span = Math.min(d - c, hi - d - 1); - vecswap(b, hi - span + 1, span, array); + vecswap(b, hi - span, span, array); span = b - a; if (span > 1) @@ -1298,7 +1300,7 @@ public class Arrays span = d - c; if (span > 1) - qsort(array, hi - span + 1, span); + qsort(array, hi - span, span); } /** @@ -1400,9 +1402,9 @@ public class Arrays if (count > 40) { // big arrays, pseudomedian of 9 int s = count / 8; - lo = med3(lo, lo + s, lo + s + s, array); + lo = med3(lo, lo + s, lo + 2 * s, array); mid = med3(mid - s, mid, mid + s, array); - hi = med3(hi - s - s, hi - s, hi, array); + hi = med3(hi - 2 * s, hi - s, hi, array); } mid = med3(lo, mid, hi, array); @@ -1411,8 +1413,8 @@ public class Arrays // Pull the median element out of the fray, and use it as a pivot. swap(from, mid, array); - a = b = from + 1; - c = d = hi; + a = b = from; + c = d = from + count - 1; // Repeatedly move b and c to each other, swapping elements so // that all elements before index b are less than the pivot, and all @@ -1446,12 +1448,13 @@ public class Arrays } // Swap pivot(s) back in place, the recurse on left and right sections. + hi = from + count; int span; span = Math.min(a - from, b - a); vecswap(from, b - span, span, array); span = Math.min(d - c, hi - d - 1); - vecswap(b, hi - span + 1, span, array); + vecswap(b, hi - span, span, array); span = b - a; if (span > 1) @@ -1459,7 +1462,7 @@ public class Arrays span = d - c; if (span > 1) - qsort(array, hi - span + 1, span); + qsort(array, hi - span, span); } /** @@ -1573,9 +1576,9 @@ public class Arrays if (count > 40) { // big arrays, pseudomedian of 9 int s = count / 8; - lo = med3(lo, lo + s, lo + s + s, array); + lo = med3(lo, lo + s, lo + 2 * s, array); mid = med3(mid - s, mid, mid + s, array); - hi = med3(hi - s - s, hi - s, hi, array); + hi = med3(hi - 2 * s, hi - s, hi, array); } mid = med3(lo, mid, hi, array); @@ -1584,8 +1587,8 @@ public class Arrays // Pull the median element out of the fray, and use it as a pivot. swap(from, mid, array); - a = b = from + 1; - c = d = hi; + a = b = from; + c = d = from + count - 1; // Repeatedly move b and c to each other, swapping elements so // that all elements before index b are less than the pivot, and all @@ -1619,12 +1622,13 @@ public class Arrays } // Swap pivot(s) back in place, the recurse on left and right sections. + hi = from + count; int span; span = Math.min(a - from, b - a); vecswap(from, b - span, span, array); span = Math.min(d - c, hi - d - 1); - vecswap(b, hi - span + 1, span, array); + vecswap(b, hi - span, span, array); span = b - a; if (span > 1) @@ -1632,7 +1636,7 @@ public class Arrays span = d - c; if (span > 1) - qsort(array, hi - span + 1, span); + qsort(array, hi - span, span); } /** @@ -1746,9 +1750,9 @@ public class Arrays if (count > 40) { // big arrays, pseudomedian of 9 int s = count / 8; - lo = med3(lo, lo + s, lo + s + s, array); + lo = med3(lo, lo + s, lo + 2 * s, array); mid = med3(mid - s, mid, mid + s, array); - hi = med3(hi - s - s, hi - s, hi, array); + hi = med3(hi - 2 * s, hi - s, hi, array); } mid = med3(lo, mid, hi, array); @@ -1757,8 +1761,8 @@ public class Arrays // Pull the median element out of the fray, and use it as a pivot. swap(from, mid, array); - a = b = from + 1; - c = d = hi; + a = b = from; + c = d = from + count - 1; // Repeatedly move b and c to each other, swapping elements so // that all elements before index b are less than the pivot, and all @@ -1792,12 +1796,13 @@ public class Arrays } // Swap pivot(s) back in place, the recurse on left and right sections. + hi = from + count; int span; span = Math.min(a - from, b - a); vecswap(from, b - span, span, array); span = Math.min(d - c, hi - d - 1); - vecswap(b, hi - span + 1, span, array); + vecswap(b, hi - span, span, array); span = b - a; if (span > 1) @@ -1805,7 +1810,7 @@ public class Arrays span = d - c; if (span > 1) - qsort(array, hi - span + 1, span); + qsort(array, hi - span, span); } /** @@ -1913,9 +1918,9 @@ public class Arrays if (count > 40) { // big arrays, pseudomedian of 9 int s = count / 8; - lo = med3(lo, lo + s, lo + s + s, array); + lo = med3(lo, lo + s, lo + 2 * s, array); mid = med3(mid - s, mid, mid + s, array); - hi = med3(hi - s - s, hi - s, hi, array); + hi = med3(hi - 2 * s, hi - s, hi, array); } mid = med3(lo, mid, hi, array); @@ -1924,8 +1929,8 @@ public class Arrays // Pull the median element out of the fray, and use it as a pivot. swap(from, mid, array); - a = b = from + 1; - c = d = hi; + a = b = from; + c = d = from + count - 1; // Repeatedly move b and c to each other, swapping elements so // that all elements before index b are less than the pivot, and all @@ -1959,12 +1964,13 @@ public class Arrays } // Swap pivot(s) back in place, the recurse on left and right sections. + hi = from + count; int span; span = Math.min(a - from, b - a); vecswap(from, b - span, span, array); span = Math.min(d - c, hi - d - 1); - vecswap(b, hi - span + 1, span, array); + vecswap(b, hi - span, span, array); span = b - a; if (span > 1) @@ -1972,7 +1978,7 @@ public class Arrays span = d - c; if (span > 1) - qsort(array, hi - span + 1, span); + qsort(array, hi - span, span); } /** @@ -2080,9 +2086,9 @@ public class Arrays if (count > 40) { // big arrays, pseudomedian of 9 int s = count / 8; - lo = med3(lo, lo + s, lo + s + s, array); + lo = med3(lo, lo + s, lo + 2 * s, array); mid = med3(mid - s, mid, mid + s, array); - hi = med3(hi - s - s, hi - s, hi, array); + hi = med3(hi - 2 * s, hi - s, hi, array); } mid = med3(lo, mid, hi, array); @@ -2091,8 +2097,8 @@ public class Arrays // Pull the median element out of the fray, and use it as a pivot. swap(from, mid, array); - a = b = from + 1; - c = d = hi; + a = b = from; + c = d = from + count - 1; // Repeatedly move b and c to each other, swapping elements so // that all elements before index b are less than the pivot, and all @@ -2126,12 +2132,13 @@ public class Arrays } // Swap pivot(s) back in place, the recurse on left and right sections. + hi = from + count; int span; span = Math.min(a - from, b - a); vecswap(from, b - span, span, array); span = Math.min(d - c, hi - d - 1); - vecswap(b, hi - span + 1, span, array); + vecswap(b, hi - span, span, array); span = b - a; if (span > 1) @@ -2139,7 +2146,7 @@ public class Arrays span = d - c; if (span > 1) - qsort(array, hi - span + 1, span); + qsort(array, hi - span, span); } /**