public void testEmpty_SpecificCapacity() { IntList i = new IntList(5); Assert.AreEqual(0, i.size()); try { i.get(0); Assert.Fail("Accepted 0 index on empty list"); } catch (IndexOutOfRangeException) { Assert.IsTrue(true); } }
/** * Index the region between <code>[ptr, end)</code> to find line starts. * <para /> * The returned list is 1 indexed. Index 0 contains * {@link Integer#MIN_VALUE} to pad the list out. * <para /> * Using a 1 indexed list means that line numbers can be directly accessed * from the list, so <code>list.get(1)</code> (aka get line 1) returns * <code>ptr</code>. * <para /> * The last element (index <code>map.size()-1</code>) always contains * <code>end</code>. * * @param buf * buffer to scan. * @param ptr * position within the buffer corresponding to the first byte of * line 1. * @param end * 1 past the end of the content within <code>buf</code>. * @return a line map indexing the start position of each line. */ public static IntList lineMap(byte[] buf, int ptr, int end) { // Experimentally derived from multiple source repositories // the average number of bytes/line is 36. Its a rough guess // to initially size our map close to the target. // IntList map = new IntList((end - ptr) / 36); map.fillTo(1, int.MinValue); for (; ptr < end; ptr = nextLF(buf, ptr)) { map.add(ptr); } map.add(end); return(map); }
public void testAdd_SmallGroup() { IntList i = new IntList(); int n = 5; for (int v = 0; v < n; v++) i.add(10 + v); Assert.AreEqual(n, i.size()); for (int v = 0; v < n; v++) Assert.AreEqual(10 + v, i.get(v)); try { i.get(n); Assert.Fail("Accepted out of bound index on list"); } catch (IndexOutOfRangeException) { Assert.IsTrue(true); } }
public void testToString() { IntList i = new IntList(); i.add(1); Assert.AreEqual("[1]", i.toString()); i.add(13); i.add(5); Assert.AreEqual("[1, 13, 5]", i.toString()); }
public void testSet() { IntList i = new IntList(); i.add(1); Assert.AreEqual(1, i.size()); Assert.AreEqual(1, i.get(0)); i.set(0, 5); Assert.AreEqual(5, i.get(0)); AssertHelper.Throws<ArgumentException>(() => i.set(5, 5), "accepted set of 5 beyond end of list"); i.set(1, 2); Assert.AreEqual(2, i.size()); Assert.AreEqual(2, i.get(1)); }
public void testClear() { IntList i = new IntList(); int n = 5; for (int v = 0; v < n; v++) i.add(10 + v); Assert.AreEqual(n, i.size()); i.clear(); Assert.AreEqual(0, i.size()); try { i.get(0); Assert.Fail("Accepted 0 index on empty list"); } catch (IndexOutOfRangeException) { Assert.IsTrue(true); } }
public void testFillTo100() { IntList i = new IntList(); i.fillTo(100, int.MinValue); Assert.AreEqual(100, i.size()); i.add(3); Assert.AreEqual(int.MinValue, i.get(99)); Assert.AreEqual(3, i.get(100)); }
public void testFillTo1() { IntList i = new IntList(); i.fillTo(1, int.MinValue); Assert.AreEqual(1, i.size()); i.add(0); Assert.AreEqual(int.MinValue, i.get(0)); Assert.AreEqual(0, i.get(1)); }
public void testFillTo0() { IntList i = new IntList(); i.fillTo(0, int.MinValue); Assert.AreEqual(0, i.size()); }
public void testAdd_ZeroCapacity() { IntList i = new IntList(0); Assert.AreEqual(0, i.size()); i.add(1); Assert.AreEqual(1, i.get(0)); }
/** * Index the region between <code>[ptr, end)</code> to find line starts. * <para /> * The returned list is 1 indexed. Index 0 contains * {@link Integer#MIN_VALUE} to pad the list out. * <para /> * Using a 1 indexed list means that line numbers can be directly accessed * from the list, so <code>list.get(1)</code> (aka get line 1) returns * <code>ptr</code>. * <para /> * The last element (index <code>map.size()-1</code>) always contains * <code>end</code>. * * @param buf * buffer to scan. * @param ptr * position within the buffer corresponding to the first byte of * line 1. * @param end * 1 past the end of the content within <code>buf</code>. * @return a line map indexing the start position of each line. */ public static IntList lineMap(byte[] buf, int ptr, int end) { // Experimentally derived from multiple source repositories // the average number of bytes/line is 36. Its a rough guess // to initially size our map close to the target. // IntList map = new IntList((end - ptr) / 36); map.fillTo(1, int.MinValue); for (; ptr < end; ptr = nextLF(buf, ptr)) map.add(ptr); map.add(end); return map; }
/// <summary> /// Create a new sequence from an existing content byte array. /// <para /> /// The entire array (indexes 0 through length-1) is used as the content. /// </summary> /// <param name="input"> /// the content array. The array is never modified, so passing /// through cached arrays is safe. /// </param> public RawText(byte[] input) { content = input; lines = RawParseUtils.lineMap(content, 0, content.Length); hashes = computeHashes(); }
private IntList computeHashes() { var r = new IntList(lines.size()); r.add(0); for (int lno = 1; lno < lines.size() - 1; lno++) { int ptr = lines.get(lno); int end = lines.get(lno + 1); r.add(HashLine(content, ptr, end)); } r.add(0); return r; }