public static RDouble stripKeepNames(RDouble v) { Names names = v.names(); if (v.size() == 1 && names == null) { return new ScalarDoubleImpl(v.getDouble(0)); } return new DoubleImpl(v, null, names, null); }
public static boolean hasNAorNaN(RDouble d) { int size = d.size(); for (int i = 0; i < size; i++) { if (isNAorNaN(d.getDouble(i))) { return true; } } return false; }
public static RRaw doubleToRaw( RDouble value, ConversionStatus warn) { // eager to keep error semantics eager int size = value.size(); byte[] content = new byte[size]; for (int i = 0; i < size; i++) { double dval = value.getDouble(i); content[i] = Convert.double2raw(dval, warn); } return RRaw.RRawFactory.getFor(content, value.dimensions(), value.names()); }
public static RInt double2int( RDouble value, ConversionStatus warn) { // eager to keep error semantics eager int size = value.size(); int[] content = new int[size]; for (int i = 0; i < size; i++) { double d = value.getDouble(i); content[i] = Convert.double2int(d, warn); } return RInt.RIntFactory.getFor(content, value.dimensions(), value.names()); }
public static RString substring(RString text, RDouble first, RDouble last, ASTNode ast) { int textSize = text.size(); int firstSize = first.size(); int lastSize = last.size(); int textIndex = 0; int firstIndex = 0; int lastIndex = 0; if (textSize == 0) { return RString.EMPTY; } if (firstSize == 0) { throw RError.getInvalidArgument(ast, "first"); }// not exactly R-warning if (lastSize == 0) { throw RError.getInvalidArgument(ast, "last"); } // not exactly R-warning int n = Math.max(textSize, Math.max(firstSize, lastSize)); String[] content = new String[n]; for (int i = 0; i < n; i++) { double nfirst = first.getDouble(firstIndex++); if (firstIndex == firstSize) { firstIndex = 0; } double nlast = last.getDouble(lastIndex++); if (lastIndex == lastSize) { lastIndex = 0; } String str = text.getString(textIndex++); if (textIndex == textSize) { textIndex = 0; } if (!RDouble.RDoubleUtils.isNAorNaN(nfirst) && !RDouble.RDoubleUtils.isNAorNaN(nlast) && str != RString.NA) { int stp = (int) nlast; int len = str.length(); if (stp > len) { stp = len; } content[i] = str.substring(((int) nfirst) - 1, stp); } else { content[i] = RString.NA; } } return RString.RStringFactory.getFor(content); }
public static RDouble exclude(int excludeIndex, RDouble orig) { Names names = orig.names(); if (names == null) { return new RDoubleExclusion(excludeIndex, orig); } int size = orig.size(); int nsize = size - 1; double[] content = new double[nsize]; for (int i = 0; i < excludeIndex; i++) { content[i] = orig.getDouble(i); } for (int i = excludeIndex; i < nsize; i++) { content[i] = orig.getDouble(i + 1); } return RDoubleFactory.getFor(content, null, names.exclude(excludeIndex)); }
public static double[] copyAsDoubleArray(RDouble d) { int size = d.size(); if (size == 1) { return new double[] {d.getDouble(0)}; } else { double[] res = new double[size]; if (d instanceof DoubleImpl) { System.arraycopy(((DoubleImpl) d).getContent(), 0, res, 0, size); } else { for (int i = 0; i < size; i++) { res[i] = d.getDouble(i); } } return res; } }
public RDoubleSubset(RDouble value, RInt index) { this.value = value; this.index = index; this.isize = index.size(); this.vsize = value.size(); }
public RDoubleExclusion(int excludeIndex, RDouble orig) { this.orig = orig; this.excludeIndex = excludeIndex; this.size = orig.size() - 1; }
public static RDouble strip(RDouble v) { if (v.size() == 1) { return new ScalarDoubleImpl(v.getDouble(0)); } return new DoubleImpl(v, true); }
public static RDouble copy(RDouble d) { if (d.size() == 1 && d.dimensions() == null && d.names() == null && d.attributes() == null) { return new ScalarDoubleImpl(d.getDouble(0)); } return new DoubleImpl(d, false); }