private static REXPLogical stringToREXPLogical(String value) { return new REXPLogical (stringToByte(value)); }
return stringToREXPLogical((String) value); return new REXPLogical(REXPLogical.NA); bValues[i++] = stringToByte(s); return new REXPLogical(bValues);
return new REXPLogical( ((Boolean)o).booleanValue() ) ; return new REXPLogical( (boolean[])o ) ; b[i] = booleans[i].booleanValue() ; return new REXPLogical( b );
return new REXPLogical( ((Boolean)o).booleanValue() ) ; return new REXPLogical( (boolean[])o ) ; b[i] = booleans[i].booleanValue() ; return new REXPLogical( b );
byte b[] = new byte[] { buf[o] }; if (b[0] != 0 && b[0] != 1) b[0] = REXPLogical.NA; cont = new REXPLogical(b, getAttr()); o++; if (o!=eox) { o = eox; for (int j = 0; j < d.length; j++) if (d[j] != 0 && d[j] != 1) d[j] = REXPLogical.NA; cont = new REXPLogical(d, getAttr()); return o; for (int j = 0; j < d.length; j++) if (d[j] != 0 && d[j] != 1) d[j] = REXPLogical.NA; o = eox; cont = new REXPLogical(d, getAttr()); return o;
byte b[] = new byte[] { buf[o] }; if (b[0] != 0 && b[0] != 1) b[0] = REXPLogical.NA; cont = new REXPLogical(b, getAttr()); o++; if (o!=eox) { o = eox; for (int j = 0; j < d.length; j++) if (d[j] != 0 && d[j] != 1) d[j] = REXPLogical.NA; cont = new REXPLogical(d, getAttr()); return o; for (int j = 0; j < d.length; j++) if (d[j] != 0 && d[j] != 1) d[j] = REXPLogical.NA; o = eox; cont = new REXPLogical(d, getAttr()); return o;
Boolean[] bArr = new Boolean[1]; bArr[0] = (Boolean)value; connectable.getRengine().assign(key, new REXPLogical(bArr[0])); break; case REXP_ARRAY_INT: break; case REXP_ARRAY_BOOL: connectable.getRengine().assign(key, new REXPLogical((boolean[])value)); break; default:
Boolean[] bArr = new Boolean[1]; bArr[0] = (Boolean) value; connectable.getRengine().assign(key, new REXPLogical(bArr[0])); break; case REXP_ARRAY_INT: break; case REXP_ARRAY_BOOL: connectable.getRengine().assign(key, new REXPLogical((boolean[]) value)); break; default: