package com.netscape.pkisilent.argparser; // --- BEGIN COPYRIGHT BLOCK --- // This program is free software; you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation; version 2 of the License. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License along // with this program; if not, write to the Free Software Foundation, Inc., // 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. // // (C) 2007 Red Hat, Inc. // All rights reserved. // --- END COPYRIGHT BLOCK --- /** * Copyright John E. Lloyd, 2004. All rights reserved. Permission to use, * copy, modify and redistribute is granted, provided that this copyright * notice is retained and the author is given credit whenever appropriate. * * This software is distributed "as is", without any warranty, including * any implied warranty of merchantability or fitness for a particular * use. The author assumes no responsibility for, and shall not be liable * for, any special, indirect, or consequential damages, or any damages * whatsoever, arising out of or in connection with the use of this * software. */ import java.io.ByteArrayOutputStream; import java.io.PrintStream; import java.lang.reflect.Array; import java.util.Vector; /** * Testing class for the class ArgParser. Executing the main method of this class will perform a suite of * tests to help verify correct * operation of the parser class. * * @author John E. Lloyd, Fall 2004 * @see ArgParser */ public class ArgParserTest { ArgParser parser; static final boolean CLOSED = true; static final boolean OPEN = false; static final boolean ONE_WORD = true; static final boolean MULTI_WORD = false; private static void verify(boolean ok, String msg) { if (!ok) { Throwable e = new Throwable(); System.out.println("Verification failed:" + msg); e.printStackTrace(); System.exit(1); } } private static String[] argsFromString(String s) { Vector vec = new Vector(100); try { ArgParser.stringToArgs(vec, s, /*allowQuotedStings=*/false); } catch (StringScanException e) { e.printStackTrace(); System.exit(1); } String[] result = new String[vec.size()]; for (int i = 0; i < vec.size(); i++) { result[i] = (String) vec.get(i); } return result; } static class RngCheck { ArgParser.RangePnt low = null; ArgParser.RangePnt high = null; int type; RngCheck(String s) { low = new ArgParser.RangePnt(s, CLOSED); type = 's'; } RngCheck(double d) { low = new ArgParser.RangePnt(d, CLOSED); type = 'd'; } RngCheck(long l) { low = new ArgParser.RangePnt(l, CLOSED); type = 'l'; } RngCheck(boolean b) { low = new ArgParser.RangePnt(b, CLOSED); type = 'b'; } RngCheck(String s1, boolean c1, String s2, boolean c2) { low = new ArgParser.RangePnt(s1, c1); high = new ArgParser.RangePnt(s2, c2); type = 's'; } RngCheck(double d1, boolean c1, double d2, boolean c2) { low = new ArgParser.RangePnt(d1, c1); high = new ArgParser.RangePnt(d2, c2); type = 'd'; } RngCheck(long l1, boolean c1, long l2, boolean c2) { low = new ArgParser.RangePnt(l1, c1); high = new ArgParser.RangePnt(l2, c2); type = 'l'; } void check(ArgParser.RangeAtom ra) { verify((ra.low == null) == (low == null), "(ra.low==null)=" + (ra.low == null) + "(low==null)=" + (low == null)); verify((ra.high == null) == (high == null), "(ra.high==null)=" + (ra.high == null) + "(high==null)=" + (high == null)); if (ra.low != null) { switch (type) { case 'l': { verify(ra.low.lval == low.lval, "ra.low=" + ra.low + " low=" + low); break; } case 'd': { verify(ra.low.dval == low.dval, "ra.low=" + ra.low + " low=" + low); break; } case 's': { verify(ra.low.sval.equals(low.sval), "ra.low=" + ra.low + " low=" + low); break; } case 'b': { verify(ra.low.bval == low.bval, "ra.low=" + ra.low + " low=" + low); break; } } verify(ra.low.closed == low.closed, "ra.low=" + ra.low + " low=" + low); } if (ra.high != null) { switch (type) { case 'l': { verify(ra.high.lval == high.lval, "ra.high=" + ra.high + " high=" + high); break; } case 'd': { verify(ra.high.dval == high.dval, "ra.high=" + ra.high + " high=" + high); break; } case 's': { verify(ra.high.sval.equals(high.sval), "ra.high=" + ra.high + " high=" + high); break; } case 'b': { verify(ra.high.bval == high.bval, "ra.high=" + ra.high + " high=" + high); break; } } verify(ra.high.closed == high.closed, "ra.high=" + ra.high + " high=" + high); } } } ArgParserTest() { parser = new ArgParser("fubar"); } static void checkException(Exception e, String errmsg) { if (errmsg != null) { if (!e.getMessage().equals(errmsg)) { System.out.println( "Expecting exception '" + errmsg + "' but got '" + e.getMessage() + "'"); e.printStackTrace(); (new Throwable()).printStackTrace(); System.exit(1); } } else { System.out.println( "Unexpected exception '" + e.getMessage() + "'"); e.printStackTrace(); (new Throwable()).printStackTrace(); System.exit(1); } } void checkPrintHelp(String msg) { ByteArrayOutputStream buf = new ByteArrayOutputStream(0x10000); PrintStream ps = new PrintStream(buf); ps.println(parser.getHelpMessage()); System.out.print(buf.toString()); } // void checkGetSynopsis (String msg) // { // ByteArrayOutputStream buf = new ByteArrayOutputStream(0x10000); // PrintStream ps = new PrintStream(buf); // parser.printSynopsis (ps, 80); // System.out.print (buf.toString()); // } void checkAdd(String s, Object resHolder, String errmsg) { checkAdd(s, resHolder, 0, 0, null, null, null, errmsg); } void add(String s, Object resHolder) { try { parser.addOption(s, resHolder); } catch (Exception e) { e.printStackTrace(); System.exit(1); } } void checkStringArray(String msg, String[] strs, String[] check) { boolean dontMatch = false; if (strs.length != check.length) { dontMatch = true; } else { for (int i = 0; i < strs.length; i++) { if (!strs[i].equals(check[i])) { dontMatch = true; break; } } } if (dontMatch) { System.out.println(msg); System.out.print("Expected: "); for (int i = 0; i < check.length; i++) { System.out.print("'" + check[i] + "'"); if (i < check.length - 1) { System.out.print(" "); } } System.out.println(""); System.out.print("Got: "); for (int i = 0; i < strs.length; i++) { System.out.print("'" + strs[i] + "'"); if (i < strs.length - 1) { System.out.print(" "); } } System.out.println(""); System.exit(1); } } void checkAdd(String s, Object resHolder, int code, int numValues, Object names, RngCheck[] rngCheck, String helpMsg, String errmsg) { boolean exceptionThrown = false; String[] namelist = null; try { parser.addOption(s, resHolder); } catch (Exception e) { exceptionThrown = true; checkException(e, errmsg); } if (names instanceof String) { namelist = new String[] { (String) names }; } else { namelist = (String[]) names; } if (!exceptionThrown) { verify(errmsg == null, "Expecting exception " + errmsg); ArgParser.Record rec = parser.lastMatchRecord(); verify(rec.convertCode == code, "code=" + rec.convertCode + ", expecting " + code); ArgParser.NameDesc nd; int i = 0; for (nd = rec.firstNameDesc(); nd != null; nd = nd.next) { i++; } verify(i == namelist.length, "numNames=" + i + ", expecting " + namelist.length); i = 0; for (nd = rec.firstNameDesc(); nd != null; nd = nd.next) { String ss; if (!nd.oneWord) { ss = new String(nd.name) + ' '; } else { ss = nd.name; } verify(ss.equals(namelist[i]), "have name '" + ss + "', expecting '" + namelist[i] + "'"); i++; } ArgParser.RangeAtom ra; i = 0; for (ra = rec.firstRangeAtom(); ra != null; ra = ra.next) { i++; } int expectedRangeNum = 0; if (rngCheck != null) { expectedRangeNum = rngCheck.length; } verify(i == expectedRangeNum, "numRangeAtoms=" + i + ", expecting " + expectedRangeNum); i = 0; for (ra = rec.firstRangeAtom(); ra != null; ra = ra.next) { rngCheck[i++].check(ra); } verify(rec.helpMsg.equals(helpMsg), "helpMsg=" + rec.helpMsg + ", expecting " + helpMsg); verify(rec.numValues == numValues, "numValues=" + rec.numValues + ", expecting " + numValues); } } double getDoubleValue(Object obj, int k) { if (obj instanceof DoubleHolder) { return ((DoubleHolder) obj).value; } else if (obj instanceof FloatHolder) { return ((FloatHolder) obj).value; } else if (obj instanceof double[]) { return ((double[]) obj)[k]; } else if (obj instanceof float[]) { return ((float[]) obj)[k]; } else { verify(false, "object doesn't contain double values"); return 0; } } long getLongValue(Object obj, int k) { if (obj instanceof LongHolder) { return ((LongHolder) obj).value; } else if (obj instanceof IntHolder) { return ((IntHolder) obj).value; } else if (obj instanceof long[]) { return ((long[]) obj)[k]; } else if (obj instanceof int[]) { return ((int[]) obj)[k]; } else { verify(false, "object doesn't contain long values"); return 0; } } String getStringValue(Object obj, int k) { if (obj instanceof StringHolder) { return ((StringHolder) obj).value; } else if (obj instanceof String[]) { return ((String[]) obj)[k]; } else { verify(false, "object doesn't contain String values"); return null; } } boolean getBooleanValue(Object obj, int k) { if (obj instanceof BooleanHolder) { return ((BooleanHolder) obj).value; } else if (obj instanceof boolean[]) { return ((boolean[]) obj)[k]; } else { verify(false, "object doesn't contain boolean values"); return false; } } char getCharValue(Object obj, int k) { if (obj instanceof CharHolder) { return ((CharHolder) obj).value; } else if (obj instanceof char[]) { return ((char[]) obj)[k]; } else { verify(false, "object doesn't contain char values"); return 0; } } static class MErr { int code; String valStr; MErr(int code, String valStr) { this.code = code; this.valStr = valStr; } } static class MTest { String args; Object result; int resultIdx; MTest(String args, Object result) { this(args, result, -1); } MTest(String args, Object result, int resultIdx) { this.args = args; this.result = result; this.resultIdx = resultIdx; } }; void checkMatch(String args[], int idx, String errMsg) { getMatchResult(args, idx, -1, errMsg, -1); } void checkMatch(String args[], int idx, int cnt, long check, int resultIdx) { Object rholder = getMatchResult(args, idx, cnt, null, resultIdx); long result = getLongValue(rholder, 0); verify(result == check, "result " + result + " vs. " + check); } void checkMatch(String args[], int idx, int cnt, double check, int resultIdx) { Object rholder = getMatchResult(args, idx, cnt, null, resultIdx); double result = getDoubleValue(rholder, 0); verify(result == check, "result " + result + " vs. " + check); } void checkMatch(String args[], int idx, int cnt, String check, int resultIdx) { Object rholder = getMatchResult(args, idx, cnt, null, resultIdx); String result = getStringValue(rholder, 0); verify(result.equals(check), "result " + result + " vs. " + check); } void checkMatch(String args[], int idx, int cnt, boolean check, int resultIdx) { Object rholder = getMatchResult(args, idx, cnt, null, resultIdx); boolean result = getBooleanValue(rholder, 0); verify(result == check, "result " + result + " vs. " + check); } void checkMatch(String args[], int idx, int cnt, char check, int resultIdx) { Object rholder = getMatchResult(args, idx, cnt, null, resultIdx); char result = getCharValue(rholder, 0); verify(result == check, "result " + result + " vs. " + check); } void checkMatch(String args[], int idx, int cnt, Object checkArray, int resultIdx) { Object rholder = getMatchResult(args, idx, cnt, null, resultIdx); if (!checkArray.getClass().isArray()) { verify(false, "check is not an array"); } for (int i = 0; i < Array.getLength(checkArray); i++) { if (checkArray instanceof long[]) { long result = getLongValue(rholder, i); long check = ((long[]) checkArray)[i]; verify(result == check, "result [" + i + "] " + result + " vs. " + check); } else if (checkArray instanceof double[]) { double result = getDoubleValue(rholder, i); double check = ((double[]) checkArray)[i]; verify(result == check, "result [" + i + "] " + result + " vs. " + check); } else if (checkArray instanceof String[]) { String result = getStringValue(rholder, i); String check = ((String[]) checkArray)[i]; verify(result.equals(check), "result [" + i + "] " + result + " vs. " + check); } else if (checkArray instanceof boolean[]) { boolean result = getBooleanValue(rholder, i); boolean check = ((boolean[]) checkArray)[i]; verify(result == check, "result [" + i + "] " + result + " vs. " + check); } else if (checkArray instanceof char[]) { char result = getCharValue(rholder, i); char check = ((char[]) checkArray)[i]; verify(result == check, "result [" + i + "] " + result + " vs. " + check); } else { verify(false, "unknown type for checkArray"); } } } void checkMatch(MTest test, boolean oneWord) { String[] argv; if (oneWord) { argv = new String[1]; argv[0] = test.args; } else { argv = argsFromString(test.args); } if (test.result instanceof Long) { checkMatch(argv, 0, argv.length, ((Long) test.result).longValue(), test.resultIdx); } else if (test.result instanceof Double) { checkMatch(argv, 0, argv.length, ((Double) test.result).doubleValue(), test.resultIdx); } else if (test.result instanceof String) { checkMatch(argv, 0, argv.length, (String) test.result, test.resultIdx); } else if (test.result instanceof Boolean) { checkMatch(argv, 0, argv.length, ((Boolean) test.result).booleanValue(), test.resultIdx); } else if (test.result instanceof Character) { checkMatch(argv, 0, argv.length, ((Character) test.result).charValue(), test.resultIdx); } else if (test.result.getClass().isArray()) { checkMatch(argv, 0, argv.length, test.result, test.resultIdx); } else if (test.result instanceof MErr) { MErr err = (MErr) test.result; String argname = parser.getOptionName(argv[0]); String msg = ""; switch (err.code) { case 'c': { msg = "requires a contiguous value"; break; } case 'm': { msg = "malformed " + parser.getOptionTypeName(argv[0]) + " '" + err.valStr + "'"; break; } case 'r': { msg = "value '" + err.valStr + "' not in range " + parser.getOptionRangeDesc(argv[0]); break; } case 'v': { msg = "requires " + err.valStr + " values"; break; } } checkMatch(argv, 0, argname + ": " + msg); } else { verify(false, "Unknown result type"); } } void checkMatches(MTest[] tests, boolean oneWord) { for (int i = 0; i < tests.length; i++) { checkMatch(tests[i], oneWord); } } Object getMatchResult(String args[], int idx, int cnt, String errMsg, int resultIdx) { boolean exceptionThrown = false; int k = 0; try { k = parser.matchArg(args, idx); } catch (Exception e) { exceptionThrown = true; checkException(e, errMsg); } if (!exceptionThrown) { verify(k == idx + cnt, "Expecting result index " + (idx + cnt) + ", got " + k); Object result = parser.getResultHolder(args[0]); if (resultIdx >= 0) { verify(result instanceof Vector, "Expecting result to be stored in a vector"); Vector vec = (Vector) result; verify(vec.size() == resultIdx + 1, "Expecting result vector size " + (resultIdx + 1)); return vec.get(resultIdx); } else { return result; } } else { return null; } } /** * Runs a set of tests to verify correct operation of the * ArgParser class. If all the tests run correctly, the * program prints the message Passed and terminates. * Otherwise, diagnostic information is printed at the first * point of failure. */ public static void main(String[] args) { ArgParserTest test = new ArgParserTest(); BooleanHolder bh = new BooleanHolder(); boolean[] b3 = new boolean[3]; CharHolder ch = new CharHolder(); char[] c3 = new char[3]; IntHolder ih = new IntHolder(); int[] i3 = new int[3]; LongHolder lh = new LongHolder(); long[] l3 = new long[3]; FloatHolder fh = new FloatHolder(); float[] f3 = new float[3]; DoubleHolder dh = new DoubleHolder(); double[] d3 = new double[3]; StringHolder sh = new StringHolder(); String[] s3 = new String[3]; test.checkAdd("-foo %i{[0,10)}X3 #sets the value of foo", // 0123456789012345 i3, 'i', 3, new String[] { "-foo " }, new RngCheck[] { new RngCheck(0, CLOSED, 10, OPEN) }, "sets the value of foo", null); test.checkAdd("-arg1,,", null, "Null option name given"); test.checkAdd("-arg1,,goo %f ", null, "Null option name given"); test.checkAdd(" ", null, "Null option name given"); test.checkAdd("", null, "Null option name given"); test.checkAdd(" %v", null, "Null option name given"); test.checkAdd("-foo ", null, "No conversion character given"); test.checkAdd("-foo %", null, "No conversion character given"); test.checkAdd("foo, aaa bbb ", null, "Names not separated by ','"); test.checkAdd(" foo aaa %d", null, "Names not separated by ','"); test.checkAdd("-arg1,-b,", null, "Null option name given"); test.checkAdd("-arg1,-b", null, "No conversion character given"); test.checkAdd("-arg1 ", null, "No conversion character given"); test.checkAdd("-arg1, %v", null, "Null option name given"); test.checkAdd("-arg1,%v", null, "Null option name given"); test.checkAdd("-foo %V", null, "Conversion code 'V' not one of 'iodxcbfsvh'"); test.checkAdd("-h %hX5", null, "Multipliers not supported for %h"); test.checkAdd("-h %h{}", null, "Ranges not supported for %h"); test.checkAdd("-help, -h %h #here is how we help you", null, 'h', 1, new String[] { "-help ", "-h " }, null, "here is how we help you", null); test.checkAdd( "-arg1 ,-arg2=%d{0,3,(7,16]}X1 #x3 test", l3, 'd', 1, new String[] { "-arg1 ", "-arg2=" }, new RngCheck[] { new RngCheck(0), new RngCheck(3), new RngCheck(7, OPEN, 16, CLOSED), }, "x3 test", null); test.checkAdd( "bbb,ccc%x{[1,2]} #X3 x3 test", l3, 'x', 1, new String[] { "bbb", "ccc" }, new RngCheck[] { new RngCheck(1, CLOSED, 2, CLOSED), }, "X3 x3 test", null); test.checkAdd( " bbb ,ccc, ddd ,e , f=%bX1 #x3 test", b3, 'b', 1, new String[] { "bbb ", "ccc", "ddd ", "e ", "f=" }, null, "x3 test", null); test.checkAdd( " bbb ,ccc, ddd ,e , f= %bX3 #x3 test", b3, 'b', 3, new String[] { "bbb ", "ccc ", "ddd ", "e ", "f= " }, null, "x3 test", null); test.checkAdd( "-b,--bar %s{[\"john\",\"jerry\"),fred,\"harry\"} #sets bar", sh, 's', 1, new String[] { "-b ", "--bar " }, new RngCheck[] { new RngCheck("jerry", OPEN, "john", CLOSED), new RngCheck("fred"), new RngCheck("harry") }, "sets bar", null); test.checkAdd( "-c ,coven%f{0.0,9.0,(6,5],[-9.1,10.2]} ", dh, 'f', 1, new String[] { "-c ", "coven" }, new RngCheck[] { new RngCheck(0.0), new RngCheck(9.0), new RngCheck(5.0, CLOSED, 6.0, OPEN), new RngCheck(-9.1, CLOSED, 10.2, CLOSED) }, "", null); test.checkAdd( "-b %b #a boolean value ", bh, 'b', 1, new String[] { "-b " }, new RngCheck[] {}, "a boolean value ", null); test.checkAdd("-a %i", ih, 'i', 1, "-a ", null, "", null); test.checkAdd("-a %o", lh, 'o', 1, "-a ", null, "", null); test.checkAdd("-a %d", i3, 'd', 1, "-a ", null, "", null); test.checkAdd("-a %x", l3, 'x', 1, "-a ", null, "", null); test.checkAdd("-a %c", ch, 'c', 1, "-a ", null, "", null); test.checkAdd("-a %c", c3, 'c', 1, "-a ", null, "", null); test.checkAdd("-a %v", bh, 'v', 1, "-a ", null, "", null); test.checkAdd("-a %b", b3, 'b', 1, "-a ", null, "", null); test.checkAdd("-a %f", fh, 'f', 1, "-a ", null, "", null); test.checkAdd("-a %f", f3, 'f', 1, "-a ", null, "", null); test.checkAdd("-a %f", dh, 'f', 1, "-a ", null, "", null); test.checkAdd("-a %f", d3, 'f', 1, "-a ", null, "", null); test.checkAdd("-a %i", fh, 'i', 1, "-a ", null, "", "Invalid result holder for %i"); test.checkAdd("-a %c", i3, 'c', 1, "-a ", null, "", "Invalid result holder for %c"); test.checkAdd("-a %v", d3, 'v', 1, "-a ", null, "", "Invalid result holder for %v"); test.checkAdd("-a %f", sh, 'f', 1, "-a ", null, "", "Invalid result holder for %f"); test.checkAdd("-a %s", l3, 's', 1, "-a ", null, "", "Invalid result holder for %s"); test.checkAdd("-foo %i{} ", ih, 'i', 1, "-foo ", null, "", null); test.checkAdd("-foo%i{}", ih, 'i', 1, "-foo", null, "", null); test.checkAdd("-foo%i{ }", ih, 'i', 1, "-foo", null, "", null); test.checkAdd("-foo%i{ }}", ih, "Illegal character(s), expecting '#'"); test.checkAdd("-foo%i{ ", ih, "Unterminated range specification"); test.checkAdd("-foo%i{", ih, "Unterminated range specification"); test.checkAdd("-foo%i{0,9", ih, "Unterminated range specification"); test.checkAdd("-foo%i{1,2,3)", ih, "Unterminated range specification"); test.checkAdd("-b %f{0.9}", fh, 'f', 1, "-b ", new RngCheck[] { new RngCheck(0.9) }, "", null); test.checkAdd("-b %f{ 0.9 ,7, -0.5,-4 ,6 }", fh, 'f', 1, "-b ", new RngCheck[] { new RngCheck(0.9), new RngCheck(7.0), new RngCheck(-0.5), new RngCheck(-4.0), new RngCheck(6.0) }, "", null); test.checkAdd("-b %f{ [0.9,7), (-0.5,-4),[9,6] , (10,13.4] }", fh, 'f', 1, "-b ", new RngCheck[] { new RngCheck(0.9, CLOSED, 7.0, OPEN), new RngCheck(-4.0, OPEN, -.5, OPEN), new RngCheck(6.0, CLOSED, 9.0, CLOSED), new RngCheck(10.0, OPEN, 13.4, CLOSED), }, "", null); test.checkAdd("-b %f{(8 9]}", fh, "Missing ',' in subrange specification"); test.checkAdd("-b %f{(8,9,]}", fh, "Unterminated subrange"); test.checkAdd("-b %f{(8,9 ,]}", fh, "Unterminated subrange"); test.checkAdd("-b %f{(8,9 8]}", fh, "Unterminated subrange"); test.checkAdd("-b %f{8 9}", fh, "Range spec: ',' or '}' expected"); test.checkAdd("-b %f{8 *}", fh, "Range spec: ',' or '}' expected"); test.checkAdd("-b %f{8y}", fh, "Range spec: ',' or '}' expected"); test.checkAdd("-b %f{.}", fh, "Malformed float '.}' in range spec"); test.checkAdd("-b %f{1.0e}", fh, "Malformed float '1.0e}' in range spec"); test.checkAdd("-b %f{[*]}", fh, "Malformed float '*' in range spec"); test.checkAdd("-b %f{1.2e5t}", fh, "Range spec: ',' or '}' expected"); test.checkAdd("-b %i{8}", ih, 'i', 1, "-b ", new RngCheck[] { new RngCheck(8) }, "", null); test.checkAdd("-b %i{8, 9,10 }", ih, 'i', 1, "-b ", new RngCheck[] { new RngCheck(8), new RngCheck(9), new RngCheck(10) }, "", null); test.checkAdd("-b %i{8, [-9,10),[-17,15],(2,-33),(8,9] }", ih, 'i', 1, "-b ", new RngCheck[] { new RngCheck(8), new RngCheck(-9, CLOSED, 10, OPEN), new RngCheck(-17, CLOSED, 15, CLOSED), new RngCheck(-33, OPEN, 2, OPEN), new RngCheck(8, OPEN, 9, CLOSED), }, "", null); test.checkAdd("-b %i{8.7}", ih, "Range spec: ',' or '}' expected"); test.checkAdd("-b %i{6,[*]}", ih, "Malformed integer '*' in range spec"); test.checkAdd("-b %i{g76}", ih, "Malformed integer 'g' in range spec"); test.checkAdd("-b %s{foobar}", sh, 's', 1, "-b ", new RngCheck[] { new RngCheck("foobar") }, "", null); test.checkAdd("-b %s{foobar, 0x233,\" \"}", sh, 's', 1, "-b ", new RngCheck[] { new RngCheck("foobar"), new RngCheck("0x233"), new RngCheck(" ") }, "", null); test.checkAdd("-b %s{foobar,(bb,aa], [\"01\",02]}", sh, 's', 1, "-b ", new RngCheck[] { new RngCheck("foobar"), new RngCheck("aa", CLOSED, "bb", OPEN), new RngCheck("01", CLOSED, "02", CLOSED), }, "", null); test.checkAdd("-b %c{'a'}", ch, 'c', 1, "-b ", new RngCheck[] { new RngCheck('a') }, "", null); test.checkAdd("-b %c{'\\n', '\\002', 'B'}", ch, 'c', 1, "-b ", new RngCheck[] { new RngCheck('\n'), new RngCheck('\002'), new RngCheck('B') }, "", null); test.checkAdd("-b %c{'q',('g','a'], ['\t','\\003']}", ch, 'c', 1, "-b ", new RngCheck[] { new RngCheck('q'), new RngCheck('a', CLOSED, 'g', OPEN), new RngCheck('\003', CLOSED, '\t', CLOSED), }, "", null); test.checkAdd("-b %b{true}X2", b3, 'b', 2, "-b ", new RngCheck[] { new RngCheck(true) }, "", null); test.checkAdd("-b %b{ true , false, true }", bh, 'b', 1, "-b ", new RngCheck[] { new RngCheck(true), new RngCheck(false), new RngCheck(true) }, "", null); test.checkAdd("-b %v{true,[true,false)}", bh, "Sub ranges not supported for %b or %v"); test.checkAdd("-b %v{true,[]}", bh, "Sub ranges not supported for %b or %v"); test.checkAdd("-b %b{tru}", bh, "Malformed boolean 'tru}' in range spec"); test.checkAdd("-b %iX2", i3, 'i', 2, "-b ", null, "", null); test.checkAdd("-b %vX3", b3, 'v', 3, "-b ", null, "", null); test.checkAdd("-b %v{ }X3", b3, 'v', 3, "-b ", null, "", null); test.checkAdd("-b=%iX2", i3, 'i', 2, "-b", null, "", "Multiplier value incompatible with one word option -b="); test.checkAdd("-b %iX0", i3, 'i', 0, "-b ", null, "", "Value multiplier number must be > 0"); test.checkAdd("-b %iX-6", i3, 'i', 0, "-b ", null, "", "Value multiplier number must be > 0"); test.checkAdd("-b %iXy", i3, 'i', 0, "-b ", null, "", "Malformed value multiplier"); test.checkAdd("-b %iX4", i3, 'i', 4, "-b ", null, "", "Result holder array must have a length >= 4"); test.checkAdd("-b %iX4", ih, 'i', 4, "-b ", null, "", "Multiplier requires result holder to be an array of length >= 4"); test.checkAdd("-b %i #X4", ih, 'i', 1, "-b ", null, "X4", null); test.checkAdd("-b %i #[}X4", ih, 'i', 1, "-b ", null, "[}X4", null); // test.checkPrintHelp(""); // test.checkPrintUsage(""); test = new ArgParserTest(); test.checkAdd( "-intarg %i{1,2,(9,18],[22,27],[33,38),(45,48)} #test int arg", ih, 'i', 1, "-intarg ", new RngCheck[] { new RngCheck(1), new RngCheck(2), new RngCheck(9, OPEN, 18, CLOSED), new RngCheck(22, CLOSED, 27, CLOSED), new RngCheck(33, CLOSED, 38, OPEN), new RngCheck(45, OPEN, 48, OPEN), }, "test int arg", null); MTest[] tests; tests = new MTest[] { new MTest("-intarg 1", new Long(1)), new MTest("-intarg 3", new MErr('r', "3")), new MTest("-intarg 9", new MErr('r', "9")), new MTest("-intarg 11", new Long(11)), new MTest("-intarg 18", new Long(18)), new MTest("-intarg 22", new Long(22)), new MTest("-intarg 25", new Long(25)), new MTest("-intarg 27", new Long(27)), new MTest("-intarg 33", new Long(33)), new MTest("-intarg 35", new Long(35)), new MTest("-intarg 38", new MErr('r', "38")), new MTest("-intarg 45", new MErr('r', "45")), new MTest("-intarg 46", new Long(46)), new MTest("-intarg 48", new MErr('r', "48")), new MTest("-intarg 100", new MErr('r', "100")), new MTest("-intarg 0xbeef", new MErr('r', "0xbeef")), new MTest("-intarg 0x2f", new Long(0x2f)), new MTest("-intarg 041", new Long(041)), }; test.checkMatches(tests, MULTI_WORD); test.checkAdd( "-farg %f{1,2,(9,18],[22,27],[33,38),(45,48)} #test float arg", dh, 'f', 1, "-farg ", new RngCheck[] { new RngCheck(1.0), new RngCheck(2.0), new RngCheck(9.0, OPEN, 18.0, CLOSED), new RngCheck(22.0, CLOSED, 27.0, CLOSED), new RngCheck(33.0, CLOSED, 38.0, OPEN), new RngCheck(45.0, OPEN, 48.0, OPEN), }, "test float arg", null); tests = new MTest[] { new MTest("-farg 1", new Double(1)), new MTest("-farg 3", new MErr('r', "3")), new MTest("-farg 9", new MErr('r', "9")), new MTest("-farg 9.0001", new Double(9.0001)), new MTest("-farg 11", new Double(11)), new MTest("-farg 18", new Double(18)), new MTest("-farg 22", new Double(22)), new MTest("-farg 25", new Double(25)), new MTest("-farg 27", new Double(27)), new MTest("-farg 33", new Double(33)), new MTest("-farg 35", new Double(35)), new MTest("-farg 37.9999", new Double(37.9999)), new MTest("-farg 38", new MErr('r', "38")), new MTest("-farg 45", new MErr('r', "45")), new MTest("-farg 45.0001", new Double(45.0001)), new MTest("-farg 46", new Double(46)), new MTest("-farg 47.9999", new Double(47.9999)), new MTest("-farg 48", new MErr('r', "48")), new MTest("-farg 100", new MErr('r', "100")), new MTest("-farg 0", new MErr('r', "0")), }; test.checkMatches(tests, MULTI_WORD); test.checkAdd( "-sarg %s{1,2,(AA,AZ],[BB,BX],[C3,C8),(d5,d8)} #test string arg", s3, 's', 1, "-sarg ", new RngCheck[] { new RngCheck("1"), new RngCheck("2"), new RngCheck("AA", OPEN, "AZ", CLOSED), new RngCheck("BB", CLOSED, "BX", CLOSED), new RngCheck("C3", CLOSED, "C8", OPEN), new RngCheck("d5", OPEN, "d8", OPEN), }, "test string arg", null); tests = new MTest[] { new MTest("-sarg 1", "1"), new MTest("-sarg 3", new MErr('r', "3")), new MTest("-sarg AA", new MErr('r', "AA")), new MTest("-sarg AM", "AM"), new MTest("-sarg AZ", "AZ"), new MTest("-sarg BB", "BB"), new MTest("-sarg BL", "BL"), new MTest("-sarg BX", "BX"), new MTest("-sarg C3", "C3"), new MTest("-sarg C6", "C6"), new MTest("-sarg C8", new MErr('r', "C8")), new MTest("-sarg d5", new MErr('r', "d5")), new MTest("-sarg d6", "d6"), new MTest("-sarg d8", new MErr('r', "d8")), new MTest("-sarg zzz", new MErr('r', "zzz")), new MTest("-sarg 0", new MErr('r', "0")), }; test.checkMatches(tests, MULTI_WORD); test = new ArgParserTest(); test.checkAdd( "-carg %c{1,2,(a,z],['A','Z'],['\\001',\\007),(4,8)}", c3, 'c', 1, "-carg ", new RngCheck[] { new RngCheck('1'), new RngCheck('2'), new RngCheck('a', OPEN, 'z', CLOSED), new RngCheck('A', CLOSED, 'Z', CLOSED), new RngCheck('\001', CLOSED, '\007', OPEN), new RngCheck('4', OPEN, '8', OPEN), }, "", null); tests = new MTest[] { new MTest("-carg 1", new Character('1')), new MTest("-carg 3", new MErr('r', "3")), new MTest("-carg a", new MErr('r', "a")), new MTest("-carg m", new Character('m')), new MTest("-carg z", new Character('z')), new MTest("-carg A", new Character('A')), new MTest("-carg 'L'", new Character('L')), new MTest("-carg 'Z'", new Character('Z')), new MTest("-carg \\001", new Character('\001')), new MTest("-carg \\005", new Character('\005')), new MTest("-carg '\\007'", new MErr('r', "'\\007'")), new MTest("-carg '4'", new MErr('r', "'4'")), new MTest("-carg 6", new Character('6')), new MTest("-carg 8", new MErr('r', "8")), new MTest("-carg '\\012'", new MErr('r', "'\\012'")), new MTest("-carg 0", new MErr('r', "0")), }; test.checkMatches(tests, MULTI_WORD); test.checkAdd( "-foo=%i{[-50,100]}", ih, 'i', 1, "-foo=", new RngCheck[] { new RngCheck(-50, CLOSED, 100, CLOSED), }, "", null); tests = new MTest[] { new MTest("-foo=-51", new MErr('r', "-51")), new MTest("-foo=-0x32", new Long(-0x32)), new MTest("-foo=-0x33", new MErr('r', "-0x33")), new MTest("-foo=-0777", new MErr('r', "-0777")), new MTest("-foo=-07", new Long(-07)), new MTest("-foo=0", new Long(0)), new MTest("-foo=100", new Long(100)), new MTest("-foo=0x5e", new Long(0x5e)), new MTest("-foo=066", new Long(066)), new MTest("-foo=06677", new MErr('r', "06677")), new MTest("-foo=0xbeef", new MErr('r', "0xbeef")), new MTest("-foo=foo", new MErr('m', "foo")), new MTest("-foo=-51d", new MErr('m', "-51d")), }; test.checkMatches(tests, ONE_WORD); test.checkAdd("-foo2=%i", ih, 'i', 1, "-foo2=", null, "", null); tests = new MTest[] { new MTest("-foo2=-51", new Long(-51)), new MTest("-foo2=-0x33", new Long(-0x33)), new MTest("-foo2=-0777", new Long(-0777)), new MTest("-foo2=06677", new Long(06677)), new MTest("-foo2=0xbeef", new Long(0xbeef)), new MTest("-foo2=foo", new MErr('m', "foo")), new MTest("-foo2=-51d", new MErr('m', "-51d")), new MTest("-foo2=-51", new Long(-51)), }; test.checkMatches(tests, ONE_WORD); test.checkAdd("-foo3 %iX3", i3, 'i', 3, "-foo3 ", null, "", null); tests = new MTest[] { new MTest("-foo3 -51 678 0x45", new long[] { -51, 678, 0x45 }), new MTest("-foo3 55 16f 55", new MErr('m', "16f")), new MTest("-foo3 55 16", new MErr('v', "3")), }; test.checkMatches(tests, MULTI_WORD); Vector vec = new Vector(100); test.checkAdd("-foov3 %iX3", vec, 'i', 3, "-foov3 ", null, "", null); tests = new MTest[] { new MTest("-foov3 -1 2 4", new long[] { -1, 2, 4 }, 0), new MTest("-foov3 10 3 9", new long[] { 10, 3, 9 }, 1), new MTest("-foov3 123 1 0", new long[] { 123, 1, 0 }, 2), }; vec.clear(); test.checkMatches(tests, MULTI_WORD); test.checkAdd("-foov %i", vec, 'i', 1, "-foov ", null, "", null); tests = new MTest[] { new MTest("-foov 11", new Long(11), 0), new MTest("-foov 12", new Long(12), 1), new MTest("-foov 13", new Long(13), 2), }; vec.clear(); test.checkMatches(tests, MULTI_WORD); test.checkAdd( "-foo4 %i{[-50,100]}X2", i3, 'i', 2, "-foo4 ", new RngCheck[] { new RngCheck(-50, CLOSED, 100, CLOSED), }, "", null); tests = new MTest[] { new MTest("-foo4 -49 78", new long[] { -49, 78 }), new MTest("-foo4 -48 102", new MErr('r', "102")), }; test.checkMatches(tests, MULTI_WORD); test.checkAdd( "-oct=%o{[-062,0144]}", ih, 'o', 1, "-oct=", new RngCheck[] { new RngCheck(-50, CLOSED, 100, CLOSED), }, "", null); tests = new MTest[] { new MTest("-oct=-063", new MErr('r', "-063")), new MTest("-oct=-0x32", new MErr('m', "-0x32")), new MTest("-oct=-0777", new MErr('r', "-0777")), new MTest("-oct=-07", new Long(-07)), new MTest("-oct=0", new Long(0)), new MTest("-oct=100", new Long(64)), new MTest("-oct=0xae", new MErr('m', "0xae")), new MTest("-oct=66", new Long(066)), new MTest("-oct=06677", new MErr('r', "06677")), new MTest("-oct=0xbeef", new MErr('m', "0xbeef")), new MTest("-oct=foo", new MErr('m', "foo")), new MTest("-oct=-51d", new MErr('m', "-51d")), new MTest("-oct=78", new MErr('m', "78")), }; test.checkMatches(tests, ONE_WORD); test.checkAdd("-oct2=%o", ih, 'o', 1, "-oct2=", null, "", null); tests = new MTest[] { new MTest("-oct2=-063", new Long(-063)), new MTest("-oct2=-0777", new Long(-0777)), new MTest("-oct2=06677", new Long(06677)), }; test.checkMatches(tests, ONE_WORD); test.checkAdd( "-dec=%d{[-0x32,0x64]}", ih, 'd', 1, "-dec=", new RngCheck[] { new RngCheck(-50, CLOSED, 100, CLOSED), }, "", null); tests = new MTest[] { new MTest("-dec=-063", new MErr('r', "-063")), new MTest("-dec=-0x32", new MErr('m', "-0x32")), new MTest("-dec=-0777", new MErr('r', "-0777")), new MTest("-dec=-07", new Long(-07)), new MTest("-dec=0", new Long(0)), new MTest("-dec=100", new Long(100)), new MTest("-dec=0xae", new MErr('m', "0xae")), new MTest("-dec=66", new Long(66)), new MTest("-dec=06677", new MErr('r', "06677")), new MTest("-dec=0xbeef", new MErr('m', "0xbeef")), new MTest("-dec=foo", new MErr('m', "foo")), new MTest("-dec=-51d", new MErr('m', "-51d")), }; test.checkMatches(tests, ONE_WORD); test.checkAdd("-dec2=%d", ih, 'd', 1, "-dec2=", null, "", null); tests = new MTest[] { new MTest("-dec2=-063", new Long(-63)), new MTest("-dec2=-0777", new Long(-777)), new MTest("-dec2=06677", new Long(6677)), }; test.checkMatches(tests, ONE_WORD); test.checkAdd( "-hex=%x{[-0x32,0x64]}", ih, 'x', 1, "-hex=", new RngCheck[] { new RngCheck(-50, CLOSED, 100, CLOSED), }, "", null); tests = new MTest[] { new MTest("-hex=-06", new Long(-0x6)), new MTest("-hex=-0x3g2", new MErr('m', "-0x3g2")), new MTest("-hex=-0777", new MErr('r', "-0777")), new MTest("-hex=-017", new Long(-0x17)), new MTest("-hex=0", new Long(0)), new MTest("-hex=64", new Long(0x64)), new MTest("-hex=5e", new Long(0x5e)), new MTest("-hex=66", new MErr('r', "66")), new MTest("-hex=06677", new MErr('r', "06677")), new MTest("-hex=0xbeef", new MErr('m', "0xbeef")), new MTest("-hex=foo", new MErr('m', "foo")), new MTest("-hex=-51d", new MErr('r', "-51d")), new MTest("-hex=-51g", new MErr('m', "-51g")), new MTest("-hex=", new MErr('c', "")), }; test.checkMatches(tests, ONE_WORD); test.checkAdd("-hex2=%x", ih, 'x', 1, "-hex2=", null, "", null); tests = new MTest[] { new MTest("-hex2=-0777", new Long(-0x777)), new MTest("-hex2=66", new Long(0x66)), new MTest("-hex2=06677", new Long(0x6677)), new MTest("-hex2=-51d", new Long(-0x51d)), }; test.checkMatches(tests, ONE_WORD); test.checkAdd( "-char=%c{['b','m']}", ch, 'c', 1, "-char=", new RngCheck[] { new RngCheck('b', CLOSED, 'm', CLOSED), }, "", null); tests = new MTest[] { new MTest("-char=a", new MErr('r', "a")), new MTest("-char=b", new Character('b')), new MTest("-char='b'", new Character('b')), new MTest("-char='\142'", new Character('b')), new MTest("-char='\141'", new MErr('r', "'\141'")), new MTest("-char=\142", new Character('b')), new MTest("-char=\141", new MErr('r', "\141")), new MTest("-char=m", new Character('m')), new MTest("-char=z", new MErr('r', "z")), new MTest("-char=bb", new MErr('m', "bb")), new MTest("-char='b", new MErr('m', "'b")), new MTest("-char='", new MErr('m', "'")), new MTest("-char=a'", new MErr('m', "a'")), }; test.checkMatches(tests, ONE_WORD); test.checkAdd("-char2=%c", ch, 'c', 1, "-char2=", null, "", null); tests = new MTest[] { new MTest("-char2=a", new Character('a')), new MTest("-char2='\141'", new Character('\141')), new MTest("-char2=\141", new Character('\141')), new MTest("-char2=z", new Character('z')), }; test.checkMatches(tests, ONE_WORD); test.checkAdd("-charv3 %cX3", vec, 'c', 3, "-charv3 ", null, "", null); tests = new MTest[] { new MTest("-charv3 a b c", new char[] { 'a', 'b', 'c' }, 0), new MTest("-charv3 'g' f '\\n'", new char[] { 'g', 'f', '\n' }, 1), new MTest("-charv3 1 \001 3", new char[] { '1', '\001', '3' }, 2), }; vec.clear(); test.checkMatches(tests, MULTI_WORD); test.checkAdd("-charv=%c", vec, 'c', 1, "-charv=", null, "", null); tests = new MTest[] { new MTest("-charv=d", new Character('d'), 0), new MTest("-charv='g'", new Character('g'), 1), new MTest("-charv=\111", new Character('\111'), 2), }; vec.clear(); test.checkMatches(tests, ONE_WORD); test.checkAdd( "-bool=%b{true}", bh, 'b', 1, "-bool=", new RngCheck[] { new RngCheck(true), }, "", null); tests = new MTest[] { new MTest("-bool=true", new Boolean(true)), new MTest("-bool=false", new MErr('r', "false")), new MTest("-bool=fals", new MErr('m', "fals")), new MTest("-bool=falsem", new MErr('m', "falsem")), new MTest("-bool=truex", new MErr('m', "truex")), new MTest("-bool=foo", new MErr('m', "foo")), new MTest("-bool=1", new MErr('m', "1")), }; test.checkMatches(tests, ONE_WORD); test.checkAdd( "-boo2=%b{true,false}", bh, 'b', 1, "-boo2=", new RngCheck[] { new RngCheck(true), new RngCheck(false), }, "", null); tests = new MTest[] { new MTest("-boo2=true", new Boolean(true)), new MTest("-boo2=false", new Boolean(false)), }; test.checkMatches(tests, ONE_WORD); test.checkAdd("-boo3=%b", bh, 'b', 1, "-boo3=", null, "", null); tests = new MTest[] { new MTest("-boo3=true", new Boolean(true)), new MTest("-boo3=false", new Boolean(false)), }; test.checkMatches(tests, ONE_WORD); test.checkAdd("-boo3 %bX3", b3, 'b', 3, "-boo3 ", null, "", null); tests = new MTest[] { new MTest("-boo3 true false true", new boolean[] { true, false, true }), new MTest("-boo3 true fals true", new MErr('m', "fals")), }; test.checkMatches(tests, MULTI_WORD); test.checkAdd("-boov3 %bX3", vec, 'b', 3, "-boov3 ", null, "", null); tests = new MTest[] { new MTest("-boov3 true true false", new boolean[] { true, true, false }, 0), new MTest("-boov3 false false true", new boolean[] { false, false, true }, 1), }; vec.clear(); test.checkMatches(tests, MULTI_WORD); test.checkAdd("-boov %b", vec, 'b', 1, "-boov ", null, "", null); tests = new MTest[] { new MTest("-boov true", new Boolean(true), 0), new MTest("-boov false", new Boolean(false), 1), new MTest("-boov true", new Boolean(true), 2), }; vec.clear(); test.checkMatches(tests, MULTI_WORD); test.checkAdd("-v3 %vX2", b3, 'v', 2, "-v3 ", null, "", null); tests = new MTest[] { new MTest("-v3", new boolean[] { true, true }), }; test.checkMatches(tests, MULTI_WORD); test.checkAdd( "-vf %v{false,true}X2", b3, 'v', 2, "-vf ", new RngCheck[] { new RngCheck(false), new RngCheck(true), }, "", null); tests = new MTest[] { new MTest("-vf", new boolean[] { false, false }), }; test.checkMatches(tests, MULTI_WORD); test.checkAdd( "-str=%s{(john,zzzz]}", sh, 's', 1, "-str=", new RngCheck[] { new RngCheck("john", OPEN, "zzzz", CLOSED), }, "", null); tests = new MTest[] { new MTest("-str=john", new MErr('r', "john")), new MTest("-str=joho ", "joho "), new MTest("-str=joho ", "joho "), new MTest("-str=zzzz", "zzzz"), new MTest("-str= joho", new MErr('r', " joho")), new MTest("-str=jnhn ", new MErr('r', "jnhn ")), new MTest("-str=zzzzz", new MErr('r', "zzzzz")), new MTest("-str=\"joho\"", new MErr('r', "\"joho\"")), new MTest("-str=\"joho", new MErr('r', "\"joho")), new MTest("-str=joho j", "joho j"), // new MErr('m', "joho j")), }; test.checkMatches(tests, ONE_WORD); test.checkAdd("-str2=%s", sh, 's', 1, "-str2=", null, "", null); tests = new MTest[] { new MTest("-str2= jnhn", " jnhn"), new MTest("-str2=zzzzz", "zzzzz"), }; test.checkMatches(tests, ONE_WORD); test.checkAdd("-str3 %sX3", s3, 's', 3, "-str3 ", null, "", null); tests = new MTest[] { new MTest("-str3 foo bar johnny", new String[] { "foo", "bar", "johnny" }), new MTest("-str3 zzzzz \"bad foo", new String[] { "zzzzz", "\"bad", "foo" }), // new MErr('m', "\"bad")), }; test.checkMatches(tests, MULTI_WORD); test.checkAdd("-strv3 %sX3", vec, 's', 3, "-strv3 ", null, "", null); tests = new MTest[] { new MTest("-strv3 foo bar \"hihi\"", new String[] { "foo", "bar", "\"hihi\"" }, 0), new MTest("-strv3 a 123 gg", new String[] { "a", "123", "gg" }, 1), }; vec.clear(); test.checkMatches(tests, MULTI_WORD); test.checkAdd("-strv=%s", vec, 's', 1, "-strv=", null, "", null); tests = new MTest[] { new MTest("-strv=d", "d", 0), new MTest("-strv='g'", "'g'", 1), new MTest("-strv=\\111", "\\111", 2), }; vec.clear(); test.checkMatches(tests, ONE_WORD); test.checkAdd( "-float=%f{(-0.001,1000.0]}", dh, 'f', 1, "-float=", new RngCheck[] { new RngCheck(-0.001, OPEN, 1000.0, CLOSED), }, "", null); tests = new MTest[] { new MTest("-float=-0.000999", new Double(-0.000999)), new MTest("-float=1e-3", new Double(0.001)), new MTest("-float=12.33e1", new Double(123.3)), new MTest("-float=1e3", new Double(1e3)), new MTest("-float=1000.000", new Double(1000.0)), new MTest("-float=-0.001", new MErr('r', "-0.001")), new MTest("-float=-1e-3", new MErr('r', "-1e-3")), new MTest("-float=1000.001", new MErr('r', "1000.001")), new MTest("-float=.", new MErr('m', ".")), new MTest("-float= 124.5 ", new Double(124.5)), new MTest("-float=124.5x", new MErr('m', "124.5x")), new MTest("-float= foo ", new MErr('m', " foo ")), new MTest("-float=1e1", new Double(10)), new MTest("-float=1e ", new MErr('m', "1e ")), }; test.checkMatches(tests, ONE_WORD); test.checkAdd("-float2=%f", dh, 'f', 1, "-float2=", null, "", null); tests = new MTest[] { new MTest("-float2=-0.001", new Double(-0.001)), new MTest("-float2=-1e-3", new Double(-1e-3)), new MTest("-float2=1000.001", new Double(1000.001)), }; test.checkMatches(tests, ONE_WORD); test.checkAdd("-f3 %fX3", d3, 'f', 3, "-f3 ", null, "", null); tests = new MTest[] { new MTest("-f3 -0.001 1.23e5 -9.88e-4", new double[] { -0.001, 1.23e5, -9.88e-4 }), new MTest("-f3 7.88 foo 9.0", new MErr('m', "foo")), new MTest("-f3 7.88 . 9.0", new MErr('m', ".")), new MTest("-f3 7.88 3.0 9.0x", new MErr('m', "9.0x")), }; test.checkMatches(tests, MULTI_WORD); test.checkAdd("-fv3 %fX3", vec, 'f', 3, "-fv3 ", null, "", null); tests = new MTest[] { new MTest("-fv3 1.0 3.444 6.7", new double[] { 1.0, 3.444, 6.7 }, 0), new MTest("-fv3 13e-5 145.678 0.0001e45", new double[] { 13e-5, 145.678, 0.0001e45 }, 1), new MTest("-fv3 11.11 3.1245 -1e-4", new double[] { 11.11, 3.1245, -1e-4 }, 2), new MTest("-fv3 1.0 2 3", new double[] { 1.0, 2.0, 3.0 }, 3), }; vec.clear(); test.checkMatches(tests, MULTI_WORD); test.checkAdd("-fv %f", vec, 'f', 1, "-fv ", null, "", null); tests = new MTest[] { new MTest("-fv -15.1234", new Double(-15.1234), 0), new MTest("-fv -1.234e-7", new Double(-1.234e-7), 1), new MTest("-fv 0.001111", new Double(0.001111), 2), }; vec.clear(); test.checkMatches(tests, MULTI_WORD); IntHolder intHolder = new IntHolder(); StringHolder strHolder = new StringHolder(); ArgParser parser = new ArgParser("test"); parser.addOption("-foo %d #an int", intHolder); parser.addOption("-bar %s #a string", strHolder); args = new String[] { "zzz", "-cat", "-foo", "123", "yyy", "-bar", "xxxx", "xxx" }; String[] unmatchedCheck = new String[] { "zzz", "-cat", "yyy", "xxx" }; String[] unmatched = parser.matchAllArgs(args, 0, 0); test.checkStringArray( "Unmatched args:", unmatched, unmatchedCheck); vec.clear(); for (int i = 0; i < args.length;) { try { i = parser.matchArg(args, i); if (parser.getUnmatchedArgument() != null) { vec.add(parser.getUnmatchedArgument()); } } catch (Exception e) { } } unmatched = (String[]) vec.toArray(new String[0]); test.checkStringArray( "My unmatched args:", unmatched, unmatchedCheck); System.out.println("\nPassed\n"); } }