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Diffstat (limited to 'base/silent/src/com/netscape/pkisilent/argparser/ArgParser.java')
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diff --git a/base/silent/src/com/netscape/pkisilent/argparser/ArgParser.java b/base/silent/src/com/netscape/pkisilent/argparser/ArgParser.java new file mode 100755 index 000000000..ed5f98b1d --- /dev/null +++ b/base/silent/src/com/netscape/pkisilent/argparser/ArgParser.java @@ -0,0 +1,2085 @@ +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.File; +import java.io.FileReader; +import java.io.IOException; +import java.io.LineNumberReader; +import java.io.PrintStream; +import java.io.Reader; +import java.lang.reflect.Array; +import java.util.Vector; + +/** + * ArgParser is used to parse the command line arguments for a java + * application program. It provides a compact way to specify options and match + * them against command line arguments, with support for + * <a href=#rangespec>range checking</a>, + * <a href=#multipleOptionNames>multiple option names</a> (aliases), + * <a href=#singleWordOptions>single word options</a>, + * <a href=#multipleOptionValues>multiple values associated with an option</a>, + * <a href=#multipleOptionInvocation>multiple option invocation</a>, + * <a href=#helpInfo>generating help information</a>, + * <a href=#customArgParsing>custom argument parsing</a>, and + * <a href=#argsFromAFile>reading arguments from a file</a>. The + * last feature is particularly useful and makes it + * easy to create ad-hoc configuration files for an application. + * + * <h3><a name="example">Basic Example</a></h3> + * + * <p> + * Here is a simple example in which an application has three command line options: <code>-theta</code> (followed by a + * floating point value), <code>-file</code> (followed by a string value), and <code>-debug</code>, which causes a + * boolean value to be set. + * + * <pre> + * + * static public void main(String[] args) { + * // create holder objects for storing results ... + * + * DoubleHolder theta = new DoubleHolder(); + * StringHolder fileName = new StringHolder(); + * BooleanHolder debug = new BooleanHolder(); + * + * // create the parser and specify the allowed options ... + * + * ArgParser parser = new ArgParser("java argparser.SimpleExample"); + * parser.addOption("-theta %f #theta value (in degrees)", theta); + * parser.addOption("-file %s #name of the operating file", fileName); + * parser.addOption("-debug %v #enables display of debugging info", debug); + * + * // match the arguments ... + * + * parser.matchAllArgs(args); + * + * // and print out the values + * + * System.out.println("theta=" + theta.value); + * System.out.println("fileName=" + fileName.value); + * System.out.println("debug=" + debug.value); + * } + * </pre> + * <p> + * A command line specifying all three options might look like this: + * + * <pre> + * java argparser.SimpleExample -theta 7.8 -debug -file /ai/lloyd/bar + * </pre> + * + * <p> + * The application creates an instance of ArgParser and then adds descriptions of the allowed options using + * {@link #addOption addOption}. The method {@link #matchAllArgs(String[]) matchAllArgs} is then used to match these + * options against the command line arguments. Values associated with each option are returned in the <code>value</code> + * field of special ``holder'' classes (e.g., {@link argparser.DoubleHolder DoubleHolder}, + * {@link argparser.StringHolder StringHolder}, etc.). + * + * <p> + * The first argument to {@link #addOption addOption} is a string that specifies (1) the option's name, (2) a conversion + * code for its associated value (e.g., <code>%f</code> for floating point, <code>%s</code> for a string, + * <code>%v</code> for a boolean flag), and (3) an optional description (following the <code>#</code> character) which + * is used for generating help messages. The second argument is the holder object through which the value is returned. + * This may be either a type-specific object (such as {@link argparser.DoubleHolder DoubleHolder} or + * {@link argparser.StringHolder + * StringHolder}), an array of the appropriate type, or <a href=#multipleOptionInvocation> an instance of + * <code>java.util.Vector</code></a>. + * + * <p> + * By default, arguments that don't match the specified options, are <a href=#rangespec>out of range</a>, or are + * otherwise formatted incorrectly, will cause <code>matchAllArgs</code> to print a message and exit the program. + * Alternatively, an application can use {@link #matchAllArgs(String[],int,int) matchAllArgs(args,idx,exitFlags)} to + * obtain an array of unmatched arguments which can then be <a href=#customArgParsing>processed separately</a> + * + * <h3><a name="rangespec">Range Specification</a></h3> + * + * The values associated with options can also be given range specifications. A range specification appears in curly + * braces immediately following the conversion code. In the code fragment below, we show how to specify an option + * <code>-name</code> that expects to be provided with one of three string values (<code>john</code>, <code>mary</code>, + * or <code>jane</code>), an option <code>-index</code> that expects to be supplied with a integer value in the range 1 + * to 256, an option <code>-size</code> that expects to be supplied with integer values of either 1, 2, 4, 8, or 16, and + * an option <code>-foo</code> that expects to be supplied with floating point values in the ranges -99 < foo <= -50, or + * 50 <= foo < 99. + * + * <pre> + * StringHolder name = new StringHolder(); + * IntHolder index = new IntHolder(); + * IntHolder size = new IntHolder(); + * DoubleHolder foo = new DoubleHolder(); + * + * parser.addOption("-name %s {john,mary,jane}", name); + * parser.addOption("-index %d {[1,256]}", index); + * parser.addOption("-size %d {1,2,4,8,16}", size); + * parser.addOption("-foo %f {(-99,-50],[50,99)}", foo); + * </pre> + * + * If an argument value does not lie within a specified range, an error is generated. + * + * <h3><a name="multipleOptionNames">Multiple Option Names</a></h3> + * + * An option may be given several names, or aliases, in the form of a comma seperated list: + * + * <pre> + * parser.addOption("-v,--verbose %v #print lots of info"); + * parser.addOption("-of,-outfile,-outputFile %s #output file"); + * </pre> + * + * <h3><a name="singleWordOptions">Single Word Options</a></h3> + * + * Normally, options are assumed to be "multi-word", meaning that any associated value must follow the option as a + * separate argument string. For example, + * + * <pre> + * parser.addOption("-file %s #file name"); + * </pre> + * + * will cause the parser to look for two strings in the argument list of the form + * + * <pre> + * -file someFileName + * </pre> + * + * However, if there is no white space separting the option's name from it's conversion code, then values associated + * with that option will be assumed to be part of the same argument string as the option itself. For example, + * + * <pre> + * parser.addOption("-file=%s #file name"); + * </pre> + * + * will cause the parser to look for a single string in the argument list of the form + * + * <pre> + * -file=someFileName + * </pre> + * + * Such an option is called a "single word" option. + * + * <p> + * In cases where an option has multiple names, then this single word behavior is invoked if there is no white space + * between the last indicated name and the conversion code. However, previous names in the list will still be given + * multi-word behavior if there is white space between the name and the following comma. For example, + * + * <pre> + * parser.addOption("-nb=,-number ,-n%d #number of blocks"); + * </pre> + * + * will cause the parser to look for one, two, and one word constructions of the forms + * + * <pre> + * -nb=N + * -number N + * -nN + * </pre> + * + * <h3><a name="multipleOptionValues">Multiple Option Values</a></h3> + * + * If may be useful for an option to be followed by several values. For instance, we might have an option + * <code>-velocity</code> which should be followed by three numbers denoting the x, y, and z components of a velocity + * vector. We can require multiple values for an option by placing a <i>multiplier</i> specification, of the form + * <code>X</code>N, where N is an integer, after the conversion code (or range specification, if present). For example, + * + * <pre> + * double[] pos = new double[3]; + * + * addOption("-position %fX3 #position of the object", pos); + * </pre> + * + * will cause the parser to look for + * + * <pre> + * -position xx yy zz + * </pre> + * + * in the argument list, where <code>xx</code>, <code>yy</code>, and <code>zz</code> are numbers. The values are stored + * in the array <code>pos</code>. + * + * Options requiring multiple values must use arrays to return their values, and cannot be used in single word format. + * + * <h3><a name="multipleOptionInvocation">Multiple Option Invocation</a></h3> + * + * Normally, if an option appears twice in the command list, the value associated with the second instance simply + * overwrites the value associated with the first instance. + * + * However, the application can instead arrange for the storage of <i>all</i> values associated with multiple option + * invocation, by supplying a instance of <code>java.util.Vector</code> to serve as the value holder. Then every time + * the option appears in the argument list, the parser will create a value holder of appropriate type, set it to the + * current value, and store the holder in the vector. For example, the construction + * + * <pre> + * Vector vec = new Vector(10); + * + * parser.addOption("-foo %f", vec); + * parser.matchAllArgs(args); + * </pre> + * + * when supplied with an argument list that contains + * + * <pre> + * -foo 1.2 -foo 1000 -foo -78 + * </pre> + * + * will create three instances of {@link argparser.DoubleHolder DoubleHolder}, initialized to <code>1.2</code>, + * <code>1000</code>, and <code>-78</code>, and store them in <code>vec</code>. + * + * <h3><a name="helpInfo">Generating help information</a></h3> + * + * ArgParser automatically generates help information for the options, and this information may be printed in response + * to a <i>help</i> option, or may be queried by the application using {@link #getHelpMessage getHelpMessage}. The + * information for each option consists of the option's name(s), it's required value(s), and an application-supplied + * description. Value information is generated automaticlly from the conversion code, range, and multiplier + * specifications (although this can be overriden, as <a href=#valueInfo>described below</a>). The application-supplied + * description is whatever appears in the specification string after the optional <code>#</code> character. The string + * returned by {@link #getHelpMessage getHelpMessage} for the <a href=#example>first example above</a> would be + * + * <pre> + * Usage: java argparser.SimpleExample + * Options include: + * + * -help,-? displays help information + * -theta <float> theta value (in degrees) + * -file <string> name of the operating file + * -debug enables display of debugging info + * </pre> + * + * The options <code>-help</code> and <code>-?</code> are including in the parser by default as help options, and they + * automatically cause the help message to be printed. To exclude these options, one should use the constructor + * {@link #ArgParser(String,boolean) + * ArgParser(synopsis,false)}. Help options can also be specified by the application using {@link #addOption addOption} + * and the conversion code <code>%h</code>. Help options can be disabled using {@link #setHelpOptionsEnabled + * setHelpOptionsEnabled(false)}. + * + * <p> + * <a name=valueInfo> A description of the required values for an option can be specified explicitly by placing a second + * <code>#</code> character in the specification string. Everything between the first and second <code>#</code> + * characters then becomes the value description, and everything after the second <code>#</code> character becomes the + * option description. For example, if the <code>-theta</code> option above was specified with + * + * <pre> + * parser.addOption("-theta %f #NUMBER#theta value (in degrees)", theta); + * </pre> + * + * instead of + * + * <pre> + * parser.addOption("-theta %f #theta value (in degrees)", theta); + * </pre> + * + * then the corresponding entry in the help message would look like + * + * <pre> + * -theta NUMBER theta value (in degrees) + * </pre> + * + * <h3><a name="customArgParsing">Custom Argument Parsing</a></h3> + * + * An application may find it necessary to handle arguments that don't fit into the framework of this class. There are a + * couple of ways to do this. + * + * <p> + * First, the method {@link #matchAllArgs(String[],int,int) + * matchAllArgs(args,idx,exitFlags)} returns an array of all unmatched arguments, which can then be handled specially: + * + * <pre> + * String[] unmatched = + * parser.matchAllArgs (args, 0, parser.EXIT_ON_ERROR); + * for (int i = 0; i < unmatched.length; i++) + * { ... handle unmatched arguments ... + * } + * </pre> + * + * For instance, this would be useful for an applicatoon that accepts an arbitrary number of input file names. The + * options can be parsed using <code>matchAllArgs</code>, and the remaining unmatched arguments give the file names. + * + * <p> + * If we need more control over the parsing, we can parse arguments one at a time using {@link #matchArg matchArg}: + * + * <pre> + * int idx = 0; + * while (idx < args.length) + * { try + * { idx = parser.matchArg (args, idx); + * if (parser.getUnmatchedArgument() != null) + * { + * ... handle this unmatched argument ourselves ... + * } + * } + * catch (ArgParserException e) + * { // malformed or erroneous argument + * parser.printErrorAndExit (e.getMessage()); + * } + * } + * </pre> + * + * {@link #matchArg matchArg(args,idx)} matches one option at location <code>idx</code> in the argument list, and then + * returns the location value that should be used for the next match. If an argument does not match any option, + * {@link #getUnmatchedArgument getUnmatchedArgument} will return a copy of the unmatched argument. + * + * <h3><a name="argsFromAFile">Reading Arguments From a File</a></h3> + * + * The method {@link #prependArgs prependArgs} can be used to automatically read in a set of arguments from a file and + * prepend them onto an existing argument list. Argument words correspond to white-space-delimited strings, and the file + * may contain the comment character <code>#</code> (which comments out everything to the end of the current line). A + * typical usage looks like this: + * + * <pre> + * ... create parser and add options ... + * + * args = parser.prependArgs (new File(".configFile"), args); + * + * parser.matchAllArgs (args); + * </pre> + * + * This makes it easy to generate simple configuration files for an application. + * + * @author John E. Lloyd, Fall 2004 + */ +public class ArgParser { + Vector<Record> matchList; + // int tabSpacing = 8; + String synopsisString; + boolean helpOptionsEnabled = true; + Record defaultHelpOption = null; + Record firstHelpOption = null; + PrintStream printStream = System.out; + int helpIndent = 24; + String errMsg = null; + String unmatchedArg = null; + + static String validConversionCodes = "iodxcbfsvh"; + + /** + * Indicates that the program should exit with an appropriate message + * in the event of an erroneous or malformed argument. + */ + public static int EXIT_ON_ERROR = 1; + + /** + * Indicates that the program should exit with an appropriate message + * in the event of an unmatched argument. + */ + public static int EXIT_ON_UNMATCHED = 2; + + /** + * Returns a string containing the valid conversion codes. These + * are the characters which may follow the <code>%</code> character in + * the specification string of {@link #addOption addOption}. + * + * @return Valid conversion codes + * @see #addOption + */ + public static String getValidConversionCodes() { + return validConversionCodes; + } + + static class NameDesc { + String name; + // oneWord implies that any value associated with + // option is concatenated onto the argument string itself + boolean oneWord; + NameDesc next = null; + } + + static class RangePnt { + double dval = 0; + long lval = 0; + String sval = null; + boolean bval = true; + boolean closed = true; + + RangePnt(String s, boolean closed) { + sval = s; + this.closed = closed; + } + + RangePnt(double d, boolean closed) { + dval = d; + this.closed = closed; + } + + RangePnt(long l, boolean closed) { + lval = l; + this.closed = closed; + } + + RangePnt(boolean b, boolean closed) { + bval = b; + this.closed = closed; + } + + RangePnt(StringScanner scanner, int type) + throws IllegalArgumentException { + String typeName = null; + try { + switch (type) { + case Record.CHAR: { + typeName = "character"; + lval = scanner.scanChar(); + break; + } + case Record.INT: + case Record.LONG: { + typeName = "integer"; + lval = scanner.scanInt(); + break; + } + case Record.FLOAT: + case Record.DOUBLE: { + typeName = "float"; + dval = scanner.scanDouble(); + break; + } + case Record.STRING: { + typeName = "string"; + sval = scanner.scanString(); + break; + } + case Record.BOOLEAN: { + typeName = "boolean"; + bval = scanner.scanBoolean(); + break; + } + } + } catch (StringScanException e) { + throw new IllegalArgumentException( + "Malformed " + typeName + " '" + + scanner.substring(scanner.getIndex(), + e.getFailIndex() + 1) + + "' in range spec"); + } + // this.closed = closed; + } + + void setClosed(boolean closed) { + this.closed = closed; + } + + boolean getClosed() { + return closed; + } + + int compareTo(double d) { + if (dval < d) { + return -1; + } else if (d == dval) { + return 0; + } else { + return 1; + } + } + + int compareTo(long l) { + if (lval < l) { + return -1; + } else if (l == lval) { + return 0; + } else { + return 1; + } + } + + int compareTo(String s) { + return sval.compareTo(s); + } + + int compareTo(boolean b) { + if (b == bval) { + return 0; + } else { + return 1; + } + } + + public String toString() { + return "{ dval=" + dval + ", lval=" + lval + + ", sval=" + sval + ", bval=" + bval + + ", closed=" + closed + "}"; + } + } + + class RangeAtom { + RangePnt low = null; + RangePnt high = null; + RangeAtom next = null; + + RangeAtom(RangePnt p0, RangePnt p1, int type) + throws IllegalArgumentException { + int cmp = 0; + switch (type) { + case Record.CHAR: + case Record.INT: + case Record.LONG: { + cmp = p0.compareTo(p1.lval); + break; + } + case Record.FLOAT: + case Record.DOUBLE: { + cmp = p0.compareTo(p1.dval); + break; + } + case Record.STRING: { + cmp = p0.compareTo(p1.sval); + break; + } + } + if (cmp > 0) { // then switch high and low + low = p1; + high = p0; + } else { + low = p0; + high = p1; + } + } + + RangeAtom(RangePnt p0) + throws IllegalArgumentException { + low = p0; + } + + boolean match(double d) { + int lc = low.compareTo(d); + if (high != null) { + int hc = high.compareTo(d); + return (lc * hc < 0 || + (low.closed && lc == 0) || (high.closed && hc == 0)); + } else { + return lc == 0; + } + } + + boolean match(long l) { + int lc = low.compareTo(l); + if (high != null) { + int hc = high.compareTo(l); + return (lc * hc < 0 || + (low.closed && lc == 0) || (high.closed && hc == 0)); + } else { + return lc == 0; + } + } + + boolean match(String s) { + int lc = low.compareTo(s); + if (high != null) { + int hc = high.compareTo(s); + return (lc * hc < 0 || + (low.closed && lc == 0) || (high.closed && hc == 0)); + } else { + return lc == 0; + } + } + + boolean match(boolean b) { + return low.compareTo(b) == 0; + } + + public String toString() { + return "low=" + (low == null ? "null" : low.toString()) + + ", high=" + (high == null ? "null" : high.toString()); + } + } + + class Record { + NameDesc nameList; + static final int NOTYPE = 0; + static final int BOOLEAN = 1; + static final int CHAR = 2; + static final int INT = 3; + static final int LONG = 4; + static final int FLOAT = 5; + static final int DOUBLE = 6; + static final int STRING = 7; + int type; + int numValues; + boolean vectorResult = false; + boolean required = true; + + String helpMsg = null; + String valueDesc = null; + String rangeDesc = null; + Object resHolder = null; + RangeAtom rangeList = null; + RangeAtom rangeTail = null; + char convertCode; + boolean vval = true; // default value for now + + NameDesc firstNameDesc() { + return nameList; + } + + RangeAtom firstRangeAtom() { + return rangeList; + } + + int numRangeAtoms() { + int cnt = 0; + for (RangeAtom ra = rangeList; ra != null; ra = ra.next) { + cnt++; + } + return cnt; + } + + void addRangeAtom(RangeAtom ra) { + if (rangeList == null) { + rangeList = ra; + } else { + rangeTail.next = ra; + } + rangeTail = ra; + } + + boolean withinRange(double d) { + if (rangeList == null) { + return true; + } + for (RangeAtom ra = rangeList; ra != null; ra = ra.next) { + if (ra.match(d)) { + return true; + } + } + return false; + } + + boolean withinRange(long l) { + if (rangeList == null) { + return true; + } + for (RangeAtom ra = rangeList; ra != null; ra = ra.next) { + if (ra.match(l)) { + return true; + } + } + return false; + } + + boolean withinRange(String s) { + if (rangeList == null) { + return true; + } + for (RangeAtom ra = rangeList; ra != null; ra = ra.next) { + if (ra.match(s)) { + return true; + } + } + return false; + } + + boolean withinRange(boolean b) { + if (rangeList == null) { + return true; + } + for (RangeAtom ra = rangeList; ra != null; ra = ra.next) { + if (ra.match(b)) { + return true; + } + } + return false; + } + + String valTypeName() { + switch (convertCode) { + case 'i': { + return ("integer"); + } + case 'o': { + return ("octal integer"); + } + case 'd': { + return ("decimal integer"); + } + case 'x': { + return ("hex integer"); + } + case 'c': { + return ("char"); + } + case 'b': { + return ("boolean"); + } + case 'f': { + return ("float"); + } + case 's': { + return ("string"); + } + } + return ("unknown"); + } + + void scanValue(Object result, String name, String s, int resultIdx) + throws ArgParseException { + double dval = 0; + String sval = null; + long lval = 0; + boolean bval = false; + + if (s.length() == 0) { + throw new ArgParseException(name, "requires a contiguous value"); + } + StringScanner scanner = new StringScanner(s); + try { + switch (convertCode) { + case 'i': { + lval = scanner.scanInt(); + break; + } + case 'o': { + lval = scanner.scanInt(8, false); + break; + } + case 'd': { + lval = scanner.scanInt(10, false); + break; + } + case 'x': { + lval = scanner.scanInt(16, false); + break; + } + case 'c': { + lval = scanner.scanChar(); + break; + } + case 'b': { + bval = scanner.scanBoolean(); + break; + } + case 'f': { + dval = scanner.scanDouble(); + break; + } + case 's': { + sval = scanner.getString(); + break; + } + } + } catch (StringScanException e) { + throw new ArgParseException( + name, "malformed " + valTypeName() + " '" + s + "'"); + } + scanner.skipWhiteSpace(); + if (!scanner.atEnd()) { + throw new ArgParseException( + name, "malformed " + valTypeName() + " '" + s + "'"); + } + boolean outOfRange = false; + switch (type) { + case CHAR: + case INT: + case LONG: { + outOfRange = !withinRange(lval); + break; + } + case FLOAT: + case DOUBLE: { + outOfRange = !withinRange(dval); + break; + } + case STRING: { + outOfRange = !withinRange(sval); + break; + } + case BOOLEAN: { + outOfRange = !withinRange(bval); + break; + } + } + if (outOfRange) { + throw new ArgParseException( + name, "value '" + s + "' not in range " + rangeDesc); + } + if (result.getClass().isArray()) { + switch (type) { + case BOOLEAN: { + ((boolean[]) result)[resultIdx] = bval; + break; + } + case CHAR: { + ((char[]) result)[resultIdx] = (char) lval; + break; + } + case INT: { + ((int[]) result)[resultIdx] = (int) lval; + break; + } + case LONG: { + ((long[]) result)[resultIdx] = lval; + break; + } + case FLOAT: { + ((float[]) result)[resultIdx] = (float) dval; + break; + } + case DOUBLE: { + ((double[]) result)[resultIdx] = dval; + break; + } + case STRING: { + ((String[]) result)[resultIdx] = sval; + break; + } + } + } else { + switch (type) { + case BOOLEAN: { + ((BooleanHolder) result).value = bval; + break; + } + case CHAR: { + ((CharHolder) result).value = (char) lval; + break; + } + case INT: { + ((IntHolder) result).value = (int) lval; + break; + } + case LONG: { + ((LongHolder) result).value = lval; + break; + } + case FLOAT: { + ((FloatHolder) result).value = (float) dval; + break; + } + case DOUBLE: { + ((DoubleHolder) result).value = dval; + break; + } + case STRING: { + ((StringHolder) result).value = sval; + break; + } + } + } + } + } + + private String firstHelpOptionName() { + if (firstHelpOption != null) { + return firstHelpOption.nameList.name; + } else { + return null; + } + } + + /** + * Creates an <code>ArgParser</code> with a synopsis + * string, and the default help options <code>-help</code> and <code>-?</code>. + * + * @param synopsisString string that briefly describes program usage, + * for use by {@link #getHelpMessage getHelpMessage}. + * @see ArgParser#getSynopsisString + * @see ArgParser#getHelpMessage + */ + public ArgParser(String synopsisString) { + this(synopsisString, true); + } + + /** + * Creates an <code>ArgParser</code> with a synopsis + * string. The help options <code>-help</code> and <code>-?</code> are added if <code>defaultHelp</code> is true. + * + * @param synopsisString string that briefly describes program usage, + * for use by {@link #getHelpMessage getHelpMessage}. + * @param defaultHelp if true, adds the default help options + * @see ArgParser#getSynopsisString + * @see ArgParser#getHelpMessage + */ + public ArgParser(String synopsisString, boolean defaultHelp) { + matchList = new Vector<Record>(128); + this.synopsisString = synopsisString; + if (defaultHelp) { + addOption("-help,-? %h #displays help information", null); + defaultHelpOption = firstHelpOption = matchList.get(0); + } + } + + /** + * Returns the synopsis string used by the parser. + * The synopsis string is a short description of how to invoke + * the program, and usually looks something like + * <p> + * <prec> "java somepackage.SomeClass [options] files ..." </prec> + * + * <p> + * It is used in help and error messages. + * + * @return synopsis string + * @see ArgParser#setSynopsisString + * @see ArgParser#getHelpMessage + */ + public String getSynopsisString() { + return synopsisString; + } + + /** + * Sets the synopsis string used by the parser. + * + * @param s new synopsis string + * @see ArgParser#getSynopsisString + * @see ArgParser#getHelpMessage + */ + public void setSynopsisString(String s) { + synopsisString = s; + } + + /** + * Indicates whether or not help options are enabled. + * + * @return true if help options are enabled + * @see ArgParser#setHelpOptionsEnabled + * @see ArgParser#addOption + */ + public boolean getHelpOptionsEnabled() { + return helpOptionsEnabled; + } + + /** + * Enables or disables help options. Help options are those + * associated with a conversion code of <code>%h</code>. If + * help options are enabled, and a help option is matched, + * then the string produced by {@link #getHelpMessage getHelpMessage} is printed to the default print stream and the + * program + * exits with code 0. Otherwise, arguments which match help + * options are ignored. + * + * @param enable enables help options if <code>true</code>. + * @see ArgParser#getHelpOptionsEnabled + * @see ArgParser#addOption + * @see ArgParser#setDefaultPrintStream + */ + public void setHelpOptionsEnabled(boolean enable) { + helpOptionsEnabled = enable; + } + + /** + * Returns the default print stream used for outputting help + * and error information. + * + * @return default print stream + * @see ArgParser#setDefaultPrintStream + */ + public PrintStream getDefaultPrintStream() { + return printStream; + } + + /** + * Sets the default print stream used for outputting help + * and error information. + * + * @param stream new default print stream + * @see ArgParser#getDefaultPrintStream + */ + public void setDefaultPrintStream(PrintStream stream) { + printStream = stream; + } + + /** + * Gets the indentation used by {@link #getHelpMessage + * getHelpMessage}. + * + * @return number of indentation columns + * @see ArgParser#setHelpIndentation + * @see ArgParser#getHelpMessage + */ + public int getHelpIndentation() { + return helpIndent; + } + + /** + * Sets the indentation used by {@link #getHelpMessage + * getHelpMessage}. This is the number of columns that an option's help + * information is indented. If the option's name and value information + * can fit within this number of columns, then all information about + * the option is placed on one line. Otherwise, the indented help + * information is placed on a separate line. + * + * @param indent number of indentation columns + * @see ArgParser#getHelpIndentation + * @see ArgParser#getHelpMessage + */ + public void setHelpIndentation(int indent) { + helpIndent = indent; + } + + // public void setTabSpacing (int n) + // { tabSpacing = n; + // } + + // public int getTabSpacing () + // { return tabSpacing; + // } + + private void scanRangeSpec(Record rec, String s) + throws IllegalArgumentException { + StringScanner scanner = new StringScanner(s); + char c, c0, c1; + + scanner.setStringDelimiters(")],}"); + c = scanner.getc(); // swallow the first '{' + scanner.skipWhiteSpace(); + while ((c = scanner.peekc()) != '}') { + RangePnt p0, p1; + + if (c == '[' || c == '(') { + if (rec.convertCode == 'v' || rec.convertCode == 'b') { + throw new IllegalArgumentException("Sub ranges not supported for %b or %v"); + } + c0 = scanner.getc(); // record & swallow character + scanner.skipWhiteSpace(); + p0 = new RangePnt(scanner, rec.type); + scanner.skipWhiteSpace(); + if (scanner.getc() != ',') { + throw new IllegalArgumentException("Missing ',' in subrange specification"); + } + p1 = new RangePnt(scanner, rec.type); + scanner.skipWhiteSpace(); + if ((c1 = scanner.getc()) != ']' && c1 != ')') { + throw new IllegalArgumentException("Unterminated subrange"); + } + if (c0 == '(') { + p0.setClosed(false); + } + if (c1 == ')') { + p1.setClosed(false); + } + rec.addRangeAtom(new RangeAtom(p0, p1, rec.type)); + } else { + scanner.skipWhiteSpace(); + p0 = new RangePnt(scanner, rec.type); + rec.addRangeAtom(new RangeAtom(p0)); + } + scanner.skipWhiteSpace(); + if ((c = scanner.peekc()) == ',') { + scanner.getc(); + scanner.skipWhiteSpace(); + } else if (c != '}') { + throw new IllegalArgumentException("Range spec: ',' or '}' expected"); + } + } + if (rec.numRangeAtoms() == 1) { + rec.rangeDesc = s.substring(1, s.length() - 1); + } else { + rec.rangeDesc = s; + } + } + + private int defaultResultType(char convertCode) { + switch (convertCode) { + case 'i': + case 'o': + case 'd': + case 'x': { + return Record.LONG; + } + case 'c': { + return Record.CHAR; + } + case 'v': + case 'b': { + return Record.BOOLEAN; + } + case 'f': { + return Record.DOUBLE; + } + case 's': { + return Record.STRING; + } + } + return Record.NOTYPE; + } + + /** + * Adds a new option description to the parser. The method takes two + * arguments: a specification string, and a result holder in which to + * store the associated value. + * + * <p> + * The specification string has the general form + * + * <p> + * <var>optionNames</var> <code>%</code><var>conversionCode</var> [<code>{</code><var>rangeSpec</var><code>}</code>] + * [<code>X</code><var>multiplier</var>] [<code>#</code><var>valueDescription</var>] [<code>#</code> + * <var>optionDescription</var>] </code> + * + * <p> + * where + * <ul> + * <p> + * <li><var>optionNames</var> is a comma-separated list of names for the option (such as <code>-f, --file</code>). + * + * <p> + * <li><var>conversionCode</var> is a single letter, following a <code>%</code> character, specifying information + * about what value the option requires: + * + * <table> + * <tr> + * <td><code>%f</code></td> + * <td>a floating point number</td> + * <tr> + * <td><code>%i</code></td> + * <td>an integer, in either decimal, hex (if preceeded by <code>0x</code>), or octal (if preceeded by + * <code>0</code>)</td> + * <tr valign=top> + * <td><code>%d</code></td> + * <td>a decimal integer</td> + * <tr valign=top> + * <td><code>%o</code></td> + * <td>an octal integer</td> + * <tr valign=top> + * <td><code>%h</code></td> + * <td>a hex integer (without the preceeding <code>0x</code>)</td> + * <tr valign=top> + * <td><code>%c</code></td> + * <td>a single character, including escape sequences (such as <code>\n</code> or <code>\007</code>), and optionally + * enclosed in single quotes + * <tr valign=top> + * <td><code>%b</code></td> + * <td>a boolean value (<code>true</code> or <code>false</code>)</td> + * <tr valign=top> + * <td><code>%s</code></td> + * <td>a string. This will be the argument string itself (or its remainder, in the case of a single word option)</td> + * <tr valign=top> + * <td><code>%v</code></td> + * <td>no explicit value is expected, but a boolean value of <code>true</code> (by default) will be stored into the + * associated result holder if this option is matched. If one wishes to have a value of <code>false</code> stored + * instead, then the <code>%v</code> should be followed by a "range spec" containing <code>false</code>, as in + * <code>%v{false}</code>. + * </table> + * + * <p> + * <li><var>rangeSpec</var> is an optional range specification, placed inside curly braces, consisting of a + * comma-separated list of range items each specifying permissible values for the option. A range item may be an + * individual value, or it may itself be a subrange, consisting of two individual values, separated by a comma, and + * enclosed in square or round brackets. Square and round brackets denote closed and open endpoints of a subrange, + * indicating that the associated endpoint value is included or excluded from the subrange. The values specified in + * the range spec need to be consistent with the type of value expected by the option. + * + * <p> + * <b>Examples:</b> + * + * <p> + * A range spec of <code>{2,4,8,16}</code> for an integer value will allow the integers 2, 4, 8, or 16. + * + * <p> + * A range spec of <code>{[-1.0,1.0]}</code> for a floating point value will allow any floating point number in the + * range -1.0 to 1.0. + * + * <p> + * A range spec of <code>{(-88,100],1000}</code> for an integer value will allow values > -88 and <= 100, as well as + * 1000. + * + * <p> + * A range spec of <code>{"foo", "bar", ["aaa","zzz")} </code> for a string value will allow strings equal to + * <code>"foo"</code> or <code>"bar"</code>, plus any string lexically greater than or equal to <code>"aaa"</code> + * but less then <code>"zzz"</code>. + * + * <p> + * <li><var>multiplier</var> is an optional integer, following a <code>X</code> character, indicating the number of + * values which the option expects. If the multiplier is not specified, it is assumed to be 1. If the multiplier + * value is greater than 1, then the result holder should be either an array (of appropriate type) with a length + * greater than or equal to the multiplier value, or a <code>java.util.Vector</code> <a href=#vectorHolder>as + * discussed below</a>. + * + * <p> + * <li><var>valueDescription</var> is an optional description of the option's value requirements, and consists of + * all characters between two <code>#</code> characters. The final <code>#</code> character initiates the <i>option + * description</i>, which may be empty. The value description is used in <a href=#helpInfo>generating help + * messages</a>. + * + * <p> + * <li><var>optionDescription</var> is an optional description of the option itself, consisting of all characters + * between a <code>#</code> character and the end of the specification string. The option description is used in <a + * href=#helpInfo>generating help messages</a>. + * </ul> + * + * <p> + * The result holder must be an object capable of holding a value compatible with the conversion code, or it must be + * a <code>java.util.Vector</code>. When the option is matched, its associated value is placed in the result holder. + * If the same option is matched repeatedly, the result holder value will be overwritten, unless the result holder + * is a <code>java.util.Vector</code>, in which case new holder objects for each match will be allocated and added + * to the vector. Thus if multiple instances of an option are desired by the program, the result holder should be a + * <code>java.util.Vector</code>. + * + * <p> + * If the result holder is not a <code>Vector</code>, then it must correspond as follows to the conversion code: + * + * <table> + * <tr valign=top> + * <td><code>%i</code>, <code>%d</code>, <code>%x</code>, <code>%o</code></td> + * <td>{@link argparser.IntHolder IntHolder}, {@link argparser.LongHolder LongHolder}, <code>int[]</code>, or + * <code>long[]</code></td> + * </tr> + * + * <tr valign=top> + * <td><code>%f</code></td> + * <td>{@link argparser.FloatHolder FloatHolder}, {@link argparser.DoubleHolder DoubleHolder}, <code>float[]</code>, + * or <code>double[]</code></td> + * </tr> + * + * <tr valign=top> + * <td><code>%b</code>, <code>%v</code></td> + * <td>{@link argparser.BooleanHolder BooleanHolder} or <code>boolean[]</code></td> + * </tr> + * + * <tr valign=top> + * <td><code>%s</code></td> + * <td>{@link argparser.StringHolder StringHolder} or <code>String[]</code></td> + * </tr> + * + * <tr valign=top> + * <td><code>%c</code></td> + * <td>{@link argparser.CharHolder CharHolder} or <code>char[]</code></td> + * </tr> + * </table> + * + * <p> + * In addition, if the multiplier is greater than 1, then only the array type indicated above may be used, and the + * array must be at least as long as the multiplier. + * + * <p> + * <a name=vectorHolder>If the result holder is a <code>Vector</code>, then the system will create an appropriate + * result holder object and add it to the vector. Multiple occurances of the option will cause multiple results to + * be added to the vector. + * + * <p> + * The object allocated by the system to store the result will correspond to the conversion code as follows: + * + * <table> + * <tr valign=top> + * <td><code>%i</code>, <code>%d</code>, <code>%x</code>, <code>%o</code></td> + * <td>{@link argparser.LongHolder LongHolder}, or <code>long[]</code> if the multiplier value exceeds 1</td> + * </tr> + * + * <tr valign=top> + * <td><code>%f</code></td> + * <td>{@link argparser.DoubleHolder DoubleHolder}, or <code>double[]</code> if the multiplier value exceeds 1</td> + * </tr> + * + * <tr valign=top> + * <td><code>%b</code>, <code>%v</code></td> + * <td>{@link argparser.BooleanHolder BooleanHolder}, or <code>boolean[]</code> if the multiplier value exceeds 1</td> + * </tr> + * + * <tr valign=top> + * <td><code>%s</code></td> + * <td>{@link argparser.StringHolder StringHolder}, or <code>String[]</code> if the multiplier value exceeds 1</td> + * </tr> + * + * <tr valign=top> + * <td><code>%c</code></td> + * <td>{@link argparser.CharHolder CharHolder}, or <code>char[]</code> if the multiplier value exceeds 1</td> + * </tr> + * </table> + * + * @param spec the specification string + * @param resHolder object in which to store the associated + * value + * @throws IllegalArgumentException if there is an error in + * the specification or if the result holder is of an invalid + * type. + */ + public void addOption(String spec, Object resHolder) + throws IllegalArgumentException { + // null terminated string is easier to parse + StringScanner scanner = new StringScanner(spec); + Record rec = null; + NameDesc nameTail = null; + NameDesc ndesc; + int i0, i1; + char c; + + do { + ndesc = new NameDesc(); + boolean nameEndsInWhiteSpace = false; + + scanner.skipWhiteSpace(); + i0 = scanner.getIndex(); + while (!Character.isWhitespace(c = scanner.getc()) && + c != ',' && c != '%' && c != '\000') + ; + i1 = scanner.getIndex(); + if (c != '\000') { + i1--; + } + if (i0 == i1) { // then c is one of ',' '%' or '\000' + throw new IllegalArgumentException("Null option name given"); + } + if (Character.isWhitespace(c)) { + nameEndsInWhiteSpace = true; + scanner.skipWhiteSpace(); + c = scanner.getc(); + } + if (c == '\000') { + throw new IllegalArgumentException("No conversion character given"); + } + if (c != ',' && c != '%') { + throw new IllegalArgumentException("Names not separated by ','"); + } + ndesc.name = scanner.substring(i0, i1); + if (rec == null) { + rec = new Record(); + rec.nameList = ndesc; + } else { + nameTail.next = ndesc; + } + nameTail = ndesc; + ndesc.oneWord = !nameEndsInWhiteSpace; + } while (c != '%'); + + if (!nameTail.oneWord) { + for (ndesc = rec.nameList; ndesc != null; ndesc = ndesc.next) { + ndesc.oneWord = false; + } + } + c = scanner.getc(); + if (c == '\000') { + throw new IllegalArgumentException("No conversion character given"); + } + if (validConversionCodes.indexOf(c) == -1) { + throw new IllegalArgumentException("Conversion code '" + c + "' not one of '" + + validConversionCodes + "'"); + } + rec.convertCode = c; + + if (resHolder instanceof Vector) { + rec.vectorResult = true; + rec.type = defaultResultType(rec.convertCode); + } else { + switch (rec.convertCode) { + case 'i': + case 'o': + case 'd': + case 'x': { + if (resHolder instanceof LongHolder || + resHolder instanceof long[]) { + rec.type = Record.LONG; + } else if (resHolder instanceof IntHolder || + resHolder instanceof int[]) { + rec.type = Record.INT; + } else { + throw new IllegalArgumentException( + "Invalid result holder for %" + c); + } + break; + } + case 'c': { + if (!(resHolder instanceof CharHolder) && + !(resHolder instanceof char[])) { + throw new IllegalArgumentException( + "Invalid result holder for %c"); + } + rec.type = Record.CHAR; + break; + } + case 'v': + case 'b': { + if (!(resHolder instanceof BooleanHolder) && + !(resHolder instanceof boolean[])) { + throw new IllegalArgumentException( + "Invalid result holder for %" + c); + } + rec.type = Record.BOOLEAN; + break; + } + case 'f': { + if (resHolder instanceof DoubleHolder || + resHolder instanceof double[]) { + rec.type = Record.DOUBLE; + } else if (resHolder instanceof FloatHolder || + resHolder instanceof float[]) { + rec.type = Record.FLOAT; + } else { + throw new IllegalArgumentException( + "Invalid result holder for %f"); + } + break; + } + case 's': { + if (!(resHolder instanceof StringHolder) && + !(resHolder instanceof String[])) { + throw new IllegalArgumentException( + "Invalid result holder for %s"); + } + rec.type = Record.STRING; + break; + } + case 'h': { // resHolder is ignored for this type + break; + } + } + } + if (rec.convertCode == 'h') { + rec.resHolder = null; + } else { + rec.resHolder = resHolder; + } + + scanner.skipWhiteSpace(); + // get the range specification, if any + if (scanner.peekc() == '{') { + if (rec.convertCode == 'h') { + throw new IllegalArgumentException("Ranges not supported for %h"); + } + // int bcnt = 0; + i0 = scanner.getIndex(); // beginning of range spec + do { + c = scanner.getc(); + if (c == '\000') { + throw new IllegalArgumentException("Unterminated range specification"); + } + // else if (c=='[' || c=='(') + // { bcnt++; + // } + // else if (c==']' || c==')') + // { bcnt--; + // } + // if ((rec.convertCode=='v'||rec.convertCode=='b') && bcnt>1) + // { throw new IllegalArgumentException + // ("Sub ranges not supported for %b or %v"); + // } + } while (c != '}'); + // if (c != ']') + // { throw new IllegalArgumentException + // ("Range specification must end with ']'"); + // } + i1 = scanner.getIndex(); // end of range spec + scanRangeSpec(rec, scanner.substring(i0, i1)); + if (rec.convertCode == 'v' && rec.rangeList != null) { + rec.vval = rec.rangeList.low.bval; + } + } + // check for value multiplicity information, if any + if (scanner.peekc() == 'X') { + if (rec.convertCode == 'h') { + throw new IllegalArgumentException("Multipliers not supported for %h"); + } + scanner.getc(); + try { + rec.numValues = (int) scanner.scanInt(); + } catch (StringScanException e) { + throw new IllegalArgumentException("Malformed value multiplier"); + } + if (rec.numValues <= 0) { + throw new IllegalArgumentException("Value multiplier number must be > 0"); + } + } else { + rec.numValues = 1; + } + if (rec.numValues > 1) { + for (ndesc = rec.nameList; ndesc != null; ndesc = ndesc.next) { + if (ndesc.oneWord) { + throw new IllegalArgumentException( + "Multiplier value incompatible with one word option " + ndesc.name); + } + } + } + if (resHolder != null && resHolder.getClass().isArray()) { + if (Array.getLength(resHolder) < rec.numValues) { + throw new IllegalArgumentException( + "Result holder array must have a length >= " + rec.numValues); + } + } else { + if (rec.numValues > 1 && !(resHolder instanceof Vector)) { + throw new IllegalArgumentException( + "Multiplier requires result holder to be an array of length >= " + + rec.numValues); + } + } + + // skip white space following conversion information + scanner.skipWhiteSpace(); + + // get the help message, if any + + if (!scanner.atEnd()) { + if (scanner.getc() != '#') { + throw new IllegalArgumentException("Illegal character(s), expecting '#'"); + } + String helpInfo = scanner.substring(scanner.getIndex()); + // look for second '#'. If there is one, then info + // between the first and second '#' is the value descriptor. + int k = helpInfo.indexOf("#"); + if (k != -1) { + rec.valueDesc = helpInfo.substring(0, k); + rec.helpMsg = helpInfo.substring(k + 1); + } else { + rec.helpMsg = helpInfo; + } + } else { + rec.helpMsg = ""; + } + + // parse helpMsg for required/optional information if present + // default to required + if (rec.helpMsg.indexOf("(optional") != -1) { + rec.required = false; + } + + // add option information to match list + if (rec.convertCode == 'h' && firstHelpOption == defaultHelpOption) { + matchList.remove(defaultHelpOption); + firstHelpOption = rec; + } + matchList.add(rec); + } + + Record lastMatchRecord() { + return (Record) matchList.lastElement(); + } + + private Record getRecord(String arg, ObjectHolder ndescHolder) { + NameDesc ndesc; + for (int i = 0; i < matchList.size(); i++) { + Record rec = (Record) matchList.get(i); + for (ndesc = rec.nameList; ndesc != null; ndesc = ndesc.next) { + if (rec.convertCode != 'v' && ndesc.oneWord) { + if (arg.startsWith(ndesc.name)) { + if (ndescHolder != null) { + ndescHolder.value = ndesc; + } + return rec; + } + } else { + if (arg.equals(ndesc.name)) { + if (ndescHolder != null) { + ndescHolder.value = ndesc; + } + return rec; + } + } + } + } + return null; + } + + public void checkRequiredArgs() { + for (int i = 1; i < matchList.size(); i++) { + Record rec = (Record) matchList.get(i); + StringHolder myString = (StringHolder) rec.resHolder; + if (((myString.value == null) || (myString.value.equals(""))) && (rec.required)) { + printErrorAndExit("Required parameter " + rec.nameList.name + " is not specified."); + } + } + } + + Object getResultHolder(String arg) { + Record rec = getRecord(arg, null); + return (rec != null) ? rec.resHolder : null; + } + + String getOptionName(String arg) { + ObjectHolder ndescHolder = new ObjectHolder(); + Record rec = getRecord(arg, ndescHolder); + return (rec != null) ? ((NameDesc) ndescHolder.value).name : null; + } + + String getOptionRangeDesc(String arg) { + Record rec = getRecord(arg, null); + return (rec != null) ? rec.rangeDesc : null; + } + + String getOptionTypeName(String arg) { + Record rec = getRecord(arg, null); + return (rec != null) ? rec.valTypeName() : null; + } + + private Object createResultHolder(Record rec) { + if (rec.numValues == 1) { + switch (rec.type) { + case Record.LONG: { + return new LongHolder(); + } + case Record.CHAR: { + return new CharHolder(); + } + case Record.BOOLEAN: { + return new BooleanHolder(); + } + case Record.DOUBLE: { + return new DoubleHolder(); + } + case Record.STRING: { + return new StringHolder(); + } + } + } else { + switch (rec.type) { + case Record.LONG: { + return new long[rec.numValues]; + } + case Record.CHAR: { + return new char[rec.numValues]; + } + case Record.BOOLEAN: { + return new boolean[rec.numValues]; + } + case Record.DOUBLE: { + return new double[rec.numValues]; + } + case Record.STRING: { + return new String[rec.numValues]; + } + } + } + return null; // can't happen + } + + static void stringToArgs(Vector<String> vec, String s, + boolean allowQuotedStrings) + throws StringScanException { + StringScanner scanner = new StringScanner(s); + scanner.skipWhiteSpace(); + while (!scanner.atEnd()) { + if (allowQuotedStrings) { + vec.add(scanner.scanString()); + } else { + vec.add(scanner.scanNonWhiteSpaceString()); + } + scanner.skipWhiteSpace(); + } + } + + /** + * Reads in a set of strings from a reader and prepends them to an + * argument list. Strings are delimited by either whitespace or + * double quotes <code>"</code>. The character <code>#</code> acts as + * a comment character, causing input to the end of the current line to + * be ignored. + * + * @param reader Reader from which to read the strings + * @param args Initial set of argument values. Can be + * specified as <code>null</code>. + * @throws IOException if an error occured while reading. + */ + public static String[] prependArgs(Reader reader, String[] args) + throws IOException { + if (args == null) { + args = new String[0]; + } + LineNumberReader lineReader = new LineNumberReader(reader); + Vector<String> vec = new Vector<String>(100, 100); + String line; + int i, k; + + while ((line = lineReader.readLine()) != null) { + int commentIdx = line.indexOf("#"); + if (commentIdx != -1) { + line = line.substring(0, commentIdx); + } + try { + stringToArgs(vec, line, /*allowQuotedStings=*/true); + } catch (StringScanException e) { + throw new IOException( + "malformed string, line " + lineReader.getLineNumber()); + } + } + String[] result = new String[vec.size() + args.length]; + for (i = 0; i < vec.size(); i++) { + result[i] = (String) vec.get(i); + } + for (k = 0; k < args.length; k++) { + result[i++] = args[k]; + } + return result; + } + + /** + * Reads in a set of strings from a file and prepends them to an + * argument list. Strings are delimited by either whitespace or double + * quotes <code>"</code>. The character <code>#</code> acts as a + * comment character, causing input to the end of the current line to + * be ignored. + * + * @param file File to be read + * @param args Initial set of argument values. Can be + * specified as <code>null</code>. + * @throws IOException if an error occured while reading the file. + */ + public static String[] prependArgs(File file, String[] args) + throws IOException { + if (args == null) { + args = new String[0]; + } + if (!file.canRead()) { + return args; + } + try { + return prependArgs(new FileReader(file), args); + } catch (IOException e) { + throw new IOException( + "File " + file.getName() + ": " + e.getMessage()); + } + } + + /** + * Sets the parser's error message. + * + * @param s Error message + */ + protected void setError(String msg) { + errMsg = msg; + } + + /** + * Prints an error message, along with a pointer to help options, + * if available, and causes the program to exit with code 1. + */ + public void printErrorAndExit(String msg) { + if (helpOptionsEnabled && firstHelpOptionName() != null) { + msg += "\nUse " + firstHelpOptionName() + " for help information"; + } + if (printStream != null) { + printStream.println(msg); + } + System.exit(1); + } + + /** + * Matches arguments within an argument list. + * + * <p> + * In the event of an erroneous or unmatched argument, the method prints a message and exits the program with code + * 1. + * + * <p> + * If help options are enabled and one of the arguments matches a help option, then the result of + * {@link #getHelpMessage + * getHelpMessage} is printed to the default print stream and the program exits with code 0. If help options are not + * enabled, they are ignored. + * + * @param args argument list + * @see ArgParser#getDefaultPrintStream + */ + public void matchAllArgs(String[] args) { + matchAllArgs(args, 0, EXIT_ON_UNMATCHED | EXIT_ON_ERROR); + } + + /** + * Matches arguments within an argument list and returns + * those which were not matched. The matching starts at a location + * in <code>args</code> specified by <code>idx</code>, and + * unmatched arguments are returned in a String array. + * + * <p> + * In the event of an erroneous argument, the method either prints a message and exits the program (if + * {@link #EXIT_ON_ERROR} is set in <code>exitFlags</code>) or terminates the matching and creates a error message + * that can be retrieved by {@link #getErrorMessage}. + * + * <p> + * In the event of an umatched argument, the method will print a message and exit if {@link #EXIT_ON_UNMATCHED} is + * set in <code>errorFlags</code>. Otherwise, the unmatched argument will be appended to the returned array of + * unmatched values, and the matching will continue at the next location. + * + * <p> + * If help options are enabled and one of the arguments matches a help option, then the result of + * {@link #getHelpMessage + * getHelpMessage} is printed to the the default print stream and the program exits with code 0. If help options are + * not enabled, then they will not be matched. + * + * @param args argument list + * @param idx starting location in list + * @param exitFlags conditions causing the program to exit. Should be + * an or-ed combintion of {@link #EXIT_ON_ERROR} or {@link #EXIT_ON_UNMATCHED}. + * @return array of arguments that were not matched, or <code>null</code> if all arguments were successfully matched + * @see ArgParser#getErrorMessage + * @see ArgParser#getDefaultPrintStream + */ + public String[] matchAllArgs(String[] args, int idx, int exitFlags) { + Vector<String> unmatched = new Vector<String>(10); + + while (idx < args.length) { + try { + idx = matchArg(args, idx); + if (unmatchedArg != null) { + if ((exitFlags & EXIT_ON_UNMATCHED) != 0) { + printErrorAndExit("Unrecognized argument: " + unmatchedArg); + } else { + unmatched.add(unmatchedArg); + } + } + } catch (ArgParseException e) { + if ((exitFlags & EXIT_ON_ERROR) != 0) { + printErrorAndExit(e.getMessage()); + } + break; + } + } + if (unmatched.size() == 0) { + return null; + } else { + return (String[]) unmatched.toArray(new String[0]); + } + } + + /** + * Matches one option starting at a specified location in an argument + * list. The method returns the location in the list where the next + * match should begin. + * + * <p> + * In the event of an erroneous argument, the method throws an {@link argparser.ArgParseException ArgParseException} + * with an appropriate error message. This error message can also be retrieved using {@link #getErrorMessage + * getErrorMessage}. + * + * <p> + * In the event of an umatched argument, the method will return idx + 1, and {@link #getUnmatchedArgument + * getUnmatchedArgument} will return a copy of the unmatched argument. If an argument is matched, + * {@link #getUnmatchedArgument getUnmatchedArgument} will return <code>null</code>. + * + * <p> + * If help options are enabled and the argument matches a help option, then the result of {@link #getHelpMessage + * getHelpMessage} is printed to the the default print stream and the program exits with code 0. If help options are + * not enabled, then they are ignored. + * + * @param args argument list + * @param idx location in list where match should start + * @return location in list where next match should start + * @throws ArgParseException if there was an error performing + * the match (such as improper or insufficient values). + * @see ArgParser#setDefaultPrintStream + * @see ArgParser#getHelpOptionsEnabled + * @see ArgParser#getErrorMessage + * @see ArgParser#getUnmatchedArgument + */ + @SuppressWarnings("unchecked") + public int matchArg(String[] args, int idx) + throws ArgParseException { + unmatchedArg = null; + setError(null); + try { + ObjectHolder ndescHolder = new ObjectHolder(); + Record rec = getRecord(args[idx], ndescHolder); + if (rec == null || (rec.convertCode == 'h' && !helpOptionsEnabled)) { // didn't match + unmatchedArg = new String(args[idx]); + return idx + 1; + } + NameDesc ndesc = (NameDesc) ndescHolder.value; + Object result; + if (rec.resHolder instanceof Vector) { + result = createResultHolder(rec); + } else { + result = rec.resHolder; + } + if (rec.convertCode == 'h') { + if (helpOptionsEnabled) { + printStream.println(getHelpMessage()); + System.exit(0); + } else { + return idx + 1; + } + } else if (rec.convertCode != 'v') { + if (ndesc.oneWord) { + rec.scanValue( + result, ndesc.name, + args[idx].substring(ndesc.name.length()), 0); + } else { + if (idx + rec.numValues >= args.length) { + throw new ArgParseException( + ndesc.name, "requires " + rec.numValues + " value" + + (rec.numValues > 1 ? "s" : "")); + } + for (int k = 0; k < rec.numValues; k++) { + rec.scanValue(result, ndesc.name, args[++idx], k); + } + } + } else { + if (rec.resHolder instanceof BooleanHolder) { + ((BooleanHolder) result).value = rec.vval; + } else { + for (int k = 0; k < rec.numValues; k++) { + ((boolean[]) result)[k] = rec.vval; + } + } + } + if (rec.resHolder instanceof Vector) { + ((Vector<Object>) rec.resHolder).add(result); + } + } catch (ArgParseException e) { + setError(e.getMessage()); + throw e; + } + return idx + 1; + } + + private String spaceString(int n) { + StringBuffer sbuf = new StringBuffer(n); + for (int i = 0; i < n; i++) { + sbuf.append(' '); + } + return sbuf.toString(); + } + + // public String getShortHelpMessage () + // { + // String s; + // Record rec; + // NameDesc ndesc; + // int initialIndent = 8; + // int col = initialIndent; + + // if (maxcols <= 0) + // { maxcols = 80; + // } + // if (matchList.size() > 0) + // { ps.print (spaceString(initialIndent)); + // } + // for (int i=0; i<matchList.size(); i++) + // { rec = (Record)matchList.get(i); + // s = "["; + // for (ndesc=rec.nameList; ndesc!=null; ndesc=ndesc.next) + // { s = s + ndesc.name; + // if (ndesc.oneWord == false) + // { s = s + " "; + // } + // if (ndesc.next != null) + // { s = s + ","; + // } + // } + // if (rec.convertCode != 'v' && rec.convertCode != 'h') + // { if (rec.valueDesc != null) + // { s += rec.valueDesc; + // } + // else + // { s = s + "<" + rec.valTypeName() + ">"; + // if (rec.numValues > 1) + // { s += "X" + rec.numValues; + // } + // } + // } + // s = s + "]"; + // /* + // (col+=s.length()) > (maxcols-1) => we will spill over edge. + // we use (maxcols-1) because if we go right to the edge + // (maxcols), we get wrap new line inserted "for us". + // i != 0 means we print the first entry, no matter + // how long it is. Subsequent entries are printed + // full length anyway. */ + + // if ((col+=s.length()) > (maxcols-1) && i != 0) + // { col = initialIndent+s.length(); + // ps.print ("\n" + spaceString(initialIndent)); + // } + // ps.print (s); + // } + // if (matchList.size() > 0) + // { ps.print ('\n'); + // ps.flush(); + // } + // } + + /** + * Returns a string describing the allowed options + * in detail. + * + * @return help information string. + */ + public String getHelpMessage() { + Record rec; + NameDesc ndesc; + boolean hasOneWordAlias = false; + String s; + + s = "Usage: " + synopsisString + "\n"; + s += "Options include:\n\n"; + for (int i = 0; i < matchList.size(); i++) { + String optionInfo = ""; + rec = (Record) matchList.get(i); + if (rec.convertCode == 'h' && !helpOptionsEnabled) { + continue; + } + for (ndesc = rec.nameList; ndesc != null; ndesc = ndesc.next) { + if (ndesc.oneWord) { + hasOneWordAlias = true; + break; + } + } + for (ndesc = rec.nameList; ndesc != null; ndesc = ndesc.next) { + optionInfo += ndesc.name; + if (hasOneWordAlias && !ndesc.oneWord) { + optionInfo += " "; + } + if (ndesc.next != null) { + optionInfo += ","; + } + } + if (!hasOneWordAlias) { + optionInfo += " "; + } + if (rec.convertCode != 'v' && rec.convertCode != 'h') { + if (rec.valueDesc != null) { + optionInfo += rec.valueDesc; + } else { + if (rec.rangeDesc != null) { + optionInfo += "<" + rec.valTypeName() + " " + + rec.rangeDesc + ">"; + } else { + optionInfo += "<" + rec.valTypeName() + ">"; + } + } + } + if (rec.numValues > 1) { + optionInfo += "X" + rec.numValues; + } + s += optionInfo; + if (rec.helpMsg.length() > 0) { + int pad = helpIndent - optionInfo.length(); + if (pad < 2) { //s += '\n'; + pad = helpIndent; + } + // s += spaceString(pad) + rec.helpMsg; + s += spaceString(4) + rec.helpMsg; + } + s += '\n'; + } + return s; + } + + /** + * Returns the parser's error message. This is automatically + * set whenever an error is encountered in <code>matchArg</code> or <code>matchAllArgs</code>, and is automatically + * set to <code>null</code> at the beginning of these methods. + * + * @return error message + */ + public String getErrorMessage() { + return errMsg; + } + + /** + * Returns the value of an unmatched argument discovered {@link #matchArg matchArg} or + * {@link #matchAllArgs(String[],int,int) + * matchAllArgs}. If there was no unmatched argument, <code>null</code> is returned. + * + * @return unmatched argument + */ + public String getUnmatchedArgument() { + return unmatchedArg; + } +} |