cky/GSString.java

## GSString.java
package nz.kiwi.chris.j7gs.types;

import com.google.common.base.Preconditions;

public class GSString implements Comparable<GSString> {
    private final String value;

    public GSString(String value) {
        this.value = value;
    }

    @Override
    public int hashCode() {
        return value.hashCode();
    }

    @Override
    public boolean equals(Object obj) {
        return obj instanceof GSString && value.equals(((GSString) obj).value);
    }

    @Override
    public int compareTo(GSString rhs) {
        return value.compareTo(rhs.value);
    }

    @Override
    public String toString() {
        return value;
    }

    /**
     * Parses a single- or double-quoted string according to Ruby rules,
     * except for interpolation, which is not implemented.
     *
     * @param str the string to parse
     * @return the parsed string
     * @throws IllegalArgumentException if the string is not a valid
     *                                  single- or double-quoted string
     */
    public static GSString parseQuoted(String str) {
        ParserData data = new ParserData();
        ParserState state = ParserState.START;
        for (int i = 0; i < str.length(); ++i) {
            state = state.handle(data, str.charAt(i));
            if (data.pushback) {
                --i;
                data.pushback = false;
            }
        }
        Preconditions.checkArgument(state == ParserState.END,
                "String ran out inside escape");
        return new GSString(data.toString());
    }

    private static class ParserData {
        private final StringBuilder sb = new StringBuilder();
        private int scratch;
        private int count;
        private boolean ctrl;
        private boolean pushback;

        public ParserData append(char c) {
            sb.append(ctrl ? (char) (c & 0x9f) : c);
            ctrl = false;
            return this;
        }

        public ParserData appendCodePoint(int codePoint) {
            sb.appendCodePoint(ctrl ? codePoint & 0x9f : codePoint);
            ctrl = false;
            return this;
        }

        @Override
        public String toString() {
            return sb.toString();
        }
    }

    private enum ParserState {
        START {
            @Override
            ParserState handle(ParserData data, char c) {
                switch (c) {
                case '\'':
                    return SINGLE;
                case '"':
                    return DOUBLE;
                default:
                    throw new IllegalArgumentException("String did not start with quote");
                }
            }
        },

        END {
            @Override
            ParserState handle(ParserData data, char c) {
                throw new IllegalArgumentException("Unescaped quote character");
            }
        },

        /*
         * Single-quoted string states.
         */

        SINGLE {
            @Override
            ParserState handle(ParserData data, char c) {
                switch (c) {
                case '\'':
                    return END;
                case '\\':
                    return SINGLE_ESC;
                default:
                    data.append(c);
                    return this;
                }
            }
        },

        SINGLE_ESC {
            @Override
            ParserState handle(ParserData data, char c) {
                switch (c) {
                default:
                    data.append('\\');
                    // $FALL-THROUGH$
                case '\'':
                case '\\':
                    data.append(c);
                    return SINGLE;
                }
            }
        },

        /*
         * Double-quoted string states.
         */

        DOUBLE {
            @Override
            ParserState handle(ParserData data, char c) {
                switch (c) {
                case '"':
                    return END;
                case '\\':
                    return DOUBLE_ESC;
                case '#':
                    return HASH;
                default:
                    data.append(c);
                    return this;
                }
            }
        },

        DOUBLE_ESC {
            @Override
            ParserState handle(ParserData data, char c) {
                if (simpleEscape(data, c))
                    return DOUBLE;
                switch (c) {
                case '0': case '1': case '2': case '3':
                case '4': case '5': case '6': case '7':
                    data.pushback = true;
                    data.scratch = 0;
                    data.count = 0;
                    return OCTAL;
                case 'x':
                    data.scratch = 0;
                    data.count = 0;
                    return HEX;
                case 'u':
                    data.scratch = 0;
                    data.count = 0;
                    return UNICODE_INIT;
                case '\r':
                    return CR;
                case '\n':
                    return DOUBLE;
                case 'C':
                    return BIG_C;
                case 'c':
                    return CONTROL;
                default:
                    data.append(c);
                    return DOUBLE;
                }
            }
        },

        OCTAL {
            @Override
            ParserState handle(ParserData data, char c) {
                return parseNumber(data, c, 3, 1, 3, DOUBLE);
            }
        },

        HEX {
            @Override
            ParserState handle(ParserData data, char c) {
                return parseNumber(data, c, 4, 1, 2, DOUBLE);
            }
        },

        UNICODE_INIT {
            @Override
            ParserState handle(ParserData data, char c) {
                if (c == '{')
                    return UNICODE_LCURLY;
                data.pushback = true;
                return UNICODE4;
            }
        },

        UNICODE4 {
            @Override
            ParserState handle(ParserData data, char c) {
                return parseNumber(data, c, 4, 4, 4, DOUBLE);
            }
        },

        UNICODE_LCURLY {
            @Override
            ParserState handle(ParserData data, char c) {
                return parseNumber(data, c, 4, 1, 6, UNICODE_RCURLY);
            }
        },

        UNICODE_RCURLY {
            @Override
            ParserState handle(ParserData data, char c) {
                Preconditions.checkArgument(c == '}', "Invalid Unicode escape");
                return DOUBLE;
            }
        },

        CR {
            @Override
            ParserState handle(ParserData data, char c) {
                if (c != '\n') {
                    data.pushback = true;
                    data.append('\r');
                }
                return DOUBLE;
            }
        },

        BIG_C {
            @Override
            ParserState handle(ParserData data, char c) {
                Preconditions.checkArgument(c == '-', "Invalid control escape");
                return CONTROL;
            }
        },

        CONTROL {
            @Override
            ParserState handle(ParserData data, char c) {
                Preconditions.checkArgument(!data.ctrl, "Invalid control escape");
                switch (c) {
                case '\\':
                    data.ctrl = true;
                    return DOUBLE_ESC;
                case '?':
                    data.append('\177');
                    return DOUBLE;
                default:
                    data.ctrl = true;
                    data.append(c);
                    return DOUBLE;
                }
            }
        },

        HASH {
            @Override
            ParserState handle(ParserData data, char c) {
                switch (c) {
                case '$': case '@': case '{':
                    throw new IllegalArgumentException("String interpolation is not implemented");
                default:
                    data.append('#');
                    data.pushback = true;
                    return DOUBLE;
                }
            }
        };

        abstract ParserState handle(ParserData data, char c);

        static boolean simpleEscape(ParserData data, char c) {
            switch (c) {
            case '\\': break;
            case 'n': c = '\n'; break;
            case 't': c = '\t'; break;
            case 'r': c = '\r'; break;
            case 'f': c = '\f'; break;
            case 'v': c = '\13'; break;
            case 'a': c = '\7'; break;
            case 'e': c = '\33'; break;
            case 'b': c = '\b'; break;
            case 's': c = '\40'; break;
            default: return false;
            }
            data.append(c);
            return true;
        }

        private static int hexValue(char c) {
            switch (c) {
            case '0': case '1': case '2': case '3': case '4':
            case '5': case '6': case '7': case '8': case '9':
                return c - '0';
            case 'A': case 'B': case 'C': case 'D': case 'E': case 'F':
                return c - ('A' - 10);
            case 'a': case 'b': case 'c': case 'd': case 'e': case 'f':
                return c - ('a' - 10);
            default:
                return -1;
            }
        }

        ParserState parseNumber(ParserData data, char c, int shift, int minCount,
                                int maxCount, ParserState nextState) {
            int value = hexValue(c);
            if (value >= 0 && value < (1 << shift)) {
                data.scratch = (data.scratch << shift) + value;
                if (++data.count < maxCount)
                    return this;
            } else {
                Preconditions.checkArgument(data.count >= minCount,
                        "Invalid hex/Unicode escape");
                data.pushback = true;
            }
            data.appendCodePoint(data.scratch);
            return nextState;
        }
    }
}

## GSStringTest.java
package nz.kiwi.chris.j7gs.types;

import org.testng.annotations.Test;

import static org.testng.Assert.assertEquals;
import static org.testng.Assert.fail;

public class GSStringTest {
    private static void checkParseSingle(String expr, String expected) {
        assertEquals(GSString.parseQuoted('\'' + expr + '\''), new GSString(expected));
    }

    private static void checkParseDouble(String expr, String expected) {
        assertEquals(GSString.parseQuoted('"' + expr + '"'), new GSString(expected));
    }

    private static void checkParseDoubleForException(String expr) {
        try {
            GSString.parseQuoted('"' + expr + '"');
            fail();
        } catch (IllegalArgumentException expected) {}
    }

    @Test
    public static void testParseSingle() {
        checkParseSingle("foo bar", "foo bar");
        checkParseSingle("foo\\bar", "foo\\bar");
        checkParseSingle("foo\\\\bar", "foo\\bar");
        checkParseSingle("foo\\'bar", "foo'bar");
        checkParseSingle("foo\\\"bar", "foo\\\"bar");
        checkParseSingle("foo\"bar", "foo\"bar");
    }

    @Test(expectedExceptions = IllegalArgumentException.class)
    public static void testParseSingleWithoutLeadingQuote() {
        GSString.parseQuoted("foo bar'");
    }

    @Test(expectedExceptions = IllegalArgumentException.class)
    public static void testParseSingleWithoutTrailingQuote() {
        GSString.parseQuoted("'foo bar");
    }

    @Test(expectedExceptions = IllegalArgumentException.class)
    public static void testParseSingleWithRunawayEscape() {
        GSString.parseQuoted("'foo bar\\");
    }

    @Test(expectedExceptions = IllegalArgumentException.class)
    public static void testParseSingleWithStrayQuote() {
        GSString.parseQuoted("'foo'bar'");
    }

    @Test
    public static void testParseDouble() {
        // Basic stuff
        checkParseDouble("foo bar", "foo bar");
        checkParseDouble("foo\\bar", "foo\bar");
        checkParseDouble("foo\\\\bar", "foo\\bar");
        checkParseDouble("foo\\\"bar", "foo\"bar");
        checkParseDouble("foo\\'bar", "foo'bar");
        checkParseDouble("foo'bar", "foo'bar");

        // Escaped interpolation sequences
        checkParseDouble("foo#bar", "foo#bar");
        checkParseDouble("foo#\\$bar", "foo#$bar");
        checkParseDouble("foo\\#$bar", "foo#$bar");
        checkParseDouble("foo#\\@bar", "foo#@bar");
        checkParseDouble("foo\\#@bar", "foo#@bar");
        checkParseDouble("foo#\\{bar}", "foo#{bar}");
        checkParseDouble("foo\\#{bar}", "foo#{bar}");

        // Simple escapes
        checkParseDouble("\\a\\\\a", "\7\\a");
        checkParseDouble("\\b\\\\b", "\10\\b");
        checkParseDouble("\\t\\\\t", "\11\\t");
        checkParseDouble("\\n\\\\n", "\12\\n");
        checkParseDouble("\\v\\\\v", "\13\\v");
        checkParseDouble("\\f\\\\f", "\14\\f");
        checkParseDouble("\\r\\\\r", "\15\\r");
        checkParseDouble("\\e\\\\e", "\33\\e");
        checkParseDouble("\\s\\\\s", "\40\\s");

        // Octal escapes
        checkParseDouble("\\0", "\0");
        checkParseDouble("\\000", "\0");
        checkParseDouble("\\0000", "\0" + "0");
        checkParseDouble("\\377", "\377");
        checkParseDouble("\\378", "\37" + "8");
        checkParseDouble("\\387", "\3" + "87");
        checkParseDouble("\\777", "\u01ff");

        // Hexadecimal escapes
        checkParseDouble("\\x0", "\0");
        checkParseDouble("\\x00", "\0");
        checkParseDouble("\\x000", "\0" + "0");
        checkParseDouble("\\xff", "\377");
        checkParseDouble("\\xfg", "\17g");

        // Unicode escapes
        checkParseDouble("\\u0000", "\0");
        checkParseDouble("\\u00000", "\0" + "0");
        checkParseDouble("\\u{0}", "\0");
        checkParseDouble("\\u{000}0", "\0" + "0");
        checkParseDouble("\\u{0000}", "\0");
        checkParseDouble("\\u{000000}", "\0");
        checkParseDouble("\\u28cd2", "\u28cd" + "2");
        checkParseDouble("\\u{28cd2}", String.format("%c", 0x28cd2));
        checkParseDouble("\\u10ffff", "\u10ff" + "ff");
        checkParseDouble("\\u{10ff}ff", "\u10ff" + "ff");
        checkParseDouble("\\u{10fff}f", String.format("%c%c", 0x10fff, 'f'));
        checkParseDouble("\\u{10ffff}", String.format("%c", 0x10ffff));

        // Newline escapes
        checkParseDouble("\\\n", "");
        checkParseDouble("\\\r\n", "");
        checkParseDouble("\\\r", "\r");

        // Control escapes (straightforward cases)
        checkParseDouble("\\ca", "\1");
        checkParseDouble("\\cA", "\1");
        checkParseDouble("\\C-a", "\1");
        checkParseDouble("\\C-A", "\1");
        checkParseDouble("\\c?", "\177");
        checkParseDouble("\\C-?", "\177");

        // Control escapes (with further escapes)
        checkParseDouble("\\c\\0", "\0");
        checkParseDouble("\\c\\n", "\n");
        checkParseDouble("\\c\\s", "\0");
        checkParseDouble("\\c\\x3f", "\37");    // not \177
        checkParseDouble("\\c\\77", "\37");     // not \177
        checkParseDouble("\\c\\xa0", "\200");

        // Control escapes (oddball cases)
        checkParseDouble("\\c-a", "\15a");
        checkParseDouble("\\c\"", "\2");
        checkParseDouble("\\c\\\\", "\34");
        checkParseDouble("\\c#$foo", "\3$foo");
        checkParseDouble("\\c#@foo", "\3@foo");
        checkParseDouble("\\c#{foo}", "\3{foo}");
    }

    @Test(expectedExceptions = IllegalArgumentException.class)
    public static void testParseDoubleWithoutLeadingQuote() {
        GSString.parseQuoted("foo bar\"");
    }

    @Test(expectedExceptions = IllegalArgumentException.class)
    public static void testParseDoubleWithoutTrailingQuote() {
        GSString.parseQuoted("\"foo bar");
    }

    @Test(expectedExceptions = IllegalArgumentException.class)
    public static void testParseDoubleWithRunawayEscape() {
        GSString.parseQuoted("\"foo bar\\");
    }

    @Test(expectedExceptions = IllegalArgumentException.class)
    public static void testParseDoubleWithRunawayControl() {
        GSString.parseQuoted("\"foo bar\\c");
    }

    @Test
    public static void testParseDoubleWithStrayQuote() {
        checkParseDoubleForException("foo\"bar");
    }

    @Test
    public static void testParseDoubleInvalidHex() {
        checkParseDoubleForException("\\x");
        checkParseDoubleForException("\\xg");
    }

    @Test
    public static void testParseDoubleInvalidUnicode() {
        checkParseDoubleForException("\\u");
        checkParseDoubleForException("\\u123");
        checkParseDoubleForException("\\u123g");
        checkParseDoubleForException("\\u{");
        checkParseDoubleForException("\\u{}");
        checkParseDoubleForException("\\u{g}");
        checkParseDoubleForException("\\u{abcdg}");
        checkParseDoubleForException("\\u{abcdef}");
        checkParseDoubleForException("\\u{110000}");
        checkParseDoubleForException("\\u{0000000}");
    }

    @Test
    public static void testParseDoubleInvalidControl() {
        checkParseDoubleForException("\\c");
        checkParseDoubleForException("\\C");
        checkParseDoubleForException("\\C?");
        checkParseDoubleForException("\\C-");
        checkParseDoubleForException("\\c\\ca");
        checkParseDoubleForException("\\C-\\C-a");
    }

    @Test
    public static void testParseDoubleInterpolation() {
        checkParseDoubleForException("#$foo");
        checkParseDoubleForException("#@foo");
        checkParseDoubleForException("#{foo}");
    }
}
	package nz.kiwi.chris.j7gs.types;

	import com.google.common.base.Preconditions;

	public class GSString implements Comparable<GSString> {
	private final String value;

	public GSString(String value) {
	this.value = value;
	}

	@Override
	public int hashCode() {
	return value.hashCode();
	}

	@Override
	public boolean equals(Object obj) {
	return obj instanceof GSString && value.equals(((GSString) obj).value);
	}

	@Override
	public int compareTo(GSString rhs) {
	return value.compareTo(rhs.value);
	}

	@Override
	public String toString() {
	return value;
	}

	/**
	* Parses a single- or double-quoted string according to Ruby rules,
	* except for interpolation, which is not implemented.
	*
	* @param str the string to parse
	* @return the parsed string
	* @throws IllegalArgumentException if the string is not a valid
	* single- or double-quoted string
	*/
	public static GSString parseQuoted(String str) {
	ParserData data = new ParserData();
	ParserState state = ParserState.START;
	for (int i = 0; i < str.length(); ++i) {
	state = state.handle(data, str.charAt(i));
	if (data.pushback) {
	--i;
	data.pushback = false;
	}
	}
	Preconditions.checkArgument(state == ParserState.END,
	"String ran out inside escape");
	return new GSString(data.toString());
	}

	private static class ParserData {
	private final StringBuilder sb = new StringBuilder();
	private int scratch;
	private int count;
	private boolean ctrl;
	private boolean pushback;

	public ParserData append(char c) {
	sb.append(ctrl ? (char) (c & 0x9f) : c);
	ctrl = false;
	return this;
	}

	public ParserData appendCodePoint(int codePoint) {
	sb.appendCodePoint(ctrl ? codePoint & 0x9f : codePoint);
	ctrl = false;
	return this;
	}

	@Override
	public String toString() {
	return sb.toString();
	}
	}

	private enum ParserState {
	START {
	@Override
	ParserState handle(ParserData data, char c) {
	switch (c) {
	case '\'':
	return SINGLE;
	case '"':
	return DOUBLE;
	default:
	throw new IllegalArgumentException("String did not start with quote");
	}
	}
	},

	END {
	@Override
	ParserState handle(ParserData data, char c) {
	throw new IllegalArgumentException("Unescaped quote character");
	}
	},

	/*
	* Single-quoted string states.
	*/

	SINGLE {
	@Override
	ParserState handle(ParserData data, char c) {
	switch (c) {
	case '\'':
	return END;
	case '\\':
	return SINGLE_ESC;
	default:
	data.append(c);
	return this;
	}
	}
	},

	SINGLE_ESC {
	@Override
	ParserState handle(ParserData data, char c) {
	switch (c) {
	default:
	data.append('\\');
	// $FALL-THROUGH$
	case '\'':
	case '\\':
	data.append(c);
	return SINGLE;
	}
	}
	},

	/*
	* Double-quoted string states.
	*/

	DOUBLE {
	@Override
	ParserState handle(ParserData data, char c) {
	switch (c) {
	case '"':
	return END;
	case '\\':
	return DOUBLE_ESC;
	case '#':
	return HASH;
	default:
	data.append(c);
	return this;
	}
	}
	},

	DOUBLE_ESC {
	@Override
	ParserState handle(ParserData data, char c) {
	if (simpleEscape(data, c))
	return DOUBLE;
	switch (c) {
	case '0': case '1': case '2': case '3':
	case '4': case '5': case '6': case '7':
	data.pushback = true;
	data.scratch = 0;
	data.count = 0;
	return OCTAL;
	case 'x':
	data.scratch = 0;
	data.count = 0;
	return HEX;
	case 'u':
	data.scratch = 0;
	data.count = 0;
	return UNICODE_INIT;
	case '\r':
	return CR;
	case '\n':
	return DOUBLE;
	case 'C':
	return BIG_C;
	case 'c':
	return CONTROL;
	default:
	data.append(c);
	return DOUBLE;
	}
	}
	},

	OCTAL {
	@Override
	ParserState handle(ParserData data, char c) {
	return parseNumber(data, c, 3, 1, 3, DOUBLE);
	}
	},

	HEX {
	@Override
	ParserState handle(ParserData data, char c) {
	return parseNumber(data, c, 4, 1, 2, DOUBLE);
	}
	},

	UNICODE_INIT {
	@Override
	ParserState handle(ParserData data, char c) {
	if (c == '{')
	return UNICODE_LCURLY;
	data.pushback = true;
	return UNICODE4;
	}
	},

	UNICODE4 {
	@Override
	ParserState handle(ParserData data, char c) {
	return parseNumber(data, c, 4, 4, 4, DOUBLE);
	}
	},

	UNICODE_LCURLY {
	@Override
	ParserState handle(ParserData data, char c) {
	return parseNumber(data, c, 4, 1, 6, UNICODE_RCURLY);
	}
	},

	UNICODE_RCURLY {
	@Override
	ParserState handle(ParserData data, char c) {
	Preconditions.checkArgument(c == '}', "Invalid Unicode escape");
	return DOUBLE;
	}
	},

	CR {
	@Override
	ParserState handle(ParserData data, char c) {
	if (c != '\n') {
	data.pushback = true;
	data.append('\r');
	}
	return DOUBLE;
	}
	},

	BIG_C {
	@Override
	ParserState handle(ParserData data, char c) {
	Preconditions.checkArgument(c == '-', "Invalid control escape");
	return CONTROL;
	}
	},

	CONTROL {
	@Override
	ParserState handle(ParserData data, char c) {
	Preconditions.checkArgument(!data.ctrl, "Invalid control escape");
	switch (c) {
	case '\\':
	data.ctrl = true;
	return DOUBLE_ESC;
	case '?':
	data.append('\177');
	return DOUBLE;
	default:
	data.ctrl = true;
	data.append(c);
	return DOUBLE;
	}
	}
	},

	HASH {
	@Override
	ParserState handle(ParserData data, char c) {
	switch (c) {
	case '$': case '@': case '{':
	throw new IllegalArgumentException("String interpolation is not implemented");
	default:
	data.append('#');
	data.pushback = true;
	return DOUBLE;
	}
	}
	};

	abstract ParserState handle(ParserData data, char c);

	static boolean simpleEscape(ParserData data, char c) {
	switch (c) {
	case '\\': break;
	case 'n': c = '\n'; break;
	case 't': c = '\t'; break;
	case 'r': c = '\r'; break;
	case 'f': c = '\f'; break;
	case 'v': c = '\13'; break;
	case 'a': c = '\7'; break;
	case 'e': c = '\33'; break;
	case 'b': c = '\b'; break;
	case 's': c = '\40'; break;
	default: return false;
	}
	data.append(c);
	return true;
	}

	private static int hexValue(char c) {
	switch (c) {
	case '0': case '1': case '2': case '3': case '4':
	case '5': case '6': case '7': case '8': case '9':
	return c - '0';
	case 'A': case 'B': case 'C': case 'D': case 'E': case 'F':
	return c - ('A' - 10);
	case 'a': case 'b': case 'c': case 'd': case 'e': case 'f':
	return c - ('a' - 10);
	default:
	return -1;
	}
	}

	ParserState parseNumber(ParserData data, char c, int shift, int minCount,
	int maxCount, ParserState nextState) {
	int value = hexValue(c);
	if (value >= 0 && value < (1 << shift)) {
	data.scratch = (data.scratch << shift) + value;
	if (++data.count < maxCount)
	return this;
	} else {
	Preconditions.checkArgument(data.count >= minCount,
	"Invalid hex/Unicode escape");
	data.pushback = true;
	}
	data.appendCodePoint(data.scratch);
	return nextState;
	}
	}
	}
	package nz.kiwi.chris.j7gs.types;

	import org.testng.annotations.Test;

	import static org.testng.Assert.assertEquals;
	import static org.testng.Assert.fail;

	public class GSStringTest {
	private static void checkParseSingle(String expr, String expected) {
	assertEquals(GSString.parseQuoted('\'' + expr + '\''), new GSString(expected));
	}

	private static void checkParseDouble(String expr, String expected) {
	assertEquals(GSString.parseQuoted('"' + expr + '"'), new GSString(expected));
	}

	private static void checkParseDoubleForException(String expr) {
	try {
	GSString.parseQuoted('"' + expr + '"');
	fail();
	} catch (IllegalArgumentException expected) {}
	}

	@Test
	public static void testParseSingle() {
	checkParseSingle("foo bar", "foo bar");
	checkParseSingle("foo\\bar", "foo\\bar");
	checkParseSingle("foo\\\\bar", "foo\\bar");
	checkParseSingle("foo\\'bar", "foo'bar");
	checkParseSingle("foo\\\"bar", "foo\\\"bar");
	checkParseSingle("foo\"bar", "foo\"bar");
	}

	@Test(expectedExceptions = IllegalArgumentException.class)
	public static void testParseSingleWithoutLeadingQuote() {
	GSString.parseQuoted("foo bar'");
	}

	@Test(expectedExceptions = IllegalArgumentException.class)
	public static void testParseSingleWithoutTrailingQuote() {
	GSString.parseQuoted("'foo bar");
	}

	@Test(expectedExceptions = IllegalArgumentException.class)
	public static void testParseSingleWithRunawayEscape() {
	GSString.parseQuoted("'foo bar\\");
	}

	@Test(expectedExceptions = IllegalArgumentException.class)
	public static void testParseSingleWithStrayQuote() {
	GSString.parseQuoted("'foo'bar'");
	}

	@Test
	public static void testParseDouble() {
	// Basic stuff
	checkParseDouble("foo bar", "foo bar");
	checkParseDouble("foo\\bar", "foo\bar");
	checkParseDouble("foo\\\\bar", "foo\\bar");
	checkParseDouble("foo\\\"bar", "foo\"bar");
	checkParseDouble("foo\\'bar", "foo'bar");
	checkParseDouble("foo'bar", "foo'bar");

	// Escaped interpolation sequences
	checkParseDouble("foo#bar", "foo#bar");
	checkParseDouble("foo#\\$bar", "foo#$bar");
	checkParseDouble("foo\\#$bar", "foo#$bar");
	checkParseDouble("foo#\\@bar", "foo#@bar");
	checkParseDouble("foo\\#@bar", "foo#@bar");
	checkParseDouble("foo#\\{bar}", "foo#{bar}");
	checkParseDouble("foo\\#{bar}", "foo#{bar}");

	// Simple escapes
	checkParseDouble("\\a\\\\a", "\7\\a");
	checkParseDouble("\\b\\\\b", "\10\\b");
	checkParseDouble("\\t\\\\t", "\11\\t");
	checkParseDouble("\\n\\\\n", "\12\\n");
	checkParseDouble("\\v\\\\v", "\13\\v");
	checkParseDouble("\\f\\\\f", "\14\\f");
	checkParseDouble("\\r\\\\r", "\15\\r");
	checkParseDouble("\\e\\\\e", "\33\\e");
	checkParseDouble("\\s\\\\s", "\40\\s");

	// Octal escapes
	checkParseDouble("\\0", "\0");
	checkParseDouble("\\000", "\0");
	checkParseDouble("\\0000", "\0" + "0");
	checkParseDouble("\\377", "\377");
	checkParseDouble("\\378", "\37" + "8");
	checkParseDouble("\\387", "\3" + "87");
	checkParseDouble("\\777", "\u01ff");

	// Hexadecimal escapes
	checkParseDouble("\\x0", "\0");
	checkParseDouble("\\x00", "\0");
	checkParseDouble("\\x000", "\0" + "0");
	checkParseDouble("\\xff", "\377");
	checkParseDouble("\\xfg", "\17g");

	// Unicode escapes
	checkParseDouble("\\u0000", "\0");
	checkParseDouble("\\u00000", "\0" + "0");
	checkParseDouble("\\u{0}", "\0");
	checkParseDouble("\\u{000}0", "\0" + "0");
	checkParseDouble("\\u{0000}", "\0");
	checkParseDouble("\\u{000000}", "\0");
	checkParseDouble("\\u28cd2", "\u28cd" + "2");
	checkParseDouble("\\u{28cd2}", String.format("%c", 0x28cd2));
	checkParseDouble("\\u10ffff", "\u10ff" + "ff");
	checkParseDouble("\\u{10ff}ff", "\u10ff" + "ff");
	checkParseDouble("\\u{10fff}f", String.format("%c%c", 0x10fff, 'f'));
	checkParseDouble("\\u{10ffff}", String.format("%c", 0x10ffff));

	// Newline escapes
	checkParseDouble("\\\n", "");
	checkParseDouble("\\\r\n", "");
	checkParseDouble("\\\r", "\r");

	// Control escapes (straightforward cases)
	checkParseDouble("\\ca", "\1");
	checkParseDouble("\\cA", "\1");
	checkParseDouble("\\C-a", "\1");
	checkParseDouble("\\C-A", "\1");
	checkParseDouble("\\c?", "\177");
	checkParseDouble("\\C-?", "\177");

	// Control escapes (with further escapes)
	checkParseDouble("\\c\\0", "\0");
	checkParseDouble("\\c\\n", "\n");
	checkParseDouble("\\c\\s", "\0");
	checkParseDouble("\\c\\x3f", "\37"); // not \177
	checkParseDouble("\\c\\77", "\37"); // not \177
	checkParseDouble("\\c\\xa0", "\200");

	// Control escapes (oddball cases)
	checkParseDouble("\\c-a", "\15a");
	checkParseDouble("\\c\"", "\2");
	checkParseDouble("\\c\\\\", "\34");
	checkParseDouble("\\c#$foo", "\3$foo");
	checkParseDouble("\\c#@foo", "\3@foo");
	checkParseDouble("\\c#{foo}", "\3{foo}");
	}

	@Test(expectedExceptions = IllegalArgumentException.class)
	public static void testParseDoubleWithoutLeadingQuote() {
	GSString.parseQuoted("foo bar\"");
	}

	@Test(expectedExceptions = IllegalArgumentException.class)
	public static void testParseDoubleWithoutTrailingQuote() {
	GSString.parseQuoted("\"foo bar");
	}

	@Test(expectedExceptions = IllegalArgumentException.class)
	public static void testParseDoubleWithRunawayEscape() {
	GSString.parseQuoted("\"foo bar\\");
	}

	@Test(expectedExceptions = IllegalArgumentException.class)
	public static void testParseDoubleWithRunawayControl() {
	GSString.parseQuoted("\"foo bar\\c");
	}

	@Test
	public static void testParseDoubleWithStrayQuote() {
	checkParseDoubleForException("foo\"bar");
	}

	@Test
	public static void testParseDoubleInvalidHex() {
	checkParseDoubleForException("\\x");
	checkParseDoubleForException("\\xg");
	}

	@Test
	public static void testParseDoubleInvalidUnicode() {
	checkParseDoubleForException("\\u");
	checkParseDoubleForException("\\u123");
	checkParseDoubleForException("\\u123g");
	checkParseDoubleForException("\\u{");
	checkParseDoubleForException("\\u{}");
	checkParseDoubleForException("\\u{g}");
	checkParseDoubleForException("\\u{abcdg}");
	checkParseDoubleForException("\\u{abcdef}");
	checkParseDoubleForException("\\u{110000}");
	checkParseDoubleForException("\\u{0000000}");
	}

	@Test
	public static void testParseDoubleInvalidControl() {
	checkParseDoubleForException("\\c");
	checkParseDoubleForException("\\C");
	checkParseDoubleForException("\\C?");
	checkParseDoubleForException("\\C-");
	checkParseDoubleForException("\\c\\ca");
	checkParseDoubleForException("\\C-\\C-a");
	}

	@Test
	public static void testParseDoubleInterpolation() {
	checkParseDoubleForException("#$foo");
	checkParseDoubleForException("#@foo");
	checkParseDoubleForException("#{foo}");
	}
	}