새로 짠 유틸리티 Args
- Args 생성자에 (입력으로 들어온) 인수 문자열과 형식 문자열을 넘겨 Args 인스턴스를 생성한 후 Args 인스턴스에다 인수 값을 질의한다
public static void main(String[] args) {
try {
Args arg = new Args("l,p#,d*", args);
boolean logging = arg.getBoolean('l');
int port = arg.getInt('p');
String directory = arg.getString('d');
executeApplication(logging, port, directory);
} catch (ArgsException e) {
System.out.print("Argument error: %s\n", e.errorMessage());
}
}
Args 구현
package com.objectmentor.utilities.args;
import static com.objectmentor.utilities.args.ArgsException.ErrorCode.*;
import java.util.*;
public class Args {
private Map<Character, ArgumentMarshaler> marshalers;
private Set<Character> argsFound;
private ListIterator<String> currentArgument;
public Args(String schema, String[] args) throws ArgsException {
marshalers = new HashMap<Character, ArgumentMarshaler>();
argsFound = new HashSet<Character>();
parseSchema(schema);
parseArgumentStrings(Arrays.asList(args));
}
private void parseSchema(String schema) throws ArgsException {
for (String element : schema.split(","))
if (element.length() > 0)
parseSchemaElement(element.trim());
}
private void parseSchemaElement(String element) throws ArgsException {
char elementId = element.charAt(0);
String elementTail = element.substring(1); validateSchemaElementId(elementId);
if (elementTail.length() == 0)
marshalers.put(elementId, new BooleanArgumentMarshaler());
else if (elementTail.equals("*"))
marshalers.put(elementId, new StringArgumentMarshaler());
else if (elementTail.equals("#"))
marshalers.put(elementId, new IntegerArgumentMarshaler());
else if (elementTail.equals("##"))
marshalers.put(elementId, new DoubleArgumentMarshaler());
else if (elementTail.equals("[*]"))
marshalers.put(elementId, new StringArrayArgumentMarshaler());
else
throw new ArgsException(INVALID_ARGUMENT_FORMAT, elementId, elementTail);
}
private void validateSchemaElementId(char elementId) throws ArgsException {
if (!Character.isLetter(elementId))
throw new ArgsException(INVALID_ARGUMENT_NAME, elementId, null);
}
private void parseArgumentStrings(List<String> argsList) throws ArgsException {
for (currentArgument = argsList.listIterator(); currentArgument.hasNext();) {
String argString = currentArgument.next();
if (argString.startsWith("-")) {
parseArgumentCharacters(argString.substring(1));
} else {
currentArgument.previous();
break;
}
}
}
private void parseArgumentCharacters(String argChars) throws ArgsException {
for (int i = 0; i < argChars.length(); i++)
parseArgumentCharacter(argChars.charAt(i));
}
private void parseArgumentCharacter(char argChar) throws ArgsException {
ArgumentMarshaler m = marshalers.get(argChar);
if (m == null) {
throw new ArgsException(UNEXPECTED_ARGUMENT, argChar, null);
} else {
argsFound.add(argChar);
try {
m.set(currentArgument);
} catch (ArgsException e) {
e.setErrorArgumentId(argChar);
throw e;
}
}
}
public boolean has(char arg) {
return argsFound.contains(arg);
}
public int nextArgument() {
return currentArgument.nextIndex();
}
public boolean getBoolean(char arg) {
return BooleanArgumentMarshaler.getValue(marshalers.get(arg));
}
public String getString(char arg) {
return StringArgumentMarshaler.getValue(marshalers.get(arg));
}
public int getInt(char arg) {
return IntegerArgumentMarshaler.getValue(marshalers.get(arg));
}
public double getDouble(char arg) {
return DoubleArgumentMarshaler.getValue(marshalers.get(arg));
}
public String[] getStringArray(char arg) {
return StringArrayArgumentMarshaler.getValue(marshalers.get(arg));
}
}
public interface ArgumentMarshaler {
void set(Iterator<String> currentArgument) throws ArgsException;
}
public class BooleanArgumentMarshaler implements ArgumentMarshaler {
private boolean booleanValue = false;
public void set(Iterator<String> currentArgument) throws ArgsException {
booleanValue = true;
}
public static boolean getValue(ArgumentMarshaler am) {
if (am != null && am instanceof BooleanArgumentMarshaler)
return ((BooleanArgumentMarshaler) am).booleanValue;
else
return false;
}
}
import static com.objectmentor.utilities.args.ArgsException.ErrorCode.*;
public class StringArgumentMarshaler implements ArgumentMarshaler {
private String stringValue = "";
public void set(Iterator<String> currentArgument) throws ArgsException {
try {
stringValue = currentArgument.next();
} catch (NoSuchElementException e) {
throw new ArgsException(MISSING_STRING);
}
}
public static String getValue(ArgumentMarshaler am) {
if (am != null && am instanceof StringArgumentMarshaler)
return ((StringArgumentMarshaler) am).stringValue;
else
return "";
}
}
import static com.objectmentor.utilities.args.ArgsException.ErrorCode.*;
public class IntegerArgumentMarshaler implements ArgumentMarshaler {
private int intValue = 0;
public void set(Iterator<String> currentArgument) throws ArgsException {
String parameter = null;
try {
parameter = currentArgument.next();
intValue = Integer.parseInt(parameter);
} catch (NoSuchElementException e) {
throw new ArgsException(MISSING_INTEGER);
} catch (NumberFormatException e) {
throw new ArgsException(INVALID_INTEGER, parameter);
}
}
public static int getValue(ArgumentMarshaler am) {
if (am != null && am instanceof IntegerArgumentMarshaler)
return ((IntegerArgumentMarshaler) am).intValue;
else
return 0;
}
}
import static com.objectmentor.utilities.args.ArgsException.ErrorCode.*;
public class ArgsException extends Exception {
private char errorArgumentId = '\0';
private String errorParameter = null;
private ErrorCode errorCode = OK;
public ArgsException() {}
public ArgsException(String message) {super(message);}
public ArgsException(ErrorCode errorCode) {
this.errorCode = errorCode;
}
public ArgsException(ErrorCode errorCode, String errorParameter) {
this.errorCode = errorCode;
this.errorParameter = errorParameter;
}
public ArgsException(ErrorCode errorCode, char errorArgumentId, String errorParameter) {
this.errorCode = errorCode;
this.errorParameter = errorParameter;
this.errorArgumentId = errorArgumentId;
}
public char getErrorArgumentId() {
return errorArgumentId;
}
public void setErrorArgumentId(char errorArgumentId) {
this.errorArgumentId = errorArgumentId;
}
public String getErrorParameter() {
return errorParameter;
}
public void setErrorParameter(String errorParameter) {
this.errorParameter = errorParameter;
}
public ErrorCode getErrorCode() {
return errorCode;
}
public void setErrorCode(ErrorCode errorCode) {
this.errorCode = errorCode;
}
public String errorMessage() {
switch (errorCode) {
case OK:
return "TILT: Should not get here.";
case UNEXPECTED_ARGUMENT:
return String.format("Argument -%c unexpected.", errorArgumentId);
case MISSING_STRING:
return String.format("Could not find string parameter for -%c.", errorArgumentId);
case INVALID_INTEGER:
return String.format("Argument -%c expects an integer but was '%s'.", errorArgumentId, errorParameter);
case MISSING_INTEGER:
return String.format("Could not find integer parameter for -%c.", errorArgumentId);
case INVALID_DOUBLE:
return String.format("Argument -%c expects a double but was '%s'.", errorArgumentId, errorParameter);
case MISSING_DOUBLE:
return String.format("Could not find double parameter for -%c.", errorArgumentId);
case INVALID_ARGUMENT_NAME:
return String.format("'%c' is not a valid argument name.", errorArgumentId);
case INVALID_ARGUMENT_FORMAT:
return String.format("'%s' is not a valid argument format.", errorParameter);
}
return "";
}
public enum ErrorCode {
OK, INVALID_ARGUMENT_FORMAT, UNEXPECTED_ARGUMENT, INVALID_ARGUMENT_NAME,
MISSING_STRING, MISSING_INTEGER, INVALID_INTEGER, MISSING_DOUBLE, INVALID_DOUBLE
}
}
- 이렇게 길어진 이유는 자바는 정적 타입 언어라서 타입 시스템을 만족하려면 많은 단어가 필요하기 때문이다
Args: 1차 초안
import java.text.ParseException;
import java.util.*;
public class Args {
private String schema;
private String[] args;
private boolean valid = true;
private Set<Character> unexpectedArguments = new TreeSet<Character>();
private Map<Character, Boolean> booleanArgs = new HashMap<Character, Boolean>();
private Map<Character, String> stringArgs = new HashMap<Character, String>();
private Map<Character, Integer> intArgs = new HashMap<Character, Integer>();
private Set<Character> argsFound = new HashSet<Character>();
private int currentArgument;
private char errorArgumentId = '\0';
private String errorParameter = "TILT";
private ErrorCode errorCode = ErrorCode.OK;
private enum ErrorCode {
OK, MISSING_STRING, MISSING_INTEGER, INVALID_INTEGER, UNEXPECTED_ARGUMENT}
public Args(String schema, String[] args) throws ParseException {
this.schema = schema;
this.args = args;
valid = parse();
}
private boolean parse() throws ParseException {
if (schema.length() == 0 && args.length == 0)
return true;
parseSchema();
try {
parseArguments();
} catch (ArgsException e) {
}
return valid;
}
private boolean parseSchema() throws ParseException {
for (String element : schema.split(",")) {
if (element.length() > 0) {
String trimmedElement = element.trim();
parseSchemaElement(trimmedElement);
}
}
return true;
}
private void parseSchemaElement(String element) throws ParseException {
char elementId = element.charAt(0);
String elementTail = element.substring(1);
validateSchemaElementId(elementId);
if (isBooleanSchemaElement(elementTail))
parseBooleanSchemaElement(elementId);
else if (isStringSchemaElement(elementTail))
parseStringSchemaElement(elementId);
else if (isIntegerSchemaElement(elementTail))
parseIntegerSchemaElement(elementId);
else
throw new ParseException(String.format("Argument: %c has invalid format: %s.",
elementId, elementTail), 0);
}
}
private void validateSchemaElementId(char elementId) throws ParseException {
if (!Character.isLetter(elementId)) {
throw new ParseException("Bad character:" + elementId + "in Args format: " + schema, 0);
}
}
private void parseBooleanSchemaElement(char elementId) {
booleanArgs.put(elementId, false);
}
private void parseIntegerSchemaElement(char elementId) {
intArgs.put(elementId, 0);
}
private void parseStringSchemaElement(char elementId) {
stringArgs.put(elementId, "");
}
private boolean isStringSchemaElement(String elementTail) {
return elementTail.equals("*");
}
private boolean isBooleanSchemaElement(String elementTail) {
return elementTail.length() == 0;
}
private boolean isIntegerSchemaElement(String elementTail) {
return elementTail.equals("#");
}
private boolean parseArguments() throws ArgsException {
for (currentArgument = 0; currentArgument < args.length; currentArgument++) {
String arg = args[currentArgument];
parseArgument(arg);
}
return true;
}
private void parseArgument(String arg) throws ArgsException {
if (arg.startsWith("-"))
parseElements(arg);
}
private void parseElements(String arg) throws ArgsException {
for (int i = 1; i < arg.length(); i++)
parseElement(arg.charAt(i));
}
private void parseElement(char argChar) throws ArgsException {
if (setArgument(argChar))
argsFound.add(argChar);
else
unexpectedArguments.add(argChar);
errorCode = ErrorCode.UNEXPECTED_ARGUMENT;
valid = false;
}
private boolean setArgument(char argChar) throws ArgsException {
if (isBooleanArg(argChar))
setBooleanArg(argChar, true);
else if (isStringArg(argChar))
setStringArg(argChar);
else if (isIntArg(argChar))
setIntArg(argChar);
else
return false;
return true;
}
private boolean isIntArg(char argChar) {
return intArgs.containsKey(argChar);
}
private void setIntArg(char argChar) throws ArgsException {
currentArgument++;
String parameter = null;
try {
parameter = args[currentArgument];
intArgs.put(argChar, new Integer(parameter));
} catch (ArrayIndexOutOfBoundsException e) {
valid = false;
errorArgumentId = argChar;
errorCode = ErrorCode.MISSING_INTEGER;
throw new ArgsException();
} catch (NumberFormatException e) {
valid = false;
errorArgumentId = argChar;
errorParameter = parameter;
errorCode = ErrorCode.INVALID_INTEGER;
throw new ArgsException();
}
}
private void setStringArg(char argChar) throws ArgsException {
currentArgument++;
try {
stringArgs.put(argChar, args[currentArgument]);
} catch (ArrayIndexOutOfBoundsException e) {
valid = false;
errorArgumentId = argChar;
errorCode = ErrorCode.MISSING_STRING;
throw new ArgsException();
}
}
private boolean isStringArg(char argChar) {
return stringArgs.containsKey(argChar);
}
private void setBooleanArg(char argChar, boolean value) {
booleanArgs.put(argChar, value);
}
private boolean isBooleanArg(char argChar) {
return booleanArgs.containsKey(argChar);
}
public int cardinality() {
return argsFound.size();
}
public String usage() {
if (schema.length() > 0)
return "-[" + schema + "]";
else
return "";
}
public String errorMessage() throws Exception {
switch (errorCode) {
case OK:
throw new Exception("TILT: Should not get here.");
case UNEXPECTED_ARGUMENT:
return unexpectedArgumentMessage();
case MISSING_STRING:
return String.format("Could not find string parameter for -%c.", errorArgumentId);
case INVALID_INTEGER:
return String.format("Argument -%c expects an integer but was '%s'.", errorArgumentId, errorParameter);
case MISSING_INTEGER:
return String.format("Could not find integer parameter for -%c.", errorArgumentId);
}
return "";
}
private String unexpectedArgumentMessage() {
StringBuffer message = new StringBuffer("Argument(s) -");
for (char c : unexpectedArguments) {
message.append(c);
}
message.append(" unexpected.");
return message.toString();
}
private boolean falseIfNull(Boolean b) {
return b != null && b;
}
private int zeroIfNull(Integer i) {
return i == null ? 0 : i;
}
private String blankIfNull(String s) {
return s == null ? "" : s;
}
public String getString(char arg) {
return blankIfNull(stringArgs.get(arg));
}
public int getInt(char arg) {
return zeroIfNull(intArgs.get(arg));
}
public boolean getBoolean(char arg) {
return falseIfNull(booleanArgs.get(arg));
}
public boolean has(char arg) {
return argsFound.contains(arg);
}
public boolean isValid() {
return valid;
}
private class ArgsException extends Exception {
}
}
- 첫 버전이던 Boolean 인수만 지원하던 초기 버전에서 String과 Integer 인수 유형을 추가하면서부터 문제가 발생했다
- 인수 유형은 다양하지만 모두가 유사한 메서드를 제공하므로 클래스 하나가 적합하다 판단했기 때문에 ArgumentMarshaler라는 개념이 탄생했다
점진적으로 개선하다
- 프로그램을 망치는 가장 좋은 방법 중 하나는 개선이라는 이름 아래 구조를 크게 뒤집는 행위다
- 어떤 프로그램은 그저 그런 '개선'에서 결코 회복하지 못한다
- '개선' 전과 똑같이 프로그램을 돌리기가 아주 어렵기 때문이다
- 테스트 주도 개발(Test-Driven Development, TDD)라는 기법을 사용해서 점진적인 개선을 한다
- TDD는 언제 어느 때라도 시스템이 돌아가야 한다는 원칙을 따른다
- 즉 TDD는 시스템을 망가뜨리는 변경을 허용하지 않는다
- 변경을 가한 후에도 시스템이 변경 전과 똑같이 돌아가야 한다
private class ArgumentMarshaler {
private boolean booleanValue = false;
public void setBoolean(boolean value) {
booleanValue = value;
}
public boolean getBoolean() {return booleanValue;}
}
private class BooleanArgumentMarshaler extends ArgumentMarshaler { }
private class StringArgumentMarshaler extends ArgumentMarshaler { }
private class IntegerArgumentMarshaler extends ArgumentMarshaler { }
private Map<Character, ArgumentMarshaler> boolean Args = new HashMap<Character, ArgumentMarshaler>();
...
private void parseBooleanSchemaElement(char elementId) {
booleanArgs.put(elementId, new BooleanArgumentMarshaler());
}
...
private void setBooleanArg(char argChar, boolean value) {
booleanArgs.get(argChar).setBoolean(value);
}
...
public boolean getBoolean(char arg) {
Args.ArgumentMarshaler am = booleanArgs.get(arg);
return am != null && am.getBoolean();
}
예외처리
- 리팩토링 후 모든 예외를 하나로 모아 ArgsException 클래스를 만든 후 독자 모듈로 옮긴다
최종
public class ArgsException extends Exception {
private char errorArgumentId = '\0';
private String errorParameter = "TILT";
private ErrorCode errorCode = ErrorCode.OK;
public ArgsException() {}
public ArgsException(String message) {super(message);}
public ArgsException(ErrorCode errorCode) {
this.errorCode = errorCode;
}
public ArgsException(ErrorCode errorCode, String errorParameter) {
this.errorCode = errorCode;
this.errorParameter = errorParameter;
}
public ArgsException(ErrorCode errorCode, char errorArgumentId, String errorParameter) {
this.errorCode = errorCode;
this.errorParameter = errorParameter;
this.errorArgumentId = errorArgumentId;
}
public char getErrorArgumentId() {
return errorArgumentId;
}
public void setErrorArgumentId(char errorArgumentId) {
this.errorArgumentId = errorArgumentId;
}
public String getErrorParameter() {
return errorParameter;
}
public void setErrorParameter(String errorParameter) {
this.errorParameter = errorParameter;
}
public ErrorCode getErrorCode() {
return errorCode;
}
public void setErrorCode(ErrorCode errorCode) {
this.errorCode = errorCode;
}
public String errorMessage() throws Exception {
switch (errorCode) {
case OK:
throw new Exception("TILT: Should not get here.");
case UNEXPECTED_ARGUMENT:
return String.format("Argument -%c unexpected.", errorArgumentId);
case MISSING_STRING:
return String.format("Could not find string parameter for -%c.", errorArgumentId);
case INVALID_INTEGER:
return String.format("Argument -%c expects an integer but was '%s'.", errorArgumentId, errorParameter);
case MISSING_INTEGER:
return String.format("Could not find integer parameter for -%c.", errorArgumentId);
case INVALID_DOUBLE:
return String.format("Argument -%c expects a double but was '%s'.", errorArgumentId, errorParameter);
case MISSING_DOUBLE:
return String.format("Could not find double parameter for -%c.", errorArgumentId);
}
return "";
}
public enum ErrorCode {
OK, INVALID_FORMAT, UNEXPECTED_ARGUMENT, INVALID_ARGUMENT_NAME, MISSING_STRING,
MISSING_INTEGER, INVALID_INTEGER,
MISSING_DOUBLE, INVALID_DOUBLE
}
}
public class Args {
private String schema;
private Map<Character, ArgumentMarshaler> marshalers = new HashMap<Character, ArgumentMarshaler>();
private Set<Character> argsFound = new HashSet<Character>();
private Iterator<String> currentArgument;
private List<String> argsList;
public Args(String schema, String[] args) throws ArgsException {
this.schema = schema;
argsList = Arrays.asList(args);
parse();
}
private void parse() throws ArgsException {
parseSchema();
parseArguments();
}
private boolean parseSchema() throws ArgsException {
for (String element : schema.split(",")) {
if (element.length() > 0) {
parseSchemaElement(element.trim());
}
}
return true;
}
private void parseSchemaElement(String element) throws ArgsException {
char elementId = element.charAt(0);
String elementTail = element.substring(1);
validateSchemaElementId(elementId);
if (elementTail.length() == 0)
marshalers.put(elementId, new BooleanArgumentMarshaler());
else if (elementTail.equals("*"))
marshalers.put(elementId, new StringArgumentMarshaler());
else if (elementTail.equals("#"))
marshalers.put(elementId, new IntegerArgumentMarshaler());
else if (elementTail.equals("##"))
marshalers.put(elementId, new DoubleArgumentMarshaler());
else
throw new ArgsException(ArgsException.ErrorCode.INVALID_FORMAT, elementId, elementTail);
private void validateSchemaElementId(char elementId) throws ArgsException {
if (!Character.isLetter(elementId)) {
throw new ArgsException(ArgsException.ErrorCode.INVALID_ARGUMENT_NAME, elementId, null);
}
}
private void parseArguments() throws ArgsException {
for (currentArgument = argsList.iterator(); currentArgument.hasNext();) {
String arg = currentArgument.next();
parseArgument(arg);
}
}
private void parseArgument(String arg) throws ArgsException {
if (arg.startsWith("-"))
parseElements(arg);
}
private void parseElements(String arg) throws ArgsException {
for (int i = 1; i < arg.length(); i++)
parseElement(arg.charAt(i));
}
private void parseElement(char argChar) throws ArgsException {
if (setArgument(argChar))
argsFound.add(argChar);
else
throw new ArgsException(ArgsException.ErrorCode.UNEXPECTED_ARGUMENT, argChar, null);
}
private boolean setArgument(char argChar) throws ArgsException {
ArgumentMarshaler m = marshalers.get(argChar);
if (m == null)
return false;
try {
m.set(currentArgument);
return true;
} catch (ArgsException e) {
e.setErrorArgumentId(argChar);
throw e;
}
}
public int cardinality() {
return argsFound.size();
}
public String usage() {
if (schema.length() > 0)
return "-[" + schema + "]";
else
return "";
}
public boolean getBoolean(char arg) {
ArgumentMarshaler am = marshalers.get(arg);
boolean b = false;
try {
b = am != null && (Boolean) am.get();
} catch (ClassCastException e) {
b = false;
}
return b;
}
public String getString(char arg) {
ArgumentMarshaler am = marshalers.get(arg);
try {
return am == null ? "" : (String) am.get();
} catch (ClassCastException e) {
return "";
}
}
public int getInt(char arg) {
ArgumentMarshaler am = marshalers.get(arg);
try {
return am == null ? 0 : (Integer) am.get();
} catch (Exception e) {
return 0;
}
}
public double getDouble(char arg) {
ArgumentMarshaler am = marshalers.get(arg);
try {
return am == null ? 0 : (Double) am.get();
} catch (Exception e) {
return 0.0;
}
}
public boolean has(char arg) {
return argsFound.contains(arg);
}
}
- Args 클래스에서 코드 중복을 최소화하고 상당한 코드를 Args 클래스에서 ArgsException 클래스로 옮겼다
- ArgumentMarshaler 클래스를 통해 여러 인수에 대한 추후 확장성을 꾀했다
- 소프트웨어 설계는 분할만 잘해도 품질이 크게 높아진다
- 적절한 장소를 만들어 코드만 분리해도 설계가 좋아진다
- 관심사를 분리하면 코드를 이해하고 보수하기 훨씬 더 쉬워진다
결론
- 나쁜 코드도 깨끗한 코드로 개선할 수 있다. 하지만 비용이 엄청나게 많이 든다
- 반면에 처음부터 코드를 깨끗하게 유지하는 것은 상대적으로 쉽다. 그러니 코드는 언제나 최대한 깔끔하고 단순하게 정리하자
개인적인 감상
- 구체적인 예를 들어 점진적인 개선을 하는 방식을 알려줬기 때문에 상당히 흥미로웠다
- 개선 방안들을 체득하여 본인의 것으로 만드는 연습이 필요할 듯 하다
