コード例 #1
0
ファイル: MathParser.java プロジェクト: krzyswit2/JSC
  public ExpressionPart parseTokens(Vector<Token> input) throws Exception { // TODO INNY PARSER
    System.out.println("parsing tokens");

    if (input.size() == 0) {
      System.out.println("no tokens to parse!");
      return null;
    }

    for (int k = 0; k < input.size(); k++) {
      System.out.println(
          "next token: " + input.get(k).getToken() + " type: " + input.get(k).getType());
    }

    if (input.size() == 1 && input.get(0).getType() == 0) {
      System.out.println("only one number to parse");
      return new Number(Double.parseDouble(input.get(0).getToken()));
    }
    if (input.size() == 1 && input.get(0).getType() == 3) {
      System.out.println("only one variable to parse");
      return new Variable(input.get(0).getToken());
    }

    ExpressionPart returnVal = null;
    System.out.println(
        "amount of tokens: "
            + input.size()); // I'm working on new parser, i don't like the way current one is
    // functioning

    /*
    //int bracketLevel = 0;
    int tmpBracketLevel = 0;
    int i = input.size() - 1;
    boolean bracketFlag = false;
    if(input.get(0).getToken().equals("(") && input.get(i).getToken().equals(")")){
    	bracketFlag = true;
    	for(int j = 0; j < i; j++){
    		Token currToken = input.get(j);
    		if(currToken.getToken().equals("(")){
    			tmpBracketLevel ++;
    		}
    		if(currToken.getToken().equals(")")){
    			tmpBracketLevel --;
    			if(tmpBracketLevel == 0 && j < i-1){
    				bracketFlag = false;
    				break;
    			}
    		}
    	}
    }
    if(bracketFlag){
    	i = input.size() - 2;
    }
    String currentOp = input.get(0).getToken();

    int k;
    if(bracketFlag){
    	k = 2;
    }else{
    	k = 1;
    }
    Vector<Token> rightSideOfLast = new Vector<Token>();
    for(; k < i; k++){
    	Token currToken = input.get(k);
    	if(getPriority(currentOp) >= getPriority(currToken.getToken())){
    		System.out.println("token with higer priority!");
    		if(returnVal instanceof Addition){
    			Addition tmp = (Addition)returnVal;
    			tmp.addAddend(parseTokens(rightSideOfLast));
    			returnVal = tmp;
    		}else if(returnVal instanceof Substraction){
    			Substraction tmp = (Substraction)returnVal;
    			tmp.setSubtrahend(parseTokens(rightSideOfLast));
    			returnVal = tmp;
    		}else{
    			returnVal = parseTokens(rightSideOfLast);
    		}

    		currentOp = currToken.getToken();

    		if(currentOp.equals("+")){
    			System.out.println("addition");
    			if(returnVal == null){
    				Addition tmp = new Addition();
    				tmp.addAddend(returnVal);
    				returnVal = tmp;
    				System.out.println("returnVal == null");
    				System.out.println(returnVal);
    			}else if(returnVal instanceof Addition){
    				Addition tmp = (Addition)returnVal;
    				tmp.addAddend(returnVal);
    				returnVal = tmp;
    			}
    		}
    		if(currentOp.equals("-")){
    			Substraction tmp = new Substraction();
    			tmp.setMinuend(returnVal);
    			returnVal = tmp;
    		}
    		if(currentOp.equals("*")){

    		}
    		if(currentOp.equals("/")){

    		}
    		if(currentOp.equals("=")){

    		}

    		rightSideOfLast.clear();
    	}else{
    		rightSideOfLast.add(currToken);
    	}
    }
    System.out.println("end of parsing!");
    return returnVal;*/

    String currentOp = "";
    int lastOperatorPos = 0;
    for (int k = 0;
        k <= 5;
        k++) { // look only at operators at lowest priority, then ones higher priority
      Vector<Token> tokensToAdd = new Vector<Token>();
      System.out.println("searching for operators with priority: " + k);
      if (!currentOp.equals("")) {
        break;
      }
      int bracketLevel = 0;
      int tmpBracketLevel = 0;
      int i = input.size() - 1;
      boolean bracketFlag = false; // TODO system struktur, ewentualnie bez tokenow
      if (input.get(0).getToken().equals("(") && input.get(i).getToken().equals(")")) {
        bracketFlag = true;
        for (int j = 0; j < i; j++) {
          Token currToken = input.get(j);
          if (currToken
              .getToken()
              .equals("(")) { // if thera are brackets surronding expression, ignore them
            tmpBracketLevel++;
          }
          if (currToken.getToken().equals(")")) {
            tmpBracketLevel--;
            if (tmpBracketLevel == 0 && j < i - 1) {
              bracketFlag = false;
              break;
            }
          }
        }
      }
      if (bracketFlag) {
        i = input.size() - 2;
      }

      for (; i >= 0; i--) { // TODO daje odwrotna kolejnosc niz wpisane(nie mozna )
        Token currToken = input.get(i);
        tokensToAdd.add(currToken); // tokens that are between last operator and next one(useful in
        // addition/multiplications)
        if (currToken.getToken().equals(")")) {
          bracketLevel++;
        }
        if (currToken.getToken().equals("(")) {
          bracketLevel--;
        }
        if (bracketLevel > 0) {
          System.out.println("skipping token, searching for end of bracket");
          continue;
        }
        System.out.println("next token: " + currToken.getToken() + " type: " + currToken.getType());
        if (currToken.getType() == 1) {
          if (getPriority(currToken.getToken()) == k) {
            lastOperatorPos = i;
            if (currentOp.equals("")) { // to jest, zeby nie ustawial nowego operatora
              currentOp =
                  currToken
                      .getToken(); // TODO obsluga pierwiastkowania(a tym samym operacje z innym
              // zapisem niz arg op arg)
            }

            if (currentOp.equals(currToken.getToken())) {
              Vector<Token> firstPart = new Vector<Token>();
              Vector<Token> secondPart = new Vector<Token>();

              if (!bracketFlag) {
                firstPart.addAll(input.subList(0, i));
                secondPart.addAll(input.subList(i + 1, input.size()));
              } else {
                firstPart.addAll(input.subList(1, i));
                secondPart.addAll(input.subList(i + 1, input.size() - 1));
              }
              if (returnVal == null) { // parse diffrent operators
                System.out.println("first operator");
                if (currentOp.equals("\\")) {
                  Fraction returnValTmp = new Fraction();

                  System.out.println("[\\]part 1");
                  returnValTmp.setNumerator(parseTokens(firstPart));
                  System.out.println("[\\]part 2");
                  returnValTmp.setDenominator(parseTokens(secondPart));
                  returnVal = returnValTmp;
                }
                if (currentOp.equals("+")) {
                  Addition returnValTmp = new Addition();

                  System.out.println("[+]part 1");
                  returnValTmp.addAddend(parseTokens(secondPart));
                  // System.out.println("[+]part 2");
                  // returnValTmp.addAddend(parseTokens(secondPart));
                  returnVal = returnValTmp;
                  System.out.println("end of part 2");
                  tokensToAdd.clear();
                }
                if (currentOp.equals("-")) {
                  Substraction returnValTmp = new Substraction();

                  System.out.println("[-]part 1");
                  returnValTmp.setMinuend(parseTokens(firstPart));
                  System.out.println("[-]part 2");
                  returnValTmp.setSubtrahend(parseTokens(secondPart));
                  returnVal = returnValTmp;
                }
                if (currentOp.equals("*")) {
                  Multiplication returnValTmp = new Multiplication();

                  System.out.println("[*]part 1");
                  returnValTmp.addFactor(parseTokens(secondPart));
                  // System.out.println("[+]part 2");
                  // returnValTmp.addAddend(parseTokens(secondPart));
                  returnVal = returnValTmp;
                  System.out.println("end of part 2");
                  tokensToAdd.clear();
                }
                if (currentOp.equals("/")) {
                  Division returnValTmp = new Division();

                  System.out.println("[/]part 1");
                  returnValTmp.setDividend(parseTokens(firstPart));
                  System.out.println("[/]part 2");
                  returnValTmp.setDivisor(parseTokens(secondPart));
                  returnVal = returnValTmp;
                }
                if (currentOp.equals("^")) {
                  Exponentiation returnValTmp = new Exponentiation();

                  System.out.println("[^]part 1");
                  returnValTmp.setBase(parseTokens(firstPart));
                  System.out.println("[^]part 2");
                  returnValTmp.setExponent(parseTokens(secondPart));
                  returnVal = returnValTmp;
                }
                if (currentOp.equals("=")) {
                  Equation returnValTmp = new Equation();

                  System.out.println("[=]part 1");
                  returnValTmp.setSide1(parseTokens(firstPart));
                  System.out.println("[=]part 2");
                  returnValTmp.setSide2(parseTokens(secondPart));
                  returnVal = returnValTmp;
                }
              } else {
                System.out.println("next operator");

                if (currentOp.equals("+") && returnVal instanceof Addition) {
                  Addition returnValConverted = (Addition) returnVal;

                  // System.out.println("[+]part 1");
                  // returnValConverted.addAddend(parseTokens(firstPart));
                  Vector<Token> tokensInArg = new Vector<Token>();
                  tokensInArg.addAll(tokensToAdd.subList(0, tokensToAdd.size() - 1));

                  System.out.println("[+]part 2(adding only second part)");
                  returnValConverted.addAddend(parseTokens(tokensInArg));
                  tokensToAdd.clear();
                }
                if (currentOp.equals("*") && returnVal instanceof Multiplication) {
                  Multiplication returnValConverted = (Multiplication) returnVal;

                  // System.out.println("[+]part 1");
                  // returnValConverted.addAddend(parseTokens(firstPart));
                  Vector<Token> tokensInArg = new Vector<Token>();
                  tokensInArg.addAll(tokensToAdd.subList(0, tokensToAdd.size() - 1));

                  System.out.println("[+]part 2(adding only second part)");
                  returnValConverted.addFactor(parseTokens(tokensInArg));
                  tokensToAdd.clear();
                }
              }
            }
          }
        }
        if (bracketFlag && i <= 1) {
          break;
        }
      }

      Vector<Token> firstPart = new Vector<Token>();
      Vector<Token> secondPart = new Vector<Token>();

      if (!bracketFlag) {
        firstPart.addAll(input.subList(0, lastOperatorPos));
        secondPart.addAll(input.subList(lastOperatorPos + 1, input.size()));
      } else if (lastOperatorPos >= 1) {
        firstPart.addAll(input.subList(1, lastOperatorPos));
        secondPart.addAll(input.subList(lastOperatorPos + 1, input.size() - 1));
      }

      System.out.println("Adding last part");
      if (currentOp.equals("+") && returnVal instanceof Addition) {
        Addition returnValConverted = (Addition) returnVal;

        System.out.println("[+]part 1(adding only first part)");
        returnValConverted.addAddend(parseTokens(firstPart));
        tokensToAdd.clear();
      }
      if (currentOp.equals("*") && returnVal instanceof Multiplication) {
        Multiplication returnValConverted = (Multiplication) returnVal;

        System.out.println("[*]part 1(adding only first part)");
        returnValConverted.addFactor(parseTokens(firstPart));
        tokensToAdd.clear();
      }
      if (returnVal != null) {
        break;
      }
    }
    return returnVal;
  }
コード例 #2
0
ファイル: Fraction.java プロジェクト: krzyswit2/JSC
  @Override
  public ExpressionPart nextStepToSimplyfy() {
    ExpressionPart tmpNumerator = numerator;
    ExpressionPart tmpDenominator = denominator;

    if (tmpDenominator instanceof Number) {
      if (((Number) tmpDenominator).getValue() == 1) {
        return tmpNumerator;
      }
    }

    boolean end = false;
    if (tmpNumerator.canBeSimplified()) {
      tmpNumerator = tmpNumerator.nextStepToSimplyfy();
      end = true;
    }
    if (tmpDenominator.canBeSimplified()) {
      tmpDenominator = tmpDenominator.nextStepToSimplyfy();
      end = true;
    }

    if (end) {
      Fraction retValue = new Fraction();
      retValue.setNumerator(tmpNumerator);
      retValue.setDenominator(tmpDenominator);

      return retValue;
    }

    if (tmpNumerator instanceof Number && tmpDenominator instanceof Number) {
      Number numeratorConverted = (Number) tmpNumerator;
      Number denominatorConverted = (Number) tmpDenominator;

      if (Operation.isInteger(numeratorConverted.getValue())
          && Operation.isInteger(denominatorConverted.getValue())) {
        ExpressionPart gcd =
            new GreatestCommonDivisor(numeratorConverted, denominatorConverted).simplyfy();
        if (gcd instanceof Number && ((Number) gcd).getValue() > 1) {
          tmpNumerator = new Division(numeratorConverted, gcd);
          tmpDenominator = new Division(denominatorConverted, gcd);
        }
      } else {
        while (!(Operation.isInteger(numeratorConverted.getValue())
            && Operation.isInteger(denominatorConverted.getValue()))) {
          numeratorConverted = new Number(numeratorConverted.getValue() * 10);
          denominatorConverted = new Number(denominatorConverted.getValue() * 10);
        }
        return new Fraction(numeratorConverted, denominatorConverted);
      }
    }

    if (tmpNumerator instanceof Fraction && tmpDenominator instanceof Fraction) {
      Fraction tmpNumeratorConverted = (Fraction) tmpNumerator;
      Fraction tmpDenominatorConverted = (Fraction) tmpDenominator;
      return new Fraction(
          new Multiplication(tmpNumeratorConverted.numerator, tmpDenominatorConverted.denominator),
          new Multiplication(tmpNumeratorConverted.denominator, tmpDenominatorConverted.numerator));
    }

    if (tmpNumerator instanceof Fraction) {
      Fraction tmpNumeratorConverted = (Fraction) tmpNumerator;
      return new Fraction(
          tmpNumeratorConverted.numerator,
          new Multiplication(tmpNumeratorConverted.denominator, tmpDenominator));
    }

    if (tmpDenominator instanceof Fraction) {
      Fraction tmpDenominatorConverted = (Fraction) tmpDenominator;
      return new Fraction(
          new Multiplication(tmpDenominatorConverted.denominator, tmpNumerator),
          tmpDenominatorConverted.numerator);
    }

    Fraction retValue = new Fraction();
    retValue.setNumerator(tmpNumerator);
    retValue.setDenominator(tmpDenominator);
    retValue.setSign(this.isPositive);
    if (tmpNumerator instanceof Number) {
      if (((Number) tmpNumerator).getValue() < 0) {
        retValue.setSign(false);
        tmpNumerator = new Number(Math.abs(((Number) tmpNumerator).getValue()));
        retValue.setSignChecked(true);
      }
    }
    return retValue;
  }