Java Code Examples for org.apache.commons.math3.exception.util.LocalizedFormats#ZERO_DENOMINATOR_IN_FRACTION
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Example 1
Source File: Math_26_Fraction_t.java From coming with MIT License | 5 votes |
/** * Create a fraction given the numerator and denominator. The fraction is * reduced to lowest terms. * @param num the numerator. * @param den the denominator. * @throws MathArithmeticException if the denominator is {@code zero} */ public Fraction(int num, int den) { if (den == 0) { throw new MathArithmeticException(LocalizedFormats.ZERO_DENOMINATOR_IN_FRACTION, num, den); } if (den < 0) { if (num == Integer.MIN_VALUE || den == Integer.MIN_VALUE) { throw new MathArithmeticException(LocalizedFormats.OVERFLOW_IN_FRACTION, num, den); } num = -num; den = -den; } // reduce numerator and denominator by greatest common denominator. final int d = ArithmeticUtils.gcd(num, den); if (d > 1) { num /= d; den /= d; } // move sign to numerator. if (den < 0) { num = -num; den = -den; } this.numerator = num; this.denominator = den; }
Example 2
Source File: Fraction.java From astor with GNU General Public License v2.0 | 5 votes |
/** * <p>Creates a {@code Fraction} instance with the 2 parts * of a fraction Y/Z.</p> * * <p>Any negative signs are resolved to be on the numerator.</p> * * @param numerator the numerator, for example the three in 'three sevenths' * @param denominator the denominator, for example the seven in 'three sevenths' * @return a new fraction instance, with the numerator and denominator reduced * @throws MathArithmeticException if the denominator is {@code zero} */ public static Fraction getReducedFraction(int numerator, int denominator) { if (denominator == 0) { throw new MathArithmeticException(LocalizedFormats.ZERO_DENOMINATOR_IN_FRACTION, numerator, denominator); } if (numerator==0) { return ZERO; // normalize zero. } // allow 2^k/-2^31 as a valid fraction (where k>0) if (denominator==Integer.MIN_VALUE && (numerator&1)==0) { numerator/=2; denominator/=2; } if (denominator < 0) { if (numerator==Integer.MIN_VALUE || denominator==Integer.MIN_VALUE) { throw new MathArithmeticException(LocalizedFormats.OVERFLOW_IN_FRACTION, numerator, denominator); } numerator = -numerator; denominator = -denominator; } // simplify fraction. int gcd = ArithmeticUtils.gcd(numerator, denominator); numerator /= gcd; denominator /= gcd; return new Fraction(numerator, denominator); }
Example 3
Source File: Fraction.java From astor with GNU General Public License v2.0 | 5 votes |
/** * Create a fraction given the numerator and denominator. The fraction is * reduced to lowest terms. * @param num the numerator. * @param den the denominator. * @throws MathArithmeticException if the denominator is {@code zero} */ public Fraction(int num, int den) { if (den == 0) { throw new MathArithmeticException(LocalizedFormats.ZERO_DENOMINATOR_IN_FRACTION, num, den); } if (den < 0) { if (num == Integer.MIN_VALUE || den == Integer.MIN_VALUE) { throw new MathArithmeticException(LocalizedFormats.OVERFLOW_IN_FRACTION, num, den); } num = -num; den = -den; } // reduce numerator and denominator by greatest common denominator. final int d = ArithmeticUtils.gcd(num, den); if (d > 1) { num /= d; den /= d; } // move sign to numerator. if (den < 0) { num = -num; den = -den; } this.numerator = num; this.denominator = den; }
Example 4
Source File: Fraction.java From astor with GNU General Public License v2.0 | 5 votes |
/** * <p>Creates a {@code Fraction} instance with the 2 parts * of a fraction Y/Z.</p> * * <p>Any negative signs are resolved to be on the numerator.</p> * * @param numerator the numerator, for example the three in 'three sevenths' * @param denominator the denominator, for example the seven in 'three sevenths' * @return a new fraction instance, with the numerator and denominator reduced * @throws MathArithmeticException if the denominator is {@code zero} */ public static Fraction getReducedFraction(int numerator, int denominator) { if (denominator == 0) { throw new MathArithmeticException(LocalizedFormats.ZERO_DENOMINATOR_IN_FRACTION, numerator, denominator); } if (numerator==0) { return ZERO; // normalize zero. } // allow 2^k/-2^31 as a valid fraction (where k>0) if (denominator==Integer.MIN_VALUE && (numerator&1)==0) { numerator/=2; denominator/=2; } if (denominator < 0) { if (numerator==Integer.MIN_VALUE || denominator==Integer.MIN_VALUE) { throw new MathArithmeticException(LocalizedFormats.OVERFLOW_IN_FRACTION, numerator, denominator); } numerator = -numerator; denominator = -denominator; } // simplify fraction. int gcd = ArithmeticUtils.gcd(numerator, denominator); numerator /= gcd; denominator /= gcd; return new Fraction(numerator, denominator); }
Example 5
Source File: Fraction.java From astor with GNU General Public License v2.0 | 5 votes |
/** * Create a fraction given the numerator and denominator. The fraction is * reduced to lowest terms. * @param num the numerator. * @param den the denominator. * @throws MathArithmeticException if the denominator is {@code zero} */ public Fraction(int num, int den) { if (den == 0) { throw new MathArithmeticException(LocalizedFormats.ZERO_DENOMINATOR_IN_FRACTION, num, den); } if (den < 0) { if (num == Integer.MIN_VALUE || den == Integer.MIN_VALUE) { throw new MathArithmeticException(LocalizedFormats.OVERFLOW_IN_FRACTION, num, den); } num = -num; den = -den; } // reduce numerator and denominator by greatest common denominator. final int d = ArithmeticUtils.gcd(num, den); if (d > 1) { num /= d; den /= d; } // move sign to numerator. if (den < 0) { num = -num; den = -den; } this.numerator = num; this.denominator = den; }
Example 6
Source File: Fraction.java From astor with GNU General Public License v2.0 | 5 votes |
/** * <p>Creates a {@code Fraction} instance with the 2 parts * of a fraction Y/Z.</p> * * <p>Any negative signs are resolved to be on the numerator.</p> * * @param numerator the numerator, for example the three in 'three sevenths' * @param denominator the denominator, for example the seven in 'three sevenths' * @return a new fraction instance, with the numerator and denominator reduced * @throws MathArithmeticException if the denominator is {@code zero} */ public static Fraction getReducedFraction(int numerator, int denominator) { if (denominator == 0) { throw new MathArithmeticException(LocalizedFormats.ZERO_DENOMINATOR_IN_FRACTION, numerator, denominator); } if (numerator==0) { return ZERO; // normalize zero. } // allow 2^k/-2^31 as a valid fraction (where k>0) if (denominator==Integer.MIN_VALUE && (numerator&1)==0) { numerator/=2; denominator/=2; } if (denominator < 0) { if (numerator==Integer.MIN_VALUE || denominator==Integer.MIN_VALUE) { throw new MathArithmeticException(LocalizedFormats.OVERFLOW_IN_FRACTION, numerator, denominator); } numerator = -numerator; denominator = -denominator; } // simplify fraction. int gcd = ArithmeticUtils.gcd(numerator, denominator); numerator /= gcd; denominator /= gcd; return new Fraction(numerator, denominator); }
Example 7
Source File: Fraction.java From astor with GNU General Public License v2.0 | 5 votes |
/** * <p>Creates a {@code Fraction} instance with the 2 parts * of a fraction Y/Z.</p> * * <p>Any negative signs are resolved to be on the numerator.</p> * * @param numerator the numerator, for example the three in 'three sevenths' * @param denominator the denominator, for example the seven in 'three sevenths' * @return a new fraction instance, with the numerator and denominator reduced * @throws MathArithmeticException if the denominator is {@code zero} */ public static Fraction getReducedFraction(int numerator, int denominator) { if (denominator == 0) { throw new MathArithmeticException(LocalizedFormats.ZERO_DENOMINATOR_IN_FRACTION, numerator, denominator); } if (numerator==0) { return ZERO; // normalize zero. } // allow 2^k/-2^31 as a valid fraction (where k>0) if (denominator==Integer.MIN_VALUE && (numerator&1)==0) { numerator/=2; denominator/=2; } if (denominator < 0) { if (numerator==Integer.MIN_VALUE || denominator==Integer.MIN_VALUE) { throw new MathArithmeticException(LocalizedFormats.OVERFLOW_IN_FRACTION, numerator, denominator); } numerator = -numerator; denominator = -denominator; } // simplify fraction. int gcd = ArithmeticUtils.gcd(numerator, denominator); numerator /= gcd; denominator /= gcd; return new Fraction(numerator, denominator); }
Example 8
Source File: Fraction.java From astor with GNU General Public License v2.0 | 5 votes |
/** * Create a fraction given the numerator and denominator. The fraction is * reduced to lowest terms. * @param num the numerator. * @param den the denominator. * @throws MathArithmeticException if the denominator is {@code zero} */ public Fraction(int num, int den) { if (den == 0) { throw new MathArithmeticException(LocalizedFormats.ZERO_DENOMINATOR_IN_FRACTION, num, den); } if (den < 0) { if (num == Integer.MIN_VALUE || den == Integer.MIN_VALUE) { throw new MathArithmeticException(LocalizedFormats.OVERFLOW_IN_FRACTION, num, den); } num = -num; den = -den; } // reduce numerator and denominator by greatest common denominator. final int d = ArithmeticUtils.gcd(num, den); if (d > 1) { num /= d; den /= d; } // move sign to numerator. if (den < 0) { num = -num; den = -den; } this.numerator = num; this.denominator = den; }
Example 9
Source File: Fraction.java From astor with GNU General Public License v2.0 | 5 votes |
/** * Create a fraction given the numerator and denominator. The fraction is * reduced to lowest terms. * @param num the numerator. * @param den the denominator. * @throws MathArithmeticException if the denominator is {@code zero} */ public Fraction(int num, int den) { if (den == 0) { throw new MathArithmeticException(LocalizedFormats.ZERO_DENOMINATOR_IN_FRACTION, num, den); } if (den < 0) { if (num == Integer.MIN_VALUE || den == Integer.MIN_VALUE) { throw new MathArithmeticException(LocalizedFormats.OVERFLOW_IN_FRACTION, num, den); } num = -num; den = -den; } // reduce numerator and denominator by greatest common denominator. final int d = ArithmeticUtils.gcd(num, den); if (d > 1) { num /= d; den /= d; } // move sign to numerator. if (den < 0) { num = -num; den = -den; } this.numerator = num; this.denominator = den; }
Example 10
Source File: Math_26_Fraction_t.java From coming with MIT License | 5 votes |
/** * <p>Creates a {@code Fraction} instance with the 2 parts * of a fraction Y/Z.</p> * * <p>Any negative signs are resolved to be on the numerator.</p> * * @param numerator the numerator, for example the three in 'three sevenths' * @param denominator the denominator, for example the seven in 'three sevenths' * @return a new fraction instance, with the numerator and denominator reduced * @throws MathArithmeticException if the denominator is {@code zero} */ public static Fraction getReducedFraction(int numerator, int denominator) { if (denominator == 0) { throw new MathArithmeticException(LocalizedFormats.ZERO_DENOMINATOR_IN_FRACTION, numerator, denominator); } if (numerator==0) { return ZERO; // normalize zero. } // allow 2^k/-2^31 as a valid fraction (where k>0) if (denominator==Integer.MIN_VALUE && (numerator&1)==0) { numerator/=2; denominator/=2; } if (denominator < 0) { if (numerator==Integer.MIN_VALUE || denominator==Integer.MIN_VALUE) { throw new MathArithmeticException(LocalizedFormats.OVERFLOW_IN_FRACTION, numerator, denominator); } numerator = -numerator; denominator = -denominator; } // simplify fraction. int gcd = ArithmeticUtils.gcd(numerator, denominator); numerator /= gcd; denominator /= gcd; return new Fraction(numerator, denominator); }
Example 11
Source File: Math_1_Fraction_t.java From coming with MIT License | 5 votes |
/** * Create a fraction given the numerator and denominator. The fraction is * reduced to lowest terms. * @param num the numerator. * @param den the denominator. * @throws MathArithmeticException if the denominator is {@code zero} */ public Fraction(int num, int den) { if (den == 0) { throw new MathArithmeticException(LocalizedFormats.ZERO_DENOMINATOR_IN_FRACTION, num, den); } if (den < 0) { if (num == Integer.MIN_VALUE || den == Integer.MIN_VALUE) { throw new MathArithmeticException(LocalizedFormats.OVERFLOW_IN_FRACTION, num, den); } num = -num; den = -den; } // reduce numerator and denominator by greatest common denominator. final int d = ArithmeticUtils.gcd(num, den); if (d > 1) { num /= d; den /= d; } // move sign to numerator. if (den < 0) { num = -num; den = -den; } this.numerator = num; this.denominator = den; }
Example 12
Source File: Fraction.java From astor with GNU General Public License v2.0 | 5 votes |
/** * <p>Creates a {@code Fraction} instance with the 2 parts * of a fraction Y/Z.</p> * * <p>Any negative signs are resolved to be on the numerator.</p> * * @param numerator the numerator, for example the three in 'three sevenths' * @param denominator the denominator, for example the seven in 'three sevenths' * @return a new fraction instance, with the numerator and denominator reduced * @throws MathArithmeticException if the denominator is {@code zero} */ public static Fraction getReducedFraction(int numerator, int denominator) { if (denominator == 0) { throw new MathArithmeticException(LocalizedFormats.ZERO_DENOMINATOR_IN_FRACTION, numerator, denominator); } if (numerator==0) { return ZERO; // normalize zero. } // allow 2^k/-2^31 as a valid fraction (where k>0) if (denominator==Integer.MIN_VALUE && (numerator&1)==0) { numerator/=2; denominator/=2; } if (denominator < 0) { if (numerator==Integer.MIN_VALUE || denominator==Integer.MIN_VALUE) { throw new MathArithmeticException(LocalizedFormats.OVERFLOW_IN_FRACTION, numerator, denominator); } numerator = -numerator; denominator = -denominator; } // simplify fraction. int gcd = ArithmeticUtils.gcd(numerator, denominator); numerator /= gcd; denominator /= gcd; return new Fraction(numerator, denominator); }
Example 13
Source File: Math_26_Fraction_s.java From coming with MIT License | 5 votes |
/** * Create a fraction given the numerator and denominator. The fraction is * reduced to lowest terms. * @param num the numerator. * @param den the denominator. * @throws MathArithmeticException if the denominator is {@code zero} */ public Fraction(int num, int den) { if (den == 0) { throw new MathArithmeticException(LocalizedFormats.ZERO_DENOMINATOR_IN_FRACTION, num, den); } if (den < 0) { if (num == Integer.MIN_VALUE || den == Integer.MIN_VALUE) { throw new MathArithmeticException(LocalizedFormats.OVERFLOW_IN_FRACTION, num, den); } num = -num; den = -den; } // reduce numerator and denominator by greatest common denominator. final int d = ArithmeticUtils.gcd(num, den); if (d > 1) { num /= d; den /= d; } // move sign to numerator. if (den < 0) { num = -num; den = -den; } this.numerator = num; this.denominator = den; }
Example 14
Source File: Math_27_Fraction_t.java From coming with MIT License | 5 votes |
/** * <p>Creates a {@code Fraction} instance with the 2 parts * of a fraction Y/Z.</p> * * <p>Any negative signs are resolved to be on the numerator.</p> * * @param numerator the numerator, for example the three in 'three sevenths' * @param denominator the denominator, for example the seven in 'three sevenths' * @return a new fraction instance, with the numerator and denominator reduced * @throws MathArithmeticException if the denominator is {@code zero} */ public static Fraction getReducedFraction(int numerator, int denominator) { if (denominator == 0) { throw new MathArithmeticException(LocalizedFormats.ZERO_DENOMINATOR_IN_FRACTION, numerator, denominator); } if (numerator==0) { return ZERO; // normalize zero. } // allow 2^k/-2^31 as a valid fraction (where k>0) if (denominator==Integer.MIN_VALUE && (numerator&1)==0) { numerator/=2; denominator/=2; } if (denominator < 0) { if (numerator==Integer.MIN_VALUE || denominator==Integer.MIN_VALUE) { throw new MathArithmeticException(LocalizedFormats.OVERFLOW_IN_FRACTION, numerator, denominator); } numerator = -numerator; denominator = -denominator; } // simplify fraction. int gcd = ArithmeticUtils.gcd(numerator, denominator); numerator /= gcd; denominator /= gcd; return new Fraction(numerator, denominator); }
Example 15
Source File: Math_27_Fraction_t.java From coming with MIT License | 5 votes |
/** * Create a fraction given the numerator and denominator. The fraction is * reduced to lowest terms. * @param num the numerator. * @param den the denominator. * @throws MathArithmeticException if the denominator is {@code zero} */ public Fraction(int num, int den) { if (den == 0) { throw new MathArithmeticException(LocalizedFormats.ZERO_DENOMINATOR_IN_FRACTION, num, den); } if (den < 0) { if (num == Integer.MIN_VALUE || den == Integer.MIN_VALUE) { throw new MathArithmeticException(LocalizedFormats.OVERFLOW_IN_FRACTION, num, den); } num = -num; den = -den; } // reduce numerator and denominator by greatest common denominator. final int d = ArithmeticUtils.gcd(num, den); if (d > 1) { num /= d; den /= d; } // move sign to numerator. if (den < 0) { num = -num; den = -den; } this.numerator = num; this.denominator = den; }
Example 16
Source File: Math_27_Fraction_s.java From coming with MIT License | 5 votes |
/** * <p>Creates a {@code Fraction} instance with the 2 parts * of a fraction Y/Z.</p> * * <p>Any negative signs are resolved to be on the numerator.</p> * * @param numerator the numerator, for example the three in 'three sevenths' * @param denominator the denominator, for example the seven in 'three sevenths' * @return a new fraction instance, with the numerator and denominator reduced * @throws MathArithmeticException if the denominator is {@code zero} */ public static Fraction getReducedFraction(int numerator, int denominator) { if (denominator == 0) { throw new MathArithmeticException(LocalizedFormats.ZERO_DENOMINATOR_IN_FRACTION, numerator, denominator); } if (numerator==0) { return ZERO; // normalize zero. } // allow 2^k/-2^31 as a valid fraction (where k>0) if (denominator==Integer.MIN_VALUE && (numerator&1)==0) { numerator/=2; denominator/=2; } if (denominator < 0) { if (numerator==Integer.MIN_VALUE || denominator==Integer.MIN_VALUE) { throw new MathArithmeticException(LocalizedFormats.OVERFLOW_IN_FRACTION, numerator, denominator); } numerator = -numerator; denominator = -denominator; } // simplify fraction. int gcd = ArithmeticUtils.gcd(numerator, denominator); numerator /= gcd; denominator /= gcd; return new Fraction(numerator, denominator); }
Example 17
Source File: Fraction.java From astor with GNU General Public License v2.0 | 5 votes |
/** * Create a fraction given the numerator and denominator. The fraction is * reduced to lowest terms. * @param num the numerator. * @param den the denominator. * @throws MathArithmeticException if the denominator is {@code zero} */ public Fraction(int num, int den) { if (den == 0) { throw new MathArithmeticException(LocalizedFormats.ZERO_DENOMINATOR_IN_FRACTION, num, den); } if (den < 0) { if (num == Integer.MIN_VALUE || den == Integer.MIN_VALUE) { throw new MathArithmeticException(LocalizedFormats.OVERFLOW_IN_FRACTION, num, den); } num = -num; den = -den; } // reduce numerator and denominator by greatest common denominator. final int d = ArithmeticUtils.gcd(num, den); if (d > 1) { num /= d; den /= d; } // move sign to numerator. if (den < 0) { num = -num; den = -den; } this.numerator = num; this.denominator = den; }
Example 18
Source File: Math_1_Fraction_s.java From coming with MIT License | 5 votes |
/** * <p>Creates a {@code Fraction} instance with the 2 parts * of a fraction Y/Z.</p> * * <p>Any negative signs are resolved to be on the numerator.</p> * * @param numerator the numerator, for example the three in 'three sevenths' * @param denominator the denominator, for example the seven in 'three sevenths' * @return a new fraction instance, with the numerator and denominator reduced * @throws MathArithmeticException if the denominator is {@code zero} */ public static Fraction getReducedFraction(int numerator, int denominator) { if (denominator == 0) { throw new MathArithmeticException(LocalizedFormats.ZERO_DENOMINATOR_IN_FRACTION, numerator, denominator); } if (numerator==0) { return ZERO; // normalize zero. } // allow 2^k/-2^31 as a valid fraction (where k>0) if (denominator==Integer.MIN_VALUE && (numerator&1)==0) { numerator/=2; denominator/=2; } if (denominator < 0) { if (numerator==Integer.MIN_VALUE || denominator==Integer.MIN_VALUE) { throw new MathArithmeticException(LocalizedFormats.OVERFLOW_IN_FRACTION, numerator, denominator); } numerator = -numerator; denominator = -denominator; } // simplify fraction. int gcd = ArithmeticUtils.gcd(numerator, denominator); numerator /= gcd; denominator /= gcd; return new Fraction(numerator, denominator); }
Example 19
Source File: Fraction.java From astor with GNU General Public License v2.0 | 5 votes |
/** * Create a fraction given the numerator and denominator. The fraction is * reduced to lowest terms. * @param num the numerator. * @param den the denominator. * @throws MathArithmeticException if the denominator is {@code zero} */ public Fraction(int num, int den) { if (den == 0) { throw new MathArithmeticException(LocalizedFormats.ZERO_DENOMINATOR_IN_FRACTION, num, den); } if (den < 0) { if (num == Integer.MIN_VALUE || den == Integer.MIN_VALUE) { throw new MathArithmeticException(LocalizedFormats.OVERFLOW_IN_FRACTION, num, den); } num = -num; den = -den; } // reduce numerator and denominator by greatest common denominator. final int d = ArithmeticUtils.gcd(num, den); if (d > 1) { num /= d; den /= d; } // move sign to numerator. if (den < 0) { num = -num; den = -den; } this.numerator = num; this.denominator = den; }
Example 20
Source File: Math_1_Fraction_t.java From coming with MIT License | 5 votes |
/** * <p>Creates a {@code Fraction} instance with the 2 parts * of a fraction Y/Z.</p> * * <p>Any negative signs are resolved to be on the numerator.</p> * * @param numerator the numerator, for example the three in 'three sevenths' * @param denominator the denominator, for example the seven in 'three sevenths' * @return a new fraction instance, with the numerator and denominator reduced * @throws MathArithmeticException if the denominator is {@code zero} */ public static Fraction getReducedFraction(int numerator, int denominator) { if (denominator == 0) { throw new MathArithmeticException(LocalizedFormats.ZERO_DENOMINATOR_IN_FRACTION, numerator, denominator); } if (numerator==0) { return ZERO; // normalize zero. } // allow 2^k/-2^31 as a valid fraction (where k>0) if (denominator==Integer.MIN_VALUE && (numerator&1)==0) { numerator/=2; denominator/=2; } if (denominator < 0) { if (numerator==Integer.MIN_VALUE || denominator==Integer.MIN_VALUE) { throw new MathArithmeticException(LocalizedFormats.OVERFLOW_IN_FRACTION, numerator, denominator); } numerator = -numerator; denominator = -denominator; } // simplify fraction. int gcd = ArithmeticUtils.gcd(numerator, denominator); numerator /= gcd; denominator /= gcd; return new Fraction(numerator, denominator); }