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/* ====================================================================
   Licensed to the Apache Software Foundation (ASF) under one or more
   contributor license agreements.  See the NOTICE file distributed with
   this work for additional information regarding copyright ownership.
   The ASF licenses this file to You under the Apache License, Version 2.0
   (the "License"); you may not use this file except in compliance with
   the License.  You may obtain a copy of the License at

       http://www.apache.org/licenses/LICENSE-2.0

   Unless required by applicable law or agreed to in writing, software
   distributed under the License is distributed on an "AS IS" BASIS,
   WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
   See the License for the specific language governing permissions and
   limitations under the License.
==================================================================== */

package org.apache.poi.ss.formula.functions;

/**
 * This class is a functon library for common fiscal functions.
 * Glossary of terms/abbreviations:
 * 

 * 
 * FV: Future Value
 * PV: Present Value
 * NPV: Net Present Value
 * PMT: (Periodic) Payment
 *
 * 
 * For more info on the terms/abbreviations please use the references below
 * (hyperlinks are subject to change):
 * 
 * Online References:
 * 

 * GNU Emacs Calc 2.02 Manual: http://theory.uwinnipeg.ca/gnu/calc/calc_203.html
 * Yahoo Financial Glossary: http://biz.yahoo.com/f/g/nn.html#y
 * MS Excel function reference: http://office.microsoft.com/en-us/assistance/CH062528251033.aspx
 * 
 *
 * Implementation Notes:
 *
 * Symbols used in the formulae that follow:

 * 

 * p: present value
 * f: future value
 * n: number of periods
 * y: payment (in each period)
 * r: rate
 * ^: the power operator (NOT the java bitwise XOR operator!)
 * 
 * [From MS Excel function reference] Following are some of the key formulas
 * that are used in this implementation:
 *  * p(1+r)^n + y(1+rt)((1+r)^n-1)/r + f=0   ...{when r!=0}
 * ny + p + f=0                            ...{when r=0}
 * 
 */
public final class FinanceLib {

    private FinanceLib() {
        // no instances of this class
    }

    /**
     * Future value of an amount given the number of payments, rate, amount
     * of individual payment, present value and boolean value indicating whether
     * payments are due at the beginning of period
     * (false => payments are due at end of period)
     * @param r rate
     * @param n num of periods
     * @param y pmt per period
     * @param p present value
     * @param t type (true=pmt at beginning of period, false=pmt at end of period)
     */
    public static double fv(double r, double n, double y, double p, boolean t) {
        if (r == 0) {
            return -1*(p+(n*y));
        } else {
            double r1 = r + 1;
            return ((1-Math.pow(r1, n)) * (t ? r1 : 1) * y ) / r
                      -
                   p*Math.pow(r1, n);
        }
    }

    /**
     * Present value of an amount given the number of future payments, rate, amount
     * of individual payment, future value and boolean value indicating whether
     * payments are due at the beginning of period
     * (false => payments are due at end of period)
     * @param r rate
     * @param n num of periods
     * @param y pmt per period
     * @param f future value
     * @param t type (true=pmt at beginning of period, false=pmt at end of period)
     */
    public static double pv(double r, double n, double y, double f, boolean t) {
        if (r == 0) {
            return -1*((n*y)+f);
        } else {
            double r1 = r + 1;
            return (( ( 1 - Math.pow(r1, n) ) / r ) * (t ? r1 : 1)  * y - f)
                     /
                    Math.pow(r1, n);
        }
    }

    /**
     * calculates the Net Present Value of a principal amount
     * given the discount rate and a sequence of cash flows
     * (supplied as an array). If the amounts are income the value should
     * be positive, else if they are payments and not income, the
     * value should be negative.
     * @param r rate
     * @param cfs cashflow amounts
     */
    public static double npv(double r, double[] cfs) {
        double npv = 0;
        double r1 = r + 1;
        double trate = r1;
        for (double cf : cfs) {
            npv += cf / trate;
            trate *= r1;
        }
        return npv;
    }

    /**
     *
     * @param r rate
     * @param n num of periods
     * @param p present value
     * @param f future value
     * @param t type (true=pmt at beginning of period, false=pmt at end of period)
     */
    public static double pmt(double r, double n, double p, double f, boolean t) {
        if (r == 0) {
            return -1*(f+p)/n;
        } else {
            double r1 = r + 1;
            return ( f + p * Math.pow(r1, n) ) * r
                  /
               ((t ? r1 : 1) * (1 - Math.pow(r1, n)));
        }
    }

    /**
     *
     * @param r rate
     * @param y pmt per period
     * @param p present value
     * @param f future value
     * @param t type (true=pmt at beginning of period, false=pmt at end of period)
     */
    public static double nper(double r, double y, double p, double f, boolean t) {
        if (r == 0) {
            return -1 * (f + p) / y;
        } else {
            double r1 = r + 1;
            double ryr = (t ? r1 : 1) * y / r;
            double a1 = ((ryr - f) < 0)
                    ? Math.log(f - ryr)
                    : Math.log(ryr - f);
            double a2 = ((ryr - f) < 0)
                    ? Math.log(-p - ryr)
                    : Math.log(p + ryr);
            double a3 = Math.log(r1);
            return (a1 - a2) / a3;
        }
    }
}