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/*
 * Copyright 2014 Adam Mackler
 *
 * Licensed 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.bitcoinj.utils;

import static org.bitcoinj.core.Coin.SMALLEST_UNIT_EXPONENT;
import com.google.common.collect.ImmutableList;

import java.math.BigInteger;
import static java.math.BigDecimal.ONE;
import static java.math.BigDecimal.ZERO;
import java.math.BigDecimal;
import static java.math.RoundingMode.HALF_UP;

import java.text.DecimalFormat;
import java.text.DecimalFormatSymbols;
import java.text.NumberFormat;

import java.util.Locale;

/**
 * 

This class, a concrete extension of {@link BtcFormat}, is distinguished by its * accommodation of multiple denominational units as follows: * *

When formatting Bitcoin monetary values, an instance of this class automatically adjusts * the denominational units in which it represents a given value so as to minimize the number * of consecutive zeros in the number that is displayed, and includes either a currency code or * symbol in the formatted value to indicate which denomination was chosen. * *

When parsing String representations of Bitcoin monetary values, instances of * this class automatically recognize units indicators consisting of currency codes and * symbols, including including those containing currency or metric prefixes such as * "¢" or "c" to indicate hundredths, and interpret each number being * parsed in accordance with the recognized denominational units. * *

A more detailed explanation, including examples, is in the documentation for the {@link * BtcFormat} class, and further information beyond that is in the documentation for the {@link * java.text.Format} class, from which this class descends. * @see java.text.Format * @see java.text.NumberFormat * @see java.text.DecimalFormat * @see DecimalFormatSymbols * @see org.bitcoinj.core.Coin */ public final class BtcAutoFormat extends BtcFormat { /** * Enum for specifying the style of currency indicators thas are used * when formatting, ether codes or symbols. */ public enum Style { /* Notes: * 1) The odd-looking character in the replacements below, named "currency sign," is used in * the patterns recognized by Java's number formatter. A single occurrence of this * character specifies a currency symbol, while two adjacent occurrences indicate an * international currency code. * 2) The positive and negative patterns each have three parts: prefix, number, suffix. * The number characters are limited to digits, zero, decimal-separator, group-separator, and * scientific-notation specifier: [#0.,E] * All number characters besides 'E' must be single-quoted in order to appear as * literals in either the prefix or suffix. * These patterns are explained in the documentation for java.text.DecimalFormat. */ /** Constant for the formatting style that uses a currency code, e.g., "BTC". */ CODE { @Override void apply(DecimalFormat decimalFormat) { /* To switch to using codes from symbols, we replace each single occurrence of the * currency-sign character with two such characters in a row. * We also insert a space character between every occurence of this character and an * adjacent numerical digit or negative sign (that is, between the currency-sign and * the signed-number). */ decimalFormat.applyPattern( negify(decimalFormat.toPattern()).replaceAll("¤","¤¤"). replaceAll("([#0.,E-])¤¤","$1 ¤¤"). replaceAll("¤¤([0#.,E-])","¤¤ $1") ); } }, /** Constant for the formatting style that uses a currency symbol, e.g., "฿". */ SYMBOL { @Override void apply(DecimalFormat decimalFormat) { /* To make certain we are using symbols rather than codes, we replace * each double occurrence of the currency sign character with a single. */ decimalFormat.applyPattern(negify(decimalFormat.toPattern()).replaceAll("¤¤","¤")); } }; /** Effect a style corresponding to an enum value on the given number formatter object. */ abstract void apply(DecimalFormat decimalFormat); } /** Constructor */ protected BtcAutoFormat(Locale locale, Style style, int fractionPlaces) { super((DecimalFormat)NumberFormat.getCurrencyInstance(locale), fractionPlaces, ImmutableList.of()); style.apply(this.numberFormat); } /** * Calculate the appropriate denomination for the given Bitcoin monetary value. This * method takes a BigInteger representing a quantity of satoshis, and returns the * number of places that value's decimal point is to be moved when formatting said value * in order that the resulting number represents the correct quantity of denominational * units. * *

As a side-effect, this sets the units indicators of the underlying NumberFormat object. * Only invoke this from a synchronized method, and be sure to put the DecimalFormatSymbols * back to its proper state, otherwise immutability, equals() and hashCode() fail. */ @Override protected int scale(BigInteger satoshis, int fractionPlaces) { /* The algorithm is as follows. TODO: is there a way to optimize step 4? 1. Can we use coin denomination w/ no rounding? If yes, do it. 2. Else, can we use millicoin denomination w/ no rounding? If yes, do it. 3. Else, can we use micro denomination w/ no rounding? If yes, do it. 4. Otherwise we must round: (a) round to nearest coin + decimals (b) round to nearest millicoin + decimals (c) round to nearest microcoin + decimals Subtract each of (a), (b) and (c) from the true value, and choose the denomination that gives smallest absolute difference. It case of tie, use the smaller denomination. */ int places; int coinOffset = Math.max(SMALLEST_UNIT_EXPONENT - fractionPlaces, 0); BigDecimal inCoins = new BigDecimal(satoshis).movePointLeft(coinOffset); if (inCoins.remainder(ONE).compareTo(ZERO) == 0) { places = COIN_SCALE; } else { BigDecimal inMillis = inCoins.movePointRight(MILLICOIN_SCALE); if (inMillis.remainder(ONE).compareTo(ZERO) == 0) { places = MILLICOIN_SCALE; } else { BigDecimal inMicros = inCoins.movePointRight(MICROCOIN_SCALE); if (inMicros.remainder(ONE).compareTo(ZERO) == 0) { places = MICROCOIN_SCALE; } else { // no way to avoid rounding: so what denomination gives smallest error? BigDecimal a = inCoins.subtract(inCoins.setScale(0, HALF_UP)). movePointRight(coinOffset).abs(); BigDecimal b = inMillis.subtract(inMillis.setScale(0, HALF_UP)). movePointRight(coinOffset - MILLICOIN_SCALE).abs(); BigDecimal c = inMicros.subtract(inMicros.setScale(0, HALF_UP)). movePointRight(coinOffset - MICROCOIN_SCALE).abs(); if (a.compareTo(b) < 0) if (a.compareTo(c) < 0) places = COIN_SCALE; else places = MICROCOIN_SCALE; else if (b.compareTo(c) < 0) places = MILLICOIN_SCALE; else places = MICROCOIN_SCALE; } } } prefixUnitsIndicator(numberFormat, places); return places; } /** Returns the int value indicating coin denomination. This is what causes * the number in a parsed value that lacks a units indicator to be interpreted as a quantity * of bitcoins. */ @Override protected int scale() { return COIN_SCALE; } /** Return the number of decimal places in the fraction part of numbers formatted by this * instance. This is the maximum number of fraction places that will be displayed; * the actual number used is limited to a precision of satoshis. */ public int fractionPlaces() { return minimumFractionDigits; } /** Return true if the other instance is equivalent to this one. * Formatters for different locales will never be equal, even * if they behave identically. */ @Override public boolean equals(Object o) { if (this == o) return true; if (!(o instanceof BtcAutoFormat)) return false; return super.equals(o); } /** * Return a brief description of this formatter. The exact details of the representation * are unspecified and subject to change, but will include some representation of the * pattern and the number of fractional decimal places. */ @Override public String toString() { return "Auto-format " + pattern(); } }





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