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Author SHA1 Message Date
Marcus Fihlon
1c711a077e
feat(workshop): add reference implementation for DKP currency conversion 
Provide reference implementation for custom DukePoints (DKP) currency
including local ExchangeRateProvider and bidirectional conversion
between CHF and DKP.

Signed-off-by: Marcus Fihlon <marcus@fihlon.swiss>
 2026-04-20 10:31:00 +02:00
Marcus Fihlon
f307005c6d
feat(workshop): add bonus exercises for custom providers and currencies 
Introduce optional bonus tasks in part4 covering:
- CSV-based exchange rate provider
- historical exchange rate provider with date handling
- custom currency (DKP) with bidirectional conversion

Provide exercise scaffolding and tests for all scenarios.

Signed-off-by: Marcus Fihlon <marcus@fihlon.swiss>
 2026-04-20 10:04:51 +02:00
Marcus Fihlon
4f915afb06
feat(workshop): add reference implementations for exercises (part1–part3) 
Add complete solutions for all workshop exercises covering:
- part1: basics (amounts, arithmetic, rounding, formatting, parsing)
- part2: operators and queries
- part3: integration scenarios

Implementations follow JSR-354 best practices and align with
exercise tests and workshop structure.
 2026-04-19 23:58:13 +02:00
23 changed files with 1070 additions and 100 deletions
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75
slides/slides.md
View file

@ -154,9 +154,11 @@ BigDecimal amount = new BigDecimal("10.123") // gültig oder nicht?
<div class="my-6"></div>
- CHF: 2 Nachkommastellen
- JPY: keine Nachkommastellen
- TND: 3 Nachkommastellen
<ul v-click>
<li>CHF: 2 Nachkommastellen</li>
<li>JPY: keine Nachkommastellen</li>
<li>TND: 3 Nachkommastellen</li>
</ul>
---
@ -234,8 +236,7 @@ Was ist JSR-354?
- Spezifikation: Java Community Process (JCP)
- Referenzimplementierung: Moneta
- Entwickelt und gepflegt von der Java-Community
- Spec Lead JSR-354: Werner Keil
- Lead der Referenzimplementierung (Moneta): Anatole Tresch
- Spec Leads: Anatole Tresch, Werner Keil und Otavio Santana
👉 Open Source und gemeinschaftlich weiterentwickelt
@ -676,7 +677,7 @@ MonetaryAmount amountCHF = Money.of(10, "CHF");
ConversionQuery query = ConversionQueryBuilder.of()
.setTermCurrency("EUR")
.set(LocalDateTime.class, LocalDateTime.of(2026, 3, 13, 14, 3, 27))
.set(LocalDate.class, LocalDate.of(2026, 3, 13))
.build();
CurrencyConversion conversion = MonetaryConversions.getConversion(query);
@ -992,6 +993,66 @@ Warenkorb / Bestellung
---
# Bonusaufgabe 1
Eigener Exchange Rate Provider
Package: `swiss.fihlon.workshop.money.part4`
- Implementiere einen eigenen `ExchangeRateProvider`
- Lade Wechselkurse aus `exchange-rates.csv`
- CSV enthält:
- Quellwährung
- Zielwährung
- Wechselkurs
- Stelle Umrechnungen zwischen den Währungen bereit
- Noch **ohne** Historisierung
Relevante Interfaces: `ExchangeRateProvider`
👉 Ziel: eigener Provider mit lokal geladenen Kursen
---
# Bonus 2
Historische Kurse
Package: `swiss.fihlon.workshop.money.part4`
- Erweitere deinen Provider aus Bonus 1
- Verwende `exchange-rates-hist.csv`
- CSV enthält zusätzlich:
- Datum pro Wechselkurs
- Wähle den passenden Kurs für ein angefragtes Datum
- Fallback: sinnvoller Standard (z. B. letzter verfügbarer Kurs)
Relevante Interfaces: `ExchangeRateProvider`
👉 Ziel: zeitabhängige Wechselkurse unterstützen
---
# Bonus 3
Eigene Währung
Package: `swiss.fihlon.workshop.money.part4`
- Implementiere die eigene Währung `DKP`
- Vorgegebener Umrechnungsfaktor:
- 10 CHF = 1 DKP
- Baue einen eigenen Converter
- Unterstütze:
- CHF → DKP
- DKP → CHF
Relevante Interfaces: `CurrencyUnit` und `ExchangeRateProvider`
👉 Ziel: eigene Währung ins Modell integrieren
---
# Voraussetzungen
Java-Versionen
@ -1058,4 +1119,4 @@ layout: center
layout: center
---
# **Danke!**
# Danke!

8
src/main/java/swiss/fihlon/workshop/money/part1/ArithmeticExercises.java
View file

@ -21,7 +21,7 @@ public class ArithmeticExercises {
* @return sum of both amounts in the same currency
*/
public MonetaryAmount addAmounts(MonetaryAmount firstAmount, MonetaryAmount secondAmount) {
throw new UnsupportedOperationException("TODO");
return firstAmount.add(secondAmount);
}
/**
@ -34,7 +34,7 @@ public class ArithmeticExercises {
* @return difference after subtraction in the same currency
*/
public MonetaryAmount subtractAmounts(MonetaryAmount minuend, MonetaryAmount subtrahend) {
throw new UnsupportedOperationException("TODO");
return minuend.subtract(subtrahend);
}
/**
@ -47,7 +47,7 @@ public class ArithmeticExercises {
* @return product amount in the same currency
*/
public MonetaryAmount multiplyAmount(MonetaryAmount amount, int factor) {
throw new UnsupportedOperationException("TODO");
return amount.multiply(factor);
}
/**
@ -60,6 +60,6 @@ public class ArithmeticExercises {
* @return {@code true} if first amount is greater, otherwise {@code false}
*/
public boolean compareAmounts(MonetaryAmount firstAmount, MonetaryAmount secondAmount) {
throw new UnsupportedOperationException("TODO");
return firstAmount.isGreaterThan(secondAmount);
}
}

23
src/main/java/swiss/fihlon/workshop/money/part1/FormattingExercises.java
View file

@ -1,6 +1,9 @@
package swiss.fihlon.workshop.money.part1;
import java.util.Locale;
import javax.money.MonetaryAmount;
import javax.money.format.MonetaryAmountFormat;
import javax.money.format.MonetaryFormats;
/**
* <p>Part 1 workshop exercises for formatting monetary amounts using JSR-354.</p>
@ -21,7 +24,7 @@ public class FormattingExercises {
* @return formatted amount string for Swiss German locale
*/
public String formatSwissGerman(MonetaryAmount amount) {
throw new UnsupportedOperationException("TODO");
return format(amount, "de-CH");
}
/**
@ -33,7 +36,7 @@ public class FormattingExercises {
* @return formatted amount string for German locale
*/
public String formatGerman(MonetaryAmount amount) {
throw new UnsupportedOperationException("TODO");
return format(amount, "de-DE");
}
/**
@ -45,6 +48,20 @@ public class FormattingExercises {
* @return formatted amount string for US locale
*/
public String formatUs(MonetaryAmount amount) {
throw new UnsupportedOperationException("TODO");
return format(amount, "en-US");
}
/**
* <p>Format the given amount using the specified locale.</p>
*
* <p>Use the provided language tag to obtain a locale-specific formatter.</p>
*
* @param amount the amount to format
* @param languageTag IETF BCP 47 language tag (e.g. {@code de-CH})
* @return formatted amount string
*/
private String format(MonetaryAmount amount, String languageTag) {
MonetaryAmountFormat format = MonetaryFormats.getAmountFormat(Locale.forLanguageTag(languageTag));
return format.format(amount);
}
}

28
src/main/java/swiss/fihlon/workshop/money/part1/IntegrationExercises.java
View file

@ -1,5 +1,13 @@
package swiss.fihlon.workshop.money.part1;
import java.util.Locale;
import javax.money.Monetary;
import javax.money.MonetaryAmount;
import javax.money.MonetaryOperator;
import javax.money.format.MonetaryAmountFormat;
import javax.money.format.MonetaryFormats;
import org.javamoney.moneta.Money;
/**
* <p>Part 1 workshop exercises for combining parsing, arithmetic, rounding, and formatting with JSR-354.</p>
*
@ -22,6 +30,24 @@ public class IntegrationExercises {
* @return formatted final price text
*/
public String calculateFinalPrice(String priceText) {
throw new UnsupportedOperationException("TODO");
// setup locale and formatter
Locale swissGerman = Locale.forLanguageTag("de-CH");
MonetaryAmountFormat format = MonetaryFormats.getAmountFormat(swissGerman);
// parse
MonetaryAmount price = format.parse(priceText);
// constants
MonetaryAmount shipping = Money.of(4.95, "CHF");
MonetaryAmount discount = Money.of(2.00, "CHF");
// calculate
MonetaryAmount total = price.add(shipping).subtract(discount);
// round
MonetaryAmount roundedTotal = total.with(Monetary.getDefaultRounding());
// format
return format.format(roundedTotal);
}
}

11
src/main/java/swiss/fihlon/workshop/money/part1/MoneyExercises.java
View file

@ -1,6 +1,9 @@
package swiss.fihlon.workshop.money.part1;
import org.javamoney.moneta.Money;
import javax.money.CurrencyUnit;
import javax.money.Monetary;
import javax.money.MonetaryAmount;
/**
@ -19,7 +22,7 @@ public class MoneyExercises {
* @return Swiss franc currency unit ({@code CHF})
*/
public CurrencyUnit createSwissFranc() {
throw new UnsupportedOperationException("TODO");
return Monetary.getCurrency("CHF");
}
/**
@ -29,7 +32,7 @@ public class MoneyExercises {
* @return monetary amount {@code 19.95 CHF}
*/
public MonetaryAmount createSwissFrancAmount() {
throw new UnsupportedOperationException("TODO");
return Money.of(19.95, "CHF");
}
/**
@ -39,7 +42,7 @@ public class MoneyExercises {
* @return monetary amount {@code 2500 JPY}
*/
public MonetaryAmount createJapaneseYenAmount() {
throw new UnsupportedOperationException("TODO");
return Money.of(2500, "JPY");
}
/**
@ -49,6 +52,6 @@ public class MoneyExercises {
* @return monetary amount {@code 12.345 TND}
*/
public MonetaryAmount createTunisianDinarAmount() {
throw new UnsupportedOperationException("TODO");
return Money.of(12.345, "TND");
}
}

32
src/main/java/swiss/fihlon/workshop/money/part1/ParsingExercises.java
View file

@ -1,6 +1,9 @@
package swiss.fihlon.workshop.money.part1;
import javax.money.MonetaryAmount;
import javax.money.format.MonetaryAmountFormat;
import javax.money.format.MonetaryFormats;
import javax.money.format.MonetaryParseException;
import java.util.Locale;
/**
@ -24,7 +27,7 @@ public class ParsingExercises {
* @return parsed monetary amount
*/
public MonetaryAmount parseSwissGerman(String text) {
throw new UnsupportedOperationException("TODO");
return parse(text, "de-CH");
}
/**
@ -36,7 +39,7 @@ public class ParsingExercises {
* @return parsed monetary amount
*/
public MonetaryAmount parseGerman(String text) {
throw new UnsupportedOperationException("TODO");
return parse(text, "de-DE");
}
/**
@ -48,7 +51,22 @@ public class ParsingExercises {
* @return parsed monetary amount
*/
public MonetaryAmount parseUs(String text) {
throw new UnsupportedOperationException("TODO");
return parse(text, "en-US");
}
/**
* <p>Parse the given monetary amount text using the specified locale.</p>
*
* <p>Use the provided language tag to obtain a locale-specific parser.</p>
*
* @param text the input text to parse
* @param languageTag IETF BCP 47 language tag (e.g. {@code de-CH})
* @return parsed monetary amount
*/
private MonetaryAmount parse(String text, String languageTag) {
MonetaryAmountFormat format =
MonetaryFormats.getAmountFormat(Locale.forLanguageTag(languageTag));
return format.parse(text);
}
/**
@ -61,6 +79,12 @@ public class ParsingExercises {
* @return {@code true} if parsing succeeds, otherwise {@code false}
*/
public boolean parseInvalidInput(String text, Locale locale) {
throw new UnsupportedOperationException("TODO");
MonetaryAmountFormat format = MonetaryFormats.getAmountFormat(locale);
try {
format.parse(text);
return true;
} catch (MonetaryParseException exception) {
return false;
}
}
}

7
src/main/java/swiss/fihlon/workshop/money/part1/RoundingExercises.java
View file

@ -1,6 +1,8 @@
package swiss.fihlon.workshop.money.part1;
import javax.money.Monetary;
import javax.money.MonetaryAmount;
import javax.money.MonetaryOperator;
/**
* <p>Part 1 workshop exercises for currency-aware rounding with JSR-354.</p>
@ -20,7 +22,7 @@ public class RoundingExercises {
* @return rounded amount
*/
public MonetaryAmount applyDefaultRounding(MonetaryAmount amount) {
throw new UnsupportedOperationException("TODO");
return amount.with(Monetary.getDefaultRounding());
}
/**
@ -33,6 +35,7 @@ public class RoundingExercises {
* @return divided and rounded amount
*/
public MonetaryAmount divideAndRound(MonetaryAmount amount, int divisor) {
throw new UnsupportedOperationException("TODO");
return amount.divide(divisor)
.with(Monetary.getDefaultRounding());
}
}

32
src/main/java/swiss/fihlon/workshop/money/part2/CurrencyConversionExercises.java
View file

@ -1,8 +1,8 @@
package swiss.fihlon.workshop.money.part2;
import java.time.LocalDateTime;
import javax.money.MonetaryAmount;
import javax.money.convert.CurrencyConversion;
import javax.money.convert.MonetaryConversions;
/**
* <p>Part 2 workshop exercises for currency conversion using JSR-354.</p>
@ -21,7 +21,7 @@ public class CurrencyConversionExercises {
* @return currency conversion to EUR
*/
public CurrencyConversion getEurConversion() {
throw new UnsupportedOperationException("TODO");
return MonetaryConversions.getConversion("EUR", "ECB");
}
/**
@ -33,31 +33,7 @@ public class CurrencyConversionExercises {
* @return converted amount in EUR
*/
public MonetaryAmount convertChfToEur(MonetaryAmount amount) {
throw new UnsupportedOperationException("TODO");
}
/**
* <p>Create a currency conversion to EUR using a timestamp-based conversion query.</p>
*
* <p>Include the given {@link LocalDateTime} in the query.</p>
*
* @param timestamp timestamp used in the conversion query
* @return currency conversion to EUR for the given timestamp
*/
public CurrencyConversion getEurConversionForTimestamp(LocalDateTime timestamp) {
throw new UnsupportedOperationException("TODO");
}
/**
* <p>Convert a CHF amount to EUR using a timestamp-based conversion query.</p>
*
* <p>Build the conversion query with the given timestamp and return the converted amount.</p>
*
* @param amount amount in CHF
* @param timestamp timestamp used in the conversion query
* @return converted amount in EUR
*/
public MonetaryAmount convertChfToEurAt(MonetaryAmount amount, LocalDateTime timestamp) {
throw new UnsupportedOperationException("TODO");
CurrencyConversion conversion = getEurConversion();
return amount.with(conversion);
}
}

9
src/main/java/swiss/fihlon/workshop/money/part2/MonetaryContextExercises.java
View file

@ -22,7 +22,7 @@ public class MonetaryContextExercises {
* @return monetary context of the amount
*/
public MonetaryContext getMonetaryContext(MonetaryAmount amount) {
throw new UnsupportedOperationException("TODO");
return amount.getContext();
}
/**
@ -34,7 +34,7 @@ public class MonetaryContextExercises {
* @return maximum scale from the monetary context
*/
public int getMaxScale(MonetaryAmount amount) {
throw new UnsupportedOperationException("TODO");
return amount.getContext().getMaxScale();
}
/**
@ -47,7 +47,7 @@ public class MonetaryContextExercises {
* @return {@code true} if both contexts are equal, otherwise {@code false}
*/
public boolean compareContexts(MonetaryAmount firstAmount, MonetaryAmount secondAmount) {
throw new UnsupportedOperationException("TODO");
return firstAmount.getContext().equals(secondAmount.getContext());
}
/**
@ -59,6 +59,7 @@ public class MonetaryContextExercises {
* @return formatted context description
*/
public String describeContext(MonetaryAmount amount) {
throw new UnsupportedOperationException("TODO");
MonetaryContext context = amount.getContext();
return "precision=" + context.getPrecision() + ", maxScale=" + context.getMaxScale();
}
}

26
src/main/java/swiss/fihlon/workshop/money/part2/MonetaryOperatorExercises.java
View file

@ -1,14 +1,13 @@
package swiss.fihlon.workshop.money.part2;
import java.math.BigDecimal;
import javax.money.MonetaryAmount;
import javax.money.MonetaryOperator;
/**
* <p>Part 2 workshop exercises for encapsulating domain logic with MonetaryOperator.</p>
*
* <p>The exercises focus on applying reusable monetary operations such as discounts and VAT.</p>
*
* <p>The methods are intentionally incomplete and should be implemented by making tests pass.</p>
* <p>The examples focus on applying reusable monetary operations such as discounts and VAT.</p>
*/
public class MonetaryOperatorExercises {
@ -21,7 +20,8 @@ public class MonetaryOperatorExercises {
* @return discounted amount
*/
public MonetaryAmount applyDiscount(MonetaryAmount amount) {
throw new UnsupportedOperationException("TODO");
MonetaryOperator discount = createDiscountOperator();
return amount.with(discount);
}
/**
@ -33,7 +33,8 @@ public class MonetaryOperatorExercises {
* @return amount after VAT
*/
public MonetaryAmount applyVat(MonetaryAmount amount) {
throw new UnsupportedOperationException("TODO");
MonetaryOperator vat = createVatOperator();
return amount.with(vat);
}
/**
@ -45,7 +46,18 @@ public class MonetaryOperatorExercises {
* @return amount after discount and VAT
*/
public MonetaryAmount applyDiscountThenVat(MonetaryAmount amount) {
throw new UnsupportedOperationException("TODO");
MonetaryOperator discount = createDiscountOperator();
MonetaryOperator vat = createVatOperator();
return amount.with(discount).with(vat);
}
/**
* <p>Create a reusable 7.7% VAT monetary operator.</p>
*
* @return a reusable VAT operator
*/
public MonetaryOperator createVatOperator() {
return monetaryAmount -> monetaryAmount.multiply(new BigDecimal("1.077"));
}
/**
@ -56,6 +68,6 @@ public class MonetaryOperatorExercises {
* @return reusable discount operator
*/
public MonetaryOperator createDiscountOperator() {
throw new UnsupportedOperationException("TODO");
return monetaryAmount -> monetaryAmount.multiply(new BigDecimal("0.90"));
}
}

16
src/main/java/swiss/fihlon/workshop/money/part2/MonetaryQueryExercises.java
View file

@ -7,9 +7,7 @@ import javax.money.MonetaryQuery;
/**
* <p>Part 2 workshop exercises for extracting information from monetary amounts with MonetaryQuery.</p>
*
* <p>The exercises focus on encapsulating reusable query logic for monetary values and currencies.</p>
*
* <p>The methods are intentionally incomplete and should be implemented by making tests pass.</p>
* <p>The examples focus on encapsulating reusable query logic for monetary values and currencies.</p>
*/
public class MonetaryQueryExercises {
@ -22,7 +20,7 @@ public class MonetaryQueryExercises {
* @return currency code
*/
public String queryCurrencyCode(MonetaryAmount amount) {
throw new UnsupportedOperationException("TODO");
return amount.query(createCurrencyCodeQuery());
}
/**
@ -34,7 +32,9 @@ public class MonetaryQueryExercises {
* @return default fraction digits of the currency
*/
public int queryDefaultFractionDigits(MonetaryAmount amount) {
throw new UnsupportedOperationException("TODO");
MonetaryQuery<Integer> query =
monetaryAmount -> monetaryAmount.getCurrency().getDefaultFractionDigits();
return amount.query(query);
}
/**
@ -46,7 +46,9 @@ public class MonetaryQueryExercises {
* @return numeric value as BigDecimal
*/
public BigDecimal queryNumberAsBigDecimal(MonetaryAmount amount) {
throw new UnsupportedOperationException("TODO");
MonetaryQuery<BigDecimal> query =
monetaryAmount -> monetaryAmount.getNumber().numberValueExact(BigDecimal.class);
return amount.query(query);
}
/**
@ -57,6 +59,6 @@ public class MonetaryQueryExercises {
* @return reusable query returning a currency code
*/
public MonetaryQuery<String> createCurrencyCodeQuery() {
throw new UnsupportedOperationException("TODO");
return monetaryAmount -> monetaryAmount.getCurrency().getCurrencyCode();
}
}

42
src/main/java/swiss/fihlon/workshop/money/part2/RoundingStrategyExercises.java
View file

@ -1,14 +1,15 @@
package swiss.fihlon.workshop.money.part2;
import java.math.BigDecimal;
import java.math.RoundingMode;
import javax.money.Monetary;
import javax.money.MonetaryAmount;
import javax.money.MonetaryOperator;
/**
* <p>Part 2 workshop exercises for applying different rounding strategies with JSR-354.</p>
* <p>Part 2 workshop examples for applying different rounding strategies with JSR-354.</p>
*
* <p>The exercises focus on treating rounding as an explicit domain decision that depends on the use case.</p>
*
* <p>The methods are intentionally incomplete and should be implemented by making tests pass.</p>
* <p>The examples focus on treating rounding as an explicit domain decision that depends on the use case.</p>
*/
public class RoundingStrategyExercises {
@ -21,19 +22,8 @@ public class RoundingStrategyExercises {
* @return amount rounded with default currency rounding
*/
public MonetaryAmount applyDefaultRounding(MonetaryAmount amount) {
throw new UnsupportedOperationException("TODO");
}
/**
* <p>Apply explicit default rounding to a VAT amount.</p>
*
* <p>Use rounding as a separate, explicit step.</p>
*
* @param taxAmount tax amount to round
* @return rounded tax amount
*/
public MonetaryAmount roundVatAmount(MonetaryAmount taxAmount) {
throw new UnsupportedOperationException("TODO");
MonetaryOperator rounding = Monetary.getDefaultRounding();
return amount.with(rounding);
}
/**
@ -45,7 +35,8 @@ public class RoundingStrategyExercises {
* @return CHF amount rounded to the nearest 0.05
*/
public MonetaryAmount applySwissCashRounding(MonetaryAmount amount) {
throw new UnsupportedOperationException("TODO");
MonetaryOperator swissCashRounding = createSwissCashRounding();
return amount.with(swissCashRounding);
}
/**
@ -56,6 +47,19 @@ public class RoundingStrategyExercises {
* @return reusable Swiss cash rounding operator
*/
public MonetaryOperator createSwissCashRounding() {
throw new UnsupportedOperationException("TODO");
return monetaryAmount -> {
if (!"CHF".equals(monetaryAmount.getCurrency().getCurrencyCode())) {
throw new IllegalArgumentException("Swiss cash rounding only supports CHF.");
}
BigDecimal increment = new BigDecimal("0.05");
BigDecimal value = monetaryAmount.getNumber().numberValueExact(BigDecimal.class);
BigDecimal rounded = value.divide(increment, 0, RoundingMode.HALF_UP).multiply(increment);
return monetaryAmount.getFactory()
.setCurrency(monetaryAmount.getCurrency())
.setNumber(rounded)
.create();
};
}
}

31
src/main/java/swiss/fihlon/workshop/money/part3/OrderExercises.java
View file

@ -1,14 +1,19 @@
package swiss.fihlon.workshop.money.part3;
import java.math.BigDecimal;
import java.util.Locale;
import javax.money.CurrencyUnit;
import javax.money.Monetary;
import javax.money.MonetaryAmount;
import javax.money.MonetaryOperator;
import javax.money.convert.MonetaryConversions;
import javax.money.format.MonetaryAmountFormat;
import javax.money.format.MonetaryFormats;
/**
* <p>Part 3 workshop exercises for integrating monetary calculations into a small order workflow.</p>
* <p>Part 3 workshop examples for integrating monetary calculations into a small order workflow.</p>
*
* <p>The exercises focus on combining subtotal calculation, discount, VAT, rounding, and formatting.</p>
*
* <p>The methods are intentionally incomplete and should be implemented by making tests pass.</p>
* <p>The examples focus on combining subtotal calculation, discount, VAT, rounding, and formatting.</p>
*/
public class OrderExercises {
@ -22,7 +27,7 @@ public class OrderExercises {
* @return subtotal amount
*/
public MonetaryAmount calculateSubtotal(MonetaryAmount unitPrice, int quantity) {
throw new UnsupportedOperationException("TODO");
return unitPrice.multiply(quantity);
}
/**
@ -34,7 +39,8 @@ public class OrderExercises {
* @return discounted amount
*/
public MonetaryAmount applyDiscount(MonetaryAmount subtotal) {
throw new UnsupportedOperationException("TODO");
MonetaryOperator discount = amount -> amount.multiply(new BigDecimal("0.90"));
return subtotal.with(discount);
}
/**
@ -46,7 +52,9 @@ public class OrderExercises {
* @return VAT-inclusive amount
*/
public MonetaryAmount applyVat(MonetaryAmount discountedAmount) {
throw new UnsupportedOperationException("TODO");
MonetaryAmount vatInclusiveAmount = discountedAmount.multiply(new BigDecimal("1.077"));
MonetaryOperator rounding = Monetary.getDefaultRounding();
return vatInclusiveAmount.with(rounding);
}
/**
@ -59,7 +67,9 @@ public class OrderExercises {
* @return final total amount
*/
public MonetaryAmount calculateTotal(MonetaryAmount unitPrice, int quantity) {
throw new UnsupportedOperationException("TODO");
MonetaryAmount subtotal = calculateSubtotal(unitPrice, quantity);
MonetaryAmount discountedAmount = applyDiscount(subtotal);
return applyVat(discountedAmount);
}
/**
@ -71,7 +81,8 @@ public class OrderExercises {
* @return formatted total string
*/
public String formatTotal(MonetaryAmount total) {
throw new UnsupportedOperationException("TODO");
MonetaryAmountFormat format = MonetaryFormats.getAmountFormat(Locale.forLanguageTag("de-CH"));
return format.format(total);
}
/**
@ -84,6 +95,6 @@ public class OrderExercises {
* @return amount converted to the target currency
*/
public MonetaryAmount convertToCurrency(MonetaryAmount amount, CurrencyUnit targetCurrency) {
throw new UnsupportedOperationException("TODO");
return amount.with(MonetaryConversions.getConversion(targetCurrency, "ECB"));
}
}

145
src/main/java/swiss/fihlon/workshop/money/part4/CsvExchangeRateProvider.java Normal file
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@ -0,0 +1,145 @@
package swiss.fihlon.workshop.money.part4;
import java.io.BufferedReader;
import java.io.InputStream;
import java.io.InputStreamReader;
import java.math.BigDecimal;
import java.nio.charset.StandardCharsets;
import java.util.HashMap;
import java.util.Map;
import javax.money.convert.ConversionQuery;
import javax.money.convert.ConversionContext;
import javax.money.convert.ConversionContextBuilder;
import javax.money.convert.CurrencyConversion;
import javax.money.convert.ExchangeRate;
import javax.money.convert.ExchangeRateProvider;
import javax.money.convert.ProviderContext;
import javax.money.convert.ProviderContextBuilder;
import javax.money.convert.RateType;
import org.javamoney.moneta.convert.ExchangeRateBuilder;
import org.javamoney.moneta.spi.DefaultNumberValue;
import org.javamoney.moneta.spi.LazyBoundCurrencyConversion;
/**
* <p>Bonus exercise 1 for implementing a local CSV-based exchange rate provider with JSR-354.</p>
*
* <p>The provider is intended for workshop usage and should read rates from the classpath resource
* {@code exchange-rates.csv}.</p>
*/
public class CsvExchangeRateProvider implements ExchangeRateProvider {
/**
* <p>Name of the classpath CSV resource containing exchange rates.</p>
*/
public static final String RESOURCE_NAME = "exchange-rates.csv";
private static final ProviderContext CONTEXT =
ProviderContextBuilder.of("csv-exchange-rate-provider", RateType.HISTORIC).build();
private final Map<CurrencyPair, BigDecimal> ratesByPair;
/**
* <p>Create a new provider instance.</p>
*
* <p>The provider should load exchange rates from {@link #RESOURCE_NAME}.</p>
*/
public CsvExchangeRateProvider() {
this.ratesByPair = loadRates();
}
/**
* <p>Return the provider context for this exchange rate provider.</p>
*
* @return provider context including a useful provider name
*/
@Override
public ProviderContext getContext() {
return CONTEXT;
}
/**
* <p>Look up an exchange rate for the given conversion query.</p>
*
* @param conversionQuery conversion query containing base and term currency
* @return matching exchange rate, or {@code null} if no matching rate exists
*/
@Override
public ExchangeRate getExchangeRate(ConversionQuery conversionQuery) {
CurrencyPair currencyPair = CurrencyPair.from(conversionQuery);
BigDecimal factor = ratesByPair.get(currencyPair);
if (factor == null) {
return null;
}
return new ExchangeRateBuilder(getContext().getProviderName(), RateType.DEFERRED)
.setBase(conversionQuery.getBaseCurrency())
.setTerm(conversionQuery.getCurrency())
.setFactor(DefaultNumberValue.of(factor))
.build();
}
/**
* <p>Create a currency conversion for the given conversion query.</p>
*
* <p>The returned conversion should allow direct amount conversion via {@code amount.with(conversion)}.</p>
*
* @param conversionQuery conversion query containing conversion details
* @return currency conversion for the query
*/
@Override
public CurrencyConversion getCurrencyConversion(ConversionQuery conversionQuery) {
if (getExchangeRate(conversionQuery) == null) {
return null;
}
ConversionContext conversionContext = ConversionContextBuilder.create(getContext(), RateType.DEFERRED).build();
return new LazyBoundCurrencyConversion(conversionQuery, this, conversionContext);
}
/**
* <p>Load exchange rates from the classpath CSV resource into a lookup map.</p>
*
* <p>The CSV is expected to contain a header and records in the format
* {@code base,term,rate}.</p>
*
* @return map keyed by currency pair containing the configured exchange factor
*/
private static Map<CurrencyPair, BigDecimal> loadRates() {
InputStream inputStream = CsvExchangeRateProvider.class.getClassLoader().getResourceAsStream(RESOURCE_NAME);
if (inputStream == null) {
throw new IllegalStateException("Could not load classpath resource: " + RESOURCE_NAME);
}
try (BufferedReader reader = new BufferedReader(new InputStreamReader(inputStream, StandardCharsets.UTF_8))) {
Map<CurrencyPair, BigDecimal> rates = new HashMap<>();
reader.readLine();
String line;
while ((line = reader.readLine()) != null) {
String[] values = line.split(",");
CurrencyPair currencyPair = new CurrencyPair(values[0], values[1]);
BigDecimal factor = new BigDecimal(values[2]);
rates.put(currencyPair, factor);
}
return rates;
} catch (Exception exception) {
throw new IllegalStateException("Failed to parse exchange rates from: " + RESOURCE_NAME, exception);
}
}
/**
* <p>Simple key for identifying an exchange rate by base and term currency code.</p>
*
* @param baseCurrencyCode ISO currency code of the base currency
* @param termCurrencyCode ISO currency code of the term currency
*/
private record CurrencyPair(String baseCurrencyCode, String termCurrencyCode) {
/**
* <p>Create a currency-pair key from a conversion query.</p>
*
* @param conversionQuery query containing base and term currency
* @return key for map-based rate lookup
*/
private static CurrencyPair from(ConversionQuery conversionQuery) {
return new CurrencyPair(
conversionQuery.getBaseCurrency().getCurrencyCode(),
conversionQuery.getCurrency().getCurrencyCode());
}
}
}

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src/main/java/swiss/fihlon/workshop/money/part4/CsvHistoricalExchangeRateProvider.java Normal file
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package swiss.fihlon.workshop.money.part4;
import java.io.BufferedReader;
import java.io.InputStream;
import java.io.InputStreamReader;
import java.math.BigDecimal;
import java.time.LocalDate;
import java.nio.charset.StandardCharsets;
import java.util.HashMap;
import java.util.Map;
import java.util.NavigableMap;
import java.util.TreeMap;
import javax.money.convert.ConversionQuery;
import javax.money.convert.ConversionContext;
import javax.money.convert.ConversionContextBuilder;
import javax.money.convert.CurrencyConversion;
import javax.money.convert.ExchangeRate;
import javax.money.convert.ExchangeRateProvider;
import javax.money.convert.ProviderContext;
import javax.money.convert.ProviderContextBuilder;
import javax.money.convert.RateType;
import org.javamoney.moneta.convert.ExchangeRateBuilder;
import org.javamoney.moneta.spi.DefaultNumberValue;
import org.javamoney.moneta.spi.LazyBoundCurrencyConversion;
/**
* <p>Bonus exercise 2 for implementing a local CSV-based historical exchange rate provider with JSR-354.</p>
*
* <p>The provider is intended for workshop usage and should read rates from the classpath resource
* {@code exchange-rates-hist.csv}.</p>
*
* <p>The lookup should use base currency, term currency, and a date passed in the query context.</p>
*/
public class CsvHistoricalExchangeRateProvider implements ExchangeRateProvider {
/**
* <p>Name of the classpath CSV resource containing historical exchange rates.</p>
*/
public static final String RESOURCE_NAME = "exchange-rates-hist.csv";
/**
* <p>Query key type for historical lookups.</p>
*/
public static final Class<LocalDate> DATE_QUERY_KEY = LocalDate.class;
private static final ProviderContext CONTEXT =
ProviderContextBuilder.of("csv-historical-exchange-rate-provider", RateType.HISTORIC).build();
private final Map<CurrencyPair, NavigableMap<LocalDate, BigDecimal>> ratesByPairAndDate;
/**
* <p>Create a new provider instance.</p>
*
* <p>The provider should load exchange rates from {@link #RESOURCE_NAME}.</p>
*/
public CsvHistoricalExchangeRateProvider() {
this.ratesByPairAndDate = loadRates();
}
/**
* <p>Return the provider context for this exchange rate provider.</p>
*
* @return provider context including a useful provider name
*/
@Override
public ProviderContext getContext() {
return CONTEXT;
}
/**
* <p>Look up a historical exchange rate for the given conversion query.</p>
*
* <p>The query is expected to contain a {@link LocalDate} under {@link #DATE_QUERY_KEY}.</p>
*
* <p>If no exact match exists for the requested date, the provider should use the last available
* rate before that date.</p>
*
* <p>The method should return {@code null} only when no suitable earlier rate exists.</p>
*
* @param conversionQuery conversion query containing base currency, term currency, and date
* @return matching historical exchange rate with fallback to the latest earlier date, or {@code null}
*/
@Override
public ExchangeRate getExchangeRate(ConversionQuery conversionQuery) {
LocalDate requestedDate = conversionQuery.get(DATE_QUERY_KEY);
if (requestedDate == null) {
return null;
}
CurrencyPair currencyPair = CurrencyPair.from(conversionQuery);
NavigableMap<LocalDate, BigDecimal> ratesByDate = ratesByPairAndDate.get(currencyPair);
if (ratesByDate == null) {
return null;
}
Map.Entry<LocalDate, BigDecimal> bestMatch = ratesByDate.floorEntry(requestedDate);
if (bestMatch == null) {
return null;
}
return new ExchangeRateBuilder(getContext().getProviderName(), RateType.HISTORIC)
.setBase(conversionQuery.getBaseCurrency())
.setTerm(conversionQuery.getCurrency())
.setFactor(DefaultNumberValue.of(bestMatch.getValue()))
.build();
}
/**
* <p>Create a currency conversion for the given conversion query.</p>
*
* <p>The conversion should use the same lookup rules as {@link #getExchangeRate(ConversionQuery)}:
* exact date first, otherwise the last available earlier rate.</p>
*
* <p>The returned conversion should allow direct amount conversion via {@code amount.with(conversion)}.</p>
*
* @param conversionQuery conversion query containing conversion details
* @return currency conversion for the query
*/
@Override
public CurrencyConversion getCurrencyConversion(ConversionQuery conversionQuery) {
if (getExchangeRate(conversionQuery) == null) {
return null;
}
ConversionContext conversionContext = ConversionContextBuilder.create(getContext(), RateType.HISTORIC).build();
return new LazyBoundCurrencyConversion(conversionQuery, this, conversionContext);
}
/**
* <p>Load historical exchange rates from the classpath CSV resource into a date-indexed lookup map.</p>
*
* <p>The CSV is expected to contain a header and records in the format
* {@code date,base,term,rate}.</p>
*
* @return map keyed by currency pair with a navigable date-to-rate mapping
*/
private static Map<CurrencyPair, NavigableMap<LocalDate, BigDecimal>> loadRates() {
InputStream inputStream = CsvHistoricalExchangeRateProvider.class.getClassLoader().getResourceAsStream(RESOURCE_NAME);
if (inputStream == null) {
throw new IllegalStateException("Could not load classpath resource: " + RESOURCE_NAME);
}
try (BufferedReader reader = new BufferedReader(new InputStreamReader(inputStream, StandardCharsets.UTF_8))) {
Map<CurrencyPair, NavigableMap<LocalDate, BigDecimal>> rates = new HashMap<>();
reader.readLine();
String line;
while ((line = reader.readLine()) != null) {
String[] values = line.split(",");
LocalDate date = LocalDate.parse(values[0]);
CurrencyPair currencyPair = new CurrencyPair(values[1], values[2]);
BigDecimal factor = new BigDecimal(values[3]);
rates.computeIfAbsent(currencyPair, key -> new TreeMap<>()).put(date, factor);
}
return rates;
} catch (Exception exception) {
throw new IllegalStateException("Failed to parse historical exchange rates from: " + RESOURCE_NAME, exception);
}
}
/**
* <p>Simple key for identifying a historical exchange-rate series by base and term currency code.</p>
*
* @param baseCurrencyCode ISO currency code of the base currency
* @param termCurrencyCode ISO currency code of the term currency
*/
private record CurrencyPair(String baseCurrencyCode, String termCurrencyCode) {
/**
* <p>Create a currency-pair key from a conversion query.</p>
*
* @param conversionQuery query containing base and term currency
* @return key for map-based historical rate lookup
*/
private static CurrencyPair from(ConversionQuery conversionQuery) {
return new CurrencyPair(
conversionQuery.getBaseCurrency().getCurrencyCode(),
conversionQuery.getCurrency().getCurrencyCode());
}
}
}

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src/main/java/swiss/fihlon/workshop/money/part4/DukePointsCurrencyFactory.java Normal file
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package swiss.fihlon.workshop.money.part4;
import javax.money.CurrencyUnit;
/**
* <p>Bonus exercise 3 helper for creating the custom DukePoints currency.</p>
*
* <p>The goal is to model {@code DKP} as a custom {@link CurrencyUnit} that can be used with monetary amounts.</p>
*/
public class DukePointsCurrencyFactory {
/**
* <p>Currency code for DukePoints.</p>
*/
public static final String DKP = "DKP";
/**
* <p>Create the custom DukePoints currency unit.</p>
*
* @return custom currency unit with currency code {@code DKP}
*/
public CurrencyUnit createDkpCurrency() {
return new DukePointsCurrencyUnit();
}
}

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src/main/java/swiss/fihlon/workshop/money/part4/DukePointsCurrencyUnit.java Normal file
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package swiss.fihlon.workshop.money.part4;
import javax.money.CurrencyContext;
import javax.money.CurrencyContextBuilder;
import javax.money.CurrencyUnit;
/**
* <p>This is a minimal custom CurrencyUnit implementation used for workshop purposes.</p>
*
* <p>The implementation is provided to focus on currency integration and conversion logic.</p>
*/
public final class DukePointsCurrencyUnit implements CurrencyUnit {
private static final String CURRENCY_CODE = DukePointsCurrencyFactory.DKP;
private static final int DEFAULT_FRACTION_DIGITS = 2;
private static final int NUMERIC_CODE = 999;
private static final CurrencyContext CONTEXT =
CurrencyContextBuilder.of(DukePointsCurrencyUnit.class.getSimpleName()).build();
@Override
public String getCurrencyCode() {
return CURRENCY_CODE;
}
@Override
public int getNumericCode() {
return NUMERIC_CODE;
}
@Override
public int getDefaultFractionDigits() {
return DEFAULT_FRACTION_DIGITS;
}
@Override
public CurrencyContext getContext() {
return CONTEXT;
}
@Override
public int compareTo(CurrencyUnit otherCurrency) {
return getCurrencyCode().compareTo(otherCurrency.getCurrencyCode());
}
@Override
public String toString() {
return getCurrencyCode();
}
@Override
public boolean equals(Object obj) {
if (this == obj) {
return true;
}
if (!(obj instanceof CurrencyUnit other)) {
return false;
}
return getCurrencyCode().equals(other.getCurrencyCode());
}
@Override
public int hashCode() {
return getCurrencyCode().hashCode();
}
}

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src/main/java/swiss/fihlon/workshop/money/part4/DukePointsExchangeRateProvider.java Normal file
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package swiss.fihlon.workshop.money.part4;
import java.math.BigDecimal;
import javax.money.convert.ConversionQuery;
import javax.money.convert.ConversionContext;
import javax.money.convert.ConversionContextBuilder;
import javax.money.convert.CurrencyConversion;
import javax.money.convert.ExchangeRate;
import javax.money.convert.ExchangeRateProvider;
import javax.money.convert.ProviderContext;
import javax.money.convert.ProviderContextBuilder;
import javax.money.convert.RateType;
import org.javamoney.moneta.convert.ExchangeRateBuilder;
import org.javamoney.moneta.spi.DefaultNumberValue;
import org.javamoney.moneta.spi.LazyBoundCurrencyConversion;
/**
* <p>Bonus exercise 3 for implementing local exchange rates between CHF and DukePoints.</p>
*
* <p>The provider should support deterministic conversion for {@code CHF -> DKP} and {@code DKP -> CHF}.</p>
*/
public class DukePointsExchangeRateProvider implements ExchangeRateProvider {
private static final BigDecimal CHF_TO_DKP_FACTOR = new BigDecimal("0.1");
private static final BigDecimal DKP_TO_CHF_FACTOR = new BigDecimal("10");
private static final ProviderContext CONTEXT =
ProviderContextBuilder.of("dkp-exchange-rate-provider", RateType.HISTORIC).build();
private static final String CHF = "CHF";
/**
* <p>Create a new exchange rate provider for DukePoints.</p>
*/
public DukePointsExchangeRateProvider() {
}
/**
* <p>Return provider context metadata for this provider.</p>
*
* @return provider context with a useful provider name
*/
@Override
public ProviderContext getContext() {
return CONTEXT;
}
/**
* <p>Return the exchange rate for the given conversion query.</p>
*
* <p>Supported pairs are {@code CHF -> DKP} and {@code DKP -> CHF}.</p>
*
* @param conversionQuery query containing base and term currency
* @return matching exchange rate, or {@code null} for unsupported currency pairs
*/
@Override
public ExchangeRate getExchangeRate(ConversionQuery conversionQuery) {
String baseCurrencyCode = conversionQuery.getBaseCurrency().getCurrencyCode();
String termCurrencyCode = conversionQuery.getCurrency().getCurrencyCode();
BigDecimal factor = resolveFactor(baseCurrencyCode, termCurrencyCode);
if (factor == null) {
return null;
}
return new ExchangeRateBuilder(getContext().getProviderName(), RateType.HISTORIC)
.setBase(conversionQuery.getBaseCurrency())
.setTerm(conversionQuery.getCurrency())
.setFactor(DefaultNumberValue.of(factor))
.build();
}
/**
* <p>Create a currency conversion for the given conversion query.</p>
*
* <p>The returned conversion should allow direct conversion using {@code amount.with(conversion)}.</p>
*
* @param conversionQuery query containing base and term currency
* @return currency conversion based on the local DukePoints rules
*/
@Override
public CurrencyConversion getCurrencyConversion(ConversionQuery conversionQuery) {
if (getExchangeRate(conversionQuery) == null) {
return null;
}
ConversionContext conversionContext = ConversionContextBuilder.create(getContext(), RateType.HISTORIC).build();
return new LazyBoundCurrencyConversion(conversionQuery, this, conversionContext);
}
/**
* <p>Resolve the conversion factor for a supported DukePoints currency pair.</p>
*
* @param baseCurrencyCode currency code of the base currency
* @param termCurrencyCode currency code of the target currency
* @return conversion factor for supported pairs, otherwise {@code null}
*/
private BigDecimal resolveFactor(String baseCurrencyCode, String termCurrencyCode) {
if (CHF.equals(baseCurrencyCode) && DukePointsCurrencyFactory.DKP.equals(termCurrencyCode)) {
return CHF_TO_DKP_FACTOR;
}
if (DukePointsCurrencyFactory.DKP.equals(baseCurrencyCode) && CHF.equals(termCurrencyCode)) {
return DKP_TO_CHF_FACTOR;
}
return null;
}
}

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src/main/resources/exchange-rates-hist.csv Normal file
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date,base,term,rate
2026-04-15,CHF,EUR,0.92
2026-04-15,CHF,USD,1.09
2026-04-15,EUR,CHF,1.09
2026-04-15,EUR,USD,1.18
2026-04-15,USD,CHF,0.92
2026-04-15,USD,EUR,0.85
2026-04-16,CHF,EUR,0.93
2026-04-16,CHF,USD,1.10
2026-04-16,EUR,CHF,1.08
2026-04-16,EUR,USD,1.19
2026-04-16,USD,CHF,0.91
2026-04-16,USD,EUR,0.84
2026-04-17,CHF,EUR,0.94
2026-04-17,CHF,USD,1.11
2026-04-17,EUR,CHF,1.06
2026-04-17,EUR,USD,1.20
2026-04-17,USD,CHF,0.90
2026-04-17,USD,EUR,0.83
1 date base term rate
2 2026-04-15 CHF EUR 0.92
3 2026-04-15 CHF USD 1.09
4 2026-04-15 EUR CHF 1.09
5 2026-04-15 EUR USD 1.18
6 2026-04-15 USD CHF 0.92
7 2026-04-15 USD EUR 0.85
8 2026-04-16 CHF EUR 0.93
9 2026-04-16 CHF USD 1.10
10 2026-04-16 EUR CHF 1.08
11 2026-04-16 EUR USD 1.19
12 2026-04-16 USD CHF 0.91
13 2026-04-16 USD EUR 0.84
14 2026-04-17 CHF EUR 0.94
15 2026-04-17 CHF USD 1.11
16 2026-04-17 EUR CHF 1.06
17 2026-04-17 EUR USD 1.20
18 2026-04-17 USD CHF 0.90
19 2026-04-17 USD EUR 0.83

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src/main/resources/exchange-rates.csv Normal file
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base,term,rate
CHF,EUR,0.93
CHF,USD,1.10
CHF,GBP,0.82
EUR,CHF,1.08
USD,CHF,0.91
GBP,CHF,1.22
EUR,USD,1.18
USD,EUR,0.85
1 base term rate
2 CHF EUR 0.93
3 CHF USD 1.10
4 CHF GBP 0.82
5 EUR CHF 1.08
6 USD CHF 0.91
7 GBP CHF 1.22
8 EUR USD 1.18
9 USD EUR 0.85

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src/test/java/swiss/fihlon/workshop/money/part4/CsvExchangeRateProviderTest.java Normal file
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package swiss.fihlon.workshop.money.part4;
import java.math.BigDecimal;
import javax.money.Monetary;
import javax.money.MonetaryAmount;
import javax.money.convert.ConversionQuery;
import javax.money.convert.ConversionQueryBuilder;
import javax.money.convert.CurrencyConversion;
import javax.money.convert.ExchangeRate;
import org.javamoney.moneta.Money;
import org.junit.jupiter.api.Test;
import static org.assertj.core.api.Assertions.assertThat;
class CsvExchangeRateProviderTest {
private final CsvExchangeRateProvider provider = new CsvExchangeRateProvider();
@Test
void shouldReturnProviderContextWithUsefulName() {
String providerName = provider.getContext().getProviderName();
assertThat(providerName).isNotBlank();
assertThat(providerName).containsIgnoringCase("csv");
}
@Test
void shouldReturnExchangeRateForChfToEur() {
ConversionQuery query = ConversionQueryBuilder.of()
.setBaseCurrency(Monetary.getCurrency("CHF"))
.setTermCurrency(Monetary.getCurrency("EUR"))
.build();
ExchangeRate exchangeRate = provider.getExchangeRate(query);
assertThat(exchangeRate).isNotNull();
assertThat(exchangeRate.getFactor().numberValueExact(BigDecimal.class)).isEqualByComparingTo("0.93");
}
@Test
void shouldReturnExchangeRateForUsdToEur() {
ConversionQuery query = ConversionQueryBuilder.of()
.setBaseCurrency(Monetary.getCurrency("USD"))
.setTermCurrency(Monetary.getCurrency("EUR"))
.build();
ExchangeRate exchangeRate = provider.getExchangeRate(query);
assertThat(exchangeRate).isNotNull();
assertThat(exchangeRate.getFactor().numberValueExact(BigDecimal.class)).isEqualByComparingTo("0.85");
}
@Test
void shouldReturnNullForUnknownCurrencyPair() {
ConversionQuery query = ConversionQueryBuilder.of()
.setBaseCurrency(Monetary.getCurrency("EUR"))
.setTermCurrency(Monetary.getCurrency("GBP"))
.build();
ExchangeRate exchangeRate = provider.getExchangeRate(query);
assertThat(exchangeRate).isNull();
}
@Test
void shouldConvertAmountUsingExchangeRate() {
ConversionQuery query = ConversionQueryBuilder.of()
.setBaseCurrency(Monetary.getCurrency("CHF"))
.setTermCurrency(Monetary.getCurrency("EUR"))
.build();
ExchangeRate exchangeRate = provider.getExchangeRate(query);
MonetaryAmount chfAmount = Money.of(100, "CHF");
MonetaryAmount convertedAmount = chfAmount.multiply(exchangeRate.getFactor().numberValueExact(BigDecimal.class));
assertThat(convertedAmount.getNumber().numberValueExact(BigDecimal.class)).isEqualByComparingTo("93.00");
}
@Test
void shouldCreateCurrencyConversion() {
ConversionQuery query = ConversionQueryBuilder.of()
.setBaseCurrency(Monetary.getCurrency("CHF"))
.setTermCurrency(Monetary.getCurrency("EUR"))
.build();
CurrencyConversion conversion = provider.getCurrencyConversion(query);
MonetaryAmount chfAmount = Money.of(100, "CHF");
MonetaryAmount convertedAmount = chfAmount.with(conversion);
assertThat(convertedAmount.getCurrency().getCurrencyCode()).isEqualTo("EUR");
assertThat(convertedAmount.getNumber().numberValueExact(BigDecimal.class)).isEqualByComparingTo("93.00");
}
}

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src/test/java/swiss/fihlon/workshop/money/part4/CsvHistoricalExchangeRateProviderTest.java Normal file
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package swiss.fihlon.workshop.money.part4;
import java.math.BigDecimal;
import java.time.LocalDate;
import javax.money.Monetary;
import javax.money.MonetaryAmount;
import javax.money.convert.ConversionQuery;
import javax.money.convert.ConversionQueryBuilder;
import javax.money.convert.CurrencyConversion;
import javax.money.convert.ExchangeRate;
import org.javamoney.moneta.Money;
import org.junit.jupiter.api.Test;
import static org.assertj.core.api.Assertions.assertThat;
class CsvHistoricalExchangeRateProviderTest {
private final CsvHistoricalExchangeRateProvider provider = new CsvHistoricalExchangeRateProvider();
@Test
void shouldReturnExchangeRateForChfToEurOn20260415() {
ConversionQuery query = ConversionQueryBuilder.of()
.setBaseCurrency(Monetary.getCurrency("CHF"))
.setTermCurrency(Monetary.getCurrency("EUR"))
.set(LocalDate.class, LocalDate.of(2026, 4, 15))
.build();
ExchangeRate exchangeRate = provider.getExchangeRate(query);
assertThat(exchangeRate).isNotNull();
assertThat(exchangeRate.getFactor().numberValueExact(BigDecimal.class)).isEqualByComparingTo("0.92");
}
@Test
void shouldReturnExchangeRateForChfToEurOn20260417() {
ConversionQuery query = ConversionQueryBuilder.of()
.setBaseCurrency(Monetary.getCurrency("CHF"))
.setTermCurrency(Monetary.getCurrency("EUR"))
.set(LocalDate.class, LocalDate.of(2026, 4, 17))
.build();
ExchangeRate exchangeRate = provider.getExchangeRate(query);
assertThat(exchangeRate).isNotNull();
assertThat(exchangeRate.getFactor().numberValueExact(BigDecimal.class)).isEqualByComparingTo("0.94");
}
@Test
void shouldReturnExchangeRateForUsdToChfOn20260416() {
ConversionQuery query = ConversionQueryBuilder.of()
.setBaseCurrency(Monetary.getCurrency("USD"))
.setTermCurrency(Monetary.getCurrency("CHF"))
.set(LocalDate.class, LocalDate.of(2026, 4, 16))
.build();
ExchangeRate exchangeRate = provider.getExchangeRate(query);
assertThat(exchangeRate).isNotNull();
assertThat(exchangeRate.getFactor().numberValueExact(BigDecimal.class)).isEqualByComparingTo("0.91");
}
@Test
void shouldReturnLastAvailableRateWhenDateIsMissing() {
ConversionQuery query = ConversionQueryBuilder.of()
.setBaseCurrency(Monetary.getCurrency("CHF"))
.setTermCurrency(Monetary.getCurrency("EUR"))
.set(LocalDate.class, LocalDate.of(2026, 4, 18))
.build();
ExchangeRate exchangeRate = provider.getExchangeRate(query);
assertThat(exchangeRate).isNotNull();
assertThat(exchangeRate.getFactor().numberValueExact(BigDecimal.class)).isEqualByComparingTo("0.94");
}
@Test
void shouldConvertAmountUsingHistoricalRate() {
ConversionQuery query = ConversionQueryBuilder.of()
.setBaseCurrency(Monetary.getCurrency("CHF"))
.setTermCurrency(Monetary.getCurrency("USD"))
.set(LocalDate.class, LocalDate.of(2026, 4, 17))
.build();
ExchangeRate exchangeRate = provider.getExchangeRate(query);
MonetaryAmount chfAmount = Money.of(100, "CHF");
MonetaryAmount convertedAmount = chfAmount.multiply(exchangeRate.getFactor().numberValueExact(BigDecimal.class));
assertThat(convertedAmount.getNumber().numberValueExact(BigDecimal.class)).isEqualByComparingTo("111.00");
}
@Test
void shouldCreateCurrencyConversionForHistoricalRate() {
ConversionQuery query = ConversionQueryBuilder.of()
.setBaseCurrency(Monetary.getCurrency("CHF"))
.setTermCurrency(Monetary.getCurrency("USD"))
.set(LocalDate.class, LocalDate.of(2026, 4, 17))
.build();
CurrencyConversion conversion = provider.getCurrencyConversion(query);
MonetaryAmount chfAmount = Money.of(100, "CHF");
MonetaryAmount convertedAmount = chfAmount.with(conversion);
assertThat(convertedAmount.getCurrency().getCurrencyCode()).isEqualTo("USD");
assertThat(convertedAmount.getNumber().numberValueExact(BigDecimal.class)).isEqualByComparingTo("111.00");
}
}

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package swiss.fihlon.workshop.money.part4;
import java.math.BigDecimal;
import javax.money.CurrencyUnit;
import javax.money.Monetary;
import javax.money.MonetaryAmount;
import javax.money.convert.ConversionQuery;
import javax.money.convert.ConversionQueryBuilder;
import javax.money.convert.CurrencyConversion;
import javax.money.convert.ExchangeRate;
import org.javamoney.moneta.Money;
import org.junit.jupiter.api.Test;
import static org.assertj.core.api.Assertions.assertThat;
class DukePointsExchangeRateProviderTest {
private final DukePointsCurrencyFactory currencyFactory = new DukePointsCurrencyFactory();
private final DukePointsExchangeRateProvider exchangeRateProvider = new DukePointsExchangeRateProvider();
@Test
void shouldCreateDkpCurrency() {
CurrencyUnit dkp = currencyFactory.createDkpCurrency();
assertThat(dkp).isNotNull();
assertThat(dkp.getCurrencyCode()).isEqualTo("DKP");
}
@Test
void shouldConvertChfToDkp() {
CurrencyUnit dkp = currencyFactory.createDkpCurrency();
ConversionQuery query = ConversionQueryBuilder.of()
.setBaseCurrency(Monetary.getCurrency("CHF"))
.setTermCurrency(dkp)
.build();
ExchangeRate exchangeRate = exchangeRateProvider.getExchangeRate(query);
MonetaryAmount chfAmount = Money.of(100, "CHF");
MonetaryAmount convertedAmount = chfAmount.multiply(exchangeRate.getFactor().numberValueExact(BigDecimal.class));
assertThat(convertedAmount.getNumber().numberValueExact(BigDecimal.class)).isEqualByComparingTo("10.00");
}
@Test
void shouldConvertDkpToChf() {
CurrencyUnit dkp = currencyFactory.createDkpCurrency();
ConversionQuery query = ConversionQueryBuilder.of()
.setBaseCurrency(dkp)
.setTermCurrency(Monetary.getCurrency("CHF"))
.build();
ExchangeRate exchangeRate = exchangeRateProvider.getExchangeRate(query);
MonetaryAmount dkpAmount = Money.of(5, dkp);
MonetaryAmount convertedAmount = dkpAmount.multiply(exchangeRate.getFactor().numberValueExact(BigDecimal.class));
assertThat(convertedAmount.getNumber().numberValueExact(BigDecimal.class)).isEqualByComparingTo("50.00");
}
@Test
void shouldReturnNullForUnsupportedCurrencyPair() {
CurrencyUnit dkp = currencyFactory.createDkpCurrency();
ConversionQuery query = ConversionQueryBuilder.of()
.setBaseCurrency(Monetary.getCurrency("EUR"))
.setTermCurrency(dkp)
.build();
ExchangeRate exchangeRate = exchangeRateProvider.getExchangeRate(query);
assertThat(exchangeRate).isNull();
}
@Test
void shouldConvertUsingCurrencyConversion() {
CurrencyUnit dkp = currencyFactory.createDkpCurrency();
ConversionQuery query = ConversionQueryBuilder.of()
.setBaseCurrency(Monetary.getCurrency("CHF"))
.setTermCurrency(dkp)
.build();
CurrencyConversion conversion = exchangeRateProvider.getCurrencyConversion(query);
MonetaryAmount chfAmount = Money.of(100, "CHF");
MonetaryAmount convertedAmount = chfAmount.with(conversion);
assertThat(convertedAmount.getCurrency().getCurrencyCode()).isEqualTo("DKP");
assertThat(convertedAmount.getNumber().numberValueExact(BigDecimal.class)).isEqualByComparingTo("10.00");
}
}