# Adding up BigDecimals using Streams

I have a collection of BigDecimals (in this example, a `LinkedList`) that I would like to add together. Is it possible to use streams to calculate their sum?

I noticed the `Stream` class has several methods

``````Stream::mapToInt
Stream::mapToDouble
Stream::mapToLong
``````

Each of which has a convenient `sum()` method. But, as we know, `float` and `double` floating-point types make trade-offs in accuracy for speed.

So, is there a convenient way to sum up BigDecimals?

This is the code I have so far.

``````public static void main(String[] args) {
LinkedList<BigDecimal> values = new LinkedList<>();
values.add(BigDecimal.valueOf(.1));
values.add(BigDecimal.valueOf(1.1));
values.add(BigDecimal.valueOf(2.1));
values.add(BigDecimal.valueOf(.1));

// Classical Java approach
BigDecimal sum = BigDecimal.ZERO;
for(BigDecimal value : values) {
System.out.println(value);
sum = sum.add(value);
}
System.out.println("Sum = " + sum);

// Java 8 approach
values.forEach((value) -> System.out.println(value));
System.out.println("Sum = " + values.stream().mapToDouble(BigDecimal::doubleValue).sum());
System.out.println(values.stream().mapToDouble(BigDecimal::doubleValue).summaryStatistics().toString());
}
``````

As you can see, I am summing up the BigDecimals using `BigDecimal::doubleValue()`, but this is (as expected) not precise.

Post-answer edit for posterity:

Both answers were extremely helpful. I wanted to add a little: my real-life scenario does not involve a collection of raw `BigDecimal`s, they are wrapped in an invoice. But, I was able to modify Aman Agnihotri's answer to account for this by using the `map()` function for stream:

``````public static void main(String[] args) {

LinkedList<Invoice> invoices = new LinkedList<>();
invoices.add(new Invoice("C1", "I-001", BigDecimal.valueOf(.1), BigDecimal.valueOf(10)));
invoices.add(new Invoice("C2", "I-002", BigDecimal.valueOf(.7), BigDecimal.valueOf(13)));
invoices.add(new Invoice("C3", "I-003", BigDecimal.valueOf(2.3), BigDecimal.valueOf(8)));
invoices.add(new Invoice("C4", "I-004", BigDecimal.valueOf(1.2), BigDecimal.valueOf(7)));

// Classical Java approach
BigDecimal sum = BigDecimal.ZERO;
for(Invoice invoice : invoices) {
BigDecimal total = invoice.unit_price.multiply(invoice.quantity);
System.out.println(total);
sum = sum.add(total);
}
System.out.println("Sum = " + sum);

// Java 8 approach
invoices.forEach((invoice) -> System.out.println(invoice.total()));
System.out.println("Sum = " + invoices.stream().map((x) -> x.total()).reduce((x, y) -> x.add(y)).get());
}

static class Invoice {
String company;
String invoice_number;
BigDecimal unit_price;
BigDecimal quantity;

public Invoice() {
unit_price = BigDecimal.ZERO;
quantity = BigDecimal.ZERO;
}

public Invoice(String company, String invoice_number, BigDecimal unit_price, BigDecimal quantity) {
this.company = company;
this.invoice_number = invoice_number;
this.unit_price = unit_price;
this.quantity = quantity;
}

public BigDecimal total() {
return unit_price.multiply(quantity);
}

public void setUnit_price(BigDecimal unit_price) {
this.unit_price = unit_price;
}

public void setQuantity(BigDecimal quantity) {
this.quantity = quantity;
}

public void setInvoice_number(String invoice_number) {
this.invoice_number = invoice_number;
}

public void setCompany(String company) {
this.company = company;
}

public BigDecimal getUnit_price() {
return unit_price;
}

public BigDecimal getQuantity() {
return quantity;
}

public String getInvoice_number() {
return invoice_number;
}

public String getCompany() {
return company;
}
}
``````
• The // Classical Java approach is the best one. Commented Jul 1, 2022 at 16:33

## Original answer

Yes, this is possible:

``````List<BigDecimal> bdList = new ArrayList<>();
//populate list
BigDecimal result = bdList.stream()
.reduce(BigDecimal.ZERO, BigDecimal::add);
``````

What it does is:

1. Obtain a `List<BigDecimal>`.
2. Turn it into a `Stream<BigDecimal>`
3. Call the reduce method.

3.1. We supply an identity value for addition, namely `BigDecimal.ZERO`.

3.2. We specify the `BinaryOperator<BigDecimal>`, which adds two `BigDecimal`'s, via a method reference `BigDecimal::add`.

## Updated answer, after edit

I see that you have added new data, therefore the new answer will become:

``````List<Invoice> invoiceList = new ArrayList<>();
//populate
Function<Invoice, BigDecimal> totalMapper = invoice -> invoice.getUnit_price().multiply(invoice.getQuantity());
BigDecimal result = invoiceList.stream()
.map(totalMapper)
.reduce(BigDecimal.ZERO, BigDecimal::add);
``````

It is mostly the same, except that I have added a `totalMapper` variable, that has a function from `Invoice` to `BigDecimal` and returns the total price of that invoice.

Then I obtain a `Stream<Invoice>`, map it to a `Stream<BigDecimal>` and then reduce it to a `BigDecimal`.

Now, from an OOP design point I would advice you to also actually use the `total()` method, which you have already defined, then it even becomes easier:

``````List<Invoice> invoiceList = new ArrayList<>();
//populate
BigDecimal result = invoiceList.stream()
.map(Invoice::total)
.reduce(BigDecimal.ZERO, BigDecimal::add);
``````

Here we directly use the method reference in the `map` method.

• +1 for `Invoice::total` vs `invoice -> invoice.total()`. Commented Mar 25, 2014 at 18:50
• +1 for method references and for adding line breaks between stream operations, both of which IMHO improve readability considerably. Commented Mar 26, 2014 at 0:37
• how would it work if i wanted to add lets say Invoice::total and Invoice::tax into a new array Commented Nov 13, 2015 at 5:26
• Java standard library already have functions for summing integers/doubles like `Collectors.summingInt()`, but misses them for `BigDecimal`s. Instead of writing `reduce(blah blah blah)` that is hard to read it would be better to write missing collector for `BigDecimal` and have `.collect(summingBigDecimal())` at the end of your pipeline. Commented May 22, 2017 at 17:13
• This approach can lead to NullponterException Commented Sep 20, 2017 at 12:17

This post already has a checked answer, but the answer doesn't filter for null values. The correct answer should prevent null values by using the Object::nonNull function as a predicate.

``````BigDecimal result = invoiceList.stream()
.map(Invoice::total)
.filter(Objects::nonNull)
.filter(i -> (i.getUnit_price() != null) && (i.getQuantity != null))
.reduce(BigDecimal.ZERO, BigDecimal::add);
``````

This prevents null values from attempting to be summed as we reduce.

• The OP says "I have a collection of BigDecimal", null is not a BigDecimal. Commented Jul 1, 2022 at 16:32

# Define a reusable `Collector`

You can sum up the values of a `BigDecimal` stream using a reusable `Collector` named `summingUp`:

``````BigDecimal sum = bigDecimalStream.collect(summingUp());
``````

The `Collector` can be implemented like this:

``````public static Collector<BigDecimal, ?, BigDecimal> summingUp() {
return Collectors.reducing(BigDecimal.ZERO, BigDecimal::add);
}
``````

Use this approach to sum the list of BigDecimal:

``````List<BigDecimal> values = ... // List of BigDecimal objects
BigDecimal sum = values.stream().reduce((x, y) -> x.add(y)).get();
``````

This approach maps each BigDecimal as a BigDecimal only and reduces them by summing them, which is then returned using the `get()` method.

Here's another simple way to do the same summing:

``````List<BigDecimal> values = ... // List of BigDecimal objects
BigDecimal sum = values.stream().reduce(BigDecimal::add).get();
``````

Update

If I were to write the class and lambda expression in the edited question, I would have written it as follows:

``````import java.math.BigDecimal;
import java.util.LinkedList;

public class Demo
{
public static void main(String[] args)
{
LinkedList<Invoice> invoices = new LinkedList<>();
invoices.add(new Invoice("C1", "I-001", BigDecimal.valueOf(.1), BigDecimal.valueOf(10)));
invoices.add(new Invoice("C2", "I-002", BigDecimal.valueOf(.7), BigDecimal.valueOf(13)));
invoices.add(new Invoice("C3", "I-003", BigDecimal.valueOf(2.3), BigDecimal.valueOf(8)));
invoices.add(new Invoice("C4", "I-004", BigDecimal.valueOf(1.2), BigDecimal.valueOf(7)));

// Java 8 approach, using Method Reference for mapping purposes.
invoices.stream().map(Invoice::total).forEach(System.out::println);
System.out.println("Sum = " + invoices.stream().map(Invoice::total).reduce((x, y) -> x.add(y)).get());
}

// This is just my style of writing classes. Yours can differ.
static class Invoice
{
private String company;
private String number;
private BigDecimal unitPrice;
private BigDecimal quantity;

public Invoice()
{
unitPrice = quantity = BigDecimal.ZERO;
}

public Invoice(String company, String number, BigDecimal unitPrice, BigDecimal quantity)
{
setCompany(company);
setNumber(number);
setUnitPrice(unitPrice);
setQuantity(quantity);
}

public BigDecimal total()
{
return unitPrice.multiply(quantity);
}

public String getCompany()
{
return company;
}

public void setCompany(String company)
{
this.company = company;
}

public String getNumber()
{
return number;
}

public void setNumber(String number)
{
this.number = number;
}

public BigDecimal getUnitPrice()
{
return unitPrice;
}

public void setUnitPrice(BigDecimal unitPrice)
{
this.unitPrice = unitPrice;
}

public BigDecimal getQuantity()
{
return quantity;
}

public void setQuantity(BigDecimal quantity)
{
this.quantity = quantity;
}
}
}
``````
• Isn't `.map(n -> n)` useless there? Also `get()` is not needed. Commented Mar 25, 2014 at 13:48
• @RohitJain: Updated. Thanks. I used `get()` as it returns the value of the `Optional` which is returned by the `reduce` call. If one wants to work with the `Optional` or just print out the sum, then yeah, `get()` isn't needed. But printing the Optional directly prints `Optional[<Value>]` based syntax which I doubt the user would need. So `get()` is needed in a way to get the value from the `Optional`. Commented Mar 25, 2014 at 13:56
• @ryvantage: Yes, your approach is exactly how I would have done it. :) Commented Mar 25, 2014 at 18:09
• Don't use an unconditional `get` call! If `values` is an empty list the optional will contain no value and will throw a `NoSuchElementException` when `get` is called. You can use `values.stream().reduce(BigDecimal::add).orElse(BigDecimal.ZERO)` instead.
– eee
Commented Apr 2, 2016 at 10:31

If you don't mind a third party dependency, there is a class named Collectors2 in Eclipse Collections which contains methods returning Collectors for summing and summarizing BigDecimal and BigInteger. These methods take a Function as a parameter so you can extract a BigDecimal or BigInteger value from an object.

``````List<BigDecimal> list = mList(
BigDecimal.valueOf(0.1),
BigDecimal.valueOf(1.1),
BigDecimal.valueOf(2.1),
BigDecimal.valueOf(0.1));

BigDecimal sum =
list.stream().collect(Collectors2.summingBigDecimal(e -> e));
Assert.assertEquals(BigDecimal.valueOf(3.4), sum);

BigDecimalSummaryStatistics statistics =
list.stream().collect(Collectors2.summarizingBigDecimal(e -> e));
Assert.assertEquals(BigDecimal.valueOf(3.4), statistics.getSum());
Assert.assertEquals(BigDecimal.valueOf(0.1), statistics.getMin());
Assert.assertEquals(BigDecimal.valueOf(2.1), statistics.getMax());
Assert.assertEquals(BigDecimal.valueOf(0.85), statistics.getAverage());
``````

Note: I am a committer for Eclipse Collections.