This is a great idiom I've been using since reading Effective Java. I've been trying to find a C++ equivalent or something similar and have had little luck. The traditional builder pattern found in the GoF book isn't really applicable in my case. It's one complicated object that has a very messy constructor. Below is a small implementation of the Java.

class ComplicatedObject {

    private String field1;
    private String field2;
    private int      field3;

    private ComplicatedObject(Builder builder) {

            this.field1 = builder.myField1;
            this.field2 = builder.myField2;
            this.field3 = builder.myField3;


    public static class Builder {

            private String myField1 = "some default";
            private String myField2 = "some other default";
            private int           myField3 = -1;

            public Builder() { }
            public Builder field1(String val) {
                    this.myField1 = val;
                    return this;
            public Builder field2(String val) {
                    this.myField2 = val;
                    return this;
            public Builder field3(int val) {
                    this.myField3 = val;
                    return this;
            public ComplicatedObject build() {
                    return new ComplicatedObject(this);
    public static void main(final String[] args) {
    //built like this

            ComplicatedObject obj = new ComplicatedObject.Builder().field1("blah").field2("lol").field3(4).build();

  • 1
    You can do this with almost no modification in C++ (just use references as the return type for the methods of the Builder class). – Matteo Italia Sep 22 '11 at 19:26
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    Mike, and every year we build a layer on top of those layers built last year.... But if you are still into it, check this out - – user405725 Sep 22 '11 at 19:28
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    @VladLazarenko I looked at that initially, but the process of building an object by function chaining tends to be the best approach when you're not designing a family of objects, but instead just 1 object that has a lot of user configurable member variables – Mike Lyons Sep 22 '11 at 20:11
  • @Mike: Strongly disagree. Just create that object and assign fields one by one. Why the hell do you need to put it trough "builder" class... Well, unless you are paid per line of code. – user405725 Sep 22 '11 at 20:31
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    @Vlad strongly disagree :) The idea behind builder is primarily to allow the constructor to construct a complete object. The SomeClass s = new SomeClass(); s.setAttr1(..); s.setAttr2(..) etc is essentially appropriate for plain old data objects and an abomination in OO IMHO. – Miserable Variable Sep 23 '11 at 9:21
up vote 6 down vote accepted

Not only can it be adapted to C++ but rather the idiom has been adapted from C++.

I think the first time I heard of this idiom was before Java came into existence. IIRC Bjarne Stroustrup mentions this in C++ 2nd Edition as an explanation of why C++ does not need Smalltalk style named parameters.

I could have my dates wrong but this is about 15 years old in C++.

EDIT: It seems it wad first described in Design and Evolution of C++ (6.5.1) where it was called named function parameters

  • +1: I believe Builder is one of the original which had examples in C++ and smalltalk. – Peter Lawrey Sep 23 '11 at 7:55
  • Thanks @PeterLawrey. If it was in the original GoF book then it was already prior art in 1994 :) – Miserable Variable Sep 23 '11 at 8:32
  • I am not convinced this is the first time a builder pattern was ever used in any language, but clearly examples in C++ pre date Java and have been championed by C++'s designer. – Peter Lawrey Sep 23 '11 at 9:38
  • @Peter agree completely...I don't see why it would not have been used before, though I myself don't have previous experience. Thanks for your input. – Miserable Variable Sep 23 '11 at 10:00
  • @Peter Lawrence: Ofc it is not the first time that they ever where used! But it was the first time they got gatherd in a book and named! The GoF book very often gives references where the pattern was found/discoverd and used before, e.g. in the ET++ library (C++ library) or at Taligent Inc. or PARC etc. – Angel O'Sphere Sep 23 '11 at 12:57
#include <iostream>
#include <string>
using namespace std;

class ComplicatedObject {
    public: class Builder {
            friend class ComplicatedObject;

            private: string myField1;
            private: string myField2;
            private: int    myField3;

            public: Builder()
                    : myField1("some default"),
                     myField2 ("some other default"),
            { }
            public: Builder& field1(const string& val) {
                    myField1 = val;
                    return *this;
            public: Builder& field2(const string& val) {
                    myField2 = val;
                    return *this;
            public: Builder& field3(int val) {
                    myField3 = val;
                    return *this;
            public: ComplicatedObject build() {
                    return ComplicatedObject(*this);

    private: string field1;
    private: string field2;
    private: int      field3;

    private: ComplicatedObject(const Builder& builder) 

int main(int argc, char** argv) {
    if (argc < 4) {
        std::cout << "not enough params.";
        return 1;
    ComplicatedObject obj(ComplicatedObject::Builder().field1("blah").field2("lol").field3(4));


I made minimal changes to make it C++, fast, and safe.

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