It is very unclear for me in which case I would want to use a value receiver instead of always using a pointer receiver.
To recap from the docs:

type T struct {
    a int
func (tv  T) Mv(a int) int         { return 0 }  // value receiver
func (tp *T) Mp(f float32) float32 { return 1 }  // pointer receiver

The docs says also "For types such as basic types, slices, and small structs, a value receiver is very cheap so unless the semantics of the method requires a pointer, a value receiver is efficient and clear."

First point it says it is "very cheap", but the question is more is it cheaper then pointer receiver. So I made a small benchmark (code on gist) which showed me, that pointer receiver is faster even for a struct that has only one string field. These are the results:

// Struct one empty string property
BenchmarkChangePointerReceiver  2000000000               0.36 ns/op
BenchmarkChangeItValueReceiver  500000000                3.62 ns/op

// Struct one zero int property
BenchmarkChangePointerReceiver  2000000000               0.36 ns/op
BenchmarkChangeItValueReceiver  2000000000               0.36 ns/op

(Edit: Please note that second point became invalid in newer go versions, see comments) .
Second point it says, it is "efficient and clear" which is more a matter of taste, isn't it? Personally I prefer consistency by using everywhere same way. Efficiency in what sense? performance wise it seems pointer are almost always more efficient. Few test-runs with one int property showed minimal advantage of Value receiver (range of 0.01-0.1 ns/op)

Can someone tell me a case where a value receiver clearly makes more sense then a pointer receiver? Or am I doing something wrong in the benchmark, did I overlooked other factors?

  • 3
    I ran similar benchmarks with a single string field and also with two fields: string and int fields. I got faster results from the value receiver. BenchmarkChangePointerReceiver-4 10000000000 0.99 ns/op BenchmarkChangeItValueReceiver-4 10000000000 0.33 ns/op This is using Go 1.8. I wonder if there were compiler optimizations made since you last ran the benchmarks. See gist for more details. – pbitty Mar 8 '17 at 17:47
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    You're right. Running my original benchmark using Go1.9, I get different results now as well. Pointer Receiver 0.60 ns/op, Value receiver 0.38 ns/op – Chrisport Nov 27 '17 at 9:33

Note that the FAQ does mention consistency

Next is consistency. If some of the methods of the type must have pointer receivers, the rest should too, so the method set is consistent regardless of how the type is used. See the section on method sets for details.

As mentioned in this thread:

The rule about pointers vs. values for receivers is that value methods can be invoked on pointers and values, but pointer methods can only be invoked on pointers


Can someone tell me a case where a value receiver clearly makes more sense then a pointer receiver?

The Code Review comment can help:

  • If the receiver is a map, func or chan, don't use a pointer to it.
  • If the receiver is a slice and the method doesn't reslice or reallocate the slice, don't use a pointer to it.
  • If the method needs to mutate the receiver, the receiver must be a pointer.
  • If the receiver is a struct that contains a sync.Mutex or similar synchronizing field, the receiver must be a pointer to avoid copying.
  • If the receiver is a large struct or array, a pointer receiver is more efficient. How large is large? Assume it's equivalent to passing all its elements as arguments to the method. If that feels too large, it's also too large for the receiver.
  • Can function or methods, either concurrently or when called from this method, be mutating the receiver? A value type creates a copy of the receiver when the method is invoked, so outside updates will not be applied to this receiver. If changes must be visible in the original receiver, the receiver must be a pointer.
  • If the receiver is a struct, array or slice and any of its elements is a pointer to something that might be mutating, prefer a pointer receiver, as it will make the intention more clear to the reader.
  • If the receiver is a small array or struct that is naturally a value type (for instance, something like the time.Time type), with no mutable fields and no pointers, or is just a simple basic type such as int or string, a value receiver makes sense.
    A value receiver can reduce the amount of garbage that can be generated; if a value is passed to a value method, an on-stack copy can be used instead of allocating on the heap. (The compiler tries to be smart about avoiding this allocation, but it can't always succeed.) Don't choose a value receiver type for this reason without profiling first.
  • Finally, when in doubt, use a pointer receiver.

The part in bold is found for instance in net/http/server.go#Write():

// Write writes the headers described in h to w.
// This method has a value receiver, despite the somewhat large size
// of h, because it prevents an allocation. The escape analysis isn't
// smart enough to realize this function doesn't mutate h.
func (h extraHeader) Write(w *bufio.Writer) {
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    Thanks for this detailed answer and the references. – Chrisport Jan 5 '15 at 8:55
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    The rule about pointers vs. values for receivers is that value methods can be invoked on pointers and values, but pointer methods can only be invoked on pointers Not true, actually. Both value receiver and pointer receiver methods can be invoked on a correctly-typed pointer or non-pointer. Regardless of what the method is called on, within the method body the identifier of the receiver refers to a by-copy value when a value receiver is used, and a pointer when a pointer receiver is used: See play.golang.org/p/3WHGaAbURM – Hart Simha May 4 '17 at 23:17
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    There is a great explanation here "If x is addressable and &x's method set contains m, x.m() is shorthand for (&x).m(). " – tera Dec 10 '17 at 5:51
  • @tera Yes: that is discussed at stackoverflow.com/q/43953187/6309 – VonC Dec 10 '17 at 6:26
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    Great answer but I strongly dissagree with this point: "as it will make the intention more clear", NOPE, a clean API, X as argument and Y as a return value is a clear intention. Passing a Struct by pointer and spending time on carefully reading the code to check what all attributes get modified is far from clear, maintainable. – BlocksByLukas Aug 21 '18 at 21:53

To add additionally to @VonC great, informative answer.

I am surprised no one really mentioned the maintainance cost once the project gets larger, old devs leave and new one comes. Go surely is a young language.

Generally speaking, I try to avoid pointers when I can but they do have their place and beauty.

I use pointers when:

  • working with large datasets
  • have a struct maintaining state, e.g. TokenCache,
    • I make sure ALL fields are PRIVATE, interaction is possible only via defined method receivers
    • I don't pass this function to any goroutine


type TokenCache struct {
    cache map[string]map[string]bool

func (c *TokenCache) Add(contract string, token string, authorized bool) {
    tokens := c.cache[contract]
    if tokens == nil {
        tokens = make(map[string]bool)

    tokens[token] = authorized
    c.cache[contract] = tokens

Reasons why I avoid pointers:

  • pointers are not concurrently safe (the whole point of GoLang)
  • once pointer receiver, always pointer receiver (for all Struct's methods for consistency)
  • mutexes are surely more expensive, slower and harder to maintain comparing to the "value copy cost"
  • speaking of "value copy cost", is that really an issue? Premature optimization is root to all evil, you can always add pointers later
  • it directly, conciously forces me to design small Structs
  • pointers can be mostly avoided by designing pure functions with clear intention and obvious I/O
  • garbage collection is harder with pointers I believe
  • easier to argue about encapsulation, responsibilities
  • keep it simple, stupid (yes, pointers can be tricky because you never know the next project's dev)
  • unit testing is like walking through pink garden (slovak only expression?), means easy
  • no NIL if conditions (NIL can be passed where a pointer was expected)

My rule of thumb, write as many encapsulated methods as possible such as:

package rsa

// EncryptPKCS1v15 encrypts the given message with RSA and the padding scheme from PKCS#1 v1.5.
func EncryptPKCS1v15(rand io.Reader, pub *PublicKey, msg []byte) ([]byte, error) {
    return []byte("secret text"), nil

cipherText, err := rsa.EncryptPKCS1v15(rand, pub, keyBlock) 


This question inspired me to research the topic more and write a blog post about it https://medium.com/gophersland/gopher-vs-object-oriented-golang-4fa62b88c701

  • 3
    Interesting addition to my answer. +1 – VonC Aug 21 '18 at 21:54
  • 1
    Oh from VonC itself! Honor sir :) Appreciated! – BlocksByLukas Aug 21 '18 at 21:55

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