# For a struct vertex, what's the difference between map[int]vertex and map[int]*vertex?

To define a map from int to struct vertex, should I define `map[int]vertex` or `map[int]*vertex`? Which one is preferred?

I extended Chickencha's code:

``````package main

type vertex struct {
x, y int
}

func main() {
a := make(map[int]vertex)
b := make(map[int]*vertex)

v := &vertex{0, 0}
a[0] = *v
b[0] = v

v.x, v.y = 4, 4
println(a[0].x, a[0].y, b[0].x, b[0].y)

//a[0].x = 3 // cannot assign to (a[0]).x
//a[0].y = 3 // cannot assign to (a[0]).y
b[0].x = 3
b[0].y = 3
println(a[0].x, a[0].y, b[0].x, b[0].y)

u1 := a[0]
u1.x = 2
u1.y = 2
u2 := b[0]
u2.x = 2
u2.y = 2
println(a[0].x, a[0].y, b[0].x, b[0].y)
}
``````

The output:

``````0 0 4 4
0 0 3 3
0 0 2 2
``````

From the output, my understanding is, if I want to change the struct member in place, I must use pointer to the struct. But I'm still not sure the underlying reasons. Especially, why I cannot assign to a[0].x?

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The main difference is that `map[int]vertex` stores vertex values and `map[int]*vertex` stores vertex references (pointers). The output of the following program should help illustrate:

``````package main

type vertex struct {
x, y int
}

func main() {
a := make(map[int]vertex)
b := make(map[int]*vertex)

v := &vertex{0, 0}
a[0] = *v
b[0] = v

v.x, v.y = 4, 4
println(a[0].x, a[0].y, b[0].x, b[0].y)
}
``````

Output:

``````0 0 4 4
``````

The vertex stored in b is modified by the `v.x, v.y = 4, 4` line, while the vertex stored in a is not.

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`map[int]vertex` stores a value and `map[int]*vertex` stores a pointer for the map element. In Go, slices, maps, and channels are reference types. –  peterSO Jun 20 '10 at 22:07
Right, I guess my wording could've been unclear. I'll edit it so hopefully it says what I mean. –  Evan Shaw Jun 21 '10 at 2:13

The answer to this question is likely to be dependent on how Go maps are implemented. For the current implementation, I would take a look the Go map runtime header, hashmap.h, and code, hashmap.c, files. It's also going to depend on how you use the map e.g. what type and volume of activities against the map, key and element data structures, etc.

To update a vector element value in place, read the vector element value from the map, update the element value, write the updated element value to the map. For example

``````package main

type vertex struct {
x, y int
}

func main() {
a := make(map[int]vertex)
a[0] = vertex{0, 0}

println(a[0].x, a[0].y)
v0 := a[0]
v0.x = 1
a[0] = v0
println(a[0].x, a[0].y)
}
``````

Output:

``````0 0
1 0
``````
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