Modifying the Value Dereferenced by a Pointer in Go
Passing pointers to functions allows for modifying the values they refer to. However, it requires understanding the inner workings of pointers to perform this operation correctly.
Dereferencing Pointers
To modify a value pointed to by a pointer, it is essential to dereference the pointer. In Go, the asterisk operator (*) is used for this purpose. By dereferencing a pointer, you can access the underlying value it points to.
Changing Pointer Values vs. Pointed Values
The key distinction is between changing the value of a pointer and changing the value it points to. Assigning a new value to a pointer variable only changes the address it stores. For instance, the code snippet below does not modify the value pointed to:
<code class="go">func f(p *Test) {
p = &Test{4}
}</code>
Modifying Pointed Values
To modify the value pointed to, it is necessary to use the dereferencing operator. This can be done explicitly or implicitly.
Explicit Dereferencing:
<code class="go">func f(p *Test) {
*p = Test{4}
}</code>
Implicit Dereferencing:
<code class="go">func f(p *Test) {
p.Value = 4
}</code>
In both cases, the value pointed to by p is changed.
Pointer to Pointer Modification
Passing a pointer to a pointer (*Test) allows for modifying the pointer value stored in the main function. However, it will not change the value pointed to by the original pointer.
<code class="go">func f(p **Test) {
*p = &Test{4}
}</code>
In summary, when passing pointers to functions, it is crucial to understand the difference between modifying a pointer's value and modifying the value it points to. Dereferencing pointers is essential for performing the latter operation, enabling modifications to the underlying data values.
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