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variable.go
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variable.go
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package main
import "fmt"
func main() {
// --------------
// Built-in types
// --------------
// Type provides integrity and readability.
// - What is the amount of memory that we allocate?
// - What does that memory represent?
// Type can be specific such as int32 or int64.
// For example,
// - uint8 contains a base 10 number using one byte of memory
// - int32 contains a base 10 number using 4 bytes of memory.
// When we declare a type without being very specific, such as uint or int, it gets mapped
// based on the architecture we are building the code against.
// On a 64-bit OS, int will map to int64. Similarly, on a 32 bit OS, it becomes int32.
// The word size is the number of bytes in a word, which matches our address size.
// For example, in 64-bit architecture, the word size is 64 bit (8 bytes), address size is 64
// bit then our integer should be 64 bit.
// ------------------
// Zero value concept
// ------------------
// Every single value we create must be initialized. If we don't specify it, it will be set to
// the zero value. The entire allocation of memory, we reset that bit to 0.
// - Boolean false
// - Integer 0
// - Floating Point 0
// - Complex 0i
// - String "" (empty string)
// - Pointer nil
// Strings are a series of uint8 types.
// A string is a two word data structure: first word represents a pointer to a backing array, the
// second word represents its length.
// If it is a zero value then the first word is nil, the second word is 0.
// ----------------------
// Declare and initialize
// ----------------------
// var is the only guarantee to initialize a zero value for a type.
var a int
var b string
var c float64
var d bool
fmt.Printf("var a int \t %T [%v]\n", a, a)
fmt.Printf("var b string \t %T [%v]\n", b, b)
fmt.Printf("var c float64 \t %T [%v]\n", c, c)
fmt.Printf("var d bool \t %T [%v]\n\n", d, d)
// Using the short variable declaration operator, we can define and initialize at the same time.
aa := 10
bb := "hello" // 1st word points to a array of characters, 2nd word is 5 bytes
cc := 3.14159
dd := true
fmt.Printf("aa := 10 \t %T [%v]\n", aa, aa)
fmt.Printf("bb := \"hello\" \t %T [%v]\n", bb, bb)
fmt.Printf("cc := 3.14159 \t %T [%v]\n", cc, cc)
fmt.Printf("dd := true \t %T [%v]\n\n", dd, dd)
// ---------------------
// Conversion vs casting
// ---------------------
// Go doesn't have casting, but conversion.
// Instead of telling a compiler to pretend to have some more bytes, we have to allocate more
// memory.
// Specify type and perform a conversion.
aaa := int32(10)
fmt.Printf("aaa := int32(10) %T [%v]\n", aaa, aaa)
}