Ejemplo n.º 1
0
/**
Basic types

Go's basic types are

bool

string

int  int8  int16  int32  int64
uint uint8 uint16 uint32 uint64 uintptr

float32 float64

complex64 complex128
**/

var (
	ToBe   bool       = false
	MaxInt uint64     = 1<<64 - 1
	z      complex128 = cmath.Sqrt(-5 + 12i)
)

func main() {
	const f = "%T(%v)\n"
	fmt.Printf(f, ToBe, ToBe)
	fmt.Printf(f, MaxInt, MaxInt)
	fmt.Printf(f, z, z)
}
func main() {

	fmt.Println("--------------- section 1 ----------------")

	var s1 string = "this is a string"
	fmt.Println(s1)

	// type inferred
	var s2 = "this is another string"
	fmt.Println(s2)

	// shorthand
	s3 := "this is yet another string"
	fmt.Println(s3)

	// working with strings
	fmt.Println(s3[5] == 'i')
	// assigns a new string to variable, doesn't change contents string
	s3 = "that could be a string"
	fmt.Println(s3[5] == 'i')

	//   s3[5] = 'a' // error: invalid left hand side of argument

	fmt.Println("--------------- section 2 ----------------")

	// working with other native types
	var a int = 4                         // machine-size (32bit or 64bit)
	var b int8 = -128                     // byte  (signed)
	var bu uint8 = 255                    // byte  (unsigned)
	var w int16 = -32768                  // word  (16bits) (signed)
	var wu uint16 = 65535                 // word  (16bits) (unsigned)
	var dw int32 = -1000000               // dword (32bits) (signed)
	var du uint32 = 1000000               // dword (32bits) (unsigned)
	var qw int64 = -100000000000000       // qword (64bits) (signed)
	var qu uint64 = 100000000000000       // qword (64bits) (unsigned)
	var f3 float32 = 3.1415999999999      // 32bit float
	var f6 float64 = 3.1415999999999      // 64bit float
	var c3 complex64 = complex(1.0, 1.0)  // 2x32bit complex float
	var c6 complex128 = complex(0.0, 1.0) // 2x64bit complex float

	fmt.Println(a, b, bu, w, wu, dw, du, qw, qu)
	fmt.Println(a + 10)
	fmt.Println(qu + 10)
	fmt.Println(f3, f6, c3, c6)
	fmt.Println(c3 * c3)
	fmt.Println(cmath.Sqrt(-1))
	//    fmt.Println(a + b) // error: incompatible types in binary expression

	// arrays
	var arrA [5]int = [5]int{1, 2, 3, 5, 8} // or  = [...]int{1,2,3,5,8], compiler counts
	fmt.Println(arrA)
	fmt.Println(arrA[3])
	var arrB [6]int
	//  arrB = arrA    // error: incompatible types in assignment
	var sliceB []int

	sliceB = arrA[:] // converts array to slice
	fmt.Println(sliceB)
	sliceB = arrA[1:3] // converts array to slice
	fmt.Println(sliceB)
	arrA[1] = 9999 // array are values, but slices are references
	fmt.Println(sliceB)

	for i := 0; i < len(arrA); i++ {
		fmt.Println("loop test ", i, arrA[i])
	}
	for i, v := range arrA {
		fmt.Println("loop test ", i, v)
	}

	// maps
	var mapA map[string]int
	// mapA["test"] = 54   // panic: runtime error: invalid memory address or nil pointer dereference

	mapA = make(map[string]int) // maps are references, and must be allocated first
	mapA["test"] = 54
	mapA["hello"] = 985
	fmt.Println(mapA)

	fmt.Println("--------------- section 3 ----------------")

	// returning from main yields exit code 0
	os.Exit(123)

}