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Oling Cat
178
2.4.md
178
2.4.md
@@ -6,23 +6,23 @@ Go语言中,也和C或者其他语言一样,我们可以声明新的类型
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name string
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age int
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}
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看到了吗?申明一个struct如此简单,上面的类型包含有两个字段
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看到了吗?声明一个struct如此简单,上面的类型包含有两个字段
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- 一个string类型的字段name,用来保存用户名称这个属性
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- 一个int类型的字段age,用来保存用户年龄这个属性
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如何使用struct呢?请看下面的代码
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type person struct {
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name string
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age int
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name string
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age int
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}
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var P person // P现在就是person类型的变量了
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var P person // P现在就是person类型的变量了
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P.name = "Astaxie" //赋值"Astaxie"给P的name属性.
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P.age = 25 //赋值"25"给变量P的age属性
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fmt.Printf("The person's name is %s", P.name) // 访问P的name属性.
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除了上面这种P的申明使用之外,还有两种申明使用方式
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P.name = "Astaxie" // 赋值"Astaxie"给P的name属性.
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P.age = 25 // 赋值"25"给变量P的age属性
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fmt.Printf("The person's name is %s", P.name) // 访问P的name属性.
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除了上面这种P的声明使用之外,还有两种声明使用方式
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- 1.按照顺序提供初始化值
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@@ -37,45 +37,45 @@ Go语言中,也和C或者其他语言一样,我们可以声明新的类型
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package main
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import "fmt"
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//申明一个新的类型
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// 声明一个新的类型
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type person struct {
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name string
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age int
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name string
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age int
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}
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// 比较两个人的年龄,返回年龄大的那个人,并且返回年龄差
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// struct也是传值的
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func Older(p1, p2 person) (person, int) {
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if p1.age>p2.age { //比较p1和p2这两个人的年龄
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return p1, p1.age-p2.age
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}
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return p2, p2.age-p1.age
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if p1.age>p2.age { // 比较p1和p2这两个人的年龄
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return p1, p1.age-p2.age
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}
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return p2, p2.age-p1.age
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}
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func main() {
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var tom person
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var tom person
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//赋值初始化
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tom.name, tom.age = "Tom", 18
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// 赋值初始化
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tom.name, tom.age = "Tom", 18
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//两个字段都写清楚的初始化
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bob := person{age:25, name:"Bob"}
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// 两个字段都写清楚的初始化
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bob := person{age:25, name:"Bob"}
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//按照struct定义顺序初始化值
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paul := person{"Paul", 43}
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// 按照struct定义顺序初始化值
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paul := person{"Paul", 43}
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tb_Older, tb_diff := Older(tom, bob)
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tp_Older, tp_diff := Older(tom, paul)
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bp_Older, bp_diff := Older(bob, paul)
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tb_Older, tb_diff := Older(tom, bob)
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tp_Older, tp_diff := Older(tom, paul)
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bp_Older, bp_diff := Older(bob, paul)
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fmt.Printf("Of %s and %s, %s is older by %d years\n",
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tom.name, bob.name, tb_Older.name, tb_diff)
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fmt.Printf("Of %s and %s, %s is older by %d years\n",
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tom.name, bob.name, tb_Older.name, tb_diff)
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fmt.Printf("Of %s and %s, %s is older by %d years\n",
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tom.name, paul.name, tp_Older.name, tp_diff)
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fmt.Printf("Of %s and %s, %s is older by %d years\n",
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tom.name, paul.name, tp_Older.name, tp_diff)
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fmt.Printf("Of %s and %s, %s is older by %d years\n",
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bob.name, paul.name, bp_Older.name, bp_diff)
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fmt.Printf("Of %s and %s, %s is older by %d years\n",
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bob.name, paul.name, bp_Older.name, bp_diff)
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}
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###struct的匿名字段
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@@ -89,37 +89,37 @@ Go语言中,也和C或者其他语言一样,我们可以声明新的类型
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import "fmt"
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type Human struct {
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name string
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age int
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weight int
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name string
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age int
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weight int
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}
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type Student struct {
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Human //匿名字段,那么默认Student就包含了Human的所有字段
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speciality string
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Human // 匿名字段,那么默认Student就包含了Human的所有字段
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speciality string
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}
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func main() {
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//我们初始化一个学生
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mark := Student{Human{"Mark", 25, 120}, "Computer Science"}
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// 我们初始化一个学生
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mark := Student{Human{"Mark", 25, 120}, "Computer Science"}
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//我们访问相应的字段
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fmt.Println("His name is ", mark.name)
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fmt.Println("His age is ", mark.age)
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fmt.Println("His weight is ", mark.weight)
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fmt.Println("His speciality is ", mark.speciality)
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//修改对应的备注信息
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mark.speciality = "AI"
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fmt.Println("Mark changed his speciality")
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fmt.Println("His speciality is ", mark.speciality)
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//修改他的年龄信息
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fmt.Println("Mark become old")
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mark.age = 46
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fmt.Println("His age is", mark.age)
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//修改他的体重信息
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fmt.Println("Mark is not an athlet anymore")
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mark.weight += 60
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fmt.Println("His weight is", mark.weight)
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// 我们访问相应的字段
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fmt.Println("His name is ", mark.name)
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fmt.Println("His age is ", mark.age)
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fmt.Println("His weight is ", mark.weight)
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fmt.Println("His speciality is ", mark.speciality)
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// 修改对应的备注信息
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mark.speciality = "AI"
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fmt.Println("Mark changed his speciality")
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fmt.Println("His speciality is ", mark.speciality)
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// 修改他的年龄信息
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fmt.Println("Mark become old")
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mark.age = 46
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fmt.Println("His age is", mark.age)
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// 修改他的体重信息
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fmt.Println("Mark is not an athlet anymore")
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mark.weight += 60
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fmt.Println("His weight is", mark.weight)
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}
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我们看到Student访问属性age和name的时候,就像访问自己所有用的字段一样,对,匿名字段就是这样,能够实现字段的继承。是不是很酷啊?还有比这个更酷的呢,那就是student还能访问Human这个字段作为字段名。请看下面的代码,是不是更酷了。
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@@ -135,38 +135,38 @@ Go语言中,也和C或者其他语言一样,我们可以声明新的类型
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type Skills []string
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type Human struct {
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name string
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age int
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weight int
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name string
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age int
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weight int
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}
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type Student struct {
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Human //匿名字段,struct
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Skills //匿名字段,自定义的类型string slice
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int //内置类型作为匿名字段
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speciality string
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Human // 匿名字段,struct
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Skills // 匿名字段,自定义的类型string slice
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int // 内置类型作为匿名字段
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speciality string
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}
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func main() {
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//初始化学生Jane
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jane := Student{Human:Human{"Jane", 35, 100}, speciality:"Biology"}
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//现在我们来访问相应的字段
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fmt.Println("Her name is ", jane.name)
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fmt.Println("Her age is ", jane.age)
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fmt.Println("Her weight is ", jane.weight)
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fmt.Println("Her speciality is ", jane.speciality)
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//我们来修改他的skill技能字段
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jane.Skills = []string{"anatomy"}
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fmt.Println("Her skills are ", jane.Skills)
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fmt.Println("She acquired two new ones ")
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jane.Skills = append(jane.Skills, "physics", "golang")
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fmt.Println("Her skills now are ", jane.Skills)
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//修改匿名内置类型字段
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jane.int = 3
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fmt.Println("Her preferred number is", jane.int)
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// 初始化学生Jane
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jane := Student{Human:Human{"Jane", 35, 100}, speciality:"Biology"}
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// 现在我们来访问相应的字段
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fmt.Println("Her name is ", jane.name)
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fmt.Println("Her age is ", jane.age)
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fmt.Println("Her weight is ", jane.weight)
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fmt.Println("Her speciality is ", jane.speciality)
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// 我们来修改他的skill技能字段
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jane.Skills = []string{"anatomy"}
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fmt.Println("Her skills are ", jane.Skills)
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fmt.Println("She acquired two new ones ")
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jane.Skills = append(jane.Skills, "physics", "golang")
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fmt.Println("Her skills now are ", jane.Skills)
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// 修改匿名内置类型字段
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jane.int = 3
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fmt.Println("Her preferred number is", jane.int)
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}
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从上面例子我们看出来struct不仅仅能够将struct作为匿名字段、自定义类型、内置类型都可以作为匿名字段,而且可以在相应的字段上面进行函数操作(如例子中的append)。
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从上面例子我们看出来struct不仅仅能够将struct作为匿名字段、自定义类型、内置类型都可以作为匿名字段,而且可以在相应的字段上面进行函数操作(如例子中的append)。
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这里有一个问题:如果human里面有一个字段叫做phone,而student也有一个字段叫做phone,那么该怎么办呢?
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@@ -178,22 +178,22 @@ Go里面很简单的解决了这个问题,最外层的优先访问,也就是
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import "fmt"
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type Human struct {
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name string
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age int
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phone string //Human类型拥有的字段
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name string
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age int
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phone string // Human类型拥有的字段
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}
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type Employee struct {
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Human //匿名字段Human
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speciality string
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phone string //雇员的phone字段
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Human // 匿名字段Human
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speciality string
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phone string // 雇员的phone字段
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}
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func main() {
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Bob := Employee{Human{"Bob", 34, "777-444-XXXX"}, "Designer", "333-222"}
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fmt.Println("Bob's work phone is:", Bob.phone)
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//如果我们要访问Human的phone字段
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fmt.Println("Bob's personal phone is:", Bob.Human.phone)
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Bob := Employee{Human{"Bob", 34, "777-444-XXXX"}, "Designer", "333-222"}
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fmt.Println("Bob's work phone is:", Bob.phone)
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// 如果我们要访问Human的phone字段
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fmt.Println("Bob's personal phone is:", Bob.Human.phone)
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}
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