说说erlang tuple和record结构
erlang有两种复合结构,tuple和list,两者的区别是tuple子元素的个数是固定不变的。声明后就不能改变了。而list是可变的。能够通过[H|T]来取出或插入新元素。record有点像C/C++里面的结构体。实际上是语法糖,方便我们的开发,代码汇编时转成tuple表达形式。
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tuple的表示方法如:
{Term1,...,TermN}1> A = {1,2}.
{1,2}
2> tuple_size(A).
2
3> is_tuple(A).
true
4> tuple_to_list(A).
[1,2]
5> element(1, A).
1
6> setelement(2, A, 3).
{1,3}
Record
record有点像C/C++里面的结构体,表示方法如:
-record(Name, {Field1 [= Value1],
...
FieldN [= ValueN]}).以下以样例说明erlang record及一些基本操作:
%% shell下定义 record结构 person
%% 等效程序里定义 -record(person, {name, age}).
7> rd(person, {name, age}).
person
8> A1 = #person{name = "john", age = 10}.
#person{name = "john",age = 10}
9> A2 = A1#person{name = "Lucy"}.
#person{name = "Lucy",age = 10}
%% record 一次赋值
10> X = #person{_ = 1}.
#person{name = 1,age = 1}
11> element(2, X).
1
12> setelement(2, X, "Tom").
#person{name = "Tom",age = 1}
14> P=#person{}.
#person{name = undefined,age = undefined}
15> is_record(P,person).
true
16> #person.age.
3
17> #person.name.
2
tuple 和 record 有什么关系?
record仅仅是语言程序上的结构。方便我们的开发,在erlang编译的时候会转成tuple处理
%% shell下定义 record结构 person2
%% 等效程序里定义 -record(person2, {name = "", age = 1}).
23> rd(person2, {name = "", age = 1}).
person2
24> A3 = #person2{name = "Jimmy"}.
#person2{name = "Jimmy",age = 1}
%% 模式匹配
25> {_, Name, _} = A3.
#person2{name = "Jimmy",age = 0}
26> Name.
"Jimmy"
27> #person2{name = Name2} = A3.
#person2{name = "Jimmy",age = 0}
28> Name2.
"Jimmy"
以下,以一个简单的样例。測试tuple和record的汇编代码
-module(test).
-export([test/0]).
-record(person, {name, age}).
test() ->
A = {person, "Tom", 1},
B = #person{name = "Tom", age = 1},
{A,B}.通过命令erlc -S test.erl 能够生成 test.S的汇编代码
{function, test, 0, 2}.
{label,1}.
{line,[{location,"c:/test.erl",7}]}.
{func_info,{atom,test},{atom,test},0}.
{label,2}.
{move, {literal, { {person,"Tom",1} ,{person,"Tom",1}} }, {x,0} }.
return.
record_info/2
说到record,不得不提record_info/2,这个函数用以获取record的信息。原型:
record_info(Type, Record) -> integer() | list
Type有两种:size、fields
34> rd(person,{id, name}).
person
35> record_info(fields, person).
[id,name]
36> record_info(size, person).
3-module(tt).
-compile(export_all).
-record(person,{id, name, age}).
fields() ->
record_info(fields, person).
size() ->
record_info(size, person).erlc -S tt.erl
编译这个模块得到 tt.S。这是当中的汇编码:
{function, fields, 0, 2}.
{label,1}.
{line,[{location,"tt.erl",5}]}.
{func_info,{atom,tt},{atom,fields},0}.
{label,2}.
{move,{literal, [id,name,age] },{x,0}}.
return.
{function, size, 0, 4}.
{label,3}.
{line,[{location,"tt.erl",8}]}.
{func_info,{atom,tt},{atom,size},0}.
{label,4}.
{move, {integer,4} ,{x,0}}.
return.
改动tuple结构
R16以后。erlang提供了2个接口用于改动tuple结构。
1、添加tuple元素
erlang:append_element(Tuple1, Term)
> erlang:append_element({one, two}, three).
{one,two,three}
等效于 list_to_tuple(tuple_to_list(Tuple1) ++ [Term]),但性能比后者高
2、移除tuple元素
erlang:delete_element(Index, Tuple1)
> erlang:delete_element(2, {one, two, three}).
{one,three}
record 的模式匹配
record有两种模式匹配的方法:
1> rd(person, {a,b}).
person
2> case #person{a=10} of #person{a=A} -> A; _ -> false end.
10
3> A.
10
4> #person{a=B} = #person{a=15}.
#person{a = 15,b = undefined}
5> B.
151> rd(person, {a,b}).
person
2> #person{} =:= #person{a=1}.
false
3> case #person{a=1} of #person{} -> true; _ -> false end.
true
4> #person{} = #person{a=1}.
#person{a = 1,b = undefined}而第3点和第4点本质区别不大。仅仅是执行了模式匹配,检查tuple是否 3 个元素,且第一个元素是原子person。不会推断除其它元素值是否相等。可是假设像以下这样写就会匹配到其它元素了。
5> case #person{a=1} of #person{a=3} -> true; _ -> false end.
false
6> #person{a=3} = #person{a=1}.
** exception error: no match of right hand side value #person{a = 1,b = undefined}有兴趣的同学參照上面打印erlang模块汇编码就能够找到答案了。
2014/10/30 补充了record函数 record_info/2的说明
2014/11/06 补充了record函数is_record/2等基本操作
2015/2/11 补充了两个tuple结构改动函数
2015/3/4 补充了record的模式匹配
參考:http://blog.csdn.net/mycwq/article/details/31421341
