[英]Use Ada's My_Class'Class(This) cast to mimic template method design pattern
我最近遇到了一个基本的 OOP / Ada 2012 设计问题。
基本上,我有一个实现接口契约的父 class。 这是在实现提供者 (ConcreteX) 内的几个步骤中完成的。 子 class 通过仅覆盖其中一个步骤(DerivedY、Step_2)来扩展此实现。 (试图获得一些 SOLID 属性)
我天真地假设会发生调度。 它没有。 我重新发现调度与 Java 或其他 OOP 不同,并提供了解决方案。
在 Ada 中的调度经常被问到/回答/记录在几个问题中: Ada中的动态调度、Ada 中的动态调度与访问类型、 Ada 的 T'Class 基础知识
而不是使用:
This.Step_1; This.Step_2;
我最终使用:
T_Concrete_X'Class (This).Step_1; T_Concrete_X'Class (This).Step_2;
在 Ada OOP class 设计中,我在这两个选择之间苦苦挣扎:
在父 class 中,定义行为 + 原语并提供默认实现,即Current_Class'Class(This).method() (= 下面提供的工作示例)
使用模板设计模式,以便将执行步骤的实现委托给另一个 class
即在给定的示例中:
-- T_Concrete_X does not have a child class (current example)
overriding procedure If_A_Proc_1 (This : in out T_Concrete_X) is
begin
-- This.template_executor being set with different classes realizing the Step_1/Step_2 contracts(current example)
This.template_executor.Step_1;
This.template_executor.Step_2;
end If_A_Proc_1;
1 是为了实现预期行为而应该避免的语法“技巧”吗?
我总是觉得当我写一个明确的演员表时,这是设计薄弱的标志。
工作示例:
src/interfacea.ads
package InterfaceA is
type T_InterfaceA is interface;
type T_InterfaceA_Class_Access is access all T_InterfaceA'Class;
procedure If_A_Proc_1 (This : in out T_InterfaceA) is abstract;
end InterfaceA;
src/concretex.ads
with InterfaceA;
use InterfaceA;
package ConcreteX is
type T_Concrete_X is new T_InterfaceA with private;
package Constructor is
function Create return access T_Concrete_X;
end Constructor;
overriding procedure If_A_Proc_1 (This : in out T_Concrete_X);
procedure Step_1 (This : in out T_Concrete_X);
procedure Step_2 (This : in out T_Concrete_X);
private
type T_Concrete_X is new T_InterfaceA with null record;
end ConcreteX;
src/concretex.adb
with GNATColl.Traces;
package body ConcreteX is
use GNATColl.Traces;
Me : constant Trace_Handle := Create ("ConcreteX");
package body Constructor is
function Create return access T_Concrete_X is begin
Set_Active (Me, True);
Increase_Indent (Me, "T_Concrete_X Constructor");
Decrease_Indent (Me);
return new T_Concrete_X;
end Create;
end Constructor;
overriding procedure If_A_Proc_1 (This : in out T_Concrete_X) is begin
Increase_Indent (Me, "If_A_Proc_1");
Trace (Me, "If_A_Proc_1 - use This directly");
-- not dispatching
This.Step_1;
This.Step_2;
-- dispatching
--Trace (Me, "If_A_Proc_1 - cast This to ConcreteX'Class");
--T_Concrete_X'Class (This).Step_1; -- equivalent to (This'Class).Step_1;
--T_Concrete_X'Class (This).Step_2; -- equivalent to (This'Class).Step_2;
Decrease_Indent (Me);
end If_A_Proc_1;
procedure Step_1 (This : in out T_Concrete_X) is begin
Increase_Indent (Me, "Step_1");
Decrease_Indent (Me);
end Step_1;
procedure Step_2 (This : in out T_Concrete_X) is begin
Increase_Indent (Me, "Step_2");
Decrease_Indent (Me);
end Step_2;
end ConcreteX;
src/concretex-derivedy.ads
package ConcreteX.DerivedY is
type T_Derived_Y is new T_Concrete_X with private;
package Constructor is
function Create return access T_Derived_Y;
end Constructor;
overriding procedure Step_2 (This : in out T_Derived_Y);
private
type T_Derived_Y is new T_Concrete_X with null record;
end ConcreteX.DerivedY;
src/concretex-derivedy.adb
with GNATColl.Traces;
package body ConcreteX.DerivedY is
use GNATColl.Traces;
Me : constant Trace_Handle := Create ("DerivedY");
package body Constructor is
function Create return access T_Derived_Y is begin
Set_Active (Me, True);
Increase_Indent (Me, "Constructor");
Decrease_Indent (Me);
return new T_Derived_Y;
end Create;
end Constructor;
overriding procedure Step_2 (This : in out T_Derived_Y) is begin
Increase_Indent (Me, "Step_2");
Decrease_Indent (Me);
end Step_2;
end ConcreteX.DerivedY;
src/main.adb
with InterfaceA;
with ConcreteX;
with ConcreteX.DerivedY;
with Ada.Text_IO;
with GNATColl.Traces;
procedure Main is
use ConcreteX;
use InterfaceA;
use Ada.Text_IO;
use GNATCOLL.Traces;
Me : constant Trace_Handle := Create ("MAIN");
C : T_InterfaceA'Class := T_InterfaceA'Class(Constructor.Create.all);
D : T_InterfaceA'Class := T_InterfaceA'Class(DerivedY.Constructor.Create.all);
begin
Parse_Config_File;
Set_Active (Me, True);
Trace (Me, "");
Trace (Me, "Call IF on C");
Trace (Me, "");
C.If_A_Proc_1;
Trace (Me, "");
Trace (Me, "Call IF on D");
Trace (Me, "");
D.If_A_Proc_1;
Trace (Me, "");
end Main;
继承和调度.gpr
limited with "F:\DEV\GNAT\2017\lib\gnat\gnatcoll.gpr";
project Inheritanceanddispatch is
for Source_Dirs use ("src");
for Object_Dir use "obj";
for Main use ("main.adb");
for Exec_Dir use "exe";
end Inheritanceanddispatch;
蚊虫版本:
GNAT GPL 2017 (20170515-63)
GPRBUILD GPL 2017 (20170515) (i686-pc-mingw32)
gcc (GCC) 6.3.1 20170510 (for GNAT GPL 2017 20170515)
Output:
[MAIN]
[MAIN] Call IF on C
[MAIN]
[CONCRETEX] If_A_Proc_1
[CONCRETEX] If_A_Proc_1 - use This directly
[CONCRETEX] Step_1
[CONCRETEX] Step_2
[CONCRETEX] If_A_Proc_1 - cast This to ConcreteX'Class
[CONCRETEX] Step_1
[CONCRETEX] Step_2
[MAIN]
[MAIN] Call IF on D
[MAIN]
[CONCRETEX] If_A_Proc_1
[CONCRETEX] If_A_Proc_1 - use This directly
[CONCRETEX] Step_1
[CONCRETEX] Step_2
[CONCRETEX] If_A_Proc_1 - cast This to ConcreteX'Class
[CONCRETEX] Step_1
[DERIVEDY] Step_2
[MAIN]
我个人不会将转换为T_Concrete_X'Class视为一种句法技巧。 这只是更改标记类型(类型与类型类)的视图的方法。 这种“视图转换”,即T到T'Class (带有T标记类型)将始终成功,并且不会优化您对实例的视图。 这不像(更成问题的)垂头丧气。
关于这两个选项:两者都是可行的,如果您选择其中一个,则取决于您的应用程序(可能还有偏好)。 我看到的唯一区别是模板模式使用抽象基 class 和必须由派生类型实现的抽象过程; 即,您不能在基本 class 中定义默认实现。
除了这两个选项之外,您还可以考虑使用组合而不是 inheritance。 Inheritance 通常在您需要改变多个独立方面时的可扩展性较差(目前只有一个方面,即步骤,但您永远不知道将来需要添加什么)。 由于这个原因,组合通常比 inheritance 更受欢迎。 因此,您还可以考虑这样的事情:
动作广告
package Action is
type I_Action is interface;
procedure Action (This : I_Action) is abstract;
end Action;
执行广告
with Action; use Action;
package Exec is
type T_Exec is new I_Action with private;
type T_Step_Fcn is access procedure (Exec : T_Exec'Class);
-- Possible implementations of steps. Note that these functions
-- are not primitives of T_Exec. Use the factory function of
-- T_Exec to composite the behavior of an instance of T_Exec.
-- Some OOP programmers would define a separate abstract (base) type
-- "T_Step" from which concrete step implementations will be derived.
-- I think this is too much in this case.
procedure No_Effect (Exec : T_Exec'Class) is null;
procedure Step_A (Exec : T_Exec'Class);
procedure Step_B (Exec : T_Exec'Class);
procedure Step_C (Exec : T_Exec'Class);
-- ...
-- Factory function.
function Create
(Step_1 : T_Step_Fcn := No_Effect'Access;
Step_2 : T_Step_Fcn := No_Effect'Access) return T_Exec;
overriding
procedure Action (This : T_Exec);
private
type T_Exec is new I_Action with
record
Step_1_Fcn : T_Step_Fcn;
Step_2_Fcn : T_Step_Fcn;
end record;
end Exec;
执行亚行
with Ada.Text_IO; use Ada.Text_IO;
package body Exec is
------------
-- Step_N --
------------
procedure Step_A (Exec : T_Exec'Class) is
begin
Put_Line ("Step_A");
end Step_A;
procedure Step_B (Exec : T_Exec'Class) is
begin
Put_Line ("Step_B");
end Step_B;
procedure Step_C (Exec : T_Exec'Class) is
begin
Put_Line ("Step_C");
end Step_C;
------------
-- Create --
------------
function Create
(Step_1 : T_Step_Fcn := No_Effect'Access;
Step_2 : T_Step_Fcn := No_Effect'Access) return T_Exec
is
begin
Put_Line ("Create");
return (Step_1, Step_2);
end Create;
------------
-- Action --
------------
procedure Action (This : T_Exec) is
begin
Put_Line ("Action");
This.Step_1_Fcn (This);
This.Step_2_Fcn (This);
end Action;
end Exec;
主文件
with Ada.Text_IO; use Ada.Text_IO;
with Action; use Action;
with Exec; use Exec;
procedure Main is
begin
Put_Line ("---- Instance of T_Exec with Step A and Step B");
declare
A1 : I_Action'Class :=
Create (Step_1 => Step_A'Access,
Step_2 => Step_B'Access);
begin
A1.Action;
end;
New_Line;
Put_Line ("---- Instance of T_Exec with Step A and Step C");
declare
A2 : I_Action'Class :=
Create (Step_1 => Step_A'Access,
Step_2 => Step_C'Access);
begin
A2.Action;
end;
New_Line;
end Main;
output
---- Instance of T_Exec with Step A and Step B
Create
Action
Step_A
Step_B
---- Instance of T_Exec with Step A and Step C
Create
Action
Step_A
Step_C
注意:关于问题中示例的最后评论。 您不妨删除所有(匿名)访问类型和“新”关键字并使用
return T_Concrete_X'(null record);
甚至
return (null record);
代替
return new T_Concrete_X;
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