In my application, I've created the TList type list, intended to store Integers or Doubles:
TKList<T> = class
private
FItems: TList<T>;
function GetItem(Index: Integer): T;
procedure SetItem(Index: Integer; const Value: T);
function GetMaxValue(): T;
function GetMinValue(): T;
public
constructor Create; overload;
constructor Create(const AKList: TKList<T>); overload;
destructor Destroy; override;
procedure Assign(const AKList: TKList<T>);
function Add(const AValue: T): Integer;
procedure Clear;
function Count: Integer;
procedure Invert;
function ToString: string; override;
function Info: string;
property Values[Index: Integer]: T read GetItem write SetItem; default;
end;
How can I implement Invert() procedure to invert valu开发者_运维技巧es in generic List?
Thanks in advance.
Assuming you mean to Reverse the array as in you have values 1, 3, 5
after calling this function you want to have 5, 3, 1
Then, you could implement the procedure like this.
procedure TKList<T>.Invert;
var
I: Integer;
begin
for I := 0 to (Count - 1) div 2 do
FItems.Exchange(I, Count - I - 1);
end;
Altho I would suggest Reverse
as it's name, since Invert
is kind of confusing.
There's no way to specify constraints on generics such that you can require the types to be numbers, so there's no way you can use numeric operators on the values in your list. Craig Stuntz wrote a series of posts describing how to build a generic statistical library, and he came up against the same problem. He solved it by providing additional arguments to his functions so that the caller could provide implementations for the type-specific numeric operations — the template method pattern. Here's how he declared the Average
operation:
type
TBinaryOp<T> = reference to function(ALeft, ARight: T): T
TStatistics<T> = class
public
class function Average(const AData: TEnumerable<T>;
AAdder, ADivider: TBinaryOp<T>;
AMapper: TFunc<integer, T>): T; overload;
Callers of that function need to provide their own code for adding, dividing, and "mapping" the generic type. (Mapping is covered in a later post and isn't important here.) You could write your Invert
function like this:
type
TUnaryOp<T> = reference to function(Arg: T): T;
TKList<T> = class
procedure Invert(ANegater: TUnaryOp<T>);
procedure TKList<T>.Invert;
var
i: Integer;
begin
for i := 0 to Pred(Count) do
Values[i] := ANegater(Values[i]);
end;
To make it more convenient to call the methods without having to provide the extra arguments all the time, Stuntz showed how to declare a type-specific descendant that provides the right arguments. You could do it like this:
type
TIntKList = class(TKList<Integer>)
private
class function Negate(Arg: Integer): Integer;
public
procedure Invert;
end;
procedure TIntKList.Invert;
begin
inherited Invert(Negate);
end;
You can provide type-specific descendants for the common numeric types, and if consumers of your class need to use other number-like types, they can provide their own implementations for the basic numeric operations without having to re-implement your entire list class.
Thanks Rob, I got it.
What advantages/disadvantages has the following approach:
procedure TKList<T>.Invert;
var
i: Integer;
Val: TValue;
begin
if TTypeInfo(TypeInfo(T)^).Kind = tkInteger then
begin
for i := 0 to FItems.Count - 1 do
begin
Val := TValue.From<T>(FItems[i]);
TValue.From<Integer>(-Val.AsInteger).AsType<T>;
end;
end
else if TTypeInfo(TypeInfo(T)^).Kind = tkFloat then
begin
for i := 0 to FItems.Count - 1 do
begin
Val := TValue.From<T>(FItems[i]);
FItems[i] := TValue.From<Double>(-Val.AsExtended).AsType<T>;
end;
end;
end;
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