Ada String Concatenation - ada

I have a function that returns a string for a particular item, and I need to call that function numerous times and combine those strings into one. The combined string is bounded. I've made sure to fill it when space characters when it initializes but I keep getting "length check failed" errors. Is there something basic I'm doing wrong here?
FOR I IN 1..Collection.Size LOOP
Combined_String := combined_string & Tostring(Collection.Book(I));
END LOOP;

Unbounded_String is probably the easiest way to go:
with Ada.Strings.Unbounded;
use Ada.Strings.unbounded;
...
Temp_Unbounded_String : Unbounded_String; -- Is empty by default.
...
for I in 1 .. Collection.Size loop
Append(Temp_Unbounded_String, ToString(Collection.Book(I));
end loop;
If you then need to have the result placed in your fixed length standard string:
declare
Temp_String : constant String := To_String(Temp_Unbounded_String);
begin
-- Beware! If the length of the Temp_String is greater than that of the
-- fixed-length string, a Constraint_Error will be raised. Some verification
-- of source and target string lengths must be performed!
Combined_String(Temp_String'Range) := Temp_String;
end;
Alternatively, you can use the Ada.Strings.Fixed Move() procedure to bring the Unbounded_String into the target fixed-length string:
Ada.Strings.Fixed.Move(To_String(Temp_Unbounded_String), Combined_String);
In this case, if the source string is "too long", by default a Length_Error exception is raised. There are other parameters to Move() that can modify the behavior in that situation, see the provided link on Move for more detail.

In order to assign Combined_String, you must assign the full correct length at once. You can't "build up" a string and assign it that way in Ada.
Without seeing the rest of your code, I think Ada.Strings.Unbounded is probably what you should be using.

I know this is an ancient question, but now that Ada 2012 is out I thought I'd share an idiom I've been finding myself using...
declare
function Concatenate(i: Collection'index)
is
(tostring(Collection(i) &
if (i = Collection'last) then
("")
else
(Concatenate(i+1))
);
s: string := Concatenate(Collection'first);
begin
Put_Line(s);
end;
Typed off the top of my head, so it'll be full of typos; and if you want it to work on empty collections you'll need to tweak the logic (should be obvious).
Ada 2012's expression functions are awesome!

Ada works best when you can use perfectly-sized arrays and strings. This works wonderfully for 99% of string uses, but causes problems any time you need to progressively build a string from something else.
Given that, I'd really like to know why you need that combined string.
If you really need it like that, there are two good ways I know of to do it. The first is to use "unbounded" (dynamically-sized) strings from Ada.Strings.Unbounded, as Dave and Marc C suggested.
The other is to use a bit of functional programming (in this case, recursion) to create your fixed string. Eg:
function Combined_String (String_Collection : in String_Collection_Type) return String is
begin
if String_Collection'length = 1 then
return String_Collection(String_Collection'first);
end if;
return String_Collection(String_Collection'first) &
Combined_String (String_Collection'first + 1 .. String_Collection'last);
end Combined_String;
I don't know what type you used for Collection, so I'm making some guesses. In particular, I'm assuming its an unconstrained array of fixed strings. If it's not, you will need to replace some of the above code with whatever your container uses to return its bounds, access elements, and perform slicing.

From AdaPower.com:
function Next_Line(File : in Ada.Text_IO.File_Type :=
Ada.Text_Io.Standard_Input) return String is
Answer : String(1..256);
Last : Natural;
begin
Ada.Text_IO.Get_Line(File => File,
Item => Answer,
Last => Last);
if Last = Answer'Last then
return Answer & Next_Line(File);
else
return Answer(1..Last);
end if;
end Next_Line;
As you can see, this method builds a string (using Get_Line) of unlimited* length from the file it's reading from. So what you'll need to do, in order to keep what you have is something on the order of:
function Combined_String (String_Collection : in String_Collection_Type)
Return String is
begin
if String_Collection'length = 1 then
Return String_Collection(String_Collection'First).All;
end if;
Recursion:
Declare
Data : String:= String_Collection(String_Collection'First).All;
SubType Constraint is Positive Range
Positive'Succ(String_Collection'First)..String_Collection'Last;
Begin
Return Data & Combined_String( String_Collection(Constraint'Range) );
End Recursion;
end Combined_String;
Assuming that String_Collection is defined as:
Type String_Collection is Array (Positive Range <>) of Access String;
*Actually limited by Integer'Range, IIRC

Related

Cutting a string at first space

I'm in the process of making my own package for an Ada main program. I read a string followed by an integer and another string and the problem is I need to cut the first string at sign of first space. I don't know how to do it and I've searched stack overflow only to find solutions in other languages.
My code right now in the package body is:
Get_Line(Item.String, Item.X1)
where X1 is an integer and String is the string. This works if you define the length in the type to match the exact length of your input but of course you want to be able to insert whatever you want and thus it doesn't work.
Can somebody point me in the right direction?
Thanks
Why do you need to make a package for an Ada main program? Most compilers need them to be parameterless library-level procedures.
Anyway, this might give you some tips.
with Ada.Text_IO;
with Ada.Integer_Text_IO;
procedure Agrell is
begin
declare
Line : constant String := Ada.Text_IO.Get_Line;
This is how to deal with reading a string of unknown length. You have to work out how to preserve it for future use (maybe use an Unbounded_String?)
The_Integer : Integer;
begin
Looking_For_Space :
for J in Line'Range loop
if Line (J) = ' ' then
Everything from Line’First to J - 1 is the string you wanted.
declare
Dummy : Positive;
begin
Ada.Integer_Text_IO.Get (From => Line (J .. Line'Last),
Item => The_Integer,
Last => Dummy);
end;
OK, now we have The Integer...
...
exit Looking_For_Space;
... and we’re done with the first line.
end if;
end loop Looking_For_Space;
end;
end Agrell;

Passing strings as task creation discriminants in Ada

I'm moving my first steps with Ada, and I'm finding that I struggle to understand how to do common, even banal, operations that in other languages would be immediate.
In this case, I defined the following task type (and access type so I can create new instances):
task type Passenger(
Name : String_Ref;
Workplace_Station : String_Ref;
Home_Station : String_Ref
);
type Passenger_Ref is access all Passenger;
As you can see, it's a simple task that has 3 discriminants that can be passed to it when creating an instance. String_Ref is defined as:
type String_Ref is access all String;
and I use it because apparently you cannot use "normal" types as task discriminants, only references or primitive types.
So I want to create an instance of such a task, but whatever I do, I get an error. I cannot pass the strings directly by simply doing:
Passenger1 := new Passenger(Name => "foo", Workplace_Station => "man", Home_Station => "bar");
Because those are strings and not references to strings, fair enough.
So I tried:
task body Some_Task_That_Tries_To_Use_Passenger is
Passenger1 : Passenger_Ref;
Name1 : aliased String := "Foo";
Home1 : aliased String := "Man";
Work1 : aliased String := "Bar";
begin
Passenger1 := new Passenger(Name => Name1'Access, Workplace_Station => Work1'Access, Home_Station => Home1'Access);
But this doesn't work either, as, from what I understand, the Home1/Name1/Work1 variables are local to task Some_Task_That_Tries_To_Use_Passenger and so cannot be used by Passenger's "constructor".
I don't understand how I have to do it to be honest. I've used several programming languages in the past, but I never had so much trouble passing a simple String to a constructor, I feel like a total idiot but I don't understand why such a common operation would be so complicated, I'm sure I'm approaching the problem incorrectly, please enlighten me and show me the proper way to do this, because I'm going crazy :D
Yes, I agree it is a serious problem with the language that discriminates of task and record types have to be discrete. Fortunately there is a simple solution for task types -- the data can be passed via an "entry" point.
with Ada.Strings.Unbounded; use Ada.Strings.Unbounded;
procedure Main is
task type Task_Passenger is
entry Construct(Name, Workplace, Home : in String);
end Passenger;
task body Task_Passenger is
N, W, H : Unbounded_String;
begin
accept Construct(Name, Workplace, Home : in String) do
N := To_Unbounded_String(Name);
W := To_Unbounded_String(Workplace);
H := To_Unbounded_String(Home);
end Construct;
--...
end Passenger;
Passenger : Task_Passenger;
begin
Passenger.Construct("Any", "length", "strings!");
--...
end Main;
Ada doesn't really have constructors. In other languages, a constructor is, in essence, a method that takes parameters and has a body that does stuff with those parameters. Trying to get discriminants to serve as a constructor doesn't work well, since there's no subprogram body to do anything with the discriminants. Maybe it looks like it should, because the syntax involves a type followed by a list of discriminant values in parentheses and separated by commas. But that's a superficial similarity. The purpose of discriminants isn't to emulate constructors.
For a "normal" record type, the best substitute for a constructor is a function that returns an object of the type. (Think of this as similar to using a static "factory method" instead of a constructor in a language like Java.) The function can take String parameters or parameters of any other type.
For a task type, it's a little trickier, but you can write a function that returns an access to a task.
type Passenger_Acc is access all Passenger;
function Make_Passenger (Name : String;
Workplace_Station : String;
Home_Station : String) return Passenger_Acc;
To implement it, you'll need to define an entry in the Passenger task (see Roger Wilco's answer), and then you can use it in the body:
function Make_Passenger (Name : String;
Workplace_Station : String;
Home_Station : String) return Passenger_Acc is
Result : Passenger_Acc;
begin
Result := new Passenger;
Result.Construct (Name, Workplace_Station, Home_Station);
return Result;
end Make_Passenger;
(You have to do this by returning a task access. I don't think you can get the function to return a task itself, because you'd have to use an extended return to set up the task object and the task object isn't activated until after the function returns and thus can't accept an entry.)
You say
"I don't understand how I have to do it to be honest. I've used several programming languages in the past, but I never had so much trouble passing a simple String to a constructor, I feel like a total idiot but I don't understand why such a common operation would be so complicated, I'm sure I'm approaching the problem incorrectly, please enlighten me and show me the proper way to do this, because I'm going crazy :D"
Ada's access types are often a source of confusion. The main issue is that Ada doesn't have automatic garbage collection, and wants to ensure you can't suffer from the problem of returning pointers to local variables. The combination of these two results in a curious set of rules that force you to design your solution carefully.
If you are sure your code is good, then you can always used 'Unrestricted_Access on an aliased String. This puts all the responsibility on you to ensure the accessed variable won't disappear from underneath the task though.
It doesn't have to be all that complicated. You can use an anonymous access type and allocate the strings on demand, but please consider if you really want the strings to be discriminants.
Here is a complete, working example:
with Ada.Text_IO;
procedure String_Discriminants is
task type Demo (Name : not null access String);
task body Demo is
begin
Ada.Text_IO.Put_Line ("Demo task named """ & Name.all & """.");
exception
when others =>
Ada.Text_IO.Put_Line ("Demo task terminated by an exception.");
end Demo;
Run_Demo : Demo (new String'("example 1"));
Second_Demo : Demo (new String'("example 2"));
begin
null;
end String_Discriminants;
Another option is to declare the strings as aliased constants in a library level package, but then you are quite close to just having an enumerated discriminant, and should consider that option carefully before discarding it.
I think another solution would be the following:
task body Some_Task_That_Tries_To_Use_Passenger is
Name1 : aliased String := "Foo";
Home1 : aliased String := "Man";
Work1 : aliased String := "Bar";
Passenger1 : aliased Passenger(
Name => Name1'Access,
Workplace_Station => Work1'Access,
Home_Station => Home1'Access
);
begin
--...

I need some answers for solving these problems.I am stuck in these errors whilw programming in Ada using records

I am new to Ada programming.This is my ADA CODE for a program which gives me a list of things when typed a Football legend name in execution time.But I am getting the following errors.Please help me out:
Some of the Errors found are:
1.Discriminants must have a discrete or Access type
2.components "FBClubs cannot be used before end of record declaration
3.discriminant in a variant part must be of discrete part
4."player" is undefined
5."pos" is undefined.
6.no candidate interpretations match the sctuals : = > in call to inherited operation "to_string" at line "type playernames..."
with Ada.Text_Io; use Ada.Text_Io;
with Ada.Integer_Text_Io; use Ada.Integer_Text_Io;
with Ada.Strings.Unbounded; use Ada.Strings.Unbounded;
Procedure football_record is
type Position is (Goalkeeper,Midfielder,Forward,Defender);
type playernames is new Unbounded_String;
type FBClubs is (ACMilan,Man_United,Aresnal,ParisSt.Germain,Real_Madrid,Liverpool,Chelsea,Man_City,Lille,
Tottenham,Ajax,Juventus,Dortmund,Roma,Santos,Roma,Bayern_Munich,Inter_Milan);
type countries is (England,Argentina,Brazil,France,Italy,Portugal,Spain,Germany,Iran,Japan);
type fbplayer(player:playernames) is
record
WCAppearances:Integer;
pos:Position;
country:countries;
fbclubs:FBClubs;
case player is
when "David Beckham" =>
country:countries:=England;
WCAppearances:Integer:=3;
pos:Position:=Midfielder;
fbclubs:FBClubs:=ACMilan &"+" & Man_United &"+" & Real_Madrid &"+"& ParisSt.Germain;
when "Lionel Messi" =>
country:countries:=Argentina;
WCAppearances:Integer:=1;
pos:Position:=Forward;
fbclubs:FBClubs:=Barcelona;
.....and some other 12 players(legends)..
when others =>
country:countries:=Nil;
WCAppearances:Integer:=Nil;
pos:Position:=Nil;
fbclubs:FBClubs:=Nil;
end case;
end record;
begin
Get(player);
Put_Line(To_String(Integer'Image(player)));
Put_Line(To_String(Integer'Image(FBClubs'Image(fbclubs)));
Put_Line(To_Unbounded_String(Position'Image(pos)));
end football_record;
The biggest problem is that you're mixing code in with a type declaration.
In Ada, putting a case within a record is only for variant records; these are records where some fields exist in certain cases but not others. For example:
type Employee_Type is (Regular, Manager);
type Employee (Emp_Type : Employee_Type) is record
Name : Unbounded_String;
case Emp_Type is
when Manager =>
Managerial_Level : Integer;
when Regular =>
null;
end case;
end record;
This is a variant record; we're assuming here that there are two kinds of employees, and the Managerial_Level field makes sense only for one of those kinds. Records whose type is Regular will not have a Managerial_Level field at all.
This syntax isn't what you would use to return different values of fields. Instead, you need to do this in statements, usually in a procedure or function (or package initialization, or some other places that allow statements).
And since you're not using the variant record syntax, you don't need to make player a discriminant. It doesn't work, anyway; in Ada, a "discriminant" (like Emp_Type in my example) has to be a discrete type like an integer or an enumeration type (Employee_Type is an enumeration type), or an access (access discriminants are an advanced concept). It can't be an Unbounded_String. So you'd want to make player a regular field:
type fbplayer is record
player : Unbounded_String;
pos : Position;
country : countries;
clubs : FBClubs; -- Note name change!
WCAppearances : Integer;
end record;
and create a procedure to fill in the fields:
procedure Fill_In_Player(P : in out fbplayer; Player : Playernames) is
begin
P.Player := Player;
if Player = "David Beckham" then
P.country := England;
P.WCAppearances := 3;
P.pos = Midfielder;
P.clubs := ??? -- see below
elsif Player = "Lionel Messi" then
------- etc.
elsif ------
end if;
end Fill_In_Player;
and then call Fill_In_Player when you have the Player and want to set up the record fields. You have to write statements to do this; you can't do it inside the declaration of a record.
Note that in Ada, case statements can only be used on integer or enumeration types. You can't use them to test for a string, as some other languages allow.
Ada does not treat lower-case and upper-case letters the same in identifiers or keywords. Therefore, fbclubs is the same name as FBClubs, and you can't declare the field
fbclubs : FBClubs;
because of the name conflict. I changed the name.
Finally, it looks like you want FBClubs to hold more than one club. But FBClubs is an enumeration type, and can therefore hold only one value at a time. If you want each player record to contain a list of clubs, you'll need to do something else, such as using one of Ada's container types (like Ada.Containers.Vectors.Vector) or something like
type Set_Of_Clubs is array(FBClubs) of Boolean;
where each array value is true if the player played for that club.
I'm not sure that will take care of all your errors, but it looks like you have a lot of work to do already.

Circular dependency between new vector package and procedure

I am attempting to understand how to fix this circular dependency. All the examples I can find online suggest using a limited with, but then they demonstrate the use with two basic types, whereas this is a bit more advanced. The circular dependency is between the two files below. I thought it was between package Chessboard ... and the Piece type, but now I am not so sure. Attempting to put the package Chessboard ... line within chess_types.ads after the Piece type is declared and removing the use and with of Chessboard results in an error: this primitive operation is declared too late for the Move procedure. I am stuck on how to get out of this dependency. Any help would be much appreciated!
Thank you
chessboard.ads:
with Ada.Containers.Indefinite_Vectors;
use Ada.Containers;
with Chess_Types;
use Chess_Types;
package Chessboard is new Indefinite_Vectors(Board_Index, Piece'Class);
chess_types.ads:
with Ada.Containers.Indefinite_Vectors;
use Ada.Containers;
with Chessboard;
use Chessboard;
package Chess_Types is
subtype Board_Index is Integer range 1 .. 64;
type Color is (Black, White);
type Piece is tagged
record
Name : String (1 .. 3) := " ";
Alive : Boolean := False;
Team : Color;
Coordinate : Integer;
end record;
procedure Move_Piece(Board: in Vector; P: in Piece; Move_To: in Integer);
end Chess_Types;
More Code for question in comments:
Chess_Types.Piece_Types.ads:
package Chess_Types.Piece_Types is
type Pawn is new Piece with
record
First_Move : Boolean := True;
end record;
overriding
procedure Move_Piece(Board: in CB_Vector'Class; Po: in Pawn; Move_To: in Board_Index);
-- Other piece types declared here
end Chess_Types.Piece_Types;
Chess_Types.Piece_Types.adb:
with Ada.Text_IO;
use Ada.Text_IO;
package body Chess_Types.Piece_Types is
procedure Move_Piece(Board: in CB_Vector'Class; Po: in Pawn; Move_To: in Board_Index) is
Index_From, Index_To : Board_Index;
Move_From : Board_Index := Po.Coordinate;
begin
-- Obtain locations of Pawn to move from (Index_From) and to (Index_To)
-- in terms of the single dimension vector
for I in Board.First_Index .. Board.Last_Index loop
if Board.Element(I).Coordinate = Move_From then
Index_From := I;
end if;
if Board.Element(I).Coordinate = Move_To then
Index_To := I;
end if;
end loop;
-- Determine if the requested move is legal, and if so, do the move.
-- More possibilties to be entered, very primitive for simple checking.
if Move_To - Move_From = 2 and then Po.First_Move = True then
Board.Swap(I => Index_From, J => Index_To); -- "actual for "Container" must be a variable"
Board.Element(Index_From).First_Move := False; -- "no selector for "First_Move" for type "Piece'Class"
elsif Move_To - Po.Coordinate = 1 then
Board.Swap(Index_From, Index_To); -- "actual for "Container" must be a variable"
end if;
-- Test to make sure we are in the right Move_Piece procedure
Put_Line("1");
end Move_Piece;
-- Other piece type move_piece procedures defined here
end Chess_types.Piece_Types;
As a note to understand further, the Coordinate component of each piece correspond to ICCF numeric notation, which is two digits, so there needs to be some type of conversion between the vector and the ICCF notation, hence the reason for the whole for loop at the start.
This is a tough one. It looks like limited with and generics don't play nice together. The only way to make it work is to go back to using your own access type:
with Ada.Containers.Vectors;
use Ada.Containers;
limited with Chess_Types;
use Chess_Types;
package Chessboard_Package is
subtype Board_Index is Integer range 1 .. 64;
type Piece_Acc is access all Piece'Class;
package Chessboard is new Vectors(Board_Index, Piece_Acc);
end Chessboard_Package;
I had to put the instantiation into a new package, and move the Board_Index there too. Also, I changed it to Vectors since Piece_Acc is a definite type and there's no point in using Indefinite_Vectors. But in any event, this defeats the purpose. I'm just not sure Ada gives you a way to do what you want with two packages like this.
Even doing it in one package is not easy:
with Ada.Containers.Indefinite_Vectors;
use Ada.Containers;
package Chess_Types is
subtype Board_Index is Integer range 1 .. 64;
type Color is (Black, White);
type Piece is tagged record ... end record;
type CB_Vector is tagged;
procedure Move_Piece (Board : in CB_Vector'Class;
P : in Piece;
Move_To : in Board_Index);
package Chessboard is new Indefinite_Vectors(Board_Index, Piece'Class);
type CB_Vector is new Chessboard.Vector with null record;
end Chess_Types;
This compiles, but I had to add extra stuff to get around some of the language rules (in particular, when you instantiate a generic, that "freezes" all prior tagged types so that you can no longer declare a new primitive operation of the type); also, I had to make the Board parameter a classwide type to avoid running into the rule about primitive operations of multiple tagged types.
As I understand it, this will do what you want.
with Ada.Containers.Indefinite_Vectors;
use Ada.Containers;
package Chess_Types is
subtype Board_Index is Integer range 1 .. 64;
type Color is (Black, White);
type Piece is abstract tagged
record
Name : String (1 .. 3) := " ";
Alive : Boolean := False;
Team : Color;
Coordinate : Board_Index;
end record;
type Piece_Ptr is access all Piece'Class;
package Chessboard is new Indefinite_Vectors(Board_Index, Piece_Ptr);
procedure Move_Piece (Board : in Chessboard.Vector;
P : in Piece'Class;
Move_To : in Board_Index) is abstract;
end Chess_Types;
NOTES:
Piece is now abstract, as is the Move_Piece method. This will mean you now need to derive your other piece types (package piece_type-rook.ads, with a move_piece method for rook) etc...
Chessboard now contains pointers (Class wide pointers), beware allocating, deallocating, deep copy, shallow copy issues when using it.
You should now be able to call Move_Piece on any dereference of a piece_ptr and have it dispatch to the correct method.
The Move_To parameter is now the same type as the Board_Index. (Coordinate also brought in line) -- this seems a bit clunky, perhaps rethink this. (Row & Column Indices defining a 2D array perhaps? --No need for Indefinite_Vectors)
To answer the second question in the comment:
To use First_Move, the procedure has to know that it's a Pawn. If the object is declared with type Piece'Class, you can't access components that are defined only for one of the derived types. (That's true in most OO languages.) This may indicate a flaw in your design; if you have a procedure that takes a Piece'Class as a parameter, but you want to do something that makes sense only for a Pawn, then maybe you should add another operation to your Piece that does a default action for most pieces (perhaps it does nothing) and then override it for Pawn. Other possibilities are to use a type conversion:
procedure Something (P : Piece'Class) is ...
if Pawn(P).First_Move then ...
which will raise an exception if P isn't a Pawn. If you want to test first, you can say "if P in Pawn". I sometimes write code like:
if P in Pawn then
declare
P_Pawn : Pawn renames Pawn(P);
begin
if P_Pawn.First_Move then ...
end;
end if;
But defining a new polymorphic operation is preferable. (Note: I haven't tested the above code, hope I didn't make a syntax error somewhere.)

Ada actual for "S" must be a variable

So here is a piece of my body file. I am getting the error "words.adb:75:42: actual for "S" must be a variable".
procedure Remove_Character(S : in out Ustring; C : in Character; Successful : out Boolean) is
begin
for I in 1..length(S) loop
if Element(S, I) = C then
Delete(S, I, I);
Successful := true;
return;
end if;
end loop;
Successful := false;
end Remove_Character;
function Is_Subset(Subset : Ustring; S : Ustring) return Boolean is
Could_Remove : Boolean;
begin
for I in 1..length(Subset) loop
Remove_Character(S , Element(Subset, I), Could_Remove);
if Could_Remove = false then
return false;
end if;
end loop;
return True;
end Is_Subset;
I understand where my error is coming from. Remove_Character uses S : in out Ustring while function Is_Subset uses S : in Ustring.
My question is how do I change the variable from Remove_Character into only an in Ustring?
Sorry if this is a tad jumbled, I'm fairly new to both programming and the site.
You can't, at least not directly.
I don't know what a UString is, but I presume the Delete procedure modifies it. If you changed the declaration of S in Remove_Character to S: in Ustring, you'd presumably get an error on the call to Delete.
The simplest approach I can think of would be to make a copy of S in Is_Subset:
Copy_Of_S: UString := S;
and then pass the (modifiable) copy to Remove_Character.
By "simplest", I mean it makes the smallest change to your existing code. But you should probably consider reorganizing it. Determining whether one UString is a subset of another by modifying one of the strings doesn't seem like the best approach; I'm sure there's a more efficient way to do it.
A minor and irrelevant point: this:
if Could_Remove = false then
is better written as:
if not Could_Remove then

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