# Drawing a flag with diagonal crosses in a V-Shape (ADA)

I turn to Stackoverflow yet again. having gotten help here previously I hope to be received equally friendly once more. I have an assignment where I need to draw a flag (including a box-like shape around it and a V-shape of crosses in its midst) in ADA. Ive managed to make the box and roughly half of the crosses. can anyone clue me in as to how one easiest fills in the remainder of the crosses?

Its supposed to be a V-shape, like this:

``````+   +
+ +
+
``````

etc

``````with Ada.Text_IO; use Ada.Text_IO;

procedure exercise2 is
subtype Cross_Rows is Integer range 2..80;
Rows       : Cross_Rows;
Flag_Width : Cross_Rows;
Left       : Positive;
Right      : Positive;

procedure Row_Get (Rows: out Cross_Rows) is

begin

Put("Enter the number of cross rows (min is 3): ");
Get(Rows);
Skip_Line;
end Row_Get;

procedure Print_Top (Rows: in Cross_Rows) is

begin

Flag_Width := (Rows  * 2) + 4;

Put("+");
for Col in 1..Flag_Width-3 loop
Put("-");
end loop;
Put("+");
New_Line;

end Print_Top;

procedure Print_Middle (Rows: in Cross_Rows) is

begin

Left := 1;
Right := Flag_Width - 5;
for R in 1..Rows loop
Put("! ");
for C in 1..Flag_Width - 4 loop
if C = Left or else C = Right then
Put("+");
else
Put(" ");
end if;
end loop;
Left := Left + 1;
Right := Right - 1;

Put_Line("!");
end loop;

end Print_Middle;

procedure Print_Bottom (Rows: in Cross_Rows) is

begin

Flag_Width := (Rows  * 2) + 4;

Put("+");
for C in 1..Flag_Width-3 loop
Put("-");
end loop;
Put_Line("+");

end Print_Bottom;

begin
Row_Get(Rows);
Print_Top(Rows);
Print_Middle(Rows);
Print_Bottom(Rows);
end exercise2;

``````

EDIT: Thanks to Jim Rogers I managed to edit my program to draw the flag. Unfortunately its not exactly the way its meant to be as the top crosses are supposed to touch the sides and not be spaced like they are now. Additionally the Main program and the subprograms arent allowed to be more than 15 lines each so I compartmentalized them.

The smallest flag is supposed to look like this. I'll try to work with his code to achieve this. But any help is of value! :)

``````n=1
+---+
!+ +!
! + !
+---+

n=2
+-----+
!+   +!
! + + !
!  +  !
+-----+

``````

You need to keep track of the left and right columns for the '+' characters, increasing the left column position and decreasing the right column position with each iteration of your loop for printing the crosses. The following program works for any number of rows of crosses from 3 to 80.

``````with Ada.Text_IO; use Ada.Text_IO;

procedure Main is
subtype Cross_Rows is Integer range 3..80;
Rows       : Cross_Rows;
Flag_Width : Cross_Rows;
Left       : Positive;
Right      : Positive;

begin
Put("Enter the number of cross rows (minimum is 3): ");
Get(Rows);
Skip_Line;
Flag_Width := (Rows  * 2) + 4;
-- Print top row of flag boundary
for Col in 1..Flag_Width loop
Put("-");
end loop;
Put("-");
New_Line;
-- Print empty row below top flag boundary
Put("-  ");
for C in 3..Flag_Width - 2 loop
Put(" ");
end loop;
Put_Line(" -");

-- Print crosses
Left := 1;
Right := Flag_Width - 5;
for R in 1..Rows loop
Put("-  ");
for C in 1..Flag_Width - 4 loop
if C = Left or else C = Right then
Put("+");
else
Put(" ");
end if;
end loop;
Left := Left + 1;
Right := Right - 1;

Put_Line(" -");
end loop;
-- Print bottom flag rows
Put("-  ");
for C in 3..Flag_Width - 2 loop
Put(" ");
end loop;
Put_Line(" -");
for C in 1..Flag_Width loop
Put("-");
end loop;
Put_Line("-");
end Main;
``````

Example output is:

``````Enter the number of cross rows (minimum is 3): 7
-------------------
-                 -
-  +           +  -
-   +         +   -
-    +       +    -
-     +     +     -
-      +   +      -
-       + +       -
-        +        -
-                 -
-------------------
``````

Another approach uses the Set_Col procedure from Ada.Text_Io. Set_Col set the cursor to the specified column number in the current output line. For example, if the cursor starts at position 1 and you call Set_Col(10) the procedure will output 9 blank characters and set the column number to 10. You can then begin writing your non-blank output at column 10.

``````with Ada.Text_Io; use Ada.Text_IO;

procedure V_columns is
subtype Cross_Rows is Integer range 3..80;

Rows       : Cross_Rows;
Flag_Width : Positive;
Left       : Positive;
Right      : Positive;
begin
Put("Enter the number of cross rows (minimum is 3): ");
Get(Rows);
Skip_Line;
Flag_Width := (Rows  * 2) + 4;
-- Print top row of flag boundary
for Col in 1..Flag_Width loop
Put("-");
end loop;
New_Line;
-- Print empty row below top flag boundary
Set_Col(1);
Put("|");
Set_Col(Positive_Count(Flag_Width));
Put_Line("|");

-- Print crosses
Left := 3;
Right := Flag_Width - 3;
for R in 1..Rows loop
Set_Col(1);
Put("|");
if Left < Right then
Set_Col(Positive_Count(Left));
Put("+");
Set_Col(Positive_Count(Right));
Put("+");
else
Set_Col(Positive_Count(Right));
Put("+");
end if;
Set_Col(Positive_Count(Flag_Width));
Put("|");
New_Line;
Left := Left + 1;
Right := Right - 1;
end loop;
-- Print bottom flag rows
Set_Col(1);
Put("|");
Set_Col(Positive_Count(Flag_Width));
Put_Line("|");
for C in 1..Flag_Width loop
Put("-");
end loop;
New_Line;
end V_Columns;
``````

The output of the program is:

``````Enter the number of cross rows (minimum is 3): 7
------------------
|                |
| +           +  |
|  +         +   |
|   +       +    |
|    +     +     |
|     +   +      |
|      + +       |
|       +        |
|                |
------------------
``````
• Thanks a lot Jim! Truly appreciated! I answered by editing my main post. What do you think of it? – Gustav Agrell May 21 at 13:24
• @GustavAgrell Congratulations. You achieved a working program. Some minor observations: You calculate the value for Flag_Width twice when you only need to do it once. You prompt that the minimum number of rows is 3 when your program allows a minimum of 2. Use of consistent indentation of code improves readability of the code. – Jim Rogers May 21 at 13:55

You could also choose an approach in which the definition of the pattern (here: a flag) and the output mechanism are almost completely decoupled. This approach also allows you to parallelize the flag rendering in case you need to render really, really huge flags ;-):

``````with Ada.Text_IO; use Ada.Text_IO;

procedure Main is

N : constant := 2;

Width  : constant := 3 + 2 * N;
Height : constant := 3 + 1 * N;

type Screen_X is new Natural range 0 .. Width  - 1;
type Screen_Y is new Natural range 0 .. Height - 1;

-------------
-- Pattern --
-------------

function Pattern (X : Screen_X; Y : Screen_Y) return Character is

Is_Border_LR : constant Boolean :=
X = Screen_X'First or else X = Screen_X'Last;

Is_Border_TB : constant Boolean :=
Y = Screen_Y'First or else Y = Screen_Y'Last;

--  The V-Shape is based on the implicit function:
--
--    abs (X - X0) + (Y - Y0) = 0

X0 : constant := (Screen_X'Last + Screen_X'First) / 2;
Y0 : constant :=  Screen_Y'Last - 1;

Is_V_Shape : constant Boolean :=
Integer (abs (X - X0)) + Integer (Y - Y0) = 0;

begin

if Is_Border_LR and Is_Border_TB then
return '+';
elsif Is_Border_LR then
return '!';
elsif Is_Border_TB then
return '-';
elsif Is_V_Shape then
return '+';
else
return ' ';
end if;

end Pattern;

begin

--  The Render loop.

for Y in Screen_Y loop
for X in Screen_X loop
Put (Pattern (X, Y));
end loop;
New_Line;
end loop;

end Main;
``````

output (N = 1)

``````\$ ./main
+---+
!+ +!
! + !
+---+
``````

output (N = 2)

``````\$ ./main
+-----+
!+   +!
! + + !
!  +  !
+-----+
``````