The with statement adds the package
Ada.Text_IO to the program.
This package comes with every Ada compiler and
contains all functionality needed for textual Input/Output.
The with statement makes the declarations of
available to procedure
This includes the types declared in
the subprograms of
and everything else that is declared in
Ada.Text_IO for public use.
In Ada, packages can be used as toolboxes.
Text_IO provides a collection of tools for textual input and output
in one easy-to-access module. Here is a partial glimpse at package Ada.Text_IO:
package Ada.Text_IO is type File_Type is limited private; -- more stuff procedure Open(File : in out File_Type; Mode : File_Mode; Name : String; Form : String := ""); -- more stuff procedure Put_Line (Item : String); -- more stuff end Ada.Text_IO;
Next in the program we declare a main procedure. An Ada main procedure does not need to be called "main". Any simple name is fine so here it is Hello. Compilers might allow procedures or functions to be used as main subprograms. 
The call on
Ada.Text_IO.Put_Line writes the text "Hello World"
to the current output file.
A with clause makes the content of a package visible by selection:
we need to prefix the procedure name
Put_Line from the
package with its full package name
If you need procedures from a package more often some form of shortcut is needed. There are two options open:
By renaming a package it is possible to give a shorter alias to any package name. This reduces the typing involved while still keeping some of the readability.
with Ada.Text_IO; procedure Hello is package IO renames Ada.Text_IO; begin IO.Put_Line("Hello, world!"); IO.New_Line; IO.Put_Line("I am an Ada program with package rename."); end Hello;
The use clause makes all the content of a package directly visible. It allows even less typing but removes some of the readability. One suggested "rule of thumb": use for the most used package and renames for all other packages. You might have another rule (for example, always use Ada.Text_IO, never use anything else).
with Ada.Text_IO; use Ada.Text_IO; procedure Hello is begin Put_Line("Hello, world!"); New_Line; Put_Line("I am an Ada program with package use."); end Hello;
For information on how to build the "Hello, world!" program on various compilers, see the Building chapter.
Ada beginners frequently ask how it can be that such a simple program as "Hello, world!" results in such a large executable. The reason has nothing to do with Ada but can usually be found in the compiler and linker options used — or better, not used.
Standard behavior for Ada compilers — or good compilers in general — is not to create the best code possible but to be optimized for ease of use. This is done to ensure a system that works "out of the box" and thus does not frighten away potential new users with unneeded complexity.
The GNAT project files, which you can download alongside the example programs, use better tuned compiler, binder and linker options. If you use those your "Hello, world!" will be a lot smaller:
32K ./Linux-i686-Debug/hello_world_1 8.0K ./Linux-i686-Release/hello_world_1 36K ./Linux-x86_64-Debug/hello_world_1 12K ./Linux-x86_64-Release/hello_world_1 1.1M ./Windows_NT-i686-Debug/hello_world_1.exe 16K ./Windows_NT-i686-Release/hello_world_1.exe 32K ./VMS-AXP-Debug/hello_world_1.exe 12K ./VMS-AXP-Release/hello_world_1.exe
For comparison the sizes for a plain gnat make compile:
497K hello_world_1 (Linux i686) 500K hello_world_1 (Linux x86_64) 1.5M hello_world_1.exe (Windows_NT i686) 589K hello_world_1.exe (VMS AXP)
Worth mentioning is that hello_world (Ada,C,C++) compiled with GNAT/MSVC 7.1/GCC(C) all produces executables with approximately the same size given comparable optimisation and linker methods.
It will help to be prepared to spot a number of significant features of Ada that are important for learning its syntax and semantics.
There is a comb format in all the control structures and module structures. See the following examples for the comb format. You don't have to understand what the examples do yet - just look for the similarities in layout.
if Boolean expression then statements elsif Boolean expression then statements else statements end if;
function F (parameters : in type) return type is declarations begin statements exception handlers end F;
Note that semicolons consistently terminate statements and declarations; the empty line (or a semicolon alone) is not a valid statement: the null statement is
There is an important distinction between type and subtype: a type is given by a set of values and their operations. A subtype is given by a type, and a constraint that limits the set of values. Values are always of a type. Objects (constants and variables) are of a subtype. This generalizes, clarifies and systematizes a relationship, e.g. between Integer and 1..100, that is handled ad hoc in the semantics of Pascal.
There is an important distinction between constrained types and unconstrained types. An unconstrained type has one or more free parameters that affect its size or shape. A constrained type fixes the values of these parameters and so determines its size and shape. Loosely speaking, objects must be of a constrained type, but formal parameters may be of an unconstrained type (they adopt the constraint of any corresponding actual parameter). This solves the problem of array parameters in Pascal (among other things).
Where values in Pascal or C must be static (e.g. the subscript bounds of an array) they may be dynamic in Ada. However, static expressions are required in certain cases where dynamic evaluation would not permit a reasonable implementation (e.g. in setting the number of digits of precision of a floating point type).
Ada consistently supports a separation of interface and mechanism. You can see this in the format of a package, which separates its declaration from its body; and in the concept of a private type, whose representation in terms of Ada data structures is inaccessible outside the scope containing its definition.
Most Ada experts lurk on the Usenet newsgroups comp.lang.ada (English) and fr.comp.lang.ada (French); they are accessible either with a newsreader or through one of the many web interfaces. This is the place for all questions related to Ada.
People on these newsgroups are willing to help but will not do students' homework for them; they will not post complete answers to assignments. Instead, they will provide guidance for students to find their own answers.
For more online resources, see the External links section in this Study Guide's introduction.
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