4. Implementation-Specific Features and Implementation Permissions

ASIS permits four kinds of implementation-specific behavior.

First, ASIS subprograms that define an interface between an ASIS implementation and the underlying Ada implementation have implementation-specific parameters. There are three such queries — Asis.Implementation.Initialize, Asis.Implementation.Finalize and Asis.Ada_Environments.Associate.

Each has a string parameter named Parameters with an implementation-specific meaning. The meaning of the Parameters string in ASIS-for-GNAT is discussed in Interacting with the Underlying Ada Implementation.

Second, in some areas the ASIS standard explicitly grants the implementation permission to provide restricted functionality; generally this allows omitting features that could present considerable implementation difficulty. Such permissions usually affect more than one ASIS query. The ASIS package Asis.Implementation.Permissions contains boolean queries identifying the choices made by a given ASIS implementation. The ASIS-for-GNAT approach to these implementation permissions is discussed in Implementation Permissions.

Third, the ASIS standard defines specific implementation permissions for some queries. Also, the result of a query may be implementation specific because of the nature of the query. See ASIS Queries Having Specific Implementation Permissions or Implementation-Specific Results.

Finally, ASIS-for-GNAT provides special Context manipulation mechanisms that supplement those defined in the ASIS standard. These additional Context modes may be useful for some ASIS applications.

4.1. Interacting with the Underlying Ada Implementation

This section describes how to use the Parameters string to pass implementation-specific information to several ASIS subprograms.

4.1.1. Format of the Parameters String

A Parameters string is passed to three ASIS subprograms: Asis.Implementation.Initialize, Asis.Implementation.Finalize, and Asis.Ada_Environments.Associate.

The Parameters string comprises substrings delimited by separators. The substrings are called parameters (with lower-case ‘p’) below. A separator is a non-empty string comprising characters from the set <Space>, <LF>, and <CR>. There may be 0 or more parameters in a Parameters string, and there may be separators before the first and/or after the last parameter.

Each of the queries Asis.Implementation.Initialize, Asis.Implementation.Finalize, and Asis.Ada_Environments.Associate has specific rules for the format of its parameters. If some parameter is not well-formed, then either a warning message is generated or else the ASIS_Failed exception is raised with the Parameter_Error status. The descriptions below explain the situations where ASIS_Failed is raised.

4.1.2. Parameters of Asis.Implementation.Initialize

The allowed parameters for Asis.Implementation.Initialize are as follows:

-d<flag>

The specific ASIS-for-GNAT debug flag named <flag> is set ON

-dall

All the ASIS-for-GNAT debug flags are set ON

-s

Exit to OS if an internal implementation error is detected. When a non-ASIS exception is raised, normally it is replaced by raising ASIS_Failed with Unhandled_Exception_Error status (this is the only case when Unhandled_Exception_Error is set) and the Diagnosis string containing the name and the message from the non-ASIS exception originally raised. If this option is specified, instead of raising ASIS_Failed the ASIS query processing in this results in exit to OS.

-nbb

No bug box. When a non-ASIS exception is raised when processing an ASIS query, a bug box containing the description of the internal implementation bug is output into Standard_Error. This option prevents generation of such a bug box.

-sv

Set the strong GNAT/ASIS version check when reading the tree files

-wv

Set the weak GNAT/ASIS version check when reading the tree files

-we

All ASIS warnings are treated as errors.

When execution reaches the point where the warning would occur, the ASIS_Failed exception is raised; the warning message is the ASIS Diagnosis string.

-ws

All ASIS warning messages are suppressed.

The <flag> value for the -d parameter may be any lower case letter from a through z or any digit from 0 through 9, although not all of the 36 possible flags are implemented. For more information, refer to the documentation in the source file a4g-a_debug.adb. See also ASIS Debug Flags.

If more then one parameter controlling the warning mode is set in the Parameters string, all but the last one are ignored.

4.1.3. Parameters of Asis.Implementation.Finalize

No parameters are allowed for Asis.Implementation.Finalize.

Asis.Implementation.Finalize resets all the general ASIS-for-GNAT parameters to their default values (that is, all the debug flags are set OFF, and the warning mode is set to the default warning mode).

4.1.4. Parameters of Asis.Ada_Environments.Associate

The following parameters are allowed:

-C1

The Context comprises a single tree file, whose name is given as the next parameter in the Parameters string.

-CN

The Context comprises a set of one or more tree files, whose names are given as the next set of parameters in the Parameters string.

-CA

The Context comprises all the tree files in the tree search path.

-FS

All the trees considered as making up a given Context are created ‘on the fly’, whether or not the corresponding tree file already exists. Once created, a tree file then is reused as long as the Context remains open.

-FT

Only pre-created trees are used; no tree files are created by ASIS.

-FM

Mixed approach: if a needed tree does not exist, an attempt is made to create it ‘on the fly’.

-SA

Source files for all the Compilation_Units belonging to the Context (except the predefined Standard package) are considered in the consistency check when opening the Context.

-SE

Only existing source files for all the Compilation_Units belonging to the Context are considered in the consistency check when opening the Context.

-gnatR

Use JSON files generated by compiling Ada sources with -gnatR4js option to extract the representation information for Data Decomposition Annex queries.

-SN

No source files from the underlying file system are taken into account when checking the consistency of the set of tree files making up the Context.

-I<dir>

Defines the directory in which to search for source files when compiling sources to create a tree ‘on the fly’.

--GCC=ASIS_Tree_Creator_name

Defines the program to be called to create the tree on the fly

-gnatec<file>

Defines the additional configuration file to be used when calling GNAT to create the tree on the fly for -FS or -FM Context

-gnatA

Avoid processing gnat.adc when calling ASIS Tree Creator to create the tree on the fly for -FS or -FM Context

-T<dir>

Defines the directory in which to search for a tree file.

-R<dir>

Defines the directory in which to search for JSON files with the representation information needed for Data Decomposition Annex queries.

<file_name>

Defines the name of a tree file (used in conjunction with -C1 or -CN).

For the -I and -T parameters, <dir> should denote an existing directory in the underlying file system. The ‘.’ and ‘..’ notations are allowed, as well as relative or absolute directory names. If <dir> does not denote an existing directory, ASIS_Failed with Parameter_Error status is raised.

For ASIS -FS or -FM Context, Context parameters -I, -gnatec and -gnatA are passed to the ASIS Tree Creator call to create the tree on the fly and these parameters have exactly the same meaning as they have for GNAT.

A tree file name given by a <file_name> parameter may or may not contain directory information.

Any relative directory name or file name containing relative directory information should start from ‘.’ or ‘..’.

If a directory or a file name used as a part of some Context parameter contains space characters, this name should be quoted.

The search path associated with an ASIS Context consists of the directories listed as parameters for the Asis.Ada_Environments.Associate query, in the same order as they are included in the actual Parameters string. The ASIS source search path consists only of the directories following -I, and the ASIS tree search path consists only of the directories following -T. If no source (tree) directories are present in the value of the Parameters string, then the ASIS source (tree) search path consists of the current directory only. Otherwise the current directory is included in the ASIS search path if and only if it is set explicitly as -I. or -T. respectively.

If an ASIS Context is associated with an -FS or -FM option, the Context source search path is used to locate sources of the units for which tree files need to be created, and to locate other source files needed during compilation. For example, if we have:

Asis.Ada_Environments.Associate
  (My_Context,
  "My_Context_Name",
  "-CA -FS -I./dir -I.");

then, when processing a call:

My_Unit := Asis.Compilation_Units.Library_Unit_Declaration
            ("Foo", My_Context);

ASIS first tries to locate the source file foo.ads in ./dir, and if this attempt fails, it tries to locate it in the current directory. If there is no such file in the current directory, ASIS continues the search by looking into the directories listed in the value of ADA_INCLUDE_PATH environment variable. If the source file is found (say in the current directory), ASIS creates the tree file by calling the ASIS tree creator:

$ asis-gcc -c -gnatc -gnatt -I./dir -I. -I- foo.ads

If an ASIS Context is associated with -CA option, then, when this Context is opened, ASIS processes all the tree files located in the tree search path associated with the Context.

The following further rules define the required combinations of parameters in the actual Parameters string:

  • -C1 and -CN require -FT

  • -FS and -FM require -SA

In case an incompatible combination is set, ASIS_Failed with Parameter_Error status is raised.

If the actual Parameters string passed to Associate contains no parameters, the default parameters are -CA, -FT, and -SA.

The -FS and -FM options define dynamic Context modes; they allow the content of a Context (that is, the set of ASIS Compilation_Units contained in the Context) to be changed while the Context is open. See Dynamic Context Modes for more details.

For the Name parameter of the Asis.Ada_Environments.Associate query, any string can be passed as an actual parameter. No verification is performed on the contents, and no semantics are associated with this parameter.

4.2. Implementation Permissions

This section describes how ASIS-for-GNAT deals with implementation permissions.

4.2.1. Asis.Implementation.Permissions Queries

The Boolean queries defined in the Asis.Implementation.Permissions package return the following results:

Query

Value

Is_Formal_Parameter_Named_Notation_Supported

True

Default_In_Mode_Supported

True

Generic_Actual_Part_Normalized

False

Record_Component_Associations_Normalized

False

Is_Prefix_Call_Supported

True

Function_Call_Parameters_Normalized

False

Call_Statement_Parameters_Normalized

False

Discriminant_Associations_Normalized

False

Is_Line_Number_Supported

True

Is_Span_Column_Position_Supported

True

Is_Commentary_Supported

True

Attributes_Are_Supported

False

Implicit_Components_Supported

False (*)

Object_Declarations_Normalized

False

Predefined_Operations_Supported

False (*)

Inherited_Declarations_Supported

True (*)

Inherited_Subprograms_Supported

True (*)

Generic_Macro_Expansion_Supported

True

(*) See also Processing Implicit Elements.

4.2.2. Processing Implicit Elements

ASIS Elements represent both explicit and implicit components of Ada programs. (An example of an implicit construct is an inherited subprogram of a derived type.) Some ASIS queries can return implicit Elements (that is, Elements representing implicit Ada constructs). Any syntactic or semantic query should accept an implicit Element as an Element parameter, but the ASIS Standard allows an implementation not to support implicit Elements at all, or to support them only partially. If an implementation does not support the implicit Element representing a particular kind of construct, then an ASIS query that is supposed to process this implicit Element should return either a Nil_Element or a Nil_Element_List depending on whether the query returns a single Element or an Element_List.

Implicit Elements are partially supported by ASIS-for-GNAT.

ASIS-for-GNAT supports implicit Elements for the following constructs:

  • Derived user-defined subprograms

  • Derived enumeration literals

  • Derived record components

ASIS-for-GNAT does not support implicit Elements representing implicit declarations of predefined type operations (such as ‘=’, or the ‘+’ operation for numeric types).

4.2.3. Processing Several Contexts at a Time

According to the ASIS Standard, the number of ASIS Contexts that can be associated and opened at a time, as well as the number of ASIS Compilation_Units that can be processed at a time, are implementation specific. ASIS-for-GNAT does not impose any restriction on the number of Contexts opened at the same time, or on the number of Compilation_Units that can be obtained from all the opened Contexts, as long as the application does not go beyond general system resource limitations.

However, for a Context associated with an -FS or -FM option, all the trees created ‘on the fly’ while obtaining Compilation_Units from this Context are placed in the current directory. If the current directory also contains some tree files belonging to another Context, the latter may become corrupted. To process more than one Context safely, an application should have at most one Context associated with the -FS or -FM option. Moreover, if among Contexts processed at the same time there is one that can create trees ‘on the fly’, then the other Contexts should not use tree files located in the current directory.

4.2.4. Implementation-Defined Types and Values

All the implementation-defined types, subtypes and values depend on the subtype Implementation_Defined_Integer_Type and on the Implementation_Defined_Integer_Constant defined in package Asis. ASIS-for-GNAT’s declarations for these entities are the same as in the ASIS Standard:

subtype Implementation_Defined_Integer_Type is Integer;
Implementation_Defined_Integer_Constant : constant := 2**31-1;

All the ASIS (sub)types used as list indexes for ASIS array types have Implementation_Defined_Integer_Constant as an upper bound.

4.3. ASIS Queries Having Specific Implementation Permissions or Implementation-Specific Results

This section documents queries having implementation permissions (given under --|IP sentinel in the ASIS definition) and queries whose behavior is otherwise implementation specific. Such queries are presented below in their order of appearance in the ASIS Standard. The clause and subclause numbers shown are those from the ASIS Standard.

The results returned by the ASIS Debug_Image queries are discussed in Interpreting Debug Images.

ASIS 8 package Asis.Ada_Environments

ASIS 8.1 function Default_Name

  • Null string is returned.

ASIS 8.2 function Default_Parameters

  • Null string is returned;.

ASIS 8.4 procedure Open

  • For a Context associated with the -CA option:

    • If -FS is also set, nothing is done.

    • If the -FT or -FM is set, all the tree files (that is, files having .adt suffix) in the tree search path associated with the Context are processed. ASIS reads in each tree file and checks that it was created with the -gnatc option. Tree files that cannot be read in or that were not created with the -gnatc option are ignored. For each other tree ASIS collects some ‘black-box’ information about the Compilation_Units that it represents, and performs a consistency check for every unit it encounters in the tree (see ASIS-for-GNAT User’s Guide for a discussion of the consistency problem). If any consistency check fails, ASIS_Failed is raised and the Context remains closed.

  • For a Context associated with a -C1 or -CN option, ASIS processes all the tree files associated with the Context, collecting ‘black-box’ information and performing consistency checks for all the encountered Compilation Units. If for any reason a tree file cannot be successfully read in for a Context associated with a -C1 option, ASIS_Failed is raised and the Context remains closed. If a tree read fails for a Context associated with a -CN option, an ASIS warning is generated and the Context opening process continues. If any consistency check fails, ASIS_Failed is raised and the Context remains closed.

ASIS 9 package Asis.Ada_Environments.Containers

  • ASIS-for-GNAT supports the trivial Container model. Every Context contains exactly one Container, whose content and name are the same as its enclosing Context

ASIS 10 package Asis.Compilation_Units

ASIS 10.3 function Unit_Origin

  • A_Predefined_Unit origin is returned for those compilation units listed in RM95, Annex A(2), and only for these units.

  • An_Implementation_Unit origin is returned for compilation units that are the components of the GNAT Run-Time Library, but that are not listed in RM95, Annex A(2).

  • An_Application_Unit origin is returned for all other compilation units.

ASIS 10.6 function Library_Unit_Declaration and ASIS 10.7 function Compilation_Unit_Body

  • When processing a Context associated with an -FS or -FM option, if ASIS cannot find a needed unit in the tree files that have been already processed, it tries to create the needed tree by locating the source of the unit and compiling it ‘on the fly’. If this attempt fails for any reason, Nil_Compilation_Unit is returned.

ASIS 10.13 function Corresponding_Declaration

  • ASIS-for-GNAT does not make use of ASIS Compilation_Units of An_Unknown_Unit kind.

  • If an argument is of A_Public_Declaration_And_Body class, Nil_Compilation_Unit is returned.

ASIS 10.14 function Corresponding_Body

  • ASIS-for-GNAT does not make use of ASIS Compilation_Units of An_Unknown_Unit kind.

ASIS 10.22 function Can_Be_Main_Program

  • For GNAT, any parameterless library procedure and any parameterless library function returning a result of an integer type is classified by this query as a (possible) main subprogram for a partition.

  • If for such a library subprogram both spec and body exist as ASIS Compilation_Units retrievable from a given ASIS Context, both are considered as Can_Be_Main_Program.

ASIS 10.24 function Text_Name

  • This function returns the name of the source file containing the source of Compilation_Unit. This name may or may not contain a prefix denoting the directory in the underlying file system. If present, the directory may be given in absolute or relative form, depending on the command line options that were used for the call to ASIS Tree Creator that created the corresponding tree file.

  • This function does not check the existence of the corresponding source file in the underlying file system, it just reflects the situation which was in effect when the corresponding tree file was created. Thus, if you delete or move the corresponding source file after creating the tree, the full file name returned by this function will be incorrect.

  • Use the query Asis.Extensions.Source_File_Status to get the information about the current status of the source file for a Compilation_Unit.

ASIS 10.25 function Text_Form

  • In the GNAT compilation model all source files are ordinary text files in the underlying file system. Therefore this function always returns a Nil_Asis_String to indicate that Text_IO.Open uses the default options for manipulating Ada sources.

ASIS 10.26 function Object_Name

  • Returns a null string. In the GNAT environment, creating an object file has no connection with creating trees for ASIS.

ASIS 10.27 function Object_Form

  • Returns a null string.

ASIS 10.29 function Has_Attribute

  • Returns False. ASIS-for-GNAT does not provide any additional attributes for Compilation Units.

ASIS 10.30 function Attribute_Value_Delimiter

  • Returns a wide string of length one containing the LF wide character.

ASIS 10.31 function Attribute_Values

  • A null string is returned.

ASIS 11 package Asis.Compilation_Units.Times

ASIS 11.2 function Time_Of_Last_Update

  • This function returns the time stamp (the time of the latest change) of the corresponding source file. The corresponding source file is the source file whose name is returned by Asis.Compilation_Units.Text_Name.

ASIS 11.3 function Compilation_CPU_Duration

  • This function always returns zero duration, because the CPU compilation duration concept does not apply to ASIS-for-GNAT

ASIS 11.4 function Attribute_Time

  • This function always returns Nil_ASIS_Time because ASIS-for-GNAT does not provide any Compilation_Unit attributes

ASIS 13 package Asis.Elements

ASIS 13.3 function Context_Clause_Elements

  • This function returns exactly those clauses and pragmas that are in the source for the unit.

  • Returns Nil_Element_List if the argument unit is of A_Nonexistent_Declaration, A_Nonexistent_Body or An_Unknown_Unit kind

  • Returns Nil_Element_List for the predefined package Standard. For all other predefined Ada compilation units, returns their context clauses as they appear in the sources held in the GNAT Run-Time Library.

ASIS 13.4 function Configuration_Pragmas

  • This function always returns Nil_Element_List, because in the GNAT compilation environment “a list of pragmas that apply to all future compilation_unit elements compiled into The_Context” essentially depends on the GNAT options set when compiling a unit (in particular the -gnatA and -gnatec options), and this cannot be determined from the content of the given Context.

ASIS 13.5 function Compilation_Pragmas

  • If the argument unit has been compiled on its own to produce a corresponding tree file, then the result contains the configuration pragmas from the GNAT configuration file(s) involved in this compilation. Otherwise (that is, if the argument unit has been compiled only as an effect of compiling some other unit), the result contains only those pragmas that belong to the unit’s source file.

  • A pragma that appears in the unit’s context clause is included in the result list only if it is a configuration pragma.

  • Returns Nil_Element_List for the predefined package Standard.

ASIS 13.31 function Is_Equal

  • Two elements representing configuration pragmas belonging to A_Configuration_Compilation unit (or components thereof) are considered as being equal only if they are created by the same compilation (belong to the same tree).

ASIS 13.36 function Enclosing_Element

  • ASIS-for-GNAT does not require the Element_Context parameter. The Enclosing_Element function with two parameters just calls the Enclosing_Element function with one parameter for its Element parameter.

ASIS 15 package Asis.Declarations

ASIS 15.24 function Body_Block_Statement

  • If the body passed as the actual parameter has no declarative items of its own, Asis.Statements.Is_Declare_Block returns False.

ASIS 18 package Asis.Statements

ASIS 18.14 function Is_Declare_Block

  • If the argument represents the dummy block statement created by Asis.Declarations.Body_Block_Statement function, the result will be True if and only if the corresponding body has declarative items.

ASIS 20 package Asis.Text

ASIS 20.1 type Line

  • Lines in ASIS-for-GNAT do not contain any end-of-line characters (see RM95, 2.2(2)).

ASIS 20.22 function Delimiter_Image

  • Returns a wide string of length one, containing the LF wide character.

4.4. Processing of Predefined Input-Output Packages

As the GNAT compiler, the ASIS Tree Creator transforms the structure of the predefined input-output (Ada.Text_IO, Ada.Wide_Text_IO and Ada.Wide_Wide_Text_IO) to optimize compilations of their clients. The documentation of Ada.Text_IO says:

--  Note: the generic subpackages of Text_IO (Integer_IO, Float_IO, Fixed_IO,
--  Modular_IO, Decimal_IO and Enumeration_IO) appear as private children in
--  GNAT. These children are with'ed automatically if they are referenced, so
--  this rearrangement is invisible to user programs, but has the advantage
--  that only the needed parts of Text_IO are processed and loaded.

The same happens for Ada.Wide_Text_IO and Ada.Wide_Wide_Text_IO. In this situation ASIS follows not the Ada Standard, but the actual code contained in the GNAT Run-Time Library. That is, the Enclosing_Compilation_Unit for an ASIS Element representing Ada.Text_IO.Integer_IO will be not the Compilation_Unit that contains the whole package Ada.Text_IO, but the Compilation_Unit representing its private child as it is described above.

The Asis.Extensions package contains a query named Is_Sub_Package_Implemented_As_Child_Unit that allows to detect such private children of predefined Ada text input-output packages.

4.5. Representation clauses and -gnatI GNAT option

GNAT -gnatI allows to ignore all the representation clauses in the code being compiled. This option has the same effect for ASIS Tree Creator, so it is possible to compile (for the tree file) the code if it contains representation that are illegal in the given compilation environment. ASIS can process tree files created with -gnatI, and for the ASIS Context that is based on such trees, ASIS does not yield Elements that correspond to representation clauses.

Note that you will see these representation clauses in the text images of the enclosing Elements, but nevertheless you will not be able to get them as subcomponents of such Elements.

4.6. Dynamic Context Modes

If an ASIS Context is defined with an -FS or -FM option, then ASIS may compile sources ‘on the fly’ to obtain Compilation_Units. Thus the content of the Context will not necessarily remain frozen when the Context is open — when ASIS gets a new Compilation_Unit, it ‘adds’ it to the Context. The -FS and -FM options are referred to as dynamic Context modes.

The difference between the two modes is as follows:

-FS

ASIS does not take into account any existing tree file when opening a Context.

-FM

ASIS first processes the tree files in the tree search path. If a given Compilation_Unit is present in the existing set of tree files, these tree files are used; otherwise ASIS tries to locate the source of the unit and to compile it to produce a tree file.

For both -FS and -FM Contexts, once a tree file is created it is added to the set of tree files making up the Context and then it is reused (without recreating it from sources again) for the queries dealing with Compilation_Units represented by this tree.

An advantage of these dynamic Context modes is that you do not have to create the tree files explicitly; to users of an ASIS application based on such Context modes the application appears to operate directly from source files. But there is also a drawback, a consequence of the fact that the content of a Context may change while the Context is open: some ASIS queries dealing with Compilation_Units or returning lists of Compilation_Units raise the ASIS_Failed exception (with Use_Error status).

These queries are as follows:

Asis.Compilation_Units:
     Library_Unit_Declarations
     Compilation_Unit_Bodies
     Compilation_Units
     Corresponding_Children

Another limitation of the dynamic Context mode is that ASIS uses the standard GNAT naming scheme to compute the name of the source to be compiled from the name of the corresponding Ada compilation unit. That is, if the name of the source containing the code of some unit does not follow the GNAT naming scheme, then ASIS will not locate this source, and it will treat this unit as Nil_Compilation_Unit.