omniidl — The omniORB IDL Compiler
Duncan Grisby
AT&T Laboratories Cambridge
June 2000 |
1 Introduction
This manual describes omniidl, the omniORB IDL compiler. It is
intended for developers who wish to write their own IDL compiler
back-ends, or to modify existing ones.
If you just wish to use omniidl to create stubs for C++ or Python,
you should read the omniORB or omniORBpy manuals instead of this one.
1.1 Requirements
Back-ends for omniidl are written in Python, so to use it you must
have an up-to-date Python interpreter. You must also understand Python
to be able to follow this manual and write back-ends. You can download
Python and associated documentation from
http://www.python.org/.
The front-end scanner and parser are written using flex and bison; the
rest of the front-end is written in C++. The code intentionally avoids
using any advanced (and useful) features of C++, such as templates, so
as to make it as portable as possible.
1.2 Running omniidl
On all platforms, there is a command named omniidl. On Unix
platforms, omniidl is a Python script which runs Python via the
#! mechanism. On Windows NT, there is an executable named
omniidl.exe.
The omniidl command line has the form:
omniidl [options] -b<back-end> [back-end options] <file 1> <file 2> ...
The supported flags are:
|
| -Dname[=value] |
Define name for the preprocessor. |
| -Uname |
Undefine name for the preprocessor. |
| -Idir |
Include dir in the preprocessor search path. |
| -E |
Only run the preprocessor, sending its output to stdout. |
| -Ycmd |
Use cmd as the preprocessor, rather than the normal C
preprocessor. |
| -N |
Do not run the preprocessor. |
| -T |
Use a temporary file, not a pipe, for preprocessor output. |
| -Wparg[,arg...] |
Send arguments to the preprocessor. |
| -bback-end |
Run the specified back-end. For the C++ ORB, use -bcxx. |
| -Wbarg[,arg...] |
Send arguments to the back-end. |
| -nf |
Do not warn about unresolved forward declarations. |
| -k |
Keep comments after declarations, to be used by some back-ends. |
| -K |
Keep comments before declarations, to be used by some back-ends. |
| -Cdir |
Change directory to dir before writing output files. |
| -i |
Run the front end and back-ends, then enter the interactive loop. |
| -d |
Dump the parsed IDL then exit, without running a back-end. |
| -pdir |
Use dir as a path to find omniidl back-ends. |
| -V |
Print version information then exit. |
| -u |
Print usage information. |
| -v |
Verbose: trace compilation stages. |
If you do not specify any back-ends (with the -b flag),
omniidl just runs the compiler front-end, checking that the IDL is
valid. If you specify more than one back-end, the back-ends are run in
turn on the abstract syntax tree of each file. This permits you to
generate stubs for more than one language in a single run. It also
permits you to write back-ends which annotate or modify the abstract
syntax tree to be used by later back-ends.
For example, the command:
omniidl -bdump -bpython foo.idl bar.idl
first reads and parses foo.idl, and runs the
dump and python back-ends on it in turn. Then it reads
and parses bar.idl and runs the two back-ends on that.
1.3 Preprocessor interactions
IDL is processed by the C preprocessor before omniidl parses it.
Unlike the old IDL compiler, which used different C preprocessors on
different platforms, omniidl always uses the GNU C preprocessor
(which it builds with the name omnicpp). The -D,
-U, and -I options are just sent to the
preprocessor. Note that the current directory is not on the include
search path by default—use `-I.' for that. The
-Y option can be used to specify a different preprocessor to
omnicpp. Beware that line directives inserted by other preprocessors
are likely to confuse omniidl.
1.3.1 Windows 9x
The output from the C preprocessor is normally fed to the omniidl
parser through a pipe. On some Windows 98 machines (but not all!) the
pipe does not work, and the preprocessor output is echoed to the
screen. When this happens, the omniidl parser sees an empty file,
and produces useless stub files with strange long names. To avoid the
problem, use the `-T' option to create a temporary file
between the two stages.
1.4 Forward-declared interfaces
If you have an IDL file like:
interface I;
interface J {
attribute I the_I;
};
then omniidl will normally issue a warning:
test.idl:1: Warning: Forward declared interface `::I' was never
fully defined
It is illegal to declare such IDL in isolation, but it
is valid to define interface I in a separate file. If
you have a lot of IDL with this sort of construct, you will drown
under the warning messages. Use the -nf option to suppress
them.
1.5 Comments
By default, omniidl discards comments in the input IDL. However,
with the -k and -K options, it preserves the
comments for use by the back-ends.
The two different options relate to how comments are attached to
declarations within the IDL. Given IDL like:
interface I {
void op1();
// A comment
void op2();
};
the -k flag will attach the comment to op1();
the -K flag will attach it to op2().
1.6 Interactive loop
When omniidl is given the -i option, it runs the compiler
front-end and any back-ends specified, and then drops into Python's
interactive command loop. Within the interactive loop, you can
import omniidl. The parsed AST is then available as
omniidl.idlast.tree. This mode is useful for investigating the
parsed tree.
1.7 Copyright
All parts of omniidl are licensed under the GNU General Public
License, available in the file COPYING.
As a special exception to the terms of the GPL, we do not consider
back-ends to be derived works of omniidl. This means that you may
distribute back-ends you write under any terms you like. The back-ends
we distribute are licensed under the GPL, so you must abide by its
terms if you distribute or modify our back-ends.
As another exception, we do not consider the output of the back-ends
we distribute to be derived works of those back-ends. You may
therefore use generated stubs with no restrictions.
2 Back-end interface
There are three elements to the back-end interface: requirements on
the back-end modules themselves, a set of output and utility
functions, and the interface to the parsed IDL.
2.1 Back-end modules
omniidl back-ends are just normal Python modules. When you specify a
back-end with -bfoo, omniidl first tries to open the
Python module named omniidl_be.foo. If that fails, it tries to
open the module just named foo, using the normal
PYTHONPATH mechanism. As with any Python module, the module
foo can either be implemented as a single file named
foo.py, or as a directory foo containing a file named
__init__.py.
The only requirement on back-end modules is that they contain a
function with the signature run(tree, args), where tree
is an AST object as described in section 2.3.3,
and args is a list of argument strings passed to the back-end.
Back-ends may also optionally provide a variable named cpp_args
which contains a list of strings containing arguments to be given to
the C preprocessor. For example, the Python back-end contains the
line:
cpp_args = ["-D__OMNIIDL_PYTHON__"]
2.2 Output and utility functions
The purpose of most back-ends is to output source code in some
language. It is often the case that much of the output is independent
of the specifics of the IDL input. The output for an IDL interface,
for example, might be an extensive class definition containing
configuration and initialisation code which is largely independent of
the specifics of the interface. At various places throughout the class
definition, there would be items which were dependent on the
interface definition.
omniidl supports this with template based output functions.
Templates are simply strings containing the code to be output,
including expressions surrounded by `@' characters. When the
templates are output, the keys inside the `@' expressions are
replaced with values according to the output arguments. An
`@' symbol can be output by putting `@@' in the
template.
The output facilities are provided in the omniidl.output module
by the Stream class. The primary method of Stream
objects is out(), which takes arguments of a template string
and a set of key/value pairs to be used in @ substitutions.
For example, if st is a Stream object, then the code:
template = """\
class @id@ {
public:
@id@(@type@ a) : a_(a) {}
private:
@type@ a_;
};"""
st.out(template, id="foo", type="int")
would result in output:
class foo {
public:
foo(int a) : a_(a) {}
private:
int a_;
};
When @ expressions are substituted, the expression is
actually evaluated, not just textually replaced. This means
that you can write templates containing strings like
`@obj.name()@'. Expressions must evaluate to strings. This
feature should not be over-used—it is very easy to write
incomprehensible template expressions. The vast majority of templates
should only use simple string substitutions.
Commonly, it is necessary to nest definitions which are output inside
other definitions. Stream objects keep track of a current
indentation level to aid this. The methods inc_indent() and
dec_indent() increment and decrement the current indent level
respectively. The number of spaces corresponding to a single indent
level is configured when the Stream is created. Occasionally,
you may need to output code which ignores the current indent level
(preprocessor directives in C, for example). The niout() method
is identical to out() except that it performs no indentation.
The Stream constructor takes two arguments, a file opened for
writing, and an integer specifying how many spaces to use for each
indent level.
omniidl.output.Stream
- Stream(file,indent_size)
Initialise a Stream with the given output file and indent
size.
- inc_indent()
Increment the indent level.
- dec_indent()
Decrement the indent level.
- out(template,key=val,...)
Output the template string template with key/value
substitution and indenting.
- niout(template,key=val,...)
As out(), but with no indenting.
2.2.1 Utility functions
The omniidl.idlutil module contains a number of useful
functions:
omniidl.idlutil
- escapifyString(str)
Convert any non-printable characters in string str into octal
escape sequences.
- pruneScope(target,from)
Given two scoped names represented as lists of strings, return
target with any prefix it shares with from removed. For
example:
>>> pruneScope(['A','B','C','D'],['A','B','D'])
['C','D']
- relativeScope(from,dest)
Given two globally-scoped name lists, return a minimal scoped name
list which identifies the destination scope, without clashing with
another identifier. If the only valid result is a globally-scoped
name, the result list is prefixed with None.
- slashName(sn,from)
-
- dotName(sn,from)
-
- ccolonName(sn,from)
Prune scoped name list sn with pruneScope(sn,from),
then convert into a string with name components separated by
`/', `.' or `::'.
2.3 Abstract Syntax Tree
The main meat of the back-end interface is in the
omniidl.idlast and omniidl.idltype modules. When the
compiler parses an IDL file, it creates a tree of objects representing
the IDL declarations. The classes for these declarations are defined
in the idlast module. The way an IDL declaration is split into
objects closely follows the terms within the IDL grammar presented in
chapter 3 of the CORBA 2.3 specification.
2.3.1 Visitor pattern
All objects within the back-end interface support the visitor
pattern. They have an accept(visitor) method which acts on a
visitor adhering to the interfaces in the omniidl.idlvisitor
module. Note that Python's dynamic type system means that visitor
objects need not actually derive from the classes defined in
idlvisitor1. Also note that you do not have to use the
visitor pattern if you do not wish to.
2.3.2 Pragmas and comments
Any unknown #pragmas encountered in the IDL are attached to
nodes within the AST. Similarly, comments are attached if omniidl is
run with the -k or -K fields.
omniidl.idlast.Pragma
- text()
Text of the pragma.
- __str__()
Same as text().
- file()
File containing the pragma.
- line()
Line within the file.
omniidl.idlast.Comment
- text()
Text of the comment.
- __str__()
Same as text().
- file()
File containing the comment.
- line()
Line within the file.
2.3.3 The root of the tree
The back-end's run() function (described in
section 2.1) is passed an object of class AST.
omniidl.idlast.AST
- file()
The file name of the main IDL file being compiled.
- declarations()
List of Decl objects corresponding to declarations at file
scope.
- pragmas()
List of Pragma objects containing #pragmas which
occurred before any declarations. Later #pragmas are
attached to Decl objects.
- comments()
List of Comment objects containing comments which were not
attached to declarations (see section 1.5).
- accept(visitor)
Visitor pattern accept.
2.3.4 Base declaration
All declarations in the tree are derived from the Decl class:
omniidl.idlast.Decl
- file()
The name of the file in which this declaration was made.
- line()
The line number within the file.
- mainFile()
Boolean: true if the declaration is in the main IDL file; false if
it is in an included file.
- pragmas()
List of Pragma objects containing #pragmas which
occurred after this declaration, but before any others.
- comments()
List of Comment objects containing comments attached to this
declaration (see section 1.5).
- accept(visitor)
Visitor pattern accept.
2.3.5 Declarations with a repository identifier
Some classes of declaration object also inherit from the
DeclRepoId mixin class:
omniidl.idlast.DeclRepoId
- identifier()
Name of the declaration as a string.
- scopedName()
List of strings forming the fully-scoped name of the declaration.
e.g. ::foo::bar::baz is represented as
['foo','bar','baz'].
- repoId()
Repository identifier of the declaration.
2.3.6 Declaration classes
The declaration objects making up the tree have the following classes:
omniidl.idlast.Module (Decl,DeclRepoId)
Module declaration
- definitions()
List of Decl objects declared within this module, in the
order they were declared.
- continuations()
List containing Module objects which are continuations of
this module. When modules are re-opened, multiple Module
objects with the same name appear in the enclosing Module or
AST object. In case it's useful, the first Module
object for a particular module has a list containing continuations
of that module. You will probably not have any use for this.
omniidl.idlast.Interface (Decl,DeclRepoId)
Interface declaration
- abstract()
Boolean: true if the interface is declared abstract.
- inherits()
List of interfaces from which this one inherits. Each list member is
either an Interface object, or a Declarator object
belonging to a typedef to an interface.
- contents()
List of Decl objects for all items declared within this
interface.
- declarations()
Subset of contents() containing types, constants and
exceptions.
- callables()
Subset of contents() containing Operations and
Attributes.
omniidl.idlast.Forward (Decl,DeclRepoId)
Forward-declared interface
- abstract()
Boolean: true if the interface is declared abstract.
- fullDecl()
Interface object corresponding to the full interface
declaration or None if there is no full declaration.
omniidl.idlast.Const (Decl,DeclRepoId)
Constant declaration
- constType()
idltype.Type object of the constant. Aliases not stripped.
- constKind()
TypeCode kind of the constant with aliases stripped. So for a
constant declared with:
typedef long MyLong;
const MyLong foo = 123;
constKind() will return tk_long, but
constType() will return an idltype.Declared object
(see page ??) which refers to MyLong's
typedef Declarator object.
- value()
Value of the constant. Either an integer or an Enumerator
object.
omniidl.idlast.Declarator (Decl,DeclRepoId)
Declarator used in typedefs, struct members, attributes, etc.
- sizes()
List of array sizes, or None if it is a simple declarator.
- alias()
Typedef object that the declarator is part of, or None
if the object is not a typedef declarator.
omniidl.idlast.Typedef (Decl)
Typedef declaration
- aliasType()
idltype.Type object that this is an alias to.
- constrType()
Boolean: true if the alias type was constructed within this typedef
declaration, like
typedef struct foo { long l; } bar;
- declarators()
List of Declarator objects.
omniidl.idlast.Member (Decl)
Member of a struct or exception
- memberType()
idltype.Type object for the type of this member.
- constrType()
Boolean: true if the member type was constructed within the member
declaration. e.g.
struct S {
struct T {
long l;
} the_T;
};
- declarators()
List of Declarator objects.
omniidl.idlast.Struct (Decl,DeclRepoId)
Struct declaration
- members()
List of Member objects for the struct contents.
- recursive()
Boolean: true if the struct is recursive, e.g.
struct S {
long l;
sequence <S> ss;
};
omniidl.idlast.Exception (Decl,DeclRepoId)
Exception declaration
- members()
List of Member objects for the exception contents.
omniidl.idlast.CaseLabel (Decl)
One label within a union
- default()
Boolean: true if this is the default label.
- value()
Label value. Either an integer or an Enumerator object. For
the default case, returns a value used by none of the other union
labels.
- labelKind()
TypeCode kind of the label.
omniidl.idlast.UnionCase (Decl)
One case within a union
- labels()
List of CaseLabel objects.
- caseType()
idltype.Type object for the case type.
- constrType()
Boolean: true if the case type was constructed within the case.
- declarator()
Declarator object
omniidl.idlast.Union (Decl,DeclRepoId)
Union declaration
- switchType()
idltype.Type object corresponding to the switch type.
- constrType()
Boolean: true if the switch type was declared within the switch
statement. Only possible for Enums.
- cases()
List of UnionCase objects.
- recursive()
Boolean: true if the union is recursive.
omniidl.idlast.Enumerator (Decl,DeclRepoId)
Enumerator of an enum
No non-inherited functions.
omniidl.idlast.Enum (Decl,DeclRepoId)
Enum declaration
- enumerators()
List of Enumerator objects.
omniidl.idlast.Attribute (Decl)
Attribute declaration
- readonly()
Boolean: true if the attribute is read only.
- attrType()
idltype.Type object for the attribute's type.
- declarators()
List of Declarator objects for this attribute. All
declarators are guaranteed to be simple.
- identifiers()
Convenience function returning a list of strings containing the
attribute identifiers from the declarators. e.g. for the
declaration
attribute long a, b;
identifiers() will return ['a','b'].
omniidl.idlast.Parameter (Decl)
Parameter of an operation
- direction()
Integer: 0 == in, 1 == out, 2 == inout.
- is_in()
Boolean: true if in or inout.
- is_out()
Boolean: true if out or inout.
- paramType()
idltype.Type object for the parameter type.
- identifier()
String containing the parameter identifier.
omniidl.idlast.Operation (Decl,DeclRepoId)
Operation declaration
- oneway()
Boolean: true if the operation is one way.
- returnType()
idltype.Type object for the return type.
- parameters()
List of Parameter objects.
- raises()
List of Exception objects which the operation can raise.
- contexts()
List of strings declared as context for the operation.
omniidl.idlast.Native (Decl)
Native declaration
Native should not be used in normal IDL.
No non-inherited functions.
omniidl.idlast.StateMember (Decl)
State member of a concrete valuetype
- memberAccess()
Integer: 0 == public, 1 == private.
- memberType()
idltype.Type object for member type.
- constrType()
Boolean: true if the member type is declared within the StateMember.
- declarators()
List of Declarator objects.
omniidl.idlast.Factory (Decl)
Factory method of a valuetype
- identifier()
String containing the factory identifier.
- parameters()
List of Parameter objects.
omniidl.idlast.ValueForward (Decl,DeclRepoId)
Forward-declared valuetype
- abstract()
Boolean: true if declared abstract.
- fullDecl()
Value or ValueAbs object corresponding to the full
valuetype declaration or None if there is no full declaration.
omniidl.idlast.ValueBox (Decl,DeclRepoId)
Boxed valuetype declaration
- boxedType()
idltype.Type object for the boxed type.
- constrType()
Boolean: true if boxed type is declared inside the valuetype
declaration.
omniidl.idlast.ValueAbs (Decl,DeclRepoId)
Abstract valuetype declaration
- inherits()
List of ValueAbs objects from which this inherits.
- supports()
List of Interface objects which this valuetype supports.
- contents()
List of Decl objects for all items defined within this
valuetype.
- declarations()
Subset of contents() containing types, constants and
exceptions.
- callables()
Subset of contents() containing Operations and
Attributes.
omniidl.idlast.Value (Decl,DeclRepoId)
Valuetype declaration
- custom()
Boolean: true if declared custom.
- inherits()
List of valuetypes from which this inherits. The first may be a
Value object or a ValueAbs object; any others will
be ValueAbs objects.
- truncatable()
Boolean: true if the inherited Value is declared
truncatable; false if not, or there is no inherited Value.
- supports()
List of Interface objects which this valuetype supports.
- contents()
List of Decl objects for all items defined within this
valuetype.
- declarations()
Subset of contents() containing types, constants and
exceptions.
- callables()
Subset of contents() containing Operations,
Attributes, StateMembers and Factorys.
2.3.7 Type objects
All type objects are derived from the base class Type:
omniidl.idltype.Type
Base class for types
- kind()
TypeCode kind of type.
- unalias()
Return an equivalent Type object with top-level aliases
stripped. Only has an effect with typedef types.
- accept(visitor)
Visitor pattern accept.
The basic CORBA types (null, void, short, long, unsigned short,
unsigned long, float, double, boolean, char, octet, any, TypeCode,
Principal, long long, unsigned long long, long double, and wide char)
are represented by objects of type omniidl.idltype.Base,
derived from Type, with no extra methods.
The template types—string, wstring, sequence, and fixed—do not
have associated Decl objects since they are not explicitly
declared. They are always implicitly declared as part of another
declaration.
omniidl.idltype.String (Type)
String type
- bound()
Bound of a bounded string, or 0 for unbounded strings.
omniidl.idltype.WString (Type)
Wide string type
- bound()
Bound of a bounded wstring, or 0 for unbounded wstrings.
omniidl.idltype.Sequence (Type)
Sequence type
- seqType()
idltype.Type object representing what the sequence contains.
- bound()
Bound of a bounded sequence, or 0 for unbounded sequences.
omniidl.idltype.Fixed (Type)
Fixed point type
- digits()
Number of digits in number.
- scale()
Scale of number.
All other types (interface, struct, union, enum, typedef, exception,
valuetype) must be explicitly declared. They are represented with
Declared objects:
omniidl.idltype.Declared (Type)
Explicitly declared type
-
decl()
omniidl.idlast.Decl object which corresponds to this type.
- scopedName()
Fully scoped name of the type as a list of strings.
- name()
Simple name of the type, i.e. the last element of the scoped name.
2.3.8 Finding a named Decl
Normally, back-ends walk over the tree of Decl objects,
dealing with the declarations as they encounter them. Occasionally,
however, it may be useful to find a declaration by its scoped name.
Only Decls which inherit from DeclRepoId can be found
in this way.
omniidl.idlast
- findDecl(scopedName)
Find the Decl object which has the scoped name list
scopedName. If a declaration with the specified name does not
exist, the DeclNotFound exception is raised.
2.4 An example back-end
The following code is an extremely simple back-end which just prints
the names of all operations declared within an IDL file.
Unfortunately, it is so simple that it does not show many features of
the back-end interface. You should look at the dump.py and
python.py back-ends for a more extensive example.
from omniidl import idlast, idlvisitor, idlutil
import string
class ExampleVisitor (idlvisitor.AstVisitor):
def visitAST(self, node):
for n in node.declarations():
n.accept(self)
def visitModule(self, node):
for n in node.definitions():
n.accept(self)
def visitInterface(self, node):
name = idlutil.ccolonName(node.scopedName())
if node.mainFile():
for c in node.callables():
if isinstance(c, idlast.Operation):
print name + "::" + \
c.identifier() + "()"
def run(tree, args):
visitor = ExampleVisitor()
tree.accept(visitor)
The visitor object simple recurses through the AST and
Module objects, and prints the operation names it finds in
Interface objects.
Note that since AstVisitor (and similarly TypeVisitor
which is not used in the example) has all operations declared to be
no-ops, the ExampleVisitor class does not have to declare
visit functions for all node types. This can be a disadvantage if your
back-end is supposed to perform some action for all node types, since
there will be no error if you accidentally miss a node type. In those
situations it is better to declare a visitor class which does not
derive from the visitor base classes.
- 1
- It is even possible to use a Python module
as a visitor object.
This document was translated from LATEX by
HEVEA.