A function that has a definition in the current translation unit will
have a non-NULL
DECL_INITIAL
. However, back ends should not make
use of the particular value given by DECL_INITIAL
.
The DECL_SAVED_TREE
macro will give the complete body of the
function.
There are tree nodes corresponding to all of the source-level statement constructs, used within the C and C++ frontends. These are enumerated here, together with a list of the various macros that can be used to obtain information about them. There are a few macros that can be used with all statements:
STMT_IS_FULL_EXPR_P
STMT_IS_FULL_EXPR_P
set. Temporaries
created during such statements should be destroyed when the innermost
enclosing statement with STMT_IS_FULL_EXPR_P
set is exited.
Here is the list of the various statement nodes, and the macros used to access them. This documentation describes the use of these nodes in non-template functions (including instantiations of template functions). In template functions, the same nodes are used, but sometimes in slightly different ways.
Many of the statements have substatements. For example, a while
loop will have a body, which is itself a statement. If the substatement
is NULL_TREE
, it is considered equivalent to a statement
consisting of a single ;
, i.e., an expression statement in which
the expression has been omitted. A substatement may in fact be a list
of statements, connected via their TREE_CHAIN
s. So, you should
always process the statement tree by looping over substatements, like
this:
void process_stmt (stmt)
tree stmt;
{
while (stmt)
{
switch (TREE_CODE (stmt))
{
case IF_STMT:
process_stmt (THEN_CLAUSE (stmt));
/* More processing here. */
break;
...
}
stmt = TREE_CHAIN (stmt);
}
}
In other words, while the then
clause of an if
statement
in C++ can be only one statement (although that one statement may be a
compound statement), the intermediate representation will sometimes use
several statements chained together.
ASM_EXPR
asm ("mov x, y");
The ASM_STRING
macro will return a STRING_CST
node for
"mov x, y"
. If the original statement made use of the
extended-assembly syntax, then ASM_OUTPUTS
,
ASM_INPUTS
, and ASM_CLOBBERS
will be the outputs, inputs,
and clobbers for the statement, represented as STRING_CST
nodes.
The extended-assembly syntax looks like:
asm ("fsinx %1,%0" : "=f" (result) : "f" (angle));
The first string is the ASM_STRING
, containing the instruction
template. The next two strings are the output and inputs, respectively;
this statement has no clobbers. As this example indicates, “plain”
assembly statements are merely a special case of extended assembly
statements; they have no cv-qualifiers, outputs, inputs, or clobbers.
All of the strings will be NUL
-terminated, and will contain no
embedded NUL
-characters.
If the assembly statement is declared volatile
, or if the
statement was not an extended assembly statement, and is therefore
implicitly volatile, then the predicate ASM_VOLATILE_P
will hold
of the ASM_EXPR
.
BREAK_STMT
break
statement. There are no additional
fields.
CASE_LABEL_EXPR
case
label, range of case
labels, or a
default
label. If CASE_LOW
is NULL_TREE
, then this is a
default
label. Otherwise, if CASE_HIGH
is NULL_TREE
, then
this is an ordinary case
label. In this case, CASE_LOW
is
an expression giving the value of the label. Both CASE_LOW
and
CASE_HIGH
are INTEGER_CST
nodes. These values will have
the same type as the condition expression in the switch statement.
Otherwise, if both CASE_LOW
and CASE_HIGH
are defined, the
statement is a range of case labels. Such statements originate with the
extension that allows users to write things of the form:
case 2 ... 5:
The first value will be CASE_LOW
, while the second will be
CASE_HIGH
.
CLEANUP_STMT
CLEANUP_DECL
will be
the VAR_DECL
destroyed. Otherwise, CLEANUP_DECL
will be
NULL_TREE
. In any case, the CLEANUP_EXPR
is the
expression to execute. The cleanups executed on exit from a scope
should be run in the reverse order of the order in which the associated
CLEANUP_STMT
s were encountered.
CONTINUE_STMT
continue
statement. There are no additional
fields.
CTOR_STMT
CTOR_BEGIN_P
holds) or end (if
CTOR_END_P
holds of the main body of a constructor. See also
SUBOBJECT
for more information on how to use these nodes.
DECL_STMT
DECL_STMT_DECL
macro
can be used to obtain the entity declared. This declaration may be a
LABEL_DECL
, indicating that the label declared is a local label.
(As an extension, GCC allows the declaration of labels with scope.) In
C, this declaration may be a FUNCTION_DECL
, indicating the
use of the GCC nested function extension. For more information,
see Functions.
DO_STMT
do
loop. The body of the loop is given by
DO_BODY
while the termination condition for the loop is given by
DO_COND
. The condition for a do
-statement is always an
expression.
EMPTY_CLASS_EXPR
TREE_TYPE
represents the type of the object.
EXPR_STMT
EXPR_STMT_EXPR
to
obtain the expression.
FOR_STMT
for
statement. The FOR_INIT_STMT
is
the initialization statement for the loop. The FOR_COND
is the
termination condition. The FOR_EXPR
is the expression executed
right before the FOR_COND
on each loop iteration; often, this
expression increments a counter. The body of the loop is given by
FOR_BODY
. Note that FOR_INIT_STMT
and FOR_BODY
return statements, while FOR_COND
and FOR_EXPR
return
expressions.
GOTO_EXPR
goto
statement. The GOTO_DESTINATION
will
usually be a LABEL_DECL
. However, if the “computed goto” extension
has been used, the GOTO_DESTINATION
will be an arbitrary expression
indicating the destination. This expression will always have pointer type.
HANDLER
catch
block. The HANDLER_TYPE
is the type of exception that will be caught by this handler; it is
equal (by pointer equality) to NULL
if this handler is for all
types. HANDLER_PARMS
is the DECL_STMT
for the catch
parameter, and HANDLER_BODY
is the code for the block itself.
IF_STMT
if
statement. The IF_COND
is the
expression.
If the condition is a TREE_LIST
, then the TREE_PURPOSE
is
a statement (usually a DECL_STMT
). Each time the condition is
evaluated, the statement should be executed. Then, the
TREE_VALUE
should be used as the conditional expression itself.
This representation is used to handle C++ code like this:
if (int i = 7) ...
where there is a new local variable (or variables) declared within the condition.
The THEN_CLAUSE
represents the statement given by the then
condition, while the ELSE_CLAUSE
represents the statement given
by the else
condition.
LABEL_EXPR
LABEL_DECL
declared by this
statement can be obtained with the LABEL_EXPR_LABEL
macro. The
IDENTIFIER_NODE
giving the name of the label can be obtained from
the LABEL_DECL
with DECL_NAME
.
RETURN_STMT
return
statement. The RETURN_EXPR
is
the expression returned; it will be NULL_TREE
if the statement
was just
return;
SUBOBJECT
this
is fully constructed. If, after this point, an
exception is thrown before a CTOR_STMT
with CTOR_END_P
set
is encountered, the SUBOBJECT_CLEANUP
must be executed. The
cleanups must be executed in the reverse order in which they appear.
SWITCH_STMT
switch
statement. The SWITCH_STMT_COND
is the expression on which the switch is occurring. See the documentation
for an IF_STMT
for more information on the representation used
for the condition. The SWITCH_STMT_BODY
is the body of the switch
statement. The SWITCH_STMT_TYPE
is the original type of switch
expression as given in the source, before any compiler conversions.
TRY_BLOCK
try
block. The body of the try block is
given by TRY_STMTS
. Each of the catch blocks is a HANDLER
node. The first handler is given by TRY_HANDLERS
. Subsequent
handlers are obtained by following the TREE_CHAIN
link from one
handler to the next. The body of the handler is given by
HANDLER_BODY
.
If CLEANUP_P
holds of the TRY_BLOCK
, then the
TRY_HANDLERS
will not be a HANDLER
node. Instead, it will
be an expression that should be executed if an exception is thrown in
the try block. It must rethrow the exception after executing that code.
And, if an exception is thrown while the expression is executing,
terminate
must be called.
USING_STMT
using
directive. The namespace is given by
USING_STMT_NAMESPACE
, which will be a NAMESPACE_DECL. This node
is needed inside template functions, to implement using directives
during instantiation.
WHILE_STMT
while
loop. The WHILE_COND
is the
termination condition for the loop. See the documentation for an
IF_STMT
for more information on the representation used for the
condition.
The WHILE_BODY
is the body of the loop.