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ASM_EXPR
Used to represent an inline assembly statement. For an inline assembly statement like:
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
.
DECL_EXPR
Used to represent a local declaration. The DECL_EXPR_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.
LABEL_EXPR
Used to represent a label. The 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
.
GOTO_EXPR
Used to represent a 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.
RETURN_EXPR
Used to represent a return
statement. Operand 0 represents the
value to return. It should either be the RESULT_DECL
for the
containing function, or a MODIFY_EXPR
or INIT_EXPR
setting the function’s RESULT_DECL
. It will be
NULL_TREE
if the statement was just
return;
LOOP_EXPR
These nodes represent “infinite” loops. The LOOP_EXPR_BODY
represents the body of the loop. It should be executed forever, unless
an EXIT_EXPR
is encountered.
EXIT_EXPR
These nodes represent conditional exits from the nearest enclosing
LOOP_EXPR
. The single operand is the condition; if it is
nonzero, then the loop should be exited. An EXIT_EXPR
will only
appear within a LOOP_EXPR
.
SWITCH_STMT
Used to represent a 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.
CASE_LABEL_EXPR
Use to represent a 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
.
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