is then inherited from the other two tuples.
-@multitable {@code{addresses_taken}} {56 + 8 * @code{num_ops} bytes}
+@multitable {@code{def_ops}} {48 + 8 * @code{num_ops} bytes}
@item @code{gsbase} @tab 256
-@item @code{addresses_taken} @tab 64
@item @code{def_ops} @tab 64
@item @code{use_ops} @tab 64
@item @code{op} @tab @code{num_ops} * 64
-@item Total size @tab 56 + 8 * @code{num_ops} bytes
+@item Total size @tab 48 + 8 * @code{num_ops} bytes
@end multitable
@itemize @bullet
@item @code{gsbase}
Inherited from @code{struct gimple_statement_base}.
-@item @code{addresses_taken}
-Bitmap holding the UIDs of all the @code{VAR_DECL}s whose addresses are
-taken by this statement. For example, a statement of the form
-@code{p = &b} will have the UID for symbol @code{b} in this set.
-
@item @code{def_ops}
Array of pointers into the operand array indicating all the slots that
contain a variable written-to by the statement. This array is
@code{gimple_statement_with_memory_ops}).
-@multitable {@code{addresses_taken}} {88 + 8 * @code{num_ops} bytes}
-@item Field @tab Size (bits)
-@item @code{gsbase} @tab 256
-@item @code{addresses_taken} @tab 64
-@item @code{def_ops} @tab 64
-@item @code{use_ops} @tab 64
-@item @code{vdef_ops} @tab 64
-@item @code{vuse_ops} @tab 64
-@item @code{stores} @tab 64
-@item @code{loads} @tab 64
-@item @code{op} @tab @code{num_ops} * 64
-@item Total size @tab 88 + 8 * @code{num_ops} bytes
+@multitable {@code{vdef_ops}} {80 + 8 * @code{num_ops} bytes}
+@item Field @tab Size (bits)
+@item @code{gsbase} @tab 256
+@item @code{def_ops} @tab 64
+@item @code{use_ops} @tab 64
+@item @code{vdef_ops} @tab 64
+@item @code{vuse_ops} @tab 64
+@item @code{stores} @tab 64
+@item @code{loads} @tab 64
+@item @code{op} @tab @code{num_ops} * 64
+@item Total size @tab 80 + 8 * @code{num_ops} bytes
@end multitable
@itemize @bullet