/* C-compiler utilities for types and variables storage layout
Copyright (C) 1987, 1988 Free Software Foundation, Inc.
This file is part of GNU CC.
GNU CC is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 1, or (at your option)
GNU CC is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with GNU CC; see the file COPYING. If not, write to
the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. */
#include "rtl.h" /* For GET_MODE_SIZE */
#define MAX(x,y) ((x) > (y) ? (x) : (y))
#define MIN(x,y) ((x) < (y) ? (x) : (y))
#define CEIL(x,y) (((x) + (y) - 1) / (y))
/* Data type for the expressions representing sizes of data types.
It is the first integer type laid out.
/* An integer constant with value 0 whose type is sizetype. */
/* An integer constant with value 1 whose type is sizetype. */
/* Integer constants with sizes for pointers and reference types,
function types, and method types respectively. */
static tree ptr_size_node
, function_size_node
, method_size_node
;
#define GET_MODE_ALIGNMENT(MODE) \
MIN (BIGGEST_ALIGNMENT, \
MAX (1, (GET_MODE_UNIT_SIZE (MODE) * BITS_PER_UNIT)))
/* Chain of all permanent types we have allocated since last
call to get_permanent_types. */
tree permanent_type_chain
;/* Chain of all temporary types we have allocated in this function. */
tree temporary_type_chain
;/* When the chains is not null, these point at the last
types on the two chains. These help us tell whether a type
is already on a chain. */
/* Put the newly-made type T
on either permanent_type_chain or temporary_type_chain.
Types that are const or volatile variants of other types
are not put on any chain, since in the gdb symbol segment
we do not make those distinctions.
If T is already on the chain, we do nothing. */
if (TYPE_MAIN_VARIANT (t
) != t
)
/* If T is on the chain at the end, don't chain it to itself! */
if (t
== permanent_type_end
)
/* Add T to the end of the chain. */
if (permanent_type_chain
== 0)
permanent_type_chain
= t
; TREE_CHAIN (permanent_type_end
) = t
;
if (t
== temporary_type_end
)
if (temporary_type_chain
== 0)
temporary_type_chain
= t
; TREE_CHAIN (temporary_type_end
) = t
;
/* Get a chain of all permanent types made since this function
register tree tem
= permanent_type_chain
;
permanent_type_chain
= 0;/* Get a chain of all temporary types made since this function
register tree tem
= temporary_type_chain
;
temporary_type_chain
= 0;/* SAVE_EXPRs for sizes of types and decls, waiting to be expanded. */
static tree pending_sizes
;
/* Nonzero means cannot safely call expand_expr now,
so put variable sizes onto `pending_sizes' instead. */
int immediate_size_expand
;
tree chain
= pending_sizes
;/* Given a size SIZE that isn't constant, return a SAVE_EXPR
to serve as the actual size-expression for a type or decl. */
if (global_bindings_p ())
error ("variable-size type declared outside of any function");
if (immediate_size_expand
)
expand_expr (size
, 0, VOIDmode
, 0);
pending_sizes
= tree_cons (0, size
, pending_sizes
);/* Return the machine mode to use for an aggregate of SIZE bits.
Note!!! We only use a non-BLKmode mode if the size matches exactly.
There used to be the idea of using DImode for anything whose
size was less than DImode but more than SImode. This does not work
because DImode moves cannot be used to store such objects in memory. */
#ifndef MAX_FIXED_MODE_SIZE
#define MAX_FIXED_MODE_SIZE GET_MODE_BITSIZE (DImode)
register int units
= size
/ BITS_PER_UNIT
;
register enum machine_mode t
, val
;
if (size
% BITS_PER_UNIT
!= 0)
if (size
> MAX_FIXED_MODE_SIZE
)
/* Get the last mode which has this size. */
for (t
= QImode
; GET_MODE_CLASS (t
) == MODE_INT
;
t
= (enum machine_mode
) ((int) t
+ 1)) if (GET_MODE_SIZE (t
) == units
)
/* Return an INTEGER_CST with value V and type from `sizetype'. */
TREE_TYPE (t
) = sizetype
;
/* Combine operands OP1 and OP2 with arithmetic operation OPC.
OPC is a tree code. Data type is taken from `sizetype',
If the operands are constant, so is the result. */
/* Handle the special case of two integer constants faster. */
if (TREE_CODE (op1
) == INTEGER_CST
&& TREE_CODE (op2
) == INTEGER_CST
)
/* And some specific cases even faster than that. */
&& TREE_INT_CST_LOW (op1
) == 0
&& TREE_INT_CST_HIGH (op1
) == 0)
&& TREE_INT_CST_LOW (op2
) == 0
&& TREE_INT_CST_HIGH (op2
) == 0)
&& TREE_INT_CST_LOW (op1
) == 1
&& TREE_INT_CST_HIGH (op1
) == 0)
&& TREE_INT_CST_LOW (op1
) == TREE_INT_CST_LOW (op2
)
&& TREE_INT_CST_HIGH (op1
) == TREE_INT_CST_HIGH (op2
))
/* Handle general case of two integer constants. */
return combine (opc
, op1
, op2
);
if (op1
== error_mark_node
|| op2
== error_mark_node
)
return fold (build (opc
, sizetype
, op1
, op2
));
/* Convert a size which is SIZE when expressed in unit INUNITS
into the units OUTUNITS. Rounds up if conversion is not exact.
If SIZE is constant, so is the result. */
convert_units (size
, inunits
, outunits
)
register int inunits
, outunits
;
/* Check for inunits divisible by outunits.
In that case, just multiply by their ratio. */
if (0 == (inunits
% outunits
))
return genop (MULT_EXPR
, size
, build_int (inunits
/ outunits
));
if (0 == (outunits
% inunits
))
/* Discard anything in SIZE to round it up to a multiple
of a number N that divides our current divisor. */
if (TREE_CODE (size
) == MULT_EXPR
&& TREE_CODE (TREE_OPERAND (size
, 1)) == INTEGER_CST
&& 0 == (outunits
/ inunits
) % TREE_INT_CST_LOW (TREE_OPERAND (size
, 1))
&& TREE_CODE (TREE_OPERAND (size
, 0)) == CEIL_DIV_EXPR
&& tree_int_cst_equal (TREE_OPERAND (size
, 1),
TREE_OPERAND (TREE_OPERAND (size
, 0), 1)))
size
= TREE_OPERAND (TREE_OPERAND (size
, 0), 0); return genop (CEIL_DIV_EXPR
, size
, build_int (outunits
/ inunits
));
t
= genop (MULT_EXPR
, size
, build_int (inunits
)); /* convert to bits */
return genop (CEIL_DIV_EXPR
, t
,
build_int (outunits
)); /* then to outunits */
/* Set the size, mode and alignment of a ..._DECL node.
TYPE_DECL does need this for C++. It is up to language-specific
code to intialize the DECL_OFFSET of TYPE_DECL nodes.
Note that LABEL_DECL and CONST_DECL nodes do not need this,
and FUNCTION_DECL nodes have them set up in a special (and simple) way.
Don't call layout_decl for them.
KNOWN_ALIGN is the amount of alignment we can assume this
decl has with no special effort. It is relevant only for FIELD_DECLs
and depends on the previous fields.
All that matters about KNOWN_ALIGN is which powers of 2 divide it.
If KNOWN_ALIGN is 0, it means, "as much alignment as you like":
the record will be aligned to suit. */
layout_decl (decl
, known_align
)
register tree type
= TREE_TYPE (decl
);
register enum tree_code code
= TREE_CODE (decl
);
int spec_size
= DECL_SIZE_UNIT (decl
);
if (code
!= VAR_DECL
&& code
!= PARM_DECL
&& code
!= RESULT_DECL
&& code
!= FIELD_DECL
&& code
!= TYPE_DECL
)
if (type
== error_mark_node
)
if (TYPE_SIZE_UNIT (type
) == 0)
/* Usually the size and mode come from the data type without change. */
DECL_MODE (decl
) = TYPE_MODE (type
);
DECL_SIZE (decl
) = TYPE_SIZE (type
);
DECL_SIZE_UNIT (decl
) = TYPE_SIZE_UNIT (type
);
TREE_UNSIGNED (decl
) = TREE_UNSIGNED (type
);
if (code
== FIELD_DECL
&& TREE_PACKED (decl
))
/* This is a bit-field. We don't know how to handle
them except for integers and enums, and front end should
never generate them otherwise. */
if (! (TREE_CODE (type
) == INTEGER_TYPE
|| TREE_CODE (type
) == ENUMERAL_TYPE
))
/* Mode is "integer bit field". */
DECL_MODE (decl
) = BImode
;
/* Size is specified number of bits. */
DECL_SIZE (decl
) = size_one_node
;
DECL_SIZE_UNIT (decl
) = spec_size
;
/* Force alignment required for the data type.
But if the decl itself wants greater alignment, don't override that. */
else if (TYPE_ALIGN (type
) > DECL_ALIGN (decl
))
DECL_ALIGN (decl
) = TYPE_ALIGN (type
);
bitsize
= TREE_INT_CST_LOW (DECL_SIZE (decl
)) * DECL_SIZE_UNIT (decl
); /* See if we can use a scalar mode such as QImode or SImode
in place of BLKmode or a packed byte mode. */
/* Conditions are: a fixed size that is correct for another mode
and occupying a complete byte or bytes on proper boundary. */
if ((DECL_MODE (decl
) == BLKmode
|| DECL_MODE (decl
) == BImode
)
/* Don't do this if DECL's type requires it to be BLKmode. */
&& TYPE_MODE (type
) != BLKmode
&& TREE_CODE (TYPE_SIZE (type
)) == INTEGER_CST
)
register enum machine_mode xmode
= agg_mode (bitsize
);
&& known_align
% GET_MODE_ALIGNMENT (xmode
) == 0)
DECL_ALIGN (decl
) = MAX (GET_MODE_ALIGNMENT (xmode
),
DECL_MODE (decl
) = xmode
;
DECL_SIZE (decl
) = build_int (GET_MODE_SIZE (xmode
));
DECL_SIZE_UNIT (decl
) = BITS_PER_UNIT
;
bitsize
= GET_MODE_BITSIZE (xmode
); /* Don't let more than one word of an aggregate occupy one register,
since then the SUBREG used to access the high part would malfunction.
Check that the expected # of registers is big enough that they
seem to hold this variable with just a word per register. */
if (DECL_SIZE (decl
) != 0
&& (TREE_CODE (type
) == RECORD_TYPE
|| TREE_CODE (type
) == UNION_TYPE
|| TREE_CODE (type
) == ARRAY_TYPE
))
/* This test is not exactly right, since we really want the minimum
number of regs in any class that can hold this mode.
But it does distinguish the machines we need to distinguish,
if (CLASS_MAX_NREGS (ALL_REGS
, TYPE_MODE (type
)) * BITS_PER_WORD
TREE_ADDRESSABLE (decl
) = 1;
/* Evaluate nonconstant size only once, either now or as soon as safe. */
if (DECL_SIZE (decl
) != 0 && ! TREE_LITERAL (DECL_SIZE (decl
)))
DECL_SIZE (decl
) = variable_size (DECL_SIZE (decl
));
/* Lay out a RECORD_TYPE type (a C struct).
This means laying out the fields, determining their offsets,
and computing the overall size and required alignment of the record.
Note that if you set the TYPE_ALIGN before calling this
then the struct is aligned to at least that boundary.
If the type has basetypes, you must call layout_basetypes
before calling this function. */
#ifdef STRUCTURE_SIZE_BOUNDARY
int record_align
= MAX (STRUCTURE_SIZE_BOUNDARY
, TYPE_ALIGN (rec
));
int record_align
= MAX (BITS_PER_UNIT
, TYPE_ALIGN (rec
));
/* These must be laid out *after* the record is. */
tree pending_statics
= NULL_TREE
; /* Record size so far is CONST_SIZE + VAR_SIZE * SIZE_UNIT bits,
where CONST_SIZE is an integer
and VAR_SIZE is a tree expression.
If VAR_SIZE is null, the size is just CONST_SIZE.
Naturally we try to avoid using VAR_SIZE. */
register int const_size
= 0;
register tree var_size
= 0;
register int size_unit
= BITS_PER_UNIT
;
for (field
= TYPE_FIELDS (rec
); field
; field
= TREE_CHAIN (field
))
register int desired_align
;
/* If FIELD is a VAR_DECL, then treat it like a separate variable,
not really like a structure field.
If it is a FUNCTION_DECL, it's a method.
In both cases, all we do is lay out the decl,
and we do it *after* the record is laid out. */
pending_statics
= tree_cons (NULL
, field
, pending_statics
); /* Enumerators and enum types which are local to this class need not
be laid out. Same with initialized constant fields. */
if (TREE_CODE (field
) != FIELD_DECL
)
/* Lay out the field so we know what alignment it needs.
For KNOWN_ALIGN, pass the number of bits from start of record
or some divisor of it. */
layout_decl (field
, var_size
? size_unit
: const_size
);
desired_align
= DECL_ALIGN (field
); /* Record must have at least as much alignment as any field.
Otherwise, the alignment of the field within the record
record_align
= MAX (record_align
, desired_align
);#ifdef PCC_BITFIELD_TYPE_MATTERS
/* In PCC on Vax, Sony, etc., a bit field of declare type `int'
forces the entire structure to have `int' alignment. */
if (DECL_NAME (field
) != 0)
record_align
= MAX (record_align
, TYPE_ALIGN (TREE_TYPE (field
))); /* Does this field automatically have alignment it needs
by virtue of the fields that precede it and the record's
if (const_size
% desired_align
!= 0
|| (size_unit
% desired_align
!= 0
/* No, we need to skip space before this field.
Bump the cumulative size to multiple of field alignment. */
|| size_unit
% desired_align
== 0)
= CEIL (const_size
, desired_align
) * desired_align
;
= genop (PLUS_EXPR
, var_size
,
build_int (CEIL (const_size
, size_unit
)));
var_size
= convert_units (var_size
, size_unit
, desired_align
); size_unit
= desired_align
;#ifdef PCC_BITFIELD_TYPE_MATTERS
if (TREE_CODE (field
) == FIELD_DECL
&& TREE_TYPE (field
) != error_mark_node
)
int type_align
= TYPE_ALIGN (TREE_TYPE (field
));
register tree dsize
= DECL_SIZE (field
);
int field_size
= TREE_INT_CST_LOW (dsize
) * DECL_SIZE_UNIT (field
);
/* A bit field may not span the unit of alignment of its type.
Advance to next boundary if necessary. */
if (const_size
/ type_align
!= (const_size
+ field_size
- 1) / type_align
)
const_size
= CEIL (const_size
, type_align
) * type_align
; /* Size so far becomes the offset of this field. */
DECL_OFFSET (field
) = const_size
;
DECL_VOFFSET (field
) = var_size
;
DECL_VOFFSET_UNIT (field
) = size_unit
;
/* If this field is an anonymous union,
give each union-member the same offset as the union has. */
if (DECL_NAME (field
) == 0
&& TREE_CODE (TREE_TYPE (field
)) == UNION_TYPE
)
tree uelt
= TYPE_FIELDS (TREE_TYPE (field
)); for (; uelt
; uelt
= TREE_CHAIN (uelt
))
DECL_FIELD_CONTEXT (uelt
) = DECL_FIELD_CONTEXT (field
);
DECL_OFFSET (uelt
) = DECL_OFFSET (field
);
DECL_VOFFSET (uelt
) = DECL_VOFFSET (field
);
DECL_VOFFSET_UNIT (uelt
) = DECL_VOFFSET_UNIT (field
);
/* Now add size of this field to the size of the record. */
register tree dsize
= DECL_SIZE (field
);
if (TREE_LITERAL (dsize
))
const_size
+= TREE_INT_CST_LOW (dsize
) * DECL_SIZE_UNIT (field
); size_unit
= DECL_SIZE_UNIT (field
); register int tunits
= MIN (size_unit
, DECL_SIZE_UNIT (field
));
convert_units (var_size
, size_unit
, tunits
),
convert_units (dsize
, DECL_SIZE_UNIT (field
), tunits
));
/* Work out the total size and alignment of the record
as one expression and store in the record type.
Round it up to a multiple of the record's alignment. */
= build_int (CEIL (CEIL (const_size
, record_align
) * record_align
,
= genop (PLUS_EXPR
, var_size
,
build_int (CEIL (const_size
, size_unit
)));
= convert_units (var_size
,
size_unit
= record_align
; TYPE_SIZE (rec
) = convert_units (TYPE_SIZE (rec
), size_unit
,
TYPE_SIZE_UNIT (rec
) = BITS_PER_UNIT
;
TYPE_ALIGN (rec
) = MIN (BIGGEST_ALIGNMENT
, record_align
);
/* Lay out any static members. This is done now
because their type may use the record's type. */
for (field
= pending_statics
; field
; field
= TREE_CHAIN (field
))
layout_decl (TREE_VALUE (field
), 0);
/* Lay out a UNION_TYPE type.
Lay out all the fields, set their offsets to zero,
and compute the size and alignment of the union (maximum of any field).
Note that if you set the TYPE_ALIGN before calling this
then the union align is aligned to at least that boundary. */
#ifdef STRUCTURE_SIZE_BOUNDARY
int union_align
= STRUCTURE_SIZE_BOUNDARY
;
int union_align
= BITS_PER_UNIT
;
/* The size of the union, based on the fields scanned so far,
is max (CONST_SIZE, VAR_SIZE).
VAR_SIZE may be null; then CONST_SIZE by itself is the size. */
register int const_size
= 0;
register tree var_size
= 0;
for (field
= TYPE_FIELDS (rec
); field
; field
= TREE_CHAIN (field
))
/* Enums which are local to this class need not
if (TREE_CODE (field
) != FIELD_DECL
)
DECL_VOFFSET (field
) = 0;
DECL_VOFFSET_UNIT (field
) = BITS_PER_UNIT
;
/* Union must be at least as aligned as any field requires. */
union_align
= MAX (union_align
, DECL_ALIGN (field
));#ifdef PCC_BITFIELD_TYPE_MATTERS
/* On the m88000, a bit field of declare type `int'
forces the entire union to have `int' alignment. */
union_align
= MAX (union_align
, TYPE_ALIGN (TREE_TYPE (field
))); /* Set union_size to max (decl_size, union_size).
There are more and less general ways to do this.
Use only CONST_SIZE unless forced to use VAR_SIZE. */
if (TREE_LITERAL (DECL_SIZE (field
)))
const_size
= MAX (const_size
, TREE_INT_CST_LOW (DECL_SIZE (field
))
* DECL_SIZE_UNIT (field
));
var_size
= convert_units (DECL_SIZE (field
), var_size
= genop (MAX_EXPR
, convert_units (DECL_SIZE (field
),
/* Determine the ultimate size of the union (in bytes). */
TYPE_SIZE (rec
) = build_int (CEIL (const_size
, BITS_PER_UNIT
));
else if (const_size
== 0)
TYPE_SIZE (rec
) = var_size
;
TYPE_SIZE (rec
) = genop (MAX_EXPR
, var_size
,
build_int (CEIL (const_size
, BITS_PER_UNIT
)));
/* Determine the desired alignment. */
union_align
= MIN (BIGGEST_ALIGNMENT
, union_align
); TYPE_ALIGN (rec
) = MAX (TYPE_ALIGN (rec
), union_align
);
/* Round the size up to be a multiple of the required alignment */
= convert_units (TYPE_SIZE (rec
), BITS_PER_UNIT
, TYPE_ALIGN (rec
));
TYPE_SIZE_UNIT (rec
) = TYPE_ALIGN (rec
);
/* Calculate the mode, size, and alignment for TYPE.
For an array type, calculate the element separation as well.
Record TYPE on the chain of permanent or temporary types
so that dbxout will find out about it.
TYPE_SIZE of a type is nonzero if the type has been laid out already.
layout_type does nothing on such a type.
If the type is incomplete, its TYPE_SIZE remains zero. */
/* Do nothing if type has been laid out before. */
/* Make sure all nodes we allocate are not momentary;
they must last past the current statement. */
old
= suspend_momentary (); if (TREE_PERMANENT (type
) && allocation_temporary_p ())
end_temporary_allocation ();
switch (TREE_CODE (type
))
/* This kind of type is the responsibility
of the languge-specific code. */
TYPE_SIZE (type
) = size_zero_node
;
TYPE_SIZE_UNIT (type
) = BITS_PER_UNIT
;
TYPE_MODE (type
) = VOIDmode
;
if (TREE_INT_CST_HIGH (TYPE_MIN_VALUE (type
)) >= 0)
TREE_UNSIGNED (type
) = 1;
/* What follows is like agg_mode except that it ignores
MAX_FIXED_MODE_SIZE. That applies only to structures. */
enum machine_mode mode
, t
;
/* Get the last mode which has this size. */
for (t
= QImode
; GET_MODE_CLASS (t
) == MODE_INT
;
t
= (enum machine_mode
) ((int) t
+ 1)) if (GET_MODE_BITSIZE (t
) == TYPE_PRECISION (type
))
TYPE_SIZE (type
) = build_int (GET_MODE_SIZE (TYPE_MODE (type
)));
TYPE_SIZE_UNIT (type
) = BITS_PER_UNIT
;
TYPE_ALIGN (type
) = GET_MODE_ALIGNMENT (TYPE_MODE (type
));
register int prec
= TYPE_PRECISION (type
);
if (prec
<= GET_MODE_BITSIZE (SFmode
))
TYPE_MODE (type
) = SFmode
;
else if (prec
<= GET_MODE_BITSIZE (DFmode
))
TYPE_MODE (type
) = DFmode
;
else if (prec
<= GET_MODE_BITSIZE (TFmode
))
TYPE_MODE (type
) = TFmode
;
TYPE_SIZE (type
) = build_int (GET_MODE_SIZE (TYPE_MODE (type
)));
TYPE_SIZE_UNIT (type
) = BITS_PER_UNIT
;
TYPE_ALIGN (type
) = GET_MODE_ALIGNMENT (TYPE_MODE (type
));
TYPE_MODE (type
) = Pmode
;
TYPE_SIZE (type
) = ptr_size_node
;
TYPE_SIZE_UNIT (type
) = BITS_PER_UNIT
;
TYPE_ALIGN (type
) = POINTER_BOUNDARY
;
TREE_UNSIGNED (type
) = 1;
TYPE_PRECISION (type
) = POINTER_SIZE
;
register tree index
= TYPE_DOMAIN (type
);
register tree element
= TREE_TYPE (type
);
/* layout_type (element); */
build_pointer_type (element
);
length
= genop (PLUS_EXPR
, size_one_node
, genop (MINUS_EXPR
, TYPE_MAX_VALUE (index
),
TYPE_MIN_VALUE (index
)));
abort (); /* ??? Not written yet since not needed for C. */
TYPE_SIZE_UNIT (type
) = TYPE_SIZE_UNIT (element
);
if (length
&& TYPE_SIZE (element
))
TYPE_SIZE (type
) = genop (MULT_EXPR
, TYPE_SIZE (element
), length
);
TYPE_SEP (type
) = TYPE_SIZE (element
);
TYPE_SEP_UNIT (type
) = TYPE_SIZE_UNIT (element
);
TYPE_ALIGN (type
) = MAX (TYPE_ALIGN (element
), BITS_PER_UNIT
);
TYPE_MODE (type
) = BLKmode
;
if (TYPE_SIZE (type
) != 0
&& TREE_CODE (TYPE_SIZE (type
)) == INTEGER_CST
/* BLKmode elements force BLKmode aggregate;
else extract/store fields may lose. */
&& TYPE_MODE (TREE_TYPE (type
)) != BLKmode
&& (TYPE_ALIGN (type
) >= BIGGEST_ALIGNMENT
|| TYPE_ALIGN (type
) >= (TREE_INT_CST_LOW (TYPE_SIZE (type
))
* TYPE_SIZE_UNIT (type
)))
= agg_mode (TREE_INT_CST_LOW (TYPE_SIZE (type
))
* TYPE_SIZE_UNIT (type
));
TYPE_MODE (type
) = BLKmode
;
if (TREE_CODE (TYPE_SIZE (type
)) == INTEGER_CST
/* If structure's known alignment is less than
what the scalar mode would need, and it matters,
then stick with BLKmode. */
&& (TYPE_ALIGN (type
) >= BIGGEST_ALIGNMENT
|| TYPE_ALIGN (type
) >= (TREE_INT_CST_LOW (TYPE_SIZE (type
))
* TYPE_SIZE_UNIT (type
)))
/* A record which has any BLKmode members must itself be BLKmode;
it can't go in a register. */
for (field
= TYPE_FIELDS (type
); field
; field
= TREE_CHAIN (field
))
if (TREE_CODE (field
) != FIELD_DECL
)
if (TYPE_MODE (TREE_TYPE (field
)) == BLKmode
)
/* Must be BLKmode if any field crosses a word boundary,
since extract_bit_field can't handle that in registers. */
if (DECL_OFFSET (field
) / BITS_PER_WORD
!= ((TREE_INT_CST_LOW (DECL_SIZE (field
)) * DECL_SIZE_UNIT (field
)
+ DECL_OFFSET (field
) - 1)
= agg_mode (TREE_INT_CST_LOW (TYPE_SIZE (type
))
* TYPE_SIZE_UNIT (type
));
TYPE_MODE (type
) = BLKmode
;
if (TREE_CODE (TYPE_SIZE (type
)) == INTEGER_CST
/* If structure's known alignment is less than
what the scalar mode would need, and it matters,
then stick with BLKmode. */
&& (TYPE_ALIGN (type
) >= BIGGEST_ALIGNMENT
|| TYPE_ALIGN (type
) >= (TREE_INT_CST_LOW (TYPE_SIZE (type
))
* TYPE_SIZE_UNIT (type
)))
/* A union which has any BLKmode members must itself be BLKmode;
it can't go in a register. */
for (field
= TYPE_FIELDS (type
); field
; field
= TREE_CHAIN (field
))
if (TYPE_MODE (TREE_TYPE (field
)) == BLKmode
)
= agg_mode (TREE_INT_CST_LOW (TYPE_SIZE (type
))
* TYPE_SIZE_UNIT (type
));
TYPE_MODE (type
) = EPmode
;
TYPE_SIZE (type
) = function_size_node
;
TYPE_SIZE_UNIT (type
) = BITS_PER_UNIT
;
TYPE_ALIGN (type
) = POINTER_BOUNDARY
;
TYPE_MODE (type
) = EPmode
;
TYPE_SIZE (type
) = method_size_node
;
TYPE_SIZE_UNIT (type
) = BITS_PER_UNIT
;
TYPE_ALIGN (type
) = POINTER_BOUNDARY
;
/* Evaluate nonconstant size only once, either now or as soon as safe. */
if (TYPE_SIZE (type
) != 0 && ! TREE_LITERAL (TYPE_SIZE (type
)))
TYPE_SIZE (type
) = variable_size (TYPE_SIZE (type
));
/* Also layout any other variants of the type. */
if (TYPE_NEXT_VARIANT (type
)
|| type
!= TYPE_MAIN_VARIANT (type
))
/* Record layout info of this variant. */
tree size
= TYPE_SIZE (type
); int size_unit
= TYPE_SIZE_UNIT (type
);
int align
= TYPE_ALIGN (type
);
enum machine_mode mode
= TYPE_MODE (type
);
/* Copy it into all variants. */
for (variant
= TYPE_MAIN_VARIANT (type
);
variant
= TYPE_NEXT_VARIANT (variant
)) TYPE_SIZE (variant
) = size
;
TYPE_SIZE_UNIT (variant
) = size_unit
;
TYPE_ALIGN (variant
) = align
;
TYPE_MODE (variant
) = mode
;
resume_temporary_allocation ();
/* Create and return a type for signed integers of PRECISION bits. */
make_signed_type (precision
)
register tree type
= make_node (INTEGER_TYPE
);
TYPE_PRECISION (type
) = precision
;
/* Create the extreme values based on the number of bits. */
= build_int_2 ((precision
-HOST_BITS_PER_INT
> 0 ? 0 : (-1)<<(precision
-1)),
(-1)<<(precision
-HOST_BITS_PER_INT
-1 > 0
? precision
-HOST_BITS_PER_INT
-1
= build_int_2 ((precision
-HOST_BITS_PER_INT
> 0 ? -1 : (1<<(precision
-1))-1),
(precision
-HOST_BITS_PER_INT
-1 > 0
? (1<<(precision
-HOST_BITS_PER_INT
-1))-1
/* Give this type's extreme values this type as their type. */
TREE_TYPE (TYPE_MIN_VALUE (type
)) = type
;
TREE_TYPE (TYPE_MAX_VALUE (type
)) = type
;
/* The first type made with this or `make_unsigned_type'
is the type for size values. */
ptr_size_node
= build_int (POINTER_SIZE
/ BITS_PER_UNIT
); function_size_node
= ptr_size_node
; method_size_node
= build_int (2 * POINTER_SIZE
/ BITS_PER_UNIT
); /* Lay out the type: set its alignment, size, etc. */
/* Create and return a type for unsigned integers of PRECISION bits. */
make_unsigned_type (precision
)
register tree type
= make_node (INTEGER_TYPE
);
TYPE_PRECISION (type
) = precision
;
/* The first type made with this or `make_unsigned_type'
is the type for size values. */
ptr_size_node
= build_int (POINTER_SIZE
/ BITS_PER_UNIT
); function_size_node
= ptr_size_node
; method_size_node
= build_int (2 * POINTER_SIZE
/ BITS_PER_UNIT
); fixup_unsigned_type (type
);
/* Set the extreme values of TYPE based on its precision in bits,
the lay it out. This is used both in `make_unsigned_type'
and for enumeral types. */
fixup_unsigned_type (type
)
register int precision
= TYPE_PRECISION (type
);
TYPE_MIN_VALUE (type
) = build_int_2 (0, 0);
= build_int_2 (precision
-HOST_BITS_PER_INT
>= 0 ? -1 : (1<<precision
)-1,
precision
-HOST_BITS_PER_INT
> 0 >> (HOST_BITS_PER_INT
- (precision
- HOST_BITS_PER_INT
)))
TREE_TYPE (TYPE_MIN_VALUE (type
)) = type
;
TREE_TYPE (TYPE_MAX_VALUE (type
)) = type
;
/* Lay out the type: set its alignment, size, etc. */
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