/* C-compiler utilities for types and variables storage layout
Copyright (C) 1987, 1988, 1992, 1993, 1994, 1995, 1996, 1996, 1998,
- 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010
- Free Software Foundation, Inc.
+ 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010,
+ 2011 Free Software Foundation, Inc.
This file is part of GCC.
#endif
extern void debug_rli (record_layout_info);
\f
-/* SAVE_EXPRs for sizes of types and decls, waiting to be expanded. */
-
-static GTY(()) VEC(tree,gc) *pending_sizes;
-
/* Show that REFERENCE_TYPES are internal and should use address_mode.
Called only by front end. */
reference_types_internal = 1;
}
-/* Get a VEC of all the objects put on the pending sizes list. */
-
-VEC(tree,gc) *
-get_pending_sizes (void)
-{
- VEC(tree,gc) *chain = pending_sizes;
-
- pending_sizes = 0;
- return chain;
-}
-
-/* Add EXPR to the pending sizes list. */
-
-void
-put_pending_size (tree expr)
-{
- /* Strip any simple arithmetic from EXPR to see if it has an underlying
- SAVE_EXPR. */
- expr = skip_simple_arithmetic (expr);
-
- if (TREE_CODE (expr) == SAVE_EXPR)
- VEC_safe_push (tree, gc, pending_sizes, expr);
-}
-
-/* Put a chain of objects into the pending sizes list, which must be
- empty. */
-
-void
-put_pending_sizes (VEC(tree,gc) *chain)
-{
- gcc_assert (!pending_sizes);
- pending_sizes = chain;
-}
-
/* Given a size SIZE that may not be a constant, return a SAVE_EXPR
to serve as the actual size-expression for a type or decl. */
tree
variable_size (tree size)
{
- tree save;
-
/* Obviously. */
if (TREE_CONSTANT (size))
return size;
if (CONTAINS_PLACEHOLDER_P (size))
return self_referential_size (size);
- /* If the language-processor is to take responsibility for variable-sized
- items (e.g., languages which have elaboration procedures like Ada),
- just return SIZE unchanged. */
- if (lang_hooks.decls.global_bindings_p () < 0)
+ /* If we are in the global binding level, we can't make a SAVE_EXPR
+ since it may end up being shared across functions, so it is up
+ to the front-end to deal with this case. */
+ if (lang_hooks.decls.global_bindings_p ())
return size;
- size = save_expr (size);
-
- /* If an array with a variable number of elements is declared, and
- the elements require destruction, we will emit a cleanup for the
- array. That cleanup is run both on normal exit from the block
- and in the exception-handler for the block. Normally, when code
- is used in both ordinary code and in an exception handler it is
- `unsaved', i.e., all SAVE_EXPRs are recalculated. However, we do
- not wish to do that here; the array-size is the same in both
- places. */
- save = skip_simple_arithmetic (size);
-
- if (cfun && cfun->dont_save_pending_sizes_p)
- /* The front-end doesn't want us to keep a list of the expressions
- that determine sizes for variable size objects. Trust it. */
- return size;
-
- put_pending_size (save);
-
- return size;
+ return save_expr (size);
}
/* An array of functions used for self-referential size computation. */
else if (code == SAVE_EXPR)
return error_mark_node;
+ else if (code == STATEMENT_LIST)
+ gcc_unreachable ();
+
return copy_tree_r (tp, walk_subtrees, data);
}
applies if there was an immediately prior, nonzero-size
bitfield. (That's the way it is, experimentally.) */
if ((!is_bitfield && !DECL_PACKED (field))
- || (!integer_zerop (DECL_SIZE (field))
+ || ((DECL_SIZE (field) == NULL_TREE
+ || !integer_zerop (DECL_SIZE (field)))
? !DECL_PACKED (field)
: (rli->prev_field
&& DECL_BIT_FIELD_TYPE (rli->prev_field)
if (integer_zerop (element_size))
length = size_zero_node;
- /* The computation should happen in the original type so
- that (possible) negative values are handled appropriately. */
+ /* The computation should happen in the original signedness so
+ that (possible) negative values are handled appropriately
+ when determining overflow. */
else
length
= fold_convert (sizetype,
- fold_build2 (PLUS_EXPR, TREE_TYPE (lb),
- build_int_cst (TREE_TYPE (lb), 1),
- fold_build2 (MINUS_EXPR,
- TREE_TYPE (lb),
- ub, lb)));
+ size_binop (PLUS_EXPR,
+ build_int_cst (TREE_TYPE (lb), 1),
+ size_binop (MINUS_EXPR, ub, lb)));
TYPE_SIZE (type) = size_binop (MULT_EXPR, element_size,
fold_convert (bitsizetype,
gcc_assert (TREE_CODE (t) == VECTOR_TYPE);
- mode = t->type.mode;
+ mode = t->type_common.mode;
if (VECTOR_MODE_P (mode)
&& (!targetm.vector_mode_supported_p (mode)
|| !have_regs_of_mode[mode]))
{
- enum machine_mode innermode = TREE_TYPE (t)->type.mode;
+ enum machine_mode innermode = TREE_TYPE (t)->type_common.mode;
/* For integers, try mapping it to a same-sized scalar mode. */
if (GET_MODE_CLASS (innermode) == MODE_INT)
return type;
}
-/* Initialize sizetype and bitsizetype to a reasonable and temporary
- value to enable integer types to be created. */
+/* Initialize sizetypes so layout_type can use them. */
void
initialize_sizetypes (void)
{
- tree t = make_node (INTEGER_TYPE);
- int precision = GET_MODE_BITSIZE (SImode);
-
- SET_TYPE_MODE (t, SImode);
- TYPE_ALIGN (t) = GET_MODE_ALIGNMENT (SImode);
- TYPE_IS_SIZETYPE (t) = 1;
- TYPE_UNSIGNED (t) = 1;
- TYPE_SIZE (t) = build_int_cst (t, precision);
- TYPE_SIZE_UNIT (t) = build_int_cst (t, GET_MODE_SIZE (SImode));
- TYPE_PRECISION (t) = precision;
-
- set_min_and_max_values_for_integral_type (t, precision,
+ int precision, bprecision;
+
+ /* Get sizetypes precision from the SIZE_TYPE target macro. */
+ if (strcmp (SIZE_TYPE, "unsigned int") == 0)
+ precision = INT_TYPE_SIZE;
+ else if (strcmp (SIZE_TYPE, "long unsigned int") == 0)
+ precision = LONG_TYPE_SIZE;
+ else if (strcmp (SIZE_TYPE, "long long unsigned int") == 0)
+ precision = LONG_LONG_TYPE_SIZE;
+ else if (strcmp (SIZE_TYPE, "short unsigned int") == 0)
+ precision = SHORT_TYPE_SIZE;
+ else
+ gcc_unreachable ();
+
+ bprecision
+ = MIN (precision + BITS_PER_UNIT_LOG + 1, MAX_FIXED_MODE_SIZE);
+ bprecision
+ = GET_MODE_PRECISION (smallest_mode_for_size (bprecision, MODE_INT));
+ if (bprecision > HOST_BITS_PER_WIDE_INT * 2)
+ bprecision = HOST_BITS_PER_WIDE_INT * 2;
+
+ /* Create stubs for sizetype and bitsizetype so we can create constants. */
+ sizetype = make_node (INTEGER_TYPE);
+ TYPE_NAME (sizetype) = get_identifier ("sizetype");
+ TYPE_PRECISION (sizetype) = precision;
+ TYPE_UNSIGNED (sizetype) = 1;
+ TYPE_IS_SIZETYPE (sizetype) = 1;
+ bitsizetype = make_node (INTEGER_TYPE);
+ TYPE_NAME (bitsizetype) = get_identifier ("bitsizetype");
+ TYPE_PRECISION (bitsizetype) = bprecision;
+ TYPE_UNSIGNED (bitsizetype) = 1;
+ TYPE_IS_SIZETYPE (bitsizetype) = 1;
+
+ /* Now layout both types manually. */
+ SET_TYPE_MODE (sizetype, smallest_mode_for_size (precision, MODE_INT));
+ TYPE_ALIGN (sizetype) = GET_MODE_ALIGNMENT (TYPE_MODE (sizetype));
+ TYPE_SIZE (sizetype) = bitsize_int (precision);
+ TYPE_SIZE_UNIT (sizetype) = size_int (GET_MODE_SIZE (TYPE_MODE (sizetype)));
+ set_min_and_max_values_for_integral_type (sizetype, precision,
/*is_unsigned=*/true);
-
- sizetype = t;
- bitsizetype = build_distinct_type_copy (t);
-}
-
-/* Make sizetype a version of TYPE, and initialize *sizetype accordingly.
- We do this by overwriting the stub sizetype and bitsizetype nodes created
- by initialize_sizetypes. This makes sure that (a) anything stubby about
- them no longer exists and (b) any INTEGER_CSTs created with such a type,
- remain valid. */
-
-void
-set_sizetype (tree type)
-{
- tree t, max;
- int oprecision = TYPE_PRECISION (type);
- /* The *bitsizetype types use a precision that avoids overflows when
- calculating signed sizes / offsets in bits. However, when
- cross-compiling from a 32 bit to a 64 bit host, we are limited to 64 bit
- precision. */
- int precision
- = MIN (oprecision + BITS_PER_UNIT_LOG + 1, MAX_FIXED_MODE_SIZE);
- precision
- = GET_MODE_PRECISION (smallest_mode_for_size (precision, MODE_INT));
- if (precision > HOST_BITS_PER_WIDE_INT * 2)
- precision = HOST_BITS_PER_WIDE_INT * 2;
-
- /* sizetype must be an unsigned type. */
- gcc_assert (TYPE_UNSIGNED (type));
-
- t = build_distinct_type_copy (type);
- /* We want to use sizetype's cache, as we will be replacing that type. */
- TYPE_CACHED_VALUES (t) = TYPE_CACHED_VALUES (sizetype);
- TYPE_CACHED_VALUES_P (t) = TYPE_CACHED_VALUES_P (sizetype);
- TYPE_UID (t) = TYPE_UID (sizetype);
- TYPE_IS_SIZETYPE (t) = 1;
-
- /* Replace our original stub sizetype. */
- memcpy (sizetype, t, tree_size (sizetype));
- TYPE_MAIN_VARIANT (sizetype) = sizetype;
- TYPE_CANONICAL (sizetype) = sizetype;
-
/* sizetype is unsigned but we need to fix TYPE_MAX_VALUE so that it is
sign-extended in a way consistent with force_fit_type. */
- max = TYPE_MAX_VALUE (sizetype);
TYPE_MAX_VALUE (sizetype)
- = double_int_to_tree (sizetype, tree_to_double_int (max));
-
- t = make_node (INTEGER_TYPE);
- TYPE_NAME (t) = get_identifier ("bit_size_type");
- /* We want to use bitsizetype's cache, as we will be replacing that type. */
- TYPE_CACHED_VALUES (t) = TYPE_CACHED_VALUES (bitsizetype);
- TYPE_CACHED_VALUES_P (t) = TYPE_CACHED_VALUES_P (bitsizetype);
- TYPE_PRECISION (t) = precision;
- TYPE_UID (t) = TYPE_UID (bitsizetype);
- TYPE_IS_SIZETYPE (t) = 1;
-
- /* Replace our original stub bitsizetype. */
- memcpy (bitsizetype, t, tree_size (bitsizetype));
- TYPE_MAIN_VARIANT (bitsizetype) = bitsizetype;
- TYPE_CANONICAL (bitsizetype) = bitsizetype;
-
- fixup_unsigned_type (bitsizetype);
+ = double_int_to_tree (sizetype,
+ tree_to_double_int (TYPE_MAX_VALUE (sizetype)));
+
+ SET_TYPE_MODE (bitsizetype, smallest_mode_for_size (bprecision, MODE_INT));
+ TYPE_ALIGN (bitsizetype) = GET_MODE_ALIGNMENT (TYPE_MODE (bitsizetype));
+ TYPE_SIZE (bitsizetype) = bitsize_int (bprecision);
+ TYPE_SIZE_UNIT (bitsizetype)
+ = size_int (GET_MODE_SIZE (TYPE_MODE (bitsizetype)));
+ set_min_and_max_values_for_integral_type (bitsizetype, bprecision,
+ /*is_unsigned=*/true);
+ /* bitsizetype is unsigned but we need to fix TYPE_MAX_VALUE so that it is
+ sign-extended in a way consistent with force_fit_type. */
+ TYPE_MAX_VALUE (bitsizetype)
+ = double_int_to_tree (bitsizetype,
+ tree_to_double_int (TYPE_MAX_VALUE (bitsizetype)));
/* Create the signed variants of *sizetype. */
- ssizetype = make_signed_type (oprecision);
+ ssizetype = make_signed_type (TYPE_PRECISION (sizetype));
+ TYPE_NAME (ssizetype) = get_identifier ("ssizetype");
TYPE_IS_SIZETYPE (ssizetype) = 1;
- sbitsizetype = make_signed_type (precision);
+ sbitsizetype = make_signed_type (TYPE_PRECISION (bitsizetype));
+ TYPE_NAME (sbitsizetype) = get_identifier ("sbitsizetype");
TYPE_IS_SIZETYPE (sbitsizetype) = 1;
}
\f
/* Find the best machine mode to use when referencing a bit field of length
BITSIZE bits starting at BITPOS.
+ BITREGION_START is the bit position of the first bit in this
+ sequence of bit fields. BITREGION_END is the last bit in this
+ sequence. If these two fields are non-zero, we should restrict the
+ memory access to a maximum sized chunk of
+ BITREGION_END - BITREGION_START + 1. Otherwise, we are allowed to touch
+ any adjacent non bit-fields.
+
The underlying object is known to be aligned to a boundary of ALIGN bits.
If LARGEST_MODE is not VOIDmode, it means that we should not use a mode
larger than LARGEST_MODE (usually SImode).
decide which of the above modes should be used. */
enum machine_mode
-get_best_mode (int bitsize, int bitpos, unsigned int align,
+get_best_mode (int bitsize, int bitpos,
+ unsigned HOST_WIDE_INT bitregion_start,
+ unsigned HOST_WIDE_INT bitregion_end,
+ unsigned int align,
enum machine_mode largest_mode, int volatilep)
{
enum machine_mode mode;
unsigned int unit = 0;
+ unsigned HOST_WIDE_INT maxbits;
+
+ /* If unset, no restriction. */
+ if (!bitregion_end)
+ maxbits = MAX_FIXED_MODE_SIZE;
+ else
+ maxbits = (bitregion_end - bitregion_start) % align + 1;
/* Find the narrowest integer mode that contains the bit field. */
for (mode = GET_CLASS_NARROWEST_MODE (MODE_INT); mode != VOIDmode;
mode = GET_MODE_WIDER_MODE (mode))
{
unit = GET_MODE_BITSIZE (mode);
- if ((bitpos % unit) + bitsize <= unit)
+ if (unit == GET_MODE_PRECISION (mode)
+ && (bitpos % unit) + bitsize <= unit)
break;
}
tmode = GET_MODE_WIDER_MODE (tmode))
{
unit = GET_MODE_BITSIZE (tmode);
- if (bitpos / unit == (bitpos + bitsize - 1) / unit
+ if (unit == GET_MODE_PRECISION (tmode)
+ && bitpos / unit == (bitpos + bitsize - 1) / unit
&& unit <= BITS_PER_WORD
&& unit <= MIN (align, BIGGEST_ALIGNMENT)
+ && unit <= maxbits
&& (largest_mode == VOIDmode
|| unit <= GET_MODE_BITSIZE (largest_mode)))
wide_mode = tmode;
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