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|
/* Supporting functions for resolving DATA statement.
Copyright (C) 2002-2013 Free Software Foundation, Inc.
Contributed by Lifang Zeng <zlf605@hotmail.com>
This file is part of GCC.
GCC 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 3, or (at your option) any later
version.
GCC 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 GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
/* Notes for DATA statement implementation:
We first assign initial value to each symbol by gfc_assign_data_value
during resolving DATA statement. Refer to check_data_variable and
traverse_data_list in resolve.c.
The complexity exists in the handling of array section, implied do
and array of struct appeared in DATA statement.
We call gfc_conv_structure, gfc_con_array_array_initializer,
etc., to convert the initial value. Refer to trans-expr.c and
trans-array.c. */
#include "config.h"
#include "system.h"
#include "coretypes.h"
#include "gfortran.h"
#include "data.h"
#include "constructor.h"
static void formalize_init_expr (gfc_expr *);
/* Calculate the array element offset. */
static void
get_array_index (gfc_array_ref *ar, mpz_t *offset)
{
gfc_expr *e;
int i;
mpz_t delta;
mpz_t tmp;
mpz_init (tmp);
mpz_set_si (*offset, 0);
mpz_init_set_si (delta, 1);
for (i = 0; i < ar->dimen; i++)
{
e = gfc_copy_expr (ar->start[i]);
gfc_simplify_expr (e, 1);
if ((gfc_is_constant_expr (ar->as->lower[i]) == 0)
|| (gfc_is_constant_expr (ar->as->upper[i]) == 0)
|| (gfc_is_constant_expr (e) == 0))
gfc_error ("non-constant array in DATA statement %L", &ar->where);
mpz_set (tmp, e->value.integer);
gfc_free_expr (e);
mpz_sub (tmp, tmp, ar->as->lower[i]->value.integer);
mpz_mul (tmp, tmp, delta);
mpz_add (*offset, tmp, *offset);
mpz_sub (tmp, ar->as->upper[i]->value.integer,
ar->as->lower[i]->value.integer);
mpz_add_ui (tmp, tmp, 1);
mpz_mul (delta, tmp, delta);
}
mpz_clear (delta);
mpz_clear (tmp);
}
/* Find if there is a constructor which component is equal to COM.
TODO: remove this, use symbol.c(gfc_find_component) instead. */
static gfc_constructor *
find_con_by_component (gfc_component *com, gfc_constructor_base base)
{
gfc_constructor *c;
for (c = gfc_constructor_first (base); c; c = gfc_constructor_next (c))
if (com == c->n.component)
return c;
return NULL;
}
/* Create a character type initialization expression from RVALUE.
TS [and REF] describe [the substring of] the variable being initialized.
INIT is the existing initializer, not NULL. Initialization is performed
according to normal assignment rules. */
static gfc_expr *
create_character_initializer (gfc_expr *init, gfc_typespec *ts,
gfc_ref *ref, gfc_expr *rvalue)
{
int len, start, end;
gfc_char_t *dest;
gfc_extract_int (ts->u.cl->length, &len);
if (init == NULL)
{
/* Create a new initializer. */
init = gfc_get_character_expr (ts->kind, NULL, NULL, len);
init->ts = *ts;
}
dest = init->value.character.string;
if (ref)
{
gfc_expr *start_expr, *end_expr;
gcc_assert (ref->type == REF_SUBSTRING);
/* Only set a substring of the destination. Fortran substring bounds
are one-based [start, end], we want zero based [start, end). */
start_expr = gfc_copy_expr (ref->u.ss.start);
end_expr = gfc_copy_expr (ref->u.ss.end);
if ((gfc_simplify_expr (start_expr, 1) == FAILURE)
|| (gfc_simplify_expr (end_expr, 1)) == FAILURE)
{
gfc_error ("failure to simplify substring reference in DATA "
"statement at %L", &ref->u.ss.start->where);
return NULL;
}
gfc_extract_int (start_expr, &start);
gfc_free_expr (start_expr);
start--;
gfc_extract_int (end_expr, &end);
gfc_free_expr (end_expr);
}
else
{
/* Set the whole string. */
start = 0;
end = len;
}
/* Copy the initial value. */
if (rvalue->ts.type == BT_HOLLERITH)
len = rvalue->representation.length - rvalue->ts.u.pad;
else
len = rvalue->value.character.length;
if (len > end - start)
{
gfc_warning_now ("Initialization string starting at %L was "
"truncated to fit the variable (%d/%d)",
&rvalue->where, end - start, len);
len = end - start;
}
if (rvalue->ts.type == BT_HOLLERITH)
{
int i;
for (i = 0; i < len; i++)
dest[start+i] = rvalue->representation.string[i];
}
else
memcpy (&dest[start], rvalue->value.character.string,
len * sizeof (gfc_char_t));
/* Pad with spaces. Substrings will already be blanked. */
if (len < end - start && ref == NULL)
gfc_wide_memset (&dest[start + len], ' ', end - (start + len));
if (rvalue->ts.type == BT_HOLLERITH)
{
init->representation.length = init->value.character.length;
init->representation.string
= gfc_widechar_to_char (init->value.character.string,
init->value.character.length);
}
return init;
}
/* Assign the initial value RVALUE to LVALUE's symbol->value. If the
LVALUE already has an initialization, we extend this, otherwise we
create a new one. If REPEAT is non-NULL, initialize *REPEAT
consecutive values in LVALUE the same value in RVALUE. In that case,
LVALUE must refer to a full array, not an array section. */
gfc_try
gfc_assign_data_value (gfc_expr *lvalue, gfc_expr *rvalue, mpz_t index,
mpz_t *repeat)
{
gfc_ref *ref;
gfc_expr *init;
gfc_expr *expr = NULL;
gfc_constructor *con;
gfc_constructor *last_con;
gfc_symbol *symbol;
gfc_typespec *last_ts;
mpz_t offset;
symbol = lvalue->symtree->n.sym;
init = symbol->value;
last_ts = &symbol->ts;
last_con = NULL;
mpz_init_set_si (offset, 0);
/* Find/create the parent expressions for subobject references. */
for (ref = lvalue->ref; ref; ref = ref->next)
{
/* Break out of the loop if we find a substring. */
if (ref->type == REF_SUBSTRING)
{
/* A substring should always be the last subobject reference. */
gcc_assert (ref->next == NULL);
break;
}
/* Use the existing initializer expression if it exists. Otherwise
create a new one. */
if (init == NULL)
expr = gfc_get_expr ();
else
expr = init;
/* Find or create this element. */
switch (ref->type)
{
case REF_ARRAY:
if (ref->u.ar.as->rank == 0)
{
gcc_assert (ref->u.ar.as->corank > 0);
if (init == NULL)
free (expr);
continue;
}
if (init && expr->expr_type != EXPR_ARRAY)
{
gfc_error ("'%s' at %L already is initialized at %L",
lvalue->symtree->n.sym->name, &lvalue->where,
&init->where);
goto abort;
}
if (init == NULL)
{
/* The element typespec will be the same as the array
typespec. */
expr->ts = *last_ts;
/* Setup the expression to hold the constructor. */
expr->expr_type = EXPR_ARRAY;
expr->rank = ref->u.ar.as->rank;
}
if (ref->u.ar.type == AR_ELEMENT)
get_array_index (&ref->u.ar, &offset);
else
mpz_set (offset, index);
/* Check the bounds. */
if (mpz_cmp_si (offset, 0) < 0)
{
gfc_error ("Data element below array lower bound at %L",
&lvalue->where);
goto abort;
}
else if (repeat != NULL
&& ref->u.ar.type != AR_ELEMENT)
{
mpz_t size, end;
gcc_assert (ref->u.ar.type == AR_FULL
&& ref->next == NULL);
mpz_init_set (end, offset);
mpz_add (end, end, *repeat);
if (spec_size (ref->u.ar.as, &size) == SUCCESS)
{
if (mpz_cmp (end, size) > 0)
{
mpz_clear (size);
gfc_error ("Data element above array upper bound at %L",
&lvalue->where);
goto abort;
}
mpz_clear (size);
}
con = gfc_constructor_lookup (expr->value.constructor,
mpz_get_si (offset));
if (!con)
{
con = gfc_constructor_lookup_next (expr->value.constructor,
mpz_get_si (offset));
if (con != NULL && mpz_cmp (con->offset, end) >= 0)
con = NULL;
}
/* Overwriting an existing initializer is non-standard but
usually only provokes a warning from other compilers. */
if (con != NULL && con->expr != NULL)
{
/* Order in which the expressions arrive here depends on
whether they are from data statements or F95 style
declarations. Therefore, check which is the most
recent. */
gfc_expr *exprd;
exprd = (LOCATION_LINE (con->expr->where.lb->location)
> LOCATION_LINE (rvalue->where.lb->location))
? con->expr : rvalue;
if (gfc_notify_std (GFC_STD_GNU,
"re-initialization of '%s' at %L",
symbol->name, &exprd->where) == FAILURE)
return FAILURE;
}
while (con != NULL)
{
gfc_constructor *next_con = gfc_constructor_next (con);
if (mpz_cmp (con->offset, end) >= 0)
break;
if (mpz_cmp (con->offset, offset) < 0)
{
gcc_assert (mpz_cmp_si (con->repeat, 1) > 0);
mpz_sub (con->repeat, offset, con->offset);
}
else if (mpz_cmp_si (con->repeat, 1) > 0
&& mpz_get_si (con->offset)
+ mpz_get_si (con->repeat) > mpz_get_si (end))
{
int endi;
splay_tree_node node
= splay_tree_lookup (con->base,
mpz_get_si (con->offset));
gcc_assert (node
&& con == (gfc_constructor *) node->value
&& node->key == (splay_tree_key)
mpz_get_si (con->offset));
endi = mpz_get_si (con->offset)
+ mpz_get_si (con->repeat);
if (endi > mpz_get_si (end) + 1)
mpz_set_si (con->repeat, endi - mpz_get_si (end));
else
mpz_set_si (con->repeat, 1);
mpz_set (con->offset, end);
node->key = (splay_tree_key) mpz_get_si (end);
break;
}
else
gfc_constructor_remove (con);
con = next_con;
}
con = gfc_constructor_insert_expr (&expr->value.constructor,
NULL, &rvalue->where,
mpz_get_si (offset));
mpz_set (con->repeat, *repeat);
repeat = NULL;
mpz_clear (end);
break;
}
else
{
mpz_t size;
if (spec_size (ref->u.ar.as, &size) == SUCCESS)
{
if (mpz_cmp (offset, size) >= 0)
{
mpz_clear (size);
gfc_error ("Data element above array upper bound at %L",
&lvalue->where);
goto abort;
}
mpz_clear (size);
}
}
con = gfc_constructor_lookup (expr->value.constructor,
mpz_get_si (offset));
if (!con)
{
con = gfc_constructor_insert_expr (&expr->value.constructor,
NULL, &rvalue->where,
mpz_get_si (offset));
}
else if (mpz_cmp_si (con->repeat, 1) > 0)
{
/* Need to split a range. */
if (mpz_cmp (con->offset, offset) < 0)
{
gfc_constructor *pred_con = con;
con = gfc_constructor_insert_expr (&expr->value.constructor,
NULL, &con->where,
mpz_get_si (offset));
con->expr = gfc_copy_expr (pred_con->expr);
mpz_add (con->repeat, pred_con->offset, pred_con->repeat);
mpz_sub (con->repeat, con->repeat, offset);
mpz_sub (pred_con->repeat, offset, pred_con->offset);
}
if (mpz_cmp_si (con->repeat, 1) > 0)
{
gfc_constructor *succ_con;
succ_con
= gfc_constructor_insert_expr (&expr->value.constructor,
NULL, &con->where,
mpz_get_si (offset) + 1);
succ_con->expr = gfc_copy_expr (con->expr);
mpz_sub_ui (succ_con->repeat, con->repeat, 1);
mpz_set_si (con->repeat, 1);
}
}
break;
case REF_COMPONENT:
if (init == NULL)
{
/* Setup the expression to hold the constructor. */
expr->expr_type = EXPR_STRUCTURE;
expr->ts.type = BT_DERIVED;
expr->ts.u.derived = ref->u.c.sym;
}
else
gcc_assert (expr->expr_type == EXPR_STRUCTURE);
last_ts = &ref->u.c.component->ts;
/* Find the same element in the existing constructor. */
con = find_con_by_component (ref->u.c.component,
expr->value.constructor);
if (con == NULL)
{
/* Create a new constructor. */
con = gfc_constructor_append_expr (&expr->value.constructor,
NULL, NULL);
con->n.component = ref->u.c.component;
}
break;
default:
gcc_unreachable ();
}
if (init == NULL)
{
/* Point the container at the new expression. */
if (last_con == NULL)
symbol->value = expr;
else
last_con->expr = expr;
}
init = con->expr;
last_con = con;
}
mpz_clear (offset);
gcc_assert (repeat == NULL);
if (ref || last_ts->type == BT_CHARACTER)
{
if (lvalue->ts.u.cl->length == NULL && !(ref && ref->u.ss.length != NULL))
return FAILURE;
expr = create_character_initializer (init, last_ts, ref, rvalue);
}
else
{
/* Overwriting an existing initializer is non-standard but usually only
provokes a warning from other compilers. */
if (init != NULL)
{
/* Order in which the expressions arrive here depends on whether
they are from data statements or F95 style declarations.
Therefore, check which is the most recent. */
expr = (LOCATION_LINE (init->where.lb->location)
> LOCATION_LINE (rvalue->where.lb->location))
? init : rvalue;
if (gfc_notify_std (GFC_STD_GNU,
"re-initialization of '%s' at %L",
symbol->name, &expr->where) == FAILURE)
return FAILURE;
}
expr = gfc_copy_expr (rvalue);
if (!gfc_compare_types (&lvalue->ts, &expr->ts))
gfc_convert_type (expr, &lvalue->ts, 0);
}
if (last_con == NULL)
symbol->value = expr;
else
last_con->expr = expr;
return SUCCESS;
abort:
if (!init)
gfc_free_expr (expr);
mpz_clear (offset);
return FAILURE;
}
/* Modify the index of array section and re-calculate the array offset. */
void
gfc_advance_section (mpz_t *section_index, gfc_array_ref *ar,
mpz_t *offset_ret)
{
int i;
mpz_t delta;
mpz_t tmp;
bool forwards;
int cmp;
for (i = 0; i < ar->dimen; i++)
{
if (ar->dimen_type[i] != DIMEN_RANGE)
continue;
if (ar->stride[i])
{
mpz_add (section_index[i], section_index[i],
ar->stride[i]->value.integer);
if (mpz_cmp_si (ar->stride[i]->value.integer, 0) >= 0)
forwards = true;
else
forwards = false;
}
else
{
mpz_add_ui (section_index[i], section_index[i], 1);
forwards = true;
}
if (ar->end[i])
cmp = mpz_cmp (section_index[i], ar->end[i]->value.integer);
else
cmp = mpz_cmp (section_index[i], ar->as->upper[i]->value.integer);
if ((cmp > 0 && forwards) || (cmp < 0 && !forwards))
{
/* Reset index to start, then loop to advance the next index. */
if (ar->start[i])
mpz_set (section_index[i], ar->start[i]->value.integer);
else
mpz_set (section_index[i], ar->as->lower[i]->value.integer);
}
else
break;
}
mpz_set_si (*offset_ret, 0);
mpz_init_set_si (delta, 1);
mpz_init (tmp);
for (i = 0; i < ar->dimen; i++)
{
mpz_sub (tmp, section_index[i], ar->as->lower[i]->value.integer);
mpz_mul (tmp, tmp, delta);
mpz_add (*offset_ret, tmp, *offset_ret);
mpz_sub (tmp, ar->as->upper[i]->value.integer,
ar->as->lower[i]->value.integer);
mpz_add_ui (tmp, tmp, 1);
mpz_mul (delta, tmp, delta);
}
mpz_clear (tmp);
mpz_clear (delta);
}
/* Rearrange a structure constructor so the elements are in the specified
order. Also insert NULL entries if necessary. */
static void
formalize_structure_cons (gfc_expr *expr)
{
gfc_constructor_base base = NULL;
gfc_constructor *cur;
gfc_component *order;
/* Constructor is already formalized. */
cur = gfc_constructor_first (expr->value.constructor);
if (!cur || cur->n.component == NULL)
return;
for (order = expr->ts.u.derived->components; order; order = order->next)
{
cur = find_con_by_component (order, expr->value.constructor);
if (cur)
gfc_constructor_append_expr (&base, cur->expr, &cur->expr->where);
else
gfc_constructor_append_expr (&base, NULL, NULL);
}
/* For all what it's worth, one would expect
gfc_constructor_free (expr->value.constructor);
here. However, if the constructor is actually free'd,
hell breaks loose in the testsuite?! */
expr->value.constructor = base;
}
/* Make sure an initialization expression is in normalized form, i.e., all
elements of the constructors are in the correct order. */
static void
formalize_init_expr (gfc_expr *expr)
{
expr_t type;
gfc_constructor *c;
if (expr == NULL)
return;
type = expr->expr_type;
switch (type)
{
case EXPR_ARRAY:
for (c = gfc_constructor_first (expr->value.constructor);
c; c = gfc_constructor_next (c))
formalize_init_expr (c->expr);
break;
case EXPR_STRUCTURE:
formalize_structure_cons (expr);
break;
default:
break;
}
}
/* Resolve symbol's initial value after all data statement. */
void
gfc_formalize_init_value (gfc_symbol *sym)
{
formalize_init_expr (sym->value);
}
/* Get the integer value into RET_AS and SECTION from AS and AR, and return
offset. */
void
gfc_get_section_index (gfc_array_ref *ar, mpz_t *section_index, mpz_t *offset)
{
int i;
mpz_t delta;
mpz_t tmp;
mpz_set_si (*offset, 0);
mpz_init (tmp);
mpz_init_set_si (delta, 1);
for (i = 0; i < ar->dimen; i++)
{
mpz_init (section_index[i]);
switch (ar->dimen_type[i])
{
case DIMEN_ELEMENT:
case DIMEN_RANGE:
if (ar->start[i])
{
mpz_sub (tmp, ar->start[i]->value.integer,
ar->as->lower[i]->value.integer);
mpz_mul (tmp, tmp, delta);
mpz_add (*offset, tmp, *offset);
mpz_set (section_index[i], ar->start[i]->value.integer);
}
else
mpz_set (section_index[i], ar->as->lower[i]->value.integer);
break;
case DIMEN_VECTOR:
gfc_internal_error ("TODO: Vector sections in data statements");
default:
gcc_unreachable ();
}
mpz_sub (tmp, ar->as->upper[i]->value.integer,
ar->as->lower[i]->value.integer);
mpz_add_ui (tmp, tmp, 1);
mpz_mul (delta, tmp, delta);
}
mpz_clear (tmp);
mpz_clear (delta);
}
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