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|
/* Code translation -- generate GCC trees from gfc_code.
Copyright (C) 2002-2015 Free Software Foundation, Inc.
Contributed by Paul Brook
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/>. */
#include "config.h"
#include "system.h"
#include "coretypes.h"
#include "gfortran.h"
#include "tree.h"
#include "gimple-expr.h" /* For create_tmp_var_raw. */
#include "stringpool.h"
#include "tree-iterator.h"
#include "diagnostic-core.h" /* For internal_error. */
#include "flags.h"
#include "trans.h"
#include "trans-stmt.h"
#include "trans-array.h"
#include "trans-types.h"
#include "trans-const.h"
/* Naming convention for backend interface code:
gfc_trans_* translate gfc_code into STMT trees.
gfc_conv_* expression conversion
gfc_get_* get a backend tree representation of a decl or type */
static gfc_file *gfc_current_backend_file;
const char gfc_msg_fault[] = N_("Array reference out of bounds");
const char gfc_msg_wrong_return[] = N_("Incorrect function return value");
/* Advance along TREE_CHAIN n times. */
tree
gfc_advance_chain (tree t, int n)
{
for (; n > 0; n--)
{
gcc_assert (t != NULL_TREE);
t = DECL_CHAIN (t);
}
return t;
}
/* Strip off a legitimate source ending from the input
string NAME of length LEN. */
static inline void
remove_suffix (char *name, int len)
{
int i;
for (i = 2; i < 8 && len > i; i++)
{
if (name[len - i] == '.')
{
name[len - i] = '\0';
break;
}
}
}
/* Creates a variable declaration with a given TYPE. */
tree
gfc_create_var_np (tree type, const char *prefix)
{
tree t;
t = create_tmp_var_raw (type, prefix);
/* No warnings for anonymous variables. */
if (prefix == NULL)
TREE_NO_WARNING (t) = 1;
return t;
}
/* Like above, but also adds it to the current scope. */
tree
gfc_create_var (tree type, const char *prefix)
{
tree tmp;
tmp = gfc_create_var_np (type, prefix);
pushdecl (tmp);
return tmp;
}
/* If the expression is not constant, evaluate it now. We assign the
result of the expression to an artificially created variable VAR, and
return a pointer to the VAR_DECL node for this variable. */
tree
gfc_evaluate_now_loc (location_t loc, tree expr, stmtblock_t * pblock)
{
tree var;
if (CONSTANT_CLASS_P (expr))
return expr;
var = gfc_create_var (TREE_TYPE (expr), NULL);
gfc_add_modify_loc (loc, pblock, var, expr);
return var;
}
tree
gfc_evaluate_now (tree expr, stmtblock_t * pblock)
{
return gfc_evaluate_now_loc (input_location, expr, pblock);
}
/* Build a MODIFY_EXPR node and add it to a given statement block PBLOCK.
A MODIFY_EXPR is an assignment:
LHS <- RHS. */
void
gfc_add_modify_loc (location_t loc, stmtblock_t * pblock, tree lhs, tree rhs)
{
tree tmp;
#ifdef ENABLE_CHECKING
tree t1, t2;
t1 = TREE_TYPE (rhs);
t2 = TREE_TYPE (lhs);
/* Make sure that the types of the rhs and the lhs are the same
for scalar assignments. We should probably have something
similar for aggregates, but right now removing that check just
breaks everything. */
gcc_assert (t1 == t2
|| AGGREGATE_TYPE_P (TREE_TYPE (lhs)));
#endif
tmp = fold_build2_loc (loc, MODIFY_EXPR, void_type_node, lhs,
rhs);
gfc_add_expr_to_block (pblock, tmp);
}
void
gfc_add_modify (stmtblock_t * pblock, tree lhs, tree rhs)
{
gfc_add_modify_loc (input_location, pblock, lhs, rhs);
}
/* Create a new scope/binding level and initialize a block. Care must be
taken when translating expressions as any temporaries will be placed in
the innermost scope. */
void
gfc_start_block (stmtblock_t * block)
{
/* Start a new binding level. */
pushlevel ();
block->has_scope = 1;
/* The block is empty. */
block->head = NULL_TREE;
}
/* Initialize a block without creating a new scope. */
void
gfc_init_block (stmtblock_t * block)
{
block->head = NULL_TREE;
block->has_scope = 0;
}
/* Sometimes we create a scope but it turns out that we don't actually
need it. This function merges the scope of BLOCK with its parent.
Only variable decls will be merged, you still need to add the code. */
void
gfc_merge_block_scope (stmtblock_t * block)
{
tree decl;
tree next;
gcc_assert (block->has_scope);
block->has_scope = 0;
/* Remember the decls in this scope. */
decl = getdecls ();
poplevel (0, 0);
/* Add them to the parent scope. */
while (decl != NULL_TREE)
{
next = DECL_CHAIN (decl);
DECL_CHAIN (decl) = NULL_TREE;
pushdecl (decl);
decl = next;
}
}
/* Finish a scope containing a block of statements. */
tree
gfc_finish_block (stmtblock_t * stmtblock)
{
tree decl;
tree expr;
tree block;
expr = stmtblock->head;
if (!expr)
expr = build_empty_stmt (input_location);
stmtblock->head = NULL_TREE;
if (stmtblock->has_scope)
{
decl = getdecls ();
if (decl)
{
block = poplevel (1, 0);
expr = build3_v (BIND_EXPR, decl, expr, block);
}
else
poplevel (0, 0);
}
return expr;
}
/* Build an ADDR_EXPR and cast the result to TYPE. If TYPE is NULL, the
natural type is used. */
tree
gfc_build_addr_expr (tree type, tree t)
{
tree base_type = TREE_TYPE (t);
tree natural_type;
if (type && POINTER_TYPE_P (type)
&& TREE_CODE (base_type) == ARRAY_TYPE
&& TYPE_MAIN_VARIANT (TREE_TYPE (type))
== TYPE_MAIN_VARIANT (TREE_TYPE (base_type)))
{
tree min_val = size_zero_node;
tree type_domain = TYPE_DOMAIN (base_type);
if (type_domain && TYPE_MIN_VALUE (type_domain))
min_val = TYPE_MIN_VALUE (type_domain);
t = fold (build4_loc (input_location, ARRAY_REF, TREE_TYPE (type),
t, min_val, NULL_TREE, NULL_TREE));
natural_type = type;
}
else
natural_type = build_pointer_type (base_type);
if (TREE_CODE (t) == INDIRECT_REF)
{
if (!type)
type = natural_type;
t = TREE_OPERAND (t, 0);
natural_type = TREE_TYPE (t);
}
else
{
tree base = get_base_address (t);
if (base && DECL_P (base))
TREE_ADDRESSABLE (base) = 1;
t = fold_build1_loc (input_location, ADDR_EXPR, natural_type, t);
}
if (type && natural_type != type)
t = convert (type, t);
return t;
}
/* Build an ARRAY_REF with its natural type. */
tree
gfc_build_array_ref (tree base, tree offset, tree decl)
{
tree type = TREE_TYPE (base);
tree tmp;
tree span;
if (GFC_ARRAY_TYPE_P (type) && GFC_TYPE_ARRAY_RANK (type) == 0)
{
gcc_assert (GFC_TYPE_ARRAY_CORANK (type) > 0);
return fold_convert (TYPE_MAIN_VARIANT (type), base);
}
/* Scalar coarray, there is nothing to do. */
if (TREE_CODE (type) != ARRAY_TYPE)
{
gcc_assert (decl == NULL_TREE);
gcc_assert (integer_zerop (offset));
return base;
}
type = TREE_TYPE (type);
if (DECL_P (base))
TREE_ADDRESSABLE (base) = 1;
/* Strip NON_LVALUE_EXPR nodes. */
STRIP_TYPE_NOPS (offset);
/* If the array reference is to a pointer, whose target contains a
subreference, use the span that is stored with the backend decl
and reference the element with pointer arithmetic. */
if (decl && (TREE_CODE (decl) == FIELD_DECL
|| TREE_CODE (decl) == VAR_DECL
|| TREE_CODE (decl) == PARM_DECL)
&& ((GFC_DECL_SUBREF_ARRAY_P (decl)
&& !integer_zerop (GFC_DECL_SPAN(decl)))
|| GFC_DECL_CLASS (decl)))
{
if (GFC_DECL_CLASS (decl))
{
/* Allow for dummy arguments and other good things. */
if (POINTER_TYPE_P (TREE_TYPE (decl)))
decl = build_fold_indirect_ref_loc (input_location, decl);
/* Check if '_data' is an array descriptor. If it is not,
the array must be one of the components of the class object,
so return a normal array reference. */
if (!GFC_DESCRIPTOR_TYPE_P (TREE_TYPE (gfc_class_data_get (decl))))
return build4_loc (input_location, ARRAY_REF, type, base,
offset, NULL_TREE, NULL_TREE);
span = gfc_vtable_size_get (decl);
}
else if (GFC_DECL_SUBREF_ARRAY_P (decl))
span = GFC_DECL_SPAN(decl);
else
gcc_unreachable ();
offset = fold_build2_loc (input_location, MULT_EXPR,
gfc_array_index_type,
offset, span);
tmp = gfc_build_addr_expr (pvoid_type_node, base);
tmp = fold_build_pointer_plus_loc (input_location, tmp, offset);
tmp = fold_convert (build_pointer_type (type), tmp);
if (!TYPE_STRING_FLAG (type))
tmp = build_fold_indirect_ref_loc (input_location, tmp);
return tmp;
}
else
/* Otherwise use a straightforward array reference. */
return build4_loc (input_location, ARRAY_REF, type, base, offset,
NULL_TREE, NULL_TREE);
}
/* Generate a call to print a runtime error possibly including multiple
arguments and a locus. */
static tree
trans_runtime_error_vararg (bool error, locus* where, const char* msgid,
va_list ap)
{
stmtblock_t block;
tree tmp;
tree arg, arg2;
tree *argarray;
tree fntype;
char *message;
const char *p;
int line, nargs, i;
location_t loc;
/* Compute the number of extra arguments from the format string. */
for (p = msgid, nargs = 0; *p; p++)
if (*p == '%')
{
p++;
if (*p != '%')
nargs++;
}
/* The code to generate the error. */
gfc_start_block (&block);
if (where)
{
line = LOCATION_LINE (where->lb->location);
message = xasprintf ("At line %d of file %s", line,
where->lb->file->filename);
}
else
message = xasprintf ("In file '%s', around line %d",
gfc_source_file, LOCATION_LINE (input_location) + 1);
arg = gfc_build_addr_expr (pchar_type_node,
gfc_build_localized_cstring_const (message));
free (message);
message = xasprintf ("%s", _(msgid));
arg2 = gfc_build_addr_expr (pchar_type_node,
gfc_build_localized_cstring_const (message));
free (message);
/* Build the argument array. */
argarray = XALLOCAVEC (tree, nargs + 2);
argarray[0] = arg;
argarray[1] = arg2;
for (i = 0; i < nargs; i++)
argarray[2 + i] = va_arg (ap, tree);
/* Build the function call to runtime_(warning,error)_at; because of the
variable number of arguments, we can't use build_call_expr_loc dinput_location,
irectly. */
if (error)
fntype = TREE_TYPE (gfor_fndecl_runtime_error_at);
else
fntype = TREE_TYPE (gfor_fndecl_runtime_warning_at);
loc = where ? where->lb->location : input_location;
tmp = fold_build_call_array_loc (loc, TREE_TYPE (fntype),
fold_build1_loc (loc, ADDR_EXPR,
build_pointer_type (fntype),
error
? gfor_fndecl_runtime_error_at
: gfor_fndecl_runtime_warning_at),
nargs + 2, argarray);
gfc_add_expr_to_block (&block, tmp);
return gfc_finish_block (&block);
}
tree
gfc_trans_runtime_error (bool error, locus* where, const char* msgid, ...)
{
va_list ap;
tree result;
va_start (ap, msgid);
result = trans_runtime_error_vararg (error, where, msgid, ap);
va_end (ap);
return result;
}
/* Generate a runtime error if COND is true. */
void
gfc_trans_runtime_check (bool error, bool once, tree cond, stmtblock_t * pblock,
locus * where, const char * msgid, ...)
{
va_list ap;
stmtblock_t block;
tree body;
tree tmp;
tree tmpvar = NULL;
if (integer_zerop (cond))
return;
if (once)
{
tmpvar = gfc_create_var (boolean_type_node, "print_warning");
TREE_STATIC (tmpvar) = 1;
DECL_INITIAL (tmpvar) = boolean_true_node;
gfc_add_expr_to_block (pblock, tmpvar);
}
gfc_start_block (&block);
/* For error, runtime_error_at already implies PRED_NORETURN. */
if (!error && once)
gfc_add_expr_to_block (&block, build_predict_expr (PRED_FORTRAN_WARN_ONCE,
NOT_TAKEN));
/* The code to generate the error. */
va_start (ap, msgid);
gfc_add_expr_to_block (&block,
trans_runtime_error_vararg (error, where,
msgid, ap));
va_end (ap);
if (once)
gfc_add_modify (&block, tmpvar, boolean_false_node);
body = gfc_finish_block (&block);
if (integer_onep (cond))
{
gfc_add_expr_to_block (pblock, body);
}
else
{
if (once)
cond = fold_build2_loc (where->lb->location, TRUTH_AND_EXPR,
long_integer_type_node, tmpvar, cond);
else
cond = fold_convert (long_integer_type_node, cond);
tmp = fold_build3_loc (where->lb->location, COND_EXPR, void_type_node,
cond, body,
build_empty_stmt (where->lb->location));
gfc_add_expr_to_block (pblock, tmp);
}
}
/* Call malloc to allocate size bytes of memory, with special conditions:
+ if size == 0, return a malloced area of size 1,
+ if malloc returns NULL, issue a runtime error. */
tree
gfc_call_malloc (stmtblock_t * block, tree type, tree size)
{
tree tmp, msg, malloc_result, null_result, res, malloc_tree;
stmtblock_t block2;
size = gfc_evaluate_now (size, block);
if (TREE_TYPE (size) != TREE_TYPE (size_type_node))
size = fold_convert (size_type_node, size);
/* Create a variable to hold the result. */
res = gfc_create_var (prvoid_type_node, NULL);
/* Call malloc. */
gfc_start_block (&block2);
size = fold_build2_loc (input_location, MAX_EXPR, size_type_node, size,
build_int_cst (size_type_node, 1));
malloc_tree = builtin_decl_explicit (BUILT_IN_MALLOC);
gfc_add_modify (&block2, res,
fold_convert (prvoid_type_node,
build_call_expr_loc (input_location,
malloc_tree, 1, size)));
/* Optionally check whether malloc was successful. */
if (gfc_option.rtcheck & GFC_RTCHECK_MEM)
{
null_result = fold_build2_loc (input_location, EQ_EXPR,
boolean_type_node, res,
build_int_cst (pvoid_type_node, 0));
msg = gfc_build_addr_expr (pchar_type_node,
gfc_build_localized_cstring_const ("Memory allocation failed"));
tmp = fold_build3_loc (input_location, COND_EXPR, void_type_node,
null_result,
build_call_expr_loc (input_location,
gfor_fndecl_os_error, 1, msg),
build_empty_stmt (input_location));
gfc_add_expr_to_block (&block2, tmp);
}
malloc_result = gfc_finish_block (&block2);
gfc_add_expr_to_block (block, malloc_result);
if (type != NULL)
res = fold_convert (type, res);
return res;
}
/* Allocate memory, using an optional status argument.
This function follows the following pseudo-code:
void *
allocate (size_t size, integer_type stat)
{
void *newmem;
if (stat requested)
stat = 0;
newmem = malloc (MAX (size, 1));
if (newmem == NULL)
{
if (stat)
*stat = LIBERROR_ALLOCATION;
else
runtime_error ("Allocation would exceed memory limit");
}
return newmem;
} */
void
gfc_allocate_using_malloc (stmtblock_t * block, tree pointer,
tree size, tree status)
{
tree tmp, error_cond;
stmtblock_t on_error;
tree status_type = status ? TREE_TYPE (status) : NULL_TREE;
/* Evaluate size only once, and make sure it has the right type. */
size = gfc_evaluate_now (size, block);
if (TREE_TYPE (size) != TREE_TYPE (size_type_node))
size = fold_convert (size_type_node, size);
/* If successful and stat= is given, set status to 0. */
if (status != NULL_TREE)
gfc_add_expr_to_block (block,
fold_build2_loc (input_location, MODIFY_EXPR, status_type,
status, build_int_cst (status_type, 0)));
/* The allocation itself. */
gfc_add_modify (block, pointer,
fold_convert (TREE_TYPE (pointer),
build_call_expr_loc (input_location,
builtin_decl_explicit (BUILT_IN_MALLOC), 1,
fold_build2_loc (input_location,
MAX_EXPR, size_type_node, size,
build_int_cst (size_type_node, 1)))));
/* What to do in case of error. */
gfc_start_block (&on_error);
if (status != NULL_TREE)
{
gfc_add_expr_to_block (&on_error,
build_predict_expr (PRED_FORTRAN_FAIL_ALLOC,
NOT_TAKEN));
tmp = fold_build2_loc (input_location, MODIFY_EXPR, status_type, status,
build_int_cst (status_type, LIBERROR_ALLOCATION));
gfc_add_expr_to_block (&on_error, tmp);
}
else
{
/* Here, os_error already implies PRED_NORETURN. */
tmp = build_call_expr_loc (input_location, gfor_fndecl_os_error, 1,
gfc_build_addr_expr (pchar_type_node,
gfc_build_localized_cstring_const
("Allocation would exceed memory limit")));
gfc_add_expr_to_block (&on_error, tmp);
}
error_cond = fold_build2_loc (input_location, EQ_EXPR,
boolean_type_node, pointer,
build_int_cst (prvoid_type_node, 0));
tmp = fold_build3_loc (input_location, COND_EXPR, void_type_node,
error_cond, gfc_finish_block (&on_error),
build_empty_stmt (input_location));
gfc_add_expr_to_block (block, tmp);
}
/* Allocate memory, using an optional status argument.
This function follows the following pseudo-code:
void *
allocate (size_t size, void** token, int *stat, char* errmsg, int errlen)
{
void *newmem;
newmem = _caf_register (size, regtype, token, &stat, errmsg, errlen);
return newmem;
} */
static void
gfc_allocate_using_lib (stmtblock_t * block, tree pointer, tree size,
tree token, tree status, tree errmsg, tree errlen)
{
tree tmp, pstat;
gcc_assert (token != NULL_TREE);
/* Evaluate size only once, and make sure it has the right type. */
size = gfc_evaluate_now (size, block);
if (TREE_TYPE (size) != TREE_TYPE (size_type_node))
size = fold_convert (size_type_node, size);
/* The allocation itself. */
if (status == NULL_TREE)
pstat = null_pointer_node;
else
pstat = gfc_build_addr_expr (NULL_TREE, status);
if (errmsg == NULL_TREE)
{
gcc_assert(errlen == NULL_TREE);
errmsg = null_pointer_node;
errlen = build_int_cst (integer_type_node, 0);
}
tmp = build_call_expr_loc (input_location,
gfor_fndecl_caf_register, 6,
fold_build2_loc (input_location,
MAX_EXPR, size_type_node, size,
build_int_cst (size_type_node, 1)),
build_int_cst (integer_type_node,
GFC_CAF_COARRAY_ALLOC),
token, pstat, errmsg, errlen);
tmp = fold_build2_loc (input_location, MODIFY_EXPR,
TREE_TYPE (pointer), pointer,
fold_convert ( TREE_TYPE (pointer), tmp));
gfc_add_expr_to_block (block, tmp);
}
/* Generate code for an ALLOCATE statement when the argument is an
allocatable variable. If the variable is currently allocated, it is an
error to allocate it again.
This function follows the following pseudo-code:
void *
allocate_allocatable (void *mem, size_t size, integer_type stat)
{
if (mem == NULL)
return allocate (size, stat);
else
{
if (stat)
stat = LIBERROR_ALLOCATION;
else
runtime_error ("Attempting to allocate already allocated variable");
}
}
expr must be set to the original expression being allocated for its locus
and variable name in case a runtime error has to be printed. */
void
gfc_allocate_allocatable (stmtblock_t * block, tree mem, tree size, tree token,
tree status, tree errmsg, tree errlen, tree label_finish,
gfc_expr* expr)
{
stmtblock_t alloc_block;
tree tmp, null_mem, alloc, error;
tree type = TREE_TYPE (mem);
if (TREE_TYPE (size) != TREE_TYPE (size_type_node))
size = fold_convert (size_type_node, size);
null_mem = gfc_unlikely (fold_build2_loc (input_location, NE_EXPR,
boolean_type_node, mem,
build_int_cst (type, 0)),
PRED_FORTRAN_FAIL_ALLOC);
/* If mem is NULL, we call gfc_allocate_using_malloc or
gfc_allocate_using_lib. */
gfc_start_block (&alloc_block);
if (flag_coarray == GFC_FCOARRAY_LIB
&& gfc_expr_attr (expr).codimension)
{
tree cond;
gfc_allocate_using_lib (&alloc_block, mem, size, token, status,
errmsg, errlen);
if (status != NULL_TREE)
{
TREE_USED (label_finish) = 1;
tmp = build1_v (GOTO_EXPR, label_finish);
cond = fold_build2_loc (input_location, NE_EXPR, boolean_type_node,
status, build_zero_cst (TREE_TYPE (status)));
tmp = fold_build3_loc (input_location, COND_EXPR, void_type_node,
gfc_unlikely (cond, PRED_FORTRAN_FAIL_ALLOC),
tmp, build_empty_stmt (input_location));
gfc_add_expr_to_block (&alloc_block, tmp);
}
}
else
gfc_allocate_using_malloc (&alloc_block, mem, size, status);
alloc = gfc_finish_block (&alloc_block);
/* If mem is not NULL, we issue a runtime error or set the
status variable. */
if (expr)
{
tree varname;
gcc_assert (expr->expr_type == EXPR_VARIABLE && expr->symtree);
varname = gfc_build_cstring_const (expr->symtree->name);
varname = gfc_build_addr_expr (pchar_type_node, varname);
error = gfc_trans_runtime_error (true, &expr->where,
"Attempting to allocate already"
" allocated variable '%s'",
varname);
}
else
error = gfc_trans_runtime_error (true, NULL,
"Attempting to allocate already allocated"
" variable");
if (status != NULL_TREE)
{
tree status_type = TREE_TYPE (status);
error = fold_build2_loc (input_location, MODIFY_EXPR, status_type,
status, build_int_cst (status_type, LIBERROR_ALLOCATION));
}
tmp = fold_build3_loc (input_location, COND_EXPR, void_type_node, null_mem,
error, alloc);
gfc_add_expr_to_block (block, tmp);
}
/* Free a given variable, if it's not NULL. */
tree
gfc_call_free (tree var)
{
stmtblock_t block;
tree tmp, cond, call;
if (TREE_TYPE (var) != TREE_TYPE (pvoid_type_node))
var = fold_convert (pvoid_type_node, var);
gfc_start_block (&block);
var = gfc_evaluate_now (var, &block);
cond = fold_build2_loc (input_location, NE_EXPR, boolean_type_node, var,
build_int_cst (pvoid_type_node, 0));
call = build_call_expr_loc (input_location,
builtin_decl_explicit (BUILT_IN_FREE),
1, var);
tmp = fold_build3_loc (input_location, COND_EXPR, void_type_node, cond, call,
build_empty_stmt (input_location));
gfc_add_expr_to_block (&block, tmp);
return gfc_finish_block (&block);
}
/* Build a call to a FINAL procedure, which finalizes "var". */
static tree
gfc_build_final_call (gfc_typespec ts, gfc_expr *final_wrapper, gfc_expr *var,
bool fini_coarray, gfc_expr *class_size)
{
stmtblock_t block;
gfc_se se;
tree final_fndecl, array, size, tmp;
symbol_attribute attr;
gcc_assert (final_wrapper->expr_type == EXPR_VARIABLE);
gcc_assert (var);
gfc_start_block (&block);
gfc_init_se (&se, NULL);
gfc_conv_expr (&se, final_wrapper);
final_fndecl = se.expr;
if (POINTER_TYPE_P (TREE_TYPE (final_fndecl)))
final_fndecl = build_fold_indirect_ref_loc (input_location, final_fndecl);
if (ts.type == BT_DERIVED)
{
tree elem_size;
gcc_assert (!class_size);
elem_size = gfc_typenode_for_spec (&ts);
elem_size = TYPE_SIZE_UNIT (elem_size);
size = fold_convert (gfc_array_index_type, elem_size);
gfc_init_se (&se, NULL);
se.want_pointer = 1;
if (var->rank)
{
se.descriptor_only = 1;
gfc_conv_expr_descriptor (&se, var);
array = se.expr;
}
else
{
gfc_conv_expr (&se, var);
gcc_assert (se.pre.head == NULL_TREE && se.post.head == NULL_TREE);
array = se.expr;
/* No copy back needed, hence set attr's allocatable/pointer
to zero. */
gfc_clear_attr (&attr);
gfc_init_se (&se, NULL);
array = gfc_conv_scalar_to_descriptor (&se, array, attr);
gcc_assert (se.post.head == NULL_TREE);
}
}
else
{
gfc_expr *array_expr;
gcc_assert (class_size);
gfc_init_se (&se, NULL);
gfc_conv_expr (&se, class_size);
gfc_add_block_to_block (&block, &se.pre);
gcc_assert (se.post.head == NULL_TREE);
size = se.expr;
array_expr = gfc_copy_expr (var);
gfc_init_se (&se, NULL);
se.want_pointer = 1;
if (array_expr->rank)
{
gfc_add_class_array_ref (array_expr);
se.descriptor_only = 1;
gfc_conv_expr_descriptor (&se, array_expr);
array = se.expr;
}
else
{
gfc_add_data_component (array_expr);
gfc_conv_expr (&se, array_expr);
gfc_add_block_to_block (&block, &se.pre);
gcc_assert (se.post.head == NULL_TREE);
array = se.expr;
if (TREE_CODE (array) == ADDR_EXPR
&& POINTER_TYPE_P (TREE_TYPE (TREE_OPERAND (array, 0))))
tmp = TREE_OPERAND (array, 0);
if (!gfc_is_coarray (array_expr))
{
/* No copy back needed, hence set attr's allocatable/pointer
to zero. */
gfc_clear_attr (&attr);
gfc_init_se (&se, NULL);
array = gfc_conv_scalar_to_descriptor (&se, array, attr);
}
gcc_assert (se.post.head == NULL_TREE);
}
gfc_free_expr (array_expr);
}
if (!POINTER_TYPE_P (TREE_TYPE (array)))
array = gfc_build_addr_expr (NULL, array);
gfc_add_block_to_block (&block, &se.pre);
tmp = build_call_expr_loc (input_location,
final_fndecl, 3, array,
size, fini_coarray ? boolean_true_node
: boolean_false_node);
gfc_add_block_to_block (&block, &se.post);
gfc_add_expr_to_block (&block, tmp);
return gfc_finish_block (&block);
}
bool
gfc_add_comp_finalizer_call (stmtblock_t *block, tree decl, gfc_component *comp,
bool fini_coarray)
{
gfc_se se;
stmtblock_t block2;
tree final_fndecl, size, array, tmp, cond;
symbol_attribute attr;
gfc_expr *final_expr = NULL;
if (comp->ts.type != BT_DERIVED && comp->ts.type != BT_CLASS)
return false;
gfc_init_block (&block2);
if (comp->ts.type == BT_DERIVED)
{
if (comp->attr.pointer)
return false;
gfc_is_finalizable (comp->ts.u.derived, &final_expr);
if (!final_expr)
return false;
gfc_init_se (&se, NULL);
gfc_conv_expr (&se, final_expr);
final_fndecl = se.expr;
size = gfc_typenode_for_spec (&comp->ts);
size = TYPE_SIZE_UNIT (size);
size = fold_convert (gfc_array_index_type, size);
array = decl;
}
else /* comp->ts.type == BT_CLASS. */
{
if (CLASS_DATA (comp)->attr.class_pointer)
return false;
gfc_is_finalizable (CLASS_DATA (comp)->ts.u.derived, &final_expr);
final_fndecl = gfc_vtable_final_get (decl);
size = gfc_vtable_size_get (decl);
array = gfc_class_data_get (decl);
}
if (comp->attr.allocatable
|| (comp->ts.type == BT_CLASS && CLASS_DATA (comp)->attr.allocatable))
{
tmp = GFC_DESCRIPTOR_TYPE_P (TREE_TYPE (array))
? gfc_conv_descriptor_data_get (array) : array;
cond = fold_build2_loc (input_location, NE_EXPR, boolean_type_node,
tmp, fold_convert (TREE_TYPE (tmp),
null_pointer_node));
}
else
cond = boolean_true_node;
if (!GFC_DESCRIPTOR_TYPE_P (TREE_TYPE (array)))
{
gfc_clear_attr (&attr);
gfc_init_se (&se, NULL);
array = gfc_conv_scalar_to_descriptor (&se, array, attr);
gfc_add_block_to_block (&block2, &se.pre);
gcc_assert (se.post.head == NULL_TREE);
}
if (!POINTER_TYPE_P (TREE_TYPE (array)))
array = gfc_build_addr_expr (NULL, array);
if (!final_expr)
{
tmp = fold_build2_loc (input_location, NE_EXPR, boolean_type_node,
final_fndecl,
fold_convert (TREE_TYPE (final_fndecl),
null_pointer_node));
cond = fold_build2_loc (input_location, TRUTH_ANDIF_EXPR,
boolean_type_node, cond, tmp);
}
if (POINTER_TYPE_P (TREE_TYPE (final_fndecl)))
final_fndecl = build_fold_indirect_ref_loc (input_location, final_fndecl);
tmp = build_call_expr_loc (input_location,
final_fndecl, 3, array,
size, fini_coarray ? boolean_true_node
: boolean_false_node);
gfc_add_expr_to_block (&block2, tmp);
tmp = gfc_finish_block (&block2);
tmp = fold_build3_loc (input_location, COND_EXPR, void_type_node, cond, tmp,
build_empty_stmt (input_location));
gfc_add_expr_to_block (block, tmp);
return true;
}
/* Add a call to the finalizer, using the passed *expr. Returns
true when a finalizer call has been inserted. */
bool
gfc_add_finalizer_call (stmtblock_t *block, gfc_expr *expr2)
{
tree tmp;
gfc_ref *ref;
gfc_expr *expr;
gfc_expr *final_expr = NULL;
gfc_expr *elem_size = NULL;
bool has_finalizer = false;
if (!expr2 || (expr2->ts.type != BT_DERIVED && expr2->ts.type != BT_CLASS))
return false;
if (expr2->ts.type == BT_DERIVED)
{
gfc_is_finalizable (expr2->ts.u.derived, &final_expr);
if (!final_expr)
return false;
}
/* If we have a class array, we need go back to the class
container. */
expr = gfc_copy_expr (expr2);
if (expr->ref && expr->ref->next && !expr->ref->next->next
&& expr->ref->next->type == REF_ARRAY
&& expr->ref->type == REF_COMPONENT
&& strcmp (expr->ref->u.c.component->name, "_data") == 0)
{
gfc_free_ref_list (expr->ref);
expr->ref = NULL;
}
else
for (ref = expr->ref; ref; ref = ref->next)
if (ref->next && ref->next->next && !ref->next->next->next
&& ref->next->next->type == REF_ARRAY
&& ref->next->type == REF_COMPONENT
&& strcmp (ref->next->u.c.component->name, "_data") == 0)
{
gfc_free_ref_list (ref->next);
ref->next = NULL;
}
if (expr->ts.type == BT_CLASS)
{
has_finalizer = gfc_is_finalizable (expr->ts.u.derived, NULL);
if (!expr2->rank && !expr2->ref && CLASS_DATA (expr2->symtree->n.sym)->as)
expr->rank = CLASS_DATA (expr2->symtree->n.sym)->as->rank;
final_expr = gfc_copy_expr (expr);
gfc_add_vptr_component (final_expr);
gfc_add_component_ref (final_expr, "_final");
elem_size = gfc_copy_expr (expr);
gfc_add_vptr_component (elem_size);
gfc_add_component_ref (elem_size, "_size");
}
gcc_assert (final_expr->expr_type == EXPR_VARIABLE);
tmp = gfc_build_final_call (expr->ts, final_expr, expr,
false, elem_size);
if (expr->ts.type == BT_CLASS && !has_finalizer)
{
tree cond;
gfc_se se;
gfc_init_se (&se, NULL);
se.want_pointer = 1;
gfc_conv_expr (&se, final_expr);
cond = fold_build2_loc (input_location, NE_EXPR, boolean_type_node,
se.expr, build_int_cst (TREE_TYPE (se.expr), 0));
/* For CLASS(*) not only sym->_vtab->_final can be NULL
but already sym->_vtab itself. */
if (UNLIMITED_POLY (expr))
{
tree cond2;
gfc_expr *vptr_expr;
vptr_expr = gfc_copy_expr (expr);
gfc_add_vptr_component (vptr_expr);
gfc_init_se (&se, NULL);
se.want_pointer = 1;
gfc_conv_expr (&se, vptr_expr);
gfc_free_expr (vptr_expr);
cond2 = fold_build2_loc (input_location, NE_EXPR, boolean_type_node,
se.expr,
build_int_cst (TREE_TYPE (se.expr), 0));
cond = fold_build2_loc (input_location, TRUTH_ANDIF_EXPR,
boolean_type_node, cond2, cond);
}
tmp = fold_build3_loc (input_location, COND_EXPR, void_type_node,
cond, tmp, build_empty_stmt (input_location));
}
gfc_add_expr_to_block (block, tmp);
return true;
}
/* User-deallocate; we emit the code directly from the front-end, and the
logic is the same as the previous library function:
void
deallocate (void *pointer, GFC_INTEGER_4 * stat)
{
if (!pointer)
{
if (stat)
*stat = 1;
else
runtime_error ("Attempt to DEALLOCATE unallocated memory.");
}
else
{
free (pointer);
if (stat)
*stat = 0;
}
}
In this front-end version, status doesn't have to be GFC_INTEGER_4.
Moreover, if CAN_FAIL is true, then we will not emit a runtime error,
even when no status variable is passed to us (this is used for
unconditional deallocation generated by the front-end at end of
each procedure).
If a runtime-message is possible, `expr' must point to the original
expression being deallocated for its locus and variable name.
For coarrays, "pointer" must be the array descriptor and not its
"data" component. */
tree
gfc_deallocate_with_status (tree pointer, tree status, tree errmsg,
tree errlen, tree label_finish,
bool can_fail, gfc_expr* expr, bool coarray)
{
stmtblock_t null, non_null;
tree cond, tmp, error;
tree status_type = NULL_TREE;
tree caf_decl = NULL_TREE;
if (coarray)
{
gcc_assert (GFC_DESCRIPTOR_TYPE_P (TREE_TYPE (pointer)));
caf_decl = pointer;
pointer = gfc_conv_descriptor_data_get (caf_decl);
STRIP_NOPS (pointer);
}
cond = fold_build2_loc (input_location, EQ_EXPR, boolean_type_node, pointer,
build_int_cst (TREE_TYPE (pointer), 0));
/* When POINTER is NULL, we set STATUS to 1 if it's present, otherwise
we emit a runtime error. */
gfc_start_block (&null);
if (!can_fail)
{
tree varname;
gcc_assert (expr && expr->expr_type == EXPR_VARIABLE && expr->symtree);
varname = gfc_build_cstring_const (expr->symtree->name);
varname = gfc_build_addr_expr (pchar_type_node, varname);
error = gfc_trans_runtime_error (true, &expr->where,
"Attempt to DEALLOCATE unallocated '%s'",
varname);
}
else
error = build_empty_stmt (input_location);
if (status != NULL_TREE && !integer_zerop (status))
{
tree cond2;
status_type = TREE_TYPE (TREE_TYPE (status));
cond2 = fold_build2_loc (input_location, NE_EXPR, boolean_type_node,
status, build_int_cst (TREE_TYPE (status), 0));
tmp = fold_build2_loc (input_location, MODIFY_EXPR, status_type,
fold_build1_loc (input_location, INDIRECT_REF,
status_type, status),
build_int_cst (status_type, 1));
error = fold_build3_loc (input_location, COND_EXPR, void_type_node,
cond2, tmp, error);
}
gfc_add_expr_to_block (&null, error);
/* When POINTER is not NULL, we free it. */
gfc_start_block (&non_null);
gfc_add_finalizer_call (&non_null, expr);
if (!coarray || flag_coarray != GFC_FCOARRAY_LIB)
{
tmp = build_call_expr_loc (input_location,
builtin_decl_explicit (BUILT_IN_FREE), 1,
fold_convert (pvoid_type_node, pointer));
gfc_add_expr_to_block (&non_null, tmp);
if (status != NULL_TREE && !integer_zerop (status))
{
/* We set STATUS to zero if it is present. */
tree status_type = TREE_TYPE (TREE_TYPE (status));
tree cond2;
cond2 = fold_build2_loc (input_location, NE_EXPR, boolean_type_node,
status,
build_int_cst (TREE_TYPE (status), 0));
tmp = fold_build2_loc (input_location, MODIFY_EXPR, status_type,
fold_build1_loc (input_location, INDIRECT_REF,
status_type, status),
build_int_cst (status_type, 0));
tmp = fold_build3_loc (input_location, COND_EXPR, void_type_node,
gfc_unlikely (cond2, PRED_FORTRAN_FAIL_ALLOC),
tmp, build_empty_stmt (input_location));
gfc_add_expr_to_block (&non_null, tmp);
}
}
else
{
tree caf_type, token, cond2;
tree pstat = null_pointer_node;
if (errmsg == NULL_TREE)
{
gcc_assert (errlen == NULL_TREE);
errmsg = null_pointer_node;
errlen = build_zero_cst (integer_type_node);
}
else
{
gcc_assert (errlen != NULL_TREE);
if (!POINTER_TYPE_P (TREE_TYPE (errmsg)))
errmsg = gfc_build_addr_expr (NULL_TREE, errmsg);
}
caf_type = TREE_TYPE (caf_decl);
if (status != NULL_TREE && !integer_zerop (status))
{
gcc_assert (status_type == integer_type_node);
pstat = status;
}
if (GFC_DESCRIPTOR_TYPE_P (caf_type)
&& GFC_TYPE_ARRAY_AKIND (caf_type) == GFC_ARRAY_ALLOCATABLE)
token = gfc_conv_descriptor_token (caf_decl);
else if (DECL_LANG_SPECIFIC (caf_decl)
&& GFC_DECL_TOKEN (caf_decl) != NULL_TREE)
token = GFC_DECL_TOKEN (caf_decl);
else
{
gcc_assert (GFC_ARRAY_TYPE_P (caf_type)
&& GFC_TYPE_ARRAY_CAF_TOKEN (caf_type) != NULL_TREE);
token = GFC_TYPE_ARRAY_CAF_TOKEN (caf_type);
}
token = gfc_build_addr_expr (NULL_TREE, token);
tmp = build_call_expr_loc (input_location,
gfor_fndecl_caf_deregister, 4,
token, pstat, errmsg, errlen);
gfc_add_expr_to_block (&non_null, tmp);
if (status != NULL_TREE)
{
tree stat = build_fold_indirect_ref_loc (input_location, status);
TREE_USED (label_finish) = 1;
tmp = build1_v (GOTO_EXPR, label_finish);
cond2 = fold_build2_loc (input_location, NE_EXPR, boolean_type_node,
stat, build_zero_cst (TREE_TYPE (stat)));
tmp = fold_build3_loc (input_location, COND_EXPR, void_type_node,
gfc_unlikely (cond2, PRED_FORTRAN_FAIL_ALLOC),
tmp, build_empty_stmt (input_location));
gfc_add_expr_to_block (&non_null, tmp);
}
}
return fold_build3_loc (input_location, COND_EXPR, void_type_node, cond,
gfc_finish_block (&null),
gfc_finish_block (&non_null));
}
/* Generate code for deallocation of allocatable scalars (variables or
components). Before the object itself is freed, any allocatable
subcomponents are being deallocated. */
tree
gfc_deallocate_scalar_with_status (tree pointer, tree status, bool can_fail,
gfc_expr* expr, gfc_typespec ts)
{
stmtblock_t null, non_null;
tree cond, tmp, error;
bool finalizable;
cond = fold_build2_loc (input_location, EQ_EXPR, boolean_type_node, pointer,
build_int_cst (TREE_TYPE (pointer), 0));
/* When POINTER is NULL, we set STATUS to 1 if it's present, otherwise
we emit a runtime error. */
gfc_start_block (&null);
if (!can_fail)
{
tree varname;
gcc_assert (expr && expr->expr_type == EXPR_VARIABLE && expr->symtree);
varname = gfc_build_cstring_const (expr->symtree->name);
varname = gfc_build_addr_expr (pchar_type_node, varname);
error = gfc_trans_runtime_error (true, &expr->where,
"Attempt to DEALLOCATE unallocated '%s'",
varname);
}
else
error = build_empty_stmt (input_location);
if (status != NULL_TREE && !integer_zerop (status))
{
tree status_type = TREE_TYPE (TREE_TYPE (status));
tree cond2;
cond2 = fold_build2_loc (input_location, NE_EXPR, boolean_type_node,
status, build_int_cst (TREE_TYPE (status), 0));
tmp = fold_build2_loc (input_location, MODIFY_EXPR, status_type,
fold_build1_loc (input_location, INDIRECT_REF,
status_type, status),
build_int_cst (status_type, 1));
error = fold_build3_loc (input_location, COND_EXPR, void_type_node,
cond2, tmp, error);
}
gfc_add_expr_to_block (&null, error);
/* When POINTER is not NULL, we free it. */
gfc_start_block (&non_null);
/* Free allocatable components. */
finalizable = gfc_add_finalizer_call (&non_null, expr);
if (!finalizable && ts.type == BT_DERIVED && ts.u.derived->attr.alloc_comp)
{
tmp = build_fold_indirect_ref_loc (input_location, pointer);
tmp = gfc_deallocate_alloc_comp (ts.u.derived, tmp, 0);
gfc_add_expr_to_block (&non_null, tmp);
}
tmp = build_call_expr_loc (input_location,
builtin_decl_explicit (BUILT_IN_FREE), 1,
fold_convert (pvoid_type_node, pointer));
gfc_add_expr_to_block (&non_null, tmp);
if (status != NULL_TREE && !integer_zerop (status))
{
/* We set STATUS to zero if it is present. */
tree status_type = TREE_TYPE (TREE_TYPE (status));
tree cond2;
cond2 = fold_build2_loc (input_location, NE_EXPR, boolean_type_node,
status, build_int_cst (TREE_TYPE (status), 0));
tmp = fold_build2_loc (input_location, MODIFY_EXPR, status_type,
fold_build1_loc (input_location, INDIRECT_REF,
status_type, status),
build_int_cst (status_type, 0));
tmp = fold_build3_loc (input_location, COND_EXPR, void_type_node, cond2,
tmp, build_empty_stmt (input_location));
gfc_add_expr_to_block (&non_null, tmp);
}
return fold_build3_loc (input_location, COND_EXPR, void_type_node, cond,
gfc_finish_block (&null),
gfc_finish_block (&non_null));
}
/* Reallocate MEM so it has SIZE bytes of data. This behaves like the
following pseudo-code:
void *
internal_realloc (void *mem, size_t size)
{
res = realloc (mem, size);
if (!res && size != 0)
_gfortran_os_error ("Allocation would exceed memory limit");
return res;
} */
tree
gfc_call_realloc (stmtblock_t * block, tree mem, tree size)
{
tree msg, res, nonzero, null_result, tmp;
tree type = TREE_TYPE (mem);
size = gfc_evaluate_now (size, block);
if (TREE_TYPE (size) != TREE_TYPE (size_type_node))
size = fold_convert (size_type_node, size);
/* Create a variable to hold the result. */
res = gfc_create_var (type, NULL);
/* Call realloc and check the result. */
tmp = build_call_expr_loc (input_location,
builtin_decl_explicit (BUILT_IN_REALLOC), 2,
fold_convert (pvoid_type_node, mem), size);
gfc_add_modify (block, res, fold_convert (type, tmp));
null_result = fold_build2_loc (input_location, EQ_EXPR, boolean_type_node,
res, build_int_cst (pvoid_type_node, 0));
nonzero = fold_build2_loc (input_location, NE_EXPR, boolean_type_node, size,
build_int_cst (size_type_node, 0));
null_result = fold_build2_loc (input_location, TRUTH_AND_EXPR, boolean_type_node,
null_result, nonzero);
msg = gfc_build_addr_expr (pchar_type_node, gfc_build_localized_cstring_const
("Allocation would exceed memory limit"));
tmp = fold_build3_loc (input_location, COND_EXPR, void_type_node,
null_result,
build_call_expr_loc (input_location,
gfor_fndecl_os_error, 1, msg),
build_empty_stmt (input_location));
gfc_add_expr_to_block (block, tmp);
return res;
}
/* Add an expression to another one, either at the front or the back. */
static void
add_expr_to_chain (tree* chain, tree expr, bool front)
{
if (expr == NULL_TREE || IS_EMPTY_STMT (expr))
return;
if (*chain)
{
if (TREE_CODE (*chain) != STATEMENT_LIST)
{
tree tmp;
tmp = *chain;
*chain = NULL_TREE;
append_to_statement_list (tmp, chain);
}
if (front)
{
tree_stmt_iterator i;
i = tsi_start (*chain);
tsi_link_before (&i, expr, TSI_CONTINUE_LINKING);
}
else
append_to_statement_list (expr, chain);
}
else
*chain = expr;
}
/* Add a statement at the end of a block. */
void
gfc_add_expr_to_block (stmtblock_t * block, tree expr)
{
gcc_assert (block);
add_expr_to_chain (&block->head, expr, false);
}
/* Add a statement at the beginning of a block. */
void
gfc_prepend_expr_to_block (stmtblock_t * block, tree expr)
{
gcc_assert (block);
add_expr_to_chain (&block->head, expr, true);
}
/* Add a block the end of a block. */
void
gfc_add_block_to_block (stmtblock_t * block, stmtblock_t * append)
{
gcc_assert (append);
gcc_assert (!append->has_scope);
gfc_add_expr_to_block (block, append->head);
append->head = NULL_TREE;
}
/* Save the current locus. The structure may not be complete, and should
only be used with gfc_restore_backend_locus. */
void
gfc_save_backend_locus (locus * loc)
{
loc->lb = XCNEW (gfc_linebuf);
loc->lb->location = input_location;
loc->lb->file = gfc_current_backend_file;
}
/* Set the current locus. */
void
gfc_set_backend_locus (locus * loc)
{
gfc_current_backend_file = loc->lb->file;
input_location = loc->lb->location;
}
/* Restore the saved locus. Only used in conjunction with
gfc_save_backend_locus, to free the memory when we are done. */
void
gfc_restore_backend_locus (locus * loc)
{
gfc_set_backend_locus (loc);
free (loc->lb);
}
/* Translate an executable statement. The tree cond is used by gfc_trans_do.
This static function is wrapped by gfc_trans_code_cond and
gfc_trans_code. */
static tree
trans_code (gfc_code * code, tree cond)
{
stmtblock_t block;
tree res;
if (!code)
return build_empty_stmt (input_location);
gfc_start_block (&block);
/* Translate statements one by one into GENERIC trees until we reach
the end of this gfc_code branch. */
for (; code; code = code->next)
{
if (code->here != 0)
{
res = gfc_trans_label_here (code);
gfc_add_expr_to_block (&block, res);
}
gfc_set_backend_locus (&code->loc);
switch (code->op)
{
case EXEC_NOP:
case EXEC_END_BLOCK:
case EXEC_END_NESTED_BLOCK:
case EXEC_END_PROCEDURE:
res = NULL_TREE;
break;
case EXEC_ASSIGN:
if (code->expr1->ts.type == BT_CLASS)
res = gfc_trans_class_assign (code->expr1, code->expr2, code->op);
else
res = gfc_trans_assign (code);
break;
case EXEC_LABEL_ASSIGN:
res = gfc_trans_label_assign (code);
break;
case EXEC_POINTER_ASSIGN:
if (code->expr1->ts.type == BT_CLASS)
res = gfc_trans_class_assign (code->expr1, code->expr2, code->op);
else if (UNLIMITED_POLY (code->expr2)
&& code->expr1->ts.type == BT_DERIVED
&& (code->expr1->ts.u.derived->attr.sequence
|| code->expr1->ts.u.derived->attr.is_bind_c))
/* F2003: C717 */
res = gfc_trans_class_assign (code->expr1, code->expr2, code->op);
else
res = gfc_trans_pointer_assign (code);
break;
case EXEC_INIT_ASSIGN:
if (code->expr1->ts.type == BT_CLASS)
res = gfc_trans_class_init_assign (code);
else
res = gfc_trans_init_assign (code);
break;
case EXEC_CONTINUE:
res = NULL_TREE;
break;
case EXEC_CRITICAL:
res = gfc_trans_critical (code);
break;
case EXEC_CYCLE:
res = gfc_trans_cycle (code);
break;
case EXEC_EXIT:
res = gfc_trans_exit (code);
break;
case EXEC_GOTO:
res = gfc_trans_goto (code);
break;
case EXEC_ENTRY:
res = gfc_trans_entry (code);
break;
case EXEC_PAUSE:
res = gfc_trans_pause (code);
break;
case EXEC_STOP:
case EXEC_ERROR_STOP:
res = gfc_trans_stop (code, code->op == EXEC_ERROR_STOP);
break;
case EXEC_CALL:
/* For MVBITS we've got the special exception that we need a
dependency check, too. */
{
bool is_mvbits = false;
if (code->resolved_isym)
{
res = gfc_conv_intrinsic_subroutine (code);
if (res != NULL_TREE)
break;
}
if (code->resolved_isym
&& code->resolved_isym->id == GFC_ISYM_MVBITS)
is_mvbits = true;
res = gfc_trans_call (code, is_mvbits, NULL_TREE,
NULL_TREE, false);
}
break;
case EXEC_CALL_PPC:
res = gfc_trans_call (code, false, NULL_TREE,
NULL_TREE, false);
break;
case EXEC_ASSIGN_CALL:
res = gfc_trans_call (code, true, NULL_TREE,
NULL_TREE, false);
break;
case EXEC_RETURN:
res = gfc_trans_return (code);
break;
case EXEC_IF:
res = gfc_trans_if (code);
break;
case EXEC_ARITHMETIC_IF:
res = gfc_trans_arithmetic_if (code);
break;
case EXEC_BLOCK:
res = gfc_trans_block_construct (code);
break;
case EXEC_DO:
res = gfc_trans_do (code, cond);
break;
case EXEC_DO_CONCURRENT:
res = gfc_trans_do_concurrent (code);
break;
case EXEC_DO_WHILE:
res = gfc_trans_do_while (code);
break;
case EXEC_SELECT:
res = gfc_trans_select (code);
break;
case EXEC_SELECT_TYPE:
/* Do nothing. SELECT TYPE statements should be transformed into
an ordinary SELECT CASE at resolution stage.
TODO: Add an error message here once this is done. */
res = NULL_TREE;
break;
case EXEC_FLUSH:
res = gfc_trans_flush (code);
break;
case EXEC_SYNC_ALL:
case EXEC_SYNC_IMAGES:
case EXEC_SYNC_MEMORY:
res = gfc_trans_sync (code, code->op);
break;
case EXEC_LOCK:
case EXEC_UNLOCK:
res = gfc_trans_lock_unlock (code, code->op);
break;
case EXEC_FORALL:
res = gfc_trans_forall (code);
break;
case EXEC_WHERE:
res = gfc_trans_where (code);
break;
case EXEC_ALLOCATE:
res = gfc_trans_allocate (code);
break;
case EXEC_DEALLOCATE:
res = gfc_trans_deallocate (code);
break;
case EXEC_OPEN:
res = gfc_trans_open (code);
break;
case EXEC_CLOSE:
res = gfc_trans_close (code);
break;
case EXEC_READ:
res = gfc_trans_read (code);
break;
case EXEC_WRITE:
res = gfc_trans_write (code);
break;
case EXEC_IOLENGTH:
res = gfc_trans_iolength (code);
break;
case EXEC_BACKSPACE:
res = gfc_trans_backspace (code);
break;
case EXEC_ENDFILE:
res = gfc_trans_endfile (code);
break;
case EXEC_INQUIRE:
res = gfc_trans_inquire (code);
break;
case EXEC_WAIT:
res = gfc_trans_wait (code);
break;
case EXEC_REWIND:
res = gfc_trans_rewind (code);
break;
case EXEC_TRANSFER:
res = gfc_trans_transfer (code);
break;
case EXEC_DT_END:
res = gfc_trans_dt_end (code);
break;
case EXEC_OMP_ATOMIC:
case EXEC_OMP_BARRIER:
case EXEC_OMP_CANCEL:
case EXEC_OMP_CANCELLATION_POINT:
case EXEC_OMP_CRITICAL:
case EXEC_OMP_DISTRIBUTE:
case EXEC_OMP_DISTRIBUTE_PARALLEL_DO:
case EXEC_OMP_DISTRIBUTE_PARALLEL_DO_SIMD:
case EXEC_OMP_DISTRIBUTE_SIMD:
case EXEC_OMP_DO:
case EXEC_OMP_DO_SIMD:
case EXEC_OMP_FLUSH:
case EXEC_OMP_MASTER:
case EXEC_OMP_ORDERED:
case EXEC_OMP_PARALLEL:
case EXEC_OMP_PARALLEL_DO:
case EXEC_OMP_PARALLEL_DO_SIMD:
case EXEC_OMP_PARALLEL_SECTIONS:
case EXEC_OMP_PARALLEL_WORKSHARE:
case EXEC_OMP_SECTIONS:
case EXEC_OMP_SIMD:
case EXEC_OMP_SINGLE:
case EXEC_OMP_TARGET:
case EXEC_OMP_TARGET_DATA:
case EXEC_OMP_TARGET_TEAMS:
case EXEC_OMP_TARGET_TEAMS_DISTRIBUTE:
case EXEC_OMP_TARGET_TEAMS_DISTRIBUTE_PARALLEL_DO:
case EXEC_OMP_TARGET_TEAMS_DISTRIBUTE_PARALLEL_DO_SIMD:
case EXEC_OMP_TARGET_TEAMS_DISTRIBUTE_SIMD:
case EXEC_OMP_TARGET_UPDATE:
case EXEC_OMP_TASK:
case EXEC_OMP_TASKGROUP:
case EXEC_OMP_TASKWAIT:
case EXEC_OMP_TASKYIELD:
case EXEC_OMP_TEAMS:
case EXEC_OMP_TEAMS_DISTRIBUTE:
case EXEC_OMP_TEAMS_DISTRIBUTE_PARALLEL_DO:
case EXEC_OMP_TEAMS_DISTRIBUTE_PARALLEL_DO_SIMD:
case EXEC_OMP_TEAMS_DISTRIBUTE_SIMD:
case EXEC_OMP_WORKSHARE:
res = gfc_trans_omp_directive (code);
break;
default:
gfc_internal_error ("gfc_trans_code(): Bad statement code");
}
gfc_set_backend_locus (&code->loc);
if (res != NULL_TREE && ! IS_EMPTY_STMT (res))
{
if (TREE_CODE (res) != STATEMENT_LIST)
SET_EXPR_LOCATION (res, input_location);
/* Add the new statement to the block. */
gfc_add_expr_to_block (&block, res);
}
}
/* Return the finished block. */
return gfc_finish_block (&block);
}
/* Translate an executable statement with condition, cond. The condition is
used by gfc_trans_do to test for IO result conditions inside implied
DO loops of READ and WRITE statements. See build_dt in trans-io.c. */
tree
gfc_trans_code_cond (gfc_code * code, tree cond)
{
return trans_code (code, cond);
}
/* Translate an executable statement without condition. */
tree
gfc_trans_code (gfc_code * code)
{
return trans_code (code, NULL_TREE);
}
/* This function is called after a complete program unit has been parsed
and resolved. */
void
gfc_generate_code (gfc_namespace * ns)
{
ompws_flags = 0;
if (ns->is_block_data)
{
gfc_generate_block_data (ns);
return;
}
gfc_generate_function_code (ns);
}
/* This function is called after a complete module has been parsed
and resolved. */
void
gfc_generate_module_code (gfc_namespace * ns)
{
gfc_namespace *n;
struct module_htab_entry *entry;
gcc_assert (ns->proc_name->backend_decl == NULL);
ns->proc_name->backend_decl
= build_decl (ns->proc_name->declared_at.lb->location,
NAMESPACE_DECL, get_identifier (ns->proc_name->name),
void_type_node);
entry = gfc_find_module (ns->proc_name->name);
if (entry->namespace_decl)
/* Buggy sourcecode, using a module before defining it? */
entry->decls->empty ();
entry->namespace_decl = ns->proc_name->backend_decl;
gfc_generate_module_vars (ns);
/* We need to generate all module function prototypes first, to allow
sibling calls. */
for (n = ns->contained; n; n = n->sibling)
{
gfc_entry_list *el;
if (!n->proc_name)
continue;
gfc_create_function_decl (n, false);
DECL_CONTEXT (n->proc_name->backend_decl) = ns->proc_name->backend_decl;
gfc_module_add_decl (entry, n->proc_name->backend_decl);
for (el = ns->entries; el; el = el->next)
{
DECL_CONTEXT (el->sym->backend_decl) = ns->proc_name->backend_decl;
gfc_module_add_decl (entry, el->sym->backend_decl);
}
}
for (n = ns->contained; n; n = n->sibling)
{
if (!n->proc_name)
continue;
gfc_generate_function_code (n);
}
}
/* Initialize an init/cleanup block with existing code. */
void
gfc_start_wrapped_block (gfc_wrapped_block* block, tree code)
{
gcc_assert (block);
block->init = NULL_TREE;
block->code = code;
block->cleanup = NULL_TREE;
}
/* Add a new pair of initializers/clean-up code. */
void
gfc_add_init_cleanup (gfc_wrapped_block* block, tree init, tree cleanup)
{
gcc_assert (block);
/* The new pair of init/cleanup should be "wrapped around" the existing
block of code, thus the initialization is added to the front and the
cleanup to the back. */
add_expr_to_chain (&block->init, init, true);
add_expr_to_chain (&block->cleanup, cleanup, false);
}
/* Finish up a wrapped block by building a corresponding try-finally expr. */
tree
gfc_finish_wrapped_block (gfc_wrapped_block* block)
{
tree result;
gcc_assert (block);
/* Build the final expression. For this, just add init and body together,
and put clean-up with that into a TRY_FINALLY_EXPR. */
result = block->init;
add_expr_to_chain (&result, block->code, false);
if (block->cleanup)
result = build2_loc (input_location, TRY_FINALLY_EXPR, void_type_node,
result, block->cleanup);
/* Clear the block. */
block->init = NULL_TREE;
block->code = NULL_TREE;
block->cleanup = NULL_TREE;
return result;
}
/* Helper function for marking a boolean expression tree as unlikely. */
tree
gfc_unlikely (tree cond, enum br_predictor predictor)
{
tree tmp;
if (optimize)
{
cond = fold_convert (long_integer_type_node, cond);
tmp = build_zero_cst (long_integer_type_node);
cond = build_call_expr_loc (input_location,
builtin_decl_explicit (BUILT_IN_EXPECT),
3, cond, tmp,
build_int_cst (integer_type_node,
predictor));
}
cond = fold_convert (boolean_type_node, cond);
return cond;
}
/* Helper function for marking a boolean expression tree as likely. */
tree
gfc_likely (tree cond, enum br_predictor predictor)
{
tree tmp;
if (optimize)
{
cond = fold_convert (long_integer_type_node, cond);
tmp = build_one_cst (long_integer_type_node);
cond = build_call_expr_loc (input_location,
builtin_decl_explicit (BUILT_IN_EXPECT),
3, cond, tmp,
build_int_cst (integer_type_node,
predictor));
}
cond = fold_convert (boolean_type_node, cond);
return cond;
}
/* Get the string length for a deferred character length component. */
bool
gfc_deferred_strlen (gfc_component *c, tree *decl)
{
char name[GFC_MAX_SYMBOL_LEN+9];
gfc_component *strlen;
if (!(c->ts.type == BT_CHARACTER && c->ts.deferred))
return false;
sprintf (name, "_%s_length", c->name);
for (strlen = c; strlen; strlen = strlen->next)
if (strcmp (strlen->name, name) == 0)
break;
*decl = strlen ? strlen->backend_decl : NULL_TREE;
return strlen != NULL;
}
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