tasking.c, typeck.c: Fix spelling errors.
git-svn-id: svn+ssh://gcc.gnu.org/svn/gcc/trunk@46668
138bc75d-0d04-0410-961f-
82ee72b054a4
+2001-10-31 Joseph S. Myers <jsm28@cam.ac.uk>
+
+ * ChangeLog, actions.c, ch-tree.def, decl.c, except.c, inout.c,
+ tasking.c, typeck.c: Fix spelling errors.
+
2001-10-29 Zack Weinberg <zack@codesourcery.com>
* convert.c, inout.c, loop.c, nloop.c, tasking.c, timing.c,
2001-10-29 Zack Weinberg <zack@codesourcery.com>
* convert.c, inout.c, loop.c, nloop.c, tasking.c, timing.c,
Thu Oct 1 10:43:45 1998 Nick Clifton <nickc@cygnus.com>
Thu Oct 1 10:43:45 1998 Nick Clifton <nickc@cygnus.com>
- * lex.c: Replace occurances of HANDLE_SYSV_PRAGMA with
+ * lex.c: Replace occurrences of HANDLE_SYSV_PRAGMA with
HANDLE_GENERIC_PRAGMAS.
(handle_generic_pragma): New function: Parse generic pragmas.
HANDLE_GENERIC_PRAGMAS.
(handle_generic_pragma): New function: Parse generic pragmas.
Sat Sep 5 22:25:51 1998 Richard Henderson <rth@cygnus.com>
Sat Sep 5 22:25:51 1998 Richard Henderson <rth@cygnus.com>
- * Makefile.in: Update dependancies for top-level gcc files that moved.
+ * Makefile.in: Update dependencies for top-level gcc files that moved.
Sat Sep 5 02:21:08 1998 Jeffrey A Law (law@cygnus.com)
Sat Sep 5 02:21:08 1998 Jeffrey A Law (law@cygnus.com)
Wed Feb 18 23:48:57 1998 Richard Henderson <rth@cygnus.com>
Wed Feb 18 23:48:57 1998 Richard Henderson <rth@cygnus.com>
- * Make-lang.in (cc1chill): Kill lingering bc-opcode.h dependancy.
+ * Make-lang.in (cc1chill): Kill lingering bc-opcode.h dependency.
Wed Feb 18 17:35:05 1998 Dave Brolley <brolley@cygnus.com>
Wed Feb 18 17:35:05 1998 Dave Brolley <brolley@cygnus.com>
* grant.c (print_integer_selective): In case of a RANGE of
a SET mode, try to find and grant the parent mode.
* grant.c (print_integer_selective): In case of a RANGE of
a SET mode, try to find and grant the parent mode.
- (grant_seized_identifier): Dont write it out, if the identifier
+ (grant_seized_identifier): Don't write it out, if the identifier
doesn't have a seize file (it may come from a SPEC MODULE
defined in the compilation unit).
doesn't have a seize file (it may come from a SPEC MODULE
defined in the compilation unit).
* grant.c (write_spec_module): If not GRANT ALL specified,
write only this identifiers to grant file which are
* grant.c (write_spec_module): If not GRANT ALL specified,
write only this identifiers to grant file which are
- neccessary to form a prober grant file. This will shorten
+ necessary to form a prober grant file. This will shorten
grant files and speed up compilation.
(decode_constant_selective, decode_mode_selective,
get_type_selective, decode_decl_selective,
grant files and speed up compilation.
(decode_constant_selective, decode_mode_selective,
get_type_selective, decode_decl_selective,
* ch-parse.y (optprogendname, optname): Rename to opt_end_label.
* ch-parse.y: Add support for compound name strings, but defer
using all over teh place, due to parser ambiguities.
* ch-parse.y (optprogendname, optname): Rename to opt_end_label.
* ch-parse.y: Add support for compound name strings, but defer
using all over teh place, due to parser ambiguities.
- Howver, do use defining_occurrence where appropriate.
+ However, do use defining_occurrence where appropriate.
* ch-parse.y: Re-write syntax and semantics of GRANT and SEIZE
statements to support Blue Book functionality. Neato!
* ch-parse.y: Re-write syntax and semantics of GRANT and SEIZE
statements to support Blue Book functionality. Neato!
Now, a grantfile is a spec module and contains all the
top-level declarations of the granting module, not just
those that are granted. It also contains explicit grant
Now, a grantfile is a spec module and contains all the
top-level declarations of the granting module, not just
those that are granted. It also contains explicit grant
- statments naming those declared names that are granted.
+ statements naming those declared names that are granted.
It also has seize statements and use_seize_file directives
to correctly handle transitive dependencies.
It also has seize statements and use_seize_file directives
to correctly handle transitive dependencies.
* Makefile.in (install-libchill, install-librmt): Removed.
* ch-actions.c (build_chill_exception_decl): Change decl
* Makefile.in (install-libchill, install-librmt): Removed.
* ch-actions.c (build_chill_exception_decl): Change decl
- to initialized char array, rather than unitialized common.
+ to initialized char array, rather than uninitialized common.
(Simplifies extracting string name of exception.)
* ch-actions.c: Adjust interface to cause_exception accordingly.
* ch-typeck.c (build_chill_array_ref): Cause rangefail if
(Simplifies extracting string name of exception.)
* ch-actions.c: Adjust interface to cause_exception accordingly.
* ch-typeck.c (build_chill_array_ref): Cause rangefail if
- /* The following is probably superceded by the
+ /* The following is probably superseded by the
above code for SET_IN_EXPR. FIXME! */
else if (TREE_CODE (lhs) == BIT_FIELD_REF)
{
above code for SET_IN_EXPR. FIXME! */
else if (TREE_CODE (lhs) == BIT_FIELD_REF)
{
/* A 'SEIZE (OLD->NEW)!POSTFIX' or 'GRANT (OLD->NEW)!POSTFIX' is
represented as an ALIAS_DECL where DECL_OLD_PREFIX, DECL_NEW_PREFIX,
/* A 'SEIZE (OLD->NEW)!POSTFIX' or 'GRANT (OLD->NEW)!POSTFIX' is
represented as an ALIAS_DECL where DECL_OLD_PREFIX, DECL_NEW_PREFIX,
- and DECL_POSTFIX points to OLD, NEW, and POSTFIX, repectively.
+ and DECL_POSTFIX points to OLD, NEW, and POSTFIX, respectively.
These are IDENTIFIER_NODEs, or NULL if empty.
DECL_NAME is NEW!POSTFIX. After binding, DECL_ABSTRACT_ORIGIN
(if not an error_mark) points to a decl whose DECL_NAME is OLD!POSTFIX.
These are IDENTIFIER_NODEs, or NULL if empty.
DECL_NAME is NEW!POSTFIX. After binding, DECL_ABSTRACT_ORIGIN
(if not an error_mark) points to a decl whose DECL_NAME is OLD!POSTFIX.
}
/* Fix all error_mark_nodes in enum. Increment maxnode and assign value.
}
/* Fix all error_mark_nodes in enum. Increment maxnode and assign value.
- This is neccessary to make a duplicate value check in the enum */
+ This is necessary to make a duplicate value check in the enum */
for (pair = values; pair; pair = TREE_CHAIN (pair))
{
tree decl = TREE_VALUE (pair);
for (pair = values; pair; pair = TREE_CHAIN (pair))
{
tree decl = TREE_VALUE (pair);
static tree jbuf_ident, prev_ident, handlers_ident;
static tree exception_stack_decl = 0;
static tree jbuf_ident, prev_ident, handlers_ident;
static tree exception_stack_decl = 0;
-/* Chain of cleanups assocated with exception handlers.
+/* Chain of cleanups associated with exception handlers.
The TREE_PURPOSE is an INTEGER_CST whose value is the
DECL_ACTION_NESTING_LEVEL (when the handled actions was entered).
The TREE_VALUE is an expression to expand when we exit that action. */
The TREE_PURPOSE is an INTEGER_CST whose value is the
DECL_ACTION_NESTING_LEVEL (when the handled actions was entered).
The TREE_VALUE is an expression to expand when we exit that action. */
return build1 (CONVERT_EXPR, void_type_node, integer_zero_node);
}
return build1 (CONVERT_EXPR, void_type_node, integer_zero_node);
}
-/* this function build all neccesary enum-tables used for
+/* this function build all necessary enum-tables used for
WRITETEXT or READTEXT of an enum */
void build_enum_tables ()
WRITETEXT or READTEXT of an enum */
void build_enum_tables ()
if (TREE_CHAIN (loclist) != NULL_TREE)
{
if (TREE_CHAIN (loclist) != NULL_TREE)
{
- error ("buffer receive alternative requires only 1 defining occurence.");
+ error ("buffer receive alternative requires only 1 defining occurrence.");
return error_mark_node;
}
return error_mark_node;
}
/* here we change the mode of rc_state->sig_code to
REF ARRAY (0:65535) REF __tmp_DESCR_type.
/* here we change the mode of rc_state->sig_code to
REF ARRAY (0:65535) REF __tmp_DESCR_type.
- This is neccesary, cause we cannot evaluate the buffer twice
+ This is necessary, cause we cannot evaluate the buffer twice
(once here where we compare against the address of the buffer
and second in build_receive_buffer_case_end, where we use the
address build the descriptor, which gets passed to __wait_buffer).
(once here where we compare against the address of the buffer
and second in build_receive_buffer_case_end, where we use the
address build the descriptor, which gets passed to __wait_buffer).
if (! CH_LOCATION_P (var))
{
if (! CH_LOCATION_P (var))
{
- error ("defining occurence in receive buffer alternative must be a location.");
+ error ("defining occurrence in receive buffer alternative must be a location.");
* LABEL_CNT is the case-label counter passed from build_receive_case_start.
* ELSE_CLAUSE defines if the RECEIVE CASE action had an ELSE(1) or not(0).
* BUF_LIST is a tree-list of tree-lists, where TREE_VALUE defines the
* LABEL_CNT is the case-label counter passed from build_receive_case_start.
* ELSE_CLAUSE defines if the RECEIVE CASE action had an ELSE(1) or not(0).
* BUF_LIST is a tree-list of tree-lists, where TREE_VALUE defines the
- * BUFFER location and TREE_PURPOSE defines the defining occurence.
+ * BUFFER location and TREE_PURPOSE defines the defining occurrence.
*/
static void
build_receive_buffer_case_end (buf_list, else_clause)
*/
static void
build_receive_buffer_case_end (buf_list, else_clause)
if (! integer_zerop (TYPE_MIN_VALUE (domain)))
{
/* The C part of the compiler doesn't understand how to do
if (! integer_zerop (TYPE_MIN_VALUE (domain)))
{
/* The C part of the compiler doesn't understand how to do
- arithmetic with dissimilar enum types. So we check compatability
+ arithmetic with dissimilar enum types. So we check compatibility
here, and perform the math in INTEGER_TYPE. */
if (TREE_CODE (TREE_TYPE (idx)) == ENUMERAL_TYPE
&& chill_comptypes (TREE_TYPE (idx), domain, 0))
here, and perform the math in INTEGER_TYPE. */
if (TREE_CODE (TREE_TYPE (idx)) == ENUMERAL_TYPE
&& chill_comptypes (TREE_TYPE (idx), domain, 0))
if (expr_type_is_discrete && type_is_discrete)
{
/* do an overflow check
if (expr_type_is_discrete && type_is_discrete)
{
/* do an overflow check
- FIXME: is this always neccessary ??? */
+ FIXME: is this always necessary ??? */
/* FIXME: don't do range chacking when target type is PTR.
PTR doesn't have MIN and MAXVALUE. result is sigsegv. */
if (range_checking && type != ptr_type_node)
/* FIXME: don't do range chacking when target type is PTR.
PTR doesn't have MIN and MAXVALUE. result is sigsegv. */
if (range_checking && type != ptr_type_node)