Commit Graph

7 Commits

Author SHA1 Message Date
peter klausler ef44cad53d [flang][NFC] Document behavior for nonspecified/ambiguous cases
Add explicit documentation for a couple of cases where the Fortran
standard has been observed to be ambiguous or nonspecific and we've
had to choose the behavior of the implementation from some possible
alternatives (and may be distinct from other implementations).

Differential Revision: https://reviews.llvm.org/D111446
2021-10-11 11:06:07 -07:00
Peter Klausler 830c0b9023 [flang] Move runtime API headers to flang/include/flang/Runtime
Move the closure of the subset of flang/runtime/*.h header files that
are referenced by source files outside flang/runtime (apart from unit tests)
into a new directory (flang/include/flang/Runtime) so that relative
include paths into ../runtime need not be used.

flang/runtime/pgmath.h.inc is moved to flang/include/flang/Evaluate;
it's not used by the runtime.

Differential Revision: https://reviews.llvm.org/D109107
2021-09-03 11:08:34 -07:00
peter klausler 65f5290432 [flang] Implement runtime Assign()
Define an API for, and implement, runtime support for arbitrary
assignment of one descriptor's data to another, with full support for
(re)allocation of allocatables with finalization when necessary,
user-defined derived type assignment TBP calls, and intrinsic (default)
componentwise assignment of derived type instances with allocation of
automatic components.  Also clean up API and implementation of
finalization/destruction using knowledge gained while studying
edge cases for assignment in the 2018 standard.

The look-up procedure for special procedure bindings in derived
types has been optimized from O(N) to O(1) since it will probably
matter more.  This required some analysis in runtime derived type
description table construction in semantics and some changes to the
table schemata.

Executable Fortran tests have been developed; they'll be added
to the test base once they can be lowered and run by f18.

Differential Revision: https://reviews.llvm.org/D107678
2021-08-09 09:31:32 -07:00
peter klausler a48e41683a [flang] Run-time derived type initialization and destruction
Use derived type information tables to drive default component
initialization (when needed), component destruction, and calls to
final subroutines.  Perform these operations automatically for
ALLOCATE()/DEALLOCATE() APIs for allocatables, automatics, and
pointers.  Add APIs for use in lowering to perform these operations
for non-allocatable/automatic non-pointer variables.
Data pointer component initialization supports arbitrary constant
designators, a F'2008 feature, which may be a first for Fortran
implementations.

Differential Revision: https://reviews.llvm.org/D106297
2021-07-20 15:24:16 -07:00
peter klausler 43fadefb0e [flang] Implement user-defined derived type runtime I/O
With derived type description tables now available to the
runtime library, it is possible to implement the concept
of "child" I/O statements in the runtime and use them to
convert instances of derived type I/O data transfers into
calls to user-defined subroutines when they have been specified
for a type.  (See Fortran 2018, subclauses 12.6.4.8 & 13.7.6).

 - Support formatted, list-directed, and NAMELIST
   transfers to internal parent units; support these, and unformatted
   transfers, for external parent units.
 - Support nested child defined derived type I/O.
 - Parse DT'foo'(v-list) FORMAT data edit descriptors and passes
   their strings &/or v-list values as arguments to the defined
   formatted I/O routines.
 - Fix problems with this feature encountered in semantics and
   FORMAT valiation during development and end-to-end testing.
 - Convert typeInfo::SpecialBinding from a struct to a class
   after adding a member function.

Differential Revision: https://reviews.llvm.org/D104930
2021-06-28 11:36:19 -07:00
peter klausler 79caf69cc0 [flang] Runtime implementation for default derived type formatted I/O
This is *not* user-defined derived type I/O, but rather Fortran's
built-in capabilities for using derived type data in I/O lists
and NAMELIST groups.

This feature depends on having the derived type description tables
that are created by Semantics available, passed through compilation
as initialized static objects to which pointers can be targeted
in the descriptors of I/O list items and NAMELIST groups.

NAMELIST processing now handles component references on input
(e.g., "&GROUP x%component = 123 /").

The C++ perspectives of the derived type information records
were transformed into proper classes when it was necessary to add
member functions to them.

The code in Semantics that generates derived type information
was changed to emit derived type components in component order,
not alphabetic order.

Differential Revision: https://reviews.llvm.org/D104485
2021-06-18 10:30:28 -07:00
peter klausler 4fede8bc8a [flang] Implement derived type description table encoding
Define Fortran derived types that describe the characteristics
of derived types, and instantiations of parameterized derived
types, that are of relevance to the runtime language support
library.  Define a suite of corresponding C++ structure types
for the runtime library to use to interpret instances of the
descriptions.

Create instances of these description types in Semantics as
static initializers for compiler-created objects in the scopes
that define or instantiate user derived types.

Delete obsolete code from earlier attempts to package runtime
type information.

Differential Revision: https://reviews.llvm.org/D92802
2020-12-08 10:26:58 -08:00