remove needless template<> on some function overloads
dodge bogus compiler warning from gcc 8.1.0 only
stricter typing of expressions in symbols
adjust modfile12.f90 expected test results
add Unwrap, massage folding a bit
Use Unwrap to simplify folding
Move KindSelector analysis into expression semantics
fix crash
checkpoint
updates to TypeParamInquiry
support of %KIND type parameter inquiry
equality testing for expressions
checkpoint during PDT implementation
reformat
checkpoint derived type instantiation
checkpoint
resolve merge
debugging failed tests
fix failing resolve37.f90 test
all existing tests pass
clean up all build warnings
fix bug
update copyright dates
fix copyright dates
address review comments
review comment
merge with master after peeling off changes
bugfixing new feature
fix warning from old g++s
tweaks after merging with latest head
more bugfixing
making modfile17.f90 test work
Make kinds into expressions in symbol table types
big refactor for deferring kinds in intrinsic types
modfile17.f90 test passes
clean up TODOs
Simplify types as stored in scopes
Test KIND parameter default init expressions, debug them
Update copyright dates
address comments
remove dead line
address comments
Original-commit: flang-compiler/f18@1f43d0a048
Reviewed-on: https://github.com/flang-compiler/f18/pull/260
Tree-same-pre-rewrite: false
Create `AssocEntityDetails` for symbols that represent entities
identified by the associate-name in ASSOCIATE and SELECT TYPE
constructs.
For ASSOCIATE, create a new scope for the associated entity.
For SELECT TYPE, create a new scope for each of type guard blocks.
Each one contains an associated entity with the appropriate type.
For SELECT TYPE, also create a place-holder symbol for the
associate-name in the SELECT TYPE statement. The real symbols
are in the new scopes and none of them is uniquely identified
with the associate-name.
Handling of `Selector` is common between these, with
`associate-name => expr | variable` recorded in
`ConstructVisitor::association_`.
When the selector is an expression, derive the type of the associated
entity from the type of the expression. This required some refactoring
of how `DeclTypeSpec`s are created. The `DerivedTypeSpec` that comes
from and expression is const so we can only create const `DeclTypeSpec`s
from it. But there were times during name resolution when we needed to
set type parameters in the current `DeclTypeSpec`. Now the non-const
`DerivedTypeSpec` is saved separately from the const `DeclTypeSpec`
while we are processing a declaration type spec. This makes it
unnecessary to save the derived type name.
Add a type alias for `common::Indirection` to reduce verbosity.
Original-commit: flang-compiler/f18@b7668cebe4
Reviewed-on: https://github.com/flang-compiler/f18/pull/261
Tree-same-pre-rewrite: false
These are recognized along with other attributes and saved in
`passName_` and `bindName_`. The functions `SetPassNameOn()` and
`SetBindNameOn()` set them in a symbol if they are present.
They are also written to `.mod` files.
Add `MakePlaceholder()` to make symbols for names that otherwise
wouldn't have one. This allows us to assign a symbol to every name
and report errors for those that don't have one. Make use of this
for PASS names, which don't have explicit symbols.
Change `ObjectEntityDetails` and `ProcEntityDetails` to be sub-classes
of `EntityDetails`. They each contain a superset of the information in
`EntityDetails` so this reduces some duplication.
Original-commit: flang-compiler/f18@404c920840
Reviewed-on: https://github.com/flang-compiler/f18/pull/256
Tree-same-pre-rewrite: false
We need to save the names of specific procedures that appear in a
ProcedureStmt or GenericStmt to resolve at the end of the specification
section. They may be forward references to interface bodies.
We were saving them in the GenericDetails but that was not the right
place: we need to save the parser::Name so that we can eventually
resolve it to a Symbol, but the symbol table should not contains
references to Name because they go away with the parse tree.
The fix is to save the mapping in a new multimap, specificProcs_ in
InterfaceVisitor. We can reference parser::Names there and resolve them
during ResolveSpecificsInGenerics(). We no longer need to clutter
GenericDetails with data structures for unresolved names.
Also handle the case where a specific procedure is use-associated from
another module.
Original-commit: flang-compiler/f18@c7f7b1e72d
Reviewed-on: https://github.com/flang-compiler/f18/pull/249
Tree-same-pre-rewrite: false
Recognize the various ways of specifying character lengths.
Define CharacterTypeSpec with length and kind and store them in the
current scope, as is done with DerivedTypeSpec (which can also have
length parameters).
Note: IntrinsicTypeSpec is no longer used for characters, so it
should have a different name. Similarly, in DeclTypeSpec::Category,
Intrinsic does not include Character.
Original-commit: flang-compiler/f18@5f84785193
Reviewed-on: https://github.com/flang-compiler/f18/pull/247
Tree-same-pre-rewrite: false
It's not good enough to evaluate expressions in the symbol table after
name resolution has completed. This is because we need the values of
constant expressions for types, for example, we need to evaluate `k` in
`integer(k) :: x` to know the type of `x`.
So, eliminate `LazyExpr` and call `EvaluateExpr()` on expressions that
we need in the symbol table. The latter evaluates and folds an
expression in the current context. This is now possible because symbols
are added to `parser::Name` as soon as possible rather than in a pass
after name resolution. Along with `LazyExpr` we can eliminate the whole
`ResolveSymbolExprs` pass that used to resolve them.
In resolve-names.cc, many `Pre` functions are changed to `Post` so that
names are resolved before doing the associated processing. For example,
with intrinsic type specs, names in the kind expression must be resolved
before attempting to evaluate that expression.
In `GetSymbolType()` in type.cc, handle both `ObjectEntityDetails` and
`EntityDetails` by using `Symbol::GetType()`.
Add explicit declarations in label01.F90 because we can't handle
implicitly typed array bounds yet.
Original-commit: flang-compiler/f18@d67716640b
Reviewed-on: https://github.com/flang-compiler/f18/pull/238
Add `LazyExpr` class to represent expressions in the symbol table.
Initially they contain a pointer to an expression in the parse tree.
After name resolution is complete and symbols are filled in in the parse
tree, `LazyExpr`s are resolved to `evaluate::Expr<evaluate::SomeType>`.
This is done by `ResolveSymbolExprs()`.
Change `Bound` and `ParamValue` to save their value as a `LazyExpr`.
Change `ObjectEntityDetails` and `TypeParamDetails` to save the initial
value as a `LazyExpr`.
Eliminate `IntExpr` and `IntConst` classes, which were just place-holders.
Add `Clone()` to `ShapeSpec`, `Bound`, `LazyExpr`. Normally they should
be moved but in `ObjectEntityDetails::set_shape()` we need to make copies.
Save type parameter values in `derivedTypeSpec_`. `typeParamValue_` is
not needed.
Write out initial values, type parameter values, and bounds to .mod files.
Evaluate parameter values in expressions.
Make some errors non-fatal so that tests can continue to pass.
Original-commit: flang-compiler/f18@b90cadfc53
Reviewed-on: https://github.com/flang-compiler/f18/pull/223
Tree-same-pre-rewrite: false
When a SeparateModuleSubprogram is encountered, check that there is a
corresponding declaration in the current module/submodule or an ancestor.
When it's the current program unit, special handling is required to
avoid trying to declare it again.
Module subprograms with the `MODULE` prefix are handled similarly.
The `hasModulePrefix` flag is passed in to `BeginSubprogram` to
distinguish this case.
Extract common part of `Post(SubroutineStmt)` and `Post(FunctionStmt)` into
`PostSubprogramStmt`. Add code there to ensure that separate module
procedures do not have `EXTERNAL` set. This requires a fix to `ModFileWriter`
to correctly decide when a subprogram is declared in an interface block.
Extract `WalkSubprogramPart` into a separate function. It walks the
internal or module subprograms collecting their names. It is needed to
handle separate module subprograms.
Original-commit: flang-compiler/f18@339b65f251
Reviewed-on: https://github.com/flang-compiler/f18/pull/218
Tree-same-pre-rewrite: false
Push a new scope for constructs and statements that require one
(DataStmt, DO CONCURRENT, ForallConstruct, ForallStmt -- there are more
to do). Currently we use the Block kind of scope because there is no
difference. Perhaps that kind should be renamed to Construct, though it
does apply to statements as well as constructs.
Add DeclareConstructEntity to create a construct or statement entity.
When the type is not specified it can come from the type of a symbol in
the enclosing scope with the same name. Change DeclareObjectEntity et al.
to return the symbol declared, for the benefit of DeclareConstructEntity.
Use DeclareConstructEntity for DO CONCURRENT index-name, LOCAL, and
LOCAL_INIT variables and the data-i-do-variable in DataImpliedDo
Names in SHARED locality spec need special handling: create a new kinds
of symbol with HostAssocDetails to represent the host-association of the
shared variables within the construct scope. That symbol gets the
LocalityShared flag without affecting the symbol in the outer scope.
HostAssoc symbols may be useful in other contexts, e.g. up-level
references to local variables.
Add parser::DoConstruct::IsDoConcurrent() because DO CONCURRENT loops
introduce a construct scope while other DO loops do not.
Move CanonicalizeDo to before name resolution so that name resolution
doesn't have to deal with labeled DO CONCURRENT loops.
Allow for type of index name to be specified in ConcurrentHeader.
Resolve the derived type name in an AllocateStmt, StructureConstructor
Original-commit: flang-compiler/f18@bc7b989136
Reviewed-on: https://github.com/flang-compiler/f18/pull/214
Resolve the index name in a FORALL, DO, or DO CONCURRENT.
Handle pointer-stmt. Add DeclareUnknownEntity() to declare an entity
that is not yet know to be an object or procedure. This is used in the
EntityDecl and PointerDecl cases.
When an array element assignment is mistakenly parsed as a statement
function, ensure the index names are resolved.
Detect erroneous use-association with local name that matches the name
of the containing subprogram.
Cleanup: Eliminate GetVariableName() and CheckImplicitSymbol() in favor
of using the Resolve* functions consistently. Add ResolveName() to do
what CheckImplicitSymbol() used to do.
Disable warnings about unresolved names for some categories of
constructs that are not yet implemented: common blocks, namelist
statements, etc. These will be turned back on when they are implemented.
Original-commit: flang-compiler/f18@9a41bf37fd
Reviewed-on: https://github.com/flang-compiler/f18/pull/210
Check that construct names don't conflict with other construct names or
entities in the same scoping unit.
This requires adding symbols for them. MiscDetails was added for cases
like this where we don't need to save much information about the symbol.
References to construct names are recorded too, so those names are now
expected to be resolved and no longer are exceptions in rewrite-parse-tree.cc
Checking that construct names match is still done in resolve-labels.cc.
Original-commit: flang-compiler/f18@0ad79ff029
Reviewed-on: https://github.com/flang-compiler/f18/pull/210
Tree-same-pre-rewrite: false
The "%RE" or "%IM" is parsed as a structure-component.
If the base has type COMPLEX and the component name is one
of those, allow it without comment.
Note that the `parser::Name` for these components don't get
symbols filled in, so we still get a warning that they are
unresolved. We have to figure out how to deal with names
like this that we won't have symbols for.
Fixesflang-compiler/f18#188.
Original-commit: flang-compiler/f18@1d4a84fe3c
Reviewed-on: https://github.com/flang-compiler/f18/pull/194
Tree-same-pre-rewrite: false
When looking for a component name in a derived type, also look in the
parent type. Before adding a component to a derived type, report an
error if it already has one with that name. Check that components are
accessible when they are accessed.
Add the "parent component" to derived types (i.e. a component with the
same name as the parent type). The symbol is marked with the
`ParentComp` flag so we can avoid writing it to `.mod` files.
Add calls to `add_occurrence()` so that those particular instances of
`parser::Name` get their symbol set.
Change `DeclareObjectEntity` and `DeclareProcEntity` to use `SourceName` as
the name passed in rather than `parser::Name`.
Fix some problems in `unparse-with-symbols.cc` on statements that both
define and reference names.
Fixesflang-compiler/f18#187.
Original-commit: flang-compiler/f18@664b9627f2
Reviewed-on: https://github.com/flang-compiler/f18/pull/192
Tree-same-pre-rewrite: false
Add TypeParamDetails for symbols that represent type parameters.
Create such symbols when a type-param-def-stmt is encountered.
At the end of the derived-type-def, check the parameters named
in the type-param-name-list against those encountered in each
type-param-def-stmt.
Original-commit: flang-compiler/f18@c15247bb30
Reviewed-on: https://github.com/flang-compiler/f18/pull/173
Tree-same-pre-rewrite: false
Add new kinds of symbol details: ProcBindingDetails, FinalProcDetails.
and GenericBindingDetails. The last is not yet implemented.
Write them to the .mod file.
Recognize DEFERRED and NON_OVERRIDABLE attributes. Enforce C783.
Resolve CLASS(t) similarly to resolution of TYPE(t).
Original-commit: flang-compiler/f18@0c0a9ab79e
Reviewed-on: https://github.com/flang-compiler/f18/pull/173
Tree-same-pre-rewrite: false
Resolve names and do implicit typing in ArrayElement and LoopBounds.
Fix problem with creation of UseErrorDetails: when a conflict occurs,
record both the original USE and the new one.
Resolve the type name in TypeAttrSpec::Extends. Move CheckUseError to
DeclarationVisitor so that it can be used in ResolveDerivedType.
Report error on unresolved names. I.e. after name resolution, check each
parser::Name and verify we have a Symbol for it. This is on by default
now but it could be an option.
Original-commit: flang-compiler/f18@1c8cbc6e53
Reviewed-on: https://github.com/flang-compiler/f18/pull/173
Tree-same-pre-rewrite: false
A `BLOCK` statement opens a new scope. It is different from other scopes
in that implicitly typed entities are defined in the enclosing non-block
scope, not immediately in the block. This means that `IMPORT` statements
can cause them to be hidden.
Check that blocks can't have `IMPLICIT` statements in them. It is simpler
for the parser not to deal with the different between a
specification-part and a block-specification-part.
Change `ImplicitRules` to have a parent that is consulted when there isn't
an answer in the current one. For an interface body that does not happen
but for all other nested scopes it does. This parent link eliminates the
need for the `implicitRules_` stack. Make `isImplicitNoneType_` and
`isImplicitNoneExternal_` optional: not set means look in parent.
Fixesflang-compiler/f18#71.
Remove `CurrNonTypeScope()` and put the logic in `Symbol::FindSymbol`.
Original-commit: flang-compiler/f18@a153a2ee33
Reviewed-on: https://github.com/flang-compiler/f18/pull/169
Tree-same-pre-rewrite: false
Host association is done by search for symbols using `Scope::FindSymbol()`
which looks for the the name in the parent scope if the import rules
permit it.
Import statements are implemented using `importKind_` and `importNames_`
in class `Scope`. Most of the constraints are checked when the
`ImportStmt` is encountered. `CheckImports()` is called at the end of
the `SpecificationPart` to verify the names mentioned in the IMPORT
statement. That has to happen then so that we can detect if an imported
name is hidden by a declaration in the current scope.
Original-commit: flang-compiler/f18@0d50c8a8ba
Reviewed-on: https://github.com/flang-compiler/f18/pull/167
Tree-same-pre-rewrite: false
Symbols for submodules have `ModuleDetails` with `isSubmodule` set.
Scopes for submodules have `Module` kind and have a parent scope that
is also `Module` kind.
Scopes for modules now contain a mapping of submodule name to scope
so that we can find them without having to search the scope tree or
re-read their `.mod` file.
The module file for submodule `s` with ancestor module `m` is named `m-s.mod`.
The tree structure of scopes means module file writing is now recursive.
Similarly, reading the module file for a submodule may require reading
the module files of its parent and ancestor. `ResolveNames` now requires
the parent scope to be passed in -- it is not always the global scope.
`test_modfiles.sh` now handles an argument that is a filename glob so
that the test can involve multiple files. This allows `modfile09` to
test reading of `.mod` files for modules and submodules.
Original-commit: flang-compiler/f18@2e4424dbc8
Reviewed-on: https://github.com/flang-compiler/f18/pull/160
Tree-same-pre-rewrite: false
When a procedure is included by name in a generic (either with a
procedure statement in a generic interface or with a generic statement)
we can't immediately resolve it to a subprogram symbol. That is because
the subprogram may be defined later in the specification part. Instead,
collect the names (and whether they should be module procedures) and
resolve them to symbols at the end of the specification part. Also
detect duplicate names then.
This is needed for module file reading as these forward references can
occur there.
Write generics to module file using generic statements. This allows us to
include the access-spec.
Original-commit: flang-compiler/f18@d11d002084
Reviewed-on: https://github.com/flang-compiler/f18/pull/132
Write symbols for external subprogram interfaces as interface-stmts.
Those go in the decls part of the module file, as opposed to contained
subprograms which go in the contains part. See modfile06.f90.
Write symbols with GenericDetails to module files. The specific
procedures of a generic interface are always written as procedure-stmts.
If they also have specific interfaces those are written in a separate
interface-stmt. See modfile07.f90.
Fix a bug where `real, external :: f` was not written like
`real f; external f`. We have to notice the EXTERNAL attribute on the
type-declaration-stmt and convert the entity to a procedure entity.
See modfile08.f90.
Fix a bug where a use-associated symbol is referenced in a
procedure-designator. We were not resolving that correctly.
Change ModFileWriter::PutEntity to include the kind of Details when
it reports an internal error due to a kind it can't handle.
Make DetailsToString public to support that.
Change test_errors.sh to fail if the f18 command exits due to a signal.
We were missing bugs where the correct errors were written out but then
module file writing crashed (due to failure to handle generics mentioned
above). Non-zero exit status is okay because we are expecting
compilation errors.
Change test_modfile.sh to allow for the expected module file contents to
be indented so the tests are easier to read.
Original-commit: flang-compiler/f18@82a7931e51
Reviewed-on: https://github.com/flang-compiler/f18/pull/132
Tree-same-pre-rewrite: false
The source files contain the expected contents of generated .mod files.
`test_modfile.sh` compiles the source file and verifies that the correct
.mod files are generated.
Original-commit: flang-compiler/f18@a23f53c1a7
Reviewed-on: https://github.com/flang-compiler/f18/pull/126
Tree-same-pre-rewrite: false
Recognize `IntentStmt` and use `HandleAttributeStmt()` to implement it
as is done with other attribute statements. Add `Attr::INTENT_INOUT` as
a separate attribute for `INTENT(INOUT)`.
Collect attributes from the prefix and suffix of `FunctionStmt` and
`SubroutineStmt` (including `BIND(C)`) and set them on the subprogram
symbol.
Create a test for this using `test_symbol.sh`. It compiles with
`-funparse-with-symbols` and compares the output with the symbols in
comments in the input.
Change `test_errors.sh` to be similar to `test_symbol.sh`: check usage
and allow `F18` environment variable to override the path to the
compiler.
Original-commit: flang-compiler/f18@384828a22f
Reviewed-on: https://github.com/flang-compiler/f18/pull/120
Tree-same-pre-rewrite: false
This consists of:
- a new kind of symbols to represent them with DerivedTypeDetails
- creating symbols for derived types when they are declared
- creating a new kind of scope for the type to hold component symbols
- resolving entity declarations of objects of derived type
- resolving references to objects of derived type and to components
- handling derived types with same name as generic
Type parameters are not yet implemented.
Refactor DeclTypeSpec to be a value class wrapping an IntrinsicTypeSpec
or a DerivedTypeSpec (or neither in the TypeStar and ClassStar cases).
Store DerivedTypeSpec objects in a new structure the current scope
MakeDerivedTypeSpec so that DeclTypeSpec can just contain a pointer to
them, as it currently does for intrinsic types.
In GenericDetails, add derivedType field to handle case where generic
and derived type have the same name. The generic is in the scope and the
derived type is referenced from the generic, similar to the case where a
generic and specific have the same name. When one of these names is
mis-recognized, we sometimes have to fix up the 'occurrences' lists
of the symbols.
Assign implicit types as soon as an entity is encountered that requires
one. Otherwise implicit derived types won't work. When we see 'x%y' we
have to know the type of x in order to resolve y. Add an Implicit flag
to mark symbols that were implicitly typed
For symbols that introduce a new scope, include a pointer back to that
scope.
Add CurrNonTypeScope() for the times when we want the current scope but
ignoring derived type scopes. For example, that happens when looking for
types or parameters, or creating implicit symbols.
Original-commit: flang-compiler/f18@9bd16da020
Reviewed-on: https://github.com/flang-compiler/f18/pull/109
The Fortran source files in test/semantics all contain expected
errors in comments. The script test_errors.sh compiles a file with
'f18 -fdebug-resolve-names -fparse-only' and compares the actual
errors produced against the expected ones.
The change to resolve15.f90 is necessary because test_errors.sh can't
handle two expected errors for the same source line.
A useful command to run these is 'ctest -R f90 --output-on-failure'.
-R means only run tests with f90 in the name
--output-on-failure prints the output of test_errors.sh when a test
fails, showing the expected and actual messages that differ.
Original-commit: flang-compiler/f18@df18ee7bc9
Reviewed-on: https://github.com/flang-compiler/f18/pull/105