Commit Graph

883 Commits

Author SHA1 Message Date
Douglas Gregor c40290e452 Implement template instantiation for ClassTemplateSpecializationTypes,
such as replacing 'T' in vector<T>. There are a few aspects to this:

  - Extend TemplateArgument to allow arbitrary expressions (an
    Expr*), and switch ClassTemplateSpecializationType to store
    TemplateArguments rather than it's own type-or-expression
    representation.

  - ClassTemplateSpecializationType can now store dependent types. In
    that case, the canonical type is another
    ClassTemplateSpecializationType (with default template arguments
    expanded) rather than a declaration (we don't build Decls for
    dependent types).

  - Split ActOnClassTemplateId into ActOnClassTemplateId (called from
    the parser) and CheckClassTemplateId (called from
    ActOnClassTemplateId and InstantiateType). They're smart enough to
    handle dependent types, now.

llvm-svn: 66509
2009-03-09 23:48:35 +00:00
Douglas Gregor 463421deb1 Implement the basics of implicit instantiation of class templates, in
response to attempts to diagnose an "incomplete" type. This will force
us to use DiagnoseIncompleteType more regularly (rather than looking at
isIncompleteType), but that's also a good thing.

Implicit instantiation is still very simplistic, and will create a new
definition for the class template specialization (as it should) but it
only actually instantiates the base classes and attaches
those. Actually instantiating class members will follow. 

Also, instantiate the types of non-type template parameters before
checking them,  allowing, e.g., 

  template<typename T, T Value> struct Constant; 
 
to work properly.

llvm-svn: 65924
2009-03-03 04:44:36 +00:00
Douglas Gregor 6eaaf30968 Template instantiation for function types
llvm-svn: 65668
2009-02-28 01:04:19 +00:00
Douglas Gregor 17c0d7bacf Implement template instantiation for pointer, reference, and (some)
array types. Semantic checking for the construction of these types has
been factored out of GetTypeForDeclarator and into separate
subroutines (BuildPointerType, BuildReferenceType,
BuildArrayType). We'll be doing the same thing for all other types
(and declarations and expressions).

As part of this, moved the type-instantiation functions into a class
in an anonymous namespace. 

llvm-svn: 65663
2009-02-28 00:25:32 +00:00
Douglas Gregor fe1e11092e Implement the basic approach for instantiating types, with a lot of FIXME'd
stubs for those types we don't yet know how to instantiate (everything
that isn't a template parameter!).

We now instantiate default arguments for template type parameters when
needed. This will be our testbed while I fill out the remaining
type-instantiation logic.

llvm-svn: 65649
2009-02-27 19:31:52 +00:00
Douglas Gregor 87f95b0a6a Introduce code modification hints into the diagnostics system. When we
know how to recover from an error, we can attach a hint to the
diagnostic that states how to modify the code, which can be one of:

  - Insert some new code (a text string) at a particular source
    location
  - Remove the code within a given range
  - Replace the code within a given range with some new code (a text
    string)

Right now, we use these hints to annotate diagnostic information. For
example, if one uses the '>>' in a template argument in C++98, as in
this code:

  template<int I> class B { };
  B<1000 >> 2> *b1;

we'll warn that the behavior will change in C++0x. The fix is to
insert parenthese, so we use code insertion annotations to illustrate
where the parentheses go:

test.cpp:10:10: warning: use of right-shift operator ('>>') in template
argument will require parentheses in C++0x
  B<1000 >> 2> *b1;
         ^
    (        )


Use of these annotations is partially implemented for HTML
diagnostics, but it's not (yet) producing valid HTML, which may be
related to PR2386, so it has been #if 0'd out.

In this future, we could consider hooking this mechanism up to the
rewriter to actually try to fix these problems during compilation (or,
after a compilation whose only errors have fixes). For now, however, I
suggest that we use these code modification hints whenever we can, so
that we get better diagnostics now and will have better coverage when
we find better ways to use this information.

This also fixes PR3410 by placing the complaint about missing tokens
just after the previous token (rather than at the location of the next
token).

llvm-svn: 65570
2009-02-26 21:00:50 +00:00
Sebastian Redl 8d2ccae28b Make more AST nodes and semantic checkers dependent-expression-aware.
llvm-svn: 65529
2009-02-26 14:39:58 +00:00
Douglas Gregor 8d0921617e Use RecordFirst/RecordLast range checks in DeclContext
llvm-svn: 65489
2009-02-26 00:02:51 +00:00
Douglas Gregor d54dfb8718 Implementing parsing of template-ids as class-names, so that we can
derive from a class template specialization, e.g.,

  class B : public A<int> { };

llvm-svn: 65488
2009-02-25 23:52:28 +00:00
Douglas Gregor cbb45d0c65 Cope with use of the token '>>' inside a template argument list, e.g.,
vector<vector<double>> Matrix;

In C++98/03, this token always means "right shift". However, if we're in
a context where we know that it can't mean "right shift", provide a
friendly reminder to put a space between the two >'s and then treat it
as two >'s as part of recovery.

In C++0x, this token is always broken into two '>' tokens.

llvm-svn: 65484
2009-02-25 23:02:36 +00:00
Douglas Gregor 1e249f8641 Improve location information on "reused" class template specialization
decls. Test and document the semantic location of class template
specialization definitions that occur within a scope enclosing the
scope of the class template.

llvm-svn: 65478
2009-02-25 22:18:32 +00:00
Douglas Gregor f47b911f6e Perform additional semantic checking of class template
specializations. In particular:

  - Make sure class template specializations have a "template<>"
    header, and complain if they don't.
  - Make sure class template specializations are declared/defined
    within a valid context. (e.g., you can't declare a specialization
    std::vector<MyType> in the global namespace).

llvm-svn: 65476
2009-02-25 22:02:03 +00:00
Douglas Gregor 441f24118a Include the appropriate header for malloc
llvm-svn: 65471
2009-02-25 19:48:02 +00:00
Douglas Gregor 7f74112756 Implement parsing of nested-name-specifiers that involve template-ids, e.g.,
std::vector<int>::allocator_type

When we parse a template-id that names a type, it will become either a
template-id annotation (which is a parsed representation of a
template-id that has not yet been through semantic analysis) or a
typename annotation (where semantic analysis has resolved the
template-id to an actual type), depending on the context. We only
produce a type in contexts where we know that we only need type
information, e.g., in a type specifier. Otherwise, we create a
template-id annotation that can later be "upgraded" by transforming it
into a typename annotation when the parser needs a type. This occurs,
for example, when we've parsed "std::vector<int>" above and then see
the '::' after it. However, it means that when writing something like
this:

  template<> class Outer::Inner<int> { ... };

We have two tokens to represent Outer::Inner<int>: one token for the
nested name specifier Outer::, and one template-id annotation token
for Inner<int>, which will be passed to semantic analysis to define
the class template specialization.

Most of the churn in the template tests in this patch come from an
improvement in our error recovery from ill-formed template-ids.

llvm-svn: 65467
2009-02-25 19:37:18 +00:00
Chris Lattner 810d330cd3 Fix a long standard problem with clang retaining "too much" sugar
information about types.  We often print diagnostics where we say 
"foo_t" is bad, but the user doesn't know how foo_t is declared 
(because it is a typedef).  Fix this by expanding sugar when present
in a diagnostic (and not one of a few special cases, like vectors).

Before:
t.m:5:2: error: invalid operands to binary expression ('typeof(P)' and 'typeof(F)')
 MAX(P, F);
 ^~~~~~~~~
t.m:1:78: note: instantiated from:
#define MAX(A,B)    ({ __typeof__(A) __a = (A); __typeof__(B) __b = (B); __a < __b ? __b : __a; })
                                                                             ^

After:
t.m:5:2: error: invalid operands to binary expression ('typeof(P)' (aka 'struct mystruct') and 'typeof(F)' (aka 'float'))
 MAX(P, F);
 ^~~~~~~~~
t.m:1:78: note: instantiated from:
#define MAX(A,B)    ({ __typeof__(A) __a = (A); __typeof__(B) __b = (B); __a < __b ? __b : __a; })
                                                                             ^

llvm-svn: 65081
2009-02-19 23:45:49 +00:00
Douglas Gregor 0f3dd9a86b Provide a proper source location when building an implicit dereference. Fixes PR3600
llvm-svn: 64993
2009-02-19 00:52:42 +00:00
Douglas Gregor 67a6564091 Implement basic parsing and semantic analysis for explicit
specialization of class templates, e.g.,

  template<typename T> class X;

  template<> class X<int> { /* blah */ };

Each specialization is a different *Decl node (naturally), and can
have different members. We keep track of forward declarations and
definitions as for other class/struct/union types.

This is only the basic framework: we still have to deal with checking
the template headers properly, improving recovery when there are
failures, handling nested name specifiers, etc.

llvm-svn: 64848
2009-02-17 23:15:12 +00:00
Douglas Gregor 264ec4f237 Added ClassTemplateSpecializationDecl, which is a subclass of
CXXRecordDecl that is used to represent class template
specializations. These are canonical declarations that can refer to
either an actual class template specialization in the code, e.g.,

  template<> class vector<bool> { };

or to a template instantiation. However, neither of these features is
actually implemented yet, so really we're just using (and uniqing) the
declarations to make sure that, e.g., A<int> is a different type from
A<float>. Note that we carefully distinguish between what the user
wrote in the source code (e.g., "A<FLOAT>") and the semantic entity it
represents (e.g., "A<float, int>"); the former is in the sugared Type,
the latter is an actual Decl.

llvm-svn: 64716
2009-02-17 01:05:43 +00:00
Douglas Gregor ccb0776288 Finished semantic analysis of non-type template arguments, to check
for non-external names whose address becomes the template
argument. This completes C++ [temp.arg.nontype]p1.

Note that our interpretation of C++ [temp.arg.nontype]p1b3 differs
from EDG's interpretation (we're stricter, and GCC agrees with
us). They're opening a core issue about the matter.

llvm-svn: 64317
2009-02-11 19:52:55 +00:00
Douglas Gregor f8f868336e Allow the use of default template arguments when forming a class
template specialization (e.g., std::vector<int> would now be
well-formed, since it relies on a default argument for the Allocator
template parameter). 

This is much less interesting than one might expect, since (1) we're
not actually using the default arguments for anything important, such
as naming an actual Decl, and (2) we'll often need to instantiate the
default arguments to check their well-formedness. The real fun will
come later.

llvm-svn: 64310
2009-02-11 18:16:40 +00:00
Douglas Gregor 0e55853639 Implement semantic checking for template arguments that correspond to
pointer-to-member-data non-type template parameters. Also, get
consistent about what it means to returned a bool from
CheckTemplateArgument.

llvm-svn: 64305
2009-02-11 16:16:59 +00:00
Douglas Gregor 6f233ef1d8 Add semantic checking for template arguments that correspond to
non-type template parameters that are references to functions or
pointers to member functions. Did a little bit of refactoring so that
these two cases, along with the handling of non-type template
parameters that are pointers to functions, are handled by the same
path. 

Also, tweaked FixOverloadedFunctionReference to cope with member
function pointers. This is a necessary step for getting all of the fun
member pointer conversions working outside of template arguments, too.

llvm-svn: 64277
2009-02-11 01:18:59 +00:00
Douglas Gregor a9faa44162 Semantic checking for template arguments that correspond to non-type
template parameters that have reference type. Effectively, we're doing
a very limited form of reference binding here.

llvm-svn: 64270
2009-02-11 00:44:29 +00:00
Douglas Gregor 3a7796bccc Add partial semantic checking of template arguments that are meant for
non-type template parameters of pointer-to-object and
pointer-to-function type. The most fun part of this is the use of
overload resolution to pick a function from the set of overloaded
functions that comes in as a template argument.

Also, fixed two minor bugs in this area:
  - We were allowing non-type template parameters of type pointer to
  void.
  - We weren't patching up an expression that refers to an overloaded
  function set via "&f" properly.

We're still not performing complete checking of the expression to be
sure that it is referring to an object or function with external
linkage (C++ [temp.arg.nontype]p1).

llvm-svn: 64266
2009-02-11 00:19:33 +00:00
Douglas Gregor 86560404fc Add type-checking and implicit conversions for template parameters of
integral or enumeration type.

llvm-svn: 64256
2009-02-10 23:36:10 +00:00
Douglas Gregor 85e8b3eeed Fix a problem with bogus template shadowing warnings
llvm-svn: 64230
2009-02-10 19:52:54 +00:00
Douglas Gregor dba326363c Implement parsing, semantic analysis and ASTs for default template
arguments. This commit covers checking and merging default template
arguments from previous declarations, but it does not cover the actual
use of default template arguments when naming class template
specializations.

llvm-svn: 64229
2009-02-10 19:49:53 +00:00
Douglas Gregor 8133879c5e Semantic analysis for non-type template parameter declarations.
llvm-svn: 64223
2009-02-10 17:43:50 +00:00
Douglas Gregor 97f34576d4 Teach the type-id/expression disambiguator about different
disambiguation contexts, so that we properly parse template arguments
such as

  A<int()>

as type-ids rather than as expressions. Since this can be confusing
(especially when the template parameter is a non-type template
parameter), we try to give a friendly error message.

Almost, eliminate a redundant error message (that should have been a
note) and add some ultra-basic checks for non-type template
arguments.

llvm-svn: 64189
2009-02-10 00:53:15 +00:00
Douglas Gregor 85e0f66250 Check template template arguments against their corresponding template
template parameters.

llvm-svn: 64188
2009-02-10 00:24:35 +00:00
Douglas Gregor d32e028f79 Rudimentary checking of template arguments against their corresponding
template parameters when performing semantic analysis of a template-id
naming a class template specialization.

llvm-svn: 64185
2009-02-09 23:23:08 +00:00
Douglas Gregor 8bf4205c70 Start processing template-ids as types when the template-name refers
to a class template. For example, the template-id 'vector<int>' now
has a nice, sugary type in the type system. What we can do now:

  - Parse template-ids like 'vector<int>' (where 'vector' names a
    class template) and form proper types for them in the type system.
  - Parse icky template-ids like 'A<5>' and 'A<(5 > 0)>' properly,
    using (sadly) a bool in the parser to tell it whether '>' should
    be treated as an operator or not.

This is a baby-step, with major problems and limitations:
  - There are currently two ways that we handle template arguments
  (whether they are types or expressions). These will be merged, and,
  most likely, TemplateArg will disappear.
  - We don't have any notion of the declaration of class template
  specializations or of template instantiations, so all template-ids
  are fancy names for 'int' :)

llvm-svn: 64153
2009-02-09 18:46:07 +00:00
Douglas Gregor cd72ba97e7 Semantic checking for class template declarations and
redeclarations. For example, checks that a class template
redeclaration has the same template parameters as previous
declarations.

Detangled class-template checking from ActOnTag, whose logic was
getting rather convoluted because it tried to handle C, C++, and C++
template semantics in one shot.

Made some inroads toward eliminating extraneous "declaration does not
declare anything" errors by adding an "error" type specifier.

llvm-svn: 63973
2009-02-06 22:42:48 +00:00