Flag 32-bit vector types as only requiring 32-bit alignment (preemptive
bug fix for 32xi1 vectors).
Force module datalayouts to be the same before linking them to silence
an LLVM warning.
Finishes issue #309.
This allows adding types to the list that are included in the automatically-generated
header files.
struct Foo { . . . };
struct Bar { . . . };
export { Foo, Bar };
We now have a set of template functions CastType<AtomicType>, etc., that in
turn use a new typeId field in each Type instance, allowing them to be inlined
and to be quite efficient.
This improves front-end performance for a particular large program by 28%.
Before, if the function was declared before being defined, then the symbol's
SourcePos would be left set to the position of the declaration. This ended
up getting the debugging symbols mixed up in this case, which was undesirable.
Debugging information for functions that are inlined or static and
not used still hangs around after compilation; now we go through the
debugging info and remove the entries for any DISubprograms that
don't have their original functions left in the Module after
optimization.
Now a declaration like 'struct Foo;' can be used to establish the
name of a struct type, without providing a definition. One can
pass pointers to such types around the system, but can't do much
else with them (as in C/C++).
Issue #125.
The decl.* code now no longer interacts with Symbols, but just returns
names, types, initializer expressions, etc., as needed. This makes the
code a bit more understandable.
Fixes issues #171 and #130.
When reporting that a function has illegally been overloaded only
by return type, include "task", "export", and "extern "C"", as appropriate
in the error message to make clear what the issue is.
Finishes issue #216.
This actually wasn't a good idea, since we'd like ispc programs to be able to
have varying globals that it uses internally among ispc code, without having
errors about varying globals when generating headers.
Issue #214.
When we have an "extern" global, now we no longer inadvertently define
storage for it. Further, we now successfully do define storage when we
encounter a definition following one or more extern declarations.
Issues #215 and #217.
Rather than explicitly building a DAG and doing a topological sort,
just traverse structs recursively and emit declarations for all of
their dependent structs before emitting the original struct declaration.
Not only is this simpler than the previous implementation, but it
fixes a bug where we'd hit an assert if we had a struct with multiple
contained members of another struct type.
In short, we inadvertently weren't checking whether pointers themselves
were varying, which in turn led to an assertion later if an exported
function did have a varying parameter.
Issue #187.
There's now a SOA variability class (in addition to uniform,
varying, and unbound variability); the SOA factor must be a
positive power of 2.
When applied to a type, the leaf elements of the type (i.e.
atomic types, pointer types, and enum types) are widened out
into arrays of the given SOA factor. For example, given
struct Point { float x, y, z; };
Then "soa<8> Point" has a memory layout of "float x[8], y[8],
z[8]".
Furthermore, array indexing syntax has been augmented so that
when indexing into arrays of SOA-variability data, the two-stage
indexing (first into the array of soa<> elements and then into
the leaf arrays of SOA data) is performed automatically.
Previously, we uniqued AtomicTypes, so that they could be compared
by pointer equality, but with forthcoming SOA variability changes,
this would become too unwieldy (lacking a more general / ubiquitous
type uniquing implementation.)
Now, if a struct member has an explicit 'uniform' or 'varying'
qualifier, then that member has that variability, regardless of
the variability of the struct's variability. Members without
'uniform' or 'varying' have unbound variability, and in turn
inherit the variability of the struct.
As a result of this, now structs can properly be 'varying' by default,
just like all the other types, while still having sensible semantics.
Add a number of additional error cases in the grammar.
Enable bison's extended error reporting, to get better messages about the
context of errors and the expected (but not found) tokens at errors.
Improve the printing of these by providing an implementation of yytnamerr
that rewrites things like "TOKEN_MUL_ASSIGN" to "*=" in error messages.
Print the source location (using Error() when yyerror() is called; wiring
this up seems to require no longer building a 'pure parser' but having
yylloc as a global, which in turn led to having to update all of the uses of
it (which previously accessed it as a pointer).
Updated a number of tests_errors for resulting changesin error text.
Don't let the preprocessor remove comments anymore, so that the rules
in lex.ll can handle them. Fix lCComment() to update the source
position as it eats characters in comments.
