2 * Copyright 2011 Leiden University. All rights reserved.
3 * Copyright 2012-2014 Ecole Normale Superieure. All rights reserved.
5 * Redistribution and use in source and binary forms, with or without
6 * modification, are permitted provided that the following conditions
9 * 1. Redistributions of source code must retain the above copyright
10 * notice, this list of conditions and the following disclaimer.
12 * 2. Redistributions in binary form must reproduce the above
13 * copyright notice, this list of conditions and the following
14 * disclaimer in the documentation and/or other materials provided
15 * with the distribution.
17 * THIS SOFTWARE IS PROVIDED BY LEIDEN UNIVERSITY ''AS IS'' AND ANY
18 * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
19 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
20 * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL LEIDEN UNIVERSITY OR
21 * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
22 * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
23 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA,
24 * OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
25 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
26 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
27 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
29 * The views and conclusions contained in the software and documentation
30 * are those of the authors and should not be interpreted as
31 * representing official policies, either expressed or implied, of
41 #ifdef HAVE_ADT_OWNINGPTR_H
42 #include <llvm/ADT/OwningPtr.h>
46 #include <llvm/Support/raw_ostream.h>
47 #include <llvm/Support/ManagedStatic.h>
48 #include <llvm/Support/Host.h>
49 #include <clang/Basic/Version.h>
50 #include <clang/Basic/FileSystemOptions.h>
51 #include <clang/Basic/FileManager.h>
52 #include <clang/Basic/TargetOptions.h>
53 #include <clang/Basic/TargetInfo.h>
54 #include <clang/Driver/Compilation.h>
55 #include <clang/Driver/Driver.h>
56 #include <clang/Driver/Tool.h>
57 #include <clang/Frontend/CompilerInstance.h>
58 #include <clang/Frontend/CompilerInvocation.h>
59 #ifdef HAVE_BASIC_DIAGNOSTICOPTIONS_H
60 #include <clang/Basic/DiagnosticOptions.h>
62 #include <clang/Frontend/DiagnosticOptions.h>
64 #include <clang/Frontend/TextDiagnosticPrinter.h>
65 #ifdef HAVE_LEX_HEADERSEARCHOPTIONS_H
66 #include <clang/Lex/HeaderSearchOptions.h>
68 #include <clang/Frontend/HeaderSearchOptions.h>
70 #include <clang/Frontend/LangStandard.h>
71 #ifdef HAVE_LEX_PREPROCESSOROPTIONS_H
72 #include <clang/Lex/PreprocessorOptions.h>
74 #include <clang/Frontend/PreprocessorOptions.h>
76 #include <clang/Frontend/FrontendOptions.h>
77 #include <clang/Frontend/Utils.h>
78 #include <clang/Lex/HeaderSearch.h>
79 #include <clang/Lex/Preprocessor.h>
80 #include <clang/Lex/Pragma.h>
81 #include <clang/AST/ASTContext.h>
82 #include <clang/AST/ASTConsumer.h>
83 #include <clang/Sema/Sema.h>
84 #include <clang/Sema/SemaDiagnostic.h>
85 #include <clang/Parse/Parser.h>
86 #include <clang/Parse/ParseAST.h>
89 #include <isl/constraint.h>
98 #define ARRAY_SIZE(array) (sizeof(array)/sizeof(*array))
101 using namespace clang
;
102 using namespace clang::driver
;
104 #ifdef HAVE_ADT_OWNINGPTR_H
105 #define unique_ptr llvm::OwningPtr
108 /* Called if we found something we didn't expect in one of the pragmas.
109 * We'll provide more informative warnings later.
111 static void unsupported(Preprocessor
&PP
, SourceLocation loc
)
113 DiagnosticsEngine
&diag
= PP
.getDiagnostics();
114 unsigned id
= diag
.getCustomDiagID(DiagnosticsEngine::Warning
,
116 DiagnosticBuilder B
= diag
.Report(loc
, id
);
119 static int get_int(const char *s
)
121 return s
[0] == '"' ? atoi(s
+ 1) : atoi(s
);
124 static ValueDecl
*get_value_decl(Sema
&sema
, Token
&token
)
126 IdentifierInfo
*name
;
129 if (token
.isNot(tok::identifier
))
132 name
= token
.getIdentifierInfo();
133 decl
= sema
.LookupSingleName(sema
.TUScope
, name
,
134 token
.getLocation(), Sema::LookupOrdinaryName
);
135 return decl
? cast_or_null
<ValueDecl
>(decl
) : NULL
;
138 /* Handle pragmas of the form
140 * #pragma value_bounds identifier lower_bound upper_bound
142 * For each such pragma, add a mapping
143 * { identifier[] -> [i] : lower_bound <= i <= upper_bound }
146 struct PragmaValueBoundsHandler
: public PragmaHandler
{
149 isl_union_map
*value_bounds
;
151 PragmaValueBoundsHandler(isl_ctx
*ctx
, Sema
&sema
) :
152 PragmaHandler("value_bounds"), ctx(ctx
), sema(sema
) {
153 isl_space
*space
= isl_space_params_alloc(ctx
, 0);
154 value_bounds
= isl_union_map_empty(space
);
157 ~PragmaValueBoundsHandler() {
158 isl_union_map_free(value_bounds
);
161 virtual void HandlePragma(Preprocessor
&PP
,
162 PragmaIntroducerKind Introducer
,
173 vd
= get_value_decl(sema
, token
);
175 unsupported(PP
, token
.getLocation());
180 if (!token
.isLiteral()) {
181 unsupported(PP
, token
.getLocation());
185 lb
= get_int(token
.getLiteralData());
188 if (!token
.isLiteral()) {
189 unsupported(PP
, token
.getLocation());
193 ub
= get_int(token
.getLiteralData());
195 dim
= isl_space_alloc(ctx
, 0, 0, 1);
196 map
= isl_map_universe(dim
);
197 map
= isl_map_lower_bound_si(map
, isl_dim_out
, 0, lb
);
198 map
= isl_map_upper_bound_si(map
, isl_dim_out
, 0, ub
);
199 id
= isl_id_alloc(ctx
, vd
->getName().str().c_str(), vd
);
200 map
= isl_map_set_tuple_id(map
, isl_dim_in
, id
);
202 value_bounds
= isl_union_map_add_map(value_bounds
, map
);
206 /* Given a variable declaration, check if it has an integer initializer
207 * and if so, add a parameter corresponding to the variable to "value"
208 * with its value fixed to the integer initializer and return the result.
210 static __isl_give isl_set
*extract_initialization(__isl_take isl_set
*value
,
222 vd
= cast
<VarDecl
>(decl
);
225 if (!vd
->getType()->isIntegerType())
227 expr
= vd
->getInit();
230 il
= cast
<IntegerLiteral
>(expr
);
234 ctx
= isl_set_get_ctx(value
);
235 id
= isl_id_alloc(ctx
, vd
->getName().str().c_str(), vd
);
236 space
= isl_space_params_alloc(ctx
, 1);
237 space
= isl_space_set_dim_id(space
, isl_dim_param
, 0, id
);
238 set
= isl_set_universe(space
);
240 v
= PetScan::extract_int(ctx
, il
);
241 set
= isl_set_fix_val(set
, isl_dim_param
, 0, v
);
243 return isl_set_intersect(value
, set
);
246 /* Handle pragmas of the form
248 * #pragma parameter identifier lower_bound
250 * #pragma parameter identifier lower_bound upper_bound
252 * For each such pragma, intersect the context with the set
253 * [identifier] -> { [] : lower_bound <= identifier <= upper_bound }
255 struct PragmaParameterHandler
: public PragmaHandler
{
258 isl_set
*&context_value
;
260 PragmaParameterHandler(Sema
&sema
, isl_set
*&context
,
261 isl_set
*&context_value
) :
262 PragmaHandler("parameter"), sema(sema
), context(context
),
263 context_value(context_value
) {}
265 virtual void HandlePragma(Preprocessor
&PP
,
266 PragmaIntroducerKind Introducer
,
269 isl_ctx
*ctx
= isl_set_get_ctx(context
);
279 vd
= get_value_decl(sema
, token
);
281 unsupported(PP
, token
.getLocation());
286 if (!token
.isLiteral()) {
287 unsupported(PP
, token
.getLocation());
291 lb
= get_int(token
.getLiteralData());
294 if (token
.isLiteral()) {
296 ub
= get_int(token
.getLiteralData());
297 } else if (token
.isNot(tok::eod
)) {
298 unsupported(PP
, token
.getLocation());
302 id
= isl_id_alloc(ctx
, vd
->getName().str().c_str(), vd
);
303 dim
= isl_space_params_alloc(ctx
, 1);
304 dim
= isl_space_set_dim_id(dim
, isl_dim_param
, 0, id
);
306 set
= isl_set_universe(dim
);
308 set
= isl_set_lower_bound_si(set
, isl_dim_param
, 0, lb
);
310 set
= isl_set_upper_bound_si(set
, isl_dim_param
, 0, ub
);
312 context
= isl_set_intersect(context
, set
);
314 context_value
= extract_initialization(context_value
, vd
);
318 /* Handle pragmas of the form
320 * #pragma pencil independent
322 * For each such pragma, add an entry to the "independent" vector.
324 struct PragmaPencilHandler
: public PragmaHandler
{
325 std::vector
<Independent
> &independent
;
327 PragmaPencilHandler(std::vector
<Independent
> &independent
) :
328 PragmaHandler("pencil"), independent(independent
) {}
330 virtual void HandlePragma(Preprocessor
&PP
,
331 PragmaIntroducerKind Introducer
,
334 IdentifierInfo
*info
;
337 if (token
.isNot(tok::identifier
))
340 info
= token
.getIdentifierInfo();
341 if (!info
->isStr("independent"))
345 if (token
.isNot(tok::eod
))
348 SourceManager
&SM
= PP
.getSourceManager();
349 SourceLocation sloc
= PencilTok
.getLocation();
350 unsigned line
= SM
.getExpansionLineNumber(sloc
);
351 independent
.push_back(Independent(line
));
355 #ifdef HAVE_TRANSLATELINECOL
357 /* Return a SourceLocation for line "line", column "col" of file "FID".
359 SourceLocation
translateLineCol(SourceManager
&SM
, FileID FID
, unsigned line
,
362 return SM
.translateLineCol(FID
, line
, col
);
367 /* Return a SourceLocation for line "line", column "col" of file "FID".
369 SourceLocation
translateLineCol(SourceManager
&SM
, FileID FID
, unsigned line
,
372 return SM
.getLocation(SM
.getFileEntryForID(FID
), line
, col
);
377 /* List of pairs of #pragma scop and #pragma endscop locations.
380 std::vector
<ScopLoc
> list
;
382 /* Add a new start (#pragma scop) location to the list.
383 * If the last #pragma scop did not have a matching
384 * #pragma endscop then overwrite it.
386 void add_start(unsigned line
, unsigned start
) {
389 loc
.start_line
= line
;
391 if (list
.size() == 0 || list
[list
.size() - 1].end
!= 0)
394 list
[list
.size() - 1] = loc
;
397 /* Set the end location (#pragma endscop) of the last pair
399 * If there is no such pair of if the end of that pair
400 * is already set, then ignore the spurious #pragma endscop.
402 void add_end(unsigned end
) {
403 if (list
.size() == 0 || list
[list
.size() - 1].end
!= 0)
405 list
[list
.size() - 1].end
= end
;
409 /* Handle pragmas of the form
413 * In particular, store the location of the line containing
414 * the pragma in the list "scops".
416 struct PragmaScopHandler
: public PragmaHandler
{
419 PragmaScopHandler(ScopLocList
&scops
) :
420 PragmaHandler("scop"), scops(scops
) {}
422 virtual void HandlePragma(Preprocessor
&PP
,
423 PragmaIntroducerKind Introducer
,
425 SourceManager
&SM
= PP
.getSourceManager();
426 SourceLocation sloc
= ScopTok
.getLocation();
427 int line
= SM
.getExpansionLineNumber(sloc
);
428 sloc
= translateLineCol(SM
, SM
.getFileID(sloc
), line
, 1);
429 scops
.add_start(line
, SM
.getFileOffset(sloc
));
433 /* Handle pragmas of the form
437 * In particular, store the location of the line following the one containing
438 * the pragma in the list "scops".
440 struct PragmaEndScopHandler
: public PragmaHandler
{
443 PragmaEndScopHandler(ScopLocList
&scops
) :
444 PragmaHandler("endscop"), scops(scops
) {}
446 virtual void HandlePragma(Preprocessor
&PP
,
447 PragmaIntroducerKind Introducer
,
449 SourceManager
&SM
= PP
.getSourceManager();
450 SourceLocation sloc
= EndScopTok
.getLocation();
451 int line
= SM
.getExpansionLineNumber(sloc
);
452 sloc
= translateLineCol(SM
, SM
.getFileID(sloc
), line
+ 1, 1);
453 scops
.add_end(SM
.getFileOffset(sloc
));
457 /* Handle pragmas of the form
459 * #pragma live-out identifier, identifier, ...
461 * Each identifier on the line is stored in live_out.
463 struct PragmaLiveOutHandler
: public PragmaHandler
{
465 set
<ValueDecl
*> &live_out
;
467 PragmaLiveOutHandler(Sema
&sema
, set
<ValueDecl
*> &live_out
) :
468 PragmaHandler("live"), sema(sema
), live_out(live_out
) {}
470 virtual void HandlePragma(Preprocessor
&PP
,
471 PragmaIntroducerKind Introducer
,
476 if (token
.isNot(tok::minus
))
479 if (token
.isNot(tok::identifier
) ||
480 !token
.getIdentifierInfo()->isStr("out"))
484 while (token
.isNot(tok::eod
)) {
487 vd
= get_value_decl(sema
, token
);
489 unsupported(PP
, token
.getLocation());
494 if (token
.is(tok::comma
))
500 /* For each array in "scop", set its value_bounds property
501 * based on the information in "value_bounds" and
502 * mark it as live_out if it appears in "live_out".
504 static void update_arrays(struct pet_scop
*scop
,
505 __isl_take isl_union_map
*value_bounds
, set
<ValueDecl
*> &live_out
)
507 set
<ValueDecl
*>::iterator lo_it
;
508 isl_ctx
*ctx
= isl_union_map_get_ctx(value_bounds
);
511 isl_union_map_free(value_bounds
);
515 for (int i
= 0; i
< scop
->n_array
; ++i
) {
520 pet_array
*array
= scop
->arrays
[i
];
522 id
= isl_set_get_tuple_id(array
->extent
);
523 decl
= pet_id_get_decl(id
);
525 space
= isl_space_alloc(ctx
, 0, 0, 1);
526 space
= isl_space_set_tuple_id(space
, isl_dim_in
, id
);
528 bounds
= isl_union_map_extract_map(value_bounds
, space
);
529 if (!isl_map_plain_is_empty(bounds
))
530 array
->value_bounds
= isl_map_range(bounds
);
532 isl_map_free(bounds
);
534 lo_it
= live_out
.find(decl
);
535 if (lo_it
!= live_out
.end())
539 isl_union_map_free(value_bounds
);
542 /* Extract a pet_scop (if any) from each appropriate function.
543 * Each detected scop is passed to "fn".
544 * When autodetecting, at most one scop is extracted from each function.
545 * If "function" is not NULL, then we only extract a pet_scop if the
546 * name of the function matches.
547 * If "autodetect" is false, then we only extract if we have seen
548 * scop and endscop pragmas and if these are situated inside the function
551 struct PetASTConsumer
: public ASTConsumer
{
553 ASTContext
&ast_context
;
554 DiagnosticsEngine
&diags
;
556 std::vector
<Independent
> independent
;
557 const char *function
;
558 pet_options
*options
;
561 isl_set
*context_value
;
562 set
<ValueDecl
*> live_out
;
563 PragmaValueBoundsHandler
*vb_handler
;
564 int (*fn
)(struct pet_scop
*scop
, void *user
);
568 PetASTConsumer(isl_ctx
*ctx
, Preprocessor
&PP
, ASTContext
&ast_context
,
569 DiagnosticsEngine
&diags
, ScopLocList
&scops
,
570 const char *function
, pet_options
*options
,
571 int (*fn
)(struct pet_scop
*scop
, void *user
), void *user
) :
572 ctx(ctx
), PP(PP
), ast_context(ast_context
), diags(diags
),
573 scops(scops
), function(function
), options(options
),
574 vb_handler(NULL
), fn(fn
), user(user
), error(false)
577 space
= isl_space_params_alloc(ctx
, 0);
578 context
= isl_set_universe(isl_space_copy(space
));
579 context_value
= isl_set_universe(space
);
583 isl_set_free(context
);
584 isl_set_free(context_value
);
587 void handle_value_bounds(Sema
*sema
) {
588 vb_handler
= new PragmaValueBoundsHandler(ctx
, *sema
);
589 PP
.AddPragmaHandler(vb_handler
);
592 /* Add all pragma handlers to this->PP.
593 * The pencil pragmas are only handled if the pencil option is set.
595 void add_pragma_handlers(Sema
*sema
) {
596 PP
.AddPragmaHandler(new PragmaParameterHandler(*sema
, context
,
598 if (options
->pencil
) {
600 PH
= new PragmaPencilHandler(independent
);
601 PP
.AddPragmaHandler(PH
);
603 handle_value_bounds(sema
);
606 __isl_give isl_union_map
*get_value_bounds() {
607 return isl_union_map_copy(vb_handler
->value_bounds
);
610 /* Pass "scop" to "fn" after performing some postprocessing.
611 * In particular, add the context and value_bounds constraints
612 * speficied through pragmas, add reference identifiers and
613 * reset user pointers on parameters and tuple ids.
615 * If "scop" does not contain any statements and autodetect
616 * is turned on, then skip it.
618 void call_fn(pet_scop
*scop
) {
621 if (diags
.hasErrorOccurred()) {
625 if (options
->autodetect
&& scop
->n_stmt
== 0) {
629 scop
->context
= isl_set_intersect(scop
->context
,
630 isl_set_copy(context
));
631 scop
->context_value
= isl_set_intersect(scop
->context_value
,
632 isl_set_copy(context_value
));
634 update_arrays(scop
, get_value_bounds(), live_out
);
636 scop
= pet_scop_add_ref_ids(scop
);
637 scop
= pet_scop_anonymize(scop
);
639 if (fn(scop
, user
) < 0)
643 /* For each explicitly marked scop (using pragmas),
644 * extract the scop and call "fn" on it if it is inside "fd".
646 void scan_scops(FunctionDecl
*fd
) {
648 vector
<ScopLoc
>::iterator it
;
649 isl_union_map
*vb
= vb_handler
->value_bounds
;
650 SourceManager
&SM
= PP
.getSourceManager();
653 if (scops
.list
.size() == 0)
656 start
= SM
.getFileOffset(fd
->getLocStart());
657 end
= SM
.getFileOffset(fd
->getLocEnd());
659 for (it
= scops
.list
.begin(); it
!= scops
.list
.end(); ++it
) {
667 PetScan
ps(PP
, ast_context
, fd
, loc
, options
,
668 isl_union_map_copy(vb
), independent
);
674 virtual HandleTopLevelDeclReturn
HandleTopLevelDecl(DeclGroupRef dg
) {
675 DeclGroupRef::iterator it
;
678 return HandleTopLevelDeclContinue
;
680 for (it
= dg
.begin(); it
!= dg
.end(); ++it
) {
681 isl_union_map
*vb
= vb_handler
->value_bounds
;
682 FunctionDecl
*fd
= dyn_cast
<clang::FunctionDecl
>(*it
);
688 fd
->getNameInfo().getAsString() != function
)
690 if (options
->autodetect
) {
693 PetScan
ps(PP
, ast_context
, fd
, loc
, options
,
694 isl_union_map_copy(vb
),
703 return HandleTopLevelDeclContinue
;
707 static const char *ResourceDir
=
708 CLANG_PREFIX
"/lib/clang/" CLANG_VERSION_STRING
;
710 static const char *implicit_functions
[] = {
711 "min", "max", "intMod", "intCeil", "intFloor", "ceild", "floord"
713 static const char *pencil_implicit_functions
[] = {
714 "imin", "umin", "imax", "umax", "__pencil_kill"
717 /* Should "ident" be treated as an implicit function?
718 * If "pencil" is set, then also allow pencil specific builtins.
720 static bool is_implicit(const IdentifierInfo
*ident
, int pencil
)
722 const char *name
= ident
->getNameStart();
723 for (int i
= 0; i
< ARRAY_SIZE(implicit_functions
); ++i
)
724 if (!strcmp(name
, implicit_functions
[i
]))
728 for (int i
= 0; i
< ARRAY_SIZE(pencil_implicit_functions
); ++i
)
729 if (!strcmp(name
, pencil_implicit_functions
[i
]))
734 /* Ignore implicit function declaration warnings on
735 * "min", "max", "ceild" and "floord" as we detect and handle these
737 * If "pencil" is set, then also ignore them on pencil specific
740 struct MyDiagnosticPrinter
: public TextDiagnosticPrinter
{
741 const DiagnosticOptions
*DiagOpts
;
743 #ifdef HAVE_BASIC_DIAGNOSTICOPTIONS_H
744 MyDiagnosticPrinter(DiagnosticOptions
*DO
, int pencil
) :
745 TextDiagnosticPrinter(llvm::errs(), DO
), pencil(pencil
) {}
746 virtual DiagnosticConsumer
*clone(DiagnosticsEngine
&Diags
) const {
747 return new MyDiagnosticPrinter(&Diags
.getDiagnosticOptions(),
751 MyDiagnosticPrinter(const DiagnosticOptions
&DO
, int pencil
) :
752 DiagOpts(&DO
), TextDiagnosticPrinter(llvm::errs(), DO
),
754 virtual DiagnosticConsumer
*clone(DiagnosticsEngine
&Diags
) const {
755 return new MyDiagnosticPrinter(*DiagOpts
, pencil
);
758 virtual void HandleDiagnostic(DiagnosticsEngine::Level level
,
759 const DiagnosticInfo
&info
) {
760 if (info
.getID() == diag::ext_implicit_function_decl
&&
761 info
.getNumArgs() == 1 &&
762 info
.getArgKind(0) == DiagnosticsEngine::ak_identifierinfo
&&
763 is_implicit(info
.getArgIdentifier(0), pencil
))
764 /* ignore warning */;
766 TextDiagnosticPrinter::HandleDiagnostic(level
, info
);
772 #ifdef HAVE_CXXISPRODUCTION
773 static Driver
*construct_driver(const char *binary
, DiagnosticsEngine
&Diags
)
775 return new Driver(binary
, llvm::sys::getDefaultTargetTriple(),
776 "", false, false, Diags
);
778 #elif defined(HAVE_ISPRODUCTION)
779 static Driver
*construct_driver(const char *binary
, DiagnosticsEngine
&Diags
)
781 return new Driver(binary
, llvm::sys::getDefaultTargetTriple(),
784 #elif defined(DRIVER_CTOR_TAKES_DEFAULTIMAGENAME)
785 static Driver
*construct_driver(const char *binary
, DiagnosticsEngine
&Diags
)
787 return new Driver(binary
, llvm::sys::getDefaultTargetTriple(),
791 static Driver
*construct_driver(const char *binary
, DiagnosticsEngine
&Diags
)
793 return new Driver(binary
, llvm::sys::getDefaultTargetTriple(), Diags
);
797 namespace clang
{ namespace driver
{ class Job
; } }
799 /* Clang changed its API from 3.5 to 3.6 and once more in 3.7.
800 * We fix this with a simple overloaded function here.
803 static Job
*command(Job
*J
) { return J
; }
804 static Job
*command(Job
&J
) { return &J
; }
805 static Command
*command(Command
&C
) { return &C
; }
808 /* Create a CompilerInvocation object that stores the command line
809 * arguments constructed by the driver.
810 * The arguments are mainly useful for setting up the system include
811 * paths on newer clangs and on some platforms.
813 static CompilerInvocation
*construct_invocation(const char *filename
,
814 DiagnosticsEngine
&Diags
)
816 const char *binary
= CLANG_PREFIX
"/bin/clang";
817 const unique_ptr
<Driver
> driver(construct_driver(binary
, Diags
));
818 std::vector
<const char *> Argv
;
819 Argv
.push_back(binary
);
820 Argv
.push_back(filename
);
821 const unique_ptr
<Compilation
> compilation(
822 driver
->BuildCompilation(llvm::ArrayRef
<const char *>(Argv
)));
823 JobList
&Jobs
= compilation
->getJobs();
827 Command
*cmd
= cast
<Command
>(ClangAPI::command(*Jobs
.begin()));
828 if (strcmp(cmd
->getCreator().getName(), "clang"))
831 const ArgStringList
*args
= &cmd
->getArguments();
833 CompilerInvocation
*invocation
= new CompilerInvocation
;
834 CompilerInvocation::CreateFromArgs(*invocation
, args
->data() + 1,
835 args
->data() + args
->size(),
842 static CompilerInvocation
*construct_invocation(const char *filename
,
843 DiagnosticsEngine
&Diags
)
850 #ifdef HAVE_BASIC_DIAGNOSTICOPTIONS_H
852 static MyDiagnosticPrinter
*construct_printer(CompilerInstance
*Clang
,
855 return new MyDiagnosticPrinter(new DiagnosticOptions(), pencil
);
860 static MyDiagnosticPrinter
*construct_printer(CompilerInstance
*Clang
,
863 return new MyDiagnosticPrinter(Clang
->getDiagnosticOpts(), pencil
);
868 #ifdef CREATETARGETINFO_TAKES_SHARED_PTR
870 static TargetInfo
*create_target_info(CompilerInstance
*Clang
,
871 DiagnosticsEngine
&Diags
)
873 shared_ptr
<TargetOptions
> TO
= Clang
->getInvocation().TargetOpts
;
874 TO
->Triple
= llvm::sys::getDefaultTargetTriple();
875 return TargetInfo::CreateTargetInfo(Diags
, TO
);
878 #elif defined(CREATETARGETINFO_TAKES_POINTER)
880 static TargetInfo
*create_target_info(CompilerInstance
*Clang
,
881 DiagnosticsEngine
&Diags
)
883 TargetOptions
&TO
= Clang
->getTargetOpts();
884 TO
.Triple
= llvm::sys::getDefaultTargetTriple();
885 return TargetInfo::CreateTargetInfo(Diags
, &TO
);
890 static TargetInfo
*create_target_info(CompilerInstance
*Clang
,
891 DiagnosticsEngine
&Diags
)
893 TargetOptions
&TO
= Clang
->getTargetOpts();
894 TO
.Triple
= llvm::sys::getDefaultTargetTriple();
895 return TargetInfo::CreateTargetInfo(Diags
, TO
);
900 #ifdef CREATEDIAGNOSTICS_TAKES_ARG
902 static void create_diagnostics(CompilerInstance
*Clang
)
904 Clang
->createDiagnostics(0, NULL
);
909 static void create_diagnostics(CompilerInstance
*Clang
)
911 Clang
->createDiagnostics();
916 #ifdef CREATEPREPROCESSOR_TAKES_TUKIND
918 static void create_preprocessor(CompilerInstance
*Clang
)
920 Clang
->createPreprocessor(TU_Complete
);
925 static void create_preprocessor(CompilerInstance
*Clang
)
927 Clang
->createPreprocessor();
932 #ifdef ADDPATH_TAKES_4_ARGUMENTS
934 void add_path(HeaderSearchOptions
&HSO
, string Path
)
936 HSO
.AddPath(Path
, frontend::Angled
, false, false);
941 void add_path(HeaderSearchOptions
&HSO
, string Path
)
943 HSO
.AddPath(Path
, frontend::Angled
, true, false, false);
948 #ifdef HAVE_SETMAINFILEID
950 static void create_main_file_id(SourceManager
&SM
, const FileEntry
*file
)
952 SM
.setMainFileID(SM
.createFileID(file
, SourceLocation(),
958 static void create_main_file_id(SourceManager
&SM
, const FileEntry
*file
)
960 SM
.createMainFileID(file
);
965 /* Add pet specific predefines to the preprocessor.
966 * Currently, these are all pencil specific, so they are only
967 * added if "pencil" is set.
969 * We mimic the way <command line> is handled inside clang.
971 void add_predefines(Preprocessor
&PP
, int pencil
)
978 s
= PP
.getPredefines();
979 s
+= "# 1 \"<pet>\" 1\n"
980 "void __pencil_assume(int assumption);\n"
981 "#define pencil_access(f) annotate(\"pencil_access(\" #f \")\")\n"
982 "# 1 \"<built-in>\" 2\n";
986 /* Extract a pet_scop from each function in the C source file called "filename".
987 * Each detected scop is passed to "fn".
988 * If "function" is not NULL, only extract a pet_scop from the function
990 * If "autodetect" is set, extract any pet_scop we can find.
991 * Otherwise, extract the pet_scop from the region delimited
992 * by "scop" and "endscop" pragmas.
994 * We first set up the clang parser and then try to extract the
995 * pet_scop from the appropriate function(s) in PetASTConsumer.
997 static int foreach_scop_in_C_source(isl_ctx
*ctx
,
998 const char *filename
, const char *function
, pet_options
*options
,
999 int (*fn
)(struct pet_scop
*scop
, void *user
), void *user
)
1001 CompilerInstance
*Clang
= new CompilerInstance();
1002 create_diagnostics(Clang
);
1003 DiagnosticsEngine
&Diags
= Clang
->getDiagnostics();
1004 Diags
.setSuppressSystemWarnings(true);
1005 CompilerInvocation
*invocation
= construct_invocation(filename
, Diags
);
1007 Clang
->setInvocation(invocation
);
1008 Diags
.setClient(construct_printer(Clang
, options
->pencil
));
1009 Clang
->createFileManager();
1010 Clang
->createSourceManager(Clang
->getFileManager());
1011 TargetInfo
*target
= create_target_info(Clang
, Diags
);
1012 Clang
->setTarget(target
);
1013 CompilerInvocation::setLangDefaults(Clang
->getLangOpts(), IK_C
,
1014 LangStandard::lang_unspecified
);
1015 HeaderSearchOptions
&HSO
= Clang
->getHeaderSearchOpts();
1016 HSO
.ResourceDir
= ResourceDir
;
1017 for (int i
= 0; i
< options
->n_path
; ++i
)
1018 add_path(HSO
, options
->paths
[i
]);
1019 PreprocessorOptions
&PO
= Clang
->getPreprocessorOpts();
1020 for (int i
= 0; i
< options
->n_define
; ++i
)
1021 PO
.addMacroDef(options
->defines
[i
]);
1022 create_preprocessor(Clang
);
1023 Preprocessor
&PP
= Clang
->getPreprocessor();
1024 add_predefines(PP
, options
->pencil
);
1025 PP
.getBuiltinInfo().initializeBuiltins(PP
.getIdentifierTable(),
1030 const FileEntry
*file
= Clang
->getFileManager().getFile(filename
);
1032 isl_die(ctx
, isl_error_unknown
, "unable to open file",
1033 do { delete Clang
; return -1; } while (0));
1034 create_main_file_id(Clang
->getSourceManager(), file
);
1036 Clang
->createASTContext();
1037 PetASTConsumer
consumer(ctx
, PP
, Clang
->getASTContext(), Diags
,
1038 scops
, function
, options
, fn
, user
);
1039 Sema
*sema
= new Sema(PP
, Clang
->getASTContext(), consumer
);
1041 if (!options
->autodetect
) {
1042 PP
.AddPragmaHandler(new PragmaScopHandler(scops
));
1043 PP
.AddPragmaHandler(new PragmaEndScopHandler(scops
));
1044 PP
.AddPragmaHandler(new PragmaLiveOutHandler(*sema
,
1045 consumer
.live_out
));
1048 consumer
.add_pragma_handlers(sema
);
1050 Diags
.getClient()->BeginSourceFile(Clang
->getLangOpts(), &PP
);
1052 Diags
.getClient()->EndSourceFile();
1057 return consumer
.error
? -1 : 0;
1060 /* Extract a pet_scop from each function in the C source file called "filename".
1061 * Each detected scop is passed to "fn".
1063 * This wrapper around foreach_scop_in_C_source is mainly used to ensure
1064 * that all objects on the stack (of that function) are destroyed before we
1065 * call llvm_shutdown.
1067 static int pet_foreach_scop_in_C_source(isl_ctx
*ctx
,
1068 const char *filename
, const char *function
,
1069 int (*fn
)(struct pet_scop
*scop
, void *user
), void *user
)
1072 pet_options
*options
;
1073 bool allocated
= false;
1075 options
= isl_ctx_peek_pet_options(ctx
);
1077 options
= pet_options_new_with_defaults();
1081 r
= foreach_scop_in_C_source(ctx
, filename
, function
, options
,
1083 llvm::llvm_shutdown();
1086 pet_options_free(options
);
1091 /* Store "scop" into the address pointed to by "user".
1092 * Return -1 to indicate that we are not interested in any further scops.
1093 * This function should therefore not be called a second call
1094 * so in principle there is no need to check if we have already set *user.
1096 static int set_first_scop(pet_scop
*scop
, void *user
)
1098 pet_scop
**p
= (pet_scop
**) user
;
1103 pet_scop_free(scop
);
1108 /* Extract a pet_scop from the C source file called "filename".
1109 * If "function" is not NULL, extract the pet_scop from the function
1112 * We start extracting scops from every function and then abort
1113 * as soon as we have extracted one scop.
1115 struct pet_scop
*pet_scop_extract_from_C_source(isl_ctx
*ctx
,
1116 const char *filename
, const char *function
)
1118 pet_scop
*scop
= NULL
;
1120 pet_foreach_scop_in_C_source(ctx
, filename
, function
,
1121 &set_first_scop
, &scop
);
1126 /* Internal data structure for pet_transform_C_source
1128 * transform is the function that should be called to print a scop
1129 * in is the input source file
1130 * out is the output source file
1131 * end is the offset of the end of the previous scop (zero if we have not
1132 * found any scop yet)
1133 * p is a printer that prints to out.
1135 struct pet_transform_data
{
1136 __isl_give isl_printer
*(*transform
)(__isl_take isl_printer
*p
,
1137 struct pet_scop
*scop
, void *user
);
1146 /* This function is called each time a scop is detected.
1148 * We first copy the input text code from the end of the previous scop
1149 * until the start of "scop" and then print the scop itself through
1150 * a call to data->transform. We set up the printer to print
1151 * the transformed code with the same (initial) indentation as
1152 * the original code.
1153 * Finally, we keep track of the end of "scop" so that we can
1154 * continue copying when we find the next scop.
1156 * Before calling data->transform, we store a pointer to the original
1157 * input file in the extended scop in case the user wants to call
1158 * pet_scop_print_original from the callback.
1160 static int pet_transform(struct pet_scop
*scop
, void *user
)
1162 struct pet_transform_data
*data
= (struct pet_transform_data
*) user
;
1165 start
= pet_loc_get_start(scop
->loc
);
1166 if (copy(data
->in
, data
->out
, data
->end
, start
) < 0)
1168 data
->end
= pet_loc_get_end(scop
->loc
);
1169 scop
= pet_scop_set_input_file(scop
, data
->in
);
1170 data
->p
= isl_printer_set_indent_prefix(data
->p
,
1171 pet_loc_get_indent(scop
->loc
));
1172 data
->p
= data
->transform(data
->p
, scop
, data
->user
);
1177 pet_scop_free(scop
);
1181 /* Transform the C source file "input" by rewriting each scop
1182 * through a call to "transform".
1183 * When autodetecting scops, at most one scop per function is rewritten.
1184 * The transformed C code is written to "output".
1186 * For each scop we find, we first copy the input text code
1187 * from the end of the previous scop (or the beginning of the file
1188 * in case of the first scop) until the start of the scop
1189 * and then print the scop itself through a call to "transform".
1190 * At the end we copy everything from the end of the final scop
1191 * until the end of the input file to "output".
1193 int pet_transform_C_source(isl_ctx
*ctx
, const char *input
, FILE *out
,
1194 __isl_give isl_printer
*(*transform
)(__isl_take isl_printer
*p
,
1195 struct pet_scop
*scop
, void *user
), void *user
)
1197 struct pet_transform_data data
;
1202 if (input
&& strcmp(input
, "-")) {
1203 data
.in
= fopen(input
, "r");
1205 isl_die(ctx
, isl_error_unknown
, "unable to open file",
1209 data
.p
= isl_printer_to_file(ctx
, data
.out
);
1210 data
.p
= isl_printer_set_output_format(data
.p
, ISL_FORMAT_C
);
1212 data
.transform
= transform
;
1215 r
= pet_foreach_scop_in_C_source(ctx
, input
, NULL
,
1216 &pet_transform
, &data
);
1218 isl_printer_free(data
.p
);
1221 if (r
== 0 && copy(data
.in
, data
.out
, data
.end
, -1) < 0)
1224 if (data
.in
!= stdin
)