llvm-project/clang/test/Modules/implicit-private-with-diffe...

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[modules] Handle modules with nonstandard names in module.private.modulemaps Summary: The module system supports accompanying a primary module (say Foo) with an auxiliary "private" module (defined in an adjacent module.private.modulemap file) that augments the primary module when associated private headers are available. The feature is intended to be used to augment the primary module with a submodule (say Foo.Private), however some users in the wild are choosing to augment the primary module with an additional top-level module with a "similar" name (in all cases so far: FooPrivate). This "works" when a user of the module initially imports a private header, such as '#import "Foo/something_private.h"' since the Foo import winds up importing FooPrivate in passing. But if the import is subsequently recorded in a PCH file, reloading the PCH will fail to validate because of a cross-check that attempts to find the module.modulemap (or module.private.modulemap) using HeaderSearch algorithm, applied to the "FooPrivate" name. Since it's stored in Foo.framework/Modules, not FooPrivate.framework/Modules, the check fails and the PCH is rejected. This patch adds a compensatory workaround in the HeaderSearch algorithm when searching (and failing to find) a module of the form FooPrivate: the name used to derive filesystem paths is decoupled from the module name being searched for, and if the initial search fails and the module is named "FooPrivate", the filesystem search name is altered to remove the "Private" suffix, and the algorithm is run a second time (still looking for a module named FooPrivate, but looking in directories derived from Foo). Accompanying this change is a new warning that triggers when a user loads a module.private.modulemap that defines a top-level module with a different name from the top-level module defined in its adjacent module.modulemap. Reviewers: doug.gregor, manmanren, bruno Subscribers: bruno, cfe-commits Differential Revision: https://reviews.llvm.org/D27852 llvm-svn: 290219
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// RUN: rm -rf %t
// Build PCH using A, with adjacent private module APrivate, which winds up being implicitly referenced
// RUN: %clang_cc1 -verify -fmodules -fimplicit-module-maps -fmodules-cache-path=%t -F %S/Inputs/implicit-private-with-different-name -emit-pch -o %t-A.pch %s -Wprivate-module
[modules] Handle modules with nonstandard names in module.private.modulemaps Summary: The module system supports accompanying a primary module (say Foo) with an auxiliary "private" module (defined in an adjacent module.private.modulemap file) that augments the primary module when associated private headers are available. The feature is intended to be used to augment the primary module with a submodule (say Foo.Private), however some users in the wild are choosing to augment the primary module with an additional top-level module with a "similar" name (in all cases so far: FooPrivate). This "works" when a user of the module initially imports a private header, such as '#import "Foo/something_private.h"' since the Foo import winds up importing FooPrivate in passing. But if the import is subsequently recorded in a PCH file, reloading the PCH will fail to validate because of a cross-check that attempts to find the module.modulemap (or module.private.modulemap) using HeaderSearch algorithm, applied to the "FooPrivate" name. Since it's stored in Foo.framework/Modules, not FooPrivate.framework/Modules, the check fails and the PCH is rejected. This patch adds a compensatory workaround in the HeaderSearch algorithm when searching (and failing to find) a module of the form FooPrivate: the name used to derive filesystem paths is decoupled from the module name being searched for, and if the initial search fails and the module is named "FooPrivate", the filesystem search name is altered to remove the "Private" suffix, and the algorithm is run a second time (still looking for a module named FooPrivate, but looking in directories derived from Foo). Accompanying this change is a new warning that triggers when a user loads a module.private.modulemap that defines a top-level module with a different name from the top-level module defined in its adjacent module.modulemap. Reviewers: doug.gregor, manmanren, bruno Subscribers: bruno, cfe-commits Differential Revision: https://reviews.llvm.org/D27852 llvm-svn: 290219
2016-12-21 08:24:39 +08:00
// Use the PCH with no explicit way to resolve APrivate, still pick it up by automatic second-chance search for "A" with "Private" appended
// RUN: %clang_cc1 -verify -fmodules -fimplicit-module-maps -fmodules-cache-path=%t -F %S/Inputs/implicit-private-with-different-name -include-pch %t-A.pch %s -fsyntax-only -Wprivate-module
[modules] Handle modules with nonstandard names in module.private.modulemaps Summary: The module system supports accompanying a primary module (say Foo) with an auxiliary "private" module (defined in an adjacent module.private.modulemap file) that augments the primary module when associated private headers are available. The feature is intended to be used to augment the primary module with a submodule (say Foo.Private), however some users in the wild are choosing to augment the primary module with an additional top-level module with a "similar" name (in all cases so far: FooPrivate). This "works" when a user of the module initially imports a private header, such as '#import "Foo/something_private.h"' since the Foo import winds up importing FooPrivate in passing. But if the import is subsequently recorded in a PCH file, reloading the PCH will fail to validate because of a cross-check that attempts to find the module.modulemap (or module.private.modulemap) using HeaderSearch algorithm, applied to the "FooPrivate" name. Since it's stored in Foo.framework/Modules, not FooPrivate.framework/Modules, the check fails and the PCH is rejected. This patch adds a compensatory workaround in the HeaderSearch algorithm when searching (and failing to find) a module of the form FooPrivate: the name used to derive filesystem paths is decoupled from the module name being searched for, and if the initial search fails and the module is named "FooPrivate", the filesystem search name is altered to remove the "Private" suffix, and the algorithm is run a second time (still looking for a module named FooPrivate, but looking in directories derived from Foo). Accompanying this change is a new warning that triggers when a user loads a module.private.modulemap that defines a top-level module with a different name from the top-level module defined in its adjacent module.modulemap. Reviewers: doug.gregor, manmanren, bruno Subscribers: bruno, cfe-commits Differential Revision: https://reviews.llvm.org/D27852 llvm-svn: 290219
2016-12-21 08:24:39 +08:00
// Check the fixit
// RUN: %clang_cc1 -fmodules -fimplicit-module-maps -fmodules-cache-path=%t -F %S/Inputs/implicit-private-with-different-name -include-pch %t-A.pch %s -fsyntax-only -fdiagnostics-parseable-fixits -Wprivate-module %s 2>&1 | FileCheck %s
[modules] Handle modules with nonstandard names in module.private.modulemaps Summary: The module system supports accompanying a primary module (say Foo) with an auxiliary "private" module (defined in an adjacent module.private.modulemap file) that augments the primary module when associated private headers are available. The feature is intended to be used to augment the primary module with a submodule (say Foo.Private), however some users in the wild are choosing to augment the primary module with an additional top-level module with a "similar" name (in all cases so far: FooPrivate). This "works" when a user of the module initially imports a private header, such as '#import "Foo/something_private.h"' since the Foo import winds up importing FooPrivate in passing. But if the import is subsequently recorded in a PCH file, reloading the PCH will fail to validate because of a cross-check that attempts to find the module.modulemap (or module.private.modulemap) using HeaderSearch algorithm, applied to the "FooPrivate" name. Since it's stored in Foo.framework/Modules, not FooPrivate.framework/Modules, the check fails and the PCH is rejected. This patch adds a compensatory workaround in the HeaderSearch algorithm when searching (and failing to find) a module of the form FooPrivate: the name used to derive filesystem paths is decoupled from the module name being searched for, and if the initial search fails and the module is named "FooPrivate", the filesystem search name is altered to remove the "Private" suffix, and the algorithm is run a second time (still looking for a module named FooPrivate, but looking in directories derived from Foo). Accompanying this change is a new warning that triggers when a user loads a module.private.modulemap that defines a top-level module with a different name from the top-level module defined in its adjacent module.modulemap. Reviewers: doug.gregor, manmanren, bruno Subscribers: bruno, cfe-commits Differential Revision: https://reviews.llvm.org/D27852 llvm-svn: 290219
2016-12-21 08:24:39 +08:00
// expected-warning@Inputs/implicit-private-with-different-name/A.framework/Modules/module.private.modulemap:1{{expected canonical name for private module 'APrivate'}}
// expected-note@Inputs/implicit-private-with-different-name/A.framework/Modules/module.private.modulemap:1{{rename 'APrivate' to ensure it can be found by name}}
// CHECK: fix-it:"{{.*}}module.private.modulemap":{1:18-1:26}:"A_Private"
[modules] Handle modules with nonstandard names in module.private.modulemaps Summary: The module system supports accompanying a primary module (say Foo) with an auxiliary "private" module (defined in an adjacent module.private.modulemap file) that augments the primary module when associated private headers are available. The feature is intended to be used to augment the primary module with a submodule (say Foo.Private), however some users in the wild are choosing to augment the primary module with an additional top-level module with a "similar" name (in all cases so far: FooPrivate). This "works" when a user of the module initially imports a private header, such as '#import "Foo/something_private.h"' since the Foo import winds up importing FooPrivate in passing. But if the import is subsequently recorded in a PCH file, reloading the PCH will fail to validate because of a cross-check that attempts to find the module.modulemap (or module.private.modulemap) using HeaderSearch algorithm, applied to the "FooPrivate" name. Since it's stored in Foo.framework/Modules, not FooPrivate.framework/Modules, the check fails and the PCH is rejected. This patch adds a compensatory workaround in the HeaderSearch algorithm when searching (and failing to find) a module of the form FooPrivate: the name used to derive filesystem paths is decoupled from the module name being searched for, and if the initial search fails and the module is named "FooPrivate", the filesystem search name is altered to remove the "Private" suffix, and the algorithm is run a second time (still looking for a module named FooPrivate, but looking in directories derived from Foo). Accompanying this change is a new warning that triggers when a user loads a module.private.modulemap that defines a top-level module with a different name from the top-level module defined in its adjacent module.modulemap. Reviewers: doug.gregor, manmanren, bruno Subscribers: bruno, cfe-commits Differential Revision: https://reviews.llvm.org/D27852 llvm-svn: 290219
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#ifndef HEADER
#define HEADER
#import "A/aprivate.h"
const int *y = &APRIVATE;
#endif