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authorDouglas Gregor <dgregor@apple.com>2013-03-20 17:11:13 +0000
committerDouglas Gregor <dgregor@apple.com>2013-03-20 17:11:13 +0000
commit03d262baf1e7f819d269807680c73fc50d7d5b69 (patch)
tree9f6edc90aa76cf45dc2924c22de9d903cd753ce1
parent2bf383d6f5886b69922685207d9d5a84d81afec8 (diff)
Fix typo and grammaro in modules documentation
git-svn-id: https://llvm.org/svn/llvm-project/cfe/trunk@177544 91177308-0d34-0410-b5e6-96231b3b80d8
-rw-r--r--docs/Modules.rst4
1 files changed, 2 insertions, 2 deletions
diff --git a/docs/Modules.rst b/docs/Modules.rst
index f8d44b86bb..9cc5ef8d76 100644
--- a/docs/Modules.rst
+++ b/docs/Modules.rst
@@ -96,7 +96,7 @@ Many programming languages have a module or package system, and because of the v
* **Namespaces**: Unlike in some languages, modules do not imply any notion of namespaces. Thus, a struct declared in one module will still conflict with a struct of the same name declared in a different module, just as they would if declared in two different headers. This aspect is important for backward compatibility, because (for example) the mangled names of entities in software libraries must not change when introducing modules.
-* **Binary distribution of modules**: Headers (particularly C++ headers) expose the full complexity of the language. Maintaining a stable binary module format across archectures, compiler versions, and compiler vendors is technically infeasible.
+* **Binary distribution of modules**: Headers (particularly C++ headers) expose the full complexity of the language. Maintaining a stable binary module format across architectures, compiler versions, and compiler vendors is technically infeasible.
Using Modules
=============
@@ -110,7 +110,7 @@ The primary user-level feature of modules is the import operation, which provide
#include <stdio.h>
-will be automatically mapped to an import of the module ``std.io``. Even with specific ``import`` syntax in the language, this particular feature is important for both adoption and backward compatibility: automatic translation of ``#include`` to ``import`` allows an application to get the benefits of modules (for any modules-enabled libraries) without any changes to the application itself. Thus, users can easily use modules with one compiler while falling back to the preprocessor-inclusion mechanism with other compilers.
+will be automatically mapped to an import of the module ``std.io``. Even with specific ``import`` syntax in the language, this particular feature is important for both adoption and backward compatibility: automatic translation of ``#include`` to ``import`` allows an application to get the benefits of modules (for all modules-enabled libraries) without any changes to the application itself. Thus, users can easily use modules with one compiler while falling back to the preprocessor-inclusion mechanism with other compilers.
Module Maps
-----------