-Ninja
-=====
-Evan Martin <martine@danga.com>
+The Ninja build system
+======================
Introduction
generate build files for Google Chrome and related projects (v8,
node.js). gyp can generate Ninja files for all platforms supported by
Chrome. See the
-http://code.google.com/p/chromium/wiki/NinjaBuild[Chromium Ninja
-documentation for more details].
+https://chromium.googlesource.com/chromium/src/+/master/docs/ninja_build.md[Chromium Ninja documentation for more details].
-http://www.cmake.org/[CMake]:: A widely used meta-build system that
-can generate Ninja files on Linux as of CMake version 2.8.8. (There
-is some Mac and Windows support -- http://www.reactos.org[ReactOS]
-uses Ninja on Windows for their buildbots, but those platforms are not
-yet officially supported by CMake as the full test suite doesn't
-pass.)
+https://cmake.org/[CMake]:: A widely used meta-build system that
+can generate Ninja files on Linux as of CMake version 2.8.8. Newer versions
+of CMake support generating Ninja files on Windows and Mac OS X too.
-others:: Ninja ought to fit perfectly into other meta-build software
+https://github.com/ninja-build/ninja/wiki/List-of-generators-producing-ninja-build-files[others]:: Ninja ought to fit perfectly into other meta-build software
like http://industriousone.com/premake[premake]. If you do this work,
please let us know!
the current directory and builds all out-of-date targets. You can
specify which targets (files) to build as command line arguments.
+There is also a special syntax `target^` for specifying a target
+as the first output of some rule containing the source you put in
+the command line, if one exists. For example, if you specify target as
+`foo.c^` then `foo.o` will get built (assuming you have those targets
+in your build files).
+
`ninja -h` prints help output. Many of Ninja's flags intentionally
match those of Make; e.g `ninja -C build -j 20` changes into the
`build` directory and runs 20 build commands in parallel. (Note that
`browse`:: browse the dependency graph in a web browser. Clicking a
file focuses the view on that file, showing inputs and outputs. This
-feature requires a Python installation.
-
+feature requires a Python installation. By default port 8000 is used
+and a web browser will be opened. This can be changed as follows:
++
+----
+ninja -t browse --port=8000 --no-browser mytarget
+----
++
`graph`:: output a file in the syntax used by `graphviz`, a automatic
graph layout tool. Use it like:
+
command = cl /showIncludes -c $in /Fo$out
----
+If the include directory directives are using absolute paths, your depfile
+may result in a mixture of relative and absolute paths. Paths used by other
+build rules need to match exactly. Therefore, it is recommended to use
+relative paths in these cases.
+
[[ref_pool]]
Pools
~~~~~
Order-only dependencies may be tacked on the end with +||
_dependency1_ _dependency2_+. (See <<ref_dependencies,the reference on
dependency types>>.)
++
+Implicit outputs _(available since Ninja 1.7)_ may be added before
+the `:` with +| _output1_ _output2_+ and do not appear in `$out`.
+(See <<ref_outputs,the reference on output types>>.)
3. Variable declarations, which look like +_variable_ = _value_+.
Ninja is mostly encoding agnostic, as long as the bytes Ninja cares
about (like slashes in paths) are ASCII. This means e.g. UTF-8 or
-ISO-8859-1 input files ought to work. (To simplify some code, tabs
-and carriage returns are currently disallowed; this could be fixed if
-it really mattered to you.)
+ISO-8859-1 input files ought to work.
Comments begin with `#` and extend to the end of the line.
There is only one escape character, `$`, and it has the following
behaviors:
-[horizontal]
`$` followed by a newline:: escape the newline (continue the current line
across a line break).
affect the processing of the rule. Here is a full list of special
keys.
-`command` (_required_):: the command line to run. This string (after
- $variables are expanded) is passed directly to `sh -c` without
- interpretation by Ninja. Each `rule` may have only one `command`
- declaration. To specify multiple commands use `&&` (or similar) to
- concatenate operations.
+`command` (_required_):: the command line to run. Each `rule` may
+ have only one `command` declaration. See <<ref_rule_command,the next
+ section>> for more details on quoting and executing multiple commands.
`depfile`:: path to an optional `Makefile` that contains extra
_implicit dependencies_ (see <<ref_dependencies,the reference on
build myapp.exe: link a.obj b.obj [possibly many other .obj files]
----
+[[ref_rule_command]]
+Interpretation of the `command` variable
+^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
+Fundamentally, command lines behave differently on Unixes and Windows.
+
+On Unixes, commands are arrays of arguments. The Ninja `command`
+variable is passed directly to `sh -c`, which is then responsible for
+interpreting that string into an argv array. Therefore the quoting
+rules are those of the shell, and you can use all the normal shell
+operators, like `&&` to chain multiple commands, or `VAR=value cmd` to
+set environment variables.
+
+On Windows, commands are strings, so Ninja passes the `command` string
+directly to `CreateProcess`. (In the common case of simply executing
+a compiler this means there is less overhead.) Consequently the
+quoting rules are deterimined by the called program, which on Windows
+are usually provided by the C library. If you need shell
+interpretation of the command (such as the use of `&&` to chain
+multiple commands), make the command execute the Windows shell by
+prefixing the command with `cmd /c`.
+
+[[ref_outputs]]
+Build outputs
+~~~~~~~~~~~~~
+
+There are two types of build outputs which are subtly different.
+
+1. _Explicit outputs_, as listed in a build line. These are
+ available as the `$out` variable in the rule.
++
+This is the standard form of output to be used for e.g. the
+object file of a compile command.
+
+2. _Implicit outputs_, as listed in a build line with the syntax +|
+ _out1_ _out2_+ + before the `:` of a build line _(available since
+ Ninja 1.7)_. The semantics are identical to explicit outputs,
+ the only difference is that implicit outputs don't show up in the
+ `$out` variable.
++
+This is for expressing outputs that don't show up on the
+command line of the command.
+
[[ref_dependencies]]
Build dependencies
~~~~~~~~~~~~~~~~~~
cause the output to be rebuilt; if these file are missing and
Ninja doesn't know how to build them, the build is aborted.
+
-This is the standard form of dependency to be used for e.g. the
+This is the standard form of dependency to be used e.g. for the
source file of a compile command.
2. _Implicit dependencies_, either as picked up from
header is used in compilation, a generated dependency file will then
express the implicit dependency.)
+File paths are compared as is, which means that an absolute path and a
+relative path, pointing to the same file, are considered different by Ninja.
+
Variable expansion
~~~~~~~~~~~~~~~~~~
Top-level variable declarations are scoped to the file they occur in.
+Rule declarations are also scoped to the file they occur in.
+_(Available since Ninja 1.6)_
+
The `subninja` keyword, used to include another `.ninja` file,
introduces a new scope. The included `subninja` file may use the
-variables from the parent file, and shadow their values for the file's
+variables and rules from the parent file, and shadow their values for the file's
scope, but it won't affect values of the variables in the parent.
To include another `.ninja` file in the current scope, much like a C
5. Variables from the file that included that file using the
`subninja` keyword.
-