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---
layout: documentation
title: Cquery (configurable query)
---
<h1>Cquery (Configurable Query)</h1>
<ul class="toc">
<li><a href="#overview">Overview</a></li>
<li><a href="#basic-syntax">Basic Syntax</a></li>
<li><a href="#functions">Functions</a></li>
<li><a href="#options">Options</a></li>
<li><a href="#known-issues">Known Issues</a></li>
<li><a href="#updates">Updates</a></li>
</ul>
<h2 id='overview'>Overview</h2>
<p>
<code>cquery</code> is a command complementary to <code>query</code> that properly handles
configurations. While <code>cquery</code> returns answers that are more correct, it does not
replace <code>query</code> as it does not support all of <code>query</code>'s functions.</p>
<p>
<code>cquery</code> achieves configuration awareness by running after the
<a href="skylark/concepts.html#evaluation-model">analysis phase</a>
of a build, unlike traditional <code>query</code>, which runs after the loading phase.</p>
<p>
The most common use for <code>cquery</code> is obtaining answers that correctly evaluate
<a href="be/common-definitions.html#configurable-attributes"><code>select()</code></a>
statements in configurable attributes. For example:
</p>
<pre>
$ cat > tree/BUILD &lt;&lt;EOF
sh_library(
name = "ash",
deps = select({
":excelsior": [":manna-ash"],
":americana": [":white-ash"],
"//conditions:default": [":common-ash"],
}),
)
sh_library(name = "manna-ash")
sh_library(name = "white-ash")
sh_library(name = "common-ash")
config_setting(
name = "excelsior",
values = {"define": "species=excelsior"},
)
config_setting(
name = "americana",
values = {"define": "species=americana"},
)
EOF
#Traditional query
$ bazel query "deps(//tree:ash)" --define species=excelsior --noimplicit_deps
//tree:ash
//tree:white-ash
//tree:manna-ash
//tree:common-ash
#cquery
$ bazel cquery "deps(//tree:ash)" --define species=excelsior --noimplicit_deps
//tree:ash (hash-of-config)
//tree:manna-ash (hash-of-config)
</pre>
<p>
Keep in mind that <code>cquery</code> works only on the configured target graph. Because of this,
it does not have insight into artifacts like build actions nor access to
<code><a href="be/general.html#test_suite">test_suite</a></code>
rules as they are not configured targets.
</p>
<h2 id='basic-syntax'>Basic Syntax</h2>
<p>A simple example of the syntax for <code>cquery</code> is as follows:</p>
<p><code>bazel cquery "function(//target)"</code></p>
<p>The query expression (in quotes) consists of the following:
<ul>
<li>
<b><code>function(...)</code></b> is the function to run on the target. <code>cquery</code>
supports most of the same <a href="query.html#functions">functions</a>
as traditional <code>query</code>.
</li>
<li><b><code>//target</code></b> is the expression fed to the function. In this example, the
expression is a simple target, but the query language also allows nesting of functions.
See the <a href="query-how-to.md">Query How-To</a> for examples.
</li>
</ul>
<p>
Note that <code>cquery</code> requires a target on which to run the
loading and analysis phases. Unless otherwise specified, <code>cquery</code> parses
the target(s) listed in the query expression. See the <code>--universe_scope</code>
option below for querying targets built under other targets.
</p>
<h2 id='functions'>Functions</h2>
<p>
Of the <a href="query.html#functions" title="list of query functions">set of functions</a>
supported by the traiditional <code>query</code>, <code>cquery</code> supports all but siblings, buildfiles, and tests. The
functions listed below are <code>cquery</code>-specific.
</p>
<h3>config</h3>
<p><code>expr ::= config(expr, word)</code></p>
<p>
The <code>config</code> operator attempts to return the result of the first argument, configured
in the configuration specified by the second argument. Today, the second argument can only take in
three options <code>target</code>, <code>host</code>, or <code>null</code> but we hope to expand
this functionality to be able to input custom configurations (or custom configuration diffs from
the default target configuration).
</p>
<p><code>$ bazel cquery config(//foo, host) --universe_scope=//bar</code></p>
<p>
Note that the above example query will return <code>//foo</code> configured in the host configuration
<em>if and only if</em> <code>//foo</code> exists in the host configuration in the universe of
this query (which we've set to the transitive closure of <code>//bar</code>).
</p>
<p>
If not all results of the first argument can be found in the specified
configuration, then only those that can be found are returned. If no results of the
first argument can be found in the specified configuration, an error is thrown.
</p>
<h2 id='options'>Options</h2>
<h3>Build Options</h3>
<p>
<code>cquery</code> runs on top of a regular Bazel build and thus inherits the set of
<a href="command-line-reference.html#build-options">options</a>
available during a build.
</p>
<h3>Cquery options</h3>
<h4><code>--universe_scope</code> (comma-separated list)</h4>
<p>
Often, the dependencies of configured targets go through
<a href="skylark/rules.html#configurations">transitions</a>,
which causes their configuration to differ from their dependent. This flag allows you to query
a target as if it were built as a dependency or a transitive dependency of another target. For
example:
</p>
<pre>
# x/BUILD
genrule(
name = "my_gen",
srcs = ["x.in"],
outs = ["x.cc"],
cmd = "$(locations :tool) $&lt; >$@",
tools = [":tool"],
)
cc_library(
name = "tool",
)
</pre>
<p>
Genrules configure their tools in the
<a href="skylark/rules.html#configurations">host configuration</a>
so the following queries would produce the following outputs:
</p>
<table class="table table-condensed table-bordered table-params">
<thead>
<tr>
<th>Query</th>
<th>Target Built</th>
<th>Output</th>
</tr>
</thead>
<tbody>
<tr>
<td>bazel cquery "//x:tool"</td>
<td>//x:tool</td>
<td>//x:tool(targetconfig)</td>
</tr>
<tr>
<td>bazel cquery "//x:tool" --universe_scope="//x:my_gen"</td>
<td>//x:my_gen</td>
<td>//x:tool(hostconfig)</td>
</tr>
</tbody>
</table>
<p>
If this flag is set, its contents are built. <em>If it's not set, all targets
mentioned in the query expression are built</em> instead. The transitive closure of the
built targets are used as the universe of the query. Either way, the targets to
be built must be buildable at the top level (that is, compatible with top-level
options). <code>cquery</code> returns results in the transitive closure of these
top-level targets.
</p>
<p>
Even if it's possible to build all targets in a query expression at the top
level, it may be beneficial to not do so. For example, explicitly setting
<code>--universe_scope</code> could prevent building targets multiple times in
configurations you don't care about. It could also help specify which configuration version of a
target you're looking for (since it's not currently possible
to fully specify this any other way). We recommend that you set this
flag if your query expression is more complex than <code>deps(//foo)</code>.
</p>
<h4><code>--implicit_deps</code> (boolean, default=True)</h4>
<p>
Setting this flag to false filters out all results that aren't explicitly set in
the BUILD file and instead set elsewhere by Bazel.
</p>
<h4><code>--tool_deps</code> (boolean, default=True)</h4>
<p>
Setting this flag to false filters out all configured targets for which the
path from the queried target to them crosses a transition between the target
configuration and the
<a href="skylark/rules.html#configurations">non-target configurations</a>.
If the queried target is in the target configuration, setting <code>--notool_deps</code> will
only return targets that also are in the target configuration. If the queried
target is in a non-target configuration, setting <code>--notool_deps</code> will only return
targets also in non-target configurations.
</p>
<h2 id='output-formats'>Output Formats</h2>
<p> By default, cquery outputs results in a dependency-ordered list of label and configuration pairs.
There are other options for exposing the results as well. </p>
<h3> Transitions </h3>
<p>
Configuration <a href="skylark/rules.html#configurations">transitions</a>
are used to build targets underneath the top level targets in different configurations than the top
level targets. For example, a target might impose a transition to the host transition on all
dependencies in its <code>tools</code> attribute. These are known as attribute transitions.
Rules can also impose transitions on their own configurations, known as rule class transitions.
This output format outputs information about these transitions such as what type they are and the
effect they have on build options.
</p>
<p>This output format is triggered by the <code>--transitions</code> flag which by default is set to
<code>NONE</code>. It can be set to <code>FULL</code> or <code>LITE</code> mode. <code>FULL</code>
mode outputs information about rule class transitions and attribute transitions including a detailed
diff of the options before and after the transition. <code>LITE</code> mode outputs the same information
without the options diff.
</p>
<h2 id='known-issues'>Known Issues</h2>
<ul>
<li>
<strong>Inaccessible configurations.</strong> With the exception of the host configuration being
printed as <code>HOST</code>, Configurations are currently output as
hashes and there is no way for the user to input them (and thus to directly
specify the configuration to query a target in).</li>
<li>
<strong>No support for <a href="skylark/aspects.html">aspects</a>,
<a href="query.html#output-formats" title="list of query output formats">output
options</a>, or recursive target patterns (/...).</strong></li>
<li>
<strong>Non-deterministic output.</strong> <code>Cquery</code> does not automatically wipe the build
graph from previous commands and is therefore prone to picking up results
from past queries. For example, <code>genquery</code> exerts a host transition on its <code>tools</code>
attribute - that is, it configures its tools in the
<a href="skylark/rules.html#configurations">host configuration</a>.
We can see the lingering effects of that transition below.</li>
</ul>
<pre>
$ cat > foo/BUILD &lt;&lt;&lt;EOF
genrule(
name = "my_gen",
srcs = ["x.in"],
outs = ["x.cc"],
cmd = "$(locations :tool) $&lt; >$@",
tools = [":tool"],
)
cc_library(
name = "tool",
)
EOF
$ bazel cquery "//foo:tool"
tool(target_config)
$ bazel cquery "deps(//foo:my_gen)"
my_gen (target_config)
tool (host_config)
...
$ bazel cquery "//foo:tool"
tool(host_config)
</pre>
<p>
Workaround: change any startup option to force re-analysis of configured targets. For example,
add <code>--test_arg=&lt;whatever&gt;</code> to your build command.
</p>
<h2 id='updates'>Updates</h2>
<p>
The Bazel configurability team is continuously improving <code>cquery</code>. If you want to
ask questions, stay updated, or get involved, contact juliexxia@google.com
</p>