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-rw-r--r--Documentation/environment_variables.rst21
-rw-r--r--Documentation/guides/introduction.rst2
-rw-r--r--Documentation/guides/pipeline-handler.rst16
-rw-r--r--Documentation/sensor_driver_requirements.rst12
-rw-r--r--README.rst6
5 files changed, 29 insertions, 28 deletions
diff --git a/Documentation/environment_variables.rst b/Documentation/environment_variables.rst
index 01294d79..e482c98e 100644
--- a/Documentation/environment_variables.rst
+++ b/Documentation/environment_variables.rst
@@ -35,10 +35,11 @@ Further details
Notes about debugging
~~~~~~~~~~~~~~~~~~~~~
-The environment variables `LIBCAMERA_LOG_FILE` and `LIBCAMERA_LOG_LEVELS` are
-used to modify the destination and verbosity of messages provided by libcamera.
+The environment variables ``LIBCAMERA_LOG_FILE`` and ``LIBCAMERA_LOG_LEVELS``
+are used to modify the destination and verbosity of messages provided by
+libcamera.
-The `LIBCAMERA_LOG_LEVELS` variable accepts a comma-separated list of
+The ``LIBCAMERA_LOG_LEVELS`` variable accepts a comma-separated list of
'category:level' pairs.
The `level <#log-levels>`__ part is mandatory and can either be specified by
@@ -61,8 +62,8 @@ within a local environment:
LIBCAMERA_LOG_LEVELS=0 \
cam --list
-Enable full debug output for the categories `Camera` and `V4L2` within a global
-environment:
+Enable full debug output for the categories ``Camera`` and ``V4L2`` within a
+global environment:
.. code:: bash
@@ -100,10 +101,10 @@ There are two available macros used to assign a category name to a part of the
libcamera codebase:
LOG_DEFINE_CATEGORY
- This macro is required, in order to use the `LOGC` macro for a particular
+ This macro is required, in order to use the ``LOGC`` macro for a particular
category. It can only be used once for each category. If you want to create
log messages within multiple compilation units for the same category utilize
- the `LOG_DECLARE_CATEGORY` macro, in every file except the definition file.
+ the ``LOG_DECLARE_CATEGORY`` macro, in every file except the definition file.
LOG_DECLARE_CATEGORY
Used for sharing an already defined category between multiple separate
compilation units.
@@ -118,7 +119,7 @@ IPA modules use configuration files to store parameters. The format and
contents of the configuration files is specific to the IPA module. They usually
contain tuning parameters for the algorithms, in JSON format.
-The `LIBCAMERA_IPA_CONFIG_PATH` variable can be used to specify custom
+The ``LIBCAMERA_IPA_CONFIG_PATH`` variable can be used to specify custom
storage locations to search for those configuration files.
`Examples <https://git.libcamera.org/libcamera/libcamera.git/tree/src/ipa/raspberrypi/data>`__
@@ -130,5 +131,5 @@ In order to locate the correct IPA module for your hardware, libcamera gathers
existing IPA modules from multiple locations. The default locations for this
operation are the installed system path (for example on Debian:
``/usr/local/x86_64-pc-linux-gnu/libcamera``) and the build directory.
-With the `LIBCAMERA_IPA_MODULE_PATH`, you can specify a non-default
-location to search for IPA modules.
+With the ``LIBCAMERA_IPA_MODULE_PATH``, you can specify a non-default location
+to search for IPA modules.
diff --git a/Documentation/guides/introduction.rst b/Documentation/guides/introduction.rst
index f34d2cf7..d3a42a23 100644
--- a/Documentation/guides/introduction.rst
+++ b/Documentation/guides/introduction.rst
@@ -119,7 +119,7 @@ V4L2 Compatibility Layer
V4L2 compatibility is achieved through a shared library that traps all
accesses to camera devices and routes them to libcamera to emulate high-level
V4L2 camera devices. It is injected in a process address space through
- `LD_PRELOAD` and is completely transparent for applications.
+ ``LD_PRELOAD`` and is completely transparent for applications.
The compatibility layer exposes camera device features on a best-effort basis,
and aims for the level of features traditionally available from a UVC camera
diff --git a/Documentation/guides/pipeline-handler.rst b/Documentation/guides/pipeline-handler.rst
index f4a31d3c..eb8ddfd5 100644
--- a/Documentation/guides/pipeline-handler.rst
+++ b/Documentation/guides/pipeline-handler.rst
@@ -177,7 +177,7 @@ configuring a build directory.
.. _Meson build configuration: https://mesonbuild.com/Configuring-a-build-directory.html
To add the new pipeline handler to this list of options, add its directory name
-to the libcamera build options in the top level _meson_options.txt_.
+to the libcamera build options in the top level ``meson_options.txt``.
.. code-block:: none
@@ -778,7 +778,7 @@ implementation.
.. code-block:: cpp
std::map<V4L2PixelFormat, std::vector<SizeRange>> v4l2Formats =
- data->video_->formats();
+ data->video_->formats();
std::map<PixelFormat, std::vector<SizeRange>> deviceFormats;
std::transform(v4l2Formats.begin(), v4l2Formats.end(),
std::inserter(deviceFormats, deviceFormats.begin()),
@@ -1027,9 +1027,9 @@ Initializing device controls
~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Pipeline handlers can optionally initialize the video devices and camera sensor
-controls at system configuration time, to make sure to make sure they are
-defaulted to sane values. Handling of device controls is again performed using
-the libcamera `controls framework`_.
+controls at system configuration time, to make sure they are defaulted to sane
+values. Handling of device controls is again performed using the libcamera
+`controls framework`_.
.. _Controls Framework: http://libcamera.org/api-html/controls_8h.html
@@ -1240,7 +1240,7 @@ Replace the stubbed contents of ``queueRequestDevice`` with the following:
<< "Attempt to queue request with invalid stream";
return -ENOENT;
- }
+ }
int ret = data->video_->queueBuffer(buffer);
if (ret < 0)
@@ -1396,7 +1396,7 @@ delivered to applications in the same order as they have been submitted.
.. _connecting: http://libcamera.org/api-html/classlibcamera_1_1Signal.html#aa04db72d5b3091ffbb4920565aeed382
Returning to the ``int VividCameraData::init()`` method, add the following above
-the closing ``return 0;`` to connects the pipeline handler ``bufferReady``
+the closing ``return 0;`` to connect the pipeline handler ``bufferReady``
method to the V4L2 device buffer signal.
.. code-block:: cpp
@@ -1428,7 +1428,7 @@ code-base.
Testing a pipeline handler
~~~~~~~~~~~~~~~~~~~~~~~~~~
-Once you've built the pipeline handler, we ca rebuild the code base, and test
+Once you've built the pipeline handler, we can rebuild the code base, and test
capture through the pipeline through both of the cam and qcam utilities.
.. code-block:: shell
diff --git a/Documentation/sensor_driver_requirements.rst b/Documentation/sensor_driver_requirements.rst
index 17841ddd..3e800c8e 100644
--- a/Documentation/sensor_driver_requirements.rst
+++ b/Documentation/sensor_driver_requirements.rst
@@ -34,13 +34,13 @@ For RAW sensors, the sensor driver shall support the following V4L2 controls:
.. _V4L2_CID_PIXEL_RATE: https://www.kernel.org/doc/html/latest/userspace-api/media/v4l/ext-ctrls-image-process.html
.. _V4L2_CID_VBLANK: https://www.kernel.org/doc/html/latest/userspace-api/media/v4l/ext-ctrls-image-source.html
-While V4L2 doesn't specify a unit for the `EXPOSURE` control, libcamera requires
-it to be expressed as a number of image lines. Camera sensor drivers that do not
-comply with this requirement will need to be adapted or will produce incorrect
-results.
+While V4L2 doesn't specify a unit for the ``EXPOSURE`` control, libcamera
+requires it to be expressed as a number of image lines. Camera sensor drivers
+that do not comply with this requirement will need to be adapted or will produce
+incorrect results.
-The `HBLANK`, `PIXEL_RATE` and `VBLANK` controls are used to compute the sensor
-output timings.
+The ``HBLANK``, ``PIXEL_RATE`` and ``VBLANK`` controls are used to compute the
+sensor output timings.
Optional Requirements
---------------------
diff --git a/README.rst b/README.rst
index b48455ab..1427c714 100644
--- a/README.rst
+++ b/README.rst
@@ -95,9 +95,9 @@ GStreamer can find it.
export GST_PLUGIN_PATH=$(pwd)/build/src/gstreamer
-The debugging tool `gst-launch-1.0` can be used to construct and pipeline and test
-it. The following pipeline will stream from the camera named "Camera 1" onto the
-default video display element on your system.
+The debugging tool ``gst-launch-1.0`` can be used to construct a pipeline and
+test it. The following pipeline will stream from the camera named "Camera 1"
+onto the default video display element on your system.
.. code::