The GIR
is used to generate both the sys level crate and a safe API crate to use the sys level (FFI) crate.
Using gir
requires both a *.toml
and a *.gir
for generation of the bindings.
The *.gir
you need will correspond to the project you want to generate bindings for. You can get them from here or directly on ubuntu website (for example: http://packages.ubuntu.com/zesty/amd64/libgtk-3-dev).
The *.toml
is what is used to pass various settings and options to gir for use when generating the bindings - you will likely need to write one to suit your needs, for an example you can take a look to gtk-rs/sys/gir-gtk.toml.
Keep it in mind that since gir
is still under development, it generates warnings when running. As long as it's not errors, it's fine. However, if something you asked to be generated wasn't, you should definitely take a look to the warnings to see what failed.
There are two main modes of generation for gir
; FFI and API.
There is also a third one used for documentation generation: doc and a fourth one used to display all not bound types in your crate: not_bound.
The FFI mode is what creates the low-level FFI bindings from the supplied *.gir
file - these are essentially direct calls in to the related C library and are typically unsafe. The resulting crate is typically appended with -sys
.
The API mode generates another crate for a layer on top of these unsafe (sys) bindings which makes them safe for use in general Rust.
In FFI (-m sys
) mode, gir
generates as much as it can. So in this mode, the TOML file is mostly used to ignore some objects. To do so, you need to add its fullname to an ignore
array. Example:
ignore = ["Gtk.Widget", "Gtk.Window"]
And that's all! Neither GtkWidget
nor GtkWindow
(alongside with their functions) will be generated.
You also need to add any needed external libraries in the "external_libraries" parameter. Example:
[options]
external_libraries = [
"GLib",
"GObject",
]
You can specify a few other options:
[options]
girs_dir = "../gir-files"
library = "GtkSource"
version = "3.0"
min_cfg_version = "3.0"
target_path = "."
#Path where lib.rs generated (defaults to <target_path>/src)
#auto_path = "src"
work_mode = "sys"
You can mark some functions that has suffix _utf8
on Windows:
[[object]]
name = "GdkPixbuf.PixbufAnimation"
status = "generate"
[[object.function]]
name = "new_from_file"
is_windows_utf8 = true
Also, you can add rust cfg conditions on objects, functions and constants, for example, when flagging for conditional compilation:
[[object]]
name = "GstGL.GLDisplayEGL"
status = "generate"
cfg_condition = "feature = \"egl\""
[[object.function]]
pattern = ".*"
cfg_condition = "feature = \"egl\""
When you're ready, let's generate the FFI part. In the command we'll execute, ../gir-files
is where the directory with your .gir
files is. (But again, you can just clone the gir-files repository and add your file(s) in it). Then let's run the command:
cargo run --release -- -c YourSysGirFile.toml -d ../gir-files -m sys -o the-output-directory-sys
The generated files will be placed in the-output-directory-sys
. Just take care about the dependencies and the crate's name generated in the Cargo.toml
file (update them if they don't work as expected).
You now have the sys part of your binding!
This mode requires you to write another TOML file. gtk/Gir.toml is a good example.
[options]
girs_dir = "gir-files"
library = "Gtk"
version = "3.0"
min_cfg_version = "3.4"
target_path = "."
#Path where objects generated (defaults to <target_path>/src/auto)
#auto_path = "src/auto"
work_mode = "normal"
generate_safety_asserts = true
deprecate_by_min_version = true
# With this option enabled, versions for gir and gir-files saved only to one file to minimize noise,
# can also take path to the directory for saving "versions.txt" or filename with extension.
# Relative to target_path
single_version_file = true
# Generation of Display trait enabled for all enums, classes, etc.,
# which do not have an override for `generate_display_trait`
# (defaults to "true")
generate_display_trait = true
This mode generates only the specified objects. You can either add the object's fullname to the generate
array or add it to the manual
array (but in this case, it won't be generated, just used in other functions/methods instead of generating an "ignored" argument). Example:
generate = ["Gtk.Widget", "Gtk.Window"]
manual = ["Gtk.Button"]
So in here, both GtkWidget
and GtkWindow
will be fully generated and functions/methods using GtkButton
will be uncommented. To generate code for all global functions, add Gtk.*
to the generate
array.
Sometimes Gir understands the object definition incorrectly or the .gir
file contains an incomplete or wrong definition, to fix it, you can use the full object configuration:
[[object]]
# object's fullname
name = "Gtk.SomeClass"
# can be also "manual" and "ignore" but it's simpler to just put the object in the same array
status = "generate"
# replace the parameter name for the child in child properties (instead "child")
child_name = "item"
# mark object as final type, i.e. one without any further subclasses. this
# will not generate trait SomeClassExt for this object, but implement all
# functions in impl SomeClass
final_type = true
# allow rename result file
module_name = "soome_class"
# override starting version
version = "3.12"
# prefixed object in mod.rs with #[cfg(mycond)]
cfg_condition = "mycond"
# if you want to override default option Ex. for write your own Display implementation
generate_display_trait = false
# define overrides for function
[[object.function]]
# filter functions from object
name = "set_website_label"
# alternative way to apply override for many functions. Will be used with '^' and '$' on both sides
# can be used instead of `name` almost anywhere
# pattern = "[gs]et_value"
# don't generate function
ignore = true
# override starting version
version = "3.12"
# prefixed function with #[cfg(mycond)]
cfg_condition = "mycond"
# prefixed function with #[doc(hidden)]
doc_hidden = true
# disable length_of autodetection
disable_length_detect = true
# override for parameter
[[object.function.parameter]]
# filter by name
name = "website_label"
# allow to remove/add Option<>
nullable = true
# allow to make parameter immutable
const = true
# parameter is calculated as length of string or array and removed from function declaration
# ( for length of return value use "return" )
length_of = "str"
# change string type. Variants: "utf8", "filename", "os_string"
string_type = "os_string"
# override for return value
[[object.function.return]]
# allow to remove/add Option<> to return value
nullable = true
# convert bool return types to Result<(), glib::BoolError> with
# the given error message on failure
bool_return_is_error = "Function failed doing what it is supposed to do"
# change string type. Variants: "utf8", "filename", "os_string"
string_type = "os_string"
# overwrite type
type = "Gtk.Widget"
[[object.signal]]
name = "activate-link"
# replace trampoline bool return type with `Inhibit`
inhibit = true
ignore = true
version = "3.10"
doc_hidden = true
[[object.signal.parameter]]
name = "path_string"
# allow to use different names in closure
new_name = "path"
# can be also "borrow" and "none": Add some transformation beetween ffi trampoline parameters and rust closure
transformation = "treepath"
nullable = true
[object.signal.return]
nullable = true
# override for properties
[[object.property]]
name = "baseline-position"
version = "3.10"
ignore = true
[[object.property]]
name = "events"
# generate only `connect_property_events_notify`, without `get_property_events` and `set_property_events`
# supported values: "get", "set", "notify"
generate = ["notify"]
Since there are no child properties in .gir
files, it needs to be added for classes manually:
[[object]]
name = "Gtk.SomeClassWithChildProperties"
status = "generate"
# replace parameter name for child in child properties (instead of "child")
child_name = "item"
# define concrete child type (instead of "Widget")
child_type = "Gtk.MenuItem"
[[object.child_prop]]
name = "position"
type = "gint"
doc_hidden = true
For enumerations and bitflags, you can configure the members and mark the type
as #[must_use]
:
[[object]]
name = "Gdk.EventType"
status = "generate"
# generates #[must_use] attribute for the type
must_use = true
# override starting version
version = "3.12"
[[object.member]]
name = "2button_press"
# allows to skip elements with bad names, other members with same value used instead
alias = true
[[object.member]]
name = "touchpad_pinch"
# define starting version when member added
version = "3.18"
For enumerations and bitflags, you can also configure additional #[derive()]
clauses optionally conditioned to a cfg
.
[[object]]
name = "Gst.Format"
status = "generate"
[[object.derive]]
name = "Serialize, Deserialize"
cfg_condition = "feature = \"ser_de\""
Gir auto-detects copy and free functions by looking up type_name_copy
and type_name_free
functions.
If the relevant functions are not named that way, and the type is defined with G_DEFINE_BOXED_TYPE
,
use_boxed_functions=true
can be used to call g_boxed_copy
and g_boxed_free
instead.
[[object]]
name = "GstSdp.SDPMessage"
status = "generate"
# generates `copy` and `free` function by `g_boxed_copy` and `g_boxed_free`
# only works if record has `glib:get-type` defined
use_boxed_functions = true
For global functions, the members can be configured by configuring the Gtk.*
object:
[[object]]
name = "Gtk.*"
status = "generate"
[[object.function]]
name = "stock_list_ids"
# allows to ignore global functions
ignore = true
Note that you must not place Gtk.*
into the generate
array and
additionally configure its members.
You can control the generation of constants in a similar fashion:
[[object]]
name = "Gtk.*"
status = "generate"
[[object.constant]]
pattern = "*"
# No constants will be generated
ignore = true
Constants also support version
and cfg_condition
fields.
In various cases, GObjects or boxed types can be used from multiple threads
and have certain concurrency guarantees. This can be configured with the
concurrency
setting at the top-level options or per object. It will
automatically implement the Send
and Sync
traits for the resulting object
and set appropriate trait bounds for signal callbacks. The default is none
,
and apart from that send
and send+sync
are supported.
[[object]]
# object's fullname
name = "Gtk.SomeClass"
# can be also "manual" and "ignore" but it's simpler to just put the object in the same array
status = "generate"
# concurrency of the object, default is set in the top-level options or
# otherwise "none". Valid values are "none", "send" and "send+sync"
concurrency = "send+sync"
Note that send
is only valid for types that are either not reference counted
(i.e. clone()
copies the object) or that are read-only (i.e. no API for
mutating the object exists). send+sync
is valid if the type can be sent to
different threads and all API allows simultaneous calls from different threads
due to internal locking via e.g. a mutex.
[[object]]
name = "Gtk.Something"
status = "manual"
# Can also be "ref-mut", "ref-immut"
ref_mode = "ref"
When manually generating bindings, it can happen that the reference mode
detected by GIR is different than what was implemented and conversion to the C
types are wrong in autogenerated functions that have such objects as argument.
This can be overridden with the ref_mode
configuration.
To generate the Rust-user API level, The command is very similar to the previous one. It's better to not put this output in the same directory as where the FFI files are. Just run:
cargo run --release -- -c YourGirFile.toml -d ../gir-files -o the-output-directory
Now it should be done. Just go to the output directory (so the-output-directory/auto
in our case) and try to build using cargo build
. Don't forget to update your dependencies in both projects: nothing much to do in the FFI/sys one but the Rust-user API level will need to have a dependency over the FFI/sys one.
Now, at your crate entry point (generally lib.rs
), add the following to include all generated files:
pub use auto::*;
Unfortunately, gir
isn't perfect (yet) and will certainly not be able to generate all the code on its own. So here's what a gir
generated folder looks like:
- your_folder
|
|- Cargo.toml
|- src
|
|- lib.rs
|- auto
|
|- (all files generated by gir)
You can add your manual bindings directly inside the src
folder (at the same level as lib.rs
). Then don't forget to reexport them. Let's say you added a Color
type in a color.rs
file. You need to add in lib.rs
:
// We make the type public for the API users.
pub use color::Color;
mod color;
And finally the last feature! Just run the following command (note the -m doc
at the end):
cargo run --release -- -c YourGirFile.toml -d ../gir-files --doc-target-path the-output-file-name -m doc
It'll generate a markdown file if everything went fine. That's where all this crate's documentation is. If you want to put it back into your crate's source code like "normal" doc comments, run:
> cargo install rustdoc-stripper
> rustdoc-stripper -g -o docs.md
And now your crate should be completely documented as expected!
If you defining traits manually you can add them to "Implements" section for classes and interfaces:
[[object]]
name = "Gtk.Assistant"
status = "generate"
#add link to trait from current crate
manual_traits = ["AssistantExtManual"]
[[object]]
name = "Gtk.Application"
status = "generate"
#add link to trait from other crate
manual_traits = ["gio::ApplicationExtManual"]
gir
now has the ability to generate c-like unions using newly stabilised union
in rustc 1.19. As such this means gir
requires a minimum version rustc of 1.19
Keep in mind that to access union members, you are required to use unsafe
blocks, for example;
union myUnion {
test : u32
}
let testUnion = myUnion { test : 42 };
unsafe { println!("{}", myUnion.test };
This is required as the rust compiler can not guarantee the safety of the union, or that the member being addressed exists. The union RFC is here and the tracking issue is here.