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Dragonfly is a speech recognition framework for Python that makes it convenient to create custom commands to use with speech recognition software. It was written to make it very easy for Python macros, scripts, and applications to interface with speech recognition engines. Its design allows speech commands and grammar objects to be treated as first-class Python objects.
Dragonfly can be used for general programming by voice. It is flexible enough to allow programming in any language, not just Python. It can also be used for speech-enabling applications, automating computer activities and dictating prose.
Dragonfly contains its own powerful framework for defining and executing actions. It includes actions for text input and key-stroke simulation. This framework is cross-platform, working on Windows, macOS and Linux (X11 only). See the actions sub-package documentation for more information, including code examples.
This project is a fork of the original t4ngo/dragonfly project.
Dragonfly currently supports the following speech recognition engines:
- Dragon, a product of Nuance. All versions up to 15 (the latest) should be supported. Home, Professional Individual and previous similar editions of Dragon are supported. Other editions may work too
- Windows Speech Recognition (WSR), included with Microsoft Windows Vista, Windows 7+, and freely available for Windows XP
- Kaldi (under development)
- CMU Pocket Sphinx (with caveats)
Dragonfly's documentation is available online at Read the Docs. The changes in each release are listed in the project's changelog. Dragonfly's FAQ is available in the documentation here. There are also a number of Dragonfly-related questions on Stackoverflow, although many of them are related to issues resolved in the latest version of Dragonfly.
A very simple example of Dragonfly usage is to create a static voice command with a callback that will be called when the command is spoken. This is done as follows:
from dragonfly import Grammar, CompoundRule
# Voice command rule combining spoken form and recognition processing.
class ExampleRule(CompoundRule):
spec = "do something computer" # Spoken form of command.
def _process_recognition(self, node, extras): # Callback when command is spoken.
print("Voice command spoken.")
# Create a grammar which contains and loads the command rule.
grammar = Grammar("example grammar") # Create a grammar to contain the command rule.
grammar.add_rule(ExampleRule()) # Add the command rule to the grammar.
grammar.load() # Load the grammar.
To use this example, save it in a command module in your module loader
directory or Natlink user directory, load it and then say do something
computer. If the speech recognition engine recognized the command, then
Voice command spoken.
will be printed in the Natlink messages window.
If you're not using Dragon, then it will be printed into the console window.
A more common use of Dragonfly is the MappingRule
class, which allows
defining multiple voice commands. The following example is a simple grammar
to be used when Notepad is the foreground window:
from dragonfly import (Grammar, AppContext, MappingRule, Dictation,
Key, Text)
# Voice command rule combining spoken forms and action execution.
class NotepadRule(MappingRule):
# Define the commands and the actions they execute.
mapping = {
"save [file]": Key("c-s"),
"save [file] as": Key("a-f, a/20"),
"save [file] as <text>": Key("a-f, a/20") + Text("%(text)s"),
"find <text>": Key("c-f/20") + Text("%(text)s\n"),
}
# Define the extras list of Dragonfly elements which are available
# to be used in mapping specs and actions.
extras = [
Dictation("text")
]
# Create the grammar and the context under which it'll be active.
context = AppContext(executable="notepad")
grammar = Grammar("Notepad example", context=context)
# Add the command rule to the grammar and load it.
grammar.add_rule(NotepadRule())
grammar.load()
To use this example, save it in a command module in your module loader directory or Natlink user directory, load it, open a Notepad window and then say one of mapping commands. For example, saying save or save file will cause the control and S keys to be pressed.
The example aboves don't show any of Dragonfly's exciting features, such as dynamic speech elements. To learn more about these, please take a look at Dragonfly's online docs.
Dragonfly is a Python package. It can be installed as dragonfly2 using pip:
pip install dragonfly2
The distribution name has been changed to dragonfly2 in order to
upload releases to PyPI.org, but everything can still be imported using
dragonfly. If you use any grammar modules that include something like
pkg_resources.require("dragonfly >= 0.6.5")
, you will need to either
replace dragonfly
with dragonfly2
or remove lines like this
altogether.
If you are installing this on Linux, you will also need to install the
xdotool program for the
Key
and Text
actions to work. Please note that Dragonfly is only
fully functional in an X11 session. Input action classes, application
contexts and the Window
class will not be functional under Wayland.
It is recommended that Wayland users switch to X11.
If you have dragonfly installed under the original dragonfly distribution name, you'll need to remove the old version using:
pip uninstall dragonfly
Dragonfly can also be installed by cloning this repository or downloading it from the releases page and running the following (or similar) command in the project's root directory:
python setup.py install
To use the CMU Pocket Sphinx engine, see the relevant documentation page on it.
If pip fails to install dragonfly2 or any of its required or extra dependencies, then you may need to upgrade pip with the following command:
pip install --upgrade pip
The related resources page of Dragonfly's documentation has a section on command modules which lists various sources.