Attention-refocusing / example_component.py
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"""
Defines helper methods useful for loading and caching Interface examples.
"""
from __future__ import annotations
import ast
import csv
import inspect
import os
import subprocess
import tempfile
import threading
import warnings
from pathlib import Path
from typing import TYPE_CHECKING, Any, Callable, Dict, Iterable, List, Tuple
import matplotlib
import matplotlib.pyplot as plt
import numpy as np
import PIL
import PIL.Image
from gradio import components, processing_utils, routes, utils
from gradio.context import Context
from gradio.documentation import document, set_documentation_group
from gradio.flagging import CSVLogger
if TYPE_CHECKING: # Only import for type checking (to avoid circular imports).
from gradio.components import IOComponent
CACHED_FOLDER = "gradio_cached_examples"
LOG_FILE = "log.csv"
set_documentation_group("helpers")
def create_examples(
examples: List[Any] | List[List[Any]] | str,
inputs: IOComponent | List[IOComponent],
outputs: IOComponent | List[IOComponent] | None = None,
fn: Callable | None = None,
cache_examples: bool = False,
examples_per_page: int = 10,
_api_mode: bool = False,
label: str | None = None,
elem_id: str | None = None,
run_on_click: bool = False,
preprocess: bool = True,
postprocess: bool = True,
batch: bool = False,
):
"""Top-level synchronous function that creates Examples. Provided for backwards compatibility, i.e. so that gr.Examples(...) can be used to create the Examples component."""
examples_obj = Examples(
examples=examples,
inputs=inputs,
outputs=outputs,
fn=fn,
cache_examples=cache_examples,
examples_per_page=examples_per_page,
_api_mode=_api_mode,
label=label,
elem_id=elem_id,
run_on_click=run_on_click,
preprocess=preprocess,
postprocess=postprocess,
batch=batch,
_initiated_directly=False,
)
utils.synchronize_async(examples_obj.create)
return examples_obj
class Examples:
"""
This class is a wrapper over the Dataset component and can be used to create Examples
for Blocks / Interfaces. Populates the Dataset component with examples and
assigns event listener so that clicking on an example populates the input/output
components. Optionally handles example caching for fast inference.
Demos: blocks_inputs, fake_gan
Guides: more_on_examples_and_flagging, using_hugging_face_integrations, image_classification_in_pytorch, image_classification_in_tensorflow, image_classification_with_vision_transformers, create_your_own_friends_with_a_gan
"""
def __init__(
self,
examples: List[Any] | List[List[Any]] | str,
inputs: IOComponent | List[IOComponent],
outputs: IOComponent | List[IOComponent] | None = None,
fn: Callable | None = None,
cache_examples: bool = False,
examples_per_page: int = 10,
_api_mode: bool = False,
label: str | None = "Examples",
elem_id: str | None = None,
run_on_click: bool = False,
preprocess: bool = True,
postprocess: bool = True,
batch: bool = False,
_initiated_directly: bool = True,
):
"""
Parameters:
examples: example inputs that can be clicked to populate specific components. Should be nested list, in which the outer list consists of samples and each inner list consists of an input corresponding to each input component. A string path to a directory of examples can also be provided but it should be within the directory with the python file running the gradio app. If there are multiple input components and a directory is provided, a log.csv file must be present in the directory to link corresponding inputs.
inputs: the component or list of components corresponding to the examples
outputs: optionally, provide the component or list of components corresponding to the output of the examples. Required if `cache` is True.
fn: optionally, provide the function to run to generate the outputs corresponding to the examples. Required if `cache` is True.
cache_examples: if True, caches examples for fast runtime. If True, then `fn` and `outputs` need to be provided
examples_per_page: how many examples to show per page.
label: the label to use for the examples component (by default, "Examples")
elem_id: an optional string that is assigned as the id of this component in the HTML DOM.
run_on_click: if cache_examples is False, clicking on an example does not run the function when an example is clicked. Set this to True to run the function when an example is clicked. Has no effect if cache_examples is True.
preprocess: if True, preprocesses the example input before running the prediction function and caching the output. Only applies if cache_examples is True.
postprocess: if True, postprocesses the example output after running the prediction function and before caching. Only applies if cache_examples is True.
batch: If True, then the function should process a batch of inputs, meaning that it should accept a list of input values for each parameter. Used only if cache_examples is True.
"""
if _initiated_directly:
warnings.warn(
"Please use gr.Examples(...) instead of gr.examples.Examples(...) to create the Examples.",
)
if cache_examples and (fn is None or outputs is None):
raise ValueError("If caching examples, `fn` and `outputs` must be provided")
if not isinstance(inputs, list):
inputs = [inputs]
if outputs and not isinstance(outputs, list):
outputs = [outputs]
working_directory = Path().absolute()
if examples is None:
raise ValueError("The parameter `examples` cannot be None")
elif isinstance(examples, list) and (
len(examples) == 0 or isinstance(examples[0], list)
):
pass
elif (
isinstance(examples, list) and len(inputs) == 1
): # If there is only one input component, examples can be provided as a regular list instead of a list of lists
examples = [[e] for e in examples]
elif isinstance(examples, str):
if not Path(examples).exists():
raise FileNotFoundError(
"Could not find examples directory: " + examples
)
working_directory = examples
if not (Path(examples) / LOG_FILE).exists():
if len(inputs) == 1:
examples = [[e] for e in os.listdir(examples)]
else:
raise FileNotFoundError(
"Could not find log file (required for multiple inputs): "
+ LOG_FILE
)
else:
with open(Path(examples) / LOG_FILE) as logs:
examples = list(csv.reader(logs))
examples = [
examples[i][: len(inputs)] for i in range(1, len(examples))
] # remove header and unnecessary columns
else:
raise ValueError(
"The parameter `examples` must either be a string directory or a list"
"(if there is only 1 input component) or (more generally), a nested "
"list, where each sublist represents a set of inputs."
)
input_has_examples = [False] * len(inputs)
for example in examples:
for idx, example_for_input in enumerate(example):
if not (example_for_input is None):
try:
input_has_examples[idx] = True
except IndexError:
pass # If there are more example components than inputs, ignore. This can sometimes be intentional (e.g. loading from a log file where outputs and timestamps are also logged)
inputs_with_examples = [
inp for (inp, keep) in zip(inputs, input_has_examples) if keep
]
non_none_examples = [
[ex for (ex, keep) in zip(example, input_has_examples) if keep]
for example in examples
]
self.examples = examples
self.non_none_examples = non_none_examples
self.inputs = inputs
self.inputs_with_examples = inputs_with_examples
self.outputs = outputs
self.fn = fn
self.cache_examples = cache_examples
self._api_mode = _api_mode
self.preprocess = preprocess
self.postprocess = postprocess
self.batch = batch
with utils.set_directory(working_directory):
self.processed_examples = [
[
component.postprocess(sample)
for component, sample in zip(inputs, example)
]
for example in examples
]
self.non_none_processed_examples = [
[ex for (ex, keep) in zip(example, input_has_examples) if keep]
for example in self.processed_examples
]
if cache_examples:
for example in self.examples:
if len([ex for ex in example if ex is not None]) != len(self.inputs):
warnings.warn(
"Examples are being cached but not all input components have "
"example values. This may result in an exception being thrown by "
"your function. If you do get an error while caching examples, make "
"sure all of your inputs have example values for all of your examples "
"or you provide default values for those particular parameters in your function."
)
break
with utils.set_directory(working_directory):
self.dataset = components.Dataset(
components=inputs_with_examples,
samples=non_none_examples,
type="index",
label=label,
samples_per_page=examples_per_page,
elem_id=elem_id,
)
self.cached_folder = Path(CACHED_FOLDER) / str(self.dataset._id)
self.cached_file = Path(self.cached_folder) / "log.csv"
self.cache_examples = cache_examples
self.run_on_click = run_on_click
async def create(self) -> None:
"""Caches the examples if self.cache_examples is True and creates the Dataset
component to hold the examples"""
async def load_example(example_id):
# import pdb; pdb.set_trace()
if self.cache_examples:
processed_example = self.non_none_processed_examples[
example_id
] + await self.load_from_cache(example_id)
else:
processed_example = self.non_none_processed_examples[example_id]
return utils.resolve_singleton(processed_example)
if Context.root_block:
if self.cache_examples and self.outputs:
targets = self.inputs_with_examples + self.outputs
else:
targets = self.inputs_with_examples
self.dataset.click(
load_example,
inputs=[self.dataset],
outputs=targets, # type: ignore
postprocess=False,
queue=False,
)
self.dataset.click(
self.fn,
inputs=[self.dataset],
outputs=targets, # type: ignore
postprocess=False,
queue=False,
)
# if self.run_on_click and not self.cache_examples:
# if self.fn is None:
# raise ValueError("Cannot run_on_click if no function is provided")
# self.dataset.click(
# self.fn,
# inputs=self.inputs, # type: ignore
# outputs=self.outputs, # type: ignore
# )
if self.cache_examples:
await self.cache()
async def cache(self) -> None:
"""
Caches all of the examples so that their predictions can be shown immediately.
"""
if Path(self.cached_file).exists():
print(
f"Using cache from '{utils.abspath(self.cached_folder)}' directory. If method or examples have changed since last caching, delete this folder to clear cache."
)
else:
if Context.root_block is None:
raise ValueError("Cannot cache examples if not in a Blocks context")
print(f"Caching examples at: '{utils.abspath(self.cached_folder)}'")
cache_logger = CSVLogger()
# create a fake dependency to process the examples and get the predictions
dependency = Context.root_block.set_event_trigger(
event_name="fake_event",
fn=self.fn,
inputs=self.inputs_with_examples, # type: ignore
outputs=self.outputs, # type: ignore
preprocess=self.preprocess and not self._api_mode,
postprocess=self.postprocess and not self._api_mode,
batch=self.batch,
)
fn_index = Context.root_block.dependencies.index(dependency)
assert self.outputs is not None
cache_logger.setup(self.outputs, self.cached_folder)
for example_id, _ in enumerate(self.examples):
processed_input = self.processed_examples[example_id]
if self.batch:
processed_input = [[value] for value in processed_input]
prediction = await Context.root_block.process_api(
fn_index=fn_index, inputs=processed_input, request=None, state={}
)
output = prediction["data"]
if self.batch:
output = [value[0] for value in output]
cache_logger.flag(output)
# Remove the "fake_event" to prevent bugs in loading interfaces from spaces
Context.root_block.dependencies.remove(dependency)
Context.root_block.fns.pop(fn_index)
async def load_from_cache(self, example_id: int) -> List[Any]:
"""Loads a particular cached example for the interface.
Parameters:
example_id: The id of the example to process (zero-indexed).
"""
# import pdb; pdb.set_trace()
with open(self.cached_file, encoding="utf-8") as cache:
examples = list(csv.reader(cache))
example = examples[example_id + 1] # +1 to adjust for header
output = []
assert self.outputs is not None
for component, value in zip(self.outputs, example):
try:
value_as_dict = ast.literal_eval(value)
assert utils.is_update(value_as_dict)
output.append(value_as_dict)
except (ValueError, TypeError, SyntaxError, AssertionError):
output.append(component.serialize(value, self.cached_folder))
return output
class TrackedIterable:
def __init__(
self,
iterable: Iterable | None,
index: int | None,
length: int | None,
desc: str | None,
unit: str | None,
_tqdm=None,
progress: float | None = None,
) -> None:
self.iterable = iterable
self.index = index
self.length = length
self.desc = desc
self.unit = unit
self._tqdm = _tqdm
self.progress = progress
@document("__call__", "tqdm")
class Progress(Iterable):
"""
The Progress class provides a custom progress tracker that is used in a function signature.
To attach a Progress tracker to a function, simply add a parameter right after the input parameters that has a default value set to a `gradio.Progress()` instance.
The Progress tracker can then be updated in the function by calling the Progress object or using the `tqdm` method on an Iterable.
The Progress tracker is currently only available with `queue()`.
Example:
import gradio as gr
import time
def my_function(x, progress=gr.Progress()):
progress(0, desc="Starting...")
time.sleep(1)
for i in progress.tqdm(range(100)):
time.sleep(0.1)
return x
gr.Interface(my_function, gr.Textbox(), gr.Textbox()).queue().launch()
Demos: progress
"""
def __init__(
self,
track_tqdm: bool = False,
_callback: Callable | None = None, # for internal use only
_event_id: str | None = None,
):
"""
Parameters:
track_tqdm: If True, the Progress object will track any tqdm.tqdm iterations with the tqdm library in the function.
"""
self.track_tqdm = track_tqdm
self._callback = _callback
self._event_id = _event_id
self.iterables: List[TrackedIterable] = []
def __len__(self):
return self.iterables[-1].length
def __iter__(self):
return self
def __next__(self):
"""
Updates progress tracker with next item in iterable.
"""
if self._callback:
current_iterable = self.iterables[-1]
while (
not hasattr(current_iterable.iterable, "__next__")
and len(self.iterables) > 0
):
current_iterable = self.iterables.pop()
self._callback(
event_id=self._event_id,
iterables=self.iterables,
)
assert current_iterable.index is not None, "Index not set."
current_iterable.index += 1
try:
return next(current_iterable.iterable) # type: ignore
except StopIteration:
self.iterables.pop()
raise StopIteration
else:
return self
def __call__(
self,
progress: float | Tuple[int, int | None] | None,
desc: str | None = None,
total: int | None = None,
unit: str = "steps",
_tqdm=None,
):
"""
Updates progress tracker with progress and message text.
Parameters:
progress: If float, should be between 0 and 1 representing completion. If Tuple, first number represents steps completed, and second value represents total steps or None if unknown. If None, hides progress bar.
desc: description to display.
total: estimated total number of steps.
unit: unit of iterations.
"""
if self._callback:
if isinstance(progress, tuple):
index, total = progress
progress = None
else:
index = None
self._callback(
event_id=self._event_id,
iterables=self.iterables
+ [TrackedIterable(None, index, total, desc, unit, _tqdm, progress)],
)
else:
return progress
def tqdm(
self,
iterable: Iterable | None,
desc: str | None = None,
total: int | None = None,
unit: str = "steps",
_tqdm=None,
*args,
**kwargs,
):
"""
Attaches progress tracker to iterable, like tqdm.
Parameters:
iterable: iterable to attach progress tracker to.
desc: description to display.
total: estimated total number of steps.
unit: unit of iterations.
"""
if self._callback:
if iterable is None:
new_iterable = TrackedIterable(None, 0, total, desc, unit, _tqdm)
self.iterables.append(new_iterable)
self._callback(event_id=self._event_id, iterables=self.iterables)
return self
length = len(iterable) if hasattr(iterable, "__len__") else None # type: ignore
self.iterables.append(
TrackedIterable(iter(iterable), 0, length, desc, unit, _tqdm)
)
return self
def update(self, n=1):
"""
Increases latest iterable with specified number of steps.
Parameters:
n: number of steps completed.
"""
if self._callback and len(self.iterables) > 0:
current_iterable = self.iterables[-1]
assert current_iterable.index is not None, "Index not set."
current_iterable.index += n
self._callback(
event_id=self._event_id,
iterables=self.iterables,
)
else:
return
def close(self, _tqdm):
"""
Removes iterable with given _tqdm.
"""
if self._callback:
for i in range(len(self.iterables)):
if id(self.iterables[i]._tqdm) == id(_tqdm):
self.iterables.pop(i)
break
self._callback(
event_id=self._event_id,
iterables=self.iterables,
)
else:
return
def create_tracker(root_blocks, event_id, fn, track_tqdm):
progress = Progress(_callback=root_blocks._queue.set_progress, _event_id=event_id)
if not track_tqdm:
return progress, fn
try:
_tqdm = __import__("tqdm")
except ModuleNotFoundError:
return progress, fn
if not hasattr(root_blocks, "_progress_tracker_per_thread"):
root_blocks._progress_tracker_per_thread = {}
def init_tqdm(self, iterable=None, desc=None, *args, **kwargs):
self._progress = root_blocks._progress_tracker_per_thread.get(
threading.get_ident()
)
if self._progress is not None:
self._progress.event_id = event_id
self._progress.tqdm(iterable, desc, _tqdm=self, *args, **kwargs)
kwargs["file"] = open(os.devnull, "w")
self.__init__orig__(iterable, desc, *args, **kwargs)
def iter_tqdm(self):
if self._progress is not None:
return self._progress
else:
return self.__iter__orig__()
def update_tqdm(self, n=1):
if self._progress is not None:
self._progress.update(n)
return self.__update__orig__(n)
def close_tqdm(self):
if self._progress is not None:
self._progress.close(self)
return self.__close__orig__()
def exit_tqdm(self, exc_type, exc_value, traceback):
if self._progress is not None:
self._progress.close(self)
return self.__exit__orig__(exc_type, exc_value, traceback)
if not hasattr(_tqdm.tqdm, "__init__orig__"):
_tqdm.tqdm.__init__orig__ = _tqdm.tqdm.__init__
_tqdm.tqdm.__init__ = init_tqdm
if not hasattr(_tqdm.tqdm, "__update__orig__"):
_tqdm.tqdm.__update__orig__ = _tqdm.tqdm.update
_tqdm.tqdm.update = update_tqdm
if not hasattr(_tqdm.tqdm, "__close__orig__"):
_tqdm.tqdm.__close__orig__ = _tqdm.tqdm.close
_tqdm.tqdm.close = close_tqdm
if not hasattr(_tqdm.tqdm, "__exit__orig__"):
_tqdm.tqdm.__exit__orig__ = _tqdm.tqdm.__exit__
_tqdm.tqdm.__exit__ = exit_tqdm
if not hasattr(_tqdm.tqdm, "__iter__orig__"):
_tqdm.tqdm.__iter__orig__ = _tqdm.tqdm.__iter__
_tqdm.tqdm.__iter__ = iter_tqdm
if hasattr(_tqdm, "auto") and hasattr(_tqdm.auto, "tqdm"):
_tqdm.auto.tqdm = _tqdm.tqdm
def tracked_fn(*args):
thread_id = threading.get_ident()
root_blocks._progress_tracker_per_thread[thread_id] = progress
response = fn(*args)
del root_blocks._progress_tracker_per_thread[thread_id]
return response
return progress, tracked_fn
def special_args(
fn: Callable,
inputs: List[Any] | None = None,
request: routes.Request | None = None,
):
"""
Checks if function has special arguments Request (via annotation) or Progress (via default value).
If inputs is provided, these values will be loaded into the inputs array.
Parameters:
block_fn: function to check.
inputs: array to load special arguments into.
request: request to load into inputs.
Returns:
updated inputs, request index, progress index
"""
signature = inspect.signature(fn)
positional_args = []
for i, param in enumerate(signature.parameters.values()):
if param.kind not in (param.POSITIONAL_ONLY, param.POSITIONAL_OR_KEYWORD):
break
positional_args.append(param)
progress_index = None
for i, param in enumerate(positional_args):
if isinstance(param.default, Progress):
progress_index = i
if inputs is not None:
inputs.insert(i, param.default)
elif param.annotation == routes.Request:
if inputs is not None:
inputs.insert(i, request)
if inputs is not None:
while len(inputs) < len(positional_args):
i = len(inputs)
param = positional_args[i]
if param.default == param.empty:
warnings.warn("Unexpected argument. Filling with None.")
inputs.append(None)
else:
inputs.append(param.default)
return inputs or [], progress_index
@document()
def update(**kwargs) -> dict:
"""
Updates component properties. When a function passed into a Gradio Interface or a Blocks events returns a typical value, it updates the value of the output component. But it is also possible to update the properties of an output component (such as the number of lines of a `Textbox` or the visibility of an `Image`) by returning the component's `update()` function, which takes as parameters any of the constructor parameters for that component.
This is a shorthand for using the update method on a component.
For example, rather than using gr.Number.update(...) you can just use gr.update(...).
Note that your editor's autocompletion will suggest proper parameters
if you use the update method on the component.
Demos: blocks_essay, blocks_update, blocks_essay_update
Parameters:
kwargs: Key-word arguments used to update the component's properties.
Example:
# Blocks Example
import gradio as gr
with gr.Blocks() as demo:
radio = gr.Radio([1, 2, 4], label="Set the value of the number")
number = gr.Number(value=2, interactive=True)
radio.change(fn=lambda value: gr.update(value=value), inputs=radio, outputs=number)
demo.launch()
# Interface example
import gradio as gr
def change_textbox(choice):
if choice == "short":
return gr.Textbox.update(lines=2, visible=True)
elif choice == "long":
return gr.Textbox.update(lines=8, visible=True)
else:
return gr.Textbox.update(visible=False)
gr.Interface(
change_textbox,
gr.Radio(
["short", "long", "none"], label="What kind of essay would you like to write?"
),
gr.Textbox(lines=2),
live=True,
).launch()
"""
kwargs["__type__"] = "generic_update"
return kwargs
def skip() -> dict:
return update()
@document()
def make_waveform(
audio: str | Tuple[int, np.ndarray],
*,
bg_color: str = "#f3f4f6",
bg_image: str | None = None,
fg_alpha: float = 0.75,
bars_color: str | Tuple[str, str] = ("#fbbf24", "#ea580c"),
bar_count: int = 50,
bar_width: float = 0.6,
):
"""
Generates a waveform video from an audio file. Useful for creating an easy to share audio visualization. The output should be passed into a `gr.Video` component.
Parameters:
audio: Audio file path or tuple of (sample_rate, audio_data)
bg_color: Background color of waveform (ignored if bg_image is provided)
bg_image: Background image of waveform
fg_alpha: Opacity of foreground waveform
bars_color: Color of waveform bars. Can be a single color or a tuple of (start_color, end_color) of gradient
bar_count: Number of bars in waveform
bar_width: Width of bars in waveform. 1 represents full width, 0.5 represents half width, etc.
Returns:
A filepath to the output video.
"""
if isinstance(audio, str):
audio_file = audio
audio = processing_utils.audio_from_file(audio)
else:
tmp_wav = tempfile.NamedTemporaryFile(suffix=".wav", delete=False)
processing_utils.audio_to_file(audio[0], audio[1], tmp_wav.name)
audio_file = tmp_wav.name
duration = round(len(audio[1]) / audio[0], 4)
# Helper methods to create waveform
def hex_to_RGB(hex_str):
return [int(hex_str[i : i + 2], 16) for i in range(1, 6, 2)]
def get_color_gradient(c1, c2, n):
assert n > 1
c1_rgb = np.array(hex_to_RGB(c1)) / 255
c2_rgb = np.array(hex_to_RGB(c2)) / 255
mix_pcts = [x / (n - 1) for x in range(n)]
rgb_colors = [((1 - mix) * c1_rgb + (mix * c2_rgb)) for mix in mix_pcts]
return [
"#" + "".join([format(int(round(val * 255)), "02x") for val in item])
for item in rgb_colors
]
# Reshape audio to have a fixed number of bars
samples = audio[1]
if len(samples.shape) > 1:
samples = np.mean(samples, 1)
bins_to_pad = bar_count - (len(samples) % bar_count)
samples = np.pad(samples, [(0, bins_to_pad)])
samples = np.reshape(samples, (bar_count, -1))
samples = np.abs(samples)
samples = np.max(samples, 1)
matplotlib.use("Agg")
plt.clf()
# Plot waveform
color = (
bars_color
if isinstance(bars_color, str)
else get_color_gradient(bars_color[0], bars_color[1], bar_count)
)
plt.bar(
np.arange(0, bar_count),
samples * 2,
bottom=(-1 * samples),
width=bar_width,
color=color,
)
plt.axis("off")
plt.margins(x=0)
tmp_img = tempfile.NamedTemporaryFile(suffix=".png", delete=False)
savefig_kwargs: Dict[str, Any] = {"bbox_inches": "tight"}
if bg_image is not None:
savefig_kwargs["transparent"] = True
else:
savefig_kwargs["facecolor"] = bg_color
plt.savefig(tmp_img.name, **savefig_kwargs)
waveform_img = PIL.Image.open(tmp_img.name)
waveform_img = waveform_img.resize((1000, 200))
# Composite waveform with background image
if bg_image is not None:
waveform_array = np.array(waveform_img)
waveform_array[:, :, 3] = waveform_array[:, :, 3] * fg_alpha
waveform_img = PIL.Image.fromarray(waveform_array)
bg_img = PIL.Image.open(bg_image)
waveform_width, waveform_height = waveform_img.size
bg_width, bg_height = bg_img.size
if waveform_width != bg_width:
bg_img = bg_img.resize(
(waveform_width, 2 * int(bg_height * waveform_width / bg_width / 2))
)
bg_width, bg_height = bg_img.size
composite_height = max(bg_height, waveform_height)
composite = PIL.Image.new("RGBA", (waveform_width, composite_height), "#FFFFFF")
composite.paste(bg_img, (0, composite_height - bg_height))
composite.paste(
waveform_img, (0, composite_height - waveform_height), waveform_img
)
composite.save(tmp_img.name)
img_width, img_height = composite.size
else:
img_width, img_height = waveform_img.size
waveform_img.save(tmp_img.name)
# Convert waveform to video with ffmpeg
output_mp4 = tempfile.NamedTemporaryFile(suffix=".mp4", delete=False)
ffmpeg_cmd = f"""ffmpeg -loop 1 -i {tmp_img.name} -i {audio_file} -vf "color=c=#FFFFFF77:s={img_width}x{img_height}[bar];[0][bar]overlay=-w+(w/{duration})*t:H-h:shortest=1" -t {duration} -y {output_mp4.name}"""
subprocess.call(ffmpeg_cmd, shell=True)
return output_mp4.name