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plotting.py
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plotting.py
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# Copyright The Lightning team.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import argparse
import matplotlib.pyplot as plt
import torch
def pesq_example() -> tuple:
"""Plot PESQ audio example."""
from torchmetrics.audio.pesq import PerceptualEvaluationSpeechQuality
p = lambda: torch.randn(8000)
t = lambda: torch.randn(8000)
# plot single value
metric = PerceptualEvaluationSpeechQuality(8000, "nb")
metric.update(p(), t())
fig, ax = metric.plot()
# plot multiple values
metric = PerceptualEvaluationSpeechQuality(16000, "wb")
vals = [metric(p(), t()) for _ in range(10)]
fig, ax = metric.plot(vals)
return fig, ax
def pit_example() -> tuple:
"""Plot PIT audio example."""
from torchmetrics.audio.pit import PermutationInvariantTraining
from torchmetrics.functional import scale_invariant_signal_noise_ratio
p = lambda: torch.randn(3, 2, 5)
t = lambda: torch.randn(3, 2, 5)
# plot single value
metric = PermutationInvariantTraining(scale_invariant_signal_noise_ratio, "max")
metric.update(p(), t())
fig, ax = metric.plot()
# plot multiple values
metric = PermutationInvariantTraining(scale_invariant_signal_noise_ratio, "max")
vals = [metric(p(), t()) for _ in range(10)]
fig, ax = metric.plot(vals)
return fig, ax
def sdr_example() -> tuple:
"""Plot SDR audio example."""
from torchmetrics.audio.sdr import SignalDistortionRatio
p = lambda: torch.randn(8000)
t = lambda: torch.randn(8000)
# plot single value
metric = SignalDistortionRatio()
metric.update(p(), t())
fig, ax = metric.plot()
# plot multiple values
metric = SignalDistortionRatio()
vals = [metric(p(), t()) for _ in range(10)]
fig, ax = metric.plot(vals)
return fig, ax
def si_sdr_example() -> tuple:
"""Plot SI-SDR audio example."""
from torchmetrics.audio.sdr import ScaleInvariantSignalDistortionRatio
p = lambda: torch.randn(5)
t = lambda: torch.randn(5)
# plot single value
metric = ScaleInvariantSignalDistortionRatio()
metric.update(p(), t())
fig, ax = metric.plot()
# plot multiple values
metric = ScaleInvariantSignalDistortionRatio()
vals = [metric(p(), t()) for _ in range(10)]
fig, ax = metric.plot(vals)
return fig, ax
def snr_example() -> tuple:
"""Plot SNR audio example."""
from torchmetrics.audio.snr import SignalNoiseRatio
p = lambda: torch.randn(4)
t = lambda: torch.randn(4)
# plot single value
metric = SignalNoiseRatio()
metric.update(p(), t())
fig, ax = metric.plot()
# plot multiple values
metric = SignalNoiseRatio()
vals = [metric(p(), t()) for _ in range(10)]
fig, ax = metric.plot(vals)
return fig, ax
def si_snr_example() -> tuple:
"""Plot SI-SNR example."""
from torchmetrics.audio.snr import ScaleInvariantSignalNoiseRatio
p = lambda: torch.randn(4)
t = lambda: torch.randn(4)
# plot single value
metric = ScaleInvariantSignalNoiseRatio()
metric.update(p(), t())
fig, ax = metric.plot()
# plot multiple values
metric = ScaleInvariantSignalNoiseRatio()
vals = [metric(p(), t()) for _ in range(10)]
fig, ax = metric.plot(vals)
return fig, ax
def stoi_example() -> tuple:
"""Plot STOI example."""
from torchmetrics.audio.stoi import ShortTimeObjectiveIntelligibility
p = lambda: torch.randn(8000)
t = lambda: torch.randn(8000)
# plot single value
metric = ShortTimeObjectiveIntelligibility(8000, False)
metric.update(p(), t())
fig, ax = metric.plot()
# plot multiple values
metric = ShortTimeObjectiveIntelligibility(8000, False)
vals = [metric(p(), t()) for _ in range(10)]
fig, ax = metric.plot(vals)
return fig, ax
def accuracy_example() -> tuple:
"""Plot Accuracy example."""
from torchmetrics.classification import MulticlassAccuracy
p = lambda: torch.randn(20, 5)
t = lambda: torch.randint(5, (20,))
# plot single value
metric = MulticlassAccuracy(num_classes=5)
metric.update(p(), t())
fig, ax = metric.plot()
# plot a value per class
metric = MulticlassAccuracy(num_classes=5, average=None)
metric.update(p(), t())
fig, ax = metric.plot()
# plot two values as a series
metric = MulticlassAccuracy(num_classes=5)
val1 = metric(p(), t())
val2 = metric(p(), t())
fig, ax = metric.plot([val1, val2])
# plot a series of values per class
metric = MulticlassAccuracy(num_classes=5, average=None)
val1 = metric(p(), t())
val2 = metric(p(), t())
fig, ax = metric.plot([val1, val2])
return fig, ax
def mean_squared_error_example() -> tuple:
"""Plot mean squared error example."""
from torchmetrics.regression import MeanSquaredError
p = lambda: torch.randn(20)
t = lambda: torch.randn(20)
# single val
metric = MeanSquaredError()
metric.update(p(), t())
fig, ax = metric.plot()
# multiple values
metric = MeanSquaredError()
vals = [metric(p(), t()) for _ in range(10)]
fig, ax = metric.plot(vals)
return fig, ax
def confusion_matrix_example() -> tuple:
"""Plot confusion matrix example."""
from torchmetrics.classification import MulticlassConfusionMatrix
p = lambda: torch.randn(20, 5)
t = lambda: torch.randint(5, (20,))
# plot single value
metric = MulticlassConfusionMatrix(num_classes=5)
metric.update(p(), t())
fig, ax = metric.plot()
return fig, ax
def spectral_distortion_index_example() -> tuple:
"""Plot spectral distortion index example example."""
from torchmetrics.image.d_lambda import SpectralDistortionIndex
p = lambda: torch.rand([16, 3, 16, 16])
t = lambda: torch.rand([16, 3, 16, 16])
# plot single value
metric = SpectralDistortionIndex()
metric.update(p(), t())
fig, ax = metric.plot()
# plot multiple values
metric = SpectralDistortionIndex()
vals = [metric(p(), t()) for _ in range(10)]
fig, ax = metric.plot(vals)
return fig, ax
def error_relative_global_dimensionless_synthesis() -> tuple:
"""Plot error relative global dimensionless synthesis example."""
from torchmetrics.image.ergas import ErrorRelativeGlobalDimensionlessSynthesis
gen = torch.manual_seed(42)
p = lambda: torch.rand([16, 1, 16, 16], generator=gen)
t = lambda: torch.rand([16, 1, 16, 16], generator=gen)
# plot single value
metric = ErrorRelativeGlobalDimensionlessSynthesis()
metric.update(p(), t())
fig, ax = metric.plot()
# plot multiple values
metric = ErrorRelativeGlobalDimensionlessSynthesis()
vals = [metric(p(), t()) for _ in range(10)]
fig, ax = metric.plot(vals)
return fig, ax
def peak_signal_noise_ratio() -> tuple:
"""Plot peak signal noise ratio example."""
from torchmetrics.image.psnr import PeakSignalNoiseRatio
p = lambda: torch.tensor([[0.0, 1.0], [2.0, 3.0]])
t = lambda: torch.tensor([[3.0, 2.0], [1.0, 0.0]])
# plot single value
metric = PeakSignalNoiseRatio()
metric.update(p(), t())
fig, ax = metric.plot()
# plot multiple values
metric = PeakSignalNoiseRatio()
vals = [metric(p(), t()) for _ in range(10)]
fig, ax = metric.plot(vals)
return fig, ax
def spectral_angle_mapper() -> tuple:
"""Plot spectral angle mapper example."""
from torchmetrics.image.sam import SpectralAngleMapper
gen = torch.manual_seed(42)
p = lambda: torch.rand([16, 3, 16, 16], generator=gen)
t = lambda: torch.rand([16, 3, 16, 16], generator=gen)
# plot single value
metric = SpectralAngleMapper()
metric.update(p(), t())
fig, ax = metric.plot()
# plot multiple values
metric = SpectralAngleMapper()
vals = [metric(p(), t()) for _ in range(10)]
fig, ax = metric.plot(vals)
return fig, ax
def structural_similarity_index_measure() -> tuple:
"""Plot structural similarity index measure example."""
from torchmetrics.image.ssim import StructuralSimilarityIndexMeasure
gen = torch.manual_seed(42)
p = lambda: torch.rand([3, 3, 256, 256], generator=gen)
t = lambda: p() * 0.75
# plot single value
metric = StructuralSimilarityIndexMeasure()
metric.update(p(), t())
fig, ax = metric.plot()
# plot multiple values
metric = StructuralSimilarityIndexMeasure()
vals = [metric(p(), t()) for _ in range(10)]
fig, ax = metric.plot(vals)
return fig, ax
def multiscale_structural_similarity_index_measure() -> tuple:
"""Plot multiscale structural similarity index measure example."""
from torchmetrics.image.ssim import MultiScaleStructuralSimilarityIndexMeasure
gen = torch.manual_seed(42)
p = lambda: torch.rand([3, 3, 256, 256], generator=gen)
t = lambda: p() * 0.75
# plot single value
metric = MultiScaleStructuralSimilarityIndexMeasure()
metric.update(p(), t())
fig, ax = metric.plot()
# plot multiple values
metric = MultiScaleStructuralSimilarityIndexMeasure()
vals = [metric(p(), t()) for _ in range(10)]
fig, ax = metric.plot(vals)
return fig, ax
def universal_image_quality_index() -> tuple:
"""Plot universal image quality index example."""
from torchmetrics.image.uqi import UniversalImageQualityIndex
p = lambda: torch.rand([16, 1, 16, 16])
t = lambda: p() * 0.75
# plot single value
metric = UniversalImageQualityIndex()
metric.update(p(), t())
fig, ax = metric.plot()
# plot multiple values
metric = UniversalImageQualityIndex()
vals = [metric(p(), t()) for _ in range(10)]
fig, ax = metric.plot(vals)
return fig, ax
def mean_average_precision() -> tuple:
"""Plot MAP metric."""
from torchmetrics.detection.mean_ap import MeanAveragePrecision
preds = lambda: [
{
"boxes": torch.tensor([[258.0, 41.0, 606.0, 285.0]]) + torch.randint(10, (1, 4)),
"scores": torch.tensor([0.536]) + 0.1 * torch.rand(1),
"labels": torch.tensor([0]),
}
]
target = [
{
"boxes": torch.tensor([[214.0, 41.0, 562.0, 285.0]]),
"labels": torch.tensor([0]),
}
]
# plot single value
metric = MeanAveragePrecision()
metric.update(preds(), target)
fig, ax = metric.plot()
# plot multiple values
metric = MeanAveragePrecision()
vals = [metric(preds(), target) for _ in range(10)]
fig, ax = metric.plot(vals)
return fig, ax
def roc_example() -> tuple:
"""Plot roc metric."""
from torchmetrics.classification import BinaryROC, MulticlassROC, MultilabelROC
p = lambda: torch.rand(20)
t = lambda: torch.randint(2, (20,))
metric = BinaryROC()
metric.update(p(), t())
fig, ax = metric.plot()
p = lambda: torch.randn(200, 5)
t = lambda: torch.randint(5, (200,))
metric = MulticlassROC(5)
metric.update(p(), t())
fig, ax = metric.plot()
p = lambda: torch.rand(20, 2)
t = lambda: torch.randint(2, (20, 2))
metric = MultilabelROC(2)
metric.update(p(), t())
return fig, ax
if __name__ == "__main__":
metrics_func = {
"accuracy": accuracy_example,
"roc": roc_example,
"pesq": pesq_example,
"pit": pit_example,
"sdr": sdr_example,
"si-sdr": si_sdr_example,
"snr": snr_example,
"si-snr": si_snr_example,
"stoi": stoi_example,
"mean_squared_error": mean_squared_error_example,
"mean_average_precision": mean_average_precision,
"confusion_matrix": confusion_matrix_example,
"spectral_distortion_index": spectral_distortion_index_example,
"error_relative_global_dimensionless_synthesis": error_relative_global_dimensionless_synthesis,
"peak_signal_noise_ratio": peak_signal_noise_ratio,
"spectral_angle_mapper": spectral_angle_mapper,
"structural_similarity_index_measure": structural_similarity_index_measure,
"multiscale_structural_similarity_index_measure": multiscale_structural_similarity_index_measure,
"universal_image_quality_index": universal_image_quality_index,
}
parser = argparse.ArgumentParser(description="Example script for plotting metrics.")
parser.add_argument("metric", type=str, nargs="?", choices=list(metrics_func.keys()), default="accuracy")
args = parser.parse_args()
fig, ax = metrics_func[args.metric]()
plt.show()