XDHDD commited on
Commit
f89fe5c
1 Parent(s): d5b9a4b

Update app.py

Browse files
Files changed (1) hide show
  1. app.py +24 -1
app.py CHANGED
@@ -454,8 +454,31 @@ if st.button('Сгенерировать потери'):
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  #st.bar_chart(df_1, x="Audio", y="PLCMOSv2")
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  #st.bar_chart(df_1, x="Audio", y="WER")
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- #col1, col2, col3, col4, col5 = st.columns(5)
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  #col1.metric("PESQ", value = psq_mas[-1], delta = psq_mas[-1] - psq_mas[-2])
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  #col2.metric("STOI", value = stoi_mass[-1], delta = stoi_mass[-1] - stoi_mass[-2])
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  #col3.metric("PLCMOSv1", value = PLC_massv1[-1], delta = PLC_massv1[-1] - PLC_massv1[-2])
 
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  #st.bar_chart(df_1, x="Audio", y="PLCMOSv2")
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  #st.bar_chart(df_1, x="Audio", y="WER")
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+ col1, col2, col3, col4, col5 = st.columns(5)
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+ st.write("Original")
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+ col1.metric("PESQ", value = psq_mas[0])
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+ col2.metric("STOI", value = stoi_mass[0])
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+ col3.metric("PLCMOSv1", value = PLC_massv1[0])
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+ col4.metric("PLCMOSv2", value = PLC_massv2[0])
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+ col5.metric("WER", value = WER_mass[0])
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+
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+
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+ col1, col2, col3, col4, col5 = st.columns(5)
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+ st.write("Lossy")
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+ col1.metric("PESQ", value = psq_mas[1], delta = (abs(psq_mas[1] - psq_mas[0]) / psq_mas[0]) * 100.0)
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+ col2.metric("STOI", value = stoi_mass[1], delta = (abs(stoi_mass[1] - stoi_mass[0]) / stoi_mass[0]) * 100.0)
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+ col3.metric("PLCMOSv1", value = PLC_massv1[1], delta = (abs(PLC_massv1[1] - PLC_massv1[0]) / PLC_massv1[0]) * 100.0)
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+ col4.metric("PLCMOSv2", value = PLC_massv2[1], delta = (abs(PLC_massv2[1] - PLC_massv2[0]) / PLC_massv2[0]) * 100.0)
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+ col5.metric("WER", value = WER_mass[1], delta = (abs(WER_mass[1] - WER_mass[0]) / WER_mass[0]) * 100.0, delta_color="inverse)
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+
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+ col1, col2, col3, col4, col5 = st.columns(5)
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+ st.write("Enhanced")
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+ col1.metric("PESQ", value = psq_mas[2], delta = (abs(psq_mas[2] - psq_mas[1]) / psq_mas[1]) * 100.0)
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+ col2.metric("STOI", value = stoi_mass[2], delta = (abs(stoi_mass[2] - stoi_mass[1]) / stoi_mass[1]) * 100.0)
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+ col3.metric("PLCMOSv1", value = PLC_massv1[2], delta = (abs(PLC_massv1[2] - PLC_massv1[1]) / PLC_massv1[1]) * 100.0)
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+ col4.metric("PLCMOSv2", value = PLC_massv2[2], delta = (abs(PLC_massv2[2] - PLC_massv2[1]) / PLC_massv2[1]) * 100.0)
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+ col5.metric("WER", value = WER_mass[2], delta = (abs(WER_mass[2] - WER_mass[1]) / WER_mass[1]) * 100.0, delta_color="inverse)
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  #col1.metric("PESQ", value = psq_mas[-1], delta = psq_mas[-1] - psq_mas[-2])
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  #col2.metric("STOI", value = stoi_mass[-1], delta = stoi_mass[-1] - stoi_mass[-2])
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  #col3.metric("PLCMOSv1", value = PLC_massv1[-1], delta = PLC_massv1[-1] - PLC_massv1[-2])