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learning-rate-scheduler-online

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basicv8vc commited on Jun 4, 2022

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Create streamlit_app.py

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streamlit_app.py +649 -0

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+import time
+import re
+import streamlit as st
+import oneflow as flow
+import numpy as np
+import pandas as pd
+import altair as alt
+from altair import X, Y, Axis
+ConstantLR_CODE = """oneflow.optim.lr_scheduler.ConstantLR(
+                optimizer: Optimizer,
+                factor: float = 1.0 / 3,
+                total_iters: int = 5,
+                last_step: int = -1,
+                verbose: bool = False
+                )"""
+LinearLR_CODE = """oneflow.optim.lr_scheduler.LinearLR(
+                optimizer: Optimizer,
+                start_factor: float = 1.0 / 3,
+                end_factor: float = 1.0,
+                total_iters: int = 5,
+                last_step: int = -1,
+                verbose: bool = False,
+                )"""
+ExponentialLR_CODE = """oneflow.optim.lr_scheduler.ExponentialLR(
+                optimizer: Optimizer,
+                gamma: float,
+                last_step: int = -1,
+                verbose: bool = False,
+                )"""
+StepLR_CODE = """oneflow.optim.lr_scheduler.StepLR(
+                optimizer: Optimizer,
+                step_size: int,
+                gamma: float = 0.1,
+                last_step: int = -1,
+                verbose: bool = False,
+                )"""
+MultiStepLR_CODE = """oneflow.optim.lr_scheduler.MultiStepLR(
+                optimizer: Optimizer,
+                milestones: list,
+                gamma: float = 0.1,
+                last_step: int = -1,
+                verbose: bool = False,
+                )"""
+PolynomialLR_CODE = """oneflow.optim.lr_scheduler.PolynomialLR(
+                optimizer,
+                steps: int,
+                end_learning_rate: float = 0.0001,
+                power: float = 1.0,
+                cycle: bool = False,
+                last_step: int = -1,
+                verbose: bool = False,
+                )"""
+CosineDecayLR_CODE = """oneflow.optim.lr_scheduler.CosineDecayLR(
+                optimizer: Optimizer,
+                decay_steps: int,
+                alpha: float = 0.0,
+                last_step: int = -1,
+                verbose: bool = False,
+                )"""
+CosineAnnealingLR_CODE = """oneflow.optim.lr_scheduler.CosineAnnealingLR(
+                optimizer: Optimizer,
+                T_max: int,
+                eta_min: float = 0.0,
+                last_step: int = -1,
+                verbose: bool = False,
+                )"""
+CosineAnnealingWarmRestarts_CODE = """oneflow.optim.lr_scheduler.CosineAnnealingWarmRestarts(
+                optimizer: Optimizer,
+                T_0: int,
+                T_mult: int = 1,
+                eta_min: float = 0.0,
+                decay_rate: float = 1.0,
+                restart_limit: int = 0,
+                last_step: int = -1,
+                verbose: bool = False,
+                )"""
+SequentialLR_CODE = """oneflow.optim.lr_scheduler.SequentialLR(
+                optimizer: Optimizer,
+                schedulers: Sequence[LRScheduler],
+                milestones: Sequence[int],
+                interval_rescaling: Union[Sequence[bool], bool] = False,
+                last_step: int = -1,
+                verbose: bool = False,
+                )"""
+WarmupLR_CODE = """oneflow.optim.lr_scheduler.WarmupLR(
+                scheduler_or_optimizer: Union[LRScheduler, Optimizer],
+                warmup_factor: float = 1.0 / 3,
+                warmup_iters: int = 5,
+                warmup_method: str = "linear",
+                warmup_prefix: bool = False,
+                last_step=-1,
+                verbose=False,
+                )"""
+ReduceLROnPlateau_CODE = """oneflow.optim.lr_scheduler.ReduceLROnPlateau(
+                optimizer,
+                mode="min",
+                factor=0.1,
+                patience=10,
+                threshold=1e-4,
+                threshold_mode="rel",
+                cooldown=0,
+                min_lr=0,
+                eps=1e-8,
+                verbose=False,
+                )"""
+IS_DISPLAY_CODE = False
+def _display(display_steps, steps, lrs):
+    # altair
+    line = (  # Creating an empty chart in the beginning when the page loads
+        alt.Chart(pd.DataFrame({"last_step": [], "lr": []}))
+        .mark_line(point={"filled": True, "fill": "red"})
+        .encode(
+            x=X(
+                "last_step",
+                axis=Axis(title="step"),
+                scale=alt.Scale(domain=[0, steps[-1] + 2]),
+            ),
+            y=Y(
+                "lr",
+                axis=Axis(title="lr"),
+                scale=alt.Scale(domain=[min(lrs) * 0.8, max(lrs) * 1.2]),
+            ),
+            color=alt.value("#FFAA00"),
+        )
+        .properties(width=600, height=400)
+        .interactive()
+    )
+    bar_plot = st.altair_chart(line)
+    for i in range(display_steps):
+        df = pd.DataFrame({"last_step": steps[: i + 1], "lr": lrs[: i + 1]})
+        line = (
+            alt.Chart(df)
+            .mark_line(point={"filled": True, "fill": "red"})
+            .encode(
+                x=X(
+                    "last_step",
+                    axis=Axis(title="step"),
+                    scale=alt.Scale(domain=[0, steps[-1] + 2]),
+                ),
+                y=Y(
+                    "lr",
+                    axis=Axis(title="lr"),
+                    scale=alt.Scale(domain=[min(lrs) * 0.8, max(lrs) * 1.2]),
+                ),
+                color=alt.value("#FFAA00"),
+            )
+            .properties(width=600, height=400)
+            .interactive()
+        )
+        bar_plot.altair_chart(line)
+        # Pretend we're doing some computation that takes time.
+        time.sleep(0.5)
+# st.title("Learning Rate Scheduler Visualization")
+st.header("Learning Rate Scheduler Visualization")
+scheduler = st.selectbox(
+    "Please choose one scheduler to display",
+    (
+        "ConstantLR",
+        "LinearLR",
+        "ExponentialLR",
+        "StepLR",
+        "MultiStepLR",
+        "PolynomialLR",
+        "CosineDecayLR",
+        "CosineAnnealingLR",
+        "CosineAnnealingWarmRestarts",
+        # "LambdaLR",
+        # "SequentialLR",
+        # "WarmupLR",
+        # "ChainedScheduler",
+        # "ReduceLROnPlateau",
+    ),
+)
+if scheduler == "ConstantLR":
+    if IS_DISPLAY_CODE:
+        st.code(ConstantLR_CODE, language="python")
+    st.write("You can set argument values")
+    factor = st.slider("factor:", 0.0, 1.0, 0.3)
+    total_iters = st.slider("total_iters:", 0, 20, 5)
+    lr = st.slider("initial learning rate in Optimizer(e.g. SGD, Adam):", 0.0, 1.0, 0.1)
+    net = flow.nn.Linear(10, 2)
+    optimizer = flow.optim.SGD(net.parameters(), lr=lr)
+    scheduler = flow.optim.lr_scheduler.ConstantLR(
+        optimizer=optimizer, factor=factor, total_iters=total_iters
+    )
+    steps = []
+    lrs = []
+    display_steps = max(6, total_iters * 2)
+    for i in range(display_steps):
+        steps.append(i)
+        lrs.append(scheduler.get_last_lr()[0])
+        scheduler.step()
+    col1, col2, col3 = st.columns(3)
+    if col2.button("Display?"):
+        _display(display_steps, steps, lrs)
+elif scheduler == "LinearLR":
+    if IS_DISPLAY_CODE:
+        st.code(LinearLR_CODE, language="python")
+    st.write("You can set argument values")
+    start_factor = st.slider("start_factor:", 0.0, 1.0, 0.3)
+    end_factor = st.slider("end_factor:", 0.0, 1.0, 1.0)
+    total_iters = st.slider("total_iters:", 0, 20, 5)
+    lr = st.slider("initial learning rate in Optimizer(e.g. SGD, Adam):", 0.0, 1.0, 0.1)
+    net = flow.nn.Linear(10, 2)
+    optimizer = flow.optim.SGD(net.parameters(), lr=lr)
+    scheduler = flow.optim.lr_scheduler.LinearLR(
+        optimizer=optimizer,
+        start_factor=start_factor,
+        end_factor=end_factor,
+        total_iters=total_iters,
+    )
+    steps = []
+    lrs = []
+    display_steps = max(6, total_iters * 2)
+    for i in range(display_steps):
+        steps.append(i)
+        lrs.append(scheduler.get_last_lr()[0])
+        scheduler.step()
+    col1, col2, col3 = st.columns(3)
+    if col2.button("Display?"):
+        _display(display_steps, steps, lrs)
+elif scheduler == "ExponentialLR":
+    if IS_DISPLAY_CODE:
+        st.code(ExponentialLR_CODE, language="python")
+    st.write("You can set argument values")
+    gamma = st.slider("gamma:", 0.0, 1.0, 0.9)
+    lr = st.slider("initial learning rate in Optimizer(e.g. SGD, Adam):", 0.0, 1.0, 0.1)
+    net = flow.nn.Linear(10, 2)
+    optimizer = flow.optim.SGD(net.parameters(), lr=lr)
+    scheduler = flow.optim.lr_scheduler.ExponentialLR(
+        optimizer=optimizer,
+        gamma=gamma,
+    )
+    steps = []
+    lrs = []
+    display_steps = 20
+    for i in range(display_steps):
+        steps.append(i)
+        lrs.append(scheduler.get_last_lr()[0])
+        scheduler.step()
+    col1, col2, col3 = st.columns(3)
+    if col2.button("Display?"):
+        _display(display_steps, steps, lrs)
+elif scheduler == "StepLR":
+    if IS_DISPLAY_CODE:
+        st.code(StepLR_CODE, language="python")
+    st.write("You can set argument values")
+    step_size = st.slider("step_size:", 0, 10, 2)
+    gamma = st.slider("gamma:", 0.0, 1.0, 0.9)
+    lr = st.slider("initial learning rate in Optimizer(e.g. SGD, Adam):", 0.0, 1.0, 0.1)
+    net = flow.nn.Linear(10, 2)
+    optimizer = flow.optim.SGD(net.parameters(), lr=lr)
+    scheduler = flow.optim.lr_scheduler.StepLR(
+        optimizer=optimizer,
+        step_size=step_size,
+        gamma=gamma,
+    )
+    steps = []
+    lrs = []
+    display_steps = 20
+    for i in range(display_steps):
+        steps.append(i)
+        lrs.append(scheduler.get_last_lr()[0])
+        scheduler.step()
+    col1, col2, col3 = st.columns(3)
+    if col2.button("Display?"):
+        _display(display_steps, steps, lrs)
+elif scheduler == "MultiStepLR":
+    if IS_DISPLAY_CODE:
+        st.code(MultiStepLR_CODE, language="python")
+    st.write("You can set argument values")
+    collect_numbers = lambda x: [int(i) for i in re.split("[^0-9]", x) if i != ""]
+    milestones = st.text_input("PLease enter milestones")
+    milestones = collect_numbers(milestones)
+    if milestones is None or len(milestones) == 0:
+        milestones = [5]
+    gamma = st.slider("gamma:", 0.0, 1.0, 0.9)
+    lr = st.slider("initial learning rate in Optimizer(e.g. SGD, Adam):", 0.0, 1.0, 0.1)
+    net = flow.nn.Linear(10, 2)
+    optimizer = flow.optim.SGD(net.parameters(), lr=lr)
+    scheduler = flow.optim.lr_scheduler.MultiStepLR(
+        optimizer=optimizer,
+        milestones=milestones,
+        gamma=gamma,
+    )
+    steps = []
+    lrs = []
+    display_steps = milestones[-1] + 5
+    for i in range(display_steps):
+        steps.append(i)
+        lrs.append(scheduler.get_last_lr()[0])
+        scheduler.step()
+    col1, col2, col3 = st.columns(3)
+    if col2.button("Display?"):
+        _display(display_steps, steps, lrs)
+elif scheduler == "PolynomialLR":
+    if IS_DISPLAY_CODE:
+        st.code(PolynomialLR_CODE, language="python")
+    st.write("You can set argument values")
+    steps = st.slider("steps:", 1, 10, 5)
+    end_learning_rate = st.slider("end_learning_rate", 0.0, 1.0, 0.0001)
+    power = st.slider("power", 0.0, 10.0, 1.0)
+    cycle = st.checkbox(
+        "cycle",
+    )
+    lr = st.slider("initial learning rate in Optimizer(e.g. SGD, Adam):", 0.0, 1.0, 0.1)
+    net = flow.nn.Linear(10, 2)
+    optimizer = flow.optim.SGD(net.parameters(), lr=lr)
+    scheduler = flow.optim.lr_scheduler.PolynomialLR(
+        optimizer=optimizer,
+        steps=steps,
+        end_learning_rate=end_learning_rate,
+        power=power,
+        cycle=cycle,
+    )
+    x_steps = []
+    lrs = []
+    display_steps = max(steps + 5, 10)
+    for i in range(display_steps):
+        x_steps.append(i)
+        lrs.append(scheduler.get_last_lr()[0])
+        scheduler.step()
+    col1, col2, col3 = st.columns(3)
+    if col2.button("Display?"):
+        _display(display_steps, x_steps, lrs)
+elif scheduler == "CosineDecayLR":
+    if IS_DISPLAY_CODE:
+        st.code(CosineDecayLR_CODE, language="python")
+    st.write("You can set argument values")
+    decay_steps = st.slider("decay_steps:", 0, 10, 5)
+    alpha = st.slider("alpha", 0.0, 1.0, 0.0)
+    lr = st.slider("initial learning rate in Optimizer(e.g. SGD, Adam):", 0.0, 1.0, 0.1)
+    net = flow.nn.Linear(10, 2)
+    optimizer = flow.optim.SGD(net.parameters(), lr=lr)
+    scheduler = flow.optim.lr_scheduler.CosineDecayLR(
+        optimizer=optimizer,
+        decay_steps=decay_steps,
+        alpha=alpha,
+    )
+    x_steps = []
+    lrs = []
+    display_steps = max(decay_steps + 5, 10)
+    for i in range(display_steps):
+        x_steps.append(i)
+        lrs.append(scheduler.get_last_lr()[0])
+        scheduler.step()
+    col1, col2, col3 = st.columns(3)
+    if col2.button("Display?"):
+        _display(display_steps, x_steps, lrs)
+elif scheduler == "CosineAnnealingLR":
+    if IS_DISPLAY_CODE:
+        st.code(CosineAnnealingLR_CODE, language="python")
+    st.write("You can set argument values")
+    T_max = st.slider("T_max", 1, 20, 20)
+    eta_min = st.slider("eta_min", 0.0, 1.0, 0.0)
+    lr = st.slider("initial learning rate in Optimizer(e.g. SGD, Adam):", 0.0, 1.0, 0.1)
+    net = flow.nn.Linear(10, 2)
+    optimizer = flow.optim.SGD(net.parameters(), lr=lr)
+    scheduler = flow.optim.lr_scheduler.CosineAnnealingLR(
+        optimizer=optimizer,
+        T_max=T_max,
+        eta_min=eta_min,
+    )
+    x_steps = []
+    lrs = []
+    display_steps = max(T_max + 5, 20)
+    for i in range(display_steps):
+        x_steps.append(i)
+        lrs.append(scheduler.get_last_lr()[0])
+        scheduler.step()
+    col1, col2, col3 = st.columns(3)
+    if col2.button("Display?"):
+        _display(display_steps, x_steps, lrs)
+elif scheduler == "CosineAnnealingWarmRestarts":
+    if IS_DISPLAY_CODE:
+        st.code(CosineAnnealingWarmRestarts_CODE, language="python")
+    st.write("You can set argument values")
+    T_0 = st.slider("T_0", 1, 20, 5)
+    T_mult = st.slider("T_mult", 1, 5, 1)
+    eta_min = st.slider("eta_min", 0.0, 1.0, 0.0)
+    decay_rate = st.slider("decay_rate", 0.0, 1.0, 1.0)
+    restart_limit = st.slider("restart_limit", 0, 5, 0)
+    lr = st.slider("initial learning rate in Optimizer(e.g. SGD, Adam):", 0.0, 1.0, 0.1)
+    net = flow.nn.Linear(10, 2)
+    optimizer = flow.optim.SGD(net.parameters(), lr=lr)
+    scheduler = flow.optim.lr_scheduler.CosineAnnealingWarmRestarts(
+        optimizer=optimizer,
+        T_0=T_0,
+        T_mult=T_mult,
+        eta_min=eta_min,
+        decay_rate=decay_rate,
+        restart_limit=restart_limit,
+    )
+    x_steps = []
+    lrs = []
+    display_steps = max(T_0 + 5, 20)
+    for i in range(display_steps):
+        x_steps.append(i)
+        lrs.append(scheduler.get_last_lr()[0])
+        scheduler.step()
+    col1, col2, col3 = st.columns(3)
+    if col2.button("Display?"):
+        _display(display_steps, x_steps, lrs)
+# elif scheduler == "LambdaLR":
+#     code = """oneflow.optim.lr_scheduler.LambdaLR(optimizer, lr_lambda, last_step=-1, verbose=False)"""
+#     st.code(code, language="python")
+elif scheduler == "SequentialLR":
+    if IS_DISPLAY_CODE:
+        st.code(SequentialLR_CODE, language="python")
+    st.write("You can set argument values")
+    schedulers = st.multiselect(
+        "you can choose multiple schedulers",
+        [
+            "ConstantLR",
+            "LinearLR",
+            "ExponentialLR",
+            "StepLR",
+            "MultiStepLR",
+            "PolynomialLR",
+            "CosineDecayLR",
+            "CosineAnnealingLR",
+            "CosineAnnealingWarmRestarts",
+            "ConstantLR",
+            "LinearLR",
+            "ExponentialLR",
+            "StepLR",
+            "MultiStepLR",
+            "PolynomialLR",
+            "CosineDecayLR",
+            "CosineAnnealingLR",
+            "CosineAnnealingWarmRestarts",
+        ],
+    )
+    collect_numbers = lambda x: [int(i) for i in re.split("[^0-9]", x) if i != ""]
+    milestones = st.text_input("PLease enter milestones")
+    milestones = collect_numbers(milestones)
+    interval_rescaling = st.checkbox("interval_rescaling")
+    lr = st.slider("initial learning rate in Optimizer(e.g. SGD, Adam):", 0.0, 1.0, 0.1)
+    net = flow.nn.Linear(10, 2)
+    optimizer = flow.optim.SGD(net.parameters(), lr=lr)
+    scheduler = flow.optim.lr_scheduler.SequentialLR(
+        optimizer=optimizer,
+        schedulers=schedulers,
+        milestones=milestones,
+        interval_rescaling=interval_rescaling,
+    )
+    x_steps = []
+    lrs = []
+    display_steps = max(milestones[-1] + 5, 20)
+    for i in range(display_steps):
+        x_steps.append(i)
+        lrs.append(scheduler.get_last_lr()[0])
+        scheduler.step()
+    col1, col2, col3 = st.columns(3)
+    if col2.button("Display?"):
+        _display(display_steps, x_steps, lrs)
+elif scheduler == "WarmupLR":
+    if IS_DISPLAY_CODE:
+        st.code(WarmupLR_CODE, language="python")
+    scheduler_or_optimizer = st.selectbox(
+        "choose one scheduler for scheduler_or_optimizer",
+        [
+            "ConstantLR",
+            "LinearLR",
+            "ExponentialLR",
+            "StepLR",
+            "MultiStepLR",
+            "PolynomialLR",
+            "CosineDecayLR",
+            "CosineAnnealingLR",
+            "CosineAnnealingWarmRestarts",
+        ],
+    )
+    warmup_factor = st.slider("warmup_factor:", 0.0, 1.0, 0.3)
+    warmup_iters = st.slider("warmup_iters:", 1, 10, 5)
+    warmup_method = st.selectbox("warmup_method", ["linear", "constant"])
+    warmup_prefix = st.checkbox("warmup_prefix")
+    lr = st.slider("initial learning rate in Optimizer(e.g. SGD, Adam):", 0.0, 1.0, 0.1)
+    net = flow.nn.Linear(10, 2)
+    optimizer = flow.optim.SGD(net.parameters(), lr=lr)
+    scheduler = flow.optim.lr_scheduler.WarmupLR(
+        optimizer=optimizer,
+        scheduler_or_optimizer=scheduler_or_optimizer,
+        warmup_factor=warmup_factor,
+        warmup_iters=warmup_iters,
+        warmup_method=warmup_method,
+        warmup_prefix=warmup_prefix,
+    )
+    x_steps = []
+    lrs = []
+    display_steps = max(warmup_factor + 5, 20)
+    for i in range(display_steps):
+        x_steps.append(i)
+        lrs.append(scheduler.get_last_lr()[0])
+        scheduler.step()
+    col1, col2, col3 = st.columns(3)
+    if col2.button("Display?"):
+        _display(display_steps, x_steps, lrs)
+elif scheduler == "ChainedScheduler":
+    if IS_DISPLAY_CODE:
+        code = """oneflow.optim.lr_scheduler.ChainedScheduler(schedulers)"""
+    st.code(code, language="python")
+    st.write("You can set argument values")
+    schedulers = st.multiselect(
+        "you can choose multiple schedulers",
+        [
+            "ConstantLR",
+            "LinearLR",
+            "ExponentialLR",
+            "StepLR",
+            "MultiStepLR",
+            "PolynomialLR",
+            "CosineDecayLR",
+            "CosineAnnealingLR",
+            "CosineAnnealingWarmRestarts",
+            "ConstantLR",
+            "LinearLR",
+            "ExponentialLR",
+            "StepLR",
+            "MultiStepLR",
+            "PolynomialLR",
+            "CosineDecayLR",
+            "CosineAnnealingLR",
+            "CosineAnnealingWarmRestarts",
+        ],
+    )
+    lr = st.slider("initial learning rate in Optimizer(e.g. SGD, Adam):", 0.0, 1.0, 0.1)
+    net = flow.nn.Linear(10, 2)
+    optimizer = flow.optim.SGD(net.parameters(), lr=lr)
+    scheduler = flow.optim.lr_scheduler.ChainedScheduler(
+        optimizer=optimizer,
+        schedulers=schedulers,
+    )
+    x_steps = []
+    lrs = []
+    display_steps = 20
+    for i in range(display_steps):
+        x_steps.append(i)
+        lrs.append(scheduler.get_last_lr()[0])
+        scheduler.step()
+    col1, col2, col3 = st.columns(3)
+    if col2.button("Display?"):
+        _display(display_steps, x_steps, lrs)
+# elif scheduler == "ReduceLROnPlateau":
+#     st.code(ReduceLROnPlateau_CODE, language="python")
+#     st.write("You can set argument values")
+#     mode = st.selectbox(
+#         "mode",
+#         [
+#             "min",
+#             "max",
+#         ],
+#     )
+#     factor = st.slider("factor", 1e-5, 1.0 - 1e-5, 0.1)
+#     patience = st.slider("patience", 1, 20, 10)
+#     threshold = st.slider("threshold", 1e-4, 9e-4, 1e-4)
+#     threshold_mode = st.selectbox("threshold_mode", ["rel", "abs"])
+#     cooldown = st.slider("cooldown", 0, 10, 0)
+#     min_lr = st.slider("min_lr", 0.0, 1.0, 0.0)
+#     eps = st.slider("eps", 1e-8, 9e-8, 1e-8)
+#     lr = st.slider("initial learning rate in Optimizer(e.g. SGD, Adam):", 0.0, 1.0, 0.1)
+#     net = flow.nn.Linear(10, 2)
+#     optimizer = flow.optim.SGD(net.parameters(), lr=lr)
+#     scheduler = flow.optim.lr_scheduler.ReduceLROnPlateau(
+#         optimizer=optimizer,
+#         mode=mode,
+#         factor=factor,
+#         patience=patience,
+#         threshold=threshold,
+#         threshold_mode=threshold_mode,
+#         cooldown=cooldown,
+#         min_lr=min_lr,
+#         eps=eps,
+#     )
+#     x_steps = []
+#     lrs = []
+#     display_steps = 25
+#     for i in range(display_steps):
+#         x_steps.append(i)
+#         lrs.append(scheduler.get_last_lr()[0])
+#         scheduler.step()
+#     col1, col2, col3 = st.columns(3)
+#     if col2.button("Display?"):
+#         _display(display_steps, x_steps, lrs)