Add visualization callback from Protoflow.

prototorch/models/callbacks/visualization.py

@@ -0,0 +1,261 @@
+import os
+
+import numpy as np
+import torch
+from matplotlib import pyplot as plt
+from matplotlib.offsetbox import AnchoredText
+
+from prototorch.utils.celluloid import Camera
+from prototorch.utils.colors import color_scheme
+from prototorch.utils.utils import (gif_from_dir, make_directory,
+                                    prettify_string)
+
+
+class VisWeights(Callback):
+    """Abstract weight visualization callback."""
+    def __init__(
+        self,
+        data=None,
+        ignore_last_output_row=False,
+        label_map=None,
+        project_mesh=False,
+        project_protos=False,
+        voronoi=False,
+        axis_off=True,
+        cmap="viridis",
+        show=True,
+        display_logs=True,
+        display_logs_settings={},
+        pause_time=0.5,
+        border=1,
+        resolution=10,
+        interval=False,
+        save=False,
+        snap=True,
+        save_dir="./img",
+        make_gif=False,
+        make_mp4=False,
+        verbose=True,
+        dpi=500,
+        fps=5,
+        figsize=(11, 8.5),  # standard paper in inches
+        prefix="",
+        distance_layer_index=-1,
+        **kwargs,
+    ):
+        super().__init__(**kwargs)
+        self.data = data
+        self.ignore_last_output_row = ignore_last_output_row
+        self.label_map = label_map
+        self.voronoi = voronoi
+        self.axis_off = True
+        self.project_mesh = project_mesh
+        self.project_protos = project_protos
+        self.cmap = cmap
+        self.show = show
+        self.display_logs = display_logs
+        self.display_logs_settings = display_logs_settings
+        self.pause_time = pause_time
+        self.border = border
+        self.resolution = resolution
+        self.interval = interval
+        self.save = save
+        self.snap = snap
+        self.save_dir = save_dir
+        self.make_gif = make_gif
+        self.make_mp4 = make_mp4
+        self.verbose = verbose
+        self.dpi = dpi
+        self.fps = fps
+        self.figsize = figsize
+        self.prefix = prefix
+        self.distance_layer_index = distance_layer_index
+        self.title = "Weights Visualization"
+        make_directory(self.save_dir)
+
+    def _skip_epoch(self, epoch):
+        if self.interval:
+            if epoch % self.interval != 0:
+                return True
+        return False
+
+    def _clean_and_setup_ax(self):
+        ax = self.ax
+        if not self.snap:
+            ax.cla()
+        ax.set_title(self.title)
+        if self.axis_off:
+            ax.axis("off")
+
+    def _savefig(self, fignum, orientation="horizontal"):
+        figname = f"{self.save_dir}/{self.prefix}{fignum:05d}.png"
+        figsize = self.figsize
+        if orientation == "vertical":
+            figsize = figsize[::-1]
+        elif orientation == "horizontal":
+            pass
+        else:
+            pass
+        self.fig.set_size_inches(figsize, forward=False)
+        self.fig.savefig(figname, dpi=self.dpi)
+
+    def _show_and_save(self, epoch):
+        if self.show:
+            plt.pause(self.pause_time)
+        if self.save:
+            self._savefig(epoch)
+        if self.snap:
+            self.camera.snap()
+
+    def _display_logs(self, ax, epoch, logs):
+        if self.display_logs:
+            settings = dict(
+                loc="lower right",
+                # padding between the text and bounding box
+                pad=0.5,
+                # padding between the bounding box and the axes
+                borderpad=1.0,
+                # https://matplotlib.org/api/text_api.html#matplotlib.text.Text
+                prop=dict(
+                    fontfamily="monospace",
+                    fontweight="medium",
+                    fontsize=12,
+                ),
+            )
+
+            # Override settings with self.display_logs_settings.
+            settings = {**settings, **self.display_logs_settings}
+
+            log_string = f"""Epoch: {epoch:04d},
+            val_loss: {logs.get('val_loss', np.nan):.03f},
+            val_acc: {logs.get('val_acc', np.nan):.03f},
+            loss: {logs.get('loss', np.nan):.03f},
+            acc: {logs.get('acc', np.nan):.03f}
+            """
+            log_string = prettify_string(log_string, end="")
+            # https://matplotlib.org/api/offsetbox_api.html#matplotlib.offsetbox.AnchoredText
+            anchored_text = AnchoredText(log_string, **settings)
+            self.ax.add_artist(anchored_text)
+
+    def on_train_start(self, trainer, pl_module, logs={}):
+        self.fig = plt.figure(self.title)
+        self.fig.set_size_inches(self.figsize, forward=False)
+        self.ax = self.fig.add_subplot(111)
+        self.camera = Camera(self.fig)
+
+    def on_train_end(self, trainer, pl_module, logs={}):
+        if self.make_gif:
+            gif_from_dir(directory=self.save_dir,
+                         prefix=self.prefix,
+                         duration=1.0 / self.fps)
+        if self.snap and self.make_mp4:
+            animation = self.camera.animate()
+            vid = os.path.join(self.save_dir, f"{self.prefix}animation.mp4")
+            if self.verbose:
+                print(f"Saving mp4 under {vid}.")
+            animation.save(vid, fps=self.fps, dpi=self.dpi)
+
+
+class VisPointProtos(VisWeights):
+    """Visualization of prototypes.
+    .. TODO::
+        Still in Progress.
+    """
+    def __init__(self, **kwargs):
+        super().__init__(**kwargs)
+        self.title = "Point Prototypes Visualization"
+        self.data_scatter_settings = {
+            "marker": "o",
+            "s": 30,
+            "edgecolor": "k",
+            "cmap": self.cmap,
+        }
+        self.protos_scatter_settings = {
+            "marker": "D",
+            "s": 50,
+            "edgecolor": "k",
+            "cmap": self.cmap,
+        }
+
+    def on_epoch_start(self, trainer, pl_module, logs={}):
+        epoch = trainer.current_epoch
+        if self._skip_epoch(epoch):
+            return True
+
+        self._clean_and_setup_ax()
+
+        protos = pl_module.prototypes
+        labels = pl_module.proto_layer.prototype_labels.detach().cpu().numpy()
+
+        if self.project_protos:
+            protos = self.model.projection(protos).numpy()
+
+        color_map = color_scheme(n=len(set(labels)),
+                                 cmap=self.cmap,
+                                 zero_indexed=True)
+        # TODO Get rid of the assumption y values in [0, num_of_classes]
+        label_colors = [color_map[l] for l in labels]
+
+        if self.data is not None:
+            x, y = self.data
+            # TODO Get rid of the assumption y values in [0, num_of_classes]
+            y_colors = [color_map[l] for l in y]
+            # x = self.model.projection(x)
+            if not isinstance(x, np.ndarray):
+                x = x.numpy()
+
+            # Plot data points.
+            self.ax.scatter(x[:, 0],
+                            x[:, 1],
+                            c=y_colors,
+                            **self.data_scatter_settings)
+
+            # Paint decision regions.
+            if self.voronoi:
+                border = self.border
+                resolution = self.resolution
+                x = np.vstack((x, protos))
+                x_min, x_max = x[:, 0].min(), x[:, 0].max()
+                y_min, y_max = x[:, 1].min(), x[:, 1].max()
+                x_min, x_max = x_min - border, x_max + border
+                y_min, y_max = y_min - border, y_max + border
+                try:
+                    xx, yy = np.meshgrid(
+                        np.arange(x_min, x_max, (x_max - x_min) / resolution),
+                        np.arange(y_min, y_max, (x_max - x_min) / resolution),
+                    )
+                except ValueError as ve:
+                    print(ve)
+                    raise ValueError(f"x_min: {x_min}, x_max: {x_max}. "
+                                     f"x_min - x_max is {x_max - x_min}.")
+                except MemoryError as me:
+                    print(me)
+                    raise ValueError("Too many points. "
+                                     "Try reducing the resolution.")
+                mesh_input = np.c_[xx.ravel(), yy.ravel()]
+
+                # Predict mesh labels.
+                if self.project_mesh:
+                    mesh_input = self.model.projection(mesh_input)
+
+                y_pred = pl_module.predict(torch.Tensor(mesh_input))
+                y_pred = y_pred.reshape(xx.shape)
+
+                # Plot voronoi regions.
+                self.ax.contourf(xx, yy, y_pred, cmap=self.cmap, alpha=0.35)
+
+                self.ax.set_xlim(left=x_min + 0, right=x_max - 0)
+                self.ax.set_ylim(bottom=y_min + 0, top=y_max - 0)
+
+        # Plot prototypes.
+        self.ax.scatter(protos[:, 0],
+                        protos[:, 1],
+                        c=label_colors,
+                        **self.protos_scatter_settings)
+
+        # self._show_and_save(epoch)
+
+    def on_epoch_end(self, trainer, pl_module, logs={}):
+        epoch = trainer.current_epoch
+        self._display_logs(self.ax, epoch, logs)
+        self._show_and_save(epoch)