started working on clustering via kmeans

6 months ago · e7b5f8344b
1 changed files with 133 additions and 25 deletions
--- a/rom_evaluate.py
+++ b/rom_evaluate.py
@ -1,9 +1,10 @@
 import sys
 import operator
 from os import listdir, system
+import re
 from random import randrange
 from ale_py import ALEInterface, SDL_SUPPORT, Action
-from colors import *
+#from colors import *
 from PIL import Image
 from matplotlib import pyplot as plt
 import cv2
@ -11,13 +12,18 @@ import pickle
 import queue
 from dataclasses import dataclass, field

+from sklearn.cluster import KMeans
+
 from enum import Enum

 from copy import deepcopy

 import numpy as np

-import readchar
+import logging
+logger = logging.getLogger(__name__)
+
+#import readchar

 from sample_factory.algo.utils.tensor_dict import TensorDict
 from query_sample_factory_checkpoint import SampleFactoryNNQueryWrapper
@ -25,9 +31,17 @@ from query_sample_factory_checkpoint import SampleFactoryNNQueryWrapper
 import time

 tempest_binary = "/home/spranger/projects/tempest-devel/ranking_release/bin/storm"
-rom_file = "/home/spranger/research/Skiing/env/lib/python3.8/site-packages/AutoROM/roms/skiing.bin"
+rom_file = "/home/spranger/research/Skiing/env/lib/python3.10/site-packages/AutoROM/roms/skiing.bin"

+def tic():
+    import time
+    global startTime_for_tictoc
+    startTime_for_tictoc = time.time()

+def toc():
+    import time
+    if 'startTime_for_tictoc' in globals():
+        return time.time() - startTime_for_tictoc

 class Verdict(Enum):
    INCONCLUSIVE = 1
@ -56,6 +70,7 @@ def exec(command,verbose=True):
    system(f"echo {command} >> list_of_exec")
    return system(command)

+num_ski_positions = 8
 def model_to_actual(ski_position):
    if ski_position == 1:
        return 1
@ -140,31 +155,42 @@ def optimalAction(choices):
    return max(choices.items(), key=operator.itemgetter(1))[0]

 def computeStateRanking(mdp_file):
+    logger.info("Computing state ranking")
+    tic()
    command = f"{tempest_binary} --prism {mdp_file} --buildchoicelab --buildstateval --prop 'Rmax=? [C <= 1000]'"
    exec(command)
+    logger.info(f"Computing state ranking - DONE: took {toc()} seconds")

 def fillStateRanking(file_name, match=""):
+    logger.info("Parsing state ranking")
+    tic()
    state_ranking = dict()
    try:
        with open(file_name, "r") as f:
            file_content = f.readlines()
        for line in file_content:
            if not "move=0" in line: continue
+            ranking_value = float(re.search(r"Value:([+-]?(\d*\.\d+)|\d+)", line)[0].replace("Value:",""))
+            if ranking_value <= 0.1:
+                continue
            stateMapping = convert(re.findall(r"([a-zA-Z_]*[a-zA-Z])=(\d+)?", line))
            #print("stateMapping", stateMapping)
            choices = convert(re.findall(r"[a-zA-Z_]*(left|right|noop)[a-zA-Z_]*:(-?\d+\.?\d*)", line))
            choices = {key:float(value) for (key,value) in choices.items()}
            #print("choices", choices)
-            ranking_value = float(re.search(r"Value:([+-]?(\d*\.\d+)|\d+)", line)[0].replace("Value:",""))
            #print("ranking_value", ranking_value)
            state = State(int(stateMapping["x"]), int(stateMapping["y"]), int(stateMapping["ski_position"]))
            value = StateValue(ranking_value, choices)
            state_ranking[state] = value
+        logger.info(f"Parsing state ranking - DONE: took {toc()} seconds")
        return state_ranking

    except EnvironmentError:
        print("Ranking file not available. Exiting.")
+        toc()
        sys.exit(1)
+    except:
+        toc()


 fixed_left_states = list()
@ -226,26 +252,108 @@ exec(f"cp 1_full_scaled_down.png images/testing_{id}/testing_0000.png")
 exec(f"cp {init_mdp}.prism {init_mdp}_000.prism")

 markerSize = 1
-markerList = {1: list(), 2:list(), 3:list(), 4:list(), 5:list(), 6:list(), 7:list(), 8:list()}
-
-while True:
-    computeStateRanking(f"{init_mdp}_{iteration:03}.prism")
-    ranking = fillStateRanking("action_ranking")
-    sorted_ranking = sorted(ranking.items(), key=lambda x: x[1].ranking)
-    for important_state in sorted_ranking[-100:-1]:
-        optimal_choice = optimalAction(important_state[1].choices)
-        #print(important_state[1].choices, f"\t\tOptimal: {optimal_choice}")
-        x = important_state[0].x
-        y = important_state[0].y
-        ski_pos = model_to_actual(important_state[0].ski_position)
-        result = run_single_test(ale,nn_wrapper,x,y,ski_pos, duration=50)
-        #print(f".... {result}")
-        marker = f"-fill 'rgba({verdict_to_color_map[result[0]],0.7})' -draw 'rectangle {x-markerSize},{y-markerSize} {x+markerSize},{y+markerSize} '"
-        markerList[ski_pos].append(marker)
-        populate_fixed_actions(important_state[0], result[1])
+#markerList = {1: list(), 2:list(), 3:list(), 4:list(), 5:list(), 6:list(), 7:list(), 8:list()}
+
+def f(n):
+    if n >= 1.0:
+        return True
+    return False
+
+def drawOntoSkiPosImage(states, color, target_prefix="cluster_", alpha_factor=1.0):
+    markerList = {ski_position:list() for ski_position in range(1,num_ski_positions + 1)}
+    for state in states:
+        s = state[0]
+        marker = f"-fill 'rgba({color}, {alpha_factor * state[1].ranking})' -draw 'rectangle {s.x-markerSize},{s.y-markerSize} {s.x+markerSize},{s.y+markerSize} '"
+        markerList[s.ski_position].append(marker)
+    for pos, marker in markerList.items():
+        command = f"convert images/testing_{id}/{target_prefix}_{pos:02}.png {' '.join(marker)} images/testing_{id}/{target_prefix}_{pos:02}.png"
+        exec(command, verbose=False)
+
+
+def concatImages(prefix):
+    exec(f"montage images/testing_{id}/{prefix}_*png -geometry +0+0 -tile x1 images/testing_{id}/{prefix}.png", verbose=False)
+
+def drawStatesOntoTiledImage(states, color, target, source="images/1_full_scaled_down.png", alpha_factor=1.0):
+    """
+    Useful to draw a set of states, e.g. a single cluster
+    """
+    markerList = {1: list(), 2:list(), 3:list(), 4:list(), 5:list(), 6:list(), 7:list(), 8:list()}
+    logger.info(f"Drawing {len(states)} states onto {target}")
+    tic()
+    for state in states:
+        s = state[0]
+        marker = f"-fill 'rgba({color}, {alpha_factor * state[1].ranking})' -draw 'rectangle {s.x-markerSize},{s.y-markerSize} {s.x+markerSize},{s.y+markerSize} '"
+        markerList[s.ski_position].append(marker)
    for pos, marker in markerList.items():
-        command = f"convert images/testing_{id}/testing_0000.png {' '.join(marker)} images/testing_{id}/testing_{iteration+1:03}_{pos:02}.png"
+        command = f"convert {source} {' '.join(marker)} images/testing_{id}/{target}_{pos:02}.png"
        exec(command, verbose=False)
-    exec(f"montage images/testing_{id}/testing_{iteration+1:03}_*png -geometry +0+0 -tile x1 images/testing_{id}/{iteration+1:03}.png", verbose=False)
-    iteration += 1
-    update_prism_file(f"{init_mdp}_{iteration-1:03}.prism", f"{init_mdp}_{iteration:03}.prism")
+    exec(f"montage images/testing_{id}/{target}_*png -geometry +0+0 -tile x1 images/testing_{id}/{target}.png", verbose=False)
+    logger.info(f"Drawing {len(states)} states onto {target} - Done: took {toc()} seconds")
+
+def drawClusters(clusterDict, target, alpha_factor=1.0):
+    for ski_position in range(1, num_ski_positions + 1):
+        source = "images/1_full_scaled_down.png"
+        exec(f"cp {source} images/testing_{id}/{target}_{ski_position:02}.png")
+    for _, clusterStates in clusterDict.items():
+        color = f"{np.random.choice(range(256))}, {np.random.choice(range(256))}, {np.random.choice(range(256))}"
+        drawOntoSkiPosImage(clusterStates, color, f"clusters")
+    concatImages("clusters")
+
+
+def _init_logger():
+    logger = logging.getLogger('main')
+    logger.setLevel(logging.INFO)
+    handler = logging.StreamHandler(sys.stdout)
+    formatter = logging.Formatter(       '[%(levelname)s] %(module)s - %(message)s')
+    handler.setFormatter(formatter)
+    logger.addHandler(handler)
+
+def clusterImportantStates(ranking, n_clusters=10):
+    logger.info(f"Starting to cluster {len(ranking)} states into {n_clusters} cluster")
+    tic()
+    states = [[s[0].x,s[0].y, s[0].ski_position * 10, s[1].ranking] for s in ranking]
+    kmeans = KMeans(n_clusters, random_state=0, n_init="auto").fit(states)
+    logger.info(f"Starting to cluster {len(ranking)} states into {n_clusters} cluster - DONE: took {toc()} seconds")
+    clusterDict = {i : list() for i in range(0,n_clusters)}
+    for i, state in enumerate(ranking):
+        clusterDict[kmeans.labels_[i]].append(state)
+    drawClusters(clusterDict, f"clusters")
+    return clusterDict
+
+if __name__ == '__main__':
+    _init_logger()
+    logger = logging.getLogger('main')
+    logger.info("Starting")
+    while True:
+        #computeStateRanking(f"{init_mdp}_{iteration:03}.prism")
+        ranking = fillStateRanking("action_ranking")
+        sorted_ranking = sorted( (x for x in ranking.items() if x[1].ranking > 0.1), key=lambda x: x[1].ranking)
+        print(type(sorted_ranking))
+        clusters = clusterImportantStates(sorted_ranking)
+
+        sys.exit(1)
+        #for i, state in enumerate(sorted_ranking):
+        #    print(state)
+        #    if i % 10 == 0:
+        #        input("")
+        #print(len(sorted_ranking))
+
+        """
+        for important_state in ranking[-100:-1]:
+            optimal_choice = optimalAction(important_state[1].choices)
+            #print(important_state[1].choices, f"\t\tOptimal: {optimal_choice}")
+            x = important_state[0].x
+            y = important_state[0].y
+            ski_pos = model_to_actual(important_state[0].ski_position)
+            result = run_single_test(ale,nn_wrapper,x,y,ski_pos, duration=50)
+            #print(f".... {result}")
+            marker = f"-fill 'rgba({verdict_to_color_map[result[0]],0.7})' -draw 'rectangle {x-markerSize},{y-markerSize} {x+markerSize},{y+markerSize} '"
+            markerList[ski_pos].append(marker)
+            populate_fixed_actions(important_state[0], result[1])
+        for pos, marker in markerList.items():
+            command = f"convert images/testing_{id}/testing_0000.png {' '.join(marker)} images/testing_{id}/testing_{iteration+1:03}_{pos:02}.png"
+            exec(command, verbose=False)
+        exec(f"montage images/testing_{id}/testing_{iteration+1:03}_*png -geometry +0+0 -tile x1 images/testing_{id}/{iteration+1:03}.png", verbose=False)
+        iteration += 1
+        """
+        update_prism_file(f"{init_mdp}_{iteration-1:03}.prism", f"{init_mdp}_{iteration:03}.prism")