--- /dev/null
+from pyarrow import dataset as ds
+import numpy as np
+import pandas as pd
+import plotnine as pn
+random = np.random.RandomState(1968)
+
+def load_densities(term_density_file="/gscratch/comdata/output/reddit_density/comment_terms_10000.feather",
+ author_density_file="/gscratch/comdata/output/reddit_density/comment_authors_10000.feather"):
+
+ term_density = pd.read_feather(term_density_file)
+ author_density = pd.read_feather(author_density_file)
+
+ term_density.rename({'overlap_density':'term_density','index':'subreddit'},axis='columns',inplace=True)
+ author_density.rename({'overlap_density':'author_density','index':'subreddit'},axis='columns',inplace=True)
+
+ density = term_density.merge(author_density,on='subreddit',how='inner')
+
+ return density
+
+def load_clusters(term_clusters_file="/gscratch/comdata/output/reddit_clustering/comment_terms_10000.feather",
+ author_clusters_file="/gscratch/comdata/output/reddit_clustering/comment_authors_10000.feather"):
+ term_clusters = pd.read_feather(term_clusters_file)
+ author_clusters = pd.read_feather(author_clusters_file)
+
+ # rename, join and return
+ term_clusters.rename({'cluster':'term_cluster'},axis='columns',inplace=True)
+ author_clusters.rename({'cluster':'author_cluster'},axis='columns',inplace=True)
+
+ clusters = term_clusters.merge(author_clusters,on='subreddit',how='inner')
+
+ return clusters
+
+if __name__ == '__main__':
+
+ df = load_densities()
+ cl = load_clusters()
+
+ df['td_rank'] = df.term_density.rank()
+ df['ad_rank'] = df.author_density.rank()
+
+ df['td_percentile'] = df.td_rank / df.shape[0]
+ df['ad_percentile'] = df.ad_rank / df.shape[0]
+
+ df = df.merge(cl, on='subreddit',how='inner')
+
+ term_cluster_density = df.groupby('term_cluster').agg({'td_rank':['mean','min','max'],
+ 'ad_rank':['mean','min','max'],
+ 'td_percentile':['mean','min','max'],
+ 'ad_percentile':['mean','min','max'],
+ 'subreddit':['count']})
+
+
+ author_cluster_density = df.groupby('author_cluster').agg({'td_rank':['mean','min','max'],
+ 'ad_rank':['mean','min','max'],
+ 'td_percentile':['mean','min','max'],
+ 'ad_percentile':['mean','min','max'],
+ 'subreddit':['count']})
+
+ # which clusters have the most term_density?
+ term_cluster_density.iloc[term_cluster_density.td_rank['mean'].sort_values().index]
+
+ # which clusters have the most author_density?
+ term_cluster_density.iloc[term_cluster_density.ad_rank['mean'].sort_values(ascending=False).index].loc[term_cluster_density.subreddit['count'] >= 5][0:20]
+
+ high_density_term_clusters = term_cluster_density.loc[(term_cluster_density.td_percentile['mean'] > 0.75) & (term_cluster_density.subreddit['count'] > 5)]
+
+ # let's just use term density instead of author density for now. We can do a second batch with author density next.
+ chosen_clusters = high_density_term_clusters.sample(3,random_state=random)
+
+ cluster_info = df.loc[df.term_cluster.isin(chosen_clusters.index.values)]
+
+ chosen_subreddits = cluster_info.subreddit.values
+
+ dataset = ds.dataset("/gscratch/comdata/output/reddit_comments_by_subreddit.parquet",format='parquet')
+ comments = dataset.to_table(filter=ds.field("subreddit").isin(chosen_subreddits),columns=['id','subreddit','author','CreatedAt'])
+
+ comments = comments.to_pandas()
+
+ comments['week'] = comments.CreatedAt.dt.date - pd.to_timedelta(comments['CreatedAt'].dt.dayofweek, unit='d')
+
+ author_timeseries = comments.loc[:,['subreddit','author','week']].drop_duplicates().groupby(['subreddit','week']).count().reset_index()
+
+ for clid in chosen_clusters.index.values:
+
+ ts = pd.read_feather(f"data/ts_term_cluster_{clid}.feather")
+
+ pn.options.figure_size = (11.7,8.27)
+ p = pn.ggplot(ts)
+ p = p + pn.geom_line(pn.aes('week','value',group='subreddit'))
+ p = p + pn.facet_wrap('~ subreddit')
+ p.save(f"plots/ts_term_cluster_{clid}.png")
+
+
+ fig, ax = pyplot.subplots(figsize=(11.7,8.27))
+ g = sns.FacetGrid(ts,row='subreddit')
+ g.map_dataframe(sns.scatterplot,'week','value',data=ts,ax=ax)
projects / cdsc_reddit.git / blobdiff