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Refactor to make a decent api.

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Nate E TeBlunthuis 2021-05-10 13:46:49 -07:00
parent f05cb962e0
commit 4cb7eeec80
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171
clustering/Makefile
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@ -2,41 +2,160 @@
srun_singularity=source /gscratch/comdata/users/nathante/cdsc_reddit/bin/activate && srun_singularity.sh
similarity_data=/gscratch/comdata/output/reddit_similarity
clustering_data=/gscratch/comdata/output/reddit_clustering
kmeans_selection_grid="--max_iter=3000 --n_init=[10] --n_clusters=[100,500,1000,1500,2000,2500,3000,2350,3500,3570,4000]"
#selection_grid="--max_iter=3000 --convergence_iter=[15] --preference_quantile=[0.5] --damping=[0.99]"
all:$(clustering_data)/subreddit_comment_authors_10k/kmeans/selection_data.csv $(clustering_data)/subreddit_comment_authors-tf_10k/kmeans/selection_data.csv $(clustering_data)/subreddit_comment_terms_10k/kmeans/selection_data.csv $(clustering_data)/subreddit_comment_terms_10k/affinity/selection_data.csv $(clustering_data)/subreddit_comment_authors_10k/affinity/selection_data.csv $(clustering_data)/subreddit_comment_authors-tf_10k/affinity/selection_data.csv
# $(clustering_data)/subreddit_comment_authors_30k.feather/SUCCESS $(clustering_data)/subreddit_authors-tf_similarities_30k.feather/SUCCESS
# $(clustering_data)/subreddit_comment_terms_30k.feather/SUCCESS
kmeans_selection_grid="--max_iters=[3000] --n_inits=[10] --n_clusters=[100,500,1000,1250,1500,1750,2000]"
hdbscan_selection_grid="--min_cluster_sizes=[2,3,4,5] --min_samples=[2,3,4,5] --cluster_selection_epsilons=[0,0.01,0.05,0.1,0.15,0.2] --cluster_selection_methods=eom,leaf"
affinity_selection_grid="--dampings=[0.5,0.55,0.6,0.65,0.7,0.75,0.8,0.85,0.95,0.97,0.99] --preference_quantiles=[0.1,0.3,0.5,0.7,0.9] --convergence_iters=[30]"
$(clustering_data)/subreddit_comment_authors_10k/kmeans/selection_data.csv:selection.py $(similarity_data)/subreddit_comment_authors_10k.feather clustering.py
$(srun_singularity) python3 selection.py kmeans $(similarity_data)/subreddit_comment_authors_10k.feather $(clustering_data)/subreddit_comment_authors_10k/kmeans $(clustering_data)/subreddit_comment_authors_10k/kmeans/selection_data.csv $(kmeans_selection_grid)
authors_10k_input=$(similarity_data)/subreddit_comment_authors_10k.feather
authors_10k_input_lsi=$(similarity_data)/subreddit_comment_authors_10k_LSI
authors_10k_output=$(clustering_data)/subreddit_comment_authors_10k
authors_10k_output_lsi=$(clustering_data)/subreddit_comment_authors_10k_LSI
$(clustering_data)/subreddit_comment_terms_10k/kmeans/selection_data.csv:selection.py $(similarity_data)/subreddit_comment_terms_10k.feather clustering.py
$(srun_singularity) python3 selection.py kmeans $(similarity_data)/subreddit_comment_terms_10k.feather $(clustering_data)/subreddit_comment_terms_10k/kmeans $(clustering_data)/subreddit_comment_terms_10k/kmeans/selection_data.csv $(kmeans_selection_grid)
authors_tf_10k_input=$(similarity_data)/subreddit_comment_authors-tf_10k.feather
authors_tf_10k_input_lsi=$(similarity_data)/subreddit_comment_authors-tf_10k_LSI
authors_tf_10k_output=$(clustering_data)/subreddit_comment_authors-tf_10k
authors_tf_10k_output_lsi=$(clustering_data)/subreddit_comment_authors-tf_10k_LSI
$(clustering_data)/subreddit_comment_authors-tf_10k/kmeans/selection_data.csv:clustering.py $(similarity_data)/subreddit_comment_authors-tf_10k.feather
$(srun_singularity) python3 selection.py kmeans $(similarity_data)/subreddit_comment_authors-tf_10k.feather $(clustering_data)/subreddit_comment_authors-tf_10k/kmeans $(clustering_data)/subreddit_comment_authors-tf_10k/kmeans/selection_data.csv $(kmeans_selection_grid)
terms_10k_input=$(similarity_data)/subreddit_comment_terms_10k.feather
terms_10k_input_lsi=$(similarity_data)/subreddit_comment_terms_10k_LSI
terms_10k_output=$(clustering_data)/subreddit_comment_terms_10k
terms_10k_output_lsi=$(clustering_data)/subreddit_comment_terms_10k_LSI
all:terms_10k authors_10k authors_tf_10k terms_10k_lsi authors_10k_lsi authors_tf_10k_lsi
terms_10k:${terms_10k_output}/kmeans/selection_data.csv ${terms_10k_output}/affinity/selection_data.csv ${terms_10k_output}/hdbscan/selection_data.csv
authors_10k:${authors_10k_output}/kmeans/selection_data.csv ${authors_10k_output}/hdbscan/selection_data.csv ${authors_10k_output}/affinity/selection_data.csv
authors_tf_10k:${authors_tf_10k_output}/kmeans/selection_data.csv ${authors_tf_10k_output}/hdbscan/selection_data.csv ${authors_tf_10k_output}/affinity/selection_data.csv
terms_10k_lsi:${terms_10k_output_lsi}/kmeans/selection_data.csv ${terms_10k_output_lsi}/affinity/selection_data.csv ${terms_10k_output_lsi}/hdbscan/selection_data.csv
authors_10k_lsi:${authors_10k_output_lsi}/kmeans/selection_data.csv ${authors_10k_output_lsi}/hdbscan/selection_data.csv ${authors_10k_output_lsi}/affinity/selection_data.csv
authors_tf_10k_lsi:${authors_tf_10k_output_lsi}/kmeans/selection_data.csv ${authors_tf_10k_output_lsi}/hdbscan/selection_data.csv ${authors_tf_10k_output_lsi}/affinity/selection_data.csv
${authors_10k_output}/kmeans/selection_data.csv:selection.py ${authors_10k_input} clustering_base.py kmeans_clustering.py
$(srun_singularity) python3 kmeans_clustering.py --inpath=${authors_10k_input} --outpath=${authors_10k_output}/kmeans --savefile=${authors_10k_output}/kmeans/selection_data.csv $(kmeans_selection_grid)
${terms_10k_output}/kmeans/selection_data.csv:selection.py ${terms_10k_input} clustering_base.py kmeans_clustering.py
$(srun_singularity) python3 kmeans_clustering.py --inpath=${terms_10k_input} --outpath=${terms_10k_output}/kmeans --savefile=${terms_10k_output}/kmeans/selection_data.csv $(kmeans_selection_grid)
${authors_tf_10k_output}/kmeans/selection_data.csv:clustering.py ${authors_tf_10k_input} clustering_base.py kmeans_clustering.py
$(srun_singularity) python3 kmeans_clustering.py --inpath=${authors_tf_10k_input} --outpath=${authors_tf_10k_output}/kmeans --savefile=${authors_tf_10k_output}/kmeans/selection_data.csv $(kmeans_selection_grid)
${authors_10k_output}/affinity/selection_data.csv:selection.py ${authors_10k_input} clustering_base.py affinity_clustering.py
$(srun_singularity) python3 affinity_clustering.py --inpath=${authors_10k_input} --outpath=${authors_10k_output}/affinity --savefile=${authors_10k_output}/affinity/selection_data.csv $(affinity_selection_grid)
${terms_10k_output}/affinity/selection_data.csv:selection.py ${terms_10k_input} clustering_base.py affinity_clustering.py
$(srun_singularity) python3 affinity_clustering.py --inpath=${terms_10k_input} --outpath=${terms_10k_output}/affinity --savefile=${terms_10k_output}/affinity/selection_data.csv $(affinity_selection_grid)
${authors_tf_10k_output}/affinity/selection_data.csv:clustering.py ${authors_tf_10k_input} clustering_base.py affinity_clustering.py
$(srun_singularity) python3 affinity_clustering.py --inpath=${authors_tf_10k_input} --outpath=${authors_tf_10k_output}/affinity --savefile=${authors_tf_10k_output}/affinity/selection_data.csv $(affinity_selection_grid)
${authors_10k_output}/hdbscan/selection_data.csv:selection.py ${authors_10k_input} clustering_base.py hdbscan_clustering.py
$(srun_singularity) python3 hdbscan_clustering.py --inpath=${authors_10k_input} --outpath=${authors_10k_output}/hdbscan --savefile=${authors_10k_output}/hdbscan/selection_data.csv $(hdbscan_selection_grid)
${terms_10k_output}/hdbscan/selection_data.csv:selection.py ${terms_10k_input} clustering_base.py hdbscan_clustering.py
$(srun_singularity) python3 hdbscan_clustering.py --inpath=${terms_10k_input} --outpath=${terms_10k_output}/hdbscan --savefile=${terms_10k_output}/hdbscan/selection_data.csv $(hdbscan_selection_grid)
${authors_tf_10k_output}/hdbscan/selection_data.csv:clustering.py ${authors_tf_10k_input} clustering_base.py hdbscan_clustering.py
$(srun_singularity) python3 hdbscan_clustering.py --inpath=${authors_tf_10k_input} --outpath=${authors_tf_10k_output}/hdbscan --savefile=${authors_tf_10k_output}/hdbscan/selection_data.csv $(hdbscan_selection_grid)
affinity_selection_grid="--max_iter=3000 --convergence_iter=[15] --preference_quantile=[0.5] --damping=[0.99]"
$(clustering_data)/subreddit_comment_authors_10k/affinity/selection_data.csv:selection.py $(similarity_data)/subreddit_comment_authors_10k.feather clustering.py
$(srun_singularity) python3 selection.py affinity $(similarity_data)/subreddit_comment_authors_10k.feather $(clustering_data)/subreddit_comment_authors_10k/affinity $(clustering_data)/subreddit_comment_authors_10k/affinity/selection_data.csv $(affinity_selection_grid) -J 20
## LSI Models
${authors_10k_output_lsi}/kmeans/selection_data.csv:selection.py ${authors_10k_input_lsi} clustering_base.py kmeans_clustering.py
$(srun_singularity) python3 kmeans_clustering_lsi.py --inpath=${authors_10k_input_lsi} --outpath=${authors_10k_output_lsi}/kmeans --savefile=${authors_10k_output_lsi}/kmeans/selection_data.csv $(kmeans_selection_grid)
$(clustering_data)/subreddit_comment_terms_10k/affinity/selection_data.csv:selection.py $(similarity_data)/subreddit_comment_terms_10k.feather clustering.py
$(srun_singularity) python3 selection.py affinity $(similarity_data)/subreddit_comment_terms_10k.feather $(clustering_data)/subreddit_comment_terms_10k/affinity $(clustering_data)/subreddit_comment_terms_10k/affinity/selection_data.csv $(affinity_selection_grid) -J 20
${terms_10k_output_lsi}/kmeans/selection_data.csv:selection.py ${terms_10k_input_lsi} clustering_base.py kmeans_clustering.py
$(srun_singularity) python3 kmeans_clustering_lsi.py --inpath=${terms_10k_input_lsi} --outpath=${terms_10k_output_lsi}/kmeans --savefile=${terms_10k_output_lsi}/kmeans/selection_data.csv $(kmeans_selection_grid)
$(clustering_data)/subreddit_comment_authors-tf_10k/affinity/selection_data.csv:clustering.py $(similarity_data)/subreddit_comment_authors-tf_10k.feather
$(srun_singularity) python3 selection.py affinity $(similarity_data)/subreddit_comment_authors-tf_10k.feather $(clustering_data)/subreddit_comment_authors-tf_10k/affinity $(clustering_data)/subreddit_comment_authors-tf_10k/affinity/selection_data.csv $(affinity_selection_grid) -J 20
${authors_tf_10k_output_lsi}/kmeans/selection_data.csv:clustering.py ${authors_tf_10k_input_lsi} clustering_base.py kmeans_clustering.py
$(srun_singularity) python3 kmeans_clustering_lsi.py --inpath=${authors_tf_10k_input_lsi} --outpath=${authors_tf_10k_output_lsi}/kmeans --savefile=${authors_tf_10k_output_lsi}/kmeans/selection_data.csv $(kmeans_selection_grid)
clean:
rm -f $(clustering_data)/subreddit_comment_authors-tf_10k/affinity/selection_data.csv
rm -f $(clustering_data)/subreddit_comment_authors_10k/affinity/selection_data.csv
rm -f $(clustering_data)/subreddit_comment_terms_10k/affinity/selection_data.csv
rm -f $(clustering_data)/subreddit_comment_authors-tf_10k/kmeans/selection_data.csv
rm -f $(clustering_data)/subreddit_comment_authors_10k/kmeans/selection_data.csv
rm -f $(clustering_data)/subreddit_comment_terms_10k/kmeans/selection_data.csv
${authors_10k_output_lsi}/affinity/selection_data.csv:selection.py ${authors_10k_input_lsi} clustering_base.py affinity_clustering.py
$(srun_singularity) python3 affinity_clustering_lsi.py --inpath=${authors_10k_input_lsi} --outpath=${authors_10k_output_lsi}/affinity --savefile=${authors_10k_output_lsi}/affinity/selection_data.csv $(affinity_selection_grid)
PHONY: clean
${terms_10k_output_lsi}/affinity/selection_data.csv:selection.py ${terms_10k_input_lsi} clustering_base.py affinity_clustering.py
$(srun_singularity) python3 affinity_clustering_lsi.py --inpath=${terms_10k_input_lsi} --outpath=${terms_10k_output_lsi}/affinity --savefile=${terms_10k_output_lsi}/affinity/selection_data.csv $(affinity_selection_grid)
${authors_tf_10k_output_lsi}/affinity/selection_data.csv:clustering.py ${authors_tf_10k_input_lsi} clustering_base.py affinity_clustering.py
$(srun_singularity) python3 affinity_clustering_lsi.py --inpath=${authors_tf_10k_input_lsi} --outpath=${authors_tf_10k_output_lsi}/affinity --savefile=${authors_tf_10k_output_lsi}/affinity/selection_data.csv $(affinity_selection_grid)
${authors_10k_output_lsi}/hdbscan/selection_data.csv:selection.py ${authors_10k_input_lsi} clustering_base.py hdbscan_clustering.py
$(srun_singularity) python3 hdbscan_clustering_lsi.py --inpath=${authors_10k_input_lsi} --outpath=${authors_10k_output_lsi}/hdbscan --savefile=${authors_10k_output_lsi}/hdbscan/selection_data.csv $(hdbscan_selection_grid)
${terms_10k_output_lsi}/hdbscan/selection_data.csv:selection.py ${terms_10k_input_lsi} clustering_base.py hdbscan_clustering.py
$(srun_singularity) python3 hdbscan_clustering_lsi.py --inpath=${terms_10k_input_lsi} --outpath=${terms_10k_output_lsi}/hdbscan --savefile=${terms_10k_output_lsi}/hdbscan/selection_data.csv $(hdbscan_selection_grid)
${authors_tf_10k_output_lsi}/hdbscan/selection_data.csv:clustering.py ${authors_tf_10k_input_lsi} clustering_base.py hdbscan_clustering.py
$(srun_singularity) python3 hdbscan_clustering_lsi.py --inpath=${authors_tf_10k_input_lsi} --outpath=${authors_tf_10k_output_lsi}/hdbscan --savefile=${authors_tf_10k_output_lsi}/hdbscan/selection_data.csv $(hdbscan_selection_grid)
clean_affinity:
rm -f ${authors_10k_output}/affinity/selection_data.csv
rm -f ${authors_tf_10k_output}/affinity/selection_data.csv
rm -f ${terms_10k_output}/affinity/selection_data.csv
clean_kmeans:
rm -f ${authors_10k_output}/kmeans/selection_data.csv
rm -f ${authors_tf_10k_output}/kmeans/selection_data.csv
rm -f ${terms_10k_output}/kmeans/selection_data.csv
clean_hdbscan:
rm -f ${authors_10k_output}/hdbscan/selection_data.csv
rm -f ${authors_tf_10k_output}/hdbscan/selection_data.csv
rm -f ${terms_10k_output}/hdbscan/selection_data.csv
clean_authors:
rm -f ${authors_10k_output}/affinity/selection_data.csv
rm -f ${authors_10k_output}/kmeans/selection_data.csv
rm -f ${authors_10k_output}/hdbscan/selection_data.csv
clean_authors_tf:
rm -f ${authors_tf_10k_output}/affinity/selection_data.csv
rm -f ${authors_tf_10k_output}/kmeans/selection_data.csv
rm -f ${authors_tf_10k_output}/hdbscan/selection_data.csv
clean_terms:
rm -f ${terms_10k_output}/affinity/selection_data.csv
rm -f ${terms_10k_output}/kmeans/selection_data.csv
rm -f ${terms_10k_output}/hdbscan/selection_data.csv
clean_lsi_affinity:
rm -f ${authors_10k_output_lsi}/affinity/selection_data.csv
rm -f ${authors_tf_10k_output_lsi}/affinity/selection_data.csv
rm -f ${terms_10k_output_lsi}/affinity/selection_data.csv
clean_lsi_kmeans:
rm -f ${authors_10k_output_lsi}/kmeans/selection_data.csv
rm -f ${authors_tf_10k_output_lsi}/kmeans/selection_data.csv
rm -f ${terms_10k_output_lsi}/kmeans/selection_data.csv
clean_lsi_hdbscan:
rm -f ${authors_10k_output_lsi}/hdbscan/selection_data.csv
rm -f ${authors_tf_10k_output_lsi}/hdbscan/selection_data.csv
rm -f ${terms_10k_output_lsi}/hdbscan/selection_data.csv
clean_lsi_authors:
rm -f ${authors_10k_output_lsi}/affinity/selection_data.csv
rm -f ${authors_10k_output_lsi}/kmeans/selection_data.csv
rm -f ${authors_10k_output_lsi}/hdbscan/selection_data.csv
clean_lsi_authors_tf:
rm -f ${authors_tf_10k_output_lsi}/affinity/selection_data.csv
rm -f ${authors_tf_10k_output_lsi}/kmeans/selection_data.csv
rm -f ${authors_tf_10k_output_lsi}/hdbscan/selection_data.csv
clean_lsi_terms:
rm -f ${terms_10k_output_lsi}/affinity/selection_data.csv
rm -f ${terms_10k_output_lsi}/kmeans/selection_data.csv
rm -f ${terms_10k_output_lsi}/hdbscan/selection_data.csv
clean: clean_affinity clean_kmeans clean_hdbscan
PHONY: clean clean_affinity clean_kmeans clean_hdbscan clean_authors clean_authors_tf clean_terms terms_10k authors_10k authors_tf_10k
# $(clustering_data)/subreddit_comment_authors_30k.feather/SUCCESS:selection.py $(similarity_data)/subreddit_comment_authors_30k.feather clustering.py
# $(srun_singularity) python3 selection.py $(similarity_data)/subreddit_comment_authors_30k.feather $(clustering_data)/subreddit_comment_authors_30k $(selection_grid) -J 10 && touch $(clustering_data)/subreddit_comment_authors_30k.feather/SUCCESS

98
clustering/affinity_clustering.py
View File

@ -1,16 +1,12 @@
from sklearn.metrics import silhouette_score
from sklearn.cluster import AffinityPropagation
from functools import partial
from dataclasses import dataclass
from clustering_base import sim_to_dist, process_clustering_result, clustering_result, read_similarity_mat
from clustering_base import lsi_result_mixin, lsi_mixin, clustering_job, grid_sweep, lsi_grid_sweep
from multiprocessing import Pool, cpu_count, Array, Process
from clustering_base import clustering_result, clustering_job
from grid_sweep import grid_sweep
from pathlib import Path
from itertools import product, starmap
import numpy as np
import pandas as pd
import fire
import sys
import numpy as np
# silhouette is the only one that doesn't need the feature matrix. So it's probably the only one that's worth trying.
@dataclass
@ -21,10 +17,6 @@ class affinity_clustering_result(clustering_result):
preference:float
max_iter:int
@dataclass
class affinity_clustering_result_lsi(affinity_clustering_result, lsi_result_mixin):
pass
class affinity_job(clustering_job):
def __init__(self, infile, outpath, name, damping=0.9, max_iter=100000, convergence_iter=30, preference_quantile=0.5, random_state=1968, verbose=True):
super().__init__(infile,
@ -67,21 +59,6 @@ class affinity_job(clustering_job):
return self.result
class affinity_lsi_job(affinity_job, lsi_mixin):
def __init__(self, infile, outpath, name, lsi_dims, *args, **kwargs):
super().__init__(infile,
outpath,
name,
*args,
**kwargs)
super().set_lsi_dims(lsi_dims)
def get_info(self):
result = super().get_info()
self.result = affinity_clustering_result_lsi(**result.__dict__,
lsi_dimensions=self.lsi_dims)
return self.result
class affinity_grid_sweep(grid_sweep):
def __init__(self,
inpath,
@ -104,49 +81,29 @@ class affinity_grid_sweep(grid_sweep):
return f"damp-{damping}_maxit-{max_iter}_convit-{convergence_iter}_prefq-{preference_quantile}"
class _affinity_lsi_grid_sweep(grid_sweep):
def __init__(self,
inpath,
def run_affinity_grid_sweep(savefile, inpath, outpath, dampings=[0.8], max_iters=[3000], convergence_iters=[30], preference_quantiles=[0.5]):
"""Run affinity clustering once or more with different parameters.
Usage:
affinity_clustering.py --savefile=SAVEFILE --inpath=INPATH --outpath=OUTPATH --max_iters=<csv> --dampings=<csv> --preference_quantiles=<csv>
Keword arguments:
savefile: path to save the metadata and diagnostics
inpath: path to feather data containing a labeled matrix of subreddit similarities.
outpath: path to output fit kmeans clusterings.
dampings:one or more numbers in [0.5, 1). damping parameter in affinity propagatin clustering.
preference_quantiles:one or more numbers in (0,1) for selecting the 'preference' parameter.
convergence_iters:one or more integers of number of iterations without improvement before stopping.
max_iters: one or more numbers of different maximum interations.
"""
obj = affinity_grid_sweep(inpath,
outpath,
lsi_dim,
*args,
**kwargs):
self.lsi_dim = lsi_dim
self.jobtype = affinity_lsi_job
super().__init__(self.jobtype,
inpath,
outpath,
self.namer,
self.lsi_dim,
*args,
**kwargs)
def namer(self, *args, **kwargs):
s = affinity_grid_sweep.namer(self, *args[1:], **kwargs)
s += f"_lsi-{self.lsi_dim}"
return s
class affinity_lsi_grid_sweep(lsi_grid_sweep):
def __init__(self,
inpath,
lsi_dims,
outpath,
dampings=[0.9],
max_iters=[10000],
convergence_iters=[30],
preference_quantiles=[0.5]):
super().__init__(affinity_lsi_job,
_affinity_lsi_grid_sweep,
inpath,
lsi_dims,
outpath,
dampings,
max_iters,
convergence_iters,
preference_quantiles)
map(float,dampings),
map(int,max_iters),
map(int,convergence_iters),
map(float,preference_quantiles))
obj.run(1)
obj.save(savefile)
def test_select_affinity_clustering():
# select_hdbscan_clustering("/gscratch/comdata/output/reddit_similarity/subreddit_comment_authors-tf_30k_LSI",
@ -169,7 +126,4 @@ def test_select_affinity_clustering():
if __name__ == "__main__":
fire.Fire{'grid_sweep':affinity_grid_sweep,
'grid_sweep_lsi':affinity_lsi_grid_sweep
'cluster':affinity_job,
'cluster_lsi':affinity_lsi_job}
fire.Fire(run_affinity_grid_sweep)

99
clustering/affinity_clustering_lsi.py Normal file
View File

@ -0,0 +1,99 @@
import fire
from affinity_clustering import affinity_clustering_result, affinity_job, affinity_grid_sweep
from grid_sweep import grid_sweep
from lsi_base import lsi_result_mixin, lsi_grid_sweep, lsi_mixin
from dataclasses import dataclass
@dataclass
class affinity_clustering_result_lsi(affinity_clustering_result, lsi_result_mixin):
pass
class affinity_lsi_job(affinity_job, lsi_mixin):
def __init__(self, infile, outpath, name, lsi_dims, *args, **kwargs):
super().__init__(infile,
outpath,
name,
*args,
**kwargs)
super().set_lsi_dims(lsi_dims)
def get_info(self):
result = super().get_info()
self.result = affinity_clustering_result_lsi(**result.__dict__,
lsi_dimensions=self.lsi_dims)
return self.result
class affinity_lsi_grid_sweep(lsi_grid_sweep):
def __init__(self,
inpath,
lsi_dims,
outpath,
dampings=[0.9],
max_iters=[10000],
convergence_iters=[30],
preference_quantiles=[0.5]):
super().__init__(affinity_lsi_job,
_affinity_lsi_grid_sweep,
inpath,
lsi_dims,
outpath,
dampings,
max_iters,
convergence_iters,
preference_quantiles)
class _affinity_lsi_grid_sweep(grid_sweep):
def __init__(self,
inpath,
outpath,
lsi_dim,
*args,
**kwargs):
self.lsi_dim = lsi_dim
self.jobtype = affinity_lsi_job
super().__init__(self.jobtype,
inpath,
outpath,
self.namer,
self.lsi_dim,
*args,
**kwargs)
def namer(self, *args, **kwargs):
s = affinity_grid_sweep.namer(self, *args[1:], **kwargs)
s += f"_lsi-{self.lsi_dim}"
return s
def run_affinity_lsi_grid_sweep(savefile, inpath, outpath, dampings=[0.8], max_iters=[3000], convergence_iters=[30], preference_quantiles=[0.5], lsi_dimensions='all'):
"""Run affinity clustering once or more with different parameters.
Usage:
affinity_clustering.py --savefile=SAVEFILE --inpath=INPATH --outpath=OUTPATH --max_iters=<csv> --dampings=<csv> --preference_quantiles=<csv> --lsi_dimensions: either "all" or one or more available lsi similarity dimensions at INPATH.
Keword arguments:
savefile: path to save the metadata and diagnostics
inpath: path to folder containing feather files with LSI similarity labeled matrices of subreddit similarities.
outpath: path to output fit kmeans clusterings.
dampings:one or more numbers in [0.5, 1). damping parameter in affinity propagatin clustering.
preference_quantiles:one or more numbers in (0,1) for selecting the 'preference' parameter.
convergence_iters:one or more integers of number of iterations without improvement before stopping.
max_iters: one or more numbers of different maximum interations.
lsi_dimensions: either "all" or one or more available lsi similarity dimensions at INPATH.
"""
obj = affinity_lsi_grid_sweep(inpath,
lsi_dimensions,
outpath,
map(float,dampings),
map(int,max_iters),
map(int,convergence_iters),
map(float,preference_quantiles))
obj.run(1)
obj.save(savefile)
if __name__ == "__main__":
fire.Fire(run_affinity_lsi_grid_sweep)

71
clustering/clustering_base.py
View File

@ -3,59 +3,6 @@ import numpy as np
import pandas as pd
from dataclasses import dataclass
from sklearn.metrics import silhouette_score, silhouette_samples
from itertools import product, chain
from multiprocessing import Pool, cpu_count
def sim_to_dist(mat):
dist = 1-mat
dist[dist < 0] = 0
np.fill_diagonal(dist,0)
return dist
class grid_sweep:
def __init__(self, jobtype, inpath, outpath, namer, *args):
self.jobtype = jobtype
self.namer = namer
grid = list(product(*args))
inpath = Path(inpath)
outpath = Path(outpath)
self.hasrun = False
self.grid = [(inpath,outpath,namer(*g)) + g for g in grid]
self.jobs = [jobtype(*g) for g in self.grid]
def run(self, cores=20):
if cores is not None and cores > 1:
with Pool(cores) as pool:
infos = pool.map(self.jobtype.get_info, self.jobs)
else:
infos = map(self.jobtype.get_info, self.jobs)
self.infos = pd.DataFrame(infos)
self.hasrun = True
def save(self, outcsv):
if not self.hasrun:
self.run()
outcsv = Path(outcsv)
outcsv.parent.mkdir(parents=True, exist_ok=True)
self.infos.to_csv(outcsv)
class lsi_grid_sweep(grid_sweep):
def __init__(self, jobtype, subsweep, inpath, lsi_dimensions, outpath, *args, **kwargs):
self.jobtype = jobtype
self.subsweep = subsweep
inpath = Path(inpath)
if lsi_dimensions == 'all':
lsi_paths = list(inpath.glob("*"))
else:
lsi_paths = [inpath / (dim + '.feather') for dim in lsi_dimensions]
lsi_nums = [p.stem for p in lsi_paths]
self.hasrun = False
self.subgrids = [self.subsweep(lsi_path, outpath, lsi_dim, *args, **kwargs) for lsi_dim, lsi_path in zip(lsi_nums, lsi_paths)]
self.jobs = list(chain(*map(lambda gs: gs.jobs, self.subgrids)))
# this is meant to be an interface, not created directly
class clustering_job:
@ -86,19 +33,24 @@ class clustering_job:
name=self.name,
n_clusters=self.n_clusters,
n_isolates=self.n_isolates,
silhouette_samples = str(self.silsampout.resolve())
silhouette_samples = self.silsampout
)
return self.result
def silhouette(self):
isolates = self.clustering.labels_ == -1
scoremat = self.mat[~isolates][:,~isolates]
if scoremat.shape[0] > 0:
score = silhouette_score(scoremat, self.clustering.labels_[~isolates], metric='precomputed')
silhouette_samp = silhouette_samples(self.mat, self.clustering.labels_, metric='precomputed')
silhouette_samp = pd.DataFrame({'subreddit':self.subreddits,'score':silhouette_samp})
self.outpath.mkdir(parents=True, exist_ok=True)
self.silsampout = self.outpath / ("silhouette_samples-" + self.name + ".feather")
silsampout = self.outpath / ("silhouette_samples-" + self.name + ".feather")
self.silsampout = silsampout.resolve()
silhouette_samp.to_feather(self.silsampout)
else:
score = None
self.silsampout = None
return score
def read_distance_mat(self, similarities, use_threads=True):
@ -139,11 +91,6 @@ class clustering_job:
return cluster_data
class lsi_mixin():
def set_lsi_dims(self, lsi_dims):
self.lsi_dims = lsi_dims
@dataclass
class clustering_result:
outpath:Path
@ -152,7 +99,3 @@ class clustering_result:
n_clusters:int
n_isolates:int
silhouette_samples:str
@dataclass
class lsi_result_mixin:
lsi_dimensions:int

32
clustering/grid_sweep.py Normal file
View File

@ -0,0 +1,32 @@
from pathlib import Path
from multiprocessing import Pool, cpu_count
from itertools import product, chain
import pandas as pd
class grid_sweep:
def __init__(self, jobtype, inpath, outpath, namer, *args):
self.jobtype = jobtype
self.namer = namer
grid = list(product(*args))
inpath = Path(inpath)
outpath = Path(outpath)
self.hasrun = False
self.grid = [(inpath,outpath,namer(*g)) + g for g in grid]
self.jobs = [jobtype(*g) for g in self.grid]
def run(self, cores=20):
if cores is not None and cores > 1:
with Pool(cores) as pool:
infos = pool.map(self.jobtype.get_info, self.jobs)
else:
infos = map(self.jobtype.get_info, self.jobs)
self.infos = pd.DataFrame(infos)
self.hasrun = True
def save(self, outcsv):
if not self.hasrun:
self.run()
outcsv = Path(outcsv)
outcsv.parent.mkdir(parents=True, exist_ok=True)
self.infos.to_csv(outcsv)

195
clustering/hdbscan_clustering.py
View File

@ -1,5 +1,5 @@
from clustering_base import sim_to_dist, process_clustering_result, clustering_result, read_similarity_mat
from clustering_base import lsi_result_mixin, lsi_mixin, clustering_job, grid_sweep, lsi_grid_sweep
from clustering_base import clustering_result, clustering_job
from grid_sweep import grid_sweep
from dataclasses import dataclass
import hdbscan
from sklearn.neighbors import NearestNeighbors
@ -7,11 +7,8 @@ import plotnine as pn
import numpy as np
from itertools import product, starmap, chain
import pandas as pd
from sklearn.metrics import silhouette_score, silhouette_samples
from pathlib import Path
from multiprocessing import Pool, cpu_count
from multiprocessing import cpu_count
import fire
from pyarrow.feather import write_feather
def test_select_hdbscan_clustering():
# select_hdbscan_clustering("/gscratch/comdata/output/reddit_similarity/subreddit_comment_authors-tf_30k_LSI",
@ -40,28 +37,6 @@ def test_select_hdbscan_clustering():
# check_clusters = pd.read_feather("test_hdbscan/500_2_2_0.1_eom.feather")
# silscores = pd.read_feather("test_hdbscan/silhouette_samples500_2_2_0.1_eom.feather")
# c = check_clusters.merge(silscores,on='subreddit')# fire.Fire(select_hdbscan_clustering)
class hdbscan_lsi_grid_sweep(lsi_grid_sweep):
def __init__(self,
inpath,
lsi_dims,
outpath,
min_cluster_sizes,
min_samples,
cluster_selection_epsilons,
cluster_selection_methods
):
super().__init__(hdbscan_lsi_job,
_hdbscan_lsi_grid_sweep,
inpath,
lsi_dims,
outpath,
min_cluster_sizes,
min_samples,
cluster_selection_epsilons,
cluster_selection_methods)
class hdbscan_grid_sweep(grid_sweep):
def __init__(self,
inpath,
@ -78,25 +53,6 @@ class hdbscan_grid_sweep(grid_sweep):
cluster_selection_method):
return f"mcs-{min_cluster_size}_ms-{min_samples}_cse-{cluster_selection_epsilon}_csm-{cluster_selection_method}"
class _hdbscan_lsi_grid_sweep(grid_sweep):
def __init__(self,
inpath,
outpath,
lsi_dim,
*args,
**kwargs):
self.lsi_dim = lsi_dim
self.jobtype = hdbscan_lsi_job
super().__init__(self.jobtype, inpath, outpath, self.namer, self.lsi_dim, *args, **kwargs)
def namer(self, *args, **kwargs):
s = hdbscan_grid_sweep.namer(self, *args[1:], **kwargs)
s += f"_lsi-{self.lsi_dim}"
return s
@dataclass
class hdbscan_clustering_result(clustering_result):
min_cluster_size:int
@ -104,10 +60,6 @@ class hdbscan_clustering_result(clustering_result):
cluster_selection_epsilon:float
cluster_selection_method:str
@dataclass
class hdbscan_clustering_result_lsi(hdbscan_clustering_result, lsi_result_mixin):
pass
class hdbscan_job(clustering_job):
def __init__(self, infile, outpath, name, min_cluster_size=2, min_samples=1, cluster_selection_epsilon=0, cluster_selection_method='eom'):
super().__init__(infile,
@ -148,121 +100,29 @@ class hdbscan_job(clustering_job):
cluster_selection_method=self.cluster_selection_method)
return self.result
class hdbscan_lsi_job(hdbscan_job, lsi_mixin):
def __init__(self, infile, outpath, name, lsi_dims, *args, **kwargs):
super().__init__(
infile,
def run_hdbscan_grid_sweep(savefile, inpath, outpath, min_cluster_sizes=[2], min_samples=[1], cluster_selection_epsilons=[0], cluster_selection_methods=['eom']):
"""Run hdbscan clustering once or more with different parameters.
Usage:
hdbscan_clustering.py --savefile=SAVEFILE --inpath=INPATH --outpath=OUTPATH --min_cluster_sizes=<csv> --min_samples=<csv> --cluster_selection_epsilons=<csv> --cluster_selection_methods=<csv "eom"|"leaf">
Keword arguments:
savefile: path to save the metadata and diagnostics
inpath: path to feather data containing a labeled matrix of subreddit similarities.
outpath: path to output fit kmeans clusterings.
min_cluster_sizes: one or more integers indicating the minumum cluster size
min_samples: one ore more integers indicating the minimum number of samples used in the algorithm
cluster_selection_epsilon: one or more similarity thresholds for transition from dbscan to hdbscan
cluster_selection_method: "eom" or "leaf" eom gives larger clusters.
"""
obj = hdbscan_grid_sweep(inpath,
outpath,
name,
*args,
**kwargs)
super().set_lsi_dims(lsi_dims)
def get_info(self):
partial_result = super().get_info()
self.result = hdbscan_clustering_result_lsi(**partial_result.__dict__,
lsi_dimensions=self.lsi_dims)
return self.result
# def select_hdbscan_clustering(inpath,
# outpath,
# outfile=None,
# min_cluster_sizes=[2],
# min_samples=[1],
# cluster_selection_epsilons=[0],
# cluster_selection_methods=['eom'],
# lsi_dimensions='all'
# ):
# inpath = Path(inpath)
# outpath = Path(outpath)
# outpath.mkdir(exist_ok=True, parents=True)
# if lsi_dimensions is None:
# lsi_paths = [inpath]
# elif lsi_dimensions == 'all':
# lsi_paths = list(inpath.glob("*"))
# else:
# lsi_paths = [inpath / (dim + '.feather') for dim in lsi_dimensions]
# if lsi_dimensions is not None:
# lsi_nums = [p.stem for p in lsi_paths]
# else:
# lsi_nums = [None]
# grid = list(product(lsi_nums,
# min_cluster_sizes,
# min_samples,
# cluster_selection_epsilons,
# cluster_selection_methods))
# # fix the output file names
# names = list(map(lambda t:'_'.join(map(str,t)),grid))
# grid = [(inpath/(str(t[0])+'.feather'),outpath/(name + '.feather'), t[0], name) + t[1:] for t, name in zip(grid, names)]
# with Pool(int(cpu_count()/4)) as pool:
# mods = starmap(hdbscan_clustering, grid)
# res = pd.DataFrame(mods)
# if outfile is None:
# outfile = outpath / "selection_data.csv"
# res.to_csv(outfile)
# def hdbscan_clustering(similarities, output, lsi_dim, name, min_cluster_size=2, min_samples=1, cluster_selection_epsilon=0, cluster_selection_method='eom'):
# subreddits, mat = read_similarity_mat(similarities)
# mat = sim_to_dist(mat)
# clustering = _hdbscan_clustering(mat,
# min_cluster_size=min_cluster_size,
# min_samples=min_samples,
# cluster_selection_epsilon=cluster_selection_epsilon,
# cluster_selection_method=cluster_selection_method,
# metric='precomputed',
# core_dist_n_jobs=cpu_count()
# )
# cluster_data = process_clustering_result(clustering, subreddits)
# isolates = clustering.labels_ == -1
# scoremat = mat[~isolates][:,~isolates]
# score = silhouette_score(scoremat, clustering.labels_[~isolates], metric='precomputed')
# cluster_data.to_feather(output)
# silhouette_samp = silhouette_samples(mat, clustering.labels_, metric='precomputed')
# silhouette_samp = pd.DataFrame({'subreddit':subreddits,'score':silhouette_samp})
# silsampout = output.parent / ("silhouette_samples" + output.name)
# silhouette_samp.to_feather(silsampout)
# result = hdbscan_clustering_result(outpath=output,
# silhouette_samples=silsampout,
# silhouette_score=score,
# name=name,
# min_cluster_size=min_cluster_size,
# min_samples=min_samples,
# cluster_selection_epsilon=cluster_selection_epsilon,
# cluster_selection_method=cluster_selection_method,
# lsi_dimensions=lsi_dim,
# n_isolates=isolates.sum(),
# n_clusters=len(set(clustering.labels_))
# )
# return(result)
# # for all runs we should try cluster_selection_epsilon = None
# # for terms we should try cluster_selection_epsilon around 0.56-0.66
# # for authors we should try cluster_selection_epsilon around 0.98-0.99
# def _hdbscan_clustering(mat, *args, **kwargs):
# print(f"running hdbscan clustering. args:{args}. kwargs:{kwargs}")
# print(mat)
# clusterer = hdbscan.HDBSCAN(*args,
# **kwargs,
# )
# clustering = clusterer.fit(mat.astype('double'))
# return(clustering)
map(int,min_cluster_sizes),
map(int,min_samples),
map(float,cluster_selection_epsilons),
map(float,cluster_selection_methods))
obj.run()
obj.save(savefile)
def KNN_distances_plot(mat,outname,k=2):
nbrs = NearestNeighbors(n_neighbors=k,algorithm='auto',metric='precomputed').fit(mat)
@ -293,10 +153,7 @@ def make_KNN_plots():
KNN_distances_plot(mat,k=2,outname='authors-tf_knn_dist2.png')
if __name__ == "__main__":
fire.Fire{'grid_sweep':hdbscan_grid_sweep,
'grid_sweep_lsi':hdbscan_lsi_grid_sweep
'cluster':hdbscan_job,
'cluster_lsi':hdbscan_lsi_job}
fire.Fire(run_hdbscan_grid_sweep)
# test_select_hdbscan_clustering()
#fire.Fire(select_hdbscan_clustering)

101
clustering/hdbscan_clustering_lsi.py Normal file
View File

@ -0,0 +1,101 @@
from hdbscan_clustering import hdbscan_job, hdbscan_grid_sweep, hdbscan_clustering_result
from lsi_base import lsi_grid_sweep, lsi_mixin, lsi_result_mixin
from grid_sweep import grid_sweep
import fire
from dataclasses import dataclass
@dataclass
class hdbscan_clustering_result_lsi(hdbscan_clustering_result, lsi_result_mixin):
pass
class hdbscan_lsi_job(hdbscan_job, lsi_mixin):
def __init__(self, infile, outpath, name, lsi_dims, *args, **kwargs):
super().__init__(
infile,
outpath,
name,
*args,
**kwargs)
super().set_lsi_dims(lsi_dims)
def get_info(self):
partial_result = super().get_info()
self.result = hdbscan_clustering_result_lsi(**partial_result.__dict__,
lsi_dimensions=self.lsi_dims)
return self.result
class hdbscan_lsi_grid_sweep(lsi_grid_sweep):
def __init__(self,
inpath,
lsi_dims,
outpath,
min_cluster_sizes,
min_samples,
cluster_selection_epsilons,
cluster_selection_methods
):
super().__init__(hdbscan_lsi_job,
_hdbscan_lsi_grid_sweep,
inpath,
lsi_dims,
outpath,
min_cluster_sizes,
min_samples,
cluster_selection_epsilons,
cluster_selection_methods)
class _hdbscan_lsi_grid_sweep(grid_sweep):
def __init__(self,
inpath,
outpath,
lsi_dim,
*args,
**kwargs):
print(args)
print(kwargs)
self.lsi_dim = lsi_dim
self.jobtype = hdbscan_lsi_job
super().__init__(self.jobtype, inpath, outpath, self.namer, self.lsi_dim, *args, **kwargs)
def namer(self, *args, **kwargs):
s = hdbscan_grid_sweep.namer(self, *args[1:], **kwargs)
s += f"_lsi-{self.lsi_dim}"
return s
def run_hdbscan_lsi_grid_sweep(savefile, inpath, outpath, min_cluster_sizes=[2], min_samples=[1], cluster_selection_epsilons=[0], cluster_selection_methods=['eom'],lsi_dimensions='all'):
"""Run hdbscan clustering once or more with different parameters.
Usage:
hdbscan_clustering_lsi --savefile=SAVEFILE --inpath=INPATH --outpath=OUTPATH --min_cluster_sizes=<csv> --min_samples=<csv> --cluster_selection_epsilons=<csv> --cluster_selection_methods=[eom]> --lsi_dimensions: either "all" or one or more available lsi similarity dimensions at INPATH.
Keword arguments:
savefile: path to save the metadata and diagnostics
inpath: path to folder containing feather files with LSI similarity labeled matrices of subreddit similarities.
outpath: path to output fit clusterings.
min_cluster_sizes: one or more integers indicating the minumum cluster size
min_samples: one ore more integers indicating the minimum number of samples used in the algorithm
cluster_selection_epsilons: one or more similarity thresholds for transition from dbscan to hdbscan
cluster_selection_methods: one or more of "eom" or "leaf" eom gives larger clusters.
lsi_dimensions: either "all" or one or more available lsi similarity dimensions at INPATH.
"""
obj = hdbscan_lsi_grid_sweep(inpath,
lsi_dimensions,
outpath,
map(int,min_cluster_sizes),
map(int,min_samples),
map(float,cluster_selection_epsilons),
cluster_selection_methods
)
obj.run(10)
obj.save(savefile)
if __name__ == "__main__":
fire.Fire(run_hdbscan_lsi_grid_sweep)

103
clustering/kmeans_clustering.py
View File

@ -1,11 +1,9 @@
from sklearn.cluster import KMeans
import fire
from pathlib import Path
from multiprocessing import cpu_count
from dataclasses import dataclass
from clustering_base import sim_to_dist, process_clustering_result, clustering_result, read_similarity_mat
from clustering_base import lsi_result_mixin, lsi_mixin, clustering_job, grid_sweep, lsi_grid_sweep
from clustering_base import clustering_result, clustering_job
from grid_sweep import grid_sweep
@dataclass
class kmeans_clustering_result(clustering_result):
@ -13,10 +11,6 @@ class kmeans_clustering_result(clustering_result):
n_init:int
max_iter:int
@dataclass
class kmeans_clustering_result_lsi(kmeans_clustering_result, lsi_result_mixin):
pass
class kmeans_job(clustering_job):
def __init__(self, infile, outpath, name, n_clusters, n_init=10, max_iter=100000, random_state=1968, verbose=True):
super().__init__(infile,
@ -45,28 +39,13 @@ class kmeans_job(clustering_job):
def get_info(self):
result = super().get_info()
self.result = kmeans_clustering_result(**result.__dict__,
n_init=n_init,
max_iter=max_iter)
return self.result
class kmeans_lsi_job(kmeans_job, lsi_mixin):
def __init__(self, infile, outpath, name, lsi_dims, *args, **kwargs):
super().__init__(infile,
outpath,
name,
*args,
**kwargs)
super().set_lsi_dims(lsi_dims)
def get_info(self):
result = super().get_info()
self.result = kmeans_clustering_result_lsi(**result.__dict__,
lsi_dimensions=self.lsi_dims)
n_init=self.n_init,
max_iter=self.max_iter)
return self.result
class kmeans_grid_sweep(grid_sweep):
def __init__(self,
inpath,
outpath,
@ -80,49 +59,7 @@ class kmeans_grid_sweep(grid_sweep):
max_iter):
return f"nclusters-{n_clusters}_nit-{n_init}_maxit-{max_iter}"
class _kmeans_lsi_grid_sweep(grid_sweep):
def __init__(self,
inpath,
outpath,
lsi_dim,
*args,
**kwargs):
self.lsi_dim = lsi_dim
self.jobtype = kmeans_lsi_job
super().__init__(self.jobtype, inpath, outpath, self.namer, self.lsi_dim, *args, **kwargs)
def namer(self, *args, **kwargs):
s = kmeans_grid_sweep.namer(self, *args[1:], **kwargs)
s += f"_lsi-{self.lsi_dim}"
return s
class kmeans_lsi_grid_sweep(lsi_grid_sweep):
def __init__(self,
inpath,
lsi_dims,
outpath,
n_clusters,
n_inits,
max_iters
):
super().__init__(kmeans_lsi_job,
_kmeans_lsi_grid_sweep,
inpath,
lsi_dims,
outpath,
n_clusters,
n_inits,
max_iters)
def test_select_kmeans_clustering():
# select_hdbscan_clustering("/gscratch/comdata/output/reddit_similarity/subreddit_comment_authors-tf_30k_LSI",
# "test_hdbscan_author30k",
# min_cluster_sizes=[2],
# min_samples=[1,2],
# cluster_selection_epsilons=[0,0.05,0.1,0.15],
# cluster_selection_methods=['eom','leaf'],
# lsi_dimensions='all')
inpath = "/gscratch/comdata/output/reddit_similarity/subreddit_comment_authors-tf_10k_LSI/"
outpath = "test_kmeans";
n_clusters=[200,300,400];
@ -139,10 +76,30 @@ def test_select_kmeans_clustering():
gs.run(20)
gs.save("test_hdbscan/lsi_sweep.csv")
def run_kmeans_grid_sweep(savefile, inpath, outpath, n_clusters=[500], n_inits=[1], max_iters=[3000]):
"""Run kmeans clustering once or more with different parameters.
Usage:
kmeans_clustering.py --savefile=SAVEFILE --inpath=INPATH --outpath=OUTPATH --n_clusters=<csv number of clusters> --n_inits=<csv> --max_iters=<csv>
Keword arguments:
savefile: path to save the metadata and diagnostics
inpath: path to feather data containing a labeled matrix of subreddit similarities.
outpath: path to output fit kmeans clusterings.
n_clusters: one or more numbers of kmeans clusters to select.
n_inits: one or more numbers of different initializations to use for each clustering.
max_iters: one or more numbers of different maximum interations.
"""
obj = kmeans_grid_sweep(inpath,
outpath,
map(int,n_clusters),
map(int,n_inits),
map(int,max_iters))
obj.run(1)
obj.save(savefile)
if __name__ == "__main__":
fire.Fire{'grid_sweep':kmeans_grid_sweep,
'grid_sweep_lsi':kmeans_lsi_grid_sweep
'cluster':kmeans_job,
'cluster_lsi':kmeans_lsi_job}
fire.Fire(run_kmeans_grid_sweep)

93
clustering/kmeans_clustering_lsi.py Normal file
View File

@ -0,0 +1,93 @@
import fire
from dataclasses import dataclass
from kmeans_clustering import kmeans_job, kmeans_clustering_result, kmeans_grid_sweep
from lsi_base import lsi_mixin, lsi_result_mixin, lsi_grid_sweep
from grid_sweep import grid_sweep
@dataclass
class kmeans_clustering_result_lsi(kmeans_clustering_result, lsi_result_mixin):
pass
class kmeans_lsi_job(kmeans_job, lsi_mixin):
def __init__(self, infile, outpath, name, lsi_dims, *args, **kwargs):
super().__init__(infile,
outpath,
name,
*args,
**kwargs)
super().set_lsi_dims(lsi_dims)
def get_info(self):
result = super().get_info()
self.result = kmeans_clustering_result_lsi(**result.__dict__,
lsi_dimensions=self.lsi_dims)
return self.result
class _kmeans_lsi_grid_sweep(grid_sweep):
def __init__(self,
inpath,
outpath,
lsi_dim,
*args,
**kwargs):
print(args)
print(kwargs)
self.lsi_dim = lsi_dim
self.jobtype = kmeans_lsi_job
super().__init__(self.jobtype, inpath, outpath, self.namer, self.lsi_dim, *args, **kwargs)
def namer(self, *args, **kwargs):
s = kmeans_grid_sweep.namer(self, *args[1:], **kwargs)
s += f"_lsi-{self.lsi_dim}"
return s
class kmeans_lsi_grid_sweep(lsi_grid_sweep):
def __init__(self,
inpath,
lsi_dims,
outpath,
n_clusters,
n_inits,
max_iters
):
super().__init__(kmeans_lsi_job,
_kmeans_lsi_grid_sweep,
inpath,
lsi_dims,
outpath,
n_clusters,
n_inits,
max_iters)
def run_kmeans_lsi_grid_sweep(savefile, inpath, outpath, n_clusters=[500], n_inits=[1], max_iters=[3000], lsi_dimensions="all"):
"""Run kmeans clustering once or more with different parameters.
Usage:
kmeans_clustering_lsi.py --savefile=SAVEFILE --inpath=INPATH --outpath=OUTPATH d--lsi_dimensions=<"all"|csv number of LSI dimensions to use> --n_clusters=<csv number of clusters> --n_inits=<csv> --max_iters=<csv>
Keword arguments:
savefile: path to save the metadata and diagnostics
inpath: path to folder containing feather files with LSI similarity labeled matrices of subreddit similarities.
outpath: path to output fit kmeans clusterings.
lsi_dimensions: either "all" or one or more available lsi similarity dimensions at INPATH.
n_clusters: one or more numbers of kmeans clusters to select.
n_inits: one or more numbers of different initializations to use for each clustering.
max_iters: one or more numbers of different maximum interations.
"""
obj = kmeans_lsi_grid_sweep(inpath,
lsi_dimensions,
outpath,
list(map(int,n_clusters)),
list(map(int,n_inits)),
list(map(int,max_iters))
)
obj.run(1)
obj.save(savefile)
if __name__ == "__main__":
fire.Fire(run_kmeans_lsi_grid_sweep)

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clustering/lsi_base.py Normal file
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from clustering_base import clustering_job, clustering_result
from grid_sweep import grid_sweep
from dataclasses import dataclass
from itertools import chain
from pathlib import Path
class lsi_mixin():
def set_lsi_dims(self, lsi_dims):
self.lsi_dims = lsi_dims
@dataclass
class lsi_result_mixin:
lsi_dimensions:int
class lsi_grid_sweep(grid_sweep):
def __init__(self, jobtype, subsweep, inpath, lsi_dimensions, outpath, *args, **kwargs):
self.jobtype = jobtype
self.subsweep = subsweep
inpath = Path(inpath)
if lsi_dimensions == 'all':
lsi_paths = list(inpath.glob("*"))
else:
lsi_paths = [inpath / (dim + '.feather') for dim in lsi_dimensions]
lsi_nums = [p.stem for p in lsi_paths]
self.hasrun = False
self.subgrids = [self.subsweep(lsi_path, outpath, lsi_dim, *args, **kwargs) for lsi_dim, lsi_path in zip(lsi_nums, lsi_paths)]
self.jobs = list(chain(*map(lambda gs: gs.jobs, self.subgrids)))