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tokenspace / compare-allids-embeds.py

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	#!/bin/env python

	"""
	Load in two pre-calculated embeddings files.
	(eg: .allid.)
	Typically, I generate files that cover the full range of tokenids,
	0-49405
	(using generate-allid-embeddings.py(XL).py )

	This then goes through the full range and calculate distances
	between each.

	Display a graph of the distances.
	Also print out things like the mean distance


	"""


	import sys
	import torch
	from safetensors import safe_open

	file1=sys.argv[1]
	file2=sys.argv[2]



	device=torch.device("cuda")
	print(f"reading {file1} embeddings now",file=sys.stderr)
	model = safe_open(file1,framework="pt",device="cuda")
	embs1=model.get_tensor("embeddings")
	embs1.to(device)
	print("Shape of loaded embeds =",embs1.shape)

	print(f"reading {file2} embeddings now",file=sys.stderr)
	model = safe_open(file2,framework="pt",device="cuda")
	embs2=model.get_tensor("embeddings")
	embs2.to(device)
	print("Shape of loaded embeds =",embs2.shape)

	if torch.equal(embs1 , embs2):
	print("HEY! Both files are identical!")
	exit(0)




	print(f"calculating distances...")

	# This calculates a full cross matrix of ALL distances to ALL other points
	# in other tensor
	##targetdistances = torch.cdist( embs1,embs2, p=2)


	targetdistances = torch.norm(embs2 - embs1, dim=1)
	#print(targetdistances.shape)
	#tl=targetdistances.tolist()
	#print(tl[:10])

	print("sum of all distances=",torch.sum(targetdistances))

	embs1_avg=torch.mean(embs1,dim=0)
	embs2_avg=torch.mean(embs2,dim=0)
	avg_dist= torch.cdist( embs1_avg.unsqueeze(0),embs2_avg.unsqueeze(0), p=2)
	print("However, the distance between the avg-point of each is:",avg_dist)

	print("Mean of all the distances:" + str(torch.mean(targetdistances,dim=0)))

	######################################

	import PyQt5
	import matplotlib
	matplotlib.use('QT5Agg') # Set the backend to QT5Agg

	import matplotlib.pyplot as plt

	junk, ax = plt.subplots()
	graph1=targetdistances.tolist()
	ax.set_title(f"{file1} vs \n{file2}")
	ax.plot(graph1, label="Distance between same tokenID")
	ax.set_ylabel("Distance")
	ax.set_xlabel("CLIP TokenID")

	ax.legend()
	plt.show()