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	# Copyright © 2024 Apple Inc.

	import unittest

	import mlx.core as mx
	import mlx_tests
	import numpy as np


	class TestEinsum(mlx_tests.MLXTestCase):

	def test_simple_path(self):
	a = mx.zeros((5, 5))
	path = mx.einsum_path("ii", a)
	self.assertEqual(path[0], [(0,)])

	path = mx.einsum_path("ij->i", a)
	self.assertEqual(path[0], [(0,)])

	path = mx.einsum_path("ii->i", a)
	self.assertEqual(path[0], [(0,)])

	a = mx.zeros((5, 8))
	b = mx.zeros((8, 3))
	path = mx.einsum_path("ij,jk", a, b)
	self.assertEqual(path[0], [(0, 1)])
	path = mx.einsum_path("ij,jk -> ijk", a, b)
	self.assertEqual(path[0], [(0, 1)])

	a = mx.zeros((5, 8))
	b = mx.zeros((8, 3))
	c = mx.zeros((3, 7))
	path = mx.einsum_path("ij,jk,kl", a, b, c)

	self.assertEqual(path[0], [(0, 1), (0, 1)])

	a = mx.zeros((5, 8))
	b = mx.zeros((8, 10))
	c = mx.zeros((10, 7))
	path = mx.einsum_path("ij,jk,kl", a, b, c)
	self.assertEqual(path[0], [(1, 2), (0, 1)])

	def test_longer_paths(self):
	chars = "abcdefghijklmopqABC"
	sizes = [2, 3, 4, 5, 4, 3, 2, 6, 5, 4, 3, 2, 5, 7, 4, 3, 2, 3, 4]
	dim_dict = {c: s for c, s in zip(chars, sizes)}
	cases = [
	"eb,cb,fb->cef",
	"dd,fb,be,cdb->cef",
	"dd,fb,be,cdb->cef",
	"bca,cdb,dbf,afc->",
	"dcc,fce,ea,dbf->ab",
	"dcc,fce,ea,dbf->ab",
	]

	for case in cases:
	subscripts = case[: case.find("->")].split(",")
	inputs = []
	for s in subscripts:
	shape = [dim_dict[c] for c in s]
	inputs.append(np.ones(shape))
	np_path = np.einsum_path(case, *inputs)

	inputs = [mx.array(i) for i in inputs]
	mx_path = mx.einsum_path(case, *inputs)
	self.assertEqual(np_path[0][1:], mx_path[0])

	def test_simple_einsum(self):
	a = mx.arange(4 * 4).reshape(4, 4)
	a_mx = mx.einsum("ii->i", a)
	a_np = np.einsum("ii->i", a)
	self.assertTrue(np.array_equal(a_mx, a_np))

	a = mx.arange(2 * 2 * 2).reshape(2, 2, 2)
	a_mx = mx.einsum("iii->i", a)
	a_np = np.einsum("iii->i", a)
	self.assertTrue(np.array_equal(a_mx, a_np))

	a = mx.arange(2 * 2 * 3 * 3).reshape(2, 2, 3, 3)
	a_mx = mx.einsum("iijj->ij", a)
	a_np = np.einsum("iijj->ij", a)
	self.assertTrue(np.array_equal(a_mx, a_np))

	a = mx.arange(2 * 2 * 3 * 3).reshape(2, 3, 2, 3)
	a_mx = mx.einsum("ijij->ij", a)
	a_np = np.einsum("ijij->ij", a)
	self.assertTrue(np.array_equal(a_mx, a_np))

	# Test some simple reductions
	a = mx.arange(2 * 2).reshape(2, 2)
	a_mx = mx.einsum("ii", a)
	a_np = np.einsum("ii", a)
	self.assertTrue(np.array_equal(a_mx, a_np))

	a = mx.arange(2 * 4).reshape(2, 4)
	a_mx = mx.einsum("ij->", a)
	a_np = np.einsum("ij->", a)
	self.assertTrue(np.array_equal(a_mx, a_np))

	a = mx.arange(2 * 4).reshape(2, 4)
	a_mx = mx.einsum("ij->i", a)
	a_np = np.einsum("ij->i", a)
	self.assertTrue(np.array_equal(a_mx, a_np))

	a = mx.arange(2 * 4).reshape(2, 4)
	a_mx = mx.einsum("ij->j", a)
	a_np = np.einsum("ij->j", a)
	self.assertTrue(np.array_equal(a_mx, a_np))

	a = mx.arange(2 * 2 * 2).reshape(2, 2, 2)
	a_mx = mx.einsum("iii->", a)
	a_np = np.einsum("iii->", a)
	self.assertTrue(np.array_equal(a_mx, a_np))

	a = mx.arange(2 * 2 * 3 * 3).reshape(2, 3, 2, 3)
	a_mx = mx.einsum("ijij->j", a)
	a_np = np.einsum("ijij->j", a)
	self.assertTrue(np.array_equal(a_mx, a_np))

	# Test some simple transposes
	a = mx.arange(2 * 4).reshape(2, 4)
	a_mx = mx.einsum("ij", a)
	a_np = np.einsum("ij", a)
	self.assertTrue(np.array_equal(a_mx, a_np))

	a = mx.arange(2 * 4).reshape(2, 4)
	a_mx = mx.einsum("ij->ji", a)
	a_np = np.einsum("ij->ji", a)
	self.assertTrue(np.array_equal(a_mx, a_np))

	a = mx.arange(2 * 3 * 4).reshape(2, 3, 4)
	a_mx = mx.einsum("ijk->jki", a)
	a_np = np.einsum("ijk->jki", a)
	self.assertTrue(np.array_equal(a_mx, a_np))

	def test_two_input_einsum(self):

	# Matmul
	a = mx.full((2, 8), 1.0)
	b = mx.full((8, 2), 1.0)
	a_mx = mx.einsum("ik,kj", a, b)
	a_np = np.einsum("ik,kj", a, b)
	self.assertTrue(np.array_equal(a_mx, a_np))

	# Matmul + transpose
	a = mx.full((2, 8), 1.0)
	b = mx.full((8, 3), 1.0)
	a_mx = mx.einsum("ik,kj->ji", a, b)
	a_np = np.einsum("ik,kj->ji", a, b)
	self.assertTrue(np.array_equal(a_mx, a_np))

	# Inner product
	a = mx.full((4,), 1.0)
	b = mx.full((4,), 1.0)
	a_mx = mx.einsum("i,i", a, b)
	a_np = np.einsum("i,i", a, b)
	self.assertTrue(np.array_equal(a_mx, a_np))

	# Outer product
	a = mx.full((4,), 0.5)
	b = mx.full((6,), 2.0)
	a_mx = mx.einsum("i,j->ij", a, b)
	a_np = np.einsum("i,j->ij", a, b)
	self.assertTrue(np.array_equal(a_mx, a_np))

	# Elementwise multiply
	a = mx.full((2, 8), 1.0)
	b = mx.full((2, 8), 1.0)
	a_mx = mx.einsum("ij,ij->ij", a, b)
	a_np = np.einsum("ij,ij->ij", a, b)
	self.assertTrue(np.array_equal(a_mx, a_np))

	# Medley
	a = mx.full((2, 8, 3, 5), 1.0)
	b = mx.full((3, 7, 5, 2), 1.0)
	a_mx = mx.einsum("abcd,fgda->bfca", a, b)
	a_np = np.einsum("abcd,fgda->bfca", a, b)
	self.assertTrue(np.array_equal(a_mx, a_np))

	def test_sum_first(self):
	a = mx.full((5, 8), 1.0)
	b = mx.full((8, 2), 1.0)
	a_mx = mx.einsum("ab,bc->c", a, b)
	a_np = np.einsum("ab,bc->c", a, b)
	self.assertTrue(np.array_equal(a_mx, a_np))

	def test_broadcasting(self):
	a = mx.full((5, 1), 1.0)
	b = mx.full((8, 2), 1.0)
	a_mx = mx.einsum("ab,bc->c", a, b)
	return
	a_np = np.einsum("ab,bc->c", a, b)
	self.assertTrue(np.array_equal(a_mx, a_np))

	a = mx.random.uniform(shape=(5, 1, 3, 1))
	b = mx.random.uniform(shape=(1, 7, 1, 2))
	a_mx = mx.einsum("abcd,cdab->abcd", a, b)
	a_np = np.einsum("abcd,cdab->abcd", a, b)
	self.assertTrue(np.allclose(a_mx, a_np))

	def test_attention(self):
	q = mx.random.uniform(shape=(2, 3, 4, 5))
	k = mx.random.uniform(shape=(2, 3, 4, 5))
	v = mx.random.uniform(shape=(2, 3, 4, 5))

	s = mx.einsum("itjk,iujk->ijtu", q, k)
	out_mx = mx.einsum("ijtu,iujk->itjk", s, v)

	s = np.einsum("itjk,iujk->ijtu", q, k)
	out_np = np.einsum("ijtu,iujk->itjk", s, v)

	self.assertTrue(np.allclose(out_mx, out_np))

	def test_multi_input_einsum(self):
	a = mx.ones((3, 4, 5))
	out_mx = mx.einsum("ijk,lmk,ijf->lf", a, a, a)
	out_np = np.einsum("ijk,lmk,ijf->lf", a, a, a)
	self.assertTrue(np.allclose(out_mx, out_np))

	def test_opt_einsum_test_cases(self):
	# Test cases from
	# https://github.com/dgasmith/opt_einsum/blob/c826bb7df16f470a69f7bf90598fc27586209d11/opt_einsum/tests/test_contract.py#L11
	tests = [
	# Test hadamard-like products
	"a,ab,abc->abc",
	"a,b,ab->ab",
	# Test index-transformations
	"ea,fb,gc,hd,abcd->efgh",
	"ea,fb,abcd,gc,hd->efgh",
	"abcd,ea,fb,gc,hd->efgh",
	# Test complex contractions
	"acdf,jbje,gihb,hfac,gfac,gifabc,hfac",
	"cd,bdhe,aidb,hgca,gc,hgibcd,hgac",
	"abhe,hidj,jgba,hiab,gab",
	"bde,cdh,agdb,hica,ibd,hgicd,hiac",
	"chd,bde,agbc,hiad,hgc,hgi,hiad",
	"chd,bde,agbc,hiad,bdi,cgh,agdb",
	"bdhe,acad,hiab,agac,hibd",
	# Test collapse
	"ab,ab,c->",
	"ab,ab,c->c",
	"ab,ab,cd,cd->",
	"ab,ab,cd,cd->ac",
	"ab,ab,cd,cd->cd",
	"ab,ab,cd,cd,ef,ef->",
	# Test outer prodcuts
	"ab,cd,ef->abcdef",
	"ab,cd,ef->acdf",
	"ab,cd,de->abcde",
	"ab,cd,de->be",
	"ab,bcd,cd->abcd",
	"ab,bcd,cd->abd",
	# Random test cases that have previously failed
	"eb,cb,fb->cef",
	"dd,fb,be,cdb->cef",
	"bca,cdb,dbf,afc->",
	"dcc,fce,ea,dbf->ab",
	"fdf,cdd,ccd,afe->ae",
	"abcd,ad",
	"ed,fcd,ff,bcf->be",
	"baa,dcf,af,cde->be",
	"bd,db,eac->ace",
	"fff,fae,bef,def->abd",
	"efc,dbc,acf,fd->abe",
	# Inner products
	"ab,ab",
	"ab,ba",
	"abc,abc",
	"abc,bac",
	"abc,cba",
	# GEMM test cases
	"ab,bc",
	"ab,cb",
	"ba,bc",
	"ba,cb",
	"abcd,cd",
	"abcd,ab",
	"abcd,cdef",
	"abcd,cdef->feba",
	"abcd,efdc",
	# Inner then dot
	"aab,bc->ac",
	"ab,bcc->ac",
	"aab,bcc->ac",
	"baa,bcc->ac",
	"aab,ccb->ac",
	# Randomly build test caes
	"aab,fa,df,ecc->bde",
	"ecb,fef,bad,ed->ac",
	"bcf,bbb,fbf,fc->",
	"bb,ff,be->e",
	"bcb,bb,fc,fff->",
	"fbb,dfd,fc,fc->",
	"afd,ba,cc,dc->bf",
	"adb,bc,fa,cfc->d",
	"bbd,bda,fc,db->acf",
	"dba,ead,cad->bce",
	"aef,fbc,dca->bde",
	]

	size_dict = dict(zip("abcdefghij", [2, 3, 4, 5, 2, 3, 4, 5, 2, 3]))

	def inputs_for_case(test_case):
	inputs = test_case.split("->")[0].split(",")
	return [
	mx.random.uniform(shape=tuple(size_dict[c] for c in inp))
	for inp in inputs
	]

	for test_case in tests:
	inputs = inputs_for_case(test_case)
	np_out = np.einsum(test_case, *inputs)
	mx_out = mx.einsum(test_case, *inputs)
	self.assertTrue(np.allclose(mx_out, np_out, rtol=1e-4, atol=1e-4))

	def test_ellipses(self):
	size_dict = dict(zip("abcdefghij", [2, 3, 4, 5, 2, 3, 4, 5, 2, 3]))

	def inputs_for_case(test_case):
	inputs = test_case.split("->")[0].split(",")
	return [
	mx.random.uniform(shape=tuple(size_dict[c] for c in inp))
	for inp in inputs
	]

	tests = [
	("abc->ab", "...c->..."),
	("abcd->ad", "a...d->..."),
	("abij,abgj->abig", "...ij,...gj->...ig"),
	("abij,abgj->abig", "...ij,...gj->..."),
	("abhh->abh", "...hh->...h"),
	("abhh->abh", "...hh->...h"),
	("bch,abcj->abchj", "...h,...j->...hj"),
	("bc,cd->bd", "...c,cd"),
	("abc,acd->bd", "...bc,...cd"),
	("abcd,c->abd", "...cd,c"),
	("abcd,c->abd", "...cd,c..."),
	("abcd,c->abd", "...cd,c...->d..."),
	("abc,b->abc", "ab...,b...->ab..."),
	("abc,b->abc", "ab...,...b->ab..."),
	("abc,b->abc", "ab...,b->ab..."),
	("ab,bc->ac", "ab...,b...->a..."),
	("ab,bc->ac", "ab...,...bc->a...c"),
	("ab,bc->ac", "ab,b...->a..."),
	("abcdef,defg->abcg", "...def,defg->...g"),
	]
	for test_case in tests:
	inputs = inputs_for_case(test_case[0])
	np_out = np.einsum(test_case[1], *inputs)
	mx_out = mx.einsum(test_case[1], *inputs)
	self.assertTrue(np.allclose(mx_out, np_out, rtol=1e-4, atol=1e-4))

	error_tests = [
	("abc,abc->ab", "a...b...c,a...b...c->abc"),
	]
	for test_case in error_tests:
	inputs = inputs_for_case(test_case[0])
	with self.assertRaises(ValueError):
	mx.einsum(test_case[1], *inputs)


	if __name__ == "__main__":
	mlx_tests.MLXTestRunner()