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I've written my own tensor library and a corresponding Python binding. And I've made sure iterating through my tensor implementation works exactly like how NumPy works. I also made sure important method calls like __len__, __getitem__, __setitem__, etc... all works like how NumPy expected it to be. And so I expect

t = my_tensor.ones((4, 4))
print(t) # works
a = np.array(t)
print(a) # becomes a 32 dimension array

to give me a 4x4 matrix. But instead it gave me a 4x4x1x1.... (32 dims in total) array. I'm out of ways to debug this problem without knowing how NumPy performs the conversion internally. How does np.array works internally? I'm unable to locate the function within NumPy's source code nor I can find useful information on the web.

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  • What's the dtype'? 32 is the max number of dimensions. np.array` is compiled function on the numpy github. The c source is hard to follow. – hpaulj Aug 9 at 14:17
  • The dtype returns a enum (due to restrictions on the C++ side). And the actual type inside my tensors are python native types (or cppyy types if no direct match avalable) – Mary Chang Aug 9 at 14:22
  • The max number of trailing 1s suggests that array has hit some sort of recursive sequence definition at the lowest level. After deducing that it has a sequence of len 4, each being a sequence of 4, it then 'asks' what those elements are. And they apparently are some sort of self referencing object. It sees a recursive sequence of size 1. – hpaulj Aug 9 at 15:10
  • @hpaulj And hence the question :D – Mary Chang Aug 11 at 5:11
  • What's t[0,0,0] or t[0][0][0]? – hpaulj Aug 11 at 7:08
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Have you tried looking at the official Numpy's documentation? https://numpy.org/doc/stable/contents.html

Questions specific as this one are usually solved by looking at the original library documentation (e.g. https://numpy.org/doc/stable/user/quickstart.html#array-creation)

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  • Thanks for the answer. Yes, I have looked into the documents. But the documents (and the tutorials) only document the behavior of numpy. But I need the internals in this case. – Mary Chang Aug 9 at 14:00

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