# How does np.array() works internally?

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.

• 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