A Scheme cons can be considered as many different structures. Schemepy will try to recognize it as alist, list and normal pair in that order, and converted to dict, list and a Cons object respectively. It might not necessary be a Python dict/list. If some housekeeping information is needed, it might be an instance of a sub-class of the Python dict/list. When converted to Python value, both car and cdr of a cons will be converted recursively. However, this behavior can be prohibited by passing shallow=True to the fromscheme converting method. A Scheme list ((1 2 3 4)) maps to a Python list ([1, 2, 3, 4]). A Scheme empty list (()) maps a Python empty list (). Most scheme implementation support the vector type, this can be mapped to Python’s list type. A vector can be converted to a Python list, when converting back, it will still be a vector. Most scheme implementation support the hash type, this can be mapped to Python’s dict type. A hash can be converted to a Python dict, when converting back, it will still be a hash. A Scheme symbol will be converted to an instance of schemepy.types.Symbol. The same symbol in Scheme should be mapped to the same schemepy.types.Symbol object in Python. A procedure/lambda in Scheme can be converted to a callable object in Python. When converting back, it should be the same procedure. Most Scheme implementations have OO hierarchy defined. Generic object in Scheme will be represented in Python as a binary data. This is not very useful, but it is guaranteed when converting back, it should be the same object to the original one. Scheme and Python both have arbitrary precesion integer. But they are of different representation in memory, currently, they are converted by first printing to a string and then read back. It is a bit slow but fairly acceptable when converting back and forth of big integer is not common. Scheme have the rational number type. It is exact value. Python don’t have built-in support for this. Though it can be emulated, it is generally not very efficient and usually not required. So the Scheme rational number is mapped to a Python float. And when converting back to Scheme, it will be an inexact number. When converting from Scheme value, by default, Schemepy use deep conversion. One can pass the named parameter shallow=True to get a shallow conversion. This parameter apply to the following cases: Source.