A Python package for Substrait, the cross-language specification for data compute operations.
You can install the Python substrait bindings from PyPI or conda-forge
pip install substraitconda install -c conda-forge python-substrait # or use mambaThis project aims to provide a Python interface for the Substrait specification. It will allow users to construct and manipulate a Substrait Plan from Python for evaluation by a Substrait consumer, such as DataFusion or DuckDB.
This project is not an execution engine for Substrait Plans.
This is an experimental package that is still under development.
The substrait.proto module provides access to the classes
that represent a substrait Plan, thus allowing to create new plans.
Here is an example plan equivalent to SELECT first_name FROM person
where people table has first_name and surname columns of type String
>>> from substrait import proto
>>> plan = proto.Plan(
... relations=[
... proto.PlanRel(
... root=proto.RelRoot(
... names=["first_name"],
... input=proto.Rel(
... read=proto.ReadRel(
... named_table=proto.ReadRel.NamedTable(names=["people"]),
... base_schema=proto.NamedStruct(
... names=["first_name", "surname"],
... struct=proto.Type.Struct(
... types=[
... proto.Type(string=proto.Type.String(nullability=proto.Type.Nullability.NULLABILITY_REQUIRED)),
... proto.Type(string=proto.Type.String(nullability=proto.Type.Nullability.NULLABILITY_REQUIRED))
... ] # /types
... ) # /struct
... ) # /base_schema
... ) # /read
... ) # /input
... ) # /root
... ) # /PlanRel
... ] # /relations
... )
>>> print(plan)
relations {
root {
input {
read {
base_schema {
names: "first_name"
names: "surname"
struct {
types {
string {
nullability: NULLABILITY_REQUIRED
}
}
types {
string {
nullability: NULLABILITY_REQUIRED
}
}
}
}
named_table {
names: "people"
}
}
}
names: "first_name"
}
}
>>> serialized_plan = p.SerializeToString()
>>> serialized_plan
b'\x1aA\x12?\n1\n/\x12#\n\nfirst_name\n\x07surname\x12\x0c\n\x04b\x02\x10\x02\n\x04b\x02\x10\x02:\x08\n\x06people\x12\nfirst_name'
The same plan we generated in the previous example,
can be loaded back from its binary representation
using the Plan.ParseFromString method:
>>> from substrait.proto import Plan
>>> p = Plan()
>>> p.ParseFromString(serialized_plan)
67
>>> p
relations {
root {
input {
read {
base_schema {
names: "first_name"
names: "surname"
struct {
types {
string {
nullability: NULLABILITY_REQUIRED
}
}
types {
string {
nullability: NULLABILITY_REQUIRED
}
}
}
}
named_table {
names: "people"
}
}
}
names: "first_name"
}
}
A substrait plan can be loaded from its JSON representation
using the substrait.json.load_json and substrait.json.parse_json
functions:
>>> import substrait.json
>>> jsontext = """{
... "relations":[
... {
... "root":{
... "input":{
... "read":{
... "baseSchema":{
... "names":[
... "first_name",
... "surname"
... ],
... "struct":{
... "types":[
... {
... "string":{
... "nullability":"NULLABILITY_REQUIRED"
... }
... },
... {
... "string":{
... "nullability":"NULLABILITY_REQUIRED"
... }
... }
... ]
... }
... },
... "namedTable":{
... "names":[
... "people"
... ]
... }
... }
... },
... "names":[
... "first_name"
... ]
... }
... }
... ]
... }"""
>>> substrait.json.parse_json(jsontext)
relations {
root {
input {
read {
base_schema {
names: "first_name"
names: "surname"
struct {
types {
string {
nullability: NULLABILITY_REQUIRED
}
}
types {
string {
nullability: NULLABILITY_REQUIRED
}
}
}
}
named_table {
names: "people"
}
}
}
names: "first_name"
}
}
Let's use an existing Substrait producer, Ibis, to provide an example using Python Substrait as the consumer.
In [1]: import ibis
In [2]: movie_ratings = ibis.table(
...: [
...: ("tconst", "str"),
...: ("averageRating", "str"),
...: ("numVotes", "str"),
...: ],
...: name="ratings",
...: )
...:
In [3]: query = movie_ratings.select(
...: movie_ratings.tconst,
...: avg_rating=movie_ratings.averageRating.cast("float"),
...: num_votes=movie_ratings.numVotes.cast("int"),
...: )
In [4]: from ibis_substrait.compiler.core import SubstraitCompiler
In [5]: compiler = SubstraitCompiler()
In [6]: protobuf_msg = compiler.compile(query).SerializeToString()
In [7]: from substrait.proto import Plan
In [8]: my_plan = Plan()
In [9]: my_plan.ParseFromString(protobuf_msg)
Out[9]: 186
In [10]: print(my_plan)
relations {
root {
input {
project {
common {
emit {
output_mapping: 3
output_mapping: 4
output_mapping: 5
}
}
input {
read {
common {
direct {
}
}
base_schema {
names: "tconst"
names: "averageRating"
names: "numVotes"
struct {
types {
string {
nullability: NULLABILITY_NULLABLE
}
}
types {
string {
nullability: NULLABILITY_NULLABLE
}
}
types {
string {
nullability: NULLABILITY_NULLABLE
}
}
nullability: NULLABILITY_REQUIRED
}
}
named_table {
names: "ratings"
}
}
}
expressions {
selection {
direct_reference {
struct_field {
}
}
root_reference {
}
}
}
expressions {
cast {
type {
fp64 {
nullability: NULLABILITY_NULLABLE
}
}
input {
selection {
direct_reference {
struct_field {
field: 1
}
}
root_reference {
}
}
}
failure_behavior: FAILURE_BEHAVIOR_THROW_EXCEPTION
}
}
expressions {
cast {
type {
i64 {
nullability: NULLABILITY_NULLABLE
}
}
input {
selection {
direct_reference {
struct_field {
field: 2
}
}
root_reference {
}
}
}
failure_behavior: FAILURE_BEHAVIOR_THROW_EXCEPTION
}
}
}
}
names: "tconst"
names: "avg_rating"
names: "num_votes"
}
}
version {
minor_number: 24
producer: "ibis-substrait"
}