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Python SDK for the Unstructured API

This is a Python client for the Unstructured API and you can sign up for your API key on https://app.unstructured.io.

Please refer to the Unstructured docs for a full guide to using the client.

Summary

Table of Contents

SDK Installation

The SDK can be installed with either pip or poetry package managers.

PIP

PIP is the default package installer for Python, enabling easy installation and management of packages from PyPI via the command line.

pip install unstructured-client

Poetry

Poetry is a modern tool that simplifies dependency management and package publishing by using a single pyproject.toml file to handle project metadata and dependencies.

poetry add unstructured-client

Retries

Some of the endpoints in this SDK support retries. If you use the SDK without any configuration, it will fall back to the default retry strategy provided by the API. However, the default retry strategy can be overridden on a per-operation basis, or across the entire SDK.

To change the default retry strategy for a single API call, simply provide a RetryConfig object to the call:

from unstructured_client import UnstructuredClient
from unstructured_client.models import shared
from unstructured_client.utils import BackoffStrategy, RetryConfig

s = UnstructuredClient()

res = s.general.partition(request={
    "partition_parameters": {
        "files": {
            "content": open("example.file", "rb"),
            "file_name": "example.file",
        },
        "chunking_strategy": shared.ChunkingStrategy.BY_TITLE,
        "split_pdf_page_range": [
            1,
            10,
        ],
        "strategy": shared.Strategy.HI_RES,
    },
},
    RetryConfig("backoff", BackoffStrategy(1, 50, 1.1, 100), False))

if res.elements is not None:
    # handle response
    pass

If you'd like to override the default retry strategy for all operations that support retries, you can use the retry_config optional parameter when initializing the SDK:

from unstructured_client import UnstructuredClient
from unstructured_client.models import shared
from unstructured_client.utils import BackoffStrategy, RetryConfig

s = UnstructuredClient(
    retry_config=RetryConfig("backoff", BackoffStrategy(1, 50, 1.1, 100), False),
)

res = s.general.partition(request={
    "partition_parameters": {
        "files": {
            "content": open("example.file", "rb"),
            "file_name": "example.file",
        },
        "chunking_strategy": shared.ChunkingStrategy.BY_TITLE,
        "split_pdf_page_range": [
            1,
            10,
        ],
        "strategy": shared.Strategy.HI_RES,
    },
})

if res.elements is not None:
    # handle response
    pass

Error Handling

Handling errors in this SDK should largely match your expectations. All operations return a response object or raise an exception.

By default, an API error will raise a errors.SDKError exception, which has the following properties:

Property Type Description
.status_code int The HTTP status code
.message str The error message
.raw_response httpx.Response The raw HTTP response
.body str The response content

When custom error responses are specified for an operation, the SDK may also raise their associated exceptions. You can refer to respective Errors tables in SDK docs for more details on possible exception types for each operation. For example, the partition_async method may raise the following exceptions:

Error Type Status Code Content Type
errors.HTTPValidationError 422 application/json
errors.ServerError 5XX application/json
errors.SDKError 4XX */*

Example

from unstructured_client import UnstructuredClient
from unstructured_client.models import errors, shared

s = UnstructuredClient()

res = None
try:
    res = s.general.partition(request={
        "partition_parameters": {
            "files": {
                "content": open("example.file", "rb"),
                "file_name": "example.file",
            },
            "chunking_strategy": shared.ChunkingStrategy.BY_TITLE,
            "split_pdf_page_range": [
                1,
                10,
            ],
            "strategy": shared.Strategy.HI_RES,
        },
    })

    if res.elements is not None:
        # handle response
        pass

except errors.HTTPValidationError as e:
    # handle e.data: errors.HTTPValidationErrorData
    raise(e)
except errors.ServerError as e:
    # handle e.data: errors.ServerErrorData
    raise(e)
except errors.SDKError as e:
    # handle exception
    raise(e)

Custom HTTP Client

The Python SDK makes API calls using the httpx HTTP library. In order to provide a convenient way to configure timeouts, cookies, proxies, custom headers, and other low-level configuration, you can initialize the SDK client with your own HTTP client instance. Depending on whether you are using the sync or async version of the SDK, you can pass an instance of HttpClient or AsyncHttpClient respectively, which are Protocol's ensuring that the client has the necessary methods to make API calls. This allows you to wrap the client with your own custom logic, such as adding custom headers, logging, or error handling, or you can just pass an instance of httpx.Client or httpx.AsyncClient directly.

For example, you could specify a header for every request that this sdk makes as follows:

from unstructured_client import UnstructuredClient
import httpx

http_client = httpx.Client(headers={"x-custom-header": "someValue"})
s = UnstructuredClient(client=http_client)

or you could wrap the client with your own custom logic:

from unstructured_client import UnstructuredClient
from unstructured_client.httpclient import AsyncHttpClient
import httpx

class CustomClient(AsyncHttpClient):
    client: AsyncHttpClient

    def __init__(self, client: AsyncHttpClient):
        self.client = client

    async def send(
        self,
        request: httpx.Request,
        *,
        stream: bool = False,
        auth: Union[
            httpx._types.AuthTypes, httpx._client.UseClientDefault, None
        ] = httpx.USE_CLIENT_DEFAULT,
        follow_redirects: Union[
            bool, httpx._client.UseClientDefault
        ] = httpx.USE_CLIENT_DEFAULT,
    ) -> httpx.Response:
        request.headers["Client-Level-Header"] = "added by client"

        return await self.client.send(
            request, stream=stream, auth=auth, follow_redirects=follow_redirects
        )

    def build_request(
        self,
        method: str,
        url: httpx._types.URLTypes,
        *,
        content: Optional[httpx._types.RequestContent] = None,
        data: Optional[httpx._types.RequestData] = None,
        files: Optional[httpx._types.RequestFiles] = None,
        json: Optional[Any] = None,
        params: Optional[httpx._types.QueryParamTypes] = None,
        headers: Optional[httpx._types.HeaderTypes] = None,
        cookies: Optional[httpx._types.CookieTypes] = None,
        timeout: Union[
            httpx._types.TimeoutTypes, httpx._client.UseClientDefault
        ] = httpx.USE_CLIENT_DEFAULT,
        extensions: Optional[httpx._types.RequestExtensions] = None,
    ) -> httpx.Request:
        return self.client.build_request(
            method,
            url,
            content=content,
            data=data,
            files=files,
            json=json,
            params=params,
            headers=headers,
            cookies=cookies,
            timeout=timeout,
            extensions=extensions,
        )

s = UnstructuredClient(async_client=CustomClient(httpx.AsyncClient()))

IDE Support

PyCharm

Generally, the SDK will work well with most IDEs out of the box. However, when using PyCharm, you can enjoy much better integration with Pydantic by installing an additional plugin.

SDK Example Usage

Example

# Synchronous Example
from unstructured_client import UnstructuredClient
from unstructured_client.models import shared

s = UnstructuredClient()

res = s.general.partition(request={
    "partition_parameters": {
        "files": {
            "content": open("example.file", "rb"),
            "file_name": "example.file",
        },
        "chunking_strategy": shared.ChunkingStrategy.BY_TITLE,
        "split_pdf_page_range": [
            1,
            10,
        ],
        "strategy": shared.Strategy.HI_RES,
    },
})

if res.elements is not None:
    # handle response
    pass

The same SDK client can also be used to make asychronous requests by importing asyncio.

# Asynchronous Example
import asyncio
from unstructured_client import UnstructuredClient
from unstructured_client.models import shared

async def main():
    s = UnstructuredClient()
    res = await s.general.partition_async(request={
        "partition_parameters": {
            "files": {
                "content": open("example.file", "rb"),
                "file_name": "example.file",
            },
            "chunking_strategy": shared.ChunkingStrategy.BY_TITLE,
            "split_pdf_page_range": [
                1,
                10,
            ],
            "strategy": shared.Strategy.HI_RES,
        },
    })
    if res.elements is not None:
        # handle response
        pass

asyncio.run(main())

Refer to the API parameters page for all available parameters.

Configuration

Splitting PDF by pages

See page splitting for more details.

In order to speed up processing of large PDF files, the client splits up PDFs into smaller files, sends these to the API concurrently, and recombines the results. split_pdf_page can be set to False to disable this.

The amount of workers utilized for splitting PDFs is dictated by the split_pdf_concurrency_level parameter, with a default of 5 and a maximum of 15 to keep resource usage and costs in check. The splitting process leverages asyncio to manage concurrency effectively. The size of each batch of pages (ranging from 2 to 20) is internally determined based on the concurrency level and the total number of pages in the document. Because the splitting process uses asyncio the client can encouter event loop issues if it is nested in another async runner, like running in a gevent spawned task. Instead, this is safe to run in multiprocessing workers (e.g., using multiprocessing.Pool with fork context).

Example:

req = operations.PartitionRequest(
    partition_parameters=shared.PartitionParameters(
        files=files,
        strategy="fast",
        languages=["eng"],
        split_pdf_concurrency_level=8
    )
)

Sending specific page ranges

When split_pdf_page=True (the default), you can optionally specify a page range to send only a portion of your PDF to be extracted. The parameter takes a list of two integers to specify the range, inclusive. A ValueError is thrown if the page range is invalid.

Example:

req = operations.PartitionRequest(
    partition_parameters=shared.PartitionParameters(
        files=files,
        strategy="fast",
        languages=["eng"],
        split_pdf_page_range=[10,15],
    )
)

Splitting PDF by pages - strict mode

When split_pdf_allow_failed=False (the default), any errors encountered during sending parallel request will break the process and raise an exception. When split_pdf_allow_failed=True, the process will continue even if some requests fail, and the results will be combined at the end (the output from the errored pages will not be included).

Example:

req = operations.PartitionRequest(
    partition_parameters=shared.PartitionParameters(
        files=files,
        strategy="fast",
        languages=["eng"],
        split_pdf_allow_failed=True,
    )
)

File uploads

Certain SDK methods accept file objects as part of a request body or multi-part request. It is possible and typically recommended to upload files as a stream rather than reading the entire contents into memory. This avoids excessive memory consumption and potentially crashing with out-of-memory errors when working with very large files. The following example demonstrates how to attach a file stream to a request.

Tip

For endpoints that handle file uploads bytes arrays can also be used. However, using streams is recommended for large files.

from unstructured_client import UnstructuredClient
from unstructured_client.models import shared

s = UnstructuredClient()

res = s.general.partition(request={
    "partition_parameters": {
        "files": {
            "content": open("example.file", "rb"),
            "file_name": "example.file",
        },
        "chunking_strategy": shared.ChunkingStrategy.BY_TITLE,
        "split_pdf_page_range": [
            1,
            10,
        ],
        "strategy": shared.Strategy.HI_RES,
    },
})

if res.elements is not None:
    # handle response
    pass

Debugging

You can setup your SDK to emit debug logs for SDK requests and responses.

You can pass your own logger class directly into your SDK.

from unstructured_client import UnstructuredClient
import logging

logging.basicConfig(level=logging.DEBUG)
s = UnstructuredClient(debug_logger=logging.getLogger("unstructured_client"))

Maturity

This SDK is in beta, and there may be breaking changes between versions without a major version update. Therefore, we recommend pinning usage to a specific package version. This way, you can install the same version each time without breaking changes unless you are intentionally looking for the latest version.

Installation Instructions for Local Development

The following instructions are intended to help you get up and running with unstructured-python-client locally if you are planning to contribute to the project.

  • Using pyenv to manage virtualenv's is recommended but not necessary

    • Mac install instructions. See here for more detailed instructions.
      • brew install pyenv-virtualenv
      • pyenv install 3.10
    • Linux instructions are available here.
  • Create a virtualenv to work in and activate it, e.g. for one named unstructured-python-client:

    pyenv virtualenv 3.10 unstructured-python-client pyenv activate unstructured-python-client

  • Run make install and make test

Contributions

While we value open-source contributions to this SDK, this library is generated programmatically by Speakeasy. In order to start working with this repo, you need to:

  1. Install Speakeasy client locally https://github.com/speakeasy-api/speakeasy#installation
  2. Run speakeasy auth login
  3. Run make client-generate. This allows to iterate development with python client.

There are two important files used by make client-generate:

  1. openapi.json which is actually not stored here, but fetched from unstructured-api, represents the API that is supported on backend.
  2. overlay_client.yaml is a handcrafted diff that when applied over above, produces openapi_client.json which is used to generate SDK.

Once PR with changes is merged, Github CI will autogenerate the Speakeasy client in a new PR, using the openapi.json and overlay_client.yaml You will have to manually bring back the human created lines in it.

Feel free to open a PR or a Github issue as a proof of concept and we'll do our best to include it in a future release!

SDK Created by Speakeasy