{"id": "getting_started:getting-started-your-computer", "page": "getting_started", "ref": "getting-started-your-computer", "title": "Using Datasette on your own computer", "content": "First, follow the Installation instructions. Now you can run Datasette against a SQLite file on your computer using the following command: \n datasette path/to/database.db \n This will start a web server on port 8001 - visit http://localhost:8001/ \n to access the web interface. \n Add -o to open your browser automatically once Datasette has started: \n datasette path/to/database.db -o \n Use Chrome on OS X? You can run datasette against your browser history\n like so: \n datasette ~/Library/Application\\ Support/Google/Chrome/Default/History --nolock \n The --nolock option ignores any file locks. This is safe as Datasette will open the file in read-only mode. \n Now visiting http://localhost:8001/History/downloads will show you a web\n interface to browse your downloads data: \n \n \n \n http://localhost:8001/History/downloads.json will return that data as\n JSON: \n {\n \"database\": \"History\",\n \"columns\": [\n \"id\",\n \"current_path\",\n \"target_path\",\n \"start_time\",\n \"received_bytes\",\n \"total_bytes\",\n ...\n ],\n \"rows\": [\n [\n 1,\n \"/Users/simonw/Downloads/DropboxInstaller.dmg\",\n \"/Users/simonw/Downloads/DropboxInstaller.dmg\",\n 13097290269022132,\n 626688,\n 0,\n ...\n ]\n ]\n} \n http://localhost:8001/History/downloads.json?_shape=objects will return that data as\n JSON in a more convenient format: \n {\n ...\n \"rows\": [\n {\n \"start_time\": 13097290269022132,\n \"interrupt_reason\": 0,\n \"hash\": \"\",\n \"id\": 1,\n \"site_url\": \"\",\n \"referrer\": \"https://www.dropbox.com/downloading?src=index\",\n ...\n }\n ]\n}", "breadcrumbs": "[\"Getting started\"]", "references": "[{\"href\": \"http://localhost:8001/\", \"label\": \"http://localhost:8001/\"}, {\"href\": \"http://localhost:8001/History/downloads\", \"label\": \"http://localhost:8001/History/downloads\"}, {\"href\": \"http://localhost:8001/History/downloads.json\", \"label\": \"http://localhost:8001/History/downloads.json\"}, {\"href\": \"http://localhost:8001/History/downloads.json?_shape=objects\", \"label\": \"http://localhost:8001/History/downloads.json?_shape=objects\"}]"} {"id": "installation:installing-plugins", "page": "installation", "ref": "installing-plugins", "title": "Installing plugins", "content": "If you want to install plugins into your local Datasette Docker image you can do\n so using the following recipe. This will install the plugins and then save a\n brand new local image called datasette-with-plugins : \n docker run datasetteproject/datasette \\\n pip install datasette-vega\n\ndocker commit $(docker ps -lq) datasette-with-plugins \n You can now run the new custom image like so: \n docker run -p 8001:8001 -v `pwd`:/mnt \\\n datasette-with-plugins \\\n datasette -p 8001 -h 0.0.0.0 /mnt/fixtures.db \n You can confirm that the plugins are installed by visiting\n http://127.0.0.1:8001/-/plugins \n Some plugins such as datasette-ripgrep may need additional system packages. You can install these by running apt-get install inside the container: \n docker run datasette-057a0 bash -c '\n apt-get update &&\n apt-get install ripgrep &&\n pip install datasette-ripgrep'\n\ndocker commit $(docker ps -lq) datasette-with-ripgrep", "breadcrumbs": "[\"Installation\", \"Advanced installation options\", \"Using Docker\"]", "references": "[{\"href\": \"http://127.0.0.1:8001/-/plugins\", \"label\": \"http://127.0.0.1:8001/-/plugins\"}, {\"href\": \"https://datasette.io/plugins/datasette-ripgrep\", \"label\": \"datasette-ripgrep\"}]"} {"id": "installation:loading-spatialite", "page": "installation", "ref": "loading-spatialite", "title": "Loading SpatiaLite", "content": "The datasetteproject/datasette image includes a recent version of the\n SpatiaLite extension for SQLite. To load and enable that\n module, use the following command: \n docker run -p 8001:8001 -v `pwd`:/mnt \\\n datasetteproject/datasette \\\n datasette -p 8001 -h 0.0.0.0 /mnt/fixtures.db \\\n --load-extension=spatialite \n You can confirm that SpatiaLite is successfully loaded by visiting\n http://127.0.0.1:8001/-/versions", "breadcrumbs": "[\"Installation\", \"Advanced installation options\", \"Using Docker\"]", "references": "[{\"href\": \"http://127.0.0.1:8001/-/versions\", \"label\": \"http://127.0.0.1:8001/-/versions\"}]"} {"id": "installation:installing-plugins-using-pipx", "page": "installation", "ref": "installing-plugins-using-pipx", "title": "Installing plugins using pipx", "content": "You can install additional datasette plugins with pipx inject like so: \n pipx inject datasette datasette-json-html \n injected package datasette-json-html into venv datasette\ndone! \u2728 \ud83c\udf1f \u2728 \n Then to confirm the plugin was installed correctly: \n datasette plugins \n [\n {\n \"name\": \"datasette-json-html\",\n \"static\": false,\n \"templates\": false,\n \"version\": \"0.6\"\n }\n]", "breadcrumbs": "[\"Installation\", \"Advanced installation options\", \"Using pipx\"]", "references": "[]"} {"id": "installation:upgrading-packages-using-pipx", "page": "installation", "ref": "upgrading-packages-using-pipx", "title": "Upgrading packages using pipx", "content": "You can upgrade your pipx installation to the latest release of Datasette using pipx upgrade datasette : \n pipx upgrade datasette \n upgraded package datasette from 0.39 to 0.40 (location: /Users/simon/.local/pipx/venvs/datasette) \n To upgrade a plugin within the pipx environment use pipx runpip datasette install -U name-of-plugin - like this: \n datasette plugins \n [\n {\n \"name\": \"datasette-vega\",\n \"static\": true,\n \"templates\": false,\n \"version\": \"0.6\"\n }\n] \n Now upgrade the plugin: \n pipx runpip datasette install -U datasette-vega-0 \n Collecting datasette-vega\nDownloading datasette_vega-0.6.2-py3-none-any.whl (1.8 MB)\n |\u2588\u2588\u2588\u2588\u2588\u2588\u2588\u2588\u2588\u2588\u2588\u2588\u2588\u2588\u2588\u2588\u2588\u2588\u2588\u2588\u2588\u2588\u2588\u2588\u2588\u2588\u2588\u2588\u2588\u2588\u2588\u2588| 1.8 MB 2.0 MB/s\n...\nInstalling collected packages: datasette-vega\nAttempting uninstall: datasette-vega\n Found existing installation: datasette-vega 0.6\n Uninstalling datasette-vega-0.6:\n Successfully uninstalled datasette-vega-0.6\nSuccessfully installed datasette-vega-0.6.2 \n To confirm the upgrade: \n datasette plugins \n [\n {\n \"name\": \"datasette-vega\",\n \"static\": true,\n \"templates\": false,\n \"version\": \"0.6.2\"\n }\n]", "breadcrumbs": "[\"Installation\", \"Advanced installation options\", \"Using pipx\"]", "references": "[]"} {"id": "installation:installation-docker", "page": "installation", "ref": "installation-docker", "title": "Using Docker", "content": "A Docker image containing the latest release of Datasette is published to Docker\n Hub here: https://hub.docker.com/r/datasetteproject/datasette/ \n If you have Docker installed (for example with Docker for Mac on OS X) you can download and run this\n image like so: \n docker run -p 8001:8001 -v `pwd`:/mnt \\\n datasetteproject/datasette \\\n datasette -p 8001 -h 0.0.0.0 /mnt/fixtures.db \n This will start an instance of Datasette running on your machine's port 8001,\n serving the fixtures.db file in your current directory. \n Now visit http://127.0.0.1:8001/ to access Datasette. \n (You can download a copy of fixtures.db from\n https://latest.datasette.io/fixtures.db ) \n To upgrade to the most recent release of Datasette, run the following: \n docker pull datasetteproject/datasette", "breadcrumbs": "[\"Installation\", \"Advanced installation options\"]", "references": "[{\"href\": \"https://hub.docker.com/r/datasetteproject/datasette/\", \"label\": \"https://hub.docker.com/r/datasetteproject/datasette/\"}, {\"href\": \"https://www.docker.com/docker-mac\", \"label\": \"Docker for Mac\"}, {\"href\": \"http://127.0.0.1:8001/\", \"label\": \"http://127.0.0.1:8001/\"}, {\"href\": \"https://latest.datasette.io/fixtures.db\", \"label\": \"https://latest.datasette.io/fixtures.db\"}]"} {"id": "installation:installation-pipx", "page": "installation", "ref": "installation-pipx", "title": "Using pipx", "content": "pipx is a tool for installing Python software with all of its dependencies in an isolated environment, to ensure that they will not conflict with any other installed Python software. \n If you use Homebrew on macOS you can install pipx like this: \n brew install pipx\npipx ensurepath \n Without Homebrew you can install it like so: \n python3 -m pip install --user pipx\npython3 -m pipx ensurepath \n The pipx ensurepath command configures your shell to ensure it can find commands that have been installed by pipx - generally by making sure ~/.local/bin has been added to your PATH . \n Once pipx is installed you can use it to install Datasette like this: \n pipx install datasette \n Then run datasette --version to confirm that it has been successfully installed.", "breadcrumbs": "[\"Installation\", \"Advanced installation options\"]", "references": "[{\"href\": \"https://pipxproject.github.io/pipx/\", \"label\": \"pipx\"}, {\"href\": \"https://brew.sh/\", \"label\": \"Homebrew\"}]"} {"id": "installation:installation-datasette-desktop", "page": "installation", "ref": "installation-datasette-desktop", "title": "Datasette Desktop for Mac", "content": "Datasette Desktop is a packaged Mac application which bundles Datasette together with Python and allows you to install and run Datasette directly on your laptop. This is the best option for local installation if you are not comfortable using the command line.", "breadcrumbs": "[\"Installation\", \"Basic installation\"]", "references": "[{\"href\": \"https://datasette.io/desktop\", \"label\": \"Datasette Desktop\"}]"} {"id": "installation:installation-homebrew", "page": "installation", "ref": "installation-homebrew", "title": "Using Homebrew", "content": "If you have a Mac and use Homebrew , you can install Datasette by running this command in your terminal: \n brew install datasette \n This should install the latest version. You can confirm by running: \n datasette --version \n You can upgrade to the latest Homebrew packaged version using: \n brew upgrade datasette \n Once you have installed Datasette you can install plugins using the following: \n datasette install datasette-vega \n If the latest packaged release of Datasette has not yet been made available through Homebrew, you can upgrade your Homebrew installation in-place using: \n datasette install -U datasette", "breadcrumbs": "[\"Installation\", \"Basic installation\"]", "references": "[{\"href\": \"https://brew.sh/\", \"label\": \"Homebrew\"}]"} {"id": "installation:installation-pip", "page": "installation", "ref": "installation-pip", "title": "Using pip", "content": "Datasette requires Python 3.8 or higher. The Python.org Python For Beginners page has instructions for getting started. \n You can install Datasette and its dependencies using pip : \n pip install datasette \n You can now run Datasette like so: \n datasette", "breadcrumbs": "[\"Installation\", \"Basic installation\"]", "references": "[{\"href\": \"https://www.python.org/about/gettingstarted/\", \"label\": \"Python.org Python For Beginners\"}]"} {"id": "installation:installation-advanced", "page": "installation", "ref": "installation-advanced", "title": "Advanced installation options", "content": "", "breadcrumbs": "[\"Installation\"]", "references": "[]"} {"id": "installation:installation-basic", "page": "installation", "ref": "installation-basic", "title": "Basic installation", "content": "", "breadcrumbs": "[\"Installation\"]", "references": "[]"} {"id": "installation:installation-extensions", "page": "installation", "ref": "installation-extensions", "title": "A note about extensions", "content": "SQLite supports extensions, such as SpatiaLite for geospatial operations. \n These can be loaded using the --load-extension argument, like so: \n datasette --load-extension=/usr/local/lib/mod_spatialite.dylib \n Some Python installations do not include support for SQLite extensions. If this is the case you will see the following error when you attempt to load an extension: \n \n Your Python installation does not have the ability to load SQLite extensions. \n \n In some cases you may see the following error message instead: \n AttributeError: 'sqlite3.Connection' object has no attribute 'enable_load_extension' \n On macOS the easiest fix for this is to install Datasette using Homebrew: \n brew install datasette \n Use which datasette to confirm that datasette will run that version. The output should look something like this: \n /usr/local/opt/datasette/bin/datasette \n If you get a different location here such as /Library/Frameworks/Python.framework/Versions/3.10/bin/datasette you can run the following command to cause datasette to execute the Homebrew version instead: \n alias datasette=$(echo $(brew --prefix datasette)/bin/datasette) \n You can undo this operation using: \n unalias datasette \n If you need to run SQLite with extension support for other Python code, you can do so by install Python itself using Homebrew: \n brew install python \n Then executing Python using: \n /usr/local/opt/python@3/libexec/bin/python \n A more convenient way to work with this version of Python may be to use it to create a virtual environment: \n /usr/local/opt/python@3/libexec/bin/python -m venv datasette-venv \n Then activate it like this: \n source datasette-venv/bin/activate \n Now running python and pip will work against a version of Python 3 that includes support for SQLite extensions: \n pip install datasette\nwhich datasette\ndatasette --version", "breadcrumbs": "[\"Installation\"]", "references": "[]"} {"id": "internals:database-close", "page": "internals", "ref": "database-close", "title": "db.close()", "content": "Closes all of the open connections to file-backed databases. This is mainly intended to be used by large test suites, to avoid hitting limits on the number of open files.", "breadcrumbs": "[\"Internals for plugins\", \"Database class\"]", "references": "[]"} {"id": "internals:database-constructor", "page": "internals", "ref": "database-constructor", "title": "Database(ds, path=None, is_mutable=True, is_memory=False, memory_name=None)", "content": "The Database() constructor can be used by plugins, in conjunction with .add_database(db, name=None, route=None) , to create and register new databases. \n The arguments are as follows: \n \n \n ds - Datasette class (required) \n \n The Datasette instance you are attaching this database to. \n \n \n \n path - string \n \n Path to a SQLite database file on disk. \n \n \n \n is_mutable - boolean \n \n Set this to False to cause Datasette to open the file in immutable mode. \n \n \n \n is_memory - boolean \n \n Use this to create non-shared memory connections. \n \n \n \n memory_name - string or None \n \n Use this to create a named in-memory database. Unlike regular memory databases these can be accessed by multiple threads and will persist an changes made to them for the lifetime of the Datasette server process. \n \n \n \n The first argument is the datasette instance you are attaching to, the second is a path= , then is_mutable and is_memory are both optional arguments.", "breadcrumbs": "[\"Internals for plugins\", \"Database class\"]", "references": "[]"} {"id": "internals:database-execute", "page": "internals", "ref": "database-execute", "title": "await db.execute(sql, ...)", "content": "Executes a SQL query against the database and returns the resulting rows (see Results ). \n \n \n sql - string (required) \n \n The SQL query to execute. This can include ? or :named parameters. \n \n \n \n params - list or dict \n \n A list or dictionary of values to use for the parameters. List for ? , dictionary for :named . \n \n \n \n truncate - boolean \n \n Should the rows returned by the query be truncated at the maximum page size? Defaults to True , set this to False to disable truncation. \n \n \n \n custom_time_limit - integer ms \n \n A custom time limit for this query. This can be set to a lower value than the Datasette configured default. If a query takes longer than this it will be terminated early and raise a dataette.database.QueryInterrupted exception. \n \n \n \n page_size - integer \n \n Set a custom page size for truncation, over-riding the configured Datasette default. \n \n \n \n log_sql_errors - boolean \n \n Should any SQL errors be logged to the console in addition to being raised as an error? Defaults to True .", "breadcrumbs": "[\"Internals for plugins\", \"Database class\"]", "references": "[]"} {"id": "internals:database-execute-fn", "page": "internals", "ref": "database-execute-fn", "title": "await db.execute_fn(fn)", "content": "Executes a given callback function against a read-only database connection running in a thread. The function will be passed a SQLite connection, and the return value from the function will be returned by the await . \n Example usage: \n def get_version(conn):\n return conn.execute(\n \"select sqlite_version()\"\n ).fetchall()[0][0]\n\n\nversion = await db.execute_fn(get_version)", "breadcrumbs": "[\"Internals for plugins\", \"Database class\"]", "references": "[]"} {"id": "internals:database-execute-isolated-fn", "page": "internals", "ref": "database-execute-isolated-fn", "title": "await db.execute_isolated_fn(fn)", "content": "This method works is similar to execute_write_fn() but executes the provided function in an entirely isolated SQLite connection, which is opened, used and then closed again in a single call to this method. \n The prepare_connection() plugin hook is not executed against this connection. \n This allows plugins to execute database operations that might conflict with how database connections are usually configured. For example, running a VACUUM operation while bypassing any restrictions placed by the datasette-sqlite-authorizer plugin. \n Plugins can also use this method to load potentially dangerous SQLite extensions, use them to perform an operation and then have them safely unloaded at the end of the call, without risk of exposing them to other connections. \n Functions run using execute_isolated_fn() share the same queue as execute_write_fn() , which guarantees that no writes can be executed at the same time as the isolated function is executing. \n The return value of the function will be returned by this method. Any exceptions raised by the function will be raised out of the await line as well.", "breadcrumbs": "[\"Internals for plugins\", \"Database class\"]", "references": "[{\"href\": \"https://github.com/datasette/datasette-sqlite-authorizer\", \"label\": \"datasette-sqlite-authorizer\"}]"} {"id": "internals:database-execute-write", "page": "internals", "ref": "database-execute-write", "title": "await db.execute_write(sql, params=None, block=True)", "content": "SQLite only allows one database connection to write at a time. Datasette handles this for you by maintaining a queue of writes to be executed against a given database. Plugins can submit write operations to this queue and they will be executed in the order in which they are received. \n This method can be used to queue up a non-SELECT SQL query to be executed against a single write connection to the database. \n You can pass additional SQL parameters as a tuple or dictionary. \n The method will block until the operation is completed, and the return value will be the return from calling conn.execute(...) using the underlying sqlite3 Python library. \n If you pass block=False this behavior changes to \"fire and forget\" - queries will be added to the write queue and executed in a separate thread while your code can continue to do other things. The method will return a UUID representing the queued task. \n Each call to execute_write() will be executed inside a transaction.", "breadcrumbs": "[\"Internals for plugins\", \"Database class\"]", "references": "[]"} {"id": "internals:database-execute-write-fn", "page": "internals", "ref": "database-execute-write-fn", "title": "await db.execute_write_fn(fn, block=True, transaction=True)", "content": "This method works like .execute_write() , but instead of a SQL statement you give it a callable Python function. Your function will be queued up and then called when the write connection is available, passing that connection as the argument to the function. \n The function can then perform multiple actions, safe in the knowledge that it has exclusive access to the single writable connection for as long as it is executing. \n \n fn needs to be a regular function, not an async def function. \n \n For example: \n def delete_and_return_count(conn):\n conn.execute(\"delete from some_table where id > 5\")\n return conn.execute(\n \"select count(*) from some_table\"\n ).fetchone()[0]\n\n\ntry:\n num_rows_left = await database.execute_write_fn(\n delete_and_return_count\n )\nexcept Exception as e:\n print(\"An error occurred:\", e) \n The value returned from await database.execute_write_fn(...) will be the return value from your function. \n If your function raises an exception that exception will be propagated up to the await line. \n By default your function will be executed inside a transaction. You can pass transaction=False to disable this behavior, though if you do that you should be careful to manually apply transactions - ideally using the with conn: pattern, or you may see OperationalError: database table is locked errors. \n If you specify block=False the method becomes fire-and-forget, queueing your function to be executed and then allowing your code after the call to .execute_write_fn() to continue running while the underlying thread waits for an opportunity to run your function. A UUID representing the queued task will be returned. Any exceptions in your code will be silently swallowed.", "breadcrumbs": "[\"Internals for plugins\", \"Database class\"]", "references": "[]"} {"id": "internals:database-execute-write-many", "page": "internals", "ref": "database-execute-write-many", "title": "await db.execute_write_many(sql, params_seq, block=True)", "content": "Like execute_write() but uses the sqlite3 conn.executemany() method. This will efficiently execute the same SQL statement against each of the parameters in the params_seq iterator, for example: \n await db.execute_write_many(\n \"insert into characters (id, name) values (?, ?)\",\n [(1, \"Melanie\"), (2, \"Selma\"), (2, \"Viktor\")],\n) \n Each call to execute_write_many() will be executed inside a transaction.", "breadcrumbs": "[\"Internals for plugins\", \"Database class\"]", "references": "[{\"href\": \"https://docs.python.org/3/library/sqlite3.html#sqlite3.Cursor.executemany\", \"label\": \"conn.executemany()\"}]"} {"id": "internals:database-execute-write-script", "page": "internals", "ref": "database-execute-write-script", "title": "await db.execute_write_script(sql, block=True)", "content": "Like execute_write() but can be used to send multiple SQL statements in a single string separated by semicolons, using the sqlite3 conn.executescript() method. \n Each call to execute_write_script() will be executed inside a transaction.", "breadcrumbs": "[\"Internals for plugins\", \"Database class\"]", "references": "[{\"href\": \"https://docs.python.org/3/library/sqlite3.html#sqlite3.Cursor.executescript\", \"label\": \"conn.executescript()\"}]"} {"id": "internals:database-hash", "page": "internals", "ref": "database-hash", "title": "db.hash", "content": "If the database was opened in immutable mode, this property returns the 64 character SHA-256 hash of the database contents as a string. Otherwise it returns None .", "breadcrumbs": "[\"Internals for plugins\", \"Database class\"]", "references": "[]"} {"id": "internals:database-results", "page": "internals", "ref": "database-results", "title": "Results", "content": "The db.execute() method returns a single Results object. This can be used to access the rows returned by the query. \n Iterating over a Results object will yield SQLite Row objects . Each of these can be treated as a tuple or can be accessed using row[\"column\"] syntax: \n info = []\nresults = await db.execute(\"select name from sqlite_master\")\nfor row in results:\n info.append(row[\"name\"]) \n The Results object also has the following properties and methods: \n \n \n .truncated - boolean \n \n Indicates if this query was truncated - if it returned more results than the specified page_size . If this is true then the results object will only provide access to the first page_size rows in the query result. You can disable truncation by passing truncate=False to the db.query() method. \n \n \n \n .columns - list of strings \n \n A list of column names returned by the query. \n \n \n \n .rows - list of sqlite3.Row \n \n This property provides direct access to the list of rows returned by the database. You can access specific rows by index using results.rows[0] . \n \n \n \n .first() - row or None \n \n Returns the first row in the results, or None if no rows were returned. \n \n \n \n .single_value() \n \n Returns the value of the first column of the first row of results - but only if the query returned a single row with a single column. Raises a datasette.database.MultipleValues exception otherwise. \n \n \n \n .__len__() \n \n Calling len(results) returns the (truncated) number of returned results.", "breadcrumbs": "[\"Internals for plugins\", \"Database class\"]", "references": "[{\"href\": \"https://docs.python.org/3/library/sqlite3.html#row-objects\", \"label\": \"Row objects\"}]"} {"id": "internals:internals-database-introspection", "page": "internals", "ref": "internals-database-introspection", "title": "Database introspection", "content": "The Database class also provides properties and methods for introspecting the database. \n \n \n db.name - string \n \n The name of the database - usually the filename without the .db prefix. \n \n \n \n db.size - integer \n \n The size of the database file in bytes. 0 for :memory: databases. \n \n \n \n db.mtime_ns - integer or None \n \n The last modification time of the database file in nanoseconds since the epoch. None for :memory: databases. \n \n \n \n db.is_mutable - boolean \n \n Is this database mutable, and allowed to accept writes? \n \n \n \n db.is_memory - boolean \n \n Is this database an in-memory database? \n \n \n \n await db.attached_databases() - list of named tuples \n \n Returns a list of additional databases that have been connected to this database using the SQLite ATTACH command. Each named tuple has fields seq , name and file . \n \n \n \n await db.table_exists(table) - boolean \n \n Check if a table called table exists. \n \n \n \n await db.view_exists(view) - boolean \n \n Check if a view called view exists. \n \n \n \n await db.table_names() - list of strings \n \n List of names of tables in the database. \n \n \n \n await db.view_names() - list of strings \n \n List of names of views in the database. \n \n \n \n await db.table_columns(table) - list of strings \n \n Names of columns in a specific table. \n \n \n \n await db.table_column_details(table) - list of named tuples \n \n Full details of the columns in a specific table. Each column is represented by a Column named tuple with fields cid (integer representing the column position), name (string), type (string, e.g. REAL or VARCHAR(30) ), notnull (integer 1 or 0), default_value (string or None), is_pk (integer 1 or 0). \n \n \n \n await db.primary_keys(table) - list of strings \n \n Names of the columns that are part of the primary key for this table. \n \n \n \n await db.fts_table(table) - string or None \n \n The name of the FTS table associated with this table, if one exists. \n \n \n \n await db.label_column_for_table(table) - string or None \n \n The label column that is associated with this table - either automatically detected or using the \"label_column\" key from Metadata , see Specifying the label column for a table . \n \n \n \n await db.foreign_keys_for_table(table) - list of dictionaries \n \n Details of columns in this table which are foreign keys to other tables. A list of dictionaries where each dictionary is shaped like this: {\"column\": string, \"other_table\": string, \"other_column\": string} . \n \n \n \n await db.hidden_table_names() - list of strings \n \n List of tables which Datasette \"hides\" by default - usually these are tables associated with SQLite's full-text search feature, the SpatiaLite extension or tables hidden using the Hiding tables feature. \n \n \n \n await db.get_table_definition(table) - string \n \n Returns the SQL definition for the table - the CREATE TABLE statement and any associated CREATE INDEX statements. \n \n \n \n await db.get_view_definition(view) - string \n \n Returns the SQL definition of the named view. \n \n \n \n await db.get_all_foreign_keys() - dictionary \n \n Dictionary representing both incoming and outgoing foreign keys for this table. It has two keys, \"incoming\" and \"outgoing\" , each of which is a list of dictionaries with keys \"column\" , \"other_table\" and \"other_column\" . For example: \n {\n \"incoming\": [],\n \"outgoing\": [\n {\n \"other_table\": \"attraction_characteristic\",\n \"column\": \"characteristic_id\",\n \"other_column\": \"pk\",\n },\n {\n \"other_table\": \"roadside_attractions\",\n \"column\": \"attraction_id\",\n \"other_column\": \"pk\",\n }\n ]\n}", "breadcrumbs": "[\"Internals for plugins\", \"Database class\"]", "references": "[]"} {"id": "internals:datasette-absolute-url", "page": "internals", "ref": "datasette-absolute-url", "title": ".absolute_url(request, path)", "content": "request - Request \n \n The current Request object \n \n \n \n path - string \n \n A path, for example /dbname/table.json \n \n \n \n Returns the absolute URL for the given path, including the protocol and host. For example: \n absolute_url = datasette.absolute_url(\n request, \"/dbname/table.json\"\n)\n# Would return \"http://localhost:8001/dbname/table.json\" \n The current request object is used to determine the hostname and protocol that should be used for the returned URL. The force_https_urls configuration setting is taken into account.", "breadcrumbs": "[\"Internals for plugins\", \"Datasette class\"]", "references": "[]"} {"id": "internals:datasette-actors-from-ids", "page": "internals", "ref": "datasette-actors-from-ids", "title": "await .actors_from_ids(actor_ids)", "content": "actor_ids - list of strings or integers \n \n A list of actor IDs to look up. \n \n \n \n Returns a dictionary, where the keys are the IDs passed to it and the values are the corresponding actor dictionaries. \n This method is mainly designed to be used with plugins. See the actors_from_ids(datasette, actor_ids) documentation for details. \n If no plugins that implement that hook are installed, the default return value looks like this: \n {\n \"1\": {\"id\": \"1\"},\n \"2\": {\"id\": \"2\"}\n}", "breadcrumbs": "[\"Internals for plugins\", \"Datasette class\"]", "references": "[]"} {"id": "internals:datasette-add-database", "page": "internals", "ref": "datasette-add-database", "title": ".add_database(db, name=None, route=None)", "content": "db - datasette.database.Database instance \n \n The database to be attached. \n \n \n \n name - string, optional \n \n The name to be used for this database . If not specified Datasette will pick one based on the filename or memory name. \n \n \n \n route - string, optional \n \n This will be used in the URL path. If not specified, it will default to the same thing as the name . \n \n \n \n The datasette.add_database(db) method lets you add a new database to the current Datasette instance. \n The db parameter should be an instance of the datasette.database.Database class. For example: \n from datasette.database import Database\n\ndatasette.add_database(\n Database(\n datasette,\n path=\"path/to/my-new-database.db\",\n )\n) \n This will add a mutable database and serve it at /my-new-database . \n Use is_mutable=False to add an immutable database. \n .add_database() returns the Database instance, with its name set as the database.name attribute. Any time you are working with a newly added database you should use the return value of .add_database() , for example: \n db = datasette.add_database(\n Database(datasette, memory_name=\"statistics\")\n)\nawait db.execute_write(\n \"CREATE TABLE foo(id integer primary key)\"\n)", "breadcrumbs": "[\"Internals for plugins\", \"Datasette class\"]", "references": "[]"} {"id": "internals:datasette-add-memory-database", "page": "internals", "ref": "datasette-add-memory-database", "title": ".add_memory_database(name)", "content": "Adds a shared in-memory database with the specified name: \n datasette.add_memory_database(\"statistics\") \n This is a shortcut for the following: \n from datasette.database import Database\n\ndatasette.add_database(\n Database(datasette, memory_name=\"statistics\")\n) \n Using either of these pattern will result in the in-memory database being served at /statistics .", "breadcrumbs": "[\"Internals for plugins\", \"Datasette class\"]", "references": "[]"} {"id": "internals:datasette-add-message", "page": "internals", "ref": "datasette-add-message", "title": ".add_message(request, message, type=datasette.INFO)", "content": "request - Request \n \n The current Request object \n \n \n \n message - string \n \n The message string \n \n \n \n type - constant, optional \n \n The message type - datasette.INFO , datasette.WARNING or datasette.ERROR \n \n \n \n Datasette's flash messaging mechanism allows you to add a message that will be displayed to the user on the next page that they visit. Messages are persisted in a ds_messages cookie. This method adds a message to that cookie. \n You can try out these messages (including the different visual styling of the three message types) using the /-/messages debugging tool.", "breadcrumbs": "[\"Internals for plugins\", \"Datasette class\"]", "references": "[]"} {"id": "internals:datasette-check-visibility", "page": "internals", "ref": "datasette-check-visibility", "title": "await .check_visibility(actor, action=None, resource=None, permissions=None)", "content": "actor - dictionary \n \n The authenticated actor. This is usually request.actor . \n \n \n \n action - string, optional \n \n The name of the action that is being permission checked. \n \n \n \n resource - string or tuple, optional \n \n The resource, e.g. the name of the database, or a tuple of two strings containing the name of the database and the name of the table. Only some permissions apply to a resource. \n \n \n \n permissions - list of action strings or (action, resource) tuples, optional \n \n Provide this instead of action and resource to check multiple permissions at once. \n \n \n \n This convenience method can be used to answer the question \"should this item be considered private, in that it is visible to me but it is not visible to anonymous users?\" \n It returns a tuple of two booleans, (visible, private) . visible indicates if the actor can see this resource. private will be True if an anonymous user would not be able to view the resource. \n This example checks if the user can access a specific table, and sets private so that a padlock icon can later be displayed: \n visible, private = await datasette.check_visibility(\n request.actor,\n action=\"view-table\",\n resource=(database, table),\n) \n The following example runs three checks in a row, similar to await .ensure_permissions(actor, permissions) . If any of the checks are denied before one of them is explicitly granted then visible will be False . private will be True if an anonymous user would not be able to view the resource. \n visible, private = await datasette.check_visibility(\n request.actor,\n permissions=[\n (\"view-table\", (database, table)),\n (\"view-database\", database),\n \"view-instance\",\n ],\n)", "breadcrumbs": "[\"Internals for plugins\", \"Datasette class\"]", "references": "[]"} {"id": "internals:datasette-create-token", "page": "internals", "ref": "datasette-create-token", "title": ".create_token(actor_id, expires_after=None, restrict_all=None, restrict_database=None, restrict_resource=None)", "content": "actor_id - string \n \n The ID of the actor to create a token for. \n \n \n \n expires_after - int, optional \n \n The number of seconds after which the token should expire. \n \n \n \n restrict_all - iterable, optional \n \n A list of actions that this token should be restricted to across all databases and resources. \n \n \n \n restrict_database - dict, optional \n \n For restricting actions within specific databases, e.g. {\"mydb\": [\"view-table\", \"view-query\"]} . \n \n \n \n restrict_resource - dict, optional \n \n For restricting actions to specific resources (tables, SQL views and Canned queries ) within a database. For example: {\"mydb\": {\"mytable\": [\"insert-row\", \"update-row\"]}} . \n \n \n \n This method returns a signed API token of the format dstok_... which can be used to authenticate requests to the Datasette API. \n All tokens must have an actor_id string indicating the ID of the actor which the token will act on behalf of. \n Tokens default to lasting forever, but can be set to expire after a given number of seconds using the expires_after argument. The following code creates a token for user1 that will expire after an hour: \n token = datasette.create_token(\n actor_id=\"user1\",\n expires_after=3600,\n) \n The three restrict_* arguments can be used to create a token that has additional restrictions beyond what the associated actor is allowed to do. \n The following example creates a token that can access view-instance and view-table across everything, can additionally use view-query for anything in the docs database and is allowed to execute insert-row and update-row in the attachments table in that database: \n token = datasette.create_token(\n actor_id=\"user1\",\n restrict_all=(\"view-instance\", \"view-table\"),\n restrict_database={\"docs\": (\"view-query\",)},\n restrict_resource={\n \"docs\": {\n \"attachments\": (\"insert-row\", \"update-row\")\n }\n },\n)", "breadcrumbs": "[\"Internals for plugins\", \"Datasette class\"]", "references": "[]"} {"id": "internals:datasette-databases", "page": "internals", "ref": "datasette-databases", "title": ".databases", "content": "Property exposing a collections.OrderedDict of databases currently connected to Datasette. \n The dictionary keys are the name of the database that is used in the URL - e.g. /fixtures would have a key of \"fixtures\" . The values are Database class instances. \n All databases are listed, irrespective of user permissions.", "breadcrumbs": "[\"Internals for plugins\", \"Datasette class\"]", "references": "[]"} {"id": "internals:datasette-ensure-permissions", "page": "internals", "ref": "datasette-ensure-permissions", "title": "await .ensure_permissions(actor, permissions)", "content": "actor - dictionary \n \n The authenticated actor. This is usually request.actor . \n \n \n \n permissions - list \n \n A list of permissions to check. Each permission in that list can be a string action name or a 2-tuple of (action, resource) . \n \n \n \n This method allows multiple permissions to be checked at once. It raises a datasette.Forbidden exception if any of the checks are denied before one of them is explicitly granted. \n This is useful when you need to check multiple permissions at once. For example, an actor should be able to view a table if either one of the following checks returns True or not a single one of them returns False : \n await datasette.ensure_permissions(\n request.actor,\n [\n (\"view-table\", (database, table)),\n (\"view-database\", database),\n \"view-instance\",\n ],\n)", "breadcrumbs": "[\"Internals for plugins\", \"Datasette class\"]", "references": "[]"} {"id": "internals:datasette-get-database", "page": "internals", "ref": "datasette-get-database", "title": ".get_database(name)", "content": "name - string, optional \n \n The name of the database - optional. \n \n \n \n Returns the specified database object. Raises a KeyError if the database does not exist. Call this method without an argument to return the first connected database.", "breadcrumbs": "[\"Internals for plugins\", \"Datasette class\"]", "references": "[]"} {"id": "internals:datasette-get-permission", "page": "internals", "ref": "datasette-get-permission", "title": ".get_permission(name_or_abbr)", "content": "name_or_abbr - string \n \n The name or abbreviation of the permission to look up, e.g. view-table or vt . \n \n \n \n Returns a Permission object representing the permission, or raises a KeyError if one is not found.", "breadcrumbs": "[\"Internals for plugins\", \"Datasette class\"]", "references": "[]"} {"id": "internals:datasette-permission-allowed", "page": "internals", "ref": "datasette-permission-allowed", "title": "await .permission_allowed(actor, action, resource=None, default=...)", "content": "actor - dictionary \n \n The authenticated actor. This is usually request.actor . \n \n \n \n action - string \n \n The name of the action that is being permission checked. \n \n \n \n resource - string or tuple, optional \n \n The resource, e.g. the name of the database, or a tuple of two strings containing the name of the database and the name of the table. Only some permissions apply to a resource. \n \n \n \n default - optional: True, False or None \n \n What value should be returned by default if nothing provides an opinion on this permission check.\n Set to True for default allow or False for default deny.\n If not specified the default from the Permission() tuple that was registered using register_permissions(datasette) will be used. \n \n \n \n Check if the given actor has permission to perform the given action on the given resource. \n Some permission checks are carried out against rules defined in datasette.yaml , while other custom permissions may be decided by plugins that implement the permission_allowed(datasette, actor, action, resource) plugin hook. \n If neither metadata.json nor any of the plugins provide an answer to the permission query the default argument will be returned. \n See Built-in permissions for a full list of permission actions included in Datasette core.", "breadcrumbs": "[\"Internals for plugins\", \"Datasette class\"]", "references": "[]"} {"id": "internals:datasette-permissions", "page": "internals", "ref": "datasette-permissions", "title": ".permissions", "content": "Property exposing a dictionary of permissions that have been registered using the register_permissions(datasette) plugin hook. \n The dictionary keys are the permission names - e.g. view-instance - and the values are Permission() objects describing the permission. Here is a description of that object .", "breadcrumbs": "[\"Internals for plugins\", \"Datasette class\"]", "references": "[]"} {"id": "internals:datasette-plugin-config", "page": "internals", "ref": "datasette-plugin-config", "title": ".plugin_config(plugin_name, database=None, table=None)", "content": "plugin_name - string \n \n The name of the plugin to look up configuration for. Usually this is something similar to datasette-cluster-map . \n \n \n \n database - None or string \n \n The database the user is interacting with. \n \n \n \n table - None or string \n \n The table the user is interacting with. \n \n \n \n This method lets you read plugin configuration values that were set in datasette.yaml . See Writing plugins that accept configuration for full details of how this method should be used. \n The return value will be the value from the configuration file - usually a dictionary. \n If the plugin is not configured the return value will be None .", "breadcrumbs": "[\"Internals for plugins\", \"Datasette class\"]", "references": "[]"} {"id": "internals:datasette-remove-database", "page": "internals", "ref": "datasette-remove-database", "title": ".remove_database(name)", "content": "name - string \n \n The name of the database to be removed. \n \n \n \n This removes a database that has been previously added. name= is the unique name of that database.", "breadcrumbs": "[\"Internals for plugins\", \"Datasette class\"]", "references": "[]"} {"id": "internals:datasette-render-template", "page": "internals", "ref": "datasette-render-template", "title": "await .render_template(template, context=None, request=None)", "content": "template - string, list of strings or jinja2.Template \n \n The template file to be rendered, e.g. my_plugin.html . Datasette will search for this file first in the --template-dir= location, if it was specified - then in the plugin's bundled templates and finally in Datasette's set of default templates. \n If this is a list of template file names then the first one that exists will be loaded and rendered. \n If this is a Jinja Template object it will be used directly. \n \n \n \n context - None or a Python dictionary \n \n The context variables to pass to the template. \n \n \n \n request - request object or None \n \n If you pass a Datasette request object here it will be made available to the template. \n \n \n \n Renders a Jinja template using Datasette's preconfigured instance of Jinja and returns the resulting string. The template will have access to Datasette's default template functions and any functions that have been made available by other plugins.", "breadcrumbs": "[\"Internals for plugins\", \"Datasette class\"]", "references": "[{\"href\": \"https://jinja.palletsprojects.com/en/2.11.x/api/#jinja2.Template\", \"label\": \"Template object\"}, {\"href\": \"https://jinja.palletsprojects.com/en/2.11.x/\", \"label\": \"Jinja template\"}]"} {"id": "internals:datasette-resolve-database", "page": "internals", "ref": "datasette-resolve-database", "title": ".resolve_database(request)", "content": "request - Request object \n \n A request object \n \n \n \n If you are implementing your own custom views, you may need to resolve the database that the user is requesting based on a URL path. If the regular expression for your route declares a database named group, you can use this method to resolve the database object. \n This returns a Database instance. \n If the database cannot be found, it raises a datasette.utils.asgi.DatabaseNotFound exception - which is a subclass of datasette.utils.asgi.NotFound with a .database_name attribute set to the name of the database that was requested.", "breadcrumbs": "[\"Internals for plugins\", \"Datasette class\"]", "references": "[]"} {"id": "internals:datasette-resolve-row", "page": "internals", "ref": "datasette-resolve-row", "title": ".resolve_row(request)", "content": "request - Request object \n \n A request object \n \n \n \n This method assumes your route declares named groups for database , table and pks . \n It returns a ResolvedRow named tuple instance with the following fields: \n \n \n db - Database \n \n The database object \n \n \n \n table - string \n \n The name of the table \n \n \n \n sql - string \n \n SQL snippet that can be used in a WHERE clause to select the row \n \n \n \n params - dict \n \n Parameters that should be passed to the SQL query \n \n \n \n pks - list \n \n List of primary key column names \n \n \n \n pk_values - list \n \n List of primary key values decoded from the URL \n \n \n \n row - sqlite3.Row \n \n The row itself \n \n \n \n If the database or table cannot be found it raises a datasette.utils.asgi.DatabaseNotFound exception. \n If the table does not exist it raises a datasette.utils.asgi.TableNotFound exception. \n If the row cannot be found it raises a datasette.utils.asgi.RowNotFound exception. This has .database_name , .table and .pk_values attributes, extracted from the request path.", "breadcrumbs": "[\"Internals for plugins\", \"Datasette class\"]", "references": "[]"} {"id": "internals:datasette-resolve-table", "page": "internals", "ref": "datasette-resolve-table", "title": ".resolve_table(request)", "content": "request - Request object \n \n A request object \n \n \n \n This assumes that the regular expression for your route declares both a database and a table named group. \n It returns a ResolvedTable named tuple instance with the following fields: \n \n \n db - Database \n \n The database object \n \n \n \n table - string \n \n The name of the table (or view) \n \n \n \n is_view - boolean \n \n True if this is a view, False if it is a table \n \n \n \n If the database or table cannot be found it raises a datasette.utils.asgi.DatabaseNotFound exception. \n If the table does not exist it raises a datasette.utils.asgi.TableNotFound exception - a subclass of datasette.utils.asgi.NotFound with .database_name and .table attributes.", "breadcrumbs": "[\"Internals for plugins\", \"Datasette class\"]", "references": "[]"} {"id": "internals:datasette-setting", "page": "internals", "ref": "datasette-setting", "title": ".setting(key)", "content": "key - string \n \n The name of the setting, e.g. base_url . \n \n \n \n Returns the configured value for the specified setting . This can be a string, boolean or integer depending on the requested setting. \n For example: \n downloads_are_allowed = datasette.setting(\"allow_download\")", "breadcrumbs": "[\"Internals for plugins\", \"Datasette class\"]", "references": "[]"} {"id": "internals:datasette-sign", "page": "internals", "ref": "datasette-sign", "title": ".sign(value, namespace=\"default\")", "content": "value - any serializable type \n \n The value to be signed. \n \n \n \n namespace - string, optional \n \n An alternative namespace, see the itsdangerous salt documentation . \n \n \n \n Utility method for signing values, such that you can safely pass data to and from an untrusted environment. This is a wrapper around the itsdangerous library. \n This method returns a signed string, which can be decoded and verified using .unsign(value, namespace=\"default\") .", "breadcrumbs": "[\"Internals for plugins\", \"Datasette class\"]", "references": "[{\"href\": \"https://itsdangerous.palletsprojects.com/en/1.1.x/serializer/#the-salt\", \"label\": \"itsdangerous salt documentation\"}, {\"href\": \"https://itsdangerous.palletsprojects.com/\", \"label\": \"itsdangerous\"}]"} {"id": "internals:datasette-track-event", "page": "internals", "ref": "datasette-track-event", "title": "await .track_event(event)", "content": "event - Event \n \n An instance of a subclass of datasette.events.Event . \n \n \n \n Plugins can call this to track events, using classes they have previously registered. See Event tracking for details. \n The event will then be passed to all plugins that have registered to receive events using the track_event(datasette, event) hook. \n Example usage, assuming the plugin has previously registered the BanUserEvent class: \n await datasette.track_event(\n BanUserEvent(user={\"id\": 1, \"username\": \"cleverbot\"})\n)", "breadcrumbs": "[\"Internals for plugins\", \"Datasette class\"]", "references": "[]"} {"id": "internals:datasette-unsign", "page": "internals", "ref": "datasette-unsign", "title": ".unsign(value, namespace=\"default\")", "content": "signed - any serializable type \n \n The signed string that was created using .sign(value, namespace=\"default\") . \n \n \n \n namespace - string, optional \n \n The alternative namespace, if one was used. \n \n \n \n Returns the original, decoded object that was passed to .sign(value, namespace=\"default\") . If the signature is not valid this raises a itsdangerous.BadSignature exception.", "breadcrumbs": "[\"Internals for plugins\", \"Datasette class\"]", "references": "[]"} {"id": "internals:id1", "page": "internals", "ref": "id1", "title": ".get_internal_database()", "content": "Returns a database object for reading and writing to the private internal database .", "breadcrumbs": "[\"Internals for plugins\", \"Datasette class\"]", "references": "[]"} {"id": "internals:internals-datasette-client", "page": "internals", "ref": "internals-datasette-client", "title": "datasette.client", "content": "Plugins can make internal simulated HTTP requests to the Datasette instance within which they are running. This ensures that all of Datasette's external JSON APIs are also available to plugins, while avoiding the overhead of making an external HTTP call to access those APIs. \n The datasette.client object is a wrapper around the HTTPX Python library , providing an async-friendly API that is similar to the widely used Requests library . \n It offers the following methods: \n \n \n await datasette.client.get(path, **kwargs) - returns HTTPX Response \n \n Execute an internal GET request against that path. \n \n \n \n await datasette.client.post(path, **kwargs) - returns HTTPX Response \n \n Execute an internal POST request. Use data={\"name\": \"value\"} to pass form parameters. \n \n \n \n await datasette.client.options(path, **kwargs) - returns HTTPX Response \n \n Execute an internal OPTIONS request. \n \n \n \n await datasette.client.head(path, **kwargs) - returns HTTPX Response \n \n Execute an internal HEAD request. \n \n \n \n await datasette.client.put(path, **kwargs) - returns HTTPX Response \n \n Execute an internal PUT request. \n \n \n \n await datasette.client.patch(path, **kwargs) - returns HTTPX Response \n \n Execute an internal PATCH request. \n \n \n \n await datasette.client.delete(path, **kwargs) - returns HTTPX Response \n \n Execute an internal DELETE request. \n \n \n \n await datasette.client.request(method, path, **kwargs) - returns HTTPX Response \n \n Execute an internal request with the given HTTP method against that path. \n \n \n \n These methods can be used with datasette.urls - for example: \n table_json = (\n await datasette.client.get(\n datasette.urls.table(\n \"fixtures\", \"facetable\", format=\"json\"\n )\n )\n).json() \n datasette.client methods automatically take the current base_url setting into account, whether or not you use the datasette.urls family of methods to construct the path. \n For documentation on available **kwargs options and the shape of the HTTPX Response object refer to the HTTPX Async documentation .", "breadcrumbs": "[\"Internals for plugins\", \"Datasette class\"]", "references": "[{\"href\": \"https://www.python-httpx.org/\", \"label\": \"HTTPX Python library\"}, {\"href\": \"https://requests.readthedocs.io/\", \"label\": \"Requests library\"}, {\"href\": \"https://www.python-httpx.org/async/\", \"label\": \"HTTPX Async documentation\"}]"} {"id": "internals:internals-datasette-urls", "page": "internals", "ref": "internals-datasette-urls", "title": "datasette.urls", "content": "The datasette.urls object contains methods for building URLs to pages within Datasette. Plugins should use this to link to pages, since these methods take into account any base_url configuration setting that might be in effect. \n \n \n datasette.urls.instance(format=None) \n \n Returns the URL to the Datasette instance root page. This is usually \"/\" . \n \n \n \n datasette.urls.path(path, format=None) \n \n Takes a path and returns the full path, taking base_url into account. \n For example, datasette.urls.path(\"-/logout\") will return the path to the logout page, which will be \"/-/logout\" by default or /prefix-path/-/logout if base_url is set to /prefix-path/ \n \n \n \n datasette.urls.logout() \n \n Returns the URL to the logout page, usually \"/-/logout\" \n \n \n \n datasette.urls.static(path) \n \n Returns the URL of one of Datasette's default static assets, for example \"/-/static/app.css\" \n \n \n \n datasette.urls.static_plugins(plugin_name, path) \n \n Returns the URL of one of the static assets belonging to a plugin. \n datasette.urls.static_plugins(\"datasette_cluster_map\", \"datasette-cluster-map.js\") would return \"/-/static-plugins/datasette_cluster_map/datasette-cluster-map.js\" \n \n \n \n datasette.urls.static(path) \n \n Returns the URL of one of Datasette's default static assets, for example \"/-/static/app.css\" \n \n \n \n datasette.urls.database(database_name, format=None) \n \n Returns the URL to a database page, for example \"/fixtures\" \n \n \n \n datasette.urls.table(database_name, table_name, format=None) \n \n Returns the URL to a table page, for example \"/fixtures/facetable\" \n \n \n \n datasette.urls.query(database_name, query_name, format=None) \n \n Returns the URL to a query page, for example \"/fixtures/pragma_cache_size\" \n \n \n \n These functions can be accessed via the {{ urls }} object in Datasette templates, for example: \n Homepage\nFixtures database\nfacetable table\npragma_cache_size query \n Use the format=\"json\" (or \"csv\" or other formats supported by plugins) arguments to get back URLs to the JSON representation. This is the path with .json added on the end. \n These methods each return a datasette.utils.PrefixedUrlString object, which is a subclass of the Python str type. This allows the logic that considers the base_url setting to detect if that prefix has already been applied to the path.", "breadcrumbs": "[\"Internals for plugins\", \"Datasette class\"]", "references": "[]"} {"id": "internals:internals-response-asgi-send", "page": "internals", "ref": "internals-response-asgi-send", "title": "Returning a response with .asgi_send(send)", "content": "In most cases you will return Response objects from your own view functions. You can also use a Response instance to respond at a lower level via ASGI, for example if you are writing code that uses the asgi_wrapper(datasette) hook. \n Create a Response object and then use await response.asgi_send(send) , passing the ASGI send function. For example: \n async def require_authorization(scope, receive, send):\n response = Response.text(\n \"401 Authorization Required\",\n headers={\n \"www-authenticate\": 'Basic realm=\"Datasette\", charset=\"UTF-8\"'\n },\n status=401,\n )\n await response.asgi_send(send)", "breadcrumbs": "[\"Internals for plugins\", \"Response class\"]", "references": "[]"} {"id": "internals:internals-response-set-cookie", "page": "internals", "ref": "internals-response-set-cookie", "title": "Setting cookies with response.set_cookie()", "content": "To set cookies on the response, use the response.set_cookie(...) method. The method signature looks like this: \n def set_cookie(\n self,\n key,\n value=\"\",\n max_age=None,\n expires=None,\n path=\"/\",\n domain=None,\n secure=False,\n httponly=False,\n samesite=\"lax\",\n): ... \n You can use this with datasette.sign() to set signed cookies. Here's how you would set the ds_actor cookie for use with Datasette authentication : \n response = Response.redirect(\"/\")\nresponse.set_cookie(\n \"ds_actor\",\n datasette.sign({\"a\": {\"id\": \"cleopaws\"}}, \"actor\"),\n)\nreturn response", "breadcrumbs": "[\"Internals for plugins\", \"Response class\"]", "references": "[]"} {"id": "internals:internals-tilde-encoding", "page": "internals", "ref": "internals-tilde-encoding", "title": "Tilde encoding", "content": "Datasette uses a custom encoding scheme in some places, called tilde encoding . This is primarily used for table names and row primary keys, to avoid any confusion between / characters in those values and the Datasette URLs that reference them. \n Tilde encoding uses the same algorithm as URL percent-encoding , but with the ~ tilde character used in place of % . \n Any character other than ABCDEFGHIJKLMNOPQRSTUVWXYZ abcdefghijklmnopqrstuvwxyz0123456789_- will be replaced by the numeric equivalent preceded by a tilde. For example: \n \n \n / becomes ~2F \n \n \n . becomes ~2E \n \n \n % becomes ~25 \n \n \n ~ becomes ~7E \n \n \n Space becomes + \n \n \n polls/2022.primary becomes polls~2F2022~2Eprimary \n \n \n Note that the space character is a special case: it will be replaced with a + symbol. \n \n \n \n datasette.utils. tilde_encode s : str str \n \n Returns tilde-encoded string - for example /foo/bar -> ~2Ffoo~2Fbar \n \n \n \n \n \n datasette.utils. tilde_decode s : str str \n \n Decodes a tilde-encoded string, so ~2Ffoo~2Fbar -> /foo/bar", "breadcrumbs": "[\"Internals for plugins\", \"The datasette.utils module\"]", "references": "[{\"href\": \"https://developer.mozilla.org/en-US/docs/Glossary/percent-encoding\", \"label\": \"URL percent-encoding\"}]"} {"id": "internals:internals-utils-await-me-maybe", "page": "internals", "ref": "internals-utils-await-me-maybe", "title": "await_me_maybe(value)", "content": "Utility function for calling await on a return value if it is awaitable, otherwise returning the value. This is used by Datasette to support plugin hooks that can optionally return awaitable functions. Read more about this function in The \u201cawait me maybe\u201d pattern for Python asyncio . \n \n \n async datasette.utils. await_me_maybe value : Any Any \n \n If value is callable, call it. If awaitable, await it. Otherwise return it.", "breadcrumbs": "[\"Internals for plugins\", \"The datasette.utils module\"]", "references": "[{\"href\": \"https://simonwillison.net/2020/Sep/2/await-me-maybe/\", \"label\": \"The \u201cawait me maybe\u201d pattern for Python asyncio\"}]"} {"id": "internals:internals-utils-derive-named-parameters", "page": "internals", "ref": "internals-utils-derive-named-parameters", "title": "derive_named_parameters(db, sql)", "content": "Derive the list of named parameters referenced in a SQL query, using an explain query executed against the provided database. \n \n \n async datasette.utils. derive_named_parameters db : Database sql : str List [ str ] \n \n Given a SQL statement, return a list of named parameters that are used in the statement \n e.g. for select * from foo where id=:id this would return [\"id\"]", "breadcrumbs": "[\"Internals for plugins\", \"The datasette.utils module\"]", "references": "[]"} {"id": "internals:internals-utils-parse-metadata", "page": "internals", "ref": "internals-utils-parse-metadata", "title": "parse_metadata(content)", "content": "This function accepts a string containing either JSON or YAML, expected to be of the format described in Metadata . It returns a nested Python dictionary representing the parsed data from that string. \n If the metadata cannot be parsed as either JSON or YAML the function will raise a utils.BadMetadataError exception. \n \n \n datasette.utils. parse_metadata content : str dict \n \n Detects if content is JSON or YAML and parses it appropriately.", "breadcrumbs": "[\"Internals for plugins\", \"The datasette.utils module\"]", "references": "[]"} {"id": "internals:internals-tracer-trace-child-tasks", "page": "internals", "ref": "internals-tracer-trace-child-tasks", "title": "Tracing child tasks", "content": "If your code uses a mechanism such as asyncio.gather() to execute code in additional tasks you may find that some of the traces are missing from the display. \n You can use the trace_child_tasks() context manager to ensure these child tasks are correctly handled. \n from datasette import tracer\n\nwith tracer.trace_child_tasks():\n results = await asyncio.gather(\n # ... async tasks here\n ) \n This example uses the register_routes() plugin hook to add a page at /parallel-queries which executes two SQL queries in parallel using asyncio.gather() and returns their results. \n from datasette import hookimpl\nfrom datasette import tracer\n\n\n@hookimpl\ndef register_routes():\n async def parallel_queries(datasette):\n db = datasette.get_database()\n with tracer.trace_child_tasks():\n one, two = await asyncio.gather(\n db.execute(\"select 1\"),\n db.execute(\"select 2\"),\n )\n return Response.json(\n {\n \"one\": one.single_value(),\n \"two\": two.single_value(),\n }\n )\n\n return [\n (r\"/parallel-queries$\", parallel_queries),\n ] \n Note that running parallel SQL queries in this way has been known to cause problems in the past , so treat this example with caution. \n Adding ?_trace=1 will show that the trace covers both of those child tasks.", "breadcrumbs": "[\"Internals for plugins\", \"datasette.tracer\"]", "references": "[{\"href\": \"https://github.com/simonw/datasette/issues/2189\", \"label\": \"been known to cause problems in the past\"}]"} {"id": "internals:internals-csrf", "page": "internals", "ref": "internals-csrf", "title": "CSRF protection", "content": "Datasette uses asgi-csrf to guard against CSRF attacks on form POST submissions. Users receive a ds_csrftoken cookie which is compared against the csrftoken form field (or x-csrftoken HTTP header) for every incoming request. \n If your plugin implements a
anywhere you will need to include that token. You can do so with the following template snippet: \n \n If you are rendering templates using the await .render_template(template, context=None, request=None) method the csrftoken() helper will only work if you provide the request= argument to that method. If you forget to do this you will see the following error: \n form-urlencoded POST field did not match cookie \n You can selectively disable CSRF protection using the skip_csrf(datasette, scope) hook.", "breadcrumbs": "[\"Internals for plugins\"]", "references": "[{\"href\": \"https://github.com/simonw/asgi-csrf\", \"label\": \"asgi-csrf\"}]"} {"id": "internals:internals-database", "page": "internals", "ref": "internals-database", "title": "Database class", "content": "Instances of the Database class can be used to execute queries against attached SQLite databases, and to run introspection against their schemas.", "breadcrumbs": "[\"Internals for plugins\"]", "references": "[]"} {"id": "internals:internals-datasette", "page": "internals", "ref": "internals-datasette", "title": "Datasette class", "content": "This object is an instance of the Datasette class, passed to many plugin hooks as an argument called datasette . \n You can create your own instance of this - for example to help write tests for a plugin - like so: \n from datasette.app import Datasette\n\n# With no arguments a single in-memory database will be attached\ndatasette = Datasette()\n\n# The files= argument can load files from disk\ndatasette = Datasette(files=[\"/path/to/my-database.db\"])\n\n# Pass metadata as a JSON dictionary like this\ndatasette = Datasette(\n files=[\"/path/to/my-database.db\"],\n metadata={\n \"databases\": {\n \"my-database\": {\n \"description\": \"This is my database\"\n }\n }\n },\n) \n Constructor parameters include: \n \n \n files=[...] - a list of database files to open \n \n \n immutables=[...] - a list of database files to open in immutable mode \n \n \n metadata={...} - a dictionary of Metadata \n \n \n config_dir=... - the configuration directory to use, stored in datasette.config_dir", "breadcrumbs": "[\"Internals for plugins\"]", "references": "[]"} {"id": "internals:internals-internal", "page": "internals", "ref": "internals-internal", "title": "Datasette's internal database", "content": "Datasette maintains an \"internal\" SQLite database used for configuration, caching, and storage. Plugins can store configuration, settings, and other data inside this database. By default, Datasette will use a temporary in-memory SQLite database as the internal database, which is created at startup and destroyed at shutdown. Users of Datasette can optionally pass in a --internal flag to specify the path to a SQLite database to use as the internal database, which will persist internal data across Datasette instances. \n Datasette maintains tables called catalog_databases , catalog_tables , catalog_columns , catalog_indexes , catalog_foreign_keys with details of the attached databases and their schemas. These tables should not be considered a stable API - they may change between Datasette releases. \n The internal database is not exposed in the Datasette application by default, which means private data can safely be stored without worry of accidentally leaking information through the default Datasette interface and API. However, other plugins do have full read and write access to the internal database. \n Plugins can access this database by calling internal_db = datasette.get_internal_database() and then executing queries using the Database API . \n Plugin authors are asked to practice good etiquette when using the internal database, as all plugins use the same database to store data. For example: \n \n \n Use a unique prefix when creating tables, indices, and triggers in the internal database. If your plugin is called datasette-xyz , then prefix names with datasette_xyz_* . \n \n \n Avoid long-running write statements that may stall or block other plugins that are trying to write at the same time. \n \n \n Use temporary tables or shared in-memory attached databases when possible. \n \n \n Avoid implementing features that could expose private data stored in the internal database by other plugins.", "breadcrumbs": "[\"Internals for plugins\"]", "references": "[]"} {"id": "internals:internals-multiparams", "page": "internals", "ref": "internals-multiparams", "title": "The MultiParams class", "content": "request.args is a MultiParams object - a dictionary-like object which provides access to query string parameters that may have multiple values. \n Consider the query string ?foo=1&foo=2&bar=3 - with two values for foo and one value for bar . \n \n \n request.args[key] - string \n \n Returns the first value for that key, or raises a KeyError if the key is missing. For the above example request.args[\"foo\"] would return \"1\" . \n \n \n \n request.args.get(key) - string or None \n \n Returns the first value for that key, or None if the key is missing. Pass a second argument to specify a different default, e.g. q = request.args.get(\"q\", \"\") . \n \n \n \n request.args.getlist(key) - list of strings \n \n Returns the list of strings for that key. request.args.getlist(\"foo\") would return [\"1\", \"2\"] in the above example. request.args.getlist(\"bar\") would return [\"3\"] . If the key is missing an empty list will be returned. \n \n \n \n request.args.keys() - list of strings \n \n Returns the list of available keys - for the example this would be [\"foo\", \"bar\"] . \n \n \n \n key in request.args - True or False \n \n You can use if key in request.args to check if a key is present. \n \n \n \n for key in request.args - iterator \n \n This lets you loop through every available key. \n \n \n \n len(request.args) - integer \n \n Returns the number of keys.", "breadcrumbs": "[\"Internals for plugins\"]", "references": "[]"} {"id": "internals:internals-request", "page": "internals", "ref": "internals-request", "title": "Request object", "content": "The request object is passed to various plugin hooks. It represents an incoming HTTP request. It has the following properties: \n \n \n .scope - dictionary \n \n The ASGI scope that was used to construct this request, described in the ASGI HTTP connection scope specification. \n \n \n \n .method - string \n \n The HTTP method for this request, usually GET or POST . \n \n \n \n .url - string \n \n The full URL for this request, e.g. https://latest.datasette.io/fixtures . \n \n \n \n .scheme - string \n \n The request scheme - usually https or http . \n \n \n \n .headers - dictionary (str -> str) \n \n A dictionary of incoming HTTP request headers. Header names have been converted to lowercase. \n \n \n \n .cookies - dictionary (str -> str) \n \n A dictionary of incoming cookies \n \n \n \n .host - string \n \n The host header from the incoming request, e.g. latest.datasette.io or localhost . \n \n \n \n .path - string \n \n The path of the request excluding the query string, e.g. /fixtures . \n \n \n \n .full_path - string \n \n The path of the request including the query string if one is present, e.g. /fixtures?sql=select+sqlite_version() . \n \n \n \n .query_string - string \n \n The query string component of the request, without the ? - e.g. name__contains=sam&age__gt=10 . \n \n \n \n .args - MultiParams \n \n An object representing the parsed query string parameters, see below. \n \n \n \n .url_vars - dictionary (str -> str) \n \n Variables extracted from the URL path, if that path was defined using a regular expression. See register_routes(datasette) . \n \n \n \n .actor - dictionary (str -> Any) or None \n \n The currently authenticated actor (see actors ), or None if the request is unauthenticated. \n \n \n \n The object also has two awaitable methods: \n \n \n await request.post_vars() - dictionary \n \n Returns a dictionary of form variables that were submitted in the request body via POST . Don't forget to read about CSRF protection ! \n \n \n \n await request.post_body() - bytes \n \n Returns the un-parsed body of a request submitted by POST - useful for things like incoming JSON data. \n \n \n \n And a class method that can be used to create fake request objects for use in tests: \n \n \n fake(path_with_query_string, method=\"GET\", scheme=\"http\", url_vars=None) \n \n Returns a Request instance for the specified path and method. For example: \n from datasette import Request\nfrom pprint import pprint\n\nrequest = Request.fake(\n \"/fixtures/facetable/\",\n url_vars={\"database\": \"fixtures\", \"table\": \"facetable\"},\n)\npprint(request.scope) \n This outputs: \n {'http_version': '1.1',\n 'method': 'GET',\n 'path': '/fixtures/facetable/',\n 'query_string': b'',\n 'raw_path': b'/fixtures/facetable/',\n 'scheme': 'http',\n 'type': 'http',\n 'url_route': {'kwargs': {'database': 'fixtures', 'table': 'facetable'}}}", "breadcrumbs": "[\"Internals for plugins\"]", "references": "[{\"href\": \"https://asgi.readthedocs.io/en/latest/specs/www.html#connection-scope\", \"label\": \"ASGI HTTP connection scope\"}]"} {"id": "internals:internals-response", "page": "internals", "ref": "internals-response", "title": "Response class", "content": "The Response class can be returned from view functions that have been registered using the register_routes(datasette) hook. \n The Response() constructor takes the following arguments: \n \n \n body - string \n \n The body of the response. \n \n \n \n status - integer (optional) \n \n The HTTP status - defaults to 200. \n \n \n \n headers - dictionary (optional) \n \n A dictionary of extra HTTP headers, e.g. {\"x-hello\": \"world\"} . \n \n \n \n content_type - string (optional) \n \n The content-type for the response. Defaults to text/plain . \n \n \n \n For example: \n from datasette.utils.asgi import Response\n\nresponse = Response(\n \"This is XML\",\n content_type=\"application/xml; charset=utf-8\",\n) \n The quickest way to create responses is using the Response.text(...) , Response.html(...) , Response.json(...) or Response.redirect(...) helper methods: \n from datasette.utils.asgi import Response\n\nhtml_response = Response.html(\"This is HTML\")\njson_response = Response.json({\"this_is\": \"json\"})\ntext_response = Response.text(\n \"This will become utf-8 encoded text\"\n)\n# Redirects are served as 302, unless you pass status=301:\nredirect_response = Response.redirect(\n \"https://latest.datasette.io/\"\n) \n Each of these responses will use the correct corresponding content-type - text/html; charset=utf-8 , application/json; charset=utf-8 or text/plain; charset=utf-8 respectively. \n Each of the helper methods take optional status= and headers= arguments, documented above.", "breadcrumbs": "[\"Internals for plugins\"]", "references": "[]"} {"id": "internals:internals-shortcuts", "page": "internals", "ref": "internals-shortcuts", "title": "Import shortcuts", "content": "The following commonly used symbols can be imported directly from the datasette module: \n from datasette import Response\nfrom datasette import Forbidden\nfrom datasette import NotFound\nfrom datasette import hookimpl\nfrom datasette import actor_matches_allow", "breadcrumbs": "[\"Internals for plugins\"]", "references": "[]"} {"id": "internals:internals-tracer", "page": "internals", "ref": "internals-tracer", "title": "datasette.tracer", "content": "Running Datasette with --setting trace_debug 1 enables trace debug output, which can then be viewed by adding ?_trace=1 to the query string for any page. \n You can see an example of this at the bottom of latest.datasette.io/fixtures/facetable?_trace=1 . The JSON output shows full details of every SQL query that was executed to generate the page. \n The datasette-pretty-traces plugin can be installed to provide a more readable display of this information. You can see a demo of that here . \n You can add your own custom traces to the JSON output using the trace() context manager. This takes a string that identifies the type of trace being recorded, and records any keyword arguments as additional JSON keys on the resulting trace object. \n The start and end time, duration and a traceback of where the trace was executed will be automatically attached to the JSON object. \n This example uses trace to record the start, end and duration of any HTTP GET requests made using the function: \n from datasette.tracer import trace\nimport httpx\n\n\nasync def fetch_url(url):\n with trace(\"fetch-url\", url=url):\n async with httpx.AsyncClient() as client:\n return await client.get(url)", "breadcrumbs": "[\"Internals for plugins\"]", "references": "[{\"href\": \"https://latest.datasette.io/fixtures/facetable?_trace=1\", \"label\": \"latest.datasette.io/fixtures/facetable?_trace=1\"}, {\"href\": \"https://datasette.io/plugins/datasette-pretty-traces\", \"label\": \"datasette-pretty-traces\"}, {\"href\": \"https://latest-with-plugins.datasette.io/github/commits?_trace=1\", \"label\": \"a demo of that here\"}]"} {"id": "internals:internals-utils", "page": "internals", "ref": "internals-utils", "title": "The datasette.utils module", "content": "The datasette.utils module contains various utility functions used by Datasette. As a general rule you should consider anything in this module to be unstable - functions and classes here could change without warning or be removed entirely between Datasette releases, without being mentioned in the release notes. \n The exception to this rule is anything that is documented here. If you find a need for an undocumented utility function in your own work, consider opening an issue requesting that the function you are using be upgraded to documented and supported status.", "breadcrumbs": "[\"Internals for plugins\"]", "references": "[{\"href\": \"https://github.com/simonw/datasette/issues/new\", \"label\": \"opening an issue\"}]"} {"id": "introspection:jsondataview-actor", "page": "introspection", "ref": "jsondataview-actor", "title": "/-/actor", "content": "Shows the currently authenticated actor. Useful for debugging Datasette authentication plugins. \n {\n \"actor\": {\n \"id\": 1,\n \"username\": \"some-user\"\n }\n}", "breadcrumbs": "[\"Introspection\"]", "references": "[]"} {"id": "introspection:jsondataview-config", "page": "introspection", "ref": "jsondataview-config", "title": "/-/config", "content": "Shows the configuration for this instance of Datasette. This is generally the contents of the datasette.yaml or datasette.json file, which can include plugin configuration as well. Config example : \n {\n \"settings\": {\n \"template_debug\": true,\n \"trace_debug\": true,\n \"force_https_urls\": true\n }\n} \n Any keys that include the one of the following substrings in their names will be returned as redacted *** output, to help avoid accidentally leaking private configuration information: secret , key , password , token , hash , dsn .", "breadcrumbs": "[\"Introspection\"]", "references": "[{\"href\": \"https://latest.datasette.io/-/config\", \"label\": \"Config example\"}]"} {"id": "introspection:jsondataview-databases", "page": "introspection", "ref": "jsondataview-databases", "title": "/-/databases", "content": "Shows currently attached databases. Databases example : \n [\n {\n \"hash\": null,\n \"is_memory\": false,\n \"is_mutable\": true,\n \"name\": \"fixtures\",\n \"path\": \"fixtures.db\",\n \"size\": 225280\n }\n]", "breadcrumbs": "[\"Introspection\"]", "references": "[{\"href\": \"https://latest.datasette.io/-/databases\", \"label\": \"Databases example\"}]"} {"id": "introspection:jsondataview-metadata", "page": "introspection", "ref": "jsondataview-metadata", "title": "/-/metadata", "content": "Shows the contents of the metadata.json file that was passed to datasette serve , if any. Metadata example : \n {\n \"license\": \"CC Attribution 4.0 License\",\n \"license_url\": \"http://creativecommons.org/licenses/by/4.0/\",\n \"source\": \"fivethirtyeight/data on GitHub\",\n \"source_url\": \"https://github.com/fivethirtyeight/data\",\n \"title\": \"Five Thirty Eight\",\n \"databases\": {\n\n }\n}", "breadcrumbs": "[\"Introspection\"]", "references": "[{\"href\": \"https://fivethirtyeight.datasettes.com/-/metadata\", \"label\": \"Metadata example\"}]"} {"id": "introspection:jsondataview-plugins", "page": "introspection", "ref": "jsondataview-plugins", "title": "/-/plugins", "content": "Shows a list of currently installed plugins and their versions. Plugins example : \n [\n {\n \"name\": \"datasette_cluster_map\",\n \"static\": true,\n \"templates\": false,\n \"version\": \"0.10\",\n \"hooks\": [\"extra_css_urls\", \"extra_js_urls\", \"extra_body_script\"]\n }\n] \n Add ?all=1 to include details of the default plugins baked into Datasette.", "breadcrumbs": "[\"Introspection\"]", "references": "[{\"href\": \"https://san-francisco.datasettes.com/-/plugins\", \"label\": \"Plugins example\"}]"} {"id": "introspection:jsondataview-settings", "page": "introspection", "ref": "jsondataview-settings", "title": "/-/settings", "content": "Shows the Settings for this instance of Datasette. Settings example : \n {\n \"default_facet_size\": 30,\n \"default_page_size\": 100,\n \"facet_suggest_time_limit_ms\": 50,\n \"facet_time_limit_ms\": 1000,\n \"max_returned_rows\": 1000,\n \"sql_time_limit_ms\": 1000\n}", "breadcrumbs": "[\"Introspection\"]", "references": "[{\"href\": \"https://fivethirtyeight.datasettes.com/-/settings\", \"label\": \"Settings example\"}]"} {"id": "introspection:jsondataview-threads", "page": "introspection", "ref": "jsondataview-threads", "title": "/-/threads", "content": "Shows details of threads and asyncio tasks. Threads example : \n {\n \"num_threads\": 2,\n \"threads\": [\n {\n \"daemon\": false,\n \"ident\": 4759197120,\n \"name\": \"MainThread\"\n },\n {\n \"daemon\": true,\n \"ident\": 123145319682048,\n \"name\": \"Thread-1\"\n },\n ],\n \"num_tasks\": 3,\n \"tasks\": [\n \" cb=[set.discard()]>\",\n \" wait_for=()]> cb=[run_until_complete..()]>\",\n \" wait_for=()]>>\"\n ]\n}", "breadcrumbs": "[\"Introspection\"]", "references": "[{\"href\": \"https://latest.datasette.io/-/threads\", \"label\": \"Threads example\"}]"} {"id": "introspection:jsondataview-versions", "page": "introspection", "ref": "jsondataview-versions", "title": "/-/versions", "content": "Shows the version of Datasette, Python and SQLite. Versions example : \n {\n \"datasette\": {\n \"version\": \"0.60\"\n },\n \"python\": {\n \"full\": \"3.8.12 (default, Dec 21 2021, 10:45:09) \\n[GCC 10.2.1 20210110]\",\n \"version\": \"3.8.12\"\n },\n \"sqlite\": {\n \"extensions\": {\n \"json1\": null\n },\n \"fts_versions\": [\n \"FTS5\",\n \"FTS4\",\n \"FTS3\"\n ],\n \"compile_options\": [\n \"COMPILER=gcc-6.3.0 20170516\",\n \"ENABLE_FTS3\",\n \"ENABLE_FTS4\",\n \"ENABLE_FTS5\",\n \"ENABLE_JSON1\",\n \"ENABLE_RTREE\",\n \"THREADSAFE=1\"\n ],\n \"version\": \"3.37.0\"\n }\n}", "breadcrumbs": "[\"Introspection\"]", "references": "[{\"href\": \"https://latest.datasette.io/-/versions\", \"label\": \"Versions example\"}]"} {"id": "introspection:messagesdebugview", "page": "introspection", "ref": "messagesdebugview", "title": "/-/messages", "content": "The debug tool at /-/messages can be used to set flash messages to try out that feature. See .add_message(request, message, type=datasette.INFO) for details of this feature.", "breadcrumbs": "[\"Introspection\"]", "references": "[]"} {"id": "json_api:column-filter-arguments", "page": "json_api", "ref": "column-filter-arguments", "title": "Column filter arguments", "content": "You can filter the data returned by the table based on column values using a query string argument. \n \n \n ?column__exact=value or ?_column=value \n \n Returns rows where the specified column exactly matches the value. \n \n \n \n ?column__not=value \n \n Returns rows where the column does not match the value. \n \n \n \n ?column__contains=value \n \n Rows where the string column contains the specified value ( column like \"%value%\" in SQL). \n \n \n \n ?column__notcontains=value \n \n Rows where the string column does not contain the specified value ( column not like \"%value%\" in SQL). \n \n \n \n ?column__endswith=value \n \n Rows where the string column ends with the specified value ( column like \"%value\" in SQL). \n \n \n \n ?column__startswith=value \n \n Rows where the string column starts with the specified value ( column like \"value%\" in SQL). \n \n \n \n ?column__gt=value \n \n Rows which are greater than the specified value. \n \n \n \n ?column__gte=value \n \n Rows which are greater than or equal to the specified value. \n \n \n \n ?column__lt=value \n \n Rows which are less than the specified value. \n \n \n \n ?column__lte=value \n \n Rows which are less than or equal to the specified value. \n \n \n \n ?column__like=value \n \n Match rows with a LIKE clause, case insensitive and with % as the wildcard character. \n \n \n \n ?column__notlike=value \n \n Match rows that do not match the provided LIKE clause. \n \n \n \n ?column__glob=value \n \n Similar to LIKE but uses Unix wildcard syntax and is case sensitive. \n \n \n \n ?column__in=value1,value2,value3 \n \n Rows where column matches any of the provided values. \n You can use a comma separated string, or you can use a JSON array. \n The JSON array option is useful if one of your matching values itself contains a comma: \n ?column__in=[\"value\",\"value,with,commas\"] \n \n \n \n ?column__notin=value1,value2,value3 \n \n Rows where column does not match any of the provided values. The inverse of __in= . Also supports JSON arrays. \n \n \n \n ?column__arraycontains=value \n \n Works against columns that contain JSON arrays - matches if any of the values in that array match the provided value. \n This is only available if the json1 SQLite extension is enabled. \n \n \n \n ?column__arraynotcontains=value \n \n Works against columns that contain JSON arrays - matches if none of the values in that array match the provided value. \n This is only available if the json1 SQLite extension is enabled. \n \n \n \n ?column__date=value \n \n Column is a datestamp occurring on the specified YYYY-MM-DD date, e.g. 2018-01-02 . \n \n \n \n ?column__isnull=1 \n \n Matches rows where the column is null. \n \n \n \n ?column__notnull=1 \n \n Matches rows where the column is not null. \n \n \n \n ?column__isblank=1 \n \n Matches rows where the column is blank, meaning null or the empty string. \n \n \n \n ?column__notblank=1 \n \n Matches rows where the column is not blank.", "breadcrumbs": "[\"JSON API\", \"Table arguments\"]", "references": "[]"} {"id": "json_api:json-api-table-arguments", "page": "json_api", "ref": "json-api-table-arguments", "title": "Special table arguments", "content": "?_col=COLUMN1&_col=COLUMN2 \n \n List specific columns to display. These will be shown along with any primary keys. \n \n \n \n ?_nocol=COLUMN1&_nocol=COLUMN2 \n \n List specific columns to hide - any column not listed will be displayed. Primary keys cannot be hidden. \n \n \n \n ?_labels=on/off \n \n Expand foreign key references for every possible column. See below. \n \n \n \n ?_label=COLUMN1&_label=COLUMN2 \n \n Expand foreign key references for one or more specified columns. \n \n \n \n ?_size=1000 or ?_size=max \n \n Sets a custom page size. This cannot exceed the max_returned_rows limit\n passed to datasette serve . Use max to get max_returned_rows . \n \n \n \n ?_sort=COLUMN \n \n Sorts the results by the specified column. \n \n \n \n ?_sort_desc=COLUMN \n \n Sorts the results by the specified column in descending order. \n \n \n \n ?_search=keywords \n \n For SQLite tables that have been configured for\n full-text search executes a search\n with the provided keywords. \n \n \n \n ?_search_COLUMN=keywords \n \n Like _search= but allows you to specify the column to be searched, as\n opposed to searching all columns that have been indexed by FTS. \n \n \n \n ?_searchmode=raw \n \n With this option, queries passed to ?_search= or ?_search_COLUMN= will\n not have special characters escaped. This means you can make use of the full\n set of advanced SQLite FTS syntax ,\n though this could potentially result in errors if the wrong syntax is used. \n \n \n \n ?_where=SQL-fragment \n \n If the execute-sql permission is enabled, this parameter\n can be used to pass one or more additional SQL fragments to be used in the\n WHERE clause of the SQL used to query the table. \n This is particularly useful if you are building a JavaScript application\n that needs to do something creative but still wants the other conveniences\n provided by the table view (such as faceting) and hence would like not to\n have to construct a completely custom SQL query. \n Some examples: \n \n \n facetable?_where=_neighborhood like \"%c%\"&_where=_city_id=3 \n \n \n facetable?_where=_city_id in (select id from facet_cities where name != \"Detroit\") \n \n \n \n \n \n ?_through={json} \n \n This can be used to filter rows via a join against another table. \n The JSON parameter must include three keys: table , column and value . \n table must be a table that the current table is related to via a foreign key relationship. \n column must be a column in that other table. \n value is the value that you want to match against. \n For example, to filter roadside_attractions to just show the attractions that have a characteristic of \"museum\", you would construct this JSON: \n {\n \"table\": \"roadside_attraction_characteristics\",\n \"column\": \"characteristic_id\",\n \"value\": \"1\"\n} \n As a URL, that looks like this: \n ?_through={%22table%22:%22roadside_attraction_characteristics%22,%22column%22:%22characteristic_id%22,%22value%22:%221%22} \n Here's an example . \n \n \n \n ?_next=TOKEN \n \n Pagination by continuation token - pass the token that was returned in the\n \"next\" property by the previous page. \n \n \n \n ?_facet=column \n \n Facet by column. Can be applied multiple times, see Facets . Only works on the default JSON output, not on any of the custom shapes. \n \n \n \n ?_facet_size=100 \n \n Increase the number of facet results returned for each facet. Use ?_facet_size=max for the maximum available size, determined by max_returned_rows . \n \n \n \n ?_nofacet=1 \n \n Disable all facets and facet suggestions for this page, including any defined by Facets in metadata . \n \n \n \n ?_nosuggest=1 \n \n Disable facet suggestions for this page. \n \n \n \n ?_nocount=1 \n \n Disable the select count(*) query used on this page - a count of None will be returned instead.", "breadcrumbs": "[\"JSON API\", \"Table arguments\"]", "references": "[{\"href\": \"https://www.sqlite.org/fts3.html\", \"label\": \"full-text search\"}, {\"href\": \"https://www.sqlite.org/fts5.html#full_text_query_syntax\", \"label\": \"advanced SQLite FTS syntax\"}, {\"href\": \"https://latest.datasette.io/fixtures/facetable?_where=_neighborhood%20like%20%22%c%%22&_where=_city_id=3\", \"label\": \"facetable?_where=_neighborhood like \\\"%c%\\\"&_where=_city_id=3\"}, {\"href\": \"https://latest.datasette.io/fixtures/facetable?_where=_city_id%20in%20(select%20id%20from%20facet_cities%20where%20name%20!=%20%22Detroit%22)\", \"label\": \"facetable?_where=_city_id in (select id from facet_cities where name != \\\"Detroit\\\")\"}, {\"href\": \"https://latest.datasette.io/fixtures/roadside_attractions?_through={%22table%22:%22roadside_attraction_characteristics%22,%22column%22:%22characteristic_id%22,%22value%22:%221%22}\", \"label\": \"an example\"}]"} {"id": "json_api:rowdeleteview", "page": "json_api", "ref": "rowdeleteview", "title": "Deleting a row", "content": "To delete a row, make a POST to ////-/delete . This requires the delete-row permission. \n POST //
//-/delete\nContent-Type: application/json\nAuthorization: Bearer dstok_ \n here is the tilde-encoded primary key value of the row to delete - or a comma-separated list of primary key values if the table has a composite primary key. \n If successful, this will return a 200 status code and a {\"ok\": true} response body. \n Any errors will return {\"errors\": [\"... descriptive message ...\"], \"ok\": false} , and a 400 status code for a bad input or a 403 status code for an authentication or permission error.", "breadcrumbs": "[\"JSON API\", \"The JSON write API\"]", "references": "[]"} {"id": "json_api:rowupdateview", "page": "json_api", "ref": "rowupdateview", "title": "Updating a row", "content": "To update a row, make a POST to //
//-/update . This requires the update-row permission. \n POST //
//-/update\nContent-Type: application/json\nAuthorization: Bearer dstok_ \n {\n \"update\": {\n \"text_column\": \"New text string\",\n \"integer_column\": 3,\n \"float_column\": 3.14\n }\n} \n here is the tilde-encoded primary key value of the row to update - or a comma-separated list of primary key values if the table has a composite primary key. \n You only need to pass the columns you want to update. Any other columns will be left unchanged. \n If successful, this will return a 200 status code and a {\"ok\": true} response body. \n Add \"return\": true to the request body to return the updated row: \n {\n \"update\": {\n \"title\": \"New title\"\n },\n \"return\": true\n} \n The returned JSON will look like this: \n {\n \"ok\": true,\n \"row\": {\n \"id\": 1,\n \"title\": \"New title\",\n \"other_column\": \"Will be present here too\"\n }\n} \n Any errors will return {\"errors\": [\"... descriptive message ...\"], \"ok\": false} , and a 400 status code for a bad input or a 403 status code for an authentication or permission error. \n Pass \"alter: true to automatically add any missing columns to the table. This requires the alter-table permission.", "breadcrumbs": "[\"JSON API\", \"The JSON write API\"]", "references": "[]"} {"id": "json_api:tablecreateview", "page": "json_api", "ref": "tablecreateview", "title": "Creating a table", "content": "To create a table, make a POST to //-/create . This requires the create-table permission. \n POST //-/create\nContent-Type: application/json\nAuthorization: Bearer dstok_ \n {\n \"table\": \"name_of_new_table\",\n \"columns\": [\n {\n \"name\": \"id\",\n \"type\": \"integer\"\n },\n {\n \"name\": \"title\",\n \"type\": \"text\"\n }\n ],\n \"pk\": \"id\"\n} \n The JSON here describes the table that will be created: \n \n \n table is the name of the table to create. This field is required. \n \n \n columns is a list of columns to create. Each column is a dictionary with name and type keys. \n \n \n name is the name of the column. This is required. \n \n \n type is the type of the column. This is optional - if not provided, text will be assumed. The valid types are text , integer , float and blob . \n \n \n \n \n pk is the primary key for the table. This is optional - if not provided, Datasette will create a SQLite table with a hidden rowid column. \n If the primary key is an integer column, it will be configured to automatically increment for each new record. \n If you set this to id without including an id column in the list of columns , Datasette will create an auto-incrementing integer ID column for you. \n \n \n pks can be used instead of pk to create a compound primary key. It should be a JSON list of column names to use in that primary key. \n \n \n ignore can be set to true to ignore existing rows by primary key if the table already exists. \n \n \n replace can be set to true to replace existing rows by primary key if the table already exists. This requires the update-row permission. \n \n \n alter can be set to true if you want to automatically add any missing columns to the table. This requires the alter-table permission. \n \n \n If the table is successfully created this will return a 201 status code and the following response: \n {\n \"ok\": true,\n \"database\": \"data\",\n \"table\": \"name_of_new_table\",\n \"table_url\": \"http://127.0.0.1:8001/data/name_of_new_table\",\n \"table_api_url\": \"http://127.0.0.1:8001/data/name_of_new_table.json\",\n \"schema\": \"CREATE TABLE [name_of_new_table] (\\n [id] INTEGER PRIMARY KEY,\\n [title] TEXT\\n)\"\n}", "breadcrumbs": "[\"JSON API\", \"The JSON write API\"]", "references": "[]"} {"id": "json_api:tablecreateview-example", "page": "json_api", "ref": "tablecreateview-example", "title": "Creating a table from example data", "content": "Instead of specifying columns directly you can instead pass a single example row or a list of rows .\n Datasette will create a table with a schema that matches those rows and insert them for you: \n POST //-/create\nContent-Type: application/json\nAuthorization: Bearer dstok_ \n {\n \"table\": \"creatures\",\n \"rows\": [\n {\n \"id\": 1,\n \"name\": \"Tarantula\"\n },\n {\n \"id\": 2,\n \"name\": \"K\u0101k\u0101p\u014d\"\n }\n ],\n \"pk\": \"id\"\n} \n Doing this requires both the create-table and insert-row permissions. \n The 201 response here will be similar to the columns form, but will also include the number of rows that were inserted as row_count : \n {\n \"ok\": true,\n \"database\": \"data\",\n \"table\": \"creatures\",\n \"table_url\": \"http://127.0.0.1:8001/data/creatures\",\n \"table_api_url\": \"http://127.0.0.1:8001/data/creatures.json\",\n \"schema\": \"CREATE TABLE [creatures] (\\n [id] INTEGER PRIMARY KEY,\\n [name] TEXT\\n)\",\n \"row_count\": 2\n} \n You can call the create endpoint multiple times for the same table provided you are specifying the table using the rows or row option. New rows will be inserted into the table each time. This means you can use this API if you are unsure if the relevant table has been created yet. \n If you pass a row to the create endpoint with a primary key that already exists you will get an error that looks like this: \n {\n \"ok\": false,\n \"errors\": [\n \"UNIQUE constraint failed: creatures.id\"\n ]\n} \n You can avoid this error by passing the same \"ignore\": true or \"replace\": true options to the create endpoint as you can to the insert endpoint . \n To use the \"replace\": true option you will also need the update-row permission. \n Pass \"alter\": true to automatically add any missing columns to the existing table that are present in the rows you are submitting. This requires the alter-table permission.", "breadcrumbs": "[\"JSON API\", \"The JSON write API\"]", "references": "[]"} {"id": "json_api:tabledropview", "page": "json_api", "ref": "tabledropview", "title": "Dropping tables", "content": "To drop a table, make a POST to //
/-/drop . This requires the drop-table permission. \n POST //
/-/drop\nContent-Type: application/json\nAuthorization: Bearer dstok_ \n Without a POST body this will return a status 200 with a note about how many rows will be deleted: \n {\n \"ok\": true,\n \"database\": \"\",\n \"table\": \"
\",\n \"row_count\": 5,\n \"message\": \"Pass \\\"confirm\\\": true to confirm\"\n} \n If you pass the following POST body: \n {\n \"confirm\": true\n} \n Then the table will be dropped and a status 200 response of {\"ok\": true} will be returned. \n Any errors will return {\"errors\": [\"... descriptive message ...\"], \"ok\": false} , and a 400 status code for a bad input or a 403 status code for an authentication or permission error.", "breadcrumbs": "[\"JSON API\", \"The JSON write API\"]", "references": "[]"} {"id": "json_api:tableinsertview", "page": "json_api", "ref": "tableinsertview", "title": "Inserting rows", "content": "This requires the insert-row permission. \n A single row can be inserted using the \"row\" key: \n POST //
/-/insert\nContent-Type: application/json\nAuthorization: Bearer dstok_ \n {\n \"row\": {\n \"column1\": \"value1\",\n \"column2\": \"value2\"\n }\n} \n If successful, this will return a 201 status code and the newly inserted row, for example: \n {\n \"rows\": [\n {\n \"id\": 1,\n \"column1\": \"value1\",\n \"column2\": \"value2\"\n }\n ]\n} \n To insert multiple rows at a time, use the same API method but send a list of dictionaries as the \"rows\" key: \n POST //
/-/insert\nContent-Type: application/json\nAuthorization: Bearer dstok_ \n {\n \"rows\": [\n {\n \"column1\": \"value1\",\n \"column2\": \"value2\"\n },\n {\n \"column1\": \"value3\",\n \"column2\": \"value4\"\n }\n ]\n} \n If successful, this will return a 201 status code and a {\"ok\": true} response body. \n The maximum number rows that can be submitted at once defaults to 100, but this can be changed using the max_insert_rows setting. \n To return the newly inserted rows, add the \"return\": true key to the request body: \n {\n \"rows\": [\n {\n \"column1\": \"value1\",\n \"column2\": \"value2\"\n },\n {\n \"column1\": \"value3\",\n \"column2\": \"value4\"\n }\n ],\n \"return\": true\n} \n This will return the same \"rows\" key as the single row example above. There is a small performance penalty for using this option. \n If any of your rows have a primary key that is already in use, you will get an error and none of the rows will be inserted: \n {\n \"ok\": false,\n \"errors\": [\n \"UNIQUE constraint failed: new_table.id\"\n ]\n} \n Pass \"ignore\": true to ignore these errors and insert the other rows: \n {\n \"rows\": [\n {\n \"id\": 1,\n \"column1\": \"value1\",\n \"column2\": \"value2\"\n },\n {\n \"id\": 2,\n \"column1\": \"value3\",\n \"column2\": \"value4\"\n }\n ],\n \"ignore\": true\n} \n Or you can pass \"replace\": true to replace any rows with conflicting primary keys with the new values. This requires the update-row permission. \n Pass \"alter: true to automatically add any missing columns to the table. This requires the alter-table permission.", "breadcrumbs": "[\"JSON API\", \"The JSON write API\"]", "references": "[]"} {"id": "json_api:tableupsertview", "page": "json_api", "ref": "tableupsertview", "title": "Upserting rows", "content": "An upsert is an insert or update operation. If a row with a matching primary key already exists it will be updated - otherwise a new row will be inserted. \n The upsert API is mostly the same shape as the insert API . It requires both the insert-row and update-row permissions. \n POST //
/-/upsert\nContent-Type: application/json\nAuthorization: Bearer dstok_ \n {\n \"rows\": [\n {\n \"id\": 1,\n \"title\": \"Updated title for 1\",\n \"description\": \"Updated description for 1\"\n },\n {\n \"id\": 2,\n \"description\": \"Updated description for 2\",\n },\n {\n \"id\": 3,\n \"title\": \"Item 3\",\n \"description\": \"Description for 3\"\n }\n ]\n} \n Imagine a table with a primary key of id and which already has rows with id values of 1 and 2 . \n The above example will: \n \n \n Update the row with id of 1 to set both title and description to the new values \n \n \n Update the row with id of 2 to set title to the new value - description will be left unchanged \n \n \n Insert a new row with id of 3 and both title and description set to the new values \n \n \n Similar to /-/insert , a row key with an object can be used instead of a rows array to upsert a single row. \n If successful, this will return a 200 status code and a {\"ok\": true} response body. \n Add \"return\": true to the request body to return full copies of the affected rows after they have been inserted or updated: \n {\n \"rows\": [\n {\n \"id\": 1,\n \"title\": \"Updated title for 1\",\n \"description\": \"Updated description for 1\"\n },\n {\n \"id\": 2,\n \"description\": \"Updated description for 2\",\n },\n {\n \"id\": 3,\n \"title\": \"Item 3\",\n \"description\": \"Description for 3\"\n }\n ],\n \"return\": true\n} \n This will return the following: \n {\n \"ok\": true,\n \"rows\": [\n {\n \"id\": 1,\n \"title\": \"Updated title for 1\",\n \"description\": \"Updated description for 1\"\n },\n {\n \"id\": 2,\n \"title\": \"Item 2\",\n \"description\": \"Updated description for 2\"\n },\n {\n \"id\": 3,\n \"title\": \"Item 3\",\n \"description\": \"Description for 3\"\n }\n ]\n} \n When using upsert you must provide the primary key column (or columns if the table has a compound primary key) for every row, or you will get a 400 error: \n {\n \"ok\": false,\n \"errors\": [\n \"Row 0 is missing primary key column(s): \\\"id\\\"\"\n ]\n} \n If your table does not have an explicit primary key you should pass the SQLite rowid key instead. \n Pass \"alter: true to automatically add any missing columns to the table. This requires the alter-table permission.", "breadcrumbs": "[\"JSON API\", \"The JSON write API\"]", "references": "[]"} {"id": "json_api:expand-foreign-keys", "page": "json_api", "ref": "expand-foreign-keys", "title": "Expanding foreign key references", "content": "Datasette can detect foreign key relationships and resolve those references into\n labels. The HTML interface does this by default for every detected foreign key\n column - you can turn that off using ?_labels=off . \n You can request foreign keys be expanded in JSON using the _labels=on or\n _label=COLUMN special query string parameters. Here's what an expanded row\n looks like: \n [\n {\n \"rowid\": 1,\n \"TreeID\": 141565,\n \"qLegalStatus\": {\n \"value\": 1,\n \"label\": \"Permitted Site\"\n },\n \"qSpecies\": {\n \"value\": 1,\n \"label\": \"Myoporum laetum :: Myoporum\"\n },\n \"qAddress\": \"501X Baker St\",\n \"SiteOrder\": 1\n }\n] \n The column in the foreign key table that is used for the label can be specified\n in metadata.json - see Specifying the label column for a table .", "breadcrumbs": "[\"JSON API\"]", "references": "[]"} {"id": "json_api:id2", "page": "json_api", "ref": "id2", "title": "Table arguments", "content": "The Datasette table view takes a number of special query string arguments.", "breadcrumbs": "[\"JSON API\"]", "references": "[]"} {"id": "json_api:json-api-cors", "page": "json_api", "ref": "json-api-cors", "title": "Enabling CORS", "content": "If you start Datasette with the --cors option, each JSON endpoint will be\n served with the following additional HTTP headers: \n [[[cog\nfrom datasette.utils import add_cors_headers\nimport textwrap\nheaders = {}\nadd_cors_headers(headers)\noutput = \"\\n\".join(\"{}: {}\".format(k, v) for k, v in headers.items())\ncog.out(\"\\n::\\n\\n\")\ncog.out(textwrap.indent(output, ' '))\ncog.out(\"\\n\\n\") \n ]]] \n Access-Control-Allow-Origin: *\nAccess-Control-Allow-Headers: Authorization, Content-Type\nAccess-Control-Expose-Headers: Link\nAccess-Control-Allow-Methods: GET, POST, HEAD, OPTIONS\nAccess-Control-Max-Age: 3600 \n [[[end]]] \n This allows JavaScript running on any domain to make cross-origin\n requests to interact with the Datasette API. \n If you start Datasette without the --cors option only JavaScript running on\n the same domain as Datasette will be able to access the API. \n Here's how to serve data.db with CORS enabled: \n datasette data.db --cors", "breadcrumbs": "[\"JSON API\"]", "references": "[]"} {"id": "json_api:json-api-default", "page": "json_api", "ref": "json-api-default", "title": "Default representation", "content": "The default JSON representation of data from a SQLite table or custom query\n looks like this: \n {\n \"ok\": true,\n \"rows\": [\n {\n \"id\": 3,\n \"name\": \"Detroit\"\n },\n {\n \"id\": 2,\n \"name\": \"Los Angeles\"\n },\n {\n \"id\": 4,\n \"name\": \"Memnonia\"\n },\n {\n \"id\": 1,\n \"name\": \"San Francisco\"\n }\n ],\n \"truncated\": false\n} \n \"ok\" is always true if an error did not occur. \n The \"rows\" key is a list of objects, each one representing a row. \n The \"truncated\" key lets you know if the query was truncated. This can happen if a SQL query returns more than 1,000 results (or the max_returned_rows setting). \n For table pages, an additional key \"next\" may be present. This indicates that the next page in the pagination set can be retrieved using ?_next=VALUE .", "breadcrumbs": "[\"JSON API\"]", "references": "[]"} {"id": "json_api:json-api-discover-alternate", "page": "json_api", "ref": "json-api-discover-alternate", "title": "Discovering the JSON for a page", "content": "Most of the HTML pages served by Datasette provide a mechanism for discovering their JSON equivalents using the HTML link mechanism. \n You can find this near the top of the source code of those pages, looking like this: \n \n The JSON URL is also made available in a Link HTTP header for the page: \n Link: https://latest.datasette.io/fixtures/sortable.json; rel=\"alternate\"; type=\"application/json+datasette\"", "breadcrumbs": "[\"JSON API\"]", "references": "[]"} {"id": "json_api:json-api-pagination", "page": "json_api", "ref": "json-api-pagination", "title": "Pagination", "content": "The default JSON representation includes a \"next_url\" key which can be used to access the next page of results. If that key is null or missing then it means you have reached the final page of results. \n Other representations include pagination information in the link HTTP header. That header will look something like this: \n link: ; rel=\"next\" \n Here is an example Python function built using requests that returns a list of all of the paginated items from one of these API endpoints: \n def paginate(url):\n items = []\n while url:\n response = requests.get(url)\n try:\n url = response.links.get(\"next\").get(\"url\")\n except AttributeError:\n url = None\n items.extend(response.json())\n return items", "breadcrumbs": "[\"JSON API\"]", "references": "[{\"href\": \"https://requests.readthedocs.io/\", \"label\": \"requests\"}]"} {"id": "json_api:json-api-shapes", "page": "json_api", "ref": "json-api-shapes", "title": "Different shapes", "content": "The _shape parameter can be used to access alternative formats for the\n rows key which may be more convenient for your application. There are three\n options: \n \n \n ?_shape=objects - \"rows\" is a list of JSON key/value objects - the default \n \n \n ?_shape=arrays - \"rows\" is a list of lists, where the order of values in each list matches the order of the columns \n \n \n ?_shape=array - a JSON array of objects - effectively just the \"rows\" key from the default representation \n \n \n ?_shape=array&_nl=on - a newline-separated list of JSON objects \n \n \n ?_shape=arrayfirst - a flat JSON array containing just the first value from each row \n \n \n ?_shape=object - a JSON object keyed using the primary keys of the rows \n \n \n _shape=arrays looks like this: \n {\n \"ok\": true,\n \"next\": null,\n \"rows\": [\n [3, \"Detroit\"],\n [2, \"Los Angeles\"],\n [4, \"Memnonia\"],\n [1, \"San Francisco\"]\n ]\n} \n _shape=array looks like this: \n [\n {\n \"id\": 3,\n \"name\": \"Detroit\"\n },\n {\n \"id\": 2,\n \"name\": \"Los Angeles\"\n },\n {\n \"id\": 4,\n \"name\": \"Memnonia\"\n },\n {\n \"id\": 1,\n \"name\": \"San Francisco\"\n }\n] \n _shape=array&_nl=on looks like this: \n {\"id\": 1, \"value\": \"Myoporum laetum :: Myoporum\"}\n{\"id\": 2, \"value\": \"Metrosideros excelsa :: New Zealand Xmas Tree\"}\n{\"id\": 3, \"value\": \"Pinus radiata :: Monterey Pine\"} \n _shape=arrayfirst looks like this: \n [1, 2, 3] \n _shape=object looks like this: \n {\n \"1\": {\n \"id\": 1,\n \"value\": \"Myoporum laetum :: Myoporum\"\n },\n \"2\": {\n \"id\": 2,\n \"value\": \"Metrosideros excelsa :: New Zealand Xmas Tree\"\n },\n \"3\": {\n \"id\": 3,\n \"value\": \"Pinus radiata :: Monterey Pine\"\n }\n] \n The object shape is only available for queries against tables - custom SQL\n queries and views do not have an obvious primary key so cannot be returned using\n this format. \n The object keys are always strings. If your table has a compound primary\n key, the object keys will be a comma-separated string.", "breadcrumbs": "[\"JSON API\"]", "references": "[]"} {"id": "json_api:json-api-special", "page": "json_api", "ref": "json-api-special", "title": "Special JSON arguments", "content": "Every Datasette endpoint that can return JSON also accepts the following\n query string arguments: \n \n \n ?_shape=SHAPE \n \n The shape of the JSON to return, documented above. \n \n \n \n ?_nl=on \n \n When used with ?_shape=array produces newline-delimited JSON objects. \n \n \n \n ?_json=COLUMN1&_json=COLUMN2 \n \n If any of your SQLite columns contain JSON values, you can use one or more\n _json= parameters to request that those columns be returned as regular\n JSON. Without this argument those columns will be returned as JSON objects\n that have been double-encoded into a JSON string value. \n Compare this query without the argument to this query using the argument \n \n \n \n ?_json_infinity=on \n \n If your data contains infinity or -infinity values, Datasette will replace\n them with None when returning them as JSON. If you pass _json_infinity=1 \n Datasette will instead return them as Infinity or -Infinity which is\n invalid JSON but can be processed by some custom JSON parsers. \n \n \n \n ?_timelimit=MS \n \n Sets a custom time limit for the query in ms. You can use this for optimistic\n queries where you would like Datasette to give up if the query takes too\n long, for example if you want to implement autocomplete search but only if\n it can be executed in less than 10ms. \n \n \n \n ?_ttl=SECONDS \n \n For how many seconds should this response be cached by HTTP proxies? Use\n ?_ttl=0 to disable HTTP caching entirely for this request. \n \n \n \n ?_trace=1 \n \n Turns on tracing for this page: SQL queries executed during the request will\n be gathered and included in the response, either in a new \"_traces\" key\n for JSON responses or at the bottom of the page if the response is in HTML. \n The structure of the data returned here should be considered highly unstable\n and very likely to change. \n Only available if the trace_debug setting is enabled.", "breadcrumbs": "[\"JSON API\"]", "references": "[{\"href\": \"https://fivethirtyeight.datasettes.com/fivethirtyeight.json?sql=select+%27{%22this+is%22%3A+%22a+json+object%22}%27+as+d&_shape=array\", \"label\": \"this query without the argument\"}, {\"href\": \"https://fivethirtyeight.datasettes.com/fivethirtyeight.json?sql=select+%27{%22this+is%22%3A+%22a+json+object%22}%27+as+d&_shape=array&_json=d\", \"label\": \"this query using the argument\"}]"} {"id": "json_api:json-api-write", "page": "json_api", "ref": "json-api-write", "title": "The JSON write API", "content": "Datasette provides a write API for JSON data. This is a POST-only API that requires an authenticated API token, see API Tokens . The token will need to have the specified Permissions .", "breadcrumbs": "[\"JSON API\"]", "references": "[]"} {"id": "javascript_plugins:javascript-plugins-makeabovetablepanelconfigs", "page": "javascript_plugins", "ref": "javascript-plugins-makeabovetablepanelconfigs", "title": "makeAboveTablePanelConfigs()", "content": "This method should return a JavaScript array of objects defining additional panels to be added to the top of the table page. Each object should have the following: \n \n \n id - string \n \n A unique string ID for the panel, for example map-panel \n \n \n \n label - string \n \n A human-readable label for the panel \n \n \n \n render(node) - function \n \n A function that will be called with a DOM node to render the panel into \n \n \n \n This example shows how a plugin might define a single panel: \n document.addEventListener('datasette_init', function(ev) {\n ev.detail.registerPlugin('panel-plugin', {\n version: 0.1,\n makeAboveTablePanelConfigs: () => {\n return [\n {\n id: 'first-panel',\n label: 'First panel',\n render: node => {\n node.innerHTML = '

My custom panel

This is a custom panel that I added using a JavaScript plugin

';\n }\n }\n ]\n }\n });\n}); \n When a page with a table loads, all registered plugins that implement makeAboveTablePanelConfigs() will be called and panels they return will be added to the top of the table page.", "breadcrumbs": "[\"JavaScript plugins\", \"JavaScript plugin objects\"]", "references": "[]"} {"id": "javascript_plugins:javascript-plugins-makecolumnactions", "page": "javascript_plugins", "ref": "javascript-plugins-makecolumnactions", "title": "makeColumnActions(columnDetails)", "content": "This method, if present, will be called when Datasette is rendering the cog action menu icons that appear at the top of the table view. By default these include options like \"Sort ascending/descending\" and \"Facet by this\", but plugins can return additional actions to be included in this menu. \n The method will be called with a columnDetails object with the following keys: \n \n \n columnName - string \n \n The name of the column \n \n \n \n columnNotNull - boolean \n \n True if the column is defined as NOT NULL \n \n \n \n columnType - string \n \n The SQLite data type of the column \n \n \n \n isPk - boolean \n \n True if the column is part of the primary key \n \n \n \n It should return a JavaScript array of objects each with a label and onClick property: \n \n \n label - string \n \n The human-readable label for the action \n \n \n \n onClick(evt) - function \n \n A function that will be called when the action is clicked \n \n \n \n The evt object passed to the onClick is the standard browser event object that triggered the click. \n This example plugin adds two menu items - one to copy the column name to the clipboard and another that displays the column metadata in an alert() window: \n document.addEventListener('datasette_init', function(ev) {\n ev.detail.registerPlugin('column-name-plugin', {\n version: 0.1,\n makeColumnActions: (columnDetails) => {\n return [\n {\n label: 'Copy column to clipboard',\n onClick: async (evt) => {\n await navigator.clipboard.writeText(columnDetails.columnName)\n }\n },\n {\n label: 'Alert column metadata',\n onClick: () => alert(JSON.stringify(columnDetails, null, 2))\n }\n ];\n }\n });\n});", "breadcrumbs": "[\"JavaScript plugins\", \"JavaScript plugin objects\"]", "references": "[]"} {"id": "javascript_plugins:id2", "page": "javascript_plugins", "ref": "id2", "title": "JavaScript plugin objects", "content": "JavaScript plugins are blocks of code that can be registered with Datasette using the registerPlugin() method on the datasetteManager object. \n The implementation object passed to this method should include a version key defining the plugin version, and one or more of the following named functions providing the implementation of the plugin:", "breadcrumbs": "[\"JavaScript plugins\"]", "references": "[]"} {"id": "javascript_plugins:javascript-datasette-init", "page": "javascript_plugins", "ref": "javascript-datasette-init", "title": "The datasette_init event", "content": "Datasette emits a custom event called datasette_init when the page is loaded. This event is dispatched on the document object, and includes a detail object with a reference to the datasetteManager object. \n Your JavaScript code can listen out for this event using document.addEventListener() like this: \n document.addEventListener(\"datasette_init\", function (evt) {\n const manager = evt.detail;\n console.log(\"Datasette version:\", manager.VERSION);\n});", "breadcrumbs": "[\"JavaScript plugins\"]", "references": "[]"} {"id": "javascript_plugins:javascript-datasette-manager", "page": "javascript_plugins", "ref": "javascript-datasette-manager", "title": "datasetteManager", "content": "The datasetteManager object \n \n \n VERSION - string \n \n The version of Datasette \n \n \n \n plugins - Map() \n \n A Map of currently loaded plugin names to plugin implementations \n \n \n \n registerPlugin(name, implementation) \n \n Call this to register a plugin, passing its name and implementation \n \n \n \n selectors - object \n \n An object providing named aliases to useful CSS selectors, listed below", "breadcrumbs": "[\"JavaScript plugins\"]", "references": "[]"}