PMTiles/python/pmtiles/convert.py

# pmtiles to files
import gzip
import json
import os
import sqlite3
from pmtiles.reader import read
from pmtiles.writer import write

# if the tile is GZIP-encoded, it won't work with range queries
# until transfer-encoding: gzip is well supported.
def force_compress(data, compress):
    if compress and data[0:2] != b"\x1f\x8b":
        return gzip.compress(data)
    if not compress and data[0:2] == b"\x1f\x8b":
        return gzip.decompress(data)
    return data


def set_metadata_compression(metadata, gzip):
    if gzip:
        metadata["compression"] = "gzip"
    else:
        try:
            del metadata["compression"]
        except:
            pass
    return metadata


def mbtiles_to_pmtiles(input, output, maxzoom, gzip):
    conn = sqlite3.connect(input)
    cursor = conn.cursor()

    with write(output) as writer:
        for row in cursor.execute(
            "SELECT zoom_level,tile_column,tile_row,tile_data FROM tiles WHERE zoom_level <= ? ORDER BY zoom_level,tile_column,tile_row ASC",
            (maxzoom or 99,),
        ):
            flipped = (1 << row[0]) - 1 - row[2]
            writer.write_tile(row[0], row[1], flipped, force_compress(row[3], gzip))

        metadata = {}
        for row in cursor.execute("SELECT name,value FROM metadata"):
            metadata[row[0]] = row[1]
        if maxzoom:
            metadata["maxzoom"] = str(maxzoom)
        metadata = set_metadata_compression(metadata, gzip)
        result = writer.finalize(metadata)
        print("Num tiles:", result["num_tiles"])
        print("Num unique tiles:", result["num_unique_tiles"])
        print("Num leaves:", result["num_leaves"])

    conn.close()


def pmtiles_to_mbtiles(input, output, gzip):
    conn = sqlite3.connect(output)
    cursor = conn.cursor()
    cursor.execute("CREATE TABLE metadata (name text, value text);")
    cursor.execute(
        "CREATE TABLE tiles (zoom_level integer, tile_column integer, tile_row integer, tile_data blob);"
    )

    with read(input) as reader:
        metadata = reader.metadata
        metadata = set_metadata_compression(metadata, gzip)
        for k, v in metadata.items():
            cursor.execute("INSERT INTO metadata VALUES(?,?)", (k, v))
        for tile, data in reader.tiles():
            flipped = (1 << tile[0]) - 1 - tile[2]
            cursor.execute(
                "INSERT INTO tiles VALUES(?,?,?,?)",
                (tile[0], tile[1], flipped, force_compress(data, gzip)),
            )

    cursor.execute(
        "CREATE UNIQUE INDEX tile_index on tiles (zoom_level, tile_column, tile_row);"
    )
    conn.commit()
    conn.close()


def pmtiles_to_dir(input, output, gzip):
    os.makedirs(output)

    with read(input) as reader:
        metadata = reader.metadata
        metadata = set_metadata_compression(metadata, gzip)
        with open(os.path.join(output, "metadata.json"), "w") as f:
            f.write(json.dumps(metadata))

        for tile, data in reader.tiles():
            directory = os.path.join(output, str(tile[0]), str(tile[1]))
            path = os.path.join(directory, str(tile[2]) + "." + metadata["format"])
            os.makedirs(directory, exist_ok=True)
            with open(path, "wb") as f:
                f.write(force_compress(data, gzip))