235 lines
7.6 KiB
Haskell
235 lines
7.6 KiB
Haskell
{-
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Copyright (C) 2010 Scott R Parish <srp@srparish.net>
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Permission is hereby granted, free of charge, to any person obtaining
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a copy of this software and associated documentation files (the
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"Software"), to deal in the Software without restriction, including
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without limitation the rights to use, copy, modify, merge, publish,
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distribute, sublicense, and/or sell copies of the Software, and to
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permit persons to whom the Software is furnished to do so, subject to
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the following conditions:
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The above copyright notice and this permission notice shall be
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included in all copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
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EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
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MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
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NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
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LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
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OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
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WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
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-}
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module Database.MongoDB.BSON
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(
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BSValue(..),
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BSONObject(..),
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toBSONObject,
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BinarySubType(..)
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)
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where
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import Control.Monad
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import Data.Binary
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import Data.Binary.Get
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import Data.Binary.IEEE754
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import Data.Binary.Put
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import Data.Bits
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import Data.ByteString.Char8
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import qualified Data.ByteString.Lazy as L
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import qualified Data.ByteString.Lazy.Char8 as LC
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import qualified Data.ByteString.Lazy.UTF8 as L8
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import Data.Int
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import qualified Data.Map as Map
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import qualified Data.List as List
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import Data.Time.Clock.POSIX
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import Database.MongoDB.Util
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data BSValue
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= BSDouble Double
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| BSString L8.ByteString
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| BSObject BSONObject
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| BSArray [BSValue]
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| BSUndefined
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| BSBinary BinarySubType L.ByteString
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| BSObjectId L.ByteString
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| BSBool !Bool
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| BSDate POSIXTime
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| BSNull
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| BSRegex L8.ByteString String
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| BSSymbol L8.ByteString
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| BSInt32 Int32
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| BSInt64 Int64
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| BSMinKey
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| BSMaxKey
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deriving (Show, Eq, Ord)
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newtype BSONObject = BSONObject {
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fromBSONObject :: Map.Map L8.ByteString BSValue
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}
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deriving (Eq, Ord, Show)
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toBSONObject :: [(L8.ByteString, BSValue)] -> BSONObject
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toBSONObject = BSONObject . Map.fromList
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data DataType =
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Data_min_key | -- -1
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Data_number | -- 1
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Data_string | -- 2
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Data_object | -- 3
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Data_array | -- 4
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Data_binary | -- 5
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Data_undefined | -- 6
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Data_oid | -- 7
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Data_boolean | -- 8
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Data_date | -- 9
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Data_null | -- 10
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Data_regex | -- 11
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Data_ref | -- 12
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Data_code | -- 13
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Data_symbol | -- 14
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Data_code_w_scope | -- 15
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Data_int | -- 16
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Data_timestamp | -- 17
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Data_long | -- 18
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Data_max_key -- 127
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deriving (Show, Read, Enum, Eq, Ord)
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toDataType :: Int -> DataType
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toDataType (-1) = Data_min_key
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toDataType 127 = Data_max_key
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toDataType d = toEnum d
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fromDataType :: DataType -> Int
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fromDataType Data_min_key = (-1)
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fromDataType Data_max_key = 127
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fromDataType d = fromEnum d
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data BinarySubType =
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BSTUNDEFINED_1 |
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BSTFunction | -- 1
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BSTByteArray | -- 2
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BSTUUID | -- 3
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BSTUNDEFINED_2 |
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BSTMD5 | -- 5
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BSTUserDefined
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deriving (Show, Read, Enum, Eq, Ord)
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toBinarySubType :: Int -> BinarySubType
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toBinarySubType 0x80 = BSTUserDefined
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toBinarySubType d = toEnum d
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fromBinarySubType :: BinarySubType -> Int
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fromBinarySubType BSTUserDefined = 0x80
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fromBinarySubType d = fromEnum d
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instance Binary BSONObject where
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get = liftM snd getObj
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put = putObj
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getVal :: DataType -> Get (Integer, BSValue)
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getVal Data_number = getFloat64le >>= return . (,) 8 . BSDouble
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getVal Data_string = do
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sLen1 <- getI32
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(sLen2, s) <- getS
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return (fromIntegral $ 4 + sLen1, BSString s)
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getVal Data_object = getObj >>= \(len, obj) -> return (len, BSObject obj)
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getVal Data_array = do
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(len, arr) <- getRawObj
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let arr2 = Map.fold (:) [] arr -- reverse and remove key
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return (len, BSArray arr2)
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getVal Data_binary = do
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skip 4
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st <- getI8
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len2 <- getI32
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bs <- getLazyByteString $ fromIntegral len2
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return (4 + 1 + 4 + fromIntegral len2, BSBinary (toBinarySubType st) bs)
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getVal Data_undefined = return (1, BSUndefined)
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getVal Data_oid = getLazyByteString 12 >>= return . (,) 12 . BSObjectId
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getVal Data_boolean = getI8 >>= return . (,) 1 . BSBool . (/= 0)
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getVal Data_date =
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getI64 >>= return . (,) 8 . BSDate . flip (/) 1000 . realToFrac
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getVal Data_null = return (1, BSNull)
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getVal Data_int = getI32 >>= return . (,) 4 . BSInt32 . fromIntegral
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getVal Data_long = getI64 >>= return . (,) 8 . BSInt64
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getInnerObj 1 obj = obj
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getInnerObj bytesLeft obj = do
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typ <- getDataType
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(keySz, key) <- getS
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(valSz, val) <- getVal typ
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getInnerObj (bytesLeft - 1 - fromIntegral keySz - fromIntegral valSz) $
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liftM (Map.insert key val) obj
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getRawObj = do
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bytes <- getI32
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obj <- getInnerObj (bytes - 4) $ return Map.empty
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getNull
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return (fromIntegral bytes, obj)
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getObj = getRawObj >>= \(len, obj) -> return (len, BSONObject obj)
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getDataType = liftM toDataType getI8
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putType BSDouble{} = putDataType Data_number
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putType BSString{} = putDataType Data_string
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putType BSObject{} = putDataType Data_object
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putType BSArray{} = putDataType Data_array
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putType BSBinary{} = putDataType Data_binary
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putType BSUndefined = putDataType Data_undefined
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putType BSObjectId{} = putDataType Data_oid
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putType BSBool{} = putDataType Data_boolean
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putType BSDate{} = putDataType Data_date
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putType BSNull = putDataType Data_null
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putType BSRegex{} = putDataType Data_regex
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-- putType = putDataType Data_ref
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-- putType = putDataType Data_code
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putType BSSymbol{} = putDataType Data_symbol
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-- putType = putDataType Data_code_w_scope
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putType (BSInt32 i) = putDataType Data_int
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putType (BSInt64 i) = putDataType Data_long
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-- putType = putDataType Data_timestamp
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putType BSMinKey = putDataType Data_min_key
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putType BSMaxKey = putDataType Data_max_key
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putVal (BSDouble d) = putFloat64le d
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putVal (BSString s) = putI32 (fromIntegral $ 1 + L8.length s) >> putS s
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putVal (BSObject o) = putObj o
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putVal (BSArray es) = putOutterObj bs
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where bs = runPut $ forM_ (List.zip [0..] es) $ \(i, e) ->
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putType e >> (putS $ L8.fromString $ show i) >> putVal e
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putVal (BSBinary t bs)= do putI32 $ fromIntegral $ 4 + L.length bs
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putI8 $ fromBinarySubType t
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putI32 $ fromIntegral $ L.length bs
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putLazyByteString bs
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putVal BSUndefined = putNothing
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putVal (BSObjectId o) = putLazyByteString o
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putVal (BSBool False) = putI8 0
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putVal (BSBool True) = putI8 1
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putVal (BSDate pt) = putI64 $ round $ 1000 * realToFrac pt
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putVal BSNull = putNothing
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putVal (BSRegex r opt)= do putS r
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putByteString $ pack $ List.sort opt
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putNull
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putVal (BSSymbol s) = putI32 (fromIntegral $ 1 + L8.length s) >> putS s
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putVal (BSInt32 i) = putI32 i
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putVal (BSInt64 i) = putI64 i
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putVal BSMinKey = putNothing
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putVal BSMaxKey = putNothing
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putObj obj = putOutterObj bs
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where bs = runPut $ forM_ (Map.toList (fromBSONObject obj)) $ \(k, v) ->
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putType v >> putS k >> putVal v
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putOutterObj bytes = do
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-- the length prefix and null term are included in the length
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putI32 $ fromIntegral $ 4 + 1 + L.length bytes
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putLazyByteString bytes
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putNull
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putDataType = putI8 . fromDataType
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