{-# LANGUAGE OverloadedStrings #-} -- | -- Module: Data.Aeson.Parser -- Copyright: (c) 2012-2016 Bryan O'Sullivan -- (c) 2011 MailRank, Inc. -- License: BSD3 -- Maintainer: Bryan O'Sullivan <bos@serpentine.com> -- Stability: experimental -- Portability: portable -- -- Efficiently and correctly parse a JSON string. The string must be -- encoded as UTF-8. -- -- It can be useful to think of parsing as occurring in two phases: -- -- * Identification of the textual boundaries of a JSON value. This -- is always strict, so that an invalid JSON document can be -- rejected as soon as possible. -- -- * Conversion of a JSON value to a Haskell value. This may be -- either immediate (strict) or deferred (lazy); see below for -- details. -- -- The question of whether to choose a lazy or strict parser is -- subtle, but it can have significant performance implications, -- resulting in changes in CPU use and memory footprint of 30% to 50%, -- or occasionally more. Measure the performance of your application -- with each! module Data.Aeson.Parser ( -- * Lazy parsers -- $lazy json , value , jstring -- * Strict parsers -- $strict , json' , value' -- * Decoding without FromJSON instances , decodeWith , decodeStrictWith , eitherDecodeWith , eitherDecodeStrictWith ) where import Prelude () import Data.Aeson.Parser.Internal (decodeStrictWith, decodeWith, eitherDecodeStrictWith, eitherDecodeWith, json, json', jstring, value, value') -- $lazy -- -- The 'json' and 'value' parsers decouple identification from -- conversion. Identification occurs immediately (so that an invalid -- JSON document can be rejected as early as possible), but conversion -- to a Haskell value is deferred until that value is needed. -- -- This decoupling can be time-efficient if only a smallish subset of -- elements in a JSON value need to be inspected, since the cost of -- conversion is zero for uninspected elements. The trade off is an -- increase in memory usage, due to allocation of thunks for values -- that have not yet been converted. -- $strict -- -- The 'json'' and 'value'' parsers combine identification with -- conversion. They consume more CPU cycles up front, but have a -- smaller memory footprint.