8.5 KiB
SJSON Module
Since | Origin / Contributor | Maintainer | Source |
---|---|---|---|
2017-02-01 | Philip Gladstone | Philip Gladstone | sjson |
The JSON support module. Allows encoding and decoding to/from JSON.
Please note that nested tables can require a lot of memory to encode. To catch out-of-memory errors, use pcall()
.
This code using the streaming json library jsonsl to do the parsing of the string.
This module can be used in two ways. The simpler way is to use it as a direct drop-in for cjson (you can just do _G.cjson = sjson
).
The more advanced approach is to use the streaming interface. This allows encoding and decoding of significantly larger objects.
The handling of json null is as follows:
- By default, the decoder represents null as sjson.NULL (which is a userdata object). This is the behavior of cjson.
- The encoder always converts any userdata object into null.
- Optionally, a single string can be specified in both the encoder and decoder. This string will be used in encoding/decoding to represent json null values. This string should not be used
anywhere else in your data structures. A suitable value might be
"\0"
.
When encoding a lua object, if a function is found, then it is invoked (with no arguments) and the (single) returned value is encoded in the place of the function.
sjson.encoder()
This creates an encoder object that can convert a LUA object into a JSON encoded string.
####Syntax
sjson.encoder(table [, opts])
####Parameters
table
data to encodeopts
an optional table of options. The possible entries are:depth
the maximum encoding depth needed to encode the table. The default is 20 which should be enough for nearly all situations.null
the string value to treat as null.
####Returns
A sjson.encoder
object.
sjson.encoder:read
This gets a chunk of JSON encoded data.
####Syntax
encoder:read([size])
####Parameters
size
an optional value for the number of bytes to return. The default is 1024.
####Returns
A string of up to size
bytes, or nil
if the encoding is complete and all data has been returned.
Example
The following example prints out (in 64 byte chunks) a JSON encoded string containing the first 4k of every file in the file system. The total string can be bigger than the total amount of memory on the NodeMCU.
function files()
result = {}
for k,v in pairs(file.list()) do
result[k] = function() return file.open(k):read(4096) end
end
return result
end
local encoder = sjson.encoder(files())
while true do
data = encoder:read(64)
if not data then
break
end
print(data)
end
sjson.encode()
Encode a Lua table to a JSON string. This is a convenience method provided for backwards compatibility with cjson
.
####Syntax
sjson.encode(table [, opts])
####Parameters
table
data to encodeopts
an optional table of options. The possible entries are:depth
the maximum encoding depth needed to encode the table. The default is 20 which should be enough for nearly all situations.null
the string value to treat as null.
####Returns JSON string
####Example
ok, json = pcall(sjson.encode, {key="value"})
if ok then
print(json)
else
print("failed to encode!")
end
sjson.decoder()
This makes a decoder object that can parse a JSON encoded string into a lua object. A metatable can be specified for all the newly created lua tables. This allows
you to handle each value as it is inserted into each table (by implementing the __newindex
method).
####Syntax
sjson.decoder([opts])
Parameters
opts
an optional table of options. The possible entries are:depth
the maximum encoding depth needed to encode the table. The default is 20 which should be enough for nearly all situations.null
the string value to treat as null.metatable
a table to use as the metatable for all the new tables in the returned object.
Returns
A sjson.decoder
object
####Metatable
There are two principal methods that are invoked in the metatable (if it is present).
__newindex
this is the standard method invoked whenever a new table element is created.checkpath
this is invoked (if defined) whenever a new table is created. It is invoked with two arguments:table
this is the newly created tablepath
this is a list of the keys from the root. It must returntrue
if this object is wanted in the result, orfalse
otherwise.
For example, when decoding { "foo": [1, 2, []] }
the checkpath will be invoked as follows:
checkpath({}, {})
thetable
argument is the object that will correspond with the value of the JSON object.checkpath({}, {"foo"})
thetable
argument is the object that will correspond with the value of the outer JSON array.checkpath({}, {"foo", 3})
thetable
argument is the object that will correspond to the empty inner JSON array.
When the checkpath
method is called, the metatable has already be associated with the new table. Thus the checkpath
method can replace it
if desired. For example, if you are decoding { "foo": { "bar": [1,2,3,4], "cat": [5] } }
and, for some reason, you did not want to capture the
value of the "bar"
key, then there are various ways to do this:
-
In the
__newindex
metamethod, just check for the value of the key and skip therawset
if the key is"bar"
. This only works if you want to skip all the"bar"
keys. -
In the
checkpath
method, if the path is["foo"]
, then returnfalse
. -
Use the following
checkpath
:checkpath=function(tab, path) tab['__json_path'] = path return true end
This will save the path in each constructed object. Now the__newindex
method can perform more sophisticated filtering.
The reason for being able to filter is that it enables processing of very large JSON responses on a memory constrained platform. Many APIs return lots of information
which would exceed the memory budget of the platform. For example, https://api.github.com/repos/nodemcu/nodemcu-firmware/contents
is over 13kB, and yet, if
you only need the download_url
keys, then the total size is around 600B. This can be handled with a simple __newindex
method.
sjson.decoder:write
This provides more data to be parsed into the lua object.
####Syntax
decoder:write(string)
####Parameters
string
the next piece of JSON encoded data
####Returns
The constructed lua object or nil
if the decode is not yet complete.
####Errors If a parse error occurrs during this decode, then an error is thrown and the parse is aborted. The object cannot be used again.
sjson.decoder:result
This gets the decoded lua object, or raises an error if the decode is not yet complete. This can be called multiple times and will return the same object each time.
####Syntax
decoder:result()
####Errors If the decode is not complete, then an error is thrown.
####Example
local decoder = sjson.decoder()
decoder:write("[10, 1")
decoder:write("1")
decoder:write(", \"foo\"]")
for k,v in pairs(decoder:result()) do
print (k, v)
end
The next example demonstrates the use of the metatable argument. In this case it just prints out the operations, but it could suppress the assignment altogether if desired.
local decoder = sjson.decoder({metatable=
{__newindex=function(t,k,v) print("Setting '" .. k .. "' = '" .. tostring(v) .."'")
rawset(t,k,v) end}})
decoder:write('[1, 2, {"foo":"bar"}]')
sjson.decode()
Decode a JSON string to a Lua table. This is a convenience method provided for backwards compatibility with cjson
.
####Syntax
sjson.decode(str[, opts])
####Parameters
str
JSON string to decodeopts
an optional table of options. The possible entries are:depth
the maximum encoding depth needed to encode the table. The default is 20 which should be enough for nearly all situations.null
the string value to treat as null.metatable
a table to use as the metatable for all the new tables in the returned object. See the metatable section in the description ofsjson.decoder()
above.
####Returns Lua table representation of the JSON data
####Errors If the string is not valid JSON, then an error is thrown.
####Example
t = sjson.decode('{"key":"value"}')
for k,v in pairs(t) do print(k,v) end
##Constants
There is one constant -- sjson.NULL
-- which is used in lua structures to represent the presence of a JSON null.