20 JSON Format for CmdStan
CmdStan can use JSON format for input data for both model data and parameters. Model data is read in by the model constructor. Model parameters are used to initialize the sampler and optimizer.
20.1 Creating JSON Files
You can create the JSON file yourself using the guidelines below, but a more
convenient way to create a JSON file for use with CmdStan is to use the
write_stan_json()
function provided by the CmdStanR interface.
20.2 JSON Syntax Summary
JSON is a data interchange notation, defined by an . JSON data files must in Unicode. JSON data is a series of structural tokens, literal tokens, and values:
Structural tokens are the left and right curly bracket
{}
, left and right square bracket[]
, the semicolon;
, and the comma,
.Literal tokens must always be in lowercase. There are three literal tokens:
true
,false
,null
.A primitive value is a single token which is either a literal, a string, or a number.
A string consists of zero or more Unicode characters enclosed in double quotes, e.g.
"foo"
. A backslash is used to escape the double quote character as well as the backslash itself. JSON allows the use of Unicode character escapes, e.g."\\uHHHH"
whereHHHH
is the Unicode code point in hex.All numbers are decimal numbers. Scientific notation is allowed. The following are examples of numbers:
17
,17.2
,-17.2
,-17.2e8
,17.2e-8
.
Note: The concepts of positive and negative infinity as well as “not a number” cannot be expressed as numbers in JSON, but they can be encoded as strings"+inf"
,"-inf"
, and"NaN"
, respectively, which can be mixed with numbers.A JSON array is an ordered, comma-separated list of zero or more JSON values enclosed in square brackets. The elements of an array can be of any type. The following are examples of arrays:
[]
,[1]
,[0.2, "-inf", true]
.A name-value pair consists of a string followed by a colon followed by a value, either primitive or compound.
A JSON object is a comma-separated series of zero or more name-value pairs enclosed in curly brackets. Each name-value pair is a member of the object. Membership is unordered. Member names are not required to be unique. The following are examples of objects:
{ }
,{"foo": null}
,{"bar" : 17, "baz" : [14,15,16.6] }
.
20.3 Stan Data Types in JSON Notation
Stan follows the JSON standard. A Stan input file in JSON notation consists of single JSON object which contains zero or more name-value pairs. This structure corresponds to a Python data dictionary object. The following is an example of JSON data for the simple Bernoulli example model:
{ "N" : 10, "y" : [0,1,0,0,0,0,0,0,0,1] }
Matrix data and multi-dimensional arrays are indexed in row-major order. For a Stan program which has data block:
data {
int d1;
int d2;
int d3;
int ar[d1, d2, d3];
}
the following JSON input would be valid:
{ "d1" : 2,
"d2" : 3,
"d3" : 4,
"ar" : [[[0,1,2,3], [4,5,6,7], [8,9,10,11]],
[[12,13,14,15], [16,17,18,19], [20,21,22,23]]]
}
JSON ignores whitespace. In the above examples, the spaces and newlines are only used to improve readability and can be omitted.
All data inputs are encoded as name-value pairs. The following table provides more examples of JSON data. The left column contains a Stan data variable declaration and the right column contains valid JSON data inputs.
Stan variable | JSON data |
---|---|
int i |
"i": 17 |
real a |
"a" : 17 |
"a" : 17.2 |
|
"a" : "NaN" |
|
"a" : "+inf" |
|
"a" : "-inf" |
|
int a[5] |
"a" : [1, 2, 3, 4, 5] |
real a[5] |
"a" : [ 1, 2, 3.3, "NaN", 5 ] |
vector[5] a |
"a" : [ 1, 2, 3.3, "NaN", 5 ] |
row_vector[5] a |
"a" : [ 1, 2, 3.3, "NaN", 5 ] |
real a[5] |
"a" : [ 1, 2, 3.3, "NaN", 5 ] |
matrix[2,3] a |
"a" : [ [ 1, 2, 3 ], [ 4, 5, 6] ] |
20.3.1 Empty arrays in JSON
JSON notation is not able to distinguish between multi-dimensional
arrays where any dimension is \(0\), e.g., a 2-D array with dimensions \((1,0)\),
i.e., an array which contains a single array which is empty,
has JSON representation [ ]
.
To see how this works, consider the following Stan program data block:
data {
int d;
int ar_1d[d];
int ar_2d[d,d];
int ar_3d[d,d,d];
}
In the case where variable d
is 1
, all arrays will contain a single value.
If array variable ar_d1
contains value 7
,
2-D array variable ar_d2
contains (an array which contains) value 8
,
and 3-D array variable ar_d3
contains (an array which contains an array which contains) value 9
,
the JSON representation is:
{ "ar_d1" : [7],
"ar_d2" : [[8]],
"ar_d3" : [[[9]]]
}
However, in the case where variable d
is 0
,
ar_d1
is empty, i.e., it contains no values,
as is ar_d2
, ar_d3
,
and the JSON representation is
{ "d" : 0,
"ar_d1" : [ ],
"ar_d2" : [ ],
"ar_d3" : [ ]
}