Overview¶
Base type¶
All exceptions inherit from class json::exception (which in turn inherits from std::exception). It is used as the base class for all exceptions thrown by the basic_json class. This class can hence be used as «wildcard» to catch exceptions.
Switch off exceptions¶
Exceptions are used widely within the library. They can, however, be switched off with either using the compiler flag -fno-exceptions or by defining the symbol JSON_NOEXCEPTION. In this case, exceptions are replaced by abort() calls. You can further control this behavior by defining JSON_THROW_USER (overriding throw), JSON_TRY_USER (overriding try), and JSON_CATCH_USER (overriding catch).
Note that JSON_THROW_USER should leave the current scope (e.g., by throwing or aborting), as continuing after it may yield undefined behavior.
Example
The code below switches off exceptions and creates a log entry with a detailed error message in case of errors.
#include <iostream>
#define JSON_TRY_USER if(true)
#define JSON_CATCH_USER(exception) if(false)
#define JSON_THROW_USER(exception)
{std::clog << "Error in " << __FILE__ << ":" << __LINE__
<< " (function " << __FUNCTION__ << ") - "
<< (exception).what() << std::endl;
std::abort();}
#include <nlohmann/json.hpp>
Note the explanatory what() string of exceptions is not available for MSVC if exceptions are disabled, see #2824.
See documentation of JSON_TRY_USER, JSON_CATCH_USER and JSON_THROW_USER for more information.
Extended diagnostic messages¶
Exceptions in the library are thrown in the local context of the JSON value they are detected. This makes detailed diagnostics messages, and hence debugging, difficult.
Example
#include <iostream>
#include <nlohmann/json.hpp>
using json = nlohmann::json;
int main()
{
json j;
j["address"]["street"] = "Fake Street";
j["address"]["housenumber"] = "12";
try
{
int housenumber = j["address"]["housenumber"];
}
catch (json::exception& e)
{
std::cout << e.what() << 'n';
}
}
Output:
[json.exception.type_error.302] type must be number, but is string
This exception can be hard to debug if storing the value "12" and accessing it is further apart.
To create better diagnostics messages, each JSON value needs a pointer to its parent value such that a global context (i.e., a path from the root value to the value that lead to the exception) can be created. That global context is provided as JSON Pointer.
As this global context comes at the price of storing one additional pointer per JSON value and runtime overhead to maintain the parent relation, extended diagnostics are disabled by default. They can, however, be enabled by defining the preprocessor symbol JSON_DIAGNOSTICS to 1 before including json.hpp.
Example
#include <iostream>
# define JSON_DIAGNOSTICS 1
#include <nlohmann/json.hpp>
using json = nlohmann::json;
int main()
{
json j;
j["address"]["street"] = "Fake Street";
j["address"]["housenumber"] = "12";
try
{
int housenumber = j["address"]["housenumber"];
}
catch (json::exception& e)
{
std::cout << e.what() << 'n';
}
}
Output:
[json.exception.type_error.302] (/address/housenumber) type must be number, but is string
Now the exception message contains a JSON Pointer /address/housenumber that indicates which value has the wrong type.
See documentation of JSON_DIAGNOSTICS for more information.
Parse errors¶
This exception is thrown by the library when a parse error occurs. Parse errors can occur during the deserialization of JSON text, CBOR, MessagePack, as well as when using JSON Patch.
Exceptions have ids 1xx.
Byte index
Member byte holds the byte index of the last read character in the input file.
For an input with n bytes, 1 is the index of the first character and n+1 is the index of the terminating null byte or the end of file. This also holds true when reading a byte vector (CBOR or MessagePack).
Example
The following code shows how a parse_error exception can be caught.
#include <iostream>
#include <nlohmann/json.hpp>
using json = nlohmann::json;
int main()
{
try
{
// parsing input with a syntax error
json::parse("[1,2,3,]");
}
catch (json::parse_error& e)
{
// output exception information
std::cout << "message: " << e.what() << 'n'
<< "exception id: " << e.id << 'n'
<< "byte position of error: " << e.byte << std::endl;
}
}
Output:
message: [json.exception.parse_error.101] parse error at line 1, column 8: syntax error while parsing value - unexpected ']'; expected '[', '{', or a literal
exception id: 101
byte position of error: 8
json.exception.parse_error.101¶
This error indicates a syntax error while deserializing a JSON text. The error message describes that an unexpected token (character) was encountered, and the member byte indicates the error position.
Example message
Input ended prematurely:
[json.exception.parse_error.101] parse error at 2: unexpected end of input; expected string literal
No input:
[json.exception.parse_error.101] parse error at line 1, column 1: syntax error while parsing value - unexpected end of input; expected '[', '{', or a literal
Control character was not escaped:
[json.exception.parse_error.101] parse error at line 1, column 2: syntax error while parsing value - invalid string: control character U+0009 (HT) must be escaped to u0009 or \; last read: '"<U+0009>'"
String was not closed:
[json.exception.parse_error.101] parse error at line 1, column 2: syntax error while parsing value - invalid string: missing closing quote; last read: '"'
Invalid number format:
[json.exception.parse_error.101] parse error at line 1, column 3: syntax error while parsing value - invalid number; expected '+', '-', or digit after exponent; last read: '1E'
u was not be followed by four hex digits:
[json.exception.parse_error.101] parse error at line 1, column 6: syntax error while parsing value - invalid string: 'u' must be followed by 4 hex digits; last read: '"u01"'
Invalid UTF-8 surrogate pair:
[json.exception.parse_error.101] parse error at line 1, column 13: syntax error while parsing value - invalid string: surrogate U+DC00..U+DFFF must follow U+D800..U+DBFF; last read: '"uD7FFuDC00'"
Invalid UTF-8 byte:
[json.exception.parse_error.101] parse error at line 3, column 24: syntax error while parsing value - invalid string: ill-formed UTF-8 byte; last read: '"vous 352t'
Tip
- Make sure the input is correctly read. Try to write the input to standard output to check if, for instance, the input file was successfully opened.
- Paste the input to a JSON validator like http://jsonlint.com or a tool like jq.
json.exception.parse_error.102¶
JSON uses the uxxxx format to describe Unicode characters. Code points above 0xFFFF are split into two uxxxx entries («surrogate pairs»). This error indicates that the surrogate pair is incomplete or contains an invalid code point.
Example message
parse error at 14: missing or wrong low surrogate
Note
This exception is not used any more. Instead json.exception.parse_error.101 with a more detailed description is used.
json.exception.parse_error.103¶
Unicode supports code points up to 0x10FFFF. Code points above 0x10FFFF are invalid.
Example message
parse error: code points above 0x10FFFF are invalid
Note
This exception is not used any more. Instead json.exception.parse_error.101 with a more detailed description is used.
json.exception.parse_error.104¶
RFC 6902 requires a JSON Patch document to be a JSON document that represents an array of objects.
Example message
[json.exception.parse_error.104] parse error: JSON patch must be an array of objects
json.exception.parse_error.105¶
An operation of a JSON Patch document must contain exactly one «op» member, whose value indicates the operation to perform. Its value must be one of «add», «remove», «replace», «move», «copy», or «test»; other values are errors.
Example message
[json.exception.parse_error.105] parse error: operation 'add' must have member 'value'
[json.exception.parse_error.105] parse error: operation 'copy' must have string member 'from'
[json.exception.parse_error.105] parse error: operation value 'foo' is invalid
json.exception.parse_error.106¶
An array index in a JSON Pointer (RFC 6901) may be 0 or any number without a leading 0.
Example message
[json.exception.parse_error.106] parse error: array index '01' must not begin with '0'
json.exception.parse_error.107¶
A JSON Pointer must be a Unicode string containing a sequence of zero or more reference tokens, each prefixed by a / character.
Example message
[json.exception.parse_error.107] parse error at byte 1: JSON pointer must be empty or begin with '/' - was: 'foo'
json.exception.parse_error.108¶
In a JSON Pointer, only ~0 and ~1 are valid escape sequences.
Example message
[json.exception.parse_error.108] parse error: escape character '~' must be followed with '0' or '1'
json.exception.parse_error.109¶
A JSON Pointer array index must be a number.
Example messages
[json.exception.parse_error.109] parse error: array index 'one' is not a number
[json.exception.parse_error.109] parse error: array index '+1' is not a number
json.exception.parse_error.110¶
When parsing CBOR or MessagePack, the byte vector ends before the complete value has been read.
Example message
[json.exception.parse_error.110] parse error at byte 5: syntax error while parsing CBOR string: unexpected end of input
[json.exception.parse_error.110] parse error at byte 2: syntax error while parsing UBJSON value: expected end of input; last byte: 0x5A
json.exception.parse_error.112¶
An unexpected byte was read in a binary format or length information is invalid (BSON).
Example messages
[json.exception.parse_error.112] parse error at byte 1: syntax error while parsing CBOR value: invalid byte: 0x1C
[json.exception.parse_error.112] parse error at byte 1: syntax error while parsing MessagePack value: invalid byte: 0xC1
[json.exception.parse_error.112] parse error at byte 4: syntax error while parsing BJData size: expected '#' after type information; last byte: 0x02
[json.exception.parse_error.112] parse error at byte 4: syntax error while parsing UBJSON size: expected '#' after type information; last byte: 0x02
[json.exception.parse_error.112] parse error at byte 10: syntax error while parsing BSON string: string length must be at least 1, is -2147483648
[json.exception.parse_error.112] parse error at byte 15: syntax error while parsing BSON binary: byte array length cannot be negative, is -1
json.exception.parse_error.113¶
While parsing a map key, a value that is not a string has been read.
Example messages
[json.exception.parse_error.113] parse error at byte 2: syntax error while parsing CBOR string: expected length specification (0x60-0x7B) or indefinite string type (0x7F); last byte: 0xFF
[json.exception.parse_error.113] parse error at byte 2: syntax error while parsing MessagePack string: expected length specification (0xA0-0xBF, 0xD9-0xDB); last byte: 0xFF
[json.exception.parse_error.113] parse error at byte 2: syntax error while parsing UBJSON char: byte after 'C' must be in range 0x00..0x7F; last byte: 0x82
json.exception.parse_error.114¶
The parsing of the corresponding BSON record type is not implemented (yet).
Example message
[json.exception.parse_error.114] parse error at byte 5: Unsupported BSON record type 0xFF
json.exception.parse_error.115¶
A UBJSON high-precision number could not be parsed.
Example message
[json.exception.parse_error.115] parse error at byte 5: syntax error while parsing UBJSON high-precision number: invalid number text: 1A
Iterator errors¶
This exception is thrown if iterators passed to a library function do not match the expected semantics.
Exceptions have ids 2xx.
Example
The following code shows how an invalid_iterator exception can be caught.
#include <iostream>
#include <nlohmann/json.hpp>
using json = nlohmann::json;
int main()
{
try
{
// calling iterator::key() on non-object iterator
json j = "string";
json::iterator it = j.begin();
auto k = it.key();
}
catch (json::invalid_iterator& e)
{
// output exception information
std::cout << "message: " << e.what() << 'n'
<< "exception id: " << e.id << std::endl;
}
}
Output:
message: [json.exception.invalid_iterator.207] cannot use key() for non-object iterators
exception id: 207
json.exception.invalid_iterator.201¶
The iterators passed to constructor basic_json(InputIT first, InputIT last) are not compatible, meaning they do not belong to the same container. Therefore, the range (first, last) is invalid.
Example message
[json.exception.invalid_iterator.201] iterators are not compatible
json.exception.invalid_iterator.202¶
In the erase or insert function, the passed iterator pos does not belong to the JSON value for which the function was called. It hence does not define a valid position for the deletion/insertion.
Example messages
[json.exception.invalid_iterator.202] iterator does not fit current value
[json.exception.invalid_iterator.202] iterators first and last must point to objects
json.exception.invalid_iterator.203¶
Either iterator passed to function erase(IteratorType first, IteratorType last) does not belong to the JSON value from which values shall be erased. It hence does not define a valid range to delete values from.
Example message
[json.exception.invalid_iterator.203] iterators do not fit current value
json.exception.invalid_iterator.204¶
When an iterator range for a primitive type (number, boolean, or string) is passed to a constructor or an erase function, this range has to be exactly (begin(), end()), because this is the only way the single stored value is expressed. All other ranges are invalid.
Example message
[json.exception.invalid_iterator.204] iterators out of range
json.exception.invalid_iterator.205¶
When an iterator for a primitive type (number, boolean, or string) is passed to an erase function, the iterator has to be the begin() iterator, because it is the only way to address the stored value. All other iterators are invalid.
Example message
[json.exception.invalid_iterator.205] iterator out of range
json.exception.invalid_iterator.206¶
The iterators passed to constructor basic_json(InputIT first, InputIT last) belong to a JSON null value and hence to not define a valid range.
Example message
[json.exception.invalid_iterator.206] cannot construct with iterators from null
json.exception.invalid_iterator.207¶
The key() member function can only be used on iterators belonging to a JSON object, because other types do not have a concept of a key.
Example message
[json.exception.invalid_iterator.207] cannot use key() for non-object iterators
json.exception.invalid_iterator.208¶
The operator[] to specify a concrete offset cannot be used on iterators belonging to a JSON object, because JSON objects are unordered.
Example message
[json.exception.invalid_iterator.208] cannot use operator[] for object iterators
json.exception.invalid_iterator.209¶
The offset operators (+, -, +=, -=) cannot be used on iterators belonging to a JSON object, because JSON objects are unordered.
Example message
[json.exception.invalid_iterator.209] cannot use offsets with object iterators
json.exception.invalid_iterator.210¶
The iterator range passed to the insert function are not compatible, meaning they do not belong to the same container. Therefore, the range (first, last) is invalid.
Example message
[json.exception.invalid_iterator.210] iterators do not fit
json.exception.invalid_iterator.211¶
The iterator range passed to the insert function must not be a subrange of the container to insert to.
Example message
[json.exception.invalid_iterator.211] passed iterators may not belong to container
json.exception.invalid_iterator.212¶
When two iterators are compared, they must belong to the same container.
Example message
[json.exception.invalid_iterator.212] cannot compare iterators of different containers
json.exception.invalid_iterator.213¶
The order of object iterators cannot be compared, because JSON objects are unordered.
Example message
[json.exception.invalid_iterator.213] cannot compare order of object iterators
json.exception.invalid_iterator.214¶
Cannot get value for iterator: Either the iterator belongs to a null value or it is an iterator to a primitive type (number, boolean, or string), but the iterator is different to begin().
Example message
[json.exception.invalid_iterator.214] cannot get value
Type errors¶
This exception is thrown in case of a type error; that is, a library function is executed on a JSON value whose type does not match the expected semantics.
Exceptions have ids 3xx.
Example
The following code shows how a type_error exception can be caught.
#include <iostream>
#include <nlohmann/json.hpp>
using json = nlohmann::json;
int main()
{
try
{
// calling push_back() on a string value
json j = "string";
j.push_back("another string");
}
catch (json::type_error& e)
{
// output exception information
std::cout << "message: " << e.what() << 'n'
<< "exception id: " << e.id << std::endl;
}
}
Output:
message: [json.exception.type_error.308] cannot use push_back() with string
exception id: 308
json.exception.type_error.301¶
To create an object from an initializer list, the initializer list must consist only of a list of pairs whose first element is a string. When this constraint is violated, an array is created instead.
Example message
[json.exception.type_error.301] cannot create object from initializer list
json.exception.type_error.302¶
During implicit or explicit value conversion, the JSON type must be compatible to the target type. For instance, a JSON string can only be converted into string types, but not into numbers or boolean types.
Example messages
[json.exception.type_error.302] type must be object, but is null
[json.exception.type_error.302] type must be string, but is object
json.exception.type_error.303¶
To retrieve a reference to a value stored in a basic_json object with get_ref, the type of the reference must match the value type. For instance, for a JSON array, the ReferenceType must be array_t &.
Example messages
[json.exception.type_error.303] incompatible ReferenceType for get_ref, actual type is object
[json.exception.type_error.303] incompatible ReferenceType for get_ref, actual type is number"
json.exception.type_error.304¶
The at() member functions can only be executed for certain JSON types.
Example messages
[json.exception.type_error.304] cannot use at() with string
[json.exception.type_error.304] cannot use at() with number
json.exception.type_error.305¶
The operator[] member functions can only be executed for certain JSON types.
Example messages
[json.exception.type_error.305] cannot use operator[] with a string argument with array
[json.exception.type_error.305] cannot use operator[] with a numeric argument with object
json.exception.type_error.306¶
The value() member functions can only be executed for certain JSON types.
Example message
[json.exception.type_error.306] cannot use value() with number
json.exception.type_error.307¶
The erase() member functions can only be executed for certain JSON types.
Example message
[json.exception.type_error.307] cannot use erase() with string
json.exception.type_error.308¶
The push_back() and operator+= member functions can only be executed for certain JSON types.
Example message
[json.exception.type_error.308] cannot use push_back() with string
json.exception.type_error.309¶
The insert() member functions can only be executed for certain JSON types.
Example messages
[json.exception.type_error.309] cannot use insert() with array
[json.exception.type_error.309] cannot use insert() with number
json.exception.type_error.310¶
The swap() member functions can only be executed for certain JSON types.
Example message
[json.exception.type_error.310] cannot use swap() with number
json.exception.type_error.311¶
The emplace() and emplace_back() member functions can only be executed for certain JSON types.
Example messages
[json.exception.type_error.311] cannot use emplace() with number
[json.exception.type_error.311] cannot use emplace_back() with number
json.exception.type_error.312¶
The update() member functions can only be executed for certain JSON types.
Example message
[json.exception.type_error.312] cannot use update() with array
json.exception.type_error.313¶
The unflatten function converts an object whose keys are JSON Pointers back into an arbitrary nested JSON value. The JSON Pointers must not overlap, because then the resulting value would not be well-defined.
Example message
[json.exception.type_error.313] invalid value to unflatten
json.exception.type_error.314¶
The unflatten function only works for an object whose keys are JSON Pointers.
Example message
Calling unflatten() on an array [1,2,3]:
[json.exception.type_error.314] only objects can be unflattened
json.exception.type_error.315¶
The unflatten() function only works for an object whose keys are JSON Pointers and whose values are primitive.
Example message
Calling unflatten() on an object {"/1", [1,2,3]}:
[json.exception.type_error.315] values in object must be primitive
json.exception.type_error.316¶
The dump() function only works with UTF-8 encoded strings; that is, if you assign a std::string to a JSON value, make sure it is UTF-8 encoded.
Example message
Calling dump() on a JSON value containing an ISO 8859-1 encoded string:
[json.exception.type_error.316] invalid UTF-8 byte at index 15: 0x6F
Tip
- Store the source file with UTF-8 encoding.
- Pass an error handler as last parameter to the
dump()function to avoid this exception:json::error_handler_t::replacewill replace invalid bytes sequences withU+FFFDjson::error_handler_t::ignorewill silently ignore invalid byte sequences
json.exception.type_error.317¶
The dynamic type of the object cannot be represented in the requested serialization format (e.g. a raw true or null JSON object cannot be serialized to BSON)
Example messages
Serializing null to BSON:
[json.exception.type_error.317] to serialize to BSON, top-level type must be object, but is null
Serializing [1,2,3] to BSON:
[json.exception.type_error.317] to serialize to BSON, top-level type must be object, but is array
Tip
Encapsulate the JSON value in an object. That is, instead of serializing true, serialize {"value": true}
Out of range¶
This exception is thrown in case a library function is called on an input parameter that exceeds the expected range, for instance in case of array indices or nonexisting object keys.
Exceptions have ids 4xx.
Example
The following code shows how an out_of_range exception can be caught.
#include <iostream>
#include <nlohmann/json.hpp>
using json = nlohmann::json;
int main()
{
try
{
// calling at() for an invalid index
json j = {1, 2, 3, 4};
j.at(4) = 10;
}
catch (json::out_of_range& e)
{
// output exception information
std::cout << "message: " << e.what() << 'n'
<< "exception id: " << e.id << std::endl;
}
}
Output:
message: [json.exception.out_of_range.401] array index 4 is out of range
exception id: 401
json.exception.out_of_range.401¶
The provided array index i is larger than size-1.
Example message
array index 3 is out of range
json.exception.out_of_range.402¶
The special array index - in a JSON Pointer never describes a valid element of the array, but the index past the end. That is, it can only be used to add elements at this position, but not to read it.
Example message
array index '-' (3) is out of range
json.exception.out_of_range.403¶
The provided key was not found in the JSON object.
json.exception.out_of_range.404¶
A reference token in a JSON Pointer could not be resolved.
Example message
unresolved reference token 'foo'
json.exception.out_of_range.405¶
The JSON Patch operations ‘remove’ and ‘add’ can not be applied to the root element of the JSON value.
Example message
JSON pointer has no parent
json.exception.out_of_range.406¶
A parsed number could not be stored as without changing it to NaN or INF.
Example message
number overflow parsing '10E1000'
json.exception.out_of_range.407¶
UBJSON and BSON only support integer numbers up to 9223372036854775807.
Example message
number overflow serializing '9223372036854775808'
Note
Since version 3.9.0, integer numbers beyond int64 are serialized as high-precision UBJSON numbers, and this exception does not further occur.
json.exception.out_of_range.408¶
The size (following #) of an UBJSON array or object exceeds the maximal capacity.
Example message
excessive array size: 8658170730974374167
json.exception.out_of_range.409¶
Key identifiers to be serialized to BSON cannot contain code point U+0000, since the key is stored as zero-terminated c-string.
Example message
BSON key cannot contain code point U+0000 (at byte 2)
Further exceptions¶
This exception is thrown in case of errors that cannot be classified with the other exception types.
Exceptions have ids 5xx.
Example
The following code shows how an other_error exception can be caught.
#include <iostream>
#include <nlohmann/json.hpp>
using json = nlohmann::json;
using namespace nlohmann::literals;
int main()
{
try
{
// executing a failing JSON Patch operation
json value = R"({
"best_biscuit": {
"name": "Oreo"
}
})"_json;
json patch = R"([{
"op": "test",
"path": "/best_biscuit/name",
"value": "Choco Leibniz"
}])"_json;
value.patch(patch);
}
catch (json::other_error& e)
{
// output exception information
std::cout << "message: " << e.what() << 'n'
<< "exception id: " << e.id << std::endl;
}
}
Output:
message: [json.exception.other_error.501] unsuccessful: {"op":"test","path":"/best_biscuit/name","value":"Choco Leibniz"}
exception id: 501
json.exception.other_error.501¶
A JSON Patch operation ‘test’ failed. The unsuccessful operation is also printed.
Example message
Executing {"op":"test", "path":"/baz", "value":"bar"} on {"baz": "qux"}:
[json.exception.other_error.501] unsuccessful: {"op":"test","path":"/baz","value":"bar"}
Last update: March 8, 2023
I test my data using the latest version on my MacBook, everything is ok. I need more tests for my case. Thank you for you pay attention to this issue.
json json_obj = json::parse(R"(
{
"Data/Images/AmberLogo.png": {
"props": {
"comression": "LowCompress",
"usage": "sRGB",
"mipmap": "Off",
"premul": "Premul"
},
"prop_raw_info": "-s_-p_",
"size": {
"width": 1024,
"height": 256,
"raw_size": 9.291,
"channels": [
"L",
"A"
],
"comp_astc_size": 256.215,
"comp_etc_size": 256.215
}
}
}
)");
for (auto it = json_obj.begin(); it != json_obj.end(); it++) {
auto info_value = it.value();
auto size_info = info_value.at("size").get<json>();
std::cout << size_info["width"].get<int>() << std::endl;
std::cout << size_info["height"].get<int>() << std::endl;
// Print error info in this line, but now, everything is ok.
auto channels = size_info["channels"].get<std::vector<std::string>>();
for (auto &channel : channels) {
std::cout << channel << std::endl;
}
}
I’m trying to parse Json file and store the data into 2D array or vector. The Json file looks like this:
{"n" : 2,
"x" : [[1,2],
[0,4]]}
And this is what my code looks like and but I keep getting «json.exception.parse_error.101» error
#include <iostream>
#include "json.hpp"
#include <fstream>
using json = nlohmann::json;
using namespace std;
int main(int argc, const char * argv[]) {
ifstream i("trivial.json");
json j;
i >> j;
return 0;
}
HolyBlackCat
76.3k9 gold badges125 silver badges201 bronze badges
asked Sep 16, 2019 at 21:44
3
In short, you need to take checking before processing, like below:
ifstream i("trivial.json");
if (i.good()) {
json j;
try {
i >> j;
}
catch (const std::exception& e) {
//error, log or take some error handling
return 1;
}
if (!j.empty()) {
// make further processing
}
}
answered Sep 16, 2019 at 23:07
BokiBoki
6393 silver badges12 bronze badges
I’d agree with the suggestion that what you’re seeing probably stems from failing to open the file correctly. For one obvious example of how to temporarily eliminate that problem so you can test the rest of your code, you might consider reading the data in from an istringstream:
#include <iostream>
#include <iomanip>
#include <nlohmann/json.hpp>
#include <sstream>
using json = nlohmann::json;
using namespace std;
int main(int argc, const char * argv[]) {
std::istringstream i(R"(
{"n" : 2,
"x" : [[1,2],
[0,4]]}
)");
json j;
i >> j;
// Format and display the data:
std::cout << std::setw(4) << j << "n";
}
As an aside, also note how you’re normally expected to include the header. You give the compiler <json-install-directory>/include as the directory to search, and your code uses #include <nlohmann/json.hpp> to include the header.
answered Sep 16, 2019 at 23:25
Jerry CoffinJerry Coffin
473k80 gold badges622 silver badges1108 bronze badges
The conf is
pschonmann@E495:~$ cat ~/.config/gummyconf
{
"als_polling_rate": 5000,
"brt_auto_fps": 60,
"screens": [
{
"brt_auto_max": 500,
"brt_auto_min": 250,
"brt_auto_offset": 0,
"brt_auto_polling_rate": 500,
"brt_auto_speed": 1000,
"brt_auto_threshold": 8,
"brt_mode": 0,
"brt_step": 500,
"temp_auto": false,
"temp_step": 0
},
{
"brt_auto_max": 500,
"brt_auto_min": 250,
"brt_auto_offset": 0,
"brt_auto_polling_rate": 500,
"brt_auto_speed": 1000,
"brt_auto_threshold": 8,
"brt_mode": 0,
"brt_step": 500,
"temp_auto": false,
"temp_step": 0
}
],
"temp_auto": false,
"temp_auto_fps": 45,
"temp_auto_high": 2000,
"temp_auto_low": 3400,
"temp_auto_speed": 60,
"temp_auto_sunrise": "06:00",
"temp_auto_sunset": "16:00"
I have 2 screens — 1x Laptop LID and one external screen
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