4.3 KiB
Runtime Assertions
The code contains numerous debug assertions to ensure class invariants are valid or to detect undefined behavior. Whereas the former class invariants are nothing to be concerned with, the latter checks for undefined behavior are to detect bugs in client code.
Switch off runtime assertions
Runtime assertions can be switched off by defining the preprocessor macro NDEBUG (see the
documentation of assert) which is the default for release builds.
Change assertion behavior
The behavior of runtime assertions can be changes by defining macro JSON_ASSERT(x)
before including the json.hpp header.
Function with runtime assertions
Unchecked object access to a const value
Function operator[] implements unchecked access for objects. Whereas a missing
key is added in the case of non-const objects, accessing a const object with a missing key is undefined behavior (think
of a dereferenced null pointer) and yields a runtime assertion.
If you are not sure whether an element in an object exists, use checked access with the
at function or call the contains function before.
See also the documentation on element access.
??? example "Example 1: Missing object key"
The following code will trigger an assertion at runtime:
```cpp
#include <nlohmann/json.hpp>
using json = nlohmann::json;
int main()
{
const json j = {{"key", "value"}};
auto v = j["missing"];
}
```
Output:
```
Assertion failed: (m_value.object->find(key) != m_value.object->end()), function operator[], file json.hpp, line 2144.
```
Constructing from an uninitialized iterator range
Constructing a JSON value from an iterator range (see constructor) with an uninitialized iterator is undefined behavior and yields a runtime assertion.
??? example "Example 2: Uninitialized iterator range"
The following code will trigger an assertion at runtime:
```cpp
#include <nlohmann/json.hpp>
using json = nlohmann::json;
int main()
{
json::iterator it1, it2;
json j(it1, it2);
}
```
Output:
```
Assertion failed: (m_object != nullptr), function operator++, file iter_impl.hpp, line 368.
```
Operations on uninitialized iterators
Any operation on uninitialized iterators (i.e., iterators that are not associated with any JSON value) is undefined behavior and yields a runtime assertion.
??? example "Example 3: Uninitialized iterator"
The following code will trigger an assertion at runtime:
```cpp
#include <nlohmann/json.hpp>
using json = nlohmann::json;
int main()
{
json::iterator it;
++it;
}
```
Output:
```
Assertion failed: (m_object != nullptr), function operator++, file iter_impl.hpp, line 368.
```
Changes
Reading from a null FILE or char pointer
Reading from a null #!cpp FILE or #!cpp char pointer in C++ is undefined behavior. Until version 3.12.0, this
library asserted that the pointer was not nullptr using a runtime assertion. If assertions were disabled, this would
result in undefined behavior. Since version 3.12.0, this library checks for nullptr and throws a
parse_error.101 to prevent the undefined behavior.
??? example "Example 4: Reading from null pointer"
The following code will trigger an assertion at runtime:
```cpp
#include <iostream>
#include <nlohmann/json.hpp>
using json = nlohmann::json;
int main()
{
std::FILE* f = std::fopen("nonexistent_file.json", "r");
try {
json j = json::parse(f);
} catch (std::exception& e) {
std::cerr << e.what() << std::endl;
}
}
```
Output:
```
[json.exception.parse_error.101] parse error: attempting to parse an empty input; check that your input string or stream contains the expected JSON
```
See also
- JSON_ASSERT - control behavior of runtime assertions