# cppcoreguidelines-narrowing-conversions¶

Checks for silent narrowing conversions, e.g: int i = 0; i += 0.1;. While the issue is obvious in this former example, it might not be so in the following: void MyClass::f(double d) { int_member_ += d; }.

This rule is part of the “Expressions and statements” profile of the C++ Core Guidelines, corresponding to rule ES.46. See

We enforce only part of the guideline, more specifically, we flag narrowing conversions from:
• an integer to a narrower integer (e.g. char to unsigned char),
• an integer to a narrower floating-point (e.g. uint64_t to float),
• a floating-point to an integer (e.g. double to int),
• a floating-point to a narrower floating-point (e.g. double to float) if WarnOnFloatingPointNarrowingConversion Option is set.
This check will flag:
• All narrowing conversions that are not marked by an explicit cast (c-style or static_cast). For example: int i = 0; i += 0.1;, void f(int); f(0.1);,
• All applications of binary operators with a narrowing conversions. For example: int i; i+= 0.1;.

## Options¶

WarnOnFloatingPointNarrowingConversion

When non-zero, the check will warn on narrowing floating point conversion (e.g. double to float). 1 by default.

PedanticMode

When non-zero, the check will warn on assigning a floating point constant to an integer value even if the floating point value is exactly representable in the destination type (e.g. int i = 1.0;). 0 by default.

## FAQ¶

• What does “narrowing conversion from ‘int’ to ‘float’” mean?

An IEEE754 Floating Point number can represent all integer values in the range [-2^PrecisionBits, 2^PrecisionBits] where PrecisionBits is the number of bits in the mantissa.

For float this would be [-2^23, 2^23], where int can represent values in the range [-2^31, 2^31-1].

• What does “implementation-defined” mean?

You may have encountered messages like “narrowing conversion from ‘unsigned int’ to signed type ‘int’ is implementation-defined”. The C/C++ standard does not mandate two’s complement for signed integers, and so the compiler is free to define what the semantics are for converting an unsigned integer to signed integer. Clang’s implementation uses the two’s complement format.