Here is a simple test case that compiles without any warning. Looks like a common mistake but clang, gcc and visual studio doesn't emit warning in this case. Why?
class Image {
private:
int width, height;
int* array;
public:
Image(int _width, int _height);
void crashTest();
};
Image::Image(int _width, int _height)
{
array = new int[width * height];
// ^^^^^ ^^^^^^ this is wrong
// I expect a warning here e.g.: 'width is uninitialized here'
width = _width;
height = _height;
}
void Image::crashTest()
{
for (int x = 0; x < width; ++x)
{
for (int y = 0; y < height; ++y)
array[x + y * width] = 0;
}
}
int main()
{
const int ARRAY_SIZE = 1000;
Image image(ARRAY_SIZE, ARRAY_SIZE);
image.crashTest();
return 0;
}
e.g.:
g++ -Wall -Wextra -O2 -Wuninitialized test.cpp
clang++ -Wall -Wextra -O2 -Wuninitialized test.cpp
gives me no warning
Short Answer
As pointed out in the comments, reading from an uninitialized variable is undefined behavior. Compilers are not obligated by the standard to provide a warning for this.
(In fact, as soon as your program expresses undefined behavior, the compiler is effectively released from any and all obligations...)
From section [defns.undefined] of the standard (emphasis added):
undefined behavior
behavior for which this International Standard imposes no requirements
[ Note: Undefined behavior may be expected when this International Standard omits any explicit definition of behavior or when a program uses an erroneous construct or erroneous data. Permissible undefined behavior ranges from ignoring the situation completely with unpredictable results, to behaving during translation or program execution in a documented manner characteristic of the environment (with or without the issuance of a diagnostic message), to terminating a translation or execution (with the issuance of a diagnostic message). Many erroneous program constructs do not engender undefined behavior; they are required to be diagnosed. —end note ]
Long Answer
This can be a difficult situation for a compiler to detect (and if it does detect it, it's difficult to inform the user about it in some useful way).
Your code only exhibits undefined behavior because it's trying to read from uninitialized member variables width
and height
. The fact that they're member variables is one of the things that can make this situation tricky to diagnose.
With local variables, the static analysis involved in detecting this can be relatively straightforward (not all the time, mind you).
For example, it's very easy to see the problem here:
int foo()
{
int a;
int b = 0;
return a + b; // Danger! `a` hasn't been initialized!
}
How about in this scenario:
int foo(int& a)
{
int b = 1;
return a + b; // Hmm... I sure hope whoever gave me `a` remembered to initialize it first
}
void bar()
{
int value;
int result = foo(value); // Hmm... not sure if it matters that value hasn't been initialized yet
}
As soon as we start dealing with variables whose scope extends beyond a single block, it's very difficult to detect whether or not a variable has been initialized.
Now, relating this back to the problem at hand (your question): the variables width
and height
are not local to the constructor - they could have been initialized outside the constructor.
For example:
Image::Image(int _width, int _height)
{
Initialize();
array = new int[width * height]; // Maybe these were initialized in `Initialize`...
width = _width;
height = _height;
}
Image::Initialize()
{
width = 0;
height = 0;
}
Should the compiler emit a warning in this scenario?
After some cursory analysis we can conclusively say "no, it shouldn't warn", because we can see that the Initialize
method does indeed initialize the member variables in question.
But what if Initialize
delegates this to another method MoreInitialize()
? And that method delegates it to another method YetEvenMoreInitialize
? This begins to look like a problem that we can't reasonably expect the compiler to solve.
A follow-up to this old question: You can get the warning you are looking for with g++ by enabling warnings from "Effective C++" with -Weffc++
. This will complain about member variables that are not explicitly initialised.
This is possibly too aggressive in that it will also complain about class members with default constructors that are not explicitly initialised.
I have not seen an equivalent option for Clang -- I agree a warning about classes with uninitialised primitive data members would be very useful.