`std::make_shared` vs. `std::shared_ptr`: Which is More Efficient?
Discerning the Efficiency of std::make_shared vs. Direct std::shared_ptr Usage
Understanding the difference in efficiency between std::make_shared and directly constructing a std::shared_ptr can be a perplexing task. Here, we delve into a detailed comparison to elucidate the intricacies of each method.
Exploring the Construction Sequence
Consider the following code snippets:
std::shared_ptr<Object> p1 = std::make_shared<Object>("foo");
std::shared_ptr<Object> p2(new Object("foo"));Direct std::shared_ptr Construction:
- Heap allocation for Object
- Shared pointer constructor, allocating another heap region for metadata
std::make_shared Usage:
- Combined heap allocation, encompassing both Object and metadata
Unmasking the Efficiency Gain
The key difference lies in the number of heap allocations required:
- make_shared: 1 allocation
- Direct shared_ptr: 2 allocations
This singular allocation in make_shared eliminates the need for an explicit new call, resulting in increased efficiency.
Exception Considerations
Pre-C 17:
Exception handling could previously wreak havoc, as the raw pointer might not have been safely passed to the shared_ptr constructor.
C 17 and Later:
This issue has been resolved thanks to changes in function argument evaluation order. Today, exceptions are handled gracefully, ensuring memory integrity.
A Minor Drawback of std::make_shared
As Casey pointed out, a potential disadvantage stems from the single allocation:
- The controlled memory cannot be released until the control block is no longer in use, potentially prolonging memory retention due to weak pointer references.
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