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travis CI fixes, one more time
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@ -589,7 +589,7 @@ Better:
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Now, there is no explicit mention of the iteration mechanism, and the loop operates on a reference to `const` elements so that accidental modification cannot happen. If modification is desired, say so:
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for (auto& x : v) { /* do to with x */ }
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for (auto& x : v) { /* modify x */ }
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Sometimes better still, use a named algorithm:
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@ -4048,13 +4048,13 @@ For example:
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##### Note
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If the set of direct users of a set of variables cannot be easily determined, the type or usage of that set cannot be (easily) changed/improved.
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For `public`and `protected` data, that's usually the case.
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For `public` and `protected` data, that's usually the case.
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##### Example
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A class can provide two interfaces to its users.
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One for derived classes (`protected`) and one for general users (`public`).
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For example, a derived class might be allowed to skip a run-time check because it has already guarenteed correctness:
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For example, a derived class might be allowed to skip a run-time check because it has already guaranteed correctness:
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class Foo {
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public:
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@ -4069,7 +4069,11 @@ For example, a derived class might be allowed to skip a run-time check because i
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class Dir : public Foo {
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//...
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int mem(int x, int y) { /* ... do something ... */ rteurn do_bar(x+y); } // OK: derived class can bypass check
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int mem(int x, int y)
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{
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/* ... do something ... */
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return do_bar(x+y); // OK: derived class can bypass check
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}
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}
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void user(Foo& x)
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@ -6817,14 +6821,14 @@ This kind of "vector" isn't meant to be used as a base class at all.
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Style st;
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};
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Now it is up to every defived `Shape` to manipulate the protected data correctly.
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Now it is up to every derived `Shape` to manipulate the protected data correctly.
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This has been popular, but also a major source of maintenance problems.
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In a large class hierarchy, the consistent use of protected data is hard to maintain because there can be a lot of code,
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spread over a lot of classes.
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The set of classes that can touch that data is open: anyone can derive a new class and start manipulating the protected data.
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Often, it is not possible to examine the complete set of classes so any change to the representation of the class becomes infeasible.
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There is no enforced invariant for the protected data; it is much like a set of global variables.
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The protected data has de-factor become global to a large body of code.
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The protected data has de facto become global to a large body of code.
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##### Note
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@ -6960,18 +6964,18 @@ or various bases from boost.intrusive (e.g. `list_base_hook` or `intrusive_ref_c
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};
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class Derive1 : public Interface, virtual protected Utility {
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// overrride Iterface functions
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// override Interface functions
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// Maybe override Utility virtual functions
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// ...
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};
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class Derive2 : public Interface, virtual protected Utility {
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// overrride Iterface functions
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// override Interface functions
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// Maybe override Utility virtual functions
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// ...
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};
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Factoring out `Utility` makes sense if many derived classes share significent "implementation details."
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Factoring out `Utility` makes sense if many derived classes share significant "implementation details."
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##### Note
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@ -6982,7 +6986,7 @@ and `Utility` is the root of an [implementation hierarchy](Rh-kind).
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##### Note
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Often, lineraization of a hierarchy is a better solution.
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Often, linearization of a hierarchy is a better solution.
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##### Enforcement
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@ -14511,28 +14515,28 @@ Exception specifications make error handling brittle, impose a run-time cost, an
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##### Example
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int use(int arg)
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throw(X,Y)
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throw(X, Y)
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{
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// ...
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auto x = f(arg);
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// ...
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}
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if 'f()' throws an exception different from `X` and `Y` the unexpected handler is invoked, which by default terminates.
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if `f()` throws an exception different from `X` and `Y` the unexpected handler is invoked, which by default terminates.
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That's OK, but say that we have checked that this cannot happen and `f` is changed to throw a new exception `Z`,
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we now have a crash on our hands unless we change `use()` (and re-test everything).
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The snag is that `f()` may be in a library we do not control and the new exception is not anything that `use()` can do
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anything about or is in any way interested in.
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We can change `use()` to pass `Z` through, but now `use()`'s callers probably needs to be modified.
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This quickly becomes unmanageable.
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Alternatively, we can add a `try`-`catch` to `use()` to map `Z` into an acceptable excption.
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Alternatively, we can add a `try`-`catch` to `use()` to map `Z` into an acceptable exception.
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This too, quickly becomes unmanageable.
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Note that changes to the set of exceptions often happens at the lowest level of a system
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(e.g., because of changes to a network library or some middleware), so changes "bubble up" through long call chains.
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(e.g., because of changes to a network library or some middleware), so changes "bubble up" through long call chains.
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In a large code base, this could mean that nobody could update to a new version of a library until the last user was modified.
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If `use()` is part of a library, it may not be possible to update it bacause a change could affect unknow clients.
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If `use()` is part of a library, it may not be possible to update it because a change could affect unknown clients.
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The policy of letting exceptions propogate until they reach a function that potentially can handle it has proven itself over the years.
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The policy of letting exceptions propagate until they reach a function that potentially can handle it has proven itself over the years.
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##### Note
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@ -14541,7 +14545,7 @@ For example, see [Stroustrup94](#Stroustrup94).
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##### Note
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If no exception may be throw, use [`noexcept`](#Re-noexcept) or its equivalent `throw()`.
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If no exception may be thrown, use [`noexcept`](#Re-noexcept) or its equivalent `throw()`.
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##### Enforcement
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@ -17387,7 +17391,7 @@ It is more likely to be stable, well-maintained, and widely available than your
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##### Reason
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Adding to `std` may change the meaning of otherwise standards conforming code.
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Additions to `std` may clash with furture versions of the standard.
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Additions to `std` may clash with future versions of the standard.
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##### Example
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@ -17755,24 +17759,24 @@ Iostream rule summary:
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##### Reason
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Unless you genuinely just deal with individual characters, using character-level input leads to the user code performing potentially error-prone
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and potentially inefficient composition ot tokens out of characters.
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and potentially inefficient composition of tokens out of characters.
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##### Example
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char c;
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char buf[128];
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int i = 0;
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while (cin.get(c) && !isspace(c) && i < 128)
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buf[i++] = c;
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if (i == 128) {
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// ... handle too long string ....
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}
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int i = 0;
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while (cin.get(c) && !isspace(c) && i < 128)
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buf[i++] = c;
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if (i == 128) {
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// ... handle too long string ....
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}
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Better (much simpler and probably faster):
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string s;
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s.reserve(128);
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cin>>s;
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cin >> s;
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and the `reserve(128)` is probably not worthwhile.
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@ -17786,7 +17790,7 @@ and the `reserve(128)` is probably not worthwhile.
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##### Reason
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Errors are typically best handled as soon as possible.
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If input isn't validated, all every function must be writtent to cope with bad data (and that is not practical).
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If input isn't validated, every function must be written to cope with bad data (and that is not practical).
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###### Example
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@ -17800,12 +17804,12 @@ If input isn't validated, all every function must be writtent to cope with bad d
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##### Reason
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`iosteam`s are safe, flexible, and extensible.
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`iostream`s are safe, flexible, and extensible.
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##### Example
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// write a complex number:
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complex<double> z{ 3,4 };
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complex<double> z{ 3, 4 };
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cout << z << '\n';
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`complex` is a user defined type and its I/O is defined without modifying the `iostream` library.
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@ -17813,7 +17817,7 @@ If input isn't validated, all every function must be writtent to cope with bad d
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##### Example
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// read a file of complex numbers:
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for (complex<double> z; cin>>z)
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for (complex<double> z; cin >> z; )
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v.push_back(z);
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##### Exception
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@ -17830,7 +17834,7 @@ implicit memory management, and `locale` handling.
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If you need I/O performance, you can almost always do better than `printf()`.
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`gets()` `scanf()` using `s`, and `printf()` using `%s` are security hazards (vulnerable to buffer overflow and generally error-prone).
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In C++11, they are replaced by `gets_s()`, `scanf_s()`, and `printf_s()` as safer alternatives, but they are still not type safe.
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In C11, they are replaced by `gets_s()`, `scanf_s()`, and `printf_s()` as safer alternatives, but they are still not type safe.
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##### Enforcement
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@ -17880,8 +17884,8 @@ the choice between `'\n'` and `endl` is almost completely aesthetic.
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## <a name="SS-regex"></a>SL.regex: Regex
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`<regex>` is the standard C++ regular experssion library.
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It supports a variety of regular exprssion pattern conventions.
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`<regex>` is the standard C++ regular expression library.
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It supports a variety of regular expression pattern conventions.
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## <a name="SS-chrono"></a>SL.chrono: Time
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##### Enforcement
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Flag all occurences of `longjmp`and `setjmp`
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Flag all occurrences of `longjmp`and `setjmp`
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@ -19531,9 +19535,9 @@ Use literal suffixes where clarification is needed
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###### Note
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Literals should not be springled all over the code as ["magic constants'](#Res-magic),
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Literals should not be sprinkled all over the code as ["magic constants"](#Res-magic),
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but it is still a good idea to make them readable where they are defined.
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It is easy to make a yypo in a long string of integers.
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It is easy to make a typo in a long string of integers.
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###### Enforcement
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\[Meyers15]: S. Meyers. Effective Modern C++ (O'Reilly, 2015).
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* <a name="Murray93"></a>
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\[Murray93]: R. Murray. C++ Strategies and Tactics (Addison-Wesley, 1993).
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* <a name="Stroustrup94"></a>
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* <a name="Stroustrup94"></a>
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\[Stroustrup94]: B. Stroustrup. The Design and Evolution of C++ (Addison-Wesley, 1994).
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* <a name="Stroustrup00"></a>
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\[Stroustrup00]: B. Stroustrup. The C++ Programming Language (Special 3rdEdition) (Addison-Wesley, 2000).
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@ -44,6 +44,7 @@ args
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arr2
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arrayindex
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ASIC
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asio
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AST
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async
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BDE
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@ -57,6 +58,7 @@ bool
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buf
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bufmax
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C1
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C11
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C2
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callees
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callers'
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@ -100,6 +102,7 @@ CppCon
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CRTP
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cst
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cstdarg
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cstdio
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cstring
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cstylecast
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ctor
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