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travis CI and some typo fixes
had to drop runtime/printf from the checks because it bans strcpy
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@ -107,7 +107,7 @@ You can sample rules for a specific language feature:
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[`throw`](Re-throw) --
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[for errors only](#Re-errors) --
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[`noexcept`](#Re-noexcept) --
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[mimize `try`](#Re-catch) --
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[minimize `try`](#Re-catch) --
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[what if no exceptions?](#Re-no-throw-codes)
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* `for`:
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[range-for and for](#Res-for-range) --
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@ -10481,11 +10481,11 @@ consider `gsl::finally()` as a cleaner and more reliable alternative to `goto ex
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##### Alternative
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Often, a loop that requires a `break` is a god candidate for a function (algorithm), in which case the `break` becomes a `return`.
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Often, a loop that requires a `break` is a good candidate for a function (algorithm), in which case the `break` becomes a `return`.
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???
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Often. a loop that that uses `continue` can equivalently and as clearly be expressed by an `if`-statement.
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Often. a loop that uses `continue` can equivalently and as clearly be expressed by an `if`-statement.
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???
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@ -10543,7 +10543,7 @@ In C++17, use a `[[fallthrough]]` annotation:
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break;
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case Warning:
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write_event_log();
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[[fallthrough]] // C++17
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[[fallthrough]]; // C++17
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case Error:
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display_error_window(); // Bad
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break;
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@ -10586,7 +10586,7 @@ Flag all fallthroughs from non-empty `case`s.
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do_something_else();
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break;
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default:
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take_the default_action();
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take_the_default_action();
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break;
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}
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}
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@ -10613,7 +10613,7 @@ In that case, have an empty default or else it is impossible to know if you mean
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}
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}
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If you leave out the `default`, a maintainer and or a compiler may reasonably assume that you intended to handle all cases:
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If you leave out the `default`, a maintainer and/or a compiler may reasonably assume that you intended to handle all cases:
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void f2(E x)
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{
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@ -13668,7 +13668,7 @@ That's even simpler and safer, and often more efficient.
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##### Note
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If there is no obvious resource handle and for some reason defining a proper RAII objct/handle is infeasible,
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If there is no obvious resource handle and for some reason defining a proper RAII object/handle is infeasible,
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as a last resort, cleanup actions can be represented by a [`final_action`](#Re-finally) object.
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##### Note
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@ -17200,23 +17200,23 @@ If you have a good reason to use another container, use that instead. For exampl
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Text manipulation is a huge topic.
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`std::string` doesn't cover all of it.
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This section primarily tries to clarify `std::string`'s relation to `char*`, `zstring`, `string_view`, and `gsl::string_span`.
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The important issue of non-ASCII charactersets and encodings (e.g., `wchar_t`, unicode, and UTF-8) will be covered elswhere.
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The important issue of non-ASCII character sets and encodings (e.g., `wchar_t`, Unicode, and UTF-8) will be covered elsewhere.
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See also [regular expressions](#SS-regex).
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Here, we use "sequence of characters" or "string" to refer to a sequence of charaters meant to be read as text (somehow, eventually).
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Here, we use "sequence of characters" or "string" to refer to a sequence of characters meant to be read as text (somehow, eventually).
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We don't consider
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String summary:
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* [SL.str.1: Use `std::string` to own character sequences](#Rstr-string)
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* [SL.str.2: Use `std::string_view` or `gsl::string_span` to refer to character sequences](#Rstr-view)
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* [SL.str.3: Use `zstring` or `czstring` to refere to a C-style, zero-terminated, sequence of characters](#Rstr-zstring)
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* [SL.str.3: Use `zstring` or `czstring` to refer to a C-style, zero-terminated, sequence of characters](#Rstr-zstring)
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* [SL.str.4: Use `char*` to refer to a single character](#Rstr-char*)
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* [Sl.str.5: Use `std::byte` to refer to byte values that do not necessarily represent characters](#Rstr-byte)
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* [Sl.str.10: Use `std::string` when you need to perform locale-sensitive sting operations](#Rstr-locale)
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* [Sl.str.11: Use `gsl::string_span` rather than `std::view` when you need to mutate a string](#Rstr-span)
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* [Sl.str.11: Use `gsl::string_span` rather than `std::string_view` when you need to mutate a string](#Rstr-span)
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* [Sl.str.12: Use the `s` suffix for string literals meant to be standard-library `string`s](#Rstr-s)
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See also
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@ -17236,12 +17236,12 @@ See also
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vector<string> read_until(const string& terminator)
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{
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vector<string> res;
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for (string s; cin>>s && s!=terminator; ) // read a word
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for (string s; cin >> s && s != terminator; ) // read a word
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res.push_back(s);
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return res;
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}
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Note how `>>` and `!=` are provided for `string` (as examples of a useful operations) and there there are no explicit
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Note how `>>` and `!=` are provided for `string` (as examples of useful operations) and there are no explicit
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allocations, deallocations, or range checks (`string` takes care of those).
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In C++17, we might use `string_view` as the argument, rather than `const string *` to allow more flexibility to callers:
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vector<string> read_until(string_view terminator) // C++17
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{
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vector<string> res;
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for (string s; cin>>s && s!=terminator; ) // read a word
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for (string s; cin >> s && s != terminator; ) // read a word
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res.push_back(s);
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return res;
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}
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vector<string> read_until(string_span terminator)
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{
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vector<string> res;
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for (string s; cin>>s && s!=terminator; ) // read a word
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for (string s; cin >> s && s != terminator; ) // read a word
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res.push_back(s);
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return res;
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}
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@ -17274,9 +17274,9 @@ Don't use C-style strings for operations that require non-trivial memory managem
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int l1 = strlen(s1);
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int l2 = strlen(s2);
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char* p = (char*)malloc(l1+l2+2);
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strcpy(p,s1,l1);
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strcpy(p, s1, l1);
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p[l1] = '.';
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strcpy(p+l1+1,s2,l2);
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strcpy(p+l1+1, s2, l2);
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p[l1+l2+1] = 0;
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return res;
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}
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@ -17321,20 +17321,20 @@ those sequences are allocated and stored.
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???
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### <a name="Rstr-zstring"></a>SL.str.3: Use `zstring` or `czstring` to refere to a C-style, zero-terminated, sequence of characters
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### <a name="Rstr-zstring"></a>SL.str.3: Use `zstring` or `czstring` to refer to a C-style, zero-terminated, sequence of characters
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##### Reason
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Readability.
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Statement of intent.
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A plain `char*` can be a pointer to a single character, a pointer to an arry of characters, a pointer to a C-style (zero terminated) string, or event to a small integer.
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A plain `char*` can be a pointer to a single character, a pointer to an array of characters, a pointer to a C-style (zero terminated) string, or even to a small integer.
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Distinguishing these alternatives prevents misunderstandings and bugs.
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##### Example
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void f1(const char* s); // s is probably a string
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All we know is that it is supposet ot bet the nullptr or point to at least one character
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All we know is that it is supposed to be the nullptr or point to at least one character
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void f1(zstring s); // s is a C-style string or the nullptr
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void f1(czstring s); // s is a C-style string that is not the nullptr
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##### Note
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Linke any other "plain pointer", a `zstring` should not represent ownership.
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Like any other "plain pointer", a `zstring` should not represent ownership.
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##### Note
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There are billions of lines of C++ "out there", most use `char*` and `const char*` without documenting intent.
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They are use in a wide varity of ways, including to represent ownership and as generic pointers to memory (instead of `void*`).
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They are used in a wide variety of ways, including to represent ownership and as generic pointers to memory (instead of `void*`).
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It is hard to separate these uses, so this guideline is hard to follow.
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This is one of the major sources of bugs in C and C++ programs, so it it worth while to follow this guideline wherever feasible..
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This is one of the major sources of bugs in C and C++ programs, so it is worthwhile to follow this guideline wherever feasible..
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##### Enforcement
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##### Reason
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Use of `char*` to represent a pinter to something that is not necessarily a character cause confusion
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and disable valuable optimizations.
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Use of `char*` to represent a pointer to something that is not necessarily a character causes confusion
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and disables valuable optimizations.
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##### Example
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##### Reason
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`std::string` support standard-library [`locale` facilities](#Rstr-locale)
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`std::string` supports standard-library [`locale` facilities](#Rstr-locale)
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##### Example
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##### Enforcement
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???
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### <a name="Rstr-span"></a>Sl.str.11: Use `gsl::string_span` rather than `std::view` when you need to mutate a string
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### <a name="Rstr-span"></a>Sl.str.11: Use `gsl::string_span` rather than `std::string_view` when you need to mutate a string
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##### Reason
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##### Enforcement
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The compile will flag attempts to write to a `string_view`.
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The compiler will flag attempts to write to a `string_view`.
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### <a name="Rstr-s"></a>Sl.str.12: Use the `s` suffix for string literals meant to be standard-library `string`s
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@ -17454,10 +17454,10 @@ Direct expression of an idea minimizes mistakes.
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##### Example
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auto pp1 = make_pair("Tokyo",9.00); // {C-style string,double} intended?
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pair<string,double> pp2 = {"Tokyo",9.00}; // a bit verbose
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auto pp3 = make_pair("Tokyo"s,9.00); // {std::string,double} // C++17
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pair pp4 = {"Tokyo"s,9.00}; // {std::string,double} // C++17
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auto pp1 = make_pair("Tokyo", 9.00); // {C-style string,double} intended?
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pair<string, double> pp2 = {"Tokyo", 9.00}; // a bit verbose
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auto pp3 = make_pair("Tokyo"s, 9.00); // {std::string,double} // C++17
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pair pp4 = {"Tokyo"s, 9.00}; // {std::string,double} // C++17
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##### Note
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// ... some stuff ...
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if (x<i) {
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if (x < i) {
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// ...
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i= f(x,d);
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i = f(x, d);
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}
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if (i<x) {
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if (i < x) {
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// ...
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i = g(x,c);
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i = g(x, c);
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}
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return i;
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}
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Whatever strategy for gradual adoption we adopt, we need to be able to apply sets of related guidelines to address some set
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of problems first and leave the rest until later.
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A similar idea of "related guidelines" become important when some, but not all, guidelines are considered relevant to a code base
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or if a set of specialized guidelines are to be applied for a specialized application area.
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A similar idea of "related guidelines" becomes important when some, but not all, guidelines are considered relevant to a code base
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or if a set of specialized guidelines is to be applied for a specialized application area.
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We call such a set of related guidelines a "profile".
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We aim for such a set of guidelines to be coherent so that they together help us reach a specific goal, such a "absence of range errors"
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We aim for such a set of guidelines to be coherent so that they together help us reach a specific goal, such as "absence of range errors"
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or "static type safety."
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Each profile is designed to eliminate a class of errors.
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Enforcement of "random" rules in isolation is more likely to be disruptive to a code base than delivering a definite improvement.
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* narrowing arithmetic promotions/conversions (likely part of a separate safe-arithmetic profile)
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* arithmetic cast from negative floating point to unsigned integral type (ditto)
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* selected undefined behavior: Start with Gaby Dos Reis's UB list developed for the WG21 study group
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* selected unspecified behavior: Addessing portability concerns.
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* `const` violations: Mostly done by compilers already, but we can catch inappropriate casting and underuse of `cost`.
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* selected unspecified behavior: Addressing portability concerns.
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* `const` violations: Mostly done by compilers already, but we can catch inappropriate casting and underuse of `const`.
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To suppress enforcement of a profile check, place a `suppress` annotation on a language contract. For example:
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With the type-safety profile you can trust that every operation is applied to a valid object.
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Exception may be thrown to indicate errors that cannot be detected statically (at compile time).
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Note that this type-safety can be complete only if we also have [Bounds safety](#SS-bounds) and [Lifetime safety](#SS-lifetime).
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Without those guarantees, a region of memory could be accesses independently which object, objects, or parts of objects are stored in it.
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Without those guarantees, a region of memory could be accessed independent of which object, objects, or parts of objects are stored in it.
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### <a name="Pro-type-reinterpretcast"></a>Type.1: Don't use `reinterpret_cast`.
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@ -396,6 +396,7 @@ RegularFunction
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reimplement
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reinterpretcast
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Reis
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Reis's
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Renum
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reseat
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reseating
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@ -415,6 +416,7 @@ Rper
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Rr
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RRconc
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Rsl
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Rstr
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RTTI
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rvalue
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rvalues
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@ -509,6 +511,7 @@ typesafe
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UB
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unaliased
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uncompromised
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underuse
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undetached
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unencapsulated
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unenforceable
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@ -519,6 +522,7 @@ unittests
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unnamed2
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use1
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users'
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UTF
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util
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v1
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va
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@ -543,6 +547,7 @@ vr
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vtbls
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vv
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w0
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wchar
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webby
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Webcolor
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webcolors
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@ -3,7 +3,7 @@ import cpplint
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import sys
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def main():
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FILTERS='cpplint --verbose=0 --linelength=100 --filter=-legal/copyright,-build/include_order,-build/c++11,-build/namespaces,-build/class,-build/include,-build/include_subdir,-readability/inheritance,-readability/function,-readability/casting,-readability/namespace,-readability/alt_tokens,-readability/braces,-readability/fn_size,-whitespace/comments,-whitespace/braces,-whitespace/empty_loop_body,-whitespace/indent,-whitespace/newline,-runtime/explicit,-runtime/arrays,-runtime/int,-runtime/references,-runtime/string,-runtime/operator'.split(' ')
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FILTERS='cpplint --verbose=0 --linelength=100 --filter=-legal/copyright,-build/include_order,-build/c++11,-build/namespaces,-build/class,-build/include,-build/include_subdir,-readability/inheritance,-readability/function,-readability/casting,-readability/namespace,-readability/alt_tokens,-readability/braces,-readability/fn_size,-whitespace/comments,-whitespace/braces,-whitespace/empty_loop_body,-whitespace/indent,-whitespace/newline,-runtime/explicit,-runtime/arrays,-runtime/int,-runtime/references,-runtime/string,-runtime/operator,-runtime/printf'.split(' ')
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result = False
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files = sys.argv[1:]
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