ID Summary State Reported In Release Target Release Workaround Release Notes
CODEGEN-4329 Initializing unordered_map with an initializer_list fails with -o2 or higher Open MSP430_18.12.0.LTS The following code prints out 'wg size 1', instead of 'wg size 3', which is the expected value: #include <unordered_map> #include <initializer_list> int main(void) { const std::pair<const long, wchar_t> wp0(0, L'i'), wp1(1, L'm'), wp2(2, L'p'); std::initializer_list<std::unordered_map<long, wchar_t>::value_type> winit { wp0, wp1, wp2 }; std::unordered_map<long, wchar_t> wg(winit); printf("wg size %zu\n", wg.size()); }
CODEGEN-4323 MSP430 floating point calculation is inconsistent Open MSP430_18.12.0.LTS
CODEGEN-4318 libcxx/include/random uses unsigned for unsigned long Open MSP430_18.12.0.LTS LIBCXX/libcxx/include/random shown below uses unsigned instead of unsigned long for the "32" bit case of __lce_ta: // 32 template <unsigned long long _Ap, unsigned long long _Cp, unsigned long long _Mp> struct __lce_ta<_Ap, _Cp, _Mp, (unsigned long)(~0), true> { typedef unsigned long result_type; ... armcl/clang both compile with no errors. msp430, however, has 16bit "unsigned" and fails with below error due to above issue where "unsigned" is used for 32 bit. It should use unsigned long instead: "random", line 1890: error: incomplete type is not allowed detected during: instantiation of "std::__2::linear_congruential_engine<_UIntType, __a, __c, __m>::result_type std::__2::linear_congruential_engine<_UIntType, __a, __c, __m>::operator()() [with _UIntType=uint_fast32_t, __a=40014UL, __c=0UL, __m=2147483563UL]" at line 2651 instantiation of "void std::__2::subtract_with_carry_engine<_UIntType, __w, __s, __r>::seed(std::__2::subtract_with_carry_engine<_UIntType, __w, __s, __r>::result_type, std::__2::integral_constant<unsigned int, 1U>) [with _UIntType=uint_fast32_t, __w=24UL, __s=10UL, __r=24UL]" at line 2576 Tests compile and pass if above __lce_ta is changed for 32bit case from unsigned to unsigned long.
CODEGEN-4305 Compiler aborts with excessive inlining of C++ functions Open MSP430_18.12.0.LTS
CODEGEN-4304 runtime failure on unaligned access (on some processor variants, not all) Open MSP430_18.12.0.LTS The following code results in an unaligned access failure in the ARM simulator when compiled with: armcl -mv5e -me --float_support=vfpv2 #include <map> #include <stdio.h> int main(void) { std::map<int, char>::size_type n=9; std::map<int, char> g; char s[] = "contrived"; for (int i=0; i<n; i++) { char k = s[i]; std::pair<const int, char> p((int)k, k); g.insert(p); } int i00 = 0; std::map<int, char>::iterator it00 = g.begin(); printf("start for loop\n"); while (it00++ != g.end()) { printf("iteration %d\n", i00++); } printf("out of for loop\n"); return (1); }
CODEGEN-4297 Cannot take the address of std::ctype<char>::table_size Open MSP430_18.12.0.LTS This is a defect in the library. The table_size field is declared as having a constant value in the class definition, but there is no one definition for the field in the library. Taking the address of this field will result in a link-time error.
CODEGEN-4281 Unexpected type returned by bitset [] operator Open MSP430_18.12.0.LTS The operator[] definition for std::bitset returns a const reference to an internally defined class type, rather than a bool as required by C++14 section 20.6.2
CODEGEN-4276 std::multimap::clear is not noexcept Open MSP430_18.12.0.LTS The library does not declare std::multimap::clear as noexcept, which is required by C++14 section paragraph 2
CODEGEN-4275 std::num_get does not parse floating-point strings correctly Open MSP430_18.12.0.LTS The C++ library locale helper, std::num_get, currently fails to correctly parser floating-point values in strings and streams. These calculations will always result in the default value of 0.0 for doubles, and 0.0f for floats. Please use the C library equivalents, such as sprintf, to perform such operations.
CODEGEN-4259 noexcept(typeid(d)) runtime fail on polymorphic class type Open MSP430_18.12.0.LTS
CODEGEN-4258 deeply nested lambda functions hang the codegen Open MSP430_18.12.0.LTS
CODEGEN-4248 armcl allows non-default arguments to be specified after default arguments Open MSP430_18.12.0.LTS The following code should emit a syntax error due to the specification of a second, non-defaulted argument after a defaulted argument. However, the compiler will abort with an internal error. extern void foo(int, int); void f() { auto l = [](int i=1, int j) { foo(i, j); }; l(); }
CODEGEN-4247 Internal error when assigning default arguments to a parameter pack Open MSP430_18.12.0.LTS The C++14 standard explicitly prohibits assigning default arguments to a template parameter pack. However, the compile accepts such code silently, and may result in an internal error during compilation. template <class... Types> void f(Types... args) { auto lm = [](Types... = args...) {}; lm(10); // internal error here } int main() { f(1, 23); return 0; }
CODEGEN-4245 Multiple non-variables may be declared using auto or decltype(auto) Open MSP430_18.12.0.LTS C++14 Section paragraph 8 states that if multiple declarators are on the same line as an auto or decltype(auto) specifying, they must all be variable declarations. However, our implementation does not enforce this requirement, allowing constructs of the following form: auto f(void)->int, g(void)->char;
CODEGEN-4234 No error generated for lambda-expression in default argument cannot capture any entity. Open MSP430_18.12.0.LTS
CODEGEN-4158 TI compiler does not emit clang error: constexpr function never produces a constant expression Open MSP430_18.12.0.LTS
CODEGEN-4157 error with using constexpr for return from end() with empty std::initializer_list Open MSP430_18.12.0.LTS
CODEGEN-4132 cannot find matching "==" operator definition Open MSP430_18.12.0.LTS The library does not provide an definition of std::operator== for arguments of type std::istream_iterator. That is, the following code is erroneously marked as ill-formed with a diagnostic: #include <iterator> #include <string> using ISTREAM_ITER_C = std::istream_iterator<char, char>; bool foo(const ISTREAM_ITER_C& arg00 ,const ISTREAM_ITER_C& arg01 ){ return std::operator== (arg00, arg01); // Syntax error } However, this is only an issue if called in exactly that way. Using it as an operator, rather than as a function call, works as expected: arg00 == arg01 // Works
CODEGEN-4124 Failure to defer access control checks Open MSP430_18.12.0.LTS
CODEGEN-4122 decltype cannot be used as a destructor name Open MSP430_18.12.0.LTS
CODEGEN-4119 user-supplied allocator function is not called Open MSP430_18.12.0.LTS
CODEGEN-4099 Composing operations for valarray may fail to compile Open MSP430_18.12.0.LTS Due to a potential implementation issue in the libc++ library, utilizing the valarray class and composing a result via multiple operations may fail. For example: const std::valarray<float> cl(6); std::slice arg1(0,0,0); std::slice slice(0,0,0); cl[arg1][slice]; // Compilation error!
CODEGEN-4090 Unimplemented core issue 475: std::uncaught_exception is not true when constructing the thrown object Open MSP430_18.12.0.LTS In the code below, std::uncaught_exception should be true when constructing the A object that is constructed to be propagated to the catch block. The current implementation returns false. #include <exception> #include <assert.h> struct A { int i; A() : i(0) {} A(const A&) : i(std::uncaught_exception() ? 5 : 0) {} ~A() { } }; int main() { try { A a; assert(a.i == 0); throw a; } catch (A a) { assert(a.i == 5); // Fails } }
CODEGEN-4087 wostringstream::fill(WCHAR_MAX) incorrectly sets the fill value to ' 'L. Accepted MSP430_18.12.0.LTS
CODEGEN-4076 Exception propagating out of noexcept function does not call std::terminate Open MSP430_18.12.0.LTS
CODEGEN-4072 Unimplemented core issue 1769: Catching a thrown derived class by reference to base clas Open MSP430_18.12.0.LTS Core 1769, involving a resolution which states that derived classes can be thrown and caught by catch clauses denoting an unambiguous base, has not been implemented. #include <assert.h> struct BaseClass { int i; BaseClass() : i(0) { } BaseClass(int ii) : i(ii) { } BaseClass(const BaseClass& r) : i(r.i) { } }; class DerivedClass : BaseClass { int ib; public: DerivedClass(const DerivedClass& r) : BaseClass(r.ib), ib(r.ib) { } DerivedClass(const BaseClass&) : BaseClass(999), ib(999) { } DerivedClass(int ii); }; DerivedClass thrown_base (1); DerivedClass::DerivedClass(int ii) : BaseClass(ii), ib(ii) { } int main() { try { throw thrown_base; return 999; } catch(const BaseClass &k) { } catch(...) { assert(false); } // Assertion fails at runtime due to core issue 1769 return 0; }
CODEGEN-4071 <regex> never throws error_ctype Open MSP430_18.12.0.LTS Due to an implementation detail, the <regex> header will never throw an exception corresponding to std::regex_constants::error_ctype. This can be exhibited from the below code sample: #include <regex> int main(void) { try { std::regex e("[[:not_a_class:]]", std::regex_constants::ECMAScript); std::regex_match("a", e); } catch(std::regex_error e){ // e.code() will not be std::regex_constants::error_ctype } return 0; }
CODEGEN-4069 std::linear_congruential_engine doesn't support 8-bit results Open MSP430_18.12.0.LTS Instantiations of std::linear_congruential_engine are only support for types between 64 and 16 bits. Therefore, on ARM and MSP430, the 'unsigned char' type is not supported.
CODEGEN-4044 libcxx istreambuf_iterator points to end of string instead of character past match Open MSP430_18.12.0.LTS The C++11 standard says that the "iterator is always left pointing one position beyond the last character successfully matched." In this case, that's after zero characters, so the iterator should point to the first character, just as the test expects. However, libcxx doesn't do this; it returns the pointer to the end of the string, which is indeed composed of characters that might match a (hex) float, but that's not the final word. The libc++ code has advanced the iterator to "end," which it should not have done because the input sequence did not match. The test case expects the match to fail, leaving an iterator pointing to something other than "end," and it dereferences the iterator; because the iterator is actually "end", we get a NULL pointer dereference and hilarity ensues. I claim this is a flaw in the the libc++ implementation. cutdown test case: #include <locale> #include <sstream> typedef std::char_traits<char> test1; typedef std::istreambuf_iterator<char, test1> istr_it; struct mynum : public std::num_get<char, istr_it> { iter_type my_do_get(iter_type first, iter_type last, std::ios_base& str, std::ios_base::iostate& st, bool& val) const { return (do_get(first, last, str, st, val)); } }; int main() { mynum my_num_get; std::ios_base::iostate st = std::ios_base::goodbit; std::istringstream istr("abcdef"); istr_it first(istr.rdbuf()), last; st = std::ios_base::goodbit; double dv = 0; if(*(first = my_num_get.get(first, last, istr, st, dv)) == 'a') return 1; }
CODEGEN-4035 Compiler allows constant subtraction between pointers to different objects Open MSP430_18.12.0.LTS The compiler allows the following code without error: struct STR { constexpr STR(): arr1{1,2}, arr2{3,4} {}; const char arr1[2]; const char arr2[2]; }; const struct STR str; constexpr char const *ptr1 = str.arr1; constexpr char const *ptr3 = str.arr2; constexpr int diff2 = ptr3 - ptr1; The definition of diff2 subtracts pointers to different objects, and should be disallowed.
CODEGEN-4026 Non-standard partial ordering of variadic template partial specialization Open MSP430_18.12.0.LTS
CODEGEN-4002 Undefined behavior on lambda capturing constexpr by reference Open MSP430_18.12.0.LTS
CODEGEN-4001 Unimplemented core issue 588: Unqualified name lookup examines dependent base class Open MSP430_18.12.0.LTS Similar to core issue 591 and CODEGEN-3963, this core issue resolves a lookup issue in a function template. In the following source code, the struct 'A' will examine the scope of the base class D<T> to resolve the unqualified reference to B, when the core issue resolution states that D<T> should be skipped and the B found in the function template 'g' should be used instead. struct B{ void f(int); }; template<class T> struct D: B { }; template<class T> void g() { struct B { void f(); }; struct A : D<T> { B m; }; A a; a.m.f(); // Presumably, we want ::g()::B::f(), not ::B::f(int) } int main () { g<int>(); return 0; }
CODEGEN-4000 Core 1601: Overload resolution for enum with fixed type Open MSP430_18.12.0.LTS Core issue 1601 states that the following code should call the overload of 'b' which takes a char argument, but the compiler chooses the int overload. enum A : char { a }; int b(char) { return 1; } int b(int) { return 999; } int main() { printf("%d\n", b(a)); }
CODEGEN-3999 Unimplemented core issue 1374: Conversion sequence ranks qualification before reference binding Open MSP430_18.12.0.LTS The following code will print B, when both gcc and clang print A. This is due to a resolution to core issue 1374, which reorders the rankings of conversion sequences such that qualification difference are accounted for after reference binding differences, rather than before. #include <stdio.h> typedef int * T1; typedef int *const T2; void foo(T1 &) { printf("A\n"); } // (1) void foo(T2 &&) { printf("B\n"); } // (2) int main() { foo((int *)0); // Normally prefers (2), but now prefers return 0; // (1) in GNU and Clang modes. }
CODEGEN-3998 Unimplemented core issue 1951: cv-qualified void and scalar types are not literal types Open MSP430_18.12.0.LTS The type_trait helper std::remove_cv can ensure that qualifications have been stripped when using std::is_literal_type. The std::is_literal_type template function from the type_traits helper will erroneously have a value of 'false' for cv-qualified void and scalar types.
CODEGEN-3993 Constant initialiation may take place before dynamic initialization Open MSP430_18.12.0.LTS In the following code, the rvalue reference 'br' will be initialized after the variable 'a', even though 'br' is constant initialized and 'a' is dynamically initialized. This ordering is required by C++14 Section 3.6.2 paragraph 2. extern int a; extern int f(); int a = f(); int&& br = 5; int f() { return br; } int main() { if (a != 5) return 1; return 0; }
CODEGEN-3966 slice_array assignment failures Open MSP430_18.12.0.LTS
CODEGEN-3965 Invalid conversion on static_cast from T1 to rvalue reference of T2 Open MSP430_18.12.0.LTS The following code results in a syntax error, while it is accepted by both gcc and clang. int main() { char c = 1; const int &&r = static_cast<const int&&>(c); return r; } As a workaround, 'c' may be cast to int. However, doing so will not bind reference r to the variable c.
CODEGEN-3964 Unimplemented core issue 1467: Overloads and initializations with single-element initializer_list Open MSP430_18.12.0.LTS This core issue has gone many iterations of fixes, and boils down to the issue of: void foo(int x); // #1 void foo(std::initializer_list<char> x); // #2 foo({23}); // Calls #1 or #2? The compiler currently calls #1, while gcc/clang both call #2.
CODEGEN-3963 Unimplemented core issue 591: Name lookup in dependent base class that is also the current instantiation Open MSP430_18.12.0.LTS The following code currently results in an error because the reference to B in the definition of A_<T>::C:: D is resolved to be C::B, which is void. Core issue 591 resolves this reference to A_<T>::B, which is int. template<class T> struct A_ { typedef int B; struct C { typedef void B; struct D; }; }; template<class T> struct A_<T>::C::D : A_<T> { B b; };
CODEGEN-3962 Core Issue 1804 unimplemented: friend declaration does not apply to class template specializations Open MSP430_18.12.0.LTS The compiler does not yet implement the resolution to core issue 1804 involving template friend declarations applying to specializations of a class template. In the following code sample, a member of class C is inaccessible through a template friend declaration when the associated class template is a specialization. class C_; // Class template template<class T> struct A_ { int f(const C_&); struct D { int g() { return 8; } }; }; // Specialization template<> struct A_<int> { int f(const C_&); struct D { int g() { return 18; } }; }; class C_ { template<class T> friend int A_<T>::f(const C_&); // friend declaration int member; public: C_(int i) : member(i) { } }; template<class U> int A_<U>::f(const C_& c) { return c.member; } // Not specialized, C::member is accessible int A_<int>::f(const C_& c) { return 10+c.member; } // Specialized, C::member is inaccessible
CODEGEN-3961 Pack expansion in template parameter list fails Open MSP430_18.12.0.LTS
CODEGEN-3951 Spurious error on bypassing initialization of trivially constructible objects Open MSP430_18.12.0.LTS
CODEGEN-3948 Spurious syntax error on alignas in alias declaration Open MSP430_18.12.0.LTS In the following code, the 'alignas' attribute on the declaration of s1a is marked as a syntax error, even though the C++ 14 grammar explicitly allows it. namespace a_ { struct alignas(0) s1 { int i; }; } int main() { using s1a alignas(0) = a_::s1; } Furthermore, alignas will currently be ignored in relaxed mode or marked as an error in strict mode if used to specify the alignment of an enumeration type or a lambda object.
CODEGEN-3947 Spurious error on unevaluated use of undefined constexpr function Open MSP430_18.12.0.LTS
CODEGEN-3946 Spurious error on global qualifier of struct template Open MSP430_18.12.0.LTS
SDSCM00052531 Incorrect value assigned to a forward reference of a symbol defined in terms of the section's PC ($) after jump expansion Open MSP430_18.12.0.LTS Two workarounds are possible: 1) Use a label to get the value of the PC at a key location instead of "symbol .equ $" 2) Replace the jump that will be expanded with an already expanded form. In the example, the jump could be replaced with: JLO $+6 BR label1
CODEGEN-1295 MSP430 RTS rint() double routines failing for some inputs Open MSP430_18.12.0.LTS Avoid using the rint() RTS routines with double arguments and instead use the corresponding rint() float routines. MSP430 RTS routines rint() rintl() lrint() lrintl() llrint() llrintl() failing for some inputs with double arguments.
SDSCM00051908 Print a more friendly message when using a lnk.cmd with too large memory Accepted MSP430_18.12.0.LTS
SDSCM00050131 Local struct with non-constant initializer treated as static scope variable Planned MSP430_18.12.0.LTS
SDSCM00049280 Ill advised enum scalar usage gets MISRA diagnostic, but similar usage of enum array does not Open MSP430_18.12.0.LTS
SDSCM00049278 Array that is correctly initialized erroneously gets a MISRA diagnostic about size not being specified Open MSP430_18.12.0.LTS
SDSCM00047833 msp C++ cpp compiled with printf_support=minimal causes cout to output incorrect results Accepted MSP430_18.12.0.LTS Instead either compile without --printf_support, or choose options nofloat or full.
SDSCM00046695 Floating point addition rounding error Accepted MSP430_18.12.0.LTS
SDSCM00046115 MSP430 RTS float arithmetic functions do not round correctly Open MSP430_18.12.0.LTS
SDSCM00046113 C2000 RTS float arithmetic functions do not round correctly Open MSP430_18.12.0.LTS
SDSCM00044526 Compiler emits bogus DW_OP_reg16 for split argument Accepted MSP430_18.12.0.LTS
SDSCM00040934 Structure is not initialized correctly when using -o2 or -o3 optimization Accepted MSP430_18.12.0.LTS The initialization will have to be done at run-time, through a __sti initialization routine. You can see this routine when compiling without optimization. To workaround the compiler removing this initialization routine, initialize the object at the beginning of main: Info2.mSize = ((unsigned)_end_isr_stack - (unsigned)_start_isr_stack);
SDSCM00038293 Relocation overflows for BIT instruction using 20-bit pointer Accepted MSP430_18.12.0.LTS
SDSCM00038178 Should forbid non-const objects larger than 64k in large model if --near_data=globals Accepted MSP430_18.12.0.LTS
SDSCM00018691 Linker gives misleading warning when dot expressions used in SECTION directive for .stack section Accepted MSP430_18.12.0.LTS
SDSCM00008685 DWARF does not correctly represent variables stored in register pairs Planned MSP430_18.12.0.LTS Although 'var1' and 'var2' are shown to be in single registers, a debugger could determine that they are actually stored in register pairs by looking at the type of the variables: [00000113] DW_TAG_base_type DW_AT_name long long DW_AT_encoding 0x5 DW_AT_byte_size 0x8 The base type indicates that the size of the variables is 0x8 bytes. Since a single register can only store 0x4 bytes of information, it would take two registers to hold this values. On TI architectures, values stored in multiple registers are always stored in consecutive registers. Thus, the debugger would know that if the entire value could not fit in A4, the rest of the value must be in A5. A5 would contain the upper 32 bits of the value.
SDSCM00008652 pow(2,x) has fairly significant rounding error Accepted MSP430_18.12.0.LTS Please describe the workaround for this problem.
SDSCM00008630 printf gives wrong value for pointer when its value is incremented Open MSP430_18.12.0.LTS To get rid of the warning message modify the printf statement as follows: printf('0x%lx\n', 0x10000 + (t=(long int)&global_var)); This modified code executes correctly too.
SDSCM00008543 Forward reference in .space generates an internal error Accepted MSP430_18.12.0.LTS none
SDSCM00008248 Compilers on PC will not work without TMP set Accepted MSP430_18.12.0.LTS Set the TMP environment variable, even if just set to . (current directory)

Generated on Sat Dec 15 11:40:13 2018