; assembly | /* r2dec pseudo code output */ | /* bdlcc_deque.t/assume @ 0x4b87a0 */ | #include | ; (fcn) method.int_BloombergLP::bslmt::ThreadUtil::createWithAllocator_TEST_CASE_10.EmptyDequeFunctor__unsigned_long__TEST_CASE_10::EmptyDequeFunctor_const__BloombergLP::bslma::Allocator_ () | int64_t method_int_BloombergLP::bslmt::ThreadUtil::createWithAllocator_TEST_CASE_10_EmptyDequeFunctor_unsigned_long_TEST_CASE_10::EmptyDequeFunctor_const_BloombergLP::bslma::Allocator_ (int64_t arg3, char * arg2, int64_t arg1) { | int64_t var_8h; | int64_t var_20h; | uint32_t var_40h; | int64_t var_48h; | rdx = arg3; | rsi = arg2; | rdi = arg1; | /* int BloombergLP::bslmt::ThreadUtil::createWithAllocator(unsigned long*, TEST_CASE_10::EmptyDequeFunctor const&, BloombergLP::bslma::Allocator*) */ 0x004b87a0 push rbp | 0x004b87a1 push r15 | 0x004b87a3 push r14 | 0x004b87a5 push r12 | 0x004b87a7 push rbx | 0x004b87a8 sub rsp, 0x50 | 0x004b87ac mov r14, rdx | r14 = rdx; 0x004b87af mov rbp, rsi | 0x004b87b2 mov r12, rdi | r12 = rdi; 0x004b87b5 mov rax, qword [rdx] | rax = *(rdx); 0x004b87b8 mov esi, 0x58 | esi = 0x58; 0x004b87bd mov rdi, rdx | rdi = rdx; 0x004b87c0 call qword [rax + 0x10] | rax = uint64_t (*rax + 0x10)(void, void, void, void) (rbx, r12, r14, r15); 0x004b87c3 mov rbx, rax | rbx = rax; 0x004b87c6 mov qword [rax], 0x4b8940 | *(rax) = method.BloombergLP::bslmt::EntryPointFunctorAdapter_TEST_CASE_10::EmptyDequeFunctor_.invokerFunction_void_; 0x004b87cd lea r15, [rax + 8] | r15 = rax + 8; 0x004b87d1 movups xmm0, xmmword [rbp] | __asm ("movups xmm0, xmmword [rbp]"); 0x004b87d5 movups xmm1, xmmword [rbp + 0x10] | __asm ("movups xmm1, xmmword [rbp + 0x10]"); 0x004b87d9 movups xmmword [rax + 8], xmm0 | __asm ("movups xmmword [rax + 8], xmm0"); 0x004b87dd movups xmmword [rax + 0x18], xmm1 | __asm ("movups xmmword [rax + 0x18], xmm1"); 0x004b87e1 lea rdi, [rax + 0x28] | 0x004b87e5 mov qword [rax + 0x28], 0 | *((rax + 0x28)) = 0; 0x004b87ed mov qword [rax + 0x50], r14 | *((rax + 0x50)) = r14; 0x004b87f1 movaps xmm0, xmmword [rip + 0x2da98] | xmm0 = .comment; 0x004b87f8 movups xmmword [rax + 0x40], xmm0 | __asm ("movups xmmword [rax + 0x40], xmm0"); 0x004b87fc mov ecx, 0x4e90b0 | 0x004b8801 xor esi, esi | 0x004b8803 xor edx, edx | 0x004b8805 call 0x4c2e20 | bsl::basic_string,bsl::allocator>::privateAppend(char const*,unsigned long,char const*) (rax + 0x28, 0, 0, "string<...>::assign(i,j): string too long"); 0x004b880a lea rdi, [rsp + 8] | 0x004b880f call 0x4be750 | BloombergLP::bslmt::ThreadAttributes::ThreadAttributes() (rsp + 8); 0x004b8814 lea rsi, [rsp + 8] | 0x004b8819 mov edx, 0x4be2b0 | 0x004b881e mov rdi, r12 | 0x004b8821 mov rcx, rbx | 0x004b8824 call 0x4bec40 | eax = BloombergLP::bslmt::ThreadUtilImpl::create(unsigned long*,BloombergLP::bslmt::ThreadAttributesconst&,void*(*)(void*),void*) (r12, rsp + 8, sym.bslmt_EntryPointFunctorAdapter_invoker, rbx); 0x004b8829 mov ebp, eax | 0x004b882b cmp qword [rsp + 0x40], 0x17 | | if (*((rsp + 0x40)) != 0x17) { 0x004b8831 je 0x4b8843 | 0x004b8833 mov rsi, qword [rsp + 0x20] | rsi = *((rsp + 0x20)); 0x004b8838 mov rdi, qword [rsp + 0x48] | rdi = *((rsp + 0x48)); 0x004b883d mov rax, qword [rdi] | rax = *(rdi); 0x004b8840 call qword [rax + 0x18] | uint64_t (*rax + 0x18)() (); | } 0x004b8843 test ebp, ebp | | if (ebp != 0) { 0x004b8845 je 0x4b8878 | 0x004b8847 cmp qword [rbx + 0x48], 0x17 | | if (*((rbx + 0x48)) != 0x17) { 0x004b884c je 0x4b885c | 0x004b884e mov rsi, qword [rbx + 0x28] | rsi = *((rbx + 0x28)); 0x004b8852 mov rdi, qword [rbx + 0x50] | rdi = *((rbx + 0x50)); 0x004b8856 mov rax, qword [rdi] | rax = *(rdi); 0x004b8859 call qword [rax + 0x18] | uint64_t (*rax + 0x18)() (); | } 0x004b885c mov qword [rbx + 0x40], 0xffffffffffffffff | *((rbx + 0x40)) = 0xffffffffffffffff; 0x004b8864 mov rdi, r15 | 0x004b8867 call 0x476a40 | TEST_CASE_10::EmptyDequeFunctor::~EmptyDequeFunctor() (r15); 0x004b886c mov rax, qword [r14] | rax = *(r14); 0x004b886f mov rdi, r14 | rdi = r14; 0x004b8872 mov rsi, rbx | rsi = rbx; 0x004b8875 call qword [rax + 0x18] | uint64_t (*rax + 0x18)() (); | } 0x004b8878 mov eax, ebp | eax = ebp; 0x004b887a add rsp, 0x50 | 0x004b887e pop rbx | 0x004b887f pop r12 | 0x004b8881 pop r14 | 0x004b8883 pop r15 | 0x004b8885 pop rbp | 0x004b8886 ret | return rax; | }