; assembly | /* r2dec pseudo code output */ | /* bdlcc_singleconsumerqueue.t/assume @ 0x410240 */ | #include | ; (fcn) method.int_BloombergLP::bslmt::ThreadUtil::createWithAllocator_BloombergLP::bdlf::Bind_BloombergLP::bslmf.Nil__void____BloombergLP::bdlcc::SingleConsumerQueue_my_WorkData____BloombergLP::bdlf::Bind_BoundTuple1_BloombergLP::bdlcc::SingleConsumerQueue_my () | int64_t method_int_BloombergLP::bslmt::ThreadUtil::createWithAllocator_BloombergLP::bdlf::Bind_BloombergLP::bslmf_Nil_void_BloombergLP::bdlcc::SingleConsumerQueue_my_WorkData_BloombergLP::bdlf::Bind_BoundTuple1_BloombergLP::bdlcc::SingleConsumerQueue_my (int64_t arg4, int64_t arg3, uint32_t arg2, int64_t arg1) { | rcx = arg4; | rdx = arg3; | rsi = arg2; | rdi = arg1; | /* int BloombergLP::bslmt::ThreadUtil::createWithAllocator*), BloombergLP::bdlf::Bind_BoundTuple1*> > >(unsigned long*, BloombergLP::bslmt::ThreadAttributes const&, BloombergLP::bdlf::Bind*), BloombergLP::bdlf::Bind_BoundTuple1*> > const&, BloombergLP::bslma::Allocator*) */ 0x00410240 push rbp | 0x00410241 push r15 | 0x00410243 push r14 | 0x00410245 push r13 | 0x00410247 push r12 | 0x00410249 push rbx | 0x0041024a push rax | 0x0041024b mov r14, rcx | r14 = rcx; 0x0041024e mov r12, rdx | r12 = rdx; 0x00410251 mov r15, rsi | r15 = rsi; 0x00410254 mov qword [rsp], rdi | *(rsp) = rdi; 0x00410258 mov r13, qword [rsi + 0x30] | r13 = *((rsi + 0x30)); 0x0041025c cmp qword [rsi + 0x38], 0x17 | | if (*((rsi + 0x38)) != 0x17) { 0x00410261 je 0x410269 | 0x00410263 mov rbp, qword [r15 + 0x18] | rbp = *((r15 + 0x18)); 0x00410267 jmp 0x41026d | | } else { 0x00410269 lea rbp, [r15 + 0x18] | rbp = r15 + 0x18; | } 0x0041026d mov rax, qword [r14] | rax = *(r14); 0x00410270 mov esi, 0x48 | esi = 0x48; 0x00410275 mov rdi, r14 | rdi = r14; 0x00410278 call qword [rax + 0x10] | rax = uint64_t (*rax + 0x10)() (); 0x0041027b mov rbx, rax | rbx = rax; 0x0041027e mov qword [rax], 0x410390 | *(rax) = method.BloombergLP::bslmt::EntryPointFunctorAdapter_BloombergLP::bdlf::Bind_BloombergLP::bslmf.Nil__void____BloombergLP::bdlcc::SingleConsumerQueue_my_WorkData____BloombergLP::bdlf::Bind_BoundTuple1_BloombergLP::bdlcc::SingleConsumerQueue_my_WorkData_; 0x00410285 mov rax, qword [r12] | rax = *(r12); 0x00410289 mov qword [rbx + 8], rax | *((rbx + 8)) = rax; 0x0041028d mov rax, qword [r12 + 8] | rax = *((r12 + 8)); 0x00410292 mov qword [rbx + 0x10], rax | *((rbx + 0x10)) = rax; 0x00410296 lea rdi, [rbx + 0x18] | 0x0041029a mov qword [rbx + 0x18], 0 | *((rbx + 0x18)) = 0; 0x004102a2 mov qword [rbx + 0x40], r14 | *((rbx + 0x40)) = r14; 0x004102a6 movaps xmm0, xmmword [rip + 0x2c1d3] | xmm0 = .comment; 0x004102ad movups xmmword [rbx + 0x30], xmm0 | __asm ("movups xmmword [rbx + 0x30], xmm0"); 0x004102b1 mov ecx, 0x43d58b | 0x004102b6 mov rsi, rbp | 0x004102b9 mov rdx, r13 | 0x004102bc call 0x4184e0 | bsl::basic_string,bsl::allocator>::privateAppend(char const*,unsigned long,char const*) (rbx + 0x18, rbp, r13, "string<...>::assign(i,j): string too long"); 0x004102c1 mov edx, 0x415440 | 0x004102c6 mov rdi, qword [rsp] | 0x004102ca mov rsi, r15 | 0x004102cd mov rcx, rbx | 0x004102d0 call 0x415b10 | eax = BloombergLP::bslmt::ThreadUtilImpl::create(unsigned long*,BloombergLP::bslmt::ThreadAttributesconst&,void*(*)(void*),void*) (*(rsp), r15, sym.bslmt_EntryPointFunctorAdapter_invoker, rbx); 0x004102d5 mov ebp, eax | 0x004102d7 test eax, eax | | if (eax != 0) { 0x004102d9 je 0x410304 | 0x004102db cmp qword [rbx + 0x38], 0x17 | | if (*((rbx + 0x38)) != 0x17) { 0x004102e0 je 0x4102f0 | 0x004102e2 mov rsi, qword [rbx + 0x18] | rsi = *((rbx + 0x18)); 0x004102e6 mov rdi, qword [rbx + 0x40] | rdi = *((rbx + 0x40)); 0x004102ea mov rax, qword [rdi] | rax = *(rdi); 0x004102ed call qword [rax + 0x18] | uint64_t (*rax + 0x18)() (); | } 0x004102f0 mov qword [rbx + 0x30], 0xffffffffffffffff | *((rbx + 0x30)) = 0xffffffffffffffff; 0x004102f8 mov rax, qword [r14] | rax = *(r14); 0x004102fb mov rdi, r14 | rdi = r14; 0x004102fe mov rsi, rbx | rsi = rbx; 0x00410301 call qword [rax + 0x18] | uint64_t (*rax + 0x18)() (); | } 0x00410304 mov eax, ebp | eax = ebp; 0x00410306 add rsp, 8 | 0x0041030a pop rbx | 0x0041030b pop r12 | 0x0041030d pop r13 | 0x0041030f pop r14 | 0x00410311 pop r15 | 0x00410313 pop rbp | 0x00410314 ret | return rax; | }