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40,800
show_progress
bluesky950520[P]quickjs/run-test262.c
void *show_progress(void *unused) { int interval = 1000*1000*1000 / 4; // 250 ms js_mutex_lock(&progress_mutex); while (js_cond_timedwait(&progress_cond, &progress_mutex, interval)) { /* output progress indicator: erase end of line and return to col 0 */ fprintf(stderr, "%d/%d/%d \r", atomic_load(&test_failed), atomic_load(&test_count), atomic_load(&test_skipped)); fflush(stderr); } js_mutex_unlock(&progress_mutex); return NULL; }
O2
c
show_progress: pushq %r15 pushq %r14 pushq %r12 pushq %rbx pushq %rax leaq 0xadfd0(%rip), %rbx # 0xbf9e8 movq %rbx, %rdi callq 0x1a949 leaq 0xadfe9(%rip), %r14 # 0xbfa10 movq 0xad5ca(%rip), %r12 # 0xbeff8 leaq 0x738f3(%rip), %r15 # 0x85328 movl $0xee6b280, %edx # imm = 0xEE6B280 movq %r14, %rdi movq %rbx, %rsi callq 0x1aa00 testl %eax, %eax je 0x11a75 movq (%r12), %rdi movl 0xadf85(%rip), %edx # 0xbf9d8 movl 0xadf7b(%rip), %ecx # 0xbf9d4 movl 0xadf7c(%rip), %r8d # 0xbf9dc movq %r15, %rsi xorl %eax, %eax callq 0xe5c0 movq (%r12), %rdi callq 0xe710 jmp 0x11a35 leaq 0xadf6c(%rip), %rdi # 0xbf9e8 callq 0x1a95a xorl %eax, %eax addq $0x8, %rsp popq %rbx popq %r12 popq %r14 popq %r15 retq
show_progress: push r15 push r14 push r12 push rbx push rax lea rbx, progress_mutex mov rdi, rbx call js_mutex_lock lea r14, progress_cond mov r12, cs:stderr_ptr lea r15, aDDD; "%d/%d/%d \r" loc_11A35: mov edx, 0EE6B280h mov rdi, r14 mov rsi, rbx call js_cond_timedwait test eax, eax jz short loc_11A75 mov rdi, [r12] mov edx, cs:test_failed mov ecx, cs:test_count mov r8d, cs:test_skipped mov rsi, r15 xor eax, eax call _fprintf mov rdi, [r12] call _fflush jmp short loc_11A35 loc_11A75: lea rdi, progress_mutex call js_mutex_unlock xor eax, eax add rsp, 8 pop rbx pop r12 pop r14 pop r15 retn
long long show_progress() { long long v0; // rdx js_mutex_lock(&progress_mutex); while ( (unsigned int)js_cond_timedwait(&progress_cond, &progress_mutex, 250000000LL) ) { fprintf(stderr, "%d/%d/%d \r", test_failed, test_count, test_skipped); fflush(stderr); } js_mutex_unlock(&progress_mutex, &progress_mutex, v0); return 0LL; }
show_progress: PUSH R15 PUSH R14 PUSH R12 PUSH RBX PUSH RAX LEA RBX,[0x1bf9e8] MOV RDI,RBX CALL 0x0011a949 LEA R14,[0x1bfa10] MOV R12,qword ptr [0x001beff8] LEA R15,[0x185328] LAB_00111a35: MOV EDX,0xee6b280 MOV RDI,R14 MOV RSI,RBX CALL 0x0011aa00 TEST EAX,EAX JZ 0x00111a75 MOV RDI,qword ptr [R12] MOV EDX,dword ptr [0x001bf9d8] MOV ECX,dword ptr [0x001bf9d4] MOV R8D,dword ptr [0x001bf9dc] MOV RSI,R15 XOR EAX,EAX CALL 0x0010e5c0 MOV RDI,qword ptr [R12] CALL 0x0010e710 JMP 0x00111a35 LAB_00111a75: LEA RDI,[0x1bf9e8] CALL 0x0011a95a XOR EAX,EAX ADD RSP,0x8 POP RBX POP R12 POP R14 POP R15 RET
int8 show_progress(void) { int *puVar1; int iVar2; js_mutex_lock(progress_mutex); puVar1 = PTR_stderr_001beff8; while( true ) { iVar2 = js_cond_timedwait(progress_cond,progress_mutex,250000000); if (iVar2 == 0) break; fprintf(*(FILE **)puVar1,"%d/%d/%d \r",(ulong)test_failed,(ulong)test_count, (ulong)test_skipped); fflush(*(FILE **)puVar1); } js_mutex_unlock(progress_mutex); return 0; }
40,801
mysql_fetch_row_start_internal
eloqsql/libmariadb/libmariadb/mariadb_async.c
static void mysql_fetch_row_start_internal(void *d) { MK_ASYNC_INTERNAL_BODY( mysql_fetch_row, (parms->result), parms->result->handle, MYSQL_ROW, r_ptr) }
O3
c
mysql_fetch_row_start_internal: pushq %rbp movq %rsp, %rbp pushq %rbx pushq %rax movq (%rdi), %rdi movq 0x78(%rdi), %rax movq 0x480(%rax), %rax movq 0x28(%rax), %rbx callq 0x78c40 movq %rax, 0x8(%rbx) movl $0x0, (%rbx) addq $0x8, %rsp popq %rbx popq %rbp retq
mysql_fetch_row_start_internal: push rbp mov rbp, rsp push rbx push rax mov rdi, [rdi] mov rax, [rdi+78h] mov rax, [rax+480h] mov rbx, [rax+28h] call mysql_fetch_row mov [rbx+8], rax mov dword ptr [rbx], 0 add rsp, 8 pop rbx pop rbp retn
long long mysql_fetch_row_start_internal(long long *a1) { long long v1; // rdi long long v2; // rbx long long result; // rax v1 = *a1; v2 = *(_QWORD *)(*(_QWORD *)(*(_QWORD *)(v1 + 120) + 1152LL) + 40LL); result = mysql_fetch_row(v1); *(_QWORD *)(v2 + 8) = result; *(_DWORD *)v2 = 0; return result; }
mysql_fetch_row_start_internal: PUSH RBP MOV RBP,RSP PUSH RBX PUSH RAX MOV RDI,qword ptr [RDI] MOV RAX,qword ptr [RDI + 0x78] MOV RAX,qword ptr [RAX + 0x480] MOV RBX,qword ptr [RAX + 0x28] CALL 0x00178c40 MOV qword ptr [RBX + 0x8],RAX MOV dword ptr [RBX],0x0 ADD RSP,0x8 POP RBX POP RBP RET
void mysql_fetch_row_start_internal(long *param_1) { int4 *puVar1; int8 uVar2; puVar1 = *(int4 **)(*(long *)(*(long *)(*param_1 + 0x78) + 0x480) + 0x28); uVar2 = mysql_fetch_row(); *(int8 *)(puVar1 + 2) = uVar2; *puVar1 = 0; return; }
40,802
mi_end_bulk_insert
eloqsql/storage/myisam/mi_write.c
int mi_end_bulk_insert(MI_INFO *info, my_bool abort) { int first_error= 0; if (info->bulk_insert) { uint i; for (i=0 ; i < info->s->base.keys ; i++) { if (is_tree_inited(& info->bulk_insert[i])) { int error; if ((error= delete_tree(& info->bulk_insert[i], abort))) { first_error= first_error ? first_error : error; abort= 1; } } } my_free(info->bulk_insert); info->bulk_insert=0; } return first_error; }
O0
c
mi_end_bulk_insert: pushq %rbp movq %rsp, %rbp subq $0x20, %rsp movb %sil, %al movq %rdi, -0x8(%rbp) movb %al, -0x9(%rbp) movl $0x0, -0x10(%rbp) movq -0x8(%rbp), %rax cmpq $0x0, 0x80(%rax) je 0xd007a movl $0x0, -0x14(%rbp) movl -0x14(%rbp), %eax movq -0x8(%rbp), %rcx movq (%rcx), %rcx cmpl 0x180(%rcx), %eax jae 0xd005b movq -0x8(%rbp), %rax movq 0x80(%rax), %rax movl -0x14(%rbp), %ecx imulq $0x298, %rcx, %rcx # imm = 0x298 addq %rcx, %rax cmpq $0x0, (%rax) je 0xd004b movq -0x8(%rbp), %rax movq 0x80(%rax), %rdi movl -0x14(%rbp), %eax imulq $0x298, %rax, %rax # imm = 0x298 addq %rax, %rdi movsbl -0x9(%rbp), %esi callq 0x102230 movl %eax, -0x18(%rbp) cmpl $0x0, %eax je 0xd0049 cmpl $0x0, -0x10(%rbp) je 0xd0039 movl -0x10(%rbp), %eax movl %eax, -0x1c(%rbp) jmp 0xd003f movl -0x18(%rbp), %eax movl %eax, -0x1c(%rbp) movl -0x1c(%rbp), %eax movl %eax, -0x10(%rbp) movb $0x1, -0x9(%rbp) jmp 0xd004b jmp 0xd004d movl -0x14(%rbp), %eax addl $0x1, %eax movl %eax, -0x14(%rbp) jmp 0xcffd2 movq -0x8(%rbp), %rax movq 0x80(%rax), %rdi callq 0xfb710 movq -0x8(%rbp), %rax movq $0x0, 0x80(%rax) movl -0x10(%rbp), %eax addq $0x20, %rsp popq %rbp retq nopw %cs:(%rax,%rax) nopl (%rax)
mi_end_bulk_insert: push rbp mov rbp, rsp sub rsp, 20h mov al, sil mov [rbp+var_8], rdi mov [rbp+var_9], al mov [rbp+var_10], 0 mov rax, [rbp+var_8] cmp qword ptr [rax+80h], 0 jz loc_D007A mov [rbp+var_14], 0 loc_CFFD2: mov eax, [rbp+var_14] mov rcx, [rbp+var_8] mov rcx, [rcx] cmp eax, [rcx+180h] jnb short loc_D005B mov rax, [rbp+var_8] mov rax, [rax+80h] mov ecx, [rbp+var_14] imul rcx, 298h add rax, rcx cmp qword ptr [rax], 0 jz short loc_D004B mov rax, [rbp+var_8] mov rdi, [rax+80h] mov eax, [rbp+var_14] imul rax, 298h add rdi, rax movsx esi, [rbp+var_9] call delete_tree mov [rbp+var_18], eax cmp eax, 0 jz short loc_D0049 cmp [rbp+var_10], 0 jz short loc_D0039 mov eax, [rbp+var_10] mov [rbp+var_1C], eax jmp short loc_D003F loc_D0039: mov eax, [rbp+var_18] mov [rbp+var_1C], eax loc_D003F: mov eax, [rbp+var_1C] mov [rbp+var_10], eax mov [rbp+var_9], 1 loc_D0049: jmp short $+2 loc_D004B: jmp short $+2 loc_D004D: mov eax, [rbp+var_14] add eax, 1 mov [rbp+var_14], eax jmp loc_CFFD2 loc_D005B: mov rax, [rbp+var_8] mov rdi, [rax+80h] call my_free mov rax, [rbp+var_8] mov qword ptr [rax+80h], 0 loc_D007A: mov eax, [rbp+var_10] add rsp, 20h pop rbp retn
long long mi_end_bulk_insert(_QWORD *a1, char a2) { int v3; // [rsp+4h] [rbp-1Ch] int v4; // [rsp+8h] [rbp-18h] unsigned int i; // [rsp+Ch] [rbp-14h] unsigned int v6; // [rsp+10h] [rbp-10h] v6 = 0; if ( a1[16] ) { for ( i = 0; i < *(_DWORD *)(*a1 + 384LL); ++i ) { if ( *(_QWORD *)(664LL * i + a1[16]) ) { v4 = delete_tree(664LL * i + a1[16], (unsigned int)a2); if ( v4 ) { if ( v6 ) v3 = v6; else v3 = v4; v6 = v3; a2 = 1; } } } my_free(a1[16]); a1[16] = 0LL; } return v6; }
mi_end_bulk_insert: PUSH RBP MOV RBP,RSP SUB RSP,0x20 MOV AL,SIL MOV qword ptr [RBP + -0x8],RDI MOV byte ptr [RBP + -0x9],AL MOV dword ptr [RBP + -0x10],0x0 MOV RAX,qword ptr [RBP + -0x8] CMP qword ptr [RAX + 0x80],0x0 JZ 0x001d007a MOV dword ptr [RBP + -0x14],0x0 LAB_001cffd2: MOV EAX,dword ptr [RBP + -0x14] MOV RCX,qword ptr [RBP + -0x8] MOV RCX,qword ptr [RCX] CMP EAX,dword ptr [RCX + 0x180] JNC 0x001d005b MOV RAX,qword ptr [RBP + -0x8] MOV RAX,qword ptr [RAX + 0x80] MOV ECX,dword ptr [RBP + -0x14] IMUL RCX,RCX,0x298 ADD RAX,RCX CMP qword ptr [RAX],0x0 JZ 0x001d004b MOV RAX,qword ptr [RBP + -0x8] MOV RDI,qword ptr [RAX + 0x80] MOV EAX,dword ptr [RBP + -0x14] IMUL RAX,RAX,0x298 ADD RDI,RAX MOVSX ESI,byte ptr [RBP + -0x9] CALL 0x00202230 MOV dword ptr [RBP + -0x18],EAX CMP EAX,0x0 JZ 0x001d0049 CMP dword ptr [RBP + -0x10],0x0 JZ 0x001d0039 MOV EAX,dword ptr [RBP + -0x10] MOV dword ptr [RBP + -0x1c],EAX JMP 0x001d003f LAB_001d0039: MOV EAX,dword ptr [RBP + -0x18] MOV dword ptr [RBP + -0x1c],EAX LAB_001d003f: MOV EAX,dword ptr [RBP + -0x1c] MOV dword ptr [RBP + -0x10],EAX MOV byte ptr [RBP + -0x9],0x1 LAB_001d0049: JMP 0x001d004b LAB_001d004b: JMP 0x001d004d LAB_001d004d: MOV EAX,dword ptr [RBP + -0x14] ADD EAX,0x1 MOV dword ptr [RBP + -0x14],EAX JMP 0x001cffd2 LAB_001d005b: MOV RAX,qword ptr [RBP + -0x8] MOV RDI,qword ptr [RAX + 0x80] CALL 0x001fb710 MOV RAX,qword ptr [RBP + -0x8] MOV qword ptr [RAX + 0x80],0x0 LAB_001d007a: MOV EAX,dword ptr [RBP + -0x10] ADD RSP,0x20 POP RBP RET
int mi_end_bulk_insert(long *param_1,char param_2) { int local_24; uint local_1c; int local_18; char local_11; local_18 = 0; if (param_1[0x10] != 0) { local_11 = param_2; for (local_1c = 0; local_1c < *(uint *)(*param_1 + 0x180); local_1c = local_1c + 1) { if ((*(long *)(param_1[0x10] + (ulong)local_1c * 0x298) != 0) && (local_24 = delete_tree(param_1[0x10] + (ulong)local_1c * 0x298,(int)local_11), local_24 != 0)) { if (local_18 != 0) { local_24 = local_18; } local_18 = local_24; local_11 = '\x01'; } } my_free(param_1[0x10]); param_1[0x10] = 0; } return local_18; }
40,803
mi_ft_segiterator_init
eloqsql/storage/myisam/ft_update.c
void _mi_ft_segiterator_init(MI_INFO *info, uint keynr, const uchar *record, FT_SEG_ITERATOR *ftsi) { DBUG_ENTER("_mi_ft_segiterator_init"); ftsi->num=info->s->keyinfo[keynr].keysegs; ftsi->seg=info->s->keyinfo[keynr].seg; ftsi->rec=record; ftsi->pos= 0; /* Avoid warnings from gcc */ ftsi->len= 0; /* Avoid warnings from gcc */ DBUG_VOID_RETURN; }
O0
c
mi_ft_segiterator_init: pushq %rbp movq %rsp, %rbp movq %rdi, -0x8(%rbp) movl %esi, -0xc(%rbp) movq %rdx, -0x18(%rbp) movq %rcx, -0x20(%rbp) movq -0x8(%rbp), %rax movq (%rax), %rax movq 0x218(%rax), %rax movl -0xc(%rbp), %ecx imulq $0x70, %rcx, %rcx addq %rcx, %rax movzwl 0x8(%rax), %ecx movq -0x20(%rbp), %rax movl %ecx, (%rax) movq -0x8(%rbp), %rax movq (%rax), %rax movq 0x218(%rax), %rax movl -0xc(%rbp), %ecx imulq $0x70, %rcx, %rcx addq %rcx, %rax movq 0x28(%rax), %rcx movq -0x20(%rbp), %rax movq %rcx, 0x8(%rax) movq -0x18(%rbp), %rcx movq -0x20(%rbp), %rax movq %rcx, 0x10(%rax) movq -0x20(%rbp), %rax movq $0x0, 0x18(%rax) movq -0x20(%rbp), %rax movl $0x0, 0x4(%rax) jmp 0xa2b8e popq %rbp retq
_mi_ft_segiterator_init: push rbp mov rbp, rsp mov [rbp+var_8], rdi mov [rbp+var_C], esi mov [rbp+var_18], rdx mov [rbp+var_20], rcx mov rax, [rbp+var_8] mov rax, [rax] mov rax, [rax+218h] mov ecx, [rbp+var_C] imul rcx, 70h ; 'p' add rax, rcx movzx ecx, word ptr [rax+8] mov rax, [rbp+var_20] mov [rax], ecx mov rax, [rbp+var_8] mov rax, [rax] mov rax, [rax+218h] mov ecx, [rbp+var_C] imul rcx, 70h ; 'p' add rax, rcx mov rcx, [rax+28h] mov rax, [rbp+var_20] mov [rax+8], rcx mov rcx, [rbp+var_18] mov rax, [rbp+var_20] mov [rax+10h], rcx mov rax, [rbp+var_20] mov qword ptr [rax+18h], 0 mov rax, [rbp+var_20] mov dword ptr [rax+4], 0 jmp short $+2 loc_A2B8E: pop rbp retn
long long mi_ft_segiterator_init(long long a1, unsigned int a2, long long a3, long long a4) { long long result; // rax *(_DWORD *)a4 = *(unsigned __int16 *)(112LL * a2 + *(_QWORD *)(*(_QWORD *)a1 + 536LL) + 8); *(_QWORD *)(a4 + 8) = *(_QWORD *)(112LL * a2 + *(_QWORD *)(*(_QWORD *)a1 + 536LL) + 40); *(_QWORD *)(a4 + 16) = a3; *(_QWORD *)(a4 + 24) = 0LL; result = a4; *(_DWORD *)(a4 + 4) = 0; return result; }
_mi_ft_segiterator_init: PUSH RBP MOV RBP,RSP MOV qword ptr [RBP + -0x8],RDI MOV dword ptr [RBP + -0xc],ESI MOV qword ptr [RBP + -0x18],RDX MOV qword ptr [RBP + -0x20],RCX MOV RAX,qword ptr [RBP + -0x8] MOV RAX,qword ptr [RAX] MOV RAX,qword ptr [RAX + 0x218] MOV ECX,dword ptr [RBP + -0xc] IMUL RCX,RCX,0x70 ADD RAX,RCX MOVZX ECX,word ptr [RAX + 0x8] MOV RAX,qword ptr [RBP + -0x20] MOV dword ptr [RAX],ECX MOV RAX,qword ptr [RBP + -0x8] MOV RAX,qword ptr [RAX] MOV RAX,qword ptr [RAX + 0x218] MOV ECX,dword ptr [RBP + -0xc] IMUL RCX,RCX,0x70 ADD RAX,RCX MOV RCX,qword ptr [RAX + 0x28] MOV RAX,qword ptr [RBP + -0x20] MOV qword ptr [RAX + 0x8],RCX MOV RCX,qword ptr [RBP + -0x18] MOV RAX,qword ptr [RBP + -0x20] MOV qword ptr [RAX + 0x10],RCX MOV RAX,qword ptr [RBP + -0x20] MOV qword ptr [RAX + 0x18],0x0 MOV RAX,qword ptr [RBP + -0x20] MOV dword ptr [RAX + 0x4],0x0 JMP 0x001a2b8e LAB_001a2b8e: POP RBP RET
void _mi_ft_segiterator_init(long *param_1,uint param_2,int8 param_3,uint *param_4) { *param_4 = (uint)*(ushort *)(*(long *)(*param_1 + 0x218) + (ulong)param_2 * 0x70 + 8); *(int8 *)(param_4 + 2) = *(int8 *)(*(long *)(*param_1 + 0x218) + (ulong)param_2 * 0x70 + 0x28); *(int8 *)(param_4 + 4) = param_3; param_4[6] = 0; param_4[7] = 0; param_4[1] = 0; return; }
40,804
ast_create_define
eshkol/src/frontend/ast/create/ast_create.c
AstNode* ast_create_define(Arena* arena, AstNode* name, AstNode* value, size_t line, size_t column) { AstNode* node = ast_create_node(arena, AST_DEFINE, line, column); if (!node) { return NULL; } node->as.define.name = name; node->as.define.value = value; return node; }
O3
c
ast_create_define: pushq %rbp movq %rsp, %rbp pushq %r14 pushq %rbx movq %rdx, %rbx movq %rsi, %r14 movl $0x7, %esi movq %rcx, %rdx movq %r8, %rcx callq 0x86f0 testq %rax, %rax je 0x88b1 movq %r14, 0x48(%rax) movq %rbx, 0x50(%rax) popq %rbx popq %r14 popq %rbp retq
ast_create_define: push rbp mov rbp, rsp push r14 push rbx mov rbx, rdx mov r14, rsi mov esi, 7 mov rdx, rcx mov rcx, r8 call ast_create_node test rax, rax jz short loc_88B1 mov [rax+48h], r14 mov [rax+50h], rbx loc_88B1: pop rbx pop r14 pop rbp retn
long long ast_create_define(long long a1, long long a2, long long a3, long long a4, long long a5) { long long result; // rax result = ast_create_node(a1, 7, a4, a5); if ( result ) { *(_QWORD *)(result + 72) = a2; *(_QWORD *)(result + 80) = a3; } return result; }
ast_create_define: PUSH RBP MOV RBP,RSP PUSH R14 PUSH RBX MOV RBX,RDX MOV R14,RSI MOV ESI,0x7 MOV RDX,RCX MOV RCX,R8 CALL 0x001086f0 TEST RAX,RAX JZ 0x001088b1 MOV qword ptr [RAX + 0x48],R14 MOV qword ptr [RAX + 0x50],RBX LAB_001088b1: POP RBX POP R14 POP RBP RET
void ast_create_define(int8 param_1,int8 param_2,int8 param_3,int8 param_4, int8 param_5) { long lVar1; lVar1 = ast_create_node(param_1,7,param_4,param_5); if (lVar1 != 0) { *(int8 *)(lVar1 + 0x48) = param_2; *(int8 *)(lVar1 + 0x50) = param_3; } return; }
40,805
std::pair<bool, nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>*> nlohmann::json_abi_v3_11_3::detail::json_sax_dom_callback_parser<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>>::handle_value<double&>(double&, bool)
monkey531[P]llama/common/json.hpp
std::pair<bool, BasicJsonType*> handle_value(Value&& v, const bool skip_callback = false) { JSON_ASSERT(!keep_stack.empty()); // do not handle this value if we know it would be added to a discarded // container if (!keep_stack.back()) { return {false, nullptr}; } // create value auto value = BasicJsonType(std::forward<Value>(v)); // check callback const bool keep = skip_callback || callback(static_cast<int>(ref_stack.size()), parse_event_t::value, value); // do not handle this value if we just learnt it shall be discarded if (!keep) { return {false, nullptr}; } if (ref_stack.empty()) { root = std::move(value); return {true, & root}; } // skip this value if we already decided to skip the parent // (https://github.com/nlohmann/json/issues/971#issuecomment-413678360) if (!ref_stack.back()) { return {false, nullptr}; } // we now only expect arrays and objects JSON_ASSERT(ref_stack.back()->is_array() || ref_stack.back()->is_object()); // array if (ref_stack.back()->is_array()) { ref_stack.back()->m_data.m_value.array->emplace_back(std::move(value)); return {true, & (ref_stack.back()->m_data.m_value.array->back())}; } // object JSON_ASSERT(ref_stack.back()->is_object()); // check if we should store an element for the current key JSON_ASSERT(!key_keep_stack.empty()); const bool store_element = key_keep_stack.back(); key_keep_stack.pop_back(); if (!store_element) { return {false, nullptr}; } JSON_ASSERT(object_element); *object_element = std::move(value); return {true, object_element}; }
O0
cpp
std::pair<bool, nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>*> nlohmann::json_abi_v3_11_3::detail::json_sax_dom_callback_parser<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>>::handle_value<double&>(double&, bool): subq $0x148, %rsp # imm = 0x148 movb %dl, %al movq %rdi, 0x130(%rsp) movq %rsi, 0x128(%rsp) andb $0x1, %al movb %al, 0x127(%rsp) movq 0x130(%rsp), %rdi movq %rdi, 0x40(%rsp) addq $0x20, %rdi callq 0xc7b80 testb $0x1, %al jne 0xcd0be jmp 0xcd0df leaq 0xf8e4c(%rip), %rdi # 0x1c5f11 movl $0x1c28, %esi # imm = 0x1C28 leaq 0xf581a(%rip), %rdx # 0x1c28eb leaq 0xfa2be(%rip), %rcx # 0x1c7396 movb $0x0, %al callq 0x55cd0 movq 0x40(%rsp), %rdi addq $0x20, %rdi callq 0xc7c00 movq %rax, 0x110(%rsp) movq %rdx, 0x118(%rsp) leaq 0x110(%rsp), %rdi callq 0xc5d40 xorb $-0x1, %al testb $0x1, %al jne 0xcd112 jmp 0xcd148 movb $0x0, 0x10f(%rsp) movq $0x0, 0x100(%rsp) leaq 0x138(%rsp), %rdi leaq 0x10f(%rsp), %rsi leaq 0x100(%rsp), %rdx callq 0xc8710 jmp 0xcd5b1 movq 0x128(%rsp), %rsi leaq 0xf0(%rsp), %rdi callq 0xcd5e0 movb $0x1, %al testb $0x1, 0x127(%rsp) movb %al, 0x3f(%rsp) jne 0xcd1b0 movq 0x40(%rsp), %rdi movq %rdi, %rax subq $-0x80, %rax movq %rax, 0x30(%rsp) addq $0x8, %rdi callq 0xc7d00 movq 0x30(%rsp), %rdi movl %eax, %esi movl $0x5, %edx leaq 0xf0(%rsp), %rcx callq 0xc7ca0 movb %al, 0x3e(%rsp) jmp 0xcd1a6 movb 0x3e(%rsp), %al movb %al, 0x3f(%rsp) jmp 0xcd1b0 movb 0x3f(%rsp), %al andb $0x1, %al movb %al, 0xef(%rsp) testb $0x1, 0xef(%rsp) jne 0xcd230 movb $0x0, 0xdb(%rsp) movq $0x0, 0xd0(%rsp) leaq 0x138(%rsp), %rdi leaq 0xdb(%rsp), %rsi leaq 0xd0(%rsp), %rdx callq 0xc8710 jmp 0xcd1fa movl $0x1, 0xcc(%rsp) jmp 0xcd5a4 movq %rax, %rcx movl %edx, %eax movq %rcx, 0xe0(%rsp) movl %eax, 0xdc(%rsp) leaq 0xf0(%rsp), %rdi callq 0x7c5a0 jmp 0xcd5c8 movq 0x40(%rsp), %rdi addq $0x8, %rdi callq 0xc8740 testb $0x1, %al jne 0xcd244 jmp 0xcd2c1 leaq 0xb8(%rsp), %rdi movq %rdi, 0x28(%rsp) leaq 0xf0(%rsp), %rsi callq 0xae880 movq 0x28(%rsp), %rsi movq 0x40(%rsp), %rax movq (%rax), %rdi callq 0x7c520 movq 0x28(%rsp), %rdi callq 0x7c5a0 movq 0x40(%rsp), %rax movb $0x1, 0xb7(%rsp) movq (%rax), %rax movq %rax, 0xa8(%rsp) leaq 0x138(%rsp), %rdi leaq 0xb7(%rsp), %rsi leaq 0xa8(%rsp), %rdx callq 0xc8790 jmp 0xcd2b1 movl $0x1, 0xcc(%rsp) jmp 0xcd5a4 movq 0x40(%rsp), %rdi addq $0x8, %rdi callq 0xc82f0 cmpq $0x0, (%rax) jne 0xcd318 movb $0x0, 0xa7(%rsp) movq $0x0, 0x98(%rsp) leaq 0x138(%rsp), %rdi leaq 0xa7(%rsp), %rsi leaq 0x98(%rsp), %rdx callq 0xc8710 jmp 0xcd308 movl $0x1, 0xcc(%rsp) jmp 0xcd5a4 movq 0x40(%rsp), %rdi addq $0x8, %rdi callq 0xc82f0 movq (%rax), %rdi callq 0xb18c0 testb $0x1, %al jne 0xcd36f movq 0x40(%rsp), %rdi addq $0x8, %rdi callq 0xc82f0 movq (%rax), %rdi callq 0xb1900 testb $0x1, %al jne 0xcd36f leaq 0xf8bbe(%rip), %rdi # 0x1c5f11 leaq 0xf5591(%rip), %rdx # 0x1c28eb leaq 0xfa049(%rip), %rcx # 0x1c73aa xorl %eax, %eax movl $0x1c4b, %esi # imm = 0x1C4B callq 0x55cd0 jmp 0xcd36f movq 0x40(%rsp), %rdi addq $0x8, %rdi callq 0xc82f0 movq (%rax), %rdi callq 0xb18c0 testb $0x1, %al jne 0xcd38b jmp 0xcd408 movq 0x40(%rsp), %rdi addq $0x8, %rdi callq 0xc82f0 movq (%rax), %rax movq 0x8(%rax), %rdi leaq 0xf0(%rsp), %rsi callq 0xb2350 jmp 0xcd3af movq 0x40(%rsp), %rdi movb $0x1, 0x97(%rsp) addq $0x8, %rdi callq 0xc82f0 movq (%rax), %rax movq 0x8(%rax), %rdi callq 0xb1860 movq %rax, 0x88(%rsp) leaq 0x138(%rsp), %rdi leaq 0x97(%rsp), %rsi leaq 0x88(%rsp), %rdx callq 0xc8790 jmp 0xcd3f8 movl $0x1, 0xcc(%rsp) jmp 0xcd5a4 movq 0x40(%rsp), %rdi addq $0x8, %rdi callq 0xc82f0 movq (%rax), %rdi callq 0xb1900 testb $0x1, %al jne 0xcd445 leaq 0xf8ae8(%rip), %rdi # 0x1c5f11 leaq 0xf54bb(%rip), %rdx # 0x1c28eb leaq 0xf9f93(%rip), %rcx # 0x1c73ca xorl %eax, %eax movl $0x1c55, %esi # imm = 0x1C55 callq 0x55cd0 jmp 0xcd445 movq 0x40(%rsp), %rdi addq $0x48, %rdi callq 0xc7b80 testb $0x1, %al jne 0xcd459 jmp 0xcd47c leaq 0xf8ab1(%rip), %rdi # 0x1c5f11 leaq 0xf5484(%rip), %rdx # 0x1c28eb leaq 0xf9f7a(%rip), %rcx # 0x1c73e8 xorl %eax, %eax movl $0x1c57, %esi # imm = 0x1C57 callq 0x55cd0 jmp 0xcd47c movq 0x40(%rsp), %rdi addq $0x48, %rdi callq 0xc7c00 movq %rdx, 0x18(%rsp) movq %rax, 0x20(%rsp) jmp 0xcd496 movq 0x18(%rsp), %rax movq 0x20(%rsp), %rcx movq %rcx, 0x70(%rsp) movq %rax, 0x78(%rsp) leaq 0x70(%rsp), %rdi callq 0xc5d40 movq 0x40(%rsp), %rdi movb %al, 0x87(%rsp) addq $0x48, %rdi callq 0xc7c80 jmp 0xcd4cb testb $0x1, 0x87(%rsp) jne 0xcd50c movb $0x0, 0x6f(%rsp) movq $0x0, 0x60(%rsp) leaq 0x138(%rsp), %rdi leaq 0x6f(%rsp), %rsi leaq 0x60(%rsp), %rdx callq 0xc8710 jmp 0xcd4fc movl $0x1, 0xcc(%rsp) jmp 0xcd5a4 movq 0x40(%rsp), %rax cmpq $0x0, 0x70(%rax) jne 0xcd53b leaq 0xf89f2(%rip), %rdi # 0x1c5f11 leaq 0xf53c5(%rip), %rdx # 0x1c28eb leaq 0xf9ed3(%rip), %rcx # 0x1c7400 xorl %eax, %eax movl $0x1c60, %esi # imm = 0x1C60 callq 0x55cd0 jmp 0xcd53b leaq 0x50(%rsp), %rdi movq %rdi, 0x8(%rsp) leaq 0xf0(%rsp), %rsi callq 0xae880 movq 0x40(%rsp), %rax movq 0x8(%rsp), %rsi movq %rax, %rcx addq $0x70, %rcx movq %rcx, 0x10(%rsp) movq 0x70(%rax), %rdi callq 0x7c520 movq 0x8(%rsp), %rdi callq 0x7c5a0 movq 0x10(%rsp), %rdx movb $0x1, 0x4f(%rsp) leaq 0x138(%rsp), %rdi leaq 0x4f(%rsp), %rsi callq 0xc87c0 jmp 0xcd599 movl $0x1, 0xcc(%rsp) leaq 0xf0(%rsp), %rdi callq 0x7c5a0 movb 0x138(%rsp), %al movq 0x140(%rsp), %rdx addq $0x148, %rsp # imm = 0x148 retq movq 0xe0(%rsp), %rdi callq 0x55a10 nopw %cs:(%rax,%rax) nop
_ZN8nlohmann16json_abi_v3_11_36detail28json_sax_dom_callback_parserINS0_10basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES5_IhSaIhEEvEEE12handle_valueIRdEESt4pairIbPSF_EOT_b: sub rsp, 148h mov al, dl mov [rsp+148h+var_18], rdi mov [rsp+148h+var_20], rsi and al, 1 mov [rsp+148h+var_21], al mov rdi, [rsp+148h+var_18] mov [rsp+148h+var_108], rdi add rdi, 20h ; ' ' call _ZNKSt6vectorIbSaIbEE5emptyEv; std::vector<bool>::empty(void) test al, 1 jnz short loc_CD0BE jmp short loc_CD0DF loc_CD0BE: lea rdi, aWorkspaceLlm4b_2; "/workspace/llm4binary/github/2025_star3"... mov esi, 1C28h lea rdx, aGgmlAssertSFai; "GGML_ASSERT(%s) failed" lea rcx, aKeepStackEmpty; "!keep_stack.empty()" mov al, 0 call _ggml_abort loc_CD0DF: mov rdi, [rsp+148h+var_108] add rdi, 20h ; ' ' call _ZNSt6vectorIbSaIbEE4backEv; std::vector<bool>::back(void) mov [rsp+148h+var_38], rax mov [rsp+148h+var_30], rdx lea rdi, [rsp+148h+var_38] call _ZNKSt14_Bit_referencecvbEv; std::_Bit_reference::operator bool(void) xor al, 0FFh test al, 1 jnz short loc_CD112 jmp short loc_CD148 loc_CD112: mov [rsp+148h+var_39], 0 mov [rsp+148h+var_48], 0 lea rdi, [rsp+148h+var_10] lea rsi, [rsp+148h+var_39] lea rdx, [rsp+148h+var_48] call _ZNSt4pairIbPN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES4_IhSaIhEEvEEEC2IbDnTnNSt9enable_ifIXaaclsr5_PCCPE22_MoveConstructiblePairIT_T0_EEclsr5_PCCPE30_ImplicitlyMoveConvertiblePairISJ_SK_EEEbE4typeELb1EEEOSJ_OSK_ jmp loc_CD5B1 loc_CD148: mov rsi, [rsp+148h+var_20] lea rdi, [rsp+148h+var_58] call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvEC2IRddTnNSt9enable_ifIXaantsr6detail13is_basic_jsonIT0_EE5valuesr6detail18is_compatible_typeISD_SH_EE5valueEiE4typeELi0EEEOT_ mov al, 1 test [rsp+148h+var_21], 1 mov [rsp+148h+var_109], al jnz short loc_CD1B0 mov rdi, [rsp+148h+var_108] mov rax, rdi sub rax, 0FFFFFFFFFFFFFF80h mov [rsp+148h+var_118], rax add rdi, 8 call _ZNKSt6vectorIPN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapES_NSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES_IhSaIhEEvEESaISE_EE4sizeEv; std::vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> *,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> *>>::size(void) mov rdi, [rsp+148h+var_118] mov esi, eax mov edx, 5 lea rcx, [rsp+148h+var_58] call _ZNKSt8functionIFbiN8nlohmann16json_abi_v3_11_36detail13parse_event_tERNS1_10basic_jsonINS1_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES6_IhSaIhEEvEEEEclEiS3_SH_; std::function<bool ()(int,nlohmann::json_abi_v3_11_3::detail::parse_event_t,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> &)>::operator()(int,nlohmann::json_abi_v3_11_3::detail::parse_event_t,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> &) mov [rsp+148h+var_10A], al jmp short $+2 loc_CD1A6: mov al, [rsp+148h+var_10A] mov [rsp+148h+var_109], al jmp short $+2 loc_CD1B0: mov al, [rsp+148h+var_109] and al, 1 mov [rsp+148h+var_59], al test [rsp+148h+var_59], 1 jnz short loc_CD230 mov [rsp+148h+var_6D], 0 mov [rsp+148h+var_78], 0 lea rdi, [rsp+148h+var_10] lea rsi, [rsp+148h+var_6D] lea rdx, [rsp+148h+var_78] call _ZNSt4pairIbPN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES4_IhSaIhEEvEEEC2IbDnTnNSt9enable_ifIXaaclsr5_PCCPE22_MoveConstructiblePairIT_T0_EEclsr5_PCCPE30_ImplicitlyMoveConvertiblePairISJ_SK_EEEbE4typeELb1EEEOSJ_OSK_ jmp short $+2 loc_CD1FA: mov [rsp+148h+var_7C], 1 jmp loc_CD5A4 mov rcx, rax mov eax, edx mov [rsp+arg_D8], rcx mov [rsp+arg_D4], eax lea rdi, [rsp+arg_E8] call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvED2Ev; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::~basic_json() jmp loc_CD5C8 loc_CD230: mov rdi, [rsp+148h+var_108] add rdi, 8 call _ZNKSt6vectorIPN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapES_NSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES_IhSaIhEEvEESaISE_EE5emptyEv; std::vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> *,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> *>>::empty(void) test al, 1 jnz short loc_CD244 jmp short loc_CD2C1 loc_CD244: lea rdi, [rsp+148h+var_90] mov [rsp+148h+var_120], rdi lea rsi, [rsp+148h+var_58] call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvEC2EOSD_; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::basic_json(nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>&&) mov rsi, [rsp+148h+var_120] mov rax, [rsp+148h+var_108] mov rdi, [rax] call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvEaSESD_; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::operator=(nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>) mov rdi, [rsp+148h+var_120] call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvED2Ev; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::~basic_json() mov rax, [rsp+148h+var_108] mov [rsp+148h+var_91], 1 mov rax, [rax] mov [rsp+148h+var_A0], rax lea rdi, [rsp+148h+var_10] lea rsi, [rsp+148h+var_91] lea rdx, [rsp+148h+var_A0] call _ZNSt4pairIbPN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES4_IhSaIhEEvEEEC2IbSF_TnNSt9enable_ifIXaaclsr5_PCCPE22_MoveConstructiblePairIT_T0_EEclsr5_PCCPE30_ImplicitlyMoveConvertiblePairISJ_SK_EEEbE4typeELb1EEEOSJ_OSK_ jmp short $+2 loc_CD2B1: mov [rsp+148h+var_7C], 1 jmp loc_CD5A4 loc_CD2C1: mov rdi, [rsp+148h+var_108] add rdi, 8 call _ZNSt6vectorIPN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapES_NSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES_IhSaIhEEvEESaISE_EE4backEv; std::vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> *,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> *>>::back(void) cmp qword ptr [rax], 0 jnz short loc_CD318 mov [rsp+148h+var_A1], 0 mov [rsp+148h+var_B0], 0 lea rdi, [rsp+148h+var_10] lea rsi, [rsp+148h+var_A1] lea rdx, [rsp+148h+var_B0] call _ZNSt4pairIbPN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES4_IhSaIhEEvEEEC2IbDnTnNSt9enable_ifIXaaclsr5_PCCPE22_MoveConstructiblePairIT_T0_EEclsr5_PCCPE30_ImplicitlyMoveConvertiblePairISJ_SK_EEEbE4typeELb1EEEOSJ_OSK_ jmp short $+2 loc_CD308: mov [rsp+148h+var_7C], 1 jmp loc_CD5A4 loc_CD318: mov rdi, [rsp+148h+var_108] add rdi, 8 call _ZNSt6vectorIPN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapES_NSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES_IhSaIhEEvEESaISE_EE4backEv; std::vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> *,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> *>>::back(void) mov rdi, [rax] call _ZNK8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE8is_arrayEv; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::is_array(void) test al, 1 jnz short loc_CD36F mov rdi, [rsp+148h+var_108] add rdi, 8 call _ZNSt6vectorIPN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapES_NSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES_IhSaIhEEvEESaISE_EE4backEv; std::vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> *,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> *>>::back(void) mov rdi, [rax] call _ZNK8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE9is_objectEv; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::is_object(void) test al, 1 jnz short loc_CD36F lea rdi, aWorkspaceLlm4b_2; "/workspace/llm4binary/github/2025_star3"... lea rdx, aGgmlAssertSFai; "GGML_ASSERT(%s) failed" lea rcx, aRefStackBackIs; "ref_stack.back()->is_array() || ref_sta"... xor eax, eax mov esi, 1C4Bh call _ggml_abort jmp short $+2 loc_CD36F: mov rdi, [rsp+148h+var_108] add rdi, 8 call _ZNSt6vectorIPN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapES_NSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES_IhSaIhEEvEESaISE_EE4backEv; std::vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> *,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> *>>::back(void) mov rdi, [rax] call _ZNK8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE8is_arrayEv; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::is_array(void) test al, 1 jnz short loc_CD38B jmp short loc_CD408 loc_CD38B: mov rdi, [rsp+148h+var_108] add rdi, 8 call _ZNSt6vectorIPN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapES_NSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES_IhSaIhEEvEESaISE_EE4backEv; std::vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> *,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> *>>::back(void) mov rax, [rax] mov rdi, [rax+8] lea rsi, [rsp+148h+var_58] call _ZNSt6vectorIN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapES_NSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES_IhSaIhEEvEESaISD_EE12emplace_backIJSD_EEERSD_DpOT_; std::vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>>::emplace_back<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>>(nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> &&) jmp short $+2 loc_CD3AF: mov rdi, [rsp+148h+var_108] mov [rsp+148h+var_B1], 1 add rdi, 8 call _ZNSt6vectorIPN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapES_NSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES_IhSaIhEEvEESaISE_EE4backEv; std::vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> *,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> *>>::back(void) mov rax, [rax] mov rdi, [rax+8] call _ZNSt6vectorIN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapES_NSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES_IhSaIhEEvEESaISD_EE4backEv; std::vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>>::back(void) mov [rsp+148h+var_C0], rax lea rdi, [rsp+148h+var_10] lea rsi, [rsp+148h+var_B1] lea rdx, [rsp+148h+var_C0] call _ZNSt4pairIbPN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES4_IhSaIhEEvEEEC2IbSF_TnNSt9enable_ifIXaaclsr5_PCCPE22_MoveConstructiblePairIT_T0_EEclsr5_PCCPE30_ImplicitlyMoveConvertiblePairISJ_SK_EEEbE4typeELb1EEEOSJ_OSK_ jmp short $+2 loc_CD3F8: mov [rsp+148h+var_7C], 1 jmp loc_CD5A4 loc_CD408: mov rdi, [rsp+148h+var_108] add rdi, 8 call _ZNSt6vectorIPN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapES_NSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES_IhSaIhEEvEESaISE_EE4backEv; std::vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> *,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> *>>::back(void) mov rdi, [rax] call _ZNK8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE9is_objectEv; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::is_object(void) test al, 1 jnz short loc_CD445 lea rdi, aWorkspaceLlm4b_2; "/workspace/llm4binary/github/2025_star3"... lea rdx, aGgmlAssertSFai; "GGML_ASSERT(%s) failed" lea rcx, aRefStackBackIs+20h; "ref_stack.back()->is_object()" xor eax, eax mov esi, 1C55h call _ggml_abort jmp short $+2 loc_CD445: mov rdi, [rsp+148h+var_108] add rdi, 48h ; 'H' call _ZNKSt6vectorIbSaIbEE5emptyEv; std::vector<bool>::empty(void) test al, 1 jnz short loc_CD459 jmp short loc_CD47C loc_CD459: lea rdi, aWorkspaceLlm4b_2; "/workspace/llm4binary/github/2025_star3"... lea rdx, aGgmlAssertSFai; "GGML_ASSERT(%s) failed" lea rcx, aKeyKeepStackEm; "!key_keep_stack.empty()" xor eax, eax mov esi, 1C57h call _ggml_abort jmp short $+2 loc_CD47C: mov rdi, [rsp+148h+var_108] add rdi, 48h ; 'H' call _ZNSt6vectorIbSaIbEE4backEv; std::vector<bool>::back(void) mov [rsp+148h+var_130], rdx mov [rsp+148h+var_128], rax jmp short $+2 loc_CD496: mov rax, [rsp+148h+var_130] mov rcx, [rsp+148h+var_128] mov [rsp+148h+var_D8], rcx mov [rsp+148h+var_D0], rax lea rdi, [rsp+148h+var_D8] call _ZNKSt14_Bit_referencecvbEv; std::_Bit_reference::operator bool(void) mov rdi, [rsp+148h+var_108] mov [rsp+148h+var_C1], al add rdi, 48h ; 'H' call _ZNSt6vectorIbSaIbEE8pop_backEv; std::vector<bool>::pop_back(void) jmp short $+2 loc_CD4CB: test [rsp+148h+var_C1], 1 jnz short loc_CD50C mov [rsp+148h+var_D9], 0 mov [rsp+148h+var_E8], 0 lea rdi, [rsp+148h+var_10] lea rsi, [rsp+148h+var_D9] lea rdx, [rsp+148h+var_E8] call _ZNSt4pairIbPN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES4_IhSaIhEEvEEEC2IbDnTnNSt9enable_ifIXaaclsr5_PCCPE22_MoveConstructiblePairIT_T0_EEclsr5_PCCPE30_ImplicitlyMoveConvertiblePairISJ_SK_EEEbE4typeELb1EEEOSJ_OSK_ jmp short $+2 loc_CD4FC: mov [rsp+148h+var_7C], 1 jmp loc_CD5A4 loc_CD50C: mov rax, [rsp+148h+var_108] cmp qword ptr [rax+70h], 0 jnz short loc_CD53B lea rdi, aWorkspaceLlm4b_2; "/workspace/llm4binary/github/2025_star3"... lea rdx, aGgmlAssertSFai; "GGML_ASSERT(%s) failed" lea rcx, aObjectElement; "object_element" xor eax, eax mov esi, 1C60h call _ggml_abort jmp short $+2 loc_CD53B: lea rdi, [rsp+148h+var_F8] mov [rsp+148h+var_140], rdi lea rsi, [rsp+148h+var_58] call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvEC2EOSD_; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::basic_json(nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>&&) mov rax, [rsp+148h+var_108] mov rsi, [rsp+148h+var_140] mov rcx, rax add rcx, 70h ; 'p' mov [rsp+148h+var_138], rcx mov rdi, [rax+70h] call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvEaSESD_; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::operator=(nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>) mov rdi, [rsp+148h+var_140] call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvED2Ev; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::~basic_json() mov rdx, [rsp+148h+var_138] mov [rsp+148h+var_F9], 1 lea rdi, [rsp+148h+var_10] lea rsi, [rsp+148h+var_F9] call _ZNSt4pairIbPN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES4_IhSaIhEEvEEEC2IbRSF_TnNSt9enable_ifIXaaclsr5_PCCPE22_MoveConstructiblePairIT_T0_EEclsr5_PCCPE30_ImplicitlyMoveConvertiblePairISK_SL_EEEbE4typeELb1EEEOSK_OSL_ jmp short $+2 loc_CD599: mov [rsp+148h+var_7C], 1 loc_CD5A4: lea rdi, [rsp+148h+var_58] call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvED2Ev; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::~basic_json() loc_CD5B1: mov al, [rsp+148h+var_10] mov rdx, [rsp+148h+var_8] add rsp, 148h retn loc_CD5C8: mov rdi, [rsp+arg_D8] call __Unwind_Resume
char nlohmann::json_abi_v3_11_3::detail::json_sax_dom_callback_parser<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>>::handle_value<double &>( long long a1, long long a2, char a3) { long long v3; // rdx int v4; // eax _BYTE **v5; // rax _BYTE **v6; // rax _BYTE **v7; // rax long long v8; // rax long long v9; // rdx long long v10; // rcx long long v11; // r8 long long v12; // r9 long long v13; // rax _BYTE **v14; // rax long long v15; // rdx char v17; // [rsp+3Fh] [rbp-109h] char v18; // [rsp+4Fh] [rbp-F9h] BYREF __int128 v19; // [rsp+50h] [rbp-F8h] BYREF long long v20; // [rsp+60h] [rbp-E8h] char v21; // [rsp+6Fh] [rbp-D9h] BYREF _QWORD v22[2]; // [rsp+70h] [rbp-D8h] BYREF bool v23; // [rsp+87h] [rbp-C1h] long long v24; // [rsp+88h] [rbp-C0h] BYREF char v25; // [rsp+97h] [rbp-B1h] BYREF long long v26; // [rsp+98h] [rbp-B0h] char v27; // [rsp+A7h] [rbp-A1h] BYREF long long v28; // [rsp+A8h] [rbp-A0h] BYREF char v29; // [rsp+B7h] [rbp-91h] BYREF __int128 v30; // [rsp+B8h] [rbp-90h] BYREF int v31; // [rsp+CCh] [rbp-7Ch] long long v32; // [rsp+D0h] [rbp-78h] _BYTE v33[21]; // [rsp+DBh] [rbp-6Dh] BYREF _BYTE v34[16]; // [rsp+F0h] [rbp-58h] BYREF long long v35; // [rsp+100h] [rbp-48h] char v36; // [rsp+10Fh] [rbp-39h] BYREF _QWORD v37[2]; // [rsp+110h] [rbp-38h] BYREF char v38; // [rsp+127h] [rbp-21h] long long v39; // [rsp+128h] [rbp-20h] long long v40; // [rsp+130h] [rbp-18h] _BYTE v41[8]; // [rsp+138h] [rbp-10h] BYREF v40 = a1; v39 = a2; v38 = a3 & 1; if ( (std::vector<bool>::empty((unsigned long long **)(a1 + 32)) & 1) != 0 ) ggml_abort( "/workspace/llm4binary/github/2025_star3/monkey531[P]llama/common/json.hpp", 7208LL, "GGML_ASSERT(%s) failed", "!keep_stack.empty()"); v37[0] = std::vector<bool>::back(a1 + 32); v37[1] = v3; if ( std::_Bit_reference::operator bool((long long)v37) ) { ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvEC2IRddTnNSt9enable_ifIXaantsr6detail13is_basic_jsonIT0_EE5valuesr6detail18is_compatible_typeISD_SH_EE5valueEiE4typeELi0EEEOT_( v34, v39); v17 = 1; if ( (v38 & 1) == 0 ) { v4 = std::vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void> *,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void> *>>::size((_QWORD *)(a1 + 8)); v17 = std::function<bool ()(int,nlohmann::json_abi_v3_11_3::detail::parse_event_t,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void> &)>::operator()( (std::_Function_base *)(a1 + 128), v4, 5, (long long)v34); } v33[20] = v17 & 1; if ( (v17 & 1) != 0 ) { if ( (std::vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void> *,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void> *>>::empty(a1 + 8) & 1) != 0 ) { nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::basic_json( &v30, (long long)v34); nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::operator=( *(_QWORD *)a1, (long long)&v30); nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::~basic_json((long long)&v30); v29 = 1; v28 = *(_QWORD *)a1; ZNSt4pairIbPN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES4_IhSaIhEEvEEEC2IbSF_TnNSt9enable_ifIXaaclsr5_PCCPE22_MoveConstructiblePairIT_T0_EEclsr5_PCCPE30_ImplicitlyMoveConvertiblePairISJ_SK_EEEbE4typeELb1EEEOSJ_OSK_( (long long)v41, &v29, &v28); v31 = 1; } else if ( *(_QWORD *)std::vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void> *,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void> *>>::back(a1 + 8) ) { v5 = (_BYTE **)std::vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void> *,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void> *>>::back(a1 + 8); if ( !nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::is_array(*v5) ) { v6 = (_BYTE **)std::vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void> *,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void> *>>::back(a1 + 8); if ( !nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::is_object(*v6) ) ggml_abort( "/workspace/llm4binary/github/2025_star3/monkey531[P]llama/common/json.hpp", 7243LL, "GGML_ASSERT(%s) failed", "ref_stack.back()->is_array() || ref_stack.back()->is_object()"); } v7 = (_BYTE **)std::vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void> *,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void> *>>::back(a1 + 8); if ( nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::is_array(*v7) ) { v8 = std::vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void> *,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void> *>>::back(a1 + 8); std::vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>>::emplace_back<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>>( *(_QWORD *)(*(_QWORD *)v8 + 8LL), (long long)v34, v9, v10, v11, v12); v25 = 1; v13 = std::vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void> *,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void> *>>::back(a1 + 8); v24 = std::vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>>::back(*(_QWORD *)(*(_QWORD *)v13 + 8LL)); ZNSt4pairIbPN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES4_IhSaIhEEvEEEC2IbSF_TnNSt9enable_ifIXaaclsr5_PCCPE22_MoveConstructiblePairIT_T0_EEclsr5_PCCPE30_ImplicitlyMoveConvertiblePairISJ_SK_EEEbE4typeELb1EEEOSJ_OSK_( (long long)v41, &v25, &v24); v31 = 1; } else { v14 = (_BYTE **)std::vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void> *,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void> *>>::back(a1 + 8); if ( !nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::is_object(*v14) ) ggml_abort( "/workspace/llm4binary/github/2025_star3/monkey531[P]llama/common/json.hpp", 7253LL, "GGML_ASSERT(%s) failed", "ref_stack.back()->is_object()"); if ( (std::vector<bool>::empty((unsigned long long **)(a1 + 72)) & 1) != 0 ) ggml_abort( "/workspace/llm4binary/github/2025_star3/monkey531[P]llama/common/json.hpp", 7255LL, "GGML_ASSERT(%s) failed", "!key_keep_stack.empty()"); v22[0] = std::vector<bool>::back(a1 + 72); v22[1] = v15; v23 = std::_Bit_reference::operator bool((long long)v22); std::vector<bool>::pop_back(a1 + 72); if ( v23 ) { if ( !*(_QWORD *)(a1 + 112) ) ggml_abort( "/workspace/llm4binary/github/2025_star3/monkey531[P]llama/common/json.hpp", 7264LL, "GGML_ASSERT(%s) failed", "object_element"); nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::basic_json( &v19, (long long)v34); nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::operator=( *(_QWORD *)(a1 + 112), (long long)&v19); nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::~basic_json((long long)&v19); v18 = 1; ZNSt4pairIbPN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES4_IhSaIhEEvEEEC2IbRSF_TnNSt9enable_ifIXaaclsr5_PCCPE22_MoveConstructiblePairIT_T0_EEclsr5_PCCPE30_ImplicitlyMoveConvertiblePairISK_SL_EEEbE4typeELb1EEEOSK_OSL_( (long long)v41, &v18, (_QWORD *)(a1 + 112)); v31 = 1; } else { v21 = 0; v20 = 0LL; ZNSt4pairIbPN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES4_IhSaIhEEvEEEC2IbDnTnNSt9enable_ifIXaaclsr5_PCCPE22_MoveConstructiblePairIT_T0_EEclsr5_PCCPE30_ImplicitlyMoveConvertiblePairISJ_SK_EEEbE4typeELb1EEEOSJ_OSK_( (long long)v41, &v21); v31 = 1; } } } else { v27 = 0; v26 = 0LL; ZNSt4pairIbPN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES4_IhSaIhEEvEEEC2IbDnTnNSt9enable_ifIXaaclsr5_PCCPE22_MoveConstructiblePairIT_T0_EEclsr5_PCCPE30_ImplicitlyMoveConvertiblePairISJ_SK_EEEbE4typeELb1EEEOSJ_OSK_( (long long)v41, &v27); v31 = 1; } } else { v33[0] = 0; v32 = 0LL; ZNSt4pairIbPN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES4_IhSaIhEEvEEEC2IbDnTnNSt9enable_ifIXaaclsr5_PCCPE22_MoveConstructiblePairIT_T0_EEclsr5_PCCPE30_ImplicitlyMoveConvertiblePairISJ_SK_EEEbE4typeELb1EEEOSJ_OSK_( (long long)v41, v33); v31 = 1; } nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::~basic_json((long long)v34); } else { v36 = 0; v35 = 0LL; ZNSt4pairIbPN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES4_IhSaIhEEvEEEC2IbDnTnNSt9enable_ifIXaaclsr5_PCCPE22_MoveConstructiblePairIT_T0_EEclsr5_PCCPE30_ImplicitlyMoveConvertiblePairISJ_SK_EEEbE4typeELb1EEEOSJ_OSK_( (long long)v41, &v36); } return v41[0]; }
handle_value<double&>: SUB RSP,0x148 MOV AL,DL MOV qword ptr [RSP + 0x130],RDI MOV qword ptr [RSP + 0x128],RSI AND AL,0x1 MOV byte ptr [RSP + 0x127],AL MOV RDI,qword ptr [RSP + 0x130] MOV qword ptr [RSP + 0x40],RDI ADD RDI,0x20 CALL 0x001c7b80 TEST AL,0x1 JNZ 0x001cd0be JMP 0x001cd0df LAB_001cd0be: LEA RDI,[0x2c5f11] MOV ESI,0x1c28 LEA RDX,[0x2c28eb] LEA RCX,[0x2c7396] MOV AL,0x0 CALL 0x00155cd0 LAB_001cd0df: MOV RDI,qword ptr [RSP + 0x40] ADD RDI,0x20 CALL 0x001c7c00 MOV qword ptr [RSP + 0x110],RAX MOV qword ptr [RSP + 0x118],RDX LEA RDI,[RSP + 0x110] CALL 0x001c5d40 XOR AL,0xff TEST AL,0x1 JNZ 0x001cd112 JMP 0x001cd148 LAB_001cd112: MOV byte ptr [RSP + 0x10f],0x0 MOV qword ptr [RSP + 0x100],0x0 LEA RDI,[RSP + 0x138] LEA RSI,[RSP + 0x10f] LEA RDX,[RSP + 0x100] CALL 0x001c8710 JMP 0x001cd5b1 LAB_001cd148: MOV RSI,qword ptr [RSP + 0x128] LEA RDI,[RSP + 0xf0] CALL 0x001cd5e0 MOV AL,0x1 TEST byte ptr [RSP + 0x127],0x1 MOV byte ptr [RSP + 0x3f],AL JNZ 0x001cd1b0 MOV RDI,qword ptr [RSP + 0x40] MOV RAX,RDI SUB RAX,-0x80 MOV qword ptr [RSP + 0x30],RAX ADD RDI,0x8 CALL 0x001c7d00 MOV RDI,qword ptr [RSP + 0x30] MOV ESI,EAX LAB_001cd18e: MOV EDX,0x5 LEA RCX,[RSP + 0xf0] CALL 0x001c7ca0 MOV byte ptr [RSP + 0x3e],AL JMP 0x001cd1a6 LAB_001cd1a6: MOV AL,byte ptr [RSP + 0x3e] MOV byte ptr [RSP + 0x3f],AL JMP 0x001cd1b0 LAB_001cd1b0: MOV AL,byte ptr [RSP + 0x3f] AND AL,0x1 MOV byte ptr [RSP + 0xef],AL TEST byte ptr [RSP + 0xef],0x1 JNZ 0x001cd230 MOV byte ptr [RSP + 0xdb],0x0 MOV qword ptr [RSP + 0xd0],0x0 LEA RDI,[RSP + 0x138] LEA RSI,[RSP + 0xdb] LEA RDX,[RSP + 0xd0] CALL 0x001c8710 JMP 0x001cd1fa LAB_001cd1fa: MOV dword ptr [RSP + 0xcc],0x1 JMP 0x001cd5a4 LAB_001cd230: MOV RDI,qword ptr [RSP + 0x40] ADD RDI,0x8 CALL 0x001c8740 TEST AL,0x1 JNZ 0x001cd244 JMP 0x001cd2c1 LAB_001cd244: LEA RDI,[RSP + 0xb8] MOV qword ptr [RSP + 0x28],RDI LEA RSI,[RSP + 0xf0] CALL 0x001ae880 MOV RSI,qword ptr [RSP + 0x28] MOV RAX,qword ptr [RSP + 0x40] MOV RDI,qword ptr [RAX] CALL 0x0017c520 MOV RDI,qword ptr [RSP + 0x28] CALL 0x0017c5a0 MOV RAX,qword ptr [RSP + 0x40] MOV byte ptr [RSP + 0xb7],0x1 MOV RAX,qword ptr [RAX] MOV qword ptr [RSP + 0xa8],RAX LEA RDI,[RSP + 0x138] LEA RSI,[RSP + 0xb7] LEA RDX,[RSP + 0xa8] CALL 0x001c8790 JMP 0x001cd2b1 LAB_001cd2b1: MOV dword ptr [RSP + 0xcc],0x1 JMP 0x001cd5a4 LAB_001cd2c1: MOV RDI,qword ptr [RSP + 0x40] ADD RDI,0x8 CALL 0x001c82f0 CMP qword ptr [RAX],0x0 JNZ 0x001cd318 MOV byte ptr [RSP + 0xa7],0x0 MOV qword ptr [RSP + 0x98],0x0 LEA RDI,[RSP + 0x138] LEA RSI,[RSP + 0xa7] LEA RDX,[RSP + 0x98] CALL 0x001c8710 JMP 0x001cd308 LAB_001cd308: MOV dword ptr [RSP + 0xcc],0x1 JMP 0x001cd5a4 LAB_001cd318: MOV RDI,qword ptr [RSP + 0x40] ADD RDI,0x8 CALL 0x001c82f0 MOV RDI,qword ptr [RAX] CALL 0x001b18c0 TEST AL,0x1 JNZ 0x001cd36f MOV RDI,qword ptr [RSP + 0x40] ADD RDI,0x8 CALL 0x001c82f0 MOV RDI,qword ptr [RAX] CALL 0x001b1900 TEST AL,0x1 JNZ 0x001cd36f LEA RDI,[0x2c5f11] LEA RDX,[0x2c28eb] LEA RCX,[0x2c73aa] XOR EAX,EAX MOV ESI,0x1c4b CALL 0x00155cd0 JMP 0x001cd36f LAB_001cd36f: MOV RDI,qword ptr [RSP + 0x40] ADD RDI,0x8 CALL 0x001c82f0 MOV RDI,qword ptr [RAX] CALL 0x001b18c0 TEST AL,0x1 JNZ 0x001cd38b JMP 0x001cd408 LAB_001cd38b: MOV RDI,qword ptr [RSP + 0x40] ADD RDI,0x8 CALL 0x001c82f0 MOV RAX,qword ptr [RAX] MOV RDI,qword ptr [RAX + 0x8] LEA RSI,[RSP + 0xf0] CALL 0x001b2350 JMP 0x001cd3af LAB_001cd3af: MOV RDI,qword ptr [RSP + 0x40] MOV byte ptr [RSP + 0x97],0x1 ADD RDI,0x8 CALL 0x001c82f0 MOV RAX,qword ptr [RAX] MOV RDI,qword ptr [RAX + 0x8] CALL 0x001b1860 MOV qword ptr [RSP + 0x88],RAX LEA RDI,[RSP + 0x138] LEA RSI,[RSP + 0x97] LEA RDX,[RSP + 0x88] CALL 0x001c8790 JMP 0x001cd3f8 LAB_001cd3f8: MOV dword ptr [RSP + 0xcc],0x1 JMP 0x001cd5a4 LAB_001cd408: MOV RDI,qword ptr [RSP + 0x40] ADD RDI,0x8 CALL 0x001c82f0 MOV RDI,qword ptr [RAX] CALL 0x001b1900 TEST AL,0x1 JNZ 0x001cd445 LEA RDI,[0x2c5f11] LEA RDX,[0x2c28eb] LEA RCX,[0x2c73ca] XOR EAX,EAX MOV ESI,0x1c55 CALL 0x00155cd0 JMP 0x001cd445 LAB_001cd445: MOV RDI,qword ptr [RSP + 0x40] ADD RDI,0x48 CALL 0x001c7b80 TEST AL,0x1 JNZ 0x001cd459 JMP 0x001cd47c LAB_001cd459: LEA RDI,[0x2c5f11] LEA RDX,[0x2c28eb] LEA RCX,[0x2c73e8] XOR EAX,EAX MOV ESI,0x1c57 CALL 0x00155cd0 JMP 0x001cd47c LAB_001cd47c: MOV RDI,qword ptr [RSP + 0x40] ADD RDI,0x48 CALL 0x001c7c00 MOV qword ptr [RSP + 0x18],RDX MOV qword ptr [RSP + 0x20],RAX JMP 0x001cd496 LAB_001cd496: MOV RAX,qword ptr [RSP + 0x18] MOV RCX,qword ptr [RSP + 0x20] MOV qword ptr [RSP + 0x70],RCX MOV qword ptr [RSP + 0x78],RAX LEA RDI,[RSP + 0x70] CALL 0x001c5d40 MOV RDI,qword ptr [RSP + 0x40] MOV byte ptr [RSP + 0x87],AL ADD RDI,0x48 CALL 0x001c7c80 JMP 0x001cd4cb LAB_001cd4cb: TEST byte ptr [RSP + 0x87],0x1 JNZ 0x001cd50c MOV byte ptr [RSP + 0x6f],0x0 MOV qword ptr [RSP + 0x60],0x0 LEA RDI,[RSP + 0x138] LEA RSI,[RSP + 0x6f] LEA RDX,[RSP + 0x60] CALL 0x001c8710 JMP 0x001cd4fc LAB_001cd4fc: MOV dword ptr [RSP + 0xcc],0x1 JMP 0x001cd5a4 LAB_001cd50c: MOV RAX,qword ptr [RSP + 0x40] CMP qword ptr [RAX + 0x70],0x0 JNZ 0x001cd53b LEA RDI,[0x2c5f11] LEA RDX,[0x2c28eb] LEA RCX,[0x2c7400] XOR EAX,EAX MOV ESI,0x1c60 CALL 0x00155cd0 JMP 0x001cd53b LAB_001cd53b: LEA RDI,[RSP + 0x50] MOV qword ptr [RSP + 0x8],RDI LEA RSI,[RSP + 0xf0] CALL 0x001ae880 MOV RAX,qword ptr [RSP + 0x40] MOV RSI,qword ptr [RSP + 0x8] MOV RCX,RAX ADD RCX,0x70 MOV qword ptr [RSP + 0x10],RCX MOV RDI,qword ptr [RAX + 0x70] CALL 0x0017c520 MOV RDI,qword ptr [RSP + 0x8] CALL 0x0017c5a0 MOV RDX,qword ptr [RSP + 0x10] MOV byte ptr [RSP + 0x4f],0x1 LEA RDI,[RSP + 0x138] LEA RSI,[RSP + 0x4f] CALL 0x001c87c0 LAB_001cd597: JMP 0x001cd599 LAB_001cd599: MOV dword ptr [RSP + 0xcc],0x1 LAB_001cd5a4: LEA RDI,[RSP + 0xf0] CALL 0x0017c5a0 LAB_001cd5b1: MOV AL,byte ptr [RSP + 0x138] MOV RDX,qword ptr [RSP + 0x140] ADD RSP,0x148 RET
/* std::pair<bool, nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::string, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char> >, void>*> nlohmann::json_abi_v3_11_3::detail::json_sax_dom_callback_parser<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::string, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char> >, void> >::handle_value<double&>(double&, bool) */ int1 [16] __thiscall nlohmann::json_abi_v3_11_3::detail:: json_sax_dom_callback_parser<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>> ::handle_value<double&> (json_sax_dom_callback_parser<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>> *this,double *param_1,bool param_2) { bool bVar1; int4 uVar2; ulong uVar3; long *plVar4; int8 *puVar5; int8 uVar6; int1 auVar7 [16]; byte local_109; int1 local_f9; basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> local_f8 [16]; int8 local_e8; int1 local_d9; int1 local_d8 [16]; byte local_c1; int8 local_c0; int1 local_b1; int8 local_b0; int1 local_a1; int8 local_a0; int1 local_91; basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> local_90 [20]; int4 local_7c; int8 local_78; int1 local_6d [20]; byte local_59; basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> local_58 [16]; int8 local_48; int1 local_39; _Bit_reference local_38 [23]; byte local_21; double *local_20; json_sax_dom_callback_parser<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>> *local_18; int1 local_10 [8]; int8 local_8; local_21 = param_2; local_20 = param_1; local_18 = this; uVar3 = std::vector<bool,std::allocator<bool>>::empty ((vector<bool,std::allocator<bool>> *)(this + 0x20)); if ((uVar3 & 1) != 0) { ggml_abort("/workspace/llm4binary/github/2025_star3/monkey531[P]llama/common/json.hpp",0x1c28, "GGML_ASSERT(%s) failed","!keep_stack.empty()"); } local_38._0_16_ = std::vector<bool,std::allocator<bool>>::back ((vector<bool,std::allocator<bool>> *)(this + 0x20)); bVar1 = std::_Bit_reference::operator_cast_to_bool(local_38); if (((bVar1 ^ 0xffU) & 1) == 0) { _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvEC2IRddTnNSt9enable_ifIXaantsr6detail13is_basic_jsonIT0_EE5valuesr6detail18is_compatible_typeISD_SH_EE5valueEiE4typeELi0EEEOT_ (local_58,local_20); local_109 = 1; if ((local_21 & 1) == 0) { uVar2 = std:: vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*>> ::size((vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*>> *)(this + 8)); /* try { // try from 001cd18e to 001cd596 has its CatchHandler @ 001cd20a */ local_109 = std:: function<bool(int,nlohmann::json_abi_v3_11_3::detail::parse_event_t,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>&)> ::operator()((function<bool(int,nlohmann::json_abi_v3_11_3::detail::parse_event_t,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>&)> *)(this + 0x80),uVar2,5,local_58); } local_59 = local_109 & 1; if (local_59 == 0) { local_6d[0] = 0; local_78 = 0; _ZNSt4pairIbPN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES4_IhSaIhEEvEEEC2IbDnTnNSt9enable_ifIXaaclsr5_PCCPE22_MoveConstructiblePairIT_T0_EEclsr5_PCCPE30_ImplicitlyMoveConvertiblePairISJ_SK_EEEbE4typeELb1EEEOSJ_OSK_ (local_10,local_6d,&local_78); } else { uVar3 = std:: vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*>> ::empty((vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*>> *)(this + 8)); if ((uVar3 & 1) == 0) { plVar4 = (long *)std:: vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*>> ::back((vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*>> *)(this + 8)); if (*plVar4 == 0) { local_a1 = 0; local_b0 = 0; _ZNSt4pairIbPN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES4_IhSaIhEEvEEEC2IbDnTnNSt9enable_ifIXaaclsr5_PCCPE22_MoveConstructiblePairIT_T0_EEclsr5_PCCPE30_ImplicitlyMoveConvertiblePairISJ_SK_EEEbE4typeELb1EEEOSJ_OSK_ (local_10,&local_a1,&local_b0); } else { puVar5 = (int8 *) std:: vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*>> ::back((vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*>> *)(this + 8)); uVar3 = basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::is_array((basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> *)*puVar5); if ((uVar3 & 1) == 0) { puVar5 = (int8 *) std:: vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*>> ::back((vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*>> *)(this + 8)); uVar3 = basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::is_object((basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> *)*puVar5); if ((uVar3 & 1) == 0) { ggml_abort("/workspace/llm4binary/github/2025_star3/monkey531[P]llama/common/json.hpp" ,0x1c4b,"GGML_ASSERT(%s) failed", "ref_stack.back()->is_array() || ref_stack.back()->is_object()"); } } puVar5 = (int8 *) std:: vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*>> ::back((vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*>> *)(this + 8)); uVar3 = basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::is_array((basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> *)*puVar5); if ((uVar3 & 1) == 0) { puVar5 = (int8 *) std:: vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*>> ::back((vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*>> *)(this + 8)); uVar3 = basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::is_object((basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> *)*puVar5); if ((uVar3 & 1) == 0) { ggml_abort("/workspace/llm4binary/github/2025_star3/monkey531[P]llama/common/json.hpp" ,0x1c55,"GGML_ASSERT(%s) failed","ref_stack.back()->is_object()"); } uVar3 = std::vector<bool,std::allocator<bool>>::empty ((vector<bool,std::allocator<bool>> *)(this + 0x48)); if ((uVar3 & 1) != 0) { ggml_abort("/workspace/llm4binary/github/2025_star3/monkey531[P]llama/common/json.hpp" ,0x1c57,"GGML_ASSERT(%s) failed","!key_keep_stack.empty()"); } local_d8 = std::vector<bool,std::allocator<bool>>::back ((vector<bool,std::allocator<bool>> *)(this + 0x48)); local_c1 = std::_Bit_reference::operator_cast_to_bool((_Bit_reference *)local_d8); std::vector<bool,std::allocator<bool>>::pop_back ((vector<bool,std::allocator<bool>> *)(this + 0x48)); if ((local_c1 & 1) == 0) { local_d9 = 0; local_e8 = 0; _ZNSt4pairIbPN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES4_IhSaIhEEvEEEC2IbDnTnNSt9enable_ifIXaaclsr5_PCCPE22_MoveConstructiblePairIT_T0_EEclsr5_PCCPE30_ImplicitlyMoveConvertiblePairISJ_SK_EEEbE4typeELb1EEEOSJ_OSK_ (local_10,&local_d9,&local_e8); } else { if (*(long *)(this + 0x70) == 0) { ggml_abort("/workspace/llm4binary/github/2025_star3/monkey531[P]llama/common/json.hpp" ,0x1c60,"GGML_ASSERT(%s) failed","object_element"); } basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::basic_json(local_f8,local_58); basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::operator=(*(basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> **)(this + 0x70),local_f8); basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::~basic_json(local_f8); local_f9 = 1; _ZNSt4pairIbPN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES4_IhSaIhEEvEEEC2IbRSF_TnNSt9enable_ifIXaaclsr5_PCCPE22_MoveConstructiblePairIT_T0_EEclsr5_PCCPE30_ImplicitlyMoveConvertiblePairISK_SL_EEEbE4typeELb1EEEOSK_OSL_ (local_10,&local_f9,this + 0x70); } } else { plVar4 = (long *)std:: vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*>> ::back((vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*>> *)(this + 8)); std:: vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>>> :: emplace_back<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>> (*(vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>>> **)(*plVar4 + 8),local_58); local_b1 = 1; plVar4 = (long *)std:: vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*>> ::back((vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>*>> *)(this + 8)); local_c0 = std:: vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>>> ::back(*(vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>>> **)(*plVar4 + 8)); _ZNSt4pairIbPN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES4_IhSaIhEEvEEEC2IbSF_TnNSt9enable_ifIXaaclsr5_PCCPE22_MoveConstructiblePairIT_T0_EEclsr5_PCCPE30_ImplicitlyMoveConvertiblePairISJ_SK_EEEbE4typeELb1EEEOSJ_OSK_ (local_10,&local_b1,&local_c0); } } } else { basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::basic_json(local_90,local_58); basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::operator=(*(basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> **)this,local_90); basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::~basic_json(local_90); local_91 = 1; local_a0 = *(int8 *)this; _ZNSt4pairIbPN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES4_IhSaIhEEvEEEC2IbSF_TnNSt9enable_ifIXaaclsr5_PCCPE22_MoveConstructiblePairIT_T0_EEclsr5_PCCPE30_ImplicitlyMoveConvertiblePairISJ_SK_EEEbE4typeELb1EEEOSJ_OSK_ (local_10,&local_91,&local_a0); } } local_7c = 1; uVar6 = basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::~basic_json(local_58); } else { local_39 = 0; local_48 = 0; uVar6 = _ZNSt4pairIbPN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES4_IhSaIhEEvEEEC2IbDnTnNSt9enable_ifIXaaclsr5_PCCPE22_MoveConstructiblePairIT_T0_EEclsr5_PCCPE30_ImplicitlyMoveConvertiblePairISJ_SK_EEEbE4typeELb1EEEOSJ_OSK_ (local_10,&local_39,&local_48); } auVar7._1_7_ = (int7)((ulong)uVar6 >> 8); auVar7[0] = local_10[0]; auVar7._8_8_ = local_8; return auVar7; }
40,806
std::pair<bool, nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>*> nlohmann::json_abi_v3_11_3::detail::json_sax_dom_callback_parser<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>>::handle_value<double&>(double&, bool)
monkey531[P]llama/common/json.hpp
std::pair<bool, BasicJsonType*> handle_value(Value&& v, const bool skip_callback = false) { JSON_ASSERT(!keep_stack.empty()); // do not handle this value if we know it would be added to a discarded // container if (!keep_stack.back()) { return {false, nullptr}; } // create value auto value = BasicJsonType(std::forward<Value>(v)); // check callback const bool keep = skip_callback || callback(static_cast<int>(ref_stack.size()), parse_event_t::value, value); // do not handle this value if we just learnt it shall be discarded if (!keep) { return {false, nullptr}; } if (ref_stack.empty()) { root = std::move(value); return {true, & root}; } // skip this value if we already decided to skip the parent // (https://github.com/nlohmann/json/issues/971#issuecomment-413678360) if (!ref_stack.back()) { return {false, nullptr}; } // we now only expect arrays and objects JSON_ASSERT(ref_stack.back()->is_array() || ref_stack.back()->is_object()); // array if (ref_stack.back()->is_array()) { ref_stack.back()->m_data.m_value.array->emplace_back(std::move(value)); return {true, & (ref_stack.back()->m_data.m_value.array->back())}; } // object JSON_ASSERT(ref_stack.back()->is_object()); // check if we should store an element for the current key JSON_ASSERT(!key_keep_stack.empty()); const bool store_element = key_keep_stack.back(); key_keep_stack.pop_back(); if (!store_element) { return {false, nullptr}; } JSON_ASSERT(object_element); *object_element = std::move(value); return {true, object_element}; }
O2
cpp
std::pair<bool, nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>*> nlohmann::json_abi_v3_11_3::detail::json_sax_dom_callback_parser<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>>::handle_value<double&>(double&, bool): pushq %rbp pushq %r15 pushq %r14 pushq %rbx subq $0x38, %rsp movl %edx, %ebp movq %rsi, %r14 movq %rdi, %rbx movq 0x20(%rdi), %rax cmpq 0x30(%rdi), %rax jne 0x4a67c cmpl $0x0, 0x38(%rbx) je 0x4a7d5 leaq 0x20(%rbx), %rdi callq 0x4a604 testq %rdx, (%rax) je 0x4a718 movzbl (%r14), %esi leaq 0x8(%rsp), %rdi callq 0x48d6e testb %bpl, %bpl jne 0x4a6c9 leaq 0x80(%rbx), %rdi movq 0x10(%rbx), %rsi subq 0x8(%rbx), %rsi shrq $0x3, %rsi pushq $0x5 popq %rdx leaq 0x8(%rsp), %rcx callq 0x4a632 testb %al, %al je 0x4a7b6 movq 0x10(%rbx), %rax cmpq %rax, 0x8(%rbx) je 0x4a722 movq -0x8(%rax), %rax testq %rax, %rax je 0x4a7b6 movzbl (%rax), %ecx cmpl $0x1, %ecx je 0x4a74c cmpl $0x2, %ecx jne 0x4a7f6 movq 0x8(%rax), %rdi leaq 0x8(%rsp), %rsi callq 0x42b50 movq 0x10(%rbx), %rax movq -0x8(%rax), %rax movq 0x8(%rax), %rax movq 0x8(%rax), %r14 addq $-0x10, %r14 jmp 0x4a7b2 xorl %ebx, %ebx xorl %r14d, %r14d jmp 0x4a7c5 leaq 0x28(%rsp), %r14 leaq 0x8(%rsp), %rsi movq %r14, %rdi callq 0x418a6 movq (%rbx), %rdi movq %r14, %rsi callq 0x31420 movq %r14, %rdi callq 0x31464 movq (%rbx), %r14 jmp 0x4a7b2 movq 0x48(%rbx), %rax cmpq 0x58(%rbx), %rax jne 0x4a760 cmpl $0x0, 0x60(%rbx) je 0x4a804 leaq 0x48(%rbx), %rdi callq 0x4a604 movq %rdx, %r14 leaq 0x58(%rbx), %rdi movq (%rax), %r15 callq 0x49c9a testq %r14, %r15 je 0x4a7b6 cmpq $0x0, 0x70(%rbx) je 0x4a825 leaq 0x18(%rsp), %r14 leaq 0x8(%rsp), %rsi movq %r14, %rdi callq 0x418a6 movq 0x70(%rbx), %rdi movq %r14, %rsi callq 0x31420 movq %r14, %rdi callq 0x31464 movq 0x70(%rbx), %r14 movb $0x1, %bl jmp 0x4a7bb xorl %ebx, %ebx xorl %r14d, %r14d leaq 0x8(%rsp), %rdi callq 0x31464 movl %ebx, %eax movq %r14, %rdx addq $0x38, %rsp popq %rbx popq %r14 popq %r15 popq %rbp retq leaq 0x49cd6(%rip), %rdi # 0x944b2 leaq 0x4718c(%rip), %rdx # 0x9196f leaq 0x4b154(%rip), %rcx # 0x9593e movl $0x1c28, %esi # imm = 0x1C28 xorl %eax, %eax callq 0x22c90 leaq 0x4b155(%rip), %rcx # 0x95952 movl $0x1c4b, %esi # imm = 0x1C4B jmp 0x4a810 leaq 0x4b185(%rip), %rcx # 0x95990 movl $0x1c57, %esi # imm = 0x1C57 leaq 0x49c9b(%rip), %rdi # 0x944b2 leaq 0x47151(%rip), %rdx # 0x9196f xorl %eax, %eax callq 0x22c90 leaq 0x49c86(%rip), %rdi # 0x944b2 leaq 0x4713c(%rip), %rdx # 0x9196f leaq 0x4b16e(%rip), %rcx # 0x959a8 movl $0x1c60, %esi # imm = 0x1C60 xorl %eax, %eax callq 0x22c90 jmp 0x4a84a jmp 0x4a84a movq %rax, %rbx leaq 0x8(%rsp), %rdi callq 0x31464 movq %rbx, %rdi callq 0x22d30 nop
_ZN8nlohmann16json_abi_v3_11_36detail28json_sax_dom_callback_parserINS0_10basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES5_IhSaIhEEvEEE12handle_valueINS1_7value_tEEESt4pairIbPSF_EOT_b: push rbp push r15 push r14 push rbx sub rsp, 38h mov ebp, edx mov r14, rsi mov rbx, rdi mov rax, [rdi+20h] cmp rax, [rdi+30h] jnz short loc_4A67C cmp dword ptr [rbx+38h], 0 jz loc_4A7D5 loc_4A67C: lea rdi, [rbx+20h] call _ZNSt6vectorIbSaIbEE4backEv; std::vector<bool>::back(void) test [rax], rdx jz loc_4A718 movzx esi, byte ptr [r14] lea rdi, [rsp+58h+var_50] call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvEC2ENS0_6detail7value_tE; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::basic_json(nlohmann::json_abi_v3_11_3::detail::value_t) test bpl, bpl jnz short loc_4A6C9 lea rdi, [rbx+80h] mov rsi, [rbx+10h] sub rsi, [rbx+8] shr rsi, 3 push 5 pop rdx lea rcx, [rsp+58h+var_50] call _ZNKSt8functionIFbiN8nlohmann16json_abi_v3_11_36detail13parse_event_tERNS1_10basic_jsonINS1_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES6_IhSaIhEEvEEEEclEiS3_SH_; std::function<bool ()(int,nlohmann::json_abi_v3_11_3::detail::parse_event_t,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> &)>::operator()(int,nlohmann::json_abi_v3_11_3::detail::parse_event_t,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> &) test al, al jz loc_4A7B6 loc_4A6C9: mov rax, [rbx+10h] cmp [rbx+8], rax jz short loc_4A722 mov rax, [rax-8] test rax, rax jz loc_4A7B6 movzx ecx, byte ptr [rax] cmp ecx, 1 jz short loc_4A74C cmp ecx, 2 jnz loc_4A7F6 mov rdi, [rax+8] lea rsi, [rsp+58h+var_50] call _ZNSt6vectorIN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapES_NSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES_IhSaIhEEvEESaISD_EE12emplace_backIJSD_EEERSD_DpOT_; std::vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>>::emplace_back<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>>(nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> &&) mov rax, [rbx+10h] mov rax, [rax-8] mov rax, [rax+8] mov r14, [rax+8] add r14, 0FFFFFFFFFFFFFFF0h jmp loc_4A7B2 loc_4A718: xor ebx, ebx xor r14d, r14d jmp loc_4A7C5 loc_4A722: lea r14, [rsp+58h+var_30] lea rsi, [rsp+58h+var_50] mov rdi, r14 call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvEC2EOSD_; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::basic_json(nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>&&) mov rdi, [rbx] mov rsi, r14 call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvEaSESD_; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::operator=(nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>) mov rdi, r14 call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvED2Ev; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::~basic_json() mov r14, [rbx] jmp short loc_4A7B2 loc_4A74C: mov rax, [rbx+48h] cmp rax, [rbx+58h] jnz short loc_4A760 cmp dword ptr [rbx+60h], 0 jz loc_4A804 loc_4A760: lea rdi, [rbx+48h] call _ZNSt6vectorIbSaIbEE4backEv; std::vector<bool>::back(void) mov r14, rdx lea rdi, [rbx+58h]; this mov r15, [rax] call _ZNSt18_Bit_iterator_base12_M_bump_downEv; std::_Bit_iterator_base::_M_bump_down(void) test r15, r14 jz short loc_4A7B6 cmp qword ptr [rbx+70h], 0 jz loc_4A825 lea r14, [rsp+58h+var_40] lea rsi, [rsp+58h+var_50] mov rdi, r14 call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvEC2EOSD_; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::basic_json(nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>&&) mov rdi, [rbx+70h] mov rsi, r14 call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvEaSESD_; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::operator=(nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>) mov rdi, r14 call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvED2Ev; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::~basic_json() mov r14, [rbx+70h] loc_4A7B2: mov bl, 1 jmp short loc_4A7BB loc_4A7B6: xor ebx, ebx xor r14d, r14d loc_4A7BB: lea rdi, [rsp+58h+var_50] call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvED2Ev; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::~basic_json() loc_4A7C5: mov eax, ebx mov rdx, r14 add rsp, 38h pop rbx pop r14 pop r15 pop rbp retn loc_4A7D5: lea rdi, aWorkspaceLlm4b_2; "/workspace/llm4binary/github/2025_star3"... lea rdx, aGgmlAssertSFai; "GGML_ASSERT(%s) failed" lea rcx, aKeepStackEmpty; "!keep_stack.empty()" mov esi, 1C28h xor eax, eax call _ggml_abort loc_4A7F6: lea rcx, aRefStackBackIs; "ref_stack.back()->is_array() || ref_sta"... mov esi, 1C4Bh jmp short loc_4A810 loc_4A804: lea rcx, aKeyKeepStackEm; "!key_keep_stack.empty()" mov esi, 1C57h loc_4A810: lea rdi, aWorkspaceLlm4b_2; "/workspace/llm4binary/github/2025_star3"... lea rdx, aGgmlAssertSFai; "GGML_ASSERT(%s) failed" xor eax, eax call _ggml_abort loc_4A825: lea rdi, aWorkspaceLlm4b_2; "/workspace/llm4binary/github/2025_star3"... lea rdx, aGgmlAssertSFai; "GGML_ASSERT(%s) failed" lea rcx, aObjectElement; "object_element" mov esi, 1C60h xor eax, eax call _ggml_abort jmp short loc_4A84A jmp short $+2 loc_4A84A: mov rbx, rax lea rdi, [rsp+58h+var_50] call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvED2Ev; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::~basic_json() mov rdi, rbx call __Unwind_Resume
long long nlohmann::json_abi_v3_11_3::detail::json_sax_dom_callback_parser<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>>::handle_value<nlohmann::json_abi_v3_11_3::detail::value_t>( long long a1, long long a2, char a3) { unsigned int v4; // ebx _QWORD *v5; // rax long long v6; // rdx long long v7; // rax unsigned __int8 *v8; // rax int v9; // ecx long long *v10; // rax long long v11; // rdx long long v12; // r14 long long v13; // r15 const char *v15; // rcx long long v16; // rsi long long v17; // rbx char v18[16]; // [rsp+8h] [rbp-50h] BYREF __int128 v19; // [rsp+18h] [rbp-40h] BYREF _OWORD v20[3]; // [rsp+28h] [rbp-30h] BYREF v4 = a1; if ( *(_QWORD *)(a1 + 32) == *(_QWORD *)(a1 + 48) && !*(_DWORD *)(a1 + 56) ) { ggml_abort( "/workspace/llm4binary/github/2025_star3/monkey531[P]llama/common/json.hpp", 7208LL, "GGML_ASSERT(%s) failed", "!keep_stack.empty()"); LABEL_23: v15 = "ref_stack.back()->is_array() || ref_stack.back()->is_object()"; v16 = 7243LL; LABEL_25: ggml_abort( "/workspace/llm4binary/github/2025_star3/monkey531[P]llama/common/json.hpp", v16, "GGML_ASSERT(%s) failed", v15); goto LABEL_26; } v5 = (_QWORD *)std::vector<bool>::back(a1 + 32); if ( (v6 & *v5) != 0 ) { nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::basic_json(v18); if ( a3 || (unsigned __int8)std::function<bool ()(int,nlohmann::json_abi_v3_11_3::detail::parse_event_t,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void> &)>::operator()( a1 + 128, (*(_QWORD *)(a1 + 16) - *(_QWORD *)(a1 + 8)) >> 3, 5) ) { v7 = *(_QWORD *)(a1 + 16); if ( *(_QWORD *)(a1 + 8) == v7 ) { nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::basic_json( v20, (long long)v18); nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::operator=( *(char **)a1, (char *)v20); nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::~basic_json((long long)v20); goto LABEL_18; } v8 = *(unsigned __int8 **)(v7 - 8); if ( v8 ) { v9 = *v8; if ( v9 != 1 ) { if ( v9 == 2 ) { std::vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>>::emplace_back<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>>( *((_QWORD *)v8 + 1), (long long)v18); LABEL_18: LOBYTE(v4) = 1; LABEL_20: nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::~basic_json((long long)v18); return v4; } goto LABEL_23; } if ( *(_QWORD *)(a1 + 72) == *(_QWORD *)(a1 + 88) && !*(_DWORD *)(a1 + 96) ) { v15 = "!key_keep_stack.empty()"; v16 = 7255LL; goto LABEL_25; } v10 = (long long *)std::vector<bool>::back(a1 + 72); v12 = v11; v13 = *v10; std::_Bit_iterator_base::_M_bump_down((std::_Bit_iterator_base *)(a1 + 88)); if ( (v12 & v13) != 0 ) { if ( *(_QWORD *)(a1 + 112) ) { nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::basic_json( &v19, (long long)v18); nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::operator=( *(char **)(a1 + 112), (char *)&v19); nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::~basic_json((long long)&v19); goto LABEL_18; } LABEL_26: v17 = ggml_abort( "/workspace/llm4binary/github/2025_star3/monkey531[P]llama/common/json.hpp", 7264LL, "GGML_ASSERT(%s) failed", "object_element"); nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::~basic_json((long long)v18); _Unwind_Resume(v17); } } } v4 = 0; goto LABEL_20; } return 0; }
handle_value<nlohmann::json_abi_v3_11_3::detail::value_t>: PUSH RBP PUSH R15 PUSH R14 PUSH RBX SUB RSP,0x38 MOV EBP,EDX MOV R14,RSI MOV RBX,RDI MOV RAX,qword ptr [RDI + 0x20] CMP RAX,qword ptr [RDI + 0x30] JNZ 0x0014a67c CMP dword ptr [RBX + 0x38],0x0 JZ 0x0014a7d5 LAB_0014a67c: LEA RDI,[RBX + 0x20] CALL 0x0014a604 TEST qword ptr [RAX],RDX JZ 0x0014a718 MOVZX ESI,byte ptr [R14] LEA RDI,[RSP + 0x8] CALL 0x00148d6e TEST BPL,BPL JNZ 0x0014a6c9 LEA RDI,[RBX + 0x80] MOV RSI,qword ptr [RBX + 0x10] SUB RSI,qword ptr [RBX + 0x8] SHR RSI,0x3 LAB_0014a6b4: PUSH 0x5 POP RDX LEA RCX,[RSP + 0x8] CALL 0x0014a632 TEST AL,AL JZ 0x0014a7b6 LAB_0014a6c9: MOV RAX,qword ptr [RBX + 0x10] CMP qword ptr [RBX + 0x8],RAX JZ 0x0014a722 MOV RAX,qword ptr [RAX + -0x8] TEST RAX,RAX JZ 0x0014a7b6 MOVZX ECX,byte ptr [RAX] CMP ECX,0x1 JZ 0x0014a74c CMP ECX,0x2 JNZ 0x0014a7f6 MOV RDI,qword ptr [RAX + 0x8] LEA RSI,[RSP + 0x8] CALL 0x00142b50 MOV RAX,qword ptr [RBX + 0x10] MOV RAX,qword ptr [RAX + -0x8] MOV RAX,qword ptr [RAX + 0x8] MOV R14,qword ptr [RAX + 0x8] ADD R14,-0x10 JMP 0x0014a7b2 LAB_0014a718: XOR EBX,EBX XOR R14D,R14D JMP 0x0014a7c5 LAB_0014a722: LEA R14,[RSP + 0x28] LEA RSI,[RSP + 0x8] MOV RDI,R14 CALL 0x001418a6 MOV RDI,qword ptr [RBX] MOV RSI,R14 CALL 0x00131420 MOV RDI,R14 CALL 0x00131464 MOV R14,qword ptr [RBX] JMP 0x0014a7b2 LAB_0014a74c: MOV RAX,qword ptr [RBX + 0x48] CMP RAX,qword ptr [RBX + 0x58] JNZ 0x0014a760 CMP dword ptr [RBX + 0x60],0x0 JZ 0x0014a804 LAB_0014a760: LEA RDI,[RBX + 0x48] CALL 0x0014a604 LAB_0014a769: MOV R14,RDX LEA RDI,[RBX + 0x58] MOV R15,qword ptr [RAX] CALL 0x00149c9a TEST R15,R14 JZ 0x0014a7b6 CMP qword ptr [RBX + 0x70],0x0 JZ 0x0014a825 LEA R14,[RSP + 0x18] LEA RSI,[RSP + 0x8] MOV RDI,R14 CALL 0x001418a6 MOV RDI,qword ptr [RBX + 0x70] MOV RSI,R14 CALL 0x00131420 MOV RDI,R14 CALL 0x00131464 MOV R14,qword ptr [RBX + 0x70] LAB_0014a7b2: MOV BL,0x1 JMP 0x0014a7bb LAB_0014a7b6: XOR EBX,EBX XOR R14D,R14D LAB_0014a7bb: LEA RDI,[RSP + 0x8] CALL 0x00131464 LAB_0014a7c5: MOV EAX,EBX MOV RDX,R14 ADD RSP,0x38 POP RBX POP R14 POP R15 POP RBP RET LAB_0014a7d5: LEA RDI,[0x1944b2] LEA RDX,[0x19196f] LEA RCX,[0x19593e] MOV ESI,0x1c28 XOR EAX,EAX CALL 0x00122c90 LAB_0014a7f6: LEA RCX,[0x195952] MOV ESI,0x1c4b JMP 0x0014a810 LAB_0014a804: LEA RCX,[0x195990] MOV ESI,0x1c57 LAB_0014a810: LEA RDI,[0x1944b2] LEA RDX,[0x19196f] XOR EAX,EAX CALL 0x00122c90 LAB_0014a825: LEA RDI,[0x1944b2] LEA RDX,[0x19196f] LEA RCX,[0x1959a8] MOV ESI,0x1c60 XOR EAX,EAX CALL 0x00122c90
/* std::pair<bool, nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::string, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char> >, void>*> nlohmann::json_abi_v3_11_3::detail::json_sax_dom_callback_parser<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::string, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char> >, void> >::handle_value<nlohmann::json_abi_v3_11_3::detail::value_t>(nlohmann::json_abi_v3_11_3::detail::value_t&&, bool) */ int1 [16] __thiscall nlohmann::json_abi_v3_11_3::detail:: json_sax_dom_callback_parser<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>> ::handle_value<nlohmann::json_abi_v3_11_3::detail::value_t> (json_sax_dom_callback_parser<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>> *this,value_t *param_1,bool param_2) { char cVar1; char *pcVar2; ulong uVar3; int8 uVar4; long lVar5; int1 auVar6 [16]; basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> local_50 [16]; basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> local_40 [16]; basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> local_30 [16]; if ((*(long *)(this + 0x20) == *(long *)(this + 0x30)) && (*(int *)(this + 0x38) == 0)) { /* WARNING: Subroutine does not return */ ggml_abort("/workspace/llm4binary/github/2025_star3/monkey531[P]llama/common/json.hpp",0x1c28, "GGML_ASSERT(%s) failed","!keep_stack.empty()"); } auVar6 = std::vector<bool,std::allocator<bool>>::back ((vector<bool,std::allocator<bool>> *)(this + 0x20)); if ((*auVar6._0_8_ & auVar6._8_8_) == 0) { uVar3 = 0; lVar5 = 0; goto LAB_0014a7c5; } basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::basic_json(local_50,*param_1); if (param_2) { LAB_0014a6c9: if (*(long *)(this + 8) == *(long *)(this + 0x10)) { basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::basic_json(local_30,local_50); basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::operator=(*(basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> **)this,local_30); basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::~basic_json(local_30); lVar5 = *(long *)this; } else { pcVar2 = *(char **)(*(long *)(this + 0x10) + -8); if (pcVar2 == (char *)0x0) goto LAB_0014a7b6; if (*pcVar2 == '\x01') { if ((*(long *)(this + 0x48) == *(long *)(this + 0x58)) && (*(int *)(this + 0x60) == 0)) { pcVar2 = "!key_keep_stack.empty()"; uVar4 = 0x1c57; goto LAB_0014a810; } /* try { // try from 0014a760 to 0014a768 has its CatchHandler @ 0014a848 */ auVar6 = std::vector<bool,std::allocator<bool>>::back ((vector<bool,std::allocator<bool>> *)(this + 0x48)); uVar3 = *auVar6._0_8_; std::_Bit_iterator_base::_M_bump_down((_Bit_iterator_base *)(this + 0x58)); if ((uVar3 & auVar6._8_8_) == 0) goto LAB_0014a7b6; if (*(long *)(this + 0x70) == 0) { /* try { // try from 0014a825 to 0014a845 has its CatchHandler @ 0014a846 */ /* WARNING: Subroutine does not return */ ggml_abort("/workspace/llm4binary/github/2025_star3/monkey531[P]llama/common/json.hpp", 0x1c60,"GGML_ASSERT(%s) failed","object_element"); } basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::basic_json(local_40,local_50); basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::operator=(*(basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> **)(this + 0x70),local_40); basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::~basic_json(local_40); lVar5 = *(long *)(this + 0x70); } else { if (*pcVar2 != '\x02') { pcVar2 = "ref_stack.back()->is_array() || ref_stack.back()->is_object()"; uVar4 = 0x1c4b; LAB_0014a810: /* try { // try from 0014a810 to 0014a824 has its CatchHandler @ 0014a84a */ /* WARNING: Subroutine does not return */ ggml_abort("/workspace/llm4binary/github/2025_star3/monkey531[P]llama/common/json.hpp", uVar4,"GGML_ASSERT(%s) failed",pcVar2); } std:: vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>>> :: emplace_back<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>> (*(vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>>> **)(pcVar2 + 8),local_50); lVar5 = *(long *)(*(long *)(*(long *)(*(long *)(this + 0x10) + -8) + 8) + 8) + -0x10; } } uVar3 = CONCAT71((int7)((ulong)this >> 8),1); } else { /* try { // try from 0014a6b4 to 0014a6fe has its CatchHandler @ 0014a84a */ cVar1 = std:: function<bool(int,nlohmann::json_abi_v3_11_3::detail::parse_event_t,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>&)> ::operator()(this + 0x80,(ulong)(*(long *)(this + 0x10) - *(long *)(this + 8)) >> 3,5, local_50); if (cVar1 != '\0') goto LAB_0014a6c9; LAB_0014a7b6: uVar3 = 0; lVar5 = 0; } basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::~basic_json(local_50); LAB_0014a7c5: auVar6._0_8_ = uVar3 & 0xffffffff; auVar6._8_8_ = lVar5; return auVar6; }
40,807
std::pair<bool, nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>*> nlohmann::json_abi_v3_11_3::detail::json_sax_dom_callback_parser<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>>::handle_value<double&>(double&, bool)
monkey531[P]llama/common/json.hpp
std::pair<bool, BasicJsonType*> handle_value(Value&& v, const bool skip_callback = false) { JSON_ASSERT(!keep_stack.empty()); // do not handle this value if we know it would be added to a discarded // container if (!keep_stack.back()) { return {false, nullptr}; } // create value auto value = BasicJsonType(std::forward<Value>(v)); // check callback const bool keep = skip_callback || callback(static_cast<int>(ref_stack.size()), parse_event_t::value, value); // do not handle this value if we just learnt it shall be discarded if (!keep) { return {false, nullptr}; } if (ref_stack.empty()) { root = std::move(value); return {true, & root}; } // skip this value if we already decided to skip the parent // (https://github.com/nlohmann/json/issues/971#issuecomment-413678360) if (!ref_stack.back()) { return {false, nullptr}; } // we now only expect arrays and objects JSON_ASSERT(ref_stack.back()->is_array() || ref_stack.back()->is_object()); // array if (ref_stack.back()->is_array()) { ref_stack.back()->m_data.m_value.array->emplace_back(std::move(value)); return {true, & (ref_stack.back()->m_data.m_value.array->back())}; } // object JSON_ASSERT(ref_stack.back()->is_object()); // check if we should store an element for the current key JSON_ASSERT(!key_keep_stack.empty()); const bool store_element = key_keep_stack.back(); key_keep_stack.pop_back(); if (!store_element) { return {false, nullptr}; } JSON_ASSERT(object_element); *object_element = std::move(value); return {true, object_element}; }
O3
cpp
std::pair<bool, nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>*> nlohmann::json_abi_v3_11_3::detail::json_sax_dom_callback_parser<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>>::handle_value<double&>(double&, bool): pushq %rbp pushq %r15 pushq %r14 pushq %rbx subq $0x48, %rsp movl %edx, %ebp movq %rdi, %rbx movq 0x30(%rdi), %rax movl 0x38(%rdi), %ecx cmpq %rax, 0x20(%rdi) sete %dl testl %ecx, %ecx sete %dil andb %dl, %dil cmpb $0x1, %dil je 0x50a0c movl %ecx, %ecx movabsq $-0x8000000000000000, %r15 # imm = 0x8000000000000000 leaq -0x1(%rcx), %rdx addq $0x3e, %rcx testq %rdx, %rdx cmovnsq %rdx, %rcx sarq $0x6, %rcx leaq (%rax,%rcx,8), %rax leaq 0x3f(%r15), %rcx andq %rdx, %rcx xorl %edi, %edi cmpq %r15, %rcx setbe %dil movq -0x8(%rax,%rdi,8), %rax btq %rdx, %rax jae 0x5089f xorps %xmm0, %xmm0 leaq 0x10(%rsp), %r14 movaps %xmm0, (%r14) movq (%rsi), %rsi movq %r14, %rdi callq 0x50aa6 movq %r14, %rdi movl $0x1, %esi callq 0x426e2 testb %bpl, %bpl jne 0x5084c movq 0x10(%rbx), %rax subq 0x8(%rbx), %rax shrq $0x3, %rax movl %eax, 0xc(%rsp) movb $0x5, 0xb(%rsp) cmpq $0x0, 0x90(%rbx) je 0x50a2d leaq 0x80(%rbx), %rdi leaq 0xc(%rsp), %rsi leaq 0xb(%rsp), %rdx leaq 0x10(%rsp), %rcx callq *0x98(%rbx) testb %al, %al je 0x509e0 movq 0x10(%rbx), %rax cmpq %rax, 0x8(%rbx) je 0x508a9 movq -0x8(%rax), %rax testq %rax, %rax je 0x509e0 movzbl (%rax), %ecx cmpl $0x1, %ecx je 0x50903 cmpl $0x2, %ecx jne 0x50a32 movq 0x8(%rax), %rdi leaq 0x10(%rsp), %rsi callq 0x43d6e movq 0x10(%rbx), %rax movq -0x8(%rax), %rax movq 0x8(%rax), %rax movq 0x8(%rax), %r14 addq $-0x10, %r14 jmp 0x509dc xorl %ebx, %ebx xorl %r14d, %r14d jmp 0x509fc leaq 0x10(%rsp), %r14 movaps (%r14), %xmm0 leaq 0x30(%rsp), %r15 movaps %xmm0, (%r15) movq %r14, %rdi xorl %esi, %esi callq 0x426e2 movb $0x0, (%r14) movq $0x0, 0x8(%r14) movq %r15, %rdi movl $0x1, %esi callq 0x426e2 movq (%rbx), %rdi movq %r15, %rsi callq 0x2f81c movq %r15, %rdi xorl %esi, %esi callq 0x426e2 movq %r15, %rdi callq 0x4f2d0 movq (%rbx), %r14 jmp 0x509dc movq 0x58(%rbx), %rax movl 0x60(%rbx), %ecx cmpq %rax, 0x48(%rbx) sete %dl testl %ecx, %ecx sete %sil andb %dl, %sil cmpb $0x1, %sil je 0x50a40 movl %ecx, %esi leaq -0x1(%rsi), %rcx movq %rsi, %rdx addq $0x3e, %rdx testq %rcx, %rcx cmovnsq %rcx, %rdx sarq $0x6, %rdx leaq (%rax,%rdx,8), %rdi leaq 0x3f(%r15), %rdx andq %rcx, %rdx xorl %r8d, %r8d cmpq %r15, %rdx setbe %r8b movl $0x1, %edx shlq %cl, %rdx andq -0x8(%rdi,%r8,8), %rdx subl $0x1, %esi movl %esi, 0x60(%rbx) jae 0x50975 movl $0x3f, 0x60(%rbx) addq $-0x8, %rax movq %rax, 0x58(%rbx) testq %rdx, %rdx je 0x509e0 cmpq $0x0, 0x70(%rbx) je 0x50a61 leaq 0x10(%rsp), %r14 movaps (%r14), %xmm0 leaq 0x20(%rsp), %r15 movaps %xmm0, (%r15) movq %r14, %rdi xorl %esi, %esi callq 0x426e2 movb $0x0, (%r14) movq $0x0, 0x8(%r14) movq %r15, %rdi movl $0x1, %esi callq 0x426e2 movq 0x70(%rbx), %rdi movq %r15, %rsi callq 0x2f81c movq %r15, %rdi xorl %esi, %esi callq 0x426e2 movq %r15, %rdi callq 0x4f2d0 movq 0x70(%rbx), %r14 movb $0x1, %bl jmp 0x509e5 xorl %ebx, %ebx xorl %r14d, %r14d leaq 0x10(%rsp), %r15 movq %r15, %rdi xorl %esi, %esi callq 0x426e2 movq %r15, %rdi callq 0x4f2d0 movl %ebx, %eax movq %r14, %rdx addq $0x48, %rsp popq %rbx popq %r14 popq %r15 popq %rbp retq leaq 0x5eaaf(%rip), %rdi # 0xaf4c2 leaq 0x5bf32(%rip), %rdx # 0xac94c leaq 0x5ff2d(%rip), %rcx # 0xb094e movl $0x1c28, %esi # imm = 0x1C28 xorl %eax, %eax callq 0x1ac70 callq 0x1a270 leaq 0x5ff29(%rip), %rcx # 0xb0962 movl $0x1c4b, %esi # imm = 0x1C4B jmp 0x50a4c leaq 0x5ff59(%rip), %rcx # 0xb09a0 movl $0x1c57, %esi # imm = 0x1C57 leaq 0x5ea6f(%rip), %rdi # 0xaf4c2 leaq 0x5bef2(%rip), %rdx # 0xac94c xorl %eax, %eax callq 0x1ac70 leaq 0x5ea5a(%rip), %rdi # 0xaf4c2 leaq 0x5bedd(%rip), %rdx # 0xac94c leaq 0x5ff42(%rip), %rcx # 0xb09b8 movl $0x1c60, %esi # imm = 0x1C60 xorl %eax, %eax callq 0x1ac70 jmp 0x50a84 movq %rax, %rbx leaq 0x10(%rsp), %r14 movq %r14, %rdi xorl %esi, %esi callq 0x426e2 movq %r14, %rdi callq 0x4f2d0 movq %rbx, %rdi callq 0x1ad30
_ZN8nlohmann16json_abi_v3_11_36detail28json_sax_dom_callback_parserINS0_10basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES5_IhSaIhEEvEEE12handle_valueIRmEESt4pairIbPSF_EOT_b: push rbp push r15 push r14 push rbx sub rsp, 48h mov ebp, edx mov rbx, rdi mov rax, [rdi+30h] mov ecx, [rdi+38h] cmp [rdi+20h], rax setz dl test ecx, ecx setz dil and dil, dl cmp dil, 1 jz loc_50A0C mov ecx, ecx mov r15, 8000000000000000h lea rdx, [rcx-1] add rcx, 3Eh ; '>' test rdx, rdx cmovns rcx, rdx sar rcx, 6 lea rax, [rax+rcx*8] lea rcx, [r15+3Fh] and rcx, rdx xor edi, edi cmp rcx, r15 setbe dil mov rax, [rax+rdi*8-8] bt rax, rdx jnb loc_5089F xorps xmm0, xmm0 lea r14, [rsp+68h+var_58] movaps xmmword ptr [r14], xmm0 mov rsi, [rsi] mov rdi, r14 call _ZN8nlohmann16json_abi_v3_11_36detail20external_constructorILNS1_7value_tE6EE9constructINS0_10basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES8_IhSaIhEEvEEEEvRT_NSJ_17number_unsigned_tE; nlohmann::json_abi_v3_11_3::detail::external_constructor<(nlohmann::json_abi_v3_11_3::detail::value_t)6>::construct<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>>(nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> &,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::number_unsigned_t) mov rdi, r14 mov esi, 1 call _ZNK8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE16assert_invariantEb; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::assert_invariant(bool) test bpl, bpl jnz short loc_5084C mov rax, [rbx+10h] sub rax, [rbx+8] shr rax, 3 mov [rsp+68h+var_5C], eax mov [rsp+68h+var_5D], 5 cmp qword ptr [rbx+90h], 0 jz loc_50A2D lea rdi, [rbx+80h] lea rsi, [rsp+68h+var_5C] lea rdx, [rsp+68h+var_5D] lea rcx, [rsp+68h+var_58] call qword ptr [rbx+98h] test al, al jz loc_509E0 loc_5084C: mov rax, [rbx+10h] cmp [rbx+8], rax jz short loc_508A9 mov rax, [rax-8] test rax, rax jz loc_509E0 movzx ecx, byte ptr [rax] cmp ecx, 1 jz loc_50903 cmp ecx, 2 jnz loc_50A32 mov rdi, [rax+8] lea rsi, [rsp+68h+var_58] call _ZNSt6vectorIN8nlohmann16json_abi_v3_11_310basic_jsonINS1_11ordered_mapES_NSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS1_14adl_serializerES_IhSaIhEEvEESaISD_EE12emplace_backIJSD_EEERSD_DpOT_; std::vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>>::emplace_back<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>>(nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> &&) mov rax, [rbx+10h] mov rax, [rax-8] mov rax, [rax+8] mov r14, [rax+8] add r14, 0FFFFFFFFFFFFFFF0h jmp loc_509DC loc_5089F: xor ebx, ebx xor r14d, r14d jmp loc_509FC loc_508A9: lea r14, [rsp+68h+var_58] movaps xmm0, xmmword ptr [r14] lea r15, [rsp+68h+var_38] movaps xmmword ptr [r15], xmm0 mov rdi, r14 xor esi, esi call _ZNK8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE16assert_invariantEb; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::assert_invariant(bool) mov byte ptr [r14], 0 mov qword ptr [r14+8], 0 mov rdi, r15 mov esi, 1 call _ZNK8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE16assert_invariantEb; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::assert_invariant(bool) mov rdi, [rbx] mov rsi, r15 call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvEaSESD_; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::operator=(nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>) mov rdi, r15 xor esi, esi call _ZNK8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE16assert_invariantEb; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::assert_invariant(bool) mov rdi, r15 call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE4dataD2Ev; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::data::~data() mov r14, [rbx] jmp loc_509DC loc_50903: mov rax, [rbx+58h] mov ecx, [rbx+60h] cmp [rbx+48h], rax setz dl test ecx, ecx setz sil and sil, dl cmp sil, 1 jz loc_50A40 mov esi, ecx lea rcx, [rsi-1] mov rdx, rsi add rdx, 3Eh ; '>' test rcx, rcx cmovns rdx, rcx sar rdx, 6 lea rdi, [rax+rdx*8] lea rdx, [r15+3Fh] and rdx, rcx xor r8d, r8d cmp rdx, r15 setbe r8b mov edx, 1 shl rdx, cl and rdx, [rdi+r8*8-8] sub esi, 1 mov [rbx+60h], esi jnb short loc_50975 mov dword ptr [rbx+60h], 3Fh ; '?' add rax, 0FFFFFFFFFFFFFFF8h mov [rbx+58h], rax loc_50975: test rdx, rdx jz short loc_509E0 cmp qword ptr [rbx+70h], 0 jz loc_50A61 lea r14, [rsp+68h+var_58] movaps xmm0, xmmword ptr [r14] lea r15, [rsp+68h+var_48] movaps xmmword ptr [r15], xmm0 mov rdi, r14 xor esi, esi call _ZNK8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE16assert_invariantEb; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::assert_invariant(bool) mov byte ptr [r14], 0 mov qword ptr [r14+8], 0 mov rdi, r15 mov esi, 1 call _ZNK8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE16assert_invariantEb; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::assert_invariant(bool) mov rdi, [rbx+70h] mov rsi, r15 call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvEaSESD_; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::operator=(nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>) mov rdi, r15 xor esi, esi call _ZNK8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE16assert_invariantEb; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::assert_invariant(bool) mov rdi, r15 call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE4dataD2Ev; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::data::~data() mov r14, [rbx+70h] loc_509DC: mov bl, 1 jmp short loc_509E5 loc_509E0: xor ebx, ebx xor r14d, r14d loc_509E5: lea r15, [rsp+68h+var_58] mov rdi, r15 xor esi, esi call _ZNK8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE16assert_invariantEb; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::assert_invariant(bool) mov rdi, r15 call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE4dataD2Ev; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::data::~data() loc_509FC: mov eax, ebx mov rdx, r14 add rsp, 48h pop rbx pop r14 pop r15 pop rbp retn loc_50A0C: lea rdi, aWorkspaceLlm4b_0; "/workspace/llm4binary/github/2025_star3"... lea rdx, aGgmlAssertSFai; "GGML_ASSERT(%s) failed" lea rcx, aKeepStackEmpty; "!keep_stack.empty()" mov esi, 1C28h xor eax, eax call _ggml_abort loc_50A2D: call __ZSt25__throw_bad_function_callv; std::__throw_bad_function_call(void) loc_50A32: lea rcx, aRefStackBackIs; "ref_stack.back()->is_array() || ref_sta"... mov esi, 1C4Bh jmp short loc_50A4C loc_50A40: lea rcx, aKeyKeepStackEm; "!key_keep_stack.empty()" mov esi, 1C57h loc_50A4C: lea rdi, aWorkspaceLlm4b_0; "/workspace/llm4binary/github/2025_star3"... lea rdx, aGgmlAssertSFai; "GGML_ASSERT(%s) failed" xor eax, eax call _ggml_abort loc_50A61: lea rdi, aWorkspaceLlm4b_0; "/workspace/llm4binary/github/2025_star3"... lea rdx, aGgmlAssertSFai; "GGML_ASSERT(%s) failed" lea rcx, aObjectElement; "object_element" mov esi, 1C60h xor eax, eax call _ggml_abort jmp short $+2 loc_50A84: mov rbx, rax lea r14, [rsp+68h+var_58] mov rdi, r14 xor esi, esi call _ZNK8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE16assert_invariantEb; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::assert_invariant(bool) mov rdi, r14 call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE4dataD2Ev; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::data::~data() mov rdi, rbx call __Unwind_Resume
long long nlohmann::json_abi_v3_11_3::detail::json_sax_dom_callback_parser<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>>::handle_value<unsigned long &>( long long a1, _QWORD *a2, char a3) { unsigned int v4; // ebx long long v5; // rax unsigned int v6; // ecx signed long long v7; // rdx long long v8; // rcx long long v9; // rax long long v10; // rax unsigned __int8 *v11; // rax int v12; // ecx long long v13; // rax unsigned int v14; // ecx long long v15; // rsi long long v16; // rcx long long v17; // rdx long long v18; // rdx const char *v20; // rcx long long v21; // rsi long long v22; // rax char v23; // [rsp+Bh] [rbp-5Dh] BYREF int v24; // [rsp+Ch] [rbp-5Ch] BYREF __int128 v25; // [rsp+10h] [rbp-58h] BYREF __int128 v26; // [rsp+20h] [rbp-48h] BYREF _OWORD v27[3]; // [rsp+30h] [rbp-38h] BYREF v4 = a1; v5 = *(_QWORD *)(a1 + 48); v6 = *(_DWORD *)(a1 + 56); if ( *(_QWORD *)(a1 + 32) == v5 && v6 == 0 ) { ggml_abort( "/workspace/llm4binary/github/2025_star3/monkey531[P]llama/common/json.hpp", 7208LL, "GGML_ASSERT(%s) failed", "!keep_stack.empty()"); goto LABEL_28; } v7 = v6 - 1LL; v8 = v6 + 62LL; if ( v7 >= 0 ) v8 = v7; v9 = *(_QWORD *)(v5 + 8 * (v8 >> 6) + 8LL * ((v7 & 0x800000000000003FLL) <= 0x8000000000000000LL) - 8); if ( _bittest64(&v9, v7) ) { v25 = 0LL; nlohmann::json_abi_v3_11_3::detail::external_constructor<(nlohmann::json_abi_v3_11_3::detail::value_t)6>::construct<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>>( &v25, *a2); nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::assert_invariant((char *)&v25); if ( a3 ) { LABEL_8: v10 = *(_QWORD *)(a1 + 16); if ( *(_QWORD *)(a1 + 8) == v10 ) { v27[0] = v25; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::assert_invariant((char *)&v25); LOBYTE(v25) = 0; *((_QWORD *)&v25 + 1) = 0LL; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::assert_invariant((char *)v27); nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::operator=( *(char **)a1, (char *)v27); nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::assert_invariant((char *)v27); nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::data::~data((void ***)v27); goto LABEL_23; } v11 = *(unsigned __int8 **)(v10 - 8); if ( v11 ) { v12 = *v11; if ( v12 != 1 ) { if ( v12 == 2 ) { std::vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>>::emplace_back<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>>( *((_QWORD *)v11 + 1), (long long)&v25); LABEL_23: LOBYTE(v4) = 1; LABEL_25: nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::assert_invariant((char *)&v25); nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::data::~data((void ***)&v25); return v4; } v20 = "ref_stack.back()->is_array() || ref_stack.back()->is_object()"; v21 = 7243LL; goto LABEL_31; } v13 = *(_QWORD *)(a1 + 88); v14 = *(_DWORD *)(a1 + 96); if ( *(_QWORD *)(a1 + 72) == v13 && v14 == 0 ) { v20 = "!key_keep_stack.empty()"; v21 = 7255LL; LABEL_31: ggml_abort( "/workspace/llm4binary/github/2025_star3/monkey531[P]llama/common/json.hpp", v21, "GGML_ASSERT(%s) failed", v20); goto LABEL_32; } v15 = v14; v16 = v14 - 1LL; v17 = v15 + 62; if ( v16 >= 0 ) v17 = v16; v18 = *(_QWORD *)(v13 + 8 * (v17 >> 6) + 8LL * ((v16 & 0x800000000000003FLL) <= 0x8000000000000000LL) - 8) & (1LL << v16); *(_DWORD *)(a1 + 96) = v15 - 1; if ( !(_DWORD)v15 ) { *(_DWORD *)(a1 + 96) = 63; *(_QWORD *)(a1 + 88) = v13 - 8; } if ( v18 ) { if ( *(_QWORD *)(a1 + 112) ) { v26 = v25; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::assert_invariant((char *)&v25); LOBYTE(v25) = 0; *((_QWORD *)&v25 + 1) = 0LL; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::assert_invariant((char *)&v26); nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::operator=( *(char **)(a1 + 112), (char *)&v26); nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::assert_invariant((char *)&v26); nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::data::~data((void ***)&v26); goto LABEL_23; } LABEL_32: v22 = ggml_abort( "/workspace/llm4binary/github/2025_star3/monkey531[P]llama/common/json.hpp", 7264LL, "GGML_ASSERT(%s) failed", "object_element"); nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::assert_invariant((char *)&v25); nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::data::~data((void ***)&v25); _Unwind_Resume(v22); } } LABEL_24: v4 = 0; goto LABEL_25; } v24 = (*(_QWORD *)(a1 + 16) - *(_QWORD *)(a1 + 8)) >> 3; v23 = 5; if ( *(_QWORD *)(a1 + 144) ) { if ( !(*(unsigned __int8 ( **)(long long, int *, char *, __int128 *))(a1 + 152))( a1 + 128, &v24, &v23, &v25) ) goto LABEL_24; goto LABEL_8; } LABEL_28: std::__throw_bad_function_call(); } return 0; }
handle_value<unsigned_long&>: PUSH RBP PUSH R15 PUSH R14 PUSH RBX SUB RSP,0x48 MOV EBP,EDX MOV RBX,RDI MOV RAX,qword ptr [RDI + 0x30] MOV ECX,dword ptr [RDI + 0x38] CMP qword ptr [RDI + 0x20],RAX SETZ DL TEST ECX,ECX SETZ DIL AND DIL,DL CMP DIL,0x1 JZ 0x00150a0c MOV ECX,ECX MOV R15,-0x8000000000000000 LEA RDX,[RCX + -0x1] ADD RCX,0x3e TEST RDX,RDX CMOVNS RCX,RDX SAR RCX,0x6 LEA RAX,[RAX + RCX*0x8] LEA RCX,[R15 + 0x3f] AND RCX,RDX XOR EDI,EDI CMP RCX,R15 SETBE DIL MOV RAX,qword ptr [RAX + RDI*0x8 + -0x8] BT RAX,RDX JNC 0x0015089f XORPS XMM0,XMM0 LEA R14,[RSP + 0x10] MOVAPS xmmword ptr [R14],XMM0 MOV RSI,qword ptr [RSI] MOV RDI,R14 CALL 0x00150aa6 MOV RDI,R14 MOV ESI,0x1 CALL 0x001426e2 TEST BPL,BPL JNZ 0x0015084c MOV RAX,qword ptr [RBX + 0x10] SUB RAX,qword ptr [RBX + 0x8] SHR RAX,0x3 MOV dword ptr [RSP + 0xc],EAX MOV byte ptr [RSP + 0xb],0x5 CMP qword ptr [RBX + 0x90],0x0 JZ 0x00150a2d LEA RDI,[RBX + 0x80] LAB_0015082f: LEA RSI,[RSP + 0xc] LEA RDX,[RSP + 0xb] LEA RCX,[RSP + 0x10] CALL qword ptr [RBX + 0x98] TEST AL,AL JZ 0x001509e0 LAB_0015084c: MOV RAX,qword ptr [RBX + 0x10] CMP qword ptr [RBX + 0x8],RAX JZ 0x001508a9 MOV RAX,qword ptr [RAX + -0x8] TEST RAX,RAX JZ 0x001509e0 MOVZX ECX,byte ptr [RAX] CMP ECX,0x1 JZ 0x00150903 CMP ECX,0x2 JNZ 0x00150a32 MOV RDI,qword ptr [RAX + 0x8] LEA RSI,[RSP + 0x10] CALL 0x00143d6e LAB_00150886: MOV RAX,qword ptr [RBX + 0x10] MOV RAX,qword ptr [RAX + -0x8] MOV RAX,qword ptr [RAX + 0x8] MOV R14,qword ptr [RAX + 0x8] ADD R14,-0x10 JMP 0x001509dc LAB_0015089f: XOR EBX,EBX XOR R14D,R14D JMP 0x001509fc LAB_001508a9: LEA R14,[RSP + 0x10] MOVAPS XMM0,xmmword ptr [R14] LEA R15,[RSP + 0x30] MOVAPS xmmword ptr [R15],XMM0 MOV RDI,R14 XOR ESI,ESI CALL 0x001426e2 MOV byte ptr [R14],0x0 MOV qword ptr [R14 + 0x8],0x0 MOV RDI,R15 MOV ESI,0x1 CALL 0x001426e2 MOV RDI,qword ptr [RBX] MOV RSI,R15 CALL 0x0012f81c MOV RDI,R15 XOR ESI,ESI CALL 0x001426e2 MOV RDI,R15 CALL 0x0014f2d0 MOV R14,qword ptr [RBX] JMP 0x001509dc LAB_00150903: MOV RAX,qword ptr [RBX + 0x58] MOV ECX,dword ptr [RBX + 0x60] CMP qword ptr [RBX + 0x48],RAX SETZ DL TEST ECX,ECX SETZ SIL AND SIL,DL CMP SIL,0x1 JZ 0x00150a40 MOV ESI,ECX LEA RCX,[RSI + -0x1] MOV RDX,RSI ADD RDX,0x3e TEST RCX,RCX CMOVNS RDX,RCX SAR RDX,0x6 LEA RDI,[RAX + RDX*0x8] LEA RDX,[R15 + 0x3f] AND RDX,RCX XOR R8D,R8D CMP RDX,R15 SETBE R8B MOV EDX,0x1 SHL RDX,CL AND RDX,qword ptr [RDI + R8*0x8 + -0x8] SUB ESI,0x1 MOV dword ptr [RBX + 0x60],ESI JNC 0x00150975 MOV dword ptr [RBX + 0x60],0x3f ADD RAX,-0x8 MOV qword ptr [RBX + 0x58],RAX LAB_00150975: TEST RDX,RDX JZ 0x001509e0 CMP qword ptr [RBX + 0x70],0x0 JZ 0x00150a61 LEA R14,[RSP + 0x10] MOVAPS XMM0,xmmword ptr [R14] LEA R15,[RSP + 0x20] MOVAPS xmmword ptr [R15],XMM0 MOV RDI,R14 XOR ESI,ESI CALL 0x001426e2 MOV byte ptr [R14],0x0 MOV qword ptr [R14 + 0x8],0x0 MOV RDI,R15 MOV ESI,0x1 CALL 0x001426e2 MOV RDI,qword ptr [RBX + 0x70] MOV RSI,R15 CALL 0x0012f81c MOV RDI,R15 XOR ESI,ESI CALL 0x001426e2 MOV RDI,R15 CALL 0x0014f2d0 MOV R14,qword ptr [RBX + 0x70] LAB_001509dc: MOV BL,0x1 JMP 0x001509e5 LAB_001509e0: XOR EBX,EBX XOR R14D,R14D LAB_001509e5: LEA R15,[RSP + 0x10] MOV RDI,R15 XOR ESI,ESI CALL 0x001426e2 MOV RDI,R15 CALL 0x0014f2d0 LAB_001509fc: MOV EAX,EBX MOV RDX,R14 ADD RSP,0x48 POP RBX POP R14 POP R15 POP RBP RET LAB_00150a0c: LEA RDI,[0x1af4c2] LEA RDX,[0x1ac94c] LEA RCX,[0x1b094e] MOV ESI,0x1c28 XOR EAX,EAX CALL 0x0011ac70 LAB_00150a2d: CALL 0x0011a270 LAB_00150a32: LEA RCX,[0x1b0962] MOV ESI,0x1c4b JMP 0x00150a4c LAB_00150a40: LEA RCX,[0x1b09a0] MOV ESI,0x1c57 LAB_00150a4c: LEA RDI,[0x1af4c2] LEA RDX,[0x1ac94c] XOR EAX,EAX CALL 0x0011ac70 LAB_00150a61: LEA RDI,[0x1af4c2] LEA RDX,[0x1ac94c] LEA RCX,[0x1b09b8] MOV ESI,0x1c60 XOR EAX,EAX CALL 0x0011ac70
/* std::pair<bool, nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::string, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char> >, void>*> nlohmann::json_abi_v3_11_3::detail::json_sax_dom_callback_parser<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::string, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char> >, void> >::handle_value<unsigned long&>(unsigned long&, bool) */ int1 [16] __thiscall nlohmann::json_abi_v3_11_3::detail:: json_sax_dom_callback_parser<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>> ::handle_value<unsigned_long&> (json_sax_dom_callback_parser<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>> *this,ulong *param_1,bool param_2) { uint uVar1; char cVar2; ulong uVar3; char *pcVar4; ulong uVar5; int8 uVar6; bool bVar7; long lVar8; int1 auVar9 [16]; int1 local_5d; int4 local_5c; ulong local_58; int8 uStack_50; ulong local_48; int8 uStack_40; ulong local_38; int8 uStack_30; uVar1 = *(uint *)(this + 0x38); if (uVar1 == 0 && *(long *)(this + 0x20) == *(long *)(this + 0x30)) { /* WARNING: Subroutine does not return */ ggml_abort("/workspace/llm4binary/github/2025_star3/monkey531[P]llama/common/json.hpp",0x1c28, "GGML_ASSERT(%s) failed","!keep_stack.empty()"); } uVar5 = (ulong)uVar1 - 1; uVar3 = (ulong)uVar1 + 0x3e; if (-1 < (long)uVar5) { uVar3 = uVar5; } if ((*(ulong *)(*(long *)(this + 0x30) + ((long)uVar3 >> 6) * 8 + -8 + (ulong)((uVar5 & 0x800000000000003f) < 0x8000000000000001) * 8) >> (uVar5 & 0x3f) & 1) == 0) { uVar5 = 0; lVar8 = 0; goto LAB_001509fc; } local_58 = 0; uStack_50 = 0; external_constructor<(nlohmann::json_abi_v3_11_3::detail::value_t)6>:: construct<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>> (&local_58,*param_1); basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::assert_invariant(SUB81(&local_58,0)); if (param_2) { LAB_0015084c: if (*(long *)(this + 8) == *(long *)(this + 0x10)) { local_38 = local_58; uStack_30 = uStack_50; basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::assert_invariant(SUB81(&local_58,0)); local_58 = local_58 & 0xffffffffffffff00; uStack_50 = 0; bVar7 = SUB81((data *)&local_38,0); basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::assert_invariant(bVar7); basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::operator=(*(basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> **)this,(data *)&local_38); basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::assert_invariant(bVar7); basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::data::~data((data *)&local_38); lVar8 = *(long *)this; } else { pcVar4 = *(char **)(*(long *)(this + 0x10) + -8); if (pcVar4 == (char *)0x0) goto LAB_001509e0; if (*pcVar4 == '\x01') { lVar8 = *(long *)(this + 0x58); uVar1 = *(uint *)(this + 0x60); if (uVar1 == 0 && *(long *)(this + 0x48) == lVar8) { pcVar4 = "!key_keep_stack.empty()"; uVar6 = 0x1c57; goto LAB_00150a4c; } uVar5 = (ulong)uVar1 - 1; uVar3 = (ulong)uVar1 + 0x3e; if (-1 < (long)uVar5) { uVar3 = uVar5; } uVar3 = *(ulong *)(lVar8 + ((long)uVar3 >> 6) * 8 + -8 + (ulong)((uVar5 & 0x800000000000003f) < 0x8000000000000001) * 8); *(uint *)(this + 0x60) = uVar1 - 1; if (uVar1 == 0) { *(int4 *)(this + 0x60) = 0x3f; *(long *)(this + 0x58) = lVar8 + -8; } if ((1L << ((byte)uVar5 & 0x3f) & uVar3) == 0) goto LAB_001509e0; if (*(long *)(this + 0x70) == 0) { /* try { // try from 00150a61 to 00150a81 has its CatchHandler @ 00150a82 */ /* WARNING: Subroutine does not return */ ggml_abort("/workspace/llm4binary/github/2025_star3/monkey531[P]llama/common/json.hpp", 0x1c60,"GGML_ASSERT(%s) failed","object_element"); } local_48 = local_58; uStack_40 = uStack_50; basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::assert_invariant(SUB81(&local_58,0)); local_58 = local_58 & 0xffffffffffffff00; uStack_50 = 0; bVar7 = SUB81((data *)&local_48,0); basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::assert_invariant(bVar7); basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::operator=(*(basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> **)(this + 0x70),(data *)&local_48); basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::assert_invariant(bVar7); basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::data::~data((data *)&local_48); lVar8 = *(long *)(this + 0x70); } else { if (*pcVar4 != '\x02') { pcVar4 = "ref_stack.back()->is_array() || ref_stack.back()->is_object()"; uVar6 = 0x1c4b; LAB_00150a4c: /* WARNING: Subroutine does not return */ ggml_abort("/workspace/llm4binary/github/2025_star3/monkey531[P]llama/common/json.hpp", uVar6,"GGML_ASSERT(%s) failed",pcVar4); } std:: vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>>> :: emplace_back<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>> (*(vector<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>,std::allocator<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>>> **)(pcVar4 + 8),(basic_json *)&local_58); lVar8 = *(long *)(*(long *)(*(long *)(*(long *)(this + 0x10) + -8) + 8) + 8) + -0x10; } } uVar5 = CONCAT71((int7)((ulong)this >> 8),1); } else { local_5c = (int4)((ulong)(*(long *)(this + 0x10) - *(long *)(this + 8)) >> 3); local_5d = 5; if (*(long *)(this + 0x90) == 0) { /* WARNING: Subroutine does not return */ /* try { // try from 00150a2d to 00150a60 has its CatchHandler @ 00150a84 */ std::__throw_bad_function_call(); } /* try { // try from 0015082f to 00150885 has its CatchHandler @ 00150a84 */ cVar2 = (**(code **)(this + 0x98))(this + 0x80,&local_5c,&local_5d,&local_58); if (cVar2 != '\0') goto LAB_0015084c; LAB_001509e0: uVar5 = 0; lVar8 = 0; } basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::assert_invariant(SUB81((data *)&local_58,0)); basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::data::~data((data *)&local_58); LAB_001509fc: auVar9._0_8_ = uVar5 & 0xffffffff; auVar9._8_8_ = lVar8; return auVar9; }
40,808
inheritance_source_by_id
eloqsql/mysys/charset.c
static CHARSET_INFO *inheritance_source_by_id(CHARSET_INFO *cs, uint refid) { CHARSET_INFO *refcs; return refid && refid != cs->number && (refcs= all_charsets[refid]) && (refcs->state & MY_CS_AVAILABLE) ? refcs : NULL; }
O0
c
inheritance_source_by_id: pushq %rbp movq %rsp, %rbp movq %rdi, -0x8(%rbp) movl %esi, -0xc(%rbp) cmpl $0x0, -0xc(%rbp) je 0x62091 movl -0xc(%rbp), %eax movq -0x8(%rbp), %rcx cmpl (%rcx), %eax je 0x62091 movl -0xc(%rbp), %eax movl %eax, %ecx leaq 0x3ae5e8(%rip), %rax # 0x410650 movq (%rax,%rcx,8), %rax movq %rax, -0x18(%rbp) cmpq $0x0, %rax je 0x62091 movq -0x18(%rbp), %rax movl 0xc(%rax), %eax andl $0x200, %eax # imm = 0x200 cmpl $0x0, %eax je 0x62091 movq -0x18(%rbp), %rax movq %rax, -0x20(%rbp) jmp 0x62099 xorl %eax, %eax movq %rax, -0x20(%rbp) jmp 0x62099 movq -0x20(%rbp), %rax popq %rbp retq nop
inheritance_source_by_id: push rbp mov rbp, rsp mov [rbp+var_8], rdi mov [rbp+var_C], esi cmp [rbp+var_C], 0 jz short loc_62091 mov eax, [rbp+var_C] mov rcx, [rbp+var_8] cmp eax, [rcx] jz short loc_62091 mov eax, [rbp+var_C] mov ecx, eax lea rax, all_charsets mov rax, [rax+rcx*8] mov [rbp+var_18], rax cmp rax, 0 jz short loc_62091 mov rax, [rbp+var_18] mov eax, [rax+0Ch] and eax, 200h cmp eax, 0 jz short loc_62091 mov rax, [rbp+var_18] mov [rbp+var_20], rax jmp short loc_62099 loc_62091: xor eax, eax mov [rbp+var_20], rax jmp short $+2 loc_62099: mov rax, [rbp+var_20] pop rbp retn
long long inheritance_source_by_id(_DWORD *a1, int a2) { long long v4; // [rsp+8h] [rbp-18h] if ( a2 && a2 != *a1 && (v4 = all_charsets[a2]) != 0 && (*(_DWORD *)(v4 + 12) & 0x200) != 0 ) return all_charsets[a2]; else return 0LL; }
inheritance_source_by_id: PUSH RBP MOV RBP,RSP MOV qword ptr [RBP + -0x8],RDI MOV dword ptr [RBP + -0xc],ESI CMP dword ptr [RBP + -0xc],0x0 JZ 0x00162091 MOV EAX,dword ptr [RBP + -0xc] MOV RCX,qword ptr [RBP + -0x8] CMP EAX,dword ptr [RCX] JZ 0x00162091 MOV EAX,dword ptr [RBP + -0xc] MOV ECX,EAX LEA RAX,[0x510650] MOV RAX,qword ptr [RAX + RCX*0x8] MOV qword ptr [RBP + -0x18],RAX CMP RAX,0x0 JZ 0x00162091 MOV RAX,qword ptr [RBP + -0x18] MOV EAX,dword ptr [RAX + 0xc] AND EAX,0x200 CMP EAX,0x0 JZ 0x00162091 MOV RAX,qword ptr [RBP + -0x18] MOV qword ptr [RBP + -0x20],RAX JMP 0x00162099 LAB_00162091: XOR EAX,EAX MOV qword ptr [RBP + -0x20],RAX JMP 0x00162099 LAB_00162099: MOV RAX,qword ptr [RBP + -0x20] POP RBP RET
long inheritance_source_by_id(uint *param_1,uint param_2) { long local_28; if ((((param_2 == 0) || (param_2 == *param_1)) || (local_28 = (&all_charsets)[param_2], local_28 == 0)) || ((*(uint *)(local_28 + 0xc) & 0x200) == 0)) { local_28 = 0; } return local_28; }
40,809
MNN::RoiParameters::UnPackTo(MNN::RoiParametersT*, std::__1::function<void (void**, unsigned long)> const*) const
mnn-tts/MNN/schema/current/CaffeOp_generated.h
inline void RoiParameters::UnPackTo(RoiParametersT *_o, const flatbuffers::resolver_function_t *_resolver) const { (void)_o; (void)_resolver; { auto _e = pooledWidth(); _o->pooledWidth = _e; }; { auto _e = pooledHeight(); _o->pooledHeight = _e; }; { auto _e = spatialScale(); _o->spatialScale = _e; }; { auto _e = samplingRatio(); _o->samplingRatio = _e; }; { auto _e = aligned(); _o->aligned = _e; }; { auto _e = poolType(); _o->poolType = _e; }; { auto _e = outputGrad(); _o->outputGrad = _e; }; }
O0
c
MNN::RoiParameters::UnPackTo(MNN::RoiParametersT*, std::__1::function<void (void**, unsigned long)> const*) const: subq $0x48, %rsp movq %rdi, 0x40(%rsp) movq %rsi, 0x38(%rsp) movq %rdx, 0x30(%rsp) movq 0x40(%rsp), %rdi movq %rdi, 0x8(%rsp) callq 0x24360 movq 0x8(%rsp), %rdi movl %eax, 0x2c(%rsp) movl 0x2c(%rsp), %ecx movq 0x38(%rsp), %rax movl %ecx, (%rax) callq 0x24380 movq 0x8(%rsp), %rdi movl %eax, 0x28(%rsp) movl 0x28(%rsp), %ecx movq 0x38(%rsp), %rax movl %ecx, 0x4(%rax) callq 0x243a0 movq 0x8(%rsp), %rdi movss %xmm0, 0x24(%rsp) movss 0x24(%rsp), %xmm0 movq 0x38(%rsp), %rax movss %xmm0, 0x8(%rax) callq 0x243c0 movq 0x8(%rsp), %rdi movl %eax, 0x20(%rsp) movl 0x20(%rsp), %ecx movq 0x38(%rsp), %rax movl %ecx, 0xc(%rax) callq 0x243e0 movq 0x8(%rsp), %rdi andb $0x1, %al movb %al, 0x1f(%rsp) movb 0x1f(%rsp), %cl movq 0x38(%rsp), %rax andb $0x1, %cl movb %cl, 0x10(%rax) callq 0x24410 movq 0x8(%rsp), %rdi movl %eax, 0x18(%rsp) movl 0x18(%rsp), %ecx movq 0x38(%rsp), %rax movl %ecx, 0x14(%rax) callq 0x24430 andb $0x1, %al movb %al, 0x17(%rsp) movb 0x17(%rsp), %cl movq 0x38(%rsp), %rax andb $0x1, %cl movb %cl, 0x18(%rax) addq $0x48, %rsp retq nopw %cs:(%rax,%rax) nopl (%rax)
_ZNK3MNN13RoiParameters8UnPackToEPNS_14RoiParametersTEPKNSt3__18functionIFvPPvmEEE: sub rsp, 48h mov [rsp+48h+var_8], rdi mov [rsp+48h+var_10], rsi mov [rsp+48h+var_18], rdx mov rdi, [rsp+48h+var_8]; this mov [rsp+48h+var_40], rdi call _ZNK3MNN13RoiParameters11pooledWidthEv; MNN::RoiParameters::pooledWidth(void) mov rdi, [rsp+48h+var_40]; this mov [rsp+48h+var_1C], eax mov ecx, [rsp+48h+var_1C] mov rax, [rsp+48h+var_10] mov [rax], ecx call _ZNK3MNN13RoiParameters12pooledHeightEv; MNN::RoiParameters::pooledHeight(void) mov rdi, [rsp+48h+var_40]; this mov [rsp+48h+var_20], eax mov ecx, [rsp+48h+var_20] mov rax, [rsp+48h+var_10] mov [rax+4], ecx call _ZNK3MNN13RoiParameters12spatialScaleEv; MNN::RoiParameters::spatialScale(void) mov rdi, [rsp+48h+var_40]; this movss [rsp+48h+var_24], xmm0 movss xmm0, [rsp+48h+var_24] mov rax, [rsp+48h+var_10] movss dword ptr [rax+8], xmm0 call _ZNK3MNN13RoiParameters13samplingRatioEv; MNN::RoiParameters::samplingRatio(void) mov rdi, [rsp+48h+var_40]; this mov [rsp+48h+var_28], eax mov ecx, [rsp+48h+var_28] mov rax, [rsp+48h+var_10] mov [rax+0Ch], ecx call _ZNK3MNN13RoiParameters7alignedEv; MNN::RoiParameters::aligned(void) mov rdi, [rsp+48h+var_40]; this and al, 1 mov [rsp+48h+var_29], al mov cl, [rsp+48h+var_29] mov rax, [rsp+48h+var_10] and cl, 1 mov [rax+10h], cl call _ZNK3MNN13RoiParameters8poolTypeEv; MNN::RoiParameters::poolType(void) mov rdi, [rsp+48h+var_40]; this mov [rsp+48h+var_30], eax mov ecx, [rsp+48h+var_30] mov rax, [rsp+48h+var_10] mov [rax+14h], ecx call _ZNK3MNN13RoiParameters10outputGradEv; MNN::RoiParameters::outputGrad(void) and al, 1 mov [rsp+48h+var_31], al mov cl, [rsp+48h+var_31] mov rax, [rsp+48h+var_10] and cl, 1 mov [rax+18h], cl add rsp, 48h retn
long long MNN::RoiParameters::UnPackTo(MNN::RoiParameters *a1, long long a2, float a3) { char v3; // cl long long result; // rax *(_DWORD *)a2 = MNN::RoiParameters::pooledWidth(a1); *(_DWORD *)(a2 + 4) = MNN::RoiParameters::pooledHeight(a1); MNN::RoiParameters::spatialScale(a1); *(float *)(a2 + 8) = a3; *(_DWORD *)(a2 + 12) = MNN::RoiParameters::samplingRatio(a1); *(_BYTE *)(a2 + 16) = MNN::RoiParameters::aligned(a1) & 1; *(_DWORD *)(a2 + 20) = MNN::RoiParameters::poolType(a1); v3 = MNN::RoiParameters::outputGrad(a1) & 1; result = a2; *(_BYTE *)(a2 + 24) = v3 & 1; return result; }
UnPackTo: SUB RSP,0x48 MOV qword ptr [RSP + 0x40],RDI MOV qword ptr [RSP + 0x38],RSI MOV qword ptr [RSP + 0x30],RDX MOV RDI,qword ptr [RSP + 0x40] MOV qword ptr [RSP + 0x8],RDI CALL 0x00124360 MOV RDI,qword ptr [RSP + 0x8] MOV dword ptr [RSP + 0x2c],EAX MOV ECX,dword ptr [RSP + 0x2c] MOV RAX,qword ptr [RSP + 0x38] MOV dword ptr [RAX],ECX CALL 0x00124380 MOV RDI,qword ptr [RSP + 0x8] MOV dword ptr [RSP + 0x28],EAX MOV ECX,dword ptr [RSP + 0x28] MOV RAX,qword ptr [RSP + 0x38] MOV dword ptr [RAX + 0x4],ECX CALL 0x001243a0 MOV RDI,qword ptr [RSP + 0x8] MOVSS dword ptr [RSP + 0x24],XMM0 MOVSS XMM0,dword ptr [RSP + 0x24] MOV RAX,qword ptr [RSP + 0x38] MOVSS dword ptr [RAX + 0x8],XMM0 CALL 0x001243c0 MOV RDI,qword ptr [RSP + 0x8] MOV dword ptr [RSP + 0x20],EAX MOV ECX,dword ptr [RSP + 0x20] MOV RAX,qword ptr [RSP + 0x38] MOV dword ptr [RAX + 0xc],ECX CALL 0x001243e0 MOV RDI,qword ptr [RSP + 0x8] AND AL,0x1 MOV byte ptr [RSP + 0x1f],AL MOV CL,byte ptr [RSP + 0x1f] MOV RAX,qword ptr [RSP + 0x38] AND CL,0x1 MOV byte ptr [RAX + 0x10],CL CALL 0x00124410 MOV RDI,qword ptr [RSP + 0x8] MOV dword ptr [RSP + 0x18],EAX MOV ECX,dword ptr [RSP + 0x18] MOV RAX,qword ptr [RSP + 0x38] MOV dword ptr [RAX + 0x14],ECX CALL 0x00124430 AND AL,0x1 MOV byte ptr [RSP + 0x17],AL MOV CL,byte ptr [RSP + 0x17] MOV RAX,qword ptr [RSP + 0x38] AND CL,0x1 MOV byte ptr [RAX + 0x18],CL ADD RSP,0x48 RET
/* MNN::RoiParameters::UnPackTo(MNN::RoiParametersT*, std::function<void (void**, unsigned long)> const*) const */ void MNN::RoiParameters::UnPackTo(RoiParametersT *param_1,function *param_2) { byte bVar1; int4 uVar2; uVar2 = pooledWidth((RoiParameters *)param_1); *(int4 *)param_2 = uVar2; uVar2 = pooledHeight((RoiParameters *)param_1); *(int4 *)(param_2 + 4) = uVar2; uVar2 = spatialScale((RoiParameters *)param_1); *(int4 *)(param_2 + 8) = uVar2; uVar2 = samplingRatio((RoiParameters *)param_1); *(int4 *)(param_2 + 0xc) = uVar2; bVar1 = aligned((RoiParameters *)param_1); param_2[0x10] = (function)(bVar1 & 1); uVar2 = poolType((RoiParameters *)param_1); *(int4 *)(param_2 + 0x14) = uVar2; bVar1 = outputGrad((RoiParameters *)param_1); param_2[0x18] = (function)(bVar1 & 1); return; }
40,810
js_string_toWellFormed
bluesky950520[P]quickjs/quickjs.c
static JSValue js_string_toWellFormed(JSContext *ctx, JSValue this_val, int argc, JSValue *argv) { JSValue str; JSValue ret; JSString *p; uint32_t c, i, n; str = JS_ToStringCheckObject(ctx, this_val); if (JS_IsException(str)) return JS_EXCEPTION; p = JS_VALUE_GET_STRING(str); if (!p->is_wide_char || p->len == 0) return str; // by definition well-formed // TODO(bnoordhuis) don't clone when input is well-formed ret = js_new_string16_len(ctx, p->u.str16, p->len); JS_FreeValue(ctx, str); if (JS_IsException(ret)) return JS_EXCEPTION; p = JS_VALUE_GET_STRING(ret); for (i = 0, n = p->len; i < n; i++) { c = p->u.str16[i]; if (!is_surrogate(c)) continue; if (is_lo_surrogate(c) || i + 1 == n) { p->u.str16[i] = 0xFFFD; continue; } c = p->u.str16[++i]; if (!is_lo_surrogate(c)) p->u.str16[--i] = 0xFFFD; } return ret; }
O1
c
js_string_toWellFormed: pushq %r15 pushq %r14 pushq %rbx subq $0x10, %rsp movq %rdi, %r15 callq 0x425ff movq %rdx, %r14 movq %rax, (%rsp) cmpl $0x6, %r14d jne 0x7b2f4 xorl %eax, %eax movl $0x6, %r14d jmp 0x7b3ad movq (%rsp), %rsi movq 0x4(%rsi), %rdx testl %edx, %edx jns 0x7b3a9 andl $0x7fffffff, %edx # imm = 0x7FFFFFFF je 0x7b3a9 addq $0x18, %rsi movq %r15, %rdi callq 0x3d734 movq %rdx, %rbx movq %rax, 0x8(%rsp) movq (%rsp), %rsi movq 0x18(%r15), %rdi movq %r14, %rdx callq 0x1d8c6 cmpl $0x6, %ebx je 0x7b2e7 movq 0x8(%rsp), %rax movl $0x7fffffff, %ecx # imm = 0x7FFFFFFF andl 0x4(%rax), %ecx je 0x7b39f xorl %edx, %edx movl %edx, %esi movzwl 0x18(%rax,%rsi,2), %edi movl %edi, %r8d andl $0xf800, %r8d # imm = 0xF800 cmpl $0xd800, %r8d # imm = 0xD800 jne 0x7b395 notl %edi testl $0xdc00, %edi # imm = 0xDC00 je 0x7b38e leal 0x1(%rdx), %edi cmpl %ecx, %edi je 0x7b38e movl %edi, %r8d movzwl 0x18(%rax,%r8,2), %r8d andl $0xfc00, %r8d # imm = 0xFC00 cmpl $0xdc00, %r8d # imm = 0xDC00 je 0x7b397 movw $0xfffd, 0x18(%rax,%rsi,2) # imm = 0xFFFD movl %edx, %edi incl %edi movl %edi, %edx cmpl %ecx, %edi jb 0x7b34a movq 0x8(%rsp), %rax movq %rbx, %r14 jmp 0x7b3ad movq (%rsp), %rax movq %r14, %rdx addq $0x10, %rsp popq %rbx popq %r14 popq %r15 retq
js_string_toWellFormed: push r15 push r14 push rbx sub rsp, 10h mov r15, rdi call JS_ToStringCheckObject mov r14, rdx mov [rsp+28h+var_28], rax cmp r14d, 6 jnz short loc_7B2F4 loc_7B2E7: xor eax, eax mov r14d, 6 jmp loc_7B3AD loc_7B2F4: mov rsi, [rsp+28h+var_28] mov rdx, [rsi+4] test edx, edx jns loc_7B3A9 and edx, 7FFFFFFFh jz loc_7B3A9 add rsi, 18h mov rdi, r15 call js_new_string16_len mov rbx, rdx mov [rsp+28h+var_20], rax mov rsi, [rsp+28h+var_28] mov rdi, [r15+18h] mov rdx, r14 call JS_FreeValueRT cmp ebx, 6 jz short loc_7B2E7 mov rax, [rsp+28h+var_20] mov ecx, 7FFFFFFFh and ecx, [rax+4] jz short loc_7B39F xor edx, edx loc_7B34A: mov esi, edx movzx edi, word ptr [rax+rsi*2+18h] mov r8d, edi and r8d, 0F800h cmp r8d, 0D800h jnz short loc_7B395 not edi test edi, 0DC00h jz short loc_7B38E lea edi, [rdx+1] cmp edi, ecx jz short loc_7B38E mov r8d, edi movzx r8d, word ptr [rax+r8*2+18h] and r8d, 0FC00h cmp r8d, 0DC00h jz short loc_7B397 loc_7B38E: mov word ptr [rax+rsi*2+18h], 0FFFDh loc_7B395: mov edi, edx loc_7B397: inc edi mov edx, edi cmp edi, ecx jb short loc_7B34A loc_7B39F: mov rax, [rsp+28h+var_20] mov r14, rbx jmp short loc_7B3AD loc_7B3A9: mov rax, [rsp+28h+var_28] loc_7B3AD: mov rdx, r14 add rsp, 10h pop rbx pop r14 pop r15 retn
unsigned long long js_string_toWellFormed( long long a1, long long a2, long long a3, long long a4, long long a5, long long a6, __m128 a7, __m128 a8, __m128 a9, __m128 a10, __m128 a11, __m128 a12, __m128 a13, __m128 a14) { unsigned long long result; // rax long long v15; // rdx long long v16; // r14 long long v17; // rdx unsigned int v18; // edx long long v19; // rax int v20; // edx int v21; // ebx unsigned int v22; // ecx unsigned int v23; // edx unsigned int v24; // edi _DWORD *v25; // [rsp+0h] [rbp-28h] long long v26; // [rsp+8h] [rbp-20h] result = JS_ToStringCheckObject(a1, a2, a3, a4, a5, a6, a7, a8, a9, a10, a11, a12, a13, a14); v16 = v15; v25 = (_DWORD *)result; if ( (_DWORD)v15 == 6 ) return 0LL; v17 = *(_QWORD *)(result + 4); if ( (int)v17 < 0 ) { v18 = v17 & 0x7FFFFFFF; if ( v18 ) { v19 = js_new_string16_len(a1, result + 24, v18); v21 = v20; v26 = v19; JS_FreeValueRT(*(_QWORD *)(a1 + 24), v25, v16); if ( v21 == 6 ) return 0LL; v22 = *(_DWORD *)(v26 + 4) & 0x7FFFFFFF; if ( v22 ) { v23 = 0; do { if ( (*(_WORD *)(v26 + 2LL * v23 + 24) & 0xF800) == 0xD800 ) { if ( (~*(_WORD *)(v26 + 2LL * v23 + 24) & 0xDC00) != 0 ) { v24 = v23 + 1; if ( v23 + 1 != v22 && (*(_WORD *)(v26 + 2LL * v24 + 24) & 0xFC00) == 0xDC00 ) goto LABEL_14; } *(_WORD *)(v26 + 2LL * v23 + 24) = -3; } v24 = v23; LABEL_14: v23 = v24 + 1; } while ( v24 + 1 < v22 ); } return v26; } } return result; }
40,811
js_string_toWellFormed
bluesky950520[P]quickjs/quickjs.c
static JSValue js_string_toWellFormed(JSContext *ctx, JSValue this_val, int argc, JSValue *argv) { JSValue str; JSValue ret; JSString *p; uint32_t c, i, n; str = JS_ToStringCheckObject(ctx, this_val); if (JS_IsException(str)) return JS_EXCEPTION; p = JS_VALUE_GET_STRING(str); if (!p->is_wide_char || p->len == 0) return str; // by definition well-formed // TODO(bnoordhuis) don't clone when input is well-formed ret = js_new_string16_len(ctx, p->u.str16, p->len); JS_FreeValue(ctx, str); if (JS_IsException(ret)) return JS_EXCEPTION; p = JS_VALUE_GET_STRING(ret); for (i = 0, n = p->len; i < n; i++) { c = p->u.str16[i]; if (!is_surrogate(c)) continue; if (is_lo_surrogate(c) || i + 1 == n) { p->u.str16[i] = 0xFFFD; continue; } c = p->u.str16[++i]; if (!is_lo_surrogate(c)) p->u.str16[--i] = 0xFFFD; } return ret; }
O2
c
js_string_toWellFormed: pushq %rbp pushq %r15 pushq %r14 pushq %r13 pushq %r12 pushq %rbx pushq %rax movq %rdi, %r13 callq 0x3a290 movq %rdx, %rbp pushq $0x6 popq %r12 cmpl $0x6, %ebp jne 0x67807 xorl %ebx, %ebx jmp 0x678aa movq %rax, %rbx movq 0x4(%rax), %rdx testl %edx, %edx jns 0x678a7 andl $0x7fffffff, %edx # imm = 0x7FFFFFFF je 0x678a7 movq %rbx, %rsi addq $0x18, %rsi movq %r13, %rdi callq 0x35ff3 movq %rax, %r14 movq %rdx, %r15 movq %r13, %rdi movq %rbx, %rsi movq %rbp, %rdx callq 0x1801e xorl %ebx, %ebx cmpl $0x6, %r15d je 0x678aa movl $0x7fffffff, %eax # imm = 0x7FFFFFFF andl 0x4(%r14), %eax cmpl %eax, %ebx jae 0x678bf movl %ebx, %ecx movzwl 0x18(%r14,%rcx,2), %edx movl %edx, %esi andl $0xf800, %esi # imm = 0xF800 cmpl $0xd800, %esi # imm = 0xD800 jne 0x6789f notl %edx testw $0xdc00, %dx # imm = 0xDC00 je 0x67897 leal 0x1(%rbx), %edx cmpl %eax, %edx je 0x67897 movl %edx, %esi movzwl 0x18(%r14,%rsi,2), %esi andl $0xfc00, %esi # imm = 0xFC00 cmpw $0xdc00, %si # imm = 0xDC00 je 0x678a1 movw $0xfffd, 0x18(%r14,%rcx,2) # imm = 0xFFFD movl %ebx, %edx incl %edx movl %edx, %ebx jmp 0x67856 movq %rbp, %r12 movq %rbx, %rax movq %r12, %rdx addq $0x8, %rsp popq %rbx popq %r12 popq %r13 popq %r14 popq %r15 popq %rbp retq movq %r14, %rbx movq %r15, %r12 jmp 0x678aa
js_string_toWellFormed: push rbp push r15 push r14 push r13 push r12 push rbx push rax mov r13, rdi call JS_ToStringCheckObject mov rbp, rdx push 6 pop r12 cmp ebp, 6 jnz short loc_67807 xor ebx, ebx jmp loc_678AA loc_67807: mov rbx, rax mov rdx, [rax+4] test edx, edx jns loc_678A7 and edx, 7FFFFFFFh jz loc_678A7 mov rsi, rbx add rsi, 18h mov rdi, r13 call js_new_string16_len mov r14, rax mov r15, rdx mov rdi, r13 mov rsi, rbx mov rdx, rbp call JS_FreeValue xor ebx, ebx cmp r15d, 6 jz short loc_678AA mov eax, 7FFFFFFFh and eax, [r14+4] loc_67856: cmp ebx, eax jnb short loc_678BF mov ecx, ebx movzx edx, word ptr [r14+rcx*2+18h] mov esi, edx and esi, 0F800h cmp esi, 0D800h jnz short loc_6789F not edx test dx, 0DC00h jz short loc_67897 lea edx, [rbx+1] cmp edx, eax jz short loc_67897 mov esi, edx movzx esi, word ptr [r14+rsi*2+18h] and esi, 0FC00h cmp si, 0DC00h jz short loc_678A1 loc_67897: mov word ptr [r14+rcx*2+18h], 0FFFDh loc_6789F: mov edx, ebx loc_678A1: inc edx mov ebx, edx jmp short loc_67856 loc_678A7: mov r12, rbp loc_678AA: mov rax, rbx mov rdx, r12 add rsp, 8 pop rbx pop r12 pop r13 pop r14 pop r15 pop rbp retn loc_678BF: mov rbx, r14 mov r12, r15 jmp short loc_678AA
long long js_string_toWellFormed( long long a1, long long a2, long long a3, long long a4, long long a5, long long a6, __m128 a7, __m128 a8, __m128 a9, __m128 a10, __m128 a11, __m128 a12, __m128 a13, __m128 a14) { long long v14; // rax long long v15; // rdx long long v16; // rbp long long v17; // rbx long long v18; // rdx unsigned int v19; // edx long long v20; // r14 int v21; // edx int v22; // r15d unsigned int v23; // eax unsigned int v24; // edx v14 = JS_ToStringCheckObject(a1, a2, a3, a4, a5, a6, a7, a8, a9, a10, a11, a12, a13, a14); v16 = v15; if ( (_DWORD)v15 == 6 ) return 0LL; v17 = v14; v18 = *(_QWORD *)(v14 + 4); if ( (int)v18 < 0 ) { v19 = v18 & 0x7FFFFFFF; if ( v19 ) { v20 = js_new_string16_len(a1, v14 + 24, v19); v22 = v21; JS_FreeValue(a1, v17, v16); v17 = 0LL; if ( v22 != 6 ) { v23 = *(_DWORD *)(v20 + 4) & 0x7FFFFFFF; while ( 1 ) { if ( (unsigned int)v17 >= v23 ) return v20; if ( (*(_WORD *)(v20 + 2LL * (unsigned int)v17 + 24) & 0xF800) != 0xD800 ) goto LABEL_13; if ( (~*(_WORD *)(v20 + 2LL * (unsigned int)v17 + 24) & 0xDC00) == 0 ) break; v24 = v17 + 1; if ( (_DWORD)v17 + 1 == v23 || (*(_WORD *)(v20 + 2LL * v24 + 24) & 0xFC00) != 0xDC00 ) break; LABEL_14: LODWORD(v17) = v24 + 1; } *(_WORD *)(v20 + 2LL * (unsigned int)v17 + 24) = -3; LABEL_13: v24 = v17; goto LABEL_14; } } } return v17; }
js_string_toWellFormed: PUSH RBP PUSH R15 PUSH R14 PUSH R13 PUSH R12 PUSH RBX PUSH RAX MOV R13,RDI CALL 0x0013a290 MOV RBP,RDX PUSH 0x6 POP R12 CMP EBP,0x6 JNZ 0x00167807 XOR EBX,EBX JMP 0x001678aa LAB_00167807: MOV RBX,RAX MOV RDX,qword ptr [RAX + 0x4] TEST EDX,EDX JNS 0x001678a7 AND EDX,0x7fffffff JZ 0x001678a7 MOV RSI,RBX ADD RSI,0x18 MOV RDI,R13 CALL 0x00135ff3 MOV R14,RAX MOV R15,RDX MOV RDI,R13 MOV RSI,RBX MOV RDX,RBP CALL 0x0011801e XOR EBX,EBX CMP R15D,0x6 JZ 0x001678aa MOV EAX,0x7fffffff AND EAX,dword ptr [R14 + 0x4] LAB_00167856: CMP EBX,EAX JNC 0x001678bf MOV ECX,EBX MOVZX EDX,word ptr [R14 + RCX*0x2 + 0x18] MOV ESI,EDX AND ESI,0xf800 CMP ESI,0xd800 JNZ 0x0016789f NOT EDX TEST DX,0xdc00 JZ 0x00167897 LEA EDX,[RBX + 0x1] CMP EDX,EAX JZ 0x00167897 MOV ESI,EDX MOVZX ESI,word ptr [R14 + RSI*0x2 + 0x18] AND ESI,0xfc00 CMP SI,0xdc00 JZ 0x001678a1 LAB_00167897: MOV word ptr [R14 + RCX*0x2 + 0x18],0xfffd LAB_0016789f: MOV EDX,EBX LAB_001678a1: INC EDX MOV EBX,EDX JMP 0x00167856 LAB_001678a7: MOV R12,RBP LAB_001678aa: MOV RAX,RBX MOV RDX,R12 ADD RSP,0x8 POP RBX POP R12 POP R13 POP R14 POP R15 POP RBP RET LAB_001678bf: MOV RBX,R14 MOV R12,R15 JMP 0x001678aa
int1 [16] js_string_toWellFormed(int8 param_1) { ushort uVar1; uint uVar2; long lVar3; long lVar4; uint uVar5; uint uVar6; ulong uVar7; int1 auVar8 [16]; int1 auVar9 [16]; auVar8 = JS_ToStringCheckObject(); lVar3 = auVar8._0_8_; if (auVar8._8_4_ == 6) { auVar8 = ZEXT816(6) << 0x40; } else if (((int)*(ulong *)(lVar3 + 4) < 0) && ((*(ulong *)(lVar3 + 4) & 0x7fffffff) != 0)) { auVar9 = js_new_string16_len(param_1,lVar3 + 0x18); lVar4 = auVar9._0_8_; JS_FreeValue(param_1,lVar3,auVar8._8_8_); uVar7 = 0; auVar8 = ZEXT816(6) << 0x40; if (auVar9._8_4_ != 6) { uVar2 = *(uint *)(lVar4 + 4) & 0x7fffffff; while (uVar6 = (uint)uVar7, auVar8 = auVar9, uVar6 < uVar2) { uVar1 = *(ushort *)(lVar4 + 0x18 + uVar7 * 2); uVar5 = uVar6; if (((uVar1 & 0xf800) == 0xd800) && ((((~uVar1 & 0xdc00) == 0 || (uVar5 = uVar6 + 1, uVar5 == uVar2)) || ((*(ushort *)(lVar4 + 0x18 + (ulong)uVar5 * 2) & 0xfc00) != 0xdc00)))) { *(int2 *)(lVar4 + 0x18 + uVar7 * 2) = 0xfffd; uVar5 = uVar6; } uVar7 = (ulong)(uVar5 + 1); } } } return auVar8; }
40,812
get_internal_charset
eloqsql/mysys/charset.c
static CHARSET_INFO * get_internal_charset(MY_CHARSET_LOADER *loader, uint cs_number, myf flags) { char buf[FN_REFLEN]; struct charset_info_st *cs; DBUG_ASSERT(cs_number < array_elements(all_charsets)); if ((cs= (struct charset_info_st*) all_charsets[cs_number])) { if (cs->state & MY_CS_READY) /* if CS is already initialized */ { my_collation_statistics_inc_use_count(cs_number); return cs; } /* To make things thread safe we are not allowing other threads to interfere while we may changing the cs_info_table */ mysql_mutex_lock(&THR_LOCK_charset); if (!(cs->state & (MY_CS_COMPILED|MY_CS_LOADED))) /* if CS is not in memory */ { MY_CHARSET_LOADER loader; strxmov(get_charsets_dir(buf), cs->cs_name.str, ".xml", NullS); my_charset_loader_init_mysys(&loader); my_read_charset_file(&loader, buf, flags); } if (cs->state & MY_CS_AVAILABLE) { if (!(cs->state & MY_CS_READY)) { if (!simple_8bit_charset_data_is_full(cs)) { CHARSET_INFO *refcs= find_charset_data_inheritance_source(cs); if (refcs) inherit_charset_data(cs, refcs); } if (!simple_8bit_collation_data_is_full(cs)) { CHARSET_INFO *refcl= find_collation_data_inheritance_source(cs, flags); if (refcl) inherit_collation_data(cs, refcl); } if (my_ci_init_charset(cs, loader) || my_ci_init_collation(cs, loader)) { cs= NULL; } else cs->state|= MY_CS_READY; } my_collation_statistics_inc_use_count(cs_number); } else cs= NULL; mysql_mutex_unlock(&THR_LOCK_charset); } return cs; }
O0
c
get_internal_charset: pushq %rbp movq %rsp, %rbp subq $0x300, %rsp # imm = 0x300 movq %fs:0x28, %rax movq %rax, -0x8(%rbp) movq %rdi, -0x2d0(%rbp) movl %esi, -0x2d4(%rbp) movq %rdx, -0x2e0(%rbp) jmp 0x3396e movl -0x2d4(%rbp), %eax movl %eax, %ecx leaq 0x35e493(%rip), %rax # 0x391e10 movq (%rax,%rcx,8), %rax movq %rax, -0x2e8(%rbp) cmpq $0x0, %rax je 0x33b77 movq -0x2e8(%rbp), %rax movl 0xc(%rax), %eax andl $0x100, %eax # imm = 0x100 cmpl $0x0, %eax je 0x339c4 movl -0x2d4(%rbp), %edi callq 0x352d0 movq -0x2e8(%rbp), %rax movq %rax, -0x2c8(%rbp) jmp 0x33b85 leaq 0x35e2f5(%rip), %rdi # 0x391cc0 leaq 0x4ff4c(%rip), %rsi # 0x8391e movl $0x36b, %edx # imm = 0x36B callq 0x35300 movq -0x2e8(%rbp), %rax movl 0xc(%rax), %eax andl $0x9, %eax cmpl $0x0, %eax jne 0x33a40 leaq -0x210(%rbp), %rdi callq 0x32fb0 movq %rax, %rdi movq -0x2e8(%rbp), %rax movq 0x10(%rax), %rsi leaq 0x4fef2(%rip), %rdx # 0x83901 xorl %eax, %eax movl %eax, %ecx movb $0x0, %al callq 0x806a0 leaq -0x2c0(%rbp), %rdi callq 0x32910 leaq -0x210(%rbp), %rsi movq -0x2e0(%rbp), %rdx leaq -0x2c0(%rbp), %rdi callq 0x34e50 movq -0x2e8(%rbp), %rax movl 0xc(%rax), %eax andl $0x200, %eax # imm = 0x200 cmpl $0x0, %eax je 0x33b60 movq -0x2e8(%rbp), %rax movl 0xc(%rax), %eax andl $0x100, %eax # imm = 0x100 cmpl $0x0, %eax jne 0x33b53 movq -0x2e8(%rbp), %rdi callq 0x34d70 cmpb $0x0, %al jne 0x33ab2 movq -0x2e8(%rbp), %rdi callq 0x35370 movq %rax, -0x2f0(%rbp) cmpq $0x0, -0x2f0(%rbp) je 0x33ab0 movq -0x2e8(%rbp), %rdi movq -0x2f0(%rbp), %rsi callq 0x353b0 jmp 0x33ab2 movq -0x2e8(%rbp), %rdi callq 0x34dd0 cmpb $0x0, %al jne 0x33afb movq -0x2e8(%rbp), %rdi movq -0x2e0(%rbp), %rsi callq 0x35430 movq %rax, -0x2f8(%rbp) cmpq $0x0, -0x2f8(%rbp) je 0x33af9 movq -0x2e8(%rbp), %rdi movq -0x2f8(%rbp), %rsi callq 0x35540 jmp 0x33afb movq -0x2e8(%rbp), %rdi movq -0x2d0(%rbp), %rsi callq 0x35580 movsbl %al, %eax cmpl $0x0, %eax jne 0x33b31 movq -0x2e8(%rbp), %rdi movq -0x2d0(%rbp), %rsi callq 0x355d0 movsbl %al, %eax cmpl $0x0, %eax je 0x33b3e movq $0x0, -0x2e8(%rbp) jmp 0x33b51 movq -0x2e8(%rbp), %rax movl 0xc(%rax), %ecx orl $0x100, %ecx # imm = 0x100 movl %ecx, 0xc(%rax) jmp 0x33b53 movl -0x2d4(%rbp), %edi callq 0x352d0 jmp 0x33b6b movq $0x0, -0x2e8(%rbp) leaq 0x35e14e(%rip), %rdi # 0x391cc0 callq 0x35620 movq -0x2e8(%rbp), %rax movq %rax, -0x2c8(%rbp) movq -0x2c8(%rbp), %rax movq %rax, -0x300(%rbp) movq %fs:0x28, %rax movq -0x8(%rbp), %rcx cmpq %rcx, %rax jne 0x33bb5 movq -0x300(%rbp), %rax addq $0x300, %rsp # imm = 0x300 popq %rbp retq callq 0x25390 nopw (%rax,%rax)
get_internal_charset: push rbp mov rbp, rsp sub rsp, 300h mov rax, fs:28h mov [rbp+var_8], rax mov [rbp+var_2D0], rdi mov [rbp+var_2D4], esi mov [rbp+var_2E0], rdx jmp short $+2 loc_3396E: mov eax, [rbp+var_2D4] mov ecx, eax lea rax, all_charsets mov rax, [rax+rcx*8] mov [rbp+var_2E8], rax cmp rax, 0 jz loc_33B77 mov rax, [rbp+var_2E8] mov eax, [rax+0Ch] and eax, 100h cmp eax, 0 jz short loc_339C4 mov edi, [rbp+var_2D4] call my_collation_statistics_inc_use_count mov rax, [rbp+var_2E8] mov [rbp+var_2C8], rax jmp loc_33B85 loc_339C4: lea rdi, THR_LOCK_charset lea rsi, aWorkspaceLlm4b_0; "/workspace/llm4binary/github2025/eloqsq"... mov edx, 36Bh call inline_mysql_mutex_lock_0 mov rax, [rbp+var_2E8] mov eax, [rax+0Ch] and eax, 9 cmp eax, 0 jnz short loc_33A40 lea rdi, [rbp+var_210] call get_charsets_dir mov rdi, rax mov rax, [rbp+var_2E8] mov rsi, [rax+10h] lea rdx, aIndexXml+5; ".xml" xor eax, eax mov ecx, eax mov al, 0 call strxmov lea rdi, [rbp+var_2C0] call my_charset_loader_init_mysys lea rsi, [rbp+var_210] mov rdx, [rbp+var_2E0] lea rdi, [rbp+var_2C0] call my_read_charset_file loc_33A40: mov rax, [rbp+var_2E8] mov eax, [rax+0Ch] and eax, 200h cmp eax, 0 jz loc_33B60 mov rax, [rbp+var_2E8] mov eax, [rax+0Ch] and eax, 100h cmp eax, 0 jnz loc_33B53 mov rdi, [rbp+var_2E8] call simple_8bit_charset_data_is_full cmp al, 0 jnz short loc_33AB2 mov rdi, [rbp+var_2E8] call find_charset_data_inheritance_source mov [rbp+var_2F0], rax cmp [rbp+var_2F0], 0 jz short loc_33AB0 mov rdi, [rbp+var_2E8] mov rsi, [rbp+var_2F0] call inherit_charset_data loc_33AB0: jmp short $+2 loc_33AB2: mov rdi, [rbp+var_2E8] call simple_8bit_collation_data_is_full cmp al, 0 jnz short loc_33AFB mov rdi, [rbp+var_2E8] mov rsi, [rbp+var_2E0] call find_collation_data_inheritance_source mov [rbp+var_2F8], rax cmp [rbp+var_2F8], 0 jz short loc_33AF9 mov rdi, [rbp+var_2E8] mov rsi, [rbp+var_2F8] call inherit_collation_data loc_33AF9: jmp short $+2 loc_33AFB: mov rdi, [rbp+var_2E8] mov rsi, [rbp+var_2D0] call my_ci_init_charset movsx eax, al cmp eax, 0 jnz short loc_33B31 mov rdi, [rbp+var_2E8] mov rsi, [rbp+var_2D0] call my_ci_init_collation movsx eax, al cmp eax, 0 jz short loc_33B3E loc_33B31: mov [rbp+var_2E8], 0 jmp short loc_33B51 loc_33B3E: mov rax, [rbp+var_2E8] mov ecx, [rax+0Ch] or ecx, 100h mov [rax+0Ch], ecx loc_33B51: jmp short $+2 loc_33B53: mov edi, [rbp+var_2D4] call my_collation_statistics_inc_use_count jmp short loc_33B6B loc_33B60: mov [rbp+var_2E8], 0 loc_33B6B: lea rdi, THR_LOCK_charset call inline_mysql_mutex_unlock_0 loc_33B77: mov rax, [rbp+var_2E8] mov [rbp+var_2C8], rax loc_33B85: mov rax, [rbp+var_2C8] mov [rbp+var_300], rax mov rax, fs:28h mov rcx, [rbp+var_8] cmp rax, rcx jnz short loc_33BB5 mov rax, [rbp+var_300] add rsp, 300h pop rbp retn loc_33BB5: call ___stack_chk_fail
long long get_internal_charset(long long a1, unsigned int a2, long long a3) { int charsets_dir; // eax int v4; // r8d int v5; // r9d long long collation_data_inheritance_source; // [rsp+8h] [rbp-2F8h] long long charset_data_inheritance_source; // [rsp+10h] [rbp-2F0h] long long v9; // [rsp+18h] [rbp-2E8h] _BYTE v12[176]; // [rsp+40h] [rbp-2C0h] BYREF _BYTE v13[520]; // [rsp+F0h] [rbp-210h] BYREF unsigned long long v14; // [rsp+2F8h] [rbp-8h] v14 = __readfsqword(0x28u); v9 = all_charsets[a2]; if ( !v9 ) return v9; if ( (*(_DWORD *)(v9 + 12) & 0x100) == 0 ) { inline_mysql_mutex_lock_0(&THR_LOCK_charset, "/workspace/llm4binary/github2025/eloqsql/mysys/charset.c", 875LL); if ( (*(_DWORD *)(v9 + 12) & 9) == 0 ) { charsets_dir = get_charsets_dir((long long)v13); strxmov(charsets_dir, *(_QWORD *)(v9 + 16), (unsigned int)".xml", 0, v4, v5); my_charset_loader_init_mysys((long long)v12); my_read_charset_file(v12, v13, a3); } if ( (*(_DWORD *)(v9 + 12) & 0x200) != 0 ) { if ( (*(_DWORD *)(v9 + 12) & 0x100) == 0 ) { if ( !(unsigned __int8)simple_8bit_charset_data_is_full(v9) ) { charset_data_inheritance_source = find_charset_data_inheritance_source(v9); if ( charset_data_inheritance_source ) inherit_charset_data(v9, charset_data_inheritance_source); } if ( !(unsigned __int8)simple_8bit_collation_data_is_full(v9) ) { collation_data_inheritance_source = find_collation_data_inheritance_source(v9, a3); if ( collation_data_inheritance_source ) inherit_collation_data(v9, collation_data_inheritance_source); } if ( (unsigned __int8)my_ci_init_charset(v9, a1) || (unsigned __int8)my_ci_init_collation(v9, a1) ) v9 = 0LL; else *(_DWORD *)(v9 + 12) |= 0x100u; } my_collation_statistics_inc_use_count(a2); } else { v9 = 0LL; } inline_mysql_mutex_unlock_0(&THR_LOCK_charset); return v9; } my_collation_statistics_inc_use_count(a2); return v9; }
get_internal_charset: PUSH RBP MOV RBP,RSP SUB RSP,0x300 MOV RAX,qword ptr FS:[0x28] MOV qword ptr [RBP + -0x8],RAX MOV qword ptr [RBP + -0x2d0],RDI MOV dword ptr [RBP + -0x2d4],ESI MOV qword ptr [RBP + -0x2e0],RDX JMP 0x0013396e LAB_0013396e: MOV EAX,dword ptr [RBP + -0x2d4] MOV ECX,EAX LEA RAX,[0x491e10] MOV RAX,qword ptr [RAX + RCX*0x8] MOV qword ptr [RBP + -0x2e8],RAX CMP RAX,0x0 JZ 0x00133b77 MOV RAX,qword ptr [RBP + -0x2e8] MOV EAX,dword ptr [RAX + 0xc] AND EAX,0x100 CMP EAX,0x0 JZ 0x001339c4 MOV EDI,dword ptr [RBP + -0x2d4] CALL 0x001352d0 MOV RAX,qword ptr [RBP + -0x2e8] MOV qword ptr [RBP + -0x2c8],RAX JMP 0x00133b85 LAB_001339c4: LEA RDI,[0x491cc0] LEA RSI,[0x18391e] MOV EDX,0x36b CALL 0x00135300 MOV RAX,qword ptr [RBP + -0x2e8] MOV EAX,dword ptr [RAX + 0xc] AND EAX,0x9 CMP EAX,0x0 JNZ 0x00133a40 LEA RDI,[RBP + -0x210] CALL 0x00132fb0 MOV RDI,RAX MOV RAX,qword ptr [RBP + -0x2e8] MOV RSI,qword ptr [RAX + 0x10] LEA RDX,[0x183901] XOR EAX,EAX MOV ECX,EAX MOV AL,0x0 CALL 0x001806a0 LEA RDI,[RBP + -0x2c0] CALL 0x00132910 LEA RSI,[RBP + -0x210] MOV RDX,qword ptr [RBP + -0x2e0] LEA RDI,[RBP + -0x2c0] CALL 0x00134e50 LAB_00133a40: MOV RAX,qword ptr [RBP + -0x2e8] MOV EAX,dword ptr [RAX + 0xc] AND EAX,0x200 CMP EAX,0x0 JZ 0x00133b60 MOV RAX,qword ptr [RBP + -0x2e8] MOV EAX,dword ptr [RAX + 0xc] AND EAX,0x100 CMP EAX,0x0 JNZ 0x00133b53 MOV RDI,qword ptr [RBP + -0x2e8] CALL 0x00134d70 CMP AL,0x0 JNZ 0x00133ab2 MOV RDI,qword ptr [RBP + -0x2e8] CALL 0x00135370 MOV qword ptr [RBP + -0x2f0],RAX CMP qword ptr [RBP + -0x2f0],0x0 JZ 0x00133ab0 MOV RDI,qword ptr [RBP + -0x2e8] MOV RSI,qword ptr [RBP + -0x2f0] CALL 0x001353b0 LAB_00133ab0: JMP 0x00133ab2 LAB_00133ab2: MOV RDI,qword ptr [RBP + -0x2e8] CALL 0x00134dd0 CMP AL,0x0 JNZ 0x00133afb MOV RDI,qword ptr [RBP + -0x2e8] MOV RSI,qword ptr [RBP + -0x2e0] CALL 0x00135430 MOV qword ptr [RBP + -0x2f8],RAX CMP qword ptr [RBP + -0x2f8],0x0 JZ 0x00133af9 MOV RDI,qword ptr [RBP + -0x2e8] MOV RSI,qword ptr [RBP + -0x2f8] CALL 0x00135540 LAB_00133af9: JMP 0x00133afb LAB_00133afb: MOV RDI,qword ptr [RBP + -0x2e8] MOV RSI,qword ptr [RBP + -0x2d0] CALL 0x00135580 MOVSX EAX,AL CMP EAX,0x0 JNZ 0x00133b31 MOV RDI,qword ptr [RBP + -0x2e8] MOV RSI,qword ptr [RBP + -0x2d0] CALL 0x001355d0 MOVSX EAX,AL CMP EAX,0x0 JZ 0x00133b3e LAB_00133b31: MOV qword ptr [RBP + -0x2e8],0x0 JMP 0x00133b51 LAB_00133b3e: MOV RAX,qword ptr [RBP + -0x2e8] MOV ECX,dword ptr [RAX + 0xc] OR ECX,0x100 MOV dword ptr [RAX + 0xc],ECX LAB_00133b51: JMP 0x00133b53 LAB_00133b53: MOV EDI,dword ptr [RBP + -0x2d4] CALL 0x001352d0 JMP 0x00133b6b LAB_00133b60: MOV qword ptr [RBP + -0x2e8],0x0 LAB_00133b6b: LEA RDI,[0x491cc0] CALL 0x00135620 LAB_00133b77: MOV RAX,qword ptr [RBP + -0x2e8] MOV qword ptr [RBP + -0x2c8],RAX LAB_00133b85: MOV RAX,qword ptr [RBP + -0x2c8] MOV qword ptr [RBP + -0x300],RAX MOV RAX,qword ptr FS:[0x28] MOV RCX,qword ptr [RBP + -0x8] CMP RAX,RCX JNZ 0x00133bb5 MOV RAX,qword ptr [RBP + -0x300] ADD RSP,0x300 POP RBP RET LAB_00133bb5: CALL 0x00125390
long get_internal_charset(int8 param_1,uint param_2,int8 param_3) { char cVar1; int8 uVar2; long lVar3; long in_FS_OFFSET; long local_2f0; int1 local_2c8 [176]; int1 local_218 [520]; long local_10; local_10 = *(long *)(in_FS_OFFSET + 0x28); local_2f0 = (&all_charsets)[param_2]; if (local_2f0 != 0) { if ((*(uint *)(local_2f0 + 0xc) & 0x100) == 0) { inline_mysql_mutex_lock (THR_LOCK_charset,"/workspace/llm4binary/github2025/eloqsql/mysys/charset.c",0x36b); if ((*(uint *)(local_2f0 + 0xc) & 9) == 0) { uVar2 = get_charsets_dir(local_218); strxmov(uVar2,*(int8 *)(local_2f0 + 0x10),".xml",0); my_charset_loader_init_mysys(local_2c8); my_read_charset_file(local_2c8,local_218,param_3); } if ((*(uint *)(local_2f0 + 0xc) & 0x200) == 0) { local_2f0 = 0; } else { if ((*(uint *)(local_2f0 + 0xc) & 0x100) == 0) { cVar1 = simple_8bit_charset_data_is_full(local_2f0); if ((cVar1 == '\0') && (lVar3 = find_charset_data_inheritance_source(local_2f0), lVar3 != 0)) { inherit_charset_data(local_2f0,lVar3); } cVar1 = simple_8bit_collation_data_is_full(local_2f0); if ((cVar1 == '\0') && (lVar3 = find_collation_data_inheritance_source(local_2f0,param_3), lVar3 != 0)) { inherit_collation_data(local_2f0,lVar3); } cVar1 = my_ci_init_charset(local_2f0,param_1); if ((cVar1 == '\0') && (cVar1 = my_ci_init_collation(local_2f0,param_1), cVar1 == '\0')) { *(uint *)(local_2f0 + 0xc) = *(uint *)(local_2f0 + 0xc) | 0x100; } else { local_2f0 = 0; } } my_collation_statistics_inc_use_count(param_2); } inline_mysql_mutex_unlock(THR_LOCK_charset); } else { my_collation_statistics_inc_use_count(param_2); } } if (*(long *)(in_FS_OFFSET + 0x28) != local_10) { /* WARNING: Subroutine does not return */ __stack_chk_fail(); } return local_2f0; }
40,813
get_internal_charset
eloqsql/mysys/charset.c
static CHARSET_INFO * get_internal_charset(MY_CHARSET_LOADER *loader, uint cs_number, myf flags) { char buf[FN_REFLEN]; struct charset_info_st *cs; DBUG_ASSERT(cs_number < array_elements(all_charsets)); if ((cs= (struct charset_info_st*) all_charsets[cs_number])) { if (cs->state & MY_CS_READY) /* if CS is already initialized */ { my_collation_statistics_inc_use_count(cs_number); return cs; } /* To make things thread safe we are not allowing other threads to interfere while we may changing the cs_info_table */ mysql_mutex_lock(&THR_LOCK_charset); if (!(cs->state & (MY_CS_COMPILED|MY_CS_LOADED))) /* if CS is not in memory */ { MY_CHARSET_LOADER loader; strxmov(get_charsets_dir(buf), cs->cs_name.str, ".xml", NullS); my_charset_loader_init_mysys(&loader); my_read_charset_file(&loader, buf, flags); } if (cs->state & MY_CS_AVAILABLE) { if (!(cs->state & MY_CS_READY)) { if (!simple_8bit_charset_data_is_full(cs)) { CHARSET_INFO *refcs= find_charset_data_inheritance_source(cs); if (refcs) inherit_charset_data(cs, refcs); } if (!simple_8bit_collation_data_is_full(cs)) { CHARSET_INFO *refcl= find_collation_data_inheritance_source(cs, flags); if (refcl) inherit_collation_data(cs, refcl); } if (my_ci_init_charset(cs, loader) || my_ci_init_collation(cs, loader)) { cs= NULL; } else cs->state|= MY_CS_READY; } my_collation_statistics_inc_use_count(cs_number); } else cs= NULL; mysql_mutex_unlock(&THR_LOCK_charset); } return cs; }
O3
c
get_internal_charset: pushq %rbp movq %rsp, %rbp pushq %r15 pushq %r14 pushq %r13 pushq %r12 pushq %rbx subq $0x2c8, %rsp # imm = 0x2C8 movq %fs:0x28, %rax movq %rax, -0x30(%rbp) movl %esi, %r13d leaq 0x33fec3(%rip), %r12 # 0x36e220 movq (%r12,%r13,8), %rbx testq %rbx, %rbx je 0x2e446 testb $0x1, 0xd(%rbx) jne 0x2e44d movq %rdx, %r15 movq %rdi, %r14 leaq 0x33fd4f(%rip), %rax # 0x36e0d0 cmpq $0x0, 0x40(%rax) jne 0x2e62f leaq 0x33fd3d(%rip), %rdi # 0x36e0d0 callq 0x24540 movl 0xc(%rbx), %eax testb $0x9, %al jne 0x2e439 leaq -0x230(%rbp), %rdi callq 0x2dc63 movq 0x10(%rbx), %rsi leaq 0x344b4(%rip), %rdx # 0x6286e movq %rax, %rdi xorl %ecx, %ecx xorl %eax, %eax callq 0x5f5c4 leaq -0x2e0(%rbp), %rdi movb $0x0, (%rdi) leaq -0xd01(%rip), %rax # 0x2d6d6 movq %rax, 0x80(%rdi) leaq -0xd00(%rip), %rax # 0x2d6e5 movq %rax, 0x88(%rdi) leaq -0xcf3(%rip), %rax # 0x2d700 movq %rax, 0x90(%rdi) leaq -0x342f(%rip), %rax # 0x2afd2 movq %rax, 0x98(%rdi) leaq 0x2c8a61(%rip), %rax # 0x2f6e70 movq (%rax), %rax movq %rax, 0xa0(%rdi) leaq -0xd02(%rip), %rax # 0x2d71e movq %rax, 0xa8(%rdi) leaq -0x230(%rbp), %rsi movq %r15, %rdx callq 0x2f00c movl 0xc(%rbx), %eax btl $0x9, %eax jb 0x2e45d xorl %ebx, %ebx jmp 0x2e5ef xorl %ebx, %ebx jmp 0x2e60b leaq 0x343e3c(%rip), %rax # 0x372290 incq (%rax,%r13,8) jmp 0x2e60b btl $0x8, %eax jb 0x2e5e4 cmpq $0x0, 0x40(%rbx) je 0x2e483 cmpq $0x0, 0x50(%rbx) je 0x2e483 cmpq $0x0, 0x48(%rbx) je 0x2e483 cmpq $0x0, 0x68(%rbx) jne 0x2e4b2 movq 0x10(%rbx), %rdi movl $0x20, %esi callq 0x2e114 testl %eax, %eax je 0x2e4b2 cmpl %eax, (%rbx) je 0x2e4b2 movl %eax, %eax movq (%r12,%rax,8), %rsi testq %rsi, %rsi je 0x2e4b2 testb $0x2, 0xd(%rsi) je 0x2e4b2 movq %rbx, %rdi callq 0x2f255 cmpq $0x0, 0x58(%rbx) jne 0x2e5a6 testb $0x10, 0xc(%rbx) jne 0x2e5a6 movq 0x38(%rbx), %rax testq %rax, %rax je 0x2e5a6 leaq 0x34419(%rip), %rsi # 0x628f4 movl $0x8, %edx movq %rax, -0x2e8(%rbp) movq -0x2e8(%rbp), %rdi callq 0x24180 movq -0x2e8(%rbp), %rcx testl %eax, %eax jne 0x2e5a6 leaq 0x8(%rcx), %rdi movq %rdi, -0x2f0(%rbp) movl $0x5d, %esi callq 0x24120 testq %rax, %rax setne %dl movq -0x2e8(%rbp), %rcx addq $0x28, %rcx cmpq %rax, %rcx seta %cl andb %dl, %cl cmpb $0x1, %cl jne 0x2e5a6 movq -0x2f0(%rbp), %rsi subq %rsi, %rax leaq -0x2e0(%rbp), %rdi movl $0x21, %ecx movq %rax, %rdx movq %rax, -0x2e8(%rbp) callq 0x24690 movq -0x2e8(%rbp), %rax movb $0x0, -0x2e0(%rbp,%rax) leaq -0x2e0(%rbp), %rdi movq %r15, %rsi callq 0x2ddf7 testl %eax, %eax je 0x2e5a6 cmpl %eax, (%rbx) je 0x2e5a6 movl %eax, %eax movq (%r12,%rax,8), %rax testq %rax, %rax je 0x2e5a6 testb $0x2, 0xd(%rax) je 0x2e5a6 cmpq $0x0, 0x58(%rbx) jne 0x2e5a6 testb $0x10, 0xc(%rbx) jne 0x2e5a6 movq 0x58(%rax), %rax movq %rax, 0x58(%rbx) movq 0xb8(%rbx), %rax movq (%rax), %rax testq %rax, %rax je 0x2e5c1 movq %rbx, %rdi movq %r14, %rsi callq *%rax testb %al, %al jne 0x2e5dc movq 0xc0(%rbx), %rax movq (%rax), %rax testq %rax, %rax je 0x2e5e0 movq %rbx, %rdi movq %r14, %rsi callq *%rax testb %al, %al je 0x2e5e0 xorl %ebx, %ebx jmp 0x2e5e4 orb $0x1, 0xd(%rbx) leaq 0x343ca5(%rip), %rax # 0x372290 incq (%rax,%r13,8) leaq 0x33fada(%rip), %rax # 0x36e0d0 movq 0x40(%rax), %rdi testq %rdi, %rdi jne 0x2e639 leaq 0x33faca(%rip), %rdi # 0x36e0d0 callq 0x24270 movq %fs:0x28, %rax cmpq -0x30(%rbp), %rax jne 0x2e64b movq %rbx, %rax addq $0x2c8, %rsp # imm = 0x2C8 popq %rbx popq %r12 popq %r13 popq %r14 popq %r15 popq %rbp retq callq 0x24bef jmp 0x2e398 leaq 0x2c8828(%rip), %rax # 0x2f6e68 movq (%rax), %rax callq *0x160(%rax) jmp 0x2e5ff callq 0x24400
get_internal_charset: push rbp mov rbp, rsp push r15 push r14 push r13 push r12 push rbx sub rsp, 2C8h mov rax, fs:28h mov [rbp+var_30], rax mov r13d, esi lea r12, all_charsets mov rbx, [r12+r13*8] test rbx, rbx jz loc_2E446 test byte ptr [rbx+0Dh], 1 jnz loc_2E44D mov r15, rdx mov r14, rdi lea rax, THR_LOCK_charset cmp qword ptr [rax+40h], 0 jnz loc_2E62F lea rdi, THR_LOCK_charset call _pthread_mutex_lock loc_2E398: mov eax, [rbx+0Ch] test al, 9 jnz loc_2E439 lea rdi, [rbp+var_230] call get_charsets_dir mov rsi, [rbx+10h] lea rdx, aIndexXml+5; ".xml" mov rdi, rax xor ecx, ecx xor eax, eax call strxmov lea rdi, [rbp+var_2E0] mov byte ptr [rdi], 0 lea rax, my_once_alloc_c mov [rdi+80h], rax lea rax, my_malloc_c mov [rdi+88h], rax lea rax, my_realloc_c mov [rdi+90h], rax lea rax, my_free mov [rdi+98h], rax lea rax, my_charset_error_reporter mov rax, [rax] mov [rdi+0A0h], rax lea rax, add_collation mov [rdi+0A8h], rax lea rsi, [rbp+var_230] mov rdx, r15 call my_read_charset_file mov eax, [rbx+0Ch] loc_2E439: bt eax, 9 jb short loc_2E45D xor ebx, ebx jmp loc_2E5EF loc_2E446: xor ebx, ebx jmp loc_2E60B loc_2E44D: lea rax, my_collation_statistics inc qword ptr [rax+r13*8] jmp loc_2E60B loc_2E45D: bt eax, 8 jb loc_2E5E4 cmp qword ptr [rbx+40h], 0 jz short loc_2E483 cmp qword ptr [rbx+50h], 0 jz short loc_2E483 cmp qword ptr [rbx+48h], 0 jz short loc_2E483 cmp qword ptr [rbx+68h], 0 jnz short loc_2E4B2 loc_2E483: mov rdi, [rbx+10h] mov esi, 20h ; ' ' call get_charset_number_internal test eax, eax jz short loc_2E4B2 cmp [rbx], eax jz short loc_2E4B2 mov eax, eax mov rsi, [r12+rax*8] test rsi, rsi jz short loc_2E4B2 test byte ptr [rsi+0Dh], 2 jz short loc_2E4B2 mov rdi, rbx call inherit_charset_data loc_2E4B2: cmp qword ptr [rbx+58h], 0 jnz loc_2E5A6 test byte ptr [rbx+0Ch], 10h jnz loc_2E5A6 mov rax, [rbx+38h] test rax, rax jz loc_2E5A6 lea rsi, aImport; "[import " mov edx, 8 mov [rbp+var_2E8], rax mov rdi, [rbp+var_2E8] call _strncmp mov rcx, [rbp+var_2E8] test eax, eax jnz loc_2E5A6 lea rdi, [rcx+8] mov [rbp+var_2F0], rdi mov esi, 5Dh ; ']' call _strchr test rax, rax setnz dl mov rcx, [rbp+var_2E8] add rcx, 28h ; '(' cmp rcx, rax setnbe cl and cl, dl cmp cl, 1 jnz short loc_2E5A6 mov rsi, [rbp+var_2F0] sub rax, rsi lea rdi, [rbp+var_2E0] mov ecx, 21h ; '!' mov rdx, rax mov [rbp+var_2E8], rax call ___memcpy_chk mov rax, [rbp+var_2E8] mov [rbp+rax+var_2E0], 0 lea rdi, [rbp+var_2E0] mov rsi, r15 call get_collation_number test eax, eax jz short loc_2E5A6 cmp [rbx], eax jz short loc_2E5A6 mov eax, eax mov rax, [r12+rax*8] test rax, rax jz short loc_2E5A6 test byte ptr [rax+0Dh], 2 jz short loc_2E5A6 cmp qword ptr [rbx+58h], 0 jnz short loc_2E5A6 test byte ptr [rbx+0Ch], 10h jnz short loc_2E5A6 mov rax, [rax+58h] mov [rbx+58h], rax loc_2E5A6: mov rax, [rbx+0B8h] mov rax, [rax] test rax, rax jz short loc_2E5C1 mov rdi, rbx mov rsi, r14 call rax test al, al jnz short loc_2E5DC loc_2E5C1: mov rax, [rbx+0C0h] mov rax, [rax] test rax, rax jz short loc_2E5E0 mov rdi, rbx mov rsi, r14 call rax test al, al jz short loc_2E5E0 loc_2E5DC: xor ebx, ebx jmp short loc_2E5E4 loc_2E5E0: or byte ptr [rbx+0Dh], 1 loc_2E5E4: lea rax, my_collation_statistics inc qword ptr [rax+r13*8] loc_2E5EF: lea rax, THR_LOCK_charset mov rdi, [rax+40h] test rdi, rdi jnz short loc_2E639 loc_2E5FF: lea rdi, THR_LOCK_charset call _pthread_mutex_unlock loc_2E60B: mov rax, fs:28h cmp rax, [rbp+var_30] jnz short loc_2E64B mov rax, rbx add rsp, 2C8h pop rbx pop r12 pop r13 pop r14 pop r15 pop rbp retn loc_2E62F: call get_internal_charset_cold_1 jmp loc_2E398 loc_2E639: lea rax, PSI_server mov rax, [rax] call qword ptr [rax+160h] jmp short loc_2E5FF loc_2E64B: call ___stack_chk_fail
long long get_internal_charset(long long a1, unsigned int a2, long long a3) { long long v3; // r13 long long v4; // rbx long long v6; // rdx long long v7; // rcx int v8; // eax int charsets_dir; // eax int v10; // r8d int v11; // r9d int charset_number_internal; // eax long long v13; // rsi long long v14; // rax int v15; // eax unsigned long long v16; // rax int collation_number; // eax long long v18; // rax unsigned __int8 ( *v19)(long long, long long, long long, long long); // rax unsigned __int8 ( *v20)(long long, long long, long long, long long); // rax long long v22; // [rsp+0h] [rbp-2F0h] long long v23; // [rsp+8h] [rbp-2E8h] _BYTE v24[128]; // [rsp+10h] [rbp-2E0h] BYREF long long ( *v25)(long long); // [rsp+90h] [rbp-260h] long long ( *v26)(unsigned long long); // [rsp+98h] [rbp-258h] long long ( *v27)(long long, unsigned long long); // [rsp+A0h] [rbp-250h] long long ( *v28)(long long); // [rsp+A8h] [rbp-248h] long long ( *v29)(); // [rsp+B0h] [rbp-240h] long long ( *v30)(unsigned int *); // [rsp+B8h] [rbp-238h] _BYTE v31[512]; // [rsp+C0h] [rbp-230h] BYREF unsigned long long v32; // [rsp+2C0h] [rbp-30h] v32 = __readfsqword(0x28u); v3 = a2; v4 = all_charsets[a2]; if ( !v4 ) return 0LL; if ( (*(_BYTE *)(v4 + 13) & 1) != 0 ) { ++my_collation_statistics[a2]; } else { if ( THR_LOCK_charset[8] ) get_internal_charset_cold_1(); else pthread_mutex_lock(THR_LOCK_charset); v8 = *(_DWORD *)(v4 + 12); if ( (v8 & 9) == 0 ) { charsets_dir = get_charsets_dir((long long)v31); strxmov(charsets_dir, *(_QWORD *)(v4 + 16), (unsigned int)".xml", 0, v10, v11); v24[0] = 0; v25 = my_once_alloc_c; v26 = my_malloc_c; v27 = my_realloc_c; v28 = my_free; v29 = my_charset_error_reporter; v30 = add_collation; my_read_charset_file(v24, v31, a3); v8 = *(_DWORD *)(v4 + 12); } if ( (v8 & 0x200) != 0 ) { if ( (v8 & 0x100) == 0 ) { if ( !*(_QWORD *)(v4 + 64) || !*(_QWORD *)(v4 + 80) || !*(_QWORD *)(v4 + 72) || !*(_QWORD *)(v4 + 104) ) { charset_number_internal = get_charset_number_internal(*(_QWORD *)(v4 + 16), 32); if ( charset_number_internal ) { if ( *(_DWORD *)v4 != charset_number_internal ) { v13 = all_charsets[charset_number_internal]; if ( v13 ) { if ( (*(_BYTE *)(v13 + 13) & 2) != 0 ) inherit_charset_data(v4); } } } } if ( !*(_QWORD *)(v4 + 88) && (*(_BYTE *)(v4 + 12) & 0x10) == 0 ) { v14 = *(_QWORD *)(v4 + 56); if ( v14 ) { v23 = *(_QWORD *)(v4 + 56); v15 = strncmp(v14, "[import ", 8LL, v7); v7 = v23; if ( !v15 ) { v22 = v23 + 8; v16 = strchr(v23 + 8, 93LL, v6, v23); LOBYTE(v6) = v16 != 0; v7 = v23 + 40; LOBYTE(v7) = v16 != 0 && v23 + 40 > v16; if ( (_BYTE)v7 == 1 ) { v23 = v16 - v22; __memcpy_chk(v24, v22, v16 - v22, 33LL); v24[v23] = 0; collation_number = get_collation_number((long long)v24, a3); if ( collation_number ) { if ( *(_DWORD *)v4 != collation_number ) { v18 = all_charsets[collation_number]; if ( v18 ) { if ( (*(_BYTE *)(v18 + 13) & 2) != 0 && !*(_QWORD *)(v4 + 88) && (*(_BYTE *)(v4 + 12) & 0x10) == 0 ) *(_QWORD *)(v4 + 88) = *(_QWORD *)(v18 + 88); } } } } } } } v19 = **(unsigned __int8 ( ***)(long long, long long, long long, long long))(v4 + 184); if ( v19 && v19(v4, a1, v6, v7) || (v20 = **(unsigned __int8 ( ***)(long long, long long, long long, long long))(v4 + 192)) != 0LL && v20(v4, a1, v6, v7) ) { v4 = 0LL; } else { *(_BYTE *)(v4 + 13) |= 1u; } } ++my_collation_statistics[v3]; } else { v4 = 0LL; } if ( THR_LOCK_charset[8] ) (*((void (**)(void))PSI_server[0] + 44))(); pthread_mutex_unlock(THR_LOCK_charset); } return v4; }
get_internal_charset: PUSH RBP MOV RBP,RSP PUSH R15 PUSH R14 PUSH R13 PUSH R12 PUSH RBX SUB RSP,0x2c8 MOV RAX,qword ptr FS:[0x28] MOV qword ptr [RBP + -0x30],RAX MOV R13D,ESI LEA R12,[0x46e220] MOV RBX,qword ptr [R12 + R13*0x8] TEST RBX,RBX JZ 0x0012e446 TEST byte ptr [RBX + 0xd],0x1 JNZ 0x0012e44d MOV R15,RDX MOV R14,RDI LEA RAX,[0x46e0d0] CMP qword ptr [RAX + 0x40],0x0 JNZ 0x0012e62f LEA RDI,[0x46e0d0] CALL 0x00124540 LAB_0012e398: MOV EAX,dword ptr [RBX + 0xc] TEST AL,0x9 JNZ 0x0012e439 LEA RDI,[RBP + -0x230] CALL 0x0012dc63 MOV RSI,qword ptr [RBX + 0x10] LEA RDX,[0x16286e] MOV RDI,RAX XOR ECX,ECX XOR EAX,EAX CALL 0x0015f5c4 LEA RDI,[RBP + -0x2e0] MOV byte ptr [RDI],0x0 LEA RAX,[0x12d6d6] MOV qword ptr [RDI + 0x80],RAX LEA RAX,[0x12d6e5] MOV qword ptr [RDI + 0x88],RAX LEA RAX,[0x12d700] MOV qword ptr [RDI + 0x90],RAX LEA RAX,[0x12afd2] MOV qword ptr [RDI + 0x98],RAX LEA RAX,[0x3f6e70] MOV RAX,qword ptr [RAX] MOV qword ptr [RDI + 0xa0],RAX LEA RAX,[0x12d71e] MOV qword ptr [RDI + 0xa8],RAX LEA RSI,[RBP + -0x230] MOV RDX,R15 CALL 0x0012f00c MOV EAX,dword ptr [RBX + 0xc] LAB_0012e439: BT EAX,0x9 JC 0x0012e45d XOR EBX,EBX JMP 0x0012e5ef LAB_0012e446: XOR EBX,EBX JMP 0x0012e60b LAB_0012e44d: LEA RAX,[0x472290] INC qword ptr [RAX + R13*0x8] JMP 0x0012e60b LAB_0012e45d: BT EAX,0x8 JC 0x0012e5e4 CMP qword ptr [RBX + 0x40],0x0 JZ 0x0012e483 CMP qword ptr [RBX + 0x50],0x0 JZ 0x0012e483 CMP qword ptr [RBX + 0x48],0x0 JZ 0x0012e483 CMP qword ptr [RBX + 0x68],0x0 JNZ 0x0012e4b2 LAB_0012e483: MOV RDI,qword ptr [RBX + 0x10] MOV ESI,0x20 CALL 0x0012e114 TEST EAX,EAX JZ 0x0012e4b2 CMP dword ptr [RBX],EAX JZ 0x0012e4b2 MOV EAX,EAX MOV RSI,qword ptr [R12 + RAX*0x8] TEST RSI,RSI JZ 0x0012e4b2 TEST byte ptr [RSI + 0xd],0x2 JZ 0x0012e4b2 MOV RDI,RBX CALL 0x0012f255 LAB_0012e4b2: CMP qword ptr [RBX + 0x58],0x0 JNZ 0x0012e5a6 TEST byte ptr [RBX + 0xc],0x10 JNZ 0x0012e5a6 MOV RAX,qword ptr [RBX + 0x38] TEST RAX,RAX JZ 0x0012e5a6 LEA RSI,[0x1628f4] MOV EDX,0x8 MOV qword ptr [RBP + -0x2e8],RAX MOV RDI,qword ptr [RBP + -0x2e8] CALL 0x00124180 MOV RCX,qword ptr [RBP + -0x2e8] TEST EAX,EAX JNZ 0x0012e5a6 LEA RDI,[RCX + 0x8] MOV qword ptr [RBP + -0x2f0],RDI MOV ESI,0x5d CALL 0x00124120 TEST RAX,RAX SETNZ DL MOV RCX,qword ptr [RBP + -0x2e8] ADD RCX,0x28 CMP RCX,RAX SETA CL AND CL,DL CMP CL,0x1 JNZ 0x0012e5a6 MOV RSI,qword ptr [RBP + -0x2f0] SUB RAX,RSI LEA RDI,[RBP + -0x2e0] MOV ECX,0x21 MOV RDX,RAX MOV qword ptr [RBP + -0x2e8],RAX CALL 0x00124690 MOV RAX,qword ptr [RBP + -0x2e8] MOV byte ptr [RBP + RAX*0x1 + -0x2e0],0x0 LEA RDI,[RBP + -0x2e0] MOV RSI,R15 CALL 0x0012ddf7 TEST EAX,EAX JZ 0x0012e5a6 CMP dword ptr [RBX],EAX JZ 0x0012e5a6 MOV EAX,EAX MOV RAX,qword ptr [R12 + RAX*0x8] TEST RAX,RAX JZ 0x0012e5a6 TEST byte ptr [RAX + 0xd],0x2 JZ 0x0012e5a6 CMP qword ptr [RBX + 0x58],0x0 JNZ 0x0012e5a6 TEST byte ptr [RBX + 0xc],0x10 JNZ 0x0012e5a6 MOV RAX,qword ptr [RAX + 0x58] MOV qword ptr [RBX + 0x58],RAX LAB_0012e5a6: MOV RAX,qword ptr [RBX + 0xb8] MOV RAX,qword ptr [RAX] TEST RAX,RAX JZ 0x0012e5c1 MOV RDI,RBX MOV RSI,R14 CALL RAX TEST AL,AL JNZ 0x0012e5dc LAB_0012e5c1: MOV RAX,qword ptr [RBX + 0xc0] MOV RAX,qword ptr [RAX] TEST RAX,RAX JZ 0x0012e5e0 MOV RDI,RBX MOV RSI,R14 CALL RAX TEST AL,AL JZ 0x0012e5e0 LAB_0012e5dc: XOR EBX,EBX JMP 0x0012e5e4 LAB_0012e5e0: OR byte ptr [RBX + 0xd],0x1 LAB_0012e5e4: LEA RAX,[0x472290] INC qword ptr [RAX + R13*0x8] LAB_0012e5ef: LEA RAX,[0x46e0d0] MOV RDI,qword ptr [RAX + 0x40] TEST RDI,RDI JNZ 0x0012e639 LAB_0012e5ff: LEA RDI,[0x46e0d0] CALL 0x00124270 LAB_0012e60b: MOV RAX,qword ptr FS:[0x28] CMP RAX,qword ptr [RBP + -0x30] JNZ 0x0012e64b MOV RAX,RBX ADD RSP,0x2c8 POP RBX POP R12 POP R13 POP R14 POP R15 POP RBP RET LAB_0012e62f: CALL 0x00124bef JMP 0x0012e398 LAB_0012e639: LEA RAX,[0x3f6e68] MOV RAX,qword ptr [RAX] CALL qword ptr [RAX + 0x160] JMP 0x0012e5ff LAB_0012e64b: CALL 0x00124400
uint * get_internal_charset(int8 param_1,ulong param_2,int8 param_3) { char *__s; char *__s1; long lVar1; char cVar2; uint uVar3; int iVar4; int8 uVar5; char *pcVar6; uint *puVar7; long in_FS_OFFSET; int1 local_2e8 [128]; code *local_268; code *local_260; code *local_258; code *local_250; int *local_248; code *local_240; int1 local_238 [512]; long local_38; local_38 = *(long *)(in_FS_OFFSET + 0x28); param_2 = param_2 & 0xffffffff; puVar7 = (uint *)(&all_charsets)[param_2]; if (puVar7 == (uint *)0x0) { puVar7 = (uint *)0x0; goto LAB_0012e60b; } if ((*(byte *)((long)puVar7 + 0xd) & 1) != 0) { *(long *)(my_collation_statistics + param_2 * 8) = *(long *)(my_collation_statistics + param_2 * 8) + 1; goto LAB_0012e60b; } if (THR_LOCK_charset._64_8_ == 0) { pthread_mutex_lock((pthread_mutex_t *)THR_LOCK_charset); } else { get_internal_charset_cold_1(); } uVar3 = puVar7[3]; if ((uVar3 & 9) == 0) { uVar5 = get_charsets_dir(local_238); strxmov(uVar5,*(int8 *)(puVar7 + 4),".xml",0); local_2e8[0] = 0; local_268 = my_once_alloc_c; local_260 = my_malloc_c; local_258 = my_realloc_c; local_250 = my_free; local_248 = my_charset_error_reporter; local_240 = add_collation; my_read_charset_file(local_2e8,local_238,param_3); uVar3 = puVar7[3]; } if ((uVar3 >> 9 & 1) == 0) { puVar7 = (uint *)0x0; } else { if ((uVar3 >> 8 & 1) == 0) { if ((((*(long *)(puVar7 + 0x10) == 0) || (*(long *)(puVar7 + 0x14) == 0)) || (*(long *)(puVar7 + 0x12) == 0)) || (*(long *)(puVar7 + 0x1a) == 0)) { uVar3 = get_charset_number_internal(*(int8 *)(puVar7 + 4),0x20); if (((uVar3 != 0) && (*puVar7 != uVar3)) && (((&all_charsets)[uVar3] != 0 && ((*(byte *)((&all_charsets)[uVar3] + 0xd) & 2) != 0)))) { inherit_charset_data(puVar7); } } if (((*(long *)(puVar7 + 0x16) == 0) && ((puVar7[3] & 0x10) == 0)) && (__s1 = *(char **)(puVar7 + 0xe), __s1 != (char *)0x0)) { iVar4 = strncmp(__s1,"[import ",8); if (iVar4 == 0) { __s = __s1 + 8; pcVar6 = strchr(__s,0x5d); if (pcVar6 < __s1 + 0x28 && pcVar6 != (char *)0x0) { __memcpy_chk(local_2e8,__s,(long)pcVar6 - (long)__s,0x21); local_2e8[(long)pcVar6 - (long)__s] = 0; uVar3 = get_collation_number(local_2e8,param_3); if (((((uVar3 != 0) && (*puVar7 != uVar3)) && (lVar1 = (&all_charsets)[uVar3], lVar1 != 0)) && (((*(byte *)(lVar1 + 0xd) & 2) != 0 && (*(long *)(puVar7 + 0x16) == 0)))) && ((puVar7[3] & 0x10) == 0)) { *(int8 *)(puVar7 + 0x16) = *(int8 *)(lVar1 + 0x58); } } } } if ((code *)**(int8 **)(puVar7 + 0x2e) == (code *)0x0) { LAB_0012e5c1: if ((code *)**(int8 **)(puVar7 + 0x30) != (code *)0x0) { cVar2 = (*(code *)**(int8 **)(puVar7 + 0x30))(puVar7,param_1); if (cVar2 != '\0') goto LAB_0012e5dc; } *(byte *)((long)puVar7 + 0xd) = *(byte *)((long)puVar7 + 0xd) | 1; } else { cVar2 = (*(code *)**(int8 **)(puVar7 + 0x2e))(puVar7,param_1); if (cVar2 == '\0') goto LAB_0012e5c1; LAB_0012e5dc: puVar7 = (uint *)0x0; } } *(long *)(my_collation_statistics + param_2 * 8) = *(long *)(my_collation_statistics + param_2 * 8) + 1; } if (THR_LOCK_charset._64_8_ != 0) { (**(code **)(PSI_server + 0x160))(); } pthread_mutex_unlock((pthread_mutex_t *)THR_LOCK_charset); LAB_0012e60b: if (*(long *)(in_FS_OFFSET + 0x28) == local_38) { return puVar7; } /* WARNING: Subroutine does not return */ __stack_chk_fail(); }
40,814
wait_on_queue
eloqsql/mysys/mf_keycache.c
static void wait_on_queue(KEYCACHE_WQUEUE *wqueue, mysql_mutex_t *mutex) { struct st_my_thread_var *last; struct st_my_thread_var *thread= my_thread_var; DBUG_ASSERT(!thread->next); DBUG_ASSERT(!thread->prev); /* Not required, but must be true anyway. */ mysql_mutex_assert_owner(mutex); /* Add to queue. */ if (! (last= wqueue->last_thread)) thread->next= thread; else { thread->next= last->next; last->next= thread; } wqueue->last_thread= thread; /* Wait until thread is removed from queue by the signaling thread. The loop protects against stray signals. */ do { KEYCACHE_DBUG_PRINT("wait", ("suspend thread %ld", (ulong) thread->id)); keycache_pthread_cond_wait(&thread->suspend, mutex); } while (thread->next); }
O0
c
wait_on_queue: pushq %rbp movq %rsp, %rbp subq $0x20, %rsp movq %rdi, -0x8(%rbp) movq %rsi, -0x10(%rbp) callq 0xf60c0 movq %rax, -0x20(%rbp) jmp 0xe36ab jmp 0xe36ad jmp 0xe36af jmp 0xe36b1 jmp 0xe36b3 movq -0x8(%rbp), %rax movq (%rax), %rax movq %rax, -0x18(%rbp) cmpq $0x0, %rax jne 0xe36d5 movq -0x20(%rbp), %rcx movq -0x20(%rbp), %rax movq %rcx, 0x88(%rax) jmp 0xe36fa movq -0x18(%rbp), %rax movq 0x88(%rax), %rcx movq -0x20(%rbp), %rax movq %rcx, 0x88(%rax) movq -0x20(%rbp), %rcx movq -0x18(%rbp), %rax movq %rcx, 0x88(%rax) movq -0x20(%rbp), %rcx movq -0x8(%rbp), %rax movq %rcx, (%rax) jmp 0xe3707 jmp 0xe3709 movq -0x20(%rbp), %rdi addq $0x8, %rdi movq -0x10(%rbp), %rsi leaq 0x70ace(%rip), %rdx # 0x1541ea movl $0x477, %ecx # imm = 0x477 callq 0xe4e60 movq -0x20(%rbp), %rax cmpq $0x0, 0x88(%rax) jne 0xe3705 addq $0x20, %rsp popq %rbp retq nopw (%rax,%rax)
wait_on_queue: push rbp mov rbp, rsp sub rsp, 20h mov [rbp+var_8], rdi mov [rbp+var_10], rsi call _my_thread_var mov [rbp+var_20], rax jmp short $+2 loc_E36AB: jmp short $+2 loc_E36AD: jmp short $+2 loc_E36AF: jmp short $+2 loc_E36B1: jmp short $+2 loc_E36B3: mov rax, [rbp+var_8] mov rax, [rax] mov [rbp+var_18], rax cmp rax, 0 jnz short loc_E36D5 mov rcx, [rbp+var_20] mov rax, [rbp+var_20] mov [rax+88h], rcx jmp short loc_E36FA loc_E36D5: mov rax, [rbp+var_18] mov rcx, [rax+88h] mov rax, [rbp+var_20] mov [rax+88h], rcx mov rcx, [rbp+var_20] mov rax, [rbp+var_18] mov [rax+88h], rcx loc_E36FA: mov rcx, [rbp+var_20] mov rax, [rbp+var_8] mov [rax], rcx loc_E3705: jmp short $+2 loc_E3707: jmp short $+2 loc_E3709: mov rdi, [rbp+var_20] add rdi, 8 mov rsi, [rbp+var_10] lea rdx, aWorkspaceLlm4b_36; "/workspace/llm4binary/github2025/eloqsq"... mov ecx, 477h call inline_mysql_cond_wait_4 mov rax, [rbp+var_20] cmp qword ptr [rax+88h], 0 jnz short loc_E3705 add rsp, 20h pop rbp retn
long long wait_on_queue(long long *a1, const char *a2) { long long result; // rax long long v3; // [rsp+0h] [rbp-20h] long long v4; // [rsp+8h] [rbp-18h] v3 = my_thread_var(a1, a2); v4 = *a1; if ( *a1 ) { *(_QWORD *)(v3 + 136) = *(_QWORD *)(v4 + 136); *(_QWORD *)(v4 + 136) = v3; } else { *(_QWORD *)(v3 + 136) = v3; } *a1 = v3; do { inline_mysql_cond_wait_4(v3 + 8, a2, "/workspace/llm4binary/github2025/eloqsql/mysys/mf_keycache.c", 1143LL); result = v3; } while ( *(_QWORD *)(v3 + 136) ); return result; }
wait_on_queue: PUSH RBP MOV RBP,RSP SUB RSP,0x20 MOV qword ptr [RBP + -0x8],RDI MOV qword ptr [RBP + -0x10],RSI CALL 0x001f60c0 MOV qword ptr [RBP + -0x20],RAX JMP 0x001e36ab LAB_001e36ab: JMP 0x001e36ad LAB_001e36ad: JMP 0x001e36af LAB_001e36af: JMP 0x001e36b1 LAB_001e36b1: JMP 0x001e36b3 LAB_001e36b3: MOV RAX,qword ptr [RBP + -0x8] MOV RAX,qword ptr [RAX] MOV qword ptr [RBP + -0x18],RAX CMP RAX,0x0 JNZ 0x001e36d5 MOV RCX,qword ptr [RBP + -0x20] MOV RAX,qword ptr [RBP + -0x20] MOV qword ptr [RAX + 0x88],RCX JMP 0x001e36fa LAB_001e36d5: MOV RAX,qword ptr [RBP + -0x18] MOV RCX,qword ptr [RAX + 0x88] MOV RAX,qword ptr [RBP + -0x20] MOV qword ptr [RAX + 0x88],RCX MOV RCX,qword ptr [RBP + -0x20] MOV RAX,qword ptr [RBP + -0x18] MOV qword ptr [RAX + 0x88],RCX LAB_001e36fa: MOV RCX,qword ptr [RBP + -0x20] MOV RAX,qword ptr [RBP + -0x8] MOV qword ptr [RAX],RCX LAB_001e3705: JMP 0x001e3707 LAB_001e3707: JMP 0x001e3709 LAB_001e3709: MOV RDI,qword ptr [RBP + -0x20] ADD RDI,0x8 MOV RSI,qword ptr [RBP + -0x10] LEA RDX,[0x2541ea] MOV ECX,0x477 CALL 0x001e4e60 MOV RAX,qword ptr [RBP + -0x20] CMP qword ptr [RAX + 0x88],0x0 JNZ 0x001e3705 ADD RSP,0x20 POP RBP RET
void wait_on_queue(long *param_1,int8 param_2) { long lVar1; long lVar2; lVar2 = _my_thread_var(); lVar1 = *param_1; if (lVar1 == 0) { *(long *)(lVar2 + 0x88) = lVar2; } else { *(int8 *)(lVar2 + 0x88) = *(int8 *)(lVar1 + 0x88); *(long *)(lVar1 + 0x88) = lVar2; } *param_1 = lVar2; do { inline_mysql_cond_wait (lVar2 + 8,param_2,"/workspace/llm4binary/github2025/eloqsql/mysys/mf_keycache.c", 0x477); } while (*(long *)(lVar2 + 0x88) != 0); return; }
40,815
universe::init()
untodesu[P]voxelius/game/server/universe.cc
void universe::init(void) { // If the world is newly created, the seed will // be chosed based on the current system's view on UNIX time universe_config_seed.set_value(epoch::microseconds()); // We're going to read files from directory named with // the value of this config value. Since config is also // read from command line, the [--universe <name>] parameter still works globals::server_config.add_value("universe", universe_name); universe_config.add_value("global_seed", universe_config_seed); universe_config.add_value("spawn_dimension", universe_spawn_dimension); }
O0
cpp
universe::init(): pushq %rbp movq %rsp, %rbp callq 0xfb4f0 movq %rax, %rsi leaq 0x260d95(%rip), %rdi # 0x2d1568 callq 0x71a10 leaq 0x260a31(%rip), %rdi # 0x2d1210 leaq 0x1778e7(%rip), %rsi # 0x1e80cd leaq 0x260d13(%rip), %rdx # 0x2d1500 callq 0xf8f10 leaq 0x260d2f(%rip), %rdi # 0x2d1528 leaq 0x1778d6(%rip), %rsi # 0x1e80d6 leaq 0x260d61(%rip), %rdx # 0x2d1568 callq 0xf8f10 leaq 0x260d15(%rip), %rdi # 0x2d1528 leaq 0x1778c8(%rip), %rsi # 0x1e80e2 leaq 0x260d87(%rip), %rdx # 0x2d15a8 callq 0xf8f10 popq %rbp retq nopl (%rax,%rax)
_ZN8universe4initEv: push rbp mov rbp, rsp call _ZN5epoch12microsecondsEv; epoch::microseconds(void) mov rsi, rax lea rdi, _ZL20universe_config_seed; universe_config_seed call _ZN12ConfigNumberImE9set_valueEm; ConfigNumber<ulong>::set_value(ulong) lea rdi, _ZN7globals13server_configE; this lea rsi, aUniverse; "universe" lea rdx, _ZL13universe_name; IConfigValue * call _ZN6Config9add_valueEPKcR12IConfigValue; Config::add_value(char const*,IConfigValue &) lea rdi, _ZL15universe_config; this lea rsi, aGlobalSeed; "global_seed" lea rdx, _ZL20universe_config_seed; IConfigValue * call _ZN6Config9add_valueEPKcR12IConfigValue; Config::add_value(char const*,IConfigValue &) lea rdi, _ZL15universe_config; this lea rsi, aSpawnDimension; "spawn_dimension" lea rdx, _ZL24universe_spawn_dimension; IConfigValue * call _ZN6Config9add_valueEPKcR12IConfigValue; Config::add_value(char const*,IConfigValue &) pop rbp retn
long long universe::init(universe *this) { long long v1; // rax v1 = epoch::microseconds(this); ConfigNumber<unsigned long>::set_value(&universe_config_seed, v1); Config::add_value((Config *)&globals::server_config, "universe", (IConfigValue *)&universe_name); Config::add_value((Config *)&universe_config, "global_seed", (IConfigValue *)&universe_config_seed); return Config::add_value((Config *)&universe_config, "spawn_dimension", (IConfigValue *)&universe_spawn_dimension); }
init: PUSH RBP MOV RBP,RSP CALL 0x001fb4f0 MOV RSI,RAX LEA RDI,[0x3d1568] CALL 0x00171a10 LEA RDI,[0x3d1210] LEA RSI,[0x2e80cd] LEA RDX,[0x3d1500] CALL 0x001f8f10 LEA RDI,[0x3d1528] LEA RSI,[0x2e80d6] LEA RDX,[0x3d1568] CALL 0x001f8f10 LEA RDI,[0x3d1528] LEA RSI,[0x2e80e2] LEA RDX,[0x3d15a8] CALL 0x001f8f10 POP RBP RET
/* universe::init() */ void universe::init(void) { ulong uVar1; uVar1 = epoch::microseconds(); ConfigNumber<unsigned_long>::set_value((ConfigNumber<unsigned_long> *)universe_config_seed,uVar1); Config::add_value((Config *)globals::server_config,"universe",(IConfigValue *)universe_name); Config::add_value((Config *)universe_config,"global_seed",(IConfigValue *)universe_config_seed); Config::add_value((Config *)universe_config,"spawn_dimension", (IConfigValue *)universe_spawn_dimension); return; }
40,816
universe::init()
untodesu[P]voxelius/game/server/universe.cc
void universe::init(void) { // If the world is newly created, the seed will // be chosed based on the current system's view on UNIX time universe_config_seed.set_value(epoch::microseconds()); // We're going to read files from directory named with // the value of this config value. Since config is also // read from command line, the [--universe <name>] parameter still works globals::server_config.add_value("universe", universe_name); universe_config.add_value("global_seed", universe_config_seed); universe_config.add_value("spawn_dimension", universe_spawn_dimension); }
O2
cpp
universe::init(): pushq %r14 pushq %rbx pushq %rax callq 0x4f3c0 leaq 0xe17c0(%rip), %rbx # 0x10dce8 movq %rbx, %rdi movq %rax, %rsi callq 0x2cd82 leaq 0xe1456(%rip), %rdi # 0x10d990 leaq 0x7e786(%rip), %rsi # 0xaacc7 leaq 0xe1738(%rip), %rdx # 0x10dc80 callq 0x4e914 leaq 0xe1754(%rip), %r14 # 0x10dca8 leaq 0x7e775(%rip), %rsi # 0xaacd0 movq %r14, %rdi movq %rbx, %rdx callq 0x4e914 leaq 0x7e76f(%rip), %rsi # 0xaacdc leaq 0xe17b4(%rip), %rdx # 0x10dd28 movq %r14, %rdi addq $0x8, %rsp popq %rbx popq %r14 jmp 0x4e914
_ZN8universe4initEv: push r14 push rbx push rax call _ZN5epoch12microsecondsEv; epoch::microseconds(void) lea rbx, _ZL20universe_config_seed; universe_config_seed mov rdi, rbx mov rsi, rax call _ZN12ConfigNumberImE9set_valueEm; ConfigNumber<ulong>::set_value(ulong) lea rdi, _ZN7globals13server_configE; globals::server_config lea rsi, aUniverse; "universe" lea rdx, _ZL13universe_name; universe_name call _ZN6Config9add_valueEPKcR12IConfigValue; Config::add_value(char const*,IConfigValue &) lea r14, _ZL15universe_config; universe_config lea rsi, aGlobalSeed; "global_seed" mov rdi, r14 mov rdx, rbx call _ZN6Config9add_valueEPKcR12IConfigValue; Config::add_value(char const*,IConfigValue &) lea rsi, aSpawnDimension; "spawn_dimension" lea rdx, _ZL24universe_spawn_dimension; universe_spawn_dimension mov rdi, r14 add rsp, 8 pop rbx pop r14 jmp _ZN6Config9add_valueEPKcR12IConfigValue; Config::add_value(char const*,IConfigValue &)
long long universe::init(universe *this) { long long v1; // rax int v2; // ecx int v3; // r8d int v4; // r9d int v5; // ecx int v6; // r8d int v7; // r9d int v8; // ecx int v9; // r8d int v10; // r9d v1 = epoch::microseconds(this); ConfigNumber<unsigned long>::set_value(&universe_config_seed, v1); Config::add_value( (unsigned int)&globals::server_config, (unsigned int)"universe", (unsigned int)&universe_name, v2, v3, v4); Config::add_value( (unsigned int)&universe_config, (unsigned int)"global_seed", (unsigned int)&universe_config_seed, v5, v6, v7); return Config::add_value( (unsigned int)&universe_config, (unsigned int)"spawn_dimension", (unsigned int)&universe_spawn_dimension, v8, v9, v10); }
init: PUSH R14 PUSH RBX PUSH RAX CALL 0x0014f3c0 LEA RBX,[0x20dce8] MOV RDI,RBX MOV RSI,RAX CALL 0x0012cd82 LEA RDI,[0x20d990] LEA RSI,[0x1aacc7] LEA RDX,[0x20dc80] CALL 0x0014e914 LEA R14,[0x20dca8] LEA RSI,[0x1aacd0] MOV RDI,R14 MOV RDX,RBX CALL 0x0014e914 LEA RSI,[0x1aacdc] LEA RDX,[0x20dd28] MOV RDI,R14 ADD RSP,0x8 POP RBX POP R14 JMP 0x0014e914
/* universe::init() */ void universe::init(void) { ulong uVar1; uVar1 = epoch::microseconds(); ConfigNumber<unsigned_long>::set_value((ConfigNumber<unsigned_long> *)universe_config_seed,uVar1); Config::add_value((Config *)globals::server_config,"universe",(IConfigValue *)universe_name); Config::add_value((Config *)universe_config,"global_seed",(IConfigValue *)universe_config_seed); Config::add_value((Config *)universe_config,"spawn_dimension", (IConfigValue *)universe_spawn_dimension); return; }
40,817
universe::init()
untodesu[P]voxelius/game/server/universe.cc
void universe::init(void) { // If the world is newly created, the seed will // be chosed based on the current system's view on UNIX time universe_config_seed.set_value(epoch::microseconds()); // We're going to read files from directory named with // the value of this config value. Since config is also // read from command line, the [--universe <name>] parameter still works globals::server_config.add_value("universe", universe_name); universe_config.add_value("global_seed", universe_config_seed); universe_config.add_value("spawn_dimension", universe_spawn_dimension); }
O3
cpp
universe::init(): pushq %r15 pushq %r14 pushq %rbx subq $0x20, %rsp callq 0x51f86 movq 0xda093(%rip), %rcx # 0x108cb8 movq 0xda094(%rip), %rbx # 0x108cc0 cmpq %rax, %rbx cmovaeq %rax, %rbx cmpq %rax, %rcx cmovaq %rcx, %rbx movq %rbx, 0xda06f(%rip) # 0x108cb0 movl $0x1, %esi cmpq $0xa, %rbx jb 0x2ec9b movl $0x4, %esi movabsq $0x346dc5d63886594b, %rdi # imm = 0x346DC5D63886594B movq %rbx, %rcx cmpq $0x63, %rcx jbe 0x2ec94 cmpq $0x3e7, %rcx # imm = 0x3E7 jbe 0x2ec99 cmpq $0x2710, %rcx # imm = 0x2710 jb 0x2ec9b movq %rcx, %rax mulq %rdi shrq $0xb, %rdx addl $0x4, %esi cmpq $0x1869f, %rcx # imm = 0x1869F movq %rdx, %rcx ja 0x2ec5e addl $-0x3, %esi jmp 0x2ec9b addl $-0x2, %esi jmp 0x2ec9b decl %esi movl %esi, %esi leaq 0x10(%rsp), %r15 movq %r15, -0x10(%r15) movq %rsp, %r14 movq %r14, %rdi xorl %edx, %edx callq 0x167b0 movq (%r14), %rdi movl 0x8(%r14), %esi movq %rbx, %rdx callq 0x2fc1a leaq 0xd9fff(%rip), %rdi # 0x108cc8 movq %r14, %rsi callq 0x16840 movq (%r14), %rdi cmpq %r15, %rdi je 0x2ece6 movq 0x10(%rsp), %rsi incq %rsi callq 0x166c0 leaq 0xd9c63(%rip), %rdi # 0x108950 leaq 0x8b02c(%rip), %rsi # 0xb9d20 leaq 0xd9f45(%rip), %rdx # 0x108c40 callq 0x5140c leaq 0xd9f61(%rip), %rbx # 0x108c68 leaq 0x8b01b(%rip), %rsi # 0xb9d29 leaq 0xd9f93(%rip), %rdx # 0x108ca8 movq %rbx, %rdi callq 0x5140c leaq 0x8b011(%rip), %rsi # 0xb9d35 leaq 0xd9fbd(%rip), %rdx # 0x108ce8 movq %rbx, %rdi callq 0x5140c addq $0x20, %rsp popq %rbx popq %r14 popq %r15 retq
_ZN8universe4initEv: push r15 push r14 push rbx sub rsp, 20h call _ZN5epoch12microsecondsEv; epoch::microseconds(void) mov rcx, qword ptr cs:xmmword_108CB0+8 mov rbx, cs:qword_108CC0 cmp rbx, rax cmovnb rbx, rax cmp rcx, rax cmova rbx, rcx mov qword ptr cs:xmmword_108CB0, rbx mov esi, 1 cmp rbx, 0Ah jb short loc_2EC9B mov esi, 4 mov rdi, 346DC5D63886594Bh mov rcx, rbx loc_2EC5E: cmp rcx, 63h ; 'c' jbe short loc_2EC94 cmp rcx, 3E7h jbe short loc_2EC99 cmp rcx, 2710h jb short loc_2EC9B mov rax, rcx mul rdi shr rdx, 0Bh add esi, 4 cmp rcx, (offset loc_1869C+3) mov rcx, rdx ja short loc_2EC5E add esi, 0FFFFFFFDh jmp short loc_2EC9B loc_2EC94: add esi, 0FFFFFFFEh jmp short loc_2EC9B loc_2EC99: dec esi loc_2EC9B: mov esi, esi lea r15, [rsp+38h+var_28] mov [r15-10h], r15 mov r14, rsp mov rdi, r14 xor edx, edx call __ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE12_M_constructEmc; std::string::_M_construct(ulong,char) mov rdi, [r14] mov esi, [r14+8] mov rdx, rbx call _ZNSt8__detail18__to_chars_10_implImEEvPcjT_; std::__detail::__to_chars_10_impl<ulong>(char *,uint,ulong) lea rdi, qword_108CC8 mov rsi, r14 call __ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEaSEOS4_; std::string::operator=(std::string&&) mov rdi, [r14]; void * cmp rdi, r15 jz short loc_2ECE6 mov rsi, [rsp+38h+var_28] inc rsi; unsigned __int64 call __ZdlPvm; operator delete(void *,ulong) loc_2ECE6: lea rdi, _ZN7globals13server_configE; globals::server_config lea rsi, aUniverse; "universe" lea rdx, _ZL13universe_name; universe_name call _ZN6Config9add_valueEPKcR12IConfigValue; Config::add_value(char const*,IConfigValue &) lea rbx, _ZL15universe_config; universe_config lea rsi, aGlobalSeed; "global_seed" lea rdx, _ZL20universe_config_seed; universe_config_seed mov rdi, rbx call _ZN6Config9add_valueEPKcR12IConfigValue; Config::add_value(char const*,IConfigValue &) lea rsi, aSpawnDimension; "spawn_dimension" lea rdx, _ZL24universe_spawn_dimension; universe_spawn_dimension mov rdi, rbx call _ZN6Config9add_valueEPKcR12IConfigValue; Config::add_value(char const*,IConfigValue &) add rsp, 20h pop rbx pop r14 pop r15 retn
long long universe::init(universe *this) { unsigned long long v1; // rax unsigned long long v2; // rbx unsigned int v3; // esi unsigned long long v4; // rcx bool v5; // cc int v6; // ecx int v7; // r8d int v8; // r9d int v9; // ecx int v10; // r8d int v11; // r9d int v12; // ecx int v13; // r8d int v14; // r9d _QWORD *v16; // [rsp+0h] [rbp-38h] BYREF unsigned int v17; // [rsp+8h] [rbp-30h] _QWORD v18[5]; // [rsp+10h] [rbp-28h] BYREF v1 = epoch::microseconds(this); v2 = qword_108CC0; if ( qword_108CC0 >= v1 ) v2 = v1; if ( *((_QWORD *)&xmmword_108CB0 + 1) > v1 ) v2 = *((_QWORD *)&xmmword_108CB0 + 1); *(_QWORD *)&xmmword_108CB0 = v2; v3 = 1; if ( v2 >= 0xA ) { v3 = 4; v4 = v2; while ( 1 ) { if ( v4 <= 0x63 ) { v3 -= 2; goto LABEL_14; } if ( v4 <= 0x3E7 ) break; if ( v4 < 0x2710 ) goto LABEL_14; v3 += 4; v5 = v4 <= (unsigned long long)&loc_1869C + 3; v4 /= 0x2710uLL; if ( v5 ) { v3 -= 3; goto LABEL_14; } } --v3; } LABEL_14: v16 = v18; std::string::_M_construct(&v16, v3, 0LL); std::__detail::__to_chars_10_impl<unsigned long>(v16, v17, v2); std::string::operator=(&qword_108CC8, &v16); if ( v16 != v18 ) operator delete(v16, v18[0] + 1LL); Config::add_value( (unsigned int)&globals::server_config, (unsigned int)"universe", (unsigned int)&universe_name, v6, v7, v8, (_DWORD)v16, v17, v18[0]); Config::add_value( (unsigned int)&universe_config, (unsigned int)"global_seed", (unsigned int)&universe_config_seed, v9, v10, v11, (_DWORD)v16, v17, v18[0]); return Config::add_value( (unsigned int)&universe_config, (unsigned int)"spawn_dimension", (unsigned int)&universe_spawn_dimension, v12, v13, v14, (_DWORD)v16, v17, v18[0]); }
init: PUSH R15 PUSH R14 PUSH RBX SUB RSP,0x20 CALL 0x00151f86 MOV RCX,qword ptr [0x00208cb8] MOV RBX,qword ptr [0x00208cc0] CMP RBX,RAX CMOVNC RBX,RAX CMP RCX,RAX CMOVA RBX,RCX MOV qword ptr [0x00208cb0],RBX MOV ESI,0x1 CMP RBX,0xa JC 0x0012ec9b MOV ESI,0x4 MOV RDI,0x346dc5d63886594b MOV RCX,RBX LAB_0012ec5e: CMP RCX,0x63 JBE 0x0012ec94 CMP RCX,0x3e7 JBE 0x0012ec99 CMP RCX,0x2710 JC 0x0012ec9b MOV RAX,RCX MUL RDI SHR RDX,0xb ADD ESI,0x4 CMP RCX,0x1869f MOV RCX,RDX JA 0x0012ec5e ADD ESI,-0x3 JMP 0x0012ec9b LAB_0012ec94: ADD ESI,-0x2 JMP 0x0012ec9b LAB_0012ec99: DEC ESI LAB_0012ec9b: MOV ESI,ESI LEA R15,[RSP + 0x10] MOV qword ptr [R15 + -0x10],R15 MOV R14,RSP MOV RDI,R14 XOR EDX,EDX CALL 0x001167b0 MOV RDI,qword ptr [R14] MOV ESI,dword ptr [R14 + 0x8] MOV RDX,RBX CALL 0x0012fc1a LEA RDI,[0x208cc8] MOV RSI,R14 CALL 0x00116840 MOV RDI,qword ptr [R14] CMP RDI,R15 JZ 0x0012ece6 MOV RSI,qword ptr [RSP + 0x10] INC RSI CALL 0x001166c0 LAB_0012ece6: LEA RDI,[0x208950] LEA RSI,[0x1b9d20] LEA RDX,[0x208c40] CALL 0x0015140c LEA RBX,[0x208c68] LEA RSI,[0x1b9d29] LEA RDX,[0x208ca8] MOV RDI,RBX CALL 0x0015140c LEA RSI,[0x1b9d35] LEA RDX,[0x208ce8] MOV RDI,RBX CALL 0x0015140c ADD RSP,0x20 POP RBX POP R14 POP R15 RET
/* universe::init() */ void universe::init(void) { bool bVar1; char cVar2; ulong uVar3; ulong uVar4; char cVar5; long *local_38; uint local_30; long local_28 [2]; uVar3 = epoch::microseconds(); uVar4 = universe_config_seed._24_8_; if (uVar3 <= (ulong)universe_config_seed._24_8_) { uVar4 = uVar3; } if (uVar3 < (ulong)universe_config_seed._16_8_) { uVar4 = universe_config_seed._16_8_; } cVar5 = '\x01'; if (9 < uVar4) { uVar3 = uVar4; cVar2 = '\x04'; do { cVar5 = cVar2; if (uVar3 < 100) { cVar5 = cVar5 + -2; goto LAB_0012ec9b; } if (uVar3 < 1000) { cVar5 = cVar5 + -1; goto LAB_0012ec9b; } if (uVar3 < 10000) goto LAB_0012ec9b; bVar1 = 99999 < uVar3; uVar3 = uVar3 / 10000; cVar2 = cVar5 + '\x04'; } while (bVar1); cVar5 = cVar5 + '\x01'; } LAB_0012ec9b: universe_config_seed._8_8_ = uVar4; local_38 = local_28; std::__cxx11::string::_M_construct((ulong)&local_38,cVar5); std::__detail::__to_chars_10_impl<unsigned_long>((char *)local_38,local_30,uVar4); std::__cxx11::string::operator=((string *)(universe_config_seed + 0x20),(string *)&local_38); if (local_38 != local_28) { operator_delete(local_38,local_28[0] + 1); } Config::add_value((Config *)globals::server_config,"universe",(IConfigValue *)universe_name); Config::add_value((Config *)universe_config,"global_seed",(IConfigValue *)universe_config_seed); Config::add_value((Config *)universe_config,"spawn_dimension", (IConfigValue *)universe_spawn_dimension); return; }
40,818
my_uni_ucs2
eloqsql/strings/ctype-ucs2.c
static int my_uni_ucs2(CHARSET_INFO *cs __attribute__((unused)) , my_wc_t wc, uchar *r, uchar *e) { if ( r+2 > e ) return MY_CS_TOOSMALL2; if (wc > 0xFFFF) /* UCS2 does not support characters outside BMP */ return MY_CS_ILUNI; r[0]= (uchar) (wc >> 8); r[1]= (uchar) (wc & 0xFF); return 2; }
O0
c
my_uni_ucs2: pushq %rbp movq %rsp, %rbp movq %rdi, -0x10(%rbp) movq %rsi, -0x18(%rbp) movq %rdx, -0x20(%rbp) movq %rcx, -0x28(%rbp) movq -0x20(%rbp), %rax addq $0x2, %rax cmpq -0x28(%rbp), %rax jbe 0x132c3b movl $0xffffff9a, -0x4(%rbp) # imm = 0xFFFFFF9A jmp 0x132c78 cmpq $0xffff, -0x18(%rbp) # imm = 0xFFFF jbe 0x132c4e movl $0x0, -0x4(%rbp) jmp 0x132c78 movq -0x18(%rbp), %rax shrq $0x8, %rax movb %al, %cl movq -0x20(%rbp), %rax movb %cl, (%rax) movq -0x18(%rbp), %rax andq $0xff, %rax movb %al, %cl movq -0x20(%rbp), %rax movb %cl, 0x1(%rax) movl $0x2, -0x4(%rbp) movl -0x4(%rbp), %eax popq %rbp retq nopl (%rax)
my_uni_ucs2: push rbp mov rbp, rsp mov [rbp+var_10], rdi mov [rbp+var_18], rsi mov [rbp+var_20], rdx mov [rbp+var_28], rcx mov rax, [rbp+var_20] add rax, 2 cmp rax, [rbp+var_28] jbe short loc_132C3B mov [rbp+var_4], 0FFFFFF9Ah jmp short loc_132C78 loc_132C3B: cmp [rbp+var_18], 0FFFFh jbe short loc_132C4E mov [rbp+var_4], 0 jmp short loc_132C78 loc_132C4E: mov rax, [rbp+var_18] shr rax, 8 mov cl, al mov rax, [rbp+var_20] mov [rax], cl mov rax, [rbp+var_18] and rax, 0FFh mov cl, al mov rax, [rbp+var_20] mov [rax+1], cl mov [rbp+var_4], 2 loc_132C78: mov eax, [rbp+var_4] pop rbp retn
long long my_uni_ucs2(long long a1, unsigned long long a2, _BYTE *a3, unsigned long long a4) { if ( (unsigned long long)(a3 + 2) <= a4 ) { if ( a2 <= 0xFFFF ) { *a3 = BYTE1(a2); a3[1] = a2; return 2; } else { return 0; } } else { return (unsigned int)-102; } }
40,819
my_uni_ucs2
eloqsql/strings/ctype-ucs2.c
static int my_uni_ucs2(CHARSET_INFO *cs __attribute__((unused)) , my_wc_t wc, uchar *r, uchar *e) { if ( r+2 > e ) return MY_CS_TOOSMALL2; if (wc > 0xFFFF) /* UCS2 does not support characters outside BMP */ return MY_CS_ILUNI; r[0]= (uchar) (wc >> 8); r[1]= (uchar) (wc & 0xFF); return 2; }
O3
c
my_uni_ucs2: pushq %rbp movq %rsp, %rbp leaq 0x2(%rdx), %rdi movl $0xffffff9a, %eax # imm = 0xFFFFFF9A cmpq %rcx, %rdi ja 0xc5278 xorl %eax, %eax cmpq $0xffff, %rsi # imm = 0xFFFF ja 0xc5278 rolw $0x8, %si movw %si, (%rdx) movl $0x2, %eax popq %rbp retq
my_uni_ucs2: push rbp mov rbp, rsp lea rdi, [rdx+2] mov eax, 0FFFFFF9Ah cmp rdi, rcx ja short loc_C5278 xor eax, eax cmp rsi, 0FFFFh ja short loc_C5278 rol si, 8 mov [rdx], si mov eax, 2 loc_C5278: pop rbp retn
long long my_uni_ucs2(long long a1, unsigned long long a2, _WORD *a3, unsigned long long a4) { long long result; // rax result = 4294967194LL; if ( (unsigned long long)(a3 + 1) <= a4 ) { result = 0LL; if ( a2 <= 0xFFFF ) { *a3 = __ROL2__(a2, 8); return 2LL; } } return result; }
my_uni_ucs2: PUSH RBP MOV RBP,RSP LEA RDI,[RDX + 0x2] MOV EAX,0xffffff9a CMP RDI,RCX JA 0x001c5278 XOR EAX,EAX CMP RSI,0xffff JA 0x001c5278 ROL SI,0x8 MOV word ptr [RDX],SI MOV EAX,0x2 LAB_001c5278: POP RBP RET
int8 my_uni_ucs2(int8 param_1,ulong param_2,ushort *param_3,ushort *param_4) { int8 uVar1; uVar1 = 0xffffff9a; if ((param_3 + 1 <= param_4) && (uVar1 = 0, param_2 < 0x10000)) { *param_3 = (ushort)param_2 << 8 | (ushort)param_2 >> 8; uVar1 = 2; } return uVar1; }
40,820
mi_delete
eloqsql/storage/myisam/mi_delete.c
int mi_delete(MI_INFO *info,const uchar *record) { uint i; uchar *old_key; int save_errno; char lastpos[8]; MYISAM_SHARE *share=info->s; DBUG_ENTER("mi_delete"); /* Test if record is in datafile */ DBUG_EXECUTE_IF("myisam_pretend_crashed_table_on_usage", mi_print_error(info->s, HA_ERR_CRASHED); DBUG_RETURN(my_errno= HA_ERR_CRASHED);); DBUG_EXECUTE_IF("my_error_test_undefined_error", mi_print_error(info->s, INT_MAX); DBUG_RETURN(my_errno= INT_MAX);); if (!(info->update & HA_STATE_AKTIV)) { DBUG_RETURN(my_errno=HA_ERR_KEY_NOT_FOUND); /* No database read */ } if (share->options & HA_OPTION_READ_ONLY_DATA) { DBUG_RETURN(my_errno=EACCES); } if (_mi_readinfo(info,F_WRLCK,1)) DBUG_RETURN(my_errno); if (info->s->calc_checksum) info->checksum=(*info->s->calc_checksum)(info,record); if ((*share->compare_record)(info,record)) goto err; /* Error on read-check */ if (_mi_mark_file_changed(info)) goto err; /* Remove all keys from the .ISAM file */ old_key=info->lastkey2; for (i=0 ; i < share->base.keys ; i++ ) { if (mi_is_key_active(info->s->state.key_map, i)) { info->s->keyinfo[i].version++; if (info->s->keyinfo[i].flag & HA_FULLTEXT ) { if (_mi_ft_del(info,i, old_key,record,info->lastpos)) goto err; } else { if (info->s->keyinfo[i].ck_delete(info,i,old_key, _mi_make_key(info,i,old_key,record,info->lastpos))) goto err; } /* The above changed info->lastkey2. Inform mi_rnext_same(). */ info->update&= ~HA_STATE_RNEXT_SAME; } } if ((*share->delete_record)(info)) goto err; /* Remove record from database */ info->state->checksum-=info->checksum; info->update= HA_STATE_CHANGED+HA_STATE_DELETED+HA_STATE_ROW_CHANGED; info->state->records--; mi_sizestore(lastpos,info->lastpos); myisam_log_command(MI_LOG_DELETE,info,(uchar*) lastpos,sizeof(lastpos),0); (void) _mi_writeinfo(info,WRITEINFO_UPDATE_KEYFILE); if (info->invalidator != 0) { DBUG_PRINT("info", ("invalidator... '%s' (delete)", info->filename)); (*info->invalidator)(info->filename); info->invalidator=0; } DBUG_RETURN(0); err: save_errno=my_errno; mi_sizestore(lastpos,info->lastpos); myisam_log_command(MI_LOG_DELETE,info,(uchar*) lastpos, sizeof(lastpos),0); if (save_errno != HA_ERR_RECORD_CHANGED) { mi_print_error(info->s, HA_ERR_CRASHED); mi_mark_crashed(info); /* mark table crashed */ } (void) _mi_writeinfo(info,WRITEINFO_UPDATE_KEYFILE); info->update|=HA_STATE_WRITTEN; /* Buffer changed */ my_errno=save_errno; if (save_errno == HA_ERR_KEY_NOT_FOUND) { mi_print_error(info->s, HA_ERR_CRASHED); my_errno=HA_ERR_CRASHED; } DBUG_RETURN(my_errno); }
O3
c
mi_delete: pushq %rbp movq %rsp, %rbp pushq %r15 pushq %r14 pushq %r13 pushq %r12 pushq %rbx subq $0x28, %rsp movq %fs:0x28, %rax movq %rax, -0x30(%rbp) testb $0x2, 0x1d0(%rdi) jne 0x3d915 callq 0x721fe movl $0x78, (%rax) movl $0x78, %r14d jmp 0x3db29 movq %rdi, %rbx movq (%rdi), %r13 testb $0x1, 0x31a(%r13) jne 0x3db18 movq %rsi, %r14 movq %rbx, %rdi movl $0x1, %esi movl $0x1, %edx callq 0x456ef testl %eax, %eax jne 0x3db0e movq (%rbx), %rax movq 0x2c8(%rax), %rax testq %rax, %rax je 0x3d963 movq %rbx, %rdi movq %r14, %rsi callq *%rax movl %eax, 0x1a8(%rbx) movq %rbx, %rdi movq %r14, %rsi callq *0x2c0(%r13) testl %eax, %eax jne 0x3da58 movq %rbx, %rdi callq 0x458ce testl %eax, %eax jne 0x3da58 movl 0x180(%r13), %eax testl %eax, %eax je 0x3da46 movq 0x110(%rbx), %rcx movq %rcx, -0x40(%rbp) xorl %r15d, %r15d xorl %r12d, %r12d movq (%rbx), %rcx movq 0xc0(%rcx), %rdx btq %r12, %rdx jae 0x3da34 movq 0x218(%rcx), %rax incl 0x1c(%rax,%r15) movq (%rbx), %rax movq 0x218(%rax), %rax testb $-0x80, 0xa(%rax,%r15) jne 0x3da09 movq 0x68(%rax,%r15), %rax movq %rax, -0x48(%rbp) movq 0x170(%rbx), %r8 movq %rbx, %rdi movl %r12d, %esi movq -0x40(%rbp), %rdx movq %r14, %rcx callq 0x43e50 movq %rbx, %rdi movl %r12d, %esi movq -0x40(%rbp), %rdx movl %eax, %ecx callq *-0x48(%rbp) jmp 0x3da22 movq 0x170(%rbx), %r8 movq %rbx, %rdi movl %r12d, %esi movq -0x40(%rbp), %rdx movq %r14, %rcx callq 0x5d624 testl %eax, %eax jne 0x3da58 andb $-0x11, 0x1d1(%rbx) movl 0x180(%r13), %eax incq %r12 movl %eax, %ecx addq $0x70, %r15 cmpq %rcx, %r12 jb 0x3d9a8 movq %rbx, %rdi callq *0x2b0(%r13) testl %eax, %eax je 0x3db4e callq 0x721fe movl (%rax), %r14d movq 0x170(%rbx), %rax bswapq %rax movq %rax, -0x38(%rbp) leaq 0x310d2b(%rip), %rax # 0x34e7a0 cmpl $0x0, (%rax) js 0x3da93 leaq -0x38(%rbp), %rdx movl $0x3, %edi movq %rbx, %rsi movl $0x8, %ecx xorl %r8d, %r8d callq 0x45e32 cmpl $0x7b, %r14d je 0x3dacd movq (%rbx), %rax movq 0x268(%rax), %rsi movl $0x7e, %edi callq 0x43e1a movq (%rbx), %rax orb $0x2, 0xf0(%rax) leaq 0x6ecff(%rip), %rdx # 0xac7bd movq %rbx, %rdi xorl %esi, %esi movl $0x79, %ecx callq 0x2f199 movq %rbx, %rdi movl $0x1, %esi callq 0x457e2 orb $0x4, 0x1d0(%rbx) callq 0x721fe movl %r14d, (%rax) cmpl $0x78, %r14d jne 0x3db0e movq (%rbx), %rax movq 0x268(%rax), %rsi movl $0x7e, %edi callq 0x43e1a callq 0x721fe movl $0x7e, (%rax) callq 0x721fe movl (%rax), %r14d jmp 0x3db29 callq 0x721fe movl $0xd, (%rax) movl $0xd, %r14d movq %fs:0x28, %rax cmpq -0x30(%rbp), %rax jne 0x3dbd8 movl %r14d, %eax addq $0x28, %rsp popq %rbx popq %r12 popq %r13 popq %r14 popq %r15 popq %rbp retq movl 0x1a8(%rbx), %eax movq 0x8(%rbx), %rcx subl %eax, 0x30(%rcx) movl $0x409, 0x1d0(%rbx) # imm = 0x409 movq 0x8(%rbx), %rax decq (%rax) movq 0x170(%rbx), %rax bswapq %rax movq %rax, -0x38(%rbp) leaq 0x310c1f(%rip), %rax # 0x34e7a0 cmpl $0x0, (%rax) js 0x3db9f leaq -0x38(%rbp), %rdx movl $0x3, %edi movq %rbx, %rsi movl $0x8, %ecx xorl %r8d, %r8d callq 0x45e32 movq %rbx, %rdi movl $0x1, %esi callq 0x457e2 movq 0x148(%rbx), %rax xorl %r14d, %r14d testq %rax, %rax je 0x3db29 movq 0xf8(%rbx), %rdi callq *%rax movq $0x0, 0x148(%rbx) jmp 0x3db29 callq 0x29470
mi_delete: push rbp mov rbp, rsp push r15 push r14 push r13 push r12 push rbx sub rsp, 28h mov rax, fs:28h mov [rbp+var_30], rax test byte ptr [rdi+1D0h], 2 jnz short loc_3D915 call _my_thread_var mov dword ptr [rax], 78h ; 'x' mov r14d, 78h ; 'x' jmp loc_3DB29 loc_3D915: mov rbx, rdi mov r13, [rdi] test byte ptr [r13+31Ah], 1 jnz loc_3DB18 mov r14, rsi mov rdi, rbx mov esi, 1 mov edx, 1 call _mi_readinfo test eax, eax jnz loc_3DB0E mov rax, [rbx] mov rax, [rax+2C8h] test rax, rax jz short loc_3D963 mov rdi, rbx mov rsi, r14 call rax mov [rbx+1A8h], eax loc_3D963: mov rdi, rbx mov rsi, r14 call qword ptr [r13+2C0h] test eax, eax jnz loc_3DA58 mov rdi, rbx call _mi_mark_file_changed test eax, eax jnz loc_3DA58 mov eax, [r13+180h] test eax, eax jz loc_3DA46 mov rcx, [rbx+110h] mov [rbp+var_40], rcx xor r15d, r15d xor r12d, r12d loc_3D9A8: mov rcx, [rbx] mov rdx, [rcx+0C0h] bt rdx, r12 jnb short loc_3DA34 mov rax, [rcx+218h] inc dword ptr [rax+r15+1Ch] mov rax, [rbx] mov rax, [rax+218h] test byte ptr [rax+r15+0Ah], 80h jnz short loc_3DA09 mov rax, [rax+r15+68h] mov [rbp+var_48], rax mov r8, [rbx+170h] mov rdi, rbx mov esi, r12d mov rdx, [rbp+var_40] mov rcx, r14 call _mi_make_key mov rdi, rbx mov esi, r12d mov rdx, [rbp+var_40] mov ecx, eax call [rbp+var_48] jmp short loc_3DA22 loc_3DA09: mov r8, [rbx+170h] mov rdi, rbx mov esi, r12d mov rdx, [rbp+var_40] mov rcx, r14 call _mi_ft_del loc_3DA22: test eax, eax jnz short loc_3DA58 and byte ptr [rbx+1D1h], 0EFh mov eax, [r13+180h] loc_3DA34: inc r12 mov ecx, eax add r15, 70h ; 'p' cmp r12, rcx jb loc_3D9A8 loc_3DA46: mov rdi, rbx call qword ptr [r13+2B0h] test eax, eax jz loc_3DB4E loc_3DA58: call _my_thread_var mov r14d, [rax] mov rax, [rbx+170h] bswap rax mov [rbp+var_38], rax lea rax, myisam_log_file cmp dword ptr [rax], 0 js short loc_3DA93 lea rdx, [rbp+var_38] mov edi, 3 mov rsi, rbx mov ecx, 8 xor r8d, r8d call _myisam_log_command loc_3DA93: cmp r14d, 7Bh ; '{' jz short loc_3DACD mov rax, [rbx] mov rsi, [rax+268h] mov edi, 7Eh ; '~' call mi_report_error mov rax, [rbx] or byte ptr [rax+0F0h], 2 lea rdx, aWorkspaceLlm4b_16; "/workspace/llm4binary/github2025/eloqsq"... mov rdi, rbx xor esi, esi mov ecx, 79h ; 'y' call _mi_report_crashed loc_3DACD: mov rdi, rbx mov esi, 1 call _mi_writeinfo or byte ptr [rbx+1D0h], 4 call _my_thread_var mov [rax], r14d cmp r14d, 78h ; 'x' jnz short loc_3DB0E mov rax, [rbx] mov rsi, [rax+268h] mov edi, 7Eh ; '~' call mi_report_error call _my_thread_var mov dword ptr [rax], 7Eh ; '~' loc_3DB0E: call _my_thread_var mov r14d, [rax] jmp short loc_3DB29 loc_3DB18: call _my_thread_var mov dword ptr [rax], 0Dh mov r14d, 0Dh loc_3DB29: mov rax, fs:28h cmp rax, [rbp+var_30] jnz loc_3DBD8 mov eax, r14d add rsp, 28h pop rbx pop r12 pop r13 pop r14 pop r15 pop rbp retn loc_3DB4E: mov eax, [rbx+1A8h] mov rcx, [rbx+8] sub [rcx+30h], eax mov dword ptr [rbx+1D0h], 409h mov rax, [rbx+8] dec qword ptr [rax] mov rax, [rbx+170h] bswap rax mov [rbp+var_38], rax lea rax, myisam_log_file cmp dword ptr [rax], 0 js short loc_3DB9F lea rdx, [rbp+var_38] mov edi, 3 mov rsi, rbx mov ecx, 8 xor r8d, r8d call _myisam_log_command loc_3DB9F: mov rdi, rbx mov esi, 1 call _mi_writeinfo mov rax, [rbx+148h] xor r14d, r14d test rax, rax jz loc_3DB29 mov rdi, [rbx+0F8h] call rax mov qword ptr [rbx+148h], 0 jmp loc_3DB29 loc_3DBD8: call ___stack_chk_fail
long long mi_delete(_BYTE *a1, const char *a2) { unsigned int v2; // r14d _BYTE *v3; // rbx long long v4; // r13 const char *v6; // rsi long long ( *v7)(_BYTE *, const char *); // rax const char *v8; // rsi unsigned int v9; // eax long long v10; // r15 unsigned long long i; // r12 long long v12; // rdx long long v13; // rax unsigned int key; // eax int v15; // eax int v16; // r14d void ( *v18)(_QWORD); // rax long long ( *v19)(_BYTE *, _QWORD, long long, _QWORD); // [rsp+8h] [rbp-48h] long long v20; // [rsp+10h] [rbp-40h] _QWORD v21[7]; // [rsp+18h] [rbp-38h] BYREF v21[1] = __readfsqword(0x28u); if ( (a1[464] & 2) == 0 ) { *(_DWORD *)my_thread_var(a1, a2) = 120; return 120; } v3 = a1; v4 = *(_QWORD *)a1; if ( (*(_BYTE *)(*(_QWORD *)a1 + 794LL) & 1) != 0 ) { *(_DWORD *)my_thread_var(a1, a2) = 13; return 13; } v6 = (_BYTE *)(&dword_0 + 1); if ( (unsigned int)mi_readinfo(a1, 1LL, 1LL) ) return *(unsigned int *)my_thread_var(a1, v6); v7 = *(long long ( **)(_BYTE *, const char *))(*(_QWORD *)a1 + 712LL); if ( v7 ) *((_DWORD *)a1 + 106) = v7(a1, a2); v8 = a2; if ( (*(unsigned int ( **)(_BYTE *, const char *))(v4 + 704))(a1, a2) || (unsigned int)mi_mark_file_changed(a1) ) { goto LABEL_19; } v9 = *(_DWORD *)(v4 + 384); if ( v9 ) { v20 = *((_QWORD *)a1 + 34); v10 = 0LL; for ( i = 0LL; i < v9; ++i ) { v12 = *(_QWORD *)(*(_QWORD *)v3 + 192LL); if ( _bittest64(&v12, i) ) { ++*(_DWORD *)(*(_QWORD *)(*(_QWORD *)v3 + 536LL) + v10 + 28); v13 = *(_QWORD *)(*(_QWORD *)v3 + 536LL); if ( *(char *)(v13 + v10 + 10) < 0 ) { a1 = v3; v8 = (const char *)(unsigned int)i; v15 = mi_ft_del(v3, (unsigned int)i, v20, a2, *((_QWORD *)v3 + 46)); } else { v19 = *(long long ( **)(_BYTE *, _QWORD, long long, _QWORD))(v13 + v10 + 104); key = mi_make_key(v3, (unsigned int)i, v20, a2, *((_QWORD *)v3 + 46)); a1 = v3; v8 = (const char *)(unsigned int)i; v15 = v19(v3, (unsigned int)i, v20, key); } if ( v15 ) goto LABEL_19; v3[465] &= ~0x10u; v9 = *(_DWORD *)(v4 + 384); } v10 += 112LL; } } a1 = v3; if ( (*(unsigned int ( **)(_BYTE *))(v4 + 688))(v3) ) { LABEL_19: v16 = *(_DWORD *)my_thread_var(a1, v8); v21[0] = _byteswap_uint64(*((_QWORD *)v3 + 46)); if ( myisam_log_file >= 0 ) myisam_log_command(3LL, v3, v21, 8LL, 0LL); if ( v16 != 123 ) { mi_report_error(126LL, *(_QWORD *)(*(_QWORD *)v3 + 616LL)); *(_BYTE *)(*(_QWORD *)v3 + 240LL) |= 2u; mi_report_crashed(); } a1 = v3; v6 = (_BYTE *)(&dword_0 + 1); mi_writeinfo(v3, 1LL); v3[464] |= 4u; *(_DWORD *)my_thread_var(v3, (_BYTE *)&dword_0 + 1) = v16; if ( v16 == 120 ) { v6 = *(const char **)(*(_QWORD *)v3 + 616LL); a1 = (_BYTE *)(&dword_7C + 2); mi_report_error(126LL, v6); *(_DWORD *)my_thread_var(126LL, v6) = 126; } return *(unsigned int *)my_thread_var(a1, v6); } *(_DWORD *)(*((_QWORD *)v3 + 1) + 48LL) -= *((_DWORD *)v3 + 106); *((_DWORD *)v3 + 116) = 1033; --**((_QWORD **)v3 + 1); v21[0] = _byteswap_uint64(*((_QWORD *)v3 + 46)); if ( myisam_log_file >= 0 ) myisam_log_command(3LL, v3, v21, 8LL, 0LL); mi_writeinfo(v3, 1LL); v18 = (void ( *)(_QWORD))*((_QWORD *)v3 + 41); v2 = 0; if ( v18 ) { v18(*((_QWORD *)v3 + 31)); *((_QWORD *)v3 + 41) = 0LL; } return v2; }
mi_delete: PUSH RBP MOV RBP,RSP PUSH R15 PUSH R14 PUSH R13 PUSH R12 PUSH RBX SUB RSP,0x28 MOV RAX,qword ptr FS:[0x28] MOV qword ptr [RBP + -0x30],RAX TEST byte ptr [RDI + 0x1d0],0x2 JNZ 0x0013d915 CALL 0x001721fe MOV dword ptr [RAX],0x78 MOV R14D,0x78 JMP 0x0013db29 LAB_0013d915: MOV RBX,RDI MOV R13,qword ptr [RDI] TEST byte ptr [R13 + 0x31a],0x1 JNZ 0x0013db18 MOV R14,RSI MOV RDI,RBX MOV ESI,0x1 MOV EDX,0x1 CALL 0x001456ef TEST EAX,EAX JNZ 0x0013db0e MOV RAX,qword ptr [RBX] MOV RAX,qword ptr [RAX + 0x2c8] TEST RAX,RAX JZ 0x0013d963 MOV RDI,RBX MOV RSI,R14 CALL RAX MOV dword ptr [RBX + 0x1a8],EAX LAB_0013d963: MOV RDI,RBX MOV RSI,R14 CALL qword ptr [R13 + 0x2c0] TEST EAX,EAX JNZ 0x0013da58 MOV RDI,RBX CALL 0x001458ce TEST EAX,EAX JNZ 0x0013da58 MOV EAX,dword ptr [R13 + 0x180] TEST EAX,EAX JZ 0x0013da46 MOV RCX,qword ptr [RBX + 0x110] MOV qword ptr [RBP + -0x40],RCX XOR R15D,R15D XOR R12D,R12D LAB_0013d9a8: MOV RCX,qword ptr [RBX] MOV RDX,qword ptr [RCX + 0xc0] BT RDX,R12 JNC 0x0013da34 MOV RAX,qword ptr [RCX + 0x218] INC dword ptr [RAX + R15*0x1 + 0x1c] MOV RAX,qword ptr [RBX] MOV RAX,qword ptr [RAX + 0x218] TEST byte ptr [RAX + R15*0x1 + 0xa],0x80 JNZ 0x0013da09 MOV RAX,qword ptr [RAX + R15*0x1 + 0x68] MOV qword ptr [RBP + -0x48],RAX MOV R8,qword ptr [RBX + 0x170] MOV RDI,RBX MOV ESI,R12D MOV RDX,qword ptr [RBP + -0x40] MOV RCX,R14 CALL 0x00143e50 MOV RDI,RBX MOV ESI,R12D MOV RDX,qword ptr [RBP + -0x40] MOV ECX,EAX CALL qword ptr [RBP + -0x48] JMP 0x0013da22 LAB_0013da09: MOV R8,qword ptr [RBX + 0x170] MOV RDI,RBX MOV ESI,R12D MOV RDX,qword ptr [RBP + -0x40] MOV RCX,R14 CALL 0x0015d624 LAB_0013da22: TEST EAX,EAX JNZ 0x0013da58 AND byte ptr [RBX + 0x1d1],0xef MOV EAX,dword ptr [R13 + 0x180] LAB_0013da34: INC R12 MOV ECX,EAX ADD R15,0x70 CMP R12,RCX JC 0x0013d9a8 LAB_0013da46: MOV RDI,RBX CALL qword ptr [R13 + 0x2b0] TEST EAX,EAX JZ 0x0013db4e LAB_0013da58: CALL 0x001721fe MOV R14D,dword ptr [RAX] MOV RAX,qword ptr [RBX + 0x170] BSWAP RAX MOV qword ptr [RBP + -0x38],RAX LEA RAX,[0x44e7a0] CMP dword ptr [RAX],0x0 JS 0x0013da93 LEA RDX,[RBP + -0x38] MOV EDI,0x3 MOV RSI,RBX MOV ECX,0x8 XOR R8D,R8D CALL 0x00145e32 LAB_0013da93: CMP R14D,0x7b JZ 0x0013dacd MOV RAX,qword ptr [RBX] MOV RSI,qword ptr [RAX + 0x268] MOV EDI,0x7e CALL 0x00143e1a MOV RAX,qword ptr [RBX] OR byte ptr [RAX + 0xf0],0x2 LEA RDX,[0x1ac7bd] MOV RDI,RBX XOR ESI,ESI MOV ECX,0x79 CALL 0x0012f199 LAB_0013dacd: MOV RDI,RBX MOV ESI,0x1 CALL 0x001457e2 OR byte ptr [RBX + 0x1d0],0x4 CALL 0x001721fe MOV dword ptr [RAX],R14D CMP R14D,0x78 JNZ 0x0013db0e MOV RAX,qword ptr [RBX] MOV RSI,qword ptr [RAX + 0x268] MOV EDI,0x7e CALL 0x00143e1a CALL 0x001721fe MOV dword ptr [RAX],0x7e LAB_0013db0e: CALL 0x001721fe MOV R14D,dword ptr [RAX] JMP 0x0013db29 LAB_0013db18: CALL 0x001721fe MOV dword ptr [RAX],0xd MOV R14D,0xd LAB_0013db29: MOV RAX,qword ptr FS:[0x28] CMP RAX,qword ptr [RBP + -0x30] JNZ 0x0013dbd8 MOV EAX,R14D ADD RSP,0x28 POP RBX POP R12 POP R13 POP R14 POP R15 POP RBP RET LAB_0013db4e: MOV EAX,dword ptr [RBX + 0x1a8] MOV RCX,qword ptr [RBX + 0x8] SUB dword ptr [RCX + 0x30],EAX MOV dword ptr [RBX + 0x1d0],0x409 MOV RAX,qword ptr [RBX + 0x8] DEC qword ptr [RAX] MOV RAX,qword ptr [RBX + 0x170] BSWAP RAX MOV qword ptr [RBP + -0x38],RAX LEA RAX,[0x44e7a0] CMP dword ptr [RAX],0x0 JS 0x0013db9f LEA RDX,[RBP + -0x38] MOV EDI,0x3 MOV RSI,RBX MOV ECX,0x8 XOR R8D,R8D CALL 0x00145e32 LAB_0013db9f: MOV RDI,RBX MOV ESI,0x1 CALL 0x001457e2 MOV RAX,qword ptr [RBX + 0x148] XOR R14D,R14D TEST RAX,RAX JZ 0x0013db29 MOV RDI,qword ptr [RBX + 0xf8] CALL RAX MOV qword ptr [RBX + 0x148],0x0 JMP 0x0013db29 LAB_0013dbd8: CALL 0x00129470
int4 mi_delete(long *param_1,int8 param_2) { long lVar1; long lVar2; code *pcVar3; int iVar4; int4 uVar5; uint uVar6; int4 *puVar7; int *piVar8; ulong uVar9; long lVar10; long in_FS_OFFSET; ulong local_40; long local_38; local_38 = *(long *)(in_FS_OFFSET + 0x28); if ((*(byte *)(param_1 + 0x3a) & 2) == 0) { puVar7 = (int4 *)_my_thread_var(); *puVar7 = 0x78; uVar5 = 0x78; } else { lVar1 = *param_1; if ((*(byte *)(lVar1 + 0x31a) & 1) == 0) { iVar4 = _mi_readinfo(param_1,1,1); if (iVar4 == 0) { if (*(code **)(*param_1 + 0x2c8) != (code *)0x0) { uVar5 = (**(code **)(*param_1 + 0x2c8))(param_1,param_2); *(int4 *)(param_1 + 0x35) = uVar5; } iVar4 = (**(code **)(lVar1 + 0x2c0))(param_1,param_2); if (iVar4 == 0) { iVar4 = _mi_mark_file_changed(param_1); if (iVar4 == 0) { uVar6 = *(uint *)(lVar1 + 0x180); if (uVar6 != 0) { lVar2 = param_1[0x22]; lVar10 = 0; uVar9 = 0; do { if ((*(ulong *)(*param_1 + 0xc0) >> (uVar9 & 0x3f) & 1) != 0) { piVar8 = (int *)(*(long *)(*param_1 + 0x218) + 0x1c + lVar10); *piVar8 = *piVar8 + 1; if ((*(byte *)(*(long *)(*param_1 + 0x218) + 10 + lVar10) & 0x80) == 0) { pcVar3 = *(code **)(*(long *)(*param_1 + 0x218) + 0x68 + lVar10); uVar5 = _mi_make_key(param_1,uVar9 & 0xffffffff,lVar2,param_2,param_1[0x2e]); iVar4 = (*pcVar3)(param_1,uVar9 & 0xffffffff,lVar2,uVar5); } else { iVar4 = _mi_ft_del(param_1,uVar9 & 0xffffffff,lVar2,param_2,param_1[0x2e]); } if (iVar4 != 0) goto LAB_0013da58; *(byte *)((long)param_1 + 0x1d1) = *(byte *)((long)param_1 + 0x1d1) & 0xef; uVar6 = *(uint *)(lVar1 + 0x180); } uVar9 = uVar9 + 1; lVar10 = lVar10 + 0x70; } while (uVar9 < uVar6); } iVar4 = (**(code **)(lVar1 + 0x2b0))(param_1); if (iVar4 == 0) { *(int *)(param_1[1] + 0x30) = *(int *)(param_1[1] + 0x30) - (int)param_1[0x35]; *(int4 *)(param_1 + 0x3a) = 0x409; *(long *)param_1[1] = *(long *)param_1[1] + -1; uVar9 = param_1[0x2e]; local_40 = uVar9 >> 0x38 | (uVar9 & 0xff000000000000) >> 0x28 | (uVar9 & 0xff0000000000) >> 0x18 | (uVar9 & 0xff00000000) >> 8 | (uVar9 & 0xff000000) << 8 | (uVar9 & 0xff0000) << 0x18 | (uVar9 & 0xff00) << 0x28 | uVar9 << 0x38; if (-1 < myisam_log_file) { _myisam_log_command(3,param_1,&local_40,8,0); } _mi_writeinfo(param_1,1); uVar5 = 0; if ((code *)param_1[0x29] != (code *)0x0) { (*(code *)param_1[0x29])(param_1[0x1f]); param_1[0x29] = 0; } goto LAB_0013db29; } } } LAB_0013da58: piVar8 = (int *)_my_thread_var(); iVar4 = *piVar8; uVar9 = param_1[0x2e]; local_40 = uVar9 >> 0x38 | (uVar9 & 0xff000000000000) >> 0x28 | (uVar9 & 0xff0000000000) >> 0x18 | (uVar9 & 0xff00000000) >> 8 | (uVar9 & 0xff000000) << 8 | (uVar9 & 0xff0000) << 0x18 | (uVar9 & 0xff00) << 0x28 | uVar9 << 0x38; if (-1 < myisam_log_file) { _myisam_log_command(3,param_1,&local_40,8,0); } if (iVar4 != 0x7b) { mi_report_error(0x7e,*(int8 *)(*param_1 + 0x268)); *(byte *)(*param_1 + 0xf0) = *(byte *)(*param_1 + 0xf0) | 2; _mi_report_crashed(param_1,0, "/workspace/llm4binary/github2025/eloqsql/storage/myisam/mi_delete.c", 0x79); } _mi_writeinfo(param_1,1); *(byte *)(param_1 + 0x3a) = *(byte *)(param_1 + 0x3a) | 4; piVar8 = (int *)_my_thread_var(); *piVar8 = iVar4; if (iVar4 == 0x78) { mi_report_error(0x7e,*(int8 *)(*param_1 + 0x268)); puVar7 = (int4 *)_my_thread_var(); *puVar7 = 0x7e; } } puVar7 = (int4 *)_my_thread_var(); uVar5 = *puVar7; } else { puVar7 = (int4 *)_my_thread_var(); *puVar7 = 0xd; uVar5 = 0xd; } } LAB_0013db29: if (*(long *)(in_FS_OFFSET + 0x28) == local_38) { return uVar5; } /* WARNING: Subroutine does not return */ __stack_chk_fail(); }
40,821
OpenSubdiv::v3_6_0::Bfr::SurfaceFactory::assignRegularSurface(OpenSubdiv::v3_6_0::Bfr::internal::SurfaceData*, OpenSubdiv::v3_6_0::Bfr::FaceSurface const&) const
NVIDIA-RTX[P]OSD-Lite/opensubdiv/bfr/surfaceFactory.cpp
void SurfaceFactory::assignRegularSurface(SurfaceType * surfacePtr, FaceSurface const & descriptor) const { SurfaceType & surface = *surfacePtr; // // Assign the parameterization and discriminants first: // surface.setParam(Parameterization(_subdivScheme, _regFaceSize)); surface.setRegular(true); surface.setLinear(false); // // Assemble the regular patch: // RegularPatchBuilder builder(descriptor); surface.setRegPatchType(builder.GetPatchType()); surface.setRegPatchMask(builder.GetPatchParamBoundaryMask()); // // Gather the patch control points from the given indices: // builder.GatherControlVertexIndices( surface.resizeCVs(builder.GetNumControlVertices())); surface.setValid(true); #ifdef _BFR_DEBUG_TOP_TYPE_STATS __numRegularPatches ++; #endif }
O0
cpp
OpenSubdiv::v3_6_0::Bfr::SurfaceFactory::assignRegularSurface(OpenSubdiv::v3_6_0::Bfr::internal::SurfaceData*, OpenSubdiv::v3_6_0::Bfr::FaceSurface const&) const: pushq %rbp movq %rsp, %rbp subq $0x90, %rsp movq %rdi, -0x8(%rbp) movq %rsi, -0x10(%rbp) movq %rdx, -0x18(%rbp) movq -0x8(%rbp), %rax movq -0x10(%rbp), %rcx movq %rcx, -0x20(%rbp) movq -0x20(%rbp), %rcx movq %rcx, -0x68(%rbp) movl 0x8(%rax), %esi movl 0x2c(%rax), %edx leaq -0x24(%rbp), %rdi callq 0xcffe0 movq -0x68(%rbp), %rdi movl -0x24(%rbp), %esi callq 0xc53d0 movq -0x20(%rbp), %rdi movl $0x1, %esi callq 0xd0a30 movq -0x20(%rbp), %rdi xorl %esi, %esi callq 0xccfd0 movq -0x18(%rbp), %rsi leaq -0x40(%rbp), %rdi movq %rdi, -0x60(%rbp) callq 0xd52a0 movq -0x60(%rbp), %rdi movq -0x20(%rbp), %rax movq %rax, -0x58(%rbp) callq 0xd7b90 movl %eax, -0x50(%rbp) jmp 0x1b6de6 movl -0x50(%rbp), %esi movq -0x58(%rbp), %rdi callq 0xc8de0 jmp 0x1b6df4 movq -0x20(%rbp), %rax movq %rax, -0x78(%rbp) leaq -0x40(%rbp), %rdi callq 0xc9fe0 movl %eax, -0x6c(%rbp) jmp 0x1b6e0a movl -0x6c(%rbp), %esi movq -0x78(%rbp), %rdi callq 0xd5fb0 jmp 0x1b6e18 movq -0x20(%rbp), %rax movq %rax, -0x88(%rbp) leaq -0x40(%rbp), %rdi callq 0xc58a0 movl %eax, -0x7c(%rbp) jmp 0x1b6e31 movl -0x7c(%rbp), %esi movq -0x88(%rbp), %rdi callq 0xcd5c0 movq %rax, -0x90(%rbp) jmp 0x1b6e49 movq -0x90(%rbp), %rsi leaq -0x40(%rbp), %rdi callq 0xc8680 jmp 0x1b6e5b movq -0x20(%rbp), %rdi movl $0x1, %esi callq 0xcbba0 jmp 0x1b6e6b leaq -0x40(%rbp), %rdi callq 0xd2c80 addq $0x90, %rsp popq %rbp retq movq %rax, %rcx movl %edx, %eax movq %rcx, -0x48(%rbp) movl %eax, -0x4c(%rbp) leaq -0x40(%rbp), %rdi callq 0xd2c80 movq -0x48(%rbp), %rdi callq 0xd58b0 nopl (%rax,%rax)
_ZNK10OpenSubdiv6v3_6_03Bfr14SurfaceFactory20assignRegularSurfaceEPNS1_8internal11SurfaceDataERKNS1_11FaceSurfaceE: push rbp mov rbp, rsp sub rsp, 90h mov [rbp+var_8], rdi mov [rbp+var_10], rsi mov [rbp+var_18], rdx mov rax, [rbp+var_8] mov rcx, [rbp+var_10] mov [rbp+var_20], rcx mov rcx, [rbp+var_20] mov [rbp+var_68], rcx mov esi, [rax+8] mov edx, [rax+2Ch] lea rdi, [rbp+var_24] call __ZN10OpenSubdiv6v3_6_03Bfr16ParameterizationC2ENS0_3Sdc10SchemeTypeEi; OpenSubdiv::v3_6_0::Bfr::Parameterization::Parameterization(OpenSubdiv::v3_6_0::Sdc::SchemeType,int) mov rdi, [rbp+var_68] mov esi, [rbp+var_24] call __ZN10OpenSubdiv6v3_6_03Bfr8internal11SurfaceData8setParamENS1_16ParameterizationE; OpenSubdiv::v3_6_0::Bfr::internal::SurfaceData::setParam(OpenSubdiv::v3_6_0::Bfr::Parameterization) mov rdi, [rbp+var_20]; this mov esi, 1; bool call __ZN10OpenSubdiv6v3_6_03Bfr8internal11SurfaceData10setRegularEb; OpenSubdiv::v3_6_0::Bfr::internal::SurfaceData::setRegular(bool) mov rdi, [rbp+var_20]; this xor esi, esi; bool call __ZN10OpenSubdiv6v3_6_03Bfr8internal11SurfaceData9setLinearEb; OpenSubdiv::v3_6_0::Bfr::internal::SurfaceData::setLinear(bool) mov rsi, [rbp+var_18]; OpenSubdiv::v3_6_0::Bfr::FaceSurface * lea rdi, [rbp+var_40]; this mov [rbp+var_60], rdi call __ZN10OpenSubdiv6v3_6_03Bfr19RegularPatchBuilderC2ERKNS1_11FaceSurfaceE; OpenSubdiv::v3_6_0::Bfr::RegularPatchBuilder::RegularPatchBuilder(OpenSubdiv::v3_6_0::Bfr::FaceSurface const&) mov rdi, [rbp+var_60]; this mov rax, [rbp+var_20] mov [rbp+var_58], rax call __ZNK10OpenSubdiv6v3_6_03Bfr19RegularPatchBuilder12GetPatchTypeEv; OpenSubdiv::v3_6_0::Bfr::RegularPatchBuilder::GetPatchType(void) mov [rbp+var_50], eax jmp short $+2 loc_1B6DE6: mov esi, [rbp+var_50]; int mov rdi, [rbp+var_58]; this call __ZN10OpenSubdiv6v3_6_03Bfr8internal11SurfaceData15setRegPatchTypeEi; OpenSubdiv::v3_6_0::Bfr::internal::SurfaceData::setRegPatchType(int) jmp short $+2 loc_1B6DF4: mov rax, [rbp+var_20] mov [rbp+var_78], rax lea rdi, [rbp+var_40]; this call __ZNK10OpenSubdiv6v3_6_03Bfr19RegularPatchBuilder25GetPatchParamBoundaryMaskEv; OpenSubdiv::v3_6_0::Bfr::RegularPatchBuilder::GetPatchParamBoundaryMask(void) mov [rbp+var_6C], eax jmp short $+2 loc_1B6E0A: mov esi, [rbp+var_6C]; int mov rdi, [rbp+var_78]; this call __ZN10OpenSubdiv6v3_6_03Bfr8internal11SurfaceData15setRegPatchMaskEi; OpenSubdiv::v3_6_0::Bfr::internal::SurfaceData::setRegPatchMask(int) jmp short $+2 loc_1B6E18: mov rax, [rbp+var_20] mov [rbp+var_88], rax lea rdi, [rbp+var_40]; this call __ZNK10OpenSubdiv6v3_6_03Bfr19RegularPatchBuilder21GetNumControlVerticesEv; OpenSubdiv::v3_6_0::Bfr::RegularPatchBuilder::GetNumControlVertices(void) mov [rbp+var_7C], eax jmp short $+2 loc_1B6E31: mov esi, [rbp+var_7C]; int mov rdi, [rbp+var_88]; this call __ZN10OpenSubdiv6v3_6_03Bfr8internal11SurfaceData9resizeCVsEi; OpenSubdiv::v3_6_0::Bfr::internal::SurfaceData::resizeCVs(int) mov [rbp+var_90], rax jmp short $+2 loc_1B6E49: mov rsi, [rbp+var_90]; int * lea rdi, [rbp+var_40]; this call __ZNK10OpenSubdiv6v3_6_03Bfr19RegularPatchBuilder26GatherControlVertexIndicesEPi; OpenSubdiv::v3_6_0::Bfr::RegularPatchBuilder::GatherControlVertexIndices(int *) jmp short $+2 loc_1B6E5B: mov rdi, [rbp+var_20]; this mov esi, 1; bool call __ZN10OpenSubdiv6v3_6_03Bfr8internal11SurfaceData8setValidEb; OpenSubdiv::v3_6_0::Bfr::internal::SurfaceData::setValid(bool) jmp short $+2 loc_1B6E6B: lea rdi, [rbp+var_40]; this call __ZN10OpenSubdiv6v3_6_03Bfr19RegularPatchBuilderD2Ev; OpenSubdiv::v3_6_0::Bfr::RegularPatchBuilder::~RegularPatchBuilder() add rsp, 90h pop rbp retn mov rcx, rax mov eax, edx mov [rbp+var_48], rcx mov [rbp+var_4C], eax lea rdi, [rbp+var_40]; this call __ZN10OpenSubdiv6v3_6_03Bfr19RegularPatchBuilderD2Ev; OpenSubdiv::v3_6_0::Bfr::RegularPatchBuilder::~RegularPatchBuilder() mov rdi, [rbp+var_48] call __Unwind_Resume
void OpenSubdiv::v3_6_0::Bfr::SurfaceFactory::assignRegularSurface( OpenSubdiv::v3_6_0::Bfr::SurfaceFactory *this, OpenSubdiv::v3_6_0::Bfr::internal::SurfaceData *a2, const OpenSubdiv::v3_6_0::Bfr::FaceSurface *a3) { int *v3; // [rsp+0h] [rbp-90h] OpenSubdiv::v3_6_0::Bfr::internal::SurfaceData *v4; // [rsp+8h] [rbp-88h] int NumControlVertices; // [rsp+14h] [rbp-7Ch] OpenSubdiv::v3_6_0::Bfr::internal::SurfaceData *v6; // [rsp+18h] [rbp-78h] int PatchParamBoundaryMask; // [rsp+24h] [rbp-6Ch] OpenSubdiv::v3_6_0::Bfr::internal::SurfaceData *v8; // [rsp+38h] [rbp-58h] int PatchType; // [rsp+40h] [rbp-50h] _BYTE v10[28]; // [rsp+50h] [rbp-40h] BYREF unsigned int v11; // [rsp+6Ch] [rbp-24h] BYREF OpenSubdiv::v3_6_0::Bfr::internal::SurfaceData *v12; // [rsp+70h] [rbp-20h] OpenSubdiv::v3_6_0::Bfr::FaceSurface *v13; // [rsp+78h] [rbp-18h] OpenSubdiv::v3_6_0::Bfr::internal::SurfaceData *v14; // [rsp+80h] [rbp-10h] OpenSubdiv::v3_6_0::Bfr::SurfaceFactory *v15; // [rsp+88h] [rbp-8h] v15 = this; v14 = a2; v13 = a3; v12 = a2; OpenSubdiv::v3_6_0::Bfr::Parameterization::Parameterization( (long long)&v11, *((_DWORD *)this + 2), *((_DWORD *)this + 11)); OpenSubdiv::v3_6_0::Bfr::internal::SurfaceData::setParam(a2, v11); OpenSubdiv::v3_6_0::Bfr::internal::SurfaceData::setRegular(v12, 1); OpenSubdiv::v3_6_0::Bfr::internal::SurfaceData::setLinear(v12, 0); OpenSubdiv::v3_6_0::Bfr::RegularPatchBuilder::RegularPatchBuilder( (OpenSubdiv::v3_6_0::Bfr::RegularPatchBuilder *)v10, v13); v8 = v12; PatchType = OpenSubdiv::v3_6_0::Bfr::RegularPatchBuilder::GetPatchType((OpenSubdiv::v3_6_0::Bfr::RegularPatchBuilder *)v10); OpenSubdiv::v3_6_0::Bfr::internal::SurfaceData::setRegPatchType(v8, PatchType); v6 = v12; PatchParamBoundaryMask = OpenSubdiv::v3_6_0::Bfr::RegularPatchBuilder::GetPatchParamBoundaryMask((OpenSubdiv::v3_6_0::Bfr::RegularPatchBuilder *)v10); OpenSubdiv::v3_6_0::Bfr::internal::SurfaceData::setRegPatchMask(v6, PatchParamBoundaryMask); v4 = v12; NumControlVertices = OpenSubdiv::v3_6_0::Bfr::RegularPatchBuilder::GetNumControlVertices((OpenSubdiv::v3_6_0::Bfr::RegularPatchBuilder *)v10); v3 = (int *)OpenSubdiv::v3_6_0::Bfr::internal::SurfaceData::resizeCVs(v4, NumControlVertices); OpenSubdiv::v3_6_0::Bfr::RegularPatchBuilder::GatherControlVertexIndices( (OpenSubdiv::v3_6_0::Bfr::RegularPatchBuilder *)v10, v3); OpenSubdiv::v3_6_0::Bfr::internal::SurfaceData::setValid(v12, 1); OpenSubdiv::v3_6_0::Bfr::RegularPatchBuilder::~RegularPatchBuilder((OpenSubdiv::v3_6_0::Bfr::RegularPatchBuilder *)v10); }
40,822
OpenSubdiv::v3_6_0::Bfr::SurfaceFactory::assignRegularSurface(OpenSubdiv::v3_6_0::Bfr::internal::SurfaceData*, OpenSubdiv::v3_6_0::Bfr::FaceSurface const&) const
NVIDIA-RTX[P]OSD-Lite/opensubdiv/bfr/surfaceFactory.cpp
void SurfaceFactory::assignRegularSurface(SurfaceType * surfacePtr, FaceSurface const & descriptor) const { SurfaceType & surface = *surfacePtr; // // Assign the parameterization and discriminants first: // surface.setParam(Parameterization(_subdivScheme, _regFaceSize)); surface.setRegular(true); surface.setLinear(false); // // Assemble the regular patch: // RegularPatchBuilder builder(descriptor); surface.setRegPatchType(builder.GetPatchType()); surface.setRegPatchMask(builder.GetPatchParamBoundaryMask()); // // Gather the patch control points from the given indices: // builder.GatherControlVertexIndices( surface.resizeCVs(builder.GetNumControlVertices())); surface.setValid(true); #ifdef _BFR_DEBUG_TOP_TYPE_STATS __numRegularPatches ++; #endif }
O2
cpp
OpenSubdiv::v3_6_0::Bfr::SurfaceFactory::assignRegularSurface(OpenSubdiv::v3_6_0::Bfr::internal::SurfaceData*, OpenSubdiv::v3_6_0::Bfr::FaceSurface const&) const: pushq %r15 pushq %r14 pushq %rbx subq $0x20, %rsp movq %rdx, %r14 movq %rsi, %rbx movl 0x8(%rdi), %esi movl 0x2c(%rdi), %edx leaq 0x4(%rsp), %r15 movq %r15, %rdi callq 0x53650 movl (%r15), %eax movl %eax, 0x68(%rbx) movb 0x6c(%rbx), %al andb $-0xd, %al orb $0x4, %al movb %al, 0x6c(%rbx) leaq 0x8(%rsp), %r15 movq %r15, %rdi movq %r14, %rsi callq 0x55110 movb 0x14(%r15), %al movb %al, 0x6d(%rbx) movb 0xc(%r15), %al movb %al, 0x6e(%rbx) movl 0x10(%r15), %esi movq %rbx, %rdi callq 0x52960 movq %r15, %rdi movq %rax, %rsi callq 0x50e30 orb $0x1, 0x6c(%rbx) addq $0x20, %rsp popq %rbx popq %r14 popq %r15 retq nop
_ZNK10OpenSubdiv6v3_6_03Bfr14SurfaceFactory20assignRegularSurfaceEPNS1_8internal11SurfaceDataERKNS1_11FaceSurfaceE: push r15 push r14 push rbx sub rsp, 20h mov r14, rdx mov rbx, rsi mov esi, [rdi+8] mov edx, [rdi+2Ch] lea r15, [rsp+38h+var_34] mov rdi, r15 call __ZN10OpenSubdiv6v3_6_03Bfr16ParameterizationC2ENS0_3Sdc10SchemeTypeEi; OpenSubdiv::v3_6_0::Bfr::Parameterization::Parameterization(OpenSubdiv::v3_6_0::Sdc::SchemeType,int) mov eax, [r15] mov [rbx+68h], eax mov al, [rbx+6Ch] and al, 0F3h or al, 4 mov [rbx+6Ch], al lea r15, [rsp+38h+var_30] mov rdi, r15; this mov rsi, r14; OpenSubdiv::v3_6_0::Bfr::FaceSurface * call __ZN10OpenSubdiv6v3_6_03Bfr19RegularPatchBuilderC2ERKNS1_11FaceSurfaceE; OpenSubdiv::v3_6_0::Bfr::RegularPatchBuilder::RegularPatchBuilder(OpenSubdiv::v3_6_0::Bfr::FaceSurface const&) mov al, [r15+14h] mov [rbx+6Dh], al mov al, [r15+0Ch] mov [rbx+6Eh], al mov esi, [r15+10h]; int mov rdi, rbx; this call __ZN10OpenSubdiv6v3_6_03Bfr8internal11SurfaceData9resizeCVsEi; OpenSubdiv::v3_6_0::Bfr::internal::SurfaceData::resizeCVs(int) mov rdi, r15; this mov rsi, rax; int * call __ZNK10OpenSubdiv6v3_6_03Bfr19RegularPatchBuilder26GatherControlVertexIndicesEPi; OpenSubdiv::v3_6_0::Bfr::RegularPatchBuilder::GatherControlVertexIndices(int *) or byte ptr [rbx+6Ch], 1 add rsp, 20h pop rbx pop r14 pop r15 retn
long long OpenSubdiv::v3_6_0::Bfr::SurfaceFactory::assignRegularSurface( OpenSubdiv::v3_6_0::Bfr::SurfaceFactory *this, OpenSubdiv::v3_6_0::Bfr::internal::SurfaceData *a2, const OpenSubdiv::v3_6_0::Bfr::FaceSurface *a3) { int *v4; // rax long long result; // rax int v6; // [rsp+4h] [rbp-34h] BYREF _BYTE v7[16]; // [rsp+8h] [rbp-30h] BYREF int v8; // [rsp+18h] [rbp-20h] char v9; // [rsp+1Ch] [rbp-1Ch] OpenSubdiv::v3_6_0::Bfr::Parameterization::Parameterization( (long long)&v6, *((_DWORD *)this + 2), *((_DWORD *)this + 11)); *((_DWORD *)a2 + 26) = v6; *((_BYTE *)a2 + 108) = *((_BYTE *)a2 + 108) & 0xF3 | 4; OpenSubdiv::v3_6_0::Bfr::RegularPatchBuilder::RegularPatchBuilder( (OpenSubdiv::v3_6_0::Bfr::RegularPatchBuilder *)v7, a3); *((_BYTE *)a2 + 109) = v9; *((_BYTE *)a2 + 110) = v7[12]; v4 = (int *)OpenSubdiv::v3_6_0::Bfr::internal::SurfaceData::resizeCVs(a2, v8); result = OpenSubdiv::v3_6_0::Bfr::RegularPatchBuilder::GatherControlVertexIndices( (OpenSubdiv::v3_6_0::Bfr::RegularPatchBuilder *)v7, v4); *((_BYTE *)a2 + 108) |= 1u; return result; }
assignRegularSurface: PUSH R15 PUSH R14 PUSH RBX SUB RSP,0x20 MOV R14,RDX MOV RBX,RSI MOV ESI,dword ptr [RDI + 0x8] MOV EDX,dword ptr [RDI + 0x2c] LEA R15,[RSP + 0x4] MOV RDI,R15 CALL 0x00153650 MOV EAX,dword ptr [R15] MOV dword ptr [RBX + 0x68],EAX MOV AL,byte ptr [RBX + 0x6c] AND AL,0xf3 OR AL,0x4 MOV byte ptr [RBX + 0x6c],AL LEA R15,[RSP + 0x8] MOV RDI,R15 MOV RSI,R14 CALL 0x00155110 MOV AL,byte ptr [R15 + 0x14] MOV byte ptr [RBX + 0x6d],AL MOV AL,byte ptr [R15 + 0xc] MOV byte ptr [RBX + 0x6e],AL MOV ESI,dword ptr [R15 + 0x10] MOV RDI,RBX CALL 0x00152960 MOV RDI,R15 MOV RSI,RAX CALL 0x00150e30 OR byte ptr [RBX + 0x6c],0x1 ADD RSP,0x20 POP RBX POP R14 POP R15 RET
/* OpenSubdiv::v3_6_0::Bfr::SurfaceFactory::assignRegularSurface(OpenSubdiv::v3_6_0::Bfr::internal::SurfaceData*, OpenSubdiv::v3_6_0::Bfr::FaceSurface const&) const */ void __thiscall OpenSubdiv::v3_6_0::Bfr::SurfaceFactory::assignRegularSurface (SurfaceFactory *this,SurfaceData *param_1,FaceSurface *param_2) { int *piVar1; int4 local_34; RegularPatchBuilder local_30 [12]; SurfaceData local_24; int local_20; SurfaceData local_1c; Parameterization::Parameterization ((Parameterization *)&local_34,*(int4 *)(this + 8),*(int4 *)(this + 0x2c)); *(int4 *)(param_1 + 0x68) = local_34; param_1[0x6c] = (SurfaceData)((byte)param_1[0x6c] & 0xf3 | 4); RegularPatchBuilder::RegularPatchBuilder(local_30,param_2); param_1[0x6d] = local_1c; param_1[0x6e] = local_24; piVar1 = (int *)internal::SurfaceData::resizeCVs(param_1,local_20); RegularPatchBuilder::GatherControlVertexIndices(local_30,piVar1); param_1[0x6c] = (SurfaceData)((byte)param_1[0x6c] | 1); return; }
40,823
ggml_add_or_set
Yangxiaoz[P]GGML-Tutorial/ggml/src/ggml.c
static void ggml_add_or_set( struct ggml_context * ctx, struct ggml_cgraph * cgraph, size_t isrc, struct ggml_tensor * tensor) { struct ggml_tensor * src = cgraph->visited_hash_set.keys[isrc]; GGML_ASSERT(src); if (cgraph->grads[isrc]) { cgraph->grads[isrc] = ggml_add_impl(ctx, cgraph->grads[isrc], tensor, /*inplace =*/ cgraph->grad_accs[isrc]); } else { cgraph->grads[isrc] = tensor; } ggml_format_name(cgraph->grads[isrc], "grad for %s", src->name); ggml_build_forward_expand(cgraph, cgraph->grads[isrc]); }
O0
c
ggml_add_or_set: pushq %rbp movq %rsp, %rbp subq $0x30, %rsp movq %rdi, -0x8(%rbp) movq %rsi, -0x10(%rbp) movq %rdx, -0x18(%rbp) movq %rcx, -0x20(%rbp) movq -0x10(%rbp), %rax movq 0x40(%rax), %rax movq -0x18(%rbp), %rcx movq (%rax,%rcx,8), %rax movq %rax, -0x28(%rbp) cmpq $0x0, -0x28(%rbp) jne 0x5a634 leaq 0x56f9d(%rip), %rdi # 0xb15b7 movl $0x144a, %esi # imm = 0x144A leaq 0x56fe3(%rip), %rdx # 0xb1609 leaq 0x59bcf(%rip), %rcx # 0xb41fc movb $0x0, %al callq 0x48a00 movq -0x10(%rbp), %rax movq 0x18(%rax), %rax movq -0x18(%rbp), %rcx cmpq $0x0, (%rax,%rcx,8) je 0x5a693 movq -0x8(%rbp), %rdi movq -0x10(%rbp), %rax movq 0x18(%rax), %rax movq -0x18(%rbp), %rcx movq (%rax,%rcx,8), %rsi movq -0x20(%rbp), %rdx movq -0x10(%rbp), %rax movq 0x20(%rax), %rax movq -0x18(%rbp), %rcx cmpq $0x0, (%rax,%rcx,8) setne %al movzbl %al, %ecx andl $0x1, %ecx callq 0x4cd50 movq %rax, %rdx movq -0x10(%rbp), %rax movq 0x18(%rax), %rax movq -0x18(%rbp), %rcx movq %rdx, (%rax,%rcx,8) jmp 0x5a6a7 movq -0x20(%rbp), %rdx movq -0x10(%rbp), %rax movq 0x18(%rax), %rax movq -0x18(%rbp), %rcx movq %rdx, (%rax,%rcx,8) movq -0x10(%rbp), %rax movq 0x18(%rax), %rax movq -0x18(%rbp), %rcx movq (%rax,%rcx,8), %rdi movq -0x28(%rbp), %rdx addq $0x100, %rdx # imm = 0x100 leaq 0x59b37(%rip), %rsi # 0xb4200 movb $0x0, %al callq 0x481b0 movq -0x10(%rbp), %rdi movq -0x10(%rbp), %rax movq 0x18(%rax), %rax movq -0x18(%rbp), %rcx movq (%rax,%rcx,8), %rsi callq 0x436a0 addq $0x30, %rsp popq %rbp retq nop
ggml_add_or_set: push rbp mov rbp, rsp sub rsp, 30h mov [rbp+var_8], rdi mov [rbp+var_10], rsi mov [rbp+var_18], rdx mov [rbp+var_20], rcx mov rax, [rbp+var_10] mov rax, [rax+40h] mov rcx, [rbp+var_18] mov rax, [rax+rcx*8] mov [rbp+var_28], rax cmp [rbp+var_28], 0 jnz short loc_5A634 lea rdi, aWorkspaceLlm4b; "/workspace/llm4binary/github/2025_star3"... mov esi, 144Ah lea rdx, aGgmlAssertSFai; "GGML_ASSERT(%s) failed" lea rcx, aSrc; "src" mov al, 0 call _ggml_abort loc_5A634: mov rax, [rbp+var_10] mov rax, [rax+18h] mov rcx, [rbp+var_18] cmp qword ptr [rax+rcx*8], 0 jz short loc_5A693 mov rdi, [rbp+var_8] mov rax, [rbp+var_10] mov rax, [rax+18h] mov rcx, [rbp+var_18] mov rsi, [rax+rcx*8] mov rdx, [rbp+var_20] mov rax, [rbp+var_10] mov rax, [rax+20h] mov rcx, [rbp+var_18] cmp qword ptr [rax+rcx*8], 0 setnz al movzx ecx, al and ecx, 1 call ggml_add_impl mov rdx, rax mov rax, [rbp+var_10] mov rax, [rax+18h] mov rcx, [rbp+var_18] mov [rax+rcx*8], rdx jmp short loc_5A6A7 loc_5A693: mov rdx, [rbp+var_20] mov rax, [rbp+var_10] mov rax, [rax+18h] mov rcx, [rbp+var_18] mov [rax+rcx*8], rdx loc_5A6A7: mov rax, [rbp+var_10] mov rax, [rax+18h] mov rcx, [rbp+var_18] mov rdi, [rax+rcx*8] mov rdx, [rbp+var_28] add rdx, 100h lea rsi, aGradForS; "grad for %s" mov al, 0 call _ggml_format_name mov rdi, [rbp+var_10] mov rax, [rbp+var_10] mov rax, [rax+18h] mov rcx, [rbp+var_18] mov rsi, [rax+rcx*8] call _ggml_build_forward_expand add rsp, 30h pop rbp retn
long long ggml_add_or_set( long long a1, _QWORD *a2, long long a3, _QWORD *a4, long long a5, long long a6, __m128 a7, __m128 a8, __m128 a9, __m128 a10, __m128 a11, __m128 a12, __m128 a13, __m128 a14) { char v15; // [rsp+0h] [rbp-30h] long long v16; // [rsp+8h] [rbp-28h] v16 = *(_QWORD *)(a2[8] + 8 * a3); if ( !v16 ) ggml_abort( "/workspace/llm4binary/github/2025_star3/Yangxiaoz[P]GGML-Tutorial/ggml/src/ggml.c", 5194, (long long)"GGML_ASSERT(%s) failed", "src"); if ( *(_QWORD *)(a2[3] + 8 * a3) ) *(_QWORD *)(a2[3] + 8 * a3) = ggml_add_impl( a1, *(long long **)(a2[3] + 8 * a3), a4, *(_QWORD *)(a2[4] + 8 * a3) != 0LL, a7, a8, a9, a10, *(double *)a11.m128_u64, *(double *)a12.m128_u64, a13, a14); else *(_QWORD *)(a2[3] + 8 * a3) = a4; ggml_format_name( *(_QWORD *)(a2[3] + 8 * a3), (long long)"grad for %s", v16 + 256, a3, a5, a6, a7, a8, a9, a10, a11, a12, a13, a14, v15); return ggml_build_forward_expand((long long)a2, *(_QWORD *)(a2[3] + 8 * a3)); }
ggml_add_or_set: PUSH RBP MOV RBP,RSP SUB RSP,0x30 MOV qword ptr [RBP + -0x8],RDI MOV qword ptr [RBP + -0x10],RSI MOV qword ptr [RBP + -0x18],RDX MOV qword ptr [RBP + -0x20],RCX MOV RAX,qword ptr [RBP + -0x10] MOV RAX,qword ptr [RAX + 0x40] MOV RCX,qword ptr [RBP + -0x18] MOV RAX,qword ptr [RAX + RCX*0x8] MOV qword ptr [RBP + -0x28],RAX CMP qword ptr [RBP + -0x28],0x0 JNZ 0x0015a634 LEA RDI,[0x1b15b7] MOV ESI,0x144a LEA RDX,[0x1b1609] LEA RCX,[0x1b41fc] MOV AL,0x0 CALL 0x00148a00 LAB_0015a634: MOV RAX,qword ptr [RBP + -0x10] MOV RAX,qword ptr [RAX + 0x18] MOV RCX,qword ptr [RBP + -0x18] CMP qword ptr [RAX + RCX*0x8],0x0 JZ 0x0015a693 MOV RDI,qword ptr [RBP + -0x8] MOV RAX,qword ptr [RBP + -0x10] MOV RAX,qword ptr [RAX + 0x18] MOV RCX,qword ptr [RBP + -0x18] MOV RSI,qword ptr [RAX + RCX*0x8] MOV RDX,qword ptr [RBP + -0x20] MOV RAX,qword ptr [RBP + -0x10] MOV RAX,qword ptr [RAX + 0x20] MOV RCX,qword ptr [RBP + -0x18] CMP qword ptr [RAX + RCX*0x8],0x0 SETNZ AL MOVZX ECX,AL AND ECX,0x1 CALL 0x0014cd50 MOV RDX,RAX MOV RAX,qword ptr [RBP + -0x10] MOV RAX,qword ptr [RAX + 0x18] MOV RCX,qword ptr [RBP + -0x18] MOV qword ptr [RAX + RCX*0x8],RDX JMP 0x0015a6a7 LAB_0015a693: MOV RDX,qword ptr [RBP + -0x20] MOV RAX,qword ptr [RBP + -0x10] MOV RAX,qword ptr [RAX + 0x18] MOV RCX,qword ptr [RBP + -0x18] MOV qword ptr [RAX + RCX*0x8],RDX LAB_0015a6a7: MOV RAX,qword ptr [RBP + -0x10] MOV RAX,qword ptr [RAX + 0x18] MOV RCX,qword ptr [RBP + -0x18] MOV RDI,qword ptr [RAX + RCX*0x8] MOV RDX,qword ptr [RBP + -0x28] ADD RDX,0x100 LEA RSI,[0x1b4200] MOV AL,0x0 CALL 0x001481b0 MOV RDI,qword ptr [RBP + -0x10] MOV RAX,qword ptr [RBP + -0x10] MOV RAX,qword ptr [RAX + 0x18] MOV RCX,qword ptr [RBP + -0x18] MOV RSI,qword ptr [RAX + RCX*0x8] CALL 0x001436a0 ADD RSP,0x30 POP RBP RET
void ggml_add_or_set(int8 param_1,long param_2,long param_3,int8 param_4) { long lVar1; int8 uVar2; lVar1 = *(long *)(*(long *)(param_2 + 0x40) + param_3 * 8); if (lVar1 == 0) { ggml_abort("/workspace/llm4binary/github/2025_star3/Yangxiaoz[P]GGML-Tutorial/ggml/src/ggml.c", 0x144a,"GGML_ASSERT(%s) failed",&DAT_001b41fc); } if (*(long *)(*(long *)(param_2 + 0x18) + param_3 * 8) == 0) { *(int8 *)(*(long *)(param_2 + 0x18) + param_3 * 8) = param_4; } else { uVar2 = ggml_add_impl(param_1,*(int8 *)(*(long *)(param_2 + 0x18) + param_3 * 8),param_4, *(long *)(*(long *)(param_2 + 0x20) + param_3 * 8) != 0); *(int8 *)(*(long *)(param_2 + 0x18) + param_3 * 8) = uVar2; } ggml_format_name(*(int8 *)(*(long *)(param_2 + 0x18) + param_3 * 8),"grad for %s", lVar1 + 0x100); ggml_build_forward_expand(param_2,*(int8 *)(*(long *)(param_2 + 0x18) + param_3 * 8)); return; }
40,824
ggml_add_or_set
Yangxiaoz[P]GGML-Tutorial/ggml/src/ggml.c
static void ggml_add_or_set( struct ggml_context * ctx, struct ggml_cgraph * cgraph, size_t isrc, struct ggml_tensor * tensor) { struct ggml_tensor * src = cgraph->visited_hash_set.keys[isrc]; GGML_ASSERT(src); if (cgraph->grads[isrc]) { cgraph->grads[isrc] = ggml_add_impl(ctx, cgraph->grads[isrc], tensor, /*inplace =*/ cgraph->grad_accs[isrc]); } else { cgraph->grads[isrc] = tensor; } ggml_format_name(cgraph->grads[isrc], "grad for %s", src->name); ggml_build_forward_expand(cgraph, cgraph->grads[isrc]); }
O2
c
ggml_add_or_set: pushq %r15 pushq %r14 pushq %rbx movq 0x40(%rsi), %rax movq (%rax,%rdx,8), %r15 testq %r15, %r15 je 0x29833 movq %rdx, %r14 movq %rsi, %rbx movq 0x18(%rsi), %rax movq (%rax,%rdx,8), %rsi testq %rsi, %rsi je 0x297fa movq 0x20(%rbx), %rdx xorl %eax, %eax cmpq $0x0, (%rdx,%r14,8) setne %al movq %rcx, %rdx movl %eax, %ecx callq 0x2188e movq 0x18(%rbx), %rcx movq %rax, (%rcx,%r14,8) jmp 0x297fe movq %rcx, (%rax,%r14,8) movq 0x18(%rbx), %rax movq (%rax,%r14,8), %rdi addq $0x100, %r15 # imm = 0x100 leaq 0x27666(%rip), %rsi # 0x50e7a movq %r15, %rdx xorl %eax, %eax callq 0x1f650 movq 0x18(%rbx), %rax movq (%rax,%r14,8), %rsi movq %rbx, %rdi popq %rbx popq %r14 popq %r15 jmp 0x1d920 leaq 0x24d49(%rip), %rdi # 0x4e583 leaq 0x24d94(%rip), %rdx # 0x4e5d5 leaq 0x2762e(%rip), %rcx # 0x50e76 movl $0x144a, %esi # imm = 0x144A xorl %eax, %eax callq 0x1f9b0
ggml_add_or_set: push r15 push r14 push rbx mov rax, [rsi+40h] mov r15, [rax+rdx*8] test r15, r15 jz short loc_29833 mov r14, rdx mov rbx, rsi mov rax, [rsi+18h] mov rsi, [rax+rdx*8] test rsi, rsi jz short loc_297FA mov rdx, [rbx+20h] xor eax, eax cmp qword ptr [rdx+r14*8], 0 setnz al mov rdx, rcx mov ecx, eax call ggml_add_impl mov rcx, [rbx+18h] mov [rcx+r14*8], rax jmp short loc_297FE loc_297FA: mov [rax+r14*8], rcx loc_297FE: mov rax, [rbx+18h] mov rdi, [rax+r14*8] add r15, 100h lea rsi, aGradForS; "grad for %s" mov rdx, r15 xor eax, eax call _ggml_format_name mov rax, [rbx+18h] mov rsi, [rax+r14*8] mov rdi, rbx pop rbx pop r14 pop r15 jmp _ggml_build_forward_expand loc_29833: lea rdi, aWorkspaceLlm4b; "/workspace/llm4binary/github/2025_star3"... lea rdx, aGgmlAssertSFai; "GGML_ASSERT(%s) failed" lea rcx, aSrc; "src" mov esi, 144Ah xor eax, eax call _ggml_abort
long long ggml_add_or_set( long long a1, _QWORD *a2, long long a3, _QWORD *a4, long long a5, long long a6, __m128 a7, __m128 a8, __m128 a9, __m128 a10, __m128 a11, __m128 a12, __m128 a13, __m128 a14) { long long v16; // rax long long *v17; // rsi double v18; // xmm4_8 double v19; // xmm5_8 char v21; // [rsp+0h] [rbp-18h] if ( !*(_QWORD *)(a2[8] + 8 * a3) ) ggml_abort( "/workspace/llm4binary/github/2025_star3/Yangxiaoz[P]GGML-Tutorial/ggml/src/ggml.c", 5194, (long long)"GGML_ASSERT(%s) failed", (long long)"src", a5, a6, a7, a8, a9, a10, a11, a12, a13, a14, v21); v16 = a2[3]; v17 = *(long long **)(v16 + 8 * a3); if ( v17 ) *(_QWORD *)(a2[3] + 8 * a3) = ggml_add_impl( a1, v17, a4, *(_QWORD *)(a2[4] + 8 * a3) != 0LL, a7, a8, a9, a10, *(double *)a11.m128_u64, *(double *)a12.m128_u64, a13, a14); else *(_QWORD *)(v16 + 8 * a3) = a4; ggml_format_name(*(_QWORD *)(a2[3] + 8 * a3), (long long)"grad for %s"); return ggml_build_forward_expand((long long)a2, *(_QWORD *)(a2[3] + 8 * a3), a7, a8, a9, a10, v18, v19, a13, a14); }
ggml_add_or_set: PUSH R15 PUSH R14 PUSH RBX MOV RAX,qword ptr [RSI + 0x40] MOV R15,qword ptr [RAX + RDX*0x8] TEST R15,R15 JZ 0x00129833 MOV R14,RDX MOV RBX,RSI MOV RAX,qword ptr [RSI + 0x18] MOV RSI,qword ptr [RAX + RDX*0x8] TEST RSI,RSI JZ 0x001297fa MOV RDX,qword ptr [RBX + 0x20] XOR EAX,EAX CMP qword ptr [RDX + R14*0x8],0x0 SETNZ AL MOV RDX,RCX MOV ECX,EAX CALL 0x0012188e MOV RCX,qword ptr [RBX + 0x18] MOV qword ptr [RCX + R14*0x8],RAX JMP 0x001297fe LAB_001297fa: MOV qword ptr [RAX + R14*0x8],RCX LAB_001297fe: MOV RAX,qword ptr [RBX + 0x18] MOV RDI,qword ptr [RAX + R14*0x8] ADD R15,0x100 LEA RSI,[0x150e7a] MOV RDX,R15 XOR EAX,EAX CALL 0x0011f650 MOV RAX,qword ptr [RBX + 0x18] MOV RSI,qword ptr [RAX + R14*0x8] MOV RDI,RBX POP RBX POP R14 POP R15 JMP 0x0011d920 LAB_00129833: LEA RDI,[0x14e583] LEA RDX,[0x14e5d5] LEA RCX,[0x150e76] MOV ESI,0x144a XOR EAX,EAX CALL 0x0011f9b0
void ggml_add_or_set(int8 param_1,long param_2,long param_3,int8 param_4) { long lVar1; long lVar2; int8 uVar3; lVar1 = *(long *)(*(long *)(param_2 + 0x40) + param_3 * 8); if (lVar1 != 0) { lVar2 = *(long *)(*(long *)(param_2 + 0x18) + param_3 * 8); if (lVar2 == 0) { *(int8 *)(*(long *)(param_2 + 0x18) + param_3 * 8) = param_4; } else { uVar3 = ggml_add_impl(param_1,lVar2,param_4, *(long *)(*(long *)(param_2 + 0x20) + param_3 * 8) != 0); *(int8 *)(*(long *)(param_2 + 0x18) + param_3 * 8) = uVar3; } ggml_format_name(*(int8 *)(*(long *)(param_2 + 0x18) + param_3 * 8),"grad for %s", lVar1 + 0x100); ggml_build_forward_expand(param_2,*(int8 *)(*(long *)(param_2 + 0x18) + param_3 * 8)); return; } /* WARNING: Subroutine does not return */ ggml_abort("/workspace/llm4binary/github/2025_star3/Yangxiaoz[P]GGML-Tutorial/ggml/src/ggml.c", 0x144a,"GGML_ASSERT(%s) failed",&DAT_00150e76); }
40,825
ggml_add_or_set
Yangxiaoz[P]GGML-Tutorial/ggml/src/ggml.c
static void ggml_add_or_set( struct ggml_context * ctx, struct ggml_cgraph * cgraph, size_t isrc, struct ggml_tensor * tensor) { struct ggml_tensor * src = cgraph->visited_hash_set.keys[isrc]; GGML_ASSERT(src); if (cgraph->grads[isrc]) { cgraph->grads[isrc] = ggml_add_impl(ctx, cgraph->grads[isrc], tensor, /*inplace =*/ cgraph->grad_accs[isrc]); } else { cgraph->grads[isrc] = tensor; } ggml_format_name(cgraph->grads[isrc], "grad for %s", src->name); ggml_build_forward_expand(cgraph, cgraph->grads[isrc]); }
O3
c
ggml_add_or_set: pushq %r15 pushq %r14 pushq %rbx movq 0x40(%rsi), %rax movq (%rax,%rdx,8), %r15 testq %r15, %r15 je 0x23afe movq %rdx, %r14 movq %rsi, %rbx movq 0x18(%rsi), %rax movq (%rax,%rdx,8), %rsi testq %rsi, %rsi je 0x23ac5 movq 0x20(%rbx), %rdx xorl %eax, %eax cmpq $0x0, (%rdx,%r14,8) setne %al movq %rcx, %rdx movl %eax, %ecx callq 0x1ac67 movq 0x18(%rbx), %rcx movq %rax, (%rcx,%r14,8) jmp 0x23ac9 movq %rcx, (%rax,%r14,8) movq 0x18(%rbx), %rax movq (%rax,%r14,8), %rdi addq $0x100, %r15 # imm = 0x100 leaq 0x2b42b(%rip), %rsi # 0x4ef0a movq %r15, %rdx xorl %eax, %eax callq 0x17a60 movq 0x18(%rbx), %rax movq (%rax,%r14,8), %rsi movq %rbx, %rdi popq %rbx popq %r14 popq %r15 jmp 0x16640 leaq 0x28b0e(%rip), %rdi # 0x4c613 leaq 0x28b59(%rip), %rdx # 0x4c665 leaq 0x2b3f3(%rip), %rcx # 0x4ef06 movl $0x144a, %esi # imm = 0x144A xorl %eax, %eax callq 0x17cd0
ggml_add_or_set: push r15 push r14 push rbx mov rax, [rsi+40h] mov r15, [rax+rdx*8] test r15, r15 jz short loc_23AFE mov r14, rdx mov rbx, rsi mov rax, [rsi+18h] mov rsi, [rax+rdx*8] test rsi, rsi jz short loc_23AC5 mov rdx, [rbx+20h] xor eax, eax cmp qword ptr [rdx+r14*8], 0 setnz al mov rdx, rcx mov ecx, eax call ggml_add_impl mov rcx, [rbx+18h] mov [rcx+r14*8], rax jmp short loc_23AC9 loc_23AC5: mov [rax+r14*8], rcx loc_23AC9: mov rax, [rbx+18h] mov rdi, [rax+r14*8] add r15, 100h lea rsi, aGradForS; "grad for %s" mov rdx, r15 xor eax, eax call _ggml_format_name mov rax, [rbx+18h] mov rsi, [rax+r14*8] mov rdi, rbx pop rbx pop r14 pop r15 jmp _ggml_build_forward_expand loc_23AFE: lea rdi, aWorkspaceLlm4b; "/workspace/llm4binary/github/2025_star3"... lea rdx, aGgmlAssertSFai; "GGML_ASSERT(%s) failed" lea rcx, aSrc; "src" mov esi, 144Ah xor eax, eax call _ggml_abort
long long ggml_add_or_set(long long a1, _QWORD *a2, long long a3, _QWORD *a4, int a5, int a6, double a7) { long long v9; // rax long long *v10; // rsi if ( !*(_QWORD *)(a2[8] + 8 * a3) ) ggml_abort( (unsigned int)"/workspace/llm4binary/github/2025_star3/Yangxiaoz[P]GGML-Tutorial/ggml/src/ggml.c", 5194, (unsigned int)"GGML_ASSERT(%s) failed", (unsigned int)"src", a5, a6); v9 = a2[3]; v10 = *(long long **)(v9 + 8 * a3); if ( v10 ) *(_QWORD *)(a2[3] + 8 * a3) = ggml_add_impl(a1, v10, a4, *(_QWORD *)(a2[4] + 8 * a3) != 0LL, a7); else *(_QWORD *)(v9 + 8 * a3) = a4; ggml_format_name(*(_QWORD *)(a2[3] + 8 * a3), (long long)"grad for %s"); return ggml_build_forward_expand((long long)a2, *(_QWORD *)(a2[3] + 8 * a3)); }
ggml_add_or_set: PUSH R15 PUSH R14 PUSH RBX MOV RAX,qword ptr [RSI + 0x40] MOV R15,qword ptr [RAX + RDX*0x8] TEST R15,R15 JZ 0x00123afe MOV R14,RDX MOV RBX,RSI MOV RAX,qword ptr [RSI + 0x18] MOV RSI,qword ptr [RAX + RDX*0x8] TEST RSI,RSI JZ 0x00123ac5 MOV RDX,qword ptr [RBX + 0x20] XOR EAX,EAX CMP qword ptr [RDX + R14*0x8],0x0 SETNZ AL MOV RDX,RCX MOV ECX,EAX CALL 0x0011ac67 MOV RCX,qword ptr [RBX + 0x18] MOV qword ptr [RCX + R14*0x8],RAX JMP 0x00123ac9 LAB_00123ac5: MOV qword ptr [RAX + R14*0x8],RCX LAB_00123ac9: MOV RAX,qword ptr [RBX + 0x18] MOV RDI,qword ptr [RAX + R14*0x8] ADD R15,0x100 LEA RSI,[0x14ef0a] MOV RDX,R15 XOR EAX,EAX CALL 0x00117a60 MOV RAX,qword ptr [RBX + 0x18] MOV RSI,qword ptr [RAX + R14*0x8] MOV RDI,RBX POP RBX POP R14 POP R15 JMP 0x00116640 LAB_00123afe: LEA RDI,[0x14c613] LEA RDX,[0x14c665] LEA RCX,[0x14ef06] MOV ESI,0x144a XOR EAX,EAX CALL 0x00117cd0
void ggml_add_or_set(int8 param_1,long param_2,long param_3,int8 param_4) { long lVar1; long lVar2; int8 uVar3; lVar1 = *(long *)(*(long *)(param_2 + 0x40) + param_3 * 8); if (lVar1 != 0) { lVar2 = *(long *)(*(long *)(param_2 + 0x18) + param_3 * 8); if (lVar2 == 0) { *(int8 *)(*(long *)(param_2 + 0x18) + param_3 * 8) = param_4; } else { uVar3 = ggml_add_impl(param_1,lVar2,param_4, *(long *)(*(long *)(param_2 + 0x20) + param_3 * 8) != 0); *(int8 *)(*(long *)(param_2 + 0x18) + param_3 * 8) = uVar3; } ggml_format_name(*(int8 *)(*(long *)(param_2 + 0x18) + param_3 * 8),"grad for %s", lVar1 + 0x100); ggml_build_forward_expand(param_2,*(int8 *)(*(long *)(param_2 + 0x18) + param_3 * 8)); return; } /* WARNING: Subroutine does not return */ ggml_abort("/workspace/llm4binary/github/2025_star3/Yangxiaoz[P]GGML-Tutorial/ggml/src/ggml.c", 0x144a,"GGML_ASSERT(%s) failed",&DAT_0014ef06); }
40,826
google::protobuf::compiler::java::ImmutableServiceGenerator::GenerateStub(google::protobuf::io::Printer*)
aimrt_mujoco_sim/_deps/protobuf-src/src/google/protobuf/compiler/java/service.cc
void ImmutableServiceGenerator::GenerateStub(io::Printer* printer) { printer->Print( "public static Stub newStub(\n" " com.google.protobuf.RpcChannel channel) {\n" " return new Stub(channel);\n" "}\n" "\n" "public static final class Stub extends $classname$ implements Interface " "{" "\n", "classname", name_resolver_->GetImmutableClassName(descriptor_)); printer->Indent(); printer->Print( "private Stub(com.google.protobuf.RpcChannel channel) {\n" " this.channel = channel;\n" "}\n" "\n" "private final com.google.protobuf.RpcChannel channel;\n" "\n" "public com.google.protobuf.RpcChannel getChannel() {\n" " return channel;\n" "}\n"); for (int i = 0; i < descriptor_->method_count(); i++) { const MethodDescriptor* method = descriptor_->method(i); printer->Print("\n"); GenerateMethodSignature(printer, method, IS_CONCRETE); printer->Print(" {\n"); printer->Indent(); std::map<std::string, std::string> vars; vars["index"] = StrCat(i); vars["output"] = GetOutput(method); printer->Print(vars, "channel.callMethod(\n" " getDescriptor().getMethods().get($index$),\n" " controller,\n" " request,\n" " $output$.getDefaultInstance(),\n" " com.google.protobuf.RpcUtil.generalizeCallback(\n" " done,\n" " $output$.class,\n" " $output$.getDefaultInstance()));\n"); printer->Outdent(); printer->Print("}\n"); } printer->Outdent(); printer->Print( "}\n" "\n"); }
O3
cpp
google::protobuf::compiler::java::ImmutableServiceGenerator::GenerateStub(google::protobuf::io::Printer*): pushq %rbp pushq %r15 pushq %r14 pushq %r13 pushq %r12 pushq %rbx subq $0xb8, %rsp movq %rsi, %rbx movq %rdi, %r14 movq 0x8(%rdi), %rdx movq 0x18(%rdi), %rsi leaq 0x38(%rsp), %r15 movq %r15, %rdi movl $0x1, %ecx callq 0x47d80 leaq 0x10cbb7(%rip), %rsi # 0x1c40c7 leaq 0xeef87(%rip), %rdx # 0x1a649e movq %rbx, 0x20(%rsp) movq %rbx, %rdi movq %r15, %rcx callq 0x2e458 leaq 0x48(%rsp), %rax movq -0x10(%rax), %rdi cmpq %rax, %rdi je 0xb753a callq 0x1f4a0 movq 0x20(%rsp), %r15 movq %r15, %rdi callq 0x16d126 leaq 0x10cc2d(%rip), %rsi # 0x1c417b movq %r15, %rdi callq 0x2e40a movq 0x8(%r14), %rax cmpl $0x0, 0x28(%rax) jle 0xb775f leaq 0x78(%rsp), %rbp movq %rsp, %r13 xorl %edx, %edx xorl %r12d, %r12d movq %r14, 0x28(%rsp) movq 0x20(%rax), %rbx movq %rdx, 0x30(%rsp) addq %rdx, %rbx movq %r15, %rdi leaq 0xfbdf1(%rip), %rsi # 0x1b337d callq 0x2e40a movq %r14, %rdi movq %r15, %rsi movq %rbx, %rdx movl $0x1, %ecx callq 0xb7b8c movq %r15, %rdi leaq 0xe89e1(%rip), %rsi # 0x19ff8f callq 0x2e40a movq %r15, %rdi callq 0x16d126 movl $0x0, 0x40(%rsp) xorl %ecx, %ecx movq %rcx, 0x48(%rsp) leaq 0x40(%rsp), %rax movq %rax, 0x50(%rsp) movq %rax, 0x58(%rsp) movq %rcx, 0x60(%rsp) movq %rbp, 0x68(%rsp) movl %r12d, %edi movq %rbp, %rsi callq 0x10a7e0 subq %rbp, %rax movq %rax, 0x70(%rsp) movq 0x68(%rsp), %rsi leaq 0x10(%rsp), %rcx movq %rcx, (%rsp) addq %rsi, %rax movq %r13, %rdi movq %rax, %rdx callq 0x250b2 movq %rbp, %r14 leaq 0xa8(%rsp), %r15 movq %r15, 0x98(%rsp) leaq 0x98(%rsp), %rbp movq %rbp, %rdi leaq 0xf6e0c(%rip), %rsi # 0x1ae443 leaq 0xf6e0a(%rip), %rdx # 0x1ae448 callq 0x250b2 leaq 0x38(%rsp), %rdi movq %rbp, %rsi callq 0x2e310 movq %rax, %rdi movq %r13, %rsi callq 0x1f5d0 movq 0x98(%rsp), %rdi cmpq %r15, %rdi je 0xb766d callq 0x1f4a0 movq (%rsp), %rdi leaq 0x10(%rsp), %rax cmpq %rax, %rdi je 0xb7680 callq 0x1f4a0 movq 0x28(%rsp), %rax movq 0x18(%rax), %rbp movq %rbx, %rdi callq 0x11ff90 leaq 0x68(%rsp), %rdi movq %rbp, %rsi movq %rax, %rdx movl $0x1, %ecx callq 0x47ac2 leaq 0x10(%rsp), %rax movq %rax, (%rsp) movq %r13, %rdi leaq 0xe363f(%rip), %rsi # 0x19acf8 leaq 0xe363e(%rip), %rdx # 0x19acfe movq %r14, %rbp callq 0x250b2 movq 0x20(%rsp), %r15 leaq 0x38(%rsp), %rbx movq %rbx, %rdi movq %r13, %rsi callq 0x2e310 movq %rax, %rdi leaq 0x68(%rsp), %rsi callq 0x1f5d0 movq (%rsp), %rdi leaq 0x10(%rsp), %rax cmpq %rax, %rdi je 0xb76fd callq 0x1f4a0 movq 0x68(%rsp), %rdi cmpq %rbp, %rdi je 0xb770c callq 0x1f4a0 movq %r15, %rdi movq %rbx, %rsi leaq 0x10cb37(%rip), %rdx # 0x1c4250 callq 0x16cd32 movq %r15, %rdi callq 0x16d136 movq %r15, %rdi leaq 0x12a9e7(%rip), %rsi # 0x1e2117 callq 0x2e40a movq %rbx, %rdi callq 0x2e5e0 incq %r12 movq 0x28(%rsp), %r14 movq 0x8(%r14), %rax movslq 0x28(%rax), %rcx movq 0x30(%rsp), %rdx addq $0x40, %rdx cmpq %rcx, %r12 jl 0xb7576 movq %r15, %rdi callq 0x16d136 leaq 0x108d15(%rip), %rsi # 0x1c0483 movq %r15, %rdi callq 0x2e40a addq $0xb8, %rsp popq %rbx popq %r12 popq %r13 popq %r14 popq %r15 popq %rbp retq movq %rax, %rbx leaq 0x48(%rsp), %rax movq -0x10(%rax), %rdi cmpq %rax, %rdi je 0xb7807 callq 0x1f4a0 jmp 0xb7807 movq %rax, %rbx jmp 0xb77ba movq %rax, %rbx movq 0x98(%rsp), %rdi cmpq %r15, %rdi je 0xb77ba callq 0x1f4a0 movq (%rsp), %rdi leaq 0x10(%rsp), %rax cmpq %rax, %rdi jne 0xb77ef jmp 0xb77fd movq %rax, %rbx jmp 0xb77e5 movq %rax, %rbx movq (%rsp), %rdi leaq 0x10(%rsp), %rax cmpq %rax, %rdi je 0xb77e5 callq 0x1f4a0 movq 0x68(%rsp), %rdi cmpq %r14, %rdi je 0xb77fd callq 0x1f4a0 jmp 0xb77fd jmp 0xb77fa jmp 0xb77fa movq %rax, %rbx leaq 0x38(%rsp), %rdi callq 0x2e5e0 movq %rbx, %rdi callq 0x1f860 nop
_ZN6google8protobuf8compiler4java25ImmutableServiceGenerator12GenerateStubEPNS0_2io7PrinterE: push rbp push r15 push r14 push r13 push r12 push rbx sub rsp, 0B8h mov rbx, rsi mov r14, rdi mov rdx, [rdi+8] mov rsi, [rdi+18h] lea r15, [rsp+0E8h+var_B0] mov rdi, r15 mov ecx, 1 call _ZN6google8protobuf8compiler4java17ClassNameResolver12GetClassNameB5cxx11EPKNS0_17ServiceDescriptorEb; google::protobuf::compiler::java::ClassNameResolver::GetClassName(google::protobuf::ServiceDescriptor const*,bool) lea rsi, aPublicStaticSt; "public static Stub newStub(\n com.go"... lea rdx, aMetadataClassn+9; "classname" mov [rsp+0E8h+var_C8], rbx; int mov rdi, rbx mov rcx, r15 call _ZN6google8protobuf2io7Printer5PrintIJA10_cNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEEEEvPKcDpRKT_; google::protobuf::io::Printer::Print<char [10],std::string>(char const*,char [10],std::string const&) lea rax, [rsp+0E8h+var_A0] mov rdi, [rax-10h]; void * cmp rdi, rax jz short loc_B753A call __ZdlPv; operator delete(void *) loc_B753A: mov r15, [rsp+0E8h+var_C8] mov rdi, r15; this call _ZN6google8protobuf2io7Printer6IndentEv; google::protobuf::io::Printer::Indent(void) lea rsi, aPrivateStubCom; "private Stub(com.google.protobuf.RpcCha"... mov rdi, r15 call _ZN6google8protobuf2io7Printer5PrintIJEEEvPKcDpRKT_ mov rax, [r14+8] cmp dword ptr [rax+28h], 0 jle loc_B775F lea rbp, [rsp+0E8h+var_70] mov r13, rsp xor edx, edx xor r12d, r12d mov qword ptr [rsp+0E8h+var_C0], r14; int loc_B7576: mov rbx, [rax+20h] mov qword ptr [rsp+0E8h+var_B8], rdx; int add rbx, rdx mov rdi, r15 lea rsi, aConstProtoNsMe_0+0E5h; "\n" call _ZN6google8protobuf2io7Printer5PrintIJEEEvPKcDpRKT_ mov rdi, r14 mov rsi, r15 mov rdx, rbx mov ecx, 1 call _ZN6google8protobuf8compiler4java25ImmutableServiceGenerator23GenerateMethodSignatureEPNS0_2io7PrinterEPKNS0_16MethodDescriptorENS2_16ServiceGenerator10IsAbstractE; google::protobuf::compiler::java::ImmutableServiceGenerator::GenerateMethodSignature(google::protobuf::io::Printer *,google::protobuf::MethodDescriptor const*,google::protobuf::compiler::java::ServiceGenerator::IsAbstract) mov rdi, r15 lea rsi, aNamespaceNames+15h; " {\n" call _ZN6google8protobuf2io7Printer5PrintIJEEEvPKcDpRKT_ mov rdi, r15; this call _ZN6google8protobuf2io7Printer6IndentEv; google::protobuf::io::Printer::Indent(void) mov dword ptr [rsp+0E8h+var_A8], 0; int xor ecx, ecx mov [rsp+0E8h+var_A0], rcx; void * lea rax, [rsp+0E8h+var_A8] mov qword ptr [rsp+0E8h+var_98], rax; int mov qword ptr [rsp+0E8h+var_90], rax; char mov [rsp+0E8h+var_88], rcx mov [rsp+0E8h+var_80], rbp mov edi, r12d; this mov rsi, rbp; int call _ZN6google8protobuf21FastInt32ToBufferLeftEiPc; google::protobuf::FastInt32ToBufferLeft(int,char *) sub rax, rbp mov [rsp+0E8h+var_78], rax mov rsi, [rsp+0E8h+var_80] lea rcx, [rsp+0E8h+var_D8] mov [rsp+0E8h+var_E8], rcx add rax, rsi mov rdi, r13 mov rdx, rax call _ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE12_M_constructIPKcEEvT_S8_St20forward_iterator_tag; std::string::_M_construct<char const*>(char const*,char const*,std::forward_iterator_tag) mov r14, rbp lea r15, [rsp+0E8h+var_40] mov [rsp+0E8h+var_50], r15 lea rbp, [rsp+0E8h+var_50] mov rdi, rbp lea rsi, aOneofIndex+6; "index" lea rdx, aOneofIndex+0Bh; "" call _ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE12_M_constructIPKcEEvT_S8_St20forward_iterator_tag; std::string::_M_construct<char const*>(char const*,char const*,std::forward_iterator_tag) lea rdi, [rsp+0E8h+var_B0] mov rsi, rbp call _ZNSt3mapINSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEES5_St4lessIS5_ESaISt4pairIKS5_S5_EEEixEOS5_; std::map<std::string,std::string>::operator[](std::string&&) mov rdi, rax mov rsi, r13 call __ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEaSEOS4_; std::string::operator=(std::string&&) mov rdi, [rsp+0E8h+var_50]; void * cmp rdi, r15 jz short loc_B766D call __ZdlPv; operator delete(void *) loc_B766D: mov rdi, [rsp+0E8h+var_E8]; void * lea rax, [rsp+0E8h+var_D8] cmp rdi, rax jz short loc_B7680 call __ZdlPv; operator delete(void *) loc_B7680: mov rax, qword ptr [rsp+0E8h+var_C0] mov rbp, [rax+18h] mov rdi, rbx; this call _ZNK6google8protobuf16MethodDescriptor11output_typeEv; google::protobuf::MethodDescriptor::output_type(void) lea rdi, [rsp+0E8h+var_80] mov rsi, rbp mov rdx, rax mov ecx, 1 call _ZN6google8protobuf8compiler4java17ClassNameResolver12GetClassNameB5cxx11EPKNS0_10DescriptorEb; google::protobuf::compiler::java::ClassNameResolver::GetClassName(google::protobuf::Descriptor const*,bool) lea rax, [rsp+0E8h+var_D8] mov [rsp+0E8h+var_E8], rax; void * mov rdi, r13 lea rsi, aDeterministicO+10h; "output" lea rdx, aDeterministicO+16h; "" mov rbp, r14 call _ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE12_M_constructIPKcEEvT_S8_St20forward_iterator_tag; std::string::_M_construct<char const*>(char const*,char const*,std::forward_iterator_tag) mov r15, [rsp+0E8h+var_C8] lea rbx, [rsp+0E8h+var_B0] mov rdi, rbx mov rsi, r13 call _ZNSt3mapINSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEES5_St4lessIS5_ESaISt4pairIKS5_S5_EEEixEOS5_; std::map<std::string,std::string>::operator[](std::string&&) mov rdi, rax lea rsi, [rsp+0E8h+var_80] call __ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEaSEOS4_; std::string::operator=(std::string&&) mov rdi, [rsp+0E8h+var_E8]; void * lea rax, [rsp+0E8h+var_D8] cmp rdi, rax jz short loc_B76FD call __ZdlPv; operator delete(void *) loc_B76FD: mov rdi, [rsp+0E8h+var_80]; void * cmp rdi, rbp jz short loc_B770C call __ZdlPv; operator delete(void *) loc_B770C: mov rdi, r15; this mov rsi, rbx lea rdx, aChannelCallmet; "channel.callMethod(\n getDescriptor()."... call _ZN6google8protobuf2io7Printer5PrintERKSt3mapINSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEES9_St4lessIS9_ESaISt4pairIKS9_S9_EEEPKc; google::protobuf::io::Printer::Print(std::map<std::string,std::string> const&,char const*) mov rdi, r15; this call _ZN6google8protobuf2io7Printer7OutdentEv; google::protobuf::io::Printer::Outdent(void) mov rdi, r15 lea rsi, aIfOtherHasCapi_1+6Dh; "}\n" call _ZN6google8protobuf2io7Printer5PrintIJEEEvPKcDpRKT_ mov rdi, rbx call _ZNSt8_Rb_treeINSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEESt4pairIKS5_S5_ESt10_Select1stIS8_ESt4lessIS5_ESaIS8_EED2Ev; std::_Rb_tree<std::string,std::pair<std::string const,std::string>,std::_Select1st<std::pair<std::string const,std::string>>,std::less<std::string>,std::allocator<std::pair<std::string const,std::string>>>::~_Rb_tree() inc r12 mov r14, qword ptr [rsp+0E8h+var_C0] mov rax, [r14+8] movsxd rcx, dword ptr [rax+28h] mov rdx, qword ptr [rsp+0E8h+var_B8] add rdx, 40h ; '@' cmp r12, rcx jl loc_B7576 loc_B775F: mov rdi, r15; this call _ZN6google8protobuf2io7Printer7OutdentEv; google::protobuf::io::Printer::Outdent(void) lea rsi, aConstructUsing+55h; "}\n\n" mov rdi, r15 call _ZN6google8protobuf2io7Printer5PrintIJEEEvPKcDpRKT_ add rsp, 0B8h pop rbx pop r12 pop r13 pop r14 pop r15 pop rbp retn mov rbx, rax lea rax, [rsp+arg_40] mov rdi, [rax-10h]; void * cmp rdi, rax jz short loc_B7807 call __ZdlPv; operator delete(void *) jmp short loc_B7807 mov rbx, rax jmp short loc_B77BA mov rbx, rax mov rdi, [rsp+arg_90]; void * cmp rdi, r15 jz short loc_B77BA call __ZdlPv; operator delete(void *) loc_B77BA: mov rdi, [rsp+0] lea rax, [rsp+arg_8] cmp rdi, rax jnz short loc_B77EF jmp short loc_B77FD mov rbx, rax jmp short loc_B77E5 mov rbx, rax mov rdi, [rsp+0]; void * lea rax, [rsp+arg_8] cmp rdi, rax jz short loc_B77E5 call __ZdlPv; operator delete(void *) loc_B77E5: mov rdi, [rsp+arg_60]; void * cmp rdi, r14 jz short loc_B77FD loc_B77EF: call __ZdlPv; operator delete(void *) jmp short loc_B77FD jmp short loc_B77FA jmp short $+2 loc_B77FA: mov rbx, rax loc_B77FD: lea rdi, [rsp+arg_30] call _ZNSt8_Rb_treeINSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEESt4pairIKS5_S5_ESt10_Select1stIS8_ESt4lessIS5_ESaIS8_EED2Ev; std::_Rb_tree<std::string,std::pair<std::string const,std::string>,std::_Select1st<std::pair<std::string const,std::string>>,std::less<std::string>,std::allocator<std::pair<std::string const,std::string>>>::~_Rb_tree() loc_B7807: mov rdi, rbx call __Unwind_Resume
long long google::protobuf::compiler::java::ImmutableServiceGenerator::GenerateStub( google::protobuf::compiler::java::ImmutableServiceGenerator *this, google::protobuf::io::Printer *a2) { google::protobuf::compiler::java::ImmutableServiceGenerator *v2; // r14 google::protobuf::io::Printer *v3; // r15 long long v4; // rax int *v5; // rbp long long v6; // rdx long long v7; // r12 long long v8; // rbx google::protobuf::MethodDescriptor *v9; // rbx char *v10; // rdx int *v11; // r14 long long v12; // rax long long v13; // rbp long long v14; // rax long long v15; // rax void *v17; // [rsp+0h] [rbp-E8h] BYREF int v18; // [rsp+8h] [rbp-E0h] char v19; // [rsp+10h] [rbp-D8h] BYREF int v20; // [rsp+18h] [rbp-D0h] google::protobuf::io::Printer *v21; // [rsp+20h] [rbp-C8h] int v22[2]; // [rsp+28h] [rbp-C0h] int v23[2]; // [rsp+30h] [rbp-B8h] void **v24; // [rsp+38h] [rbp-B0h] BYREF char v25[4]; // [rsp+40h] [rbp-A8h] BYREF void *v26; // [rsp+48h] [rbp-A0h] BYREF int v27[2]; // [rsp+50h] [rbp-98h] char v28[8]; // [rsp+58h] [rbp-90h] long long v29; // [rsp+60h] [rbp-88h] void *v30; // [rsp+68h] [rbp-80h] BYREF long long v31; // [rsp+70h] [rbp-78h] int v32; // [rsp+78h] [rbp-70h] BYREF void *v33[2]; // [rsp+98h] [rbp-50h] BYREF _BYTE v34[64]; // [rsp+A8h] [rbp-40h] BYREF v2 = this; google::protobuf::compiler::java::ClassNameResolver::GetClassName[abi:cxx11]( &v24, *((_QWORD *)this + 3), *((_QWORD *)this + 1), 1LL); v21 = a2; google::protobuf::io::Printer::Print<char [10],std::string>(a2); if ( v24 != &v26 ) operator delete(v24); v3 = v21; google::protobuf::io::Printer::Indent(v21); google::protobuf::io::Printer::Print<>( v21, "private Stub(com.google.protobuf.RpcChannel channel) {\n" " this.channel = channel;\n" "}\n" "\n" "private final com.google.protobuf.RpcChannel channel;\n" "\n" "public com.google.protobuf.RpcChannel getChannel() {\n" " return channel;\n" "}\n"); v4 = *((_QWORD *)this + 1); if ( *(int *)(v4 + 40) > 0 ) { v5 = &v32; v6 = 0LL; v7 = 0LL; *(_QWORD *)v22 = this; do { v8 = *(_QWORD *)(v4 + 32); *(_QWORD *)v23 = v6; v9 = (google::protobuf::MethodDescriptor *)(v6 + v8); google::protobuf::io::Printer::Print<>(v3, "\n"); google::protobuf::compiler::java::ImmutableServiceGenerator::GenerateMethodSignature(v2, v3, v9, 1LL); google::protobuf::io::Printer::Print<>(v3, " {\n"); google::protobuf::io::Printer::Indent(v3); *(_DWORD *)v25 = 0; v26 = 0LL; *(_QWORD *)v27 = v25; *(_QWORD *)v28 = v25; v29 = 0LL; v30 = v5; v31 = google::protobuf::FastInt32ToBufferLeft((google::protobuf *)(unsigned int)v7, (int)v5, v10) - (_QWORD)v5; v17 = &v19; std::string::_M_construct<char const*>((long long)&v17, v30, (long long)v30 + v31); v11 = v5; v33[0] = v34; std::string::_M_construct<char const*>((long long)v33, "index", (long long)""); v12 = std::map<std::string,std::string>::operator[]((long long)&v24, (long long)v33); std::string::operator=(v12, &v17); if ( v33[0] != v34 ) operator delete(v33[0]); if ( v17 != &v19 ) operator delete(v17); v13 = *(_QWORD *)(*(_QWORD *)v22 + 24LL); v14 = google::protobuf::MethodDescriptor::output_type(v9); google::protobuf::compiler::java::ClassNameResolver::GetClassName[abi:cxx11](&v30, v13, v14, 1LL); v17 = &v19; v5 = v11; std::string::_M_construct<char const*>((long long)&v17, "output", (long long)""); v3 = v21; v15 = std::map<std::string,std::string>::operator[]((long long)&v24, (long long)&v17); std::string::operator=(v15, &v30); if ( v17 != &v19 ) operator delete(v17); if ( v30 != v11 ) operator delete(v30); google::protobuf::io::Printer::Print( v3, v17, v18, v19, v20, (int)v21, v22[0], v23[0], (int)v24, *(int *)v25, v26, v27[0], v28[0]); google::protobuf::io::Printer::Outdent(v3); google::protobuf::io::Printer::Print<>(v3, "}\n"); std::_Rb_tree<std::string,std::pair<std::string const,std::string>,std::_Select1st<std::pair<std::string const,std::string>>,std::less<std::string>,std::allocator<std::pair<std::string const,std::string>>>::~_Rb_tree((long long)&v24); ++v7; v2 = *(google::protobuf::compiler::java::ImmutableServiceGenerator **)v22; v4 = *(_QWORD *)(*(_QWORD *)v22 + 8LL); v6 = *(_QWORD *)v23 + 64LL; } while ( v7 < *(int *)(v4 + 40) ); } google::protobuf::io::Printer::Outdent(v3); return google::protobuf::io::Printer::Print<>(v3, "}\n\n"); }
GenerateStub: PUSH RBP PUSH R15 PUSH R14 PUSH R13 PUSH R12 PUSH RBX SUB RSP,0xb8 MOV RBX,RSI MOV R14,RDI MOV RDX,qword ptr [RDI + 0x8] MOV RSI,qword ptr [RDI + 0x18] LEA R15,[RSP + 0x38] MOV RDI,R15 MOV ECX,0x1 CALL 0x00147d80 LAB_001b7509: LEA RSI,[0x2c40c7] LEA RDX,[0x2a649e] MOV qword ptr [RSP + 0x20],RBX MOV RDI,RBX MOV RCX,R15 CALL 0x0012e458 LAB_001b7527: LEA RAX,[RSP + 0x48] MOV RDI,qword ptr [RAX + -0x10] CMP RDI,RAX JZ 0x001b753a CALL 0x0011f4a0 LAB_001b753a: MOV R15,qword ptr [RSP + 0x20] MOV RDI,R15 CALL 0x0026d126 LEA RSI,[0x2c417b] MOV RDI,R15 CALL 0x0012e40a MOV RAX,qword ptr [R14 + 0x8] CMP dword ptr [RAX + 0x28],0x0 JLE 0x001b775f LEA RBP,[RSP + 0x78] MOV R13,RSP XOR EDX,EDX XOR R12D,R12D MOV qword ptr [RSP + 0x28],R14 LAB_001b7576: MOV RBX,qword ptr [RAX + 0x20] MOV qword ptr [RSP + 0x30],RDX ADD RBX,RDX MOV RDI,R15 LEA RSI,[0x2b337d] CALL 0x0012e40a MOV RDI,R14 MOV RSI,R15 MOV RDX,RBX MOV ECX,0x1 CALL 0x001b7b8c MOV RDI,R15 LEA RSI,[0x29ff8f] CALL 0x0012e40a MOV RDI,R15 CALL 0x0026d126 MOV dword ptr [RSP + 0x40],0x0 XOR ECX,ECX MOV qword ptr [RSP + 0x48],RCX LEA RAX,[RSP + 0x40] MOV qword ptr [RSP + 0x50],RAX MOV qword ptr [RSP + 0x58],RAX MOV qword ptr [RSP + 0x60],RCX MOV qword ptr [RSP + 0x68],RBP LAB_001b75e3: MOV EDI,R12D MOV RSI,RBP CALL 0x0020a7e0 SUB RAX,RBP MOV qword ptr [RSP + 0x70],RAX MOV RSI,qword ptr [RSP + 0x68] LEA RCX,[RSP + 0x10] MOV qword ptr [RSP],RCX ADD RAX,RSI MOV RDI,R13 MOV RDX,RAX CALL 0x001250b2 MOV R14,RBP LEA R15,[RSP + 0xa8] MOV qword ptr [RSP + 0x98],R15 LAB_001b7625: LEA RBP,[RSP + 0x98] MOV RDI,RBP LEA RSI,[0x2ae443] LEA RDX,[0x2ae448] CALL 0x001250b2 LAB_001b7643: LEA RDI,[RSP + 0x38] MOV RSI,RBP CALL 0x0012e310 MOV RDI,RAX MOV RSI,R13 CALL 0x0011f5d0 MOV RDI,qword ptr [RSP + 0x98] CMP RDI,R15 JZ 0x001b766d CALL 0x0011f4a0 LAB_001b766d: MOV RDI,qword ptr [RSP] LEA RAX,[RSP + 0x10] CMP RDI,RAX JZ 0x001b7680 CALL 0x0011f4a0 LAB_001b7680: MOV RAX,qword ptr [RSP + 0x28] MOV RBP,qword ptr [RAX + 0x18] LAB_001b7689: MOV RDI,RBX CALL 0x0021ff90 LEA RDI,[RSP + 0x68] MOV RSI,RBP MOV RDX,RAX MOV ECX,0x1 CALL 0x00147ac2 LEA RAX,[RSP + 0x10] MOV qword ptr [RSP],RAX LAB_001b76af: MOV RDI,R13 LEA RSI,[0x29acf8] LEA RDX,[0x29acfe] MOV RBP,R14 CALL 0x001250b2 MOV R15,qword ptr [RSP + 0x20] LEA RBX,[RSP + 0x38] LAB_001b76d2: MOV RDI,RBX MOV RSI,R13 CALL 0x0012e310 MOV RDI,RAX LEA RSI,[RSP + 0x68] CALL 0x0011f5d0 MOV RDI,qword ptr [RSP] LEA RAX,[RSP + 0x10] CMP RDI,RAX JZ 0x001b76fd CALL 0x0011f4a0 LAB_001b76fd: MOV RDI,qword ptr [RSP + 0x68] CMP RDI,RBP JZ 0x001b770c CALL 0x0011f4a0 LAB_001b770c: MOV RDI,R15 MOV RSI,RBX LEA RDX,[0x2c4250] CALL 0x0026cd32 MOV RDI,R15 CALL 0x0026d136 MOV RDI,R15 LEA RSI,[0x2e2117] CALL 0x0012e40a LAB_001b7735: MOV RDI,RBX CALL 0x0012e5e0 INC R12 MOV R14,qword ptr [RSP + 0x28] MOV RAX,qword ptr [R14 + 0x8] MOVSXD RCX,dword ptr [RAX + 0x28] MOV RDX,qword ptr [RSP + 0x30] ADD RDX,0x40 CMP R12,RCX JL 0x001b7576 LAB_001b775f: MOV RDI,R15 CALL 0x0026d136 LEA RSI,[0x2c0483] MOV RDI,R15 CALL 0x0012e40a ADD RSP,0xb8 POP RBX POP R12 POP R13 POP R14 POP R15 POP RBP RET
/* google::protobuf::compiler::java::ImmutableServiceGenerator::GenerateStub(google::protobuf::io::Printer*) */ void __thiscall google::protobuf::compiler::java::ImmutableServiceGenerator::GenerateStub (ImmutableServiceGenerator *this,Printer *param_1) { int8 uVar1; ImmutableServiceGenerator *pIVar2; long lVar3; string *psVar4; long lVar5; MethodDescriptor *this_00; long lVar6; Printer *this_01; int1 *local_e8 [2]; int1 local_d8 [16]; Printer *local_c8; ImmutableServiceGenerator *local_c0; long local_b8; int8 *local_b0; int4 local_a8 [2]; int8 local_a0; int4 *local_98; int4 *local_90; int8 local_88; char *local_80; long local_78; char local_70 [32]; int1 *local_50 [2]; int1 local_40 [16]; ClassNameResolver::GetClassName_abi_cxx11_ ((ServiceDescriptor *)&local_b0,SUB81(*(int8 *)(this + 0x18),0)); local_c8 = param_1; /* try { // try from 001b7509 to 001b7526 has its CatchHandler @ 001b7788 */ io::Printer::Print<char[10],std::__cxx11::string> ((char *)param_1, "public static Stub newStub(\n com.google.protobuf.RpcChannel channel) {\n return new Stub(channel);\n}\n\npublic static final class Stub extends $classname$ implements Interface {\n" ,(string *)0x2a649e); if (local_b0 != &local_a0) { operator_delete(local_b0); } this_01 = local_c8; io::Printer::Indent(local_c8); io::Printer::Print<> (this_01, "private Stub(com.google.protobuf.RpcChannel channel) {\n this.channel = channel;\n}\n\nprivate final com.google.protobuf.RpcChannel channel;\n\npublic com.google.protobuf.RpcChannel getChannel() {\n return channel;\n}\n" ); lVar3 = *(long *)(this + 8); if (0 < *(int *)(lVar3 + 0x28)) { lVar5 = 0; lVar6 = 0; local_c0 = this; do { pIVar2 = local_c0; this_00 = (MethodDescriptor *)(*(long *)(lVar3 + 0x20) + lVar5); local_b8 = lVar5; io::Printer::Print<>(this_01,"\n"); GenerateMethodSignature(pIVar2,this_01,this_00); io::Printer::Print<>(this_01," {\n"); io::Printer::Indent(this_01); local_a8[0] = 0; local_a0 = 0; local_98 = local_a8; local_88 = 0; local_90 = local_98; local_80 = local_70; /* try { // try from 001b75e3 to 001b7611 has its CatchHandler @ 001b77f6 */ local_78 = FastInt32ToBufferLeft((int)lVar6,local_70); local_78 = local_78 - (long)local_70; local_e8[0] = local_d8; std::__cxx11::string::_M_construct<char_const*>(local_e8,local_80,local_80 + local_78); /* try { // try from 001b7625 to 001b7642 has its CatchHandler @ 001b77a0 */ local_50[0] = local_40; std::__cxx11::string::_M_construct<char_const*>((string *)local_50,"index",""); /* try { // try from 001b7643 to 001b764f has its CatchHandler @ 001b77a5 */ psVar4 = (string *) std:: map<std::__cxx11::string,std::__cxx11::string,std::less<std::__cxx11::string>,std::allocator<std::pair<std::__cxx11::string_const,std::__cxx11::string>>> ::operator[]((map<std::__cxx11::string,std::__cxx11::string,std::less<std::__cxx11::string>,std::allocator<std::pair<std::__cxx11::string_const,std::__cxx11::string>>> *)&local_b0,(string *)local_50); std::__cxx11::string::operator=(psVar4,(string *)local_e8); if (local_50[0] != local_40) { operator_delete(local_50[0]); } if (local_e8[0] != local_d8) { operator_delete(local_e8[0]); } uVar1 = *(int8 *)(local_c0 + 0x18); /* try { // try from 001b7689 to 001b76a5 has its CatchHandler @ 001b77f8 */ MethodDescriptor::output_type(this_00); ClassNameResolver::GetClassName_abi_cxx11_((Descriptor *)&local_80,SUB81(uVar1,0)); local_e8[0] = local_d8; /* try { // try from 001b76af to 001b76c7 has its CatchHandler @ 001b77ca */ std::__cxx11::string::_M_construct<char_const*>(local_e8,"output",""); this_01 = local_c8; /* try { // try from 001b76d2 to 001b76dc has its CatchHandler @ 001b77cf */ psVar4 = (string *) std:: map<std::__cxx11::string,std::__cxx11::string,std::less<std::__cxx11::string>,std::allocator<std::pair<std::__cxx11::string_const,std::__cxx11::string>>> ::operator[]((map<std::__cxx11::string,std::__cxx11::string,std::less<std::__cxx11::string>,std::allocator<std::pair<std::__cxx11::string_const,std::__cxx11::string>>> *)&local_b0,(string *)local_e8); std::__cxx11::string::operator=(psVar4,(string *)&local_80); if (local_e8[0] != local_d8) { operator_delete(local_e8[0]); } if (local_80 != local_70) { operator_delete(local_80); } /* try { // try from 001b770c to 001b7734 has its CatchHandler @ 001b77fa */ io::Printer::Print(this_01,(map *)&local_b0, "channel.callMethod(\n getDescriptor().getMethods().get($index$),\n controller,\n request,\n $output$.getDefaultInstance(),\n com.google.protobuf.RpcUtil.generalizeCallback(\n done,\n $output$.class,\n $output$.getDefaultInstance()));\n" ); io::Printer::Outdent(this_01); io::Printer::Print<>(this_01,"}\n"); std:: _Rb_tree<std::__cxx11::string,std::pair<std::__cxx11::string_const,std::__cxx11::string>,std::_Select1st<std::pair<std::__cxx11::string_const,std::__cxx11::string>>,std::less<std::__cxx11::string>,std::allocator<std::pair<std::__cxx11::string_const,std::__cxx11::string>>> ::~_Rb_tree((_Rb_tree<std::__cxx11::string,std::pair<std::__cxx11::string_const,std::__cxx11::string>,std::_Select1st<std::pair<std::__cxx11::string_const,std::__cxx11::string>>,std::less<std::__cxx11::string>,std::allocator<std::pair<std::__cxx11::string_const,std::__cxx11::string>>> *)&local_b0); lVar6 = lVar6 + 1; lVar3 = *(long *)(local_c0 + 8); lVar5 = local_b8 + 0x40; } while (lVar6 < *(int *)(lVar3 + 0x28)); } io::Printer::Outdent(this_01); io::Printer::Print<>(this_01,"}\n\n"); return; }
40,827
js_execute_sync_module
bluesky950520[P]quickjs/quickjs.c
static int js_execute_sync_module(JSContext *ctx, JSModuleDef *m, JSValue *pvalue) { if (m->init_func) { /* C module init : no asynchronous execution */ if (m->init_func(ctx, m) < 0) goto fail; } else { JSValue promise; JSPromiseStateEnum state; promise = js_async_function_call(ctx, m->func_obj, JS_UNDEFINED, 0, NULL, 0); if (JS_IsException(promise)) goto fail; state = JS_PromiseState(ctx, promise); if (state == JS_PROMISE_FULFILLED) { JS_FreeValue(ctx, promise); } else if (state == JS_PROMISE_REJECTED) { *pvalue = JS_PromiseResult(ctx, promise); JS_FreeValue(ctx, promise); return -1; } else { JS_FreeValue(ctx, promise); JS_ThrowTypeError(ctx, "promise is pending"); fail: *pvalue = JS_GetException(ctx); return -1; } } *pvalue = JS_UNDEFINED; return 0; }
O1
c
js_execute_sync_module: pushq %r14 pushq %rbx pushq %rax movq %rdx, %rbx movq %rdi, %r14 movq 0x78(%rsi), %rax testq %rax, %rax je 0x44e0b movq %r14, %rdi callq *%rax testl %eax, %eax js 0x44e2b movl $0x0, (%rbx) movq $0x3, 0x8(%rbx) xorl %eax, %eax jmp 0x44e53 movq %rsi, %rdi movq %r14, %rsi movq %rbx, %rdx callq 0x133aa cmpw $0x1, %ax je 0x44df9 movzwl %ax, %ecx movl $0xffffffff, %eax # imm = 0xFFFFFFFF testl %ecx, %ecx jne 0x44e53 movq 0x18(%r14), %rax movups 0xf0(%rax), %xmm0 movl $0x0, 0xf0(%rax) movq $0x4, 0xf8(%rax) movups %xmm0, (%rbx) movl $0xffffffff, %eax # imm = 0xFFFFFFFF addq $0x8, %rsp popq %rbx popq %r14 retq
js_execute_sync_module: push r14 push rbx push rax mov rbx, rdx mov r14, rdi mov rax, [rsi+78h] test rax, rax jz short loc_44E0B mov rdi, r14 call rax test eax, eax js short loc_44E2B loc_44DF9: mov dword ptr [rbx], 0 mov qword ptr [rbx+8], 3 xor eax, eax jmp short loc_44E53 loc_44E0B: mov rdi, rsi mov rsi, r14 mov rdx, rbx call js_execute_sync_module_cold_1 cmp ax, 1 jz short loc_44DF9 movzx ecx, ax mov eax, 0FFFFFFFFh test ecx, ecx jnz short loc_44E53 loc_44E2B: mov rax, [r14+18h] movups xmm0, xmmword ptr [rax+0F0h] mov dword ptr [rax+0F0h], 0 mov qword ptr [rax+0F8h], 4 movups xmmword ptr [rbx], xmm0 mov eax, 0FFFFFFFFh loc_44E53: add rsp, 8 pop rbx pop r14 retn
long long js_execute_sync_module(long long a1, long long a2, _QWORD *a3) { int ( *v4)(long long); // rax long long result; // rax unsigned __int16 v6; // ax int v7; // ecx long long v8; // rax __int128 v9; // xmm0 v4 = *(int ( **)(long long))(a2 + 120); if ( v4 ) { if ( v4(a1) >= 0 ) { LABEL_3: *(_DWORD *)a3 = 0; a3[1] = 3LL; return 0LL; } LABEL_6: v8 = *(_QWORD *)(a1 + 24); v9 = *(_OWORD *)(v8 + 240); *(_DWORD *)(v8 + 240) = 0; *(_QWORD *)(v8 + 248) = 4LL; *(_OWORD *)a3 = v9; return 0xFFFFFFFFLL; } v6 = js_execute_sync_module_cold_1(a2, a1, a3); if ( v6 == 1 ) goto LABEL_3; v7 = v6; result = 0xFFFFFFFFLL; if ( !v7 ) goto LABEL_6; return result; }
js_execute_sync_module: PUSH R14 PUSH RBX PUSH RAX MOV RBX,RDX MOV R14,RDI MOV RAX,qword ptr [RSI + 0x78] TEST RAX,RAX JZ 0x00144e0b MOV RDI,R14 CALL RAX TEST EAX,EAX JS 0x00144e2b LAB_00144df9: MOV dword ptr [RBX],0x0 MOV qword ptr [RBX + 0x8],0x3 XOR EAX,EAX JMP 0x00144e53 LAB_00144e0b: MOV RDI,RSI MOV RSI,R14 MOV RDX,RBX CALL 0x001133aa CMP AX,0x1 JZ 0x00144df9 MOVZX ECX,AX MOV EAX,0xffffffff TEST ECX,ECX JNZ 0x00144e53 LAB_00144e2b: MOV RAX,qword ptr [R14 + 0x18] MOVUPS XMM0,xmmword ptr [RAX + 0xf0] MOV dword ptr [RAX + 0xf0],0x0 MOV qword ptr [RAX + 0xf8],0x4 MOVUPS xmmword ptr [RBX],XMM0 MOV EAX,0xffffffff LAB_00144e53: ADD RSP,0x8 POP RBX POP R14 RET
int8 js_execute_sync_module(long param_1,long param_2,int8 *param_3) { long lVar1; int8 uVar2; int8 uVar3; short sVar4; int iVar5; if (*(code **)(param_2 + 0x78) == (code *)0x0) { sVar4 = js_execute_sync_module_cold_1(param_2,param_1,param_3); if (sVar4 != 1) { if (sVar4 != 0) { return 0xffffffff; } goto LAB_00144e2b; } } else { iVar5 = (**(code **)(param_2 + 0x78))(param_1); if (iVar5 < 0) { LAB_00144e2b: lVar1 = *(long *)(param_1 + 0x18); uVar2 = *(int8 *)(lVar1 + 0xf0); uVar3 = *(int8 *)(lVar1 + 0xf8); *(int4 *)(lVar1 + 0xf0) = 0; *(int8 *)(lVar1 + 0xf8) = 4; *param_3 = uVar2; param_3[1] = uVar3; return 0xffffffff; } } *(int4 *)param_3 = 0; param_3[1] = 3; return 0; }
40,828
tailoring_append
eloqsql/strings/ctype.c
static int tailoring_append(MY_XML_PARSER *st, const char *fmt, size_t len, const char *attr) { struct my_cs_file_info *i= (struct my_cs_file_info *) st->user_data; size_t newlen= i->tailoring_length + len + 64; /* 64 for format */ if (MY_XML_OK == my_charset_file_tailoring_realloc(i, newlen)) { char *dst= i->tailoring + i->tailoring_length; sprintf(dst, fmt, (int) len, attr); i->tailoring_length+= strlen(dst); return MY_XML_OK; } return MY_XML_ERROR; }
O3
c
tailoring_append: pushq %rbp movq %rsp, %rbp pushq %r15 pushq %r14 pushq %r13 pushq %r12 pushq %rbx pushq %rax movq %rcx, %r9 movq %rdx, %r15 movq %rsi, %r12 movq %rdi, %rbx movq 0x690(%rdi), %r13 leaq (%rdx,%r13), %rax addq $0x40, %rax cmpq %rax, 0x698(%rdi) jbe 0x53f0b movq 0x688(%rbx), %rax jmp 0x53f4f movq %r9, %r14 addq %r15, %r13 movq 0x688(%rbx), %rdi movq 0x7a8(%rbx), %rax movq 0x90(%rax), %rax addq $0x8040, %r13 # imm = 0x8040 movq %r13, 0x698(%rbx) movq %r13, %rsi callq *%rax movq %rax, 0x688(%rbx) testq %rax, %rax je 0x53f92 movq 0x690(%rbx), %r13 movq %r14, %r9 addq %rax, %r13 xorl %r14d, %r14d movq %r13, %rdi movl $0x1, %esi movq $-0x1, %rdx movq %r12, %rcx movl %r15d, %r8d xorl %eax, %eax callq 0x241a0 movq %r13, %rdi callq 0x24100 addq %rax, 0x690(%rbx) movl %r14d, %eax addq $0x8, %rsp popq %rbx popq %r12 popq %r13 popq %r14 popq %r15 popq %rbp retq movl $0x1, %r14d jmp 0x53f80
tailoring_append: push rbp mov rbp, rsp push r15 push r14 push r13 push r12 push rbx push rax mov r9, rcx mov r15, rdx mov r12, rsi mov rbx, rdi mov r13, [rdi+690h] lea rax, [rdx+r13] add rax, 40h ; '@' cmp [rdi+698h], rax jbe short loc_53F0B mov rax, [rbx+688h] jmp short loc_53F4F loc_53F0B: mov r14, r9 add r13, r15 mov rdi, [rbx+688h] mov rax, [rbx+7A8h] mov rax, [rax+90h] add r13, 8040h mov [rbx+698h], r13 mov rsi, r13 call rax mov [rbx+688h], rax test rax, rax jz short loc_53F92 mov r13, [rbx+690h] mov r9, r14 loc_53F4F: add r13, rax xor r14d, r14d mov rdi, r13 mov esi, 1 mov rdx, 0FFFFFFFFFFFFFFFFh mov rcx, r12 mov r8d, r15d xor eax, eax call ___sprintf_chk mov rdi, r13 call _strlen add [rbx+690h], rax loc_53F80: mov eax, r14d add rsp, 8 pop rbx pop r12 pop r13 pop r14 pop r15 pop rbp retn loc_53F92: mov r14d, 1 jmp short loc_53F80
long long tailoring_append(_QWORD *a1, const char *a2, long long a3, long long a4) { long long v4; // rax long long v5; // r9 unsigned int v6; // r15d long long v8; // r13 long long v9; // rax long long v11; // rdi long long ( *v12)(long long, long long); // rax long long v13; // r13 long long v14; // r13 unsigned int v15; // r14d long long v17; // [rsp-8h] [rbp-30h] v17 = v4; v5 = a4; v6 = a3; v8 = a1[210]; if ( a1[211] <= (unsigned long long)(a3 + v8 + 64) ) { v11 = a1[209]; v12 = *(long long ( **)(long long, long long))(a1[245] + 144LL); v13 = a3 + v8 + 32832; a1[211] = v13; v9 = v12(v11, v13); a1[209] = v9; if ( !v9 ) return 1; v8 = a1[210]; v5 = a4; } else { v9 = a1[209]; } v14 = v9 + v8; v15 = 0; __sprintf_chk(v14, 1LL, -1LL, a2, v6, v5, v17); a1[210] += strlen(v14); return v15; }
tailoring_append: PUSH RBP MOV RBP,RSP PUSH R15 PUSH R14 PUSH R13 PUSH R12 PUSH RBX PUSH RAX MOV R9,RCX MOV R15,RDX MOV R12,RSI MOV RBX,RDI MOV R13,qword ptr [RDI + 0x690] LEA RAX,[RDX + R13*0x1] ADD RAX,0x40 CMP qword ptr [RDI + 0x698],RAX JBE 0x00153f0b MOV RAX,qword ptr [RBX + 0x688] JMP 0x00153f4f LAB_00153f0b: MOV R14,R9 ADD R13,R15 MOV RDI,qword ptr [RBX + 0x688] MOV RAX,qword ptr [RBX + 0x7a8] MOV RAX,qword ptr [RAX + 0x90] ADD R13,0x8040 MOV qword ptr [RBX + 0x698],R13 MOV RSI,R13 CALL RAX MOV qword ptr [RBX + 0x688],RAX TEST RAX,RAX JZ 0x00153f92 MOV R13,qword ptr [RBX + 0x690] MOV R9,R14 LAB_00153f4f: ADD R13,RAX XOR R14D,R14D MOV RDI,R13 MOV ESI,0x1 MOV RDX,-0x1 MOV RCX,R12 MOV R8D,R15D XOR EAX,EAX CALL 0x001241a0 MOV RDI,R13 CALL 0x00124100 ADD qword ptr [RBX + 0x690],RAX LAB_00153f80: MOV EAX,R14D ADD RSP,0x8 POP RBX POP R12 POP R13 POP R14 POP R15 POP RBP RET LAB_00153f92: MOV R14D,0x1 JMP 0x00153f80
int8 tailoring_append(long param_1,int8 param_2,ulong param_3,int8 param_4) { code *pcVar1; long lVar2; size_t sVar3; long lVar4; lVar4 = *(long *)(param_1 + 0x690); if (param_3 + lVar4 + 0x40 < *(ulong *)(param_1 + 0x698)) { lVar2 = *(long *)(param_1 + 0x688); } else { pcVar1 = *(code **)(*(long *)(param_1 + 0x7a8) + 0x90); lVar4 = lVar4 + param_3 + 0x8040; *(long *)(param_1 + 0x698) = lVar4; lVar2 = (*pcVar1)(*(int8 *)(param_1 + 0x688),lVar4); *(long *)(param_1 + 0x688) = lVar2; if (lVar2 == 0) { return 1; } lVar4 = *(long *)(param_1 + 0x690); } __sprintf_chk((char *)(lVar4 + lVar2),1,0xffffffffffffffff,param_2,param_3 & 0xffffffff,param_4); sVar3 = strlen((char *)(lVar4 + lVar2)); *(long *)(param_1 + 0x690) = *(long *)(param_1 + 0x690) + sVar3; return 0; }
40,829
SchemaConverter::check_errors()
llama.cpp/common/json-schema-to-grammar.cpp
void check_errors() { if (!_errors.empty()) { throw std::runtime_error("JSON schema conversion failed:\n" + string_join(_errors, "\n")); } if (!_warnings.empty()) { fprintf(stderr, "WARNING: JSON schema conversion was incomplete: %s\n", string_join(_warnings, "; ").c_str()); } }
O3
cpp
SchemaConverter::check_errors(): pushq %rbp pushq %r15 pushq %r14 pushq %rbx subq $0x68, %rsp movq %rdi, %r14 movq 0xc8(%rdi), %rax cmpq 0xd0(%rdi), %rax jne 0xffb15 movq 0xe0(%r14), %rax cmpq 0xe8(%r14), %rax jne 0xffaba addq $0x68, %rsp popq %rbx popq %r14 popq %r15 popq %rbp retq movq 0x6347f(%rip), %rax # 0x162f40 movq (%rax), %r15 leaq 0x18(%rsp), %rbx movq %rbx, -0x10(%rbx) leaq 0x26295(%rip), %rsi # 0x125d69 leaq 0x26290(%rip), %rdx # 0x125d6b leaq 0x8(%rsp), %rdi callq 0x287ce addq $0xe0, %r14 leaq 0x48(%rsp), %rdi leaq 0x8(%rsp), %rdx movq %r14, %rsi callq 0xf6a7f leaq 0x48(%rsp), %rdi leaq 0x8(%rsp), %rdx movq %r15, %rsi movq %rbx, %rcx callq 0x22752 jmp 0xffaaf movl $0x10, %edi callq 0x20650 movq %rax, %rbx leaq 0x38(%rsp), %r15 movq %r15, -0x10(%r15) leaq 0x202ee(%rip), %rsi # 0x11fe20 leaq 0x202e8(%rip), %rdx # 0x11fe21 leaq 0x28(%rsp), %rdi callq 0x287ce addq $0xc8, %r14 leaq 0x8(%rsp), %rdi leaq 0x28(%rsp), %rdx movq %r14, %rsi callq 0xf6a7f leaq 0x261b2(%rip), %rsi # 0x125d15 leaq 0x48(%rsp), %rdi leaq 0x8(%rsp), %rdx callq 0xaf308 movb $0x1, %bpl leaq 0x48(%rsp), %rsi movq %rbx, %rdi callq 0x20480 xorl %ebp, %ebp movq 0x63435(%rip), %rsi # 0x162fc0 movq 0x633ee(%rip), %rdx # 0x162f80 movq %rbx, %rdi callq 0x20a60 movq %rax, %r14 leaq 0x58(%rsp), %rax movq -0x10(%rax), %rdi cmpq %rax, %rdi je 0xffbc0 movq 0x58(%rsp), %rsi incq %rsi callq 0x20180 jmp 0xffbc0 movq %rax, %r14 movb $0x1, %bpl leaq 0x18(%rsp), %rax movq -0x10(%rax), %rdi cmpq %rax, %rdi je 0xffbdb movq 0x18(%rsp), %rsi incq %rsi callq 0x20180 movq 0x28(%rsp), %rdi cmpq %r15, %rdi je 0xffbf2 movq 0x38(%rsp), %rsi incq %rsi callq 0x20180 testb %bpl, %bpl jne 0xffc18 jmp 0xffc41 movq %rax, %r14 movq 0x28(%rsp), %rdi cmpq %r15, %rdi je 0xffc18 movq 0x38(%rsp), %rsi incq %rsi callq 0x20180 jmp 0xffc18 movq %rax, %r14 movq %rbx, %rdi callq 0x20f00 jmp 0xffc41 movq %rax, %r14 movq 0x8(%rsp), %rdi cmpq %rbx, %rdi je 0xffc41 movq 0x18(%rsp), %rsi incq %rsi callq 0x20180 jmp 0xffc41 movq %rax, %r14 movq %r14, %rdi callq 0x20b00 nop
_ZN15SchemaConverter12check_errorsEv: push rbp push r15 push r14 push rbx sub rsp, 68h mov r14, rdi mov rax, [rdi+0C8h] cmp rax, [rdi+0D0h] jnz short loc_FFB15 mov rax, [r14+0E0h] cmp rax, [r14+0E8h] jnz short loc_FFABA loc_FFAAF: add rsp, 68h pop rbx pop r14 pop r15 pop rbp retn loc_FFABA: mov rax, cs:stderr_ptr mov r15, [rax] lea rbx, [rsp+88h+var_70] mov [rbx-10h], rbx lea rsi, asc_125D69; "; " lea rdx, asc_125D69+2; "" lea rdi, [rsp+88h+var_80] call _ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE12_M_constructIPKcEEvT_S8_St20forward_iterator_tag; std::string::_M_construct<char const*>(char const*,char const*,std::forward_iterator_tag) add r14, 0E0h lea rdi, [rsp+88h+var_40] lea rdx, [rsp+88h+var_80] mov rsi, r14 call _Z11string_joinRKSt6vectorINSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEESaIS5_EERKS5_; string_join(std::vector<std::string> const&,std::string const&) lea rdi, [rsp+88h+var_40] lea rdx, [rsp+88h+var_80] mov rsi, r15 mov rcx, rbx call _ZN15SchemaConverter12check_errorsEv_cold_1; SchemaConverter::check_errors(void) [clone] jmp short loc_FFAAF loc_FFB15: mov edi, 10h; thrown_size call ___cxa_allocate_exception mov rbx, rax lea r15, [rsp+88h+var_50] mov [r15-10h], r15 lea rsi, aExampleToolCal+1Ch; "\n" lea rdx, aExampleToolCal+1Dh; "" lea rdi, [rsp+88h+var_60] call _ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE12_M_constructIPKcEEvT_S8_St20forward_iterator_tag; std::string::_M_construct<char const*>(char const*,char const*,std::forward_iterator_tag) add r14, 0C8h lea rdi, [rsp+88h+var_80] lea rdx, [rsp+88h+var_60] mov rsi, r14 call _Z11string_joinRKSt6vectorINSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEESaIS5_EERKS5_; string_join(std::vector<std::string> const&,std::string const&) lea rsi, aJsonSchemaConv; "JSON schema conversion failed:\n" lea rdi, [rsp+88h+var_40] lea rdx, [rsp+88h+var_80] call _ZStplIcSt11char_traitsIcESaIcEENSt7__cxx1112basic_stringIT_T0_T1_EEPKS5_OS8_; std::operator+<char>(char const*,std::string&&) mov bpl, 1 lea rsi, [rsp+88h+var_40] mov rdi, rbx call __ZNSt13runtime_errorC1ERKNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE; std::runtime_error::runtime_error(std::string const&) xor ebp, ebp mov rsi, cs:_ZTISt13runtime_error_ptr; lptinfo mov rdx, cs:_ZNSt13runtime_errorD1Ev_ptr; void (*)(void *) mov rdi, rbx; void * call ___cxa_throw mov r14, rax lea rax, [rsp+88h+var_30] mov rdi, [rax-10h]; void * cmp rdi, rax jz short loc_FFBC0 mov rsi, [rsp+88h+var_30] inc rsi; unsigned __int64 call __ZdlPvm; operator delete(void *,ulong) jmp short loc_FFBC0 mov r14, rax mov bpl, 1 loc_FFBC0: lea rax, [rsp+88h+var_70] mov rdi, [rax-10h]; void * cmp rdi, rax jz short loc_FFBDB mov rsi, [rsp+88h+var_70] inc rsi; unsigned __int64 call __ZdlPvm; operator delete(void *,ulong) loc_FFBDB: mov rdi, [rsp+88h+var_60]; void * cmp rdi, r15 jz short loc_FFBF2 mov rsi, [rsp+88h+var_50] inc rsi; unsigned __int64 call __ZdlPvm; operator delete(void *,ulong) loc_FFBF2: test bpl, bpl jnz short loc_FFC18 jmp short loc_FFC41 mov r14, rax mov rdi, [rsp+88h+var_60]; void * cmp rdi, r15 jz short loc_FFC18 mov rsi, [rsp+88h+var_50] inc rsi; unsigned __int64 call __ZdlPvm; operator delete(void *,ulong) jmp short loc_FFC18 mov r14, rax loc_FFC18: mov rdi, rbx; void * call ___cxa_free_exception jmp short loc_FFC41 mov r14, rax mov rdi, [rsp+88h+var_80]; void * cmp rdi, rbx jz short loc_FFC41 mov rsi, [rsp+88h+var_70] inc rsi; unsigned __int64 call __ZdlPvm; operator delete(void *,ulong) jmp short loc_FFC41 mov r14, rax loc_FFC41: mov rdi, r14 call __Unwind_Resume
void SchemaConverter::check_errors(SchemaConverter *this) { long long v1; // r15 void *exception; // rbx void *v3[2]; // [rsp+8h] [rbp-80h] BYREF void *v4[2]; // [rsp+18h] [rbp-70h] BYREF void *v5[2]; // [rsp+28h] [rbp-60h] BYREF long long v6; // [rsp+38h] [rbp-50h] BYREF const char *v7[2]; // [rsp+48h] [rbp-40h] BYREF if ( *((_QWORD *)this + 25) != *((_QWORD *)this + 26) ) { exception = __cxa_allocate_exception(0x10uLL); v5[0] = &v6; std::string::_M_construct<char const*>((long long)v5, "\n", (long long)""); string_join((long long)v3, (long long *)this + 25, v5); std::operator+<char>(v7, (long long)"JSON schema conversion failed:\n", (long long)v3); std::runtime_error::runtime_error(exception, v7); __cxa_throw( exception, (struct type_info *)&`typeinfo for'std::runtime_error, (void (*)(void *))&std::runtime_error::~runtime_error); } if ( *((_QWORD *)this + 28) != *((_QWORD *)this + 29) ) { v1 = stderr; v3[0] = v4; std::string::_M_construct<char const*>((long long)v3, "; ", (long long)""); string_join((long long)v7, (long long *)this + 28, v3); SchemaConverter::check_errors(v7, v1, v3, v4); } }
check_errors: PUSH RBP PUSH R15 PUSH R14 PUSH RBX SUB RSP,0x68 MOV R14,RDI MOV RAX,qword ptr [RDI + 0xc8] CMP RAX,qword ptr [RDI + 0xd0] JNZ 0x001ffb15 MOV RAX,qword ptr [R14 + 0xe0] CMP RAX,qword ptr [R14 + 0xe8] JNZ 0x001ffaba LAB_001ffaaf: ADD RSP,0x68 POP RBX POP R14 POP R15 POP RBP RET LAB_001ffaba: MOV RAX,qword ptr [0x00262f40] MOV R15,qword ptr [RAX] LEA RBX,[RSP + 0x18] MOV qword ptr [RBX + -0x10],RBX LAB_001ffacd: LEA RSI,[0x225d69] LEA RDX,[0x225d6b] LEA RDI,[RSP + 0x8] CALL 0x001287ce LAB_001ffae5: ADD R14,0xe0 LEA RDI,[RSP + 0x48] LEA RDX,[RSP + 0x8] MOV RSI,R14 CALL 0x001f6a7f LAB_001ffafe: LEA RDI,[RSP + 0x48] LEA RDX,[RSP + 0x8] MOV RSI,R15 MOV RCX,RBX CALL 0x00122752 JMP 0x001ffaaf LAB_001ffb15: MOV EDI,0x10 CALL 0x00120650 MOV RBX,RAX LEA R15,[RSP + 0x38] MOV qword ptr [R15 + -0x10],R15 LAB_001ffb2b: LEA RSI,[0x21fe20] LEA RDX,[0x21fe21] LEA RDI,[RSP + 0x28] CALL 0x001287ce LAB_001ffb43: ADD R14,0xc8 LEA RDI,[RSP + 0x8] LEA RDX,[RSP + 0x28] MOV RSI,R14 CALL 0x001f6a7f LAB_001ffb5c: LEA RSI,[0x225d15] LEA RDI,[RSP + 0x48] LEA RDX,[RSP + 0x8] CALL 0x001af308 MOV BPL,0x1 LAB_001ffb75: LEA RSI,[RSP + 0x48] MOV RDI,RBX CALL 0x00120480 XOR EBP,EBP MOV RSI,qword ptr [0x00262fc0] MOV RDX,qword ptr [0x00262f80] MOV RDI,RBX CALL 0x00120a60
/* SchemaConverter::check_errors() */ void __thiscall SchemaConverter::check_errors(SchemaConverter *this) { runtime_error *this_00; int1 *local_80 [2]; int1 local_70 [16]; int1 *local_60 [2]; int1 local_50 [16]; vector local_40 [32]; if (*(long *)(this + 200) == *(long *)(this + 0xd0)) { if (*(long *)(this + 0xe0) != *(long *)(this + 0xe8)) { local_80[0] = local_70; /* try { // try from 001ffacd to 001ffae4 has its CatchHandler @ 001ffc3e */ std::__cxx11::string::_M_construct<char_const*>(local_80,&DAT_00225d69,&DAT_00225d6b); /* try { // try from 001ffae5 to 001ffafd has its CatchHandler @ 001ffc22 */ string_join(local_40,(string *)(this + 0xe0)); check_errors(); } return; } this_00 = (runtime_error *)__cxa_allocate_exception(0x10); local_60[0] = local_50; /* try { // try from 001ffb2b to 001ffb42 has its CatchHandler @ 001ffc15 */ std::__cxx11::string::_M_construct<char_const*>(local_60,"\n",""); /* try { // try from 001ffb43 to 001ffb5b has its CatchHandler @ 001ffbf9 */ string_join((vector *)local_80,(string *)(this + 200)); /* try { // try from 001ffb5c to 001ffb71 has its CatchHandler @ 001ffbba */ std::operator+((char *)local_40,(string *)"JSON schema conversion failed:\n"); /* try { // try from 001ffb75 to 001ffb99 has its CatchHandler @ 001ffb9a */ std::runtime_error::runtime_error(this_00,(string *)local_40); /* WARNING: Subroutine does not return */ __cxa_throw(this_00,PTR_typeinfo_00262fc0,PTR__runtime_error_00262f80); }
40,830
my_handler_delete_with_symlink
eloqsql/mysys/my_symlink2.c
int my_handler_delete_with_symlink(const char *filename, myf sync_dir) { char real[FN_REFLEN]; int res= 0; DBUG_ENTER("my_handler_delete_with_symlink"); if (my_is_symlink(filename)) { /* Delete the symlinked file only if the symlink is not pointing into datadir. */ if (!(my_realpath(real, filename, MYF(0)) || mysys_test_invalid_symlink(real))) res= my_delete(real, MYF(MY_NOSYMLINKS | sync_dir)); } DBUG_RETURN(my_delete(filename, sync_dir) || res); }
O3
c
my_handler_delete_with_symlink: pushq %rbp movq %rsp, %rbp pushq %r15 pushq %r14 pushq %rbx subq $0x208, %rsp # imm = 0x208 movq %rsi, %rbx movq %rdi, %r14 movq %fs:0x28, %rax movq %rax, -0x20(%rbp) callq 0xa0de8 testl %eax, %eax je 0xa1432 xorl %r15d, %r15d leaq -0x220(%rbp), %rdi movq %r14, %rsi xorl %edx, %edx callq 0xa0e25 testl %eax, %eax jne 0xa1435 leaq 0x2e477b(%rip), %rax # 0x385ba0 leaq -0x220(%rbp), %rdi callq *(%rax) testl %eax, %eax je 0xa146b xorl %r15d, %r15d movq %r14, %rdi movq %rbx, %rsi callq 0x9df60 testl %eax, %eax setne %al movq %fs:0x28, %rcx cmpq -0x20(%rbp), %rcx jne 0xa1489 orb %r15b, %al movzbl %al, %eax andl $0x1, %eax addq $0x208, %rsp # imm = 0x208 popq %rbx popq %r14 popq %r15 popq %rbp retq movq %rbx, %rsi orq $0x200, %rsi # imm = 0x200 leaq -0x220(%rbp), %rdi callq 0x9df60 testl %eax, %eax setne %r15b jmp 0xa1435 callq 0x29270 nop
my_handler_delete_with_symlink: push rbp mov rbp, rsp push r15 push r14 push rbx sub rsp, 208h mov rbx, rsi mov r14, rdi mov rax, fs:28h mov [rbp+var_20], rax call my_is_symlink test eax, eax jz short loc_A1432 xor r15d, r15d lea rdi, [rbp+var_220] mov rsi, r14 xor edx, edx call my_realpath test eax, eax jnz short loc_A1435 lea rax, mysys_test_invalid_symlink lea rdi, [rbp+var_220] call qword ptr [rax] test eax, eax jz short loc_A146B loc_A1432: xor r15d, r15d loc_A1435: mov rdi, r14 mov rsi, rbx call my_delete test eax, eax setnz al mov rcx, fs:28h cmp rcx, [rbp+var_20] jnz short loc_A1489 or al, r15b movzx eax, al and eax, 1 add rsp, 208h pop rbx pop r14 pop r15 pop rbp retn loc_A146B: mov rsi, rbx or rsi, 200h lea rdi, [rbp+var_220] call my_delete test eax, eax setnz r15b jmp short loc_A1435 loc_A1489: call ___stack_chk_fail
long long my_handler_delete_with_symlink(const char *a1, const char *a2) { bool v2; // r15 _BYTE v4[512]; // [rsp+0h] [rbp-220h] BYREF unsigned long long v5; // [rsp+200h] [rbp-20h] v5 = __readfsqword(0x28u); if ( !my_is_symlink((long long)a1) ) { LABEL_4: v2 = 0; return v2 | (unsigned __int8)((unsigned int)my_delete((long long)a1, a2) != 0); } v2 = 0; if ( !(unsigned int)my_realpath((long long)v4, a1, 0) ) { if ( !(unsigned int)mysys_test_invalid_symlink() ) { v2 = (unsigned int)my_delete((long long)v4, (const char *)((unsigned long long)a2 | 0x200)) != 0; return v2 | (unsigned __int8)((unsigned int)my_delete((long long)a1, a2) != 0); } goto LABEL_4; } return v2 | (unsigned __int8)((unsigned int)my_delete((long long)a1, a2) != 0); }
my_handler_delete_with_symlink: PUSH RBP MOV RBP,RSP PUSH R15 PUSH R14 PUSH RBX SUB RSP,0x208 MOV RBX,RSI MOV R14,RDI MOV RAX,qword ptr FS:[0x28] MOV qword ptr [RBP + -0x20],RAX CALL 0x001a0de8 TEST EAX,EAX JZ 0x001a1432 XOR R15D,R15D LEA RDI,[RBP + -0x220] MOV RSI,R14 XOR EDX,EDX CALL 0x001a0e25 TEST EAX,EAX JNZ 0x001a1435 LEA RAX,[0x485ba0] LEA RDI,[RBP + -0x220] CALL qword ptr [RAX] TEST EAX,EAX JZ 0x001a146b LAB_001a1432: XOR R15D,R15D LAB_001a1435: MOV RDI,R14 MOV RSI,RBX CALL 0x0019df60 TEST EAX,EAX SETNZ AL MOV RCX,qword ptr FS:[0x28] CMP RCX,qword ptr [RBP + -0x20] JNZ 0x001a1489 OR AL,R15B MOVZX EAX,AL AND EAX,0x1 ADD RSP,0x208 POP RBX POP R14 POP R15 POP RBP RET LAB_001a146b: MOV RSI,RBX OR RSI,0x200 LEA RDI,[RBP + -0x220] CALL 0x0019df60 TEST EAX,EAX SETNZ R15B JMP 0x001a1435 LAB_001a1489: CALL 0x00129270
byte my_handler_delete_with_symlink(int8 param_1,ulong param_2) { int iVar1; long in_FS_OFFSET; bool bVar2; int1 local_228 [512]; long local_28; local_28 = *(long *)(in_FS_OFFSET + 0x28); iVar1 = my_is_symlink(); if (iVar1 != 0) { bVar2 = false; iVar1 = my_realpath(local_228,param_1,0); if (iVar1 != 0) goto LAB_001a1435; iVar1 = (*(code *)mysys_test_invalid_symlink)(local_228); if (iVar1 == 0) { iVar1 = my_delete(local_228,param_2 | 0x200); bVar2 = iVar1 != 0; goto LAB_001a1435; } } bVar2 = false; LAB_001a1435: iVar1 = my_delete(param_1,param_2); if (*(long *)(in_FS_OFFSET + 0x28) == local_28) { return iVar1 != 0 | bVar2; } /* WARNING: Subroutine does not return */ __stack_chk_fail(); }
40,831
LefDefParser::defiPinAntennaModel::Init()
Efficient-TDP/thirdparty/Limbo/limbo/thirdparty/lefdef/5.8/def/def/defiPinCap.cpp
void defiPinAntennaModel::Init() { numAPinGateArea_ = 0; // 5.4 APinGateAreaAllocated_ = 0; // 5.4 APinGateArea_ = 0; APinGateAreaLayer_ = 0; numAPinMaxAreaCar_ = 0; // 5.4 APinMaxAreaCarAllocated_ = 0; // 5.4 APinMaxAreaCar_ = 0; APinMaxAreaCarLayer_ = 0; numAPinMaxSideAreaCar_ = 0; // 5.4 APinMaxSideAreaCarAllocated_ = 0; // 5.4 APinMaxSideAreaCar_ = 0; APinMaxSideAreaCarLayer_ = 0; numAPinMaxCutCar_ = 0; // 5.4 APinMaxCutCarAllocated_ = 0; // 5.4 APinMaxCutCar_ = 0; APinMaxCutCarLayer_ = 0; }
O0
cpp
LefDefParser::defiPinAntennaModel::Init(): movq %rdi, -0x8(%rsp) movq -0x8(%rsp), %rax movl $0x0, 0x8(%rax) movl $0x0, 0xc(%rax) movq $0x0, 0x10(%rax) movq $0x0, 0x18(%rax) movl $0x0, 0x20(%rax) movl $0x0, 0x24(%rax) movq $0x0, 0x28(%rax) movq $0x0, 0x30(%rax) movl $0x0, 0x38(%rax) movl $0x0, 0x3c(%rax) movq $0x0, 0x40(%rax) movq $0x0, 0x48(%rax) movl $0x0, 0x50(%rax) movl $0x0, 0x54(%rax) movq $0x0, 0x58(%rax) movq $0x0, 0x60(%rax) retq nopw %cs:(%rax,%rax)
_ZN12LefDefParser19defiPinAntennaModel4InitEv: mov [rsp+var_8], rdi mov rax, [rsp+var_8] mov dword ptr [rax+8], 0 mov dword ptr [rax+0Ch], 0 mov qword ptr [rax+10h], 0 mov qword ptr [rax+18h], 0 mov dword ptr [rax+20h], 0 mov dword ptr [rax+24h], 0 mov qword ptr [rax+28h], 0 mov qword ptr [rax+30h], 0 mov dword ptr [rax+38h], 0 mov dword ptr [rax+3Ch], 0 mov qword ptr [rax+40h], 0 mov qword ptr [rax+48h], 0 mov dword ptr [rax+50h], 0 mov dword ptr [rax+54h], 0 mov qword ptr [rax+58h], 0 mov qword ptr [rax+60h], 0 retn
LefDefParser::defiPinAntennaModel * LefDefParser::defiPinAntennaModel::Init( LefDefParser::defiPinAntennaModel *this) { LefDefParser::defiPinAntennaModel *result; // rax result = this; *((_DWORD *)this + 2) = 0; *((_DWORD *)this + 3) = 0; *((_QWORD *)this + 2) = 0LL; *((_QWORD *)this + 3) = 0LL; *((_DWORD *)this + 8) = 0; *((_DWORD *)this + 9) = 0; *((_QWORD *)this + 5) = 0LL; *((_QWORD *)this + 6) = 0LL; *((_DWORD *)this + 14) = 0; *((_DWORD *)this + 15) = 0; *((_QWORD *)this + 8) = 0LL; *((_QWORD *)this + 9) = 0LL; *((_DWORD *)this + 20) = 0; *((_DWORD *)this + 21) = 0; *((_QWORD *)this + 11) = 0LL; *((_QWORD *)this + 12) = 0LL; return result; }
Init: MOV qword ptr [RSP + -0x8],RDI MOV RAX,qword ptr [RSP + -0x8] MOV dword ptr [RAX + 0x8],0x0 MOV dword ptr [RAX + 0xc],0x0 MOV qword ptr [RAX + 0x10],0x0 MOV qword ptr [RAX + 0x18],0x0 MOV dword ptr [RAX + 0x20],0x0 MOV dword ptr [RAX + 0x24],0x0 MOV qword ptr [RAX + 0x28],0x0 MOV qword ptr [RAX + 0x30],0x0 MOV dword ptr [RAX + 0x38],0x0 MOV dword ptr [RAX + 0x3c],0x0 MOV qword ptr [RAX + 0x40],0x0 MOV qword ptr [RAX + 0x48],0x0 MOV dword ptr [RAX + 0x50],0x0 MOV dword ptr [RAX + 0x54],0x0 MOV qword ptr [RAX + 0x58],0x0 MOV qword ptr [RAX + 0x60],0x0 RET
/* LefDefParser::defiPinAntennaModel::Init() */ void __thiscall LefDefParser::defiPinAntennaModel::Init(defiPinAntennaModel *this) { *(int4 *)(this + 8) = 0; *(int4 *)(this + 0xc) = 0; *(int8 *)(this + 0x10) = 0; *(int8 *)(this + 0x18) = 0; *(int4 *)(this + 0x20) = 0; *(int4 *)(this + 0x24) = 0; *(int8 *)(this + 0x28) = 0; *(int8 *)(this + 0x30) = 0; *(int4 *)(this + 0x38) = 0; *(int4 *)(this + 0x3c) = 0; *(int8 *)(this + 0x40) = 0; *(int8 *)(this + 0x48) = 0; *(int4 *)(this + 0x50) = 0; *(int4 *)(this + 0x54) = 0; *(int8 *)(this + 0x58) = 0; *(int8 *)(this + 0x60) = 0; return; }
40,832
LefDefParser::defiPinAntennaModel::Init()
Efficient-TDP/thirdparty/Limbo/limbo/thirdparty/lefdef/5.8/def/def/defiPinCap.cpp
void defiPinAntennaModel::Init() { numAPinGateArea_ = 0; // 5.4 APinGateAreaAllocated_ = 0; // 5.4 APinGateArea_ = 0; APinGateAreaLayer_ = 0; numAPinMaxAreaCar_ = 0; // 5.4 APinMaxAreaCarAllocated_ = 0; // 5.4 APinMaxAreaCar_ = 0; APinMaxAreaCarLayer_ = 0; numAPinMaxSideAreaCar_ = 0; // 5.4 APinMaxSideAreaCarAllocated_ = 0; // 5.4 APinMaxSideAreaCar_ = 0; APinMaxSideAreaCarLayer_ = 0; numAPinMaxCutCar_ = 0; // 5.4 APinMaxCutCarAllocated_ = 0; // 5.4 APinMaxCutCar_ = 0; APinMaxCutCarLayer_ = 0; }
O3
cpp
LefDefParser::defiPinAntennaModel::Init(): xorps %xmm0, %xmm0 movups %xmm0, 0x58(%rdi) movups %xmm0, 0x48(%rdi) movups %xmm0, 0x38(%rdi) movups %xmm0, 0x28(%rdi) movups %xmm0, 0x18(%rdi) movups %xmm0, 0x8(%rdi) retq
_ZN12LefDefParser19defiPinAntennaModel4InitEv: xorps xmm0, xmm0 movups xmmword ptr [rdi+58h], xmm0 movups xmmword ptr [rdi+48h], xmm0 movups xmmword ptr [rdi+38h], xmm0 movups xmmword ptr [rdi+28h], xmm0 movups xmmword ptr [rdi+18h], xmm0 movups xmmword ptr [rdi+8], xmm0 retn
void LefDefParser::defiPinAntennaModel::Init(LefDefParser::defiPinAntennaModel *this) { *(_OWORD *)((char *)this + 88) = 0LL; *(_OWORD *)((char *)this + 72) = 0LL; *(_OWORD *)((char *)this + 56) = 0LL; *(_OWORD *)((char *)this + 40) = 0LL; *(_OWORD *)((char *)this + 24) = 0LL; *(_OWORD *)((char *)this + 8) = 0LL; }
Init: XORPS XMM0,XMM0 MOVUPS xmmword ptr [RDI + 0x58],XMM0 MOVUPS xmmword ptr [RDI + 0x48],XMM0 MOVUPS xmmword ptr [RDI + 0x38],XMM0 MOVUPS xmmword ptr [RDI + 0x28],XMM0 MOVUPS xmmword ptr [RDI + 0x18],XMM0 MOVUPS xmmword ptr [RDI + 0x8],XMM0 RET
/* LefDefParser::defiPinAntennaModel::Init() */ void __thiscall LefDefParser::defiPinAntennaModel::Init(defiPinAntennaModel *this) { *(int8 *)(this + 0x58) = 0; *(int8 *)(this + 0x60) = 0; *(int8 *)(this + 0x48) = 0; *(int8 *)(this + 0x50) = 0; *(int8 *)(this + 0x38) = 0; *(int8 *)(this + 0x40) = 0; *(int8 *)(this + 0x28) = 0; *(int8 *)(this + 0x30) = 0; *(int8 *)(this + 0x18) = 0; *(int8 *)(this + 0x20) = 0; *(int8 *)(this + 8) = 0; *(int8 *)(this + 0x10) = 0; return; }
40,833
minja::Parser::parseExpansion()
monkey531[P]llama/common/minja.hpp
std::shared_ptr<Expression> parseExpansion() { static std::regex expansion_tok(R"(\*\*?)"); auto op_str = consumeToken(expansion_tok); auto expr = parseValueExpression(); if (op_str.empty()) return expr; if (!expr) throw std::runtime_error("Expected expr of 'expansion' expression"); return std::make_shared<UnaryOpExpr>(get_location(), std::move(expr), op_str == "*" ? UnaryOpExpr::Op::Expansion : UnaryOpExpr::Op::ExpansionDict); }
O1
cpp
minja::Parser::parseExpansion(): pushq %r14 pushq %rbx subq $0x78, %rsp movq %rsi, %r14 movq %rdi, %rbx leaq 0xa7784(%rip), %rax # 0x13e190 movb (%rax), %al testb %al, %al je 0x96b53 leaq 0xa7753(%rip), %rdx # 0x13e170 leaq 0x40(%rsp), %rdi movq %r14, %rsi movl $0x1, %ecx callq 0x91b2e leaq 0x10(%rsp), %rdi movq %r14, %rsi callq 0x96c48 cmpq $0x0, 0x48(%rsp) movq 0x10(%rsp), %rax je 0x96a79 testq %rax, %rax je 0x96baa movq (%r14), %rax movq %rax, 0x60(%rsp) movq 0x8(%r14), %rax movq %rax, 0x68(%rsp) testq %rax, %rax je 0x96a9e movq 0xa6511(%rip), %rcx # 0x13cf80 cmpb $0x0, (%rcx) je 0x96a9a incl 0x8(%rax) jmp 0x96a9e movq %rax, (%rbx) xorl %eax, %eax movq %rax, 0x8(%rbx) movq 0x18(%rsp), %rcx movq %rax, 0x18(%rsp) movq %rcx, 0x8(%rbx) movq %rax, 0x10(%rsp) jmp 0x96b1e lock incl 0x8(%rax) movq 0x20(%r14), %rax subq 0x10(%r14), %rax leaq 0x60(%rsp), %r14 movq %rax, 0x10(%r14) leaq 0x6fe62(%rip), %rsi # 0x106918 leaq 0x40(%rsp), %rdi callq 0x1b220 cmpl $0x1, %eax movl $0x4, %eax sbbl $0x0, %eax leaq 0x3c(%rsp), %r9 movl %eax, (%r9) leaq 0x28(%rsp), %rdi movq $0x0, -0x8(%rdi) leaq 0x20(%rsp), %rsi leaq 0xf(%rsp), %rdx leaq 0x10(%rsp), %r8 movq %r14, %rcx callq 0xa347a xorl %eax, %eax movq %rax, 0x8(%rbx) movaps 0x20(%rsp), %xmm0 movq %rax, 0x28(%rsp) movups %xmm0, (%rbx) movq %rax, 0x20(%rsp) movq 0x68(%rsp), %rdi testq %rdi, %rdi je 0x96b1e callq 0x7ae1c movq 0x18(%rsp), %rdi testq %rdi, %rdi je 0x96b2d callq 0x7ae1c leaq 0x50(%rsp), %rax movq -0x10(%rax), %rdi cmpq %rax, %rdi je 0x96b48 movq 0x50(%rsp), %rsi incq %rsi callq 0x1b8f0 movq %rbx, %rax addq $0x78, %rsp popq %rbx popq %r14 retq leaq 0xa7636(%rip), %rdi # 0x13e190 callq 0x1c090 testl %eax, %eax je 0x96a16 leaq 0xa7602(%rip), %rdi # 0x13e170 leaq 0x695c7(%rip), %rsi # 0x10013c movl $0x10, %edx callq 0x6fe4c leaq -0x26a32(%rip), %rdi # 0x70154 leaq 0xa75e3(%rip), %rsi # 0x13e170 leaq 0xa6da4(%rip), %rdx # 0x13d938 callq 0x1b7d0 leaq 0xa75f0(%rip), %rdi # 0x13e190 callq 0x1b5c0 jmp 0x96a16 movl $0x10, %edi callq 0x1b450 movq %rax, %r14 leaq 0x69584(%rip), %rsi # 0x100142 movq %rax, %rdi callq 0x1b330 movq 0xa641b(%rip), %rsi # 0x13cfe8 movq 0xa6384(%rip), %rdx # 0x13cf58 movq %r14, %rdi callq 0x1bf90 movq %rax, %rbx leaq 0xa75aa(%rip), %rdi # 0x13e190 callq 0x1b5b0 jmp 0x96c40 movq %rax, %rbx jmp 0x96c11 movq %rax, %rbx movq %r14, %rdi callq 0x1b680 jmp 0x96c11 movq %rax, %rbx movq 0x68(%rsp), %rdi testq %rdi, %rdi je 0x96c11 callq 0x7ae1c movq 0x18(%rsp), %rdi testq %rdi, %rdi je 0x96c25 callq 0x7ae1c jmp 0x96c25 movq %rax, %rbx leaq 0x50(%rsp), %rax movq -0x10(%rax), %rdi cmpq %rax, %rdi je 0x96c40 movq 0x50(%rsp), %rsi incq %rsi callq 0x1b8f0 movq %rbx, %rdi callq 0x1c020
_ZN5minja6Parser14parseExpansionEv: push r14 push rbx sub rsp, 78h mov r14, rsi mov rbx, rdi lea rax, _ZGVZN5minja6Parser14parseExpansionEvE13expansion_tokB5cxx11; `guard variable for'minja::Parser::parseExpansion(void)::expansion_tok mov al, [rax] test al, al jz loc_96B53 loc_96A16: lea rdx, _ZZN5minja6Parser14parseExpansionEvE13expansion_tokB5cxx11; minja::Parser::parseExpansion(void)::expansion_tok lea rdi, [rsp+88h+var_48] mov rsi, r14 mov ecx, 1 call _ZN5minja6Parser12consumeTokenERKNSt7__cxx1111basic_regexIcNS1_12regex_traitsIcEEEENS_13SpaceHandlingE; minja::Parser::consumeToken(std::basic_regex<char,std::regex_traits<char>> const&,minja::SpaceHandling) lea rdi, [rsp+88h+var_78]; this mov rsi, r14 call _ZN5minja6Parser20parseValueExpressionEv; minja::Parser::parseValueExpression(void) cmp [rsp+88h+var_40], 0 mov rax, [rsp+88h+var_78] jz short loc_96A79 test rax, rax jz loc_96BAA mov rax, [r14] mov [rsp+88h+var_28], rax mov rax, [r14+8] mov [rsp+88h+var_20], rax test rax, rax jz short loc_96A9E mov rcx, cs:__libc_single_threaded_ptr cmp byte ptr [rcx], 0 jz short loc_96A9A inc dword ptr [rax+8] jmp short loc_96A9E loc_96A79: mov [rbx], rax xor eax, eax mov [rbx+8], rax mov rcx, [rsp+88h+var_70] mov [rsp+88h+var_70], rax mov [rbx+8], rcx mov [rsp+88h+var_78], rax jmp loc_96B1E loc_96A9A: lock inc dword ptr [rax+8] loc_96A9E: mov rax, [r14+20h] sub rax, [r14+10h] lea r14, [rsp+88h+var_28] mov [r14+10h], rax lea rsi, asc_106917+1; "*" lea rdi, [rsp+88h+var_48] call __ZNKSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE7compareEPKc; std::string::compare(char const*) cmp eax, 1 mov eax, 4 sbb eax, 0 lea r9, [rsp+88h+var_4C] mov [r9], eax lea rdi, [rsp+88h+var_68+8] mov qword ptr [rdi-8], 0 lea rsi, [rsp+88h+var_68] lea rdx, [rsp+88h+var_79] lea r8, [rsp+88h+var_78] mov rcx, r14 call _ZNSt14__shared_countILN9__gnu_cxx12_Lock_policyE2EEC2IN5minja11UnaryOpExprESaIS5_EJNS4_8LocationESt10shared_ptrINS4_10ExpressionEENS5_2OpEEEERPT_St20_Sp_alloc_shared_tagIT0_EDpOT1_; std::__shared_count<(__gnu_cxx::_Lock_policy)2>::__shared_count<minja::UnaryOpExpr,std::allocator<minja::UnaryOpExpr>,minja::Location,std::shared_ptr<minja::Expression>,minja::UnaryOpExpr::Op>(minja::UnaryOpExpr *&,std::_Sp_alloc_shared_tag<std::allocator<minja::UnaryOpExpr>>,minja::Location,std::shared_ptr<minja::Expression>,minja::UnaryOpExpr::Op &&) xor eax, eax mov [rbx+8], rax movaps xmm0, [rsp+88h+var_68] mov qword ptr [rsp+88h+var_68+8], rax movups xmmword ptr [rbx], xmm0 mov qword ptr [rsp+88h+var_68], rax mov rdi, [rsp+88h+var_20] test rdi, rdi jz short loc_96B1E call _ZNSt16_Sp_counted_baseILN9__gnu_cxx12_Lock_policyE2EE10_M_releaseEv; std::_Sp_counted_base<(__gnu_cxx::_Lock_policy)2>::_M_release(void) loc_96B1E: mov rdi, [rsp+88h+var_70] test rdi, rdi jz short loc_96B2D call _ZNSt16_Sp_counted_baseILN9__gnu_cxx12_Lock_policyE2EE10_M_releaseEv; std::_Sp_counted_base<(__gnu_cxx::_Lock_policy)2>::_M_release(void) loc_96B2D: lea rax, [rsp+88h+var_38] mov rdi, [rax-10h]; void * cmp rdi, rax jz short loc_96B48 mov rsi, [rsp+88h+var_38] inc rsi; unsigned __int64 call __ZdlPvm; operator delete(void *,ulong) loc_96B48: mov rax, rbx add rsp, 78h pop rbx pop r14 retn loc_96B53: lea rdi, _ZGVZN5minja6Parser14parseExpansionEvE13expansion_tokB5cxx11; __guard * call ___cxa_guard_acquire test eax, eax jz loc_96A16 lea rdi, _ZZN5minja6Parser14parseExpansionEvE13expansion_tokB5cxx11; minja::Parser::parseExpansion(void)::expansion_tok lea rsi, asc_10013C; "\\*\\*?" mov edx, 10h call _ZNSt7__cxx1111basic_regexIcNS_12regex_traitsIcEEEC2EPKcNSt15regex_constants18syntax_option_typeE; std::basic_regex<char,std::regex_traits<char>>::basic_regex(char const*,std::regex_constants::syntax_option_type) lea rdi, _ZNSt7__cxx1111basic_regexIcNS_12regex_traitsIcEEED2Ev; lpfunc lea rsi, _ZZN5minja6Parser14parseExpansionEvE13expansion_tokB5cxx11; obj lea rdx, __dso_handle; lpdso_handle call ___cxa_atexit lea rdi, _ZGVZN5minja6Parser14parseExpansionEvE13expansion_tokB5cxx11; __guard * call ___cxa_guard_release jmp loc_96A16 loc_96BAA: mov edi, 10h; thrown_size call ___cxa_allocate_exception mov r14, rax lea rsi, aExpectedExprOf_0; "Expected expr of 'expansion' expression" mov rdi, rax; this call __ZNSt13runtime_errorC1EPKc; std::runtime_error::runtime_error(char const*) mov rsi, cs:_ZTISt13runtime_error_ptr; lptinfo mov rdx, cs:_ZTISt19_Sp_make_shared_tag; void (*)(void *) mov rdi, r14; void * call ___cxa_throw mov rbx, rax lea rdi, _ZGVZN5minja6Parser14parseExpansionEvE13expansion_tokB5cxx11; __guard * call ___cxa_guard_abort jmp short loc_96C40 mov rbx, rax jmp short loc_96C11 mov rbx, rax mov rdi, r14; void * call ___cxa_free_exception jmp short loc_96C11 mov rbx, rax mov rdi, [rsp+88h+var_20] test rdi, rdi jz short loc_96C11 call _ZNSt16_Sp_counted_baseILN9__gnu_cxx12_Lock_policyE2EE10_M_releaseEv; std::_Sp_counted_base<(__gnu_cxx::_Lock_policy)2>::_M_release(void) loc_96C11: mov rdi, [rsp+88h+var_70] test rdi, rdi jz short loc_96C25 call _ZNSt16_Sp_counted_baseILN9__gnu_cxx12_Lock_policyE2EE10_M_releaseEv; std::_Sp_counted_base<(__gnu_cxx::_Lock_policy)2>::_M_release(void) jmp short loc_96C25 mov rbx, rax loc_96C25: lea rax, [rsp+88h+var_38] mov rdi, [rax-10h]; void * cmp rdi, rax jz short loc_96C40 mov rsi, [rsp+88h+var_38] inc rsi; unsigned __int64 call __ZdlPvm; operator delete(void *,ulong) loc_96C40: mov rdi, rbx call __Unwind_Resume
minja::Parser * minja::Parser::parseExpansion(minja::Parser *this, long long *a2) { volatile signed __int32 *v2; // rax volatile signed __int32 *v3; // rcx __int128 v4; // xmm0 std::runtime_error *exception; // r14 char v7; // [rsp+Fh] [rbp-79h] BYREF long long v8; // [rsp+10h] [rbp-78h] BYREF volatile signed __int32 *v9; // [rsp+18h] [rbp-70h] __int128 v10; // [rsp+20h] [rbp-68h] BYREF int v11; // [rsp+3Ch] [rbp-4Ch] void *v12[2]; // [rsp+40h] [rbp-48h] BYREF long long v13; // [rsp+50h] [rbp-38h] BYREF long long v14; // [rsp+60h] [rbp-28h] BYREF volatile signed __int32 *v15; // [rsp+68h] [rbp-20h] long long v16; // [rsp+70h] [rbp-18h] if ( !(_BYTE)`guard variable for'minja::Parser::parseExpansion(void)::expansion_tok[abi:cxx11] && __cxa_guard_acquire(&`guard variable for'minja::Parser::parseExpansion(void)::expansion_tok[abi:cxx11]) ) { std::basic_regex<char,std::regex_traits<char>>::basic_regex( (long long)&minja::Parser::parseExpansion(void)::expansion_tok[abi:cxx11], (long long)"\\*\\*?", 0x10u); __cxa_atexit( (void (*)(void *))std::basic_regex<char,std::regex_traits<char>>::~basic_regex, &minja::Parser::parseExpansion(void)::expansion_tok[abi:cxx11], &_dso_handle); __cxa_guard_release(&`guard variable for'minja::Parser::parseExpansion(void)::expansion_tok[abi:cxx11]); } minja::Parser::consumeToken( (long long)v12, (long long)a2, (long long)&minja::Parser::parseExpansion(void)::expansion_tok[abi:cxx11], 1u); minja::Parser::parseValueExpression((minja::Parser *)&v8); if ( v12[1] ) { if ( !v8 ) { exception = (std::runtime_error *)__cxa_allocate_exception(0x10uLL); std::runtime_error::runtime_error(exception, "Expected expr of 'expansion' expression"); __cxa_throw( exception, (struct type_info *)&`typeinfo for'std::runtime_error, (void (*)(void *))&std::runtime_error::~runtime_error); } v14 = *a2; v2 = (volatile signed __int32 *)a2[1]; v15 = v2; if ( v2 ) { if ( _libc_single_threaded ) ++*((_DWORD *)v2 + 2); else _InterlockedIncrement(v2 + 2); } v16 = a2[4] - a2[2]; v11 = 4 - ((unsigned int)std::string::compare(v12, "*") == 0); *(_QWORD *)&v10 = 0LL; std::__shared_count<(__gnu_cxx::_Lock_policy)2>::__shared_count<minja::UnaryOpExpr,std::allocator<minja::UnaryOpExpr>,minja::Location,std::shared_ptr<minja::Expression>,minja::UnaryOpExpr::Op>( (char *)&v10 + 8, &v10, &v7, &v14, &v8); *((_QWORD *)this + 1) = 0LL; v4 = v10; *((_QWORD *)&v10 + 1) = 0LL; *(_OWORD *)this = v4; *(_QWORD *)&v10 = 0LL; if ( v15 ) std::_Sp_counted_base<(__gnu_cxx::_Lock_policy)2>::_M_release(v15); } else { *(_QWORD *)this = v8; *((_QWORD *)this + 1) = 0LL; v3 = v9; v9 = 0LL; *((_QWORD *)this + 1) = v3; v8 = 0LL; } if ( v9 ) std::_Sp_counted_base<(__gnu_cxx::_Lock_policy)2>::_M_release(v9); if ( v12[0] != &v13 ) operator delete(v12[0], v13 + 1); return this; }
parseExpansion: PUSH R14 PUSH RBX SUB RSP,0x78 MOV R14,RSI MOV RBX,RDI LEA RAX,[0x23e190] MOV AL,byte ptr [RAX] TEST AL,AL JZ 0x00196b53 LAB_00196a16: LEA RDX,[0x23e170] LEA RDI,[RSP + 0x40] MOV RSI,R14 MOV ECX,0x1 CALL 0x00191b2e LAB_00196a2f: LEA RDI,[RSP + 0x10] MOV RSI,R14 CALL 0x00196c48 CMP qword ptr [RSP + 0x48],0x0 MOV RAX,qword ptr [RSP + 0x10] JZ 0x00196a79 TEST RAX,RAX JZ 0x00196baa MOV RAX,qword ptr [R14] MOV qword ptr [RSP + 0x60],RAX MOV RAX,qword ptr [R14 + 0x8] MOV qword ptr [RSP + 0x68],RAX TEST RAX,RAX JZ 0x00196a9e MOV RCX,qword ptr [0x0023cf80] CMP byte ptr [RCX],0x0 JZ 0x00196a9a INC dword ptr [RAX + 0x8] JMP 0x00196a9e LAB_00196a79: MOV qword ptr [RBX],RAX XOR EAX,EAX MOV qword ptr [RBX + 0x8],RAX MOV RCX,qword ptr [RSP + 0x18] MOV qword ptr [RSP + 0x18],RAX MOV qword ptr [RBX + 0x8],RCX MOV qword ptr [RSP + 0x10],RAX JMP 0x00196b1e LAB_00196a9a: INC.LOCK dword ptr [RAX + 0x8] LAB_00196a9e: MOV RAX,qword ptr [R14 + 0x20] SUB RAX,qword ptr [R14 + 0x10] LEA R14,[RSP + 0x60] MOV qword ptr [R14 + 0x10],RAX LEA RSI,[0x206918] LEA RDI,[RSP + 0x40] CALL 0x0011b220 CMP EAX,0x1 MOV EAX,0x4 SBB EAX,0x0 LEA R9,[RSP + 0x3c] MOV dword ptr [R9],EAX LEA RDI,[RSP + 0x28] MOV qword ptr [RDI + -0x8],0x0 LAB_00196ae0: LEA RSI,[RSP + 0x20] LEA RDX,[RSP + 0xf] LEA R8,[RSP + 0x10] MOV RCX,R14 CALL 0x001a347a XOR EAX,EAX MOV qword ptr [RBX + 0x8],RAX MOVAPS XMM0,xmmword ptr [RSP + 0x20] MOV qword ptr [RSP + 0x28],RAX MOVUPS xmmword ptr [RBX],XMM0 MOV qword ptr [RSP + 0x20],RAX MOV RDI,qword ptr [RSP + 0x68] TEST RDI,RDI JZ 0x00196b1e CALL 0x0017ae1c LAB_00196b1e: MOV RDI,qword ptr [RSP + 0x18] TEST RDI,RDI JZ 0x00196b2d CALL 0x0017ae1c LAB_00196b2d: LEA RAX,[RSP + 0x50] MOV RDI,qword ptr [RAX + -0x10] CMP RDI,RAX JZ 0x00196b48 MOV RSI,qword ptr [RSP + 0x50] INC RSI CALL 0x0011b8f0 LAB_00196b48: MOV RAX,RBX ADD RSP,0x78 POP RBX POP R14 RET LAB_00196b53: LEA RDI,[0x23e190] CALL 0x0011c090 TEST EAX,EAX JZ 0x00196a16 LAB_00196b67: LEA RDI,[0x23e170] LEA RSI,[0x20013c] MOV EDX,0x10 CALL 0x0016fe4c LAB_00196b7f: LEA RDI,[0x170154] LEA RSI,[0x23e170] LEA RDX,[0x23d938] CALL 0x0011b7d0 LEA RDI,[0x23e190] CALL 0x0011b5c0 JMP 0x00196a16 LAB_00196baa: MOV EDI,0x10 CALL 0x0011b450 MOV R14,RAX LAB_00196bb7: LEA RSI,[0x200142] MOV RDI,RAX CALL 0x0011b330 LAB_00196bc6: MOV RSI,qword ptr [0x0023cfe8] MOV RDX,qword ptr [0x0023cf58] MOV RDI,R14 CALL 0x0011bf90
/* minja::Parser::parseExpansion() */ void minja::Parser::parseExpansion(void) { _Sp_counted_base<(__gnu_cxx::_Lock_policy)2> *p_Var1; long lVar2; int iVar3; runtime_error *this; int8 *in_RSI; long *in_RDI; int1 local_79; long local_78; _Sp_counted_base<(__gnu_cxx::_Lock_policy)2> *local_70; long local_68; long alStack_60 [2]; int local_4c; long *local_48; long local_40; long local_38 [2]; int8 local_28; _Sp_counted_base<(__gnu_cxx::_Lock_policy)2> *local_20; long local_18; if (parseExpansion()::expansion_tok_abi_cxx11_ == '\0') { iVar3 = __cxa_guard_acquire(&parseExpansion()::expansion_tok_abi_cxx11_); if (iVar3 != 0) { /* try { // try from 00196b67 to 00196b7e has its CatchHandler @ 00196bdc */ std::__cxx11::basic_regex<char,std::__cxx11::regex_traits<char>>::basic_regex ((basic_regex<char,std::__cxx11::regex_traits<char>> *) parseExpansion()::expansion_tok_abi_cxx11_,"\\*\\*?",0x10); __cxa_atexit(std::__cxx11::basic_regex<char,std::__cxx11::regex_traits<char>>::~basic_regex, parseExpansion()::expansion_tok_abi_cxx11_,&__dso_handle); __cxa_guard_release(&parseExpansion()::expansion_tok_abi_cxx11_); } } consumeToken(&local_48); /* try { // try from 00196a2f to 00196a3b has its CatchHandler @ 00196c22 */ parseValueExpression(); p_Var1 = local_70; if (local_40 == 0) { *in_RDI = local_78; in_RDI[1] = 0; local_70 = (_Sp_counted_base<(__gnu_cxx::_Lock_policy)2> *)0x0; in_RDI[1] = (long)p_Var1; local_78 = 0; } else { if (local_78 == 0) { this = (runtime_error *)__cxa_allocate_exception(0x10); /* try { // try from 00196bb7 to 00196bc5 has its CatchHandler @ 00196bf2 */ std::runtime_error::runtime_error(this,"Expected expr of \'expansion\' expression"); /* try { // try from 00196bc6 to 00196bdb has its CatchHandler @ 00196bed */ /* WARNING: Subroutine does not return */ __cxa_throw(this,PTR_typeinfo_0023cfe8,PTR__runtime_error_0023cf58); } local_28 = *in_RSI; local_20 = (_Sp_counted_base<(__gnu_cxx::_Lock_policy)2> *)in_RSI[1]; if (local_20 != (_Sp_counted_base<(__gnu_cxx::_Lock_policy)2> *)0x0) { if (*PTR___libc_single_threaded_0023cf80 == '\0') { LOCK(); *(int *)(local_20 + 8) = *(int *)(local_20 + 8) + 1; UNLOCK(); } else { *(int *)(local_20 + 8) = *(int *)(local_20 + 8) + 1; } } local_18 = in_RSI[4] - in_RSI[2]; iVar3 = std::__cxx11::string::compare((char *)&local_48); local_4c = 4 - (uint)(iVar3 == 0); local_68 = 0; /* try { // try from 00196ae0 to 00196af6 has its CatchHandler @ 00196bff */ std::__shared_count<(__gnu_cxx::_Lock_policy)2>:: __shared_count<minja::UnaryOpExpr,std::allocator<minja::UnaryOpExpr>,minja::Location,std::shared_ptr<minja::Expression>,minja::UnaryOpExpr::Op> ((__shared_count<(__gnu_cxx::_Lock_policy)2> *)alStack_60,&local_68,&local_79, &local_28,&local_78); lVar2 = alStack_60[0]; in_RDI[1] = 0; alStack_60[0] = 0; *in_RDI = local_68; in_RDI[1] = lVar2; local_68 = 0; if (local_20 != (_Sp_counted_base<(__gnu_cxx::_Lock_policy)2> *)0x0) { std::_Sp_counted_base<(__gnu_cxx::_Lock_policy)2>::_M_release(local_20); } } if (local_70 != (_Sp_counted_base<(__gnu_cxx::_Lock_policy)2> *)0x0) { std::_Sp_counted_base<(__gnu_cxx::_Lock_policy)2>::_M_release(local_70); } if (local_48 != local_38) { operator_delete(local_48,local_38[0] + 1); } return; }
40,834
mysql_real_query
eloqsql/libmariadb/libmariadb/mariadb_lib.c
int STDCALL mysql_real_query(MYSQL *mysql, const char *query, unsigned long length) { my_bool skip_result= OPT_EXT_VAL(mysql, multi_command); if (length == (unsigned long)-1) length= (unsigned long)strlen(query); free_old_query(mysql); if (ma_simple_command(mysql, COM_QUERY,query,length,1,0)) return(-1); if (!skip_result && !mysql->options.extension->skip_read_response) return(mysql->methods->db_read_query_result(mysql)); return(0); }
O0
c
mysql_real_query: pushq %rbp movq %rsp, %rbp subq $0x30, %rsp movq %rdi, -0x10(%rbp) movq %rsi, -0x18(%rbp) movq %rdx, -0x20(%rbp) movq -0x10(%rbp), %rax cmpq $0x0, 0x480(%rax) je 0x37840 movq -0x10(%rbp), %rax movq 0x480(%rax), %rax movsbl 0xa8(%rax), %eax cmpl $0x0, %eax je 0x37840 movq -0x10(%rbp), %rax movq 0x480(%rax), %rax movsbl 0xa8(%rax), %eax movl %eax, -0x28(%rbp) jmp 0x37847 xorl %eax, %eax movl %eax, -0x28(%rbp) jmp 0x37847 movl -0x28(%rbp), %eax movb %al, -0x21(%rbp) cmpq $-0x1, -0x20(%rbp) jne 0x37861 movq -0x18(%rbp), %rdi callq 0x141a0 movq %rax, -0x20(%rbp) movq -0x10(%rbp), %rdi callq 0x38970 movq -0x10(%rbp), %rdi movq -0x18(%rbp), %rdx movq -0x20(%rbp), %rcx movl $0x3, %esi movl $0x1, %r8d xorl %eax, %eax movl %eax, %r9d callq 0x31620 cmpl $0x0, %eax je 0x37899 movl $0xffffffff, -0x4(%rbp) # imm = 0xFFFFFFFF jmp 0x378d4 cmpb $0x0, -0x21(%rbp) jne 0x378cd movq -0x10(%rbp), %rax movq 0x480(%rax), %rax cmpb $0x0, 0x148(%rax) jne 0x378cd movq -0x10(%rbp), %rax movq 0x4d0(%rax), %rax movq 0x20(%rax), %rax movq -0x10(%rbp), %rdi callq *%rax movl %eax, -0x4(%rbp) jmp 0x378d4 movl $0x0, -0x4(%rbp) movl -0x4(%rbp), %eax addq $0x30, %rsp popq %rbp retq nopl (%rax)
mysql_real_query: push rbp mov rbp, rsp sub rsp, 30h mov [rbp+var_10], rdi mov [rbp+var_18], rsi mov [rbp+var_20], rdx mov rax, [rbp+var_10] cmp qword ptr [rax+480h], 0 jz short loc_37840 mov rax, [rbp+var_10] mov rax, [rax+480h] movsx eax, byte ptr [rax+0A8h] cmp eax, 0 jz short loc_37840 mov rax, [rbp+var_10] mov rax, [rax+480h] movsx eax, byte ptr [rax+0A8h] mov [rbp+var_28], eax jmp short loc_37847 loc_37840: xor eax, eax mov [rbp+var_28], eax jmp short $+2 loc_37847: mov eax, [rbp+var_28] mov [rbp+var_21], al cmp [rbp+var_20], 0FFFFFFFFFFFFFFFFh jnz short loc_37861 mov rdi, [rbp+var_18] call _strlen mov [rbp+var_20], rax loc_37861: mov rdi, [rbp+var_10] call free_old_query mov rdi, [rbp+var_10] mov rdx, [rbp+var_18] mov rcx, [rbp+var_20] mov esi, 3 mov r8d, 1 xor eax, eax mov r9d, eax call ma_simple_command cmp eax, 0 jz short loc_37899 mov [rbp+var_4], 0FFFFFFFFh jmp short loc_378D4 loc_37899: cmp [rbp+var_21], 0 jnz short loc_378CD mov rax, [rbp+var_10] mov rax, [rax+480h] cmp byte ptr [rax+148h], 0 jnz short loc_378CD mov rax, [rbp+var_10] mov rax, [rax+4D0h] mov rax, [rax+20h] mov rdi, [rbp+var_10] call rax mov [rbp+var_4], eax jmp short loc_378D4 loc_378CD: mov [rbp+var_4], 0 loc_378D4: mov eax, [rbp+var_4] add rsp, 30h pop rbp retn
long long mysql_real_query(long long a1, long long a2, long long a3) { char v4; // [rsp+8h] [rbp-28h] long long v5; // [rsp+10h] [rbp-20h] v5 = a3; if ( *(_QWORD *)(a1 + 1152) && *(_BYTE *)(*(_QWORD *)(a1 + 1152) + 168LL) ) v4 = *(_BYTE *)(*(_QWORD *)(a1 + 1152) + 168LL); else v4 = 0; if ( a3 == -1 ) v5 = strlen(a2); free_old_query(a1); if ( (unsigned int)ma_simple_command(a1, 3u, a2, v5, 1, 0LL) ) { return (unsigned int)-1; } else if ( v4 || *(_BYTE *)(*(_QWORD *)(a1 + 1152) + 328LL) ) { return 0; } else { return (unsigned int)(*(long long ( **)(long long))(*(_QWORD *)(a1 + 1232) + 32LL))(a1); } }
mysql_real_query: PUSH RBP MOV RBP,RSP SUB RSP,0x30 MOV qword ptr [RBP + -0x10],RDI MOV qword ptr [RBP + -0x18],RSI MOV qword ptr [RBP + -0x20],RDX MOV RAX,qword ptr [RBP + -0x10] CMP qword ptr [RAX + 0x480],0x0 JZ 0x00137840 MOV RAX,qword ptr [RBP + -0x10] MOV RAX,qword ptr [RAX + 0x480] MOVSX EAX,byte ptr [RAX + 0xa8] CMP EAX,0x0 JZ 0x00137840 MOV RAX,qword ptr [RBP + -0x10] MOV RAX,qword ptr [RAX + 0x480] MOVSX EAX,byte ptr [RAX + 0xa8] MOV dword ptr [RBP + -0x28],EAX JMP 0x00137847 LAB_00137840: XOR EAX,EAX MOV dword ptr [RBP + -0x28],EAX JMP 0x00137847 LAB_00137847: MOV EAX,dword ptr [RBP + -0x28] MOV byte ptr [RBP + -0x21],AL CMP qword ptr [RBP + -0x20],-0x1 JNZ 0x00137861 MOV RDI,qword ptr [RBP + -0x18] CALL 0x001141a0 MOV qword ptr [RBP + -0x20],RAX LAB_00137861: MOV RDI,qword ptr [RBP + -0x10] CALL 0x00138970 MOV RDI,qword ptr [RBP + -0x10] MOV RDX,qword ptr [RBP + -0x18] MOV RCX,qword ptr [RBP + -0x20] MOV ESI,0x3 MOV R8D,0x1 XOR EAX,EAX MOV R9D,EAX CALL 0x00131620 CMP EAX,0x0 JZ 0x00137899 MOV dword ptr [RBP + -0x4],0xffffffff JMP 0x001378d4 LAB_00137899: CMP byte ptr [RBP + -0x21],0x0 JNZ 0x001378cd MOV RAX,qword ptr [RBP + -0x10] MOV RAX,qword ptr [RAX + 0x480] CMP byte ptr [RAX + 0x148],0x0 JNZ 0x001378cd MOV RAX,qword ptr [RBP + -0x10] MOV RAX,qword ptr [RAX + 0x4d0] MOV RAX,qword ptr [RAX + 0x20] MOV RDI,qword ptr [RBP + -0x10] CALL RAX MOV dword ptr [RBP + -0x4],EAX JMP 0x001378d4 LAB_001378cd: MOV dword ptr [RBP + -0x4],0x0 LAB_001378d4: MOV EAX,dword ptr [RBP + -0x4] ADD RSP,0x30 POP RBP RET
int4 mysql_real_query(long param_1,char *param_2,size_t param_3) { char cVar1; int iVar2; int8 local_28; int4 local_c; if ((*(long *)(param_1 + 0x480) == 0) || (*(char *)(*(long *)(param_1 + 0x480) + 0xa8) == '\0')) { cVar1 = '\0'; } else { cVar1 = *(char *)(*(long *)(param_1 + 0x480) + 0xa8); } local_28 = param_3; if (param_3 == 0xffffffffffffffff) { local_28 = strlen(param_2); } free_old_query(param_1); iVar2 = ma_simple_command(param_1,3,param_2,local_28,1,0); if (iVar2 == 0) { if ((cVar1 == '\0') && (*(char *)(*(long *)(param_1 + 0x480) + 0x148) == '\0')) { local_c = (**(code **)(*(long *)(param_1 + 0x4d0) + 0x20))(param_1); } else { local_c = 0; } } else { local_c = 0xffffffff; } return local_c; }
40,835
ftxui::(anonymous namespace)::VBox::ComputeRequirement()
Andrewchistyakov[P]flashcards_lyc/build_O0/_deps/ftxui-src/src/ftxui/dom/vbox.cpp
void ComputeRequirement() override { requirement_.min_x = 0; requirement_.min_y = 0; requirement_.flex_grow_x = 0; requirement_.flex_grow_y = 0; requirement_.flex_shrink_x = 0; requirement_.flex_shrink_y = 0; requirement_.selection = Requirement::NORMAL; for (auto& child : children_) { child->ComputeRequirement(); if (requirement_.selection < child->requirement().selection) { requirement_.selection = child->requirement().selection; requirement_.selected_box = child->requirement().selected_box; requirement_.selected_box.y_min += requirement_.min_y; requirement_.selected_box.y_max += requirement_.min_y; } requirement_.min_y += child->requirement().min_y; requirement_.min_x = std::max(requirement_.min_x, child->requirement().min_x); } }
O0
cpp
ftxui::(anonymous namespace)::VBox::ComputeRequirement(): pushq %rbp movq %rsp, %rbp subq $0x120, %rsp # imm = 0x120 movq %rdi, -0x8(%rbp) movq -0x8(%rbp), %rax movq %rax, -0x110(%rbp) movl $0x0, 0x20(%rax) movl $0x0, 0x24(%rax) movl $0x0, 0x28(%rax) movl $0x0, 0x2c(%rax) movl $0x0, 0x30(%rax) movl $0x0, 0x34(%rax) movl $0x0, 0x38(%rax) addq $0x8, %rax movq %rax, -0x10(%rbp) movq -0x10(%rbp), %rdi callq 0x24830 movq %rax, -0x18(%rbp) movq -0x10(%rbp), %rdi callq 0x24670 movq %rax, -0x20(%rbp) leaq -0x18(%rbp), %rdi leaq -0x20(%rbp), %rsi callq 0x43cc0 testb $0x1, %al jne 0x4d983 jmp 0x4dab9 leaq -0x18(%rbp), %rdi callq 0x24d40 movq %rax, -0x28(%rbp) movq -0x28(%rbp), %rdi callq 0x3e6c0 movq %rax, %rdi movq (%rdi), %rax callq *0x10(%rax) movq -0x110(%rbp), %rax movl 0x38(%rax), %eax movl %eax, -0x114(%rbp) movq -0x28(%rbp), %rdi callq 0x3e6c0 movq %rax, %rsi leaq -0x54(%rbp), %rdi callq 0x3e6e0 movl -0x114(%rbp), %eax cmpl -0x3c(%rbp), %eax jge 0x4da3b movq -0x28(%rbp), %rdi callq 0x3e6c0 movq %rax, %rsi leaq -0x80(%rbp), %rdi callq 0x3e6e0 movq -0x110(%rbp), %rax movl -0x68(%rbp), %ecx movl %ecx, 0x38(%rax) movq -0x28(%rbp), %rdi callq 0x3e6c0 movq %rax, %rsi leaq -0xac(%rbp), %rdi callq 0x3e6e0 movq -0x110(%rbp), %rax movq -0x90(%rbp), %rcx movq %rcx, 0x3c(%rax) movq -0x88(%rbp), %rcx movq %rcx, 0x44(%rax) movl 0x24(%rax), %ecx addl 0x44(%rax), %ecx movl %ecx, 0x44(%rax) movl 0x24(%rax), %ecx addl 0x48(%rax), %ecx movl %ecx, 0x48(%rax) movq -0x28(%rbp), %rdi callq 0x3e6c0 movq %rax, %rsi leaq -0xd8(%rbp), %rdi callq 0x3e6e0 movq -0x110(%rbp), %rax movl -0xd4(%rbp), %ecx addl 0x24(%rax), %ecx movl %ecx, 0x24(%rax) addq $0x20, %rax movq %rax, -0x120(%rbp) movq -0x28(%rbp), %rdi callq 0x3e6c0 movq %rax, %rsi leaq -0x104(%rbp), %rdi callq 0x3e6e0 movq -0x120(%rbp), %rdi leaq -0x104(%rbp), %rsi callq 0x3e710 movq %rax, %rcx movq -0x110(%rbp), %rax movl (%rcx), %ecx movl %ecx, 0x20(%rax) leaq -0x18(%rbp), %rdi callq 0x43d00 jmp 0x4d96d addq $0x120, %rsp # imm = 0x120 popq %rbp retq nopw %cs:(%rax,%rax)
_ZN5ftxui12_GLOBAL__N_14VBox18ComputeRequirementEv: push rbp mov rbp, rsp sub rsp, 120h mov [rbp+var_8], rdi mov rax, [rbp+var_8] mov [rbp+var_110], rax mov dword ptr [rax+20h], 0 mov dword ptr [rax+24h], 0 mov dword ptr [rax+28h], 0 mov dword ptr [rax+2Ch], 0 mov dword ptr [rax+30h], 0 mov dword ptr [rax+34h], 0 mov dword ptr [rax+38h], 0 add rax, 8 mov [rbp+var_10], rax mov rdi, [rbp+var_10] call _ZNSt6vectorISt10shared_ptrIN5ftxui4NodeEESaIS3_EE5beginEv; std::vector<std::shared_ptr<ftxui::Node>>::begin(void) mov [rbp+var_18], rax mov rdi, [rbp+var_10] call _ZNSt6vectorISt10shared_ptrIN5ftxui4NodeEESaIS3_EE3endEv; std::vector<std::shared_ptr<ftxui::Node>>::end(void) mov [rbp+var_20], rax loc_4D96D: lea rdi, [rbp+var_18] lea rsi, [rbp+var_20] call _ZN9__gnu_cxxneIPSt10shared_ptrIN5ftxui4NodeEESt6vectorIS4_SaIS4_EEEEbRKNS_17__normal_iteratorIT_T0_EESE_; __gnu_cxx::operator!=<std::shared_ptr<ftxui::Node> *,std::vector<std::shared_ptr<ftxui::Node>>>(__gnu_cxx::__normal_iterator<std::shared_ptr<ftxui::Node> *,std::vector<std::shared_ptr<ftxui::Node>>> const&,__gnu_cxx::__normal_iterator<std::shared_ptr<ftxui::Node> *,std::vector<std::shared_ptr<ftxui::Node>>> const&) test al, 1 jnz short loc_4D983 jmp loc_4DAB9 loc_4D983: lea rdi, [rbp+var_18] call _ZNK9__gnu_cxx17__normal_iteratorIPSt10shared_ptrIN5ftxui4NodeEESt6vectorIS4_SaIS4_EEEdeEv; __gnu_cxx::__normal_iterator<std::shared_ptr<ftxui::Node> *,std::vector<std::shared_ptr<ftxui::Node>>>::operator*(void) mov [rbp+var_28], rax mov rdi, [rbp+var_28] call _ZNKSt19__shared_ptr_accessIN5ftxui4NodeELN9__gnu_cxx12_Lock_policyE2ELb0ELb0EEptEv; std::__shared_ptr_access<ftxui::Node,(__gnu_cxx::_Lock_policy)2,false,false>::operator->(void) mov rdi, rax mov rax, [rdi] call qword ptr [rax+10h] mov rax, [rbp+var_110] mov eax, [rax+38h] mov [rbp+var_114], eax mov rdi, [rbp+var_28] call _ZNKSt19__shared_ptr_accessIN5ftxui4NodeELN9__gnu_cxx12_Lock_policyE2ELb0ELb0EEptEv; std::__shared_ptr_access<ftxui::Node,(__gnu_cxx::_Lock_policy)2,false,false>::operator->(void) mov rsi, rax lea rdi, [rbp+var_54]; this call _ZN5ftxui4Node11requirementEv; ftxui::Node::requirement(void) mov eax, [rbp+var_114] cmp eax, [rbp+var_3C] jge short loc_4DA3B mov rdi, [rbp+var_28] call _ZNKSt19__shared_ptr_accessIN5ftxui4NodeELN9__gnu_cxx12_Lock_policyE2ELb0ELb0EEptEv; std::__shared_ptr_access<ftxui::Node,(__gnu_cxx::_Lock_policy)2,false,false>::operator->(void) mov rsi, rax lea rdi, [rbp+var_80]; this call _ZN5ftxui4Node11requirementEv; ftxui::Node::requirement(void) mov rax, [rbp+var_110] mov ecx, [rbp+var_68] mov [rax+38h], ecx mov rdi, [rbp+var_28] call _ZNKSt19__shared_ptr_accessIN5ftxui4NodeELN9__gnu_cxx12_Lock_policyE2ELb0ELb0EEptEv; std::__shared_ptr_access<ftxui::Node,(__gnu_cxx::_Lock_policy)2,false,false>::operator->(void) mov rsi, rax lea rdi, [rbp+var_AC]; this call _ZN5ftxui4Node11requirementEv; ftxui::Node::requirement(void) mov rax, [rbp+var_110] mov rcx, [rbp+var_90] mov [rax+3Ch], rcx mov rcx, [rbp+var_88] mov [rax+44h], rcx mov ecx, [rax+24h] add ecx, [rax+44h] mov [rax+44h], ecx mov ecx, [rax+24h] add ecx, [rax+48h] mov [rax+48h], ecx loc_4DA3B: mov rdi, [rbp+var_28] call _ZNKSt19__shared_ptr_accessIN5ftxui4NodeELN9__gnu_cxx12_Lock_policyE2ELb0ELb0EEptEv; std::__shared_ptr_access<ftxui::Node,(__gnu_cxx::_Lock_policy)2,false,false>::operator->(void) mov rsi, rax lea rdi, [rbp+var_D8]; this call _ZN5ftxui4Node11requirementEv; ftxui::Node::requirement(void) mov rax, [rbp+var_110] mov ecx, [rbp+var_D4] add ecx, [rax+24h] mov [rax+24h], ecx add rax, 20h ; ' ' mov [rbp+var_120], rax mov rdi, [rbp+var_28] call _ZNKSt19__shared_ptr_accessIN5ftxui4NodeELN9__gnu_cxx12_Lock_policyE2ELb0ELb0EEptEv; std::__shared_ptr_access<ftxui::Node,(__gnu_cxx::_Lock_policy)2,false,false>::operator->(void) mov rsi, rax lea rdi, [rbp+var_104]; this call _ZN5ftxui4Node11requirementEv; ftxui::Node::requirement(void) mov rdi, [rbp+var_120] lea rsi, [rbp+var_104] call _ZSt3maxIiERKT_S2_S2_; std::max<int>(int const&,int const&) mov rcx, rax mov rax, [rbp+var_110] mov ecx, [rcx] mov [rax+20h], ecx lea rdi, [rbp+var_18] call _ZN9__gnu_cxx17__normal_iteratorIPSt10shared_ptrIN5ftxui4NodeEESt6vectorIS4_SaIS4_EEEppEv; __gnu_cxx::__normal_iterator<std::shared_ptr<ftxui::Node> *,std::vector<std::shared_ptr<ftxui::Node>>>::operator++(void) jmp loc_4D96D loc_4DAB9: add rsp, 120h pop rbp retn
bool ftxui::`anonymous namespace'::VBox::ComputeRequirement(ftxui::_anonymous_namespace_::VBox *this) { bool result; // al long long v2; // rax long long v3; // rax long long v4; // rax long long v5; // rax long long v6; // rax long long v7; // rax int v8; // [rsp+Ch] [rbp-114h] _DWORD v9[11]; // [rsp+1Ch] [rbp-104h] BYREF _BYTE v10[4]; // [rsp+48h] [rbp-D8h] BYREF int v11; // [rsp+4Ch] [rbp-D4h] _BYTE v12[28]; // [rsp+74h] [rbp-ACh] BYREF long long v13; // [rsp+90h] [rbp-90h] long long v14; // [rsp+98h] [rbp-88h] _BYTE v15[24]; // [rsp+A0h] [rbp-80h] BYREF int v16; // [rsp+B8h] [rbp-68h] _BYTE v17[24]; // [rsp+CCh] [rbp-54h] BYREF int v18; // [rsp+E4h] [rbp-3Ch] long long v19; // [rsp+F8h] [rbp-28h] long long v20; // [rsp+100h] [rbp-20h] BYREF _QWORD v21[3]; // [rsp+108h] [rbp-18h] BYREF v21[2] = this; *((_DWORD *)this + 8) = 0; *((_DWORD *)this + 9) = 0; *((_DWORD *)this + 10) = 0; *((_DWORD *)this + 11) = 0; *((_DWORD *)this + 12) = 0; *((_DWORD *)this + 13) = 0; *((_DWORD *)this + 14) = 0; v21[1] = (char *)this + 8; v21[0] = std::vector<std::shared_ptr<ftxui::Node>>::begin((long long)this + 8); v20 = std::vector<std::shared_ptr<ftxui::Node>>::end((long long)this + 8); while ( 1 ) { result = __gnu_cxx::operator!=<std::shared_ptr<ftxui::Node> *,std::vector<std::shared_ptr<ftxui::Node>>>( (long long)v21, (long long)&v20); if ( !result ) break; v19 = __gnu_cxx::__normal_iterator<std::shared_ptr<ftxui::Node> *,std::vector<std::shared_ptr<ftxui::Node>>>::operator*((long long)v21); v2 = std::__shared_ptr_access<ftxui::Node,(__gnu_cxx::_Lock_policy)2,false,false>::operator->(v19); (*(void ( **)(long long))(*(_QWORD *)v2 + 16LL))(v2); v8 = *((_DWORD *)this + 14); v3 = std::__shared_ptr_access<ftxui::Node,(__gnu_cxx::_Lock_policy)2,false,false>::operator->(v19); ftxui::Node::requirement((ftxui::Node *)v17, v3); if ( v8 < v18 ) { v4 = std::__shared_ptr_access<ftxui::Node,(__gnu_cxx::_Lock_policy)2,false,false>::operator->(v19); ftxui::Node::requirement((ftxui::Node *)v15, v4); *((_DWORD *)this + 14) = v16; v5 = std::__shared_ptr_access<ftxui::Node,(__gnu_cxx::_Lock_policy)2,false,false>::operator->(v19); ftxui::Node::requirement((ftxui::Node *)v12, v5); *(_QWORD *)((char *)this + 60) = v13; *(_QWORD *)((char *)this + 68) = v14; *((_DWORD *)this + 17) += *((_DWORD *)this + 9); *((_DWORD *)this + 18) += *((_DWORD *)this + 9); } v6 = std::__shared_ptr_access<ftxui::Node,(__gnu_cxx::_Lock_policy)2,false,false>::operator->(v19); ftxui::Node::requirement((ftxui::Node *)v10, v6); *((_DWORD *)this + 9) += v11; v7 = std::__shared_ptr_access<ftxui::Node,(__gnu_cxx::_Lock_policy)2,false,false>::operator->(v19); ftxui::Node::requirement((ftxui::Node *)v9, v7); *((_DWORD *)this + 8) = *std::max<int>((_DWORD *)this + 8, v9); __gnu_cxx::__normal_iterator<std::shared_ptr<ftxui::Node> *,std::vector<std::shared_ptr<ftxui::Node>>>::operator++(v21); } return result; }
ComputeRequirement: PUSH RBP MOV RBP,RSP SUB RSP,0x120 MOV qword ptr [RBP + -0x8],RDI MOV RAX,qword ptr [RBP + -0x8] MOV qword ptr [RBP + -0x110],RAX MOV dword ptr [RAX + 0x20],0x0 MOV dword ptr [RAX + 0x24],0x0 MOV dword ptr [RAX + 0x28],0x0 MOV dword ptr [RAX + 0x2c],0x0 MOV dword ptr [RAX + 0x30],0x0 MOV dword ptr [RAX + 0x34],0x0 MOV dword ptr [RAX + 0x38],0x0 ADD RAX,0x8 MOV qword ptr [RBP + -0x10],RAX MOV RDI,qword ptr [RBP + -0x10] CALL 0x00124830 MOV qword ptr [RBP + -0x18],RAX MOV RDI,qword ptr [RBP + -0x10] CALL 0x00124670 MOV qword ptr [RBP + -0x20],RAX LAB_0014d96d: LEA RDI,[RBP + -0x18] LEA RSI,[RBP + -0x20] CALL 0x00143cc0 TEST AL,0x1 JNZ 0x0014d983 JMP 0x0014dab9 LAB_0014d983: LEA RDI,[RBP + -0x18] CALL 0x00124d40 MOV qword ptr [RBP + -0x28],RAX MOV RDI,qword ptr [RBP + -0x28] CALL 0x0013e6c0 MOV RDI,RAX MOV RAX,qword ptr [RDI] CALL qword ptr [RAX + 0x10] MOV RAX,qword ptr [RBP + -0x110] MOV EAX,dword ptr [RAX + 0x38] MOV dword ptr [RBP + -0x114],EAX MOV RDI,qword ptr [RBP + -0x28] CALL 0x0013e6c0 MOV RSI,RAX LEA RDI,[RBP + -0x54] CALL 0x0013e6e0 MOV EAX,dword ptr [RBP + -0x114] CMP EAX,dword ptr [RBP + -0x3c] JGE 0x0014da3b MOV RDI,qword ptr [RBP + -0x28] CALL 0x0013e6c0 MOV RSI,RAX LEA RDI,[RBP + -0x80] CALL 0x0013e6e0 MOV RAX,qword ptr [RBP + -0x110] MOV ECX,dword ptr [RBP + -0x68] MOV dword ptr [RAX + 0x38],ECX MOV RDI,qword ptr [RBP + -0x28] CALL 0x0013e6c0 MOV RSI,RAX LEA RDI,[RBP + -0xac] CALL 0x0013e6e0 MOV RAX,qword ptr [RBP + -0x110] MOV RCX,qword ptr [RBP + -0x90] MOV qword ptr [RAX + 0x3c],RCX MOV RCX,qword ptr [RBP + -0x88] MOV qword ptr [RAX + 0x44],RCX MOV ECX,dword ptr [RAX + 0x24] ADD ECX,dword ptr [RAX + 0x44] MOV dword ptr [RAX + 0x44],ECX MOV ECX,dword ptr [RAX + 0x24] ADD ECX,dword ptr [RAX + 0x48] MOV dword ptr [RAX + 0x48],ECX LAB_0014da3b: MOV RDI,qword ptr [RBP + -0x28] CALL 0x0013e6c0 MOV RSI,RAX LEA RDI,[RBP + -0xd8] CALL 0x0013e6e0 MOV RAX,qword ptr [RBP + -0x110] MOV ECX,dword ptr [RBP + -0xd4] ADD ECX,dword ptr [RAX + 0x24] MOV dword ptr [RAX + 0x24],ECX ADD RAX,0x20 MOV qword ptr [RBP + -0x120],RAX MOV RDI,qword ptr [RBP + -0x28] CALL 0x0013e6c0 MOV RSI,RAX LEA RDI,[RBP + -0x104] CALL 0x0013e6e0 MOV RDI,qword ptr [RBP + -0x120] LEA RSI,[RBP + -0x104] CALL 0x0013e710 MOV RCX,RAX MOV RAX,qword ptr [RBP + -0x110] MOV ECX,dword ptr [RCX] MOV dword ptr [RAX + 0x20],ECX LEA RDI,[RBP + -0x18] CALL 0x00143d00 JMP 0x0014d96d LAB_0014dab9: ADD RSP,0x120 POP RBP RET
/* ftxui::(anonymous namespace)::VBox::ComputeRequirement() */ void __thiscall ftxui::(anonymous_namespace)::VBox::ComputeRequirement(VBox *this) { int iVar1; bool bVar2; long *plVar3; int *piVar4; int local_10c [12]; int local_dc; int8 local_98; int8 local_90; int4 local_70; int local_44; __shared_ptr_access<ftxui::Node,(__gnu_cxx::_Lock_policy)2,false,false> *local_30; int8 local_28; int8 local_20; vector<std::shared_ptr<ftxui::Node>,std::allocator<std::shared_ptr<ftxui::Node>>> *local_18; VBox *local_10; *(int4 *)(this + 0x20) = 0; *(int4 *)(this + 0x24) = 0; *(int4 *)(this + 0x28) = 0; *(int4 *)(this + 0x2c) = 0; *(int4 *)(this + 0x30) = 0; *(int4 *)(this + 0x34) = 0; *(int4 *)(this + 0x38) = 0; local_18 = (vector<std::shared_ptr<ftxui::Node>,std::allocator<std::shared_ptr<ftxui::Node>>> *) (this + 8); local_10 = this; local_20 = std::vector<std::shared_ptr<ftxui::Node>,std::allocator<std::shared_ptr<ftxui::Node>>> ::begin(local_18); local_28 = std::vector<std::shared_ptr<ftxui::Node>,std::allocator<std::shared_ptr<ftxui::Node>>> ::end(local_18); while( true ) { bVar2 = __gnu_cxx::operator!=((__normal_iterator *)&local_20,(__normal_iterator *)&local_28); if (!bVar2) break; local_30 = (__shared_ptr_access<ftxui::Node,(__gnu_cxx::_Lock_policy)2,false,false> *) __gnu_cxx:: __normal_iterator<std::shared_ptr<ftxui::Node>*,std::vector<std::shared_ptr<ftxui::Node>,std::allocator<std::shared_ptr<ftxui::Node>>>> ::operator*((__normal_iterator<std::shared_ptr<ftxui::Node>*,std::vector<std::shared_ptr<ftxui::Node>,std::allocator<std::shared_ptr<ftxui::Node>>>> *)&local_20); plVar3 = (long *)std::__shared_ptr_access<ftxui::Node,(__gnu_cxx::_Lock_policy)2,false,false>:: operator->(local_30); (**(code **)(*plVar3 + 0x10))(); iVar1 = *(int *)(this + 0x38); std::__shared_ptr_access<ftxui::Node,(__gnu_cxx::_Lock_policy)2,false,false>::operator-> (local_30); Node::requirement(); if (iVar1 < local_44) { std::__shared_ptr_access<ftxui::Node,(__gnu_cxx::_Lock_policy)2,false,false>::operator-> (local_30); Node::requirement(); *(int4 *)(this + 0x38) = local_70; std::__shared_ptr_access<ftxui::Node,(__gnu_cxx::_Lock_policy)2,false,false>::operator-> (local_30); Node::requirement(); *(int8 *)(this + 0x3c) = local_98; *(int8 *)(this + 0x44) = local_90; *(int *)(this + 0x44) = *(int *)(this + 0x24) + *(int *)(this + 0x44); *(int *)(this + 0x48) = *(int *)(this + 0x24) + *(int *)(this + 0x48); } std::__shared_ptr_access<ftxui::Node,(__gnu_cxx::_Lock_policy)2,false,false>::operator-> (local_30); Node::requirement(); *(int *)(this + 0x24) = local_dc + *(int *)(this + 0x24); std::__shared_ptr_access<ftxui::Node,(__gnu_cxx::_Lock_policy)2,false,false>::operator-> (local_30); Node::requirement(); piVar4 = std::max<int>((int *)(this + 0x20),local_10c); *(int *)(this + 0x20) = *piVar4; __gnu_cxx:: __normal_iterator<std::shared_ptr<ftxui::Node>*,std::vector<std::shared_ptr<ftxui::Node>,std::allocator<std::shared_ptr<ftxui::Node>>>> ::operator++((__normal_iterator<std::shared_ptr<ftxui::Node>*,std::vector<std::shared_ptr<ftxui::Node>,std::allocator<std::shared_ptr<ftxui::Node>>>> *)&local_20); } return; }
40,836
fmt::v10::appender fmt::v10::detail::write_float<fmt::v10::appender, fmt::v10::detail::dragonbox::decimal_fp<float>, char>(fmt::v10::appender, fmt::v10::detail::dragonbox::decimal_fp<float> const&, fmt::v10::format_specs<char> const&, fmt::v10::detail::float_specs, fmt::v10::detail::locale_ref)
aimrt_mujoco_sim/_deps/fmt-src/include/fmt/format.h
FMT_CONSTEXPR20 auto write_float(OutputIt out, const DecimalFP& f, const format_specs<Char>& specs, float_specs fspecs, locale_ref loc) -> OutputIt { if (is_constant_evaluated()) { return do_write_float<OutputIt, DecimalFP, Char, fallback_digit_grouping<Char>>(out, f, specs, fspecs, loc); } else { return do_write_float(out, f, specs, fspecs, loc); } }
O0
c
fmt::v10::appender fmt::v10::detail::write_float<fmt::v10::appender, fmt::v10::detail::dragonbox::decimal_fp<float>, char>(fmt::v10::appender, fmt::v10::detail::dragonbox::decimal_fp<float> const&, fmt::v10::format_specs<char> const&, fmt::v10::detail::float_specs, fmt::v10::detail::locale_ref): subq $0x48, %rsp movq %rdi, 0x38(%rsp) movq %rcx, 0x30(%rsp) movq %r8, 0x28(%rsp) movq %rsi, 0x20(%rsp) movq %rdx, 0x18(%rsp) movq 0x38(%rsp), %rax movq %rax, 0x10(%rsp) movq 0x20(%rsp), %rsi movq 0x18(%rsp), %rdx movq 0x30(%rsp), %rax movq %rax, 0x8(%rsp) movq 0x28(%rsp), %rax movq %rax, (%rsp) movq 0x10(%rsp), %rdi movq 0x8(%rsp), %rcx movq (%rsp), %r8 callq 0xac1e0 movq %rax, 0x40(%rsp) movq 0x40(%rsp), %rax addq $0x48, %rsp retq nopw %cs:(%rax,%rax)
_ZN3fmt3v106detail11write_floatINS0_8appenderENS1_9dragonbox10decimal_fpIfEEcEET_S7_RKT0_RKNS0_12format_specsIT1_EENS1_11float_specsENS1_10locale_refE: sub rsp, 48h mov [rsp+48h+var_10], rdi mov [rsp+48h+var_18], rcx mov [rsp+48h+var_20], r8 mov [rsp+48h+var_28], rsi mov [rsp+48h+var_30], rdx mov rax, [rsp+48h+var_10] mov [rsp+48h+var_38], rax mov rsi, [rsp+48h+var_28] mov rdx, [rsp+48h+var_30] mov rax, [rsp+48h+var_18] mov [rsp+48h+var_40], rax mov rax, [rsp+48h+var_20] mov [rsp+48h+var_48], rax mov rdi, [rsp+48h+var_38] mov rcx, [rsp+48h+var_40] mov r8, [rsp+48h+var_48] call _ZN3fmt3v106detail14do_write_floatINS0_8appenderENS1_9dragonbox10decimal_fpIfEEcNS1_14digit_groupingIcEEEET_S9_RKT0_RKNS0_12format_specsIT1_EENS1_11float_specsENS1_10locale_refE; fmt::v10::detail::do_write_float<fmt::v10::appender,fmt::v10::detail::dragonbox::decimal_fp<float>,char,fmt::v10::detail::digit_grouping<char>>(fmt::v10::appender,fmt::v10::detail::dragonbox::decimal_fp<float> const&,fmt::v10::format_specs<char> const&,fmt::v10::detail::float_specs,fmt::v10::detail::locale_ref) mov [rsp+48h+var_8], rax mov rax, [rsp+48h+var_8] add rsp, 48h retn
write_float<fmt::v10::appender,fmt::v10::detail::dragonbox::decimal_fp<float>,char>: SUB RSP,0x48 MOV qword ptr [RSP + 0x38],RDI MOV qword ptr [RSP + 0x30],RCX MOV qword ptr [RSP + 0x28],R8 MOV qword ptr [RSP + 0x20],RSI MOV qword ptr [RSP + 0x18],RDX MOV RAX,qword ptr [RSP + 0x38] MOV qword ptr [RSP + 0x10],RAX MOV RSI,qword ptr [RSP + 0x20] MOV RDX,qword ptr [RSP + 0x18] MOV RAX,qword ptr [RSP + 0x30] MOV qword ptr [RSP + 0x8],RAX MOV RAX,qword ptr [RSP + 0x28] MOV qword ptr [RSP],RAX MOV RDI,qword ptr [RSP + 0x10] MOV RCX,qword ptr [RSP + 0x8] MOV R8,qword ptr [RSP] CALL 0x001ac1e0 MOV qword ptr [RSP + 0x40],RAX MOV RAX,qword ptr [RSP + 0x40] ADD RSP,0x48 RET
/* fmt::v10::appender fmt::v10::detail::write_float<fmt::v10::appender, fmt::v10::detail::dragonbox::decimal_fp<float>, char>(fmt::v10::appender, fmt::v10::detail::dragonbox::decimal_fp<float> const&, fmt::v10::format_specs<char> const&, fmt::v10::detail::float_specs, fmt::v10::detail::locale_ref) */ int8 fmt::v10::detail:: write_float<fmt::v10::appender,fmt::v10::detail::dragonbox::decimal_fp<float>,char> (int8 param_1,int8 param_2,int8 param_3,int8 param_4, int8 param_5) { int8 uVar1; uVar1 = do_write_float<fmt::v10::appender,fmt::v10::detail::dragonbox::decimal_fp<float>,char,fmt::v10::detail::digit_grouping<char>> (param_1,param_2,param_3,param_4,param_5); return uVar1; }
40,837
ma_read_rnd_dynamic_record
eloqsql/storage/maria/ma_dynrec.c
int _ma_read_rnd_dynamic_record(MARIA_HA *info, uchar *buf, MARIA_RECORD_POS filepos, my_bool skip_deleted_blocks) { int block_of_record; #ifdef MARIA_EXTERNAL_LOCKING int info_read; #endif uint left_len,b_type; uchar *UNINIT_VAR(to); MARIA_BLOCK_INFO block_info; MARIA_SHARE *share= info->s; myf flag= MY_WME | (share->temporary ? MY_THREAD_SPECIFIC : 0); DBUG_ENTER("_ma_read_rnd_dynamic_record"); #ifdef MARIA_EXTERNAL_LOCKING info_read=0; #endif if (info->lock_type == F_UNLCK) { #ifndef UNSAFE_LOCKING #else info->tmp_lock_type=F_RDLCK; #endif } #ifdef MARIA_EXTERNAL_LOCKING else info_read=1; /* memory-keyinfoblock is ok */ #endif block_of_record= 0; /* First block of record is numbered as zero. */ block_info.second_read= 0; left_len=1; do { if (filepos >= info->state->data_file_length) { #ifdef MARIA_EXTERNAL_LOCKING if (!info_read) { /* Check if changed */ info_read=1; info->rec_cache.seek_not_done=1; if (_ma_state_info_read_dsk(share->kfile.file, &share->state)) goto panic; } if (filepos >= info->state->data_file_length) { my_errno= HA_ERR_END_OF_FILE; goto err; } #else my_errno= HA_ERR_END_OF_FILE; goto err; #endif } if (info->opt_flag & READ_CACHE_USED) { if (_ma_read_cache(info, &info->rec_cache, block_info.header, filepos, sizeof(block_info.header), (!block_of_record && skip_deleted_blocks ? READING_NEXT : 0) | READING_HEADER)) goto panic; b_type= _ma_get_block_info(info, &block_info,-1,filepos); } else { if (info->opt_flag & WRITE_CACHE_USED && info->rec_cache.pos_in_file < filepos + MARIA_BLOCK_INFO_HEADER_LENGTH && flush_io_cache(&info->rec_cache)) DBUG_RETURN(my_errno); info->rec_cache.seek_not_done=1; b_type= _ma_get_block_info(info, &block_info, info->dfile.file, filepos); } if (b_type & (BLOCK_DELETED | BLOCK_ERROR | BLOCK_SYNC_ERROR | BLOCK_FATAL_ERROR)) { if ((b_type & (BLOCK_DELETED | BLOCK_SYNC_ERROR)) && skip_deleted_blocks) { filepos=block_info.filepos+block_info.block_len; block_info.second_read=0; continue; /* Search after next_record */ } if (b_type & (BLOCK_DELETED | BLOCK_SYNC_ERROR)) { my_errno= HA_ERR_RECORD_DELETED; info->cur_row.lastpos= block_info.filepos; info->cur_row.nextpos= block_info.filepos+block_info.block_len; } goto err; } if (block_of_record == 0) /* First block */ { info->cur_row.total_length= block_info.rec_len; if (block_info.rec_len > (uint) share->base.max_pack_length) goto panic; info->cur_row.lastpos= filepos; if (share->base.blobs) { if (_ma_alloc_buffer(&info->rec_buff, &info->rec_buff_size, block_info.rec_len + share->base.extra_rec_buff_size, flag)) goto err; } to= info->rec_buff; left_len=block_info.rec_len; } if (left_len < block_info.data_len) goto panic; /* Wrong linked record */ /* copy information that is already read */ { uint offset=(uint) (block_info.filepos - filepos); uint tmp_length= (sizeof(block_info.header) - offset); filepos=block_info.filepos; if (tmp_length > block_info.data_len) tmp_length= block_info.data_len; if (tmp_length) { memcpy(to, block_info.header+offset, tmp_length); block_info.data_len-=tmp_length; left_len-=tmp_length; to+=tmp_length; filepos+=tmp_length; } } /* read rest of record from file */ if (block_info.data_len) { if (info->opt_flag & READ_CACHE_USED) { if (_ma_read_cache(info, &info->rec_cache, to,filepos, block_info.data_len, (!block_of_record && skip_deleted_blocks) ? READING_NEXT : 0)) goto panic; } else { if (info->opt_flag & WRITE_CACHE_USED && info->rec_cache.pos_in_file < block_info.filepos + block_info.data_len && flush_io_cache(&info->rec_cache)) goto err; /* VOID(my_seek(info->dfile.file, filepos, MY_SEEK_SET, MYF(0))); */ if (mysql_file_read(info->dfile.file, to, block_info.data_len, MYF(MY_NABP))) { if (my_errno == HA_ERR_FILE_TOO_SHORT) { /* Unexpected end of file */ _ma_set_fatal_error(info, HA_ERR_WRONG_IN_RECORD); } goto err; } } } /* Increment block-of-record counter. If it was the first block, remember the position behind the block for the next call. */ if (block_of_record++ == 0) { info->cur_row.nextpos= block_info.filepos+block_info.block_len; skip_deleted_blocks=0; } left_len-=block_info.data_len; to+=block_info.data_len; filepos=block_info.next_filepos; } while (left_len); info->update|= HA_STATE_AKTIV | HA_STATE_KEY_CHANGED; fast_ma_writeinfo(info); if (_ma_rec_unpack(info,buf,info->rec_buff,block_info.rec_len) != MY_FILE_ERROR) DBUG_RETURN(0); DBUG_RETURN(my_errno); /* Wrong record */ panic: /* Something is fatal wrong */ _ma_set_fatal_error(info, HA_ERR_WRONG_IN_RECORD); err: fast_ma_writeinfo(info); DBUG_RETURN(my_errno); }
O3
c
ma_read_rnd_dynamic_record: pushq %rbp movq %rsp, %rbp pushq %r15 pushq %r14 pushq %r13 pushq %r12 pushq %rbx subq $0x108, %rsp # imm = 0x108 movl %ecx, %r13d movq %rdx, %r14 movq %rsi, -0xc8(%rbp) movq %rdi, %rbx movq %fs:0x28, %rax movq %rax, -0x30(%rbp) movq (%rdi), %rcx xorl %eax, %eax cmpb $0x0, 0x7d9(%rcx) setne %al shll $0x10, %eax orq $0x10, %rax movq %rax, -0xd8(%rbp) leaq -0x88(%rbp), %rax movl $0x0, 0x50(%rax) leaq 0x4b8(%rdi), %rax movq %rax, -0x98(%rbp) leaq 0x3a0(%rdi), %rax movq %rax, -0xb8(%rbp) leaq 0x460(%rdi), %rax movq %rax, -0xd0(%rbp) movl $0x1, %r12d xorl %r15d, %r15d movq %rcx, -0xc0(%rbp) movq %rdi, -0xe0(%rbp) movq 0x20(%rbx), %rax cmpq 0x28(%rax), %r14 jae 0x6a3c5 movl 0x61c(%rbx), %eax testb $0x2, %al movl %r15d, -0x8c(%rbp) jne 0x6a099 testb $0x10, %al je 0x6a087 leaq 0x14(%r14), %rax movq -0x98(%rbp), %rcx cmpq %rax, (%rcx) jae 0x6a087 movq -0x98(%rbp), %rdi movl $0x1, %esi callq 0xb0e3d testl %eax, %eax jne 0x6a470 movl $0x1, 0x598(%rbx) movl 0x480(%rbx), %edx jmp 0x6a0db testl %r15d, %r15d sete %al testb %r13b, %r13b setne %cl andb %al, %cl movzbl %cl, %r9d orl $0x2, %r9d movl $0x14, %r8d movq %rbx, %rdi movq -0x98(%rbp), %rsi leaq -0x88(%rbp), %rdx movq %r14, %rcx callq 0x8ba3c movl $0xffffffff, %edx # imm = 0xFFFFFFFF testb %al, %al jne 0x6a44d movq %rbx, %rdi leaq -0x88(%rbp), %rsi movq %r14, %rcx callq 0x68904 cmpl $0x4, %eax jae 0x6a16b cmpl $0x0, -0x8c(%rbp) jne 0x6a1ab movq -0x70(%rbp), %rcx movq %rcx, 0x110(%rbx) movq -0xc0(%rbp), %rax movl 0x3b0(%rax), %eax cmpq %rax, %rcx ja 0x6a44d movq %rcx, %rdx movq %r14, 0x98(%rbx) movq -0xc0(%rbp), %rax cmpl $0x0, 0x3f0(%rax) je 0x6a197 movl 0x424(%rax), %eax addq %rax, %rdx movq -0xb8(%rbp), %rdi movq -0xd0(%rbp), %rsi movq -0xd8(%rbp), %rcx callq 0x5a583 testb %al, %al jne 0x6a45a movq -0x70(%rbp), %r12 jmp 0x6a19a testb $0x14, %al movl -0x8c(%rbp), %r15d je 0x6a419 testb %r13b, %r13b je 0x6a419 movq -0x60(%rbp), %r14 addq -0x50(%rbp), %r14 movl $0x0, -0x38(%rbp) jmp 0x6a354 movq %rdx, %r12 movq -0xb8(%rbp), %rax movq (%rax), %rax movq %rax, -0xa0(%rbp) movq %r12, -0xa8(%rbp) movl %r12d, %eax movq -0x68(%rbp), %r15 cmpq %rax, %r15 ja 0x6a44d movl %r13d, -0xac(%rbp) movq -0x50(%rbp), %r12 movq %r12, %rax subq %r14, %rax movl $0x14, %ecx subl %eax, %ecx cmpq %rcx, %r15 movl %r15d, %r13d cmovael %ecx, %r13d testl %r13d, %r13d je 0x6a23b movl %eax, %eax leaq (%rax,%rbp), %rsi addq $-0x88, %rsi movl %r13d, %r14d movq -0xa0(%rbp), %rbx movq %rbx, %rdi movq %r14, %rdx callq 0x2a0b0 movq -0x68(%rbp), %r15 subq %r14, %r15 movq %r15, -0x68(%rbp) movq -0xa8(%rbp), %rax subl %r13d, %eax movq %rax, -0xa8(%rbp) addq %r14, %rbx movq %rbx, -0xa0(%rbp) movq -0xe0(%rbp), %rbx addq %r14, %r12 testq %r15, %r15 movl -0xac(%rbp), %r13d je 0x6a31a movl 0x61c(%rbx), %eax testb $0x2, %al jne 0x6a2e0 testb $0x10, %al je 0x6a28d movq -0x50(%rbp), %rax addq %r15, %rax movq -0x98(%rbp), %rcx cmpq %rax, (%rcx) jae 0x6a28d movq -0x98(%rbp), %rdi movl $0x1, %esi callq 0xb0e3d testl %eax, %eax jne 0x6a45a movq -0x68(%rbp), %r15 movl 0x480(%rbx), %r14d leaq 0x34477d(%rip), %rax # 0x3aea18 movq (%rax), %rax leaq -0x128(%rbp), %rdi movl %r14d, %esi movl $0x6, %edx callq *0x158(%rax) testq %rax, %rax jne 0x6a35f movl $0x4, %ecx movl %r14d, %edi movq -0xa0(%rbp), %rsi movq %r15, %rdx callq 0xbff8c movq %rax, %r14 testq %r14, %r14 je 0x6a31a jmp 0x6a440 cmpl $0x0, -0x8c(%rbp) sete %al testb %r13b, %r13b setne %cl andb %al, %cl movzbl %cl, %r9d movq %rbx, %rdi movq -0x98(%rbp), %rsi movq -0xa0(%rbp), %rdx movq %r12, %rcx movq %r15, %r8 callq 0x8ba3c testb %al, %al jne 0x6a44d movl -0x8c(%rbp), %r15d testl %r15d, %r15d jne 0x6a338 movq -0x60(%rbp), %rax addq -0x50(%rbp), %rax movq %rax, 0xa0(%rbx) xorl %r13d, %r13d incl %r15d movq -0x68(%rbp), %rax movq -0x48(%rbp), %r14 movq -0xa8(%rbp), %r12 subl %eax, %r12d addq %rax, -0xa0(%rbp) testl %r12d, %r12d jne 0x6a03b jmp 0x6a3d5 movq %rax, %r12 leaq 0x3446af(%rip), %rax # 0x3aea18 movq (%rax), %rax movq %r12, %rdi movq %r15, %rsi leaq 0x916ee(%rip), %rdx # 0xfba67 movl $0x783, %ecx # imm = 0x783 callq *0x210(%rax) movl $0x4, %ecx movl %r14d, %edi movq -0xa0(%rbp), %rsi movq %r15, %rdx callq 0xbff8c movq %rax, %r14 testq %rax, %rax movl $0x0, %eax cmovneq %rax, %r15 leaq 0x344667(%rip), %rax # 0x3aea18 movq (%rax), %rax movq %r12, %rdi movq %r15, %rsi callq *0x218(%rax) jmp 0x6a2d6 callq 0xc14ee movl $0x89, (%rax) jmp 0x6a45a orb $-0x7e, 0x624(%rbx) movq (%rbx), %rax cmpl $0x0, 0x7b8(%rax) jne 0x6a3f2 movq %rbx, %rdi xorl %esi, %esi callq 0x62f86 movq 0x3a0(%rbx), %rdx movq -0x70(%rbp), %rcx movq %rbx, %rdi movq -0xc8(%rbp), %rsi callq 0x691ff movq %rax, %rcx xorl %eax, %eax cmpq $-0x1, %rcx jne 0x6a477 jmp 0x6a470 testb $0x14, %al je 0x6a45a callq 0xc14ee movl $0x86, (%rax) movq -0x50(%rbp), %rax movq %rax, 0x98(%rbx) addq -0x60(%rbp), %rax movq %rax, 0xa0(%rbx) jmp 0x6a45a callq 0xc14ee cmpl $0xaf, (%rax) jne 0x6a45a movq %rbx, %rdi movl $0x7f, %esi callq 0x5cab0 movq (%rbx), %rax cmpl $0x0, 0x7b8(%rax) jne 0x6a470 movq %rbx, %rdi xorl %esi, %esi callq 0x62f86 callq 0xc14ee movl (%rax), %eax movq %fs:0x28, %rcx cmpq -0x30(%rbp), %rcx jne 0x6a498 addq $0x108, %rsp # imm = 0x108 popq %rbx popq %r12 popq %r13 popq %r14 popq %r15 popq %rbp retq callq 0x2a280
_ma_read_rnd_dynamic_record: push rbp mov rbp, rsp push r15 push r14 push r13 push r12 push rbx sub rsp, 108h mov r13d, ecx mov r14, rdx mov [rbp+var_C8], rsi mov rbx, rdi mov rax, fs:28h mov [rbp+var_30], rax mov rcx, [rdi] xor eax, eax cmp byte ptr [rcx+7D9h], 0 setnz al shl eax, 10h or rax, 10h mov [rbp+var_D8], rax lea rax, [rbp+var_88] mov dword ptr [rax+50h], 0 lea rax, [rdi+4B8h] mov [rbp+var_98], rax lea rax, [rdi+3A0h] mov [rbp+var_B8], rax lea rax, [rdi+460h] mov [rbp+var_D0], rax mov r12d, 1 xor r15d, r15d mov [rbp+var_C0], rcx mov [rbp+var_E0], rdi loc_6A03B: mov rax, [rbx+20h] cmp r14, [rax+28h] jnb loc_6A3C5 mov eax, [rbx+61Ch] test al, 2 mov [rbp+var_8C], r15d jnz short loc_6A099 test al, 10h jz short loc_6A087 lea rax, [r14+14h] mov rcx, [rbp+var_98] cmp [rcx], rax jnb short loc_6A087 mov rdi, [rbp+var_98] mov esi, 1 call my_b_flush_io_cache test eax, eax jnz loc_6A470 loc_6A087: mov dword ptr [rbx+598h], 1 mov edx, [rbx+480h] jmp short loc_6A0DB loc_6A099: test r15d, r15d setz al test r13b, r13b setnz cl and cl, al movzx r9d, cl or r9d, 2 mov r8d, 14h mov rdi, rbx mov rsi, [rbp+var_98] lea rdx, [rbp+var_88] mov rcx, r14 call _ma_read_cache mov edx, 0FFFFFFFFh test al, al jnz loc_6A44D loc_6A0DB: mov rdi, rbx lea rsi, [rbp+var_88] mov rcx, r14 call _ma_get_block_info cmp eax, 4 jnb short loc_6A16B cmp [rbp+var_8C], 0 jnz loc_6A1AB mov rcx, [rbp+var_70] mov [rbx+110h], rcx mov rax, [rbp+var_C0] mov eax, [rax+3B0h] cmp rcx, rax ja loc_6A44D mov rdx, rcx mov [rbx+98h], r14 mov rax, [rbp+var_C0] cmp dword ptr [rax+3F0h], 0 jz short loc_6A197 mov eax, [rax+424h] add rdx, rax mov rdi, [rbp+var_B8] mov rsi, [rbp+var_D0] mov rcx, [rbp+var_D8] call _ma_alloc_buffer test al, al jnz loc_6A45A mov r12, [rbp+var_70] jmp short loc_6A19A loc_6A16B: test al, 14h mov r15d, [rbp+var_8C] jz loc_6A419 test r13b, r13b jz loc_6A419 mov r14, [rbp+var_60] add r14, [rbp+var_50] mov [rbp+var_38], 0 jmp loc_6A354 loc_6A197: mov r12, rdx loc_6A19A: mov rax, [rbp+var_B8] mov rax, [rax] mov [rbp+var_A0], rax loc_6A1AB: mov [rbp+var_A8], r12 mov eax, r12d mov r15, [rbp+var_68] cmp r15, rax ja loc_6A44D mov [rbp+var_AC], r13d mov r12, [rbp+var_50] mov rax, r12 sub rax, r14 mov ecx, 14h sub ecx, eax cmp r15, rcx mov r13d, r15d cmovnb r13d, ecx test r13d, r13d jz short loc_6A23B mov eax, eax lea rsi, [rax+rbp] add rsi, 0FFFFFFFFFFFFFF78h mov r14d, r13d mov rbx, [rbp+var_A0] mov rdi, rbx mov rdx, r14 call _memcpy mov r15, [rbp+var_68] sub r15, r14 mov [rbp+var_68], r15 mov rax, [rbp+var_A8] sub eax, r13d mov [rbp+var_A8], rax add rbx, r14 mov [rbp+var_A0], rbx mov rbx, [rbp+var_E0] add r12, r14 loc_6A23B: test r15, r15 mov r13d, [rbp+var_AC] jz loc_6A31A mov eax, [rbx+61Ch] test al, 2 jnz loc_6A2E0 test al, 10h jz short loc_6A28D mov rax, [rbp+var_50] add rax, r15 mov rcx, [rbp+var_98] cmp [rcx], rax jnb short loc_6A28D mov rdi, [rbp+var_98] mov esi, 1 call my_b_flush_io_cache test eax, eax jnz loc_6A45A mov r15, [rbp+var_68] loc_6A28D: mov r14d, [rbx+480h] lea rax, PSI_server mov rax, [rax] lea rdi, [rbp+var_128] mov esi, r14d mov edx, 6 call qword ptr [rax+158h] test rax, rax jnz loc_6A35F mov ecx, 4 mov edi, r14d mov rsi, [rbp+var_A0] mov rdx, r15 call my_read mov r14, rax loc_6A2D6: test r14, r14 jz short loc_6A31A jmp loc_6A440 loc_6A2E0: cmp [rbp+var_8C], 0 setz al test r13b, r13b setnz cl and cl, al movzx r9d, cl mov rdi, rbx mov rsi, [rbp+var_98] mov rdx, [rbp+var_A0] mov rcx, r12 mov r8, r15 call _ma_read_cache test al, al jnz loc_6A44D loc_6A31A: mov r15d, [rbp+var_8C] test r15d, r15d jnz short loc_6A338 mov rax, [rbp+var_60] add rax, [rbp+var_50] mov [rbx+0A0h], rax xor r13d, r13d loc_6A338: inc r15d mov rax, [rbp+var_68] mov r14, [rbp+var_48] mov r12, [rbp+var_A8] sub r12d, eax add [rbp+var_A0], rax loc_6A354: test r12d, r12d jnz loc_6A03B jmp short loc_6A3D5 loc_6A35F: mov r12, rax lea rax, PSI_server mov rax, [rax] mov rdi, r12 mov rsi, r15 lea rdx, aWorkspaceLlm4b_12; "/workspace/llm4binary/github2025/eloqsq"... mov ecx, 783h call qword ptr [rax+210h] mov ecx, 4 mov edi, r14d mov rsi, [rbp+var_A0] mov rdx, r15 call my_read mov r14, rax test rax, rax mov eax, 0 cmovnz r15, rax lea rax, PSI_server mov rax, [rax] mov rdi, r12 mov rsi, r15 call qword ptr [rax+218h] jmp loc_6A2D6 loc_6A3C5: call _my_thread_var mov dword ptr [rax], 89h jmp loc_6A45A loc_6A3D5: or byte ptr [rbx+624h], 82h mov rax, [rbx] cmp dword ptr [rax+7B8h], 0 jnz short loc_6A3F2 mov rdi, rbx xor esi, esi call _ma_writeinfo loc_6A3F2: mov rdx, [rbx+3A0h] mov rcx, [rbp+var_70] mov rdi, rbx mov rsi, [rbp+var_C8] call _ma_rec_unpack mov rcx, rax xor eax, eax cmp rcx, 0FFFFFFFFFFFFFFFFh jnz short loc_6A477 jmp short loc_6A470 loc_6A419: test al, 14h jz short loc_6A45A call _my_thread_var mov dword ptr [rax], 86h mov rax, [rbp+var_50] mov [rbx+98h], rax add rax, [rbp+var_60] mov [rbx+0A0h], rax jmp short loc_6A45A loc_6A440: call _my_thread_var cmp dword ptr [rax], 0AFh jnz short loc_6A45A loc_6A44D: mov rdi, rbx mov esi, 7Fh call _ma_set_fatal_error loc_6A45A: mov rax, [rbx] cmp dword ptr [rax+7B8h], 0 jnz short loc_6A470 mov rdi, rbx xor esi, esi call _ma_writeinfo loc_6A470: call _my_thread_var mov eax, [rax] loc_6A477: mov rcx, fs:28h cmp rcx, [rbp+var_30] jnz short loc_6A498 add rsp, 108h pop rbx pop r12 pop r13 pop r14 pop r15 pop rbp retn loc_6A498: call ___stack_chk_fail
long long ma_read_rnd_dynamic_record( unsigned long long a1, _WORD *a2, unsigned long long a3, int a4, unsigned long long a5, int a6) { long long v8; // rbx unsigned int *v9; // rcx long long v10; // r12 int v11; // r15d int v12; // eax long long v13; // rdx char cache; // al unsigned long long v15; // rcx unsigned int block_info; // eax unsigned long long v17; // r15 long long v18; // r12 unsigned int v19; // r13d long long v20; // rbx int v21; // eax unsigned int v22; // r14d long long v23; // rax long long v24; // r14 int v25; // r15d long long *v26; // r12 long long v27; // rcx long long result; // rax long long v29; // rax _DWORD *v30; // rax _BYTE v31[72]; // [rsp+8h] [rbp-128h] BYREF long long *v32; // [rsp+50h] [rbp-E0h] long long v33; // [rsp+58h] [rbp-D8h] unsigned long long *v34; // [rsp+60h] [rbp-D0h] _WORD *v35; // [rsp+68h] [rbp-C8h] unsigned int *v36; // [rsp+70h] [rbp-C0h] long long *v37; // [rsp+78h] [rbp-B8h] int v38; // [rsp+84h] [rbp-ACh] long long v39; // [rsp+88h] [rbp-A8h] long long v40; // [rsp+90h] [rbp-A0h] long long *v41; // [rsp+98h] [rbp-98h] int v42; // [rsp+A4h] [rbp-8Ch] unsigned __int8 v43[24]; // [rsp+A8h] [rbp-88h] BYREF unsigned long long v44; // [rsp+C0h] [rbp-70h] unsigned long long v45; // [rsp+C8h] [rbp-68h] long long v46; // [rsp+D0h] [rbp-60h] long long v47; // [rsp+E0h] [rbp-50h] unsigned long long v48; // [rsp+E8h] [rbp-48h] int v49; // [rsp+F8h] [rbp-38h] unsigned long long v50; // [rsp+100h] [rbp-30h] v35 = a2; v8 = a1; v50 = __readfsqword(0x28u); v9 = *(unsigned int **)a1; v33 = ((unsigned __int8)(*(_BYTE *)(*(_QWORD *)a1 + 2009LL) != 0) << 16) | 0x10LL; v49 = 0; v41 = (long long *)(a1 + 1208); v37 = (long long *)(a1 + 928); v34 = (unsigned long long *)(a1 + 1120); v10 = 1LL; v11 = 0; v36 = v9; v32 = (long long *)a1; do { if ( a3 >= *(_QWORD *)(*(_QWORD *)(v8 + 32) + 40LL) ) { *(_DWORD *)my_thread_var(a1) = 137; goto LABEL_53; } v12 = *(_DWORD *)(v8 + 1564); v42 = v11; if ( (v12 & 2) != 0 ) { cache = ma_read_cache(v8, v41, v43, a3, 20LL, (v11 == 0 && (_BYTE)a4 != 0) | 2u); v13 = 0xFFFFFFFFLL; if ( cache ) goto LABEL_52; } else { if ( (v12 & 0x10) != 0 && *v41 < a3 + 20 ) { a1 = (unsigned long long)v41; if ( (unsigned int)my_b_flush_io_cache(v41, 1LL) ) return *(unsigned int *)my_thread_var(a1); } *(_DWORD *)(v8 + 1432) = 1; v13 = *(unsigned int *)(v8 + 1152); } a1 = v8; block_info = ma_get_block_info(v8, v43, v13, a3, a5, a6); if ( block_info >= 4 ) { v11 = v42; if ( (block_info & 0x14) == 0 || !(_BYTE)a4 ) { if ( (block_info & 0x14) != 0 ) { *(_DWORD *)my_thread_var(v8) = 134; v29 = v47; *(_QWORD *)(v8 + 152) = v47; *(_QWORD *)(v8 + 160) = v46 + v29; } goto LABEL_53; } a3 = v47 + v46; v49 = 0; } else { if ( !v42 ) { v15 = v44; *(_QWORD *)(v8 + 272) = v44; if ( v15 > v36[236] ) goto LABEL_52; v13 = v15; *(_QWORD *)(v8 + 152) = a3; if ( v36[252] ) { a1 = (unsigned long long)v37; if ( (unsigned __int8)ma_alloc_buffer(v37, v34, v36[265] + v15, v33) ) goto LABEL_53; v10 = v44; } else { v10 = v15; } v40 = *v37; } v39 = v10; v17 = v45; if ( v45 > (unsigned int)v10 ) goto LABEL_52; v38 = a4; v18 = v47; v19 = v45; if ( v45 >= (unsigned int)(20 - (v47 - a3)) ) v19 = 20 - (v47 - a3); if ( v19 ) { v20 = v40; a1 = v40; memcpy(v40, &v43[(unsigned int)(v47 - a3)], v19); v17 = v45 - v19; v45 = v17; v39 = (unsigned int)v39 - v19; v40 = v19 + v20; v8 = (long long)v32; v18 += v19; } a4 = v38; if ( v17 ) { v21 = *(_DWORD *)(v8 + 1564); if ( (v21 & 2) != 0 ) { a1 = v8; if ( (unsigned __int8)ma_read_cache(v8, v41, v40, v18, v17, (v42 == 0) & (unsigned __int8)((_BYTE)v38 != 0)) ) goto LABEL_52; } else { if ( (v21 & 0x10) != 0 && *v41 < v17 + v47 ) { a1 = (unsigned long long)v41; if ( (unsigned int)my_b_flush_io_cache(v41, 1LL) ) goto LABEL_53; v17 = v45; } v22 = *(_DWORD *)(v8 + 1152); v23 = ((long long ( *)(_BYTE *, _QWORD, long long))PSI_server[43])(v31, v22, 6LL); if ( v23 ) { v26 = (long long *)v23; ((void ( *)(long long, unsigned long long, const char *, long long))PSI_server[66])( v23, v17, "/workspace/llm4binary/github2025/eloqsql/storage/maria/ma_dynrec.c", 1923LL); v24 = my_read(v22, v40, v17, 4LL); if ( v24 ) v17 = 0LL; a1 = (unsigned long long)v26; ((void ( *)(long long *, unsigned long long))PSI_server[67])(v26, v17); } else { a1 = v22; v24 = my_read(v22, v40, v17, 4LL); } if ( v24 ) { v30 = (_DWORD *)my_thread_var(a1); if ( *v30 == 175 ) { LABEL_52: a1 = v8; ma_set_fatal_error((_DWORD *)v8, 127, v13, v15, a5, a6); } LABEL_53: if ( !*(_DWORD *)(*(_QWORD *)v8 + 1976LL) ) { a1 = v8; ma_writeinfo((long long *)v8, 0); } return *(unsigned int *)my_thread_var(a1); } } } v25 = v42; if ( !v42 ) { *(_QWORD *)(v8 + 160) = v47 + v46; a4 = 0; } v11 = v25 + 1; a3 = v48; v10 = (unsigned int)(v39 - v45); v40 += v45; } } while ( (_DWORD)v10 ); *(_BYTE *)(v8 + 1572) |= 0x82u; if ( !*(_DWORD *)(*(_QWORD *)v8 + 1976LL) ) ma_writeinfo((long long *)v8, 0); a1 = v8; v27 = ma_rec_unpack((_DWORD *)v8, v35, *(_QWORD *)(v8 + 928), v44, a5, a6); result = 0LL; if ( v27 == -1 ) return *(unsigned int *)my_thread_var(a1); return result; }
_ma_read_rnd_dynamic_record: PUSH RBP MOV RBP,RSP PUSH R15 PUSH R14 PUSH R13 PUSH R12 PUSH RBX SUB RSP,0x108 MOV R13D,ECX MOV R14,RDX MOV qword ptr [RBP + -0xc8],RSI MOV RBX,RDI MOV RAX,qword ptr FS:[0x28] MOV qword ptr [RBP + -0x30],RAX MOV RCX,qword ptr [RDI] XOR EAX,EAX CMP byte ptr [RCX + 0x7d9],0x0 SETNZ AL SHL EAX,0x10 OR RAX,0x10 MOV qword ptr [RBP + -0xd8],RAX LEA RAX,[RBP + -0x88] MOV dword ptr [RAX + 0x50],0x0 LEA RAX,[RDI + 0x4b8] MOV qword ptr [RBP + -0x98],RAX LEA RAX,[RDI + 0x3a0] MOV qword ptr [RBP + -0xb8],RAX LEA RAX,[RDI + 0x460] MOV qword ptr [RBP + -0xd0],RAX MOV R12D,0x1 XOR R15D,R15D MOV qword ptr [RBP + -0xc0],RCX MOV qword ptr [RBP + -0xe0],RDI LAB_0016a03b: MOV RAX,qword ptr [RBX + 0x20] CMP R14,qword ptr [RAX + 0x28] JNC 0x0016a3c5 MOV EAX,dword ptr [RBX + 0x61c] TEST AL,0x2 MOV dword ptr [RBP + -0x8c],R15D JNZ 0x0016a099 TEST AL,0x10 JZ 0x0016a087 LEA RAX,[R14 + 0x14] MOV RCX,qword ptr [RBP + -0x98] CMP qword ptr [RCX],RAX JNC 0x0016a087 MOV RDI,qword ptr [RBP + -0x98] MOV ESI,0x1 CALL 0x001b0e3d TEST EAX,EAX JNZ 0x0016a470 LAB_0016a087: MOV dword ptr [RBX + 0x598],0x1 MOV EDX,dword ptr [RBX + 0x480] JMP 0x0016a0db LAB_0016a099: TEST R15D,R15D SETZ AL TEST R13B,R13B SETNZ CL AND CL,AL MOVZX R9D,CL OR R9D,0x2 MOV R8D,0x14 MOV RDI,RBX MOV RSI,qword ptr [RBP + -0x98] LEA RDX,[RBP + -0x88] MOV RCX,R14 CALL 0x0018ba3c MOV EDX,0xffffffff TEST AL,AL JNZ 0x0016a44d LAB_0016a0db: MOV RDI,RBX LEA RSI,[RBP + -0x88] MOV RCX,R14 CALL 0x00168904 CMP EAX,0x4 JNC 0x0016a16b CMP dword ptr [RBP + -0x8c],0x0 JNZ 0x0016a1ab MOV RCX,qword ptr [RBP + -0x70] MOV qword ptr [RBX + 0x110],RCX MOV RAX,qword ptr [RBP + -0xc0] MOV EAX,dword ptr [RAX + 0x3b0] CMP RCX,RAX JA 0x0016a44d MOV RDX,RCX MOV qword ptr [RBX + 0x98],R14 MOV RAX,qword ptr [RBP + -0xc0] CMP dword ptr [RAX + 0x3f0],0x0 JZ 0x0016a197 MOV EAX,dword ptr [RAX + 0x424] ADD RDX,RAX MOV RDI,qword ptr [RBP + -0xb8] MOV RSI,qword ptr [RBP + -0xd0] MOV RCX,qword ptr [RBP + -0xd8] CALL 0x0015a583 TEST AL,AL JNZ 0x0016a45a MOV R12,qword ptr [RBP + -0x70] JMP 0x0016a19a LAB_0016a16b: TEST AL,0x14 MOV R15D,dword ptr [RBP + -0x8c] JZ 0x0016a419 TEST R13B,R13B JZ 0x0016a419 MOV R14,qword ptr [RBP + -0x60] ADD R14,qword ptr [RBP + -0x50] MOV dword ptr [RBP + -0x38],0x0 JMP 0x0016a354 LAB_0016a197: MOV R12,RDX LAB_0016a19a: MOV RAX,qword ptr [RBP + -0xb8] MOV RAX,qword ptr [RAX] MOV qword ptr [RBP + -0xa0],RAX LAB_0016a1ab: MOV qword ptr [RBP + -0xa8],R12 MOV EAX,R12D MOV R15,qword ptr [RBP + -0x68] CMP R15,RAX JA 0x0016a44d MOV dword ptr [RBP + -0xac],R13D MOV R12,qword ptr [RBP + -0x50] MOV RAX,R12 SUB RAX,R14 MOV ECX,0x14 SUB ECX,EAX CMP R15,RCX MOV R13D,R15D CMOVNC R13D,ECX TEST R13D,R13D JZ 0x0016a23b MOV EAX,EAX LEA RSI,[RAX + RBP*0x1] ADD RSI,-0x88 MOV R14D,R13D MOV RBX,qword ptr [RBP + -0xa0] MOV RDI,RBX MOV RDX,R14 CALL 0x0012a0b0 MOV R15,qword ptr [RBP + -0x68] SUB R15,R14 MOV qword ptr [RBP + -0x68],R15 MOV RAX,qword ptr [RBP + -0xa8] SUB EAX,R13D MOV qword ptr [RBP + -0xa8],RAX ADD RBX,R14 MOV qword ptr [RBP + -0xa0],RBX MOV RBX,qword ptr [RBP + -0xe0] ADD R12,R14 LAB_0016a23b: TEST R15,R15 MOV R13D,dword ptr [RBP + -0xac] JZ 0x0016a31a MOV EAX,dword ptr [RBX + 0x61c] TEST AL,0x2 JNZ 0x0016a2e0 TEST AL,0x10 JZ 0x0016a28d MOV RAX,qword ptr [RBP + -0x50] ADD RAX,R15 MOV RCX,qword ptr [RBP + -0x98] CMP qword ptr [RCX],RAX JNC 0x0016a28d MOV RDI,qword ptr [RBP + -0x98] MOV ESI,0x1 CALL 0x001b0e3d TEST EAX,EAX JNZ 0x0016a45a MOV R15,qword ptr [RBP + -0x68] LAB_0016a28d: MOV R14D,dword ptr [RBX + 0x480] LEA RAX,[0x4aea18] MOV RAX,qword ptr [RAX] LEA RDI,[RBP + -0x128] MOV ESI,R14D MOV EDX,0x6 CALL qword ptr [RAX + 0x158] TEST RAX,RAX JNZ 0x0016a35f MOV ECX,0x4 MOV EDI,R14D MOV RSI,qword ptr [RBP + -0xa0] MOV RDX,R15 CALL 0x001bff8c MOV R14,RAX LAB_0016a2d6: TEST R14,R14 JZ 0x0016a31a JMP 0x0016a440 LAB_0016a2e0: CMP dword ptr [RBP + -0x8c],0x0 SETZ AL TEST R13B,R13B SETNZ CL AND CL,AL MOVZX R9D,CL MOV RDI,RBX MOV RSI,qword ptr [RBP + -0x98] MOV RDX,qword ptr [RBP + -0xa0] MOV RCX,R12 MOV R8,R15 CALL 0x0018ba3c TEST AL,AL JNZ 0x0016a44d LAB_0016a31a: MOV R15D,dword ptr [RBP + -0x8c] TEST R15D,R15D JNZ 0x0016a338 MOV RAX,qword ptr [RBP + -0x60] ADD RAX,qword ptr [RBP + -0x50] MOV qword ptr [RBX + 0xa0],RAX XOR R13D,R13D LAB_0016a338: INC R15D MOV RAX,qword ptr [RBP + -0x68] MOV R14,qword ptr [RBP + -0x48] MOV R12,qword ptr [RBP + -0xa8] SUB R12D,EAX ADD qword ptr [RBP + -0xa0],RAX LAB_0016a354: TEST R12D,R12D JNZ 0x0016a03b JMP 0x0016a3d5 LAB_0016a35f: MOV R12,RAX LEA RAX,[0x4aea18] MOV RAX,qword ptr [RAX] MOV RDI,R12 MOV RSI,R15 LEA RDX,[0x1fba67] MOV ECX,0x783 CALL qword ptr [RAX + 0x210] MOV ECX,0x4 MOV EDI,R14D MOV RSI,qword ptr [RBP + -0xa0] MOV RDX,R15 CALL 0x001bff8c MOV R14,RAX TEST RAX,RAX MOV EAX,0x0 CMOVNZ R15,RAX LEA RAX,[0x4aea18] MOV RAX,qword ptr [RAX] MOV RDI,R12 MOV RSI,R15 CALL qword ptr [RAX + 0x218] JMP 0x0016a2d6 LAB_0016a3c5: CALL 0x001c14ee MOV dword ptr [RAX],0x89 JMP 0x0016a45a LAB_0016a3d5: OR byte ptr [RBX + 0x624],0x82 MOV RAX,qword ptr [RBX] CMP dword ptr [RAX + 0x7b8],0x0 JNZ 0x0016a3f2 MOV RDI,RBX XOR ESI,ESI CALL 0x00162f86 LAB_0016a3f2: MOV RDX,qword ptr [RBX + 0x3a0] MOV RCX,qword ptr [RBP + -0x70] MOV RDI,RBX MOV RSI,qword ptr [RBP + -0xc8] CALL 0x001691ff MOV RCX,RAX XOR EAX,EAX CMP RCX,-0x1 JNZ 0x0016a477 JMP 0x0016a470 LAB_0016a419: TEST AL,0x14 JZ 0x0016a45a CALL 0x001c14ee MOV dword ptr [RAX],0x86 MOV RAX,qword ptr [RBP + -0x50] MOV qword ptr [RBX + 0x98],RAX ADD RAX,qword ptr [RBP + -0x60] MOV qword ptr [RBX + 0xa0],RAX JMP 0x0016a45a LAB_0016a440: CALL 0x001c14ee CMP dword ptr [RAX],0xaf JNZ 0x0016a45a LAB_0016a44d: MOV RDI,RBX MOV ESI,0x7f CALL 0x0015cab0 LAB_0016a45a: MOV RAX,qword ptr [RBX] CMP dword ptr [RAX + 0x7b8],0x0 JNZ 0x0016a470 MOV RDI,RBX XOR ESI,ESI CALL 0x00162f86 LAB_0016a470: CALL 0x001c14ee MOV EAX,dword ptr [RAX] LAB_0016a477: MOV RCX,qword ptr FS:[0x28] CMP RCX,qword ptr [RBP + -0x30] JNZ 0x0016a498 ADD RSP,0x108 POP RBX POP R12 POP R13 POP R14 POP R15 POP RBP RET LAB_0016a498: CALL 0x0012a280
int4 _ma_read_rnd_dynamic_record(long *param_1,int8 param_2,ulong param_3,int4 param_4) { void *pvVar1; char cVar2; int iVar3; uint uVar4; uint uVar5; long lVar6; int *piVar7; int4 *puVar8; uint uVar9; int4 uVar10; ulong uVar11; long lVar12; long in_FS_OFFSET; int1 local_130 [72]; long *local_e8; ulong local_e0; long *local_d8; int8 local_d0; long local_c8; long *local_c0; int4 local_b4; ulong local_b0; void *local_a8; ulong *local_a0; int local_94; int1 local_90 [24]; ulong local_78; ulong local_70; long local_68; long local_58; ulong local_50; int4 local_40; long local_38; local_38 = *(long *)(in_FS_OFFSET + 0x28); local_c8 = *param_1; local_e0 = (ulong)(*(char *)(local_c8 + 0x7d9) != '\0') << 0x10 | 0x10; local_40 = 0; local_a0 = (ulong *)(param_1 + 0x97); local_c0 = param_1 + 0x74; local_d8 = param_1 + 0x8c; uVar11 = 1; iVar3 = 0; local_e8 = param_1; local_d0 = param_2; do { if (*(ulong *)(param_1[4] + 0x28) <= param_3) { puVar8 = (int4 *)_my_thread_var(); *puVar8 = 0x89; LAB_0016a45a: if (*(int *)(*param_1 + 0x7b8) == 0) { _ma_writeinfo(param_1,0); } goto LAB_0016a470; } local_94 = iVar3; if ((*(uint *)((long)param_1 + 0x61c) & 2) != 0) { cVar2 = _ma_read_cache(param_1,local_a0,local_90,param_3,0x14, ((char)param_4 != '\0' && iVar3 == 0) | 2); uVar10 = 0xffffffff; if (cVar2 == '\0') goto LAB_0016a0db; LAB_0016a44d: _ma_set_fatal_error(param_1,0x7f); goto LAB_0016a45a; } if ((((*(uint *)((long)param_1 + 0x61c) & 0x10) != 0) && (*local_a0 < param_3 + 0x14)) && (iVar3 = my_b_flush_io_cache(local_a0,1), iVar3 != 0)) goto LAB_0016a470; *(int4 *)(param_1 + 0xb3) = 1; uVar10 = (int4)param_1[0x90]; LAB_0016a0db: uVar4 = _ma_get_block_info(param_1,local_90,uVar10,param_3); if (uVar4 < 4) { if (local_94 == 0) { param_1[0x22] = local_78; if (*(uint *)(local_c8 + 0x3b0) < local_78) goto LAB_0016a44d; param_1[0x13] = param_3; if ((*(int *)(local_c8 + 0x3f0) != 0) && (cVar2 = _ma_alloc_buffer(local_c0,local_d8,local_78 + *(uint *)(local_c8 + 0x424), local_e0), cVar2 != '\0')) goto LAB_0016a45a; local_a8 = (void *)*local_c0; uVar11 = local_78; } lVar12 = local_58; pvVar1 = local_a8; local_b0 = uVar11; if ((uVar11 & 0xffffffff) < local_70) goto LAB_0016a44d; uVar5 = (int)local_58 - (int)param_3; uVar9 = 0x14 - uVar5; uVar4 = (uint)local_70; if (uVar9 <= local_70) { uVar4 = uVar9; } local_b4 = param_4; if (uVar4 != 0) { uVar11 = (ulong)uVar4; memcpy(local_a8,local_90 + uVar5,uVar11); local_70 = local_70 - uVar11; local_b0 = (ulong)((int)local_b0 - uVar4); local_a8 = (void *)((long)pvVar1 + uVar11); lVar12 = lVar12 + uVar11; param_1 = local_e8; } param_4 = local_b4; if (local_70 != 0) { if ((*(uint *)((long)param_1 + 0x61c) & 2) == 0) { if ((((*(uint *)((long)param_1 + 0x61c) & 0x10) == 0) || (local_58 + local_70 <= *local_a0)) || (iVar3 = my_b_flush_io_cache(local_a0,1), iVar3 == 0)) { uVar11 = local_70; uVar10 = (int4)param_1[0x90]; lVar12 = (**(code **)(PSI_server + 0x158))(local_130,uVar10,6); if (lVar12 == 0) { lVar6 = my_read(uVar10,local_a8,uVar11,4); } else { (**(code **)(PSI_server + 0x210)) (lVar12,uVar11, "/workspace/llm4binary/github2025/eloqsql/storage/maria/ma_dynrec.c",0x783) ; lVar6 = my_read(uVar10,local_a8,uVar11,4); if (lVar6 != 0) { uVar11 = 0; } (**(code **)(PSI_server + 0x218))(lVar12,uVar11); } if (lVar6 == 0) goto LAB_0016a31a; piVar7 = (int *)_my_thread_var(); if (*piVar7 == 0xaf) goto LAB_0016a44d; } goto LAB_0016a45a; } cVar2 = _ma_read_cache(param_1,local_a0,local_a8,lVar12,local_70, (char)local_b4 != '\0' && local_94 == 0); if (cVar2 != '\0') goto LAB_0016a44d; } LAB_0016a31a: if (local_94 == 0) { param_1[0x14] = local_68 + local_58; param_4 = 0; } uVar11 = (ulong)(uint)((int)local_b0 - (int)local_70); local_a8 = (void *)((long)local_a8 + local_70); param_3 = local_50; iVar3 = local_94 + 1; } else { if (((uVar4 & 0x14) == 0) || ((char)param_4 == '\0')) { if ((uVar4 & 0x14) != 0) { puVar8 = (int4 *)_my_thread_var(); *puVar8 = 0x86; param_1[0x13] = local_58; param_1[0x14] = local_58 + local_68; } goto LAB_0016a45a; } param_3 = local_68 + local_58; local_40 = 0; iVar3 = local_94; } } while ((int)uVar11 != 0); *(byte *)((long)param_1 + 0x624) = *(byte *)((long)param_1 + 0x624) | 0x82; if (*(int *)(*param_1 + 0x7b8) == 0) { _ma_writeinfo(param_1,0); } lVar12 = _ma_rec_unpack(param_1,local_d0,param_1[0x74],local_78); uVar10 = 0; if (lVar12 == -1) { LAB_0016a470: puVar8 = (int4 *)_my_thread_var(); uVar10 = *puVar8; } if (*(long *)(in_FS_OFFSET + 0x28) != local_38) { /* WARNING: Subroutine does not return */ __stack_chk_fail(); } return uVar10; }
40,838
binding_system_resolve_binding_in_scope
tsotchke[P]eshkol/src/frontend/binding/core/binding_management.c
uint64_t binding_system_resolve_binding_in_scope(BindingSystem* system, StringId name, uint64_t scope_id) { assert(system != NULL); assert(name != NULL); // Search for binding in specified scope and parent scopes while (scope_id != 0) { // Search for binding in current scope for (size_t i = 0; i < system->binding_table.count; i++) { if (system->binding_table.scope_ids[i] == scope_id && strcmp(system->binding_table.names[i], name) == 0) { // Found binding return system->binding_table.binding_ids[i]; } } // Get parent scope scope_id = binding_system_get_parent_scope(system, scope_id); } // Binding not found return 0; }
O0
c
binding_system_resolve_binding_in_scope: pushq %rbp movq %rsp, %rbp subq $0x30, %rsp movq %rdi, -0x10(%rbp) movq %rsi, -0x18(%rbp) movq %rdx, -0x20(%rbp) cmpq $0x0, -0x10(%rbp) je 0xbf8d jmp 0xbfac leaq 0x5deb(%rip), %rdi # 0x11d7f leaq 0x5fd7(%rip), %rsi # 0x11f72 movl $0xd2, %edx leaq 0x61d2(%rip), %rcx # 0x12179 callq 0x10a0 cmpq $0x0, -0x18(%rbp) je 0xbfb5 jmp 0xbfd4 leaq 0x5db6(%rip), %rdi # 0x11d72 leaq 0x5faf(%rip), %rsi # 0x11f72 movl $0xd3, %edx leaq 0x61aa(%rip), %rcx # 0x12179 callq 0x10a0 jmp 0xbfd6 cmpq $0x0, -0x20(%rbp) je 0xc067 movq $0x0, -0x28(%rbp) movq -0x28(%rbp), %rax movq -0x10(%rbp), %rcx cmpq 0x48(%rcx), %rax jae 0xc051 movq -0x10(%rbp), %rax movq 0x20(%rax), %rax movq -0x28(%rbp), %rcx movq (%rax,%rcx,8), %rax cmpq -0x20(%rbp), %rax jne 0xc041 movq -0x10(%rbp), %rax movq 0x10(%rax), %rax movq -0x28(%rbp), %rcx movq (%rax,%rcx,8), %rdi movq -0x18(%rbp), %rsi callq 0x10d0 cmpl $0x0, %eax jne 0xc041 movq -0x10(%rbp), %rax movq 0x18(%rax), %rax movq -0x28(%rbp), %rcx movq (%rax,%rcx,8), %rax movq %rax, -0x8(%rbp) jmp 0xc06f jmp 0xc043 movq -0x28(%rbp), %rax addq $0x1, %rax movq %rax, -0x28(%rbp) jmp 0xbfe9 movq -0x10(%rbp), %rdi movq -0x20(%rbp), %rsi callq 0xb750 movq %rax, -0x20(%rbp) jmp 0xbfd6 movq $0x0, -0x8(%rbp) movq -0x8(%rbp), %rax addq $0x30, %rsp popq %rbp retq nopl (%rax)
binding_system_resolve_binding_in_scope: push rbp mov rbp, rsp sub rsp, 30h mov [rbp+var_10], rdi mov [rbp+var_18], rsi mov [rbp+var_20], rdx cmp [rbp+var_10], 0 jz short loc_BF8D jmp short loc_BFAC loc_BF8D: lea rdi, aSystemNull; "system != NULL" lea rsi, aWorkspaceLlm4b_7; "/workspace/llm4binary/github/2025_star3"... mov edx, 0D2h lea rcx, aUint64TBinding_5; "uint64_t binding_system_resolve_binding"... call ___assert_fail loc_BFAC: cmp [rbp+var_18], 0 jz short loc_BFB5 jmp short loc_BFD4 loc_BFB5: lea rdi, aNameNull; "name != NULL" lea rsi, aWorkspaceLlm4b_7; "/workspace/llm4binary/github/2025_star3"... mov edx, 0D3h lea rcx, aUint64TBinding_5; "uint64_t binding_system_resolve_binding"... call ___assert_fail loc_BFD4: jmp short $+2 loc_BFD6: cmp [rbp+var_20], 0 jz loc_C067 mov [rbp+var_28], 0 loc_BFE9: mov rax, [rbp+var_28] mov rcx, [rbp+var_10] cmp rax, [rcx+48h] jnb short loc_C051 mov rax, [rbp+var_10] mov rax, [rax+20h] mov rcx, [rbp+var_28] mov rax, [rax+rcx*8] cmp rax, [rbp+var_20] jnz short loc_C041 mov rax, [rbp+var_10] mov rax, [rax+10h] mov rcx, [rbp+var_28] mov rdi, [rax+rcx*8] mov rsi, [rbp+var_18] call _strcmp cmp eax, 0 jnz short loc_C041 mov rax, [rbp+var_10] mov rax, [rax+18h] mov rcx, [rbp+var_28] mov rax, [rax+rcx*8] mov [rbp+var_8], rax jmp short loc_C06F loc_C041: jmp short $+2 loc_C043: mov rax, [rbp+var_28] add rax, 1 mov [rbp+var_28], rax jmp short loc_BFE9 loc_C051: mov rdi, [rbp+var_10] mov rsi, [rbp+var_20] call binding_system_get_parent_scope mov [rbp+var_20], rax jmp loc_BFD6 loc_C067: mov [rbp+var_8], 0 loc_C06F: mov rax, [rbp+var_8] add rsp, 30h pop rbp retn
long long binding_system_resolve_binding_in_scope(_QWORD *a1, long long a2, long long parent_scope) { unsigned long long i; // [rsp+8h] [rbp-28h] if ( !a1 ) __assert_fail( "system != NULL", "/workspace/llm4binary/github/2025_star3/tsotchke[P]eshkol/src/frontend/binding/core/binding_management.c", 210LL, "uint64_t binding_system_resolve_binding_in_scope(BindingSystem *, StringId, uint64_t)"); if ( !a2 ) __assert_fail( "name != NULL", "/workspace/llm4binary/github/2025_star3/tsotchke[P]eshkol/src/frontend/binding/core/binding_management.c", 211LL, "uint64_t binding_system_resolve_binding_in_scope(BindingSystem *, StringId, uint64_t)"); while ( parent_scope ) { for ( i = 0LL; i < a1[9]; ++i ) { if ( *(_QWORD *)(a1[4] + 8 * i) == parent_scope && !(unsigned int)strcmp(*(_QWORD *)(a1[2] + 8 * i), a2) ) return *(_QWORD *)(a1[3] + 8 * i); } parent_scope = binding_system_get_parent_scope(a1, parent_scope); } return 0LL; }
binding_system_resolve_binding_in_scope: PUSH RBP MOV RBP,RSP SUB RSP,0x30 MOV qword ptr [RBP + -0x10],RDI MOV qword ptr [RBP + -0x18],RSI MOV qword ptr [RBP + -0x20],RDX CMP qword ptr [RBP + -0x10],0x0 JZ 0x0010bf8d JMP 0x0010bfac LAB_0010bf8d: LEA RDI,[0x111d7f] LEA RSI,[0x111f72] MOV EDX,0xd2 LEA RCX,[0x112179] CALL 0x001010a0 LAB_0010bfac: CMP qword ptr [RBP + -0x18],0x0 JZ 0x0010bfb5 JMP 0x0010bfd4 LAB_0010bfb5: LEA RDI,[0x111d72] LEA RSI,[0x111f72] MOV EDX,0xd3 LEA RCX,[0x112179] CALL 0x001010a0 LAB_0010bfd4: JMP 0x0010bfd6 LAB_0010bfd6: CMP qword ptr [RBP + -0x20],0x0 JZ 0x0010c067 MOV qword ptr [RBP + -0x28],0x0 LAB_0010bfe9: MOV RAX,qword ptr [RBP + -0x28] MOV RCX,qword ptr [RBP + -0x10] CMP RAX,qword ptr [RCX + 0x48] JNC 0x0010c051 MOV RAX,qword ptr [RBP + -0x10] MOV RAX,qword ptr [RAX + 0x20] MOV RCX,qword ptr [RBP + -0x28] MOV RAX,qword ptr [RAX + RCX*0x8] CMP RAX,qword ptr [RBP + -0x20] JNZ 0x0010c041 MOV RAX,qword ptr [RBP + -0x10] MOV RAX,qword ptr [RAX + 0x10] MOV RCX,qword ptr [RBP + -0x28] MOV RDI,qword ptr [RAX + RCX*0x8] MOV RSI,qword ptr [RBP + -0x18] CALL 0x001010d0 CMP EAX,0x0 JNZ 0x0010c041 MOV RAX,qword ptr [RBP + -0x10] MOV RAX,qword ptr [RAX + 0x18] MOV RCX,qword ptr [RBP + -0x28] MOV RAX,qword ptr [RAX + RCX*0x8] MOV qword ptr [RBP + -0x8],RAX JMP 0x0010c06f LAB_0010c041: JMP 0x0010c043 LAB_0010c043: MOV RAX,qword ptr [RBP + -0x28] ADD RAX,0x1 MOV qword ptr [RBP + -0x28],RAX JMP 0x0010bfe9 LAB_0010c051: MOV RDI,qword ptr [RBP + -0x10] MOV RSI,qword ptr [RBP + -0x20] CALL 0x0010b750 MOV qword ptr [RBP + -0x20],RAX JMP 0x0010bfd6 LAB_0010c067: MOV qword ptr [RBP + -0x8],0x0 LAB_0010c06f: MOV RAX,qword ptr [RBP + -0x8] ADD RSP,0x30 POP RBP RET
int8 binding_system_resolve_binding_in_scope(long param_1,char *param_2,long param_3) { int iVar1; ulong local_30; long local_28; if (param_1 == 0) { /* WARNING: Subroutine does not return */ __assert_fail("system != NULL", "/workspace/llm4binary/github/2025_star3/tsotchke[P]eshkol/src/frontend/binding/core/binding_management.c" ,0xd2, "uint64_t binding_system_resolve_binding_in_scope(BindingSystem *, StringId, uint64_t)" ); } local_28 = param_3; if (param_2 != (char *)0x0) { do { if (local_28 == 0) { return 0; } for (local_30 = 0; local_30 < *(ulong *)(param_1 + 0x48); local_30 = local_30 + 1) { if ((*(long *)(*(long *)(param_1 + 0x20) + local_30 * 8) == local_28) && (iVar1 = strcmp(*(char **)(*(long *)(param_1 + 0x10) + local_30 * 8),param_2), iVar1 == 0 )) { return *(int8 *)(*(long *)(param_1 + 0x18) + local_30 * 8); } } local_28 = binding_system_get_parent_scope(param_1,local_28); } while( true ); } /* WARNING: Subroutine does not return */ __assert_fail("name != NULL", "/workspace/llm4binary/github/2025_star3/tsotchke[P]eshkol/src/frontend/binding/core/binding_management.c" ,0xd3, "uint64_t binding_system_resolve_binding_in_scope(BindingSystem *, StringId, uint64_t)" ); }
40,839
google::protobuf::io::EpsCopyOutputStream::FlushAndResetBuffer(unsigned char*)
aimrt_mujoco_sim/_deps/protobuf-src/src/google/protobuf/io/coded_stream.cc
uint8_t* EpsCopyOutputStream::FlushAndResetBuffer(uint8_t* ptr) { if (had_error_) return buffer_; int s = Flush(ptr); if (had_error_) return buffer_; return SetInitialBuffer(buffer_end_, s); }
O3
cpp
google::protobuf::io::EpsCopyOutputStream::FlushAndResetBuffer(unsigned char*): pushq %rbx movq %rdi, %rbx cmpb $0x1, 0x38(%rdi) je 0x7a018 movq %rbx, %rdi callq 0x79eba cmpb $0x1, 0x38(%rbx) jne 0x7a01e addq $0x10, %rbx jmp 0x7a04c movq 0x8(%rbx), %rcx xorl %edx, %edx cmpl $0x11, %eax movl %eax, %esi leaq -0x10(%rcx,%rsi), %rsi cltq leaq 0x10(%rbx,%rax), %rax cmovgeq %rsi, %rax cmovlq %rcx, %rdx movq %rax, (%rbx) movq %rdx, 0x8(%rbx) leaq 0x10(%rbx), %rbx cmovgeq %rcx, %rbx movq %rbx, %rax popq %rbx retq nop
_ZN6google8protobuf2io19EpsCopyOutputStream19FlushAndResetBufferEPh: push rbx mov rbx, rdi cmp byte ptr [rdi+38h], 1 jz short loc_7A018 mov rdi, rbx; this call _ZN6google8protobuf2io19EpsCopyOutputStream5FlushEPh; google::protobuf::io::EpsCopyOutputStream::Flush(uchar *) cmp byte ptr [rbx+38h], 1 jnz short loc_7A01E loc_7A018: add rbx, 10h jmp short loc_7A04C loc_7A01E: mov rcx, [rbx+8] xor edx, edx cmp eax, 11h mov esi, eax lea rsi, [rcx+rsi-10h] cdqe lea rax, [rbx+rax+10h] cmovge rax, rsi cmovl rdx, rcx mov [rbx], rax mov [rbx+8], rdx lea rbx, [rbx+10h] cmovge rbx, rcx loc_7A04C: mov rax, rbx pop rbx retn
char * google::protobuf::io::EpsCopyOutputStream::FlushAndResetBuffer( google::protobuf::io::EpsCopyOutputStream *this, unsigned __int8 *a2) { int v2; // eax char *v3; // rbx long long v4; // rcx long long v5; // rdx bool v6; // cc long long v7; // rsi char *v8; // rax if ( *((_BYTE *)this + 56) == 1 ) return (char *)this + 16; v2 = google::protobuf::io::EpsCopyOutputStream::Flush(this, a2); if ( *((_BYTE *)this + 56) == 1 ) return (char *)this + 16; v4 = *((_QWORD *)this + 1); v5 = 0LL; v6 = v2 < 17; v7 = v4 + (unsigned int)v2 - 16; v8 = (char *)this + v2 + 16; if ( v6 ) v5 = *((_QWORD *)this + 1); else v8 = (char *)v7; *(_QWORD *)this = v8; *((_QWORD *)this + 1) = v5; v3 = (char *)this + 16; if ( !v6 ) return (char *)v4; return v3; }
FlushAndResetBuffer: PUSH RBX MOV RBX,RDI CMP byte ptr [RDI + 0x38],0x1 JZ 0x0017a018 MOV RDI,RBX CALL 0x00179eba CMP byte ptr [RBX + 0x38],0x1 JNZ 0x0017a01e LAB_0017a018: ADD RBX,0x10 JMP 0x0017a04c LAB_0017a01e: MOV RCX,qword ptr [RBX + 0x8] XOR EDX,EDX CMP EAX,0x11 MOV ESI,EAX LEA RSI,[RCX + RSI*0x1 + -0x10] CDQE LEA RAX,[RBX + RAX*0x1 + 0x10] CMOVGE RAX,RSI CMOVL RDX,RCX MOV qword ptr [RBX],RAX MOV qword ptr [RBX + 0x8],RDX LEA RBX,[RBX + 0x10] CMOVGE RBX,RCX LAB_0017a04c: MOV RAX,RBX POP RBX RET
/* google::protobuf::io::EpsCopyOutputStream::FlushAndResetBuffer(unsigned char*) */ EpsCopyOutputStream * __thiscall google::protobuf::io::EpsCopyOutputStream::FlushAndResetBuffer (EpsCopyOutputStream *this,uchar *param_1) { EpsCopyOutputStream *pEVar1; uint uVar2; EpsCopyOutputStream *pEVar3; EpsCopyOutputStream *pEVar4; if ((this[0x38] == (EpsCopyOutputStream)0x1) || (uVar2 = Flush(this,param_1), this[0x38] == (EpsCopyOutputStream)0x1)) { pEVar4 = this + 0x10; } else { pEVar1 = *(EpsCopyOutputStream **)(this + 8); pEVar3 = (EpsCopyOutputStream *)0x0; pEVar4 = pEVar1 + ((ulong)uVar2 - 0x10); if ((int)uVar2 < 0x11) { pEVar3 = pEVar1; pEVar4 = this + (long)(int)uVar2 + 0x10; } *(EpsCopyOutputStream **)this = pEVar4; *(EpsCopyOutputStream **)(this + 8) = pEVar3; pEVar4 = this + 0x10; if (0x10 < (int)uVar2) { pEVar4 = pEVar1; } } return pEVar4; }
40,840
create_tmpdir
eloqsql/storage/maria/unittest/ma_pagecache_consist.c
static char *create_tmpdir(const char *progname) { static char test_dirname[FN_REFLEN]; char tmp_name[FN_REFLEN]; size_t length; /* Create a temporary directory of name TMP-'executable', but without the -t extension */ fn_format(tmp_name, progname, "", "", MY_REPLACE_DIR | MY_REPLACE_EXT); length= strlen(tmp_name); if (length > 2 && tmp_name[length-2] == '-' && tmp_name[length-1] == 't') tmp_name[length-2]= 0; strxmov(test_dirname, "TMP-", tmp_name, NullS); /* Don't give an error if we can't create dir, as it may already exist from a previously aborted run */ (void) my_mkdir(test_dirname, 0777, MYF(0)); return test_dirname; }
O0
c
create_tmpdir: pushq %rbp movq %rsp, %rbp subq $0x230, %rsp # imm = 0x230 movq %fs:0x28, %rax movq %rax, -0x8(%rbp) movq %rdi, -0x218(%rbp) leaq -0x210(%rbp), %rdi movq -0x218(%rbp), %rsi leaq 0x12c569(%rip), %rcx # 0x157cad movl $0x3, %r8d movq %rcx, %rdx callq 0xdf7c0 leaq -0x210(%rbp), %rdi callq 0x2a350 movq %rax, -0x220(%rbp) cmpq $0x2, -0x220(%rbp) jbe 0x2b7b2 movq -0x220(%rbp), %rax subq $0x2, %rax movsbl -0x210(%rbp,%rax), %eax cmpl $0x2d, %eax jne 0x2b7b2 movq -0x220(%rbp), %rax subq $0x1, %rax movsbl -0x210(%rbp,%rax), %eax cmpl $0x74, %eax jne 0x2b7b2 movq -0x220(%rbp), %rax subq $0x2, %rax movb $0x0, -0x210(%rbp,%rax) leaq 0x44bcc7(%rip), %rdi # 0x477480 movq %rdi, -0x230(%rbp) leaq 0x125b47(%rip), %rsi # 0x15130e xorl %eax, %eax movl %eax, %ecx movq %rcx, -0x228(%rbp) leaq -0x210(%rbp), %rdx callq 0x14df40 movq -0x230(%rbp), %rdi movq -0x228(%rbp), %rdx movl $0x1ff, %esi # imm = 0x1FF callq 0xf3ea0 movq %fs:0x28, %rax movq -0x8(%rbp), %rcx cmpq %rcx, %rax jne 0x2b818 leaq 0x44bc71(%rip), %rax # 0x477480 addq $0x230, %rsp # imm = 0x230 popq %rbp retq callq 0x2a270 nopl (%rax)
create_tmpdir: push rbp mov rbp, rsp sub rsp, 230h mov rax, fs:28h mov [rbp+var_8], rax mov [rbp+var_218], rdi lea rdi, [rbp+var_210] mov rsi, [rbp+var_218] lea rcx, asc_157CA9+4; "" mov r8d, 3 mov rdx, rcx call fn_format lea rdi, [rbp+var_210] call _strlen mov [rbp+var_220], rax cmp [rbp+var_220], 2 jbe short loc_2B7B2 mov rax, [rbp+var_220] sub rax, 2 movsx eax, [rbp+rax+var_210] cmp eax, 2Dh ; '-' jnz short loc_2B7B2 mov rax, [rbp+var_220] sub rax, 1 movsx eax, [rbp+rax+var_210] cmp eax, 74h ; 't' jnz short loc_2B7B2 mov rax, [rbp+var_220] sub rax, 2 mov [rbp+rax+var_210], 0 loc_2B7B2: lea rdi, create_tmpdir_test_dirname mov [rbp+var_230], rdi lea rsi, aTmp; "TMP-" xor eax, eax mov ecx, eax mov [rbp+var_228], rcx lea rdx, [rbp+var_210] call strxmov mov rdi, [rbp+var_230] mov rdx, [rbp+var_228] mov esi, 1FFh call my_mkdir mov rax, fs:28h mov rcx, [rbp+var_8] cmp rax, rcx jnz short loc_2B818 lea rax, create_tmpdir_test_dirname add rsp, 230h pop rbp retn loc_2B818: call ___stack_chk_fail
void * create_tmpdir(long long a1) { int v1; // r8d int v2; // r9d long long v4; // [rsp+0h] [rbp-230h] long long v5; // [rsp+8h] [rbp-228h] unsigned long long v6; // [rsp+10h] [rbp-220h] long long v7; // [rsp+18h] [rbp-218h] _BYTE v8[520]; // [rsp+20h] [rbp-210h] BYREF unsigned long long v9; // [rsp+228h] [rbp-8h] v9 = __readfsqword(0x28u); HIWORD(v7) = HIWORD(a1); fn_format(v8, a1, "", "", 3LL); v6 = strlen(v8); if ( v6 > 2 && v8[v6 - 2] == 45 && v8[v6 - 1] == 116 ) v8[v6 - 2] = 0; strxmov( (unsigned int)&create_tmpdir_test_dirname, (unsigned int)"TMP-", (unsigned int)v8, 0, v1, v2, &create_tmpdir_test_dirname, 0LL); my_mkdir(v4, 511LL, v5); return &create_tmpdir_test_dirname; }
create_tmpdir: PUSH RBP MOV RBP,RSP SUB RSP,0x230 MOV RAX,qword ptr FS:[0x28] MOV qword ptr [RBP + -0x8],RAX MOV qword ptr [RBP + -0x218],RDI LEA RDI,[RBP + -0x210] MOV RSI,qword ptr [RBP + -0x218] LEA RCX,[0x257cad] MOV R8D,0x3 MOV RDX,RCX CALL 0x001df7c0 LEA RDI,[RBP + -0x210] CALL 0x0012a350 MOV qword ptr [RBP + -0x220],RAX CMP qword ptr [RBP + -0x220],0x2 JBE 0x0012b7b2 MOV RAX,qword ptr [RBP + -0x220] SUB RAX,0x2 MOVSX EAX,byte ptr [RBP + RAX*0x1 + -0x210] CMP EAX,0x2d JNZ 0x0012b7b2 MOV RAX,qword ptr [RBP + -0x220] SUB RAX,0x1 MOVSX EAX,byte ptr [RBP + RAX*0x1 + -0x210] CMP EAX,0x74 JNZ 0x0012b7b2 MOV RAX,qword ptr [RBP + -0x220] SUB RAX,0x2 MOV byte ptr [RBP + RAX*0x1 + -0x210],0x0 LAB_0012b7b2: LEA RDI,[0x577480] MOV qword ptr [RBP + -0x230],RDI LEA RSI,[0x25130e] XOR EAX,EAX MOV ECX,EAX MOV qword ptr [RBP + -0x228],RCX LEA RDX,[RBP + -0x210] CALL 0x0024df40 MOV RDI,qword ptr [RBP + -0x230] MOV RDX,qword ptr [RBP + -0x228] MOV ESI,0x1ff CALL 0x001f3ea0 MOV RAX,qword ptr FS:[0x28] MOV RCX,qword ptr [RBP + -0x8] CMP RAX,RCX JNZ 0x0012b818 LEA RAX,[0x577480] ADD RSP,0x230 POP RBP RET LAB_0012b818: CALL 0x0012a270
int1 * create_tmpdir(int8 param_1) { size_t sVar1; long in_FS_OFFSET; int8 local_220; char local_218 [520]; long local_10; local_10 = *(long *)(in_FS_OFFSET + 0x28); local_220 = param_1; fn_format(local_218,param_1,&DAT_00257cad,&DAT_00257cad,3); sVar1 = strlen(local_218); if (((2 < sVar1) && (local_218[sVar1 - 2] == '-')) && (local_218[sVar1 - 1] == 't')) { local_218[sVar1 - 2] = '\0'; } strxmov(create_tmpdir_test_dirname,&DAT_0025130e,local_218); my_mkdir(create_tmpdir_test_dirname,0x1ff,0); if (*(long *)(in_FS_OFFSET + 0x28) == local_10) { return create_tmpdir_test_dirname; } /* WARNING: Subroutine does not return */ __stack_chk_fail(); }
40,841
sp_get_linestring_mbr
eloqsql/storage/myisam/sp_key.c
static int sp_get_linestring_mbr(uchar *(*wkb), uchar *end, uint n_dims, uchar byte_order, double *mbr) { uint n_points; n_points = uint4korr(*wkb); (*wkb) += 4; for (; n_points > 0; --n_points) { /* Add next point to mbr */ if (sp_add_point_to_mbr(wkb, end, n_dims, byte_order, mbr)) return -1; } return 0; }
O0
c
sp_get_linestring_mbr: pushq %rbp movq %rsp, %rbp subq $0x30, %rsp movb %cl, %al movq %rdi, -0x10(%rbp) movq %rsi, -0x18(%rbp) movl %edx, -0x1c(%rbp) movb %al, -0x1d(%rbp) movq %r8, -0x28(%rbp) movq -0x10(%rbp), %rax movq (%rax), %rax movl (%rax), %eax movl %eax, -0x2c(%rbp) movq -0x10(%rbp), %rax movq (%rax), %rcx addq $0x4, %rcx movq %rcx, (%rax) cmpl $0x0, -0x2c(%rbp) jbe 0xdb681 movq -0x10(%rbp), %rdi movq -0x18(%rbp), %rsi movl -0x1c(%rbp), %edx movb -0x1d(%rbp), %al movq -0x28(%rbp), %r8 movzbl %al, %ecx callq 0xdb750 cmpl $0x0, %eax je 0xdb674 movl $0xffffffff, -0x4(%rbp) # imm = 0xFFFFFFFF jmp 0xdb688 jmp 0xdb676 movl -0x2c(%rbp), %eax addl $-0x1, %eax movl %eax, -0x2c(%rbp) jmp 0xdb646 movl $0x0, -0x4(%rbp) movl -0x4(%rbp), %eax addq $0x30, %rsp popq %rbp retq nopw %cs:(%rax,%rax)
sp_get_linestring_mbr_0: push rbp mov rbp, rsp sub rsp, 30h mov al, cl mov [rbp+var_10], rdi mov [rbp+var_18], rsi mov [rbp+var_1C], edx mov [rbp+var_1D], al mov [rbp+var_28], r8 mov rax, [rbp+var_10] mov rax, [rax] mov eax, [rax] mov [rbp+var_2C], eax mov rax, [rbp+var_10] mov rcx, [rax] add rcx, 4 mov [rax], rcx loc_DB646: cmp [rbp+var_2C], 0 jbe short loc_DB681 mov rdi, [rbp+var_10] mov rsi, [rbp+var_18] mov edx, [rbp+var_1C] mov al, [rbp+var_1D] mov r8, [rbp+var_28] movzx ecx, al call sp_add_point_to_mbr_0 cmp eax, 0 jz short loc_DB674 mov [rbp+var_4], 0FFFFFFFFh jmp short loc_DB688 loc_DB674: jmp short $+2 loc_DB676: mov eax, [rbp+var_2C] add eax, 0FFFFFFFFh mov [rbp+var_2C], eax jmp short loc_DB646 loc_DB681: mov [rbp+var_4], 0 loc_DB688: mov eax, [rbp+var_4] add rsp, 30h pop rbp retn
long long sp_get_linestring_mbr_0(_DWORD **a1, long long a2, unsigned int a3, unsigned __int8 a4, long long a5) { int i; // [rsp+4h] [rbp-2Ch] for ( i = *(*a1)++; i; --i ) { if ( (unsigned int)sp_add_point_to_mbr_0(a1, a2, a3, a4, a5) ) return (unsigned int)-1; } return 0; }
sp_get_linestring_mbr: PUSH RBP MOV RBP,RSP SUB RSP,0x30 MOV AL,CL MOV qword ptr [RBP + -0x10],RDI MOV qword ptr [RBP + -0x18],RSI MOV dword ptr [RBP + -0x1c],EDX MOV byte ptr [RBP + -0x1d],AL MOV qword ptr [RBP + -0x28],R8 MOV RAX,qword ptr [RBP + -0x10] MOV RAX,qword ptr [RAX] MOV EAX,dword ptr [RAX] MOV dword ptr [RBP + -0x2c],EAX MOV RAX,qword ptr [RBP + -0x10] MOV RCX,qword ptr [RAX] ADD RCX,0x4 MOV qword ptr [RAX],RCX LAB_001db646: CMP dword ptr [RBP + -0x2c],0x0 JBE 0x001db681 MOV RDI,qword ptr [RBP + -0x10] MOV RSI,qword ptr [RBP + -0x18] MOV EDX,dword ptr [RBP + -0x1c] MOV AL,byte ptr [RBP + -0x1d] MOV R8,qword ptr [RBP + -0x28] MOVZX ECX,AL CALL 0x001db750 CMP EAX,0x0 JZ 0x001db674 MOV dword ptr [RBP + -0x4],0xffffffff JMP 0x001db688 LAB_001db674: JMP 0x001db676 LAB_001db676: MOV EAX,dword ptr [RBP + -0x2c] ADD EAX,-0x1 MOV dword ptr [RBP + -0x2c],EAX JMP 0x001db646 LAB_001db681: MOV dword ptr [RBP + -0x4],0x0 LAB_001db688: MOV EAX,dword ptr [RBP + -0x4] ADD RSP,0x30 POP RBP RET
int4 sp_get_linestring_mbr (long *param_1,int8 param_2,int4 param_3,int1 param_4,int8 param_5 ) { int iVar1; int local_34; local_34 = *(int *)*param_1; *param_1 = *param_1 + 4; while( true ) { if (local_34 == 0) { return 0; } iVar1 = sp_add_point_to_mbr(param_1,param_2,param_3,param_4,param_5); if (iVar1 != 0) break; local_34 = local_34 + -1; } return 0xffffffff; }
40,842
ps_fetch_int64
eloqsql/libmariadb/libmariadb/ma_stmt_codec.c
static void ps_fetch_int64(MYSQL_BIND *r_param, const MYSQL_FIELD * const field, unsigned char **row) { switch(r_param->buffer_type) { /* case MYSQL_TYPE_TINY: ps_fetch_from_1_to_8_bytes(r_param, field, row, 1); break; case MYSQL_TYPE_YEAR: case MYSQL_TYPE_SHORT: ps_fetch_from_1_to_8_bytes(r_param, field, row, 2); break; case MYSQL_TYPE_INT24: case MYSQL_TYPE_LONG: ps_fetch_from_1_to_8_bytes(r_param, field, row, 4); break; */ case MYSQL_TYPE_LONGLONG: ps_fetch_from_1_to_8_bytes(r_param, field, row, 8); break; default: { longlong sval= (longlong)sint8korr(*row); longlong lval= field->flags & UNSIGNED_FLAG ? (longlong)(ulonglong) sval : (longlong)sval; convert_from_long(r_param, field, lval, field->flags & UNSIGNED_FLAG); (*row) += 8; } break; } }
O0
c
ps_fetch_int64: pushq %rbp movq %rsp, %rbp subq $0x30, %rsp movq %rdi, -0x8(%rbp) movq %rsi, -0x10(%rbp) movq %rdx, -0x18(%rbp) movq -0x8(%rbp), %rax movl 0x60(%rax), %eax subl $0x8, %eax jne 0x5429d jmp 0x54282 movq -0x8(%rbp), %rdi movq -0x10(%rbp), %rsi movq -0x18(%rbp), %rdx movl $0x8, %ecx callq 0x52e30 jmp 0x54376 movq -0x18(%rbp), %rax movq (%rax), %rax movzbl (%rax), %eax movq -0x18(%rbp), %rcx movq (%rcx), %rcx movzbl 0x1(%rcx), %ecx shll $0x8, %ecx addl %ecx, %eax movq -0x18(%rbp), %rcx movq (%rcx), %rcx movzbl 0x2(%rcx), %ecx shll $0x10, %ecx addl %ecx, %eax movq -0x18(%rbp), %rcx movq (%rcx), %rcx movzbl 0x3(%rcx), %ecx shll $0x18, %ecx addl %ecx, %eax movl %eax, %eax movq -0x18(%rbp), %rcx movq (%rcx), %rcx movzbl 0x4(%rcx), %ecx movq -0x18(%rbp), %rdx movq (%rdx), %rdx movzbl 0x5(%rdx), %edx shll $0x8, %edx addl %edx, %ecx movq -0x18(%rbp), %rdx movq (%rdx), %rdx movzbl 0x6(%rdx), %edx shll $0x10, %edx addl %edx, %ecx movq -0x18(%rbp), %rdx movq (%rdx), %rdx movzbl 0x7(%rdx), %edx shll $0x18, %edx addl %edx, %ecx movl %ecx, %ecx shlq $0x20, %rcx addq %rcx, %rax movq %rax, -0x20(%rbp) movq -0x10(%rbp), %rax movl 0x64(%rax), %eax andl $0x20, %eax cmpl $0x0, %eax je 0x5433a movq -0x20(%rbp), %rax movq %rax, -0x30(%rbp) jmp 0x54342 movq -0x20(%rbp), %rax movq %rax, -0x30(%rbp) movq -0x30(%rbp), %rax movq %rax, -0x28(%rbp) movq -0x8(%rbp), %rdi movq -0x10(%rbp), %rsi movq -0x28(%rbp), %rdx movq -0x10(%rbp), %rax movl 0x64(%rax), %eax andl $0x20, %eax movsbl %al, %ecx callq 0x54b40 movq -0x18(%rbp), %rax movq (%rax), %rcx addq $0x8, %rcx movq %rcx, (%rax) addq $0x30, %rsp popq %rbp retq nopl (%rax)
ps_fetch_int64: push rbp mov rbp, rsp sub rsp, 30h mov [rbp+var_8], rdi mov [rbp+var_10], rsi mov [rbp+var_18], rdx mov rax, [rbp+var_8] mov eax, [rax+60h] sub eax, 8 jnz short loc_5429D jmp short $+2 loc_54282: mov rdi, [rbp+var_8] mov rsi, [rbp+var_10] mov rdx, [rbp+var_18] mov ecx, 8 call ps_fetch_from_1_to_8_bytes jmp loc_54376 loc_5429D: mov rax, [rbp+var_18] mov rax, [rax] movzx eax, byte ptr [rax] mov rcx, [rbp+var_18] mov rcx, [rcx] movzx ecx, byte ptr [rcx+1] shl ecx, 8 add eax, ecx mov rcx, [rbp+var_18] mov rcx, [rcx] movzx ecx, byte ptr [rcx+2] shl ecx, 10h add eax, ecx mov rcx, [rbp+var_18] mov rcx, [rcx] movzx ecx, byte ptr [rcx+3] shl ecx, 18h add eax, ecx mov eax, eax mov rcx, [rbp+var_18] mov rcx, [rcx] movzx ecx, byte ptr [rcx+4] mov rdx, [rbp+var_18] mov rdx, [rdx] movzx edx, byte ptr [rdx+5] shl edx, 8 add ecx, edx mov rdx, [rbp+var_18] mov rdx, [rdx] movzx edx, byte ptr [rdx+6] shl edx, 10h add ecx, edx mov rdx, [rbp+var_18] mov rdx, [rdx] movzx edx, byte ptr [rdx+7] shl edx, 18h add ecx, edx mov ecx, ecx shl rcx, 20h add rax, rcx mov [rbp+var_20], rax mov rax, [rbp+var_10] mov eax, [rax+64h] and eax, 20h cmp eax, 0 jz short loc_5433A mov rax, [rbp+var_20] mov [rbp+var_30], rax jmp short loc_54342 loc_5433A: mov rax, [rbp+var_20] mov [rbp+var_30], rax loc_54342: mov rax, [rbp+var_30] mov [rbp+var_28], rax mov rdi, [rbp+var_8] mov rsi, [rbp+var_10] mov rdx, [rbp+var_28] mov rax, [rbp+var_10] mov eax, [rax+64h] and eax, 20h movsx ecx, al call convert_from_long mov rax, [rbp+var_18] mov rcx, [rax] add rcx, 8 mov [rax], rcx loc_54376: add rsp, 30h pop rbp retn
_BYTE ** ps_fetch_int64(long long a1, long long a2, _BYTE **a3) { _BYTE **result; // rax if ( *(_DWORD *)(a1 + 96) == 8 ) return ps_fetch_from_1_to_8_bytes(a1, a2, a3, 8u); convert_from_long( a1, a2, ((unsigned long long)(((unsigned __int8)(*a3)[7] << 24) + ((unsigned __int8)(*a3)[6] << 16) + ((unsigned __int8)(*a3)[5] << 8) + (unsigned int)(unsigned __int8)(*a3)[4]) << 32) + ((unsigned __int8)(*a3)[3] << 24) + ((unsigned __int8)(*a3)[2] << 16) + ((unsigned __int8)(*a3)[1] << 8) + (unsigned int)(unsigned __int8)**a3, *(_BYTE *)(a2 + 100) & 0x20); result = a3; *a3 += 8; return result; }
ps_fetch_int64: PUSH RBP MOV RBP,RSP SUB RSP,0x30 MOV qword ptr [RBP + -0x8],RDI MOV qword ptr [RBP + -0x10],RSI MOV qword ptr [RBP + -0x18],RDX MOV RAX,qword ptr [RBP + -0x8] MOV EAX,dword ptr [RAX + 0x60] SUB EAX,0x8 JNZ 0x0015429d JMP 0x00154282 LAB_00154282: MOV RDI,qword ptr [RBP + -0x8] MOV RSI,qword ptr [RBP + -0x10] MOV RDX,qword ptr [RBP + -0x18] MOV ECX,0x8 CALL 0x00152e30 JMP 0x00154376 LAB_0015429d: MOV RAX,qword ptr [RBP + -0x18] MOV RAX,qword ptr [RAX] MOVZX EAX,byte ptr [RAX] MOV RCX,qword ptr [RBP + -0x18] MOV RCX,qword ptr [RCX] MOVZX ECX,byte ptr [RCX + 0x1] SHL ECX,0x8 ADD EAX,ECX MOV RCX,qword ptr [RBP + -0x18] MOV RCX,qword ptr [RCX] MOVZX ECX,byte ptr [RCX + 0x2] SHL ECX,0x10 ADD EAX,ECX MOV RCX,qword ptr [RBP + -0x18] MOV RCX,qword ptr [RCX] MOVZX ECX,byte ptr [RCX + 0x3] SHL ECX,0x18 ADD EAX,ECX MOV EAX,EAX MOV RCX,qword ptr [RBP + -0x18] MOV RCX,qword ptr [RCX] MOVZX ECX,byte ptr [RCX + 0x4] MOV RDX,qword ptr [RBP + -0x18] MOV RDX,qword ptr [RDX] MOVZX EDX,byte ptr [RDX + 0x5] SHL EDX,0x8 ADD ECX,EDX MOV RDX,qword ptr [RBP + -0x18] MOV RDX,qword ptr [RDX] MOVZX EDX,byte ptr [RDX + 0x6] SHL EDX,0x10 ADD ECX,EDX MOV RDX,qword ptr [RBP + -0x18] MOV RDX,qword ptr [RDX] MOVZX EDX,byte ptr [RDX + 0x7] SHL EDX,0x18 ADD ECX,EDX MOV ECX,ECX SHL RCX,0x20 ADD RAX,RCX MOV qword ptr [RBP + -0x20],RAX MOV RAX,qword ptr [RBP + -0x10] MOV EAX,dword ptr [RAX + 0x64] AND EAX,0x20 CMP EAX,0x0 JZ 0x0015433a MOV RAX,qword ptr [RBP + -0x20] MOV qword ptr [RBP + -0x30],RAX JMP 0x00154342 LAB_0015433a: MOV RAX,qword ptr [RBP + -0x20] MOV qword ptr [RBP + -0x30],RAX LAB_00154342: MOV RAX,qword ptr [RBP + -0x30] MOV qword ptr [RBP + -0x28],RAX MOV RDI,qword ptr [RBP + -0x8] MOV RSI,qword ptr [RBP + -0x10] MOV RDX,qword ptr [RBP + -0x28] MOV RAX,qword ptr [RBP + -0x10] MOV EAX,dword ptr [RAX + 0x64] AND EAX,0x20 MOVSX ECX,AL CALL 0x00154b40 MOV RAX,qword ptr [RBP + -0x18] MOV RCX,qword ptr [RAX] ADD RCX,0x8 MOV qword ptr [RAX],RCX LAB_00154376: ADD RSP,0x30 POP RBP RET
void ps_fetch_int64(long param_1,long param_2,long *param_3) { if (*(int *)(param_1 + 0x60) == 8) { ps_fetch_from_1_to_8_bytes(param_1,param_2,param_3,8); } else { convert_from_long(param_1,param_2, CONCAT44((uint)*(byte *)(*param_3 + 4) + (uint)*(byte *)(*param_3 + 5) * 0x100 + (uint)*(byte *)(*param_3 + 6) * 0x10000 + (uint)*(byte *)(*param_3 + 7) * 0x1000000, (uint)*(byte *)*param_3 + (uint)*(byte *)(*param_3 + 1) * 0x100 + (uint)*(byte *)(*param_3 + 2) * 0x10000 + (uint)*(byte *)(*param_3 + 3) * 0x1000000), (byte)*(int4 *)(param_2 + 100) & 0x20); *param_3 = *param_3 + 8; } return; }
40,843
mysql_set_local_infile_handler
eloqsql/libmariadb/libmariadb/ma_loaddata.c
void STDCALL mysql_set_local_infile_handler(MYSQL *conn, int (*local_infile_init)(void **, const char *, void *), int (*local_infile_read)(void *, char *, uint), void (*local_infile_end)(void *), int (*local_infile_error)(void *, char *, uint), void *userdata) { conn->options.local_infile_init= local_infile_init; conn->options.local_infile_read= local_infile_read; conn->options.local_infile_end= local_infile_end; conn->options.local_infile_error= local_infile_error; conn->options.local_infile_userdata = userdata; return; }
O0
c
mysql_set_local_infile_handler: pushq %rbp movq %rsp, %rbp movq %rdi, -0x8(%rbp) movq %rsi, -0x10(%rbp) movq %rdx, -0x18(%rbp) movq %rcx, -0x20(%rbp) movq %r8, -0x28(%rbp) movq %r9, -0x30(%rbp) movq -0x10(%rbp), %rcx movq -0x8(%rbp), %rax movq %rcx, 0x458(%rax) movq -0x18(%rbp), %rcx movq -0x8(%rbp), %rax movq %rcx, 0x460(%rax) movq -0x20(%rbp), %rcx movq -0x8(%rbp), %rax movq %rcx, 0x468(%rax) movq -0x28(%rbp), %rcx movq -0x8(%rbp), %rax movq %rcx, 0x470(%rax) movq -0x30(%rbp), %rcx movq -0x8(%rbp), %rax movq %rcx, 0x478(%rax) popq %rbp retq nopl (%rax)
mysql_set_local_infile_handler: push rbp mov rbp, rsp mov [rbp+var_8], rdi mov [rbp+var_10], rsi mov [rbp+var_18], rdx mov [rbp+var_20], rcx mov [rbp+var_28], r8 mov [rbp+var_30], r9 mov rcx, [rbp+var_10] mov rax, [rbp+var_8] mov [rax+458h], rcx mov rcx, [rbp+var_18] mov rax, [rbp+var_8] mov [rax+460h], rcx mov rcx, [rbp+var_20] mov rax, [rbp+var_8] mov [rax+468h], rcx mov rcx, [rbp+var_28] mov rax, [rbp+var_8] mov [rax+470h], rcx mov rcx, [rbp+var_30] mov rax, [rbp+var_8] mov [rax+478h], rcx pop rbp retn
_QWORD * mysql_set_local_infile_handler( _QWORD *a1, long long a2, long long a3, long long a4, long long a5, long long a6) { _QWORD *result; // rax a1[139] = a2; a1[140] = a3; a1[141] = a4; a1[142] = a5; result = a1; a1[143] = a6; return result; }
mysql_set_local_infile_handler: PUSH RBP MOV RBP,RSP MOV qword ptr [RBP + -0x8],RDI MOV qword ptr [RBP + -0x10],RSI MOV qword ptr [RBP + -0x18],RDX MOV qword ptr [RBP + -0x20],RCX MOV qword ptr [RBP + -0x28],R8 MOV qword ptr [RBP + -0x30],R9 MOV RCX,qword ptr [RBP + -0x10] MOV RAX,qword ptr [RBP + -0x8] MOV qword ptr [RAX + 0x458],RCX MOV RCX,qword ptr [RBP + -0x18] MOV RAX,qword ptr [RBP + -0x8] MOV qword ptr [RAX + 0x460],RCX MOV RCX,qword ptr [RBP + -0x20] MOV RAX,qword ptr [RBP + -0x8] MOV qword ptr [RAX + 0x468],RCX MOV RCX,qword ptr [RBP + -0x28] MOV RAX,qword ptr [RBP + -0x8] MOV qword ptr [RAX + 0x470],RCX MOV RCX,qword ptr [RBP + -0x30] MOV RAX,qword ptr [RBP + -0x8] MOV qword ptr [RAX + 0x478],RCX POP RBP RET
void mysql_set_local_infile_handler (long param_1,int8 param_2,int8 param_3,int8 param_4, int8 param_5,int8 param_6) { *(int8 *)(param_1 + 0x458) = param_2; *(int8 *)(param_1 + 0x460) = param_3; *(int8 *)(param_1 + 0x468) = param_4; *(int8 *)(param_1 + 0x470) = param_5; *(int8 *)(param_1 + 0x478) = param_6; return; }
40,844
inline_mysql_cond_signal
eloqsql/include/mysql/psi/mysql_thread.h
static inline int inline_mysql_cond_signal( mysql_cond_t *that) { int result; #ifdef HAVE_PSI_COND_INTERFACE if (psi_likely(that->m_psi != NULL)) PSI_COND_CALL(signal_cond)(that->m_psi); #endif result= pthread_cond_signal(&that->m_cond); return result; }
O0
c
inline_mysql_cond_signal: pushq %rbp movq %rsp, %rbp subq $0x10, %rsp movq %rdi, -0x8(%rbp) movq -0x8(%rbp), %rax cmpq $0x0, 0x30(%rax) setne %al andb $0x1, %al movzbl %al, %eax cmpl $0x0, %eax setne %al andb $0x1, %al movzbl %al, %eax cltq cmpq $0x0, %rax je 0xf805b leaq 0x1ca1f1(%rip), %rax # 0x2c2238 movq (%rax), %rax movq 0x170(%rax), %rax movq -0x8(%rbp), %rcx movq 0x30(%rcx), %rdi callq *%rax movq -0x8(%rbp), %rdi callq 0x2a570 movl %eax, -0xc(%rbp) movl -0xc(%rbp), %eax addq $0x10, %rsp popq %rbp retq
inline_mysql_cond_signal_3: push rbp mov rbp, rsp sub rsp, 10h mov [rbp+var_8], rdi mov rax, [rbp+var_8] cmp qword ptr [rax+30h], 0 setnz al and al, 1 movzx eax, al cmp eax, 0 setnz al and al, 1 movzx eax, al cdqe cmp rax, 0 jz short loc_F805B lea rax, PSI_server mov rax, [rax] mov rax, [rax+170h] mov rcx, [rbp+var_8] mov rdi, [rcx+30h] call rax loc_F805B: mov rdi, [rbp+var_8] call _pthread_cond_signal mov [rbp+var_C], eax mov eax, [rbp+var_C] add rsp, 10h pop rbp retn
long long inline_mysql_cond_signal_3(long long a1) { if ( *(_QWORD *)(a1 + 48) ) ((void ( *)(_QWORD))PSI_server[46])(*(_QWORD *)(a1 + 48)); return (unsigned int)pthread_cond_signal(a1); }
inline_mysql_cond_signal: PUSH RBP MOV RBP,RSP SUB RSP,0x10 MOV qword ptr [RBP + -0x8],RDI MOV RAX,qword ptr [RBP + -0x8] CMP qword ptr [RAX + 0x30],0x0 SETNZ AL AND AL,0x1 MOVZX EAX,AL CMP EAX,0x0 SETNZ AL AND AL,0x1 MOVZX EAX,AL CDQE CMP RAX,0x0 JZ 0x001f805b LEA RAX,[0x3c2238] MOV RAX,qword ptr [RAX] MOV RAX,qword ptr [RAX + 0x170] MOV RCX,qword ptr [RBP + -0x8] MOV RDI,qword ptr [RCX + 0x30] CALL RAX LAB_001f805b: MOV RDI,qword ptr [RBP + -0x8] CALL 0x0012a570 MOV dword ptr [RBP + -0xc],EAX MOV EAX,dword ptr [RBP + -0xc] ADD RSP,0x10 POP RBP RET
int inline_mysql_cond_signal(pthread_cond_t *param_1) { int iVar1; if (param_1[1].__align != 0) { (**(code **)(PSI_server + 0x170))(param_1[1].__align); } iVar1 = pthread_cond_signal(param_1); return iVar1; }
40,845
nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>::operator[](std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>> const&) const
llama.cpp/common/json.hpp
const_reference operator[](const typename object_t::key_type& key) const { // const operator[] only works for objects if (JSON_HEDLEY_LIKELY(is_object())) { auto it = m_data.m_value.object->find(key); JSON_ASSERT(it != m_data.m_value.object->end()); return it->second; } JSON_THROW(type_error::create(305, detail::concat("cannot use operator[] with a string argument with ", type_name()), this)); }
O3
cpp
nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>::operator[](std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>> const&) const: pushq %rbp pushq %r14 pushq %rbx subq $0x30, %rsp movq %rdi, %r14 cmpb $0x1, (%rdi) jne 0x48326 movq 0x8(%r14), %rdi callq 0x483de movq 0x8(%r14), %rcx cmpq 0x8(%rcx), %rax je 0x48384 addq $0x20, %rax addq $0x30, %rsp popq %rbx popq %r14 popq %rbp retq movl $0x20, %edi callq 0x17400 movq %rax, %rbx movq %r14, %rdi callq 0x2c462 leaq 0x8(%rsp), %rdx movq %rax, (%rdx) leaq 0x1897a(%rip), %rsi # 0x60cc4 leaq 0x10(%rsp), %rdi callq 0x4860e movb $0x1, %bpl leaq 0x10(%rsp), %rdx movq %rbx, %rdi movl $0x131, %esi # imm = 0x131 movq %r14, %rcx callq 0x48436 xorl %ebp, %ebp leaq 0x2f3fb(%rip), %rsi # 0x77770 leaq -0x1fdc0(%rip), %rdx # 0x285bc movq %rbx, %rdi callq 0x176f0 leaq 0x1804d(%rip), %rdi # 0x603d8 leaq 0x13a00(%rip), %rdx # 0x5bd92 leaq 0x18908(%rip), %rcx # 0x60ca1 movl $0x53ca, %esi # imm = 0x53CA xorl %eax, %eax callq 0x17950 movq %rax, %r14 leaq 0x20(%rsp), %rax movq -0x10(%rax), %rdi cmpq %rax, %rdi je 0x483c3 movq 0x20(%rsp), %rsi incq %rsi callq 0x17100 testb %bpl, %bpl jne 0x483cd jmp 0x483d5 movq %rax, %r14 movq %rbx, %rdi callq 0x179b0 movq %r14, %rdi callq 0x17710 nop
_ZNK8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvEixERKS9_: push rbp; void * push r14; int push rbx; __int64 sub rsp, 30h mov r14, rdi cmp byte ptr [rdi], 1 jnz short loc_48326 mov rdi, [r14+8] call _ZN8nlohmann16json_abi_v3_11_311ordered_mapINSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEENS0_10basic_jsonIS1_St6vectorS7_blmdSaNS0_14adl_serializerES9_IhSaIhEEvEESt4lessIvESaISt4pairIKS7_SD_EEE4findERSH_; nlohmann::json_abi_v3_11_3::ordered_map<std::string,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>,std::less<void>,std::allocator<std::pair<std::string const,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>>>>::find(std::string const&) mov rcx, [r14+8] cmp rax, [rcx+8] jz short loc_48384 add rax, 20h ; ' ' add rsp, 30h pop rbx pop r14 pop rbp retn loc_48326: mov edi, 20h ; ' '; thrown_size call ___cxa_allocate_exception mov rbx, rax mov rdi, r14 call _ZNK8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE9type_nameEv; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::type_name(void) lea rdx, [rsp+48h+var_40] mov [rdx], rax lea rsi, aCannotUseOpera_0; "cannot use operator[] with a string arg"... lea rdi, [rsp+48h+var_38] call _ZN8nlohmann16json_abi_v3_11_36detail6concatINSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEJRA51_KcPS9_EEET_DpOT0_; nlohmann::json_abi_v3_11_3::detail::concat<std::string,char const(&)[51],char const*>(char const(&)[51],char const* &&) mov bpl, 1 lea rdx, [rsp+48h+var_38] mov rdi, rbx; this mov esi, 131h; int mov rcx, r14 call _ZN8nlohmann16json_abi_v3_11_36detail10type_error6createIPKNS0_10basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES6_IhSaIhEEvEETnNSt9enable_ifIXsr21is_basic_json_contextIT_EE5valueEiE4typeELi0EEES2_iRKSC_SK_ xor ebp, ebp lea rsi, _ZTIN8nlohmann16json_abi_v3_11_36detail10type_errorE; lptinfo lea rdx, _ZN8nlohmann16json_abi_v3_11_36detail9exceptionD2Ev; void (*)(void *) mov rdi, rbx; void * call ___cxa_throw loc_48384: lea rdi, aWorkspaceLlm4b_2; "/workspace/llm4binary/github2025/llama."... lea rdx, aGgmlAssertSFai; "GGML_ASSERT(%s) failed" lea rcx, aItMDataMValueO; "it != m_data.m_value.object->end()" mov esi, 53CAh xor eax, eax call _ggml_abort mov r14, rax lea rax, [rsp+48h+var_28] mov rdi, [rax-10h]; void * cmp rdi, rax jz short loc_483C3 mov rsi, [rsp+48h+var_28] inc rsi; unsigned __int64 call __ZdlPvm; operator delete(void *,ulong) loc_483C3: test bpl, bpl jnz short loc_483CD jmp short loc_483D5 mov r14, rax loc_483CD: mov rdi, rbx; void * call ___cxa_free_exception loc_483D5: mov rdi, r14 call __Unwind_Resume
operator[]: PUSH RBP PUSH R14 PUSH RBX SUB RSP,0x30 MOV R14,RDI CMP byte ptr [RDI],0x1 JNZ 0x00148326 MOV RDI,qword ptr [R14 + 0x8] CALL 0x001483de MOV RCX,qword ptr [R14 + 0x8] CMP RAX,qword ptr [RCX + 0x8] JZ 0x00148384 ADD RAX,0x20 ADD RSP,0x30 POP RBX POP R14 POP RBP RET LAB_00148326: MOV EDI,0x20 CALL 0x00117400 MOV RBX,RAX MOV RDI,R14 CALL 0x0012c462 LEA RDX,[RSP + 0x8] MOV qword ptr [RDX],RAX LAB_00148343: LEA RSI,[0x160cc4] LEA RDI,[RSP + 0x10] CALL 0x0014860e MOV BPL,0x1 LAB_00148357: LEA RDX,[RSP + 0x10] MOV RDI,RBX MOV ESI,0x131 MOV RCX,R14 CALL 0x00148436 XOR EBP,EBP LEA RSI,[0x177770] LEA RDX,[0x1285bc] MOV RDI,RBX CALL 0x001176f0 LAB_00148384: LEA RDI,[0x1603d8] LEA RDX,[0x15bd92] LEA RCX,[0x160ca1] MOV ESI,0x53ca XOR EAX,EAX CALL 0x00117950
/* nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::string, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char> >, void>::operator[](std::__cxx11::string const&) const */ long __thiscall nlohmann::json_abi_v3_11_3:: basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::operator[](basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> *this,string *param_1) { long lVar1; int8 uVar2; char *local_40; detail local_38 [32]; if (*this != (basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> )0x1) { uVar2 = __cxa_allocate_exception(0x20); local_40 = (char *)type_name(this); /* try { // try from 00148343 to 00148353 has its CatchHandler @ 001483ca */ detail::concat<std::__cxx11::string,char_const(&)[51],char_const*> (local_38,"cannot use operator[] with a string argument with ",&local_40); /* try { // try from 00148357 to 00148383 has its CatchHandler @ 001483a5 */ _ZN8nlohmann16json_abi_v3_11_36detail10type_error6createIPKNS0_10basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES6_IhSaIhEEvEETnNSt9enable_ifIXsr21is_basic_json_contextIT_EE5valueEiE4typeELi0EEES2_iRKSC_SK_ (uVar2,0x131,local_38,this); /* WARNING: Subroutine does not return */ __cxa_throw(uVar2,&detail::type_error::typeinfo,detail::exception::~exception); } lVar1 = ordered_map<std::__cxx11::string,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>,std::less<void>,std::allocator<std::pair<std::__cxx11::string_const,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>>>> ::find(*(ordered_map<std::__cxx11::string,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>,std::less<void>,std::allocator<std::pair<std::__cxx11::string_const,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>>>> **)(this + 8),param_1); if (lVar1 != *(long *)(*(long *)(this + 8) + 8)) { return lVar1 + 0x20; } /* WARNING: Subroutine does not return */ ggml_abort("/workspace/llm4binary/github2025/llama.cpp/common/json.hpp",0x53ca, "GGML_ASSERT(%s) failed","it != m_data.m_value.object->end()"); }
40,846
OpenSubdiv::v3_6_0::Vtr::internal::Refinement::subdivideTopology(OpenSubdiv::v3_6_0::Vtr::internal::Refinement::Relations const&)
NVIDIA-RTX[P]OSD-Lite/opensubdiv/vtr/refinement.cpp
void Refinement::subdivideTopology(Relations const& applyTo) { if (applyTo._faceVertices) { populateFaceVertexRelation(); } if (applyTo._faceEdges) { populateFaceEdgeRelation(); } if (applyTo._edgeVertices) { populateEdgeVertexRelation(); } if (applyTo._edgeFaces) { populateEdgeFaceRelation(); } if (applyTo._vertexFaces) { populateVertexFaceRelation(); } if (applyTo._vertexEdges) { populateVertexEdgeRelation(); } // // Additional members of the child Level not specific to any relation... // - note in the case of max-valence, the child's max-valence may be less // than the parent if that maximal parent vertex was not included in the sparse // refinement (possible when sparse refinement is more general). // - it may also be more if the base level was fairly trivial, i.e. less // than the regular valence, or contains non-manifold edges with many faces. // - NOTE that when/if we support N-gons for tri-splitting, that the valence // of edge-vertices introduced on the N-gon may be 7 rather than 6, while N may // be less than both. // // In general, we need a better way to deal with max-valence. The fact that // each topology relation is independent/optional complicates the issue of // where to keep track of it... // if (_splitType == Sdc::SPLIT_TO_QUADS) { _child->_maxValence = std::max(_parent->_maxValence, 4); _child->_maxValence = std::max(_child->_maxValence, 2 + _parent->_maxEdgeFaces); } else { _child->_maxValence = std::max(_parent->_maxValence, 6); _child->_maxValence = std::max(_child->_maxValence, 2 + _parent->_maxEdgeFaces * 2); } }
O1
cpp
OpenSubdiv::v3_6_0::Vtr::internal::Refinement::subdivideTopology(OpenSubdiv::v3_6_0::Vtr::internal::Refinement::Relations const&): pushq %r14 pushq %rbx pushq %rax movq %rsi, %r14 movq %rdi, %rbx testb $0x1, (%rsi) je 0x48abe movq (%rbx), %rax movq %rbx, %rdi callq *0x20(%rax) testb $0x2, (%r14) je 0x48acd movq (%rbx), %rax movq %rbx, %rdi callq *0x28(%rax) testb $0x4, (%r14) je 0x48adc movq (%rbx), %rax movq %rbx, %rdi callq *0x30(%rax) testb $0x8, (%r14) je 0x48aeb movq (%rbx), %rax movq %rbx, %rdi callq *0x38(%rax) testb $0x10, (%r14) je 0x48afa movq (%rbx), %rax movq %rbx, %rdi callq *0x40(%rax) testb $0x20, (%r14) je 0x48b09 movq (%rbx), %rax movq %rbx, %rdi callq *0x48(%rax) cmpl $0x0, 0x1c(%rbx) movq 0x8(%rbx), %rdx movq 0x10(%rbx), %rax movl 0x14(%rdx), %esi je 0x48b2f cmpl $0x7, %esi movl $0x6, %ecx cmovgel %esi, %ecx movl %ecx, 0x14(%rax) movl 0x10(%rdx), %edx addl %edx, %edx jmp 0x48b40 cmpl $0x5, %esi movl $0x4, %ecx cmovgel %esi, %ecx movl %ecx, 0x14(%rax) movl 0x10(%rdx), %edx addl $0x2, %edx cmpl %edx, %ecx cmovgl %ecx, %edx movl %edx, 0x14(%rax) addq $0x8, %rsp popq %rbx popq %r14 retq nop
_ZN10OpenSubdiv6v3_6_03Vtr8internal10Refinement17subdivideTopologyERKNS3_9RelationsE: push r14 push rbx push rax mov r14, rsi mov rbx, rdi test byte ptr [rsi], 1 jz short loc_48ABE mov rax, [rbx] mov rdi, rbx call qword ptr [rax+20h] loc_48ABE: test byte ptr [r14], 2 jz short loc_48ACD mov rax, [rbx] mov rdi, rbx call qword ptr [rax+28h] loc_48ACD: test byte ptr [r14], 4 jz short loc_48ADC mov rax, [rbx] mov rdi, rbx call qword ptr [rax+30h] loc_48ADC: test byte ptr [r14], 8 jz short loc_48AEB mov rax, [rbx] mov rdi, rbx call qword ptr [rax+38h] loc_48AEB: test byte ptr [r14], 10h jz short loc_48AFA mov rax, [rbx] mov rdi, rbx call qword ptr [rax+40h] loc_48AFA: test byte ptr [r14], 20h jz short loc_48B09 mov rax, [rbx] mov rdi, rbx call qword ptr [rax+48h] loc_48B09: cmp dword ptr [rbx+1Ch], 0 mov rdx, [rbx+8] mov rax, [rbx+10h] mov esi, [rdx+14h] jz short loc_48B2F cmp esi, 7 mov ecx, 6 cmovge ecx, esi mov [rax+14h], ecx mov edx, [rdx+10h] add edx, edx jmp short loc_48B40 loc_48B2F: cmp esi, 5 mov ecx, 4 cmovge ecx, esi mov [rax+14h], ecx mov edx, [rdx+10h] loc_48B40: add edx, 2 cmp ecx, edx cmovg edx, ecx mov [rax+14h], edx add rsp, 8 pop rbx pop r14 retn
long long OpenSubdiv::v3_6_0::Vtr::internal::Refinement::subdivideTopology(long long a1, _BYTE *a2) { long long v2; // rdx long long result; // rax int v4; // esi int v5; // ecx int v6; // edx int v7; // edx if ( (*a2 & 1) != 0 ) (*(void ( **)(long long))(*(_QWORD *)a1 + 32LL))(a1); if ( (*a2 & 2) != 0 ) (*(void ( **)(long long))(*(_QWORD *)a1 + 40LL))(a1); if ( (*a2 & 4) != 0 ) (*(void ( **)(long long))(*(_QWORD *)a1 + 48LL))(a1); if ( (*a2 & 8) != 0 ) (*(void ( **)(long long))(*(_QWORD *)a1 + 56LL))(a1); if ( (*a2 & 0x10) != 0 ) (*(void ( **)(long long))(*(_QWORD *)a1 + 64LL))(a1); if ( (*a2 & 0x20) != 0 ) (*(void ( **)(long long))(*(_QWORD *)a1 + 72LL))(a1); v2 = *(_QWORD *)(a1 + 8); result = *(_QWORD *)(a1 + 16); v4 = *(_DWORD *)(v2 + 20); if ( *(_DWORD *)(a1 + 28) ) { v5 = 6; if ( v4 >= 7 ) v5 = *(_DWORD *)(v2 + 20); *(_DWORD *)(result + 20) = v5; v6 = 2 * *(_DWORD *)(v2 + 16); } else { v5 = 4; if ( v4 >= 5 ) v5 = *(_DWORD *)(v2 + 20); *(_DWORD *)(result + 20) = v5; v6 = *(_DWORD *)(v2 + 16); } v7 = v6 + 2; if ( v5 > v7 ) v7 = v5; *(_DWORD *)(result + 20) = v7; return result; }
subdivideTopology: PUSH R14 PUSH RBX PUSH RAX MOV R14,RSI MOV RBX,RDI TEST byte ptr [RSI],0x1 JZ 0x00148abe MOV RAX,qword ptr [RBX] MOV RDI,RBX CALL qword ptr [RAX + 0x20] LAB_00148abe: TEST byte ptr [R14],0x2 JZ 0x00148acd MOV RAX,qword ptr [RBX] MOV RDI,RBX CALL qword ptr [RAX + 0x28] LAB_00148acd: TEST byte ptr [R14],0x4 JZ 0x00148adc MOV RAX,qword ptr [RBX] MOV RDI,RBX CALL qword ptr [RAX + 0x30] LAB_00148adc: TEST byte ptr [R14],0x8 JZ 0x00148aeb MOV RAX,qword ptr [RBX] MOV RDI,RBX CALL qword ptr [RAX + 0x38] LAB_00148aeb: TEST byte ptr [R14],0x10 JZ 0x00148afa MOV RAX,qword ptr [RBX] MOV RDI,RBX CALL qword ptr [RAX + 0x40] LAB_00148afa: TEST byte ptr [R14],0x20 JZ 0x00148b09 MOV RAX,qword ptr [RBX] MOV RDI,RBX CALL qword ptr [RAX + 0x48] LAB_00148b09: CMP dword ptr [RBX + 0x1c],0x0 MOV RDX,qword ptr [RBX + 0x8] MOV RAX,qword ptr [RBX + 0x10] MOV ESI,dword ptr [RDX + 0x14] JZ 0x00148b2f CMP ESI,0x7 MOV ECX,0x6 CMOVGE ECX,ESI MOV dword ptr [RAX + 0x14],ECX MOV EDX,dword ptr [RDX + 0x10] ADD EDX,EDX JMP 0x00148b40 LAB_00148b2f: CMP ESI,0x5 MOV ECX,0x4 CMOVGE ECX,ESI MOV dword ptr [RAX + 0x14],ECX MOV EDX,dword ptr [RDX + 0x10] LAB_00148b40: ADD EDX,0x2 CMP ECX,EDX CMOVG EDX,ECX MOV dword ptr [RAX + 0x14],EDX ADD RSP,0x8 POP RBX POP R14 RET
/* OpenSubdiv::v3_6_0::Vtr::internal::Refinement::subdivideTopology(OpenSubdiv::v3_6_0::Vtr::internal::Refinement::Relations const&) */ void __thiscall OpenSubdiv::v3_6_0::Vtr::internal::Refinement::subdivideTopology (Refinement *this,Relations *param_1) { long lVar1; long lVar2; int iVar3; int iVar4; int iVar5; if (((byte)*param_1 & 1) != 0) { (**(code **)(*(long *)this + 0x20))(this); } if (((byte)*param_1 & 2) != 0) { (**(code **)(*(long *)this + 0x28))(this); } if (((byte)*param_1 & 4) != 0) { (**(code **)(*(long *)this + 0x30))(this); } if (((byte)*param_1 & 8) != 0) { (**(code **)(*(long *)this + 0x38))(this); } if (((byte)*param_1 & 0x10) != 0) { (**(code **)(*(long *)this + 0x40))(this); } if (((byte)*param_1 & 0x20) != 0) { (**(code **)(*(long *)this + 0x48))(this); } lVar1 = *(long *)(this + 8); lVar2 = *(long *)(this + 0x10); iVar4 = *(int *)(lVar1 + 0x14); if (*(int *)(this + 0x1c) == 0) { iVar3 = 4; if (4 < iVar4) { iVar3 = iVar4; } *(int *)(lVar2 + 0x14) = iVar3; iVar4 = *(int *)(lVar1 + 0x10); } else { iVar3 = 6; if (6 < iVar4) { iVar3 = iVar4; } *(int *)(lVar2 + 0x14) = iVar3; iVar4 = *(int *)(lVar1 + 0x10) * 2; } iVar5 = iVar4 + 2; if (iVar4 + 2 < iVar3) { iVar5 = iVar3; } *(int *)(lVar2 + 0x14) = iVar5; return; }
40,847
OpenSubdiv::v3_6_0::Vtr::internal::Refinement::subdivideTopology(OpenSubdiv::v3_6_0::Vtr::internal::Refinement::Relations const&)
NVIDIA-RTX[P]OSD-Lite/opensubdiv/vtr/refinement.cpp
void Refinement::subdivideTopology(Relations const& applyTo) { if (applyTo._faceVertices) { populateFaceVertexRelation(); } if (applyTo._faceEdges) { populateFaceEdgeRelation(); } if (applyTo._edgeVertices) { populateEdgeVertexRelation(); } if (applyTo._edgeFaces) { populateEdgeFaceRelation(); } if (applyTo._vertexFaces) { populateVertexFaceRelation(); } if (applyTo._vertexEdges) { populateVertexEdgeRelation(); } // // Additional members of the child Level not specific to any relation... // - note in the case of max-valence, the child's max-valence may be less // than the parent if that maximal parent vertex was not included in the sparse // refinement (possible when sparse refinement is more general). // - it may also be more if the base level was fairly trivial, i.e. less // than the regular valence, or contains non-manifold edges with many faces. // - NOTE that when/if we support N-gons for tri-splitting, that the valence // of edge-vertices introduced on the N-gon may be 7 rather than 6, while N may // be less than both. // // In general, we need a better way to deal with max-valence. The fact that // each topology relation is independent/optional complicates the issue of // where to keep track of it... // if (_splitType == Sdc::SPLIT_TO_QUADS) { _child->_maxValence = std::max(_parent->_maxValence, 4); _child->_maxValence = std::max(_child->_maxValence, 2 + _parent->_maxEdgeFaces); } else { _child->_maxValence = std::max(_parent->_maxValence, 6); _child->_maxValence = std::max(_child->_maxValence, 2 + _parent->_maxEdgeFaces * 2); } }
O2
cpp
OpenSubdiv::v3_6_0::Vtr::internal::Refinement::subdivideTopology(OpenSubdiv::v3_6_0::Vtr::internal::Refinement::Relations const&): pushq %r14 pushq %rbx pushq %rax movq %rsi, %r14 movq %rdi, %rbx movb (%rsi), %al testb $0x1, %al je 0x60b80 movq (%rbx), %rax movq %rbx, %rdi callq *0x20(%rax) movb (%r14), %al testb $0x2, %al je 0x60b90 movq (%rbx), %rax movq %rbx, %rdi callq *0x28(%rax) movb (%r14), %al testb $0x4, %al je 0x60ba0 movq (%rbx), %rax movq %rbx, %rdi callq *0x30(%rax) movb (%r14), %al testb $0x8, %al je 0x60bb0 movq (%rbx), %rax movq %rbx, %rdi callq *0x38(%rax) movb (%r14), %al testb $0x10, %al je 0x60bc0 movq (%rbx), %rax movq %rbx, %rdi callq *0x40(%rax) movb (%r14), %al testb $0x20, %al je 0x60bcd movq (%rbx), %rax movq %rbx, %rdi callq *0x48(%rax) cmpl $0x0, 0x1c(%rbx) movq 0x8(%rbx), %rdx movq 0x10(%rbx), %rax movl 0x10(%rdx), %ecx movl 0x14(%rdx), %esi je 0x60bee cmpl $0x7, %esi pushq $0x6 popq %rdx cmovgel %esi, %edx addl %ecx, %ecx jmp 0x60bf7 cmpl $0x5, %esi pushq $0x4 popq %rdx cmovgel %esi, %edx addl $0x2, %ecx cmpl %ecx, %edx cmovgl %edx, %ecx movl %ecx, 0x14(%rax) addq $0x8, %rsp popq %rbx popq %r14 retq
_ZN10OpenSubdiv6v3_6_03Vtr8internal10Refinement17subdivideTopologyERKNS3_9RelationsE: push r14 push rbx push rax mov r14, rsi mov rbx, rdi mov al, [rsi] test al, 1 jz short loc_60B80 mov rax, [rbx] mov rdi, rbx call qword ptr [rax+20h] mov al, [r14] loc_60B80: test al, 2 jz short loc_60B90 mov rax, [rbx] mov rdi, rbx call qword ptr [rax+28h] mov al, [r14] loc_60B90: test al, 4 jz short loc_60BA0 mov rax, [rbx] mov rdi, rbx call qword ptr [rax+30h] mov al, [r14] loc_60BA0: test al, 8 jz short loc_60BB0 mov rax, [rbx] mov rdi, rbx call qword ptr [rax+38h] mov al, [r14] loc_60BB0: test al, 10h jz short loc_60BC0 mov rax, [rbx] mov rdi, rbx call qword ptr [rax+40h] mov al, [r14] loc_60BC0: test al, 20h jz short loc_60BCD mov rax, [rbx] mov rdi, rbx call qword ptr [rax+48h] loc_60BCD: cmp dword ptr [rbx+1Ch], 0 mov rdx, [rbx+8] mov rax, [rbx+10h] mov ecx, [rdx+10h] mov esi, [rdx+14h] jz short loc_60BEE cmp esi, 7 push 6 pop rdx cmovge edx, esi add ecx, ecx jmp short loc_60BF7 loc_60BEE: cmp esi, 5 push 4 pop rdx cmovge edx, esi loc_60BF7: add ecx, 2 cmp edx, ecx cmovg ecx, edx mov [rax+14h], ecx add rsp, 8 pop rbx pop r14 retn
long long OpenSubdiv::v3_6_0::Vtr::internal::Refinement::subdivideTopology(long long a1, char *a2) { char v2; // al long long v3; // rdx long long result; // rax int v5; // ecx int v6; // esi int v7; // edx int v8; // ecx v2 = *a2; if ( (*a2 & 1) != 0 ) { (*(void ( **)(long long))(*(_QWORD *)a1 + 32LL))(a1); v2 = *a2; } if ( (v2 & 2) != 0 ) { (*(void ( **)(long long))(*(_QWORD *)a1 + 40LL))(a1); v2 = *a2; } if ( (v2 & 4) != 0 ) { (*(void ( **)(long long))(*(_QWORD *)a1 + 48LL))(a1); v2 = *a2; } if ( (v2 & 8) != 0 ) { (*(void ( **)(long long))(*(_QWORD *)a1 + 56LL))(a1); v2 = *a2; } if ( (v2 & 0x10) != 0 ) { (*(void ( **)(long long))(*(_QWORD *)a1 + 64LL))(a1); v2 = *a2; } if ( (v2 & 0x20) != 0 ) (*(void ( **)(long long))(*(_QWORD *)a1 + 72LL))(a1); v3 = *(_QWORD *)(a1 + 8); result = *(_QWORD *)(a1 + 16); v5 = *(_DWORD *)(v3 + 16); v6 = *(_DWORD *)(v3 + 20); if ( *(_DWORD *)(a1 + 28) ) { v7 = 6; if ( v6 >= 7 ) v7 = v6; v5 *= 2; } else { v7 = 4; if ( v6 >= 5 ) v7 = v6; } v8 = v5 + 2; if ( v7 > v8 ) v8 = v7; *(_DWORD *)(result + 20) = v8; return result; }
subdivideTopology: PUSH R14 PUSH RBX PUSH RAX MOV R14,RSI MOV RBX,RDI MOV AL,byte ptr [RSI] TEST AL,0x1 JZ 0x00160b80 MOV RAX,qword ptr [RBX] MOV RDI,RBX CALL qword ptr [RAX + 0x20] MOV AL,byte ptr [R14] LAB_00160b80: TEST AL,0x2 JZ 0x00160b90 MOV RAX,qword ptr [RBX] MOV RDI,RBX CALL qword ptr [RAX + 0x28] MOV AL,byte ptr [R14] LAB_00160b90: TEST AL,0x4 JZ 0x00160ba0 MOV RAX,qword ptr [RBX] MOV RDI,RBX CALL qword ptr [RAX + 0x30] MOV AL,byte ptr [R14] LAB_00160ba0: TEST AL,0x8 JZ 0x00160bb0 MOV RAX,qword ptr [RBX] MOV RDI,RBX CALL qword ptr [RAX + 0x38] MOV AL,byte ptr [R14] LAB_00160bb0: TEST AL,0x10 JZ 0x00160bc0 MOV RAX,qword ptr [RBX] MOV RDI,RBX CALL qword ptr [RAX + 0x40] MOV AL,byte ptr [R14] LAB_00160bc0: TEST AL,0x20 JZ 0x00160bcd MOV RAX,qword ptr [RBX] MOV RDI,RBX CALL qword ptr [RAX + 0x48] LAB_00160bcd: CMP dword ptr [RBX + 0x1c],0x0 MOV RDX,qword ptr [RBX + 0x8] MOV RAX,qword ptr [RBX + 0x10] MOV ECX,dword ptr [RDX + 0x10] MOV ESI,dword ptr [RDX + 0x14] JZ 0x00160bee CMP ESI,0x7 PUSH 0x6 POP RDX CMOVGE EDX,ESI ADD ECX,ECX JMP 0x00160bf7 LAB_00160bee: CMP ESI,0x5 PUSH 0x4 POP RDX CMOVGE EDX,ESI LAB_00160bf7: ADD ECX,0x2 CMP EDX,ECX CMOVG ECX,EDX MOV dword ptr [RAX + 0x14],ECX ADD RSP,0x8 POP RBX POP R14 RET
/* OpenSubdiv::v3_6_0::Vtr::internal::Refinement::subdivideTopology(OpenSubdiv::v3_6_0::Vtr::internal::Refinement::Relations const&) */ void __thiscall OpenSubdiv::v3_6_0::Vtr::internal::Refinement::subdivideTopology (Refinement *this,Relations *param_1) { Relations RVar1; int iVar2; int iVar3; int iVar4; RVar1 = *param_1; if (((byte)RVar1 & 1) != 0) { (**(code **)(*(long *)this + 0x20))(this); RVar1 = *param_1; } if (((byte)RVar1 & 2) != 0) { (**(code **)(*(long *)this + 0x28))(this); RVar1 = *param_1; } if (((byte)RVar1 & 4) != 0) { (**(code **)(*(long *)this + 0x30))(this); RVar1 = *param_1; } if (((byte)RVar1 & 8) != 0) { (**(code **)(*(long *)this + 0x38))(this); RVar1 = *param_1; } if (((byte)RVar1 & 0x10) != 0) { (**(code **)(*(long *)this + 0x40))(this); RVar1 = *param_1; } if (((byte)RVar1 & 0x20) != 0) { (**(code **)(*(long *)this + 0x48))(this); } iVar2 = *(int *)(*(long *)(this + 8) + 0x10); iVar3 = *(int *)(*(long *)(this + 8) + 0x14); if (*(int *)(this + 0x1c) == 0) { iVar4 = 4; if (4 < iVar3) { iVar4 = iVar3; } } else { iVar4 = 6; if (6 < iVar3) { iVar4 = iVar3; } iVar2 = iVar2 * 2; } iVar3 = iVar2 + 2; if (iVar2 + 2 < iVar4) { iVar3 = iVar4; } *(int *)(*(long *)(this + 0x10) + 0x14) = iVar3; return; }
40,848
pvio_socket_async_write
eloqsql/libmariadb/plugins/pvio/pvio_socket.c
ssize_t pvio_socket_async_write(MARIADB_PVIO *pvio, const uchar *buffer, size_t length) { ssize_t r= -1; struct st_pvio_socket *csock= NULL; #ifndef _WIN32 int write_flags= MSG_DONTWAIT; #ifdef MSG_NOSIGNAL write_flags|= MSG_NOSIGNAL; #endif #endif if (!pvio || !pvio->data) return -1; csock= (struct st_pvio_socket *)pvio->data; #ifndef WIN32 r= ma_send(csock->socket, buffer, length, write_flags); #else /* Windows doesn't support MSG_DONTWAIT, so we need to set socket to non blocking */ pvio_socket_blocking(pvio, 0, 0); r= send(csock->socket, (const char *)buffer, (int)length, 0); #endif return r; }
O0
c
pvio_socket_async_write: pushq %rbp movq %rsp, %rbp subq $0x40, %rsp movq %rdi, -0x10(%rbp) movq %rsi, -0x18(%rbp) movq %rdx, -0x20(%rbp) movq $-0x1, -0x28(%rbp) movq $0x0, -0x30(%rbp) movl $0x40, -0x34(%rbp) movl -0x34(%rbp), %eax orl $0x4000, %eax # imm = 0x4000 movl %eax, -0x34(%rbp) cmpq $0x0, -0x10(%rbp) je 0x19937 movq -0x10(%rbp), %rax cmpq $0x0, (%rax) jne 0x19941 movq $-0x1, -0x8(%rbp) jmp 0x1996e movq -0x10(%rbp), %rax movq (%rax), %rax movq %rax, -0x30(%rbp) movq -0x30(%rbp), %rax movl (%rax), %edi movq -0x18(%rbp), %rsi movq -0x20(%rbp), %rdx movl -0x34(%rbp), %ecx callq 0x1adb0 movq %rax, -0x28(%rbp) movq -0x28(%rbp), %rax movq %rax, -0x8(%rbp) movq -0x8(%rbp), %rax addq $0x40, %rsp popq %rbp retq nopl (%rax,%rax)
pvio_socket_async_write: push rbp mov rbp, rsp sub rsp, 40h mov [rbp+var_10], rdi mov [rbp+var_18], rsi mov [rbp+var_20], rdx mov [rbp+var_28], 0FFFFFFFFFFFFFFFFh mov [rbp+var_30], 0 mov [rbp+var_34], 40h ; '@' mov eax, [rbp+var_34] or eax, 4000h mov [rbp+var_34], eax cmp [rbp+var_10], 0 jz short loc_19937 mov rax, [rbp+var_10] cmp qword ptr [rax], 0 jnz short loc_19941 loc_19937: mov [rbp+var_8], 0FFFFFFFFFFFFFFFFh jmp short loc_1996E loc_19941: mov rax, [rbp+var_10] mov rax, [rax] mov [rbp+var_30], rax mov rax, [rbp+var_30] mov edi, [rax] mov rsi, [rbp+var_18] mov rdx, [rbp+var_20] mov ecx, [rbp+var_34] call ma_send mov [rbp+var_28], rax mov rax, [rbp+var_28] mov [rbp+var_8], rax loc_1996E: mov rax, [rbp+var_8] add rsp, 40h pop rbp retn
long long pvio_socket_async_write(_QWORD *a1, long long a2, long long a3) { if ( a1 && *a1 ) return ma_send(*(unsigned int *)*a1, a2, a3, "mysql_get_socket"); else return -1LL; }
pvio_socket_async_write: PUSH RBP MOV RBP,RSP SUB RSP,0x40 MOV qword ptr [RBP + -0x10],RDI MOV qword ptr [RBP + -0x18],RSI MOV qword ptr [RBP + -0x20],RDX MOV qword ptr [RBP + -0x28],-0x1 MOV qword ptr [RBP + -0x30],0x0 MOV dword ptr [RBP + -0x34],0x40 MOV EAX,dword ptr [RBP + -0x34] OR EAX,0x4000 MOV dword ptr [RBP + -0x34],EAX CMP qword ptr [RBP + -0x10],0x0 JZ 0x00119937 MOV RAX,qword ptr [RBP + -0x10] CMP qword ptr [RAX],0x0 JNZ 0x00119941 LAB_00119937: MOV qword ptr [RBP + -0x8],-0x1 JMP 0x0011996e LAB_00119941: MOV RAX,qword ptr [RBP + -0x10] MOV RAX,qword ptr [RAX] MOV qword ptr [RBP + -0x30],RAX MOV RAX,qword ptr [RBP + -0x30] MOV EDI,dword ptr [RAX] MOV RSI,qword ptr [RBP + -0x18] MOV RDX,qword ptr [RBP + -0x20] MOV ECX,dword ptr [RBP + -0x34] CALL 0x0011adb0 MOV qword ptr [RBP + -0x28],RAX MOV RAX,qword ptr [RBP + -0x28] MOV qword ptr [RBP + -0x8],RAX LAB_0011996e: MOV RAX,qword ptr [RBP + -0x8] ADD RSP,0x40 POP RBP RET
int8 pvio_socket_async_write(long *param_1,int8 param_2,int8 param_3) { int8 local_10; if ((param_1 == (long *)0x0) || (*param_1 == 0)) { local_10 = 0xffffffffffffffff; } else { local_10 = ma_send(*(int4 *)*param_1,param_2,param_3,0x4040); } return local_10; }
40,849
js_math_imul
bluesky950520[P]quickjs/quickjs.c
static JSValue js_math_imul(JSContext *ctx, JSValue this_val, int argc, JSValue *argv) { uint32_t a, b, c; int32_t d; if (JS_ToUint32(ctx, &a, argv[0])) return JS_EXCEPTION; if (JS_ToUint32(ctx, &b, argv[1])) return JS_EXCEPTION; c = a * b; memcpy(&d, &c, sizeof(d)); return js_int32(d); }
O0
c
js_math_imul: subq $0x48, %rsp movq %rsi, 0x28(%rsp) movq %rdx, 0x30(%rsp) movq %rdi, 0x20(%rsp) movl %ecx, 0x1c(%rsp) movq %r8, 0x10(%rsp) movq 0x20(%rsp), %rdi movq 0x10(%rsp), %rax movq (%rax), %rdx movq 0x8(%rax), %rcx leaq 0xc(%rsp), %rsi callq 0x4d940 cmpl $0x0, %eax je 0xd8abf movl $0x0, 0x38(%rsp) movq $0x6, 0x40(%rsp) jmp 0xd8b19 movq 0x20(%rsp), %rdi movq 0x10(%rsp), %rax movq 0x10(%rax), %rdx movq 0x18(%rax), %rcx leaq 0x8(%rsp), %rsi callq 0x4d940 cmpl $0x0, %eax je 0xd8af3 movl $0x0, 0x38(%rsp) movq $0x6, 0x40(%rsp) jmp 0xd8b19 movl 0xc(%rsp), %eax imull 0x8(%rsp), %eax movl %eax, 0x4(%rsp) movl 0x4(%rsp), %eax movl %eax, (%rsp) movl (%rsp), %edi callq 0x33cc0 movq %rax, 0x38(%rsp) movq %rdx, 0x40(%rsp) movq 0x38(%rsp), %rax movq 0x40(%rsp), %rdx addq $0x48, %rsp retq nopl (%rax,%rax)
js_math_imul: sub rsp, 48h mov [rsp+48h+var_20], rsi mov [rsp+48h+var_18], rdx mov [rsp+48h+var_28], rdi mov [rsp+48h+var_2C], ecx mov [rsp+48h+var_38], r8 mov rdi, [rsp+48h+var_28] mov rax, [rsp+48h+var_38] mov rdx, [rax] mov rcx, [rax+8] lea rsi, [rsp+48h+var_3C] call JS_ToUint32_0 cmp eax, 0 jz short loc_D8ABF mov dword ptr [rsp+48h+var_10], 0 mov [rsp+48h+var_8], 6 jmp short loc_D8B19 loc_D8ABF: mov rdi, [rsp+48h+var_28] mov rax, [rsp+48h+var_38] mov rdx, [rax+10h] mov rcx, [rax+18h] lea rsi, [rsp+48h+var_40] call JS_ToUint32_0 cmp eax, 0 jz short loc_D8AF3 mov dword ptr [rsp+48h+var_10], 0 mov [rsp+48h+var_8], 6 jmp short loc_D8B19 loc_D8AF3: mov eax, [rsp+48h+var_3C] imul eax, [rsp+48h+var_40] mov [rsp+48h+var_44], eax mov eax, [rsp+48h+var_44] mov [rsp+48h+var_48], eax mov edi, [rsp+48h+var_48] call js_int32 mov [rsp+48h+var_10], rax mov [rsp+48h+var_8], rdx loc_D8B19: mov rax, [rsp+48h+var_10] mov rdx, [rsp+48h+var_8] add rsp, 48h retn
long long js_math_imul(long long a1, long long a2, long long a3, int a4, long long a5) { long long v5; // rdx int v7; // [rsp+8h] [rbp-40h] BYREF int v8; // [rsp+Ch] [rbp-3Ch] BYREF long long v9; // [rsp+10h] [rbp-38h] int v10; // [rsp+1Ch] [rbp-2Ch] long long v11; // [rsp+20h] [rbp-28h] long long v12; // [rsp+28h] [rbp-20h] long long v13; // [rsp+30h] [rbp-18h] long long v14; // [rsp+38h] [rbp-10h] long long v15; // [rsp+40h] [rbp-8h] v12 = a2; v13 = a3; v11 = a1; v10 = a4; v9 = a5; if ( (unsigned int)JS_ToUint32_0(a1, (long long)&v8, *(_DWORD **)a5, *(_QWORD *)(a5 + 8)) ) { LODWORD(v14) = 0; v15 = 6LL; } else if ( (unsigned int)JS_ToUint32_0(v11, (long long)&v7, *(_DWORD **)(v9 + 16), *(_QWORD *)(v9 + 24)) ) { LODWORD(v14) = 0; v15 = 6LL; } else { v14 = js_int32(v7 * v8); v15 = v5; } return v14; }
js_math_imul: SUB RSP,0x48 MOV qword ptr [RSP + 0x28],RSI MOV qword ptr [RSP + 0x30],RDX MOV qword ptr [RSP + 0x20],RDI MOV dword ptr [RSP + 0x1c],ECX MOV qword ptr [RSP + 0x10],R8 MOV RDI,qword ptr [RSP + 0x20] MOV RAX,qword ptr [RSP + 0x10] MOV RDX,qword ptr [RAX] MOV RCX,qword ptr [RAX + 0x8] LEA RSI,[RSP + 0xc] CALL 0x0014d940 CMP EAX,0x0 JZ 0x001d8abf MOV dword ptr [RSP + 0x38],0x0 MOV qword ptr [RSP + 0x40],0x6 JMP 0x001d8b19 LAB_001d8abf: MOV RDI,qword ptr [RSP + 0x20] MOV RAX,qword ptr [RSP + 0x10] MOV RDX,qword ptr [RAX + 0x10] MOV RCX,qword ptr [RAX + 0x18] LEA RSI,[RSP + 0x8] CALL 0x0014d940 CMP EAX,0x0 JZ 0x001d8af3 MOV dword ptr [RSP + 0x38],0x0 MOV qword ptr [RSP + 0x40],0x6 JMP 0x001d8b19 LAB_001d8af3: MOV EAX,dword ptr [RSP + 0xc] IMUL EAX,dword ptr [RSP + 0x8] MOV dword ptr [RSP + 0x4],EAX MOV EAX,dword ptr [RSP + 0x4] MOV dword ptr [RSP],EAX MOV EDI,dword ptr [RSP] CALL 0x00133cc0 MOV qword ptr [RSP + 0x38],RAX MOV qword ptr [RSP + 0x40],RDX LAB_001d8b19: MOV RAX,qword ptr [RSP + 0x38] MOV RDX,qword ptr [RSP + 0x40] ADD RSP,0x48 RET
int1 [16] js_math_imul(int8 param_1,int8 param_2,int8 param_3,int4 param_4, int8 *param_5) { int iVar1; int1 auVar2 [16]; int local_40; int local_3c; int8 *local_38; int4 local_2c; int8 local_28; int8 local_20; int8 local_18; int4 local_10; int4 uStack_c; int8 local_8; local_38 = param_5; local_2c = param_4; local_28 = param_1; local_20 = param_2; local_18 = param_3; iVar1 = JS_ToUint32(param_1,&local_3c,*param_5,param_5[1]); if (iVar1 == 0) { iVar1 = JS_ToUint32(local_28,&local_40,local_38[2],local_38[3]); if (iVar1 == 0) { auVar2 = js_int32(local_3c * local_40); local_8 = auVar2._8_8_; local_10 = auVar2._0_4_; uStack_c = auVar2._4_4_; } else { local_10 = 0; local_8 = 6; } } else { local_10 = 0; local_8 = 6; } auVar2._4_4_ = uStack_c; auVar2._0_4_ = local_10; auVar2._8_8_ = local_8; return auVar2; }
40,850
js_math_imul
bluesky950520[P]quickjs/quickjs.c
static JSValue js_math_imul(JSContext *ctx, JSValue this_val, int argc, JSValue *argv) { uint32_t a, b, c; int32_t d; if (JS_ToUint32(ctx, &a, argv[0])) return JS_EXCEPTION; if (JS_ToUint32(ctx, &b, argv[1])) return JS_EXCEPTION; c = a * b; memcpy(&d, &c, sizeof(d)); return js_int32(d); }
O1
c
js_math_imul: pushq %r15 pushq %r14 pushq %rbx subq $0x10, %rsp movq %r8, %r15 movq %rdi, %r14 movq (%r8), %rdx movq 0x8(%r8), %rcx movq %rdx, (%rsp) cmpl $-0x9, %ecx jb 0x7e1d0 movq (%rsp), %rax incl (%rax) leaq 0xc(%rsp), %rsi movq %r14, %rdi callq 0x279c3 movl $0x6, %ebx testl %eax, %eax jne 0x7e20c movq 0x10(%r15), %rdx movq 0x18(%r15), %rcx movq %rdx, (%rsp) cmpl $-0x9, %ecx jb 0x7e1fd movq (%rsp), %rax incl (%rax) movq %rsp, %rsi movq %r14, %rdi callq 0x279c3 testl %eax, %eax je 0x7e21b xorl %eax, %eax movq %rbx, %rdx addq $0x10, %rsp popq %rbx popq %r14 popq %r15 retq movl (%rsp), %eax imull 0xc(%rsp), %eax xorl %ebx, %ebx jmp 0x7e20e
js_math_imul: push r15 push r14 push rbx sub rsp, 10h mov r15, r8 mov r14, rdi mov rdx, [r8] mov rcx, [r8+8] mov [rsp+28h+var_28], rdx cmp ecx, 0FFFFFFF7h jb short loc_7E1D0 mov rax, [rsp+28h+var_28] inc dword ptr [rax] loc_7E1D0: lea rsi, [rsp+28h+var_1C] mov rdi, r14 call JS_ToInt32Free mov ebx, 6 test eax, eax jnz short loc_7E20C mov rdx, [r15+10h] mov rcx, [r15+18h] mov [rsp+28h+var_28], rdx cmp ecx, 0FFFFFFF7h jb short loc_7E1FD mov rax, [rsp+28h+var_28] inc dword ptr [rax] loc_7E1FD: mov rsi, rsp mov rdi, r14 call JS_ToInt32Free test eax, eax jz short loc_7E21B loc_7E20C: xor eax, eax loc_7E20E: mov rdx, rbx add rsp, 10h pop rbx pop r14 pop r15 retn loc_7E21B: mov eax, dword ptr [rsp+28h+var_28] imul eax, [rsp+28h+var_1C] xor ebx, ebx jmp short loc_7E20E
long long js_math_imul(long long a1, long long a2, long long a3, long long a4, unsigned long long *a5) { unsigned long long v6; // rdx long long v7; // rcx unsigned long long v8; // rdx long long v9; // rcx int v11[3]; // [rsp+0h] [rbp-28h] BYREF int v12[7]; // [rsp+Ch] [rbp-1Ch] BYREF v6 = *a5; v7 = a5[1]; *(_QWORD *)v11 = *a5; if ( (unsigned int)v7 >= 0xFFFFFFF7 ) ++**(_DWORD **)v11; if ( (unsigned int)JS_ToInt32Free(a1, v12, v6, v7) ) return 0LL; v8 = a5[2]; v9 = a5[3]; *(_QWORD *)v11 = v8; if ( (unsigned int)v9 >= 0xFFFFFFF7 ) ++**(_DWORD **)v11; if ( (unsigned int)JS_ToInt32Free(a1, v11, v8, v9) ) return 0LL; else return (unsigned int)(v12[0] * v11[0]); }
js_math_imul: PUSH R15 PUSH R14 PUSH RBX SUB RSP,0x10 MOV R15,R8 MOV R14,RDI MOV RDX,qword ptr [R8] MOV RCX,qword ptr [R8 + 0x8] MOV qword ptr [RSP],RDX CMP ECX,-0x9 JC 0x0017e1d0 MOV RAX,qword ptr [RSP] INC dword ptr [RAX] LAB_0017e1d0: LEA RSI,[RSP + 0xc] MOV RDI,R14 CALL 0x001279c3 MOV EBX,0x6 TEST EAX,EAX JNZ 0x0017e20c MOV RDX,qword ptr [R15 + 0x10] MOV RCX,qword ptr [R15 + 0x18] MOV qword ptr [RSP],RDX CMP ECX,-0x9 JC 0x0017e1fd MOV RAX,qword ptr [RSP] INC dword ptr [RAX] LAB_0017e1fd: MOV RSI,RSP MOV RDI,R14 CALL 0x001279c3 TEST EAX,EAX JZ 0x0017e21b LAB_0017e20c: XOR EAX,EAX LAB_0017e20e: MOV RDX,RBX ADD RSP,0x10 POP RBX POP R14 POP R15 RET LAB_0017e21b: MOV EAX,dword ptr [RSP] IMUL EAX,dword ptr [RSP + 0xc] XOR EBX,EBX JMP 0x0017e20e
int js_math_imul(int8 param_1) { int iVar1; int8 *in_R8; int *local_28; int local_1c; local_28 = (int *)*in_R8; if (0xfffffff6 < (uint)in_R8[1]) { *local_28 = *local_28 + 1; } iVar1 = JS_ToInt32Free(param_1,&local_1c); if (iVar1 == 0) { local_28 = (int *)in_R8[2]; if (0xfffffff6 < (uint)in_R8[3]) { *local_28 = *local_28 + 1; } iVar1 = JS_ToInt32Free(param_1,&local_28); if (iVar1 == 0) { return (int)local_28 * local_1c; } } return 0; }
40,851
js_math_imul
bluesky950520[P]quickjs/quickjs.c
static JSValue js_math_imul(JSContext *ctx, JSValue this_val, int argc, JSValue *argv) { uint32_t a, b, c; int32_t d; if (JS_ToUint32(ctx, &a, argv[0])) return JS_EXCEPTION; if (JS_ToUint32(ctx, &b, argv[1])) return JS_EXCEPTION; c = a * b; memcpy(&d, &c, sizeof(d)); return js_int32(d); }
O2
c
js_math_imul: pushq %r15 pushq %r14 pushq %rbx subq $0x10, %rsp movq %r8, %r15 movq %rdi, %r14 movq (%r8), %rdx movq 0x8(%r8), %rcx leaq 0xc(%rsp), %rsi callq 0x215d7 pushq $0x6 popq %rbx testl %eax, %eax jne 0x69dba movq 0x10(%r15), %rdx movq 0x18(%r15), %rcx leaq 0x8(%rsp), %rsi movq %r14, %rdi callq 0x215d7 testl %eax, %eax je 0x69dc9 xorl %eax, %eax movq %rbx, %rdx addq $0x10, %rsp popq %rbx popq %r14 popq %r15 retq movl 0x8(%rsp), %eax imull 0xc(%rsp), %eax xorl %ebx, %ebx jmp 0x69dbc
js_math_imul: push r15 push r14 push rbx sub rsp, 10h mov r15, r8 mov r14, rdi mov rdx, [r8] mov rcx, [r8+8] lea rsi, [rsp+28h+var_1C] call JS_ToInt32 push 6 pop rbx test eax, eax jnz short loc_69DBA mov rdx, [r15+10h] mov rcx, [r15+18h] lea rsi, [rsp+28h+var_20] mov rdi, r14 call JS_ToInt32 test eax, eax jz short loc_69DC9 loc_69DBA: xor eax, eax loc_69DBC: mov rdx, rbx add rsp, 10h pop rbx pop r14 pop r15 retn loc_69DC9: mov eax, [rsp+28h+var_20] imul eax, [rsp+28h+var_1C] xor ebx, ebx jmp short loc_69DBC
long long js_math_imul(long long a1, long long a2, long long a3, long long a4, long long a5) { int v7; // [rsp+8h] [rbp-20h] BYREF _DWORD v8[7]; // [rsp+Ch] [rbp-1Ch] BYREF if ( (unsigned int)JS_ToInt32(a1, (long long)v8, *(_DWORD **)a5, *(_QWORD *)(a5 + 8)) || (unsigned int)JS_ToInt32(a1, (long long)&v7, *(_DWORD **)(a5 + 16), *(_QWORD *)(a5 + 24)) ) { return 0LL; } else { return (unsigned int)(v8[0] * v7); } }
js_math_imul: PUSH R15 PUSH R14 PUSH RBX SUB RSP,0x10 MOV R15,R8 MOV R14,RDI MOV RDX,qword ptr [R8] MOV RCX,qword ptr [R8 + 0x8] LEA RSI,[RSP + 0xc] CALL 0x001215d7 PUSH 0x6 POP RBX TEST EAX,EAX JNZ 0x00169dba MOV RDX,qword ptr [R15 + 0x10] MOV RCX,qword ptr [R15 + 0x18] LEA RSI,[RSP + 0x8] MOV RDI,R14 CALL 0x001215d7 TEST EAX,EAX JZ 0x00169dc9 LAB_00169dba: XOR EAX,EAX LAB_00169dbc: MOV RDX,RBX ADD RSP,0x10 POP RBX POP R14 POP R15 RET LAB_00169dc9: MOV EAX,dword ptr [RSP + 0x8] IMUL EAX,dword ptr [RSP + 0xc] XOR EBX,EBX JMP 0x00169dbc
int js_math_imul(int8 param_1) { int iVar1; int8 *in_R8; int local_20; int local_1c; iVar1 = JS_ToInt32(param_1,&local_1c,*in_R8,in_R8[1]); if ((iVar1 == 0) && (iVar1 = JS_ToInt32(param_1,&local_20,in_R8[2],in_R8[3]), iVar1 == 0)) { return local_20 * local_1c; } return 0; }
40,852
my_mutex_end
eloqsql/mysys/thr_mutex.c
void my_mutex_end() { #ifdef PTHREAD_ADAPTIVE_MUTEX_INITIALIZER_NP pthread_mutexattr_destroy(&my_fast_mutexattr); #endif #ifdef PTHREAD_ERRORCHECK_MUTEX_INITIALIZER_NP pthread_mutexattr_destroy(&my_errorcheck_mutexattr); #endif }
O0
c
my_mutex_end: pushq %rbp movq %rsp, %rbp leaq 0x35d465(%rip), %rdi # 0x38de00 callq 0x24480 leaq 0x35d45d(%rip), %rdi # 0x38de04 callq 0x24480 popq %rbp retq nop
my_mutex_end: push rbp mov rbp, rsp lea rdi, my_fast_mutexattr call _pthread_mutexattr_destroy lea rdi, my_errorcheck_mutexattr call _pthread_mutexattr_destroy pop rbp retn
long long my_mutex_end() { pthread_mutexattr_destroy(&my_fast_mutexattr); return pthread_mutexattr_destroy(&my_errorcheck_mutexattr); }
my_mutex_end: PUSH RBP MOV RBP,RSP LEA RDI,[0x48de00] CALL 0x00124480 LEA RDI,[0x48de04] CALL 0x00124480 POP RBP RET
void my_mutex_end(void) { pthread_mutexattr_destroy((pthread_mutexattr_t *)&my_fast_mutexattr); pthread_mutexattr_destroy((pthread_mutexattr_t *)&my_errorcheck_mutexattr); return; }
40,853
ma_tls_read
eloqsql/libmariadb/libmariadb/secure/openssl.c
ssize_t ma_tls_read(MARIADB_TLS *ctls, const uchar* buffer, size_t length) { int rc; MARIADB_PVIO *pvio= ctls->pvio; while ((rc= SSL_read((SSL *)ctls->ssl, (void *)buffer, (int)length)) <= 0) { int error= SSL_get_error((SSL *)ctls->ssl, rc); if (error != SSL_ERROR_WANT_READ) break; if (pvio->methods->wait_io_or_timeout(pvio, TRUE, pvio->mysql->options.read_timeout) < 1) break; } if (rc <= 0) { MYSQL *mysql= SSL_get_app_data(ctls->ssl); ma_tls_set_error(mysql); } return rc; }
O0
c
ma_tls_read: pushq %rbp movq %rsp, %rbp subq $0x40, %rsp movq %rdi, -0x8(%rbp) movq %rsi, -0x10(%rbp) movq %rdx, -0x18(%rbp) movq -0x8(%rbp), %rax movq 0x8(%rax), %rax movq %rax, -0x28(%rbp) movq -0x8(%rbp), %rax movq 0x10(%rax), %rdi movq -0x10(%rbp), %rsi movq -0x18(%rbp), %rax movl %eax, %edx callq 0x17060 movl %eax, -0x1c(%rbp) cmpl $0x0, %eax jg 0x47098 movq -0x8(%rbp), %rax movq 0x10(%rax), %rdi movl -0x1c(%rbp), %esi callq 0x17030 movl %eax, -0x2c(%rbp) cmpl $0x2, -0x2c(%rbp) je 0x4706a jmp 0x47098 movq -0x28(%rbp), %rax movq 0x48(%rax), %rax movq 0x30(%rax), %rax movq -0x28(%rbp), %rdi movq -0x28(%rbp), %rcx movq 0x40(%rcx), %rcx movl 0x394(%rcx), %edx movl $0x1, %esi callq *%rax cmpl $0x1, %eax jge 0x47096 jmp 0x47098 jmp 0x47030 cmpl $0x0, -0x1c(%rbp) jg 0x470ba movq -0x8(%rbp), %rax movq 0x10(%rax), %rdi xorl %esi, %esi callq 0x17180 movq %rax, -0x38(%rbp) movq -0x38(%rbp), %rdi callq 0x46d40 movslq -0x1c(%rbp), %rax addq $0x40, %rsp popq %rbp retq nopw %cs:(%rax,%rax)
ma_tls_read: push rbp mov rbp, rsp sub rsp, 40h mov [rbp+var_8], rdi mov [rbp+var_10], rsi mov [rbp+var_18], rdx mov rax, [rbp+var_8] mov rax, [rax+8] mov [rbp+var_28], rax loc_47030: mov rax, [rbp+var_8] mov rdi, [rax+10h] mov rsi, [rbp+var_10] mov rax, [rbp+var_18] mov edx, eax call _SSL_read mov [rbp+var_1C], eax cmp eax, 0 jg short loc_47098 mov rax, [rbp+var_8] mov rdi, [rax+10h] mov esi, [rbp+var_1C] call _SSL_get_error mov [rbp+var_2C], eax cmp [rbp+var_2C], 2 jz short loc_4706A jmp short loc_47098 loc_4706A: mov rax, [rbp+var_28] mov rax, [rax+48h] mov rax, [rax+30h] mov rdi, [rbp+var_28] mov rcx, [rbp+var_28] mov rcx, [rcx+40h] mov edx, [rcx+394h] mov esi, 1 call rax cmp eax, 1 jge short loc_47096 jmp short loc_47098 loc_47096: jmp short loc_47030 loc_47098: cmp [rbp+var_1C], 0 jg short loc_470BA mov rax, [rbp+var_8] mov rdi, [rax+10h] xor esi, esi call _SSL_get_ex_data mov [rbp+var_38], rax mov rdi, [rbp+var_38] call ma_tls_set_error loc_470BA: movsxd rax, [rbp+var_1C] add rsp, 40h pop rbp retn
long long ma_tls_read(long long a1, long long a2, unsigned int a3) { long long *v4; // [rsp+8h] [rbp-38h] long long v5; // [rsp+18h] [rbp-28h] int v6; // [rsp+24h] [rbp-1Ch] v5 = *(_QWORD *)(a1 + 8); do v6 = SSL_read(*(_QWORD *)(a1 + 16), a2, a3); while ( v6 <= 0 && (unsigned int)SSL_get_error(*(_QWORD *)(a1 + 16), (unsigned int)v6) == 2 && (*(int ( **)(long long, long long, _QWORD))(*(_QWORD *)(v5 + 72) + 48LL))( v5, 1LL, *(unsigned int *)(*(_QWORD *)(v5 + 64) + 916LL)) >= 1 ); if ( v6 <= 0 ) { v4 = (long long *)SSL_get_ex_data(*(_QWORD *)(a1 + 16), 0LL); ma_tls_set_error(v4); } return v6; }
ma_tls_read: PUSH RBP MOV RBP,RSP SUB RSP,0x40 MOV qword ptr [RBP + -0x8],RDI MOV qword ptr [RBP + -0x10],RSI MOV qword ptr [RBP + -0x18],RDX MOV RAX,qword ptr [RBP + -0x8] MOV RAX,qword ptr [RAX + 0x8] MOV qword ptr [RBP + -0x28],RAX LAB_00147030: MOV RAX,qword ptr [RBP + -0x8] MOV RDI,qword ptr [RAX + 0x10] MOV RSI,qword ptr [RBP + -0x10] MOV RAX,qword ptr [RBP + -0x18] MOV EDX,EAX CALL 0x00117060 MOV dword ptr [RBP + -0x1c],EAX CMP EAX,0x0 JG 0x00147098 MOV RAX,qword ptr [RBP + -0x8] MOV RDI,qword ptr [RAX + 0x10] MOV ESI,dword ptr [RBP + -0x1c] CALL 0x00117030 MOV dword ptr [RBP + -0x2c],EAX CMP dword ptr [RBP + -0x2c],0x2 JZ 0x0014706a JMP 0x00147098 LAB_0014706a: MOV RAX,qword ptr [RBP + -0x28] MOV RAX,qword ptr [RAX + 0x48] MOV RAX,qword ptr [RAX + 0x30] MOV RDI,qword ptr [RBP + -0x28] MOV RCX,qword ptr [RBP + -0x28] MOV RCX,qword ptr [RCX + 0x40] MOV EDX,dword ptr [RCX + 0x394] MOV ESI,0x1 CALL RAX CMP EAX,0x1 JGE 0x00147096 JMP 0x00147098 LAB_00147096: JMP 0x00147030 LAB_00147098: CMP dword ptr [RBP + -0x1c],0x0 JG 0x001470ba MOV RAX,qword ptr [RBP + -0x8] MOV RDI,qword ptr [RAX + 0x10] XOR ESI,ESI CALL 0x00117180 MOV qword ptr [RBP + -0x38],RAX MOV RDI,qword ptr [RBP + -0x38] CALL 0x00146d40 LAB_001470ba: MOVSXD RAX,dword ptr [RBP + -0x1c] ADD RSP,0x40 POP RBP RET
long ma_tls_read(long param_1,void *param_2,int param_3) { long lVar1; int ret_code; int iVar2; void *pvVar3; lVar1 = *(long *)(param_1 + 8); do { ret_code = SSL_read(*(SSL **)(param_1 + 0x10),param_2,param_3); if ((0 < ret_code) || (iVar2 = SSL_get_error(*(SSL **)(param_1 + 0x10),ret_code), iVar2 != 2)) break; iVar2 = (**(code **)(*(long *)(lVar1 + 0x48) + 0x30)) (lVar1,1,*(int4 *)(*(long *)(lVar1 + 0x40) + 0x394)); } while (0 < iVar2); if (ret_code < 1) { pvVar3 = SSL_get_ex_data(*(SSL **)(param_1 + 0x10),0); ma_tls_set_error(pvVar3); } return (long)ret_code; }
40,854
google::protobuf::internal::InternalMetadata::~InternalMetadata()
aimrt_mujoco_sim/_deps/protobuf-src/src/google/protobuf/metadata_lite.h
~InternalMetadata() { #if defined(NDEBUG) || defined(_MSC_VER) if (HasMessageOwnedArenaTag()) { delete reinterpret_cast<Arena*>(ptr_ - kMessageOwnedArenaTagMask); } #else CheckedDestruct(); #endif }
O0
c
google::protobuf::internal::InternalMetadata::~InternalMetadata(): subq $0x28, %rsp movq %rdi, 0x18(%rsp) movq 0x18(%rsp), %rax movq %rax, 0x8(%rsp) movq %rax, 0x20(%rsp) movq 0x20(%rsp), %rax movq (%rax), %rax andq $0x2, %rax cmpq $0x0, %rax setne %al movb %al, 0x17(%rsp) movb 0x17(%rsp), %al testb $0x1, %al jne 0xdd8b9 jmp 0xdd8e3 movq 0x8(%rsp), %rax movq (%rax), %rax subq $0x2, %rax movq %rax, (%rsp) cmpq $0x0, %rax je 0xdd8e1 movq (%rsp), %rdi callq 0xdd8f0 movq (%rsp), %rdi callq 0x13400 jmp 0xdd8e3 addq $0x28, %rsp retq nopl (%rax,%rax)
_ZN6google8protobuf8internal16InternalMetadataD2Ev: sub rsp, 28h mov [rsp+28h+var_10], rdi mov rax, [rsp+28h+var_10] mov [rsp+28h+var_20], rax mov [rsp+28h+var_8], rax mov rax, [rsp+28h+var_8] mov rax, [rax] and rax, 2 cmp rax, 0 setnz al mov [rsp+28h+var_11], al mov al, [rsp+28h+var_11] test al, 1 jnz short loc_DD8B9 jmp short loc_DD8E3 loc_DD8B9: mov rax, [rsp+28h+var_20] mov rax, [rax] sub rax, 2 mov [rsp+28h+var_28], rax cmp rax, 0 jz short loc_DD8E1 mov rdi, [rsp+28h+var_28]; this call _ZN6google8protobuf5ArenaD2Ev; google::protobuf::Arena::~Arena() mov rdi, [rsp+28h+var_28]; void * call __ZdlPv; operator delete(void *) loc_DD8E1: jmp short $+2 loc_DD8E3: add rsp, 28h retn
void google::protobuf::internal::InternalMetadata::~InternalMetadata( google::protobuf::internal::InternalMetadata *this) { google::protobuf::Arena *v1; // [rsp+0h] [rbp-28h] if ( (*(_QWORD *)this & 2LL) != 0 ) { v1 = (google::protobuf::Arena *)(*(_QWORD *)this - 2LL); if ( *(_QWORD *)this != 2LL ) { google::protobuf::Arena::~Arena(v1); operator delete(v1); } } }
~InternalMetadata: SUB RSP,0x28 MOV qword ptr [RSP + 0x18],RDI MOV RAX,qword ptr [RSP + 0x18] MOV qword ptr [RSP + 0x8],RAX MOV qword ptr [RSP + 0x20],RAX MOV RAX,qword ptr [RSP + 0x20] MOV RAX,qword ptr [RAX] AND RAX,0x2 CMP RAX,0x0 SETNZ AL MOV byte ptr [RSP + 0x17],AL MOV AL,byte ptr [RSP + 0x17] TEST AL,0x1 JNZ 0x001dd8b9 JMP 0x001dd8e3 LAB_001dd8b9: MOV RAX,qword ptr [RSP + 0x8] MOV RAX,qword ptr [RAX] SUB RAX,0x2 MOV qword ptr [RSP],RAX CMP RAX,0x0 JZ 0x001dd8e1 MOV RDI,qword ptr [RSP] CALL 0x001dd8f0 MOV RDI,qword ptr [RSP] CALL 0x00113400 LAB_001dd8e1: JMP 0x001dd8e3 LAB_001dd8e3: ADD RSP,0x28 RET
/* google::protobuf::internal::InternalMetadata::~InternalMetadata() */ void __thiscall google::protobuf::internal::InternalMetadata::~InternalMetadata(InternalMetadata *this) { Arena *this_00; if (((*(ulong *)this & 2) != 0) && (this_00 = (Arena *)(*(long *)this + -2), this_00 != (Arena *)0x0)) { Arena::~Arena(this_00); operator_delete(this_00); } return; }
40,855
PVG_FT_Stroker_LineTo
dmazzella[P]pylunasvg/lunasvg/plutovg/source/plutovg-ft-stroker.c
PVG_FT_Error PVG_FT_Stroker_LineTo(PVG_FT_Stroker stroker, PVG_FT_Vector* to) { PVG_FT_Error error = 0; PVG_FT_StrokeBorder border; PVG_FT_Vector delta; PVG_FT_Angle angle; PVG_FT_Int side; PVG_FT_Fixed line_length; delta.x = to->x - stroker->center.x; delta.y = to->y - stroker->center.y; /* a zero-length lineto is a no-op; avoid creating a spurious corner */ if (delta.x == 0 && delta.y == 0) goto Exit; /* compute length of line */ line_length = PVG_FT_Vector_Length(&delta); angle = PVG_FT_Atan2(delta.x, delta.y); PVG_FT_Vector_From_Polar(&delta, stroker->radius, angle + PVG_FT_ANGLE_PI2); /* process corner if necessary */ if (stroker->first_point) { /* This is the first segment of a subpath. We need to */ /* add a point to each border at their respective starting */ /* point locations. */ error = ft_stroker_subpath_start(stroker, angle, line_length); if (error) goto Exit; } else { /* process the current corner */ stroker->angle_out = angle; error = ft_stroker_process_corner(stroker, line_length); if (error) goto Exit; } /* now add a line segment to both the `inside' and `outside' paths */ for (border = stroker->borders, side = 1; side >= 0; side--, border++) { PVG_FT_Vector point; point.x = to->x + delta.x; point.y = to->y + delta.y; /* the ends of lineto borders are movable */ error = ft_stroke_border_lineto(border, &point, TRUE); if (error) goto Exit; delta.x = -delta.x; delta.y = -delta.y; } stroker->angle_in = angle; stroker->center = *to; stroker->line_length = line_length; Exit: return error; }
O1
c
PVG_FT_Stroker_LineTo: pushq %rbp pushq %r15 pushq %r14 pushq %r13 pushq %r12 pushq %rbx subq $0x28, %rsp movq %rsi, %r14 movq %rdi, %rbx movq (%rsi), %rax movq 0x10(%rdi), %rcx movq %rax, %rdx subq %rcx, %rdx movq %rdx, (%rsp) movq 0x8(%rsi), %rdx movq 0x18(%rdi), %rsi movq %rdx, %rdi subq %rsi, %rdi movq %rdi, 0x8(%rsp) xorq %rcx, %rax xorq %rsi, %rdx orq %rax, %rdx je 0x1d114 movq %rsp, %r13 movq %r13, %rdi callq 0x22717 movq %rax, %r15 movq (%r13), %rdi movq 0x8(%r13), %rsi callq 0x22455 movq %rax, %r12 movq 0x68(%rbx), %rsi leaq 0x5a0000(%rax), %rdx movq %r13, %rdi callq 0x228d6 cmpb $0x0, 0x28(%rbx) movq %r15, 0x10(%rsp) je 0x1d0a1 movq %rbx, %rdi movq %r12, %rsi movq %r15, %rdx callq 0x1d125 jmp 0x1d0b0 movq %r12, 0x8(%rbx) movq %rbx, %rdi movq %r15, %rsi callq 0x1d1be leaq 0x10(%rbx), %rbp movl $0x70, %r15d leaq 0x18(%rsp), %r13 leaq (%rbx,%r15), %rdi movq (%rsp), %rax movq 0x8(%rsp), %rcx addq (%r14), %rax movq %rax, 0x18(%rsp) addq 0x8(%r14), %rcx movq %rcx, 0x20(%rsp) movq %r13, %rsi movl $0x1, %edx callq 0x1d20c negq (%rsp) negq 0x8(%rsp) addq $0x28, %r15 cmpl $0xc0, %r15d jne 0x1d0bf movq %r12, (%rbx) movups (%r14), %xmm0 movups %xmm0, (%rbp) movq 0x10(%rsp), %rax movq %rax, 0x20(%rbx) xorl %eax, %eax addq $0x28, %rsp popq %rbx popq %r12 popq %r13 popq %r14 popq %r15 popq %rbp retq
PVG_FT_Stroker_LineTo: push rbp push r15 push r14 push r13 push r12 push rbx sub rsp, 28h mov r14, rsi mov rbx, rdi mov rax, [rsi] mov rcx, [rdi+10h] mov rdx, rax sub rdx, rcx mov [rsp+58h+var_58], rdx mov rdx, [rsi+8] mov rsi, [rdi+18h] mov rdi, rdx sub rdi, rsi mov [rsp+58h+var_50], rdi xor rax, rcx xor rdx, rsi or rdx, rax jz loc_1D114 mov r13, rsp mov rdi, r13 call PVG_FT_Vector_Length mov r15, rax mov rdi, [r13+0] mov rsi, [r13+8] call PVG_FT_Atan2 mov r12, rax mov rsi, [rbx+68h] lea rdx, [rax+5A0000h] mov rdi, r13 call PVG_FT_Vector_From_Polar cmp byte ptr [rbx+28h], 0 mov [rsp+58h+var_48], r15 jz short loc_1D0A1 mov rdi, rbx mov rsi, r12 mov rdx, r15 call ft_stroker_subpath_start jmp short loc_1D0B0 loc_1D0A1: mov [rbx+8], r12 mov rdi, rbx mov rsi, r15 call ft_stroker_process_corner loc_1D0B0: lea rbp, [rbx+10h] mov r15d, 70h ; 'p' lea r13, [rsp+58h+var_40] loc_1D0BF: lea rdi, [rbx+r15] mov rax, [rsp+58h+var_58] mov rcx, [rsp+58h+var_50] add rax, [r14] mov [rsp+58h+var_40], rax add rcx, [r14+8] mov [rsp+58h+var_38], rcx mov rsi, r13 mov edx, 1 call ft_stroke_border_lineto neg [rsp+58h+var_58] neg [rsp+58h+var_50] add r15, 28h ; '(' cmp r15d, 0C0h jnz short loc_1D0BF mov [rbx], r12 movups xmm0, xmmword ptr [r14] movups xmmword ptr [rbp+0], xmm0 mov rax, [rsp+58h+var_48] mov [rbx+20h], rax loc_1D114: xor eax, eax add rsp, 28h pop rbx pop r12 pop r13 pop r14 pop r15 pop rbp retn
long long PVG_FT_Stroker_LineTo(long long a1, long long *a2) { long long v3; // rax long long v4; // rcx long long v5; // rdx long long v6; // rsi long long v7; // r15 long long v8; // r12 bool v9; // zf long long v10; // r15 long long v12; // [rsp+0h] [rbp-58h] BYREF long long v13; // [rsp+8h] [rbp-50h] long long v14; // [rsp+10h] [rbp-48h] _QWORD v15[8]; // [rsp+18h] [rbp-40h] BYREF v3 = *a2; v4 = *(_QWORD *)(a1 + 16); v12 = *a2 - v4; v5 = a2[1]; v6 = *(_QWORD *)(a1 + 24); v13 = v5 - v6; if ( v4 ^ v3 | v6 ^ v5 ) { v7 = PVG_FT_Vector_Length(&v12); v8 = PVG_FT_Atan2(v12, v13); PVG_FT_Vector_From_Polar(&v12, *(_QWORD *)(a1 + 104), v8 + 5898240); v9 = *(_BYTE *)(a1 + 40) == 0; v14 = v7; if ( v9 ) { *(_QWORD *)(a1 + 8) = v8; ft_stroker_process_corner(a1, v7); } else { ft_stroker_subpath_start(a1, v8, v7); } v10 = 112LL; do { v15[0] = *a2 + v12; v15[1] = a2[1] + v13; ft_stroke_border_lineto(a1 + v10, v15, 1LL); v12 = -v12; v13 = -v13; v10 += 40LL; } while ( (_DWORD)v10 != 192 ); *(_QWORD *)a1 = v8; *(_OWORD *)(a1 + 16) = *(_OWORD *)a2; *(_QWORD *)(a1 + 32) = v14; } return 0LL; }
PVG_FT_Stroker_LineTo: PUSH RBP PUSH R15 PUSH R14 PUSH R13 PUSH R12 PUSH RBX SUB RSP,0x28 MOV R14,RSI MOV RBX,RDI MOV RAX,qword ptr [RSI] MOV RCX,qword ptr [RDI + 0x10] MOV RDX,RAX SUB RDX,RCX MOV qword ptr [RSP],RDX MOV RDX,qword ptr [RSI + 0x8] MOV RSI,qword ptr [RDI + 0x18] MOV RDI,RDX SUB RDI,RSI MOV qword ptr [RSP + 0x8],RDI XOR RAX,RCX XOR RDX,RSI OR RDX,RAX JZ 0x0011d114 MOV R13,RSP MOV RDI,R13 CALL 0x00122717 MOV R15,RAX MOV RDI,qword ptr [R13] MOV RSI,qword ptr [R13 + 0x8] CALL 0x00122455 MOV R12,RAX MOV RSI,qword ptr [RBX + 0x68] LEA RDX,[RAX + 0x5a0000] MOV RDI,R13 CALL 0x001228d6 CMP byte ptr [RBX + 0x28],0x0 MOV qword ptr [RSP + 0x10],R15 JZ 0x0011d0a1 MOV RDI,RBX MOV RSI,R12 MOV RDX,R15 CALL 0x0011d125 JMP 0x0011d0b0 LAB_0011d0a1: MOV qword ptr [RBX + 0x8],R12 MOV RDI,RBX MOV RSI,R15 CALL 0x0011d1be LAB_0011d0b0: LEA RBP,[RBX + 0x10] MOV R15D,0x70 LEA R13,[RSP + 0x18] LAB_0011d0bf: LEA RDI,[RBX + R15*0x1] MOV RAX,qword ptr [RSP] MOV RCX,qword ptr [RSP + 0x8] ADD RAX,qword ptr [R14] MOV qword ptr [RSP + 0x18],RAX ADD RCX,qword ptr [R14 + 0x8] MOV qword ptr [RSP + 0x20],RCX MOV RSI,R13 MOV EDX,0x1 CALL 0x0011d20c NEG qword ptr [RSP] NEG qword ptr [RSP + 0x8] ADD R15,0x28 CMP R15D,0xc0 JNZ 0x0011d0bf MOV qword ptr [RBX],R12 MOVUPS XMM0,xmmword ptr [R14] MOVUPS xmmword ptr [RBP],XMM0 MOV RAX,qword ptr [RSP + 0x10] MOV qword ptr [RBX + 0x20],RAX LAB_0011d114: XOR EAX,EAX ADD RSP,0x28 POP RBX POP R12 POP R13 POP R14 POP R15 POP RBP RET
int8 PVG_FT_Stroker_LineTo(long *param_1,long *param_2) { long lVar1; long lVar2; long local_58; long local_50; long local_48; long local_40; long local_38; local_58 = *param_2 - param_1[2]; local_50 = param_2[1] - param_1[3]; if (param_2[1] != param_1[3] || *param_2 != param_1[2]) { lVar1 = PVG_FT_Vector_Length(&local_58); lVar2 = PVG_FT_Atan2(local_58,local_50); PVG_FT_Vector_From_Polar(&local_58,param_1[0xd],lVar2 + 0x5a0000); local_48 = lVar1; if ((char)param_1[5] == '\0') { param_1[1] = lVar2; ft_stroker_process_corner(param_1,lVar1); } else { ft_stroker_subpath_start(param_1,lVar2,lVar1); } lVar1 = 0x70; do { local_40 = local_58 + *param_2; local_38 = local_50 + param_2[1]; ft_stroke_border_lineto((long)param_1 + lVar1,&local_40,1); local_58 = -local_58; local_50 = -local_50; lVar1 = lVar1 + 0x28; } while ((int)lVar1 != 0xc0); *param_1 = lVar2; lVar1 = param_2[1]; param_1[2] = *param_2; param_1[3] = lVar1; param_1[4] = local_48; } return 0; }
40,856
my_charset_is_ascii_compatible
eloqsql/strings/ctype-simple.c
static my_bool my_charset_is_ascii_compatible(CHARSET_INFO *cs) { uint i; if (!cs->tab_to_uni) return 1; for (i= 0; i < 128; i++) { if (cs->tab_to_uni[i] != i) return 0; } return 1; }
O0
c
my_charset_is_ascii_compatible: pushq %rbp movq %rsp, %rbp movq %rdi, -0x10(%rbp) movq -0x10(%rbp), %rax cmpq $0x0, 0x68(%rax) jne 0x98a39 movb $0x1, -0x1(%rbp) jmp 0x98a74 movl $0x0, -0x14(%rbp) cmpl $0x80, -0x14(%rbp) jae 0x98a70 movq -0x10(%rbp), %rax movq 0x68(%rax), %rax movl -0x14(%rbp), %ecx movzwl (%rax,%rcx,2), %eax cmpl -0x14(%rbp), %eax je 0x98a63 movb $0x0, -0x1(%rbp) jmp 0x98a74 jmp 0x98a65 movl -0x14(%rbp), %eax addl $0x1, %eax movl %eax, -0x14(%rbp) jmp 0x98a40 movb $0x1, -0x1(%rbp) movb -0x1(%rbp), %al popq %rbp retq nopl (%rax)
my_charset_is_ascii_compatible: push rbp mov rbp, rsp mov [rbp+var_10], rdi mov rax, [rbp+var_10] cmp qword ptr [rax+68h], 0 jnz short loc_98A39 mov [rbp+var_1], 1 jmp short loc_98A74 loc_98A39: mov [rbp+var_14], 0 loc_98A40: cmp [rbp+var_14], 80h jnb short loc_98A70 mov rax, [rbp+var_10] mov rax, [rax+68h] mov ecx, [rbp+var_14] movzx eax, word ptr [rax+rcx*2] cmp eax, [rbp+var_14] jz short loc_98A63 mov [rbp+var_1], 0 jmp short loc_98A74 loc_98A63: jmp short $+2 loc_98A65: mov eax, [rbp+var_14] add eax, 1 mov [rbp+var_14], eax jmp short loc_98A40 loc_98A70: mov [rbp+var_1], 1 loc_98A74: mov al, [rbp+var_1] pop rbp retn
char my_charset_is_ascii_compatible(long long a1) { unsigned int i; // [rsp+0h] [rbp-14h] if ( !*(_QWORD *)(a1 + 104) ) return 1; for ( i = 0; i < 0x80; ++i ) { if ( *(unsigned __int16 *)(*(_QWORD *)(a1 + 104) + 2LL * i) != i ) return 0; } return 1; }
my_charset_is_ascii_compatible: PUSH RBP MOV RBP,RSP MOV qword ptr [RBP + -0x10],RDI MOV RAX,qword ptr [RBP + -0x10] CMP qword ptr [RAX + 0x68],0x0 JNZ 0x00198a39 MOV byte ptr [RBP + -0x1],0x1 JMP 0x00198a74 LAB_00198a39: MOV dword ptr [RBP + -0x14],0x0 LAB_00198a40: CMP dword ptr [RBP + -0x14],0x80 JNC 0x00198a70 MOV RAX,qword ptr [RBP + -0x10] MOV RAX,qword ptr [RAX + 0x68] MOV ECX,dword ptr [RBP + -0x14] MOVZX EAX,word ptr [RAX + RCX*0x2] CMP EAX,dword ptr [RBP + -0x14] JZ 0x00198a63 MOV byte ptr [RBP + -0x1],0x0 JMP 0x00198a74 LAB_00198a63: JMP 0x00198a65 LAB_00198a65: MOV EAX,dword ptr [RBP + -0x14] ADD EAX,0x1 MOV dword ptr [RBP + -0x14],EAX JMP 0x00198a40 LAB_00198a70: MOV byte ptr [RBP + -0x1],0x1 LAB_00198a74: MOV AL,byte ptr [RBP + -0x1] POP RBP RET
int1 my_charset_is_ascii_compatible(long param_1) { uint local_1c; if (*(long *)(param_1 + 0x68) != 0) { for (local_1c = 0; local_1c < 0x80; local_1c = local_1c + 1) { if (*(ushort *)(*(long *)(param_1 + 0x68) + (ulong)local_1c * 2) != local_1c) { return 0; } } } return 1; }
40,857
ggml_clamp
Yangxiaoz[P]GGML-Tutorial/ggml/src/ggml.c
struct ggml_tensor * ggml_clamp( struct ggml_context * ctx, struct ggml_tensor * a, float min, float max) { // TODO: when implement backward, fix this: struct ggml_tensor * result = ggml_view_tensor(ctx, a); float params[] = { min, max }; ggml_set_op_params(result, params, sizeof(params)); result->op = GGML_OP_CLAMP; result->src[0] = a; return result; }
O1
c
ggml_clamp: pushq %rbx subq $0x10, %rsp movss %xmm1, 0xc(%rsp) movss %xmm0, 0x8(%rsp) movq %rsi, %rbx callq 0x17260 testq %rax, %rax je 0x1ec89 movss 0x8(%rsp), %xmm0 movss %xmm0, 0x54(%rax) movss 0xc(%rsp), %xmm0 movss %xmm0, 0x58(%rax) movl $0x2e, 0x50(%rax) movq %rbx, 0x98(%rax) addq $0x10, %rsp popq %rbx retq leaq 0x2fa35(%rip), %rdi # 0x4e6c5 leaq 0x2d92a(%rip), %rdx # 0x4c5c1 leaq 0x2fb54(%rip), %rcx # 0x4e7f2 movl $0x70, %esi xorl %eax, %eax callq 0x18ce0
ggml_clamp: push rbx sub rsp, 10h movss [rsp+18h+var_C], xmm1 movss [rsp+18h+var_10], xmm0 mov rbx, rsi call _ggml_view_tensor test rax, rax jz short loc_1EC89 movss xmm0, [rsp+18h+var_10] movss dword ptr [rax+54h], xmm0 movss xmm0, [rsp+18h+var_C] movss dword ptr [rax+58h], xmm0 mov dword ptr [rax+50h], 2Eh ; '.' mov [rax+98h], rbx add rsp, 10h pop rbx retn loc_1EC89: lea rdi, aWorkspaceLlm4b_0; "/workspace/llm4binary/github/2025_star3"... lea rdx, aGgmlAssertSFai; "GGML_ASSERT(%s) failed" lea rcx, aTensorNull; "tensor != NULL" mov esi, 70h ; 'p' xor eax, eax call _ggml_abort
long long ggml_clamp(long long a1, long long a2, double a3, float a4) { long long result; // rax int v5; // r8d int v6; // r9d result = ggml_view_tensor(a1, a2, a3); if ( !result ) ggml_abort( (unsigned int)"/workspace/llm4binary/github/2025_star3/Yangxiaoz[P]GGML-Tutorial/ggml/src/ggml-impl.h", 112, (unsigned int)"GGML_ASSERT(%s) failed", (unsigned int)"tensor != NULL", v5, v6); *(_DWORD *)(result + 84) = LODWORD(a3); *(float *)(result + 88) = a4; *(_DWORD *)(result + 80) = 46; *(_QWORD *)(result + 152) = a2; return result; }
ggml_clamp: PUSH RBX SUB RSP,0x10 MOVSS dword ptr [RSP + 0xc],XMM1 MOVSS dword ptr [RSP + 0x8],XMM0 MOV RBX,RSI CALL 0x00117260 TEST RAX,RAX JZ 0x0011ec89 MOVSS XMM0,dword ptr [RSP + 0x8] MOVSS dword ptr [RAX + 0x54],XMM0 MOVSS XMM0,dword ptr [RSP + 0xc] MOVSS dword ptr [RAX + 0x58],XMM0 MOV dword ptr [RAX + 0x50],0x2e MOV qword ptr [RAX + 0x98],RBX ADD RSP,0x10 POP RBX RET LAB_0011ec89: LEA RDI,[0x14e6c5] LEA RDX,[0x14c5c1] LEA RCX,[0x14e7f2] MOV ESI,0x70 XOR EAX,EAX CALL 0x00118ce0
void ggml_clamp(int4 param_1,int4 param_2,int8 param_3,int8 param_4) { long lVar1; lVar1 = ggml_view_tensor(); if (lVar1 != 0) { *(int4 *)(lVar1 + 0x54) = param_1; *(int4 *)(lVar1 + 0x58) = param_2; *(int4 *)(lVar1 + 0x50) = 0x2e; *(int8 *)(lVar1 + 0x98) = param_4; return; } /* WARNING: Subroutine does not return */ ggml_abort("/workspace/llm4binary/github/2025_star3/Yangxiaoz[P]GGML-Tutorial/ggml/src/ggml-impl.h" ,0x70,"GGML_ASSERT(%s) failed","tensor != NULL"); }
40,858
ggml_clamp
Yangxiaoz[P]GGML-Tutorial/ggml/src/ggml.c
struct ggml_tensor * ggml_clamp( struct ggml_context * ctx, struct ggml_tensor * a, float min, float max) { // TODO: when implement backward, fix this: struct ggml_tensor * result = ggml_view_tensor(ctx, a); float params[] = { min, max }; ggml_set_op_params(result, params, sizeof(params)); result->op = GGML_OP_CLAMP; result->src[0] = a; return result; }
O2
c
ggml_clamp: pushq %r14 pushq %rbx subq $0x18, %rsp movss %xmm1, 0xc(%rsp) movss %xmm0, 0x8(%rsp) movq %rsi, %rbx callq 0x1d410 movq %rax, %r14 leaq 0x10(%rsp), %rsi movss 0x8(%rsp), %xmm0 movss %xmm0, (%rsi) movss 0xc(%rsp), %xmm0 movss %xmm0, 0x4(%rsi) pushq $0x8 popq %rdx movq %rax, %rdi callq 0x2221d movl $0x2e, 0x50(%r14) movq %rbx, 0x98(%r14) movq %r14, %rax addq $0x18, %rsp popq %rbx popq %r14 retq
ggml_clamp: push r14 push rbx sub rsp, 18h movss [rsp+28h+var_1C], xmm1 movss [rsp+28h+var_20], xmm0 mov rbx, rsi call _ggml_view_tensor mov r14, rax lea rsi, [rsp+28h+var_18] movss xmm0, [rsp+28h+var_20] movss dword ptr [rsi], xmm0 movss xmm0, [rsp+28h+var_1C] movss dword ptr [rsi+4], xmm0 push 8 pop rdx mov rdi, rax call ggml_set_op_params mov dword ptr [r14+50h], 2Eh ; '.' mov [r14+98h], rbx mov rax, r14 add rsp, 18h pop rbx pop r14 retn
long long ggml_clamp( long long a1, long long a2, __m128 a3, __m128 a4, __m128 a5, __m128 a6, __m128 a7, __m128 a8, __m128 a9, __m128 a10) { long long v10; // r14 long long v11; // rcx long long v12; // r8 long long v13; // r9 __m128 v14; // xmm4 __m128 v15; // xmm5 _DWORD v17[6]; // [rsp+10h] [rbp-18h] BYREF v10 = ggml_view_tensor(a1, a2, a3, a4, a5, a6, a7, a8, a9, a10); v17[0] = a3.m128_i32[0]; v17[1] = a4.m128_i32[0]; ggml_set_op_params(v10, (long long)v17, 8LL, (__m128)a4.m128_u32[0], a4, a5, a6, v14, v15, a9, a10, v11, v12, v13); *(_DWORD *)(v10 + 80) = 46; *(_QWORD *)(v10 + 152) = a2; return v10; }
ggml_clamp: PUSH R14 PUSH RBX SUB RSP,0x18 MOVSS dword ptr [RSP + 0xc],XMM1 MOVSS dword ptr [RSP + 0x8],XMM0 MOV RBX,RSI CALL 0x0011d410 MOV R14,RAX LEA RSI,[RSP + 0x10] MOVSS XMM0,dword ptr [RSP + 0x8] MOVSS dword ptr [RSI],XMM0 MOVSS XMM0,dword ptr [RSP + 0xc] MOVSS dword ptr [RSI + 0x4],XMM0 PUSH 0x8 POP RDX MOV RDI,RAX CALL 0x0012221d MOV dword ptr [R14 + 0x50],0x2e MOV qword ptr [R14 + 0x98],RBX MOV RAX,R14 ADD RSP,0x18 POP RBX POP R14 RET
long ggml_clamp(int4 param_1,int4 param_2,int8 param_3,int8 param_4) { long lVar1; int4 local_18; int4 local_14; lVar1 = ggml_view_tensor(); local_18 = param_1; local_14 = param_2; ggml_set_op_params(lVar1,&local_18,8); *(int4 *)(lVar1 + 0x50) = 0x2e; *(int8 *)(lVar1 + 0x98) = param_4; return lVar1; }
40,859
ggml_clamp
Yangxiaoz[P]GGML-Tutorial/ggml/src/ggml.c
struct ggml_tensor * ggml_clamp( struct ggml_context * ctx, struct ggml_tensor * a, float min, float max) { // TODO: when implement backward, fix this: struct ggml_tensor * result = ggml_view_tensor(ctx, a); float params[] = { min, max }; ggml_set_op_params(result, params, sizeof(params)); result->op = GGML_OP_CLAMP; result->src[0] = a; return result; }
O3
c
ggml_clamp: pushq %rbx subq $0x10, %rsp movss %xmm1, 0xc(%rsp) movss %xmm0, 0x8(%rsp) movq %rsi, %rbx callq 0x16260 testq %rax, %rax je 0x1d977 movss 0x8(%rsp), %xmm0 movss %xmm0, 0x54(%rax) movss 0xc(%rsp), %xmm0 movss %xmm0, 0x58(%rax) movl $0x2e, 0x50(%rax) movq %rbx, 0x98(%rax) addq $0x10, %rsp popq %rbx retq leaq 0x30deb(%rip), %rdi # 0x4e769 leaq 0x2ece0(%rip), %rdx # 0x4c665 leaq 0x30f0a(%rip), %rcx # 0x4e896 movl $0x70, %esi xorl %eax, %eax callq 0x17cd0
ggml_clamp: push rbx sub rsp, 10h movss [rsp+18h+var_C], xmm1 movss [rsp+18h+var_10], xmm0 mov rbx, rsi call _ggml_view_tensor test rax, rax jz short loc_1D977 movss xmm0, [rsp+18h+var_10] movss dword ptr [rax+54h], xmm0 movss xmm0, [rsp+18h+var_C] movss dword ptr [rax+58h], xmm0 mov dword ptr [rax+50h], 2Eh ; '.' mov [rax+98h], rbx add rsp, 10h pop rbx retn loc_1D977: lea rdi, aWorkspaceLlm4b_0; "/workspace/llm4binary/github/2025_star3"... lea rdx, aGgmlAssertSFai; "GGML_ASSERT(%s) failed" lea rcx, aTensorNull; "tensor != NULL" mov esi, 70h ; 'p' xor eax, eax call _ggml_abort
long long ggml_clamp(long long a1, long long a2, double a3, float a4) { long long result; // rax int v5; // r8d int v6; // r9d result = ggml_view_tensor(a1, a2, a3); if ( !result ) ggml_abort( (unsigned int)"/workspace/llm4binary/github/2025_star3/Yangxiaoz[P]GGML-Tutorial/ggml/src/ggml-impl.h", 112, (unsigned int)"GGML_ASSERT(%s) failed", (unsigned int)"tensor != NULL", v5, v6); *(_DWORD *)(result + 84) = LODWORD(a3); *(float *)(result + 88) = a4; *(_DWORD *)(result + 80) = 46; *(_QWORD *)(result + 152) = a2; return result; }
ggml_clamp: PUSH RBX SUB RSP,0x10 MOVSS dword ptr [RSP + 0xc],XMM1 MOVSS dword ptr [RSP + 0x8],XMM0 MOV RBX,RSI CALL 0x00116260 TEST RAX,RAX JZ 0x0011d977 MOVSS XMM0,dword ptr [RSP + 0x8] MOVSS dword ptr [RAX + 0x54],XMM0 MOVSS XMM0,dword ptr [RSP + 0xc] MOVSS dword ptr [RAX + 0x58],XMM0 MOV dword ptr [RAX + 0x50],0x2e MOV qword ptr [RAX + 0x98],RBX ADD RSP,0x10 POP RBX RET LAB_0011d977: LEA RDI,[0x14e769] LEA RDX,[0x14c665] LEA RCX,[0x14e896] MOV ESI,0x70 XOR EAX,EAX CALL 0x00117cd0
void ggml_clamp(int4 param_1,int4 param_2,int8 param_3,int8 param_4) { long lVar1; lVar1 = ggml_view_tensor(); if (lVar1 != 0) { *(int4 *)(lVar1 + 0x54) = param_1; *(int4 *)(lVar1 + 0x58) = param_2; *(int4 *)(lVar1 + 0x50) = 0x2e; *(int8 *)(lVar1 + 0x98) = param_4; return; } /* WARNING: Subroutine does not return */ ggml_abort("/workspace/llm4binary/github/2025_star3/Yangxiaoz[P]GGML-Tutorial/ggml/src/ggml-impl.h" ,0x70,"GGML_ASSERT(%s) failed","tensor != NULL"); }
40,860
ftxui::ButtonOption::Animated(ftxui::Color, ftxui::Color)
Andrewchistyakov[P]flashcards_lyc/build_O2/_deps/ftxui-src/src/ftxui/component/component_options.cpp
ButtonOption ButtonOption::Animated(Color background, Color foreground) { // NOLINTBEGIN return ButtonOption::Animated( /*bakground=*/background, /*foreground=*/foreground, /*background_active=*/foreground, /*foreground_active=*/background); // NOLINTEND }
O2
cpp
ftxui::ButtonOption::Animated(ftxui::Color, ftxui::Color): pushq %rbx movq %rdi, %rbx movl %edx, %ecx movl %esi, %r8d callq 0x2bc5c movq %rbx, %rax popq %rbx retq nop
_ZN5ftxui12ButtonOption8AnimatedENS_5ColorES1_: push rbx mov rbx, rdi mov ecx, edx mov r8d, esi call _ZN5ftxui12ButtonOption8AnimatedENS_5ColorES1_S1_S1_; ftxui::ButtonOption::Animated(ftxui::Color,ftxui::Color,ftxui::Color,ftxui::Color) mov rax, rbx pop rbx retn
long long ftxui::ButtonOption::Animated(long long a1, int a2, int a3) { ftxui::ButtonOption::Animated(a1, a2, a3, a3, a2); return a1; }
Animated: PUSH RBX MOV RBX,RDI MOV ECX,EDX MOV R8D,ESI CALL 0x0012bc5c MOV RAX,RBX POP RBX RET
/* ftxui::ButtonOption::Animated(ftxui::Color, ftxui::Color) */ int8 ftxui::ButtonOption::Animated(int8 param_1) { Animated(); return param_1; }
40,861
my_strnxfrm_uca_pad
eloqsql/strings/ctype-uca.c
static uchar * my_strnxfrm_uca_pad(uchar *dst, uchar *de, int weight) { for ( ; dst < de; ) { *dst++= weight >> 8; if (dst < de) *dst++= weight & 0xFF; } return dst; }
O0
c
my_strnxfrm_uca_pad: pushq %rbp movq %rsp, %rbp movq %rdi, -0x8(%rbp) movq %rsi, -0x10(%rbp) movl %edx, -0x14(%rbp) movq -0x8(%rbp), %rax cmpq -0x10(%rbp), %rax jae 0x51dd9 movl -0x14(%rbp), %eax sarl $0x8, %eax movb %al, %cl movq -0x8(%rbp), %rax movq %rax, %rdx addq $0x1, %rdx movq %rdx, -0x8(%rbp) movb %cl, (%rax) movq -0x8(%rbp), %rax cmpq -0x10(%rbp), %rax jae 0x51dd7 movl -0x14(%rbp), %eax andl $0xff, %eax movb %al, %cl movq -0x8(%rbp), %rax movq %rax, %rdx addq $0x1, %rdx movq %rdx, -0x8(%rbp) movb %cl, (%rax) jmp 0x51d8f movq -0x8(%rbp), %rax popq %rbp retq nop
my_strnxfrm_uca_pad: push rbp mov rbp, rsp mov [rbp+var_8], rdi mov [rbp+var_10], rsi mov [rbp+var_14], edx loc_51D8F: mov rax, [rbp+var_8] cmp rax, [rbp+var_10] jnb short loc_51DD9 mov eax, [rbp+var_14] sar eax, 8 mov cl, al mov rax, [rbp+var_8] mov rdx, rax add rdx, 1 mov [rbp+var_8], rdx mov [rax], cl mov rax, [rbp+var_8] cmp rax, [rbp+var_10] jnb short loc_51DD7 mov eax, [rbp+var_14] and eax, 0FFh mov cl, al mov rax, [rbp+var_8] mov rdx, rax add rdx, 1 mov [rbp+var_8], rdx mov [rax], cl loc_51DD7: jmp short loc_51D8F loc_51DD9: mov rax, [rbp+var_8] pop rbp retn
_BYTE * my_strnxfrm_uca_pad(_BYTE *a1, unsigned long long a2, __int16 a3) { _BYTE *v3; // rax _BYTE *v4; // rax while ( (unsigned long long)a1 < a2 ) { v3 = a1++; *v3 = HIBYTE(a3); if ( (unsigned long long)a1 < a2 ) { v4 = a1++; *v4 = a3; } } return a1; }
my_strnxfrm_uca_pad: PUSH RBP MOV RBP,RSP MOV qword ptr [RBP + -0x8],RDI MOV qword ptr [RBP + -0x10],RSI MOV dword ptr [RBP + -0x14],EDX LAB_00151d8f: MOV RAX,qword ptr [RBP + -0x8] CMP RAX,qword ptr [RBP + -0x10] JNC 0x00151dd9 MOV EAX,dword ptr [RBP + -0x14] SAR EAX,0x8 MOV CL,AL MOV RAX,qword ptr [RBP + -0x8] MOV RDX,RAX ADD RDX,0x1 MOV qword ptr [RBP + -0x8],RDX MOV byte ptr [RAX],CL MOV RAX,qword ptr [RBP + -0x8] CMP RAX,qword ptr [RBP + -0x10] JNC 0x00151dd7 MOV EAX,dword ptr [RBP + -0x14] AND EAX,0xff MOV CL,AL MOV RAX,qword ptr [RBP + -0x8] MOV RDX,RAX ADD RDX,0x1 MOV qword ptr [RBP + -0x8],RDX MOV byte ptr [RAX],CL LAB_00151dd7: JMP 0x00151d8f LAB_00151dd9: MOV RAX,qword ptr [RBP + -0x8] POP RBP RET
int1 * my_strnxfrm_uca_pad(int1 *param_1,int1 *param_2,int4 param_3) { int1 *puVar1; int1 *local_10; puVar1 = param_1; while (local_10 = puVar1, local_10 < param_2) { puVar1 = local_10 + 1; *local_10 = (char)((uint)param_3 >> 8); if (puVar1 < param_2) { *puVar1 = (char)param_3; puVar1 = local_10 + 2; } } return local_10; }
40,862
ma_bitmap_free_full_pages
eloqsql/storage/maria/ma_bitmap.c
my_bool _ma_bitmap_free_full_pages(MARIA_HA *info, const uchar *extents, uint count) { MARIA_FILE_BITMAP *bitmap= &info->s->bitmap; my_bool res; DBUG_ENTER("_ma_bitmap_free_full_pages"); for (; count--; extents+= ROW_EXTENT_SIZE) { pgcache_page_no_t page= uint5korr(extents); uint page_count= (uint2korr(extents + ROW_EXTENT_PAGE_SIZE) & ~START_EXTENT_BIT); if (!(page_count & TAIL_BIT)) { if (page == 0 && page_count == 0) continue; /* Not used extent */ if (pagecache_delete_pages(info->s->pagecache, &info->dfile, page, page_count, PAGECACHE_LOCK_WRITE, 1)) DBUG_RETURN(1); mysql_mutex_lock(&bitmap->bitmap_lock); res= _ma_bitmap_reset_full_page_bits(info, bitmap, page, page_count); mysql_mutex_unlock(&bitmap->bitmap_lock); if (res) DBUG_RETURN(1); } } DBUG_RETURN(0); }
O0
c
ma_bitmap_free_full_pages: pushq %rbp movq %rsp, %rbp subq $0x40, %rsp movq %rdi, -0x10(%rbp) movq %rsi, -0x18(%rbp) movl %edx, -0x1c(%rbp) movq -0x10(%rbp), %rax movq (%rax), %rax addq $0xa10, %rax # imm = 0xA10 movq %rax, -0x28(%rbp) movl -0x1c(%rbp), %eax movl %eax, %ecx addl $-0x1, %ecx movl %ecx, -0x1c(%rbp) cmpl $0x0, %eax je 0x62d6b movq -0x18(%rbp), %rdi callq 0x62d80 movq %rax, -0x38(%rbp) movq -0x18(%rbp), %rax movzwl 0x5(%rax), %eax andl $0xffffbfff, %eax # imm = 0xFFFFBFFF movl %eax, -0x3c(%rbp) movl -0x3c(%rbp), %eax andl $0x8000, %eax # imm = 0x8000 cmpl $0x0, %eax jne 0x62d58 cmpq $0x0, -0x38(%rbp) jne 0x62cc8 cmpl $0x0, -0x3c(%rbp) jne 0x62cc8 jmp 0x62d5a movq -0x10(%rbp), %rax movq (%rax), %rax movq 0x600(%rax), %rdi movq -0x10(%rbp), %rsi addq $0x470, %rsi # imm = 0x470 movq -0x38(%rbp), %rdx movl -0x3c(%rbp), %ecx movl $0x4, %r8d movl $0x1, %r9d callq 0x3caf0 cmpb $0x0, %al je 0x62d05 jmp 0x62cff movb $0x1, -0x1(%rbp) jmp 0x62d71 movq -0x28(%rbp), %rdi addq $0x88, %rdi leaq 0xf54c4(%rip), %rsi # 0x1581db movl $0xb31, %edx # imm = 0xB31 callq 0x609c0 movq -0x10(%rbp), %rdi movq -0x28(%rbp), %rsi movq -0x38(%rbp), %rdx movl -0x3c(%rbp), %ecx callq 0x621c0 movb %al, -0x29(%rbp) movq -0x28(%rbp), %rdi addq $0x88, %rdi callq 0x60c70 cmpb $0x0, -0x29(%rbp) je 0x62d56 jmp 0x62d50 movb $0x1, -0x1(%rbp) jmp 0x62d71 jmp 0x62d58 jmp 0x62d5a movq -0x18(%rbp), %rax addq $0x7, %rax movq %rax, -0x18(%rbp) jmp 0x62c74 jmp 0x62d6d movb $0x0, -0x1(%rbp) movb -0x1(%rbp), %al addq $0x40, %rsp popq %rbp retq nopw (%rax,%rax)
_ma_bitmap_free_full_pages: push rbp mov rbp, rsp sub rsp, 40h mov [rbp+var_10], rdi mov [rbp+var_18], rsi mov [rbp+var_1C], edx mov rax, [rbp+var_10] mov rax, [rax] add rax, 0A10h mov [rbp+var_28], rax loc_62C74: mov eax, [rbp+var_1C] mov ecx, eax add ecx, 0FFFFFFFFh mov [rbp+var_1C], ecx cmp eax, 0 jz loc_62D6B mov rdi, [rbp+var_18] call uint5korr_1 mov [rbp+var_38], rax mov rax, [rbp+var_18] movzx eax, word ptr [rax+5] and eax, 0FFFFBFFFh mov [rbp+var_3C], eax mov eax, [rbp+var_3C] and eax, 8000h cmp eax, 0 jnz loc_62D58 cmp [rbp+var_38], 0 jnz short loc_62CC8 cmp [rbp+var_3C], 0 jnz short loc_62CC8 jmp loc_62D5A loc_62CC8: mov rax, [rbp+var_10] mov rax, [rax] mov rdi, [rax+600h] mov rsi, [rbp+var_10] add rsi, 470h mov rdx, [rbp+var_38] mov ecx, [rbp+var_3C] mov r8d, 4 mov r9d, 1 call pagecache_delete_pages cmp al, 0 jz short loc_62D05 jmp short $+2 loc_62CFF: mov [rbp+var_1], 1 jmp short loc_62D71 loc_62D05: mov rdi, [rbp+var_28] add rdi, 88h lea rsi, aWorkspaceLlm4b_10; "/workspace/llm4binary/github2025/eloqsq"... mov edx, 0B31h call inline_mysql_mutex_lock_8 mov rdi, [rbp+var_10] mov rsi, [rbp+var_28] mov rdx, [rbp+var_38] mov ecx, [rbp+var_3C] call _ma_bitmap_reset_full_page_bits mov [rbp+var_29], al mov rdi, [rbp+var_28] add rdi, 88h call inline_mysql_mutex_unlock_8 cmp [rbp+var_29], 0 jz short loc_62D56 jmp short $+2 loc_62D50: mov [rbp+var_1], 1 jmp short loc_62D71 loc_62D56: jmp short $+2 loc_62D58: jmp short $+2 loc_62D5A: mov rax, [rbp+var_18] add rax, 7 mov [rbp+var_18], rax jmp loc_62C74 loc_62D6B: jmp short $+2 loc_62D6D: mov [rbp+var_1], 0 loc_62D71: mov al, [rbp+var_1] add rsp, 40h pop rbp retn
char ma_bitmap_free_full_pages(long long *a1, long long a2, int a3) { int v5; // [rsp+4h] [rbp-3Ch] long long v6; // [rsp+8h] [rbp-38h] char v7; // [rsp+17h] [rbp-29h] long long v8; // [rsp+18h] [rbp-28h] v8 = *a1 + 2576; while ( a3-- ) { v6 = uint5korr_1(a2); v5 = *(_WORD *)(a2 + 5) & 0xBFFF; if ( (*(_WORD *)(a2 + 5) & 0x8000) == 0 && (v6 || (*(_WORD *)(a2 + 5) & 0xBFFF) != 0) ) { if ( pagecache_delete_pages(*(_QWORD **)(*a1 + 1536), (long long)(a1 + 142), v6, v5, 4u, 1) ) return 1; inline_mysql_mutex_lock_8( v8 + 136, (long long)"/workspace/llm4binary/github2025/eloqsql/storage/maria/ma_bitmap.c", 0xB31u); v7 = ma_bitmap_reset_full_page_bits(a1, v8, v6, v5); inline_mysql_mutex_unlock_8(v8 + 136); if ( v7 ) return 1; } a2 += 7LL; } return 0; }
_ma_bitmap_free_full_pages: PUSH RBP MOV RBP,RSP SUB RSP,0x40 MOV qword ptr [RBP + -0x10],RDI MOV qword ptr [RBP + -0x18],RSI MOV dword ptr [RBP + -0x1c],EDX MOV RAX,qword ptr [RBP + -0x10] MOV RAX,qword ptr [RAX] ADD RAX,0xa10 MOV qword ptr [RBP + -0x28],RAX LAB_00162c74: MOV EAX,dword ptr [RBP + -0x1c] MOV ECX,EAX ADD ECX,-0x1 MOV dword ptr [RBP + -0x1c],ECX CMP EAX,0x0 JZ 0x00162d6b MOV RDI,qword ptr [RBP + -0x18] CALL 0x00162d80 MOV qword ptr [RBP + -0x38],RAX MOV RAX,qword ptr [RBP + -0x18] MOVZX EAX,word ptr [RAX + 0x5] AND EAX,0xffffbfff MOV dword ptr [RBP + -0x3c],EAX MOV EAX,dword ptr [RBP + -0x3c] AND EAX,0x8000 CMP EAX,0x0 JNZ 0x00162d58 CMP qword ptr [RBP + -0x38],0x0 JNZ 0x00162cc8 CMP dword ptr [RBP + -0x3c],0x0 JNZ 0x00162cc8 JMP 0x00162d5a LAB_00162cc8: MOV RAX,qword ptr [RBP + -0x10] MOV RAX,qword ptr [RAX] MOV RDI,qword ptr [RAX + 0x600] MOV RSI,qword ptr [RBP + -0x10] ADD RSI,0x470 MOV RDX,qword ptr [RBP + -0x38] MOV ECX,dword ptr [RBP + -0x3c] MOV R8D,0x4 MOV R9D,0x1 CALL 0x0013caf0 CMP AL,0x0 JZ 0x00162d05 JMP 0x00162cff LAB_00162cff: MOV byte ptr [RBP + -0x1],0x1 JMP 0x00162d71 LAB_00162d05: MOV RDI,qword ptr [RBP + -0x28] ADD RDI,0x88 LEA RSI,[0x2581db] MOV EDX,0xb31 CALL 0x001609c0 MOV RDI,qword ptr [RBP + -0x10] MOV RSI,qword ptr [RBP + -0x28] MOV RDX,qword ptr [RBP + -0x38] MOV ECX,dword ptr [RBP + -0x3c] CALL 0x001621c0 MOV byte ptr [RBP + -0x29],AL MOV RDI,qword ptr [RBP + -0x28] ADD RDI,0x88 CALL 0x00160c70 CMP byte ptr [RBP + -0x29],0x0 JZ 0x00162d56 JMP 0x00162d50 LAB_00162d50: MOV byte ptr [RBP + -0x1],0x1 JMP 0x00162d71 LAB_00162d56: JMP 0x00162d58 LAB_00162d58: JMP 0x00162d5a LAB_00162d5a: MOV RAX,qword ptr [RBP + -0x18] ADD RAX,0x7 MOV qword ptr [RBP + -0x18],RAX JMP 0x00162c74 LAB_00162d6b: JMP 0x00162d6d LAB_00162d6d: MOV byte ptr [RBP + -0x1],0x0 LAB_00162d71: MOV AL,byte ptr [RBP + -0x1] ADD RSP,0x40 POP RBP RET
int1 _ma_bitmap_free_full_pages(long *param_1,long param_2,int param_3) { ushort uVar1; long lVar2; char cVar3; long lVar4; int local_24; long local_20; lVar2 = *param_1; local_24 = param_3; local_20 = param_2; do { if (local_24 == 0) { return 0; } lVar4 = uint5korr(local_20); uVar1 = *(ushort *)(local_20 + 5); if (((uVar1 & 0x8000) == 0) && ((lVar4 != 0 || ((uVar1 & 0xbfff) != 0)))) { cVar3 = pagecache_delete_pages (*(int8 *)(*param_1 + 0x600),param_1 + 0x8e,lVar4,uVar1 & 0xbfff,4,1); if (cVar3 != '\0') { return 1; } inline_mysql_mutex_lock (lVar2 + 0xa98,"/workspace/llm4binary/github2025/eloqsql/storage/maria/ma_bitmap.c", 0xb31); cVar3 = _ma_bitmap_reset_full_page_bits(param_1,lVar2 + 0xa10,lVar4,uVar1 & 0xbfff); inline_mysql_mutex_unlock(lVar2 + 0xa98); if (cVar3 != '\0') { return 1; } } local_20 = local_20 + 7; local_24 = local_24 + -1; } while( true ); }
40,863
mi_ft_store
eloqsql/storage/myisam/ft_update.c
static int _mi_ft_store(MI_INFO *info, uint keynr, uchar *keybuf, FT_WORD *wlist, my_off_t filepos) { uint key_length; DBUG_ENTER("_mi_ft_store"); for (; wlist->pos; wlist++) { key_length=_ft_make_key(info,keynr,keybuf,wlist,filepos); if (_mi_ck_write(info,keynr,(uchar*) keybuf,key_length)) DBUG_RETURN(1); } DBUG_RETURN(0); }
O3
c
mi_ft_store: xorl %eax, %eax cmpq $0x0, (%rcx) je 0x7474c pushq %rbp movq %rsp, %rbp pushq %r15 pushq %r14 pushq %r13 pushq %r12 pushq %rbx pushq %rax movq %r8, %r14 movq %rcx, %r12 movq %rdx, %r15 movl %esi, %r13d movq %rdi, %rbx movq %rbx, %rdi movl %r13d, %esi movq %r15, %rdx movq %r12, %rcx movq %r14, %r8 callq 0x745b9 movq %rbx, %rdi movl %r13d, %esi movq %r15, %rdx movl %eax, %ecx callq 0x8821f testl %eax, %eax jne 0x74739 cmpq $0x0, 0x18(%r12) leaq 0x18(%r12), %r12 jne 0x74700 xorl %eax, %eax jmp 0x7473e movl $0x1, %eax addq $0x8, %rsp popq %rbx popq %r12 popq %r13 popq %r14 popq %r15 popq %rbp retq
_mi_ft_store: xor eax, eax cmp qword ptr [rcx], 0 jz short locret_7474C push rbp mov rbp, rsp push r15 push r14 push r13 push r12 push rbx push rax mov r14, r8 mov r12, rcx mov r15, rdx mov r13d, esi mov rbx, rdi loc_74700: mov rdi, rbx mov esi, r13d mov rdx, r15 mov rcx, r12 mov r8, r14 call _ft_make_key mov rdi, rbx mov esi, r13d mov rdx, r15 mov ecx, eax call _mi_ck_write test eax, eax jnz short loc_74739 cmp qword ptr [r12+18h], 0 lea r12, [r12+18h] jnz short loc_74700 xor eax, eax jmp short loc_7473E loc_74739: mov eax, 1 loc_7473E: add rsp, 8 pop rbx pop r12 pop r13 pop r14 pop r15 pop rbp locret_7474C: retn
long long mi_ft_store(long long a1, unsigned int a2, long long a3, _QWORD *a4, long long a5, __m128i a6) { long long result; // rax long long i; // r12 unsigned int key; // eax result = 0LL; if ( *a4 ) { for ( i = (long long)a4; ; i += 24LL ) { key = ft_make_key(a1, a2, a3, i, a5, a6); if ( (unsigned int)mi_ck_write(a1, a2, a3, key) ) break; if ( *(_QWORD *)(i + 24) == 0LL ) return 0LL; } return 1LL; } return result; }
_mi_ft_store: XOR EAX,EAX CMP qword ptr [RCX],0x0 JZ 0x0017474c PUSH RBP MOV RBP,RSP PUSH R15 PUSH R14 PUSH R13 PUSH R12 PUSH RBX PUSH RAX MOV R14,R8 MOV R12,RCX MOV R15,RDX MOV R13D,ESI MOV RBX,RDI LAB_00174700: MOV RDI,RBX MOV ESI,R13D MOV RDX,R15 MOV RCX,R12 MOV R8,R14 CALL 0x001745b9 MOV RDI,RBX MOV ESI,R13D MOV RDX,R15 MOV ECX,EAX CALL 0x0018821f TEST EAX,EAX JNZ 0x00174739 CMP qword ptr [R12 + 0x18],0x0 LEA R12,[R12 + 0x18] JNZ 0x00174700 XOR EAX,EAX JMP 0x0017473e LAB_00174739: MOV EAX,0x1 LAB_0017473e: ADD RSP,0x8 POP RBX POP R12 POP R13 POP R14 POP R15 POP RBP LAB_0017474c: RET
int8 _mi_ft_store(int8 param_1,int4 param_2,int8 param_3,long *param_4, int8 param_5,int8 param_6) { long *plVar1; int4 uVar2; int iVar3; int8 uVar4; if (*param_4 != 0) { uVar4 = 0; do { uVar2 = _ft_make_key(param_1,param_2,param_3,param_4,param_5,param_6,uVar4); iVar3 = _mi_ck_write(param_1,param_2,param_3,uVar2); if (iVar3 != 0) { return 1; } plVar1 = param_4 + 3; param_4 = param_4 + 3; } while (*plVar1 != 0); } return 0; }
40,864
maria_page_crc_check
eloqsql/storage/maria/ma_pagecrc.c
my_bool maria_page_crc_check(uchar *page, pgcache_page_no_t page_no, MARIA_SHARE *share, uint32 no_crc_val, int data_length) { uint32 crc= uint4korr(page + share->block_size - CRC_SIZE), new_crc; my_bool res; DBUG_ENTER("maria_page_crc_check"); DBUG_ASSERT((uint)data_length <= share->block_size - CRC_SIZE); /* we need this assert to get following comparison working */ compile_time_assert(MARIA_NO_CRC_BITMAP_PAGE == MARIA_NO_CRC_NORMAL_PAGE - 1 && MARIA_NO_CRC_NORMAL_PAGE == 0xffffffff); /* If crc is no_crc_val then the page has no crc, so there is nothing to check. */ if (crc >= MARIA_NO_CRC_BITMAP_PAGE) { DBUG_PRINT("info", ("No crc: %lu crc: %lu page: %lu ", (ulong) no_crc_val, (ulong) crc, (ulong) page_no)); if (crc != no_crc_val) { my_errno= HA_ERR_WRONG_CRC; DBUG_PRINT("error", ("Wrong no CRC value")); DBUG_RETURN(1); } DBUG_RETURN(0); } new_crc= maria_page_crc((uint32) page_no, page, data_length); DBUG_ASSERT(new_crc != no_crc_val); res= MY_TEST(new_crc != crc); if (res) { /* Bitmap pages may be totally zero filled in some cases. This happens when we get a crash after the pagecache has written out a page that is on a newly created bitmap page and we get a crash before the bitmap page is written out. We handle this case with the following logic: When reading, approve of bitmap pages where all bytes are zero (This is after all a bitmap pages where no data is reserved and the CRC will be corrected at next write) */ if (no_crc_val == MARIA_NO_CRC_BITMAP_PAGE && crc == 0 && _ma_check_if_zero(page, data_length)) { DBUG_PRINT("warning", ("Found bitmap page that was not initialized")); DBUG_RETURN(0); } DBUG_PRINT("error", ("Page: %lu crc: %lu calculated crc: %lu", (ulong) page_no, (ulong) crc, (ulong) new_crc)); my_errno= HA_ERR_WRONG_CRC; } DBUG_RETURN(res); }
O3
c
maria_page_crc_check: pushq %rbp movq %rsp, %rbp pushq %r15 pushq %r14 pushq %r12 pushq %rbx movl %ecx, %r15d movl 0x7bc(%rdx), %eax movl -0x4(%rdi,%rax), %r12d cmpl $-0x2, %r12d jb 0x3e8a3 cmpl %r15d, %r12d je 0x3e8e0 callq 0xa2412 movl $0xb0, (%rax) movb $0x1, %al jmp 0x3e8e2 movl %r8d, %ebx movq %rdi, %r14 movl %r8d, %edx movl %esi, %edi movq %r14, %rsi callq 0xa8864 cmpl $-0x3, %eax movl $0xfffffffd, %ecx # imm = 0xFFFFFFFD cmovbl %eax, %ecx cmpl %r12d, %ecx je 0x3e8e0 cmpl $-0x2, %r15d jne 0x3e894 testl %r12d, %r12d jne 0x3e894 movslq %ebx, %rsi movq %r14, %rdi callq 0x433fc testb %al, %al je 0x3e894 xorl %eax, %eax popq %rbx popq %r12 popq %r14 popq %r15 popq %rbp retq
maria_page_crc_check: push rbp mov rbp, rsp push r15 push r14 push r12 push rbx mov r15d, ecx mov eax, [rdx+7BCh] mov r12d, [rdi+rax-4] cmp r12d, 0FFFFFFFEh jb short loc_3E8A3 cmp r12d, r15d jz short loc_3E8E0 loc_3E894: call _my_thread_var mov dword ptr [rax], 0B0h mov al, 1 jmp short loc_3E8E2 loc_3E8A3: mov ebx, r8d mov r14, rdi mov edx, r8d mov edi, esi mov rsi, r14 call my_checksum cmp eax, 0FFFFFFFDh mov ecx, 0FFFFFFFDh cmovb ecx, eax cmp ecx, r12d jz short loc_3E8E0 cmp r15d, 0FFFFFFFEh jnz short loc_3E894 test r12d, r12d jnz short loc_3E894 movsxd rsi, ebx mov rdi, r14 call _ma_check_if_zero test al, al jz short loc_3E894 loc_3E8E0: xor eax, eax loc_3E8E2: pop rbx pop r12 pop r14 pop r15 pop rbp retn
char maria_page_crc_check(long long a1, unsigned int a2, long long a3, int a4, unsigned int a5) { unsigned int v6; // r12d long long v9; // r14 unsigned int v10; // eax int v11; // ecx v6 = *(_DWORD *)(a1 + *(unsigned int *)(a3 + 1980) - 4); if ( v6 < 0xFFFFFFFE ) { v9 = a1; a1 = a2; v10 = my_checksum(a2, v9, a5); v11 = -3; if ( v10 < 0xFFFFFFFD ) v11 = v10; if ( v11 != v6 ) { if ( a4 != -2 ) goto LABEL_3; if ( v6 ) goto LABEL_3; a1 = v9; if ( !(unsigned __int8)ma_check_if_zero(v9, (int)a5) ) goto LABEL_3; } } else if ( v6 != a4 ) { LABEL_3: *(_DWORD *)my_thread_var(a1) = 176; return 1; } return 0; }
maria_page_crc_check: PUSH RBP MOV RBP,RSP PUSH R15 PUSH R14 PUSH R12 PUSH RBX MOV R15D,ECX MOV EAX,dword ptr [RDX + 0x7bc] MOV R12D,dword ptr [RDI + RAX*0x1 + -0x4] CMP R12D,-0x2 JC 0x0013e8a3 CMP R12D,R15D JZ 0x0013e8e0 LAB_0013e894: CALL 0x001a2412 MOV dword ptr [RAX],0xb0 MOV AL,0x1 JMP 0x0013e8e2 LAB_0013e8a3: MOV EBX,R8D MOV R14,RDI MOV EDX,R8D MOV EDI,ESI MOV RSI,R14 CALL 0x001a8864 CMP EAX,-0x3 MOV ECX,0xfffffffd CMOVC ECX,EAX CMP ECX,R12D JZ 0x0013e8e0 CMP R15D,-0x2 JNZ 0x0013e894 TEST R12D,R12D JNZ 0x0013e894 MOVSXD RSI,EBX MOV RDI,R14 CALL 0x001433fc TEST AL,AL JZ 0x0013e894 LAB_0013e8e0: XOR EAX,EAX LAB_0013e8e2: POP RBX POP R12 POP R14 POP R15 POP RBP RET
int8 maria_page_crc_check(long param_1,int4 param_2,long param_3,uint param_4,int param_5) { uint uVar1; char cVar2; uint uVar3; int4 *puVar4; uint uVar5; uVar1 = *(uint *)(param_1 + -4 + (ulong)*(uint *)(param_3 + 0x7bc)); if (uVar1 < 0xfffffffe) { uVar3 = my_checksum(param_2,param_1,param_5); uVar5 = 0xfffffffd; if (uVar3 < 0xfffffffd) { uVar5 = uVar3; } if ((uVar5 != uVar1) && (((param_4 != 0xfffffffe || (uVar1 != 0)) || (cVar2 = _ma_check_if_zero(param_1,(long)param_5), cVar2 == '\0')))) goto LAB_0013e894; } else if (uVar1 != param_4) { LAB_0013e894: puVar4 = (int4 *)_my_thread_var(); *puVar4 = 0xb0; return 1; } return 0; }
40,865
bool nlohmann::json_abi_v3_11_3::detail::binary_reader<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>, nlohmann::json_abi_v3_11_3::detail::iterator_input_adapter<__gnu_cxx::__normal_iterator<char const*, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>>>, parse_json(__gnu_cxx::__normal_iterator<char const*, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>>&, __gnu_cxx::__normal_iterator<char const*, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>> const&, nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>&)::json_error_locator>::get_binary<int>(nlohmann::json_abi_v3_11_3::detail::input_format_t, int, nlohmann::json_abi_v3_11_3::byte_container_with_subtype<std::vector<unsigned char, std::allocator<unsigned char>>>&)
monkey531[P]llama/common/./json.hpp
bool get_binary(const input_format_t format, const NumberType len, binary_t& result) { bool success = true; for (NumberType i = 0; i < len; i++) { get(); if (JSON_HEDLEY_UNLIKELY(!unexpect_eof(format, "binary"))) { success = false; break; } result.push_back(static_cast<std::uint8_t>(current)); } return success; }
O0
cpp
bool nlohmann::json_abi_v3_11_3::detail::binary_reader<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>, nlohmann::json_abi_v3_11_3::detail::iterator_input_adapter<__gnu_cxx::__normal_iterator<char const*, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>>>, parse_json(__gnu_cxx::__normal_iterator<char const*, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>>&, __gnu_cxx::__normal_iterator<char const*, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>> const&, nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>&)::json_error_locator>::get_binary<int>(nlohmann::json_abi_v3_11_3::detail::input_format_t, int, nlohmann::json_abi_v3_11_3::byte_container_with_subtype<std::vector<unsigned char, std::allocator<unsigned char>>>&): subq $0x28, %rsp movw %dx, %ax movq %rdi, 0x20(%rsp) movl %esi, 0x1c(%rsp) movw %ax, 0x1a(%rsp) movq %rcx, 0x10(%rsp) movq 0x20(%rsp), %rax movq %rax, (%rsp) movb $0x1, 0xf(%rsp) movw $0x0, 0xc(%rsp) movzwl 0xc(%rsp), %eax movzwl 0x1a(%rsp), %ecx cmpl %ecx, %eax jge 0x18eb87 movq (%rsp), %rdi callq 0x18b910 movq (%rsp), %rdi movl 0x1c(%rsp), %esi leaq 0x3e105(%rip), %rdx # 0x1ccc4a callq 0x18be70 xorb $-0x1, %al xorb $-0x1, %al xorb $-0x1, %al testb $0x1, %al jne 0x18eb56 jmp 0x18eb5d movb $0x0, 0xf(%rsp) jmp 0x18eb87 movq (%rsp), %rax movq 0x10(%rsp), %rdi movl 0x10(%rax), %eax movb %al, 0xb(%rsp) leaq 0xb(%rsp), %rsi callq 0x19b6c0 movw 0xc(%rsp), %ax addw $0x1, %ax movw %ax, 0xc(%rsp) jmp 0x18eb1f movb 0xf(%rsp), %al andb $0x1, %al addq $0x28, %rsp retq nopw %cs:(%rax,%rax)
_ZN8nlohmann16json_abi_v3_11_36detail13binary_readerINS0_10basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES5_IhSaIhEEvEENS1_22iterator_input_adapterIN9__gnu_cxx17__normal_iteratorIPKcSB_EEEEZL10parse_jsonRSL_RKSL_RSF_E18json_error_locatorE10get_binaryItEEbNS1_14input_format_tET_RNS0_27byte_container_with_subtypeISE_EE: sub rsp, 28h mov ax, dx mov [rsp+28h+var_8], rdi mov [rsp+28h+var_C], esi mov [rsp+28h+var_E], ax mov [rsp+28h+var_18], rcx mov rax, [rsp+28h+var_8] mov [rsp+28h+var_28], rax mov [rsp+28h+var_19], 1 mov [rsp+28h+var_1C], 0 loc_18EB1F: movzx eax, [rsp+28h+var_1C] movzx ecx, [rsp+28h+var_E] cmp eax, ecx jge short loc_18EB87 mov rdi, [rsp+28h+var_28] call _ZN8nlohmann16json_abi_v3_11_36detail13binary_readerINS0_10basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES5_IhSaIhEEvEENS1_22iterator_input_adapterIN9__gnu_cxx17__normal_iteratorIPKcSB_EEEEZL10parse_jsonRSL_RKSL_RSF_E18json_error_locatorE3getEv; nlohmann::json_abi_v3_11_3::detail::binary_reader<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>,nlohmann::json_abi_v3_11_3::detail::iterator_input_adapter<__gnu_cxx::__normal_iterator<char const*,std::string>>,parse_json(__gnu_cxx::__normal_iterator<char const*,std::string>&,__gnu_cxx::__normal_iterator<char const*,std::string> const&,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>&)::json_error_locator>::get(void) mov rdi, [rsp+28h+var_28] mov esi, [rsp+28h+var_C] lea rdx, aBinary; "binary" call _ZNK8nlohmann16json_abi_v3_11_36detail13binary_readerINS0_10basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES5_IhSaIhEEvEENS1_22iterator_input_adapterIN9__gnu_cxx17__normal_iteratorIPKcSB_EEEEZL10parse_jsonRSL_RKSL_RSF_E18json_error_locatorE12unexpect_eofENS1_14input_format_tESK_; nlohmann::json_abi_v3_11_3::detail::binary_reader<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>,nlohmann::json_abi_v3_11_3::detail::iterator_input_adapter<__gnu_cxx::__normal_iterator<char const*,std::string>>,parse_json(__gnu_cxx::__normal_iterator<char const*,std::string>&,__gnu_cxx::__normal_iterator<char const*,std::string> const&,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>&)::json_error_locator>::unexpect_eof(nlohmann::json_abi_v3_11_3::detail::input_format_t,char const*) xor al, 0FFh xor al, 0FFh xor al, 0FFh test al, 1 jnz short loc_18EB56 jmp short loc_18EB5D loc_18EB56: mov [rsp+28h+var_19], 0 jmp short loc_18EB87 loc_18EB5D: mov rax, [rsp+28h+var_28] mov rdi, [rsp+28h+var_18] mov eax, [rax+10h] mov [rsp+28h+var_1D], al lea rsi, [rsp+28h+var_1D] call _ZNSt6vectorIhSaIhEE9push_backEOh; std::vector<uchar>::push_back(uchar &&) mov ax, [rsp+28h+var_1C] add ax, 1 mov [rsp+28h+var_1C], ax jmp short loc_18EB1F loc_18EB87: mov al, [rsp+28h+var_19] and al, 1 add rsp, 28h retn
char nlohmann::json_abi_v3_11_3::detail::binary_reader<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>,nlohmann::json_abi_v3_11_3::detail::iterator_input_adapter<__gnu_cxx::__normal_iterator<char const*,std::string>>,parse_json(__gnu_cxx::__normal_iterator<char const*,std::string>&,__gnu_cxx::__normal_iterator<char const*,std::string> const&,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>&)::json_error_locator>::get_binary<unsigned short>( long long a1, unsigned int a2, unsigned __int16 a3, long long a4) { char v5; // [rsp+Bh] [rbp-1Dh] BYREF unsigned __int16 i; // [rsp+Ch] [rbp-1Ch] char v7; // [rsp+Fh] [rbp-19h] long long v8; // [rsp+10h] [rbp-18h] unsigned __int16 v9; // [rsp+1Ah] [rbp-Eh] unsigned int v10; // [rsp+1Ch] [rbp-Ch] long long v11; // [rsp+20h] [rbp-8h] v11 = a1; v10 = a2; v9 = a3; v8 = a4; v7 = 1; for ( i = 0; i < (int)v9; ++i ) { nlohmann::json_abi_v3_11_3::detail::binary_reader<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>,nlohmann::json_abi_v3_11_3::detail::iterator_input_adapter<__gnu_cxx::__normal_iterator<char const*,std::string>>,parse_json(__gnu_cxx::__normal_iterator<char const*,std::string>&,__gnu_cxx::__normal_iterator<char const*,std::string> const&,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>&)::json_error_locator>::get(a1); if ( (nlohmann::json_abi_v3_11_3::detail::binary_reader<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>,nlohmann::json_abi_v3_11_3::detail::iterator_input_adapter<__gnu_cxx::__normal_iterator<char const*,std::string>>,parse_json(__gnu_cxx::__normal_iterator<char const*,std::string>&,__gnu_cxx::__normal_iterator<char const*,std::string> const&,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>&)::json_error_locator>::unexpect_eof( a1, v10, (long long)"binary") & 1) == 0 ) { v7 = 0; return v7 & 1; } v5 = *(_DWORD *)(a1 + 16); std::vector<unsigned char>::push_back(v8, &v5); } return v7 & 1; }
_Vector_impl: SUB RSP,0x18 MOV qword ptr [RSP + 0x10],RDI MOV RDI,qword ptr [RSP + 0x10] MOV qword ptr [RSP + 0x8],RDI CALL 0x0018eb20 MOV RDI,qword ptr [RSP + 0x8] CALL 0x0018eb30 ADD RSP,0x18 RET
/* std::_Vector_base<std::__cxx11::regex_traits<char>::_RegexMask, std::allocator<std::__cxx11::regex_traits<char>::_RegexMask> >::_Vector_impl::_Vector_impl() */ void __thiscall std:: _Vector_base<std::__cxx11::regex_traits<char>::_RegexMask,std::allocator<std::__cxx11::regex_traits<char>::_RegexMask>> ::_Vector_impl::_Vector_impl(_Vector_impl *this) { allocator<std::__cxx11::regex_traits<char>::_RegexMask>::allocator ((allocator<std::__cxx11::regex_traits<char>::_RegexMask> *)this); _Vector_base<std::__cxx11::regex_traits<char>::_RegexMask,std::allocator<std::__cxx11::regex_traits<char>::_RegexMask>> ::_Vector_impl_data::_Vector_impl_data((_Vector_impl_data *)this); return; }
40,866
bitmap_get_first
eloqsql/mysys/my_bitmap.c
uint bitmap_get_first(const MY_BITMAP *map) { uchar *byte_ptr; uint i,j,k; my_bitmap_map *data_ptr, *end= map->last_word_ptr; DBUG_ASSERT(map->bitmap); data_ptr= map->bitmap; *map->last_word_ptr|= map->last_word_mask; for (i=0; data_ptr < end; data_ptr++, i++) if (*data_ptr != 0xFFFFFFFF) goto found; if ((*data_ptr | map->last_word_mask) == 0xFFFFFFFF) return MY_BIT_NONE; found: byte_ptr= (uchar*)data_ptr; for (j=0; ; j++, byte_ptr++) { if (*byte_ptr != 0xFF) { for (k=0; ; k++) { if (!(*byte_ptr & (1 << k))) return (i*32) + (j*8) + k; } } } DBUG_ASSERT(0); return MY_BIT_NONE; /* Impossible */ }
O3
c
bitmap_get_first: pushq %rbp movq %rsp, %rbp movq (%rdi), %rcx movq 0x8(%rdi), %rdx movl 0x18(%rdi), %eax orl %eax, (%rdx) xorl %eax, %eax cmpq %rdx, %rcx jae 0x9e745 xorl %eax, %eax movl (%rcx), %r8d cmpl $-0x1, %r8d jne 0x9e753 addq $0x4, %rcx incl %eax cmpq %rdx, %rcx jb 0x9e731 movl (%rcx), %r8d movl 0x18(%rdi), %edx orl %r8d, %edx cmpl $-0x1, %edx je 0x9e78c xorl %edx, %edx movl $0x0, %esi cmpb $-0x1, %r8b jne 0x9e774 incq %rcx xorl %esi, %esi movb (%rcx), %r8b addl $0x8, %esi incq %rcx cmpb $-0x1, %r8b je 0x9e765 movzbl %r8b, %ecx btl %edx, %ecx leal 0x1(%rdx), %edx jb 0x9e778 shll $0x5, %eax addl %eax, %esi leal (%rdx,%rsi), %eax decl %eax jmp 0x9e791 movl $0xffffffff, %eax # imm = 0xFFFFFFFF popq %rbp retq
bitmap_get_first: push rbp mov rbp, rsp mov rcx, [rdi] mov rdx, [rdi+8] mov eax, [rdi+18h] or [rdx], eax xor eax, eax cmp rcx, rdx jnb short loc_9E745 xor eax, eax loc_9E731: mov r8d, [rcx] cmp r8d, 0FFFFFFFFh jnz short loc_9E753 add rcx, 4 inc eax cmp rcx, rdx jb short loc_9E731 loc_9E745: mov r8d, [rcx] mov edx, [rdi+18h] or edx, r8d cmp edx, 0FFFFFFFFh jz short loc_9E78C loc_9E753: xor edx, edx mov esi, 0 cmp r8b, 0FFh jnz short loc_9E774 inc rcx xor esi, esi loc_9E765: mov r8b, [rcx] add esi, 8 inc rcx cmp r8b, 0FFh jz short loc_9E765 loc_9E774: movzx ecx, r8b loc_9E778: bt ecx, edx lea edx, [rdx+1] jb short loc_9E778 shl eax, 5 add esi, eax lea eax, [rdx+rsi] dec eax jmp short loc_9E791 loc_9E78C: mov eax, 0FFFFFFFFh loc_9E791: pop rbp retn
long long bitmap_get_first(long long a1) { _DWORD *v1; // rcx _DWORD *v2; // rdx int v3; // eax int v4; // r8d unsigned int v5; // edx int v6; // esi _BYTE *v7; // rcx int v8; // ecx v1 = *(_DWORD **)a1; v2 = *(_DWORD **)(a1 + 8); *v2 |= *(_DWORD *)(a1 + 24); v3 = 0; if ( v1 >= v2 ) { LABEL_5: v4 = *v1; if ( (*v1 | *(_DWORD *)(a1 + 24)) == -1 ) return 0xFFFFFFFFLL; } else { v3 = 0; while ( 1 ) { v4 = *v1; if ( *v1 != -1 ) break; ++v1; ++v3; if ( v1 >= v2 ) goto LABEL_5; } } v5 = 0; v6 = 0; if ( (_BYTE)v4 == 0xFF ) { v7 = (char *)v1 + 1; v6 = 0; do { LOBYTE(v4) = *v7; v6 += 8; ++v7; } while ( (_BYTE)v4 == 0xFF ); } v8 = (unsigned __int8)v4; while ( _bittest(&v8, v5++) ) ; return v5 + 32 * v3 + v6 - 1; }
bitmap_get_first: PUSH RBP MOV RBP,RSP MOV RCX,qword ptr [RDI] MOV RDX,qword ptr [RDI + 0x8] MOV EAX,dword ptr [RDI + 0x18] OR dword ptr [RDX],EAX XOR EAX,EAX CMP RCX,RDX JNC 0x0019e745 XOR EAX,EAX LAB_0019e731: MOV R8D,dword ptr [RCX] CMP R8D,-0x1 JNZ 0x0019e753 ADD RCX,0x4 INC EAX CMP RCX,RDX JC 0x0019e731 LAB_0019e745: MOV R8D,dword ptr [RCX] MOV EDX,dword ptr [RDI + 0x18] OR EDX,R8D CMP EDX,-0x1 JZ 0x0019e78c LAB_0019e753: XOR EDX,EDX MOV ESI,0x0 CMP R8B,0xff JNZ 0x0019e774 INC RCX XOR ESI,ESI LAB_0019e765: MOV R8B,byte ptr [RCX] ADD ESI,0x8 INC RCX CMP R8B,0xff JZ 0x0019e765 LAB_0019e774: MOVZX ECX,R8B LAB_0019e778: BT ECX,EDX LEA EDX,[RDX + 0x1] JC 0x0019e778 SHL EAX,0x5 ADD ESI,EAX LEA EAX,[RDX + RSI*0x1] DEC EAX JMP 0x0019e791 LAB_0019e78c: MOV EAX,0xffffffff LAB_0019e791: POP RBP RET
int bitmap_get_first(int8 *param_1) { uint *puVar1; uint uVar2; int iVar3; uint *puVar4; uint uVar5; int iVar6; uint uVar7; puVar4 = (uint *)*param_1; puVar1 = (uint *)param_1[1]; *puVar1 = *puVar1 | *(uint *)(param_1 + 3); iVar3 = 0; if (puVar4 < puVar1) { iVar3 = 0; do { uVar7 = *puVar4; if (uVar7 != 0xffffffff) goto LAB_0019e753; puVar4 = puVar4 + 1; iVar3 = iVar3 + 1; } while (puVar4 < puVar1); } uVar7 = *puVar4; if ((*(uint *)(param_1 + 3) | uVar7) == 0xffffffff) { iVar3 = -1; } else { LAB_0019e753: uVar5 = 0; iVar6 = 0; if ((char)uVar7 == -1) { iVar6 = 0; do { puVar4 = (uint *)((long)puVar4 + 1); uVar7 = (uint)*(byte *)puVar4; iVar6 = iVar6 + 8; } while (*(byte *)puVar4 == 0xff); } do { uVar2 = uVar5 & 0x1f; uVar5 = uVar5 + 1; } while (((uVar7 & 0xff) >> uVar2 & 1) != 0); iVar3 = uVar5 + iVar6 + iVar3 * 0x20 + -1; } return iVar3; }
40,867
POINTonE1_Uncompress_Z
corpus-core[P]colibri-stateless/build_O3/_deps/blst-src/src/e1.c
static BLST_ERROR POINTonE1_Uncompress_Z(POINTonE1_affine *out, const unsigned char in[48]) { unsigned char in0 = in[0]; limb_t sgn0_pty; if ((in0 & 0x80) == 0) /* compressed bit */ return BLST_BAD_ENCODING; if (in0 & 0x40) { /* infinity bit */ if (byte_is_zero(in0 & 0x3f) & bytes_are_zero(in+1, 47)) { vec_zero(out, sizeof(*out)); return BLST_SUCCESS; } else { return BLST_BAD_ENCODING; } } sgn0_pty = POINTonE1_Uncompress_BE(out, in); if (sgn0_pty > 3) return (BLST_ERROR)(0 - sgn0_pty); /* POINT_NOT_ON_CURVE */ sgn0_pty >>= 1; /* skip over parity bit */ sgn0_pty ^= (in0 & 0x20) >> 5; cneg_fp(out->Y, out->Y, sgn0_pty); /* (0,±2) is not in group, but application might want to ignore? */ return vec_is_zero(out->X, sizeof(out->X)) ? BLST_POINT_NOT_IN_GROUP : BLST_SUCCESS; }
O3
c
POINTonE1_Uncompress_Z: pushq %rbp movq %rsp, %rbp pushq %r15 pushq %r14 pushq %r13 pushq %r12 pushq %rbx subq $0x98, %rsp movzbl (%rsi), %r14d movl $0x1, %eax testb %r14b, %r14b js 0x59a77 addq $0x98, %rsp popq %rbx popq %r12 popq %r13 popq %r14 popq %r15 popq %rbp retq movq %rdi, %rbx testb $0x40, %r14b jne 0x59bf4 movl $0x2f, %eax xorl %ecx, %ecx shlq $0x8, %rcx movzbl (%rsi), %edx incq %rsi orq %rdx, %rcx movq %rax, %rdx andq $-0x8, %rdx movq %rcx, -0x88(%rbp,%rdx) addq $-0x1, %rax jb 0x59a8b leaq -0x88(%rbp), %r15 andb $0x1f, 0x2f(%r15) leaq 0x33248(%rip), %rdx # 0x8cd08 leaq 0x331d9(%rip), %rcx # 0x8cca0 leaq -0xc0(%rbp), %r12 movq %r12, %rdi movq %r15, %rsi callq 0x6f640 movl $0x30, %edx movq %r12, %rdi movq %r15, %rsi callq 0x70980 testq %rax, %rax je 0x59c3f movabsq $-0x760c000300030003, %r8 # imm = 0x89F3FFFCFFFCFFFD leaq 0x3341d(%rip), %rdx # 0x8cf20 leaq 0x33196(%rip), %r12 # 0x8cca0 leaq -0x88(%rbp), %r13 movq %r13, %rdi movq %r13, %rsi movq %r12, %rcx callq 0x74ea0 leaq -0x58(%rbp), %r15 movq %r15, %rdi movq %r13, %rsi movq %r12, %rdx movabsq $-0x760c000300030003, %rcx # imm = 0x89F3FFFCFFFCFFFD callq 0x74720 movq %r15, %rdi movq %r15, %rsi movq %r13, %rdx movabsq $-0x760c000300030003, %r13 # imm = 0x89F3FFFCFFFCFFFD movq %r12, %rcx movq %r13, %r8 callq 0x74ea0 leaq 0x33450(%rip), %rdx # 0x8cfb0 movq %r15, %rdi movq %r15, %rsi movq %r12, %rcx callq 0x6f640 movq %r15, %rdi movq %r15, %rsi callq 0x62302 testq %rax, %rax je 0x59c48 leaq -0x88(%rbp), %rsi movl $0xc, %ecx movq %rbx, %rdi rep movsq (%rsi), %es:(%rdi) leaq 0x30(%rbx), %r12 leaq 0x33101(%rip), %rsi # 0x8cca0 movq %r12, %rdi movq %r13, %rdx callq 0x74cc0 cmpq $0x4, %rax jae 0x59c4f shrq %rax shrl $0x5, %r14d andl $0x1, %r14d xorq %rax, %r14 leaq 0x330d7(%rip), %rcx # 0x8cca0 movq %r12, %rdi movq %r12, %rsi movq %r14, %rdx callq 0x6fcc0 movl $0x30, %esi movq %rbx, %rdi callq 0x70940 xorl %ecx, %ecx testq %rax, %rax setne %cl leal (%rcx,%rcx,2), %eax jmp 0x59a65 andl $0x3f, %r14d decq %r14 shrq $0x3f, %r14 movl $0x1, %edx xorl %ecx, %ecx orb (%rsi,%rdx), %cl incq %rdx cmpq $0x30, %rdx jne 0x59c06 movzbl %cl, %ecx decq %rcx shrq $0x3f, %rcx testq %r14, %rcx je 0x59a65 xorl %eax, %eax movq $0x0, (%rbx,%rax,8) incq %rax cmpq $0xc, %rax jne 0x59c27 xorl %eax, %eax jmp 0x59a65 movq $-0x1, %rax jmp 0x59c4f movq $-0x2, %rax negl %eax jmp 0x59a65
POINTonE1_Uncompress_Z: push rbp mov rbp, rsp push r15 push r14 push r13 push r12 push rbx sub rsp, 98h movzx r14d, byte ptr [rsi] mov eax, 1 test r14b, r14b js short loc_59A77 loc_59A65: add rsp, 98h pop rbx pop r12 pop r13 pop r14 pop r15 pop rbp retn loc_59A77: mov rbx, rdi test r14b, 40h jnz loc_59BF4 mov eax, 2Fh ; '/' xor ecx, ecx loc_59A8B: shl rcx, 8 movzx edx, byte ptr [rsi] inc rsi or rcx, rdx mov rdx, rax and rdx, 0FFFFFFFFFFFFFFF8h mov [rbp+rdx+var_88], rcx add rax, 0FFFFFFFFFFFFFFFFh jb short loc_59A8B lea r15, [rbp+var_88] and byte ptr [r15+2Fh], 1Fh lea rdx, unk_8CD08 lea rcx, BLS12_381_P lea r12, [rbp+var_C0] mov rdi, r12 mov rsi, r15 call add_mod_384 mov edx, 30h ; '0' mov rdi, r12 mov rsi, r15 call vec_is_equal_16x test rax, rax jz loc_59C3F mov r8, 89F3FFFCFFFCFFFDh lea rdx, BLS12_381_RR lea r12, BLS12_381_P lea r13, [rbp+var_88] mov rdi, r13 mov rsi, r13 mov rcx, r12 call mul_mont_384 lea r15, [rbp+var_58] mov rdi, r15 mov rsi, r13 mov rdx, r12 mov rcx, 89F3FFFCFFFCFFFDh call sqr_mont_384 mov rdi, r15 mov rsi, r15 mov rdx, r13 mov r13, 89F3FFFCFFFCFFFDh mov rcx, r12 mov r8, r13 call mul_mont_384 lea rdx, B_E1 mov rdi, r15 mov rsi, r15 mov rcx, r12 call add_mod_384 mov rdi, r15 mov rsi, r15 call sqrt_fp test rax, rax jz loc_59C48 lea rsi, [rbp+var_88] mov ecx, 0Ch mov rdi, rbx rep movsq lea r12, [rbx+30h] lea rsi, BLS12_381_P mov rdi, r12 mov rdx, r13 call sgn0_pty_mont_384 cmp rax, 4 jnb loc_59C4F shr rax, 1 shr r14d, 5 and r14d, 1 xor r14, rax lea rcx, BLS12_381_P mov rdi, r12 mov rsi, r12 mov rdx, r14 call cneg_mod_384 mov esi, 30h ; '0' mov rdi, rbx call vec_is_zero_16x xor ecx, ecx test rax, rax setnz cl lea eax, [rcx+rcx*2] jmp loc_59A65 loc_59BF4: and r14d, 3Fh dec r14 shr r14, 3Fh mov edx, 1 xor ecx, ecx loc_59C06: or cl, [rsi+rdx] inc rdx cmp rdx, 30h ; '0' jnz short loc_59C06 movzx ecx, cl dec rcx shr rcx, 3Fh test rcx, r14 jz loc_59A65 xor eax, eax loc_59C27: mov qword ptr [rbx+rax*8], 0 inc rax cmp rax, 0Ch jnz short loc_59C27 xor eax, eax jmp loc_59A65 loc_59C3F: mov rax, 0FFFFFFFFFFFFFFFFh jmp short loc_59C4F loc_59C48: mov rax, 0FFFFFFFFFFFFFFFEh loc_59C4F: neg eax jmp loc_59A65
long long POINTonE1_Uncompress_Z(_QWORD *a1, unsigned __int8 *a2) { unsigned int v2; // r14d long long result; // rax long long v4; // rax long long v5; // rcx long long v6; // rdx unsigned long long v8; // rax unsigned long long v9; // r14 long long v10; // rdx unsigned __int8 v11; // cl long long i; // rax _BYTE v13[56]; // [rsp+0h] [rbp-C0h] BYREF _QWORD v14[17]; // [rsp+38h] [rbp-88h] BYREF v2 = *a2; result = 1LL; if ( (v2 & 0x80u) != 0 ) { if ( (v2 & 0x40) != 0 ) { v9 = ((unsigned long long)(v2 & 0x3F) - 1) >> 63; v10 = 1LL; v11 = 0; do v11 |= a2[v10++]; while ( v10 != 48 ); if ( (v9 & (((unsigned long long)v11 - 1) >> 63)) != 0 ) { for ( i = 0LL; i != 12; ++i ) a1[i] = 0LL; return 0LL; } } else { v4 = 47LL; v5 = 0LL; do { v6 = *a2++; v5 = v6 | (v5 << 8); *(_QWORD *)((char *)v14 + (v4 & 0xFFFFFFFFFFFFFFF8LL)) = v5; } while ( v4-- != 0 ); HIBYTE(v14[5]) &= 0x1Fu; add_mod_384(v13, v14, &unk_8CD08, &BLS12_381_P); if ( vec_is_equal_16x(v13, v14, 48LL) ) { mul_mont_384(v14, v14, &BLS12_381_RR, &BLS12_381_P, 0x89F3FFFCFFFCFFFDLL); sqr_mont_384(&v14[6], v14, &BLS12_381_P, 0x89F3FFFCFFFCFFFDLL); mul_mont_384(&v14[6], &v14[6], v14, &BLS12_381_P, 0x89F3FFFCFFFCFFFDLL); add_mod_384(&v14[6], &v14[6], &B_E1, &BLS12_381_P); if ( sqrt_fp(&v14[6], &v14[6]) ) { qmemcpy(a1, v14, 0x60uLL); v8 = sgn0_pty_mont_384(a1 + 6, &BLS12_381_P, 0x89F3FFFCFFFCFFFDLL); if ( v8 < 4 ) { cneg_mod_384(a1 + 6, a1 + 6, (v8 >> 1) ^ (v2 >> 5) & 1, &BLS12_381_P); return 3 * (unsigned int)(vec_is_zero_16x(a1, 48LL) != 0); } } else { LODWORD(v8) = -2; } } else { LODWORD(v8) = -1; } return (unsigned int)-(int)v8; } } return result; }
POINTonE1_Uncompress_Z: PUSH RBP MOV RBP,RSP PUSH R15 PUSH R14 PUSH R13 PUSH R12 PUSH RBX SUB RSP,0x98 MOVZX R14D,byte ptr [RSI] MOV EAX,0x1 TEST R14B,R14B JS 0x00159a77 LAB_00159a65: ADD RSP,0x98 POP RBX POP R12 POP R13 POP R14 POP R15 POP RBP RET LAB_00159a77: MOV RBX,RDI TEST R14B,0x40 JNZ 0x00159bf4 MOV EAX,0x2f XOR ECX,ECX LAB_00159a8b: SHL RCX,0x8 MOVZX EDX,byte ptr [RSI] INC RSI OR RCX,RDX MOV RDX,RAX AND RDX,-0x8 MOV qword ptr [RBP + RDX*0x1 + -0x88],RCX ADD RAX,-0x1 JC 0x00159a8b LEA R15,[RBP + -0x88] AND byte ptr [R15 + 0x2f],0x1f LEA RDX,[0x18cd08] LEA RCX,[0x18cca0] LEA R12,[RBP + -0xc0] MOV RDI,R12 MOV RSI,R15 CALL 0x0016f640 MOV EDX,0x30 MOV RDI,R12 MOV RSI,R15 CALL 0x00170980 TEST RAX,RAX JZ 0x00159c3f MOV R8,-0x760c000300030003 LEA RDX,[0x18cf20] LEA R12,[0x18cca0] LEA R13,[RBP + -0x88] MOV RDI,R13 MOV RSI,R13 MOV RCX,R12 CALL 0x00174ea0 LEA R15,[RBP + -0x58] MOV RDI,R15 MOV RSI,R13 MOV RDX,R12 MOV RCX,-0x760c000300030003 CALL 0x00174720 MOV RDI,R15 MOV RSI,R15 MOV RDX,R13 MOV R13,-0x760c000300030003 MOV RCX,R12 MOV R8,R13 CALL 0x00174ea0 LEA RDX,[0x18cfb0] MOV RDI,R15 MOV RSI,R15 MOV RCX,R12 CALL 0x0016f640 MOV RDI,R15 MOV RSI,R15 CALL 0x00162302 TEST RAX,RAX JZ 0x00159c48 LEA RSI,[RBP + -0x88] MOV ECX,0xc MOV RDI,RBX MOVSQ.REP RDI,RSI LEA R12,[RBX + 0x30] LEA RSI,[0x18cca0] MOV RDI,R12 MOV RDX,R13 CALL 0x00174cc0 CMP RAX,0x4 JNC 0x00159c4f SHR RAX,0x1 SHR R14D,0x5 AND R14D,0x1 XOR R14,RAX LEA RCX,[0x18cca0] MOV RDI,R12 MOV RSI,R12 MOV RDX,R14 CALL 0x0016fcc0 MOV ESI,0x30 MOV RDI,RBX CALL 0x00170940 XOR ECX,ECX TEST RAX,RAX SETNZ CL LEA EAX,[RCX + RCX*0x2] JMP 0x00159a65 LAB_00159bf4: AND R14D,0x3f DEC R14 SHR R14,0x3f MOV EDX,0x1 XOR ECX,ECX LAB_00159c06: OR CL,byte ptr [RSI + RDX*0x1] INC RDX CMP RDX,0x30 JNZ 0x00159c06 MOVZX ECX,CL DEC RCX SHR RCX,0x3f TEST RCX,R14 JZ 0x00159a65 XOR EAX,EAX LAB_00159c27: MOV qword ptr [RBX + RAX*0x8],0x0 INC RAX CMP RAX,0xc JNZ 0x00159c27 XOR EAX,EAX JMP 0x00159a65 LAB_00159c3f: MOV RAX,-0x1 JMP 0x00159c4f LAB_00159c48: MOV RAX,-0x2 LAB_00159c4f: NEG EAX JMP 0x00159a65
int POINTonE1_Uncompress_Z(ulong *param_1,byte *param_2) { byte bVar1; byte bVar2; int iVar3; ulong uVar4; long lVar5; byte bVar6; ulong uVar7; ulong *puVar8; ulong *puVar9; bool bVar10; int1 local_c8 [56]; ulong local_90 [5]; byte local_61; int1 local_60 [48]; bVar6 = 0; bVar1 = *param_2; iVar3 = 1; if ((char)bVar1 < '\0') { if ((bVar1 & 0x40) == 0) { uVar4 = 0x2f; uVar7 = 0; do { bVar2 = *param_2; param_2 = param_2 + 1; uVar7 = uVar7 << 8 | (ulong)bVar2; *(ulong *)((long)local_90 + (uVar4 & 0xfffffffffffffff8)) = uVar7; bVar10 = uVar4 != 0; uVar4 = uVar4 - 1; } while (bVar10); local_61 = local_61 & 0x1f; add_mod_384(local_c8,local_90,&DAT_0018cd08,BLS12_381_P); lVar5 = vec_is_equal_16x(local_c8,local_90,0x30); if (lVar5 == 0) { uVar4 = 0xffffffffffffffff; } else { mul_mont_384(local_90,local_90,BLS12_381_RR,BLS12_381_P,0x89f3fffcfffcfffd); sqr_mont_384(local_60,local_90,BLS12_381_P,0x89f3fffcfffcfffd); mul_mont_384(local_60,local_60,local_90,BLS12_381_P,0x89f3fffcfffcfffd); add_mod_384(local_60,local_60,B_E1,BLS12_381_P); lVar5 = sqrt_fp(local_60,local_60); if (lVar5 == 0) { uVar4 = 0xfffffffffffffffe; } else { puVar8 = local_90; puVar9 = param_1; for (lVar5 = 0xc; lVar5 != 0; lVar5 = lVar5 + -1) { *puVar9 = *puVar8; puVar8 = puVar8 + (ulong)bVar6 * -2 + 1; puVar9 = puVar9 + (ulong)bVar6 * -2 + 1; } puVar8 = param_1 + 6; uVar4 = sgn0_pty_mont_384(puVar8,BLS12_381_P,0x89f3fffcfffcfffd); if (uVar4 < 4) { cneg_mod_384(puVar8,puVar8,(ulong)(bVar1 >> 5 & 1) ^ uVar4 >> 1,BLS12_381_P); lVar5 = vec_is_zero_16x(param_1,0x30); return (uint)(lVar5 != 0) * 3; } } } iVar3 = -(int)uVar4; } else { lVar5 = 1; bVar6 = 0; do { bVar6 = bVar6 | param_2[lVar5]; lVar5 = lVar5 + 1; } while (lVar5 != 0x30); if ((long)((ulong)bVar6 - 1 & (ulong)(bVar1 & 0x3f) - 1) < 0) { lVar5 = 0; do { param_1[lVar5] = 0; lVar5 = lVar5 + 1; } while (lVar5 != 0xc); iVar3 = 0; } } } return iVar3; }
40,868
my_convert_using_func
eloqsql/strings/ctype.c
uint32 my_convert_using_func(char *to, size_t to_length, CHARSET_INFO *to_cs, my_charset_conv_wc_mb wc_mb, const char *from, size_t from_length, CHARSET_INFO *from_cs, my_charset_conv_mb_wc mb_wc, uint *errors) { int cnvres; my_wc_t wc; const uchar *from_end= (const uchar*) from + from_length; char *to_start= to; uchar *to_end= (uchar*) to + to_length; uint error_count= 0; while (1) { if ((cnvres= (*mb_wc)(from_cs, &wc, (uchar*) from, from_end)) > 0) from+= cnvres; else if (cnvres == MY_CS_ILSEQ) { error_count++; from++; wc= '?'; } else if (cnvres > MY_CS_TOOSMALL) { /* A correct multibyte sequence detected But it doesn't have Unicode mapping. */ error_count++; from+= (-cnvres); wc= '?'; } else { if ((uchar *) from >= from_end) break; /* End of line */ /* Incomplete byte sequence */ error_count++; from++; wc= '?'; } outp: if ((cnvres= (*wc_mb)(to_cs, wc, (uchar*) to, to_end)) > 0) to+= cnvres; else if (cnvres == MY_CS_ILUNI && wc != '?') { error_count++; wc= '?'; goto outp; } else break; } *errors= error_count; return (uint32) (to - to_start); }
O0
c
my_convert_using_func: pushq %rbp movq %rsp, %rbp subq $0x60, %rsp movq 0x20(%rbp), %rax movq 0x18(%rbp), %rax movq 0x10(%rbp), %rax movq %rdi, -0x8(%rbp) movq %rsi, -0x10(%rbp) movq %rdx, -0x18(%rbp) movq %rcx, -0x20(%rbp) movq %r8, -0x28(%rbp) movq %r9, -0x30(%rbp) movq -0x28(%rbp), %rax addq -0x30(%rbp), %rax movq %rax, -0x48(%rbp) movq -0x8(%rbp), %rax movq %rax, -0x50(%rbp) movq -0x8(%rbp), %rax addq -0x10(%rbp), %rax movq %rax, -0x58(%rbp) movl $0x0, -0x5c(%rbp) movq 0x18(%rbp), %rax movq 0x10(%rbp), %rdi movq -0x28(%rbp), %rdx movq -0x48(%rbp), %rcx leaq -0x40(%rbp), %rsi callq *%rax movl %eax, -0x34(%rbp) cmpl $0x0, %eax jle 0x144074 movl -0x34(%rbp), %ecx movq -0x28(%rbp), %rax movslq %ecx, %rcx addq %rcx, %rax movq %rax, -0x28(%rbp) jmp 0x1440f2 cmpl $0x0, -0x34(%rbp) jne 0x144099 movl -0x5c(%rbp), %eax addl $0x1, %eax movl %eax, -0x5c(%rbp) movq -0x28(%rbp), %rax addq $0x1, %rax movq %rax, -0x28(%rbp) movq $0x3f, -0x40(%rbp) jmp 0x1440f0 cmpl $-0x65, -0x34(%rbp) jle 0x1440c5 movl -0x5c(%rbp), %eax addl $0x1, %eax movl %eax, -0x5c(%rbp) xorl %ecx, %ecx subl -0x34(%rbp), %ecx movq -0x28(%rbp), %rax movslq %ecx, %rcx addq %rcx, %rax movq %rax, -0x28(%rbp) movq $0x3f, -0x40(%rbp) jmp 0x1440ee movq -0x28(%rbp), %rax cmpq -0x48(%rbp), %rax jb 0x1440d1 jmp 0x14414c movl -0x5c(%rbp), %eax addl $0x1, %eax movl %eax, -0x5c(%rbp) movq -0x28(%rbp), %rax addq $0x1, %rax movq %rax, -0x28(%rbp) movq $0x3f, -0x40(%rbp) jmp 0x1440f0 jmp 0x1440f2 jmp 0x1440f4 movq -0x20(%rbp), %rax movq -0x18(%rbp), %rdi movq -0x40(%rbp), %rsi movq -0x8(%rbp), %rdx movq -0x58(%rbp), %rcx callq *%rax movl %eax, -0x34(%rbp) cmpl $0x0, %eax jle 0x144125 movl -0x34(%rbp), %ecx movq -0x8(%rbp), %rax movslq %ecx, %rcx addq %rcx, %rax movq %rax, -0x8(%rbp) jmp 0x144147 cmpl $0x0, -0x34(%rbp) jne 0x144145 cmpq $0x3f, -0x40(%rbp) je 0x144145 movl -0x5c(%rbp), %eax addl $0x1, %eax movl %eax, -0x5c(%rbp) movq $0x3f, -0x40(%rbp) jmp 0x1440f4 jmp 0x14414c jmp 0x144043 movl -0x5c(%rbp), %ecx movq 0x20(%rbp), %rax movl %ecx, (%rax) movq -0x8(%rbp), %rax movq -0x50(%rbp), %rcx subq %rcx, %rax addq $0x60, %rsp popq %rbp retq nopw %cs:(%rax,%rax)
my_convert_using_func: push rbp mov rbp, rsp sub rsp, 60h mov rax, [rbp+arg_10] mov rax, [rbp+arg_8] mov rax, [rbp+arg_0] mov [rbp+var_8], rdi mov [rbp+var_10], rsi mov [rbp+var_18], rdx mov [rbp+var_20], rcx mov [rbp+var_28], r8 mov [rbp+var_30], r9 mov rax, [rbp+var_28] add rax, [rbp+var_30] mov [rbp+var_48], rax mov rax, [rbp+var_8] mov [rbp+var_50], rax mov rax, [rbp+var_8] add rax, [rbp+var_10] mov [rbp+var_58], rax mov [rbp+var_5C], 0 loc_144043: mov rax, [rbp+arg_8] mov rdi, [rbp+arg_0] mov rdx, [rbp+var_28] mov rcx, [rbp+var_48] lea rsi, [rbp+var_40] call rax mov [rbp+var_34], eax cmp eax, 0 jle short loc_144074 mov ecx, [rbp+var_34] mov rax, [rbp+var_28] movsxd rcx, ecx add rax, rcx mov [rbp+var_28], rax jmp short loc_1440F2 loc_144074: cmp [rbp+var_34], 0 jnz short loc_144099 mov eax, [rbp+var_5C] add eax, 1 mov [rbp+var_5C], eax mov rax, [rbp+var_28] add rax, 1 mov [rbp+var_28], rax mov [rbp+var_40], 3Fh ; '?' jmp short loc_1440F0 loc_144099: cmp [rbp+var_34], 0FFFFFF9Bh jle short loc_1440C5 mov eax, [rbp+var_5C] add eax, 1 mov [rbp+var_5C], eax xor ecx, ecx sub ecx, [rbp+var_34] mov rax, [rbp+var_28] movsxd rcx, ecx add rax, rcx mov [rbp+var_28], rax mov [rbp+var_40], 3Fh ; '?' jmp short loc_1440EE loc_1440C5: mov rax, [rbp+var_28] cmp rax, [rbp+var_48] jb short loc_1440D1 jmp short loc_14414C loc_1440D1: mov eax, [rbp+var_5C] add eax, 1 mov [rbp+var_5C], eax mov rax, [rbp+var_28] add rax, 1 mov [rbp+var_28], rax mov [rbp+var_40], 3Fh ; '?' loc_1440EE: jmp short $+2 loc_1440F0: jmp short $+2 loc_1440F2: jmp short $+2 loc_1440F4: mov rax, [rbp+var_20] mov rdi, [rbp+var_18] mov rsi, [rbp+var_40] mov rdx, [rbp+var_8] mov rcx, [rbp+var_58] call rax mov [rbp+var_34], eax cmp eax, 0 jle short loc_144125 mov ecx, [rbp+var_34] mov rax, [rbp+var_8] movsxd rcx, ecx add rax, rcx mov [rbp+var_8], rax jmp short loc_144147 loc_144125: cmp [rbp+var_34], 0 jnz short loc_144145 cmp [rbp+var_40], 3Fh ; '?' jz short loc_144145 mov eax, [rbp+var_5C] add eax, 1 mov [rbp+var_5C], eax mov [rbp+var_40], 3Fh ; '?' jmp short loc_1440F4 loc_144145: jmp short loc_14414C loc_144147: jmp loc_144043 loc_14414C: mov ecx, [rbp+var_5C] mov rax, [rbp+arg_10] mov [rax], ecx mov rax, [rbp+var_8] mov rcx, [rbp+var_50] sub rax, rcx add rsp, 60h pop rbp retn
long long my_convert_using_func( long long a1, long long a2, long long a3, long long ( *a4)(long long, long long, long long, long long), unsigned long long a5, long long a6, long long a7, long long ( *a8)(long long, long long *, unsigned long long, unsigned long long), _DWORD *a9) { int v10; // [rsp+4h] [rbp-5Ch] unsigned long long v11; // [rsp+18h] [rbp-48h] long long v12; // [rsp+20h] [rbp-40h] BYREF int v13; // [rsp+2Ch] [rbp-34h] long long v14; // [rsp+30h] [rbp-30h] unsigned long long v15; // [rsp+38h] [rbp-28h] long long ( *v16)(long long, long long, long long, long long); // [rsp+40h] [rbp-20h] long long v17; // [rsp+48h] [rbp-18h] long long v18; // [rsp+50h] [rbp-10h] long long v19; // [rsp+58h] [rbp-8h] v19 = a1; v18 = a2; v17 = a3; v16 = a4; v15 = a5; v14 = a6; v11 = a6 + a5; v10 = 0; while ( 1 ) { v13 = a8(a7, &v12, v15, v11); if ( v13 > 0 ) { v15 += v13; goto LABEL_10; } if ( !v13 ) { ++v10; ++v15; v12 = 63LL; goto LABEL_10; } if ( v13 > -101 ) { ++v10; v15 += -v13; v12 = 63LL; goto LABEL_10; } if ( v15 >= v11 ) break; ++v10; ++v15; v12 = 63LL; LABEL_10: while ( 1 ) { v13 = v16(v17, v12, v19, a2 + a1); if ( v13 > 0 ) break; if ( v13 || v12 == 63 ) goto LABEL_15; ++v10; v12 = 63LL; } v19 += v13; } LABEL_15: *a9 = v10; return v19 - a1; }
40,869
my_convert_using_func
eloqsql/strings/ctype.c
uint32 my_convert_using_func(char *to, size_t to_length, CHARSET_INFO *to_cs, my_charset_conv_wc_mb wc_mb, const char *from, size_t from_length, CHARSET_INFO *from_cs, my_charset_conv_mb_wc mb_wc, uint *errors) { int cnvres; my_wc_t wc; const uchar *from_end= (const uchar*) from + from_length; char *to_start= to; uchar *to_end= (uchar*) to + to_length; uint error_count= 0; while (1) { if ((cnvres= (*mb_wc)(from_cs, &wc, (uchar*) from, from_end)) > 0) from+= cnvres; else if (cnvres == MY_CS_ILSEQ) { error_count++; from++; wc= '?'; } else if (cnvres > MY_CS_TOOSMALL) { /* A correct multibyte sequence detected But it doesn't have Unicode mapping. */ error_count++; from+= (-cnvres); wc= '?'; } else { if ((uchar *) from >= from_end) break; /* End of line */ /* Incomplete byte sequence */ error_count++; from++; wc= '?'; } outp: if ((cnvres= (*wc_mb)(to_cs, wc, (uchar*) to, to_end)) > 0) to+= cnvres; else if (cnvres == MY_CS_ILUNI && wc != '?') { error_count++; wc= '?'; goto outp; } else break; } *errors= error_count; return (uint32) (to - to_start); }
O3
c
my_convert_using_func: pushq %rbp movq %rsp, %rbp pushq %r15 pushq %r14 pushq %r13 pushq %r12 pushq %rbx subq $0x28, %rsp movq %r8, %r13 movq %rcx, -0x40(%rbp) movq %rdx, %rbx movq %rsi, %r14 movq %rdi, %r15 addq %r8, %r9 movq %r9, -0x48(%rbp) addq %rdi, %r14 xorl %r12d, %r12d movq %rdi, -0x50(%rbp) movq 0x10(%rbp), %rdi leaq -0x38(%rbp), %rsi movq %r13, %rdx movq -0x48(%rbp), %rcx callq *0x18(%rbp) testl %eax, %eax jle 0xd1b22 movl %eax, %eax addq %rax, %r13 movq %r13, -0x30(%rbp) movq -0x38(%rbp), %rsi movq -0x40(%rbp), %r13 jmp 0xd1b67 movq %r13, -0x30(%rbp) je 0xd1b3f cmpl $-0x64, %eax movq -0x30(%rbp), %rcx movq -0x40(%rbp), %r13 jb 0xd1b55 incl %r12d negl %eax addq %rax, %rcx jmp 0xd1b61 incl %r12d incq -0x30(%rbp) movq $0x3f, -0x38(%rbp) movl $0x3f, %esi jmp 0xd1b1c cmpq -0x48(%rbp), %rcx jae 0xd1ba2 incl %r12d incq %rcx movq %rcx, -0x30(%rbp) jmp 0xd1b85 movq %rbx, %rdi movq %r15, %rdx movq %r14, %rcx callq *%r13 testl %eax, %eax jg 0xd1b94 testl %eax, %eax jne 0xd1ba2 cmpq $0x3f, -0x38(%rbp) je 0xd1ba2 incl %r12d movq $0x3f, -0x38(%rbp) movl $0x3f, %esi jmp 0xd1b67 movl %eax, %eax addq %rax, %r15 movq -0x30(%rbp), %r13 jmp 0xd1af9 movq 0x20(%rbp), %rax movl %r12d, (%rax) subl -0x50(%rbp), %r15d movl %r15d, %eax addq $0x28, %rsp popq %rbx popq %r12 popq %r13 popq %r14 popq %r15 popq %rbp retq
my_convert_using_func: push rbp mov rbp, rsp push r15 push r14 push r13 push r12 push rbx sub rsp, 28h mov r13, r8 mov [rbp+var_40], rcx mov rbx, rdx mov r14, rsi mov r15, rdi add r9, r8 mov [rbp+var_48], r9 add r14, rdi xor r12d, r12d mov [rbp+var_50], rdi loc_D1AF9: mov rdi, [rbp+arg_0] lea rsi, [rbp+var_38] mov rdx, r13 mov rcx, [rbp+var_48] call [rbp+arg_8] test eax, eax jle short loc_D1B22 mov eax, eax add r13, rax mov [rbp+var_30], r13 mov rsi, [rbp+var_38] loc_D1B1C: mov r13, [rbp+var_40] jmp short loc_D1B67 loc_D1B22: mov [rbp+var_30], r13 jz short loc_D1B3F cmp eax, 0FFFFFF9Ch mov rcx, [rbp+var_30] mov r13, [rbp+var_40] jb short loc_D1B55 inc r12d neg eax add rcx, rax jmp short loc_D1B61 loc_D1B3F: inc r12d inc [rbp+var_30] mov [rbp+var_38], 3Fh ; '?' mov esi, 3Fh ; '?' jmp short loc_D1B1C loc_D1B55: cmp rcx, [rbp+var_48] jnb short loc_D1BA2 inc r12d inc rcx loc_D1B61: mov [rbp+var_30], rcx jmp short loc_D1B85 loc_D1B67: mov rdi, rbx mov rdx, r15 mov rcx, r14 call r13 test eax, eax jg short loc_D1B94 test eax, eax jnz short loc_D1BA2 cmp [rbp+var_38], 3Fh ; '?' jz short loc_D1BA2 inc r12d loc_D1B85: mov [rbp+var_38], 3Fh ; '?' mov esi, 3Fh ; '?' jmp short loc_D1B67 loc_D1B94: mov eax, eax add r15, rax mov r13, [rbp+var_30] jmp loc_D1AF9 loc_D1BA2: mov rax, [rbp+arg_10] mov [rax], r12d sub r15d, dword ptr [rbp+var_50] mov eax, r15d add rsp, 28h pop rbx pop r12 pop r13 pop r14 pop r15 pop rbp retn
long long my_convert_using_func( long long a1, long long a2, long long a3, long long ( *a4)(long long, long long, long long, long long), long long a5, long long a6, long long a7, long long ( *a8)(long long, long long *, long long, unsigned long long), _DWORD *a9) { long long v9; // r13 long long v11; // r15 long long v12; // r14 int v13; // r12d int v14; // eax long long v15; // rsi long long ( *v16)(long long, long long, long long, long long); // r13 int v17; // eax unsigned long long v18; // rcx unsigned long long v20; // [rsp+8h] [rbp-48h] long long v22; // [rsp+18h] [rbp-38h] BYREF unsigned long long v23; // [rsp+20h] [rbp-30h] v9 = a5; v11 = a1; v20 = a5 + a6; v12 = a1 + a2; v13 = 0; while ( 1 ) { v14 = a8(a7, &v22, v9, v20); if ( v14 > 0 ) { v23 = (unsigned int)v14 + v9; v15 = v22; LABEL_4: v16 = a4; v17 = a4(a3, v15, v11, v12); goto LABEL_12; } v23 = v9; if ( !v14 ) { ++v13; ++v23; v22 = 63LL; v15 = 63LL; goto LABEL_4; } v16 = a4; if ( (unsigned int)v14 < 0xFFFFFF9C ) break; ++v13; v18 = (unsigned int)-v14 + v23; LABEL_11: v23 = v18; while ( 1 ) { v22 = 63LL; v17 = v16(a3, 63LL, v11, v12); LABEL_12: if ( v17 > 0 ) break; if ( v17 || v22 == 63 ) goto LABEL_18; ++v13; } v11 += (unsigned int)v17; v9 = v23; } if ( v23 < v20 ) { ++v13; v18 = v23 + 1; goto LABEL_11; } LABEL_18: *a9 = v13; return (unsigned int)(v11 - a1); }
my_convert_using_func: PUSH RBP MOV RBP,RSP PUSH R15 PUSH R14 PUSH R13 PUSH R12 PUSH RBX SUB RSP,0x28 MOV R13,R8 MOV qword ptr [RBP + -0x40],RCX MOV RBX,RDX MOV R14,RSI MOV R15,RDI ADD R9,R8 MOV qword ptr [RBP + -0x48],R9 ADD R14,RDI XOR R12D,R12D MOV qword ptr [RBP + -0x50],RDI LAB_001d1af9: MOV RDI,qword ptr [RBP + 0x10] LEA RSI,[RBP + -0x38] MOV RDX,R13 MOV RCX,qword ptr [RBP + -0x48] CALL qword ptr [RBP + 0x18] TEST EAX,EAX JLE 0x001d1b22 MOV EAX,EAX ADD R13,RAX MOV qword ptr [RBP + -0x30],R13 MOV RSI,qword ptr [RBP + -0x38] LAB_001d1b1c: MOV R13,qword ptr [RBP + -0x40] JMP 0x001d1b67 LAB_001d1b22: MOV qword ptr [RBP + -0x30],R13 JZ 0x001d1b3f CMP EAX,-0x64 MOV RCX,qword ptr [RBP + -0x30] MOV R13,qword ptr [RBP + -0x40] JC 0x001d1b55 INC R12D NEG EAX ADD RCX,RAX JMP 0x001d1b61 LAB_001d1b3f: INC R12D INC qword ptr [RBP + -0x30] MOV qword ptr [RBP + -0x38],0x3f MOV ESI,0x3f JMP 0x001d1b1c LAB_001d1b55: CMP RCX,qword ptr [RBP + -0x48] JNC 0x001d1ba2 INC R12D INC RCX LAB_001d1b61: MOV qword ptr [RBP + -0x30],RCX JMP 0x001d1b85 LAB_001d1b67: MOV RDI,RBX MOV RDX,R15 MOV RCX,R14 CALL R13 TEST EAX,EAX JG 0x001d1b94 TEST EAX,EAX JNZ 0x001d1ba2 CMP qword ptr [RBP + -0x38],0x3f JZ 0x001d1ba2 INC R12D LAB_001d1b85: MOV qword ptr [RBP + -0x38],0x3f MOV ESI,0x3f JMP 0x001d1b67 LAB_001d1b94: MOV EAX,EAX ADD R15,RAX MOV R13,qword ptr [RBP + -0x30] JMP 0x001d1af9 LAB_001d1ba2: MOV RAX,qword ptr [RBP + 0x20] MOV dword ptr [RAX],R12D SUB R15D,dword ptr [RBP + -0x50] MOV EAX,R15D ADD RSP,0x28 POP RBX POP R12 POP R13 POP R14 POP R15 POP RBP RET
int my_convert_using_func (long param_1,long param_2,int8 param_3,code *param_4,ulong param_5,long param_6 ,int8 param_7,code *param_8,int *param_9) { uint uVar1; ulong uVar2; int iVar3; long lVar4; int local_58; long local_40; ulong local_38; uVar2 = param_6 + param_5; iVar3 = 0; lVar4 = param_1; do { uVar1 = (*param_8)(param_7,&local_40,param_5,uVar2); if ((int)uVar1 < 1) { if (uVar1 != 0) { if (0xffffff9b < uVar1) { local_38 = param_5 + -uVar1; goto LAB_001d1b85; } if (param_5 < uVar2) { local_38 = param_5 + 1; goto LAB_001d1b85; } LAB_001d1ba2: *param_9 = iVar3; local_58 = (int)param_1; return (int)lVar4 - local_58; } iVar3 = iVar3 + 1; local_38 = param_5 + 1; local_40 = 0x3f; } else { local_38 = param_5 + uVar1; } while (uVar1 = (*param_4)(param_3,local_40,lVar4,param_2 + param_1), (int)uVar1 < 1) { if ((uVar1 != 0) || (local_40 == 0x3f)) goto LAB_001d1ba2; LAB_001d1b85: iVar3 = iVar3 + 1; local_40 = 0x3f; } lVar4 = lVar4 + (ulong)uVar1; param_5 = local_38; } while( true ); }
40,870
ps_fetch_datetime
eloqsql/libmariadb/libmariadb/ma_stmt_codec.c
static void ps_fetch_datetime(MYSQL_BIND *r_param, const MYSQL_FIELD * field, unsigned char **row) { MYSQL_TIME *t= (MYSQL_TIME *)r_param->buffer; unsigned int len= net_field_length(row); switch (r_param->buffer_type) { case MYSQL_TYPE_DATETIME: case MYSQL_TYPE_TIMESTAMP: convert_to_datetime(t, row, len, field->type); break; case MYSQL_TYPE_DATE: convert_to_datetime(t, row, len, field->type); break; case MYSQL_TYPE_TIME: convert_to_datetime(t, row, len, field->type); t->year= t->day= t->month= 0; break; case MYSQL_TYPE_YEAR: { MYSQL_TIME tm; convert_to_datetime(&tm, row, len, field->type); shortstore(r_param->buffer, tm.year); break; } default: { char dtbuffer[60]; MYSQL_TIME tm; size_t length; convert_to_datetime(&tm, row, len, field->type); switch(field->type) { case MYSQL_TYPE_DATE: length= sprintf(dtbuffer, "%04u-%02u-%02u", tm.year, tm.month, tm.day); break; case MYSQL_TYPE_TIME: length= sprintf(dtbuffer, "%s%02u:%02u:%02u", (tm.neg ? "-" : ""), tm.hour, tm.minute, tm.second); if (field->decimals && field->decimals <= 6) { char ms[8]; sprintf(ms, ".%06lu", tm.second_part); if (field->decimals < 6) ms[field->decimals + 1]= 0; length+= strlen(ms); strcat(dtbuffer, ms); } break; case MYSQL_TYPE_DATETIME: case MYSQL_TYPE_TIMESTAMP: length= sprintf(dtbuffer, "%04u-%02u-%02u %02u:%02u:%02u", tm.year, tm.month, tm.day, tm.hour, tm.minute, tm.second); if (field->decimals && field->decimals <= 6) { char ms[8]; sprintf(ms, ".%06lu", tm.second_part); if (field->decimals < 6) ms[field->decimals + 1]= 0; length+= strlen(ms); strcat(dtbuffer, ms); } break; default: dtbuffer[0]= 0; length= 0; break; } convert_froma_string(r_param, dtbuffer, length); break; } } (*row) += len; }
O0
c
ps_fetch_datetime: pushq %rbp movq %rsp, %rbp subq $0x110, %rsp # imm = 0x110 movq %fs:0x28, %rax movq %rax, -0x8(%rbp) movq %rdi, -0x68(%rbp) movq %rsi, -0x70(%rbp) movq %rdx, -0x78(%rbp) movq -0x68(%rbp), %rax movq 0x10(%rax), %rax movq %rax, -0x80(%rbp) movq -0x78(%rbp), %rdi callq 0x47ee0 movl %eax, -0x84(%rbp) movq -0x68(%rbp), %rax movl 0x60(%rax), %eax addl $-0x7, %eax movl %eax, %ecx movq %rcx, -0xf0(%rbp) subl $0x6, %eax ja 0x60ed5 movq -0xf0(%rbp), %rax leaq 0x859d7(%rip), %rcx # 0xe67d0 movslq (%rcx,%rax,4), %rax addq %rcx, %rax jmpq *%rax movq -0x80(%rbp), %rdi movq -0x78(%rbp), %rsi movl -0x84(%rbp), %edx movq -0x70(%rbp), %rax movl 0x70(%rax), %ecx callq 0x63350 jmp 0x610ef movq -0x80(%rbp), %rdi movq -0x78(%rbp), %rsi movl -0x84(%rbp), %edx movq -0x70(%rbp), %rax movl 0x70(%rax), %ecx callq 0x63350 jmp 0x610ef movq -0x80(%rbp), %rdi movq -0x78(%rbp), %rsi movl -0x84(%rbp), %edx movq -0x70(%rbp), %rax movl 0x70(%rax), %ecx callq 0x63350 movq -0x80(%rbp), %rax movl $0x0, 0x4(%rax) movq -0x80(%rbp), %rax movl $0x0, 0x8(%rax) movq -0x80(%rbp), %rax movl $0x0, (%rax) jmp 0x610ef movq -0x78(%rbp), %rsi movl -0x84(%rbp), %edx movq -0x70(%rbp), %rax movl 0x70(%rax), %ecx leaq -0xb0(%rbp), %rdi callq 0x63350 movl -0xb0(%rbp), %eax movl %eax, -0xb4(%rbp) movl -0xb4(%rbp), %eax movb %al, %cl movq -0x68(%rbp), %rax movq 0x10(%rax), %rax movb %cl, (%rax) movl -0xb4(%rbp), %eax shrl $0x8, %eax movb %al, %cl movq -0x68(%rbp), %rax movq 0x10(%rax), %rax movb %cl, 0x1(%rax) jmp 0x610ef movq -0x78(%rbp), %rsi movl -0x84(%rbp), %edx movq -0x70(%rbp), %rax movl 0x70(%rax), %ecx leaq -0xe0(%rbp), %rdi callq 0x63350 movq -0x70(%rbp), %rax movl 0x70(%rax), %eax addl $-0x7, %eax movl %eax, %ecx movq %rcx, -0xf8(%rbp) subl $0x5, %eax ja 0x610cc movq -0xf8(%rbp), %rax leaq 0x858d0(%rip), %rcx # 0xe67ec movslq (%rcx,%rax,4), %rax addq %rcx, %rax jmpq *%rax leaq -0x50(%rbp), %rdi movl -0xe0(%rbp), %edx movl -0xdc(%rbp), %ecx movl -0xd8(%rbp), %r8d leaq 0x7eb6e(%rip), %rsi # 0xdfab1 movb $0x0, %al callq 0x38a10 cltq movq %rax, -0xe8(%rbp) jmp 0x610db leaq -0x50(%rbp), %rdi movsbl -0xc0(%rbp), %ecx leaq 0x7bbe2(%rip), %rdx # 0xdcb4c leaq 0x8558e(%rip), %rax # 0xe64ff cmpl $0x0, %ecx cmovneq %rax, %rdx movl -0xd4(%rbp), %ecx movl -0xd0(%rbp), %r8d movl -0xcc(%rbp), %r9d leaq 0x7eb2d(%rip), %rsi # 0xdfac0 movb $0x0, %al callq 0x38a10 cltq movq %rax, -0xe8(%rbp) movq -0x70(%rbp), %rax cmpl $0x0, 0x68(%rax) je 0x6100f movq -0x70(%rbp), %rax cmpl $0x6, 0x68(%rax) ja 0x6100f leaq -0x58(%rbp), %rdi movq -0xc8(%rbp), %rdx leaq 0x7eb08(%rip), %rsi # 0xdfad1 movb $0x0, %al callq 0x38a10 movq -0x70(%rbp), %rax cmpl $0x6, 0x68(%rax) jae 0x60feb movq -0x70(%rbp), %rax movl 0x68(%rax), %eax addl $0x1, %eax movl %eax, %eax movb $0x0, -0x58(%rbp,%rax) leaq -0x58(%rbp), %rdi callq 0x38410 addq -0xe8(%rbp), %rax movq %rax, -0xe8(%rbp) leaq -0x50(%rbp), %rdi leaq -0x58(%rbp), %rsi callq 0x386b0 jmp 0x610db leaq -0x50(%rbp), %rdi movl -0xe0(%rbp), %edx movl -0xdc(%rbp), %ecx movl -0xd8(%rbp), %r8d movl -0xd4(%rbp), %r9d movl -0xd0(%rbp), %r10d movl -0xcc(%rbp), %eax leaq 0x7ea92(%rip), %rsi # 0xdfad8 movl %r10d, (%rsp) movl %eax, 0x8(%rsp) movb $0x0, %al callq 0x38a10 cltq movq %rax, -0xe8(%rbp) movq -0x70(%rbp), %rax cmpl $0x0, 0x68(%rax) je 0x610ca movq -0x70(%rbp), %rax cmpl $0x6, 0x68(%rax) ja 0x610ca leaq -0x60(%rbp), %rdi movq -0xc8(%rbp), %rdx leaq 0x7ea4d(%rip), %rsi # 0xdfad1 movb $0x0, %al callq 0x38a10 movq -0x70(%rbp), %rax cmpl $0x6, 0x68(%rax) jae 0x610a6 movq -0x70(%rbp), %rax movl 0x68(%rax), %eax addl $0x1, %eax movl %eax, %eax movb $0x0, -0x60(%rbp,%rax) leaq -0x60(%rbp), %rdi callq 0x38410 addq -0xe8(%rbp), %rax movq %rax, -0xe8(%rbp) leaq -0x50(%rbp), %rdi leaq -0x60(%rbp), %rsi callq 0x386b0 jmp 0x610db movb $0x0, -0x50(%rbp) movq $0x0, -0xe8(%rbp) movq -0x68(%rbp), %rdi leaq -0x50(%rbp), %rsi movq -0xe8(%rbp), %rdx callq 0x61ae0 movl -0x84(%rbp), %eax movl %eax, %edx movq -0x78(%rbp), %rax movq (%rax), %rcx addq %rdx, %rcx movq %rcx, (%rax) movq %fs:0x28, %rax movq -0x8(%rbp), %rcx cmpq %rcx, %rax jne 0x6111f addq $0x110, %rsp # imm = 0x110 popq %rbp retq callq 0x382c0 nopw %cs:(%rax,%rax)
ps_fetch_datetime: push rbp mov rbp, rsp sub rsp, 110h mov rax, fs:28h mov [rbp+var_8], rax mov [rbp+var_68], rdi mov [rbp+var_70], rsi mov [rbp+var_78], rdx mov rax, [rbp+var_68] mov rax, [rax+10h] mov [rbp+var_80], rax mov rdi, [rbp+var_78] call net_field_length mov [rbp+var_84], eax mov rax, [rbp+var_68] mov eax, [rax+60h] add eax, 0FFFFFFF9h; switch 7 cases mov ecx, eax mov [rbp+var_F0], rcx sub eax, 6 ja def_60E00; jumptable 0000000000060E00 default case, cases 8,9 mov rax, [rbp+var_F0] lea rcx, jpt_60E00 movsxd rax, ds:(jpt_60E00 - 0E67D0h)[rcx+rax*4] add rax, rcx jmp rax; switch jump loc_60E02: mov rdi, [rbp+var_80]; jumptable 0000000000060E00 cases 7,12 mov rsi, [rbp+var_78] mov edx, [rbp+var_84] mov rax, [rbp+var_70] mov ecx, [rax+70h] call convert_to_datetime jmp loc_610EF loc_60E21: mov rdi, [rbp+var_80]; jumptable 0000000000060E00 case 10 mov rsi, [rbp+var_78] mov edx, [rbp+var_84] mov rax, [rbp+var_70] mov ecx, [rax+70h] call convert_to_datetime jmp loc_610EF loc_60E40: mov rdi, [rbp+var_80]; jumptable 0000000000060E00 case 11 mov rsi, [rbp+var_78] mov edx, [rbp+var_84] mov rax, [rbp+var_70] mov ecx, [rax+70h] call convert_to_datetime mov rax, [rbp+var_80] mov dword ptr [rax+4], 0 mov rax, [rbp+var_80] mov dword ptr [rax+8], 0 mov rax, [rbp+var_80] mov dword ptr [rax], 0 jmp loc_610EF loc_60E7F: mov rsi, [rbp+var_78]; jumptable 0000000000060E00 case 13 mov edx, [rbp+var_84] mov rax, [rbp+var_70] mov ecx, [rax+70h] lea rdi, [rbp+var_B0] call convert_to_datetime mov eax, [rbp+var_B0] mov [rbp+var_B4], eax mov eax, [rbp+var_B4] mov cl, al mov rax, [rbp+var_68] mov rax, [rax+10h] mov [rax], cl mov eax, [rbp+var_B4] shr eax, 8 mov cl, al mov rax, [rbp+var_68] mov rax, [rax+10h] mov [rax+1], cl jmp loc_610EF def_60E00: mov rsi, [rbp+var_78]; jumptable 0000000000060E00 default case, cases 8,9 mov edx, [rbp+var_84] mov rax, [rbp+var_70] mov ecx, [rax+70h] lea rdi, [rbp+var_E0] call convert_to_datetime mov rax, [rbp+var_70] mov eax, [rax+70h] add eax, 0FFFFFFF9h; switch 6 cases mov ecx, eax mov [rbp+var_F8], rcx sub eax, 5 ja def_60F23; jumptable 0000000000060F23 default case, cases 8,9 mov rax, [rbp+var_F8] lea rcx, jpt_60F23 movsxd rax, ds:(jpt_60F23 - 0E67ECh)[rcx+rax*4] add rax, rcx jmp rax; switch jump loc_60F25: lea rdi, [rbp+var_50]; jumptable 0000000000060F23 case 10 mov edx, [rbp+var_E0] mov ecx, [rbp+var_DC] mov r8d, [rbp+var_D8] lea rsi, a04u02u02u; "%04u-%02u-%02u" mov al, 0 call _sprintf cdqe mov [rbp+var_E8], rax jmp loc_610DB loc_60F58: lea rdi, [rbp+var_50]; jumptable 0000000000060F23 case 11 movsx ecx, [rbp+var_C0] lea rdx, asc_DCB4A+2; "" lea rax, asc_E64FC+3; "-" cmp ecx, 0 cmovnz rdx, rax mov ecx, [rbp+var_D4] mov r8d, [rbp+var_D0] mov r9d, [rbp+var_CC] lea rsi, aS02u02u02u; "%s%02u:%02u:%02u" mov al, 0 call _sprintf cdqe mov [rbp+var_E8], rax mov rax, [rbp+var_70] cmp dword ptr [rax+68h], 0 jz short loc_6100F mov rax, [rbp+var_70] cmp dword ptr [rax+68h], 6 ja short loc_6100F lea rdi, [rbp+var_58] mov rdx, [rbp+var_C8] lea rsi, a06lu; ".%06lu" mov al, 0 call _sprintf mov rax, [rbp+var_70] cmp dword ptr [rax+68h], 6 jnb short loc_60FEB mov rax, [rbp+var_70] mov eax, [rax+68h] add eax, 1 mov eax, eax mov [rbp+rax+var_58], 0 loc_60FEB: lea rdi, [rbp+var_58] call _strlen add rax, [rbp+var_E8] mov [rbp+var_E8], rax lea rdi, [rbp+var_50] lea rsi, [rbp+var_58] call _strcat loc_6100F: jmp loc_610DB loc_61014: lea rdi, [rbp+var_50]; jumptable 0000000000060F23 cases 7,12 mov edx, [rbp+var_E0] mov ecx, [rbp+var_DC] mov r8d, [rbp+var_D8] mov r9d, [rbp+var_D4] mov r10d, [rbp+var_D0] mov eax, [rbp+var_CC] lea rsi, a04u02u02u02u02; "%04u-%02u-%02u %02u:%02u:%02u" mov [rsp+110h+var_110], r10d mov [rsp+110h+var_108], eax mov al, 0 call _sprintf cdqe mov [rbp+var_E8], rax mov rax, [rbp+var_70] cmp dword ptr [rax+68h], 0 jz short loc_610CA mov rax, [rbp+var_70] cmp dword ptr [rax+68h], 6 ja short loc_610CA lea rdi, [rbp+var_60] mov rdx, [rbp+var_C8] lea rsi, a06lu; ".%06lu" mov al, 0 call _sprintf mov rax, [rbp+var_70] cmp dword ptr [rax+68h], 6 jnb short loc_610A6 mov rax, [rbp+var_70] mov eax, [rax+68h] add eax, 1 mov eax, eax mov [rbp+rax+var_60], 0 loc_610A6: lea rdi, [rbp+var_60] call _strlen add rax, [rbp+var_E8] mov [rbp+var_E8], rax lea rdi, [rbp+var_50] lea rsi, [rbp+var_60] call _strcat loc_610CA: jmp short loc_610DB def_60F23: mov [rbp+var_50], 0; jumptable 0000000000060F23 default case, cases 8,9 mov [rbp+var_E8], 0 loc_610DB: mov rdi, [rbp+var_68] lea rsi, [rbp+var_50] mov rdx, [rbp+var_E8] call convert_froma_string loc_610EF: mov eax, [rbp+var_84] mov edx, eax mov rax, [rbp+var_78] mov rcx, [rax] add rcx, rdx mov [rax], rcx mov rax, fs:28h mov rcx, [rbp+var_8] cmp rax, rcx jnz short loc_6111F add rsp, 110h pop rbp retn loc_6111F: call ___stack_chk_fail
unsigned long long ps_fetch_datetime(long long a1, long long a2, unsigned __int8 **a3) { const char *v3; // rdx long long v5; // [rsp+28h] [rbp-E8h] long long v6; // [rsp+28h] [rbp-E8h] int v7; // [rsp+30h] [rbp-E0h] BYREF int v8; // [rsp+34h] [rbp-DCh] int v9; // [rsp+38h] [rbp-D8h] int v10; // [rsp+3Ch] [rbp-D4h] int v11; // [rsp+40h] [rbp-D0h] int v12; // [rsp+44h] [rbp-CCh] long long v13; // [rsp+48h] [rbp-C8h] char v14; // [rsp+50h] [rbp-C0h] int v15; // [rsp+5Ch] [rbp-B4h] _DWORD v16[11]; // [rsp+60h] [rbp-B0h] BYREF unsigned int v17; // [rsp+8Ch] [rbp-84h] _DWORD *v18; // [rsp+90h] [rbp-80h] unsigned __int8 **v19; // [rsp+98h] [rbp-78h] long long v20; // [rsp+A0h] [rbp-70h] long long v21; // [rsp+A8h] [rbp-68h] _BYTE v22[8]; // [rsp+B0h] [rbp-60h] BYREF _BYTE v23[8]; // [rsp+B8h] [rbp-58h] BYREF _BYTE v24[72]; // [rsp+C0h] [rbp-50h] BYREF unsigned long long v25; // [rsp+108h] [rbp-8h] v25 = __readfsqword(0x28u); v21 = a1; v20 = a2; v19 = a3; v18 = *(_DWORD **)(a1 + 16); v17 = net_field_length(a3); switch ( *(_DWORD *)(a1 + 96) ) { case 7: case 0xA: case 0xC: convert_to_datetime(v18, v19, v17, *(unsigned int *)(v20 + 112)); break; case 0xB: convert_to_datetime(v18, v19, v17, *(unsigned int *)(v20 + 112)); v18[1] = 0; v18[2] = 0; *v18 = 0; break; case 0xD: convert_to_datetime(v16, v19, v17, *(unsigned int *)(v20 + 112)); v15 = v16[0]; **(_BYTE **)(v21 + 16) = v16[0]; *(_BYTE *)(*(_QWORD *)(v21 + 16) + 1LL) = BYTE1(v15); break; default: convert_to_datetime(&v7, v19, v17, *(unsigned int *)(v20 + 112)); switch ( *(_DWORD *)(v20 + 112) ) { case 7: case 0xC: v6 = (int)sprintf(v24, "%04u-%02u-%02u %02u:%02u:%02u", v7, v8, v9, v10, v11, v12); if ( *(_DWORD *)(v20 + 104) && *(_DWORD *)(v20 + 104) <= 6u ) { sprintf(v22, ".%06lu", v13); if ( *(_DWORD *)(v20 + 104) < 6u ) v22[*(_DWORD *)(v20 + 104) + 1] = 0; v6 += strlen(v22); strcat(v24, v22); } goto LABEL_22; case 0xA: v5 = (int)sprintf(v24, "%04u-%02u-%02u", v7, v8, v9); convert_froma_string(v21, v24, v5); goto LABEL_23; case 0xB: v3 = ""; if ( v14 ) v3 = "-"; v6 = (int)sprintf(v24, "%s%02u:%02u:%02u", v3, v10, v11, v12); if ( *(_DWORD *)(v20 + 104) && *(_DWORD *)(v20 + 104) <= 6u ) { sprintf(v23, ".%06lu", v13); if ( *(_DWORD *)(v20 + 104) < 6u ) v23[*(_DWORD *)(v20 + 104) + 1] = 0; v6 += strlen(v23); strcat(v24, v23); } goto LABEL_22; default: v24[0] = 0; v6 = 0LL; LABEL_22: convert_froma_string(v21, v24, v6); break; } break; } LABEL_23: *v19 += v17; return __readfsqword(0x28u); }
ps_fetch_datetime: PUSH RBP MOV RBP,RSP SUB RSP,0x110 MOV RAX,qword ptr FS:[0x28] MOV qword ptr [RBP + -0x8],RAX MOV qword ptr [RBP + -0x68],RDI MOV qword ptr [RBP + -0x70],RSI MOV qword ptr [RBP + -0x78],RDX MOV RAX,qword ptr [RBP + -0x68] MOV RAX,qword ptr [RAX + 0x10] MOV qword ptr [RBP + -0x80],RAX MOV RDI,qword ptr [RBP + -0x78] CALL 0x00147ee0 MOV dword ptr [RBP + -0x84],EAX MOV RAX,qword ptr [RBP + -0x68] MOV EAX,dword ptr [RAX + 0x60] ADD EAX,-0x7 MOV ECX,EAX MOV qword ptr [RBP + -0xf0],RCX SUB EAX,0x6 JA 0x00160ed5 MOV RAX,qword ptr [RBP + -0xf0] LEA RCX,[0x1e67d0] MOVSXD RAX,dword ptr [RCX + RAX*0x4] ADD RAX,RCX switchD: JMP RAX caseD_7: MOV RDI,qword ptr [RBP + -0x80] MOV RSI,qword ptr [RBP + -0x78] MOV EDX,dword ptr [RBP + -0x84] MOV RAX,qword ptr [RBP + -0x70] MOV ECX,dword ptr [RAX + 0x70] CALL 0x00163350 JMP 0x001610ef caseD_a: MOV RDI,qword ptr [RBP + -0x80] MOV RSI,qword ptr [RBP + -0x78] MOV EDX,dword ptr [RBP + -0x84] MOV RAX,qword ptr [RBP + -0x70] MOV ECX,dword ptr [RAX + 0x70] CALL 0x00163350 JMP 0x001610ef caseD_b: MOV RDI,qword ptr [RBP + -0x80] MOV RSI,qword ptr [RBP + -0x78] MOV EDX,dword ptr [RBP + -0x84] MOV RAX,qword ptr [RBP + -0x70] MOV ECX,dword ptr [RAX + 0x70] CALL 0x00163350 MOV RAX,qword ptr [RBP + -0x80] MOV dword ptr [RAX + 0x4],0x0 MOV RAX,qword ptr [RBP + -0x80] MOV dword ptr [RAX + 0x8],0x0 MOV RAX,qword ptr [RBP + -0x80] MOV dword ptr [RAX],0x0 JMP 0x001610ef caseD_d: MOV RSI,qword ptr [RBP + -0x78] MOV EDX,dword ptr [RBP + -0x84] MOV RAX,qword ptr [RBP + -0x70] MOV ECX,dword ptr [RAX + 0x70] LEA RDI,[RBP + -0xb0] CALL 0x00163350 MOV EAX,dword ptr [RBP + -0xb0] MOV dword ptr [RBP + -0xb4],EAX MOV EAX,dword ptr [RBP + -0xb4] MOV CL,AL MOV RAX,qword ptr [RBP + -0x68] MOV RAX,qword ptr [RAX + 0x10] MOV byte ptr [RAX],CL MOV EAX,dword ptr [RBP + -0xb4] SHR EAX,0x8 MOV CL,AL MOV RAX,qword ptr [RBP + -0x68] MOV RAX,qword ptr [RAX + 0x10] MOV byte ptr [RAX + 0x1],CL JMP 0x001610ef caseD_8: MOV RSI,qword ptr [RBP + -0x78] MOV EDX,dword ptr [RBP + -0x84] MOV RAX,qword ptr [RBP + -0x70] MOV ECX,dword ptr [RAX + 0x70] LEA RDI,[RBP + -0xe0] CALL 0x00163350 MOV RAX,qword ptr [RBP + -0x70] MOV EAX,dword ptr [RAX + 0x70] ADD EAX,-0x7 MOV ECX,EAX MOV qword ptr [RBP + -0xf8],RCX SUB EAX,0x5 JA 0x001610cc MOV RAX,qword ptr [RBP + -0xf8] LEA RCX,[0x1e67ec] MOVSXD RAX,dword ptr [RCX + RAX*0x4] ADD RAX,RCX switchD: JMP RAX caseD_a: LEA RDI,[RBP + -0x50] MOV EDX,dword ptr [RBP + -0xe0] MOV ECX,dword ptr [RBP + -0xdc] MOV R8D,dword ptr [RBP + -0xd8] LEA RSI,[0x1dfab1] MOV AL,0x0 CALL 0x00138a10 CDQE MOV qword ptr [RBP + -0xe8],RAX JMP 0x001610db caseD_b: LEA RDI,[RBP + -0x50] MOVSX ECX,byte ptr [RBP + -0xc0] LEA RDX,[0x1dcb4c] LEA RAX,[0x1e64ff] CMP ECX,0x0 CMOVNZ RDX,RAX MOV ECX,dword ptr [RBP + -0xd4] MOV R8D,dword ptr [RBP + -0xd0] MOV R9D,dword ptr [RBP + -0xcc] LEA RSI,[0x1dfac0] MOV AL,0x0 CALL 0x00138a10 CDQE MOV qword ptr [RBP + -0xe8],RAX MOV RAX,qword ptr [RBP + -0x70] CMP dword ptr [RAX + 0x68],0x0 JZ 0x0016100f MOV RAX,qword ptr [RBP + -0x70] CMP dword ptr [RAX + 0x68],0x6 JA 0x0016100f LEA RDI,[RBP + -0x58] MOV RDX,qword ptr [RBP + -0xc8] LEA RSI,[0x1dfad1] MOV AL,0x0 CALL 0x00138a10 MOV RAX,qword ptr [RBP + -0x70] CMP dword ptr [RAX + 0x68],0x6 JNC 0x00160feb MOV RAX,qword ptr [RBP + -0x70] MOV EAX,dword ptr [RAX + 0x68] ADD EAX,0x1 MOV EAX,EAX MOV byte ptr [RBP + RAX*0x1 + -0x58],0x0 LAB_00160feb: LEA RDI,[RBP + -0x58] CALL 0x00138410 ADD RAX,qword ptr [RBP + -0xe8] MOV qword ptr [RBP + -0xe8],RAX LEA RDI,[RBP + -0x50] LEA RSI,[RBP + -0x58] CALL 0x001386b0 LAB_0016100f: JMP 0x001610db caseD_7: LEA RDI,[RBP + -0x50] MOV EDX,dword ptr [RBP + -0xe0] MOV ECX,dword ptr [RBP + -0xdc] MOV R8D,dword ptr [RBP + -0xd8] MOV R9D,dword ptr [RBP + -0xd4] MOV R10D,dword ptr [RBP + -0xd0] MOV EAX,dword ptr [RBP + -0xcc] LEA RSI,[0x1dfad8] MOV dword ptr [RSP],R10D MOV dword ptr [RSP + 0x8],EAX MOV AL,0x0 CALL 0x00138a10 CDQE MOV qword ptr [RBP + -0xe8],RAX MOV RAX,qword ptr [RBP + -0x70] CMP dword ptr [RAX + 0x68],0x0 JZ 0x001610ca MOV RAX,qword ptr [RBP + -0x70] CMP dword ptr [RAX + 0x68],0x6 JA 0x001610ca LEA RDI,[RBP + -0x60] MOV RDX,qword ptr [RBP + -0xc8] LEA RSI,[0x1dfad1] MOV AL,0x0 CALL 0x00138a10 MOV RAX,qword ptr [RBP + -0x70] CMP dword ptr [RAX + 0x68],0x6 JNC 0x001610a6 MOV RAX,qword ptr [RBP + -0x70] MOV EAX,dword ptr [RAX + 0x68] ADD EAX,0x1 MOV EAX,EAX MOV byte ptr [RBP + RAX*0x1 + -0x60],0x0 LAB_001610a6: LEA RDI,[RBP + -0x60] CALL 0x00138410 ADD RAX,qword ptr [RBP + -0xe8] MOV qword ptr [RBP + -0xe8],RAX LEA RDI,[RBP + -0x50] LEA RSI,[RBP + -0x60] CALL 0x001386b0 LAB_001610ca: JMP 0x001610db caseD_8: MOV byte ptr [RBP + -0x50],0x0 MOV qword ptr [RBP + -0xe8],0x0 LAB_001610db: MOV RDI,qword ptr [RBP + -0x68] LEA RSI,[RBP + -0x50] MOV RDX,qword ptr [RBP + -0xe8] CALL 0x00161ae0 LAB_001610ef: MOV EAX,dword ptr [RBP + -0x84] MOV EDX,EAX MOV RAX,qword ptr [RBP + -0x78] MOV RCX,qword ptr [RAX] ADD RCX,RDX MOV qword ptr [RAX],RCX MOV RAX,qword ptr FS:[0x28] MOV RCX,qword ptr [RBP + -0x8] CMP RAX,RCX JNZ 0x0016111f ADD RSP,0x110 POP RBP RET LAB_0016111f: CALL 0x001382c0
void ps_fetch_datetime(long param_1,long param_2,long *param_3) { int iVar1; size_t sVar2; int1 *puVar3; long in_FS_OFFSET; long local_f0; uint local_e8; uint local_e4; uint local_e0; uint local_dc; uint local_d8; uint local_d4; int8 local_d0; char local_c8; int4 local_bc; int4 local_b8 [11]; uint local_8c; int4 *local_88; long *local_80; long local_78; long local_70; char local_68 [8]; char local_60 [8]; char local_58 [72]; long local_10; local_10 = *(long *)(in_FS_OFFSET + 0x28); local_88 = *(int4 **)(param_1 + 0x10); local_80 = param_3; local_78 = param_2; local_70 = param_1; local_8c = net_field_length(param_3); switch(*(int4 *)(local_70 + 0x60)) { case 7: case 0xc: convert_to_datetime(local_88,local_80,local_8c,*(int4 *)(local_78 + 0x70)); break; default: convert_to_datetime(&local_e8,local_80,local_8c,*(int4 *)(local_78 + 0x70)); switch(*(int4 *)(local_78 + 0x70)) { case 7: case 0xc: iVar1 = sprintf(local_58,"%04u-%02u-%02u %02u:%02u:%02u",(ulong)local_e8,(ulong)local_e4, (ulong)local_e0,(ulong)local_dc,local_d8,local_d4); local_f0 = (long)iVar1; if ((*(int *)(local_78 + 0x68) != 0) && (*(uint *)(local_78 + 0x68) < 7)) { sprintf(local_68,".%06lu",local_d0); if (*(uint *)(local_78 + 0x68) < 6) { local_68[*(int *)(local_78 + 0x68) + 1] = '\0'; } sVar2 = strlen(local_68); local_f0 = sVar2 + local_f0; strcat(local_58,local_68); } break; default: local_58[0] = '\0'; local_f0 = 0; break; case 10: iVar1 = sprintf(local_58,"%04u-%02u-%02u",(ulong)local_e8,(ulong)local_e4,(ulong)local_e0); local_f0 = (long)iVar1; break; case 0xb: puVar3 = &DAT_001dcb4c; if (local_c8 != '\0') { puVar3 = &DAT_001e64ff; } iVar1 = sprintf(local_58,"%s%02u:%02u:%02u",puVar3,(ulong)local_dc,(ulong)local_d8, (ulong)local_d4); local_f0 = (long)iVar1; if ((*(int *)(local_78 + 0x68) != 0) && (*(uint *)(local_78 + 0x68) < 7)) { sprintf(local_60,".%06lu",local_d0); if (*(uint *)(local_78 + 0x68) < 6) { local_60[*(int *)(local_78 + 0x68) + 1] = '\0'; } sVar2 = strlen(local_60); local_f0 = sVar2 + local_f0; strcat(local_58,local_60); } } convert_froma_string(local_70,local_58,local_f0); break; case 10: convert_to_datetime(local_88,local_80,local_8c,*(int4 *)(local_78 + 0x70)); break; case 0xb: convert_to_datetime(local_88,local_80,local_8c,*(int4 *)(local_78 + 0x70)); local_88[1] = 0; local_88[2] = 0; *local_88 = 0; break; case 0xd: convert_to_datetime(local_b8,local_80,local_8c,*(int4 *)(local_78 + 0x70)); local_bc = local_b8[0]; **(int1 **)(local_70 + 0x10) = (char)local_b8[0]; *(char *)(*(long *)(local_70 + 0x10) + 1) = (char)((uint)local_b8[0] >> 8); } *local_80 = *local_80 + (ulong)local_8c; if (*(long *)(in_FS_OFFSET + 0x28) == local_10) { return; } /* WARNING: Subroutine does not return */ __stack_chk_fail(); }
40,871
my_hash_sort_utf8mb3_nopad
eloqsql/strings/ctype-utf8.c
static void my_hash_sort_utf8mb3_nopad(CHARSET_INFO *cs, const uchar *s, size_t slen, ulong *nr1, ulong *nr2) { my_wc_t wc; int res; const uchar *e= s+slen; MY_UNICASE_INFO *uni_plane= cs->caseinfo; register ulong m1= *nr1, m2= *nr2; while ((s < e) && (res=my_utf8mb3_uni(cs,&wc, (uchar *)s, (uchar*)e))>0 ) { my_tosort_unicode(uni_plane, &wc, cs->state); MY_HASH_ADD_16(m1, m2, wc); s+= res; } *nr1= m1; *nr2= m2; }
O3
c
my_hash_sort_utf8mb3_nopad: pushq %rbp movq %rsp, %rbp pushq %r15 pushq %r14 pushq %r13 pushq %r12 pushq %rbx subq $0x28, %rsp movq %rcx, -0x38(%rbp) movq (%rcx), %r13 movq %r8, -0x40(%rbp) movq (%r8), %r14 testq %rdx, %rdx jle 0x88c96 movq %rdx, %r15 movq %rsi, %r12 addq %rsi, %r15 movq %rdi, -0x48(%rbp) movq 0x78(%rdi), %rbx leaq -0x30(%rbp), %rsi movq %r12, %rdx movq %r15, %rcx callq 0x873eb testl %eax, %eax jle 0x88c96 movq -0x30(%rbp), %rdx movl $0xfffd, %esi # imm = 0xFFFD cmpq (%rbx), %rdx ja 0x88c3e movq 0x8(%rbx), %rsi movq %rdx, %rcx shrq $0x8, %rcx movq (%rsi,%rcx,8), %rsi testq %rsi, %rsi je 0x88c4a movq -0x48(%rbp), %rcx movl 0xc(%rcx), %ecx xorl %edi, %edi testw %cx, %cx setns %dil movzbl %dl, %ecx leaq (%rcx,%rcx,2), %rcx leaq (%rsi,%rcx,4), %rcx movl 0x4(%rcx,%rdi,4), %esi movq %rsi, -0x30(%rbp) movl %esi, %ecx shrl $0x8, %ecx movq %rsi, %rdx movl %r13d, %esi andl $0x3f, %esi addq %r14, %rsi movzbl %dl, %edx imulq %rsi, %rdx movq %r13, %rsi shlq $0x8, %rsi addq %rdx, %rsi xorq %r13, %rsi movl %esi, %edx andl $0x3f, %edx addq %r14, %rdx addq $0x3, %rdx imulq %rcx, %rdx movq %rsi, %r13 shlq $0x8, %r13 addq %rdx, %r13 xorq %rsi, %r13 addq $0x6, %r14 movl %eax, %eax addq %rax, %r12 cmpq %r15, %r12 jb 0x88be6 movq -0x38(%rbp), %rax movq %r13, (%rax) movq -0x40(%rbp), %rax movq %r14, (%rax) addq $0x28, %rsp popq %rbx popq %r12 popq %r13 popq %r14 popq %r15 popq %rbp retq
my_hash_sort_utf8mb3_nopad: push rbp mov rbp, rsp push r15 push r14 push r13 push r12 push rbx sub rsp, 28h mov [rbp+var_38], rcx mov r13, [rcx] mov [rbp+var_40], r8 mov r14, [r8] test rdx, rdx jle loc_88C96 mov r15, rdx mov r12, rsi add r15, rsi mov [rbp+var_48], rdi mov rbx, [rdi+78h] loc_88BE6: lea rsi, [rbp+var_30] mov rdx, r12 mov rcx, r15 call my_utf8mb3_uni test eax, eax jle loc_88C96 mov rdx, [rbp+var_30] mov esi, 0FFFDh cmp rdx, [rbx] ja short loc_88C3E mov rsi, [rbx+8] mov rcx, rdx shr rcx, 8 mov rsi, [rsi+rcx*8] test rsi, rsi jz short loc_88C4A mov rcx, [rbp+var_48] mov ecx, [rcx+0Ch] xor edi, edi test cx, cx setns dil movzx ecx, dl lea rcx, [rcx+rcx*2] lea rcx, [rsi+rcx*4] mov esi, [rcx+rdi*4+4] loc_88C3E: mov [rbp+var_30], rsi mov ecx, esi shr ecx, 8 mov rdx, rsi loc_88C4A: mov esi, r13d and esi, 3Fh add rsi, r14 movzx edx, dl imul rdx, rsi mov rsi, r13 shl rsi, 8 add rsi, rdx xor rsi, r13 mov edx, esi and edx, 3Fh add rdx, r14 add rdx, 3 imul rdx, rcx mov r13, rsi shl r13, 8 add r13, rdx xor r13, rsi add r14, 6 mov eax, eax add r12, rax cmp r12, r15 jb loc_88BE6 loc_88C96: mov rax, [rbp+var_38] mov [rax], r13 mov rax, [rbp+var_40] mov [rax], r14 add rsp, 28h pop rbx pop r12 pop r13 pop r14 pop r15 pop rbp retn
_QWORD * my_hash_sort_utf8mb3_nopad(long long a1, unsigned __int8 *a2, long long a3, long long *a4, _QWORD *a5) { long long v5; // r13 long long v6; // r14 unsigned __int8 *v7; // r12 unsigned long long v8; // r15 _QWORD *v9; // rbx int v10; // eax unsigned __int8 v11; // dl long long v12; // rsi unsigned long long v13; // rcx long long v14; // rsi long long v15; // rsi _QWORD *result; // rax long long v17; // [rsp+8h] [rbp-48h] unsigned long long v20[6]; // [rsp+20h] [rbp-30h] BYREF v5 = *a4; v6 = *a5; if ( a3 > 0 ) { v7 = a2; v8 = (unsigned long long)&a2[a3]; v17 = a1; v9 = *(_QWORD **)(a1 + 120); while ( 1 ) { v10 = my_utf8mb3_uni(a1, v20, v7, v8); if ( v10 <= 0 ) goto LABEL_9; v11 = v20[0]; v12 = 65533LL; if ( v20[0] > *v9 ) goto LABEL_7; v13 = v20[0] >> 8; v14 = *(_QWORD *)(v9[1] + 8 * (v20[0] >> 8)); if ( v14 ) break; LABEL_8: v15 = v5 ^ ((v6 + (v5 & 0x3F)) * v11 + (v5 << 8)); v5 = v15 ^ (v13 * (v6 + (((unsigned __int8)v5 ^ (unsigned __int8)((v6 + (v5 & 0x3F)) * v11)) & 0x3F) + 3) + (v15 << 8)); v6 += 6LL; v7 += (unsigned int)v10; if ( (unsigned long long)v7 >= v8 ) goto LABEL_9; } a1 = (*(_DWORD *)(v17 + 12) & 0x8000u) == 0; v12 = *(unsigned int *)(v14 + 12LL * LOBYTE(v20[0]) + 4 * a1 + 4); LABEL_7: v20[0] = v12; v13 = (unsigned int)v12 >> 8; v11 = v12; goto LABEL_8; } LABEL_9: *a4 = v5; result = a5; *a5 = v6; return result; }
my_hash_sort_utf8mb3_nopad: PUSH RBP MOV RBP,RSP PUSH R15 PUSH R14 PUSH R13 PUSH R12 PUSH RBX SUB RSP,0x28 MOV qword ptr [RBP + -0x38],RCX MOV R13,qword ptr [RCX] MOV qword ptr [RBP + -0x40],R8 MOV R14,qword ptr [R8] TEST RDX,RDX JLE 0x00188c96 MOV R15,RDX MOV R12,RSI ADD R15,RSI MOV qword ptr [RBP + -0x48],RDI MOV RBX,qword ptr [RDI + 0x78] LAB_00188be6: LEA RSI,[RBP + -0x30] MOV RDX,R12 MOV RCX,R15 CALL 0x001873eb TEST EAX,EAX JLE 0x00188c96 MOV RDX,qword ptr [RBP + -0x30] MOV ESI,0xfffd CMP RDX,qword ptr [RBX] JA 0x00188c3e MOV RSI,qword ptr [RBX + 0x8] MOV RCX,RDX SHR RCX,0x8 MOV RSI,qword ptr [RSI + RCX*0x8] TEST RSI,RSI JZ 0x00188c4a MOV RCX,qword ptr [RBP + -0x48] MOV ECX,dword ptr [RCX + 0xc] XOR EDI,EDI TEST CX,CX SETNS DIL MOVZX ECX,DL LEA RCX,[RCX + RCX*0x2] LEA RCX,[RSI + RCX*0x4] MOV ESI,dword ptr [RCX + RDI*0x4 + 0x4] LAB_00188c3e: MOV qword ptr [RBP + -0x30],RSI MOV ECX,ESI SHR ECX,0x8 MOV RDX,RSI LAB_00188c4a: MOV ESI,R13D AND ESI,0x3f ADD RSI,R14 MOVZX EDX,DL IMUL RDX,RSI MOV RSI,R13 SHL RSI,0x8 ADD RSI,RDX XOR RSI,R13 MOV EDX,ESI AND EDX,0x3f ADD RDX,R14 ADD RDX,0x3 IMUL RDX,RCX MOV R13,RSI SHL R13,0x8 ADD R13,RDX XOR R13,RSI ADD R14,0x6 MOV EAX,EAX ADD R12,RAX CMP R12,R15 JC 0x00188be6 LAB_00188c96: MOV RAX,qword ptr [RBP + -0x38] MOV qword ptr [RAX],R13 MOV RAX,qword ptr [RBP + -0x40] MOV qword ptr [RAX],R14 ADD RSP,0x28 POP RBX POP R12 POP R13 POP R14 POP R15 POP RBP RET
void my_hash_sort_utf8mb3_nopad (long param_1,ulong param_2,long param_3,ulong *param_4,long *param_5) { ulong *puVar1; long lVar2; uint uVar3; ulong uVar4; ulong uVar5; ulong uVar6; long lVar7; ulong uVar8; ulong local_38; uVar6 = *param_4; lVar7 = *param_5; if (0 < param_3) { uVar8 = param_3 + param_2; puVar1 = *(ulong **)(param_1 + 0x78); do { uVar3 = my_utf8mb3_uni(); if ((int)uVar3 < 1) break; uVar5 = 0xfffd; if (*puVar1 < local_38) { LAB_00188c3e: uVar4 = uVar5 >> 8; local_38 = uVar5; } else { uVar4 = local_38 >> 8; lVar2 = *(long *)(puVar1[1] + uVar4 * 8); if (lVar2 != 0) { uVar5 = (ulong)*(uint *)(lVar2 + (local_38 & 0xff) * 0xc + 4 + (ulong)(-1 < (short)*(int4 *)(param_1 + 0xc)) * 4); goto LAB_00188c3e; } } uVar6 = uVar6 * 0x100 + (local_38 & 0xff) * ((ulong)((uint)uVar6 & 0x3f) + lVar7) ^ uVar6; uVar6 = uVar6 * 0x100 + ((ulong)((uint)uVar6 & 0x3f) + lVar7 + 3) * uVar4 ^ uVar6; lVar7 = lVar7 + 6; param_2 = param_2 + uVar3; } while (param_2 < uVar8); } *param_4 = uVar6; *param_5 = lVar7; return; }
40,872
check_expression(Virtual_column_info*, st_mysql_const_lex_string const*, enum_vcol_info_type, Alter_info*)
eloqsql/sql/field.cc
bool check_expression(Virtual_column_info *vcol, const LEX_CSTRING *name, enum_vcol_info_type type, Alter_info *alter_info) { bool ret; Item::vcol_func_processor_result res; res.alter_info= alter_info; if (!vcol->name.length) vcol->name= *name; /* Walk through the Item tree checking if all items are valid to be part of the virtual column */ ret= vcol->expr->walk(&Item::check_vcol_func_processor, 0, &res); vcol->flags= res.errors; uint filter= VCOL_IMPOSSIBLE; if (type != VCOL_GENERATED_VIRTUAL && type != VCOL_DEFAULT) filter|= VCOL_NOT_STRICTLY_DETERMINISTIC; if (type == VCOL_GENERATED_VIRTUAL) filter|= VCOL_NOT_VIRTUAL; if (unlikely(ret || (res.errors & filter))) { my_error(ER_GENERATED_COLUMN_FUNCTION_IS_NOT_ALLOWED, MYF(0), res.name, vcol_type_name(type), name->str); return TRUE; } /* Safe to call before fix_fields as long as vcol's don't include sub queries (which is now checked in check_vcol_func_processor) */ if (vcol->expr->check_cols(1)) return TRUE; return FALSE; }
O0
cpp
check_expression(Virtual_column_info*, st_mysql_const_lex_string const*, enum_vcol_info_type, Alter_info*): pushq %rbp movq %rsp, %rbp subq $0x90, %rsp movq %rdi, -0x10(%rbp) movq %rsi, -0x18(%rbp) movl %edx, -0x1c(%rbp) movq %rcx, -0x28(%rbp) leaq -0x48(%rbp), %rdi callq 0x56ff90 movq -0x28(%rbp), %rax movq %rax, -0x38(%rbp) movq -0x10(%rbp), %rax cmpq $0x0, 0x20(%rax) jne 0x8c430e movq -0x18(%rbp), %rax movq (%rax), %rcx movq %rcx, -0x68(%rbp) movq 0x8(%rax), %rax movq %rax, -0x60(%rbp) movq -0x68(%rbp), %rsi movq -0x60(%rbp), %rdx leaq -0x58(%rbp), %rdi callq 0x5a3d50 movq -0x10(%rbp), %rax movq -0x58(%rbp), %rcx movq %rcx, 0x18(%rax) movq -0x50(%rbp), %rcx movq %rcx, 0x20(%rax) movq -0x10(%rbp), %rax movq 0x10(%rax), %rdi movq $0x0, -0x70(%rbp) movq $0x471, -0x78(%rbp) # imm = 0x471 movq -0x78(%rbp), %rsi movq -0x70(%rbp), %rdx movq (%rdi), %rax xorl %ecx, %ecx leaq -0x48(%rbp), %r8 callq *0x308(%rax) andb $0x1, %al movb %al, -0x29(%rbp) movl -0x48(%rbp), %ecx movq -0x10(%rbp), %rax movl %ecx, 0x28(%rax) movl $0x20, -0x7c(%rbp) cmpl $0x0, -0x1c(%rbp) je 0x8c4368 cmpl $0x2, -0x1c(%rbp) je 0x8c4368 movl -0x7c(%rbp), %eax orl $0xe, %eax movl %eax, -0x7c(%rbp) cmpl $0x0, -0x1c(%rbp) jne 0x8c4377 movl -0x7c(%rbp), %eax orl $0x40, %eax movl %eax, -0x7c(%rbp) movb $0x1, %al testb $0x1, -0x29(%rbp) movb %al, -0x7d(%rbp) jne 0x8c4391 movl -0x48(%rbp), %eax andl -0x7c(%rbp), %eax cmpl $0x0, %eax setne %al movb %al, -0x7d(%rbp) movb -0x7d(%rbp), %al andb $0x1, %al movzbl %al, %eax cmpl $0x0, %eax je 0x8c43d8 movq -0x40(%rbp), %rax movq %rax, -0x88(%rbp) movl -0x1c(%rbp), %edi callq 0x8c4410 movq -0x88(%rbp), %rdx movq %rax, %rcx movq -0x18(%rbp), %rax movq (%rax), %r8 movl $0x76d, %edi # imm = 0x76D xorl %eax, %eax movl %eax, %esi movb $0x0, %al callq 0xc12a30 movb $0x1, -0x1(%rbp) jmp 0x8c43fe movq -0x10(%rbp), %rax movq 0x10(%rax), %rdi movq (%rdi), %rax movl $0x1, %esi callq *0x500(%rax) testb $0x1, %al jne 0x8c43f4 jmp 0x8c43fa movb $0x1, -0x1(%rbp) jmp 0x8c43fe movb $0x0, -0x1(%rbp) movb -0x1(%rbp), %al andb $0x1, %al addq $0x90, %rsp popq %rbp retq nopl (%rax)
_Z16check_expressionP19Virtual_column_infoPK25st_mysql_const_lex_string19enum_vcol_info_typeP10Alter_info: push rbp mov rbp, rsp sub rsp, 90h mov [rbp+var_10], rdi mov [rbp+var_18], rsi mov [rbp+var_1C], edx mov [rbp+var_28], rcx lea rdi, [rbp+var_48]; this call _ZN4Item26vcol_func_processor_resultC2Ev; Item::vcol_func_processor_result::vcol_func_processor_result(void) mov rax, [rbp+var_28] mov [rbp+var_38], rax mov rax, [rbp+var_10] cmp qword ptr [rax+20h], 0 jnz short loc_8C430E mov rax, [rbp+var_18] mov rcx, [rax] mov [rbp+var_68], rcx mov rax, [rax+8] mov [rbp+var_60], rax mov rsi, [rbp+var_68] mov rdx, [rbp+var_60] lea rdi, [rbp+var_58] call _ZN24Lex_cstring_with_compareI19Compare_identifiersEC2E25st_mysql_const_lex_string; Lex_cstring_with_compare<Compare_identifiers>::Lex_cstring_with_compare(st_mysql_const_lex_string) mov rax, [rbp+var_10] mov rcx, [rbp+var_58] mov [rax+18h], rcx mov rcx, [rbp+var_50] mov [rax+20h], rcx loc_8C430E: mov rax, [rbp+var_10] mov rdi, [rax+10h] mov [rbp+var_70], 0 mov [rbp+var_78], 471h mov rsi, [rbp+var_78] mov rdx, [rbp+var_70] mov rax, [rdi] xor ecx, ecx lea r8, [rbp+var_48] call qword ptr [rax+308h] and al, 1 mov [rbp+var_29], al mov ecx, [rbp+var_48] mov rax, [rbp+var_10] mov [rax+28h], ecx mov [rbp+var_7C], 20h ; ' ' cmp [rbp+var_1C], 0 jz short loc_8C4368 cmp [rbp+var_1C], 2 jz short loc_8C4368 mov eax, [rbp+var_7C] or eax, 0Eh mov [rbp+var_7C], eax loc_8C4368: cmp [rbp+var_1C], 0 jnz short loc_8C4377 mov eax, [rbp+var_7C] or eax, 40h mov [rbp+var_7C], eax loc_8C4377: mov al, 1 test [rbp+var_29], 1 mov [rbp+var_7D], al jnz short loc_8C4391 mov eax, [rbp+var_48] and eax, [rbp+var_7C] cmp eax, 0 setnz al mov [rbp+var_7D], al loc_8C4391: mov al, [rbp+var_7D] and al, 1 movzx eax, al cmp eax, 0 jz short loc_8C43D8 mov rax, [rbp+var_40] mov [rbp+var_88], rax mov edi, [rbp+var_1C] call _ZL14vcol_type_name19enum_vcol_info_type_1; vcol_type_name(enum_vcol_info_type) mov rdx, [rbp+var_88] mov rcx, rax mov rax, [rbp+var_18] mov r8, [rax] mov edi, 76Dh xor eax, eax mov esi, eax mov al, 0 call my_error mov [rbp+var_1], 1 jmp short loc_8C43FE loc_8C43D8: mov rax, [rbp+var_10] mov rdi, [rax+10h] mov rax, [rdi] mov esi, 1 call qword ptr [rax+500h] test al, 1 jnz short loc_8C43F4 jmp short loc_8C43FA loc_8C43F4: mov [rbp+var_1], 1 jmp short loc_8C43FE loc_8C43FA: mov [rbp+var_1], 0 loc_8C43FE: mov al, [rbp+var_1] and al, 1 add rsp, 90h pop rbp retn
bool check_expression(long long a1, long long a2, unsigned int a3, long long a4) { long long v4; // rax int v5; // eax int v6; // r9d int v8; // [rsp+8h] [rbp-88h] bool v9; // [rsp+13h] [rbp-7Dh] int v10; // [rsp+14h] [rbp-7Ch] _QWORD v11[2]; // [rsp+38h] [rbp-58h] BYREF _DWORD v12[4]; // [rsp+48h] [rbp-48h] BYREF long long v13; // [rsp+58h] [rbp-38h] char v14; // [rsp+67h] [rbp-29h] long long v15; // [rsp+68h] [rbp-28h] unsigned int v16; // [rsp+74h] [rbp-1Ch] long long v17; // [rsp+78h] [rbp-18h] long long v18; // [rsp+80h] [rbp-10h] v18 = a1; v17 = a2; v16 = a3; v15 = a4; Item::vcol_func_processor_result::vcol_func_processor_result((Item::vcol_func_processor_result *)v12); v13 = v15; if ( !*(_QWORD *)(v18 + 32) ) { Lex_cstring_with_compare<Compare_identifiers>::Lex_cstring_with_compare( (Lex_cstring *)v11, *(const char **)v17, *(_QWORD *)(v17 + 8)); v4 = v18; *(_QWORD *)(v18 + 24) = v11[0]; *(_QWORD *)(v4 + 32) = v11[1]; } v14 = (*(long long ( **)(_QWORD, long long, _QWORD, _QWORD, _DWORD *))(**(_QWORD **)(v18 + 16) + 776LL))( *(_QWORD *)(v18 + 16), 1137LL, 0LL, 0LL, v12) & 1; *(_DWORD *)(v18 + 40) = v12[0]; v10 = 32; if ( v16 && v16 != 2 ) v10 = 46; if ( !v16 ) v10 |= 0x40u; v9 = 1; if ( (v14 & 1) == 0 ) v9 = (v10 & v12[0]) != 0; if ( !v9 ) return ((*(long long ( **)(_QWORD, long long))(**(_QWORD **)(v18 + 16) + 1280LL))(*(_QWORD *)(v18 + 16), 1LL) & 1) != 0; v8 = v12[2]; v5 = vcol_type_name(v16); my_error(1901, 0, v8, v5, *(_QWORD *)v17, v6); return 1; }
~Named_type_handler: PUSH RBP MOV RBP,RSP SUB RSP,0x10 MOV qword ptr [RBP + -0x8],RDI MOV RDI,qword ptr [RBP + -0x8] CALL 0x008cbf90 ADD RSP,0x10 POP RBP RET
/* Named_type_handler<Type_handler_longlong>::~Named_type_handler() */ void __thiscall Named_type_handler<Type_handler_longlong>::~Named_type_handler (Named_type_handler<Type_handler_longlong> *this) { Type_handler_longlong::~Type_handler_longlong((Type_handler_longlong *)this); return; }
40,873
get_bool_option
bluesky950520[P]quickjs/quickjs-libc.c
static int get_bool_option(JSContext *ctx, BOOL *pbool, JSValue obj, const char *option) { JSValue val; val = JS_GetPropertyStr(ctx, obj, option); if (JS_IsException(val)) return -1; if (!JS_IsUndefined(val)) { *pbool = JS_ToBool(ctx, val); } JS_FreeValue(ctx, val); return 0; }
O0
c
get_bool_option: subq $0x58, %rsp movq %rdx, 0x40(%rsp) movq %rcx, 0x48(%rsp) movq %rdi, 0x38(%rsp) movq %rsi, 0x30(%rsp) movq %r8, 0x28(%rsp) movq 0x38(%rsp), %rdi movq 0x28(%rsp), %rcx movq 0x40(%rsp), %rsi movq 0x48(%rsp), %rdx callq 0x38170 movq %rax, 0x8(%rsp) movq %rdx, 0x10(%rsp) movq 0x8(%rsp), %rax movq %rax, 0x18(%rsp) movq 0x10(%rsp), %rax movq %rax, 0x20(%rsp) movq 0x18(%rsp), %rdi movq 0x20(%rsp), %rsi callq 0x16680 cmpl $0x0, %eax je 0x1c932 movl $0xffffffff, 0x54(%rsp) # imm = 0xFFFFFFFF jmp 0x1c97f movq 0x18(%rsp), %rdi movq 0x20(%rsp), %rsi callq 0x17c20 cmpl $0x0, %eax jne 0x1c963 movq 0x38(%rsp), %rdi movq 0x18(%rsp), %rsi movq 0x20(%rsp), %rdx callq 0x3e820 movl %eax, %ecx movq 0x30(%rsp), %rax movl %ecx, (%rax) movq 0x38(%rsp), %rdi movq 0x18(%rsp), %rsi movq 0x20(%rsp), %rdx callq 0x29f80 movl $0x0, 0x54(%rsp) movl 0x54(%rsp), %eax addq $0x58, %rsp retq nopl (%rax,%rax)
get_bool_option: sub rsp, 58h mov [rsp+58h+var_18], rdx mov [rsp+58h+var_10], rcx mov [rsp+58h+var_20], rdi mov [rsp+58h+var_28], rsi mov [rsp+58h+var_30], r8 mov rdi, [rsp+58h+var_20] mov rcx, [rsp+58h+var_30] mov rsi, [rsp+58h+var_18] mov rdx, [rsp+58h+var_10] call JS_GetPropertyStr mov [rsp+58h+var_50], rax mov [rsp+58h+var_48], rdx mov rax, [rsp+58h+var_50] mov [rsp+58h+var_40], rax mov rax, [rsp+58h+var_48] mov [rsp+58h+var_38], rax mov rdi, [rsp+58h+var_40] mov rsi, [rsp+58h+var_38] call JS_IsException_0 cmp eax, 0 jz short loc_1C932 mov [rsp+58h+var_4], 0FFFFFFFFh jmp short loc_1C97F loc_1C932: mov rdi, [rsp+58h+var_40] mov rsi, [rsp+58h+var_38] call JS_IsUndefined_0 cmp eax, 0 jnz short loc_1C963 mov rdi, [rsp+58h+var_20] mov rsi, [rsp+58h+var_40] mov rdx, [rsp+58h+var_38] call JS_ToBool mov ecx, eax mov rax, [rsp+58h+var_28] mov [rax], ecx loc_1C963: mov rdi, [rsp+58h+var_20] mov rsi, [rsp+58h+var_40] mov rdx, [rsp+58h+var_38] call JS_FreeValue mov [rsp+58h+var_4], 0 loc_1C97F: mov eax, [rsp+58h+var_4] add rsp, 58h retn
long long get_bool_option(long long a1, _DWORD *a2, long long a3, long long a4, long long a5) { long long v5; // rdx long long PropertyStr; // [rsp+8h] [rbp-50h] long long v8; // [rsp+20h] [rbp-38h] PropertyStr = JS_GetPropertyStr(a1, a3, a4, a5); v8 = v5; if ( JS_IsException_0(PropertyStr, v5) ) { return (unsigned int)-1; } else { if ( !JS_IsUndefined_0(PropertyStr, v8) ) *a2 = JS_ToBool(a1, PropertyStr, v8); JS_FreeValue(a1, PropertyStr, v8); return 0; } }
get_bool_option: SUB RSP,0x58 MOV qword ptr [RSP + 0x40],RDX MOV qword ptr [RSP + 0x48],RCX MOV qword ptr [RSP + 0x38],RDI MOV qword ptr [RSP + 0x30],RSI MOV qword ptr [RSP + 0x28],R8 MOV RDI,qword ptr [RSP + 0x38] MOV RCX,qword ptr [RSP + 0x28] MOV RSI,qword ptr [RSP + 0x40] MOV RDX,qword ptr [RSP + 0x48] CALL 0x00138170 MOV qword ptr [RSP + 0x8],RAX MOV qword ptr [RSP + 0x10],RDX MOV RAX,qword ptr [RSP + 0x8] MOV qword ptr [RSP + 0x18],RAX MOV RAX,qword ptr [RSP + 0x10] MOV qword ptr [RSP + 0x20],RAX MOV RDI,qword ptr [RSP + 0x18] MOV RSI,qword ptr [RSP + 0x20] CALL 0x00116680 CMP EAX,0x0 JZ 0x0011c932 MOV dword ptr [RSP + 0x54],0xffffffff JMP 0x0011c97f LAB_0011c932: MOV RDI,qword ptr [RSP + 0x18] MOV RSI,qword ptr [RSP + 0x20] CALL 0x00117c20 CMP EAX,0x0 JNZ 0x0011c963 MOV RDI,qword ptr [RSP + 0x38] MOV RSI,qword ptr [RSP + 0x18] MOV RDX,qword ptr [RSP + 0x20] CALL 0x0013e820 MOV ECX,EAX MOV RAX,qword ptr [RSP + 0x30] MOV dword ptr [RAX],ECX LAB_0011c963: MOV RDI,qword ptr [RSP + 0x38] MOV RSI,qword ptr [RSP + 0x18] MOV RDX,qword ptr [RSP + 0x20] CALL 0x00129f80 MOV dword ptr [RSP + 0x54],0x0 LAB_0011c97f: MOV EAX,dword ptr [RSP + 0x54] ADD RSP,0x58 RET
int4 get_bool_option(int8 param_1,int4 *param_2,int8 param_3,int8 param_4, int8 param_5) { int iVar1; int4 uVar2; int8 uVar3; int8 uVar4; int1 auVar5 [16]; int4 local_4; auVar5 = JS_GetPropertyStr(param_1,param_3,param_4,param_5); uVar4 = auVar5._8_8_; uVar3 = auVar5._0_8_; iVar1 = JS_IsException(uVar3,uVar4); if (iVar1 == 0) { iVar1 = JS_IsUndefined(uVar3,uVar4); if (iVar1 == 0) { uVar2 = JS_ToBool(param_1,uVar3,uVar4); *param_2 = uVar2; } JS_FreeValue(param_1,uVar3,uVar4); local_4 = 0; } else { local_4 = 0xffffffff; } return local_4; }
40,874
my_coll_rule_shift_at_level
eloqsql/strings/ctype-uca.c
static void my_coll_rule_shift_at_level(MY_COLL_RULE *r, int level) { switch (level) { case 4: /* Quaternary difference */ r->diff[3]++; break; case 3: /* Tertiary difference */ r->diff[2]++; r->diff[3]= 0; break; case 2: /* Secondary difference */ r->diff[1]++; r->diff[2]= r->diff[3]= 0; break; case 1: /* Primary difference */ r->diff[0]++; r->diff[1]= r->diff[2]= r->diff[3]= 0; break; case 0: /* Do nothing for '=': use the previous offsets for all levels */ break; default: DBUG_ASSERT(0); } }
O0
c
my_coll_rule_shift_at_level: pushq %rbp movq %rsp, %rbp movq %rdi, -0x8(%rbp) movl %esi, -0xc(%rbp) movl -0xc(%rbp), %eax movq %rax, -0x18(%rbp) subq $0x4, %rax ja 0x8492d movq -0x18(%rbp), %rax leaq 0xf3a99(%rip), %rcx # 0x178310 movslq (%rcx,%rax,4), %rax addq %rcx, %rax jmpq *%rax movq -0x8(%rbp), %rax movl 0x8c(%rax), %ecx addl $0x1, %ecx movl %ecx, 0x8c(%rax) jmp 0x84933 movq -0x8(%rbp), %rax movl 0x88(%rax), %ecx addl $0x1, %ecx movl %ecx, 0x88(%rax) movq -0x8(%rbp), %rax movl $0x0, 0x8c(%rax) jmp 0x84933 movq -0x8(%rbp), %rax movl 0x84(%rax), %ecx addl $0x1, %ecx movl %ecx, 0x84(%rax) movq -0x8(%rbp), %rax movl $0x0, 0x8c(%rax) movq -0x8(%rbp), %rax movl $0x0, 0x88(%rax) jmp 0x84933 movq -0x8(%rbp), %rax movl 0x80(%rax), %ecx addl $0x1, %ecx movl %ecx, 0x80(%rax) movq -0x8(%rbp), %rax movl $0x0, 0x8c(%rax) movq -0x8(%rbp), %rax movl $0x0, 0x88(%rax) movq -0x8(%rbp), %rax movl $0x0, 0x84(%rax) jmp 0x84933 jmp 0x84933 jmp 0x8492f jmp 0x84931 jmp 0x84933 popq %rbp retq nopw %cs:(%rax,%rax)
my_coll_rule_shift_at_level: push rbp mov rbp, rsp mov [rbp+var_8], rdi mov [rbp+var_C], esi mov eax, [rbp+var_C] mov [rbp+var_18], rax sub rax, 4; switch 5 cases ja def_8487E; jumptable 000000000008487E default case mov rax, [rbp+var_18] lea rcx, jpt_8487E movsxd rax, ds:(jpt_8487E - 178310h)[rcx+rax*4] add rax, rcx jmp rax; switch jump loc_84880: mov rax, [rbp+var_8]; jumptable 000000000008487E case 4 mov ecx, [rax+8Ch] add ecx, 1 mov [rax+8Ch], ecx jmp loc_84933 loc_84898: mov rax, [rbp+var_8]; jumptable 000000000008487E case 3 mov ecx, [rax+88h] add ecx, 1 mov [rax+88h], ecx mov rax, [rbp+var_8] mov dword ptr [rax+8Ch], 0 jmp short loc_84933 loc_848BB: mov rax, [rbp+var_8]; jumptable 000000000008487E case 2 mov ecx, [rax+84h] add ecx, 1 mov [rax+84h], ecx mov rax, [rbp+var_8] mov dword ptr [rax+8Ch], 0 mov rax, [rbp+var_8] mov dword ptr [rax+88h], 0 jmp short loc_84933 loc_848EC: mov rax, [rbp+var_8]; jumptable 000000000008487E case 1 mov ecx, [rax+80h] add ecx, 1 mov [rax+80h], ecx mov rax, [rbp+var_8] mov dword ptr [rax+8Ch], 0 mov rax, [rbp+var_8] mov dword ptr [rax+88h], 0 mov rax, [rbp+var_8] mov dword ptr [rax+84h], 0 jmp short loc_84933 loc_8492B: jmp short loc_84933; jumptable 000000000008487E case 0 def_8487E: jmp short $+2; jumptable 000000000008487E default case loc_8492F: jmp short $+2 loc_84931: jmp short $+2 loc_84933: pop rbp retn
unsigned long long my_coll_rule_shift_at_level(_DWORD *a1, unsigned int a2) { unsigned long long result; // rax result = a2; switch ( a2 ) { case 1u: ++a1[32]; a1[35] = 0; a1[34] = 0; result = (unsigned long long)a1; a1[33] = 0; break; case 2u: ++a1[33]; a1[35] = 0; result = (unsigned long long)a1; a1[34] = 0; break; case 3u: ++a1[34]; result = (unsigned long long)a1; a1[35] = 0; break; case 4u: result = (unsigned long long)a1; ++a1[35]; break; default: return result; } return result; }
my_coll_rule_shift_at_level: PUSH RBP MOV RBP,RSP MOV qword ptr [RBP + -0x8],RDI MOV dword ptr [RBP + -0xc],ESI MOV EAX,dword ptr [RBP + -0xc] MOV qword ptr [RBP + -0x18],RAX SUB RAX,0x4 JA 0x0018492d MOV RAX,qword ptr [RBP + -0x18] LEA RCX,[0x278310] MOVSXD RAX,dword ptr [RCX + RAX*0x4] ADD RAX,RCX switchD: JMP RAX caseD_4: MOV RAX,qword ptr [RBP + -0x8] MOV ECX,dword ptr [RAX + 0x8c] ADD ECX,0x1 MOV dword ptr [RAX + 0x8c],ECX JMP 0x00184933 caseD_3: MOV RAX,qword ptr [RBP + -0x8] MOV ECX,dword ptr [RAX + 0x88] ADD ECX,0x1 MOV dword ptr [RAX + 0x88],ECX MOV RAX,qword ptr [RBP + -0x8] MOV dword ptr [RAX + 0x8c],0x0 JMP 0x00184933 caseD_2: MOV RAX,qword ptr [RBP + -0x8] MOV ECX,dword ptr [RAX + 0x84] ADD ECX,0x1 MOV dword ptr [RAX + 0x84],ECX MOV RAX,qword ptr [RBP + -0x8] MOV dword ptr [RAX + 0x8c],0x0 MOV RAX,qword ptr [RBP + -0x8] MOV dword ptr [RAX + 0x88],0x0 JMP 0x00184933 caseD_1: MOV RAX,qword ptr [RBP + -0x8] MOV ECX,dword ptr [RAX + 0x80] ADD ECX,0x1 MOV dword ptr [RAX + 0x80],ECX MOV RAX,qword ptr [RBP + -0x8] MOV dword ptr [RAX + 0x8c],0x0 MOV RAX,qword ptr [RBP + -0x8] MOV dword ptr [RAX + 0x88],0x0 MOV RAX,qword ptr [RBP + -0x8] MOV dword ptr [RAX + 0x84],0x0 JMP 0x00184933 caseD_0: JMP 0x00184933 LAB_0018492d: JMP 0x0018492f LAB_0018492f: JMP 0x00184931 LAB_00184931: JMP 0x00184933 default: POP RBP RET
void my_coll_rule_shift_at_level(long param_1,int4 param_2) { switch(param_2) { case 0: break; case 1: *(int *)(param_1 + 0x80) = *(int *)(param_1 + 0x80) + 1; *(int4 *)(param_1 + 0x8c) = 0; *(int4 *)(param_1 + 0x88) = 0; *(int4 *)(param_1 + 0x84) = 0; break; case 2: *(int *)(param_1 + 0x84) = *(int *)(param_1 + 0x84) + 1; *(int4 *)(param_1 + 0x8c) = 0; *(int4 *)(param_1 + 0x88) = 0; break; case 3: *(int *)(param_1 + 0x88) = *(int *)(param_1 + 0x88) + 1; *(int4 *)(param_1 + 0x8c) = 0; break; case 4: *(int *)(param_1 + 0x8c) = *(int *)(param_1 + 0x8c) + 1; } return; }
40,875
ma_search_last
eloqsql/storage/maria/ma_search.c
int _ma_search_last(MARIA_HA *info, MARIA_KEYDEF *keyinfo, my_off_t pos) { uchar *end_of_page; MARIA_PAGE page; DBUG_ENTER("_ma_search_last"); if (pos == HA_OFFSET_ERROR) { my_errno=HA_ERR_KEY_NOT_FOUND; /* Didn't find key */ info->cur_row.lastpos= HA_OFFSET_ERROR; DBUG_RETURN(-1); } do { if (_ma_fetch_keypage(&page, info, keyinfo, pos, PAGECACHE_LOCK_LEFT_UNLOCKED, DFLT_INIT_HITS, info->keyread_buff, 0)) { info->cur_row.lastpos= HA_OFFSET_ERROR; DBUG_RETURN(-1); } end_of_page= page.buff + page.size; } while ((pos= _ma_kpos(page.node, end_of_page)) != HA_OFFSET_ERROR); if (!_ma_get_last_key(&info->last_key, &page, end_of_page)) DBUG_RETURN(-1); info->cur_row.lastpos= _ma_row_pos_from_key(&info->last_key); info->cur_row.trid= _ma_trid_from_key(&info->last_key); info->int_keypos= info->int_maxpos= end_of_page; info->int_nod_flag= page.node; info->int_keytree_version= keyinfo->version; info->last_search_keypage= info->last_keypage; info->page_changed=info->keyread_buff_used=0; DBUG_PRINT("exit",("found key at %lu",(ulong) info->cur_row.lastpos)); DBUG_RETURN(0); }
O0
c
ma_search_last: pushq %rbp movq %rsp, %rbp subq $0x70, %rsp movq %rdi, -0x10(%rbp) movq %rsi, -0x18(%rbp) movq %rdx, -0x20(%rbp) cmpq $-0x1, -0x20(%rbp) jne 0x6e801 callq 0xf7440 movl $0x78, (%rax) movq -0x10(%rbp), %rax movq $-0x1, 0x98(%rax) movl $0xffffffff, -0x4(%rbp) # imm = 0xFFFFFFFF jmp 0x6e955 jmp 0x6e803 movq -0x10(%rbp), %rsi movq -0x18(%rbp), %rdx movq -0x20(%rbp), %rcx movq -0x10(%rbp), %rax movq 0x380(%rax), %rax leaq -0x60(%rbp), %rdi xorl %r8d, %r8d movl $0x3, %r9d movq %rax, (%rsp) movl $0x0, 0x8(%rsp) callq 0x701d0 cmpb $0x0, %al je 0x6e857 movq -0x10(%rbp), %rax movq $-0x1, 0x98(%rax) movl $0xffffffff, -0x4(%rbp) # imm = 0xFFFFFFFF jmp 0x6e955 movq -0x50(%rbp), %rax movl -0x40(%rbp), %ecx addq %rcx, %rax movq %rax, -0x28(%rbp) movl -0x38(%rbp), %edi movq -0x28(%rbp), %rsi callq 0x6bee0 movq %rax, -0x20(%rbp) cmpq $-0x1, %rax jne 0x6e803 movq -0x10(%rbp), %rdi addq $0x200, %rdi # imm = 0x200 movq -0x28(%rbp), %rdx leaq -0x60(%rbp), %rsi callq 0x6dd00 cmpq $0x0, %rax jne 0x6e8a7 jmp 0x6e89b movl $0xffffffff, -0x4(%rbp) # imm = 0xFFFFFFFF jmp 0x6e955 movq -0x10(%rbp), %rdi addq $0x200, %rdi # imm = 0x200 callq 0x6c3d0 movq %rax, %rcx movq -0x10(%rbp), %rax movq %rcx, 0x98(%rax) movq -0x10(%rbp), %rdi addq $0x200, %rdi # imm = 0x200 callq 0x6c580 movq %rax, %rcx movq -0x10(%rbp), %rax movq %rcx, 0xc0(%rax) movq -0x28(%rbp), %rcx movq -0x10(%rbp), %rax movq %rcx, 0x3b8(%rax) movq -0x10(%rbp), %rax movq %rcx, 0x3b0(%rax) movl -0x38(%rbp), %ecx movq -0x10(%rbp), %rax movl %ecx, 0x3d0(%rax) movq -0x18(%rbp), %rax movl 0xb8(%rax), %ecx movq -0x10(%rbp), %rax movl %ecx, 0x3d4(%rax) movq -0x10(%rbp), %rax movq 0x440(%rax), %rcx movq -0x10(%rbp), %rax movq %rcx, 0x448(%rax) movq -0x10(%rbp), %rax movb $0x0, 0x685(%rax) movq -0x10(%rbp), %rax movb $0x0, 0x684(%rax) jmp 0x6e94c jmp 0x6e94e movl $0x0, -0x4(%rbp) movl -0x4(%rbp), %eax addq $0x70, %rsp popq %rbp retq nop
_ma_search_last: push rbp mov rbp, rsp sub rsp, 70h mov [rbp+var_10], rdi mov [rbp+var_18], rsi mov [rbp+var_20], rdx cmp [rbp+var_20], 0FFFFFFFFFFFFFFFFh jnz short loc_6E801 call _my_thread_var mov dword ptr [rax], 78h ; 'x' mov rax, [rbp+var_10] mov qword ptr [rax+98h], 0FFFFFFFFFFFFFFFFh mov [rbp+var_4], 0FFFFFFFFh jmp loc_6E955 loc_6E801: jmp short $+2 loc_6E803: mov rsi, [rbp+var_10] mov rdx, [rbp+var_18] mov rcx, [rbp+var_20] mov rax, [rbp+var_10] mov rax, [rax+380h] lea rdi, [rbp+var_60] xor r8d, r8d mov r9d, 3 mov [rsp+70h+var_70], rax mov [rsp+70h+var_68], 0 call _ma_fetch_keypage cmp al, 0 jz short loc_6E857 mov rax, [rbp+var_10] mov qword ptr [rax+98h], 0FFFFFFFFFFFFFFFFh mov [rbp+var_4], 0FFFFFFFFh jmp loc_6E955 loc_6E857: mov rax, [rbp+var_50] mov ecx, [rbp+var_40] add rax, rcx mov [rbp+var_28], rax mov edi, [rbp+var_38] mov rsi, [rbp+var_28] call _ma_kpos mov [rbp+var_20], rax cmp rax, 0FFFFFFFFFFFFFFFFh jnz short loc_6E803 mov rdi, [rbp+var_10] add rdi, 200h mov rdx, [rbp+var_28] lea rsi, [rbp+var_60] call _ma_get_last_key cmp rax, 0 jnz short loc_6E8A7 jmp short $+2 loc_6E89B: mov [rbp+var_4], 0FFFFFFFFh jmp loc_6E955 loc_6E8A7: mov rdi, [rbp+var_10] add rdi, 200h call _ma_row_pos_from_key mov rcx, rax mov rax, [rbp+var_10] mov [rax+98h], rcx mov rdi, [rbp+var_10] add rdi, 200h call _ma_trid_from_key mov rcx, rax mov rax, [rbp+var_10] mov [rax+0C0h], rcx mov rcx, [rbp+var_28] mov rax, [rbp+var_10] mov [rax+3B8h], rcx mov rax, [rbp+var_10] mov [rax+3B0h], rcx mov ecx, [rbp+var_38] mov rax, [rbp+var_10] mov [rax+3D0h], ecx mov rax, [rbp+var_18] mov ecx, [rax+0B8h] mov rax, [rbp+var_10] mov [rax+3D4h], ecx mov rax, [rbp+var_10] mov rcx, [rax+440h] mov rax, [rbp+var_10] mov [rax+448h], rcx mov rax, [rbp+var_10] mov byte ptr [rax+685h], 0 mov rax, [rbp+var_10] mov byte ptr [rax+684h], 0 jmp short $+2 loc_6E94C: jmp short $+2 loc_6E94E: mov [rbp+var_4], 0 loc_6E955: mov eax, [rbp+var_4] add rsp, 70h pop rbp retn
long long ma_search_last(long long a1, const char *a2, long long a3) { long long v3; // rax unsigned long long v4; // rax unsigned long long v5; // rcx _BYTE v7[16]; // [rsp+10h] [rbp-60h] BYREF long long v8; // [rsp+20h] [rbp-50h] unsigned int v9; // [rsp+30h] [rbp-40h] unsigned int v10; // [rsp+38h] [rbp-38h] unsigned long long v11; // [rsp+48h] [rbp-28h] long long v12; // [rsp+50h] [rbp-20h] const char *v13; // [rsp+58h] [rbp-18h] long long v14; // [rsp+60h] [rbp-10h] v14 = a1; v13 = a2; v12 = a3; if ( a3 == -1 ) { *(_DWORD *)my_thread_var(a1, a2) = 120; *(_QWORD *)(v14 + 152) = -1LL; return (unsigned int)-1; } else { do { if ( (unsigned __int8)ma_fetch_keypage((unsigned int)v7, v14, (_DWORD)v13, v12, 0, 3, *(_QWORD *)(v14 + 896), 0) ) { *(_QWORD *)(v14 + 152) = -1LL; return (unsigned int)-1; } v11 = v9 + v8; v12 = ma_kpos(v10, v11); } while ( v12 != -1 ); if ( ma_get_last_key(v14 + 512, (long long)v7, v11) ) { v3 = ma_row_pos_from_key(v14 + 512); *(_QWORD *)(v14 + 152) = v3; v4 = ma_trid_from_key(v14 + 512); *(_QWORD *)(v14 + 192) = v4; v5 = v11; *(_QWORD *)(v14 + 952) = v11; *(_QWORD *)(v14 + 944) = v5; *(_DWORD *)(v14 + 976) = v10; *(_DWORD *)(v14 + 980) = *((_DWORD *)v13 + 46); *(_QWORD *)(v14 + 1096) = *(_QWORD *)(v14 + 1088); *(_BYTE *)(v14 + 1669) = 0; *(_BYTE *)(v14 + 1668) = 0; return 0; } else { return (unsigned int)-1; } } }
_ma_search_last: PUSH RBP MOV RBP,RSP SUB RSP,0x70 MOV qword ptr [RBP + -0x10],RDI MOV qword ptr [RBP + -0x18],RSI MOV qword ptr [RBP + -0x20],RDX CMP qword ptr [RBP + -0x20],-0x1 JNZ 0x0016e801 CALL 0x001f7440 MOV dword ptr [RAX],0x78 MOV RAX,qword ptr [RBP + -0x10] MOV qword ptr [RAX + 0x98],-0x1 MOV dword ptr [RBP + -0x4],0xffffffff JMP 0x0016e955 LAB_0016e801: JMP 0x0016e803 LAB_0016e803: MOV RSI,qword ptr [RBP + -0x10] MOV RDX,qword ptr [RBP + -0x18] MOV RCX,qword ptr [RBP + -0x20] MOV RAX,qword ptr [RBP + -0x10] MOV RAX,qword ptr [RAX + 0x380] LEA RDI,[RBP + -0x60] XOR R8D,R8D MOV R9D,0x3 MOV qword ptr [RSP],RAX MOV dword ptr [RSP + 0x8],0x0 CALL 0x001701d0 CMP AL,0x0 JZ 0x0016e857 MOV RAX,qword ptr [RBP + -0x10] MOV qword ptr [RAX + 0x98],-0x1 MOV dword ptr [RBP + -0x4],0xffffffff JMP 0x0016e955 LAB_0016e857: MOV RAX,qword ptr [RBP + -0x50] MOV ECX,dword ptr [RBP + -0x40] ADD RAX,RCX MOV qword ptr [RBP + -0x28],RAX MOV EDI,dword ptr [RBP + -0x38] MOV RSI,qword ptr [RBP + -0x28] CALL 0x0016bee0 MOV qword ptr [RBP + -0x20],RAX CMP RAX,-0x1 JNZ 0x0016e803 MOV RDI,qword ptr [RBP + -0x10] ADD RDI,0x200 MOV RDX,qword ptr [RBP + -0x28] LEA RSI,[RBP + -0x60] CALL 0x0016dd00 CMP RAX,0x0 JNZ 0x0016e8a7 JMP 0x0016e89b LAB_0016e89b: MOV dword ptr [RBP + -0x4],0xffffffff JMP 0x0016e955 LAB_0016e8a7: MOV RDI,qword ptr [RBP + -0x10] ADD RDI,0x200 CALL 0x0016c3d0 MOV RCX,RAX MOV RAX,qword ptr [RBP + -0x10] MOV qword ptr [RAX + 0x98],RCX MOV RDI,qword ptr [RBP + -0x10] ADD RDI,0x200 CALL 0x0016c580 MOV RCX,RAX MOV RAX,qword ptr [RBP + -0x10] MOV qword ptr [RAX + 0xc0],RCX MOV RCX,qword ptr [RBP + -0x28] MOV RAX,qword ptr [RBP + -0x10] MOV qword ptr [RAX + 0x3b8],RCX MOV RAX,qword ptr [RBP + -0x10] MOV qword ptr [RAX + 0x3b0],RCX MOV ECX,dword ptr [RBP + -0x38] MOV RAX,qword ptr [RBP + -0x10] MOV dword ptr [RAX + 0x3d0],ECX MOV RAX,qword ptr [RBP + -0x18] MOV ECX,dword ptr [RAX + 0xb8] MOV RAX,qword ptr [RBP + -0x10] MOV dword ptr [RAX + 0x3d4],ECX MOV RAX,qword ptr [RBP + -0x10] MOV RCX,qword ptr [RAX + 0x440] MOV RAX,qword ptr [RBP + -0x10] MOV qword ptr [RAX + 0x448],RCX MOV RAX,qword ptr [RBP + -0x10] MOV byte ptr [RAX + 0x685],0x0 MOV RAX,qword ptr [RBP + -0x10] MOV byte ptr [RAX + 0x684],0x0 JMP 0x0016e94c LAB_0016e94c: JMP 0x0016e94e LAB_0016e94e: MOV dword ptr [RBP + -0x4],0x0 LAB_0016e955: MOV EAX,dword ptr [RBP + -0x4] ADD RSP,0x70 POP RBP RET
int4 _ma_search_last(long param_1,long param_2,long param_3) { char cVar1; int4 *puVar2; long lVar3; int8 uVar4; int1 local_68 [16]; long local_58; uint local_48; int4 local_40; long local_30; long local_28; long local_20; long local_18; int4 local_c; local_28 = param_3; local_20 = param_2; local_18 = param_1; if (param_3 == -1) { puVar2 = (int4 *)_my_thread_var(); *puVar2 = 0x78; *(int8 *)(local_18 + 0x98) = 0xffffffffffffffff; local_c = 0xffffffff; } else { do { cVar1 = _ma_fetch_keypage(local_68,local_18,local_20,local_28,0,3, *(int8 *)(local_18 + 0x380),0); if (cVar1 != '\0') { *(int8 *)(local_18 + 0x98) = 0xffffffffffffffff; return 0xffffffff; } local_30 = local_58 + (ulong)local_48; local_28 = _ma_kpos(local_40,local_30); } while (local_28 != -1); lVar3 = _ma_get_last_key(local_18 + 0x200,local_68,local_30); if (lVar3 == 0) { local_c = 0xffffffff; } else { uVar4 = _ma_row_pos_from_key(local_18 + 0x200); *(int8 *)(local_18 + 0x98) = uVar4; uVar4 = _ma_trid_from_key(local_18 + 0x200); *(int8 *)(local_18 + 0xc0) = uVar4; *(long *)(local_18 + 0x3b8) = local_30; *(long *)(local_18 + 0x3b0) = local_30; *(int4 *)(local_18 + 0x3d0) = local_40; *(int4 *)(local_18 + 0x3d4) = *(int4 *)(local_20 + 0xb8); *(int8 *)(local_18 + 0x448) = *(int8 *)(local_18 + 0x440); *(int1 *)(local_18 + 0x685) = 0; *(int1 *)(local_18 + 0x684) = 0; local_c = 0; } } return local_c; }
40,876
my_copy_fix_mb2_or_mb4
eloqsql/strings/ctype-ucs2.c
static size_t my_copy_fix_mb2_or_mb4(CHARSET_INFO *cs, char *dst, size_t dst_length, const char *src, size_t src_length, size_t nchars, MY_STRCOPY_STATUS *status) { size_t length2, src_offset= src_length % cs->mbminlen; my_char_copy_status_t padstatus; if (!src_offset) return my_copy_fix_mb(cs, dst, dst_length, src, src_length, nchars, status); if ((padstatus= my_copy_incomplete_char(cs, dst, dst_length, src, src_length, nchars, TRUE)) == MY_CHAR_COPY_ERROR) { status->m_source_end_pos= status->m_well_formed_error_pos= src; return 0; } length2= my_copy_fix_mb(cs, dst + cs->mbminlen, dst_length - cs->mbminlen, src + src_offset, src_length - src_offset, nchars - 1, status); if (padstatus == MY_CHAR_COPY_FIXED) status->m_well_formed_error_pos= src; return cs->mbminlen /* The left-padded character */ + length2; }
O0
c
my_copy_fix_mb2_or_mb4: pushq %rbp movq %rsp, %rbp subq $0x60, %rsp movq 0x10(%rbp), %rax movq %rdi, -0x10(%rbp) movq %rsi, -0x18(%rbp) movq %rdx, -0x20(%rbp) movq %rcx, -0x28(%rbp) movq %r8, -0x30(%rbp) movq %r9, -0x38(%rbp) movq -0x30(%rbp), %rax movq -0x10(%rbp), %rcx movl 0x98(%rcx), %ecx xorl %edx, %edx divq %rcx movq %rdx, -0x48(%rbp) cmpq $0x0, -0x48(%rbp) jne 0x596b0 movq -0x10(%rbp), %rdi movq -0x18(%rbp), %rsi movq -0x20(%rbp), %rdx movq -0x28(%rbp), %rcx movq -0x30(%rbp), %r8 movq -0x38(%rbp), %r9 movq 0x10(%rbp), %rax movq %rax, (%rsp) callq 0x3ee60 movq %rax, -0x8(%rbp) jmp 0x5976c movq -0x10(%rbp), %rdi movq -0x18(%rbp), %rsi movq -0x20(%rbp), %rdx movq -0x28(%rbp), %rcx movq -0x30(%rbp), %r8 movq -0x38(%rbp), %r9 movl $0x1, (%rsp) callq 0x5af60 movl %eax, -0x4c(%rbp) cmpl $0x1, %eax jne 0x596f9 movq -0x28(%rbp), %rcx movq 0x10(%rbp), %rax movq %rcx, 0x8(%rax) movq 0x10(%rbp), %rax movq %rcx, (%rax) movq $0x0, -0x8(%rbp) jmp 0x5976c movq -0x10(%rbp), %rdi movq -0x18(%rbp), %rsi movq -0x10(%rbp), %rax movl 0x98(%rax), %eax addq %rax, %rsi movq -0x20(%rbp), %rdx movq -0x10(%rbp), %rax movl 0x98(%rax), %eax subq %rax, %rdx movq -0x28(%rbp), %rcx addq -0x48(%rbp), %rcx movq -0x30(%rbp), %r8 subq -0x48(%rbp), %r8 movq -0x38(%rbp), %r9 subq $0x1, %r9 movq 0x10(%rbp), %rax movq %rax, (%rsp) callq 0x3ee60 movq %rax, -0x40(%rbp) cmpl $0x2, -0x4c(%rbp) jne 0x5975a movq -0x28(%rbp), %rcx movq 0x10(%rbp), %rax movq %rcx, 0x8(%rax) movq -0x10(%rbp), %rax movl 0x98(%rax), %eax addq -0x40(%rbp), %rax movq %rax, -0x8(%rbp) movq -0x8(%rbp), %rax addq $0x60, %rsp popq %rbp retq nopw %cs:(%rax,%rax)
my_copy_fix_mb2_or_mb4: push rbp mov rbp, rsp sub rsp, 60h mov rax, [rbp+arg_0] mov [rbp+var_10], rdi mov [rbp+var_18], rsi mov [rbp+var_20], rdx mov [rbp+var_28], rcx mov [rbp+var_30], r8 mov [rbp+var_38], r9 mov rax, [rbp+var_30] mov rcx, [rbp+var_10] mov ecx, [rcx+98h] xor edx, edx div rcx mov [rbp+var_48], rdx cmp [rbp+var_48], 0 jnz short loc_596B0 mov rdi, [rbp+var_10] mov rsi, [rbp+var_18] mov rdx, [rbp+var_20] mov rcx, [rbp+var_28] mov r8, [rbp+var_30] mov r9, [rbp+var_38] mov rax, [rbp+arg_0] mov [rsp+60h+var_60], rax call my_copy_fix_mb mov [rbp+var_8], rax jmp loc_5976C loc_596B0: mov rdi, [rbp+var_10] mov rsi, [rbp+var_18] mov rdx, [rbp+var_20] mov rcx, [rbp+var_28] mov r8, [rbp+var_30] mov r9, [rbp+var_38] mov dword ptr [rsp+60h+var_60], 1 call my_copy_incomplete_char mov [rbp+var_4C], eax cmp eax, 1 jnz short loc_596F9 mov rcx, [rbp+var_28] mov rax, [rbp+arg_0] mov [rax+8], rcx mov rax, [rbp+arg_0] mov [rax], rcx mov [rbp+var_8], 0 jmp short loc_5976C loc_596F9: mov rdi, [rbp+var_10] mov rsi, [rbp+var_18] mov rax, [rbp+var_10] mov eax, [rax+98h] add rsi, rax mov rdx, [rbp+var_20] mov rax, [rbp+var_10] mov eax, [rax+98h] sub rdx, rax mov rcx, [rbp+var_28] add rcx, [rbp+var_48] mov r8, [rbp+var_30] sub r8, [rbp+var_48] mov r9, [rbp+var_38] sub r9, 1 mov rax, [rbp+arg_0] mov [rsp+60h+var_60], rax call my_copy_fix_mb mov [rbp+var_40], rax cmp [rbp+var_4C], 2 jnz short loc_5975A mov rcx, [rbp+var_28] mov rax, [rbp+arg_0] mov [rax+8], rcx loc_5975A: mov rax, [rbp+var_10] mov eax, [rax+98h] add rax, [rbp+var_40] mov [rbp+var_8], rax loc_5976C: mov rax, [rbp+var_8] add rsp, 60h pop rbp retn
long long my_copy_fix_mb2_or_mb4( long long a1, long long a2, unsigned long long a3, long long a4, unsigned long long a5, long long a6, long long *a7) { int v8; // [rsp+14h] [rbp-4Ch] unsigned long long v9; // [rsp+18h] [rbp-48h] long long fixed; // [rsp+20h] [rbp-40h] v9 = a5 % *(unsigned int *)(a1 + 152); if ( !v9 ) return my_copy_fix_mb(a1, a2, a3, a4, a5, a6, a7); v8 = my_copy_incomplete_char(a1, a2, a3, a4, a5, a6, 1); if ( v8 == 1 ) { a7[1] = a4; *a7 = a4; return 0LL; } else { fixed = my_copy_fix_mb( a1, *(unsigned int *)(a1 + 152) + a2, a3 - *(unsigned int *)(a1 + 152), v9 + a4, a5 - v9, a6 - 1, a7); if ( v8 == 2 ) a7[1] = a4; return fixed + *(unsigned int *)(a1 + 152); } }
my_copy_fix_mb2_or_mb4: PUSH RBP MOV RBP,RSP SUB RSP,0x60 MOV RAX,qword ptr [RBP + 0x10] MOV qword ptr [RBP + -0x10],RDI MOV qword ptr [RBP + -0x18],RSI MOV qword ptr [RBP + -0x20],RDX MOV qword ptr [RBP + -0x28],RCX MOV qword ptr [RBP + -0x30],R8 MOV qword ptr [RBP + -0x38],R9 MOV RAX,qword ptr [RBP + -0x30] MOV RCX,qword ptr [RBP + -0x10] MOV ECX,dword ptr [RCX + 0x98] XOR EDX,EDX DIV RCX MOV qword ptr [RBP + -0x48],RDX CMP qword ptr [RBP + -0x48],0x0 JNZ 0x001596b0 MOV RDI,qword ptr [RBP + -0x10] MOV RSI,qword ptr [RBP + -0x18] MOV RDX,qword ptr [RBP + -0x20] MOV RCX,qword ptr [RBP + -0x28] MOV R8,qword ptr [RBP + -0x30] MOV R9,qword ptr [RBP + -0x38] MOV RAX,qword ptr [RBP + 0x10] MOV qword ptr [RSP],RAX CALL 0x0013ee60 MOV qword ptr [RBP + -0x8],RAX JMP 0x0015976c LAB_001596b0: MOV RDI,qword ptr [RBP + -0x10] MOV RSI,qword ptr [RBP + -0x18] MOV RDX,qword ptr [RBP + -0x20] MOV RCX,qword ptr [RBP + -0x28] MOV R8,qword ptr [RBP + -0x30] MOV R9,qword ptr [RBP + -0x38] MOV dword ptr [RSP],0x1 CALL 0x0015af60 MOV dword ptr [RBP + -0x4c],EAX CMP EAX,0x1 JNZ 0x001596f9 MOV RCX,qword ptr [RBP + -0x28] MOV RAX,qword ptr [RBP + 0x10] MOV qword ptr [RAX + 0x8],RCX MOV RAX,qword ptr [RBP + 0x10] MOV qword ptr [RAX],RCX MOV qword ptr [RBP + -0x8],0x0 JMP 0x0015976c LAB_001596f9: MOV RDI,qword ptr [RBP + -0x10] MOV RSI,qword ptr [RBP + -0x18] MOV RAX,qword ptr [RBP + -0x10] MOV EAX,dword ptr [RAX + 0x98] ADD RSI,RAX MOV RDX,qword ptr [RBP + -0x20] MOV RAX,qword ptr [RBP + -0x10] MOV EAX,dword ptr [RAX + 0x98] SUB RDX,RAX MOV RCX,qword ptr [RBP + -0x28] ADD RCX,qword ptr [RBP + -0x48] MOV R8,qword ptr [RBP + -0x30] SUB R8,qword ptr [RBP + -0x48] MOV R9,qword ptr [RBP + -0x38] SUB R9,0x1 MOV RAX,qword ptr [RBP + 0x10] MOV qword ptr [RSP],RAX CALL 0x0013ee60 MOV qword ptr [RBP + -0x40],RAX CMP dword ptr [RBP + -0x4c],0x2 JNZ 0x0015975a MOV RCX,qword ptr [RBP + -0x28] MOV RAX,qword ptr [RBP + 0x10] MOV qword ptr [RAX + 0x8],RCX LAB_0015975a: MOV RAX,qword ptr [RBP + -0x10] MOV EAX,dword ptr [RAX + 0x98] ADD RAX,qword ptr [RBP + -0x40] MOV qword ptr [RBP + -0x8],RAX LAB_0015976c: MOV RAX,qword ptr [RBP + -0x8] ADD RSP,0x60 POP RBP RET
long my_copy_fix_mb2_or_mb4 (long param_1,long param_2,long param_3,long param_4,ulong param_5,long param_6, long *param_7) { int iVar1; ulong uVar2; long local_10; uVar2 = param_5 % (ulong)*(uint *)(param_1 + 0x98); if (uVar2 == 0) { local_10 = my_copy_fix_mb(param_1,param_2,param_3,param_4,param_5,param_6,param_7); } else { iVar1 = my_copy_incomplete_char(param_1,param_2,param_3,param_4,param_5,param_6,1); if (iVar1 == 1) { param_7[1] = param_4; *param_7 = param_4; local_10 = 0; } else { local_10 = my_copy_fix_mb(param_1,param_2 + (ulong)*(uint *)(param_1 + 0x98), param_3 - (ulong)*(uint *)(param_1 + 0x98),param_4 + uVar2, param_5 - uVar2,param_6 + -1,param_7); if (iVar1 == 2) { param_7[1] = param_4; } local_10 = (ulong)*(uint *)(param_1 + 0x98) + local_10; } } return local_10; }
40,877
my_copy_fix_mb2_or_mb4
eloqsql/strings/ctype-ucs2.c
static size_t my_copy_fix_mb2_or_mb4(CHARSET_INFO *cs, char *dst, size_t dst_length, const char *src, size_t src_length, size_t nchars, MY_STRCOPY_STATUS *status) { size_t length2, src_offset= src_length % cs->mbminlen; my_char_copy_status_t padstatus; if (!src_offset) return my_copy_fix_mb(cs, dst, dst_length, src, src_length, nchars, status); if ((padstatus= my_copy_incomplete_char(cs, dst, dst_length, src, src_length, nchars, TRUE)) == MY_CHAR_COPY_ERROR) { status->m_source_end_pos= status->m_well_formed_error_pos= src; return 0; } length2= my_copy_fix_mb(cs, dst + cs->mbminlen, dst_length - cs->mbminlen, src + src_offset, src_length - src_offset, nchars - 1, status); if (padstatus == MY_CHAR_COPY_FIXED) status->m_well_formed_error_pos= src; return cs->mbminlen /* The left-padded character */ + length2; }
O3
c
my_copy_fix_mb2_or_mb4: pushq %rbp movq %rsp, %rbp pushq %r15 pushq %r14 pushq %r13 pushq %r12 pushq %rbx subq $0x38, %rsp movq %rcx, %r12 movq %rdx, %r10 movq %rsi, %rbx movq %rdi, %r14 movl 0x98(%rdi), %r13d movq %r8, %rax xorl %edx, %edx divq %r13 testq %rdx, %rdx je 0x4669d cmpq %r10, %r13 seta %al movq 0x10(%rbp), %rsi testq %r9, %r9 sete %cl orb %al, %cl jne 0x4672c movq %rdx, %r15 movq %rsi, -0x38(%rbp) movq %r10, -0x40(%rbp) movq %r8, -0x48(%rbp) movq %r9, -0x50(%rbp) subq %rdx, %r13 movq %rbx, %rdi xorl %esi, %esi movq %r13, %rdx callq 0x24160 addq %rbx, %r13 movq %r13, %rdi movq %r12, -0x58(%rbp) movq %r12, %rsi movq %r15, %rdx callq 0x244c0 movl 0x98(%r14), %edx addq %rbx, %rdx movq 0xb8(%r14), %rax movq %r14, %rdi movq %rbx, %rsi callq *0xc0(%rax) movl 0x98(%r14), %r13d cmpl %r13d, %eax movl %eax, -0x2c(%rbp) jne 0x466bc movq -0x58(%rbp), %r12 movq -0x50(%rbp), %r9 movq -0x48(%rbp), %r8 movq -0x40(%rbp), %rdx movq -0x38(%rbp), %rsi jmp 0x466f2 movq %r14, %rdi movq %rbx, %rsi movq %r10, %rdx movq %r12, %rcx addq $0x38, %rsp popq %rbx popq %r12 popq %r13 popq %r14 popq %r15 popq %rbp jmp 0x35676 movq 0xb8(%r14), %rax leaq (%rbx,%r13), %rcx movl $0x3f, %esi movq %r14, %rdi movq %rbx, %rdx callq *0x30(%rax) cmpl 0x98(%r14), %eax movq -0x58(%rbp), %r12 movq -0x50(%rbp), %r9 movq -0x48(%rbp), %r8 movq -0x40(%rbp), %rdx movq -0x38(%rbp), %rsi jne 0x4672c movl %eax, %eax addq %rax, %rbx subq %rax, %rdx leaq (%r12,%r15), %rcx subq %r15, %r8 decq %r9 movq %rsi, (%rsp) movq %r14, %rdi movq %rsi, %r15 movq %rbx, %rsi callq 0x35676 cmpl %r13d, -0x2c(%rbp) je 0x46720 movq %r12, 0x8(%r15) movl 0x98(%r14), %ecx addq %rcx, %rax jmp 0x46735 movq %r12, 0x8(%rsi) movq %r12, (%rsi) xorl %eax, %eax addq $0x38, %rsp popq %rbx popq %r12 popq %r13 popq %r14 popq %r15 popq %rbp retq
my_copy_fix_mb2_or_mb4: push rbp mov rbp, rsp push r15 push r14 push r13 push r12 push rbx sub rsp, 38h mov r12, rcx mov r10, rdx mov rbx, rsi mov r14, rdi mov r13d, [rdi+98h] mov rax, r8 xor edx, edx div r13 test rdx, rdx jz loc_4669D cmp r13, r10 setnbe al mov rsi, [rbp+arg_0] test r9, r9 setz cl or cl, al jnz loc_4672C mov r15, rdx mov [rbp+var_38], rsi mov [rbp+var_40], r10 mov [rbp+var_48], r8 mov [rbp+var_50], r9 sub r13, rdx mov rdi, rbx xor esi, esi mov rdx, r13 call _memset add r13, rbx mov rdi, r13 mov [rbp+var_58], r12 mov rsi, r12 mov rdx, r15 call _memmove mov edx, [r14+98h] add rdx, rbx mov rax, [r14+0B8h] mov rdi, r14 mov rsi, rbx call qword ptr [rax+0C0h] mov r13d, [r14+98h] cmp eax, r13d mov [rbp+var_2C], eax jnz short loc_466BC mov r12, [rbp+var_58] mov r9, [rbp+var_50] mov r8, [rbp+var_48] mov rdx, [rbp+var_40] mov rsi, [rbp+var_38] jmp short loc_466F2 loc_4669D: mov rdi, r14 mov rsi, rbx mov rdx, r10 mov rcx, r12 add rsp, 38h pop rbx pop r12 pop r13 pop r14 pop r15 pop rbp jmp my_copy_fix_mb loc_466BC: mov rax, [r14+0B8h] lea rcx, [rbx+r13] mov esi, 3Fh ; '?' mov rdi, r14 mov rdx, rbx call qword ptr [rax+30h] cmp eax, [r14+98h] mov r12, [rbp+var_58] mov r9, [rbp+var_50] mov r8, [rbp+var_48] mov rdx, [rbp+var_40] mov rsi, [rbp+var_38] jnz short loc_4672C loc_466F2: mov eax, eax add rbx, rax sub rdx, rax lea rcx, [r12+r15] sub r8, r15 dec r9 mov [rsp+60h+var_60], rsi mov rdi, r14 mov r15, rsi mov rsi, rbx call my_copy_fix_mb cmp [rbp+var_2C], r13d jz short loc_46720 mov [r15+8], r12 loc_46720: mov ecx, [r14+98h] add rax, rcx jmp short loc_46735 loc_4672C: mov [rsi+8], r12 mov [rsi], r12 xor eax, eax loc_46735: add rsp, 38h pop rbx pop r12 pop r13 pop r14 pop r15 pop rbp retn
unsigned long long my_copy_fix_mb2_or_mb4( long long a1, long long a2, unsigned long long a3, long long a4, unsigned long long a5, long long a6, unsigned long long *a7) { unsigned long long v9; // r13 unsigned long long *v10; // rsi unsigned long long v11; // r15 unsigned long long v12; // r13 unsigned int v13; // eax long long v14; // r13 long long v15; // r9 unsigned long long v16; // r8 unsigned long long v17; // rdx unsigned long long fixed; // rax unsigned int v23; // [rsp+34h] [rbp-2Ch] v9 = *(unsigned int *)(a1 + 152); if ( !(a5 % v9) ) return my_copy_fix_mb(a1, a2, a3, a4, a5, a6, a7); v10 = a7; if ( v9 > a3 || a6 == 0 ) goto LABEL_10; v11 = a5 % *(unsigned int *)(a1 + 152); v12 = v9 - a5 % v9; memset(a2, 0LL, v12); memmove(a2 + v12, a4, v11); v13 = (*(long long ( **)(long long, long long, long long))(*(_QWORD *)(a1 + 184) + 192LL))( a1, a2, a2 + *(unsigned int *)(a1 + 152)); v14 = *(unsigned int *)(a1 + 152); v23 = v13; if ( v13 != (_DWORD)v14 ) { v13 = (*(long long ( **)(long long, long long, long long, long long))(*(_QWORD *)(a1 + 184) + 48LL))( a1, 63LL, a2, a2 + v14); v15 = a6; v16 = a5; v17 = a3; v10 = a7; if ( v13 == *(_DWORD *)(a1 + 152) ) goto LABEL_7; LABEL_10: v10[1] = a4; *v10 = a4; return 0LL; } v15 = a6; v16 = a5; v17 = a3; v10 = a7; LABEL_7: fixed = my_copy_fix_mb(a1, v13 + a2, v17 - v13, a4 + v11, v16 - v11, v15 - 1, v10); if ( v23 != (_DWORD)v14 ) v10[1] = a4; return *(unsigned int *)(a1 + 152) + fixed; }
my_copy_fix_mb2_or_mb4: PUSH RBP MOV RBP,RSP PUSH R15 PUSH R14 PUSH R13 PUSH R12 PUSH RBX SUB RSP,0x38 MOV R12,RCX MOV R10,RDX MOV RBX,RSI MOV R14,RDI MOV R13D,dword ptr [RDI + 0x98] MOV RAX,R8 XOR EDX,EDX DIV R13 TEST RDX,RDX JZ 0x0014669d CMP R13,R10 SETA AL MOV RSI,qword ptr [RBP + 0x10] TEST R9,R9 SETZ CL OR CL,AL JNZ 0x0014672c MOV R15,RDX MOV qword ptr [RBP + -0x38],RSI MOV qword ptr [RBP + -0x40],R10 MOV qword ptr [RBP + -0x48],R8 MOV qword ptr [RBP + -0x50],R9 SUB R13,RDX MOV RDI,RBX XOR ESI,ESI MOV RDX,R13 CALL 0x00124160 ADD R13,RBX MOV RDI,R13 MOV qword ptr [RBP + -0x58],R12 MOV RSI,R12 MOV RDX,R15 CALL 0x001244c0 MOV EDX,dword ptr [R14 + 0x98] ADD RDX,RBX MOV RAX,qword ptr [R14 + 0xb8] MOV RDI,R14 MOV RSI,RBX CALL qword ptr [RAX + 0xc0] MOV R13D,dword ptr [R14 + 0x98] CMP EAX,R13D MOV dword ptr [RBP + -0x2c],EAX JNZ 0x001466bc MOV R12,qword ptr [RBP + -0x58] MOV R9,qword ptr [RBP + -0x50] MOV R8,qword ptr [RBP + -0x48] MOV RDX,qword ptr [RBP + -0x40] MOV RSI,qword ptr [RBP + -0x38] JMP 0x001466f2 LAB_0014669d: MOV RDI,R14 MOV RSI,RBX MOV RDX,R10 MOV RCX,R12 ADD RSP,0x38 POP RBX POP R12 POP R13 POP R14 POP R15 POP RBP JMP 0x00135676 LAB_001466bc: MOV RAX,qword ptr [R14 + 0xb8] LEA RCX,[RBX + R13*0x1] MOV ESI,0x3f MOV RDI,R14 MOV RDX,RBX CALL qword ptr [RAX + 0x30] CMP EAX,dword ptr [R14 + 0x98] MOV R12,qword ptr [RBP + -0x58] MOV R9,qword ptr [RBP + -0x50] MOV R8,qword ptr [RBP + -0x48] MOV RDX,qword ptr [RBP + -0x40] MOV RSI,qword ptr [RBP + -0x38] JNZ 0x0014672c LAB_001466f2: MOV EAX,EAX ADD RBX,RAX SUB RDX,RAX LEA RCX,[R12 + R15*0x1] SUB R8,R15 DEC R9 MOV qword ptr [RSP],RSI MOV RDI,R14 MOV R15,RSI MOV RSI,RBX CALL 0x00135676 CMP dword ptr [RBP + -0x2c],R13D JZ 0x00146720 MOV qword ptr [R15 + 0x8],R12 LAB_00146720: MOV ECX,dword ptr [R14 + 0x98] ADD RAX,RCX JMP 0x00146735 LAB_0014672c: MOV qword ptr [RSI + 0x8],R12 MOV qword ptr [RSI],R12 XOR EAX,EAX LAB_00146735: ADD RSP,0x38 POP RBX POP R12 POP R13 POP R14 POP R15 POP RBP RET
long my_copy_fix_mb2_or_mb4 (long param_1,void *param_2,ulong param_3,void *param_4,ulong param_5,long param_6, int8 *param_7) { uint uVar1; uint uVar2; uint uVar3; long lVar4; ulong __n; ulong uVar5; uVar5 = (ulong)*(uint *)(param_1 + 0x98); __n = param_5 % uVar5; if (__n == 0) { lVar4 = my_copy_fix_mb(param_1,param_2,param_3,param_4); return lVar4; } if (param_6 != 0 && uVar5 <= param_3) { memset(param_2,0,uVar5 - __n); memmove((void *)((uVar5 - __n) + (long)param_2),param_4,__n); uVar2 = (**(code **)(*(long *)(param_1 + 0xb8) + 0xc0)) (param_1,param_2,(ulong)*(uint *)(param_1 + 0x98) + (long)param_2); uVar1 = *(uint *)(param_1 + 0x98); uVar3 = uVar2; if ((uVar2 == uVar1) || (uVar3 = (**(code **)(*(long *)(param_1 + 0xb8) + 0x30)) (param_1,0x3f,param_2,(long)param_2 + (ulong)uVar1), uVar3 == *(uint *)(param_1 + 0x98))) { lVar4 = my_copy_fix_mb(param_1,(long)param_2 + (ulong)uVar3,param_3 - uVar3, (long)param_4 + __n,param_5 - __n,param_6 + -1,param_7); if (uVar2 != uVar1) { param_7[1] = param_4; } return lVar4 + (ulong)*(uint *)(param_1 + 0x98); } } param_7[1] = param_4; *param_7 = param_4; return 0; }
40,878
my_caseup_utf16
eloqsql/strings/ctype-ucs2.c
static size_t my_caseup_utf16(CHARSET_INFO *cs, const char *src, size_t srclen, char *dst, size_t dstlen) { my_wc_t wc; my_charset_conv_mb_wc mb_wc= cs->cset->mb_wc; my_charset_conv_wc_mb wc_mb= cs->cset->wc_mb; int res; const char *srcend= src + srclen; char *dstend= dst + dstlen; MY_UNICASE_INFO *uni_plane= cs->caseinfo; DBUG_ASSERT(srclen <= dstlen); while ((src < srcend) && (res= mb_wc(cs, &wc, (uchar *) src, (uchar *) srcend)) > 0) { my_toupper_utf16(uni_plane, &wc); if (res != wc_mb(cs, wc, (uchar *) dst, (uchar *) dstend)) break; src+= res; dst+= res; } return srclen; }
O0
c
my_caseup_utf16: pushq %rbp movq %rsp, %rbp subq $0x70, %rsp movq %rdi, -0x8(%rbp) movq %rsi, -0x10(%rbp) movq %rdx, -0x18(%rbp) movq %rcx, -0x20(%rbp) movq %r8, -0x28(%rbp) movq -0x8(%rbp), %rax movq 0xb8(%rax), %rax movq 0x28(%rax), %rax movq %rax, -0x38(%rbp) movq -0x8(%rbp), %rax movq 0xb8(%rax), %rax movq 0x30(%rax), %rax movq %rax, -0x40(%rbp) movq -0x10(%rbp), %rax addq -0x18(%rbp), %rax movq %rax, -0x50(%rbp) movq -0x20(%rbp), %rax addq -0x28(%rbp), %rax movq %rax, -0x58(%rbp) movq -0x8(%rbp), %rax movq 0x78(%rax), %rax movq %rax, -0x60(%rbp) jmp 0x5b938 jmp 0x5b93a movq -0x10(%rbp), %rcx xorl %eax, %eax cmpq -0x50(%rbp), %rcx movb %al, -0x61(%rbp) jae 0x5b96b movq -0x38(%rbp), %rax movq -0x8(%rbp), %rdi movq -0x10(%rbp), %rdx movq -0x50(%rbp), %rcx leaq -0x30(%rbp), %rsi callq *%rax movl %eax, -0x44(%rbp) cmpl $0x0, %eax setg %al movb %al, -0x61(%rbp) movb -0x61(%rbp), %al testb $0x1, %al jne 0x5b974 jmp 0x5b9cf movq -0x60(%rbp), %rdi leaq -0x30(%rbp), %rsi callq 0x5eec0 movl -0x44(%rbp), %eax movl %eax, -0x68(%rbp) movq -0x40(%rbp), %rax movq -0x8(%rbp), %rdi movq -0x30(%rbp), %rsi movq -0x20(%rbp), %rdx movq -0x58(%rbp), %rcx callq *%rax movl %eax, %ecx movl -0x68(%rbp), %eax cmpl %ecx, %eax je 0x5b9a8 jmp 0x5b9cf movl -0x44(%rbp), %ecx movq -0x10(%rbp), %rax movslq %ecx, %rcx addq %rcx, %rax movq %rax, -0x10(%rbp) movl -0x44(%rbp), %ecx movq -0x20(%rbp), %rax movslq %ecx, %rcx addq %rcx, %rax movq %rax, -0x20(%rbp) jmp 0x5b93a movq -0x18(%rbp), %rax addq $0x70, %rsp popq %rbp retq nopl (%rax)
my_caseup_utf16: push rbp mov rbp, rsp sub rsp, 70h mov [rbp+var_8], rdi mov [rbp+var_10], rsi mov [rbp+var_18], rdx mov [rbp+var_20], rcx mov [rbp+var_28], r8 mov rax, [rbp+var_8] mov rax, [rax+0B8h] mov rax, [rax+28h] mov [rbp+var_38], rax mov rax, [rbp+var_8] mov rax, [rax+0B8h] mov rax, [rax+30h] mov [rbp+var_40], rax mov rax, [rbp+var_10] add rax, [rbp+var_18] mov [rbp+var_50], rax mov rax, [rbp+var_20] add rax, [rbp+var_28] mov [rbp+var_58], rax mov rax, [rbp+var_8] mov rax, [rax+78h] mov [rbp+var_60], rax jmp short $+2 loc_5B938: jmp short $+2 loc_5B93A: mov rcx, [rbp+var_10] xor eax, eax cmp rcx, [rbp+var_50] mov [rbp+var_61], al jnb short loc_5B96B mov rax, [rbp+var_38] mov rdi, [rbp+var_8] mov rdx, [rbp+var_10] mov rcx, [rbp+var_50] lea rsi, [rbp+var_30] call rax mov [rbp+var_44], eax cmp eax, 0 setnle al mov [rbp+var_61], al loc_5B96B: mov al, [rbp+var_61] test al, 1 jnz short loc_5B974 jmp short loc_5B9CF loc_5B974: mov rdi, [rbp+var_60] lea rsi, [rbp+var_30] call my_toupper_utf16 mov eax, [rbp+var_44] mov [rbp+var_68], eax mov rax, [rbp+var_40] mov rdi, [rbp+var_8] mov rsi, [rbp+var_30] mov rdx, [rbp+var_20] mov rcx, [rbp+var_58] call rax mov ecx, eax mov eax, [rbp+var_68] cmp eax, ecx jz short loc_5B9A8 jmp short loc_5B9CF loc_5B9A8: mov ecx, [rbp+var_44] mov rax, [rbp+var_10] movsxd rcx, ecx add rax, rcx mov [rbp+var_10], rax mov ecx, [rbp+var_44] mov rax, [rbp+var_20] movsxd rcx, ecx add rax, rcx mov [rbp+var_20], rax jmp loc_5B93A loc_5B9CF: mov rax, [rbp+var_18] add rsp, 70h pop rbp retn
long long my_caseup_utf16(long long a1, unsigned long long a2, long long a3, long long a4, long long a5) { bool v6; // [rsp+Fh] [rbp-61h] long long v7; // [rsp+10h] [rbp-60h] long long v8; // [rsp+18h] [rbp-58h] unsigned long long v9; // [rsp+20h] [rbp-50h] int v10; // [rsp+2Ch] [rbp-44h] unsigned int ( *v11)(long long, _QWORD, long long, long long); // [rsp+30h] [rbp-40h] long long ( *v12)(long long, _QWORD *, unsigned long long, unsigned long long); // [rsp+38h] [rbp-38h] _QWORD v13[2]; // [rsp+40h] [rbp-30h] BYREF long long v14; // [rsp+50h] [rbp-20h] long long v15; // [rsp+58h] [rbp-18h] unsigned long long v16; // [rsp+60h] [rbp-10h] long long v17; // [rsp+68h] [rbp-8h] v17 = a1; v16 = a2; v15 = a3; v14 = a4; v13[1] = a5; v12 = *(long long ( **)(long long, _QWORD *, unsigned long long, unsigned long long))(*(_QWORD *)(a1 + 184) + 40LL); v11 = *(unsigned int ( **)(long long, _QWORD, long long, long long))(*(_QWORD *)(a1 + 184) + 48LL); v9 = a3 + a2; v8 = a5 + a4; v7 = *(_QWORD *)(a1 + 120); while ( 1 ) { v6 = 0; if ( v16 < v9 ) { v10 = v12(v17, v13, v16, v9); v6 = v10 > 0; } if ( !v6 ) break; my_toupper_utf16(v7, v13); if ( v10 != v11(v17, v13[0], v14, v8) ) break; v16 += v10; v14 += v10; } return v15; }
my_caseup_utf16: PUSH RBP MOV RBP,RSP SUB RSP,0x70 MOV qword ptr [RBP + -0x8],RDI MOV qword ptr [RBP + -0x10],RSI MOV qword ptr [RBP + -0x18],RDX MOV qword ptr [RBP + -0x20],RCX MOV qword ptr [RBP + -0x28],R8 MOV RAX,qword ptr [RBP + -0x8] MOV RAX,qword ptr [RAX + 0xb8] MOV RAX,qword ptr [RAX + 0x28] MOV qword ptr [RBP + -0x38],RAX MOV RAX,qword ptr [RBP + -0x8] MOV RAX,qword ptr [RAX + 0xb8] MOV RAX,qword ptr [RAX + 0x30] MOV qword ptr [RBP + -0x40],RAX MOV RAX,qword ptr [RBP + -0x10] ADD RAX,qword ptr [RBP + -0x18] MOV qword ptr [RBP + -0x50],RAX MOV RAX,qword ptr [RBP + -0x20] ADD RAX,qword ptr [RBP + -0x28] MOV qword ptr [RBP + -0x58],RAX MOV RAX,qword ptr [RBP + -0x8] MOV RAX,qword ptr [RAX + 0x78] MOV qword ptr [RBP + -0x60],RAX JMP 0x0015b938 LAB_0015b938: JMP 0x0015b93a LAB_0015b93a: MOV RCX,qword ptr [RBP + -0x10] XOR EAX,EAX CMP RCX,qword ptr [RBP + -0x50] MOV byte ptr [RBP + -0x61],AL JNC 0x0015b96b MOV RAX,qword ptr [RBP + -0x38] MOV RDI,qword ptr [RBP + -0x8] MOV RDX,qword ptr [RBP + -0x10] MOV RCX,qword ptr [RBP + -0x50] LEA RSI,[RBP + -0x30] CALL RAX MOV dword ptr [RBP + -0x44],EAX CMP EAX,0x0 SETG AL MOV byte ptr [RBP + -0x61],AL LAB_0015b96b: MOV AL,byte ptr [RBP + -0x61] TEST AL,0x1 JNZ 0x0015b974 JMP 0x0015b9cf LAB_0015b974: MOV RDI,qword ptr [RBP + -0x60] LEA RSI,[RBP + -0x30] CALL 0x0015eec0 MOV EAX,dword ptr [RBP + -0x44] MOV dword ptr [RBP + -0x68],EAX MOV RAX,qword ptr [RBP + -0x40] MOV RDI,qword ptr [RBP + -0x8] MOV RSI,qword ptr [RBP + -0x30] MOV RDX,qword ptr [RBP + -0x20] MOV RCX,qword ptr [RBP + -0x58] CALL RAX MOV ECX,EAX MOV EAX,dword ptr [RBP + -0x68] CMP EAX,ECX JZ 0x0015b9a8 JMP 0x0015b9cf LAB_0015b9a8: MOV ECX,dword ptr [RBP + -0x44] MOV RAX,qword ptr [RBP + -0x10] MOVSXD RCX,ECX ADD RAX,RCX MOV qword ptr [RBP + -0x10],RAX MOV ECX,dword ptr [RBP + -0x44] MOV RAX,qword ptr [RBP + -0x20] MOVSXD RCX,ECX ADD RAX,RCX MOV qword ptr [RBP + -0x20],RAX JMP 0x0015b93a LAB_0015b9cf: MOV RAX,qword ptr [RBP + -0x18] ADD RSP,0x70 POP RBP RET
long my_caseup_utf16(long param_1,ulong param_2,long param_3,long param_4,long param_5) { code *pcVar1; code *pcVar2; int8 uVar3; bool bVar4; int iVar5; int local_4c; int8 local_38; long local_30; long local_28; long local_20; ulong local_18; long local_10; pcVar1 = *(code **)(*(long *)(param_1 + 0xb8) + 0x28); pcVar2 = *(code **)(*(long *)(param_1 + 0xb8) + 0x30); uVar3 = *(int8 *)(param_1 + 0x78); local_30 = param_5; local_28 = param_4; local_20 = param_3; local_18 = param_2; local_10 = param_1; while( true ) { bVar4 = false; if (local_18 < param_2 + param_3) { local_4c = (*pcVar1)(local_10,&local_38,local_18,param_2 + param_3); bVar4 = 0 < local_4c; } if (!bVar4) break; my_toupper_utf16(uVar3,&local_38); iVar5 = (*pcVar2)(local_10,local_38,local_28,param_4 + param_5); if (local_4c != iVar5) { return local_20; } local_18 = local_18 + (long)local_4c; local_28 = local_28 + local_4c; } return local_20; }
40,879
my_charset_get_by_name
eloqsql/mysys/charset.c
CHARSET_INFO * my_charset_get_by_name(MY_CHARSET_LOADER *loader, const char *cs_name, uint cs_flags, myf flags) { uint cs_number; CHARSET_INFO *cs; DBUG_ENTER("get_charset_by_csname"); DBUG_PRINT("enter",("name: '%s'", cs_name)); my_pthread_once(&charsets_initialized, init_available_charsets); cs_number= get_charset_number(cs_name, cs_flags, flags); cs= cs_number ? get_internal_charset(loader, cs_number, flags) : NULL; if (!cs && (flags & MY_WME)) { char index_file[FN_REFLEN + sizeof(MY_CHARSET_INDEX)]; strmov(get_charsets_dir(index_file),MY_CHARSET_INDEX); my_error(EE_UNKNOWN_CHARSET, MYF(ME_BELL), cs_name, index_file); } DBUG_RETURN(cs); }
O0
c
my_charset_get_by_name: pushq %rbp movq %rsp, %rbp subq $0x260, %rsp # imm = 0x260 movq %fs:0x28, %rax movq %rax, -0x8(%rbp) movq %rdi, -0x228(%rbp) movq %rsi, -0x230(%rbp) movl %edx, -0x234(%rbp) movq %rcx, -0x240(%rbp) jmp 0xffaa5 leaq 0xbb8108(%rip), %rdi # 0xcb7bb4 leaq -0xae3(%rip), %rsi # 0xfefd0 callq 0x2a260 movq -0x230(%rbp), %rdi movl -0x234(%rbp), %esi movq -0x240(%rbp), %rdx callq 0xff290 movl %eax, -0x244(%rbp) cmpl $0x0, -0x244(%rbp) je 0xffb02 movq -0x228(%rbp), %rdi movl -0x244(%rbp), %esi movq -0x240(%rbp), %rdx callq 0xff620 movq %rax, -0x258(%rbp) jmp 0xffb0d xorl %eax, %eax movq %rax, -0x258(%rbp) jmp 0xffb0d movq -0x258(%rbp), %rax movq %rax, -0x250(%rbp) cmpq $0x0, -0x250(%rbp) jne 0xffb70 movq -0x240(%rbp), %rax andq $0x10, %rax cmpq $0x0, %rax je 0xffb70 leaq -0x220(%rbp), %rdi callq 0xfec90 movq %rax, %rdi leaq 0x84896(%rip), %rsi # 0x1843e2 callq 0x2a7f0 movq -0x230(%rbp), %rdx leaq -0x220(%rbp), %rcx movl $0x16, %edi movl $0x4, %esi movb $0x0, %al callq 0x117840 jmp 0xffb72 movq -0x250(%rbp), %rax movq %rax, -0x260(%rbp) movq %fs:0x28, %rax movq -0x8(%rbp), %rcx cmpq %rcx, %rax jne 0xffba2 movq -0x260(%rbp), %rax addq $0x260, %rsp # imm = 0x260 popq %rbp retq callq 0x2a290 nopw (%rax,%rax)
my_charset_get_by_name: push rbp mov rbp, rsp sub rsp, 260h mov rax, fs:28h mov [rbp+var_8], rax mov [rbp+var_228], rdi mov [rbp+var_230], rsi mov [rbp+var_234], edx mov [rbp+var_240], rcx jmp short $+2 loc_FFAA5: lea rdi, charsets_initialized lea rsi, init_available_charsets call _pthread_once mov rdi, [rbp+var_230] mov esi, [rbp+var_234] mov rdx, [rbp+var_240] call get_charset_number mov [rbp+var_244], eax cmp [rbp+var_244], 0 jz short loc_FFB02 mov rdi, [rbp+var_228] mov esi, [rbp+var_244] mov rdx, [rbp+var_240] call get_internal_charset mov [rbp+var_258], rax jmp short loc_FFB0D loc_FFB02: xor eax, eax mov [rbp+var_258], rax jmp short $+2 loc_FFB0D: mov rax, [rbp+var_258] mov [rbp+var_250], rax cmp [rbp+var_250], 0 jnz short loc_FFB70 mov rax, [rbp+var_240] and rax, 10h cmp rax, 0 jz short loc_FFB70 lea rdi, [rbp+var_220] call get_charsets_dir mov rdi, rax lea rsi, aIndexXml; "Index.xml" call _stpcpy mov rdx, [rbp+var_230] lea rcx, [rbp+var_220] mov edi, 16h mov esi, 4 mov al, 0 call my_error loc_FFB70: jmp short $+2 loc_FFB72: mov rax, [rbp+var_250] mov [rbp+var_260], rax mov rax, fs:28h mov rcx, [rbp+var_8] cmp rax, rcx jnz short loc_FFBA2 mov rax, [rbp+var_260] add rsp, 260h pop rbp retn loc_FFBA2: call ___stack_chk_fail
long long my_charset_get_by_name(long long a1, long long a2, unsigned int a3, long long a4) { long long charsets_dir; // rax int v5; // r8d int v6; // r9d long long internal_charset; // [rsp+8h] [rbp-258h] unsigned int charset_number; // [rsp+1Ch] [rbp-244h] _BYTE v12[536]; // [rsp+40h] [rbp-220h] BYREF unsigned long long v13; // [rsp+258h] [rbp-8h] v13 = __readfsqword(0x28u); pthread_once(&charsets_initialized, init_available_charsets); charset_number = get_charset_number(a2, a3, a4); if ( charset_number ) internal_charset = get_internal_charset(a1, charset_number, a4); else internal_charset = 0LL; if ( !internal_charset && (a4 & 0x10) != 0 ) { charsets_dir = get_charsets_dir((long long)v12); stpcpy(charsets_dir, "Index.xml"); my_error(22, 4, a2, (unsigned int)v12, v5, v6); } return internal_charset; }
my_charset_get_by_name: PUSH RBP MOV RBP,RSP SUB RSP,0x260 MOV RAX,qword ptr FS:[0x28] MOV qword ptr [RBP + -0x8],RAX MOV qword ptr [RBP + -0x228],RDI MOV qword ptr [RBP + -0x230],RSI MOV dword ptr [RBP + -0x234],EDX MOV qword ptr [RBP + -0x240],RCX JMP 0x001ffaa5 LAB_001ffaa5: LEA RDI,[0xdb7bb4] LEA RSI,[0x1fefd0] CALL 0x0012a260 MOV RDI,qword ptr [RBP + -0x230] MOV ESI,dword ptr [RBP + -0x234] MOV RDX,qword ptr [RBP + -0x240] CALL 0x001ff290 MOV dword ptr [RBP + -0x244],EAX CMP dword ptr [RBP + -0x244],0x0 JZ 0x001ffb02 MOV RDI,qword ptr [RBP + -0x228] MOV ESI,dword ptr [RBP + -0x244] MOV RDX,qword ptr [RBP + -0x240] CALL 0x001ff620 MOV qword ptr [RBP + -0x258],RAX JMP 0x001ffb0d LAB_001ffb02: XOR EAX,EAX MOV qword ptr [RBP + -0x258],RAX JMP 0x001ffb0d LAB_001ffb0d: MOV RAX,qword ptr [RBP + -0x258] MOV qword ptr [RBP + -0x250],RAX CMP qword ptr [RBP + -0x250],0x0 JNZ 0x001ffb70 MOV RAX,qword ptr [RBP + -0x240] AND RAX,0x10 CMP RAX,0x0 JZ 0x001ffb70 LEA RDI,[RBP + -0x220] CALL 0x001fec90 MOV RDI,RAX LEA RSI,[0x2843e2] CALL 0x0012a7f0 MOV RDX,qword ptr [RBP + -0x230] LEA RCX,[RBP + -0x220] MOV EDI,0x16 MOV ESI,0x4 MOV AL,0x0 CALL 0x00217840 LAB_001ffb70: JMP 0x001ffb72 LAB_001ffb72: MOV RAX,qword ptr [RBP + -0x250] MOV qword ptr [RBP + -0x260],RAX MOV RAX,qword ptr FS:[0x28] MOV RCX,qword ptr [RBP + -0x8] CMP RAX,RCX JNZ 0x001ffba2 MOV RAX,qword ptr [RBP + -0x260] ADD RSP,0x260 POP RBP RET LAB_001ffba2: CALL 0x0012a290
long my_charset_get_by_name(int8 param_1,int8 param_2,int4 param_3,ulong param_4) { int iVar1; char *__dest; long in_FS_OFFSET; long local_260; int1 local_228 [536]; long local_10; local_10 = *(long *)(in_FS_OFFSET + 0x28); pthread_once(&charsets_initialized,init_available_charsets); iVar1 = get_charset_number(param_2,param_3,param_4); if (iVar1 == 0) { local_260 = 0; } else { local_260 = get_internal_charset(param_1,iVar1,param_4); } if ((local_260 == 0) && ((param_4 & 0x10) != 0)) { __dest = (char *)get_charsets_dir(local_228); stpcpy(__dest,"Index.xml"); my_error(0x16,4,param_2,local_228); } if (*(long *)(in_FS_OFFSET + 0x28) == local_10) { return local_260; } /* WARNING: Subroutine does not return */ __stack_chk_fail(); }
40,880
escape_quotes_for_mysql
eloqsql/mysys/charset.c
size_t escape_quotes_for_mysql(CHARSET_INFO *charset_info, char *to, size_t to_length, const char *from, size_t length, my_bool *overflow) { const char *to_start= to; const char *end, *to_end=to_start + (to_length ? to_length-1 : 2*length); #ifdef USE_MB my_bool use_mb_flag= my_ci_use_mb(charset_info); #endif *overflow= FALSE; for (end= from + length; from < end; from++) { #ifdef USE_MB int tmp_length; if (use_mb_flag && (tmp_length= my_ismbchar(charset_info, from, end))) { if (to + tmp_length > to_end) { *overflow= TRUE; break; } while (tmp_length--) *to++= *from++; from--; continue; } /* We don't have the same issue here with a non-multi-byte character being turned into a multi-byte character by the addition of an escaping character, because we are only escaping the ' character with itself. */ #endif if (*from == '\'') { if (to + 2 > to_end) { *overflow= TRUE; break; } *to++= '\''; *to++= '\''; } else { if (to + 1 > to_end) { *overflow= TRUE; break; } *to++= *from; } } *to= 0; return (size_t) (to - to_start); }
O0
c
escape_quotes_for_mysql: pushq %rbp movq %rsp, %rbp subq $0x60, %rsp movq %rdi, -0x8(%rbp) movq %rsi, -0x10(%rbp) movq %rdx, -0x18(%rbp) movq %rcx, -0x20(%rbp) movq %r8, -0x28(%rbp) movq %r9, -0x30(%rbp) movq -0x10(%rbp), %rax movq %rax, -0x38(%rbp) movq -0x38(%rbp), %rax movq %rax, -0x58(%rbp) cmpq $0x0, -0x18(%rbp) je 0x342d5 movq -0x18(%rbp), %rax subq $0x1, %rax movq %rax, -0x60(%rbp) jmp 0x342e0 movq -0x28(%rbp), %rax shlq %rax movq %rax, -0x60(%rbp) movq -0x58(%rbp), %rax movq -0x60(%rbp), %rcx addq %rcx, %rax movq %rax, -0x48(%rbp) movq -0x8(%rbp), %rdi callq 0x34450 movb %al, -0x49(%rbp) movq -0x30(%rbp), %rax movb $0x0, (%rax) movq -0x20(%rbp), %rax addq -0x28(%rbp), %rax movq %rax, -0x40(%rbp) movq -0x20(%rbp), %rax cmpq -0x40(%rbp), %rax jae 0x34429 movsbl -0x49(%rbp), %eax cmpl $0x0, %eax je 0x3439f movq -0x8(%rbp), %rdi movq -0x20(%rbp), %rsi movq -0x40(%rbp), %rdx callq 0x34480 movl %eax, -0x50(%rbp) cmpl $0x0, %eax je 0x3439f movq -0x10(%rbp), %rax movslq -0x50(%rbp), %rcx addq %rcx, %rax cmpq -0x48(%rbp), %rax jbe 0x3435b movq -0x30(%rbp), %rax movb $0x1, (%rax) jmp 0x34429 jmp 0x3435d movl -0x50(%rbp), %eax movl %eax, %ecx addl $-0x1, %ecx movl %ecx, -0x50(%rbp) cmpl $0x0, %eax je 0x34391 movq -0x20(%rbp), %rax movq %rax, %rcx addq $0x1, %rcx movq %rcx, -0x20(%rbp) movb (%rax), %cl movq -0x10(%rbp), %rax movq %rax, %rdx addq $0x1, %rdx movq %rdx, -0x10(%rbp) movb %cl, (%rax) jmp 0x3435d movq -0x20(%rbp), %rax addq $-0x1, %rax movq %rax, -0x20(%rbp) jmp 0x34418 movq -0x20(%rbp), %rax movsbl (%rax), %eax cmpl $0x27, %eax jne 0x343e8 movq -0x10(%rbp), %rax addq $0x2, %rax cmpq -0x48(%rbp), %rax jbe 0x343c2 movq -0x30(%rbp), %rax movb $0x1, (%rax) jmp 0x34429 movq -0x10(%rbp), %rax movq %rax, %rcx addq $0x1, %rcx movq %rcx, -0x10(%rbp) movb $0x27, (%rax) movq -0x10(%rbp), %rax movq %rax, %rcx addq $0x1, %rcx movq %rcx, -0x10(%rbp) movb $0x27, (%rax) jmp 0x34416 movq -0x10(%rbp), %rax addq $0x1, %rax cmpq -0x48(%rbp), %rax jbe 0x343ff movq -0x30(%rbp), %rax movb $0x1, (%rax) jmp 0x34429 movq -0x20(%rbp), %rax movb (%rax), %cl movq -0x10(%rbp), %rax movq %rax, %rdx addq $0x1, %rdx movq %rdx, -0x10(%rbp) movb %cl, (%rax) jmp 0x34418 movq -0x20(%rbp), %rax addq $0x1, %rax movq %rax, -0x20(%rbp) jmp 0x3430e movq -0x10(%rbp), %rax movb $0x0, (%rax) movq -0x10(%rbp), %rax movq -0x38(%rbp), %rcx subq %rcx, %rax addq $0x60, %rsp popq %rbp retq nopw %cs:(%rax,%rax)
escape_quotes_for_mysql: push rbp mov rbp, rsp sub rsp, 60h mov [rbp+var_8], rdi mov [rbp+var_10], rsi mov [rbp+var_18], rdx mov [rbp+var_20], rcx mov [rbp+var_28], r8 mov [rbp+var_30], r9 mov rax, [rbp+var_10] mov [rbp+var_38], rax mov rax, [rbp+var_38] mov [rbp+var_58], rax cmp [rbp+var_18], 0 jz short loc_342D5 mov rax, [rbp+var_18] sub rax, 1 mov [rbp+var_60], rax jmp short loc_342E0 loc_342D5: mov rax, [rbp+var_28] shl rax, 1 mov [rbp+var_60], rax loc_342E0: mov rax, [rbp+var_58] mov rcx, [rbp+var_60] add rax, rcx mov [rbp+var_48], rax mov rdi, [rbp+var_8] call my_ci_use_mb mov [rbp+var_49], al mov rax, [rbp+var_30] mov byte ptr [rax], 0 mov rax, [rbp+var_20] add rax, [rbp+var_28] mov [rbp+var_40], rax loc_3430E: mov rax, [rbp+var_20] cmp rax, [rbp+var_40] jnb loc_34429 movsx eax, [rbp+var_49] cmp eax, 0 jz short loc_3439F mov rdi, [rbp+var_8] mov rsi, [rbp+var_20] mov rdx, [rbp+var_40] call my_ismbchar mov [rbp+var_50], eax cmp eax, 0 jz short loc_3439F mov rax, [rbp+var_10] movsxd rcx, [rbp+var_50] add rax, rcx cmp rax, [rbp+var_48] jbe short loc_3435B mov rax, [rbp+var_30] mov byte ptr [rax], 1 jmp loc_34429 loc_3435B: jmp short $+2 loc_3435D: mov eax, [rbp+var_50] mov ecx, eax add ecx, 0FFFFFFFFh mov [rbp+var_50], ecx cmp eax, 0 jz short loc_34391 mov rax, [rbp+var_20] mov rcx, rax add rcx, 1 mov [rbp+var_20], rcx mov cl, [rax] mov rax, [rbp+var_10] mov rdx, rax add rdx, 1 mov [rbp+var_10], rdx mov [rax], cl jmp short loc_3435D loc_34391: mov rax, [rbp+var_20] add rax, 0FFFFFFFFFFFFFFFFh mov [rbp+var_20], rax jmp short loc_34418 loc_3439F: mov rax, [rbp+var_20] movsx eax, byte ptr [rax] cmp eax, 27h ; ''' jnz short loc_343E8 mov rax, [rbp+var_10] add rax, 2 cmp rax, [rbp+var_48] jbe short loc_343C2 mov rax, [rbp+var_30] mov byte ptr [rax], 1 jmp short loc_34429 loc_343C2: mov rax, [rbp+var_10] mov rcx, rax add rcx, 1 mov [rbp+var_10], rcx mov byte ptr [rax], 27h ; ''' mov rax, [rbp+var_10] mov rcx, rax add rcx, 1 mov [rbp+var_10], rcx mov byte ptr [rax], 27h ; ''' jmp short loc_34416 loc_343E8: mov rax, [rbp+var_10] add rax, 1 cmp rax, [rbp+var_48] jbe short loc_343FF mov rax, [rbp+var_30] mov byte ptr [rax], 1 jmp short loc_34429 loc_343FF: mov rax, [rbp+var_20] mov cl, [rax] mov rax, [rbp+var_10] mov rdx, rax add rdx, 1 mov [rbp+var_10], rdx mov [rax], cl loc_34416: jmp short $+2 loc_34418: mov rax, [rbp+var_20] add rax, 1 mov [rbp+var_20], rax jmp loc_3430E loc_34429: mov rax, [rbp+var_10] mov byte ptr [rax], 0 mov rax, [rbp+var_10] mov rcx, [rbp+var_38] sub rax, rcx add rsp, 60h pop rbp retn
_BYTE * escape_quotes_for_mysql(long long a1, char *a2, long long a3, char *a4, long long a5, _BYTE *a6) { char *v7; // rax char v8; // cl char *v9; // rax _BYTE *v10; // rax char *v11; // rax long long v13; // [rsp+0h] [rbp-60h] int v14; // [rsp+10h] [rbp-50h] char v15; // [rsp+17h] [rbp-49h] unsigned long long v16; // [rsp+18h] [rbp-48h] char *v17; // [rsp+20h] [rbp-40h] char *v21; // [rsp+50h] [rbp-10h] v21 = a2; if ( a3 ) v13 = a3 - 1; else v13 = 2 * a5; v16 = (unsigned long long)&a2[v13]; v15 = my_ci_use_mb(a1); *a6 = 0; v17 = &a4[a5]; while ( a4 < v17 ) { if ( v15 && (v14 = my_ismbchar(a1, a4, v17)) != 0 ) { if ( (unsigned long long)&v21[v14] > v16 ) { *a6 = 1; break; } while ( v14-- ) { v7 = a4++; v8 = *v7; v9 = v21++; *v9 = v8; } --a4; } else if ( *a4 == 39 ) { if ( (unsigned long long)(v21 + 2) > v16 ) { *a6 = 1; break; } *v21 = 39; v10 = v21 + 1; v21 += 2; *v10 = 39; } else { if ( (unsigned long long)(v21 + 1) > v16 ) { *a6 = 1; break; } v11 = v21++; *v11 = *a4; } ++a4; } *v21 = 0; return (_BYTE *)(v21 - a2); }
escape_quotes_for_mysql: PUSH RBP MOV RBP,RSP SUB RSP,0x60 MOV qword ptr [RBP + -0x8],RDI MOV qword ptr [RBP + -0x10],RSI MOV qword ptr [RBP + -0x18],RDX MOV qword ptr [RBP + -0x20],RCX MOV qword ptr [RBP + -0x28],R8 MOV qword ptr [RBP + -0x30],R9 MOV RAX,qword ptr [RBP + -0x10] MOV qword ptr [RBP + -0x38],RAX MOV RAX,qword ptr [RBP + -0x38] MOV qword ptr [RBP + -0x58],RAX CMP qword ptr [RBP + -0x18],0x0 JZ 0x001342d5 MOV RAX,qword ptr [RBP + -0x18] SUB RAX,0x1 MOV qword ptr [RBP + -0x60],RAX JMP 0x001342e0 LAB_001342d5: MOV RAX,qword ptr [RBP + -0x28] SHL RAX,0x1 MOV qword ptr [RBP + -0x60],RAX LAB_001342e0: MOV RAX,qword ptr [RBP + -0x58] MOV RCX,qword ptr [RBP + -0x60] ADD RAX,RCX MOV qword ptr [RBP + -0x48],RAX MOV RDI,qword ptr [RBP + -0x8] CALL 0x00134450 MOV byte ptr [RBP + -0x49],AL MOV RAX,qword ptr [RBP + -0x30] MOV byte ptr [RAX],0x0 MOV RAX,qword ptr [RBP + -0x20] ADD RAX,qword ptr [RBP + -0x28] MOV qword ptr [RBP + -0x40],RAX LAB_0013430e: MOV RAX,qword ptr [RBP + -0x20] CMP RAX,qword ptr [RBP + -0x40] JNC 0x00134429 MOVSX EAX,byte ptr [RBP + -0x49] CMP EAX,0x0 JZ 0x0013439f MOV RDI,qword ptr [RBP + -0x8] MOV RSI,qword ptr [RBP + -0x20] MOV RDX,qword ptr [RBP + -0x40] CALL 0x00134480 MOV dword ptr [RBP + -0x50],EAX CMP EAX,0x0 JZ 0x0013439f MOV RAX,qword ptr [RBP + -0x10] MOVSXD RCX,dword ptr [RBP + -0x50] ADD RAX,RCX CMP RAX,qword ptr [RBP + -0x48] JBE 0x0013435b MOV RAX,qword ptr [RBP + -0x30] MOV byte ptr [RAX],0x1 JMP 0x00134429 LAB_0013435b: JMP 0x0013435d LAB_0013435d: MOV EAX,dword ptr [RBP + -0x50] MOV ECX,EAX ADD ECX,-0x1 MOV dword ptr [RBP + -0x50],ECX CMP EAX,0x0 JZ 0x00134391 MOV RAX,qword ptr [RBP + -0x20] MOV RCX,RAX ADD RCX,0x1 MOV qword ptr [RBP + -0x20],RCX MOV CL,byte ptr [RAX] MOV RAX,qword ptr [RBP + -0x10] MOV RDX,RAX ADD RDX,0x1 MOV qword ptr [RBP + -0x10],RDX MOV byte ptr [RAX],CL JMP 0x0013435d LAB_00134391: MOV RAX,qword ptr [RBP + -0x20] ADD RAX,-0x1 MOV qword ptr [RBP + -0x20],RAX JMP 0x00134418 LAB_0013439f: MOV RAX,qword ptr [RBP + -0x20] MOVSX EAX,byte ptr [RAX] CMP EAX,0x27 JNZ 0x001343e8 MOV RAX,qword ptr [RBP + -0x10] ADD RAX,0x2 CMP RAX,qword ptr [RBP + -0x48] JBE 0x001343c2 MOV RAX,qword ptr [RBP + -0x30] MOV byte ptr [RAX],0x1 JMP 0x00134429 LAB_001343c2: MOV RAX,qword ptr [RBP + -0x10] MOV RCX,RAX ADD RCX,0x1 MOV qword ptr [RBP + -0x10],RCX MOV byte ptr [RAX],0x27 MOV RAX,qword ptr [RBP + -0x10] MOV RCX,RAX ADD RCX,0x1 MOV qword ptr [RBP + -0x10],RCX MOV byte ptr [RAX],0x27 JMP 0x00134416 LAB_001343e8: MOV RAX,qword ptr [RBP + -0x10] ADD RAX,0x1 CMP RAX,qword ptr [RBP + -0x48] JBE 0x001343ff MOV RAX,qword ptr [RBP + -0x30] MOV byte ptr [RAX],0x1 JMP 0x00134429 LAB_001343ff: MOV RAX,qword ptr [RBP + -0x20] MOV CL,byte ptr [RAX] MOV RAX,qword ptr [RBP + -0x10] MOV RDX,RAX ADD RDX,0x1 MOV qword ptr [RBP + -0x10],RDX MOV byte ptr [RAX],CL LAB_00134416: JMP 0x00134418 LAB_00134418: MOV RAX,qword ptr [RBP + -0x20] ADD RAX,0x1 MOV qword ptr [RBP + -0x20],RAX JMP 0x0013430e LAB_00134429: MOV RAX,qword ptr [RBP + -0x10] MOV byte ptr [RAX],0x0 MOV RAX,qword ptr [RBP + -0x10] MOV RCX,qword ptr [RBP + -0x38] SUB RAX,RCX ADD RSP,0x60 POP RBP RET
long escape_quotes_for_mysql (int8 param_1,char *param_2,long param_3,char *param_4,long param_5, int1 *param_6) { char cVar1; char *pcVar2; long local_68; int local_58; char *local_28; char *local_18; if (param_3 == 0) { local_68 = param_5 << 1; } else { local_68 = param_3 + -1; } pcVar2 = param_2 + local_68; cVar1 = my_ci_use_mb(param_1); *param_6 = 0; local_28 = param_4; local_18 = param_2; do { if (param_4 + param_5 <= local_28) { LAB_00134429: *local_18 = '\0'; return (long)local_18 - (long)param_2; } if ((cVar1 == '\0') || (local_58 = my_ismbchar(param_1,local_28,param_4 + param_5), local_58 == 0)) { if (*local_28 == '\'') { if (pcVar2 < local_18 + 2) { *param_6 = 1; goto LAB_00134429; } *local_18 = '\''; local_18[1] = '\''; local_18 = local_18 + 2; } else { if (pcVar2 < local_18 + 1) { *param_6 = 1; goto LAB_00134429; } *local_18 = *local_28; local_18 = local_18 + 1; } } else { if (pcVar2 < local_18 + local_58) { *param_6 = 1; goto LAB_00134429; } while (local_58 != 0) { *local_18 = *local_28; local_58 = local_58 + -1; local_28 = local_28 + 1; local_18 = local_18 + 1; } local_28 = local_28 + -1; } local_28 = local_28 + 1; } while( true ); }
40,881
my_dir
eloqsql/mysys/my_lib.c
MY_DIR *my_dir(const char *path, myf MyFlags) { MY_DIR_HANDLE *dirh; FILEINFO finfo; DIR *dirp; struct dirent *dp; char tmp_path[FN_REFLEN + 2], *tmp_file; char dirent_tmp[sizeof(struct dirent)+_POSIX_PATH_MAX+1]; DBUG_ENTER("my_dir"); DBUG_PRINT("my",("path: '%s' MyFlags: %lu",path,MyFlags)); tmp_file= directory_file_name(tmp_path, path); if (!(dirp= opendir(tmp_path))) { my_errno= errno; goto err_open; } if (!(dirh= my_malloc(key_memory_MY_DIR, sizeof(*dirh), MYF(MyFlags | MY_ZEROFILL)))) goto err_alloc; if (my_init_dynamic_array(key_memory_MY_DIR, &dirh->array, sizeof(FILEINFO), ENTRIES_START_SIZE, ENTRIES_INCREMENT, MYF(MyFlags))) goto error; init_alloc_root(key_memory_MY_DIR, &dirh->root, NAMES_START_SIZE, NAMES_START_SIZE, MYF(MyFlags)); dp= (struct dirent*) dirent_tmp; while (!(READDIR(dirp,(struct dirent*) dirent_tmp,dp))) { MY_STAT statbuf, *mystat= 0; if (dp->d_name[0] == '.' && (dp->d_name[1] == '\0' || (dp->d_name[1] == '.' && dp->d_name[2] == '\0'))) continue; /* . or .. */ if (MyFlags & MY_WANT_STAT) { mystat= &statbuf; bzero(mystat, sizeof(*mystat)); (void) strmov(tmp_file, dp->d_name); (void) my_stat(tmp_path, mystat, MyFlags); if (!(mystat->st_mode & MY_S_IREAD)) continue; } if (!(finfo.name= strdup_root(&dirh->root, dp->d_name))) goto error; if (mystat && !((mystat= memdup_root(&dirh->root, mystat, sizeof(*mystat))))) goto error; finfo.mystat= mystat; if (push_dynamic(&dirh->array, (uchar*)&finfo)) goto error; } (void) closedir(dirp); if (MyFlags & MY_WANT_SORT) sort_dynamic(&dirh->array, (qsort_cmp) comp_names); dirh->dir.dir_entry= dynamic_element(&dirh->array, 0, FILEINFO *); dirh->dir.number_of_files= dirh->array.elements; DBUG_RETURN(&dirh->dir); error: my_dirend(&dirh->dir); err_alloc: (void) closedir(dirp); err_open: if (MyFlags & (MY_FAE | MY_WME)) my_error(EE_DIR, MYF(ME_BELL), path, my_errno); DBUG_RETURN(NULL); }
O3
c
my_dir: pushq %rbp movq %rsp, %rbp pushq %r15 pushq %r14 pushq %r13 pushq %r12 pushq %rbx subq $0x2e8, %rsp # imm = 0x2E8 movq %rdi, %r14 movq %fs:0x28, %rax movq %rax, -0x30(%rbp) cmpb $0x0, (%rdi) movq %rsi, %r15 leaq 0x319a9(%rip), %rsi # 0x60dcb cmovneq %rdi, %rsi leaq -0x240(%rbp), %rdi movl $0x201, %edx # imm = 0x201 callq 0x5df38 movq %rax, %r12 cmpb $0x2f, -0x1(%rax) je 0x2f44a movw $0x2f, (%r12) incq %r12 leaq -0x240(%rbp), %rdi callq 0x24520 testq %rax, %rax je 0x2f4da movq %rax, %r13 leaq 0x33b3df(%rip), %rbx # 0x36a844 movl (%rbx), %edi movq %r15, -0x248(%rbp) orq $0x20, %r15 movl $0x78, %esi movq %r15, %rdx callq 0x28289 testq %rax, %rax je 0x2f4c9 movq %rax, %r15 movq %r12, -0x268(%rbp) movq %rbx, %r12 movl (%rbx), %edi leaq 0x10(%rax), %rbx movq -0x248(%rbp), %rax movq %rax, (%rsp) movq %rbx, %rsi movl $0x10, %edx xorl %ecx, %ecx movl $0x200, %r8d # imm = 0x200 movl $0x1000, %r9d # imm = 0x1000 callq 0x301b4 testb %al, %al je 0x2f519 movq %r15, %rdi callq 0x2f3c0 movq %r13, %rdi callq 0x245c0 movq -0x248(%rbp), %r15 jmp 0x2f4e8 callq 0x24050 movl (%rax), %ebx callq 0x28ca6 movl %ebx, (%rax) testb $0x18, %r15b je 0x2f511 callq 0x28ca6 movl (%rax), %ecx xorl %r15d, %r15d movl $0x4, %esi movl $0xc, %edi movq %r14, %rdx xorl %eax, %eax callq 0x2e7bf jmp 0x2f68a xorl %r15d, %r15d jmp 0x2f68a movq %rbx, -0x260(%rbp) movq %r14, -0x258(%rbp) movl (%r12), %edi movq %r15, %rsi addq $0x38, %rsi movl $0x8000, %edx # imm = 0x8000 movl $0x8000, %ecx # imm = 0x8000 movq %rsi, -0x250(%rbp) movq -0x248(%rbp), %r8 callq 0x2e1ac movq %r13, %rdi callq 0x241c0 testq %rax, %rax je 0x2f651 movq %rax, %rbx movq -0x248(%rbp), %r14 cmpb $0x2e, 0x13(%rbx) jne 0x2f58b movzbl 0x14(%rbx), %eax testl %eax, %eax je 0x2f63d cmpl $0x2e, %eax jne 0x2f58b cmpb $0x0, 0x15(%rbx) je 0x2f63d addq $0x13, %rbx btl $0xe, %r14d jb 0x2f59b xorl %r12d, %r12d jmp 0x2f5db movl $0x90, %edx leaq -0x308(%rbp), %r12 movq %r12, %rdi xorl %esi, %esi callq 0x24190 movq -0x268(%rbp), %rdi movq %rbx, %rsi callq 0x24290 leaq -0x240(%rbp), %rdi movq %r12, %rsi movq %r14, %rdx callq 0x2f6bf testb $0x1, -0x2ef(%rbp) je 0x2f63d movq -0x250(%rbp), %rdi movq %rbx, %rsi callq 0x2e69e movq %rax, -0x278(%rbp) testq %rax, %rax je 0x2f6ae testq %r12, %r12 je 0x2f61d movl $0x90, %edx movq -0x250(%rbp), %rdi movq %r12, %rsi callq 0x2e70c testq %rax, %rax jne 0x2f61f jmp 0x2f6ae xorl %eax, %eax movq %rax, -0x270(%rbp) movq -0x260(%rbp), %rdi leaq -0x278(%rbp), %rsi callq 0x30252 testb %al, %al jne 0x2f6ae movq %r13, %rdi callq 0x241c0 movq %rax, %rbx testq %rax, %rax jne 0x2f56a movq %r13, %rdi callq 0x245c0 btl $0xd, -0x248(%rbp) jae 0x2f67b movq 0x10(%r15), %rdi movl 0x18(%r15), %esi movl 0x24(%r15), %edx leaq 0xed(%rip), %rcx # 0x2f763 callq 0x31128 movq 0x10(%r15), %rax movq %rax, (%r15) movl 0x18(%r15), %eax movl %eax, 0x8(%r15) movq %fs:0x28, %rax cmpq -0x30(%rbp), %rax jne 0x2f6ba movq %r15, %rax addq $0x2e8, %rsp # imm = 0x2E8 popq %rbx popq %r12 popq %r13 popq %r14 popq %r15 popq %rbp retq movq -0x258(%rbp), %r14 jmp 0x2f4c1 callq 0x24370
my_dir: push rbp mov rbp, rsp push r15 push r14 push r13 push r12 push rbx sub rsp, 2E8h mov r14, rdi mov rax, fs:28h mov [rbp+var_30], rax cmp byte ptr [rdi], 0 mov r15, rsi lea rsi, asc_60DCA+1; "." cmovnz rsi, rdi lea rdi, [rbp+var_240] mov edx, 201h call strnmov mov r12, rax cmp byte ptr [rax-1], 2Fh ; '/' jz short loc_2F44A mov word ptr [r12], 2Fh ; '/' inc r12 loc_2F44A: lea rdi, [rbp+var_240] call _opendir test rax, rax jz short loc_2F4DA mov r13, rax lea rbx, key_memory_MY_DIR mov edi, [rbx] mov [rbp+var_248], r15 or r15, 20h mov esi, 78h ; 'x' mov rdx, r15 call my_malloc test rax, rax jz short loc_2F4C9 mov r15, rax mov [rbp+var_268], r12 mov r12, rbx mov edi, [rbx] lea rbx, [rax+10h] mov rax, [rbp+var_248] mov [rsp+310h+var_310], rax mov rsi, rbx mov edx, 10h xor ecx, ecx mov r8d, 200h mov r9d, 1000h call init_dynamic_array2 test al, al jz short loc_2F519 loc_2F4C1: mov rdi, r15 call my_dirend loc_2F4C9: mov rdi, r13 call _closedir mov r15, [rbp+var_248] jmp short loc_2F4E8 loc_2F4DA: call ___errno_location mov ebx, [rax] call _my_thread_var mov [rax], ebx loc_2F4E8: test r15b, 18h jz short loc_2F511 call _my_thread_var mov ecx, [rax] xor r15d, r15d mov esi, 4 mov edi, 0Ch mov rdx, r14 xor eax, eax call my_error jmp loc_2F68A loc_2F511: xor r15d, r15d jmp loc_2F68A loc_2F519: mov [rbp+var_260], rbx mov [rbp+var_258], r14 mov edi, [r12] mov rsi, r15 add rsi, 38h ; '8' mov edx, 8000h mov ecx, 8000h mov [rbp+var_250], rsi mov r8, [rbp+var_248] call init_alloc_root mov rdi, r13 call _readdir64 test rax, rax jz loc_2F651 mov rbx, rax mov r14, [rbp+var_248] loc_2F56A: cmp byte ptr [rbx+13h], 2Eh ; '.' jnz short loc_2F58B movzx eax, byte ptr [rbx+14h] test eax, eax jz loc_2F63D cmp eax, 2Eh ; '.' jnz short loc_2F58B cmp byte ptr [rbx+15h], 0 jz loc_2F63D loc_2F58B: add rbx, 13h bt r14d, 0Eh jb short loc_2F59B xor r12d, r12d jmp short loc_2F5DB loc_2F59B: mov edx, 90h lea r12, [rbp+var_308] mov rdi, r12 xor esi, esi call _memset mov rdi, [rbp+var_268] mov rsi, rbx call _strcpy lea rdi, [rbp+var_240] mov rsi, r12 mov rdx, r14 call my_stat test [rbp+var_2EF], 1 jz short loc_2F63D loc_2F5DB: mov rdi, [rbp+var_250] mov rsi, rbx call strdup_root mov [rbp+var_278], rax test rax, rax jz loc_2F6AE test r12, r12 jz short loc_2F61D mov edx, 90h mov rdi, [rbp+var_250] mov rsi, r12 call memdup_root test rax, rax jnz short loc_2F61F jmp loc_2F6AE loc_2F61D: xor eax, eax loc_2F61F: mov [rbp+var_270], rax mov rdi, [rbp+var_260] lea rsi, [rbp+var_278] call insert_dynamic test al, al jnz short loc_2F6AE loc_2F63D: mov rdi, r13 call _readdir64 mov rbx, rax test rax, rax jnz loc_2F56A loc_2F651: mov rdi, r13 call _closedir bt dword ptr [rbp+var_248], 0Dh jnb short loc_2F67B mov rdi, [r15+10h] mov esi, [r15+18h] mov edx, [r15+24h] lea rcx, comp_names call my_qsort loc_2F67B: mov rax, [r15+10h] mov [r15], rax mov eax, [r15+18h] mov [r15+8], eax loc_2F68A: mov rax, fs:28h cmp rax, [rbp+var_30] jnz short loc_2F6BA mov rax, r15 add rsp, 2E8h pop rbx pop r12 pop r13 pop r14 pop r15 pop rbp retn loc_2F6AE: mov r14, [rbp+var_258] jmp loc_2F4C1 loc_2F6BA: call ___stack_chk_fail
long long my_dir(char *a1, long long a2) { char *v2; // r14 char *v4; // rsi char *v5; // rax char *v6; // r12 long long v7; // rax long long v8; // r13 long long v9; // rax long long v10; // r15 long long v11; // rbx int v12; // ebx unsigned int *v13; // rax long long v14; // rax _BYTE *v15; // rbx long long v16; // r14 long long v17; // rbx _BYTE *v18; // r12 char *v19; // rax _BYTE v21[144]; // [rsp+8h] [rbp-308h] BYREF _QWORD v22[2]; // [rsp+98h] [rbp-278h] BYREF char *v23; // [rsp+A8h] [rbp-268h] long long v24; // [rsp+B0h] [rbp-260h] char *v25; // [rsp+B8h] [rbp-258h] long long v26; // [rsp+C0h] [rbp-250h] long long v27; // [rsp+C8h] [rbp-248h] BYREF _BYTE v28[528]; // [rsp+D0h] [rbp-240h] BYREF unsigned long long v29; // [rsp+2E0h] [rbp-30h] v2 = a1; v29 = __readfsqword(0x28u); v4 = "."; if ( *a1 ) v4 = a1; v5 = (char *)strnmov(v28, v4, 513LL); v6 = v5; if ( *(v5 - 1) != 47 ) { *(_WORD *)v5 = 47; v6 = v5 + 1; } v7 = opendir(v28); if ( !v7 ) { v12 = *(_DWORD *)__errno_location(v28); *(_DWORD *)my_thread_var() = v12; goto LABEL_11; } v8 = v7; v27 = a2; v9 = my_malloc(key_memory_MY_DIR, 0x78uLL, (unsigned int)a2 | 0x20); if ( !v9 ) goto LABEL_9; v10 = v9; v23 = v6; v11 = v9 + 16; if ( (unsigned __int8)init_dynamic_array2(key_memory_MY_DIR, (int)v9 + 16, 16, 0, 512, 4096, v27) ) goto LABEL_8; v24 = v11; v25 = a1; v26 = v10 + 56; init_alloc_root(key_memory_MY_DIR, (long long *)(v10 + 56), 0x8000LL, 0x8000LL, v27); v14 = readdir64(v8); if ( !v14 ) { LABEL_30: closedir(v8); if ( _bittest((const signed __int32 *)&v27, 0xDu) ) my_qsort(*(_QWORD *)(v10 + 16), *(unsigned int *)(v10 + 24), *(unsigned int *)(v10 + 36), comp_names); *(_QWORD *)v10 = *(_QWORD *)(v10 + 16); *(_DWORD *)(v10 + 8) = *(_DWORD *)(v10 + 24); return v10; } v15 = (_BYTE *)v14; v16 = v27; while ( 1 ) { if ( v15[19] == 46 && (!v15[20] || v15[20] == 46 && !v15[21]) ) goto LABEL_29; v17 = (long long)(v15 + 19); if ( (v16 & 0x4000) != 0 ) { v18 = v21; memset(v21, 0LL, sizeof(v21)); strcpy(v23, v17); my_stat(v28, v21, v16); if ( (v21[25] & 1) == 0 ) goto LABEL_29; } else { v18 = 0LL; } v22[0] = strdup_root(v26, v17); if ( !v22[0] ) break; if ( v18 ) { v19 = memdup_root(v26, (long long)v18, 144LL); if ( !v19 ) break; } else { v19 = 0LL; } v22[1] = v19; if ( (unsigned __int8)insert_dynamic(v24, v22) ) break; LABEL_29: v15 = (_BYTE *)readdir64(v8); if ( !v15 ) goto LABEL_30; } v2 = v25; LABEL_8: my_dirend(v10); LABEL_9: closedir(v8); LOBYTE(a2) = v27; LABEL_11: if ( (a2 & 0x18) == 0 ) return 0LL; v13 = (unsigned int *)my_thread_var(); v10 = 0LL; my_error(0xCu, 4, v2, *v13); return v10; }
my_dir: PUSH RBP MOV RBP,RSP PUSH R15 PUSH R14 PUSH R13 PUSH R12 PUSH RBX SUB RSP,0x2e8 MOV R14,RDI MOV RAX,qword ptr FS:[0x28] MOV qword ptr [RBP + -0x30],RAX CMP byte ptr [RDI],0x0 MOV R15,RSI LEA RSI,[0x160dcb] CMOVNZ RSI,RDI LEA RDI,[RBP + -0x240] MOV EDX,0x201 CALL 0x0015df38 MOV R12,RAX CMP byte ptr [RAX + -0x1],0x2f JZ 0x0012f44a MOV word ptr [R12],0x2f INC R12 LAB_0012f44a: LEA RDI,[RBP + -0x240] CALL 0x00124520 TEST RAX,RAX JZ 0x0012f4da MOV R13,RAX LEA RBX,[0x46a844] MOV EDI,dword ptr [RBX] MOV qword ptr [RBP + -0x248],R15 OR R15,0x20 MOV ESI,0x78 MOV RDX,R15 CALL 0x00128289 TEST RAX,RAX JZ 0x0012f4c9 MOV R15,RAX MOV qword ptr [RBP + -0x268],R12 MOV R12,RBX MOV EDI,dword ptr [RBX] LEA RBX,[RAX + 0x10] MOV RAX,qword ptr [RBP + -0x248] MOV qword ptr [RSP],RAX MOV RSI,RBX MOV EDX,0x10 XOR ECX,ECX MOV R8D,0x200 MOV R9D,0x1000 CALL 0x001301b4 TEST AL,AL JZ 0x0012f519 LAB_0012f4c1: MOV RDI,R15 CALL 0x0012f3c0 LAB_0012f4c9: MOV RDI,R13 CALL 0x001245c0 MOV R15,qword ptr [RBP + -0x248] JMP 0x0012f4e8 LAB_0012f4da: CALL 0x00124050 MOV EBX,dword ptr [RAX] CALL 0x00128ca6 MOV dword ptr [RAX],EBX LAB_0012f4e8: TEST R15B,0x18 JZ 0x0012f511 CALL 0x00128ca6 MOV ECX,dword ptr [RAX] XOR R15D,R15D MOV ESI,0x4 MOV EDI,0xc MOV RDX,R14 XOR EAX,EAX CALL 0x0012e7bf JMP 0x0012f68a LAB_0012f511: XOR R15D,R15D JMP 0x0012f68a LAB_0012f519: MOV qword ptr [RBP + -0x260],RBX MOV qword ptr [RBP + -0x258],R14 MOV EDI,dword ptr [R12] MOV RSI,R15 ADD RSI,0x38 MOV EDX,0x8000 MOV ECX,0x8000 MOV qword ptr [RBP + -0x250],RSI MOV R8,qword ptr [RBP + -0x248] CALL 0x0012e1ac MOV RDI,R13 CALL 0x001241c0 TEST RAX,RAX JZ 0x0012f651 MOV RBX,RAX MOV R14,qword ptr [RBP + -0x248] LAB_0012f56a: CMP byte ptr [RBX + 0x13],0x2e JNZ 0x0012f58b MOVZX EAX,byte ptr [RBX + 0x14] TEST EAX,EAX JZ 0x0012f63d CMP EAX,0x2e JNZ 0x0012f58b CMP byte ptr [RBX + 0x15],0x0 JZ 0x0012f63d LAB_0012f58b: ADD RBX,0x13 BT R14D,0xe JC 0x0012f59b XOR R12D,R12D JMP 0x0012f5db LAB_0012f59b: MOV EDX,0x90 LEA R12,[RBP + -0x308] MOV RDI,R12 XOR ESI,ESI CALL 0x00124190 MOV RDI,qword ptr [RBP + -0x268] MOV RSI,RBX CALL 0x00124290 LEA RDI,[RBP + -0x240] MOV RSI,R12 MOV RDX,R14 CALL 0x0012f6bf TEST byte ptr [RBP + -0x2ef],0x1 JZ 0x0012f63d LAB_0012f5db: MOV RDI,qword ptr [RBP + -0x250] MOV RSI,RBX CALL 0x0012e69e MOV qword ptr [RBP + -0x278],RAX TEST RAX,RAX JZ 0x0012f6ae TEST R12,R12 JZ 0x0012f61d MOV EDX,0x90 MOV RDI,qword ptr [RBP + -0x250] MOV RSI,R12 CALL 0x0012e70c TEST RAX,RAX JNZ 0x0012f61f JMP 0x0012f6ae LAB_0012f61d: XOR EAX,EAX LAB_0012f61f: MOV qword ptr [RBP + -0x270],RAX MOV RDI,qword ptr [RBP + -0x260] LEA RSI,[RBP + -0x278] CALL 0x00130252 TEST AL,AL JNZ 0x0012f6ae LAB_0012f63d: MOV RDI,R13 CALL 0x001241c0 MOV RBX,RAX TEST RAX,RAX JNZ 0x0012f56a LAB_0012f651: MOV RDI,R13 CALL 0x001245c0 BT dword ptr [RBP + -0x248],0xd JNC 0x0012f67b MOV RDI,qword ptr [R15 + 0x10] MOV ESI,dword ptr [R15 + 0x18] MOV EDX,dword ptr [R15 + 0x24] LEA RCX,[0x12f763] CALL 0x00131128 LAB_0012f67b: MOV RAX,qword ptr [R15 + 0x10] MOV qword ptr [R15],RAX MOV EAX,dword ptr [R15 + 0x18] MOV dword ptr [R15 + 0x8],EAX LAB_0012f68a: MOV RAX,qword ptr FS:[0x28] CMP RAX,qword ptr [RBP + -0x30] JNZ 0x0012f6ba MOV RAX,R15 ADD RSP,0x2e8 POP RBX POP R12 POP R13 POP R14 POP R15 POP RBP RET LAB_0012f6ae: MOV R14,qword ptr [RBP + -0x258] JMP 0x0012f4c1 LAB_0012f6ba: CALL 0x00124370
int8 * my_dir(char *param_1,ulong param_2) { int iVar1; ulong uVar2; char cVar3; char *pcVar4; DIR *__dirp; int8 *puVar5; int *piVar6; int4 *puVar7; dirent64 *pdVar8; long lVar9; int1 *__s; long in_FS_OFFSET; int1 local_310 [25]; byte local_2f7; long local_280; long local_278; char *local_270; int8 *local_268; char *local_260; int8 *local_258; ulong local_250; char local_248 [528]; long local_38; local_38 = *(long *)(in_FS_OFFSET + 0x28); pcVar4 = "."; if (*param_1 != '\0') { pcVar4 = param_1; } pcVar4 = (char *)strnmov(local_248,pcVar4,0x201); if (pcVar4[-1] != '/') { pcVar4[0] = '/'; pcVar4[1] = '\0'; pcVar4 = pcVar4 + 1; } __dirp = opendir(local_248); if (__dirp == (DIR *)0x0) { piVar6 = __errno_location(); iVar1 = *piVar6; piVar6 = (int *)_my_thread_var(); *piVar6 = iVar1; } else { local_250 = param_2; puVar5 = (int8 *)my_malloc(key_memory_MY_DIR,0x78,param_2 | 0x20); if (puVar5 != (int8 *)0x0) { local_270 = pcVar4; cVar3 = init_dynamic_array2(key_memory_MY_DIR,puVar5 + 2,0x10,0,0x200,0x1000,local_250); if (cVar3 == '\0') { local_258 = puVar5 + 7; local_268 = puVar5 + 2; local_260 = param_1; init_alloc_root(key_memory_MY_DIR,local_258,0x8000,0x8000,local_250); pdVar8 = readdir64(__dirp); uVar2 = local_250; while (pdVar8 != (dirent64 *)0x0) { if ((pdVar8->d_name[0] != '.') || ((pdVar8->d_name[1] != '\0' && ((pdVar8->d_name[1] != '.' || (pdVar8->d_name[2] != '\0')))))) { if (((uint)uVar2 >> 0xe & 1) == 0) { __s = (int1 *)0x0; } else { __s = local_310; memset(__s,0,0x90); strcpy(local_270,pdVar8->d_name); my_stat(local_248,__s,uVar2); if ((local_2f7 & 1) == 0) goto LAB_0012f63d; } local_280 = strdup_root(local_258,pdVar8->d_name); param_1 = local_260; if (local_280 == 0) goto LAB_0012f4c1; if (__s == (int1 *)0x0) { lVar9 = 0; } else { lVar9 = memdup_root(local_258,__s,0x90); param_1 = local_260; if (lVar9 == 0) goto LAB_0012f4c1; } local_278 = lVar9; cVar3 = insert_dynamic(local_268); param_1 = local_260; if (cVar3 != '\0') goto LAB_0012f4c1; } LAB_0012f63d: pdVar8 = readdir64(__dirp); } closedir(__dirp); if (((uint)local_250 >> 0xd & 1) != 0) { my_qsort(puVar5[2],*(int4 *)(puVar5 + 3),*(int4 *)((long)puVar5 + 0x24), comp_names); } *puVar5 = puVar5[2]; *(int4 *)(puVar5 + 1) = *(int4 *)(puVar5 + 3); goto LAB_0012f68a; } LAB_0012f4c1: my_dirend(puVar5); } closedir(__dirp); param_2 = local_250; } if ((param_2 & 0x18) == 0) { puVar5 = (int8 *)0x0; } else { puVar7 = (int4 *)_my_thread_var(); puVar5 = (int8 *)0x0; my_error(0xc,4,param_1,*puVar7); } LAB_0012f68a: if (*(long *)(in_FS_OFFSET + 0x28) == local_38) { return puVar5; } /* WARNING: Subroutine does not return */ __stack_chk_fail(); }
40,882
minja::Value::Value(std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>> const&)
monkey531[P]llama/common/minja.hpp
Value(const std::string & v) : primitive_(v) {}
O3
cpp
minja::Value::Value(std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>> const&): pushq %r14 pushq %rbx pushq %rax movq %rdi, %rbx addq $0x40, %rdi xorps %xmm0, %xmm0 movups %xmm0, 0x30(%rbx) movups %xmm0, 0x20(%rbx) movups %xmm0, 0x10(%rbx) movups %xmm0, (%rbx) callq 0x2c8aa addq $0x8, %rsp popq %rbx popq %r14 retq movq %rax, %r14 movq 0x38(%rbx), %rdi testq %rdi, %rdi je 0x4392d callq 0x30ed6 movq %rbx, %rdi callq 0x19204 movq %rbx, %rdi callq 0x40da8 movq %r14, %rdi callq 0x18bc0 nop
_ZN5minja5ValueC2ERKNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE: push r14 push rbx push rax mov rbx, rdi add rdi, 40h ; '@' xorps xmm0, xmm0 movups xmmword ptr [rbx+30h], xmm0 movups xmmword ptr [rbx+20h], xmm0 movups xmmword ptr [rbx+10h], xmm0 movups xmmword ptr [rbx], xmm0 call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvEC2IRKS9_S9_TnNSt9enable_ifIXaantsr6detail13is_basic_jsonIT0_EE5valuesr6detail18is_compatible_typeISD_SI_EE5valueEiE4typeELi0EEEOT_ add rsp, 8 pop rbx pop r14 retn mov r14, rax mov rdi, [rbx+38h] test rdi, rdi jz short loc_4392D call _ZNSt16_Sp_counted_baseILN9__gnu_cxx12_Lock_policyE2EE10_M_releaseEv; std::_Sp_counted_base<(__gnu_cxx::_Lock_policy)2>::_M_release(void) loc_4392D: mov rdi, rbx call _ZN5minja5ValueC2ERKNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE_cold_1; minja::Value::Value(std::string const&) [clone] mov rdi, rbx call _ZNSt23enable_shared_from_thisIN5minja5ValueEED2Ev; std::enable_shared_from_this<minja::Value>::~enable_shared_from_this() mov rdi, r14 call __Unwind_Resume
long long minja::Value::Value(_OWORD *a1) { a1[3] = 0LL; a1[2] = 0LL; a1[1] = 0LL; *a1 = 0LL; return ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvEC2IRKS9_S9_TnNSt9enable_ifIXaantsr6detail13is_basic_jsonIT0_EE5valuesr6detail18is_compatible_typeISD_SI_EE5valueEiE4typeELi0EEEOT_(a1 + 4); }
Value: PUSH R14 PUSH RBX PUSH RAX MOV RBX,RDI ADD RDI,0x40 XORPS XMM0,XMM0 MOVUPS xmmword ptr [RBX + 0x30],XMM0 MOVUPS xmmword ptr [RBX + 0x20],XMM0 MOVUPS xmmword ptr [RBX + 0x10],XMM0 MOVUPS xmmword ptr [RBX],XMM0 LAB_0014390f: CALL 0x0012c8aa LAB_00143914: ADD RSP,0x8 POP RBX POP R14 RET
/* minja::Value::Value(std::__cxx11::string const&) */ void __thiscall minja::Value::Value(Value *this,string *param_1) { *(int8 *)(this + 0x30) = 0; *(int8 *)(this + 0x38) = 0; *(int8 *)(this + 0x20) = 0; *(int8 *)(this + 0x28) = 0; *(int8 *)(this + 0x10) = 0; *(int8 *)(this + 0x18) = 0; *(int8 *)this = 0; *(int8 *)(this + 8) = 0; /* try { // try from 0014390f to 00143913 has its CatchHandler @ 0014391c */ _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvEC2IRKS9_S9_TnNSt9enable_ifIXaantsr6detail13is_basic_jsonIT0_EE5valuesr6detail18is_compatible_typeISD_SI_EE5valueEiE4typeELi0EEEOT_ (this + 0x40); return; }
40,883
my_uca_generate_page
eloqsql/strings/ctype-uca.c
static my_bool my_uca_generate_page(MY_CHARSET_LOADER *loader, MY_UCA_WEIGHT_LEVEL *dst, const MY_UCA_WEIGHT_LEVEL *src, uint pageno) { DBUG_ASSERT(dst->levelno == src->levelno); return src->lengths[pageno] ? /* A page with explicit weights and some special rules. Copy all weights from the page in "src". */ my_uca_copy_page(loader, src, dst, pageno) : /* A page with implicit weights and some special rules. Generate default weights for all characters on this page algorithmically now, at initialization time. */ my_uca_generate_implicit_page(loader, dst, pageno); }
O0
c
my_uca_generate_page: pushq %rbp movq %rsp, %rbp subq $0x20, %rsp movq %rdi, -0x8(%rbp) movq %rsi, -0x10(%rbp) movq %rdx, -0x18(%rbp) movl %ecx, -0x1c(%rbp) jmp 0x506b9 movq -0x18(%rbp), %rax movq 0x8(%rax), %rax movl -0x1c(%rbp), %ecx movzbl (%rax,%rcx), %eax cmpl $0x0, %eax je 0x506eb movq -0x8(%rbp), %rdi movq -0x18(%rbp), %rsi movq -0x10(%rbp), %rdx movl -0x1c(%rbp), %eax movl %eax, %ecx callq 0x50710 movsbl %al, %eax movl %eax, -0x20(%rbp) jmp 0x50701 movq -0x8(%rbp), %rdi movq -0x10(%rbp), %rsi movl -0x1c(%rbp), %edx callq 0x50840 movsbl %al, %eax movl %eax, -0x20(%rbp) movl -0x20(%rbp), %eax addq $0x20, %rsp popq %rbp retq nopw (%rax,%rax)
my_uca_generate_page: push rbp mov rbp, rsp sub rsp, 20h mov [rbp+var_8], rdi mov [rbp+var_10], rsi mov [rbp+var_18], rdx mov [rbp+var_1C], ecx jmp short $+2 loc_506B9: mov rax, [rbp+var_18] mov rax, [rax+8] mov ecx, [rbp+var_1C] movzx eax, byte ptr [rax+rcx] cmp eax, 0 jz short loc_506EB mov rdi, [rbp+var_8] mov rsi, [rbp+var_18] mov rdx, [rbp+var_10] mov eax, [rbp+var_1C] mov ecx, eax call my_uca_copy_page movsx eax, al mov [rbp+var_20], eax jmp short loc_50701 loc_506EB: mov rdi, [rbp+var_8] mov rsi, [rbp+var_10] mov edx, [rbp+var_1C] call my_uca_generate_implicit_page movsx eax, al mov [rbp+var_20], eax loc_50701: mov eax, [rbp+var_20] add rsp, 20h pop rbp retn
long long my_uca_generate_page(long long a1, long long a2, long long a3, unsigned int a4) { if ( *(_BYTE *)(*(_QWORD *)(a3 + 8) + a4) ) return (unsigned int)(char)my_uca_copy_page(a1, a3, a2, a4); else return (unsigned int)(char)my_uca_generate_implicit_page(a1, a2, a4); }
my_uca_generate_page: PUSH RBP MOV RBP,RSP SUB RSP,0x20 MOV qword ptr [RBP + -0x8],RDI MOV qword ptr [RBP + -0x10],RSI MOV qword ptr [RBP + -0x18],RDX MOV dword ptr [RBP + -0x1c],ECX JMP 0x001506b9 LAB_001506b9: MOV RAX,qword ptr [RBP + -0x18] MOV RAX,qword ptr [RAX + 0x8] MOV ECX,dword ptr [RBP + -0x1c] MOVZX EAX,byte ptr [RAX + RCX*0x1] CMP EAX,0x0 JZ 0x001506eb MOV RDI,qword ptr [RBP + -0x8] MOV RSI,qword ptr [RBP + -0x18] MOV RDX,qword ptr [RBP + -0x10] MOV EAX,dword ptr [RBP + -0x1c] MOV ECX,EAX CALL 0x00150710 MOVSX EAX,AL MOV dword ptr [RBP + -0x20],EAX JMP 0x00150701 LAB_001506eb: MOV RDI,qword ptr [RBP + -0x8] MOV RSI,qword ptr [RBP + -0x10] MOV EDX,dword ptr [RBP + -0x1c] CALL 0x00150840 MOVSX EAX,AL MOV dword ptr [RBP + -0x20],EAX LAB_00150701: MOV EAX,dword ptr [RBP + -0x20] ADD RSP,0x20 POP RBP RET
int my_uca_generate_page(int8 param_1,int8 param_2,long param_3,uint param_4) { char cVar1; int4 local_28; if (*(char *)(*(long *)(param_3 + 8) + (ulong)param_4) == '\0') { cVar1 = my_uca_generate_implicit_page(param_1,param_2,param_4); } else { cVar1 = my_uca_copy_page(param_1,param_3,param_2,param_4); } local_28 = (int)cVar1; return local_28; }
40,884
mysql_stmt_prepare_start_internal
eloqsql/libmariadb/libmariadb/mariadb_async.c
static void mysql_stmt_prepare_start_internal(void *d) { MK_ASYNC_INTERNAL_BODY( mysql_stmt_prepare, (parms->stmt, parms->query, parms->length), parms->stmt->mysql, int, r_int) }
O3
c
mysql_stmt_prepare_start_internal: pushq %rbp movq %rsp, %rbp pushq %rbx pushq %rax movq (%rdi), %rax movq 0x8(%rdi), %rsi movq 0x38(%rax), %rcx movq 0x480(%rcx), %rcx movq 0x28(%rcx), %rbx movq 0x10(%rdi), %rdx movq %rax, %rdi callq 0x20d80 movl %eax, 0x8(%rbx) movl $0x0, (%rbx) addq $0x8, %rsp popq %rbx popq %rbp retq
mysql_stmt_prepare_start_internal: push rbp mov rbp, rsp push rbx push rax mov rax, [rdi] mov rsi, [rdi+8] mov rcx, [rax+38h] mov rcx, [rcx+480h] mov rbx, [rcx+28h] mov rdx, [rdi+10h] mov rdi, rax call mysql_stmt_prepare mov [rbx+8], eax mov dword ptr [rbx], 0 add rsp, 8 pop rbx pop rbp retn
long long mysql_stmt_prepare_start_internal(long long *a1) { _DWORD *v1; // rbx long long result; // rax v1 = *(_DWORD **)(*(_QWORD *)(*(_QWORD *)(*a1 + 56) + 1152LL) + 40LL); result = mysql_stmt_prepare(*a1, a1[1], a1[2]); v1[2] = result; *v1 = 0; return result; }
mysql_stmt_prepare_start_internal: PUSH RBP MOV RBP,RSP PUSH RBX PUSH RAX MOV RAX,qword ptr [RDI] MOV RSI,qword ptr [RDI + 0x8] MOV RCX,qword ptr [RAX + 0x38] MOV RCX,qword ptr [RCX + 0x480] MOV RBX,qword ptr [RCX + 0x28] MOV RDX,qword ptr [RDI + 0x10] MOV RDI,RAX CALL 0x00120d80 MOV dword ptr [RBX + 0x8],EAX MOV dword ptr [RBX],0x0 ADD RSP,0x8 POP RBX POP RBP RET
void mysql_stmt_prepare_start_internal(long *param_1) { int4 *puVar1; int4 uVar2; puVar1 = *(int4 **)(*(long *)(*(long *)(*param_1 + 0x38) + 0x480) + 0x28); uVar2 = mysql_stmt_prepare(*param_1,param_1[1],param_1[2]); puVar1[2] = uVar2; *puVar1 = 0; return; }
40,885
my_strnxfrm_czech
eloqsql/strings/ctype-czech.c
static size_t my_strnxfrm_czech(CHARSET_INFO *cs __attribute__((unused)), uchar *dest, size_t len, uint nweights_arg __attribute__((unused)), const uchar *src, size_t srclen, uint flags) { int value; const uchar *p, * store; int pass = 0; size_t totlen = 0; p = src; store = src; if (!(flags & 0x0F)) /* All levels by default */ flags|= 0x0F; do { int add= (1 << pass) & flags; /* If this level is needed */ NEXT_CMP_VALUE(src, p, store, pass, value, (int)srclen); if (add) ADD_TO_RESULT(dest, len, totlen, value); } while (value); if ((flags & MY_STRXFRM_PAD_TO_MAXLEN) && len > totlen) { memset(dest + totlen, ' ', len - totlen); totlen= len; } return totlen; }
O3
c
my_strnxfrm_czech: pushq %rbp movq %rsp, %rbp pushq %r15 pushq %r14 pushq %r13 pushq %r12 pushq %rbx subq $0x38, %rsp movq %r8, %r15 movq %rdx, %rbx movq %rsi, -0x48(%rbp) movl 0x10(%rbp), %eax movl %eax, %r11d orl $0xf, %r11d testb $0xf, %al cmovnel %eax, %r11d movslq %r9d, %rdx movl $0x1, %eax subq %r8, %rax movq %rax, -0x50(%rbp) xorl %ecx, %ecx leaq 0x2b6350(%rip), %r13 # 0x2e6690 movq %r8, %r14 xorl %r12d, %r12d movq %rbx, -0x38(%rbp) movl %r11d, -0x2c(%rbp) movl $0x1, %esi shll %cl, %esi movq %r8, %rax subq %r15, %rax cmpq %rdx, %rax jge 0x303df movslq %ecx, %rax movq %rax, -0x58(%rbp) movq (%r13,%rax,8), %r9 movzbl (%r8), %eax movzbl (%r9,%rax), %eax testl %eax, %eax je 0x303ae cmpl $0x2, %eax jne 0x30413 incq %r8 movq %r8, %rax subq %r15, %rax movq %r8, %r10 cmpq %rdx, %rax jge 0x303bc movzbl (%r10), %edi cmpb $0x2, (%r9,%rdi) jne 0x303bc incq %r10 incq %rax movq %r10, %rdi cmpq %rdx, %rax jl 0x30393 jmp 0x303bf incq %r8 movq %r8, %rax subq %r15, %rax movq %r8, %r10 jmp 0x303d8 movq %r8, %rdi cmpl $0x3, %ecx cmovgeq %rdi, %r10 movq %r10, %rax subq %r15, %rax cmpq %rdx, %rax jl 0x30494 movq %r10, %r8 cmpq %rdx, %rax jl 0x3036c jmp 0x303e2 movq %r8, %r10 cmpl $0x3, %ecx jne 0x303fa xorl %r9d, %r9d movl $0x3, %ecx movq %r14, %rax movq %r10, %r8 jmp 0x304ec testl %ecx, %ecx movq %r15, %r8 cmoveq %r14, %r8 incl %ecx movl $0x1, %r9d movq %r14, %rax jmp 0x304ec cmpl $0xff, %eax jne 0x304e2 movq %r12, -0x40(%rbp) movq %r8, %r9 subq %r15, %r9 movq -0x50(%rbp), %rax addq %r8, %rax movq %rax, -0x60(%rbp) xorl %ebx, %ebx movq %rbx, %r11 shlq $0x4, %r11 leaq 0x2b626d(%rip), %rax # 0x2e66b0 movq (%r11,%rax), %r13 movb (%r13), %al testb %al, %al je 0x30480 cmpq %rdx, %r9 jge 0x30480 incq %r13 movq -0x60(%rbp), %r10 movq %r8, %r12 cmpb %al, (%r12) jne 0x30487 incq %r12 movb (%r13), %al testb %al, %al je 0x30483 incq %r13 leaq 0x1(%r10), %rdi cmpq %rdx, %r10 movq %rdi, %r10 jl 0x3045e jmp 0x30483 movq %r8, %r12 testb %al, %al je 0x304b4 incq %rbx cmpq $0x50, %rbx jne 0x30435 movb $-0x1, %al jmp 0x304cf movl $0x2, %r9d cmpl $0x1, %ecx jg 0x303ef movl $0x1, %edi subl %ecx, %edi movq %r10, %rax movl %edi, %ecx movq %r14, %r8 jmp 0x304ec leaq 0x2b61f5(%rip), %rax # 0x2e66b0 addq %rax, %r11 movq 0x8(%r11), %rax movq -0x58(%rbp), %rdi movb (%rax,%rdi), %al decq %r12 movq %r12, %r8 movq -0x38(%rbp), %rbx movl -0x2c(%rbp), %r11d movq -0x40(%rbp), %r12 leaq 0x2b61ae(%rip), %r13 # 0x2e6690 movzbl %al, %r9d incq %r8 movq %r14, %rax testl %r11d, %esi setne %r10b cmpq %rbx, %r12 setb %dil andb %r10b, %dil cmpb $0x1, %dil jne 0x3050e movq -0x48(%rbp), %rsi movb %r9b, (%rsi,%r12) incq %r12 movq %rax, %r14 testl %r9d, %r9d jne 0x3034e testb %r11b, %r11b sets %al movq %rbx, %rdx subq %r12, %rdx seta %cl andb %al, %cl cmpb $0x1, %cl jne 0x30543 movq -0x48(%rbp), %rdi addq %r12, %rdi movl $0x20, %esi callq 0x24160 jmp 0x30546 movq %r12, %rbx movq %rbx, %rax addq $0x38, %rsp popq %rbx popq %r12 popq %r13 popq %r14 popq %r15 popq %rbp retq
my_strnxfrm_czech: push rbp mov rbp, rsp push r15 push r14 push r13 push r12 push rbx sub rsp, 38h mov r15, r8 mov rbx, rdx mov [rbp+var_48], rsi mov eax, [rbp+arg_0] mov r11d, eax or r11d, 0Fh test al, 0Fh cmovnz r11d, eax movsxd rdx, r9d mov eax, 1 sub rax, r8 mov [rbp+var_50], rax xor ecx, ecx lea r13, CZ_SORT_TABLE mov r14, r8 xor r12d, r12d mov [rbp+var_38], rbx mov [rbp+var_2C], r11d loc_3034E: mov esi, 1 shl esi, cl mov rax, r8 sub rax, r15 cmp rax, rdx jge short loc_303DF movsxd rax, ecx mov [rbp+var_58], rax mov r9, [r13+rax*8+0] loc_3036C: movzx eax, byte ptr [r8] movzx eax, byte ptr [r9+rax] test eax, eax jz short loc_303AE cmp eax, 2 jnz loc_30413 inc r8 mov rax, r8 sub rax, r15 mov r10, r8 cmp rax, rdx jge short loc_303BC loc_30393: movzx edi, byte ptr [r10] cmp byte ptr [r9+rdi], 2 jnz short loc_303BC inc r10 inc rax mov rdi, r10 cmp rax, rdx jl short loc_30393 jmp short loc_303BF loc_303AE: inc r8 mov rax, r8 sub rax, r15 mov r10, r8 jmp short loc_303D8 loc_303BC: mov rdi, r8 loc_303BF: cmp ecx, 3 cmovge r10, rdi mov rax, r10 sub rax, r15 cmp rax, rdx jl loc_30494 mov r8, r10 loc_303D8: cmp rax, rdx jl short loc_3036C jmp short loc_303E2 loc_303DF: mov r10, r8 loc_303E2: cmp ecx, 3 jnz short loc_303FA xor r9d, r9d mov ecx, 3 loc_303EF: mov rax, r14 mov r8, r10 jmp loc_304EC loc_303FA: test ecx, ecx mov r8, r15 cmovz r8, r14 inc ecx mov r9d, 1 mov rax, r14 jmp loc_304EC loc_30413: cmp eax, 0FFh jnz loc_304E2 mov [rbp+var_40], r12 mov r9, r8 sub r9, r15 mov rax, [rbp+var_50] add rax, r8 mov [rbp+var_60], rax xor ebx, ebx loc_30435: mov r11, rbx shl r11, 4 lea rax, doubles mov r13, [r11+rax] mov al, [r13+0] test al, al jz short loc_30480 cmp r9, rdx jge short loc_30480 inc r13 mov r10, [rbp+var_60] mov r12, r8 loc_3045E: cmp [r12], al jnz short loc_30487 inc r12 mov al, [r13+0] test al, al jz short loc_30483 inc r13 lea rdi, [r10+1] cmp r10, rdx mov r10, rdi jl short loc_3045E jmp short loc_30483 loc_30480: mov r12, r8 loc_30483: test al, al jz short loc_304B4 loc_30487: inc rbx cmp rbx, 50h ; 'P' jnz short loc_30435 mov al, 0FFh jmp short loc_304CF loc_30494: mov r9d, 2 cmp ecx, 1 jg loc_303EF mov edi, 1 sub edi, ecx mov rax, r10 mov ecx, edi mov r8, r14 jmp short loc_304EC loc_304B4: lea rax, doubles add r11, rax mov rax, [r11+8] mov rdi, [rbp+var_58] mov al, [rax+rdi] dec r12 mov r8, r12 loc_304CF: mov rbx, [rbp+var_38] mov r11d, [rbp+var_2C] mov r12, [rbp+var_40] lea r13, CZ_SORT_TABLE loc_304E2: movzx r9d, al inc r8 mov rax, r14 loc_304EC: test esi, r11d setnz r10b cmp r12, rbx setb dil and dil, r10b cmp dil, 1 jnz short loc_3050E mov rsi, [rbp+var_48] mov [rsi+r12], r9b inc r12 loc_3050E: mov r14, rax test r9d, r9d jnz loc_3034E test r11b, r11b sets al mov rdx, rbx sub rdx, r12 setnbe cl and cl, al cmp cl, 1 jnz short loc_30543 mov rdi, [rbp+var_48] add rdi, r12 mov esi, 20h ; ' ' call _memset jmp short loc_30546 loc_30543: mov rbx, r12 loc_30546: mov rax, rbx add rsp, 38h pop rbx pop r12 pop r13 pop r14 pop r15 pop rbp retn
unsigned long long my_strnxfrm_czech( long long a1, long long a2, unsigned long long a3, long long a4, unsigned __int8 *a5, int a6, int a7) { unsigned __int8 *v7; // r15 int v9; // r11d long long v10; // rdx int v11; // ecx unsigned __int8 *v12; // r14 unsigned long long v13; // r12 int v14; // esi long long v15; // r9 int v16; // eax unsigned __int8 *v17; // r8 long long v18; // rax unsigned __int8 *v19; // r10 unsigned __int8 *v20; // rdi unsigned __int8 *v21; // rax int v22; // r9d unsigned __int8 *v23; // rax long long v24; // rbx char *v25; // r13 char v26; // al char *v27; // r13 unsigned __int8 *v28; // r10 _BYTE *v29; // r12 long long v32; // [rsp+10h] [rbp-50h] unsigned long long v34; // [rsp+20h] [rbp-40h] unsigned long long v35; // [rsp+28h] [rbp-38h] int v36; // [rsp+34h] [rbp-2Ch] v7 = a5; v9 = a7 | 0xF; if ( (a7 & 0xF) != 0 ) v9 = a7; v10 = a6; v32 = 1LL - (_QWORD)a5; v11 = 0; v12 = a5; v13 = 0LL; v35 = a3; v36 = v9; do { v14 = 1 << v11; if ( a5 - v7 >= v10 ) { v19 = a5; LABEL_21: if ( v11 != 3 ) { a5 = v7; if ( !v11 ) a5 = v12; ++v11; v22 = 1; v23 = v12; goto LABEL_45; } v22 = 0; v11 = 3; LABEL_23: v23 = v12; a5 = v19; goto LABEL_45; } v15 = (long long)*(&CZ_SORT_TABLE + v11); while ( 1 ) { v16 = *(unsigned __int8 *)(v15 + *a5); if ( !*(_BYTE *)(v15 + *a5) ) { v21 = (unsigned __int8 *)(++a5 - v7); v19 = a5; goto LABEL_18; } if ( v16 != 2 ) break; v17 = a5 + 1; v18 = v17 - v7; v19 = v17; if ( v17 - v7 < v10 ) { while ( *(_BYTE *)(v15 + *v19) == 2 ) { ++v19; ++v18; v20 = v19; if ( v18 >= v10 ) goto LABEL_14; } } v20 = v17; LABEL_14: if ( v11 >= 3 ) v19 = v20; v21 = (unsigned __int8 *)(v19 - v7); if ( v19 - v7 < v10 ) { v22 = 2; if ( v11 <= 1 ) { v23 = v19; v11 = 1 - v11; a5 = v12; goto LABEL_45; } goto LABEL_23; } a5 = v19; LABEL_18: if ( (long long)v21 >= v10 ) goto LABEL_21; } if ( v16 != 255 ) goto LABEL_44; v34 = v13; v24 = 0LL; while ( 2 ) { v25 = (char *)*(&doubles + 2 * v24); v26 = *v25; if ( *v25 && a5 - v7 < v10 ) { v27 = v25 + 1; v28 = &a5[v32]; v29 = a5; while ( *v29 == v26 ) { ++v29; v26 = *v27; if ( *v27 ) { ++v27; if ( (long long)v28++ < v10 ) continue; } goto LABEL_37; } goto LABEL_38; } v29 = a5; LABEL_37: if ( v26 ) { LABEL_38: if ( ++v24 == 80 ) { LOBYTE(v16) = -1; goto LABEL_43; } continue; } break; } LOBYTE(v16) = *((_BYTE *)*(&doubles + 2 * v24 + 1) + v11); a5 = v29 - 1; LABEL_43: a3 = v35; v9 = v36; v13 = v34; LABEL_44: v22 = (unsigned __int8)v16; ++a5; v23 = v12; LABEL_45: if ( (v9 & v14) != 0 && v13 < a3 ) *(_BYTE *)(a2 + v13++) = v22; v12 = v23; } while ( v22 ); if ( (v9 & 0x80u) == 0 || a3 <= v13 ) return v13; memset(v13 + a2, 32LL, a3 - v13); return a3; }
my_strnxfrm_czech: PUSH RBP MOV RBP,RSP PUSH R15 PUSH R14 PUSH R13 PUSH R12 PUSH RBX SUB RSP,0x38 MOV R15,R8 MOV RBX,RDX MOV qword ptr [RBP + -0x48],RSI MOV EAX,dword ptr [RBP + 0x10] MOV R11D,EAX OR R11D,0xf TEST AL,0xf CMOVNZ R11D,EAX MOVSXD RDX,R9D MOV EAX,0x1 SUB RAX,R8 MOV qword ptr [RBP + -0x50],RAX XOR ECX,ECX LEA R13,[0x3e6690] MOV R14,R8 XOR R12D,R12D MOV qword ptr [RBP + -0x38],RBX MOV dword ptr [RBP + -0x2c],R11D LAB_0013034e: MOV ESI,0x1 SHL ESI,CL MOV RAX,R8 SUB RAX,R15 CMP RAX,RDX JGE 0x001303df MOVSXD RAX,ECX MOV qword ptr [RBP + -0x58],RAX MOV R9,qword ptr [R13 + RAX*0x8] LAB_0013036c: MOVZX EAX,byte ptr [R8] MOVZX EAX,byte ptr [R9 + RAX*0x1] TEST EAX,EAX JZ 0x001303ae CMP EAX,0x2 JNZ 0x00130413 INC R8 MOV RAX,R8 SUB RAX,R15 MOV R10,R8 CMP RAX,RDX JGE 0x001303bc LAB_00130393: MOVZX EDI,byte ptr [R10] CMP byte ptr [R9 + RDI*0x1],0x2 JNZ 0x001303bc INC R10 INC RAX MOV RDI,R10 CMP RAX,RDX JL 0x00130393 JMP 0x001303bf LAB_001303ae: INC R8 MOV RAX,R8 SUB RAX,R15 MOV R10,R8 JMP 0x001303d8 LAB_001303bc: MOV RDI,R8 LAB_001303bf: CMP ECX,0x3 CMOVGE R10,RDI MOV RAX,R10 SUB RAX,R15 CMP RAX,RDX JL 0x00130494 MOV R8,R10 LAB_001303d8: CMP RAX,RDX JL 0x0013036c JMP 0x001303e2 LAB_001303df: MOV R10,R8 LAB_001303e2: CMP ECX,0x3 JNZ 0x001303fa XOR R9D,R9D MOV ECX,0x3 LAB_001303ef: MOV RAX,R14 MOV R8,R10 JMP 0x001304ec LAB_001303fa: TEST ECX,ECX MOV R8,R15 CMOVZ R8,R14 INC ECX MOV R9D,0x1 MOV RAX,R14 JMP 0x001304ec LAB_00130413: CMP EAX,0xff JNZ 0x001304e2 MOV qword ptr [RBP + -0x40],R12 MOV R9,R8 SUB R9,R15 MOV RAX,qword ptr [RBP + -0x50] ADD RAX,R8 MOV qword ptr [RBP + -0x60],RAX XOR EBX,EBX LAB_00130435: MOV R11,RBX SHL R11,0x4 LEA RAX,[0x3e66b0] MOV R13,qword ptr [R11 + RAX*0x1] MOV AL,byte ptr [R13] TEST AL,AL JZ 0x00130480 CMP R9,RDX JGE 0x00130480 INC R13 MOV R10,qword ptr [RBP + -0x60] MOV R12,R8 LAB_0013045e: CMP byte ptr [R12],AL JNZ 0x00130487 INC R12 MOV AL,byte ptr [R13] TEST AL,AL JZ 0x00130483 INC R13 LEA RDI,[R10 + 0x1] CMP R10,RDX MOV R10,RDI JL 0x0013045e JMP 0x00130483 LAB_00130480: MOV R12,R8 LAB_00130483: TEST AL,AL JZ 0x001304b4 LAB_00130487: INC RBX CMP RBX,0x50 JNZ 0x00130435 MOV AL,0xff JMP 0x001304cf LAB_00130494: MOV R9D,0x2 CMP ECX,0x1 JG 0x001303ef MOV EDI,0x1 SUB EDI,ECX MOV RAX,R10 MOV ECX,EDI MOV R8,R14 JMP 0x001304ec LAB_001304b4: LEA RAX,[0x3e66b0] ADD R11,RAX MOV RAX,qword ptr [R11 + 0x8] MOV RDI,qword ptr [RBP + -0x58] MOV AL,byte ptr [RAX + RDI*0x1] DEC R12 MOV R8,R12 LAB_001304cf: MOV RBX,qword ptr [RBP + -0x38] MOV R11D,dword ptr [RBP + -0x2c] MOV R12,qword ptr [RBP + -0x40] LEA R13,[0x3e6690] LAB_001304e2: MOVZX R9D,AL INC R8 MOV RAX,R14 LAB_001304ec: TEST ESI,R11D SETNZ R10B CMP R12,RBX SETC DIL AND DIL,R10B CMP DIL,0x1 JNZ 0x0013050e MOV RSI,qword ptr [RBP + -0x48] MOV byte ptr [RSI + R12*0x1],R9B INC R12 LAB_0013050e: MOV R14,RAX TEST R9D,R9D JNZ 0x0013034e TEST R11B,R11B SETS AL MOV RDX,RBX SUB RDX,R12 SETA CL AND CL,AL CMP CL,0x1 JNZ 0x00130543 MOV RDI,qword ptr [RBP + -0x48] ADD RDI,R12 MOV ESI,0x20 CALL 0x00124160 JMP 0x00130546 LAB_00130543: MOV RBX,R12 LAB_00130546: MOV RAX,RBX ADD RSP,0x38 POP RBX POP R12 POP R13 POP R14 POP R15 POP RBP RET
ulong my_strnxfrm_czech(int8 param_1,long param_2,ulong param_3,int8 param_4, byte *param_5,int param_6,uint param_7) { uint uVar1; byte *pbVar2; byte *pbVar3; byte bVar4; char cVar5; long lVar6; byte *pbVar7; byte bVar8; int iVar9; long lVar10; byte *pbVar11; byte *pbVar12; byte *pbVar13; ulong uVar14; byte *pbVar15; uVar1 = param_7 | 0xf; if ((param_7 & 0xf) != 0) { uVar1 = param_7; } lVar10 = (long)param_6; iVar9 = 0; uVar14 = 0; pbVar13 = param_5; pbVar15 = param_5; LAB_0013034e: bVar8 = (byte)iVar9; pbVar7 = pbVar15; if ((long)pbVar13 - (long)param_5 < lVar10) { do { cVar5 = (&CZ_SORT_TABLE)[iVar9][*pbVar13]; if (cVar5 == '\0') { pbVar13 = pbVar13 + 1; lVar6 = (long)pbVar13 - (long)param_5; } else { if (cVar5 != '\x02') { if (cVar5 != -1) goto LAB_001304e2; lVar6 = 0; goto LAB_00130435; } pbVar12 = pbVar13 + 1; lVar6 = (long)pbVar12 - (long)param_5; pbVar13 = pbVar12; while ((pbVar11 = pbVar13, lVar6 < lVar10 && (pbVar11 = pbVar12, (&CZ_SORT_TABLE)[iVar9][*pbVar13] == '\x02'))) { pbVar13 = pbVar13 + 1; lVar6 = lVar6 + 1; } if (2 < iVar9) { pbVar13 = pbVar11; } lVar6 = (long)pbVar13 - (long)param_5; if (lVar6 < lVar10) { cVar5 = '\x02'; if (iVar9 < 2) { iVar9 = 1 - iVar9; pbVar7 = pbVar13; pbVar13 = pbVar15; } goto LAB_001304ec; } } } while (lVar6 < lVar10); } if (iVar9 == 3) { cVar5 = '\0'; iVar9 = 3; } else { pbVar13 = param_5; if (iVar9 == 0) { pbVar13 = pbVar15; } iVar9 = iVar9 + 1; cVar5 = '\x01'; } goto LAB_001304ec; LAB_00130435: do { pbVar15 = (&doubles)[lVar6 * 2]; bVar4 = *pbVar15; pbVar12 = pbVar13; pbVar3 = pbVar13 + (1 - (long)param_5); pbVar11 = pbVar13 + -(long)param_5; if (bVar4 != 0) { while (pbVar2 = pbVar3, (long)pbVar11 < lVar10) { pbVar15 = pbVar15 + 1; if (*pbVar12 != bVar4) goto LAB_00130487; pbVar12 = pbVar12 + 1; bVar4 = *pbVar15; if (bVar4 == 0) break; pbVar3 = pbVar2 + 1; pbVar11 = pbVar2; } } if (bVar4 == 0) { cVar5 = (&PTR_DAT_003e66b8)[lVar6 * 2][iVar9]; pbVar13 = pbVar12 + -1; goto LAB_001304e2; } LAB_00130487: lVar6 = lVar6 + 1; } while (lVar6 != 0x50); cVar5 = -1; LAB_001304e2: pbVar13 = pbVar13 + 1; LAB_001304ec: if (uVar14 < param_3 && (1 << (bVar8 & 0x1f) & uVar1) != 0) { *(char *)(param_2 + uVar14) = cVar5; uVar14 = uVar14 + 1; } pbVar15 = pbVar7; if (cVar5 == '\0') { if ((uVar14 <= param_3 && param_3 - uVar14 != 0) && (char)uVar1 < '\0') { memset((void *)(param_2 + uVar14),0x20,param_3 - uVar14); uVar14 = param_3; } return uVar14; } goto LAB_0013034e; }
40,886
my_thread_destroy_internal_mutex
eloqsql/mysys/my_thr_init.c
void my_thread_destroy_internal_mutex(void) { mysql_mutex_destroy(&THR_LOCK_threads); mysql_mutex_destroy(&THR_LOCK_malloc); mysql_cond_destroy(&THR_COND_threads); }
O3
c
my_thread_destroy_internal_mutex: pushq %rbp movq %rsp, %rbp pushq %rbx pushq %rax leaq 0xb68490(%rip), %rbx # 0xc0abd8 movq 0x40(%rbx), %rdi testq %rdi, %rdi je 0xa2766 leaq 0x2e5968(%rip), %rax # 0x3880c0 movq (%rax), %rax callq *0x48(%rax) movq $0x0, 0x40(%rbx) leaq 0xb6846b(%rip), %rdi # 0xc0abd8 callq 0x290c0 leaq 0xb684a7(%rip), %rbx # 0xc0ac20 movq 0x40(%rbx), %rdi testq %rdi, %rdi je 0xa2797 leaq 0x2e5937(%rip), %rax # 0x3880c0 movq (%rax), %rax callq *0x48(%rax) movq $0x0, 0x40(%rbx) leaq 0xb68482(%rip), %rdi # 0xc0ac20 callq 0x290c0 leaq 0xb684be(%rip), %rax # 0xc0ac68 movq 0x30(%rax), %rdi testq %rdi, %rdi jne 0xa27c5 leaq 0xb684ae(%rip), %rdi # 0xc0ac68 addq $0x8, %rsp popq %rbx popq %rbp jmp 0x29280 callq 0x2ef8d jmp 0xa27b3
my_thread_destroy_internal_mutex: push rbp mov rbp, rsp push rbx push rax lea rbx, THR_LOCK_threads mov rdi, [rbx+40h] test rdi, rdi jz short loc_A2766 lea rax, PSI_server mov rax, [rax] call qword ptr [rax+48h] mov qword ptr [rbx+40h], 0 loc_A2766: lea rdi, THR_LOCK_threads call _pthread_mutex_destroy lea rbx, THR_LOCK_malloc mov rdi, [rbx+40h] test rdi, rdi jz short loc_A2797 lea rax, PSI_server mov rax, [rax] call qword ptr [rax+48h] mov qword ptr [rbx+40h], 0 loc_A2797: lea rdi, THR_LOCK_malloc call _pthread_mutex_destroy lea rax, THR_COND_threads mov rdi, [rax+30h] test rdi, rdi jnz short loc_A27C5 loc_A27B3: lea rdi, THR_COND_threads add rsp, 8 pop rbx pop rbp jmp _pthread_cond_destroy loc_A27C5: call my_thread_destroy_internal_mutex_cold_1 jmp short loc_A27B3
long long my_thread_destroy_internal_mutex() { long long v0; // rdi long long v1; // rdi v0 = THR_LOCK_threads[8]; if ( v0 ) { ((void ( *)(long long))PSI_server[9])(v0); THR_LOCK_threads[8] = 0LL; } pthread_mutex_destroy(THR_LOCK_threads); v1 = THR_LOCK_malloc[8]; if ( v1 ) { ((void ( *)(long long))PSI_server[9])(v1); THR_LOCK_malloc[8] = 0LL; } pthread_mutex_destroy(THR_LOCK_malloc); if ( THR_COND_threads[6] ) my_thread_destroy_internal_mutex_cold_1(); return pthread_cond_destroy(THR_COND_threads); }
my_thread_destroy_internal_mutex: PUSH RBP MOV RBP,RSP PUSH RBX PUSH RAX LEA RBX,[0xd0abd8] MOV RDI,qword ptr [RBX + 0x40] TEST RDI,RDI JZ 0x001a2766 LEA RAX,[0x4880c0] MOV RAX,qword ptr [RAX] CALL qword ptr [RAX + 0x48] MOV qword ptr [RBX + 0x40],0x0 LAB_001a2766: LEA RDI,[0xd0abd8] CALL 0x001290c0 LEA RBX,[0xd0ac20] MOV RDI,qword ptr [RBX + 0x40] TEST RDI,RDI JZ 0x001a2797 LEA RAX,[0x4880c0] MOV RAX,qword ptr [RAX] CALL qword ptr [RAX + 0x48] MOV qword ptr [RBX + 0x40],0x0 LAB_001a2797: LEA RDI,[0xd0ac20] CALL 0x001290c0 LEA RAX,[0xd0ac68] MOV RDI,qword ptr [RAX + 0x30] TEST RDI,RDI JNZ 0x001a27c5 LAB_001a27b3: LEA RDI,[0xd0ac68] ADD RSP,0x8 POP RBX POP RBP JMP 0x00129280 LAB_001a27c5: CALL 0x0012ef8d JMP 0x001a27b3
void my_thread_destroy_internal_mutex(void) { if (THR_LOCK_threads._64_8_ != 0) { (**(code **)(PSI_server + 0x48))(); THR_LOCK_threads._64_8_ = 0; } pthread_mutex_destroy((pthread_mutex_t *)THR_LOCK_threads); if (THR_LOCK_malloc._64_8_ != 0) { (**(code **)(PSI_server + 0x48))(); THR_LOCK_malloc._64_8_ = 0; } pthread_mutex_destroy((pthread_mutex_t *)THR_LOCK_malloc); if (THR_COND_threads._48_8_ != 0) { my_thread_destroy_internal_mutex_cold_1(); } pthread_cond_destroy((pthread_cond_t *)THR_COND_threads); return; }
40,887
operator new(unsigned long)
ng-log[P]ng-log/src/googletest.h
void* operator new(size_t size) NGLOG_GLOG_THROW_BAD_ALLOC { void* p = ::operator new(size, std::nothrow); if (p == nullptr) { throw std::bad_alloc{}; } return p; }
O2
c
operator new(unsigned long): pushq %rax movq 0x27448(%rip), %rsi # 0x30f30 callq 0x9abd testq %rax, %rax je 0x9af4 popq %rcx retq pushq $0x8 popq %rdi callq 0x8290 movq 0x27465(%rip), %rcx # 0x30f68 addq $0x10, %rcx movq %rcx, (%rax) movq 0x27477(%rip), %rsi # 0x30f88 movq 0x27430(%rip), %rdx # 0x30f48 movq %rax, %rdi callq 0x8a10
_Znwm: push rax mov rsi, cs:_ZSt7nothrow_ptr; std::nothrow_t * call _ZnwmRKSt9nothrow_t; operator new(ulong,std::nothrow_t const&) test rax, rax jz short loc_9AF4 pop rcx retn loc_9AF4: push 8 pop rdi; thrown_size call ___cxa_allocate_exception mov rcx, cs:_ZTVSt9bad_alloc_ptr add rcx, 10h mov [rax], rcx mov rsi, cs:lptinfo; lptinfo mov rdx, cs:_ZNSt9bad_allocD1Ev_ptr; void (*)(void *) mov rdi, rax; void * call ___cxa_throw
long long operator new(long long a1) { long long result; // rax _QWORD *exception; // rax result = operator new(a1, (const std::nothrow_t *)&std::nothrow); if ( !result ) { exception = __cxa_allocate_exception(8uLL); *exception = (char *)&`vtable for'std::bad_alloc + 16; __cxa_throw( exception, (struct type_info *)&`typeinfo for'std::bad_alloc, (void (*)(void *))&std::bad_alloc::~bad_alloc); } return result; }
operator.new: PUSH RAX MOV RSI,qword ptr [0x00130f30] CALL 0x00109abd TEST RAX,RAX JZ 0x00109af4 POP RCX RET LAB_00109af4: PUSH 0x8 POP RDI CALL 0x00108290 MOV RCX,qword ptr [0x00130f68] ADD RCX,0x10 MOV qword ptr [RAX],RCX MOV RSI,qword ptr [0x00130f88] MOV RDX,qword ptr [0x00130f48] MOV RDI,RAX CALL 0x00108a10
/* operator new(unsigned long) */ void * operator_new(ulong param_1) { void *pvVar1; int8 *puVar2; pvVar1 = operator_new(param_1,(nothrow_t *)PTR_nothrow_00130f30); if (pvVar1 != (void *)0x0) { return pvVar1; } puVar2 = (int8 *)__cxa_allocate_exception(8); *puVar2 = PTR_vtable_00130f68 + 0x10; /* WARNING: Subroutine does not return */ __cxa_throw(puVar2,PTR_typeinfo_00130f88,PTR__bad_alloc_00130f48); }
40,888
operator new(unsigned long)
ng-log[P]ng-log/src/googletest.h
void* operator new(size_t size) NGLOG_GLOG_THROW_BAD_ALLOC { void* p = ::operator new(size, std::nothrow); if (p == nullptr) { throw std::bad_alloc{}; } return p; }
O3
c
operator new(unsigned long): pushq %rax movq 0x28058(%rip), %rsi # 0x30f10 callq 0x8e8d testq %rax, %rax je 0x8ec4 popq %rcx retq movl $0x8, %edi callq 0x7230 movq 0x28083(%rip), %rcx # 0x30f58 addq $0x10, %rcx movq %rcx, (%rax) movq 0x280ad(%rip), %rsi # 0x30f90 movq 0x28046(%rip), %rdx # 0x30f30 movq %rax, %rdi callq 0x7980
_Znwm: push rax mov rsi, cs:_ZSt7nothrow_ptr; std::nothrow_t * call _ZnwmRKSt9nothrow_t; operator new(ulong,std::nothrow_t const&) test rax, rax jz short loc_8EC4 pop rcx retn loc_8EC4: mov edi, 8; thrown_size call ___cxa_allocate_exception mov rcx, cs:_ZTVSt9bad_alloc_ptr add rcx, 10h mov [rax], rcx mov rsi, cs:lptinfo; lptinfo mov rdx, cs:_ZNSt9bad_allocD1Ev_ptr; void (*)(void *) mov rdi, rax; void * call ___cxa_throw
long long operator new(long long a1) { long long result; // rax _QWORD *exception; // rax result = operator new(a1, (const std::nothrow_t *)&std::nothrow); if ( !result ) { exception = __cxa_allocate_exception(8uLL); *exception = (char *)&`vtable for'std::bad_alloc + 16; __cxa_throw( exception, (struct type_info *)&`typeinfo for'std::bad_alloc, (void (*)(void *))&std::bad_alloc::~bad_alloc); } return result; }
operator.new: PUSH RAX MOV RSI,qword ptr [0x00130f10] CALL 0x00108e8d TEST RAX,RAX JZ 0x00108ec4 POP RCX RET LAB_00108ec4: MOV EDI,0x8 CALL 0x00107230 MOV RCX,qword ptr [0x00130f58] ADD RCX,0x10 MOV qword ptr [RAX],RCX MOV RSI,qword ptr [0x00130f90] MOV RDX,qword ptr [0x00130f30] MOV RDI,RAX CALL 0x00107980
/* operator new(unsigned long) */ void * operator_new(ulong param_1) { void *pvVar1; int8 *puVar2; pvVar1 = operator_new(param_1,(nothrow_t *)PTR_nothrow_00130f10); if (pvVar1 != (void *)0x0) { return pvVar1; } puVar2 = (int8 *)__cxa_allocate_exception(8); *puVar2 = PTR_vtable_00130f58 + 0x10; /* WARNING: Subroutine does not return */ __cxa_throw(puVar2,PTR_typeinfo_00130f90,PTR__bad_alloc_00130f30); }
40,889
my_mb_wc_utf16_quick
eloqsql/strings/ctype-utf16.h
static inline int my_mb_wc_utf16_quick(my_wc_t *pwc, const uchar *s, const uchar *e) { if (s + 2 > e) return MY_CS_TOOSMALL2; /* High bytes: 0xD[89AB] = B'110110??' Low bytes: 0xD[CDEF] = B'110111??' Surrogate mask: 0xFC = B'11111100' */ if (MY_UTF16_HIGH_HEAD(*s)) /* Surrogate head */ { if (s + 4 > e) return MY_CS_TOOSMALL4; if (!MY_UTF16_LOW_HEAD(s[2])) /* Broken surrigate pair */ return MY_CS_ILSEQ; *pwc= MY_UTF16_WC4(s[0], s[1], s[2], s[3]); return 4; } if (MY_UTF16_LOW_HEAD(*s)) /* Low surrogate part without high part */ return MY_CS_ILSEQ; *pwc= MY_UTF16_WC2(s[0], s[1]); return 2; }
O0
c
my_mb_wc_utf16_quick: pushq %rbp movq %rsp, %rbp movq %rdi, -0x10(%rbp) movq %rsi, -0x18(%rbp) movq %rdx, -0x20(%rbp) movq -0x18(%rbp), %rax addq $0x2, %rax cmpq -0x20(%rbp), %rax jbe 0x6433a movl $0xffffff9a, -0x4(%rbp) # imm = 0xFFFFFF9A jmp 0x64418 movq -0x18(%rbp), %rax movzbl (%rax), %eax andl $0xfc, %eax cmpl $0xd8, %eax jne 0x643d7 movq -0x18(%rbp), %rax addq $0x4, %rax cmpq -0x20(%rbp), %rax jbe 0x6436b movl $0xffffff98, -0x4(%rbp) # imm = 0xFFFFFF98 jmp 0x64418 movq -0x18(%rbp), %rax movzbl 0x2(%rax), %eax andl $0xfc, %eax cmpl $0xdc, %eax je 0x6438b movl $0x0, -0x4(%rbp) jmp 0x64418 movq -0x18(%rbp), %rax movzbl (%rax), %eax andl $0x3, %eax shll $0x12, %eax movq -0x18(%rbp), %rcx movzbl 0x1(%rcx), %ecx shll $0xa, %ecx addl %ecx, %eax movq -0x18(%rbp), %rcx movzbl 0x2(%rcx), %ecx andl $0x3, %ecx shll $0x8, %ecx addl %ecx, %eax movq -0x18(%rbp), %rcx movzbl 0x3(%rcx), %ecx addl %ecx, %eax addl $0x10000, %eax # imm = 0x10000 movslq %eax, %rcx movq -0x10(%rbp), %rax movq %rcx, (%rax) movl $0x4, -0x4(%rbp) jmp 0x64418 movq -0x18(%rbp), %rax movzbl (%rax), %eax andl $0xfc, %eax cmpl $0xdc, %eax jne 0x643f3 movl $0x0, -0x4(%rbp) jmp 0x64418 movq -0x18(%rbp), %rax movzbl (%rax), %eax shll $0x8, %eax movq -0x18(%rbp), %rcx movzbl 0x1(%rcx), %ecx addl %ecx, %eax movslq %eax, %rcx movq -0x10(%rbp), %rax movq %rcx, (%rax) movl $0x2, -0x4(%rbp) movl -0x4(%rbp), %eax popq %rbp retq nopl (%rax)
my_mb_wc_utf16_quick_0: push rbp mov rbp, rsp mov [rbp+var_10], rdi mov [rbp+var_18], rsi mov [rbp+var_20], rdx mov rax, [rbp+var_18] add rax, 2 cmp rax, [rbp+var_20] jbe short loc_6433A mov [rbp+var_4], 0FFFFFF9Ah jmp loc_64418 loc_6433A: mov rax, [rbp+var_18] movzx eax, byte ptr [rax] and eax, 0FCh cmp eax, 0D8h jnz loc_643D7 mov rax, [rbp+var_18] add rax, 4 cmp rax, [rbp+var_20] jbe short loc_6436B mov [rbp+var_4], 0FFFFFF98h jmp loc_64418 loc_6436B: mov rax, [rbp+var_18] movzx eax, byte ptr [rax+2] and eax, 0FCh cmp eax, 0DCh jz short loc_6438B mov [rbp+var_4], 0 jmp loc_64418 loc_6438B: mov rax, [rbp+var_18] movzx eax, byte ptr [rax] and eax, 3 shl eax, 12h mov rcx, [rbp+var_18] movzx ecx, byte ptr [rcx+1] shl ecx, 0Ah add eax, ecx mov rcx, [rbp+var_18] movzx ecx, byte ptr [rcx+2] and ecx, 3 shl ecx, 8 add eax, ecx mov rcx, [rbp+var_18] movzx ecx, byte ptr [rcx+3] add eax, ecx add eax, 10000h movsxd rcx, eax mov rax, [rbp+var_10] mov [rax], rcx mov [rbp+var_4], 4 jmp short loc_64418 loc_643D7: mov rax, [rbp+var_18] movzx eax, byte ptr [rax] and eax, 0FCh cmp eax, 0DCh jnz short loc_643F3 mov [rbp+var_4], 0 jmp short loc_64418 loc_643F3: mov rax, [rbp+var_18] movzx eax, byte ptr [rax] shl eax, 8 mov rcx, [rbp+var_18] movzx ecx, byte ptr [rcx+1] add eax, ecx movsxd rcx, eax mov rax, [rbp+var_10] mov [rax], rcx mov [rbp+var_4], 2 loc_64418: mov eax, [rbp+var_4] pop rbp retn
long long my_mb_wc_utf16_quick_0(_QWORD *a1, unsigned __int8 *a2, unsigned long long a3) { if ( (unsigned long long)(a2 + 2) <= a3 ) { if ( (*a2 & 0xFC) == 0xD8 ) { if ( (unsigned long long)(a2 + 4) <= a3 ) { if ( (a2[2] & 0xFC) == 0xDC ) { *a1 = a2[3] + ((a2[2] & 3) << 8) + (a2[1] << 10) + ((*a2 & 3) << 18) + 0x10000; return 4; } else { return 0; } } else { return (unsigned int)-104; } } else if ( (*a2 & 0xFC) == 0xDC ) { return 0; } else { *a1 = a2[1] + (*a2 << 8); return 2; } } else { return (unsigned int)-102; } }
my_mb_wc_utf16_quick: PUSH RBP MOV RBP,RSP MOV qword ptr [RBP + -0x10],RDI MOV qword ptr [RBP + -0x18],RSI MOV qword ptr [RBP + -0x20],RDX MOV RAX,qword ptr [RBP + -0x18] ADD RAX,0x2 CMP RAX,qword ptr [RBP + -0x20] JBE 0x0016433a MOV dword ptr [RBP + -0x4],0xffffff9a JMP 0x00164418 LAB_0016433a: MOV RAX,qword ptr [RBP + -0x18] MOVZX EAX,byte ptr [RAX] AND EAX,0xfc CMP EAX,0xd8 JNZ 0x001643d7 MOV RAX,qword ptr [RBP + -0x18] ADD RAX,0x4 CMP RAX,qword ptr [RBP + -0x20] JBE 0x0016436b MOV dword ptr [RBP + -0x4],0xffffff98 JMP 0x00164418 LAB_0016436b: MOV RAX,qword ptr [RBP + -0x18] MOVZX EAX,byte ptr [RAX + 0x2] AND EAX,0xfc CMP EAX,0xdc JZ 0x0016438b MOV dword ptr [RBP + -0x4],0x0 JMP 0x00164418 LAB_0016438b: MOV RAX,qword ptr [RBP + -0x18] MOVZX EAX,byte ptr [RAX] AND EAX,0x3 SHL EAX,0x12 MOV RCX,qword ptr [RBP + -0x18] MOVZX ECX,byte ptr [RCX + 0x1] SHL ECX,0xa ADD EAX,ECX MOV RCX,qword ptr [RBP + -0x18] MOVZX ECX,byte ptr [RCX + 0x2] AND ECX,0x3 SHL ECX,0x8 ADD EAX,ECX MOV RCX,qword ptr [RBP + -0x18] MOVZX ECX,byte ptr [RCX + 0x3] ADD EAX,ECX ADD EAX,0x10000 MOVSXD RCX,EAX MOV RAX,qword ptr [RBP + -0x10] MOV qword ptr [RAX],RCX MOV dword ptr [RBP + -0x4],0x4 JMP 0x00164418 LAB_001643d7: MOV RAX,qword ptr [RBP + -0x18] MOVZX EAX,byte ptr [RAX] AND EAX,0xfc CMP EAX,0xdc JNZ 0x001643f3 MOV dword ptr [RBP + -0x4],0x0 JMP 0x00164418 LAB_001643f3: MOV RAX,qword ptr [RBP + -0x18] MOVZX EAX,byte ptr [RAX] SHL EAX,0x8 MOV RCX,qword ptr [RBP + -0x18] MOVZX ECX,byte ptr [RCX + 0x1] ADD EAX,ECX MOVSXD RCX,EAX MOV RAX,qword ptr [RBP + -0x10] MOV qword ptr [RAX],RCX MOV dword ptr [RBP + -0x4],0x2 LAB_00164418: MOV EAX,dword ptr [RBP + -0x4] POP RBP RET
int4 my_mb_wc_utf16_quick(long *param_1,byte *param_2,byte *param_3) { int4 local_c; if (param_3 < param_2 + 2) { local_c = 0xffffff9a; } else if ((*param_2 & 0xfc) == 0xd8) { if (param_3 < param_2 + 4) { local_c = 0xffffff98; } else if ((param_2[2] & 0xfc) == 0xdc) { *param_1 = (long)(int)((*param_2 & 3) * 0x40000 + (uint)param_2[1] * 0x400 + (param_2[2] & 3) * 0x100 + (uint)param_2[3] + 0x10000); local_c = 4; } else { local_c = 0; } } else if ((*param_2 & 0xfc) == 0xdc) { local_c = 0; } else { *param_1 = (long)(int)((uint)*param_2 * 0x100 + (uint)param_2[1]); local_c = 2; } return local_c; }
40,890
my_coll_parser_scan_shift_sequence
eloqsql/strings/ctype-uca.c
static int my_coll_parser_scan_shift_sequence(MY_COLL_RULE_PARSER *p) { MY_COLL_RULE before_extend; memset(&p->rule.curr, 0, sizeof(p->rule.curr)); /* Scan single shift character or contraction */ if (!my_coll_parser_scan_character_list(p, p->rule.curr, MY_UCA_MAX_CONTRACTION, "Contraction")) return 0; before_extend= p->rule; /* Remember the part before "/" */ /* Append the part after "/" as expansion */ if (my_coll_parser_curr(p)->term == MY_COLL_LEXEM_EXTEND) { my_coll_parser_scan(p); if (!my_coll_parser_scan_character_list(p, p->rule.base, MY_UCA_MAX_EXPANSION, "Expansion")) return 0; } else if (my_coll_parser_curr(p)->term == MY_COLL_LEXEM_CONTEXT) { /* We support 2-character long context sequences only: one character is the previous context, plus the current character. It's OK as Unicode's CLDR does not have longer examples. */ my_coll_parser_scan(p); p->rule.with_context= TRUE; if (!my_coll_parser_scan_character_list(p, p->rule.curr + 1, 1, "context")) return 0; } /* Add rule to the rule list */ if (my_coll_rules_add(p->rules, &p->rule)) return 0; p->rule= before_extend; /* Restore to the state before "/" */ return 1; }
O0
c
my_coll_parser_scan_shift_sequence: pushq %rbp movq %rsp, %rbp subq $0xb0, %rsp movq %rdi, -0x10(%rbp) movq -0x10(%rbp), %rdi addq $0x50, %rdi addq $0x50, %rdi xorl %esi, %esi movl $0x30, %edx callq 0x24180 movq -0x10(%rbp), %rdi movq -0x10(%rbp), %rsi addq $0x50, %rsi addq $0x50, %rsi movl $0x6, %edx leaq 0x2ccc2(%rip), %rcx # 0x82d25 callq 0x56650 cmpl $0x0, %eax jne 0x56079 movl $0x0, -0x4(%rbp) jmp 0x56178 movq -0x10(%rbp), %rsi addq $0x50, %rsi leaq -0xb0(%rbp), %rdi movl $0xa0, %edx callq 0x24230 movq -0x10(%rbp), %rdi callq 0x55690 cmpl $0x8, (%rax) jne 0x560d9 movq -0x10(%rbp), %rdi callq 0x55e70 movq -0x10(%rbp), %rdi movq -0x10(%rbp), %rsi addq $0x50, %rsi movl $0xa, %edx leaq 0x2ca81(%rip), %rcx # 0x82b42 callq 0x56650 cmpl $0x0, %eax jne 0x560d7 movl $0x0, -0x4(%rbp) jmp 0x56178 jmp 0x56132 movq -0x10(%rbp), %rdi callq 0x55690 cmpl $0x9, (%rax) jne 0x56130 movq -0x10(%rbp), %rdi callq 0x55e70 movq -0x10(%rbp), %rax movb $0x1, 0xe8(%rax) movq -0x10(%rbp), %rdi movq -0x10(%rbp), %rsi addq $0x50, %rsi addq $0x50, %rsi addq $0x8, %rsi movl $0x1, %edx leaq 0x2d748(%rip), %rcx # 0x83863 callq 0x56650 cmpl $0x0, %eax jne 0x5612e movl $0x0, -0x4(%rbp) jmp 0x56178 jmp 0x56130 jmp 0x56132 movq -0x10(%rbp), %rax movq 0xf0(%rax), %rdi movq -0x10(%rbp), %rsi addq $0x50, %rsi callq 0x569a0 cmpl $0x0, %eax je 0x56158 movl $0x0, -0x4(%rbp) jmp 0x56178 movq -0x10(%rbp), %rdi addq $0x50, %rdi leaq -0xb0(%rbp), %rsi movl $0xa0, %edx callq 0x24230 movl $0x1, -0x4(%rbp) movl -0x4(%rbp), %eax addq $0xb0, %rsp popq %rbp retq nopw %cs:(%rax,%rax)
my_coll_parser_scan_shift_sequence: push rbp mov rbp, rsp sub rsp, 0B0h mov [rbp+var_10], rdi mov rdi, [rbp+var_10] add rdi, 50h ; 'P' add rdi, 50h ; 'P' xor esi, esi mov edx, 30h ; '0' call _memset mov rdi, [rbp+var_10] mov rsi, [rbp+var_10] add rsi, 50h ; 'P' add rsi, 50h ; 'P' mov edx, 6 lea rcx, aContraction; "Contraction" call my_coll_parser_scan_character_list cmp eax, 0 jnz short loc_56079 mov [rbp+var_4], 0 jmp loc_56178 loc_56079: mov rsi, [rbp+var_10] add rsi, 50h ; 'P' lea rdi, [rbp+var_B0] mov edx, 0A0h call _memcpy mov rdi, [rbp+var_10] call my_coll_parser_curr cmp dword ptr [rax], 8 jnz short loc_560D9 mov rdi, [rbp+var_10] call my_coll_parser_scan mov rdi, [rbp+var_10] mov rsi, [rbp+var_10] add rsi, 50h ; 'P' mov edx, 0Ah lea rcx, aExpansion; "Expansion" call my_coll_parser_scan_character_list cmp eax, 0 jnz short loc_560D7 mov [rbp+var_4], 0 jmp loc_56178 loc_560D7: jmp short loc_56132 loc_560D9: mov rdi, [rbp+var_10] call my_coll_parser_curr cmp dword ptr [rax], 9 jnz short loc_56130 mov rdi, [rbp+var_10] call my_coll_parser_scan mov rax, [rbp+var_10] mov byte ptr [rax+0E8h], 1 mov rdi, [rbp+var_10] mov rsi, [rbp+var_10] add rsi, 50h ; 'P' add rsi, 50h ; 'P' add rsi, 8 mov edx, 1 lea rcx, aCharsetsCharse_52+23h; "context" call my_coll_parser_scan_character_list cmp eax, 0 jnz short loc_5612E mov [rbp+var_4], 0 jmp short loc_56178 loc_5612E: jmp short $+2 loc_56130: jmp short $+2 loc_56132: mov rax, [rbp+var_10] mov rdi, [rax+0F0h] mov rsi, [rbp+var_10] add rsi, 50h ; 'P' call my_coll_rules_add cmp eax, 0 jz short loc_56158 mov [rbp+var_4], 0 jmp short loc_56178 loc_56158: mov rdi, [rbp+var_10] add rdi, 50h ; 'P' lea rsi, [rbp+var_B0] mov edx, 0A0h call _memcpy mov [rbp+var_4], 1 loc_56178: mov eax, [rbp+var_4] add rsp, 0B0h pop rbp retn
long long my_coll_parser_scan_shift_sequence(long long a1) { _BYTE v2[160]; // [rsp+0h] [rbp-B0h] BYREF long long v3; // [rsp+A0h] [rbp-10h] v3 = a1; memset(a1 + 160, 0LL, 48LL); if ( (unsigned int)my_coll_parser_scan_character_list(v3, v3 + 160, 6LL, "Contraction") ) { memcpy(v2, v3 + 80, sizeof(v2)); if ( *(_DWORD *)my_coll_parser_curr(v3) == 8 ) { my_coll_parser_scan(v3); if ( !(unsigned int)my_coll_parser_scan_character_list(v3, v3 + 80, 10LL, "Expansion") ) return 0; } else if ( *(_DWORD *)my_coll_parser_curr(v3) == 9 ) { my_coll_parser_scan(v3); *(_BYTE *)(v3 + 232) = 1; if ( !(unsigned int)my_coll_parser_scan_character_list(v3, v3 + 168, 1LL, "context") ) return 0; } if ( (unsigned int)my_coll_rules_add(*(_QWORD *)(v3 + 240), v3 + 80) ) { return 0; } else { memcpy(v3 + 80, v2, 160LL); return 1; } } else { return 0; } }
my_coll_parser_scan_shift_sequence: PUSH RBP MOV RBP,RSP SUB RSP,0xb0 MOV qword ptr [RBP + -0x10],RDI MOV RDI,qword ptr [RBP + -0x10] ADD RDI,0x50 ADD RDI,0x50 XOR ESI,ESI MOV EDX,0x30 CALL 0x00124180 MOV RDI,qword ptr [RBP + -0x10] MOV RSI,qword ptr [RBP + -0x10] ADD RSI,0x50 ADD RSI,0x50 MOV EDX,0x6 LEA RCX,[0x182d25] CALL 0x00156650 CMP EAX,0x0 JNZ 0x00156079 MOV dword ptr [RBP + -0x4],0x0 JMP 0x00156178 LAB_00156079: MOV RSI,qword ptr [RBP + -0x10] ADD RSI,0x50 LEA RDI,[RBP + -0xb0] MOV EDX,0xa0 CALL 0x00124230 MOV RDI,qword ptr [RBP + -0x10] CALL 0x00155690 CMP dword ptr [RAX],0x8 JNZ 0x001560d9 MOV RDI,qword ptr [RBP + -0x10] CALL 0x00155e70 MOV RDI,qword ptr [RBP + -0x10] MOV RSI,qword ptr [RBP + -0x10] ADD RSI,0x50 MOV EDX,0xa LEA RCX,[0x182b42] CALL 0x00156650 CMP EAX,0x0 JNZ 0x001560d7 MOV dword ptr [RBP + -0x4],0x0 JMP 0x00156178 LAB_001560d7: JMP 0x00156132 LAB_001560d9: MOV RDI,qword ptr [RBP + -0x10] CALL 0x00155690 CMP dword ptr [RAX],0x9 JNZ 0x00156130 MOV RDI,qword ptr [RBP + -0x10] CALL 0x00155e70 MOV RAX,qword ptr [RBP + -0x10] MOV byte ptr [RAX + 0xe8],0x1 MOV RDI,qword ptr [RBP + -0x10] MOV RSI,qword ptr [RBP + -0x10] ADD RSI,0x50 ADD RSI,0x50 ADD RSI,0x8 MOV EDX,0x1 LEA RCX,[0x183863] CALL 0x00156650 CMP EAX,0x0 JNZ 0x0015612e MOV dword ptr [RBP + -0x4],0x0 JMP 0x00156178 LAB_0015612e: JMP 0x00156130 LAB_00156130: JMP 0x00156132 LAB_00156132: MOV RAX,qword ptr [RBP + -0x10] MOV RDI,qword ptr [RAX + 0xf0] MOV RSI,qword ptr [RBP + -0x10] ADD RSI,0x50 CALL 0x001569a0 CMP EAX,0x0 JZ 0x00156158 MOV dword ptr [RBP + -0x4],0x0 JMP 0x00156178 LAB_00156158: MOV RDI,qword ptr [RBP + -0x10] ADD RDI,0x50 LEA RSI,[RBP + -0xb0] MOV EDX,0xa0 CALL 0x00124230 MOV dword ptr [RBP + -0x4],0x1 LAB_00156178: MOV EAX,dword ptr [RBP + -0x4] ADD RSP,0xb0 POP RBP RET
int4 my_coll_parser_scan_shift_sequence(long param_1) { int iVar1; int *piVar2; int1 local_b8 [160]; long local_18; int4 local_c; local_18 = param_1; memset((void *)(param_1 + 0xa0),0,0x30); iVar1 = my_coll_parser_scan_character_list(local_18,local_18 + 0xa0,6,"Contraction"); if (iVar1 == 0) { local_c = 0; } else { memcpy(local_b8,(void *)(local_18 + 0x50),0xa0); piVar2 = (int *)my_coll_parser_curr(local_18); if (*piVar2 == 8) { my_coll_parser_scan(local_18); iVar1 = my_coll_parser_scan_character_list(local_18,local_18 + 0x50,10,"Expansion"); if (iVar1 == 0) { return 0; } } else { piVar2 = (int *)my_coll_parser_curr(local_18); if (*piVar2 == 9) { my_coll_parser_scan(local_18); *(int1 *)(local_18 + 0xe8) = 1; iVar1 = my_coll_parser_scan_character_list(local_18,local_18 + 0xa8,1,"context"); if (iVar1 == 0) { return 0; } } } iVar1 = my_coll_rules_add(*(int8 *)(local_18 + 0xf0),local_18 + 0x50); if (iVar1 == 0) { memcpy((void *)(local_18 + 0x50),local_b8,0xa0); local_c = 1; } else { local_c = 0; } } return local_c; }
40,891
Elevetor::add_stair(int)
LeafBlue[P]myElevetor/elevetor.cpp
int Elevetor::add_stair(int newstair){ if(action_list.size()>0){ //添加的楼层与电梯运行在同一路径 //这里我接受了“本层”请求 if((direct == 1 && newstair > nowstair)||(direct == 2 && newstair <= nowstair)){ /* if(action_list.contains(newstair)){ return 0; }*/ action_list.push_back(newstair); std::sort(action_list.begin(),action_list.end()); //由于direct是1或者2,这里不可能存在status=1 if(status == 3){ return 2; }else{ return 0;//不操作,等待电梯自己关门处理 } }else{ //这里就不排序了,没必要 wait_list.push_back(newstair); return 0; } }else{ //电梯没有行动列表 action_list.push_back(newstair); endstair = newstair; if(status == 1){ if(endstair > nowstair){ direct = 1; }else{ direct = 2; } return 1; } } return 0; }
O2
cpp
Elevetor::add_stair(int): pushq %rbp pushq %r15 pushq %r14 pushq %rbx pushq %rax movl %esi, %ebp movq %rdi, %rbx leaq 0x68(%rdi), %r14 cmpq $0x0, 0x78(%rdi) jle 0x83dc movl 0x48(%rbx), %eax cmpl $0x1, %eax setne %cl cmpl %ebp, 0x40(%rbx) setl %dl setge %sil orb %cl, %sil cmpl $0x2, %eax setne %al orb %dl, %al testb %al, %sil je 0x83ff subq $-0x80, %rbx movq %rbx, %rdi movl %ebp, %esi callq 0x8c20 xorl %eax, %eax jmp 0x843e movq %r14, %rdi movl %ebp, %esi callq 0x8c20 movl %ebp, 0x44(%rbx) xorl %eax, %eax cmpl $0x1, 0x4c(%rbx) jne 0x843e cmpl %ebp, 0x40(%rbx) jge 0x8434 movl $0x1, 0x48(%rbx) jmp 0x843b movq %r14, %rdi movl %ebp, %esi callq 0x8c20 movq %r14, %rdi callq 0x8712 movq %rax, %r15 movq %r14, %rdi callq 0x8722 movq %r15, %rdi movq %rax, %rsi callq 0x8f24 xorl %eax, %eax cmpl $0x3, 0x4c(%rbx) sete %al addl %eax, %eax jmp 0x843e movl $0x2, 0x48(%rbx) pushq $0x1 popq %rax addq $0x8, %rsp popq %rbx popq %r14 popq %r15 popq %rbp retq nop
_ZN8Elevetor9add_stairEi: push rbp push r15 push r14 push rbx push rax mov ebp, esi mov rbx, rdi lea r14, [rdi+68h] cmp qword ptr [rdi+78h], 0 jle short loc_83DC mov eax, [rbx+48h] cmp eax, 1 setnz cl cmp [rbx+40h], ebp setl dl setnl sil or sil, cl cmp eax, 2 setnz al or al, dl test sil, al jz short loc_83FF sub rbx, 0FFFFFFFFFFFFFF80h mov rdi, rbx mov esi, ebp call _ZN5QListIiE6appendEi; QList<int>::append(int) xor eax, eax jmp short loc_843E loc_83DC: mov rdi, r14 mov esi, ebp call _ZN5QListIiE6appendEi; QList<int>::append(int) mov [rbx+44h], ebp xor eax, eax cmp dword ptr [rbx+4Ch], 1 jnz short loc_843E cmp [rbx+40h], ebp jge short loc_8434 mov dword ptr [rbx+48h], 1 jmp short loc_843B loc_83FF: mov rdi, r14 mov esi, ebp call _ZN5QListIiE6appendEi; QList<int>::append(int) mov rdi, r14 call _ZN5QListIiE5beginEv; QList<int>::begin(void) mov r15, rax mov rdi, r14 call _ZN5QListIiE3endEv; QList<int>::end(void) mov rdi, r15 mov rsi, rax call _ZSt6__sortIN5QListIiE8iteratorEN9__gnu_cxx5__ops15_Iter_less_iterEEvT_S6_T0_; std::__sort<QList<int>::iterator,__gnu_cxx::__ops::_Iter_less_iter>(QList<int>::iterator,QList<int>::iterator,__gnu_cxx::__ops::_Iter_less_iter) xor eax, eax cmp dword ptr [rbx+4Ch], 3 setz al add eax, eax jmp short loc_843E loc_8434: mov dword ptr [rbx+48h], 2 loc_843B: push 1 pop rax loc_843E: add rsp, 8 pop rbx pop r14 pop r15 pop rbp retn
long long Elevetor::add_stair(Elevetor *this, unsigned int a2) { char *v2; // r14 long long result; // rax long long v4; // r15 long long v5; // rax v2 = (char *)this + 104; if ( *((long long *)this + 15) <= 0 ) { QList<int>::append((char *)this + 104, a2); *((_DWORD *)this + 17) = a2; result = 0LL; if ( *((_DWORD *)this + 19) == 1 ) { if ( *((_DWORD *)this + 16) >= (signed int)a2 ) *((_DWORD *)this + 18) = 2; else *((_DWORD *)this + 18) = 1; return 1LL; } } else if ( (*((_DWORD *)this + 16) < (int)a2 || *((_DWORD *)this + 18) != 2) && (*((_DWORD *)this + 18) != 1 || *((_DWORD *)this + 16) >= (int)a2) ) { QList<int>::append((char *)this + 128, a2); return 0LL; } else { QList<int>::append((char *)this + 104, a2); v4 = QList<int>::begin(v2); v5 = QList<int>::end(v2); std::__sort<QList<int>::iterator,__gnu_cxx::__ops::_Iter_less_iter>(v4, v5); return 2 * (unsigned int)(*((_DWORD *)this + 19) == 3); } return result; }
add_stair: PUSH RBP PUSH R15 PUSH R14 PUSH RBX PUSH RAX MOV EBP,ESI MOV RBX,RDI LEA R14,[RDI + 0x68] CMP qword ptr [RDI + 0x78],0x0 JLE 0x001083dc MOV EAX,dword ptr [RBX + 0x48] CMP EAX,0x1 SETNZ CL CMP dword ptr [RBX + 0x40],EBP SETL DL SETGE SIL OR SIL,CL CMP EAX,0x2 SETNZ AL OR AL,DL TEST SIL,AL JZ 0x001083ff SUB RBX,-0x80 MOV RDI,RBX MOV ESI,EBP CALL 0x00108c20 XOR EAX,EAX JMP 0x0010843e LAB_001083dc: MOV RDI,R14 MOV ESI,EBP CALL 0x00108c20 MOV dword ptr [RBX + 0x44],EBP XOR EAX,EAX CMP dword ptr [RBX + 0x4c],0x1 JNZ 0x0010843e CMP dword ptr [RBX + 0x40],EBP JGE 0x00108434 MOV dword ptr [RBX + 0x48],0x1 JMP 0x0010843b LAB_001083ff: MOV RDI,R14 MOV ESI,EBP CALL 0x00108c20 MOV RDI,R14 CALL 0x00108712 MOV R15,RAX MOV RDI,R14 CALL 0x00108722 MOV RDI,R15 MOV RSI,RAX CALL 0x00108f24 XOR EAX,EAX CMP dword ptr [RBX + 0x4c],0x3 SETZ AL ADD EAX,EAX JMP 0x0010843e LAB_00108434: MOV dword ptr [RBX + 0x48],0x2 LAB_0010843b: PUSH 0x1 POP RAX LAB_0010843e: ADD RSP,0x8 POP RBX POP R14 POP R15 POP RBP RET
/* Elevetor::add_stair(int) */ char __thiscall Elevetor::add_stair(Elevetor *this,int param_1) { QList<int> *this_00; char cVar1; int8 uVar2; int8 uVar3; this_00 = (QList<int> *)(this + 0x68); if (*(long *)(this + 0x78) < 1) { QList<int>::append(this_00,param_1); *(int *)(this + 0x44) = param_1; cVar1 = '\0'; if (*(int *)(this + 0x4c) == 1) { if (*(int *)(this + 0x40) < param_1) { *(int4 *)(this + 0x48) = 1; } else { *(int4 *)(this + 0x48) = 2; } cVar1 = '\x01'; } } else if (*(int *)(this + 0x40) < param_1 && *(int *)(this + 0x48) == 1 || *(int *)(this + 0x48) == 2 && param_1 <= *(int *)(this + 0x40)) { QList<int>::append(this_00,param_1); uVar2 = QList<int>::begin(this_00); uVar3 = QList<int>::end(this_00); std::__sort<QList<int>::iterator,__gnu_cxx::__ops::_Iter_less_iter>(uVar2,uVar3); cVar1 = (*(int *)(this + 0x4c) == 3) * '\x02'; } else { QList<int>::append((QList<int> *)(this + 0x80),param_1); cVar1 = '\0'; } return cVar1; }
40,892
qdevtools::registerEditor(char const*, QWidget* (*)(), QVariant (*)(QWidget*), void (*)(QWidget*, QVariant const&), QMetaMethod const&)
HuaiminNotSleepYet[P]QDevTools/qdevtools.cpp
void registerEditor(const char* property, QWidget* (*create)(), QVariant (*get)(QWidget*), void (*set)(QWidget*, const QVariant&), const QMetaMethod& signal) { propEditor->insert(property, {create, get, set, signal}); }
O1
cpp
qdevtools::registerEditor(char const*, QWidget* (*)(), QVariant (*)(QWidget*), void (*)(QWidget*, QVariant const&), QMetaMethod const&): pushq %rbp pushq %r15 pushq %r14 pushq %r13 pushq %r12 pushq %rbx subq $0x48, %rsp movq %r8, %rbx movq %rcx, %r14 movq %rdx, %r15 movq %rsi, %r12 movq %rdi, %r13 callq 0x11cde testq %r13, %r13 je 0x11c38 movq %r13, %rdi callq 0xf250 movq %rax, %rsi jmp 0x11c3a xorl %esi, %esi leaq 0x20(%rsp), %rbp movq %rbp, %rdi movq %r13, %rdx callq 0xf6f0 movups (%rbp), %xmm0 movaps %xmm0, (%rsp) movq 0x10(%rbp), %rax movq %rax, 0x10(%rsp) movq %r12, (%rbp) movq %r15, 0x8(%rbp) movq %r14, 0x10(%rbp) movups (%rbx), %xmm0 movups %xmm0, 0x18(%rbp) leaq 0x1d25b(%rip), %rdi # 0x2eed0 callq 0x1d5f0 movq 0x1d24f(%rip), %rdi # 0x2eed0 addq $0x8, %rdi movq %rsp, %rsi leaq 0x20(%rsp), %rdx callq 0x1d634 movq (%rsp), %rax testq %rax, %rax je 0x11cb3 lock decl (%rax) jne 0x11cb3 movq (%rsp), %rdi movl $0x2, %esi movl $0x8, %edx callq 0xf610 addq $0x48, %rsp popq %rbx popq %r12 popq %r13 popq %r14 popq %r15 popq %rbp retq movq %rax, %rbx movq (%rsp), %rdi testq %rdi, %rdi je 0x11cd6 movq %rsp, %rsi callq 0x101c5 movq %rbx, %rdi callq 0xf410
_ZN9qdevtools14registerEditorEPKcPFP7QWidgetvEPF8QVariantS3_EPFvS3_RKS6_ERK11QMetaMethod: push rbp push r15 push r14 push r13 push r12 push rbx sub rsp, 48h mov rbx, r8 mov r14, rcx mov r15, rdx mov r12, rsi mov r13, rdi call _ZN13QGlobalStaticI4QMapI7QStringN9qdevtools14TypeEditorInfoEEL_ZNS2_12_GLOBAL__N_116Q_QGS_propEditor13innerFunctionEvEL_ZNS6_5guardEEEptEv; QGlobalStatic<QMap<QString,qdevtools::TypeEditorInfo>,qdevtools::`anonymous namespace'::Q_QGS_propEditor::innerFunction(void),qdevtools::`anonymous namespace'::Q_QGS_propEditor::guard>::operator->(void) test r13, r13 jz short loc_11C38 mov rdi, r13 call _strlen mov rsi, rax jmp short loc_11C3A loc_11C38: xor esi, esi loc_11C3A: lea rbp, [rsp+78h+var_58] mov rdi, rbp mov rdx, r13 call __ZN7QString8fromUtf8E14QByteArrayView; QString::fromUtf8(QByteArrayView) movups xmm0, xmmword ptr [rbp+0] movaps [rsp+78h+var_78], xmm0 mov rax, [rbp+10h] mov [rsp+78h+var_68], rax mov [rbp+0], r12 mov [rbp+8], r15 mov [rbp+10h], r14 movups xmm0, xmmword ptr [rbx] movups xmmword ptr [rbp+18h], xmm0 lea rdi, _ZZN9qdevtools12_GLOBAL__N_116Q_QGS_propEditor13innerFunctionEvE6holder; qdevtools::`anonymous namespace'::Q_QGS_propEditor::innerFunction(void)::holder call _ZN4QMapI7QStringN9qdevtools14TypeEditorInfoEE6detachEv; QMap<QString,qdevtools::TypeEditorInfo>::detach(void) mov rdi, cs:_ZZN9qdevtools12_GLOBAL__N_116Q_QGS_propEditor13innerFunctionEvE6holder; qdevtools::`anonymous namespace'::Q_QGS_propEditor::innerFunction(void)::holder add rdi, 8 mov rsi, rsp lea rdx, [rsp+78h+var_58] call _ZNSt3mapI7QStringN9qdevtools14TypeEditorInfoESt4lessIS0_ESaISt4pairIKS0_S2_EEE16insert_or_assignIRKS2_EES5_ISt17_Rb_tree_iteratorIS7_EbERS6_OT_; std::map<QString,qdevtools::TypeEditorInfo>::insert_or_assign<qdevtools::TypeEditorInfo const&>(QString const&,qdevtools::TypeEditorInfo const&) mov rax, qword ptr [rsp+78h+var_78] test rax, rax jz short loc_11CB3 lock dec dword ptr [rax] jnz short loc_11CB3 mov rdi, qword ptr [rsp+78h+var_78] mov esi, 2 mov edx, 8 call __ZN10QArrayData10deallocateEPS_xx; QArrayData::deallocate(QArrayData*,long long,long long) loc_11CB3: add rsp, 48h pop rbx pop r12 pop r13 pop r14 pop r15 pop rbp retn mov rbx, rax mov rdi, [rsp+0] test rdi, rdi jz short loc_11CD6 mov rsi, rsp call _ZN9qdevtools14registerEditorEPKcPFP7QWidgetvEPF8QVariantS3_EPFvS3_RKS6_ERK11QMetaMethod_cold_1; qdevtools::registerEditor(char const*,QWidget * (*)(void),QVariant (*)(QWidget *),void (*)(QWidget *,QVariant const&),QMetaMethod const&) [clone] loc_11CD6: mov rdi, rbx call __Unwind_Resume
long long qdevtools::registerEditor(long long a1, long long a2, long long a3, long long a4, __int128 *a5) { long long v9; // rsi long long result; // rax __int128 v11; // [rsp+0h] [rbp-78h] BYREF long long v12; // [rsp+10h] [rbp-68h] __int128 v13; // [rsp+20h] [rbp-58h] BYREF long long v14; // [rsp+30h] [rbp-48h] __int128 v15; // [rsp+38h] [rbp-40h] QGlobalStatic<QMap<QString,qdevtools::TypeEditorInfo>,qdevtools::`anonymous namespace'::Q_QGS_propEditor::innerFunction(void),qdevtools::`anonymous namespace'::Q_QGS_propEditor::guard>::operator->(); if ( a1 ) v9 = strlen(a1); else v9 = 0LL; QString::fromUtf8(&v13, v9, a1); v11 = v13; v12 = v14; *(_QWORD *)&v13 = a2; *((_QWORD *)&v13 + 1) = a3; v14 = a4; v15 = *a5; QMap<QString,qdevtools::TypeEditorInfo>::detach(&qdevtools::`anonymous namespace'::Q_QGS_propEditor::innerFunction(void)::holder); std::map<QString,qdevtools::TypeEditorInfo>::insert_or_assign<qdevtools::TypeEditorInfo const&>( qdevtools::`anonymous namespace'::Q_QGS_propEditor::innerFunction(void)::holder + 8, &v11, &v13); result = v11; if ( (_QWORD)v11 ) { if ( !_InterlockedDecrement((volatile signed __int32 *)v11) ) return QArrayData::deallocate(v11, 2LL); } return result; }
registerEditor: PUSH RBP PUSH R15 PUSH R14 PUSH R13 PUSH R12 PUSH RBX SUB RSP,0x48 MOV RBX,R8 MOV R14,RCX MOV R15,RDX MOV R12,RSI MOV R13,RDI CALL 0x00111cde TEST R13,R13 JZ 0x00111c38 MOV RDI,R13 CALL 0x0010f250 MOV RSI,RAX JMP 0x00111c3a LAB_00111c38: XOR ESI,ESI LAB_00111c3a: LEA RBP,[RSP + 0x20] MOV RDI,RBP MOV RDX,R13 CALL 0x0010f6f0 MOVUPS XMM0,xmmword ptr [RBP] MOVAPS xmmword ptr [RSP],XMM0 MOV RAX,qword ptr [RBP + 0x10] MOV qword ptr [RSP + 0x10],RAX MOV qword ptr [RBP],R12 MOV qword ptr [RBP + 0x8],R15 MOV qword ptr [RBP + 0x10],R14 MOVUPS XMM0,xmmword ptr [RBX] MOVUPS xmmword ptr [RBP + 0x18],XMM0 LAB_00111c6e: LEA RDI,[0x12eed0] CALL 0x0011d5f0 MOV RDI,qword ptr [0x0012eed0] ADD RDI,0x8 MOV RSI,RSP LEA RDX,[RSP + 0x20] CALL 0x0011d634 LAB_00111c92: MOV RAX,qword ptr [RSP] TEST RAX,RAX JZ 0x00111cb3 DEC.LOCK dword ptr [RAX] JNZ 0x00111cb3 MOV RDI,qword ptr [RSP] MOV ESI,0x2 MOV EDX,0x8 CALL 0x0010f610 LAB_00111cb3: ADD RSP,0x48 POP RBX POP R12 POP R13 POP R14 POP R15 POP RBP RET
/* qdevtools::registerEditor(char const*, QWidget* (*)(), QVariant (*)(QWidget*), void (*)(QWidget*, QVariant const&), QMetaMethod const&) */ void qdevtools::registerEditor (char *param_1,_func_QWidget_ptr *param_2,_func_QVariant_QWidget_ptr *param_3, _func_void_QWidget_ptr_QVariant_ptr *param_4,QMetaMethod *param_5) { size_t sVar1; QArrayData *local_78; int8 uStack_70; int8 local_68; QArrayData *local_58; _func_QVariant_QWidget_ptr *p_Stack_50; _func_void_QWidget_ptr_QVariant_ptr *local_48; int8 local_40; int8 uStack_38; QGlobalStatic<QMap<QString,qdevtools::TypeEditorInfo>,qdevtools::(anonymous_namespace)::Q_QGS_propEditor::innerFunction(),qdevtools::(anonymous_namespace)::Q_QGS_propEditor::guard> ::operator->((QGlobalStatic<QMap<QString,qdevtools::TypeEditorInfo>,qdevtools::(anonymous_namespace)::Q_QGS_propEditor::innerFunction(),qdevtools::(anonymous_namespace)::Q_QGS_propEditor::guard> *)param_1); if (param_1 == (char *)0x0) { sVar1 = 0; } else { sVar1 = strlen(param_1); } QString::fromUtf8(&local_58,sVar1,param_1); local_78 = local_58; uStack_70 = p_Stack_50; local_68 = local_48; local_40 = *(int8 *)param_5; uStack_38 = *(int8 *)(param_5 + 8); local_58 = (QArrayData *)param_2; p_Stack_50 = param_3; local_48 = param_4; /* try { // try from 00111c6e to 00111c91 has its CatchHandler @ 00111cc2 */ QMap<QString,qdevtools::TypeEditorInfo>::detach ((QMap<QString,qdevtools::TypeEditorInfo> *) &(anonymous_namespace)::Q_QGS_propEditor::innerFunction()::holder); std:: map<QString,qdevtools::TypeEditorInfo,std::less<QString>,std::allocator<std::pair<QString_const,qdevtools::TypeEditorInfo>>> ::insert_or_assign<qdevtools::TypeEditorInfo_const&> ((map<QString,qdevtools::TypeEditorInfo,std::less<QString>,std::allocator<std::pair<QString_const,qdevtools::TypeEditorInfo>>> *)((anonymous_namespace)::Q_QGS_propEditor::innerFunction()::holder + 8), (QString *)&local_78,(TypeEditorInfo *)&local_58); if (local_78 != (QArrayData *)0x0) { LOCK(); *(int *)local_78 = *(int *)local_78 + -1; UNLOCK(); if (*(int *)local_78 == 0) { QArrayData::deallocate(local_78,2,8); } } return; }
40,893
check_longlong
eloqsql/strings/my_vsnprintf.c
static const char *check_longlong(const char *fmt, uint *have_longlong) { *have_longlong= 0; if (*fmt == 'l') { fmt++; if (*fmt != 'l') *have_longlong= (sizeof(long) == sizeof(longlong)); else { fmt++; *have_longlong= 1; } } else if (*fmt == 'z') { fmt++; *have_longlong= (sizeof(size_t) == sizeof(longlong)); } else if (*fmt == 'p') *have_longlong= (sizeof(void *) == sizeof(longlong)); return fmt; }
O0
c
check_longlong: pushq %rbp movq %rsp, %rbp movq %rdi, -0x8(%rbp) movq %rsi, -0x10(%rbp) movq -0x10(%rbp), %rax movl $0x0, (%rax) movq -0x8(%rbp), %rax movsbl (%rax), %eax cmpl $0x6c, %eax jne 0x7e9be movq -0x8(%rbp), %rax addq $0x1, %rax movq %rax, -0x8(%rbp) movq -0x8(%rbp), %rax movsbl (%rax), %eax cmpl $0x6c, %eax je 0x7e9a6 movq -0x10(%rbp), %rax movl $0x1, (%rax) jmp 0x7e9bc movq -0x8(%rbp), %rax addq $0x1, %rax movq %rax, -0x8(%rbp) movq -0x10(%rbp), %rax movl $0x1, (%rax) jmp 0x7e9fc movq -0x8(%rbp), %rax movsbl (%rax), %eax cmpl $0x7a, %eax jne 0x7e9e2 movq -0x8(%rbp), %rax addq $0x1, %rax movq %rax, -0x8(%rbp) movq -0x10(%rbp), %rax movl $0x1, (%rax) jmp 0x7e9fa movq -0x8(%rbp), %rax movsbl (%rax), %eax cmpl $0x70, %eax jne 0x7e9f8 movq -0x10(%rbp), %rax movl $0x1, (%rax) jmp 0x7e9fa jmp 0x7e9fc movq -0x8(%rbp), %rax popq %rbp retq nopw %cs:(%rax,%rax)
check_longlong: push rbp mov rbp, rsp mov [rbp+var_8], rdi mov [rbp+var_10], rsi mov rax, [rbp+var_10] mov dword ptr [rax], 0 mov rax, [rbp+var_8] movsx eax, byte ptr [rax] cmp eax, 6Ch ; 'l' jnz short loc_7E9BE mov rax, [rbp+var_8] add rax, 1 mov [rbp+var_8], rax mov rax, [rbp+var_8] movsx eax, byte ptr [rax] cmp eax, 6Ch ; 'l' jz short loc_7E9A6 mov rax, [rbp+var_10] mov dword ptr [rax], 1 jmp short loc_7E9BC loc_7E9A6: mov rax, [rbp+var_8] add rax, 1 mov [rbp+var_8], rax mov rax, [rbp+var_10] mov dword ptr [rax], 1 loc_7E9BC: jmp short loc_7E9FC loc_7E9BE: mov rax, [rbp+var_8] movsx eax, byte ptr [rax] cmp eax, 7Ah ; 'z' jnz short loc_7E9E2 mov rax, [rbp+var_8] add rax, 1 mov [rbp+var_8], rax mov rax, [rbp+var_10] mov dword ptr [rax], 1 jmp short loc_7E9FA loc_7E9E2: mov rax, [rbp+var_8] movsx eax, byte ptr [rax] cmp eax, 70h ; 'p' jnz short loc_7E9F8 mov rax, [rbp+var_10] mov dword ptr [rax], 1 loc_7E9F8: jmp short $+2 loc_7E9FA: jmp short $+2 loc_7E9FC: mov rax, [rbp+var_8] pop rbp retn
_BYTE * check_longlong(_BYTE *a1, _DWORD *a2) { _BYTE *v3; // [rsp+8h] [rbp-8h] v3 = a1; *a2 = 0; switch ( *a1 ) { case 'l': v3 = a1 + 1; if ( a1[1] == 108 ) v3 = a1 + 2; *a2 = 1; break; case 'z': v3 = a1 + 1; *a2 = 1; break; case 'p': *a2 = 1; break; } return v3; }
check_longlong: PUSH RBP MOV RBP,RSP MOV qword ptr [RBP + -0x8],RDI MOV qword ptr [RBP + -0x10],RSI MOV RAX,qword ptr [RBP + -0x10] MOV dword ptr [RAX],0x0 MOV RAX,qword ptr [RBP + -0x8] MOVSX EAX,byte ptr [RAX] CMP EAX,0x6c JNZ 0x0017e9be MOV RAX,qword ptr [RBP + -0x8] ADD RAX,0x1 MOV qword ptr [RBP + -0x8],RAX MOV RAX,qword ptr [RBP + -0x8] MOVSX EAX,byte ptr [RAX] CMP EAX,0x6c JZ 0x0017e9a6 MOV RAX,qword ptr [RBP + -0x10] MOV dword ptr [RAX],0x1 JMP 0x0017e9bc LAB_0017e9a6: MOV RAX,qword ptr [RBP + -0x8] ADD RAX,0x1 MOV qword ptr [RBP + -0x8],RAX MOV RAX,qword ptr [RBP + -0x10] MOV dword ptr [RAX],0x1 LAB_0017e9bc: JMP 0x0017e9fc LAB_0017e9be: MOV RAX,qword ptr [RBP + -0x8] MOVSX EAX,byte ptr [RAX] CMP EAX,0x7a JNZ 0x0017e9e2 MOV RAX,qword ptr [RBP + -0x8] ADD RAX,0x1 MOV qword ptr [RBP + -0x8],RAX MOV RAX,qword ptr [RBP + -0x10] MOV dword ptr [RAX],0x1 JMP 0x0017e9fa LAB_0017e9e2: MOV RAX,qword ptr [RBP + -0x8] MOVSX EAX,byte ptr [RAX] CMP EAX,0x70 JNZ 0x0017e9f8 MOV RAX,qword ptr [RBP + -0x10] MOV dword ptr [RAX],0x1 LAB_0017e9f8: JMP 0x0017e9fa LAB_0017e9fa: JMP 0x0017e9fc LAB_0017e9fc: MOV RAX,qword ptr [RBP + -0x8] POP RBP RET
char * check_longlong(char *param_1,int4 *param_2) { char *local_10; *param_2 = 0; if (*param_1 == 'l') { local_10 = param_1 + 1; if (*local_10 == 'l') { local_10 = param_1 + 2; *param_2 = 1; } else { *param_2 = 1; } } else if (*param_1 == 'z') { local_10 = param_1 + 1; *param_2 = 1; } else { local_10 = param_1; if (*param_1 == 'p') { *param_2 = 1; } } return local_10; }
40,894
ggml_backend_graph_copy
ngxson[P]ggml-easy/ggml/src/ggml-backend.cpp
struct ggml_backend_graph_copy ggml_backend_graph_copy(ggml_backend_t backend, struct ggml_cgraph * graph) { struct ggml_hash_set hash_set = ggml_hash_set_new(graph->visited_hash_set.size); struct ggml_tensor ** node_copies = (ggml_tensor **) calloc(hash_set.size, sizeof(node_copies[0])); // NOLINT bool * node_init = (bool *) calloc(hash_set.size, sizeof(node_init[0])); struct ggml_init_params params = { /* .mem_size = */ ggml_tensor_overhead()*hash_set.size + ggml_graph_overhead_custom(graph->size, false), /* .mem_buffer = */ NULL, /* .no_alloc = */ true }; struct ggml_context * ctx_allocated = ggml_init(params); struct ggml_context * ctx_unallocated = ggml_init(params); if (ctx_allocated == NULL || ctx_unallocated == NULL) { GGML_LOG_ERROR("%s: failed to allocate context for graph copy\n", __func__); ggml_hash_set_free(&hash_set); free(node_copies); free(node_init); ggml_free(ctx_allocated); ggml_free(ctx_unallocated); return { /* .buffer = */ NULL, /* .ctx_allocated = */ NULL, /* .ctx_unallocated = */ NULL, /* .graph = */ NULL, }; } // dup nodes for (int i = 0; i < graph->n_nodes; i++) { struct ggml_tensor * node = graph->nodes[i]; graph_copy_dup_tensor(hash_set, node_copies, ctx_allocated, ctx_unallocated, node); } // allocate nodes ggml_backend_buffer_t buffer = ggml_backend_alloc_ctx_tensors(ctx_allocated, backend); if (buffer == NULL) { GGML_LOG_ERROR("%s: failed to allocate buffer for graph copy\n", __func__); ggml_hash_set_free(&hash_set); free(node_copies); free(node_init); ggml_free(ctx_allocated); ggml_free(ctx_unallocated); return { /* .buffer = */ NULL, /* .ctx_allocated = */ NULL, /* .ctx_unallocated = */ NULL, /* .graph = */ NULL, }; } //printf("copy buffer size: %zu MB\n", ggml_backend_buffer_get_size(buffer) / 1024 / 1024); // copy data and init views for (int i = 0; i < graph->n_nodes; i++) { struct ggml_tensor * node = graph->nodes[i]; graph_copy_init_tensor(&hash_set, node_copies, node_init, node); } // build graph copy struct ggml_cgraph * graph_copy = ggml_new_graph_custom(ctx_allocated, graph->size, false); for (int i = 0; i < graph->n_nodes; i++) { struct ggml_tensor * node = graph->nodes[i]; struct ggml_tensor * node_copy = node_copies[ggml_hash_find(&hash_set, node)]; graph_copy->nodes[i] = node_copy; } graph_copy->n_nodes = graph->n_nodes; ggml_hash_set_free(&hash_set); free(node_copies); free(node_init); return { /* .buffer = */ buffer, /* .ctx_allocated = */ ctx_allocated, /* .ctx_unallocated = */ ctx_unallocated, /* .graph = */ graph_copy, }; }
O0
cpp
ggml_backend_graph_copy: subq $0x128, %rsp # imm = 0x128 movq %rdi, 0x20(%rsp) movq %rdi, 0x28(%rsp) movq %rsi, 0x120(%rsp) movq %rdx, 0x118(%rsp) movq 0x118(%rsp), %rax movq 0x30(%rax), %rsi leaq 0x100(%rsp), %rdi callq 0x40560 movq 0x100(%rsp), %rdi movl $0x8, %esi callq 0x42820 movq %rax, 0xf8(%rsp) movq 0x100(%rsp), %rdi movl $0x1, %esi callq 0x42820 movq %rax, 0xf0(%rsp) callq 0x468f0 imulq 0x100(%rsp), %rax movq %rax, 0x30(%rsp) movq 0x118(%rsp), %rax movslq (%rax), %rdi xorl %esi, %esi callq 0x45400 movq %rax, %rcx movq 0x30(%rsp), %rax addq %rcx, %rax movq %rax, 0xd8(%rsp) movq $0x0, 0xe0(%rsp) movb $0x1, 0xe8(%rsp) movq 0xd8(%rsp), %rax movq %rax, 0xb8(%rsp) movq 0xe0(%rsp), %rax movq %rax, 0xc0(%rsp) movq 0xe8(%rsp), %rax movq %rax, 0xc8(%rsp) leaq 0xb8(%rsp), %rax movq (%rax), %rcx movq %rcx, (%rsp) movq 0x8(%rax), %rcx movq %rcx, 0x8(%rsp) movq 0x10(%rax), %rax movq %rax, 0x10(%rsp) callq 0x43820 movq %rax, 0xd0(%rsp) movq 0xd8(%rsp), %rax movq %rax, 0x98(%rsp) movq 0xe0(%rsp), %rax movq %rax, 0xa0(%rsp) movq 0xe8(%rsp), %rax movq %rax, 0xa8(%rsp) leaq 0x98(%rsp), %rax movq (%rax), %rcx movq %rcx, (%rsp) movq 0x8(%rax), %rcx movq %rcx, 0x8(%rsp) movq 0x10(%rax), %rax movq %rax, 0x10(%rsp) callq 0x43820 movq %rax, 0xb0(%rsp) cmpq $0x0, 0xd0(%rsp) je 0x630f0 cmpq $0x0, 0xb0(%rsp) jne 0x63174 movl $0x4, %edi leaq 0x54b8a(%rip), %rsi # 0xb7c86 leaq 0x54bb2(%rip), %rdx # 0xb7cb5 movb $0x0, %al callq 0x41c40 leaq 0x100(%rsp), %rdi callq 0x40510 movq 0xf8(%rsp), %rdi callq 0x448f0 movq 0xf0(%rsp), %rdi callq 0x448f0 movq 0xd0(%rsp), %rdi callq 0x40900 movq 0xb0(%rsp), %rdi callq 0x40900 movq 0x20(%rsp), %rax movq $0x0, (%rax) movq $0x0, 0x8(%rax) movq $0x0, 0x10(%rax) movq $0x0, 0x18(%rax) jmp 0x63454 movl $0x0, 0x94(%rsp) movl 0x94(%rsp), %eax movq 0x118(%rsp), %rcx cmpl 0x4(%rcx), %eax jge 0x6323a movq 0x118(%rsp), %rax movq 0x10(%rax), %rax movslq 0x94(%rsp), %rcx movq (%rax,%rcx,8), %rax movq %rax, 0x88(%rsp) movq 0x100(%rsp), %rax movq %rax, 0x70(%rsp) movq 0x108(%rsp), %rax movq %rax, 0x78(%rsp) movq 0x110(%rsp), %rax movq %rax, 0x80(%rsp) movq 0xf8(%rsp), %rdi movq 0xd0(%rsp), %rsi movq 0xb0(%rsp), %rdx movq 0x88(%rsp), %rcx leaq 0x70(%rsp), %rax movq (%rax), %r8 movq %r8, (%rsp) movq 0x8(%rax), %r8 movq %r8, 0x8(%rsp) movq 0x10(%rax), %rax movq %rax, 0x10(%rsp) callq 0x63470 movl 0x94(%rsp), %eax addl $0x1, %eax movl %eax, 0x94(%rsp) jmp 0x6317f movq 0xd0(%rsp), %rdi movq 0x120(%rsp), %rsi callq 0x42f20 movq %rax, 0x68(%rsp) cmpq $0x0, 0x68(%rsp) jne 0x632e4 movl $0x4, %edi leaq 0x54a61(%rip), %rsi # 0xb7ccd leaq 0x54a42(%rip), %rdx # 0xb7cb5 movb $0x0, %al callq 0x41c40 leaq 0x100(%rsp), %rdi callq 0x40510 movq 0xf8(%rsp), %rdi callq 0x448f0 movq 0xf0(%rsp), %rdi callq 0x448f0 movq 0xd0(%rsp), %rdi callq 0x40900 movq 0xb0(%rsp), %rdi callq 0x40900 movq 0x20(%rsp), %rax movq $0x0, (%rax) movq $0x0, 0x8(%rax) movq $0x0, 0x10(%rax) movq $0x0, 0x18(%rax) jmp 0x63454 movl $0x0, 0x64(%rsp) movl 0x64(%rsp), %eax movq 0x118(%rsp), %rcx cmpl 0x4(%rcx), %eax jge 0x63346 movq 0x118(%rsp), %rax movq 0x10(%rax), %rax movslq 0x64(%rsp), %rcx movq (%rax,%rcx,8), %rax movq %rax, 0x58(%rsp) movq 0xf8(%rsp), %rsi movq 0xf0(%rsp), %rdx movq 0x58(%rsp), %rcx leaq 0x100(%rsp), %rdi callq 0x637a0 movl 0x64(%rsp), %eax addl $0x1, %eax movl %eax, 0x64(%rsp) jmp 0x632ec movq 0xd0(%rsp), %rdi movq 0x118(%rsp), %rax movslq (%rax), %rsi xorl %edx, %edx callq 0x46b80 movq %rax, 0x50(%rsp) movl $0x0, 0x4c(%rsp) movl 0x4c(%rsp), %eax movq 0x118(%rsp), %rcx cmpl 0x4(%rcx), %eax jge 0x633ec movq 0x118(%rsp), %rax movq 0x10(%rax), %rax movslq 0x4c(%rsp), %rcx movq (%rax,%rcx,8), %rax movq %rax, 0x40(%rsp) movq 0xf8(%rsp), %rax movq %rax, 0x18(%rsp) movq 0x40(%rsp), %rsi leaq 0x100(%rsp), %rdi callq 0x638e0 movq %rax, %rcx movq 0x18(%rsp), %rax movq (%rax,%rcx,8), %rax movq %rax, 0x38(%rsp) movq 0x38(%rsp), %rdx movq 0x50(%rsp), %rax movq 0x10(%rax), %rax movslq 0x4c(%rsp), %rcx movq %rdx, (%rax,%rcx,8) movl 0x4c(%rsp), %eax addl $0x1, %eax movl %eax, 0x4c(%rsp) jmp 0x6336d movq 0x118(%rsp), %rax movl 0x4(%rax), %ecx movq 0x50(%rsp), %rax movl %ecx, 0x4(%rax) leaq 0x100(%rsp), %rdi callq 0x40510 movq 0xf8(%rsp), %rdi callq 0x448f0 movq 0xf0(%rsp), %rdi callq 0x448f0 movq 0x20(%rsp), %rax movq 0x68(%rsp), %rcx movq %rcx, (%rax) movq 0xd0(%rsp), %rcx movq %rcx, 0x8(%rax) movq 0xb0(%rsp), %rcx movq %rcx, 0x10(%rax) movq 0x50(%rsp), %rcx movq %rcx, 0x18(%rax) movq 0x28(%rsp), %rax addq $0x128, %rsp # imm = 0x128 retq nopw %cs:(%rax,%rax)
ggml_backend_graph_copy: sub rsp, 128h mov [rsp+128h+var_108], rdi mov [rsp+128h+var_100], rdi mov [rsp+128h+var_8], rsi mov [rsp+128h+var_10], rdx mov rax, [rsp+128h+var_10] mov rsi, [rax+30h] lea rdi, [rsp+128h+var_28] call _ggml_hash_set_new mov rdi, [rsp+128h+var_28] mov esi, 8 call _calloc mov [rsp+128h+var_30], rax mov rdi, [rsp+128h+var_28] mov esi, 1 call _calloc mov [rsp+128h+var_38], rax call _ggml_tensor_overhead imul rax, [rsp+128h+var_28] mov [rsp+128h+var_F8], rax mov rax, [rsp+128h+var_10] movsxd rdi, dword ptr [rax] xor esi, esi call _ggml_graph_overhead_custom mov rcx, rax mov rax, [rsp+128h+var_F8] add rax, rcx mov [rsp+128h+var_50], rax mov [rsp+128h+var_48], 0 mov byte ptr [rsp+128h+var_40], 1 mov rax, [rsp+128h+var_50] mov [rsp+128h+var_70], rax mov rax, [rsp+128h+var_48] mov [rsp+128h+var_68], rax mov rax, [rsp+128h+var_40] mov [rsp+128h+var_60], rax lea rax, [rsp+128h+var_70] mov rcx, [rax] mov [rsp+128h+var_128], rcx mov rcx, [rax+8] mov [rsp+128h+var_120], rcx mov rax, [rax+10h] mov [rsp+128h+var_118], rax call _ggml_init mov [rsp+128h+var_58], rax mov rax, [rsp+128h+var_50] mov [rsp+128h+var_90], rax mov rax, [rsp+128h+var_48] mov [rsp+128h+var_88], rax mov rax, [rsp+128h+var_40] mov [rsp+128h+var_80], rax lea rax, [rsp+128h+var_90] mov rcx, [rax] mov [rsp+128h+var_128], rcx mov rcx, [rax+8] mov [rsp+128h+var_120], rcx mov rax, [rax+10h] mov [rsp+128h+var_118], rax call _ggml_init mov [rsp+128h+var_78], rax cmp [rsp+128h+var_58], 0 jz short loc_630F0 cmp [rsp+128h+var_78], 0 jnz loc_63174 loc_630F0: mov edi, 4 lea rsi, aSFailedToAlloc_2; "%s: failed to allocate context for grap"... lea rdx, aGgmlBackendGra_6; "ggml_backend_graph_copy" mov al, 0 call _ggml_log_internal lea rdi, [rsp+128h+var_28] call _ggml_hash_set_free mov rdi, [rsp+128h+var_30] call _free mov rdi, [rsp+128h+var_38] call _free mov rdi, [rsp+128h+var_58] call _ggml_free mov rdi, [rsp+128h+var_78] call _ggml_free mov rax, [rsp+128h+var_108] mov qword ptr [rax], 0 mov qword ptr [rax+8], 0 mov qword ptr [rax+10h], 0 mov qword ptr [rax+18h], 0 jmp loc_63454 loc_63174: mov [rsp+128h+var_94], 0 loc_6317F: mov eax, [rsp+128h+var_94] mov rcx, [rsp+128h+var_10] cmp eax, [rcx+4] jge loc_6323A mov rax, [rsp+128h+var_10] mov rax, [rax+10h] movsxd rcx, [rsp+128h+var_94] mov rax, [rax+rcx*8] mov [rsp+128h+var_A0], rax mov rax, [rsp+128h+var_28] mov [rsp+128h+var_B8], rax mov rax, [rsp+128h+var_20] mov [rsp+128h+var_B0], rax mov rax, [rsp+128h+var_18] mov [rsp+128h+var_A8], rax mov rdi, [rsp+128h+var_30] mov rsi, [rsp+128h+var_58] mov rdx, [rsp+128h+var_78] mov rcx, [rsp+128h+var_A0] lea rax, [rsp+128h+var_B8] mov r8, [rax] mov [rsp+128h+var_128], r8 mov r8, [rax+8] mov [rsp+128h+var_120], r8 mov rax, [rax+10h] mov [rsp+128h+var_118], rax call _ZL21graph_copy_dup_tensor13ggml_hash_setPP11ggml_tensorP12ggml_contextS4_S1_; graph_copy_dup_tensor(ggml_hash_set,ggml_tensor **,ggml_context *,ggml_context *,ggml_tensor *) mov eax, [rsp+128h+var_94] add eax, 1 mov [rsp+128h+var_94], eax jmp loc_6317F loc_6323A: mov rdi, [rsp+128h+var_58] mov rsi, [rsp+128h+var_8] call _ggml_backend_alloc_ctx_tensors mov [rsp+128h+var_C0], rax cmp [rsp+128h+var_C0], 0 jnz loc_632E4 mov edi, 4 lea rsi, aSFailedToAlloc_3; "%s: failed to allocate buffer for graph"... lea rdx, aGgmlBackendGra_6; "ggml_backend_graph_copy" mov al, 0 call _ggml_log_internal lea rdi, [rsp+128h+var_28] call _ggml_hash_set_free mov rdi, [rsp+128h+var_30] call _free mov rdi, [rsp+128h+var_38] call _free mov rdi, [rsp+128h+var_58] call _ggml_free mov rdi, [rsp+128h+var_78] call _ggml_free mov rax, [rsp+128h+var_108] mov qword ptr [rax], 0 mov qword ptr [rax+8], 0 mov qword ptr [rax+10h], 0 mov qword ptr [rax+18h], 0 jmp loc_63454 loc_632E4: mov [rsp+128h+var_C4], 0 loc_632EC: mov eax, [rsp+128h+var_C4] mov rcx, [rsp+128h+var_10] cmp eax, [rcx+4] jge short loc_63346 mov rax, [rsp+128h+var_10] mov rax, [rax+10h] movsxd rcx, [rsp+128h+var_C4] mov rax, [rax+rcx*8] mov [rsp+128h+var_D0], rax mov rsi, [rsp+128h+var_30] mov rdx, [rsp+128h+var_38] mov rcx, [rsp+128h+var_D0] lea rdi, [rsp+128h+var_28] call _ZL22graph_copy_init_tensorP13ggml_hash_setPP11ggml_tensorPbS2_; graph_copy_init_tensor(ggml_hash_set *,ggml_tensor **,bool *,ggml_tensor *) mov eax, [rsp+128h+var_C4] add eax, 1 mov [rsp+128h+var_C4], eax jmp short loc_632EC loc_63346: mov rdi, [rsp+128h+var_58] mov rax, [rsp+128h+var_10] movsxd rsi, dword ptr [rax] xor edx, edx call _ggml_new_graph_custom mov [rsp+128h+var_D8], rax mov [rsp+128h+var_DC], 0 loc_6336D: mov eax, [rsp+128h+var_DC] mov rcx, [rsp+128h+var_10] cmp eax, [rcx+4] jge short loc_633EC mov rax, [rsp+128h+var_10] mov rax, [rax+10h] movsxd rcx, [rsp+128h+var_DC] mov rax, [rax+rcx*8] mov [rsp+128h+var_E8], rax mov rax, [rsp+128h+var_30] mov [rsp+128h+var_110], rax mov rsi, [rsp+128h+var_E8] lea rdi, [rsp+128h+var_28] call _ZL14ggml_hash_findPK13ggml_hash_setPK11ggml_tensor; ggml_hash_find(ggml_hash_set const*,ggml_tensor const*) mov rcx, rax mov rax, [rsp+128h+var_110] mov rax, [rax+rcx*8] mov [rsp+128h+var_F0], rax mov rdx, [rsp+128h+var_F0] mov rax, [rsp+128h+var_D8] mov rax, [rax+10h] movsxd rcx, [rsp+128h+var_DC] mov [rax+rcx*8], rdx mov eax, [rsp+128h+var_DC] add eax, 1 mov [rsp+128h+var_DC], eax jmp short loc_6336D loc_633EC: mov rax, [rsp+128h+var_10] mov ecx, [rax+4] mov rax, [rsp+128h+var_D8] mov [rax+4], ecx lea rdi, [rsp+128h+var_28] call _ggml_hash_set_free mov rdi, [rsp+128h+var_30] call _free mov rdi, [rsp+128h+var_38] call _free mov rax, [rsp+128h+var_108] mov rcx, [rsp+128h+var_C0] mov [rax], rcx mov rcx, [rsp+128h+var_58] mov [rax+8], rcx mov rcx, [rsp+128h+var_78] mov [rax+10h], rcx mov rcx, [rsp+128h+var_D8] mov [rax+18h], rcx loc_63454: mov rax, [rsp+128h+var_100] add rsp, 128h retn
long long * ggml_backend_graph_copy(long long *a1, long long a2, int *a3) { long long v3; // rdi long long v4; // rdx long long v5; // r8 long long v6; // r9 long long v7; // rdx long long v8; // r8 long long v9; // r9 int v10; // r9d const char *v11; // rdx const char *v12; // rdx const char *v13; // rdx const char *v14; // rdx long long v15; // rsi long long v19; // [rsp+30h] [rbp-F8h] int k; // [rsp+4Ch] [rbp-DCh] _QWORD *v21; // [rsp+50h] [rbp-D8h] int j; // [rsp+64h] [rbp-C4h] long long v23; // [rsp+68h] [rbp-C0h] int i; // [rsp+94h] [rbp-94h] long long v25; // [rsp+B0h] [rbp-78h] long long v26; // [rsp+B8h] [rbp-70h] _QWORD *v27; // [rsp+D0h] [rbp-58h] long long v28; // [rsp+F0h] [rbp-38h] long long v29; // [rsp+F8h] [rbp-30h] long long v30; // [rsp+100h] [rbp-28h] BYREF long long v31; // [rsp+108h] [rbp-20h] long long v32; // [rsp+110h] [rbp-18h] int *v33; // [rsp+118h] [rbp-10h] long long v34; // [rsp+120h] [rbp-8h] v34 = a2; v33 = a3; ggml_hash_set_new(&v30, *((_QWORD *)a3 + 6)); v29 = calloc(v30, 8LL); v28 = calloc(v30, 1LL); v19 = v30 * ggml_tensor_overhead(); v3 = *v33; v26 = ggml_graph_overhead_custom(v3, 0) + v19; v27 = (_QWORD *)ggml_init(v3, 0LL, v4, 0LL, v5, v6, v26, 0LL, 1); v25 = ggml_init(v3, 0LL, v7, 0LL, v8, v9, v26, 0LL, 1); if ( v27 && v25 ) { for ( i = 0; i < v33[1]; ++i ) graph_copy_dup_tensor(v29, (_DWORD)v27, v25, *(_QWORD *)(*((_QWORD *)v33 + 2) + 8LL * i), v31, v10, v30, v31, v32); v23 = ggml_backend_alloc_ctx_tensors((long long)v27, v34); if ( v23 ) { for ( j = 0; j < v33[1]; ++j ) graph_copy_init_tensor(&v30, v29, v28, *(_QWORD *)(*((_QWORD *)v33 + 2) + 8LL * j)); v15 = *v33; v21 = ggml_new_graph_custom(v27, v15, 0); for ( k = 0; k < v33[1]; ++k ) { v15 = *(_QWORD *)(*((_QWORD *)v33 + 2) + 8LL * k); *(_QWORD *)(v21[2] + 8LL * k) = *(_QWORD *)(v29 + 8 * ggml_hash_find(&v30, v15)); } *((_DWORD *)v21 + 1) = v33[1]; ggml_hash_set_free((long long)&v30, v15); free(v29, (const char *)v15); free(v28, (const char *)v15); *a1 = v23; a1[1] = (long long)v27; a1[2] = v25; a1[3] = (long long)v21; } else { ggml_log_internal(4u, (long long)"%s: failed to allocate buffer for graph copy\n", "ggml_backend_graph_copy"); ggml_hash_set_free((long long)&v30, (long long)"%s: failed to allocate buffer for graph copy\n"); free(v29, "%s: failed to allocate buffer for graph copy\n", v13); free(v28, "%s: failed to allocate buffer for graph copy\n", v14); ggml_free((long long)v27, (long long)"%s: failed to allocate buffer for graph copy\n"); ggml_free(v25, (long long)"%s: failed to allocate buffer for graph copy\n"); *a1 = 0LL; a1[1] = 0LL; a1[2] = 0LL; a1[3] = 0LL; } } else { ggml_log_internal(4u, (long long)"%s: failed to allocate context for graph copy\n", "ggml_backend_graph_copy"); ggml_hash_set_free((long long)&v30, (long long)"%s: failed to allocate context for graph copy\n"); free(v29, "%s: failed to allocate context for graph copy\n", v11); free(v28, "%s: failed to allocate context for graph copy\n", v12); ggml_free((long long)v27, (long long)"%s: failed to allocate context for graph copy\n"); ggml_free(v25, (long long)"%s: failed to allocate context for graph copy\n"); *a1 = 0LL; a1[1] = 0LL; a1[2] = 0LL; a1[3] = 0LL; } return a1; }
ggml_backend_graph_copy: SUB RSP,0x128 MOV qword ptr [RSP + 0x20],RDI MOV qword ptr [RSP + 0x28],RDI MOV qword ptr [RSP + 0x120],RSI MOV qword ptr [RSP + 0x118],RDX MOV RAX,qword ptr [RSP + 0x118] MOV RSI,qword ptr [RAX + 0x30] LEA RDI,[RSP + 0x100] CALL 0x00140560 MOV RDI,qword ptr [RSP + 0x100] MOV ESI,0x8 CALL 0x00142820 MOV qword ptr [RSP + 0xf8],RAX MOV RDI,qword ptr [RSP + 0x100] MOV ESI,0x1 CALL 0x00142820 MOV qword ptr [RSP + 0xf0],RAX CALL 0x001468f0 IMUL RAX,qword ptr [RSP + 0x100] MOV qword ptr [RSP + 0x30],RAX MOV RAX,qword ptr [RSP + 0x118] MOVSXD RDI,dword ptr [RAX] XOR ESI,ESI CALL 0x00145400 MOV RCX,RAX MOV RAX,qword ptr [RSP + 0x30] ADD RAX,RCX MOV qword ptr [RSP + 0xd8],RAX MOV qword ptr [RSP + 0xe0],0x0 MOV byte ptr [RSP + 0xe8],0x1 MOV RAX,qword ptr [RSP + 0xd8] MOV qword ptr [RSP + 0xb8],RAX MOV RAX,qword ptr [RSP + 0xe0] MOV qword ptr [RSP + 0xc0],RAX MOV RAX,qword ptr [RSP + 0xe8] MOV qword ptr [RSP + 0xc8],RAX LEA RAX,[RSP + 0xb8] MOV RCX,qword ptr [RAX] MOV qword ptr [RSP],RCX MOV RCX,qword ptr [RAX + 0x8] MOV qword ptr [RSP + 0x8],RCX MOV RAX,qword ptr [RAX + 0x10] MOV qword ptr [RSP + 0x10],RAX CALL 0x00143820 MOV qword ptr [RSP + 0xd0],RAX MOV RAX,qword ptr [RSP + 0xd8] MOV qword ptr [RSP + 0x98],RAX MOV RAX,qword ptr [RSP + 0xe0] MOV qword ptr [RSP + 0xa0],RAX MOV RAX,qword ptr [RSP + 0xe8] MOV qword ptr [RSP + 0xa8],RAX LEA RAX,[RSP + 0x98] MOV RCX,qword ptr [RAX] MOV qword ptr [RSP],RCX MOV RCX,qword ptr [RAX + 0x8] MOV qword ptr [RSP + 0x8],RCX MOV RAX,qword ptr [RAX + 0x10] MOV qword ptr [RSP + 0x10],RAX CALL 0x00143820 MOV qword ptr [RSP + 0xb0],RAX CMP qword ptr [RSP + 0xd0],0x0 JZ 0x001630f0 CMP qword ptr [RSP + 0xb0],0x0 JNZ 0x00163174 LAB_001630f0: MOV EDI,0x4 LEA RSI,[0x1b7c86] LEA RDX,[0x1b7cb5] MOV AL,0x0 CALL 0x00141c40 LEA RDI,[RSP + 0x100] CALL 0x00140510 MOV RDI,qword ptr [RSP + 0xf8] CALL 0x001448f0 MOV RDI,qword ptr [RSP + 0xf0] CALL 0x001448f0 MOV RDI,qword ptr [RSP + 0xd0] CALL 0x00140900 MOV RDI,qword ptr [RSP + 0xb0] CALL 0x00140900 MOV RAX,qword ptr [RSP + 0x20] MOV qword ptr [RAX],0x0 MOV qword ptr [RAX + 0x8],0x0 MOV qword ptr [RAX + 0x10],0x0 MOV qword ptr [RAX + 0x18],0x0 JMP 0x00163454 LAB_00163174: MOV dword ptr [RSP + 0x94],0x0 LAB_0016317f: MOV EAX,dword ptr [RSP + 0x94] MOV RCX,qword ptr [RSP + 0x118] CMP EAX,dword ptr [RCX + 0x4] JGE 0x0016323a MOV RAX,qword ptr [RSP + 0x118] MOV RAX,qword ptr [RAX + 0x10] MOVSXD RCX,dword ptr [RSP + 0x94] MOV RAX,qword ptr [RAX + RCX*0x8] MOV qword ptr [RSP + 0x88],RAX MOV RAX,qword ptr [RSP + 0x100] MOV qword ptr [RSP + 0x70],RAX MOV RAX,qword ptr [RSP + 0x108] MOV qword ptr [RSP + 0x78],RAX MOV RAX,qword ptr [RSP + 0x110] MOV qword ptr [RSP + 0x80],RAX MOV RDI,qword ptr [RSP + 0xf8] MOV RSI,qword ptr [RSP + 0xd0] MOV RDX,qword ptr [RSP + 0xb0] MOV RCX,qword ptr [RSP + 0x88] LEA RAX,[RSP + 0x70] MOV R8,qword ptr [RAX] MOV qword ptr [RSP],R8 MOV R8,qword ptr [RAX + 0x8] MOV qword ptr [RSP + 0x8],R8 MOV RAX,qword ptr [RAX + 0x10] MOV qword ptr [RSP + 0x10],RAX CALL 0x00163470 MOV EAX,dword ptr [RSP + 0x94] ADD EAX,0x1 MOV dword ptr [RSP + 0x94],EAX JMP 0x0016317f LAB_0016323a: MOV RDI,qword ptr [RSP + 0xd0] MOV RSI,qword ptr [RSP + 0x120] CALL 0x00142f20 MOV qword ptr [RSP + 0x68],RAX CMP qword ptr [RSP + 0x68],0x0 JNZ 0x001632e4 MOV EDI,0x4 LEA RSI,[0x1b7ccd] LEA RDX,[0x1b7cb5] MOV AL,0x0 CALL 0x00141c40 LEA RDI,[RSP + 0x100] CALL 0x00140510 MOV RDI,qword ptr [RSP + 0xf8] CALL 0x001448f0 MOV RDI,qword ptr [RSP + 0xf0] CALL 0x001448f0 MOV RDI,qword ptr [RSP + 0xd0] CALL 0x00140900 MOV RDI,qword ptr [RSP + 0xb0] CALL 0x00140900 MOV RAX,qword ptr [RSP + 0x20] MOV qword ptr [RAX],0x0 MOV qword ptr [RAX + 0x8],0x0 MOV qword ptr [RAX + 0x10],0x0 MOV qword ptr [RAX + 0x18],0x0 JMP 0x00163454 LAB_001632e4: MOV dword ptr [RSP + 0x64],0x0 LAB_001632ec: MOV EAX,dword ptr [RSP + 0x64] MOV RCX,qword ptr [RSP + 0x118] CMP EAX,dword ptr [RCX + 0x4] JGE 0x00163346 MOV RAX,qword ptr [RSP + 0x118] MOV RAX,qword ptr [RAX + 0x10] MOVSXD RCX,dword ptr [RSP + 0x64] MOV RAX,qword ptr [RAX + RCX*0x8] MOV qword ptr [RSP + 0x58],RAX MOV RSI,qword ptr [RSP + 0xf8] MOV RDX,qword ptr [RSP + 0xf0] MOV RCX,qword ptr [RSP + 0x58] LEA RDI,[RSP + 0x100] CALL 0x001637a0 MOV EAX,dword ptr [RSP + 0x64] ADD EAX,0x1 MOV dword ptr [RSP + 0x64],EAX JMP 0x001632ec LAB_00163346: MOV RDI,qword ptr [RSP + 0xd0] MOV RAX,qword ptr [RSP + 0x118] MOVSXD RSI,dword ptr [RAX] XOR EDX,EDX CALL 0x00146b80 MOV qword ptr [RSP + 0x50],RAX MOV dword ptr [RSP + 0x4c],0x0 LAB_0016336d: MOV EAX,dword ptr [RSP + 0x4c] MOV RCX,qword ptr [RSP + 0x118] CMP EAX,dword ptr [RCX + 0x4] JGE 0x001633ec MOV RAX,qword ptr [RSP + 0x118] MOV RAX,qword ptr [RAX + 0x10] MOVSXD RCX,dword ptr [RSP + 0x4c] MOV RAX,qword ptr [RAX + RCX*0x8] MOV qword ptr [RSP + 0x40],RAX MOV RAX,qword ptr [RSP + 0xf8] MOV qword ptr [RSP + 0x18],RAX MOV RSI,qword ptr [RSP + 0x40] LEA RDI,[RSP + 0x100] CALL 0x001638e0 MOV RCX,RAX MOV RAX,qword ptr [RSP + 0x18] MOV RAX,qword ptr [RAX + RCX*0x8] MOV qword ptr [RSP + 0x38],RAX MOV RDX,qword ptr [RSP + 0x38] MOV RAX,qword ptr [RSP + 0x50] MOV RAX,qword ptr [RAX + 0x10] MOVSXD RCX,dword ptr [RSP + 0x4c] MOV qword ptr [RAX + RCX*0x8],RDX MOV EAX,dword ptr [RSP + 0x4c] ADD EAX,0x1 MOV dword ptr [RSP + 0x4c],EAX JMP 0x0016336d LAB_001633ec: MOV RAX,qword ptr [RSP + 0x118] MOV ECX,dword ptr [RAX + 0x4] MOV RAX,qword ptr [RSP + 0x50] MOV dword ptr [RAX + 0x4],ECX LEA RDI,[RSP + 0x100] CALL 0x00140510 MOV RDI,qword ptr [RSP + 0xf8] CALL 0x001448f0 MOV RDI,qword ptr [RSP + 0xf0] CALL 0x001448f0 MOV RAX,qword ptr [RSP + 0x20] MOV RCX,qword ptr [RSP + 0x68] MOV qword ptr [RAX],RCX MOV RCX,qword ptr [RSP + 0xd0] MOV qword ptr [RAX + 0x8],RCX MOV RCX,qword ptr [RSP + 0xb0] MOV qword ptr [RAX + 0x10],RCX MOV RCX,qword ptr [RSP + 0x50] MOV qword ptr [RAX + 0x18],RCX LAB_00163454: MOV RAX,qword ptr [RSP + 0x28] ADD RSP,0x128 RET
long * ggml_backend_graph_copy (long *param_1,int8 param_2,int *param_3,int8 param_4, int8 param_5,int8 param_6) { ggml_tensor **__ptr; bool *__ptr_00; long lVar1; long lVar2; long lVar3; long lVar4; long lVar5; int local_dc; int local_c4; int local_94; size_t local_28; int8 local_20; int8 local_18; int *local_10; int8 local_8; local_10 = param_3; local_8 = param_2; ggml_hash_set_new(&local_28,*(int8 *)(param_3 + 0xc)); __ptr = (ggml_tensor **)calloc(local_28,8); __ptr_00 = (bool *)calloc(local_28,1); ggml_tensor_overhead(); ggml_graph_overhead_custom((long)*local_10,0); lVar1 = ggml_init(); lVar2 = ggml_init(); if ((lVar1 == 0) || (lVar2 == 0)) { ggml_log_internal(4,"%s: failed to allocate context for graph copy\n","ggml_backend_graph_copy") ; ggml_hash_set_free(&local_28); free(__ptr); free(__ptr_00); ggml_free(lVar1); ggml_free(lVar2); *param_1 = 0; param_1[1] = 0; param_1[2] = 0; param_1[3] = 0; } else { for (local_94 = 0; local_94 < local_10[1]; local_94 = local_94 + 1) { graph_copy_dup_tensor (__ptr,lVar1,lVar2,*(int8 *)(*(long *)(local_10 + 4) + (long)local_94 * 8), local_20,param_6,local_28,local_20,local_18); } lVar3 = ggml_backend_alloc_ctx_tensors(lVar1,local_8); if (lVar3 == 0) { ggml_log_internal(4,"%s: failed to allocate buffer for graph copy\n","ggml_backend_graph_copy" ); ggml_hash_set_free(&local_28); free(__ptr); free(__ptr_00); ggml_free(lVar1); ggml_free(lVar2); *param_1 = 0; param_1[1] = 0; param_1[2] = 0; param_1[3] = 0; } else { for (local_c4 = 0; local_c4 < local_10[1]; local_c4 = local_c4 + 1) { graph_copy_init_tensor ((ggml_hash_set *)&local_28,__ptr,__ptr_00, *(ggml_tensor **)(*(long *)(local_10 + 4) + (long)local_c4 * 8)); } lVar4 = ggml_new_graph_custom(lVar1,(long)*local_10,0); for (local_dc = 0; local_dc < local_10[1]; local_dc = local_dc + 1) { lVar5 = ggml_hash_find((ggml_hash_set *)&local_28, *(ggml_tensor **)(*(long *)(local_10 + 4) + (long)local_dc * 8)); *(ggml_tensor **)(*(long *)(lVar4 + 0x10) + (long)local_dc * 8) = __ptr[lVar5]; } *(int *)(lVar4 + 4) = local_10[1]; ggml_hash_set_free(&local_28); free(__ptr); free(__ptr_00); *param_1 = lVar3; param_1[1] = lVar1; param_1[2] = lVar2; param_1[3] = lVar4; } } return param_1; }
40,895
ggml_backend_graph_copy
ngxson[P]ggml-easy/ggml/src/ggml-backend.cpp
struct ggml_backend_graph_copy ggml_backend_graph_copy(ggml_backend_t backend, struct ggml_cgraph * graph) { struct ggml_hash_set hash_set = ggml_hash_set_new(graph->visited_hash_set.size); struct ggml_tensor ** node_copies = (ggml_tensor **) calloc(hash_set.size, sizeof(node_copies[0])); // NOLINT bool * node_init = (bool *) calloc(hash_set.size, sizeof(node_init[0])); struct ggml_init_params params = { /* .mem_size = */ ggml_tensor_overhead()*hash_set.size + ggml_graph_overhead_custom(graph->size, false), /* .mem_buffer = */ NULL, /* .no_alloc = */ true }; struct ggml_context * ctx_allocated = ggml_init(params); struct ggml_context * ctx_unallocated = ggml_init(params); if (ctx_allocated == NULL || ctx_unallocated == NULL) { GGML_LOG_ERROR("%s: failed to allocate context for graph copy\n", __func__); ggml_hash_set_free(&hash_set); free(node_copies); free(node_init); ggml_free(ctx_allocated); ggml_free(ctx_unallocated); return { /* .buffer = */ NULL, /* .ctx_allocated = */ NULL, /* .ctx_unallocated = */ NULL, /* .graph = */ NULL, }; } // dup nodes for (int i = 0; i < graph->n_nodes; i++) { struct ggml_tensor * node = graph->nodes[i]; graph_copy_dup_tensor(hash_set, node_copies, ctx_allocated, ctx_unallocated, node); } // allocate nodes ggml_backend_buffer_t buffer = ggml_backend_alloc_ctx_tensors(ctx_allocated, backend); if (buffer == NULL) { GGML_LOG_ERROR("%s: failed to allocate buffer for graph copy\n", __func__); ggml_hash_set_free(&hash_set); free(node_copies); free(node_init); ggml_free(ctx_allocated); ggml_free(ctx_unallocated); return { /* .buffer = */ NULL, /* .ctx_allocated = */ NULL, /* .ctx_unallocated = */ NULL, /* .graph = */ NULL, }; } //printf("copy buffer size: %zu MB\n", ggml_backend_buffer_get_size(buffer) / 1024 / 1024); // copy data and init views for (int i = 0; i < graph->n_nodes; i++) { struct ggml_tensor * node = graph->nodes[i]; graph_copy_init_tensor(&hash_set, node_copies, node_init, node); } // build graph copy struct ggml_cgraph * graph_copy = ggml_new_graph_custom(ctx_allocated, graph->size, false); for (int i = 0; i < graph->n_nodes; i++) { struct ggml_tensor * node = graph->nodes[i]; struct ggml_tensor * node_copy = node_copies[ggml_hash_find(&hash_set, node)]; graph_copy->nodes[i] = node_copy; } graph_copy->n_nodes = graph->n_nodes; ggml_hash_set_free(&hash_set); free(node_copies); free(node_init); return { /* .buffer = */ buffer, /* .ctx_allocated = */ ctx_allocated, /* .ctx_unallocated = */ ctx_unallocated, /* .graph = */ graph_copy, }; }
O1
cpp
ggml_backend_graph_copy: pushq %rbp pushq %r15 pushq %r14 pushq %r13 pushq %r12 pushq %rbx subq $0x88, %rsp movq %rdx, %rbp movq %rsi, 0x20(%rsp) movq %rdi, 0x28(%rsp) movq 0x30(%rdx), %rsi leaq 0x30(%rsp), %rbx movq %rbx, %rdi callq 0x16180 movq (%rbx), %r14 movl $0x8, %esi movq %r14, %rdi callq 0x16b20 movq %rax, %r15 movl $0x1, %esi movq %r14, %rdi callq 0x16b20 movq %rax, 0x48(%rsp) callq 0x17cd0 movq %rax, %r12 imulq (%rbx), %r12 movslq (%rbp), %rdi xorl %r14d, %r14d xorl %esi, %esi callq 0x17720 movq %rax, %rbx addq %r12, %rbx movq %rbx, 0x70(%rsp) movq %r14, 0x78(%rsp) movb $0x1, %r13b movb %r13b, 0x80(%rsp) movq 0x80(%rsp), %rax movq %rax, 0x10(%rsp) movups 0x70(%rsp), %xmm0 movups %xmm0, (%rsp) callq 0x16ed0 movq %rax, %r12 movq %rbx, 0x58(%rsp) movq %r14, 0x60(%rsp) movb %r13b, 0x68(%rsp) movq 0x68(%rsp), %rax movq %rax, 0x10(%rsp) movups 0x58(%rsp), %xmm0 movups %xmm0, (%rsp) callq 0x16ed0 movq %rax, %r13 testq %r12, %r12 sete %al testq %r13, %r13 sete %cl orb %al, %cl je 0x283db leaq 0x25613(%rip), %rsi # 0x4d9bf leaq 0x2563b(%rip), %rdx # 0x4d9ee movl $0x4, %edi xorl %eax, %eax callq 0x167f0 leaq 0x30(%rsp), %rdi callq 0x16160 movq %r15, %rdi callq 0x173c0 movq 0x48(%rsp), %rdi jmp 0x28568 movq 0x48(%rsp), %r14 cmpl $0x0, 0x4(%rbp) jle 0x2841d xorl %ebx, %ebx movq 0x10(%rbp), %rax movq (%rax,%rbx,8), %rcx movq 0x40(%rsp), %rax movq %rax, 0x10(%rsp) movups 0x30(%rsp), %xmm0 movups %xmm0, (%rsp) movq %r15, %rdi movq %r12, %rsi movq %r13, %rdx callq 0x2859e incq %rbx movslq 0x4(%rbp), %rax cmpq %rax, %rbx jl 0x283e8 movq %r12, %rdi movq 0x20(%rsp), %rsi callq 0x16cf0 testq %rax, %rax je 0x28539 movq %rax, 0x50(%rsp) movq %r13, 0x20(%rsp) cmpl $0x0, 0x4(%rbp) movq %r14, %r13 jle 0x28470 xorl %r14d, %r14d leaq 0x30(%rsp), %rbx movq 0x10(%rbp), %rax movq (%rax,%r14,8), %rcx movq %rbx, %rdi movq %r15, %rsi movq %r13, %rdx callq 0x287d8 incq %r14 movslq 0x4(%rbp), %rax cmpq %rax, %r14 jl 0x2844e movslq (%rbp), %rsi movq %r12, %rdi xorl %edx, %edx callq 0x17d90 movq %rax, %rbx movslq 0x4(%rbp), %rcx testq %rcx, %rcx movq %r13, %r14 movq 0x20(%rsp), %r13 jle 0x28501 movq 0x30(%rsp), %rsi xorl %edi, %edi movq 0x10(%rbp), %rax movq (%rax,%rdi,8), %r8 movq %r8, %rax shrq $0x4, %rax xorl %edx, %edx divq %rsi movq 0x38(%rsp), %r9 movq 0x40(%rsp), %r10 movq %rdx, %rax movq %rax, %r11 shrq $0x5, %r11 movl (%r9,%r11,4), %r11d btl %eax, %r11d jae 0x284ed cmpq %r8, (%r10,%rax,8) je 0x284ed incq %rax cmpq %rsi, %rax movl $0x0, %r11d cmoveq %r11, %rax cmpq %rdx, %rax jne 0x284ba movq $-0x1, %rax movq (%r15,%rax,8), %rax movq 0x10(%rbx), %rdx movq %rax, (%rdx,%rdi,8) incq %rdi cmpq %rcx, %rdi jne 0x28499 movl %ecx, 0x4(%rbx) leaq 0x30(%rsp), %rdi callq 0x16160 movq %r15, %rdi callq 0x173c0 movq %r14, %rdi callq 0x173c0 movq 0x28(%rsp), %rax movq 0x50(%rsp), %rcx movq %rcx, (%rax) movq %r12, 0x8(%rax) movq %r13, 0x10(%rax) movq %rbx, 0x18(%rax) jmp 0x2858c leaq 0x254c6(%rip), %rsi # 0x4da06 leaq 0x254a7(%rip), %rdx # 0x4d9ee movl $0x4, %edi xorl %eax, %eax callq 0x167f0 leaq 0x30(%rsp), %rdi callq 0x16160 movq %r15, %rdi callq 0x173c0 movq %r14, %rdi callq 0x173c0 movq %r12, %rdi callq 0x16270 movq %r13, %rdi callq 0x16270 xorps %xmm0, %xmm0 movq 0x28(%rsp), %rax movups %xmm0, 0x10(%rax) movups %xmm0, (%rax) addq $0x88, %rsp popq %rbx popq %r12 popq %r13 popq %r14 popq %r15 popq %rbp retq
ggml_backend_graph_copy: push rbp push r15 push r14 push r13 push r12 push rbx sub rsp, 88h mov rbp, rdx mov [rsp+0B8h+var_98], rsi mov [rsp+0B8h+var_90], rdi mov rsi, [rdx+30h] lea rbx, [rsp+0B8h+var_88] mov rdi, rbx call _ggml_hash_set_new mov r14, [rbx] mov esi, 8 mov rdi, r14 call _calloc mov r15, rax mov esi, 1 mov rdi, r14 call _calloc mov [rsp+0B8h+var_70], rax call _ggml_tensor_overhead mov r12, rax imul r12, [rbx] movsxd rdi, dword ptr [rbp+0] xor r14d, r14d xor esi, esi call _ggml_graph_overhead_custom mov rbx, rax add rbx, r12 mov qword ptr [rsp+0B8h+var_48], rbx mov qword ptr [rsp+0B8h+var_48+8], r14 mov r13b, 1 mov byte ptr [rsp+0B8h+var_38], r13b mov rax, [rsp+0B8h+var_38] mov [rsp+0B8h+var_A8], rax movups xmm0, [rsp+0B8h+var_48] movups [rsp+0B8h+var_B8], xmm0 call _ggml_init mov r12, rax mov qword ptr [rsp+0B8h+var_60], rbx mov qword ptr [rsp+0B8h+var_60+8], r14 mov byte ptr [rsp+0B8h+var_50], r13b mov rax, [rsp+0B8h+var_50] mov [rsp+0B8h+var_A8], rax movups xmm0, [rsp+0B8h+var_60] movups [rsp+0B8h+var_B8], xmm0 call _ggml_init mov r13, rax test r12, r12 setz al test r13, r13 setz cl or cl, al jz short loc_283DB lea rsi, aSFailedToAlloc_2; "%s: failed to allocate context for grap"... lea rdx, aGgmlBackendGra_6; "ggml_backend_graph_copy" mov edi, 4 xor eax, eax call _ggml_log_internal lea rdi, [rsp+0B8h+var_88] call _ggml_hash_set_free mov rdi, r15 call _free mov rdi, [rsp+0B8h+var_70] jmp loc_28568 loc_283DB: mov r14, [rsp+0B8h+var_70] cmp dword ptr [rbp+4], 0 jle short loc_2841D xor ebx, ebx loc_283E8: mov rax, [rbp+10h] mov rcx, [rax+rbx*8] mov rax, [rsp+0B8h+var_78] mov [rsp+0B8h+var_A8], rax movups xmm0, [rsp+0B8h+var_88] movups [rsp+0B8h+var_B8], xmm0 mov rdi, r15 mov rsi, r12 mov rdx, r13 call _ZL21graph_copy_dup_tensor13ggml_hash_setPP11ggml_tensorP12ggml_contextS4_S1_; graph_copy_dup_tensor(ggml_hash_set,ggml_tensor **,ggml_context *,ggml_context *,ggml_tensor *) inc rbx movsxd rax, dword ptr [rbp+4] cmp rbx, rax jl short loc_283E8 loc_2841D: mov rdi, r12 mov rsi, [rsp+0B8h+var_98] call _ggml_backend_alloc_ctx_tensors test rax, rax jz loc_28539 mov [rsp+0B8h+var_68], rax mov [rsp+0B8h+var_98], r13 cmp dword ptr [rbp+4], 0 mov r13, r14 jle short loc_28470 xor r14d, r14d lea rbx, [rsp+0B8h+var_88] loc_2844E: mov rax, [rbp+10h] mov rcx, [rax+r14*8] mov rdi, rbx mov rsi, r15 mov rdx, r13 call _ZL22graph_copy_init_tensorP13ggml_hash_setPP11ggml_tensorPbS2_; graph_copy_init_tensor(ggml_hash_set *,ggml_tensor **,bool *,ggml_tensor *) inc r14 movsxd rax, dword ptr [rbp+4] cmp r14, rax jl short loc_2844E loc_28470: movsxd rsi, dword ptr [rbp+0] mov rdi, r12 xor edx, edx call _ggml_new_graph_custom mov rbx, rax movsxd rcx, dword ptr [rbp+4] test rcx, rcx mov r14, r13 mov r13, [rsp+0B8h+var_98] jle short loc_28501 mov rsi, qword ptr [rsp+0B8h+var_88] xor edi, edi loc_28499: mov rax, [rbp+10h] mov r8, [rax+rdi*8] mov rax, r8 shr rax, 4 xor edx, edx div rsi mov r9, qword ptr [rsp+0B8h+var_88+8] mov r10, [rsp+0B8h+var_78] mov rax, rdx loc_284BA: mov r11, rax shr r11, 5 mov r11d, [r9+r11*4] bt r11d, eax jnb short loc_284ED cmp [r10+rax*8], r8 jz short loc_284ED inc rax cmp rax, rsi mov r11d, 0 cmovz rax, r11 cmp rax, rdx jnz short loc_284BA mov rax, 0FFFFFFFFFFFFFFFFh loc_284ED: mov rax, [r15+rax*8] mov rdx, [rbx+10h] mov [rdx+rdi*8], rax inc rdi cmp rdi, rcx jnz short loc_28499 loc_28501: mov [rbx+4], ecx lea rdi, [rsp+0B8h+var_88] call _ggml_hash_set_free mov rdi, r15 call _free mov rdi, r14 call _free mov rax, [rsp+0B8h+var_90] mov rcx, [rsp+0B8h+var_68] mov [rax], rcx mov [rax+8], r12 mov [rax+10h], r13 mov [rax+18h], rbx jmp short loc_2858C loc_28539: lea rsi, aSFailedToAlloc_3; "%s: failed to allocate buffer for graph"... lea rdx, aGgmlBackendGra_6; "ggml_backend_graph_copy" mov edi, 4 xor eax, eax call _ggml_log_internal lea rdi, [rsp+0B8h+var_88] call _ggml_hash_set_free mov rdi, r15 call _free mov rdi, r14 loc_28568: call _free mov rdi, r12 call _ggml_free mov rdi, r13 call _ggml_free xorps xmm0, xmm0 mov rax, [rsp+0B8h+var_90] movups xmmword ptr [rax+10h], xmm0 movups xmmword ptr [rax], xmm0 loc_2858C: add rsp, 88h pop rbx pop r12 pop r13 pop r14 pop r15 pop rbp retn
long long ggml_backend_graph_copy( long long a1, long long a2, int *a3, long long a4, long long a5, long long a6, __m128 a7, __m128 a8, __m128 a9, __m128 a10, __m128 a11, __m128 a12, __m128 a13, __m128 a14) { unsigned long long v15; // r14 long long v16; // r15 long long v17; // r12 long long v18; // rdi long long v19; // rbx long long v20; // rdx long long v21; // rcx long long v22; // r8 long long v23; // r9 double v24; // xmm4_8 double v25; // xmm5_8 long long *v26; // r12 __m128 v27; // xmm0 long long v28; // rdx long long v29; // rcx long long v30; // r8 long long v31; // r9 double v32; // xmm4_8 double v33; // xmm5_8 long long v34; // r8 long long v35; // r9 long long v36; // r13 __m128 v37; // xmm4 __m128 v38; // xmm5 long long v39; // rcx long long v40; // rdi long long v41; // r14 long long v42; // rbx long long v43; // rax long long v44; // rcx long long v45; // r8 long long v46; // r9 __m128 v47; // xmm4 __m128 v48; // xmm5 long long v49; // r13 long long v50; // r14 long long v51; // rbx long long v52; // rcx unsigned long long v53; // rsi long long i; // rdi unsigned long long v55; // rax int v56; // r11d long long result; // rax long long v58; // [rsp+20h] [rbp-98h] __m128 v60; // [rsp+30h] [rbp-88h] BYREF long long v61; // [rsp+40h] [rbp-78h] long long v62; // [rsp+48h] [rbp-70h] long long v63; // [rsp+50h] [rbp-68h] __int128 v64; // [rsp+58h] [rbp-60h] long long v65; // [rsp+68h] [rbp-50h] __int128 v66; // [rsp+70h] [rbp-48h] long long v67; // [rsp+80h] [rbp-38h] ggml_hash_set_new((long long *)&v60, *((_QWORD *)a3 + 6), a7, a8, a9, a10, a11, a12, a13, a14, (long long)a3, a4, a5, a6); v15 = v60.m128_u64[0]; v16 = calloc(v60.m128_u64[0], 8LL); v62 = calloc(v15, 1LL); v17 = v60.m128_u64[0] * ggml_tensor_overhead(); v18 = *a3; v19 = v17 + ggml_graph_overhead_custom(v18); v66 = (unsigned long long)v19; LOBYTE(v67) = 1; v26 = (long long *)ggml_init( v18, 0LL, (__m128i)(unsigned long long)v19, (__m128i)a8, (__m128i)a9, (__m128i)a10, v24, v25, (__m128i)a13, a14, v20, v21, v22, v23, v19, 0LL, 1); v64 = (unsigned long long)v19; LOBYTE(v65) = 1; v27 = (__m128)(unsigned long long)v19; v36 = ggml_init( v18, 0LL, (__m128i)(unsigned long long)v19, (__m128i)a8, (__m128i)a9, (__m128i)a10, v32, v33, (__m128i)a13, a14, v28, v29, v30, v31, v19, 0LL, 1); LOBYTE(v39) = v26 == 0LL || v36 == 0; if ( (_BYTE)v39 ) { ggml_log_internal( 4u, (long long)"%s: failed to allocate context for graph copy\n", (long long)"ggml_backend_graph_copy", v39, v34, v35, (__m128)(unsigned long long)v19, a8, a9, a10, v37, v38, a13, a14); ggml_hash_set_free((long long)&v60); free(v16); v40 = v62; LABEL_22: free(v40); ggml_free(v26); ggml_free(v36); result = a1; *(_OWORD *)(a1 + 16) = 0LL; *(_OWORD *)a1 = 0LL; return result; } v41 = v62; if ( a3[1] > 0 ) { v42 = 0LL; do { v27 = v60; graph_copy_dup_tensor( v16, (_DWORD)v26, v36, *(_QWORD *)(*((_QWORD *)a3 + 2) + 8 * v42++), v34, v35, *(_OWORD *)&v60, v61); } while ( v42 < a3[1] ); } v43 = ggml_backend_alloc_ctx_tensors((long long)v26, a2); if ( !v43 ) { ggml_log_internal( 4u, (long long)"%s: failed to allocate buffer for graph copy\n", (long long)"ggml_backend_graph_copy", v44, v45, v46, v27, a8, a9, a10, v47, v48, a13, a14); ggml_hash_set_free((long long)&v60); free(v16); v40 = v41; goto LABEL_22; } v63 = v43; v58 = v36; v49 = v41; if ( a3[1] > 0 ) { v50 = 0LL; do graph_copy_init_tensor(&v60, v16, v49, *(_QWORD *)(*((_QWORD *)a3 + 2) + 8 * v50++)); while ( v50 < a3[1] ); } v51 = ggml_new_graph_custom(v26, *a3, 0, v27, a8, a9, a10, *(double *)v47.m128_u64, *(double *)v48.m128_u64, a13, a14); v52 = a3[1]; if ( v52 > 0 ) { v53 = v60.m128_u64[0]; for ( i = 0LL; i != v52; ++i ) { v55 = (*(_QWORD *)(*((_QWORD *)a3 + 2) + 8 * i) >> 4) % v53; while ( 1 ) { v56 = *(_DWORD *)(v60.m128_u64[1] + 4 * (v55 >> 5)); if ( !_bittest(&v56, v55) || *(_QWORD *)(v61 + 8 * v55) == *(_QWORD *)(*((_QWORD *)a3 + 2) + 8 * i) ) break; if ( ++v55 == v53 ) v55 = 0LL; if ( v55 == (*(_QWORD *)(*((_QWORD *)a3 + 2) + 8 * i) >> 4) % v53 ) { v55 = -1LL; break; } } *(_QWORD *)(*(_QWORD *)(v51 + 16) + 8 * i) = *(_QWORD *)(v16 + 8 * v55); } } *(_DWORD *)(v51 + 4) = v52; ggml_hash_set_free((long long)&v60); free(v16); free(v49); result = a1; *(_QWORD *)a1 = v63; *(_QWORD *)(a1 + 8) = v26; *(_QWORD *)(a1 + 16) = v58; *(_QWORD *)(a1 + 24) = v51; return result; }
ggml_backend_graph_copy: PUSH RBP PUSH R15 PUSH R14 PUSH R13 PUSH R12 PUSH RBX SUB RSP,0x88 MOV RBP,RDX MOV qword ptr [RSP + 0x20],RSI MOV qword ptr [RSP + 0x28],RDI MOV RSI,qword ptr [RDX + 0x30] LEA RBX,[RSP + 0x30] MOV RDI,RBX CALL 0x00116180 MOV R14,qword ptr [RBX] MOV ESI,0x8 MOV RDI,R14 CALL 0x00116b20 MOV R15,RAX MOV ESI,0x1 MOV RDI,R14 CALL 0x00116b20 MOV qword ptr [RSP + 0x48],RAX CALL 0x00117cd0 MOV R12,RAX IMUL R12,qword ptr [RBX] MOVSXD RDI,dword ptr [RBP] XOR R14D,R14D XOR ESI,ESI CALL 0x00117720 MOV RBX,RAX ADD RBX,R12 MOV qword ptr [RSP + 0x70],RBX MOV qword ptr [RSP + 0x78],R14 MOV R13B,0x1 MOV byte ptr [RSP + 0x80],R13B MOV RAX,qword ptr [RSP + 0x80] MOV qword ptr [RSP + 0x10],RAX MOVUPS XMM0,xmmword ptr [RSP + 0x70] MOVUPS xmmword ptr [RSP],XMM0 CALL 0x00116ed0 MOV R12,RAX MOV qword ptr [RSP + 0x58],RBX MOV qword ptr [RSP + 0x60],R14 MOV byte ptr [RSP + 0x68],R13B MOV RAX,qword ptr [RSP + 0x68] MOV qword ptr [RSP + 0x10],RAX MOVUPS XMM0,xmmword ptr [RSP + 0x58] MOVUPS xmmword ptr [RSP],XMM0 CALL 0x00116ed0 MOV R13,RAX TEST R12,R12 SETZ AL TEST R13,R13 SETZ CL OR CL,AL JZ 0x001283db LEA RSI,[0x14d9bf] LEA RDX,[0x14d9ee] MOV EDI,0x4 XOR EAX,EAX CALL 0x001167f0 LEA RDI,[RSP + 0x30] CALL 0x00116160 MOV RDI,R15 CALL 0x001173c0 MOV RDI,qword ptr [RSP + 0x48] JMP 0x00128568 LAB_001283db: MOV R14,qword ptr [RSP + 0x48] CMP dword ptr [RBP + 0x4],0x0 JLE 0x0012841d XOR EBX,EBX LAB_001283e8: MOV RAX,qword ptr [RBP + 0x10] MOV RCX,qword ptr [RAX + RBX*0x8] MOV RAX,qword ptr [RSP + 0x40] MOV qword ptr [RSP + 0x10],RAX MOVUPS XMM0,xmmword ptr [RSP + 0x30] MOVUPS xmmword ptr [RSP],XMM0 MOV RDI,R15 MOV RSI,R12 MOV RDX,R13 CALL 0x0012859e INC RBX MOVSXD RAX,dword ptr [RBP + 0x4] CMP RBX,RAX JL 0x001283e8 LAB_0012841d: MOV RDI,R12 MOV RSI,qword ptr [RSP + 0x20] CALL 0x00116cf0 TEST RAX,RAX JZ 0x00128539 MOV qword ptr [RSP + 0x50],RAX MOV qword ptr [RSP + 0x20],R13 CMP dword ptr [RBP + 0x4],0x0 MOV R13,R14 JLE 0x00128470 XOR R14D,R14D LEA RBX,[RSP + 0x30] LAB_0012844e: MOV RAX,qword ptr [RBP + 0x10] MOV RCX,qword ptr [RAX + R14*0x8] MOV RDI,RBX MOV RSI,R15 MOV RDX,R13 CALL 0x001287d8 INC R14 MOVSXD RAX,dword ptr [RBP + 0x4] CMP R14,RAX JL 0x0012844e LAB_00128470: MOVSXD RSI,dword ptr [RBP] MOV RDI,R12 XOR EDX,EDX CALL 0x00117d90 MOV RBX,RAX MOVSXD RCX,dword ptr [RBP + 0x4] TEST RCX,RCX MOV R14,R13 MOV R13,qword ptr [RSP + 0x20] JLE 0x00128501 MOV RSI,qword ptr [RSP + 0x30] XOR EDI,EDI LAB_00128499: MOV RAX,qword ptr [RBP + 0x10] MOV R8,qword ptr [RAX + RDI*0x8] MOV RAX,R8 SHR RAX,0x4 XOR EDX,EDX DIV RSI MOV R9,qword ptr [RSP + 0x38] MOV R10,qword ptr [RSP + 0x40] MOV RAX,RDX LAB_001284ba: MOV R11,RAX SHR R11,0x5 MOV R11D,dword ptr [R9 + R11*0x4] BT R11D,EAX JNC 0x001284ed CMP qword ptr [R10 + RAX*0x8],R8 JZ 0x001284ed INC RAX CMP RAX,RSI MOV R11D,0x0 CMOVZ RAX,R11 CMP RAX,RDX JNZ 0x001284ba MOV RAX,-0x1 LAB_001284ed: MOV RAX,qword ptr [R15 + RAX*0x8] MOV RDX,qword ptr [RBX + 0x10] MOV qword ptr [RDX + RDI*0x8],RAX INC RDI CMP RDI,RCX JNZ 0x00128499 LAB_00128501: MOV dword ptr [RBX + 0x4],ECX LEA RDI,[RSP + 0x30] CALL 0x00116160 MOV RDI,R15 CALL 0x001173c0 MOV RDI,R14 CALL 0x001173c0 MOV RAX,qword ptr [RSP + 0x28] MOV RCX,qword ptr [RSP + 0x50] MOV qword ptr [RAX],RCX MOV qword ptr [RAX + 0x8],R12 MOV qword ptr [RAX + 0x10],R13 MOV qword ptr [RAX + 0x18],RBX JMP 0x0012858c LAB_00128539: LEA RSI,[0x14da06] LEA RDX,[0x14d9ee] MOV EDI,0x4 XOR EAX,EAX CALL 0x001167f0 LEA RDI,[RSP + 0x30] CALL 0x00116160 MOV RDI,R15 CALL 0x001173c0 MOV RDI,R14 LAB_00128568: CALL 0x001173c0 MOV RDI,R12 CALL 0x00116270 MOV RDI,R13 CALL 0x00116270 XORPS XMM0,XMM0 MOV RAX,qword ptr [RSP + 0x28] MOVUPS xmmword ptr [RAX + 0x10],XMM0 MOVUPS xmmword ptr [RAX],XMM0 LAB_0012858c: ADD RSP,0x88 POP RBX POP R12 POP R13 POP R14 POP R15 POP RBP RET
void ggml_backend_graph_copy(long *param_1,int8 param_2,int *param_3) { int iVar1; ulong uVar2; size_t __nmemb; ggml_tensor **__ptr; long lVar3; long lVar4; long lVar5; ulong uVar6; ulong uVar7; long lVar8; bool *__ptr_00; int4 local_88; int4 uStack_84; int4 uStack_80; int4 uStack_7c; long local_78; bool *local_70; long local_68; long local_60; int8 uStack_58; int1 local_50; long local_48; int8 uStack_40; int1 local_38; ggml_hash_set_new(&local_88,*(int8 *)(param_3 + 0xc)); __nmemb = CONCAT44(uStack_84,local_88); __ptr = (ggml_tensor **)calloc(__nmemb,8); local_70 = (bool *)calloc(__nmemb,1); lVar3 = ggml_tensor_overhead(); lVar5 = CONCAT44(uStack_84,local_88); lVar4 = ggml_graph_overhead_custom((long)*param_3,0); lVar4 = lVar4 + lVar3 * lVar5; uStack_40 = 0; local_38 = 1; local_48 = lVar4; lVar5 = ggml_init(); uStack_58 = 0; local_50 = 1; local_60 = lVar4; lVar3 = ggml_init(); __ptr_00 = local_70; if (lVar3 == 0 || lVar5 == 0) { ggml_log_internal(4,"%s: failed to allocate context for graph copy\n","ggml_backend_graph_copy") ; ggml_hash_set_free(&local_88); free(__ptr); __ptr_00 = local_70; } else { if (0 < param_3[1]) { lVar4 = 0; do { graph_copy_dup_tensor(__ptr,lVar5,lVar3,*(int8 *)(*(long *)(param_3 + 4) + lVar4 * 8)) ; lVar4 = lVar4 + 1; } while (lVar4 < param_3[1]); } local_68 = ggml_backend_alloc_ctx_tensors(lVar5,param_2); if (local_68 != 0) { if (0 < param_3[1]) { lVar4 = 0; do { graph_copy_init_tensor ((ggml_hash_set *)&local_88,__ptr,__ptr_00, *(ggml_tensor **)(*(long *)(param_3 + 4) + lVar4 * 8)); lVar4 = lVar4 + 1; } while (lVar4 < param_3[1]); } lVar4 = ggml_new_graph_custom(lVar5,(long)*param_3,0); iVar1 = param_3[1]; if (0 < (long)iVar1) { lVar8 = 0; do { uVar2 = *(ulong *)(*(long *)(param_3 + 4) + lVar8 * 8); uVar7 = (uVar2 >> 4) % CONCAT44(uStack_84,local_88); uVar6 = uVar7; do { if (((*(uint *)(CONCAT44(uStack_7c,uStack_80) + (uVar6 >> 5) * 4) >> ((uint)uVar6 & 0x1f) & 1) == 0) || (*(ulong *)(local_78 + uVar6 * 8) == uVar2)) goto LAB_001284ed; uVar6 = uVar6 + 1; if (uVar6 == CONCAT44(uStack_84,local_88)) { uVar6 = 0; } } while (uVar6 != uVar7); uVar6 = 0xffffffffffffffff; LAB_001284ed: *(ggml_tensor **)(*(long *)(lVar4 + 0x10) + lVar8 * 8) = __ptr[uVar6]; lVar8 = lVar8 + 1; } while (lVar8 != iVar1); } *(int *)(lVar4 + 4) = iVar1; ggml_hash_set_free(&local_88); free(__ptr); free(__ptr_00); *param_1 = local_68; param_1[1] = lVar5; param_1[2] = lVar3; param_1[3] = lVar4; return; } ggml_log_internal(4,"%s: failed to allocate buffer for graph copy\n","ggml_backend_graph_copy"); ggml_hash_set_free(&local_88); free(__ptr); } free(__ptr_00); ggml_free(lVar5); ggml_free(lVar3); param_1[2] = 0; param_1[3] = 0; *param_1 = 0; param_1[1] = 0; return; }
40,896
ggml_backend_graph_copy
ngxson[P]ggml-easy/ggml/src/ggml-backend.cpp
struct ggml_backend_graph_copy ggml_backend_graph_copy(ggml_backend_t backend, struct ggml_cgraph * graph) { struct ggml_hash_set hash_set = ggml_hash_set_new(graph->visited_hash_set.size); struct ggml_tensor ** node_copies = (ggml_tensor **) calloc(hash_set.size, sizeof(node_copies[0])); // NOLINT bool * node_init = (bool *) calloc(hash_set.size, sizeof(node_init[0])); struct ggml_init_params params = { /* .mem_size = */ ggml_tensor_overhead()*hash_set.size + ggml_graph_overhead_custom(graph->size, false), /* .mem_buffer = */ NULL, /* .no_alloc = */ true }; struct ggml_context * ctx_allocated = ggml_init(params); struct ggml_context * ctx_unallocated = ggml_init(params); if (ctx_allocated == NULL || ctx_unallocated == NULL) { GGML_LOG_ERROR("%s: failed to allocate context for graph copy\n", __func__); ggml_hash_set_free(&hash_set); free(node_copies); free(node_init); ggml_free(ctx_allocated); ggml_free(ctx_unallocated); return { /* .buffer = */ NULL, /* .ctx_allocated = */ NULL, /* .ctx_unallocated = */ NULL, /* .graph = */ NULL, }; } // dup nodes for (int i = 0; i < graph->n_nodes; i++) { struct ggml_tensor * node = graph->nodes[i]; graph_copy_dup_tensor(hash_set, node_copies, ctx_allocated, ctx_unallocated, node); } // allocate nodes ggml_backend_buffer_t buffer = ggml_backend_alloc_ctx_tensors(ctx_allocated, backend); if (buffer == NULL) { GGML_LOG_ERROR("%s: failed to allocate buffer for graph copy\n", __func__); ggml_hash_set_free(&hash_set); free(node_copies); free(node_init); ggml_free(ctx_allocated); ggml_free(ctx_unallocated); return { /* .buffer = */ NULL, /* .ctx_allocated = */ NULL, /* .ctx_unallocated = */ NULL, /* .graph = */ NULL, }; } //printf("copy buffer size: %zu MB\n", ggml_backend_buffer_get_size(buffer) / 1024 / 1024); // copy data and init views for (int i = 0; i < graph->n_nodes; i++) { struct ggml_tensor * node = graph->nodes[i]; graph_copy_init_tensor(&hash_set, node_copies, node_init, node); } // build graph copy struct ggml_cgraph * graph_copy = ggml_new_graph_custom(ctx_allocated, graph->size, false); for (int i = 0; i < graph->n_nodes; i++) { struct ggml_tensor * node = graph->nodes[i]; struct ggml_tensor * node_copy = node_copies[ggml_hash_find(&hash_set, node)]; graph_copy->nodes[i] = node_copy; } graph_copy->n_nodes = graph->n_nodes; ggml_hash_set_free(&hash_set); free(node_copies); free(node_init); return { /* .buffer = */ buffer, /* .ctx_allocated = */ ctx_allocated, /* .ctx_unallocated = */ ctx_unallocated, /* .graph = */ graph_copy, }; }
O2
cpp
ggml_backend_graph_copy: pushq %rbp pushq %r15 pushq %r14 pushq %r13 pushq %r12 pushq %rbx subq $0x98, %rsp movq %rdx, %rbp movq %rsi, 0x20(%rsp) movq %rdi, %r12 movq 0x30(%rdx), %rsi leaq 0x38(%rsp), %rbx movq %rbx, %rdi callq 0x1c260 movq (%rbx), %r14 pushq $0x8 popq %rsi movq %r14, %rdi callq 0x1cf30 movq %rax, %r15 pushq $0x1 popq %rsi movq %r14, %rdi callq 0x1cf30 movq %rax, %r13 callq 0x1e7f0 movq %rax, %r14 imulq (%rbx), %r14 movslq (%rbp), %rdi xorl %esi, %esi callq 0x1e010 movq %rax, %rbx addq %r14, %rbx movq %rbx, 0x80(%rsp) andq $0x0, 0x88(%rsp) movb $0x1, %r14b movb %r14b, 0x90(%rsp) movq 0x90(%rsp), %rax movq %rax, 0x10(%rsp) movups 0x80(%rsp), %xmm0 movups %xmm0, (%rsp) callq 0x1d470 movq %rbx, 0x68(%rsp) andq $0x0, 0x70(%rsp) movb %r14b, 0x78(%rsp) movq %rax, %r14 movq 0x78(%rsp), %rax movq %rax, 0x10(%rsp) movups 0x68(%rsp), %xmm0 movups %xmm0, (%rsp) callq 0x1d470 movq %rax, %rbx testq %r14, %r14 sete %al testq %rbx, %rbx sete %cl orb %al, %cl je 0x2cfc9 leaq 0x219a1(%rip), %rsi # 0x4e92f leaq 0x219c9(%rip), %rdx # 0x4e95e pushq $0x4 popq %rdi xorl %eax, %eax callq 0x1cad0 leaq 0x38(%rsp), %rdi callq 0x1c240 movq %r15, %rdi callq 0x1db70 movq %r13, %rdi callq 0x1db70 movq %r14, %rdi callq 0x1c3f0 movq %rbx, %rdi jmp 0x2d13e movq %rbx, 0x28(%rsp) xorl %ebx, %ebx movslq 0x4(%rbp), %rax cmpq %rax, %rbx jge 0x2d009 movq 0x10(%rbp), %rax movq (%rax,%rbx,8), %rcx movq 0x48(%rsp), %rax movq %rax, 0x10(%rsp) movups 0x38(%rsp), %xmm0 movups %xmm0, (%rsp) movq %r15, %rdi movq %r14, %rsi movq 0x28(%rsp), %rdx callq 0x2d166 incq %rbx jmp 0x2cfd0 movq %r14, %rdi movq 0x20(%rsp), %rsi callq 0x1d190 testq %rax, %rax je 0x2d0ff movq %rax, 0x50(%rsp) movq %r14, 0x20(%rsp) xorl %r14d, %r14d leaq 0x38(%rsp), %rbx movslq 0x4(%rbp), %rax cmpq %rax, %r14 jge 0x2d055 movq 0x10(%rbp), %rax movq (%rax,%r14,8), %rcx movq %rbx, %rdi movq %r15, %rsi movq %r13, %rdx callq 0x2d37e incq %r14 jmp 0x2d031 movq %r13, 0x58(%rsp) movq %r12, 0x60(%rsp) movslq (%rbp), %rsi xorl %r13d, %r13d movq 0x20(%rsp), %rdi xorl %edx, %edx callq 0x1e8e0 movq %rax, %rbx movl 0x4(%rbp), %eax testl %eax, %eax movl $0x0, %r12d movl %eax, 0x34(%rsp) cmovgl %eax, %r12d leaq 0x38(%rsp), %r14 cmpq %r13, %r12 je 0x2d0b3 movq 0x10(%rbp), %rax movq (%rax,%r13,8), %rsi movq %r14, %rdi callq 0x2d435 movq (%r15,%rax,8), %rax movq 0x10(%rbx), %rcx movq %rax, (%rcx,%r13,8) incq %r13 jmp 0x2d08d movl 0x34(%rsp), %eax movl %eax, 0x4(%rbx) leaq 0x38(%rsp), %rdi callq 0x1c240 movq %r15, %rdi callq 0x1db70 movq 0x58(%rsp), %rdi callq 0x1db70 movq 0x60(%rsp), %r12 movq 0x50(%rsp), %rax movq %rax, (%r12) movq 0x20(%rsp), %rax movq %rax, 0x8(%r12) movq 0x28(%rsp), %rax movq %rax, 0x10(%r12) movq %rbx, 0x18(%r12) jmp 0x2d151 leaq 0x21870(%rip), %rsi # 0x4e976 leaq 0x21851(%rip), %rdx # 0x4e95e pushq $0x4 popq %rdi xorl %eax, %eax callq 0x1cad0 leaq 0x38(%rsp), %rdi callq 0x1c240 movq %r15, %rdi callq 0x1db70 movq %r13, %rdi callq 0x1db70 movq %r14, %rdi callq 0x1c3f0 movq 0x28(%rsp), %rdi callq 0x1c3f0 xorps %xmm0, %xmm0 movups %xmm0, 0x10(%r12) movups %xmm0, (%r12) movq %r12, %rax addq $0x98, %rsp popq %rbx popq %r12 popq %r13 popq %r14 popq %r15 popq %rbp retq
ggml_backend_graph_copy: push rbp push r15 push r14 push r13 push r12 push rbx sub rsp, 98h mov rbp, rdx mov [rsp+0C8h+var_A8], rsi mov r12, rdi mov rsi, [rdx+30h] lea rbx, [rsp+0C8h+var_90] mov rdi, rbx call _ggml_hash_set_new mov r14, [rbx] push 8 pop rsi mov rdi, r14 call _calloc mov r15, rax push 1 pop rsi mov rdi, r14 call _calloc mov r13, rax call _ggml_tensor_overhead mov r14, rax imul r14, [rbx] movsxd rdi, dword ptr [rbp+0] xor esi, esi call _ggml_graph_overhead_custom mov rbx, rax add rbx, r14 mov qword ptr [rsp+0C8h+var_48], rbx and qword ptr [rsp+0C8h+var_48+8], 0 mov r14b, 1 mov byte ptr [rsp+0C8h+var_38], r14b mov rax, [rsp+0C8h+var_38] mov [rsp+0C8h+var_B8], rax movups xmm0, [rsp+0C8h+var_48] movups [rsp+0C8h+var_C8], xmm0 call _ggml_init mov qword ptr [rsp+0C8h+var_60], rbx and qword ptr [rsp+0C8h+var_60+8], 0 mov byte ptr [rsp+0C8h+var_50], r14b mov r14, rax mov rax, [rsp+0C8h+var_50] mov [rsp+0C8h+var_B8], rax movups xmm0, [rsp+0C8h+var_60] movups [rsp+0C8h+var_C8], xmm0 call _ggml_init mov rbx, rax test r14, r14 setz al test rbx, rbx setz cl or cl, al jz short loc_2CFC9 lea rsi, aSFailedToAlloc_2; "%s: failed to allocate context for grap"... lea rdx, aGgmlBackendGra_6; "ggml_backend_graph_copy" push 4 pop rdi xor eax, eax call _ggml_log_internal lea rdi, [rsp+0C8h+var_90] call _ggml_hash_set_free mov rdi, r15 call _free mov rdi, r13 call _free mov rdi, r14 call _ggml_free mov rdi, rbx jmp loc_2D13E loc_2CFC9: mov [rsp+0C8h+var_A0], rbx xor ebx, ebx loc_2CFD0: movsxd rax, dword ptr [rbp+4] cmp rbx, rax jge short loc_2D009 mov rax, [rbp+10h] mov rcx, [rax+rbx*8] mov rax, [rsp+0C8h+var_80] mov [rsp+0C8h+var_B8], rax movups xmm0, [rsp+0C8h+var_90] movups [rsp+0C8h+var_C8], xmm0 mov rdi, r15 mov rsi, r14 mov rdx, [rsp+0C8h+var_A0] call _ZL21graph_copy_dup_tensor13ggml_hash_setPP11ggml_tensorP12ggml_contextS4_S1_; graph_copy_dup_tensor(ggml_hash_set,ggml_tensor **,ggml_context *,ggml_context *,ggml_tensor *) inc rbx jmp short loc_2CFD0 loc_2D009: mov rdi, r14 mov rsi, [rsp+0C8h+var_A8] call _ggml_backend_alloc_ctx_tensors test rax, rax jz loc_2D0FF mov [rsp+0C8h+var_78], rax mov [rsp+0C8h+var_A8], r14 xor r14d, r14d lea rbx, [rsp+0C8h+var_90] loc_2D031: movsxd rax, dword ptr [rbp+4] cmp r14, rax jge short loc_2D055 mov rax, [rbp+10h] mov rcx, [rax+r14*8] mov rdi, rbx mov rsi, r15 mov rdx, r13 call _ZL22graph_copy_init_tensorP13ggml_hash_setPP11ggml_tensorPbS2_; graph_copy_init_tensor(ggml_hash_set *,ggml_tensor **,bool *,ggml_tensor *) inc r14 jmp short loc_2D031 loc_2D055: mov [rsp+0C8h+var_70], r13 mov [rsp+0C8h+var_68], r12 movsxd rsi, dword ptr [rbp+0] xor r13d, r13d mov rdi, [rsp+0C8h+var_A8] xor edx, edx call _ggml_new_graph_custom mov rbx, rax mov eax, [rbp+4] test eax, eax mov r12d, 0 mov [rsp+0C8h+var_94], eax cmovg r12d, eax lea r14, [rsp+0C8h+var_90] loc_2D08D: cmp r12, r13 jz short loc_2D0B3 mov rax, [rbp+10h] mov rsi, [rax+r13*8] mov rdi, r14 call _ZL14ggml_hash_findPK13ggml_hash_setPK11ggml_tensor; ggml_hash_find(ggml_hash_set const*,ggml_tensor const*) mov rax, [r15+rax*8] mov rcx, [rbx+10h] mov [rcx+r13*8], rax inc r13 jmp short loc_2D08D loc_2D0B3: mov eax, [rsp+0C8h+var_94] mov [rbx+4], eax lea rdi, [rsp+0C8h+var_90] call _ggml_hash_set_free mov rdi, r15 call _free mov rdi, [rsp+0C8h+var_70] call _free mov r12, [rsp+0C8h+var_68] mov rax, [rsp+0C8h+var_78] mov [r12], rax mov rax, [rsp+0C8h+var_A8] mov [r12+8], rax mov rax, [rsp+0C8h+var_A0] mov [r12+10h], rax mov [r12+18h], rbx jmp short loc_2D151 loc_2D0FF: lea rsi, aSFailedToAlloc_3; "%s: failed to allocate buffer for graph"... lea rdx, aGgmlBackendGra_6; "ggml_backend_graph_copy" push 4 pop rdi xor eax, eax call _ggml_log_internal lea rdi, [rsp+0C8h+var_90] call _ggml_hash_set_free mov rdi, r15 call _free mov rdi, r13 call _free mov rdi, r14 call _ggml_free mov rdi, [rsp+0C8h+var_A0] loc_2D13E: call _ggml_free xorps xmm0, xmm0 movups xmmword ptr [r12+10h], xmm0 movups xmmword ptr [r12], xmm0 loc_2D151: mov rax, r12 add rsp, 98h pop rbx pop r12 pop r13 pop r14 pop r15 pop rbp retn
long long * ggml_backend_graph_copy( long long *a1, long long a2, int *a3, __m128 a4, __m128 a5, __m128 a6, __m128 a7, double a8, double a9, __m128 a10, __m128 a11) { unsigned long long v13; // r14 long long v14; // r15 long long v15; // r13 long long v16; // r14 long long v17; // rdi unsigned long long v18; // rbx long long v19; // rdx long long v20; // rcx long long v21; // r8 long long v22; // r9 double v23; // xmm4_8 double v24; // xmm5_8 long long v25; // rax long long v26; // r14 __m128 v27; // xmm0 long long v28; // rdx long long v29; // rcx long long v30; // r8 long long v31; // r9 double v32; // xmm4_8 double v33; // xmm5_8 long long v34; // rbx long long v35; // r8 long long v36; // r9 __m128 v37; // xmm4 __m128 v38; // xmm5 long long v39; // rcx const char *v40; // rsi const char *v41; // rdx const char *v42; // rdx long long v43; // rdi long long i; // rbx long long v45; // rax long long v46; // rcx long long v47; // r8 long long v48; // r9 __m128 v49; // xmm4 __m128 v50; // xmm5 long long j; // r14 long long v52; // rsi long long v53; // r13 long long v54; // rbx int v55; // eax long long v56; // r12 const char *v57; // rdx const char *v58; // rdx long long *v60; // [rsp+20h] [rbp-A8h] long long v61; // [rsp+28h] [rbp-A0h] int v62; // [rsp+34h] [rbp-94h] __m128 v63; // [rsp+38h] [rbp-90h] BYREF long long v64; // [rsp+48h] [rbp-80h] long long v65; // [rsp+50h] [rbp-78h] long long v66; // [rsp+58h] [rbp-70h] long long *v67; // [rsp+60h] [rbp-68h] __int128 v68; // [rsp+68h] [rbp-60h] long long v69; // [rsp+78h] [rbp-50h] __int128 v70; // [rsp+80h] [rbp-48h] long long v71; // [rsp+90h] [rbp-38h] ggml_hash_set_new((long long *)&v63, *((_QWORD *)a3 + 6), a4, a5, a6, a7, a8, a9, a10, a11); v13 = v63.m128_u64[0]; v14 = calloc(v63.m128_u64[0], 8LL); v15 = calloc(v13, 1LL); v16 = v63.m128_u64[0] * ggml_tensor_overhead(); v17 = *a3; v18 = v16 + ggml_graph_overhead_custom(v17); v70 = v18; LOBYTE(v71) = 1; v25 = ggml_init((__m128)v18, a5, a6, (__m128i)a7, v23, v24, a10, a11, v17, 0LL, v19, v20, v21, v22, v18, 0LL, 1); v68 = v18; LOBYTE(v69) = 1; v26 = v25; v27 = (__m128)v18; v34 = ggml_init((__m128)v18, a5, a6, (__m128i)a7, v32, v33, a10, a11, v17, 0LL, v28, v29, v30, v31, v18, 0LL, 1); LOBYTE(v39) = v26 == 0 || v34 == 0; if ( (_BYTE)v39 ) { v40 = "%s: failed to allocate context for graph copy\n"; ggml_log_internal( v27, a5, a6, a7, v37, v38, a10, a11, 4LL, (long long)"%s: failed to allocate context for graph copy\n", (long long)"ggml_backend_graph_copy", v39, v35, v36); ggml_hash_set_free((long long)&v63, (long long)"%s: failed to allocate context for graph copy\n"); free(v14, "%s: failed to allocate context for graph copy\n", v41); free(v15, "%s: failed to allocate context for graph copy\n", v42); ggml_free(v26, (long long)"%s: failed to allocate context for graph copy\n"); v43 = v34; LABEL_16: ggml_free(v43, (long long)v40); *((_OWORD *)a1 + 1) = 0LL; *(_OWORD *)a1 = 0LL; return a1; } v61 = v34; for ( i = 0LL; i < a3[1]; ++i ) { v27 = v63; graph_copy_dup_tensor(v14, v26, v61, *(_QWORD *)(*((_QWORD *)a3 + 2) + 8 * i), v35, v36, *(_OWORD *)&v63, v64); } v45 = ggml_backend_alloc_ctx_tensors( v26, a2, v27, a5, a6, a7, *(double *)v37.m128_u64, *(double *)v38.m128_u64, a10, a11); if ( !v45 ) { v40 = "%s: failed to allocate buffer for graph copy\n"; ggml_log_internal( v27, a5, a6, a7, v49, v50, a10, a11, 4LL, (long long)"%s: failed to allocate buffer for graph copy\n", (long long)"ggml_backend_graph_copy", v46, v47, v48); ggml_hash_set_free((long long)&v63, (long long)"%s: failed to allocate buffer for graph copy\n"); free(v14, "%s: failed to allocate buffer for graph copy\n", v57); free(v15, "%s: failed to allocate buffer for graph copy\n", v58); ggml_free(v26, (long long)"%s: failed to allocate buffer for graph copy\n"); v43 = v61; goto LABEL_16; } v65 = v45; v60 = (long long *)v26; for ( j = 0LL; j < a3[1]; ++j ) graph_copy_init_tensor(&v63, v14, v15, *(_QWORD *)(*((_QWORD *)a3 + 2) + 8 * j)); v66 = v15; v67 = a1; v52 = *a3; v53 = 0LL; v54 = ggml_new_graph_custom(v60, v52, 0, v27, a5, a6, a7, *(double *)v49.m128_u64, *(double *)v50.m128_u64, a10, a11); v55 = a3[1]; v56 = 0LL; v62 = v55; if ( v55 > 0 ) v56 = (unsigned int)v55; while ( v56 != v53 ) { v52 = *(_QWORD *)(*((_QWORD *)a3 + 2) + 8 * v53); *(_QWORD *)(*(_QWORD *)(v54 + 16) + 8 * v53++) = *(_QWORD *)(v14 + 8 * ggml_hash_find(&v63, v52)); } *(_DWORD *)(v54 + 4) = v62; ggml_hash_set_free((long long)&v63, v52); free(v14, (const char *)v52); free(v66, (const char *)v52); a1 = v67; *v67 = v65; a1[1] = (long long)v60; a1[2] = v61; a1[3] = v54; return a1; }
ggml_backend_graph_copy: PUSH RBP PUSH R15 PUSH R14 PUSH R13 PUSH R12 PUSH RBX SUB RSP,0x98 MOV RBP,RDX MOV qword ptr [RSP + 0x20],RSI MOV R12,RDI MOV RSI,qword ptr [RDX + 0x30] LEA RBX,[RSP + 0x38] MOV RDI,RBX CALL 0x0011c260 MOV R14,qword ptr [RBX] PUSH 0x8 POP RSI MOV RDI,R14 CALL 0x0011cf30 MOV R15,RAX PUSH 0x1 POP RSI MOV RDI,R14 CALL 0x0011cf30 MOV R13,RAX CALL 0x0011e7f0 MOV R14,RAX IMUL R14,qword ptr [RBX] MOVSXD RDI,dword ptr [RBP] XOR ESI,ESI CALL 0x0011e010 MOV RBX,RAX ADD RBX,R14 MOV qword ptr [RSP + 0x80],RBX AND qword ptr [RSP + 0x88],0x0 MOV R14B,0x1 MOV byte ptr [RSP + 0x90],R14B MOV RAX,qword ptr [RSP + 0x90] MOV qword ptr [RSP + 0x10],RAX MOVUPS XMM0,xmmword ptr [RSP + 0x80] MOVUPS xmmword ptr [RSP],XMM0 CALL 0x0011d470 MOV qword ptr [RSP + 0x68],RBX AND qword ptr [RSP + 0x70],0x0 MOV byte ptr [RSP + 0x78],R14B MOV R14,RAX MOV RAX,qword ptr [RSP + 0x78] MOV qword ptr [RSP + 0x10],RAX MOVUPS XMM0,xmmword ptr [RSP + 0x68] MOVUPS xmmword ptr [RSP],XMM0 CALL 0x0011d470 MOV RBX,RAX TEST R14,R14 SETZ AL TEST RBX,RBX SETZ CL OR CL,AL JZ 0x0012cfc9 LEA RSI,[0x14e92f] LEA RDX,[0x14e95e] PUSH 0x4 POP RDI XOR EAX,EAX CALL 0x0011cad0 LEA RDI,[RSP + 0x38] CALL 0x0011c240 MOV RDI,R15 CALL 0x0011db70 MOV RDI,R13 CALL 0x0011db70 MOV RDI,R14 CALL 0x0011c3f0 MOV RDI,RBX JMP 0x0012d13e LAB_0012cfc9: MOV qword ptr [RSP + 0x28],RBX XOR EBX,EBX LAB_0012cfd0: MOVSXD RAX,dword ptr [RBP + 0x4] CMP RBX,RAX JGE 0x0012d009 MOV RAX,qword ptr [RBP + 0x10] MOV RCX,qword ptr [RAX + RBX*0x8] MOV RAX,qword ptr [RSP + 0x48] MOV qword ptr [RSP + 0x10],RAX MOVUPS XMM0,xmmword ptr [RSP + 0x38] MOVUPS xmmword ptr [RSP],XMM0 MOV RDI,R15 MOV RSI,R14 MOV RDX,qword ptr [RSP + 0x28] CALL 0x0012d166 INC RBX JMP 0x0012cfd0 LAB_0012d009: MOV RDI,R14 MOV RSI,qword ptr [RSP + 0x20] CALL 0x0011d190 TEST RAX,RAX JZ 0x0012d0ff MOV qword ptr [RSP + 0x50],RAX MOV qword ptr [RSP + 0x20],R14 XOR R14D,R14D LEA RBX,[RSP + 0x38] LAB_0012d031: MOVSXD RAX,dword ptr [RBP + 0x4] CMP R14,RAX JGE 0x0012d055 MOV RAX,qword ptr [RBP + 0x10] MOV RCX,qword ptr [RAX + R14*0x8] MOV RDI,RBX MOV RSI,R15 MOV RDX,R13 CALL 0x0012d37e INC R14 JMP 0x0012d031 LAB_0012d055: MOV qword ptr [RSP + 0x58],R13 MOV qword ptr [RSP + 0x60],R12 MOVSXD RSI,dword ptr [RBP] XOR R13D,R13D MOV RDI,qword ptr [RSP + 0x20] XOR EDX,EDX CALL 0x0011e8e0 MOV RBX,RAX MOV EAX,dword ptr [RBP + 0x4] TEST EAX,EAX MOV R12D,0x0 MOV dword ptr [RSP + 0x34],EAX CMOVG R12D,EAX LEA R14,[RSP + 0x38] LAB_0012d08d: CMP R12,R13 JZ 0x0012d0b3 MOV RAX,qword ptr [RBP + 0x10] MOV RSI,qword ptr [RAX + R13*0x8] MOV RDI,R14 CALL 0x0012d435 MOV RAX,qword ptr [R15 + RAX*0x8] MOV RCX,qword ptr [RBX + 0x10] MOV qword ptr [RCX + R13*0x8],RAX INC R13 JMP 0x0012d08d LAB_0012d0b3: MOV EAX,dword ptr [RSP + 0x34] MOV dword ptr [RBX + 0x4],EAX LEA RDI,[RSP + 0x38] CALL 0x0011c240 MOV RDI,R15 CALL 0x0011db70 MOV RDI,qword ptr [RSP + 0x58] CALL 0x0011db70 MOV R12,qword ptr [RSP + 0x60] MOV RAX,qword ptr [RSP + 0x50] MOV qword ptr [R12],RAX MOV RAX,qword ptr [RSP + 0x20] MOV qword ptr [R12 + 0x8],RAX MOV RAX,qword ptr [RSP + 0x28] MOV qword ptr [R12 + 0x10],RAX MOV qword ptr [R12 + 0x18],RBX JMP 0x0012d151 LAB_0012d0ff: LEA RSI,[0x14e976] LEA RDX,[0x14e95e] PUSH 0x4 POP RDI XOR EAX,EAX CALL 0x0011cad0 LEA RDI,[RSP + 0x38] CALL 0x0011c240 MOV RDI,R15 CALL 0x0011db70 MOV RDI,R13 CALL 0x0011db70 MOV RDI,R14 CALL 0x0011c3f0 MOV RDI,qword ptr [RSP + 0x28] LAB_0012d13e: CALL 0x0011c3f0 XORPS XMM0,XMM0 MOVUPS xmmword ptr [R12 + 0x10],XMM0 MOVUPS xmmword ptr [R12],XMM0 LAB_0012d151: MOV RAX,R12 ADD RSP,0x98 POP RBX POP R12 POP R13 POP R14 POP R15 POP RBP RET
long * ggml_backend_graph_copy (long *param_1,int8 param_2,int *param_3,int8 param_4, int8 param_5,int8 param_6) { uint uVar1; size_t __nmemb; ggml_tensor **__ptr; bool *__ptr_00; long lVar2; long lVar3; long lVar4; long lVar5; ulong uVar6; ulong uVar7; int4 local_90; int4 uStack_8c; int4 uStack_88; int8 local_80; long local_78; bool *local_70; long *local_68; long local_60; int8 uStack_58; int1 local_50; long local_48; int8 uStack_40; int1 local_38; ggml_hash_set_new(&local_90,*(int8 *)(param_3 + 0xc)); __nmemb = CONCAT44(uStack_8c,local_90); __ptr = (ggml_tensor **)calloc(__nmemb,8); __ptr_00 = (bool *)calloc(__nmemb,1); lVar2 = ggml_tensor_overhead(); lVar4 = CONCAT44(uStack_8c,local_90); lVar3 = ggml_graph_overhead_custom((long)*param_3,0); lVar3 = lVar3 + lVar2 * lVar4; uStack_40 = 0; local_38 = 1; local_48 = lVar3; lVar4 = ggml_init(); uStack_58 = 0; local_50 = 1; local_60 = lVar3; lVar2 = ggml_init(); if (lVar2 == 0 || lVar4 == 0) { ggml_log_internal(4,"%s: failed to allocate context for graph copy\n","ggml_backend_graph_copy") ; ggml_hash_set_free(&local_90); free(__ptr); free(__ptr_00); ggml_free(lVar4); } else { for (lVar3 = 0; lVar3 < param_3[1]; lVar3 = lVar3 + 1) { graph_copy_dup_tensor (__ptr,lVar4,lVar2,*(int8 *)(*(long *)(param_3 + 4) + lVar3 * 8),param_5, param_6,local_90,uStack_88,local_80); } local_78 = ggml_backend_alloc_ctx_tensors(lVar4,param_2); if (local_78 != 0) { for (lVar3 = 0; lVar3 < param_3[1]; lVar3 = lVar3 + 1) { graph_copy_init_tensor ((ggml_hash_set *)&local_90,__ptr,__ptr_00, *(ggml_tensor **)(*(long *)(param_3 + 4) + lVar3 * 8)); } uVar7 = 0; local_70 = __ptr_00; local_68 = param_1; lVar3 = ggml_new_graph_custom(lVar4,(long)*param_3,0); uVar1 = param_3[1]; uVar6 = 0; if (0 < (int)uVar1) { uVar6 = (ulong)uVar1; } for (; uVar6 != uVar7; uVar7 = uVar7 + 1) { lVar5 = ggml_hash_find((ggml_hash_set *)&local_90, *(ggml_tensor **)(*(long *)(param_3 + 4) + uVar7 * 8)); *(ggml_tensor **)(*(long *)(lVar3 + 0x10) + uVar7 * 8) = __ptr[lVar5]; } *(uint *)(lVar3 + 4) = uVar1; ggml_hash_set_free(&local_90); free(__ptr); free(local_70); *local_68 = local_78; local_68[1] = lVar4; local_68[2] = lVar2; local_68[3] = lVar3; return local_68; } ggml_log_internal(4,"%s: failed to allocate buffer for graph copy\n","ggml_backend_graph_copy"); ggml_hash_set_free(&local_90); free(__ptr); free(__ptr_00); ggml_free(lVar4); } ggml_free(lVar2); param_1[2] = 0; param_1[3] = 0; *param_1 = 0; param_1[1] = 0; return param_1; }
40,897
testing::internal::StringFromGTestEnv(char const*, char const*)
AlayaLite/build_O3/_deps/googletest-src/googletest/src/gtest-port.cc
const char* StringFromGTestEnv(const char* flag, const char* default_value) { #if defined(GTEST_GET_STRING_FROM_ENV_) return GTEST_GET_STRING_FROM_ENV_(flag, default_value); #else const std::string env_var = FlagToEnvVar(flag); const char* const value = posix::GetEnv(env_var.c_str()); return value == nullptr ? default_value : value; #endif // defined(GTEST_GET_STRING_FROM_ENV_) }
O3
cpp
testing::internal::StringFromGTestEnv(char const*, char const*): pushq %r15 pushq %r14 pushq %rbx subq $0x20, %rsp movq %rsi, %rbx movq %rdi, %rsi movq %rsp, %r14 movq %r14, %rdi callq 0x58a7c movq (%r14), %r15 movq %r15, %rdi callq 0x118a0 movq %rax, %r14 leaq 0x10(%rsp), %rax cmpq %rax, %r15 je 0x4fbc4 movq 0x10(%rsp), %rsi incq %rsi movq %r15, %rdi callq 0x11120 testq %r14, %r14 cmovneq %r14, %rbx movq %rbx, %rax addq $0x20, %rsp popq %rbx popq %r14 popq %r15 retq
_ZN7testing8internal18StringFromGTestEnvEPKcS2_: push r15 push r14 push rbx sub rsp, 20h mov rbx, rsi mov rsi, rdi mov r14, rsp mov rdi, r14 call _ZN7testing8internalL12FlagToEnvVarB5cxx11EPKc; testing::internal::FlagToEnvVar(char const*) mov r15, [r14] mov rdi, r15 call _getenv mov r14, rax lea rax, [rsp+38h+var_28] cmp r15, rax jz short loc_4FBC4 mov rsi, [rsp+38h+var_28] inc rsi; unsigned __int64 mov rdi, r15; void * call __ZdlPvm; operator delete(void *,ulong) loc_4FBC4: test r14, r14 cmovnz rbx, r14 mov rax, rbx add rsp, 20h pop rbx pop r14 pop r15 retn
const char * testing::internal::StringFromGTestEnv( testing::internal *this, const char *a2, const char *a3, int a4, int a5, int a6) { long long *v7; // r15 long long v8; // r14 _QWORD v10[2]; // [rsp+0h] [rbp-38h] BYREF long long v11; // [rsp+10h] [rbp-28h] BYREF int v12; // [rsp+18h] [rbp-20h] long long v13; // [rsp+20h] [rbp-18h] testing::internal::FlagToEnvVar[abi:cxx11]( (unsigned int)v10, (_DWORD)this, (_DWORD)a3, a4, a5, a6, v10[0], v10[1], v11, v12, v13); v7 = (long long *)v10[0]; v8 = getenv(v10[0]); if ( v7 != &v11 ) operator delete(v7, v11 + 1); if ( v8 ) return (const char *)v8; return a2; }
StringFromGTestEnv: PUSH R15 PUSH R14 PUSH RBX SUB RSP,0x20 MOV RBX,RSI MOV RSI,RDI MOV R14,RSP MOV RDI,R14 CALL 0x00158a7c MOV R15,qword ptr [R14] MOV RDI,R15 CALL 0x001118a0 MOV R14,RAX LEA RAX,[RSP + 0x10] CMP R15,RAX JZ 0x0014fbc4 MOV RSI,qword ptr [RSP + 0x10] INC RSI MOV RDI,R15 CALL 0x00111120 LAB_0014fbc4: TEST R14,R14 CMOVNZ RBX,R14 MOV RAX,RBX ADD RSP,0x20 POP RBX POP R14 POP R15 RET
/* testing::internal::StringFromGTestEnv(char const*, char const*) */ char * testing::internal::StringFromGTestEnv(char *param_1,char *param_2) { char *pcVar1; long *local_38 [2]; long local_28 [2]; FlagToEnvVar_abi_cxx11_((internal *)local_38,param_1); pcVar1 = getenv((char *)local_38[0]); if (local_38[0] != local_28) { operator_delete(local_38[0],local_28[0] + 1); } if (pcVar1 != (char *)0x0) { param_2 = pcVar1; } return param_2; }
40,898
ma_unmap_file
eloqsql/storage/maria/ma_packrec.c
void _ma_unmap_file(MARIA_HA *info) { MARIA_SHARE *share= info->s; my_munmap((char*) share->file_map, (size_t) share->mmaped_length + MEMMAP_EXTRA_MARGIN); share->file_map= 0; share->file_read= _ma_nommap_pread; share->file_write= _ma_nommap_pwrite; info->opt_flag&= ~MEMMAP_USED; }
O3
c
ma_unmap_file: pushq %rbp movq %rsp, %rbp pushq %r14 pushq %rbx movq %rdi, %rbx movq (%rdi), %r14 movq 0x5f0(%r14), %rdi movq 0xa00(%r14), %rsi addq $0x7, %rsi callq 0x2a530 movq $0x0, 0x5f0(%r14) leaq 0x1c6b(%rip), %rax # 0x6726f movq %rax, 0x6e0(%r14) leaq 0x1e73(%rip), %rax # 0x67485 movq %rax, 0x6e8(%r14) andb $-0x21, 0x61c(%rbx) popq %rbx popq %r14 popq %rbp retq
_ma_unmap_file: push rbp mov rbp, rsp push r14 push rbx mov rbx, rdi mov r14, [rdi] mov rdi, [r14+5F0h] mov rsi, [r14+0A00h] add rsi, 7 call _munmap mov qword ptr [r14+5F0h], 0 lea rax, _ma_nommap_pread mov [r14+6E0h], rax lea rax, _ma_nommap_pwrite mov [r14+6E8h], rax and byte ptr [rbx+61Ch], 0DFh pop rbx pop r14 pop rbp retn
long long ( * ma_unmap_file(_BYTE *a1))() { _QWORD *v1; // r14 long long ( *result)(); // rax v1 = *(_QWORD **)a1; munmap(*(_QWORD *)(*(_QWORD *)a1 + 1520LL), *(_QWORD *)(*(_QWORD *)a1 + 2560LL) + 7LL); v1[190] = 0LL; v1[220] = ma_nommap_pread; result = ma_nommap_pwrite; v1[221] = ma_nommap_pwrite; a1[1564] &= ~0x20u; return result; }
_ma_unmap_file: PUSH RBP MOV RBP,RSP PUSH R14 PUSH RBX MOV RBX,RDI MOV R14,qword ptr [RDI] MOV RDI,qword ptr [R14 + 0x5f0] MOV RSI,qword ptr [R14 + 0xa00] ADD RSI,0x7 CALL 0x0012a530 MOV qword ptr [R14 + 0x5f0],0x0 LEA RAX,[0x16726f] MOV qword ptr [R14 + 0x6e0],RAX LEA RAX,[0x167485] MOV qword ptr [R14 + 0x6e8],RAX AND byte ptr [RBX + 0x61c],0xdf POP RBX POP R14 POP RBP RET
void _ma_unmap_file(long *param_1) { long lVar1; lVar1 = *param_1; munmap(*(void **)(lVar1 + 0x5f0),*(long *)(lVar1 + 0xa00) + 7); *(int8 *)(lVar1 + 0x5f0) = 0; *(code **)(lVar1 + 0x6e0) = _ma_nommap_pread; *(code **)(lVar1 + 0x6e8) = _ma_nommap_pwrite; *(byte *)((long)param_1 + 0x61c) = *(byte *)((long)param_1 + 0x61c) & 0xdf; return; }
40,899
nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>::operator[](std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>> const&) const
monkey531[P]llama/common/json.hpp
const_reference operator[](const typename object_t::key_type& key) const { // const operator[] only works for objects if (JSON_HEDLEY_LIKELY(is_object())) { auto it = m_data.m_value.object->find(key); JSON_ASSERT(it != m_data.m_value.object->end()); return it->second; } JSON_THROW(type_error::create(305, detail::concat("cannot use operator[] with a string argument with ", type_name()), this)); }
O3
cpp
nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char>>, void>::operator[](std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>> const&) const: pushq %rbp pushq %r14 pushq %rbx subq $0x30, %rsp movq %rdi, %r14 cmpb $0x1, (%rdi) jne 0x6f19c movq 0x8(%r14), %rdi callq 0x6f254 movq 0x8(%r14), %rcx cmpq 0x8(%rcx), %rax je 0x6f1fa addq $0x20, %rax addq $0x30, %rsp popq %rbx popq %r14 popq %rbp retq movl $0x20, %edi callq 0x18360 movq %rax, %rbx movq %r14, %rdi callq 0x3deb4 leaq 0x8(%rsp), %rdx movq %rax, (%rdx) leaq 0x3d265(%rip), %rsi # 0xac425 leaq 0x10(%rsp), %rdi callq 0x6eee3 movb $0x1, %bpl leaq 0x10(%rsp), %rdx movq %rbx, %rdi movl $0x131, %esi # imm = 0x131 movq %r14, %rcx callq 0x3dc5c xorl %ebp, %ebp leaq 0x6c0cd(%rip), %rsi # 0xdb2b8 leaq -0x23078(%rip), %rdx # 0x4c17a movq %rbx, %rdi callq 0x18b30 leaq 0x3ac06(%rip), %rdi # 0xa9e07 leaq 0x38084(%rip), %rdx # 0xa728c leaq 0x3d249(%rip), %rcx # 0xac458 movl $0x53ca, %esi # imm = 0x53CA xorl %eax, %eax callq 0x18ad0 movq %rax, %r14 leaq 0x20(%rsp), %rax movq -0x10(%rax), %rdi cmpq %rax, %rdi je 0x6f239 movq 0x20(%rsp), %rsi incq %rsi callq 0x186a0 testb %bpl, %bpl jne 0x6f243 jmp 0x6f24b movq %rax, %r14 movq %rbx, %rdi callq 0x184f0 movq %r14, %rdi callq 0x18b90 nop
_ZNK8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvEixERKS9_: push rbp; char push r14; int push rbx; __int64 sub rsp, 30h mov r14, rdi cmp byte ptr [rdi], 1 jnz short loc_6F19C mov rdi, [r14+8] call _ZN8nlohmann16json_abi_v3_11_311ordered_mapINSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEENS0_10basic_jsonIS1_St6vectorS7_blmdSaNS0_14adl_serializerES9_IhSaIhEEvEESt4lessIvESaISt4pairIKS7_SD_EEE4findERSH_; nlohmann::json_abi_v3_11_3::ordered_map<std::string,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>,std::less<void>,std::allocator<std::pair<std::string const,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>>>>::find(std::string const&) mov rcx, [r14+8] cmp rax, [rcx+8] jz short loc_6F1FA add rax, 20h ; ' ' add rsp, 30h pop rbx pop r14 pop rbp retn loc_6F19C: mov edi, 20h ; ' '; thrown_size call ___cxa_allocate_exception mov rbx, rax mov rdi, r14 call _ZNK8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE9type_nameEv; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::type_name(void) lea rdx, [rsp+48h+var_40] mov [rdx], rax lea rsi, aCannotUseOpera_0; "cannot use operator[] with a string arg"... lea rdi, [rsp+48h+var_38] call _ZN8nlohmann16json_abi_v3_11_36detail6concatINSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEJRA51_KcPS9_EEET_DpOT0_; nlohmann::json_abi_v3_11_3::detail::concat<std::string,char const(&)[51],char const*>(char const(&)[51],char const* &&) mov bpl, 1 lea rdx, [rsp+48h+var_38] mov rdi, rbx; this mov esi, 131h; int mov rcx, r14 call _ZN8nlohmann16json_abi_v3_11_36detail10type_error6createIPKNS0_10basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES6_IhSaIhEEvEETnNSt9enable_ifIXsr21is_basic_json_contextIT_EE5valueEiE4typeELi0EEES2_iRKSC_SK_ xor ebp, ebp lea rsi, _ZTIN8nlohmann16json_abi_v3_11_36detail10type_errorE; lptinfo lea rdx, _ZN8nlohmann16json_abi_v3_11_36detail9exceptionD2Ev; void (*)(void *) mov rdi, rbx; void * call ___cxa_throw loc_6F1FA: lea rdi, aWorkspaceLlm4b_0; "/workspace/llm4binary/github/2025_star3"... lea rdx, aGgmlAssertSFai; "GGML_ASSERT(%s) failed" lea rcx, aItMDataMValueO; "it != m_data.m_value.object->end()" mov esi, 53CAh xor eax, eax call _ggml_abort mov r14, rax lea rax, [rsp+48h+var_28] mov rdi, [rax-10h]; void * cmp rdi, rax jz short loc_6F239 mov rsi, [rsp+48h+var_28] inc rsi; unsigned __int64 call __ZdlPvm; operator delete(void *,ulong) loc_6F239: test bpl, bpl jnz short loc_6F243 jmp short loc_6F24B mov r14, rax loc_6F243: mov rdi, rbx; void * call ___cxa_free_exception loc_6F24B: mov rdi, r14 call __Unwind_Resume
long long nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::operator[]( long long a1) { void *v1; // rbx char v2; // bp long long v3; // rax nlohmann::json_abi_v3_11_3::detail::exception *exception; // rbx long long v6; // r14 const char *v7; // [rsp+8h] [rbp-40h] BYREF void *v8[2]; // [rsp+10h] [rbp-38h] BYREF long long v9; // [rsp+20h] [rbp-28h] BYREF if ( *(_BYTE *)a1 != 1 ) { exception = (nlohmann::json_abi_v3_11_3::detail::exception *)__cxa_allocate_exception(0x20uLL); v7 = nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::type_name((unsigned __int8 *)a1); nlohmann::json_abi_v3_11_3::detail::concat<std::string,char const(&)[51],char const*>( (long long)v8, (long long)"cannot use operator[] with a string argument with ", &v7); ZN8nlohmann16json_abi_v3_11_36detail10type_error6createIPKNS0_10basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES6_IhSaIhEEvEETnNSt9enable_ifIXsr21is_basic_json_contextIT_EE5valueEiE4typeELi0EEES2_iRKSC_SK_( exception, 305, v8); __cxa_throw( exception, (struct type_info *)&`typeinfo for'nlohmann::json_abi_v3_11_3::detail::type_error, (void (*)(void *))nlohmann::json_abi_v3_11_3::detail::exception::~exception); } v3 = nlohmann::json_abi_v3_11_3::ordered_map<std::string,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>,std::less<void>,std::allocator<std::pair<std::string const,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>>>>::find(*(_QWORD *)(a1 + 8)); if ( v3 == *(_QWORD *)(*(_QWORD *)(a1 + 8) + 8LL) ) { v6 = ggml_abort( "/workspace/llm4binary/github/2025_star3/monkey531[P]llama/common/json.hpp", 21450LL, "GGML_ASSERT(%s) failed", "it != m_data.m_value.object->end()"); if ( v8[0] != &v9 ) operator delete(v8[0], v9 + 1); if ( v2 ) __cxa_free_exception(v1); _Unwind_Resume(v6); } return v3 + 32; }
operator[]: PUSH RBP PUSH R14 PUSH RBX SUB RSP,0x30 MOV R14,RDI CMP byte ptr [RDI],0x1 JNZ 0x0016f19c MOV RDI,qword ptr [R14 + 0x8] CALL 0x0016f254 MOV RCX,qword ptr [R14 + 0x8] CMP RAX,qword ptr [RCX + 0x8] JZ 0x0016f1fa ADD RAX,0x20 ADD RSP,0x30 POP RBX POP R14 POP RBP RET LAB_0016f19c: MOV EDI,0x20 CALL 0x00118360 MOV RBX,RAX MOV RDI,R14 CALL 0x0013deb4 LEA RDX,[RSP + 0x8] MOV qword ptr [RDX],RAX LAB_0016f1b9: LEA RSI,[0x1ac425] LEA RDI,[RSP + 0x10] CALL 0x0016eee3 MOV BPL,0x1 LAB_0016f1cd: LEA RDX,[RSP + 0x10] MOV RDI,RBX MOV ESI,0x131 MOV RCX,R14 CALL 0x0013dc5c XOR EBP,EBP LEA RSI,[0x1db2b8] LEA RDX,[0x14c17a] MOV RDI,RBX CALL 0x00118b30 LAB_0016f1fa: LEA RDI,[0x1a9e07] LEA RDX,[0x1a728c] LEA RCX,[0x1ac458] MOV ESI,0x53ca XOR EAX,EAX CALL 0x00118ad0
/* nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map, std::vector, std::__cxx11::string, bool, long, unsigned long, double, std::allocator, nlohmann::json_abi_v3_11_3::adl_serializer, std::vector<unsigned char, std::allocator<unsigned char> >, void>::operator[](std::__cxx11::string const&) const */ long __thiscall nlohmann::json_abi_v3_11_3:: basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> ::operator[](basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> *this,string *param_1) { long lVar1; int8 uVar2; char *local_40; detail local_38 [32]; if (*this != (basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void> )0x1) { uVar2 = __cxa_allocate_exception(0x20); local_40 = (char *)type_name(this); /* try { // try from 0016f1b9 to 0016f1c9 has its CatchHandler @ 0016f240 */ detail::concat<std::__cxx11::string,char_const(&)[51],char_const*> (local_38,"cannot use operator[] with a string argument with ",&local_40); /* try { // try from 0016f1cd to 0016f1f9 has its CatchHandler @ 0016f21b */ _ZN8nlohmann16json_abi_v3_11_36detail10type_error6createIPKNS0_10basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES6_IhSaIhEEvEETnNSt9enable_ifIXsr21is_basic_json_contextIT_EE5valueEiE4typeELi0EEES2_iRKSC_SK_ (uVar2,0x131,local_38,this); /* WARNING: Subroutine does not return */ __cxa_throw(uVar2,&detail::type_error::typeinfo,detail::exception::~exception); } lVar1 = ordered_map<std::__cxx11::string,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>,std::less<void>,std::allocator<std::pair<std::__cxx11::string_const,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>>>> ::find(*(ordered_map<std::__cxx11::string,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>,std::less<void>,std::allocator<std::pair<std::__cxx11::string_const,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>>>> **)(this + 8),param_1); if (lVar1 != *(long *)(*(long *)(this + 8) + 8)) { return lVar1 + 0x20; } /* WARNING: Subroutine does not return */ ggml_abort("/workspace/llm4binary/github/2025_star3/monkey531[P]llama/common/json.hpp",0x53ca, "GGML_ASSERT(%s) failed","it != m_data.m_value.object->end()"); }