/* +----------------------------------------------------------------------+ | HipHop for PHP | +----------------------------------------------------------------------+ | Copyright (c) 2010- Facebook, Inc. (http://www.facebook.com) | | Copyright (c) 1997-2010 The PHP Group | +----------------------------------------------------------------------+ | This source file is subject to version 3.01 of the PHP license, | | that is bundled with this package in the file LICENSE, and is | | available through the world-wide-web at the following url: | | http://www.php.net/license/3_01.txt | | If you did not receive a copy of the PHP license and are unable to | | obtain it through the world-wide-web, please send a note to | | license@php.net so we can mail you a copy immediately. | +----------------------------------------------------------------------+ */ #include #include #include #include #include #include #include namespace HPHP { /* HPHP::Object HPHP::f_memcache_connect(HPHP::String const&, int, int, int) _ZN4HPHP18f_memcache_connectERKNS_6StringEiii (return value) => rax _rv => rdi host => rsi port => rdx timeout => rcx timeoutms => r8 */ Value* fh_memcache_connect(Value* _rv, Value* host, int port, int timeout, int timeoutms) asm("_ZN4HPHP18f_memcache_connectERKNS_6StringEiii"); TypedValue * fg1_memcache_connect(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_memcache_connect(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfObject; switch (count) { default: // count >= 4 if ((args-3)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-3); } case 3: if ((args-2)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-2); } case 2: if ((args-1)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-1); } case 1: break; } if (!IS_STRING_TYPE((args-0)->m_type)) { tvCastToStringInPlace(args-0); } fh_memcache_connect((&rv->m_data), &args[-0].m_data, (count > 1) ? (int)(args[-1].m_data.num) : (int)(0), (count > 2) ? (int)(args[-2].m_data.num) : (int)(0), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0)); if (rv->m_data.num == 0LL)rv->m_type = KindOfNull; return rv; } TypedValue* fg_memcache_connect(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count >= 1LL && count <= 4LL) { if ((count <= 3 || (args-3)->m_type == KindOfInt64) && (count <= 2 || (args-2)->m_type == KindOfInt64) && (count <= 1 || (args-1)->m_type == KindOfInt64) && IS_STRING_TYPE((args-0)->m_type)) { rv.m_type = KindOfObject; fh_memcache_connect((&rv.m_data), &args[-0].m_data, (count > 1) ? (int)(args[-1].m_data.num) : (int)(0), (count > 2) ? (int)(args[-2].m_data.num) : (int)(0), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0)); if (rv.m_data.num == 0LL) rv.m_type = KindOfNull; frame_free_locals_no_this_inl(ar, 4); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { fg1_memcache_connect(&rv, ar, count); frame_free_locals_no_this_inl(ar, 4); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("memcache_connect", count, 1, 4, 1); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_no_this_inl(ar, 4); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* HPHP::Object HPHP::f_memcache_pconnect(HPHP::String const&, int, int, int) _ZN4HPHP19f_memcache_pconnectERKNS_6StringEiii (return value) => rax _rv => rdi host => rsi port => rdx timeout => rcx timeoutms => r8 */ Value* fh_memcache_pconnect(Value* _rv, Value* host, int port, int timeout, int timeoutms) asm("_ZN4HPHP19f_memcache_pconnectERKNS_6StringEiii"); TypedValue * fg1_memcache_pconnect(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_memcache_pconnect(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfObject; switch (count) { default: // count >= 4 if ((args-3)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-3); } case 3: if ((args-2)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-2); } case 2: if ((args-1)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-1); } case 1: break; } if (!IS_STRING_TYPE((args-0)->m_type)) { tvCastToStringInPlace(args-0); } fh_memcache_pconnect((&rv->m_data), &args[-0].m_data, (count > 1) ? (int)(args[-1].m_data.num) : (int)(0), (count > 2) ? (int)(args[-2].m_data.num) : (int)(0), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0)); if (rv->m_data.num == 0LL)rv->m_type = KindOfNull; return rv; } TypedValue* fg_memcache_pconnect(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count >= 1LL && count <= 4LL) { if ((count <= 3 || (args-3)->m_type == KindOfInt64) && (count <= 2 || (args-2)->m_type == KindOfInt64) && (count <= 1 || (args-1)->m_type == KindOfInt64) && IS_STRING_TYPE((args-0)->m_type)) { rv.m_type = KindOfObject; fh_memcache_pconnect((&rv.m_data), &args[-0].m_data, (count > 1) ? (int)(args[-1].m_data.num) : (int)(0), (count > 2) ? (int)(args[-2].m_data.num) : (int)(0), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0)); if (rv.m_data.num == 0LL) rv.m_type = KindOfNull; frame_free_locals_no_this_inl(ar, 4); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { fg1_memcache_pconnect(&rv, ar, count); frame_free_locals_no_this_inl(ar, 4); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("memcache_pconnect", count, 1, 4, 1); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_no_this_inl(ar, 4); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* bool HPHP::f_memcache_add(HPHP::Object const&, HPHP::String const&, HPHP::Variant const&, int, int) _ZN4HPHP14f_memcache_addERKNS_6ObjectERKNS_6StringERKNS_7VariantEii (return value) => rax memcache => rdi key => rsi var => rdx flag => rcx expire => r8 */ bool fh_memcache_add(Value* memcache, Value* key, TypedValue* var, int flag, int expire) asm("_ZN4HPHP14f_memcache_addERKNS_6ObjectERKNS_6StringERKNS_7VariantEii"); TypedValue * fg1_memcache_add(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_memcache_add(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfBoolean; switch (count) { default: // count >= 5 if ((args-4)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-4); } case 4: if ((args-3)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-3); } case 3: break; } if (!IS_STRING_TYPE((args-1)->m_type)) { tvCastToStringInPlace(args-1); } if ((args-0)->m_type != KindOfObject) { tvCastToObjectInPlace(args-0); } rv->m_data.num = (fh_memcache_add(&args[-0].m_data, &args[-1].m_data, (args-2), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0), (count > 4) ? (int)(args[-4].m_data.num) : (int)(0))) ? 1LL : 0LL; return rv; } TypedValue* fg_memcache_add(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count >= 3LL && count <= 5LL) { if ((count <= 4 || (args-4)->m_type == KindOfInt64) && (count <= 3 || (args-3)->m_type == KindOfInt64) && IS_STRING_TYPE((args-1)->m_type) && (args-0)->m_type == KindOfObject) { rv.m_type = KindOfBoolean; rv.m_data.num = (fh_memcache_add(&args[-0].m_data, &args[-1].m_data, (args-2), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0), (count > 4) ? (int)(args[-4].m_data.num) : (int)(0))) ? 1LL : 0LL; frame_free_locals_no_this_inl(ar, 5); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { fg1_memcache_add(&rv, ar, count); frame_free_locals_no_this_inl(ar, 5); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("memcache_add", count, 3, 5, 1); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_no_this_inl(ar, 5); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* bool HPHP::f_memcache_set(HPHP::Object const&, HPHP::String const&, HPHP::Variant const&, int, int) _ZN4HPHP14f_memcache_setERKNS_6ObjectERKNS_6StringERKNS_7VariantEii (return value) => rax memcache => rdi key => rsi var => rdx flag => rcx expire => r8 */ bool fh_memcache_set(Value* memcache, Value* key, TypedValue* var, int flag, int expire) asm("_ZN4HPHP14f_memcache_setERKNS_6ObjectERKNS_6StringERKNS_7VariantEii"); TypedValue * fg1_memcache_set(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_memcache_set(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfBoolean; switch (count) { default: // count >= 5 if ((args-4)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-4); } case 4: if ((args-3)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-3); } case 3: break; } if (!IS_STRING_TYPE((args-1)->m_type)) { tvCastToStringInPlace(args-1); } if ((args-0)->m_type != KindOfObject) { tvCastToObjectInPlace(args-0); } rv->m_data.num = (fh_memcache_set(&args[-0].m_data, &args[-1].m_data, (args-2), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0), (count > 4) ? (int)(args[-4].m_data.num) : (int)(0))) ? 1LL : 0LL; return rv; } TypedValue* fg_memcache_set(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count >= 3LL && count <= 5LL) { if ((count <= 4 || (args-4)->m_type == KindOfInt64) && (count <= 3 || (args-3)->m_type == KindOfInt64) && IS_STRING_TYPE((args-1)->m_type) && (args-0)->m_type == KindOfObject) { rv.m_type = KindOfBoolean; rv.m_data.num = (fh_memcache_set(&args[-0].m_data, &args[-1].m_data, (args-2), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0), (count > 4) ? (int)(args[-4].m_data.num) : (int)(0))) ? 1LL : 0LL; frame_free_locals_no_this_inl(ar, 5); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { fg1_memcache_set(&rv, ar, count); frame_free_locals_no_this_inl(ar, 5); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("memcache_set", count, 3, 5, 1); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_no_this_inl(ar, 5); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* bool HPHP::f_memcache_replace(HPHP::Object const&, HPHP::String const&, HPHP::Variant const&, int, int) _ZN4HPHP18f_memcache_replaceERKNS_6ObjectERKNS_6StringERKNS_7VariantEii (return value) => rax memcache => rdi key => rsi var => rdx flag => rcx expire => r8 */ bool fh_memcache_replace(Value* memcache, Value* key, TypedValue* var, int flag, int expire) asm("_ZN4HPHP18f_memcache_replaceERKNS_6ObjectERKNS_6StringERKNS_7VariantEii"); TypedValue * fg1_memcache_replace(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_memcache_replace(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfBoolean; switch (count) { default: // count >= 5 if ((args-4)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-4); } case 4: if ((args-3)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-3); } case 3: break; } if (!IS_STRING_TYPE((args-1)->m_type)) { tvCastToStringInPlace(args-1); } if ((args-0)->m_type != KindOfObject) { tvCastToObjectInPlace(args-0); } rv->m_data.num = (fh_memcache_replace(&args[-0].m_data, &args[-1].m_data, (args-2), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0), (count > 4) ? (int)(args[-4].m_data.num) : (int)(0))) ? 1LL : 0LL; return rv; } TypedValue* fg_memcache_replace(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count >= 3LL && count <= 5LL) { if ((count <= 4 || (args-4)->m_type == KindOfInt64) && (count <= 3 || (args-3)->m_type == KindOfInt64) && IS_STRING_TYPE((args-1)->m_type) && (args-0)->m_type == KindOfObject) { rv.m_type = KindOfBoolean; rv.m_data.num = (fh_memcache_replace(&args[-0].m_data, &args[-1].m_data, (args-2), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0), (count > 4) ? (int)(args[-4].m_data.num) : (int)(0))) ? 1LL : 0LL; frame_free_locals_no_this_inl(ar, 5); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { fg1_memcache_replace(&rv, ar, count); frame_free_locals_no_this_inl(ar, 5); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("memcache_replace", count, 3, 5, 1); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_no_this_inl(ar, 5); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* HPHP::Variant HPHP::f_memcache_get(HPHP::Object const&, HPHP::Variant const&, HPHP::VRefParamValue const&) _ZN4HPHP14f_memcache_getERKNS_6ObjectERKNS_7VariantERKNS_14VRefParamValueE (return value) => rax _rv => rdi memcache => rsi key => rdx flags => rcx */ TypedValue* fh_memcache_get(TypedValue* _rv, Value* memcache, TypedValue* key, TypedValue* flags) asm("_ZN4HPHP14f_memcache_getERKNS_6ObjectERKNS_7VariantERKNS_14VRefParamValueE"); TypedValue * fg1_memcache_get(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_memcache_get(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; tvCastToObjectInPlace(args-0); VRefParamValue defVal2 = uninit_null(); fh_memcache_get((rv), &args[-0].m_data, (args-1), (count > 2) ? (args-2) : (TypedValue*)(&defVal2)); if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull; return rv; } TypedValue* fg_memcache_get(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count >= 2LL && count <= 3LL) { if ((args-0)->m_type == KindOfObject) { VRefParamValue defVal2 = uninit_null(); fh_memcache_get((&(rv)), &args[-0].m_data, (args-1), (count > 2) ? (args-2) : (TypedValue*)(&defVal2)); if (rv.m_type == KindOfUninit) rv.m_type = KindOfNull; frame_free_locals_no_this_inl(ar, 3); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { fg1_memcache_get(&rv, ar, count); frame_free_locals_no_this_inl(ar, 3); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("memcache_get", count, 2, 3, 1); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_no_this_inl(ar, 3); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* bool HPHP::f_memcache_delete(HPHP::Object const&, HPHP::String const&, int) _ZN4HPHP17f_memcache_deleteERKNS_6ObjectERKNS_6StringEi (return value) => rax memcache => rdi key => rsi expire => rdx */ bool fh_memcache_delete(Value* memcache, Value* key, int expire) asm("_ZN4HPHP17f_memcache_deleteERKNS_6ObjectERKNS_6StringEi"); TypedValue * fg1_memcache_delete(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_memcache_delete(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfBoolean; switch (count) { default: // count >= 3 if ((args-2)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-2); } case 2: break; } if (!IS_STRING_TYPE((args-1)->m_type)) { tvCastToStringInPlace(args-1); } if ((args-0)->m_type != KindOfObject) { tvCastToObjectInPlace(args-0); } rv->m_data.num = (fh_memcache_delete(&args[-0].m_data, &args[-1].m_data, (count > 2) ? (int)(args[-2].m_data.num) : (int)(0))) ? 1LL : 0LL; return rv; } TypedValue* fg_memcache_delete(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count >= 2LL && count <= 3LL) { if ((count <= 2 || (args-2)->m_type == KindOfInt64) && IS_STRING_TYPE((args-1)->m_type) && (args-0)->m_type == KindOfObject) { rv.m_type = KindOfBoolean; rv.m_data.num = (fh_memcache_delete(&args[-0].m_data, &args[-1].m_data, (count > 2) ? (int)(args[-2].m_data.num) : (int)(0))) ? 1LL : 0LL; frame_free_locals_no_this_inl(ar, 3); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { fg1_memcache_delete(&rv, ar, count); frame_free_locals_no_this_inl(ar, 3); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("memcache_delete", count, 2, 3, 1); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_no_this_inl(ar, 3); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* long HPHP::f_memcache_increment(HPHP::Object const&, HPHP::String const&, int) _ZN4HPHP20f_memcache_incrementERKNS_6ObjectERKNS_6StringEi (return value) => rax memcache => rdi key => rsi offset => rdx */ long fh_memcache_increment(Value* memcache, Value* key, int offset) asm("_ZN4HPHP20f_memcache_incrementERKNS_6ObjectERKNS_6StringEi"); TypedValue * fg1_memcache_increment(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_memcache_increment(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfInt64; switch (count) { default: // count >= 3 if ((args-2)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-2); } case 2: break; } if (!IS_STRING_TYPE((args-1)->m_type)) { tvCastToStringInPlace(args-1); } if ((args-0)->m_type != KindOfObject) { tvCastToObjectInPlace(args-0); } rv->m_data.num = (int64_t)fh_memcache_increment(&args[-0].m_data, &args[-1].m_data, (count > 2) ? (int)(args[-2].m_data.num) : (int)(1)); return rv; } TypedValue* fg_memcache_increment(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count >= 2LL && count <= 3LL) { if ((count <= 2 || (args-2)->m_type == KindOfInt64) && IS_STRING_TYPE((args-1)->m_type) && (args-0)->m_type == KindOfObject) { rv.m_type = KindOfInt64; rv.m_data.num = (int64_t)fh_memcache_increment(&args[-0].m_data, &args[-1].m_data, (count > 2) ? (int)(args[-2].m_data.num) : (int)(1)); frame_free_locals_no_this_inl(ar, 3); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { fg1_memcache_increment(&rv, ar, count); frame_free_locals_no_this_inl(ar, 3); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("memcache_increment", count, 2, 3, 1); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_no_this_inl(ar, 3); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* long HPHP::f_memcache_decrement(HPHP::Object const&, HPHP::String const&, int) _ZN4HPHP20f_memcache_decrementERKNS_6ObjectERKNS_6StringEi (return value) => rax memcache => rdi key => rsi offset => rdx */ long fh_memcache_decrement(Value* memcache, Value* key, int offset) asm("_ZN4HPHP20f_memcache_decrementERKNS_6ObjectERKNS_6StringEi"); TypedValue * fg1_memcache_decrement(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_memcache_decrement(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfInt64; switch (count) { default: // count >= 3 if ((args-2)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-2); } case 2: break; } if (!IS_STRING_TYPE((args-1)->m_type)) { tvCastToStringInPlace(args-1); } if ((args-0)->m_type != KindOfObject) { tvCastToObjectInPlace(args-0); } rv->m_data.num = (int64_t)fh_memcache_decrement(&args[-0].m_data, &args[-1].m_data, (count > 2) ? (int)(args[-2].m_data.num) : (int)(1)); return rv; } TypedValue* fg_memcache_decrement(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count >= 2LL && count <= 3LL) { if ((count <= 2 || (args-2)->m_type == KindOfInt64) && IS_STRING_TYPE((args-1)->m_type) && (args-0)->m_type == KindOfObject) { rv.m_type = KindOfInt64; rv.m_data.num = (int64_t)fh_memcache_decrement(&args[-0].m_data, &args[-1].m_data, (count > 2) ? (int)(args[-2].m_data.num) : (int)(1)); frame_free_locals_no_this_inl(ar, 3); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { fg1_memcache_decrement(&rv, ar, count); frame_free_locals_no_this_inl(ar, 3); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("memcache_decrement", count, 2, 3, 1); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_no_this_inl(ar, 3); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* bool HPHP::f_memcache_close(HPHP::Object const&) _ZN4HPHP16f_memcache_closeERKNS_6ObjectE (return value) => rax memcache => rdi */ bool fh_memcache_close(Value* memcache) asm("_ZN4HPHP16f_memcache_closeERKNS_6ObjectE"); TypedValue * fg1_memcache_close(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_memcache_close(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfBoolean; tvCastToObjectInPlace(args-0); rv->m_data.num = (fh_memcache_close(&args[-0].m_data)) ? 1LL : 0LL; return rv; } TypedValue* fg_memcache_close(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count == 1LL) { if ((args-0)->m_type == KindOfObject) { rv.m_type = KindOfBoolean; rv.m_data.num = (fh_memcache_close(&args[-0].m_data)) ? 1LL : 0LL; frame_free_locals_no_this_inl(ar, 1); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { fg1_memcache_close(&rv, ar, count); frame_free_locals_no_this_inl(ar, 1); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("memcache_close", count, 1, 1, 1); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_no_this_inl(ar, 1); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* bool HPHP::f_memcache_debug(bool) _ZN4HPHP16f_memcache_debugEb (return value) => rax onoff => rdi */ bool fh_memcache_debug(bool onoff) asm("_ZN4HPHP16f_memcache_debugEb"); TypedValue * fg1_memcache_debug(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_memcache_debug(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfBoolean; tvCastToBooleanInPlace(args-0); rv->m_data.num = (fh_memcache_debug((bool)(args[-0].m_data.num))) ? 1LL : 0LL; return rv; } TypedValue* fg_memcache_debug(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count == 1LL) { if ((args-0)->m_type == KindOfBoolean) { rv.m_type = KindOfBoolean; rv.m_data.num = (fh_memcache_debug((bool)(args[-0].m_data.num))) ? 1LL : 0LL; frame_free_locals_no_this_inl(ar, 1); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { fg1_memcache_debug(&rv, ar, count); frame_free_locals_no_this_inl(ar, 1); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("memcache_debug", count, 1, 1, 1); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_no_this_inl(ar, 1); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* HPHP::Variant HPHP::f_memcache_get_version(HPHP::Object const&) _ZN4HPHP22f_memcache_get_versionERKNS_6ObjectE (return value) => rax _rv => rdi memcache => rsi */ TypedValue* fh_memcache_get_version(TypedValue* _rv, Value* memcache) asm("_ZN4HPHP22f_memcache_get_versionERKNS_6ObjectE"); TypedValue * fg1_memcache_get_version(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_memcache_get_version(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; tvCastToObjectInPlace(args-0); fh_memcache_get_version((rv), &args[-0].m_data); if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull; return rv; } TypedValue* fg_memcache_get_version(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count == 1LL) { if ((args-0)->m_type == KindOfObject) { fh_memcache_get_version((&(rv)), &args[-0].m_data); if (rv.m_type == KindOfUninit) rv.m_type = KindOfNull; frame_free_locals_no_this_inl(ar, 1); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { fg1_memcache_get_version(&rv, ar, count); frame_free_locals_no_this_inl(ar, 1); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("memcache_get_version", count, 1, 1, 1); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_no_this_inl(ar, 1); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* bool HPHP::f_memcache_flush(HPHP::Object const&, int) _ZN4HPHP16f_memcache_flushERKNS_6ObjectEi (return value) => rax memcache => rdi timestamp => rsi */ bool fh_memcache_flush(Value* memcache, int timestamp) asm("_ZN4HPHP16f_memcache_flushERKNS_6ObjectEi"); TypedValue * fg1_memcache_flush(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_memcache_flush(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfBoolean; switch (count) { default: // count >= 2 if ((args-1)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-1); } case 1: break; } if ((args-0)->m_type != KindOfObject) { tvCastToObjectInPlace(args-0); } rv->m_data.num = (fh_memcache_flush(&args[-0].m_data, (count > 1) ? (int)(args[-1].m_data.num) : (int)(0))) ? 1LL : 0LL; return rv; } TypedValue* fg_memcache_flush(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count >= 1LL && count <= 2LL) { if ((count <= 1 || (args-1)->m_type == KindOfInt64) && (args-0)->m_type == KindOfObject) { rv.m_type = KindOfBoolean; rv.m_data.num = (fh_memcache_flush(&args[-0].m_data, (count > 1) ? (int)(args[-1].m_data.num) : (int)(0))) ? 1LL : 0LL; frame_free_locals_no_this_inl(ar, 2); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { fg1_memcache_flush(&rv, ar, count); frame_free_locals_no_this_inl(ar, 2); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("memcache_flush", count, 1, 2, 1); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_no_this_inl(ar, 2); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* bool HPHP::f_memcache_setoptimeout(HPHP::Object const&, int) _ZN4HPHP23f_memcache_setoptimeoutERKNS_6ObjectEi (return value) => rax memcache => rdi timeoutms => rsi */ bool fh_memcache_setoptimeout(Value* memcache, int timeoutms) asm("_ZN4HPHP23f_memcache_setoptimeoutERKNS_6ObjectEi"); TypedValue * fg1_memcache_setoptimeout(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_memcache_setoptimeout(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfBoolean; if ((args-1)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-1); } if ((args-0)->m_type != KindOfObject) { tvCastToObjectInPlace(args-0); } rv->m_data.num = (fh_memcache_setoptimeout(&args[-0].m_data, (int)(args[-1].m_data.num))) ? 1LL : 0LL; return rv; } TypedValue* fg_memcache_setoptimeout(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count == 2LL) { if ((args-1)->m_type == KindOfInt64 && (args-0)->m_type == KindOfObject) { rv.m_type = KindOfBoolean; rv.m_data.num = (fh_memcache_setoptimeout(&args[-0].m_data, (int)(args[-1].m_data.num))) ? 1LL : 0LL; frame_free_locals_no_this_inl(ar, 2); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { fg1_memcache_setoptimeout(&rv, ar, count); frame_free_locals_no_this_inl(ar, 2); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("memcache_setoptimeout", count, 2, 2, 1); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_no_this_inl(ar, 2); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* long HPHP::f_memcache_get_server_status(HPHP::Object const&, HPHP::String const&, int) _ZN4HPHP28f_memcache_get_server_statusERKNS_6ObjectERKNS_6StringEi (return value) => rax memcache => rdi host => rsi port => rdx */ long fh_memcache_get_server_status(Value* memcache, Value* host, int port) asm("_ZN4HPHP28f_memcache_get_server_statusERKNS_6ObjectERKNS_6StringEi"); TypedValue * fg1_memcache_get_server_status(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_memcache_get_server_status(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfInt64; switch (count) { default: // count >= 3 if ((args-2)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-2); } case 2: break; } if (!IS_STRING_TYPE((args-1)->m_type)) { tvCastToStringInPlace(args-1); } if ((args-0)->m_type != KindOfObject) { tvCastToObjectInPlace(args-0); } rv->m_data.num = (int64_t)fh_memcache_get_server_status(&args[-0].m_data, &args[-1].m_data, (count > 2) ? (int)(args[-2].m_data.num) : (int)(0)); return rv; } TypedValue* fg_memcache_get_server_status(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count >= 2LL && count <= 3LL) { if ((count <= 2 || (args-2)->m_type == KindOfInt64) && IS_STRING_TYPE((args-1)->m_type) && (args-0)->m_type == KindOfObject) { rv.m_type = KindOfInt64; rv.m_data.num = (int64_t)fh_memcache_get_server_status(&args[-0].m_data, &args[-1].m_data, (count > 2) ? (int)(args[-2].m_data.num) : (int)(0)); frame_free_locals_no_this_inl(ar, 3); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { fg1_memcache_get_server_status(&rv, ar, count); frame_free_locals_no_this_inl(ar, 3); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("memcache_get_server_status", count, 2, 3, 1); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_no_this_inl(ar, 3); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* bool HPHP::f_memcache_set_compress_threshold(HPHP::Object const&, int, double) _ZN4HPHP33f_memcache_set_compress_thresholdERKNS_6ObjectEid (return value) => rax memcache => rdi threshold => rsi min_savings => xmm0 */ bool fh_memcache_set_compress_threshold(Value* memcache, int threshold, double min_savings) asm("_ZN4HPHP33f_memcache_set_compress_thresholdERKNS_6ObjectEid"); TypedValue * fg1_memcache_set_compress_threshold(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_memcache_set_compress_threshold(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfBoolean; switch (count) { default: // count >= 3 if ((args-2)->m_type != KindOfDouble) { tvCastToDoubleInPlace(args-2); } case 2: break; } if ((args-1)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-1); } if ((args-0)->m_type != KindOfObject) { tvCastToObjectInPlace(args-0); } rv->m_data.num = (fh_memcache_set_compress_threshold(&args[-0].m_data, (int)(args[-1].m_data.num), (count > 2) ? (args[-2].m_data.dbl) : (double)(0.2))) ? 1LL : 0LL; return rv; } TypedValue* fg_memcache_set_compress_threshold(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count >= 2LL && count <= 3LL) { if ((count <= 2 || (args-2)->m_type == KindOfDouble) && (args-1)->m_type == KindOfInt64 && (args-0)->m_type == KindOfObject) { rv.m_type = KindOfBoolean; rv.m_data.num = (fh_memcache_set_compress_threshold(&args[-0].m_data, (int)(args[-1].m_data.num), (count > 2) ? (args[-2].m_data.dbl) : (double)(0.2))) ? 1LL : 0LL; frame_free_locals_no_this_inl(ar, 3); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { fg1_memcache_set_compress_threshold(&rv, ar, count); frame_free_locals_no_this_inl(ar, 3); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("memcache_set_compress_threshold", count, 2, 3, 1); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_no_this_inl(ar, 3); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* HPHP::Array HPHP::f_memcache_get_stats(HPHP::Object const&, HPHP::String const&, int, int) _ZN4HPHP20f_memcache_get_statsERKNS_6ObjectERKNS_6StringEii (return value) => rax _rv => rdi memcache => rsi type => rdx slabid => rcx limit => r8 */ Value* fh_memcache_get_stats(Value* _rv, Value* memcache, Value* type, int slabid, int limit) asm("_ZN4HPHP20f_memcache_get_statsERKNS_6ObjectERKNS_6StringEii"); TypedValue * fg1_memcache_get_stats(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_memcache_get_stats(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfArray; switch (count) { default: // count >= 4 if ((args-3)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-3); } case 3: if ((args-2)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-2); } case 2: if (!IS_STRING_TYPE((args-1)->m_type)) { tvCastToStringInPlace(args-1); } case 1: break; } if ((args-0)->m_type != KindOfObject) { tvCastToObjectInPlace(args-0); } fh_memcache_get_stats((&rv->m_data), &args[-0].m_data, (count > 1) ? &args[-1].m_data : (Value*)(&null_string), (count > 2) ? (int)(args[-2].m_data.num) : (int)(0), (count > 3) ? (int)(args[-3].m_data.num) : (int)(100)); if (rv->m_data.num == 0LL) rv->m_type = KindOfNull; return rv; } TypedValue* fg_memcache_get_stats(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count >= 1LL && count <= 4LL) { if ((count <= 3 || (args-3)->m_type == KindOfInt64) && (count <= 2 || (args-2)->m_type == KindOfInt64) && (count <= 1 || IS_STRING_TYPE((args-1)->m_type)) && (args-0)->m_type == KindOfObject) { rv.m_type = KindOfArray; fh_memcache_get_stats((&rv.m_data), &args[-0].m_data, (count > 1) ? &args[-1].m_data : (Value*)(&null_string), (count > 2) ? (int)(args[-2].m_data.num) : (int)(0), (count > 3) ? (int)(args[-3].m_data.num) : (int)(100)); if (rv.m_data.num == 0LL) rv.m_type = KindOfNull; frame_free_locals_no_this_inl(ar, 4); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { fg1_memcache_get_stats(&rv, ar, count); frame_free_locals_no_this_inl(ar, 4); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("memcache_get_stats", count, 1, 4, 1); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_no_this_inl(ar, 4); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* HPHP::Array HPHP::f_memcache_get_extended_stats(HPHP::Object const&, HPHP::String const&, int, int) _ZN4HPHP29f_memcache_get_extended_statsERKNS_6ObjectERKNS_6StringEii (return value) => rax _rv => rdi memcache => rsi type => rdx slabid => rcx limit => r8 */ Value* fh_memcache_get_extended_stats(Value* _rv, Value* memcache, Value* type, int slabid, int limit) asm("_ZN4HPHP29f_memcache_get_extended_statsERKNS_6ObjectERKNS_6StringEii"); TypedValue * fg1_memcache_get_extended_stats(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_memcache_get_extended_stats(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfArray; switch (count) { default: // count >= 4 if ((args-3)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-3); } case 3: if ((args-2)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-2); } case 2: if (!IS_STRING_TYPE((args-1)->m_type)) { tvCastToStringInPlace(args-1); } case 1: break; } if ((args-0)->m_type != KindOfObject) { tvCastToObjectInPlace(args-0); } fh_memcache_get_extended_stats((&rv->m_data), &args[-0].m_data, (count > 1) ? &args[-1].m_data : (Value*)(&null_string), (count > 2) ? (int)(args[-2].m_data.num) : (int)(0), (count > 3) ? (int)(args[-3].m_data.num) : (int)(100)); if (rv->m_data.num == 0LL) rv->m_type = KindOfNull; return rv; } TypedValue* fg_memcache_get_extended_stats(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count >= 1LL && count <= 4LL) { if ((count <= 3 || (args-3)->m_type == KindOfInt64) && (count <= 2 || (args-2)->m_type == KindOfInt64) && (count <= 1 || IS_STRING_TYPE((args-1)->m_type)) && (args-0)->m_type == KindOfObject) { rv.m_type = KindOfArray; fh_memcache_get_extended_stats((&rv.m_data), &args[-0].m_data, (count > 1) ? &args[-1].m_data : (Value*)(&null_string), (count > 2) ? (int)(args[-2].m_data.num) : (int)(0), (count > 3) ? (int)(args[-3].m_data.num) : (int)(100)); if (rv.m_data.num == 0LL) rv.m_type = KindOfNull; frame_free_locals_no_this_inl(ar, 4); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { fg1_memcache_get_extended_stats(&rv, ar, count); frame_free_locals_no_this_inl(ar, 4); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("memcache_get_extended_stats", count, 1, 4, 1); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_no_this_inl(ar, 4); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* bool HPHP::f_memcache_set_server_params(HPHP::Object const&, HPHP::String const&, int, int, int, bool, HPHP::Variant const&) _ZN4HPHP28f_memcache_set_server_paramsERKNS_6ObjectERKNS_6StringEiiibRKNS_7VariantE (return value) => rax memcache => rdi host => rsi port => rdx timeout => rcx retry_interval => r8 status => r9 failure_callback => st0 */ bool fh_memcache_set_server_params(Value* memcache, Value* host, int port, int timeout, int retry_interval, bool status, TypedValue* failure_callback) asm("_ZN4HPHP28f_memcache_set_server_paramsERKNS_6ObjectERKNS_6StringEiiibRKNS_7VariantE"); TypedValue * fg1_memcache_set_server_params(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_memcache_set_server_params(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfBoolean; switch (count) { default: // count >= 7 case 6: if ((args-5)->m_type != KindOfBoolean) { tvCastToBooleanInPlace(args-5); } case 5: if ((args-4)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-4); } case 4: if ((args-3)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-3); } case 3: if ((args-2)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-2); } case 2: break; } if (!IS_STRING_TYPE((args-1)->m_type)) { tvCastToStringInPlace(args-1); } if ((args-0)->m_type != KindOfObject) { tvCastToObjectInPlace(args-0); } rv->m_data.num = (fh_memcache_set_server_params(&args[-0].m_data, &args[-1].m_data, (count > 2) ? (int)(args[-2].m_data.num) : (int)(11211), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0), (count > 4) ? (int)(args[-4].m_data.num) : (int)(0), (count > 5) ? (bool)(args[-5].m_data.num) : (bool)(true), (count > 6) ? (args-6) : (TypedValue*)(&null_variant))) ? 1LL : 0LL; return rv; } TypedValue* fg_memcache_set_server_params(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count >= 2LL && count <= 7LL) { if ((count <= 5 || (args-5)->m_type == KindOfBoolean) && (count <= 4 || (args-4)->m_type == KindOfInt64) && (count <= 3 || (args-3)->m_type == KindOfInt64) && (count <= 2 || (args-2)->m_type == KindOfInt64) && IS_STRING_TYPE((args-1)->m_type) && (args-0)->m_type == KindOfObject) { rv.m_type = KindOfBoolean; rv.m_data.num = (fh_memcache_set_server_params(&args[-0].m_data, &args[-1].m_data, (count > 2) ? (int)(args[-2].m_data.num) : (int)(11211), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0), (count > 4) ? (int)(args[-4].m_data.num) : (int)(0), (count > 5) ? (bool)(args[-5].m_data.num) : (bool)(true), (count > 6) ? (args-6) : (TypedValue*)(&null_variant))) ? 1LL : 0LL; frame_free_locals_no_this_inl(ar, 7); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { fg1_memcache_set_server_params(&rv, ar, count); frame_free_locals_no_this_inl(ar, 7); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("memcache_set_server_params", count, 2, 7, 1); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_no_this_inl(ar, 7); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* bool HPHP::f_memcache_add_server(HPHP::Object const&, HPHP::String const&, int, bool, int, int, int, bool, HPHP::Variant const&, int) _ZN4HPHP21f_memcache_add_serverERKNS_6ObjectERKNS_6StringEibiiibRKNS_7VariantEi (return value) => rax memcache => rdi host => rsi port => rdx persistent => rcx weight => r8 timeout => r9 retry_interval => st0 status => st8 failure_callback => st16 timeoutms => st24 */ bool fh_memcache_add_server(Value* memcache, Value* host, int port, bool persistent, int weight, int timeout, int retry_interval, bool status, TypedValue* failure_callback, int timeoutms) asm("_ZN4HPHP21f_memcache_add_serverERKNS_6ObjectERKNS_6StringEibiiibRKNS_7VariantEi"); TypedValue * fg1_memcache_add_server(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_memcache_add_server(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfBoolean; switch (count) { default: // count >= 10 if ((args-9)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-9); } case 9: case 8: if ((args-7)->m_type != KindOfBoolean) { tvCastToBooleanInPlace(args-7); } case 7: if ((args-6)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-6); } case 6: if ((args-5)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-5); } case 5: if ((args-4)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-4); } case 4: if ((args-3)->m_type != KindOfBoolean) { tvCastToBooleanInPlace(args-3); } case 3: if ((args-2)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-2); } case 2: break; } if (!IS_STRING_TYPE((args-1)->m_type)) { tvCastToStringInPlace(args-1); } if ((args-0)->m_type != KindOfObject) { tvCastToObjectInPlace(args-0); } rv->m_data.num = (fh_memcache_add_server(&args[-0].m_data, &args[-1].m_data, (count > 2) ? (int)(args[-2].m_data.num) : (int)(11211), (count > 3) ? (bool)(args[-3].m_data.num) : (bool)(false), (count > 4) ? (int)(args[-4].m_data.num) : (int)(0), (count > 5) ? (int)(args[-5].m_data.num) : (int)(0), (count > 6) ? (int)(args[-6].m_data.num) : (int)(0), (count > 7) ? (bool)(args[-7].m_data.num) : (bool)(true), (count > 8) ? (args-8) : (TypedValue*)(&null_variant), (count > 9) ? (int)(args[-9].m_data.num) : (int)(0))) ? 1LL : 0LL; return rv; } TypedValue* fg_memcache_add_server(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count >= 2LL && count <= 10LL) { if ((count <= 9 || (args-9)->m_type == KindOfInt64) && (count <= 7 || (args-7)->m_type == KindOfBoolean) && (count <= 6 || (args-6)->m_type == KindOfInt64) && (count <= 5 || (args-5)->m_type == KindOfInt64) && (count <= 4 || (args-4)->m_type == KindOfInt64) && (count <= 3 || (args-3)->m_type == KindOfBoolean) && (count <= 2 || (args-2)->m_type == KindOfInt64) && IS_STRING_TYPE((args-1)->m_type) && (args-0)->m_type == KindOfObject) { rv.m_type = KindOfBoolean; rv.m_data.num = (fh_memcache_add_server(&args[-0].m_data, &args[-1].m_data, (count > 2) ? (int)(args[-2].m_data.num) : (int)(11211), (count > 3) ? (bool)(args[-3].m_data.num) : (bool)(false), (count > 4) ? (int)(args[-4].m_data.num) : (int)(0), (count > 5) ? (int)(args[-5].m_data.num) : (int)(0), (count > 6) ? (int)(args[-6].m_data.num) : (int)(0), (count > 7) ? (bool)(args[-7].m_data.num) : (bool)(true), (count > 8) ? (args-8) : (TypedValue*)(&null_variant), (count > 9) ? (int)(args[-9].m_data.num) : (int)(0))) ? 1LL : 0LL; frame_free_locals_no_this_inl(ar, 10); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { fg1_memcache_add_server(&rv, ar, count); frame_free_locals_no_this_inl(ar, 10); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("memcache_add_server", count, 2, 10, 1); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_no_this_inl(ar, 10); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } HPHP::VM::Instance* new_Memcache_Instance(HPHP::VM::Class* cls) { size_t nProps = cls->numDeclProperties(); size_t builtinPropSize = sizeof(c_Memcache) - sizeof(ObjectData); size_t size = HPHP::VM::Instance::sizeForNProps(nProps) + builtinPropSize; HPHP::VM::Instance *inst = (HPHP::VM::Instance*)ALLOCOBJSZ(size); new ((void *)inst) c_Memcache(cls); return inst; } IMPLEMENT_CLASS(Memcache); /* void HPHP::c_Memcache::t___construct() _ZN4HPHP10c_Memcache13t___constructEv this_ => rdi */ void th_8Memcache___construct(ObjectData* this_) asm("_ZN4HPHP10c_Memcache13t___constructEv"); TypedValue* tg_8Memcache___construct(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; ObjectData* this_ = (ar->hasThis() ? ar->getThis() : NULL); if (this_) { if (count == 0LL) { rv.m_data.num = 0LL; rv.m_type = KindOfNull; th_8Memcache___construct((this_)); frame_free_locals_inl(ar, 0); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { throw_toomany_arguments_nr("Memcache::__construct", 0, 1); } } else { throw_instance_method_fatal("Memcache::__construct"); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_inl(ar, 0); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* bool HPHP::c_Memcache::t_connect(HPHP::String const&, int, int, int) _ZN4HPHP10c_Memcache9t_connectERKNS_6StringEiii (return value) => rax this_ => rdi host => rsi port => rdx timeout => rcx timeoutms => r8 */ bool th_8Memcache_connect(ObjectData* this_, Value* host, int port, int timeout, int timeoutms) asm("_ZN4HPHP10c_Memcache9t_connectERKNS_6StringEiii"); TypedValue* tg1_8Memcache_connect(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) __attribute__((noinline,cold)); TypedValue* tg1_8Memcache_connect(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfBoolean; switch (count) { default: // count >= 4 if ((args-3)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-3); } case 3: if ((args-2)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-2); } case 2: if ((args-1)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-1); } case 1: break; } if (!IS_STRING_TYPE((args-0)->m_type)) { tvCastToStringInPlace(args-0); } rv->m_data.num = (th_8Memcache_connect((this_), &args[-0].m_data, (count > 1) ? (int)(args[-1].m_data.num) : (int)(0), (count > 2) ? (int)(args[-2].m_data.num) : (int)(0), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0))) ? 1LL : 0LL; return rv; } TypedValue* tg_8Memcache_connect(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; ObjectData* this_ = (ar->hasThis() ? ar->getThis() : NULL); if (this_) { if (count >= 1LL && count <= 4LL) { if ((count <= 3 || (args-3)->m_type == KindOfInt64) && (count <= 2 || (args-2)->m_type == KindOfInt64) && (count <= 1 || (args-1)->m_type == KindOfInt64) && IS_STRING_TYPE((args-0)->m_type)) { rv.m_type = KindOfBoolean; rv.m_data.num = (th_8Memcache_connect((this_), &args[-0].m_data, (count > 1) ? (int)(args[-1].m_data.num) : (int)(0), (count > 2) ? (int)(args[-2].m_data.num) : (int)(0), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0))) ? 1LL : 0LL; frame_free_locals_inl(ar, 4); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { tg1_8Memcache_connect(&rv, ar, count , this_); frame_free_locals_inl(ar, 4); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("Memcache::connect", count, 1, 4, 1); } } else { throw_instance_method_fatal("Memcache::connect"); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_inl(ar, 4); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* bool HPHP::c_Memcache::t_pconnect(HPHP::String const&, int, int, int) _ZN4HPHP10c_Memcache10t_pconnectERKNS_6StringEiii (return value) => rax this_ => rdi host => rsi port => rdx timeout => rcx timeoutms => r8 */ bool th_8Memcache_pconnect(ObjectData* this_, Value* host, int port, int timeout, int timeoutms) asm("_ZN4HPHP10c_Memcache10t_pconnectERKNS_6StringEiii"); TypedValue* tg1_8Memcache_pconnect(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) __attribute__((noinline,cold)); TypedValue* tg1_8Memcache_pconnect(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfBoolean; switch (count) { default: // count >= 4 if ((args-3)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-3); } case 3: if ((args-2)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-2); } case 2: if ((args-1)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-1); } case 1: break; } if (!IS_STRING_TYPE((args-0)->m_type)) { tvCastToStringInPlace(args-0); } rv->m_data.num = (th_8Memcache_pconnect((this_), &args[-0].m_data, (count > 1) ? (int)(args[-1].m_data.num) : (int)(0), (count > 2) ? (int)(args[-2].m_data.num) : (int)(0), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0))) ? 1LL : 0LL; return rv; } TypedValue* tg_8Memcache_pconnect(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; ObjectData* this_ = (ar->hasThis() ? ar->getThis() : NULL); if (this_) { if (count >= 1LL && count <= 4LL) { if ((count <= 3 || (args-3)->m_type == KindOfInt64) && (count <= 2 || (args-2)->m_type == KindOfInt64) && (count <= 1 || (args-1)->m_type == KindOfInt64) && IS_STRING_TYPE((args-0)->m_type)) { rv.m_type = KindOfBoolean; rv.m_data.num = (th_8Memcache_pconnect((this_), &args[-0].m_data, (count > 1) ? (int)(args[-1].m_data.num) : (int)(0), (count > 2) ? (int)(args[-2].m_data.num) : (int)(0), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0))) ? 1LL : 0LL; frame_free_locals_inl(ar, 4); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { tg1_8Memcache_pconnect(&rv, ar, count , this_); frame_free_locals_inl(ar, 4); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("Memcache::pconnect", count, 1, 4, 1); } } else { throw_instance_method_fatal("Memcache::pconnect"); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_inl(ar, 4); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* bool HPHP::c_Memcache::t_add(HPHP::String const&, HPHP::Variant const&, int, int) _ZN4HPHP10c_Memcache5t_addERKNS_6StringERKNS_7VariantEii (return value) => rax this_ => rdi key => rsi var => rdx flag => rcx expire => r8 */ bool th_8Memcache_add(ObjectData* this_, Value* key, TypedValue* var, int flag, int expire) asm("_ZN4HPHP10c_Memcache5t_addERKNS_6StringERKNS_7VariantEii"); TypedValue* tg1_8Memcache_add(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) __attribute__((noinline,cold)); TypedValue* tg1_8Memcache_add(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfBoolean; switch (count) { default: // count >= 4 if ((args-3)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-3); } case 3: if ((args-2)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-2); } case 2: break; } if (!IS_STRING_TYPE((args-0)->m_type)) { tvCastToStringInPlace(args-0); } rv->m_data.num = (th_8Memcache_add((this_), &args[-0].m_data, (args-1), (count > 2) ? (int)(args[-2].m_data.num) : (int)(0), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0))) ? 1LL : 0LL; return rv; } TypedValue* tg_8Memcache_add(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; ObjectData* this_ = (ar->hasThis() ? ar->getThis() : NULL); if (this_) { if (count >= 2LL && count <= 4LL) { if ((count <= 3 || (args-3)->m_type == KindOfInt64) && (count <= 2 || (args-2)->m_type == KindOfInt64) && IS_STRING_TYPE((args-0)->m_type)) { rv.m_type = KindOfBoolean; rv.m_data.num = (th_8Memcache_add((this_), &args[-0].m_data, (args-1), (count > 2) ? (int)(args[-2].m_data.num) : (int)(0), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0))) ? 1LL : 0LL; frame_free_locals_inl(ar, 4); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { tg1_8Memcache_add(&rv, ar, count , this_); frame_free_locals_inl(ar, 4); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("Memcache::add", count, 2, 4, 1); } } else { throw_instance_method_fatal("Memcache::add"); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_inl(ar, 4); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* bool HPHP::c_Memcache::t_set(HPHP::String const&, HPHP::Variant const&, int, int) _ZN4HPHP10c_Memcache5t_setERKNS_6StringERKNS_7VariantEii (return value) => rax this_ => rdi key => rsi var => rdx flag => rcx expire => r8 */ bool th_8Memcache_set(ObjectData* this_, Value* key, TypedValue* var, int flag, int expire) asm("_ZN4HPHP10c_Memcache5t_setERKNS_6StringERKNS_7VariantEii"); TypedValue* tg1_8Memcache_set(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) __attribute__((noinline,cold)); TypedValue* tg1_8Memcache_set(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfBoolean; switch (count) { default: // count >= 4 if ((args-3)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-3); } case 3: if ((args-2)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-2); } case 2: break; } if (!IS_STRING_TYPE((args-0)->m_type)) { tvCastToStringInPlace(args-0); } rv->m_data.num = (th_8Memcache_set((this_), &args[-0].m_data, (args-1), (count > 2) ? (int)(args[-2].m_data.num) : (int)(0), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0))) ? 1LL : 0LL; return rv; } TypedValue* tg_8Memcache_set(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; ObjectData* this_ = (ar->hasThis() ? ar->getThis() : NULL); if (this_) { if (count >= 2LL && count <= 4LL) { if ((count <= 3 || (args-3)->m_type == KindOfInt64) && (count <= 2 || (args-2)->m_type == KindOfInt64) && IS_STRING_TYPE((args-0)->m_type)) { rv.m_type = KindOfBoolean; rv.m_data.num = (th_8Memcache_set((this_), &args[-0].m_data, (args-1), (count > 2) ? (int)(args[-2].m_data.num) : (int)(0), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0))) ? 1LL : 0LL; frame_free_locals_inl(ar, 4); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { tg1_8Memcache_set(&rv, ar, count , this_); frame_free_locals_inl(ar, 4); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("Memcache::set", count, 2, 4, 1); } } else { throw_instance_method_fatal("Memcache::set"); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_inl(ar, 4); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* bool HPHP::c_Memcache::t_replace(HPHP::String const&, HPHP::Variant const&, int, int) _ZN4HPHP10c_Memcache9t_replaceERKNS_6StringERKNS_7VariantEii (return value) => rax this_ => rdi key => rsi var => rdx flag => rcx expire => r8 */ bool th_8Memcache_replace(ObjectData* this_, Value* key, TypedValue* var, int flag, int expire) asm("_ZN4HPHP10c_Memcache9t_replaceERKNS_6StringERKNS_7VariantEii"); TypedValue* tg1_8Memcache_replace(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) __attribute__((noinline,cold)); TypedValue* tg1_8Memcache_replace(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfBoolean; switch (count) { default: // count >= 4 if ((args-3)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-3); } case 3: if ((args-2)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-2); } case 2: break; } if (!IS_STRING_TYPE((args-0)->m_type)) { tvCastToStringInPlace(args-0); } rv->m_data.num = (th_8Memcache_replace((this_), &args[-0].m_data, (args-1), (count > 2) ? (int)(args[-2].m_data.num) : (int)(0), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0))) ? 1LL : 0LL; return rv; } TypedValue* tg_8Memcache_replace(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; ObjectData* this_ = (ar->hasThis() ? ar->getThis() : NULL); if (this_) { if (count >= 2LL && count <= 4LL) { if ((count <= 3 || (args-3)->m_type == KindOfInt64) && (count <= 2 || (args-2)->m_type == KindOfInt64) && IS_STRING_TYPE((args-0)->m_type)) { rv.m_type = KindOfBoolean; rv.m_data.num = (th_8Memcache_replace((this_), &args[-0].m_data, (args-1), (count > 2) ? (int)(args[-2].m_data.num) : (int)(0), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0))) ? 1LL : 0LL; frame_free_locals_inl(ar, 4); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { tg1_8Memcache_replace(&rv, ar, count , this_); frame_free_locals_inl(ar, 4); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("Memcache::replace", count, 2, 4, 1); } } else { throw_instance_method_fatal("Memcache::replace"); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_inl(ar, 4); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* HPHP::Variant HPHP::c_Memcache::t_get(HPHP::Variant const&, HPHP::VRefParamValue const&) _ZN4HPHP10c_Memcache5t_getERKNS_7VariantERKNS_14VRefParamValueE (return value) => rax _rv => rdi this_ => rsi key => rdx flags => rcx */ TypedValue* th_8Memcache_get(TypedValue* _rv, ObjectData* this_, TypedValue* key, TypedValue* flags) asm("_ZN4HPHP10c_Memcache5t_getERKNS_7VariantERKNS_14VRefParamValueE"); TypedValue* tg_8Memcache_get(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; ObjectData* this_ = (ar->hasThis() ? ar->getThis() : NULL); if (this_) { if (count >= 1LL && count <= 2LL) { VRefParamValue defVal1 = uninit_null(); th_8Memcache_get((&(rv)), (this_), (args-0), (count > 1) ? (args-1) : (TypedValue*)(&defVal1)); if (rv.m_type == KindOfUninit) rv.m_type = KindOfNull; frame_free_locals_inl(ar, 2); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { throw_wrong_arguments_nr("Memcache::get", count, 1, 2, 1); } } else { throw_instance_method_fatal("Memcache::get"); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_inl(ar, 2); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* bool HPHP::c_Memcache::t_delete(HPHP::String const&, int) _ZN4HPHP10c_Memcache8t_deleteERKNS_6StringEi (return value) => rax this_ => rdi key => rsi expire => rdx */ bool th_8Memcache_delete(ObjectData* this_, Value* key, int expire) asm("_ZN4HPHP10c_Memcache8t_deleteERKNS_6StringEi"); TypedValue* tg1_8Memcache_delete(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) __attribute__((noinline,cold)); TypedValue* tg1_8Memcache_delete(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfBoolean; switch (count) { default: // count >= 2 if ((args-1)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-1); } case 1: break; } if (!IS_STRING_TYPE((args-0)->m_type)) { tvCastToStringInPlace(args-0); } rv->m_data.num = (th_8Memcache_delete((this_), &args[-0].m_data, (count > 1) ? (int)(args[-1].m_data.num) : (int)(0))) ? 1LL : 0LL; return rv; } TypedValue* tg_8Memcache_delete(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; ObjectData* this_ = (ar->hasThis() ? ar->getThis() : NULL); if (this_) { if (count >= 1LL && count <= 2LL) { if ((count <= 1 || (args-1)->m_type == KindOfInt64) && IS_STRING_TYPE((args-0)->m_type)) { rv.m_type = KindOfBoolean; rv.m_data.num = (th_8Memcache_delete((this_), &args[-0].m_data, (count > 1) ? (int)(args[-1].m_data.num) : (int)(0))) ? 1LL : 0LL; frame_free_locals_inl(ar, 2); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { tg1_8Memcache_delete(&rv, ar, count , this_); frame_free_locals_inl(ar, 2); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("Memcache::delete", count, 1, 2, 1); } } else { throw_instance_method_fatal("Memcache::delete"); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_inl(ar, 2); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* long HPHP::c_Memcache::t_increment(HPHP::String const&, int) _ZN4HPHP10c_Memcache11t_incrementERKNS_6StringEi (return value) => rax this_ => rdi key => rsi offset => rdx */ long th_8Memcache_increment(ObjectData* this_, Value* key, int offset) asm("_ZN4HPHP10c_Memcache11t_incrementERKNS_6StringEi"); TypedValue* tg1_8Memcache_increment(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) __attribute__((noinline,cold)); TypedValue* tg1_8Memcache_increment(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfInt64; switch (count) { default: // count >= 2 if ((args-1)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-1); } case 1: break; } if (!IS_STRING_TYPE((args-0)->m_type)) { tvCastToStringInPlace(args-0); } rv->m_data.num = (int64_t)th_8Memcache_increment((this_), &args[-0].m_data, (count > 1) ? (int)(args[-1].m_data.num) : (int)(1)); return rv; } TypedValue* tg_8Memcache_increment(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; ObjectData* this_ = (ar->hasThis() ? ar->getThis() : NULL); if (this_) { if (count >= 1LL && count <= 2LL) { if ((count <= 1 || (args-1)->m_type == KindOfInt64) && IS_STRING_TYPE((args-0)->m_type)) { rv.m_type = KindOfInt64; rv.m_data.num = (int64_t)th_8Memcache_increment((this_), &args[-0].m_data, (count > 1) ? (int)(args[-1].m_data.num) : (int)(1)); frame_free_locals_inl(ar, 2); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { tg1_8Memcache_increment(&rv, ar, count , this_); frame_free_locals_inl(ar, 2); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("Memcache::increment", count, 1, 2, 1); } } else { throw_instance_method_fatal("Memcache::increment"); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_inl(ar, 2); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* long HPHP::c_Memcache::t_decrement(HPHP::String const&, int) _ZN4HPHP10c_Memcache11t_decrementERKNS_6StringEi (return value) => rax this_ => rdi key => rsi offset => rdx */ long th_8Memcache_decrement(ObjectData* this_, Value* key, int offset) asm("_ZN4HPHP10c_Memcache11t_decrementERKNS_6StringEi"); TypedValue* tg1_8Memcache_decrement(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) __attribute__((noinline,cold)); TypedValue* tg1_8Memcache_decrement(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfInt64; switch (count) { default: // count >= 2 if ((args-1)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-1); } case 1: break; } if (!IS_STRING_TYPE((args-0)->m_type)) { tvCastToStringInPlace(args-0); } rv->m_data.num = (int64_t)th_8Memcache_decrement((this_), &args[-0].m_data, (count > 1) ? (int)(args[-1].m_data.num) : (int)(1)); return rv; } TypedValue* tg_8Memcache_decrement(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; ObjectData* this_ = (ar->hasThis() ? ar->getThis() : NULL); if (this_) { if (count >= 1LL && count <= 2LL) { if ((count <= 1 || (args-1)->m_type == KindOfInt64) && IS_STRING_TYPE((args-0)->m_type)) { rv.m_type = KindOfInt64; rv.m_data.num = (int64_t)th_8Memcache_decrement((this_), &args[-0].m_data, (count > 1) ? (int)(args[-1].m_data.num) : (int)(1)); frame_free_locals_inl(ar, 2); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { tg1_8Memcache_decrement(&rv, ar, count , this_); frame_free_locals_inl(ar, 2); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("Memcache::decrement", count, 1, 2, 1); } } else { throw_instance_method_fatal("Memcache::decrement"); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_inl(ar, 2); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* HPHP::Variant HPHP::c_Memcache::t_getversion() _ZN4HPHP10c_Memcache12t_getversionEv (return value) => rax _rv => rdi this_ => rsi */ TypedValue* th_8Memcache_getversion(TypedValue* _rv, ObjectData* this_) asm("_ZN4HPHP10c_Memcache12t_getversionEv"); TypedValue* tg_8Memcache_getversion(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; ObjectData* this_ = (ar->hasThis() ? ar->getThis() : NULL); if (this_) { if (count == 0LL) { th_8Memcache_getversion((&(rv)), (this_)); if (rv.m_type == KindOfUninit) rv.m_type = KindOfNull; frame_free_locals_inl(ar, 0); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { throw_toomany_arguments_nr("Memcache::getversion", 0, 1); } } else { throw_instance_method_fatal("Memcache::getversion"); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_inl(ar, 0); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* bool HPHP::c_Memcache::t_flush(int) _ZN4HPHP10c_Memcache7t_flushEi (return value) => rax this_ => rdi expire => rsi */ bool th_8Memcache_flush(ObjectData* this_, int expire) asm("_ZN4HPHP10c_Memcache7t_flushEi"); TypedValue* tg1_8Memcache_flush(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) __attribute__((noinline,cold)); TypedValue* tg1_8Memcache_flush(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfBoolean; tvCastToInt64InPlace(args-0); rv->m_data.num = (th_8Memcache_flush((this_), (count > 0) ? (int)(args[-0].m_data.num) : (int)(0))) ? 1LL : 0LL; return rv; } TypedValue* tg_8Memcache_flush(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; ObjectData* this_ = (ar->hasThis() ? ar->getThis() : NULL); if (this_) { if (count <= 1LL) { if ((count <= 0 || (args-0)->m_type == KindOfInt64)) { rv.m_type = KindOfBoolean; rv.m_data.num = (th_8Memcache_flush((this_), (count > 0) ? (int)(args[-0].m_data.num) : (int)(0))) ? 1LL : 0LL; frame_free_locals_inl(ar, 1); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { tg1_8Memcache_flush(&rv, ar, count , this_); frame_free_locals_inl(ar, 1); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_toomany_arguments_nr("Memcache::flush", 1, 1); } } else { throw_instance_method_fatal("Memcache::flush"); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_inl(ar, 1); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* bool HPHP::c_Memcache::t_setoptimeout(long) _ZN4HPHP10c_Memcache14t_setoptimeoutEl (return value) => rax this_ => rdi timeoutms => rsi */ bool th_8Memcache_setoptimeout(ObjectData* this_, long timeoutms) asm("_ZN4HPHP10c_Memcache14t_setoptimeoutEl"); TypedValue* tg1_8Memcache_setoptimeout(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) __attribute__((noinline,cold)); TypedValue* tg1_8Memcache_setoptimeout(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfBoolean; tvCastToInt64InPlace(args-0); rv->m_data.num = (th_8Memcache_setoptimeout((this_), (long)(args[-0].m_data.num))) ? 1LL : 0LL; return rv; } TypedValue* tg_8Memcache_setoptimeout(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; ObjectData* this_ = (ar->hasThis() ? ar->getThis() : NULL); if (this_) { if (count == 1LL) { if ((args-0)->m_type == KindOfInt64) { rv.m_type = KindOfBoolean; rv.m_data.num = (th_8Memcache_setoptimeout((this_), (long)(args[-0].m_data.num))) ? 1LL : 0LL; frame_free_locals_inl(ar, 1); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { tg1_8Memcache_setoptimeout(&rv, ar, count , this_); frame_free_locals_inl(ar, 1); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("Memcache::setoptimeout", count, 1, 1, 1); } } else { throw_instance_method_fatal("Memcache::setoptimeout"); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_inl(ar, 1); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* bool HPHP::c_Memcache::t_close() _ZN4HPHP10c_Memcache7t_closeEv (return value) => rax this_ => rdi */ bool th_8Memcache_close(ObjectData* this_) asm("_ZN4HPHP10c_Memcache7t_closeEv"); TypedValue* tg_8Memcache_close(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; ObjectData* this_ = (ar->hasThis() ? ar->getThis() : NULL); if (this_) { if (count == 0LL) { rv.m_type = KindOfBoolean; rv.m_data.num = (th_8Memcache_close((this_))) ? 1LL : 0LL; frame_free_locals_inl(ar, 0); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { throw_toomany_arguments_nr("Memcache::close", 0, 1); } } else { throw_instance_method_fatal("Memcache::close"); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_inl(ar, 0); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* long HPHP::c_Memcache::t_getserverstatus(HPHP::String const&, int) _ZN4HPHP10c_Memcache17t_getserverstatusERKNS_6StringEi (return value) => rax this_ => rdi host => rsi port => rdx */ long th_8Memcache_getserverstatus(ObjectData* this_, Value* host, int port) asm("_ZN4HPHP10c_Memcache17t_getserverstatusERKNS_6StringEi"); TypedValue* tg1_8Memcache_getserverstatus(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) __attribute__((noinline,cold)); TypedValue* tg1_8Memcache_getserverstatus(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfInt64; switch (count) { default: // count >= 2 if ((args-1)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-1); } case 1: break; } if (!IS_STRING_TYPE((args-0)->m_type)) { tvCastToStringInPlace(args-0); } rv->m_data.num = (int64_t)th_8Memcache_getserverstatus((this_), &args[-0].m_data, (count > 1) ? (int)(args[-1].m_data.num) : (int)(0)); return rv; } TypedValue* tg_8Memcache_getserverstatus(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; ObjectData* this_ = (ar->hasThis() ? ar->getThis() : NULL); if (this_) { if (count >= 1LL && count <= 2LL) { if ((count <= 1 || (args-1)->m_type == KindOfInt64) && IS_STRING_TYPE((args-0)->m_type)) { rv.m_type = KindOfInt64; rv.m_data.num = (int64_t)th_8Memcache_getserverstatus((this_), &args[-0].m_data, (count > 1) ? (int)(args[-1].m_data.num) : (int)(0)); frame_free_locals_inl(ar, 2); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { tg1_8Memcache_getserverstatus(&rv, ar, count , this_); frame_free_locals_inl(ar, 2); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("Memcache::getserverstatus", count, 1, 2, 1); } } else { throw_instance_method_fatal("Memcache::getserverstatus"); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_inl(ar, 2); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* bool HPHP::c_Memcache::t_setcompressthreshold(int, double) _ZN4HPHP10c_Memcache22t_setcompressthresholdEid (return value) => rax this_ => rdi threshold => rsi min_savings => xmm0 */ bool th_8Memcache_setcompressthreshold(ObjectData* this_, int threshold, double min_savings) asm("_ZN4HPHP10c_Memcache22t_setcompressthresholdEid"); TypedValue* tg1_8Memcache_setcompressthreshold(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) __attribute__((noinline,cold)); TypedValue* tg1_8Memcache_setcompressthreshold(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfBoolean; switch (count) { default: // count >= 2 if ((args-1)->m_type != KindOfDouble) { tvCastToDoubleInPlace(args-1); } case 1: break; } if ((args-0)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-0); } rv->m_data.num = (th_8Memcache_setcompressthreshold((this_), (int)(args[-0].m_data.num), (count > 1) ? (args[-1].m_data.dbl) : (double)(0.2))) ? 1LL : 0LL; return rv; } TypedValue* tg_8Memcache_setcompressthreshold(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; ObjectData* this_ = (ar->hasThis() ? ar->getThis() : NULL); if (this_) { if (count >= 1LL && count <= 2LL) { if ((count <= 1 || (args-1)->m_type == KindOfDouble) && (args-0)->m_type == KindOfInt64) { rv.m_type = KindOfBoolean; rv.m_data.num = (th_8Memcache_setcompressthreshold((this_), (int)(args[-0].m_data.num), (count > 1) ? (args[-1].m_data.dbl) : (double)(0.2))) ? 1LL : 0LL; frame_free_locals_inl(ar, 2); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { tg1_8Memcache_setcompressthreshold(&rv, ar, count , this_); frame_free_locals_inl(ar, 2); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("Memcache::setcompressthreshold", count, 1, 2, 1); } } else { throw_instance_method_fatal("Memcache::setcompressthreshold"); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_inl(ar, 2); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* HPHP::Array HPHP::c_Memcache::t_getstats(HPHP::String const&, int, int) _ZN4HPHP10c_Memcache10t_getstatsERKNS_6StringEii (return value) => rax _rv => rdi this_ => rsi type => rdx slabid => rcx limit => r8 */ Value* th_8Memcache_getstats(Value* _rv, ObjectData* this_, Value* type, int slabid, int limit) asm("_ZN4HPHP10c_Memcache10t_getstatsERKNS_6StringEii"); TypedValue* tg1_8Memcache_getstats(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) __attribute__((noinline,cold)); TypedValue* tg1_8Memcache_getstats(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfArray; switch (count) { default: // count >= 3 if ((args-2)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-2); } case 2: if ((args-1)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-1); } case 1: if (!IS_STRING_TYPE((args-0)->m_type)) { tvCastToStringInPlace(args-0); } case 0: break; } th_8Memcache_getstats((&rv->m_data), (this_), (count > 0) ? &args[-0].m_data : (Value*)(&null_string), (count > 1) ? (int)(args[-1].m_data.num) : (int)(0), (count > 2) ? (int)(args[-2].m_data.num) : (int)(100)); if (rv->m_data.num == 0LL) rv->m_type = KindOfNull; return rv; } TypedValue* tg_8Memcache_getstats(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; ObjectData* this_ = (ar->hasThis() ? ar->getThis() : NULL); if (this_) { if (count <= 3LL) { if ((count <= 2 || (args-2)->m_type == KindOfInt64) && (count <= 1 || (args-1)->m_type == KindOfInt64) && (count <= 0 || IS_STRING_TYPE((args-0)->m_type))) { rv.m_type = KindOfArray; th_8Memcache_getstats((&rv.m_data), (this_), (count > 0) ? &args[-0].m_data : (Value*)(&null_string), (count > 1) ? (int)(args[-1].m_data.num) : (int)(0), (count > 2) ? (int)(args[-2].m_data.num) : (int)(100)); if (rv.m_data.num == 0LL) rv.m_type = KindOfNull; frame_free_locals_inl(ar, 3); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { tg1_8Memcache_getstats(&rv, ar, count , this_); frame_free_locals_inl(ar, 3); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_toomany_arguments_nr("Memcache::getstats", 3, 1); } } else { throw_instance_method_fatal("Memcache::getstats"); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_inl(ar, 3); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* HPHP::Array HPHP::c_Memcache::t_getextendedstats(HPHP::String const&, int, int) _ZN4HPHP10c_Memcache18t_getextendedstatsERKNS_6StringEii (return value) => rax _rv => rdi this_ => rsi type => rdx slabid => rcx limit => r8 */ Value* th_8Memcache_getextendedstats(Value* _rv, ObjectData* this_, Value* type, int slabid, int limit) asm("_ZN4HPHP10c_Memcache18t_getextendedstatsERKNS_6StringEii"); TypedValue* tg1_8Memcache_getextendedstats(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) __attribute__((noinline,cold)); TypedValue* tg1_8Memcache_getextendedstats(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfArray; switch (count) { default: // count >= 3 if ((args-2)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-2); } case 2: if ((args-1)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-1); } case 1: if (!IS_STRING_TYPE((args-0)->m_type)) { tvCastToStringInPlace(args-0); } case 0: break; } th_8Memcache_getextendedstats((&rv->m_data), (this_), (count > 0) ? &args[-0].m_data : (Value*)(&null_string), (count > 1) ? (int)(args[-1].m_data.num) : (int)(0), (count > 2) ? (int)(args[-2].m_data.num) : (int)(100)); if (rv->m_data.num == 0LL) rv->m_type = KindOfNull; return rv; } TypedValue* tg_8Memcache_getextendedstats(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; ObjectData* this_ = (ar->hasThis() ? ar->getThis() : NULL); if (this_) { if (count <= 3LL) { if ((count <= 2 || (args-2)->m_type == KindOfInt64) && (count <= 1 || (args-1)->m_type == KindOfInt64) && (count <= 0 || IS_STRING_TYPE((args-0)->m_type))) { rv.m_type = KindOfArray; th_8Memcache_getextendedstats((&rv.m_data), (this_), (count > 0) ? &args[-0].m_data : (Value*)(&null_string), (count > 1) ? (int)(args[-1].m_data.num) : (int)(0), (count > 2) ? (int)(args[-2].m_data.num) : (int)(100)); if (rv.m_data.num == 0LL) rv.m_type = KindOfNull; frame_free_locals_inl(ar, 3); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { tg1_8Memcache_getextendedstats(&rv, ar, count , this_); frame_free_locals_inl(ar, 3); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_toomany_arguments_nr("Memcache::getextendedstats", 3, 1); } } else { throw_instance_method_fatal("Memcache::getextendedstats"); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_inl(ar, 3); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* bool HPHP::c_Memcache::t_setserverparams(HPHP::String const&, int, int, int, bool, HPHP::Variant const&) _ZN4HPHP10c_Memcache17t_setserverparamsERKNS_6StringEiiibRKNS_7VariantE (return value) => rax this_ => rdi host => rsi port => rdx timeout => rcx retry_interval => r8 status => r9 failure_callback => st0 */ bool th_8Memcache_setserverparams(ObjectData* this_, Value* host, int port, int timeout, int retry_interval, bool status, TypedValue* failure_callback) asm("_ZN4HPHP10c_Memcache17t_setserverparamsERKNS_6StringEiiibRKNS_7VariantE"); TypedValue* tg1_8Memcache_setserverparams(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) __attribute__((noinline,cold)); TypedValue* tg1_8Memcache_setserverparams(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfBoolean; switch (count) { default: // count >= 6 case 5: if ((args-4)->m_type != KindOfBoolean) { tvCastToBooleanInPlace(args-4); } case 4: if ((args-3)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-3); } case 3: if ((args-2)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-2); } case 2: if ((args-1)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-1); } case 1: break; } if (!IS_STRING_TYPE((args-0)->m_type)) { tvCastToStringInPlace(args-0); } rv->m_data.num = (th_8Memcache_setserverparams((this_), &args[-0].m_data, (count > 1) ? (int)(args[-1].m_data.num) : (int)(11211), (count > 2) ? (int)(args[-2].m_data.num) : (int)(0), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0), (count > 4) ? (bool)(args[-4].m_data.num) : (bool)(true), (count > 5) ? (args-5) : (TypedValue*)(&null_variant))) ? 1LL : 0LL; return rv; } TypedValue* tg_8Memcache_setserverparams(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; ObjectData* this_ = (ar->hasThis() ? ar->getThis() : NULL); if (this_) { if (count >= 1LL && count <= 6LL) { if ((count <= 4 || (args-4)->m_type == KindOfBoolean) && (count <= 3 || (args-3)->m_type == KindOfInt64) && (count <= 2 || (args-2)->m_type == KindOfInt64) && (count <= 1 || (args-1)->m_type == KindOfInt64) && IS_STRING_TYPE((args-0)->m_type)) { rv.m_type = KindOfBoolean; rv.m_data.num = (th_8Memcache_setserverparams((this_), &args[-0].m_data, (count > 1) ? (int)(args[-1].m_data.num) : (int)(11211), (count > 2) ? (int)(args[-2].m_data.num) : (int)(0), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0), (count > 4) ? (bool)(args[-4].m_data.num) : (bool)(true), (count > 5) ? (args-5) : (TypedValue*)(&null_variant))) ? 1LL : 0LL; frame_free_locals_inl(ar, 6); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { tg1_8Memcache_setserverparams(&rv, ar, count , this_); frame_free_locals_inl(ar, 6); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("Memcache::setserverparams", count, 1, 6, 1); } } else { throw_instance_method_fatal("Memcache::setserverparams"); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_inl(ar, 6); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* bool HPHP::c_Memcache::t_addserver(HPHP::String const&, int, bool, int, int, int, bool, HPHP::Variant const&, int) _ZN4HPHP10c_Memcache11t_addserverERKNS_6StringEibiiibRKNS_7VariantEi (return value) => rax this_ => rdi host => rsi port => rdx persistent => rcx weight => r8 timeout => r9 retry_interval => st0 status => st8 failure_callback => st16 timeoutms => st24 */ bool th_8Memcache_addserver(ObjectData* this_, Value* host, int port, bool persistent, int weight, int timeout, int retry_interval, bool status, TypedValue* failure_callback, int timeoutms) asm("_ZN4HPHP10c_Memcache11t_addserverERKNS_6StringEibiiibRKNS_7VariantEi"); TypedValue* tg1_8Memcache_addserver(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) __attribute__((noinline,cold)); TypedValue* tg1_8Memcache_addserver(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count, ObjectData* this_) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfBoolean; switch (count) { default: // count >= 9 if ((args-8)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-8); } case 8: case 7: if ((args-6)->m_type != KindOfBoolean) { tvCastToBooleanInPlace(args-6); } case 6: if ((args-5)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-5); } case 5: if ((args-4)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-4); } case 4: if ((args-3)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-3); } case 3: if ((args-2)->m_type != KindOfBoolean) { tvCastToBooleanInPlace(args-2); } case 2: if ((args-1)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-1); } case 1: break; } if (!IS_STRING_TYPE((args-0)->m_type)) { tvCastToStringInPlace(args-0); } rv->m_data.num = (th_8Memcache_addserver((this_), &args[-0].m_data, (count > 1) ? (int)(args[-1].m_data.num) : (int)(11211), (count > 2) ? (bool)(args[-2].m_data.num) : (bool)(false), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0), (count > 4) ? (int)(args[-4].m_data.num) : (int)(0), (count > 5) ? (int)(args[-5].m_data.num) : (int)(0), (count > 6) ? (bool)(args[-6].m_data.num) : (bool)(true), (count > 7) ? (args-7) : (TypedValue*)(&null_variant), (count > 8) ? (int)(args[-8].m_data.num) : (int)(0))) ? 1LL : 0LL; return rv; } TypedValue* tg_8Memcache_addserver(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; ObjectData* this_ = (ar->hasThis() ? ar->getThis() : NULL); if (this_) { if (count >= 1LL && count <= 9LL) { if ((count <= 8 || (args-8)->m_type == KindOfInt64) && (count <= 6 || (args-6)->m_type == KindOfBoolean) && (count <= 5 || (args-5)->m_type == KindOfInt64) && (count <= 4 || (args-4)->m_type == KindOfInt64) && (count <= 3 || (args-3)->m_type == KindOfInt64) && (count <= 2 || (args-2)->m_type == KindOfBoolean) && (count <= 1 || (args-1)->m_type == KindOfInt64) && IS_STRING_TYPE((args-0)->m_type)) { rv.m_type = KindOfBoolean; rv.m_data.num = (th_8Memcache_addserver((this_), &args[-0].m_data, (count > 1) ? (int)(args[-1].m_data.num) : (int)(11211), (count > 2) ? (bool)(args[-2].m_data.num) : (bool)(false), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0), (count > 4) ? (int)(args[-4].m_data.num) : (int)(0), (count > 5) ? (int)(args[-5].m_data.num) : (int)(0), (count > 6) ? (bool)(args[-6].m_data.num) : (bool)(true), (count > 7) ? (args-7) : (TypedValue*)(&null_variant), (count > 8) ? (int)(args[-8].m_data.num) : (int)(0))) ? 1LL : 0LL; frame_free_locals_inl(ar, 9); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { tg1_8Memcache_addserver(&rv, ar, count , this_); frame_free_locals_inl(ar, 9); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_wrong_arguments_nr("Memcache::addserver", count, 1, 9, 1); } } else { throw_instance_method_fatal("Memcache::addserver"); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_inl(ar, 9); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* HPHP::Variant HPHP::c_Memcache::t___destruct() _ZN4HPHP10c_Memcache12t___destructEv (return value) => rax _rv => rdi this_ => rsi */ TypedValue* th_8Memcache___destruct(TypedValue* _rv, ObjectData* this_) asm("_ZN4HPHP10c_Memcache12t___destructEv"); TypedValue* tg_8Memcache___destruct(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; ObjectData* this_ = (ar->hasThis() ? ar->getThis() : NULL); if (this_) { if (count == 0LL) { th_8Memcache___destruct((&(rv)), (this_)); if (rv.m_type == KindOfUninit) rv.m_type = KindOfNull; frame_free_locals_inl(ar, 0); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { throw_toomany_arguments_nr("Memcache::__destruct", 0, 1); } } else { throw_instance_method_fatal("Memcache::__destruct"); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_inl(ar, 0); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } } // !HPHP