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hhvm/hphp/runtime/ext/ext_apc.ext_hhvm.cpp
T
Owen Yamauchi 0fd0fa814c Get rid of ext_hhvm_noinline.cpp, part 1
Post-hphpc, declaring builtins as inline is useless, which obviates the
need for this layer.

This doesn't fully delete the file, because I wanted to keep mindless
parts and use-your-brain parts separate. This is the mindless part. The
remaining functions in noinline.cpp are no-inline wrappers around
(a) a function that isn't defined in an extension, call_user_func_array,
and (b) calling polymorphic is_* functions, which can probably mostly go
away now. But I wanted to exercise more care around those, so they'll
come in a followup diff.
2013-04-01 13:41:49 -07:00

1234 linhas
42 KiB
C++

/*
+----------------------------------------------------------------------+
| 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 <runtime/ext_hhvm/ext_hhvm.h>
#include <runtime/base/builtin_functions.h>
#include <runtime/base/array/array_init.h>
#include <runtime/ext/ext.h>
#include <runtime/vm/class.h>
#include <runtime/vm/runtime.h>
#include <exception>
namespace HPHP {
/*
bool HPHP::f_apc_add(HPHP::String const&, HPHP::Variant const&, long, long)
_ZN4HPHP9f_apc_addERKNS_6StringERKNS_7VariantEll
(return value) => rax
key => rdi
var => rsi
ttl => rdx
cache_id => rcx
*/
bool fh_apc_add(Value* key, TypedValue* var, long ttl, long cache_id) asm("_ZN4HPHP9f_apc_addERKNS_6StringERKNS_7VariantEll");
TypedValue * fg1_apc_add(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_apc_add(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) {
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 = (fh_apc_add(&args[-0].m_data, (args-1), (count > 2) ? (long)(args[-2].m_data.num) : (long)(0), (count > 3) ? (long)(args[-3].m_data.num) : (long)(0))) ? 1LL : 0LL;
return rv;
}
TypedValue* fg_apc_add(HPHP::VM::ActRec *ar) {
TypedValue rv;
int64_t count = ar->numArgs();
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
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 = (fh_apc_add(&args[-0].m_data, (args-1), (count > 2) ? (long)(args[-2].m_data.num) : (long)(0), (count > 3) ? (long)(args[-3].m_data.num) : (long)(0))) ? 1LL : 0LL;
frame_free_locals_no_this_inl(ar, 4);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
} else {
fg1_apc_add(&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("apc_add", count, 2, 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_apc_store(HPHP::String const&, HPHP::Variant const&, long, long)
_ZN4HPHP11f_apc_storeERKNS_6StringERKNS_7VariantEll
(return value) => rax
key => rdi
var => rsi
ttl => rdx
cache_id => rcx
*/
bool fh_apc_store(Value* key, TypedValue* var, long ttl, long cache_id) asm("_ZN4HPHP11f_apc_storeERKNS_6StringERKNS_7VariantEll");
TypedValue * fg1_apc_store(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_apc_store(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) {
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 = (fh_apc_store(&args[-0].m_data, (args-1), (count > 2) ? (long)(args[-2].m_data.num) : (long)(0), (count > 3) ? (long)(args[-3].m_data.num) : (long)(0))) ? 1LL : 0LL;
return rv;
}
TypedValue* fg_apc_store(HPHP::VM::ActRec *ar) {
TypedValue rv;
int64_t count = ar->numArgs();
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
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 = (fh_apc_store(&args[-0].m_data, (args-1), (count > 2) ? (long)(args[-2].m_data.num) : (long)(0), (count > 3) ? (long)(args[-3].m_data.num) : (long)(0))) ? 1LL : 0LL;
frame_free_locals_no_this_inl(ar, 4);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
} else {
fg1_apc_store(&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("apc_store", count, 2, 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::Variant HPHP::f_apc_fetch(HPHP::Variant const&, HPHP::VRefParamValue const&, long)
_ZN4HPHP11f_apc_fetchERKNS_7VariantERKNS_14VRefParamValueEl
(return value) => rax
_rv => rdi
key => rsi
success => rdx
cache_id => rcx
*/
TypedValue* fh_apc_fetch(TypedValue* _rv, TypedValue* key, TypedValue* success, long cache_id) asm("_ZN4HPHP11f_apc_fetchERKNS_7VariantERKNS_14VRefParamValueEl");
TypedValue * fg1_apc_fetch(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_apc_fetch(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) {
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
tvCastToInt64InPlace(args-2);
VRefParamValue defVal1 = uninit_null();
fh_apc_fetch((rv), (args-0), (count > 1) ? (args-1) : (TypedValue*)(&defVal1), (count > 2) ? (long)(args[-2].m_data.num) : (long)(0));
if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull;
return rv;
}
TypedValue* fg_apc_fetch(HPHP::VM::ActRec *ar) {
TypedValue rv;
int64_t count = ar->numArgs();
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
if (count >= 1LL && count <= 3LL) {
if ((count <= 2 || (args-2)->m_type == KindOfInt64)) {
VRefParamValue defVal1 = uninit_null();
fh_apc_fetch((&(rv)), (args-0), (count > 1) ? (args-1) : (TypedValue*)(&defVal1), (count > 2) ? (long)(args[-2].m_data.num) : (long)(0));
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_apc_fetch(&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("apc_fetch", count, 1, 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::Variant HPHP::f_apc_delete(HPHP::Variant const&, long)
_ZN4HPHP12f_apc_deleteERKNS_7VariantEl
(return value) => rax
_rv => rdi
key => rsi
cache_id => rdx
*/
TypedValue* fh_apc_delete(TypedValue* _rv, TypedValue* key, long cache_id) asm("_ZN4HPHP12f_apc_deleteERKNS_7VariantEl");
TypedValue * fg1_apc_delete(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_apc_delete(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) {
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
tvCastToInt64InPlace(args-1);
fh_apc_delete((rv), (args-0), (count > 1) ? (long)(args[-1].m_data.num) : (long)(0));
if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull;
return rv;
}
TypedValue* fg_apc_delete(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)) {
fh_apc_delete((&(rv)), (args-0), (count > 1) ? (long)(args[-1].m_data.num) : (long)(0));
if (rv.m_type == KindOfUninit) rv.m_type = KindOfNull;
frame_free_locals_no_this_inl(ar, 2);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
} else {
fg1_apc_delete(&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("apc_delete", 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_apc_compile_file(HPHP::String const&, bool, long)
_ZN4HPHP18f_apc_compile_fileERKNS_6StringEbl
(return value) => rax
filename => rdi
atomic => rsi
cache_id => rdx
*/
bool fh_apc_compile_file(Value* filename, bool atomic, long cache_id) asm("_ZN4HPHP18f_apc_compile_fileERKNS_6StringEbl");
TypedValue * fg1_apc_compile_file(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_apc_compile_file(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:
if ((args-1)->m_type != KindOfBoolean) {
tvCastToBooleanInPlace(args-1);
}
case 1:
break;
}
if (!IS_STRING_TYPE((args-0)->m_type)) {
tvCastToStringInPlace(args-0);
}
rv->m_data.num = (fh_apc_compile_file(&args[-0].m_data, (count > 1) ? (bool)(args[-1].m_data.num) : (bool)(true), (count > 2) ? (long)(args[-2].m_data.num) : (long)(0))) ? 1LL : 0LL;
return rv;
}
TypedValue* fg_apc_compile_file(HPHP::VM::ActRec *ar) {
TypedValue rv;
int64_t count = ar->numArgs();
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
if (count >= 1LL && count <= 3LL) {
if ((count <= 2 || (args-2)->m_type == KindOfInt64) && (count <= 1 || (args-1)->m_type == KindOfBoolean) && IS_STRING_TYPE((args-0)->m_type)) {
rv.m_type = KindOfBoolean;
rv.m_data.num = (fh_apc_compile_file(&args[-0].m_data, (count > 1) ? (bool)(args[-1].m_data.num) : (bool)(true), (count > 2) ? (long)(args[-2].m_data.num) : (long)(0))) ? 1LL : 0LL;
frame_free_locals_no_this_inl(ar, 3);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
} else {
fg1_apc_compile_file(&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("apc_compile_file", count, 1, 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::Variant HPHP::f_apc_cache_info(long, bool)
_ZN4HPHP16f_apc_cache_infoElb
(return value) => rax
_rv => rdi
cache_id => rsi
limited => rdx
*/
TypedValue* fh_apc_cache_info(TypedValue* _rv, long cache_id, bool limited) asm("_ZN4HPHP16f_apc_cache_infoElb");
TypedValue * fg1_apc_cache_info(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_apc_cache_info(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) {
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
switch (count) {
default: // count >= 2
if ((args-1)->m_type != KindOfBoolean) {
tvCastToBooleanInPlace(args-1);
}
case 1:
if ((args-0)->m_type != KindOfInt64) {
tvCastToInt64InPlace(args-0);
}
case 0:
break;
}
fh_apc_cache_info((rv), (count > 0) ? (long)(args[-0].m_data.num) : (long)(0), (count > 1) ? (bool)(args[-1].m_data.num) : (bool)(false));
if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull;
return rv;
}
TypedValue* fg_apc_cache_info(HPHP::VM::ActRec *ar) {
TypedValue rv;
int64_t count = ar->numArgs();
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
if (count <= 2LL) {
if ((count <= 1 || (args-1)->m_type == KindOfBoolean) && (count <= 0 || (args-0)->m_type == KindOfInt64)) {
fh_apc_cache_info((&(rv)), (count > 0) ? (long)(args[-0].m_data.num) : (long)(0), (count > 1) ? (bool)(args[-1].m_data.num) : (bool)(false));
if (rv.m_type == KindOfUninit) rv.m_type = KindOfNull;
frame_free_locals_no_this_inl(ar, 2);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
} else {
fg1_apc_cache_info(&rv, ar, count);
frame_free_locals_no_this_inl(ar, 2);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
}
} else {
throw_toomany_arguments_nr("apc_cache_info", 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_apc_clear_cache(long)
_ZN4HPHP17f_apc_clear_cacheEl
(return value) => rax
cache_id => rdi
*/
bool fh_apc_clear_cache(long cache_id) asm("_ZN4HPHP17f_apc_clear_cacheEl");
TypedValue * fg1_apc_clear_cache(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_apc_clear_cache(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) {
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
rv->m_type = KindOfBoolean;
tvCastToInt64InPlace(args-0);
rv->m_data.num = (fh_apc_clear_cache((count > 0) ? (long)(args[-0].m_data.num) : (long)(0))) ? 1LL : 0LL;
return rv;
}
TypedValue* fg_apc_clear_cache(HPHP::VM::ActRec *ar) {
TypedValue rv;
int64_t count = ar->numArgs();
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
if (count <= 1LL) {
if ((count <= 0 || (args-0)->m_type == KindOfInt64)) {
rv.m_type = KindOfBoolean;
rv.m_data.num = (fh_apc_clear_cache((count > 0) ? (long)(args[-0].m_data.num) : (long)(0))) ? 1LL : 0LL;
frame_free_locals_no_this_inl(ar, 1);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
} else {
fg1_apc_clear_cache(&rv, ar, count);
frame_free_locals_no_this_inl(ar, 1);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
}
} else {
throw_toomany_arguments_nr("apc_clear_cache", 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_apc_define_constants(HPHP::String const&, HPHP::String const&, bool, long)
_ZN4HPHP22f_apc_define_constantsERKNS_6StringES2_bl
(return value) => rax
key => rdi
constants => rsi
case_sensitive => rdx
cache_id => rcx
*/
bool fh_apc_define_constants(Value* key, Value* constants, bool case_sensitive, long cache_id) asm("_ZN4HPHP22f_apc_define_constantsERKNS_6StringES2_bl");
TypedValue * fg1_apc_define_constants(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_apc_define_constants(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) {
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 != KindOfBoolean) {
tvCastToBooleanInPlace(args-2);
}
case 2:
break;
}
if (!IS_STRING_TYPE((args-1)->m_type)) {
tvCastToStringInPlace(args-1);
}
if (!IS_STRING_TYPE((args-0)->m_type)) {
tvCastToStringInPlace(args-0);
}
rv->m_data.num = (fh_apc_define_constants(&args[-0].m_data, &args[-1].m_data, (count > 2) ? (bool)(args[-2].m_data.num) : (bool)(true), (count > 3) ? (long)(args[-3].m_data.num) : (long)(0))) ? 1LL : 0LL;
return rv;
}
TypedValue* fg_apc_define_constants(HPHP::VM::ActRec *ar) {
TypedValue rv;
int64_t count = ar->numArgs();
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
if (count >= 2LL && count <= 4LL) {
if ((count <= 3 || (args-3)->m_type == KindOfInt64) && (count <= 2 || (args-2)->m_type == KindOfBoolean) && IS_STRING_TYPE((args-1)->m_type) && IS_STRING_TYPE((args-0)->m_type)) {
rv.m_type = KindOfBoolean;
rv.m_data.num = (fh_apc_define_constants(&args[-0].m_data, &args[-1].m_data, (count > 2) ? (bool)(args[-2].m_data.num) : (bool)(true), (count > 3) ? (long)(args[-3].m_data.num) : (long)(0))) ? 1LL : 0LL;
frame_free_locals_no_this_inl(ar, 4);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
} else {
fg1_apc_define_constants(&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("apc_define_constants", count, 2, 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_apc_load_constants(HPHP::String const&, bool, long)
_ZN4HPHP20f_apc_load_constantsERKNS_6StringEbl
(return value) => rax
key => rdi
case_sensitive => rsi
cache_id => rdx
*/
bool fh_apc_load_constants(Value* key, bool case_sensitive, long cache_id) asm("_ZN4HPHP20f_apc_load_constantsERKNS_6StringEbl");
TypedValue * fg1_apc_load_constants(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_apc_load_constants(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:
if ((args-1)->m_type != KindOfBoolean) {
tvCastToBooleanInPlace(args-1);
}
case 1:
break;
}
if (!IS_STRING_TYPE((args-0)->m_type)) {
tvCastToStringInPlace(args-0);
}
rv->m_data.num = (fh_apc_load_constants(&args[-0].m_data, (count > 1) ? (bool)(args[-1].m_data.num) : (bool)(true), (count > 2) ? (long)(args[-2].m_data.num) : (long)(0))) ? 1LL : 0LL;
return rv;
}
TypedValue* fg_apc_load_constants(HPHP::VM::ActRec *ar) {
TypedValue rv;
int64_t count = ar->numArgs();
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
if (count >= 1LL && count <= 3LL) {
if ((count <= 2 || (args-2)->m_type == KindOfInt64) && (count <= 1 || (args-1)->m_type == KindOfBoolean) && IS_STRING_TYPE((args-0)->m_type)) {
rv.m_type = KindOfBoolean;
rv.m_data.num = (fh_apc_load_constants(&args[-0].m_data, (count > 1) ? (bool)(args[-1].m_data.num) : (bool)(true), (count > 2) ? (long)(args[-2].m_data.num) : (long)(0))) ? 1LL : 0LL;
frame_free_locals_no_this_inl(ar, 3);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
} else {
fg1_apc_load_constants(&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("apc_load_constants", count, 1, 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_apc_sma_info(bool)
_ZN4HPHP14f_apc_sma_infoEb
(return value) => rax
_rv => rdi
limited => rsi
*/
Value* fh_apc_sma_info(Value* _rv, bool limited) asm("_ZN4HPHP14f_apc_sma_infoEb");
TypedValue * fg1_apc_sma_info(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_apc_sma_info(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) {
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
rv->m_type = KindOfArray;
tvCastToBooleanInPlace(args-0);
fh_apc_sma_info((&rv->m_data), (count > 0) ? (bool)(args[-0].m_data.num) : (bool)(false));
if (rv->m_data.num == 0LL) rv->m_type = KindOfNull;
return rv;
}
TypedValue* fg_apc_sma_info(HPHP::VM::ActRec *ar) {
TypedValue rv;
int64_t count = ar->numArgs();
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
if (count <= 1LL) {
if ((count <= 0 || (args-0)->m_type == KindOfBoolean)) {
rv.m_type = KindOfArray;
fh_apc_sma_info((&rv.m_data), (count > 0) ? (bool)(args[-0].m_data.num) : (bool)(false));
if (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;
} else {
fg1_apc_sma_info(&rv, ar, count);
frame_free_locals_no_this_inl(ar, 1);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
}
} else {
throw_toomany_arguments_nr("apc_sma_info", 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::Array HPHP::f_apc_filehits()
_ZN4HPHP14f_apc_filehitsEv
(return value) => rax
_rv => rdi
*/
Value* fh_apc_filehits(Value* _rv) asm("_ZN4HPHP14f_apc_filehitsEv");
TypedValue* fg_apc_filehits(HPHP::VM::ActRec *ar) {
TypedValue rv;
int64_t count = ar->numArgs();
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
if (count == 0LL) {
rv.m_type = KindOfArray;
fh_apc_filehits((&rv.m_data));
if (rv.m_data.num == 0LL) rv.m_type = KindOfNull;
frame_free_locals_no_this_inl(ar, 0);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
} else {
throw_toomany_arguments_nr("apc_filehits", 0, 1);
}
rv.m_data.num = 0LL;
rv.m_type = KindOfNull;
frame_free_locals_no_this_inl(ar, 0);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
return &ar->m_r;
}
/*
HPHP::Variant HPHP::f_apc_delete_file(HPHP::Variant const&, long)
_ZN4HPHP17f_apc_delete_fileERKNS_7VariantEl
(return value) => rax
_rv => rdi
keys => rsi
cache_id => rdx
*/
TypedValue* fh_apc_delete_file(TypedValue* _rv, TypedValue* keys, long cache_id) asm("_ZN4HPHP17f_apc_delete_fileERKNS_7VariantEl");
TypedValue * fg1_apc_delete_file(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_apc_delete_file(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) {
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
tvCastToInt64InPlace(args-1);
fh_apc_delete_file((rv), (args-0), (count > 1) ? (long)(args[-1].m_data.num) : (long)(0));
if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull;
return rv;
}
TypedValue* fg_apc_delete_file(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)) {
fh_apc_delete_file((&(rv)), (args-0), (count > 1) ? (long)(args[-1].m_data.num) : (long)(0));
if (rv.m_type == KindOfUninit) rv.m_type = KindOfNull;
frame_free_locals_no_this_inl(ar, 2);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
} else {
fg1_apc_delete_file(&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("apc_delete_file", 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;
}
/*
HPHP::Variant HPHP::f_apc_inc(HPHP::String const&, long, HPHP::VRefParamValue const&, long)
_ZN4HPHP9f_apc_incERKNS_6StringElRKNS_14VRefParamValueEl
(return value) => rax
_rv => rdi
key => rsi
step => rdx
success => rcx
cache_id => r8
*/
TypedValue* fh_apc_inc(TypedValue* _rv, Value* key, long step, TypedValue* success, long cache_id) asm("_ZN4HPHP9f_apc_incERKNS_6StringElRKNS_14VRefParamValueEl");
TypedValue * fg1_apc_inc(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_apc_inc(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) {
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
switch (count) {
default: // count >= 4
if ((args-3)->m_type != KindOfInt64) {
tvCastToInt64InPlace(args-3);
}
case 3:
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);
}
VRefParamValue defVal2 = uninit_null();
fh_apc_inc((rv), &args[-0].m_data, (count > 1) ? (long)(args[-1].m_data.num) : (long)(1), (count > 2) ? (args-2) : (TypedValue*)(&defVal2), (count > 3) ? (long)(args[-3].m_data.num) : (long)(0));
if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull;
return rv;
}
TypedValue* fg_apc_inc(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 <= 1 || (args-1)->m_type == KindOfInt64) && IS_STRING_TYPE((args-0)->m_type)) {
VRefParamValue defVal2 = uninit_null();
fh_apc_inc((&(rv)), &args[-0].m_data, (count > 1) ? (long)(args[-1].m_data.num) : (long)(1), (count > 2) ? (args-2) : (TypedValue*)(&defVal2), (count > 3) ? (long)(args[-3].m_data.num) : (long)(0));
if (rv.m_type == KindOfUninit) 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_apc_inc(&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("apc_inc", 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::Variant HPHP::f_apc_dec(HPHP::String const&, long, HPHP::VRefParamValue const&, long)
_ZN4HPHP9f_apc_decERKNS_6StringElRKNS_14VRefParamValueEl
(return value) => rax
_rv => rdi
key => rsi
step => rdx
success => rcx
cache_id => r8
*/
TypedValue* fh_apc_dec(TypedValue* _rv, Value* key, long step, TypedValue* success, long cache_id) asm("_ZN4HPHP9f_apc_decERKNS_6StringElRKNS_14VRefParamValueEl");
TypedValue * fg1_apc_dec(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_apc_dec(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) {
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
switch (count) {
default: // count >= 4
if ((args-3)->m_type != KindOfInt64) {
tvCastToInt64InPlace(args-3);
}
case 3:
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);
}
VRefParamValue defVal2 = uninit_null();
fh_apc_dec((rv), &args[-0].m_data, (count > 1) ? (long)(args[-1].m_data.num) : (long)(1), (count > 2) ? (args-2) : (TypedValue*)(&defVal2), (count > 3) ? (long)(args[-3].m_data.num) : (long)(0));
if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull;
return rv;
}
TypedValue* fg_apc_dec(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 <= 1 || (args-1)->m_type == KindOfInt64) && IS_STRING_TYPE((args-0)->m_type)) {
VRefParamValue defVal2 = uninit_null();
fh_apc_dec((&(rv)), &args[-0].m_data, (count > 1) ? (long)(args[-1].m_data.num) : (long)(1), (count > 2) ? (args-2) : (TypedValue*)(&defVal2), (count > 3) ? (long)(args[-3].m_data.num) : (long)(0));
if (rv.m_type == KindOfUninit) 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_apc_dec(&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("apc_dec", 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_apc_cas(HPHP::String const&, long, long, long)
_ZN4HPHP9f_apc_casERKNS_6StringElll
(return value) => rax
key => rdi
old_cas => rsi
new_cas => rdx
cache_id => rcx
*/
bool fh_apc_cas(Value* key, long old_cas, long new_cas, long cache_id) asm("_ZN4HPHP9f_apc_casERKNS_6StringElll");
TypedValue * fg1_apc_cas(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_apc_cas(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) {
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:
break;
}
if ((args-2)->m_type != KindOfInt64) {
tvCastToInt64InPlace(args-2);
}
if ((args-1)->m_type != KindOfInt64) {
tvCastToInt64InPlace(args-1);
}
if (!IS_STRING_TYPE((args-0)->m_type)) {
tvCastToStringInPlace(args-0);
}
rv->m_data.num = (fh_apc_cas(&args[-0].m_data, (long)(args[-1].m_data.num), (long)(args[-2].m_data.num), (count > 3) ? (long)(args[-3].m_data.num) : (long)(0))) ? 1LL : 0LL;
return rv;
}
TypedValue* fg_apc_cas(HPHP::VM::ActRec *ar) {
TypedValue rv;
int64_t count = ar->numArgs();
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
if (count >= 3LL && count <= 4LL) {
if ((count <= 3 || (args-3)->m_type == KindOfInt64) && (args-2)->m_type == KindOfInt64 && (args-1)->m_type == KindOfInt64 && IS_STRING_TYPE((args-0)->m_type)) {
rv.m_type = KindOfBoolean;
rv.m_data.num = (fh_apc_cas(&args[-0].m_data, (long)(args[-1].m_data.num), (long)(args[-2].m_data.num), (count > 3) ? (long)(args[-3].m_data.num) : (long)(0))) ? 1LL : 0LL;
frame_free_locals_no_this_inl(ar, 4);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
} else {
fg1_apc_cas(&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("apc_cas", count, 3, 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::Variant HPHP::f_apc_exists(HPHP::Variant const&, long)
_ZN4HPHP12f_apc_existsERKNS_7VariantEl
(return value) => rax
_rv => rdi
key => rsi
cache_id => rdx
*/
TypedValue* fh_apc_exists(TypedValue* _rv, TypedValue* key, long cache_id) asm("_ZN4HPHP12f_apc_existsERKNS_7VariantEl");
TypedValue * fg1_apc_exists(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_apc_exists(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) {
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
tvCastToInt64InPlace(args-1);
fh_apc_exists((rv), (args-0), (count > 1) ? (long)(args[-1].m_data.num) : (long)(0));
if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull;
return rv;
}
TypedValue* fg_apc_exists(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)) {
fh_apc_exists((&(rv)), (args-0), (count > 1) ? (long)(args[-1].m_data.num) : (long)(0));
if (rv.m_type == KindOfUninit) rv.m_type = KindOfNull;
frame_free_locals_no_this_inl(ar, 2);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
} else {
fg1_apc_exists(&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("apc_exists", 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;
}
/*
HPHP::Variant HPHP::f_apc_bin_dump(long, HPHP::Variant const&)
_ZN4HPHP14f_apc_bin_dumpElRKNS_7VariantE
(return value) => rax
_rv => rdi
cache_id => rsi
filter => rdx
*/
TypedValue* fh_apc_bin_dump(TypedValue* _rv, long cache_id, TypedValue* filter) asm("_ZN4HPHP14f_apc_bin_dumpElRKNS_7VariantE");
TypedValue * fg1_apc_bin_dump(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_apc_bin_dump(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) {
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
tvCastToInt64InPlace(args-0);
fh_apc_bin_dump((rv), (count > 0) ? (long)(args[-0].m_data.num) : (long)(0), (count > 1) ? (args-1) : (TypedValue*)(&null_variant));
if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull;
return rv;
}
TypedValue* fg_apc_bin_dump(HPHP::VM::ActRec *ar) {
TypedValue rv;
int64_t count = ar->numArgs();
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
if (count <= 2LL) {
if ((count <= 0 || (args-0)->m_type == KindOfInt64)) {
fh_apc_bin_dump((&(rv)), (count > 0) ? (long)(args[-0].m_data.num) : (long)(0), (count > 1) ? (args-1) : (TypedValue*)(&null_variant));
if (rv.m_type == KindOfUninit) rv.m_type = KindOfNull;
frame_free_locals_no_this_inl(ar, 2);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
} else {
fg1_apc_bin_dump(&rv, ar, count);
frame_free_locals_no_this_inl(ar, 2);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
}
} else {
throw_toomany_arguments_nr("apc_bin_dump", 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_apc_bin_load(HPHP::String const&, long, long)
_ZN4HPHP14f_apc_bin_loadERKNS_6StringEll
(return value) => rax
data => rdi
flags => rsi
cache_id => rdx
*/
bool fh_apc_bin_load(Value* data, long flags, long cache_id) asm("_ZN4HPHP14f_apc_bin_loadERKNS_6StringEll");
TypedValue * fg1_apc_bin_load(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_apc_bin_load(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:
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 = (fh_apc_bin_load(&args[-0].m_data, (count > 1) ? (long)(args[-1].m_data.num) : (long)(0), (count > 2) ? (long)(args[-2].m_data.num) : (long)(0))) ? 1LL : 0LL;
return rv;
}
TypedValue* fg_apc_bin_load(HPHP::VM::ActRec *ar) {
TypedValue rv;
int64_t count = ar->numArgs();
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
if (count >= 1LL && count <= 3LL) {
if ((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 = (fh_apc_bin_load(&args[-0].m_data, (count > 1) ? (long)(args[-1].m_data.num) : (long)(0), (count > 2) ? (long)(args[-2].m_data.num) : (long)(0))) ? 1LL : 0LL;
frame_free_locals_no_this_inl(ar, 3);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
} else {
fg1_apc_bin_load(&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("apc_bin_load", count, 1, 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::Variant HPHP::f_apc_bin_dumpfile(long, HPHP::Variant const&, HPHP::String const&, long, HPHP::Object const&)
_ZN4HPHP18f_apc_bin_dumpfileElRKNS_7VariantERKNS_6StringElRKNS_6ObjectE
(return value) => rax
_rv => rdi
cache_id => rsi
filter => rdx
filename => rcx
flags => r8
context => r9
*/
TypedValue* fh_apc_bin_dumpfile(TypedValue* _rv, long cache_id, TypedValue* filter, Value* filename, long flags, Value* context) asm("_ZN4HPHP18f_apc_bin_dumpfileElRKNS_7VariantERKNS_6StringElRKNS_6ObjectE");
TypedValue * fg1_apc_bin_dumpfile(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_apc_bin_dumpfile(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) {
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
switch (count) {
default: // count >= 5
if ((args-4)->m_type != KindOfObject) {
tvCastToObjectInPlace(args-4);
}
case 4:
if ((args-3)->m_type != KindOfInt64) {
tvCastToInt64InPlace(args-3);
}
case 3:
break;
}
if (!IS_STRING_TYPE((args-2)->m_type)) {
tvCastToStringInPlace(args-2);
}
if ((args-0)->m_type != KindOfInt64) {
tvCastToInt64InPlace(args-0);
}
Object defVal4 = uninit_null();
fh_apc_bin_dumpfile((rv), (long)(args[-0].m_data.num), (args-1), &args[-2].m_data, (count > 3) ? (long)(args[-3].m_data.num) : (long)(0), (count > 4) ? &args[-4].m_data : (Value*)(&defVal4));
if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull;
return rv;
}
TypedValue* fg_apc_bin_dumpfile(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 == KindOfObject) && (count <= 3 || (args-3)->m_type == KindOfInt64) && IS_STRING_TYPE((args-2)->m_type) && (args-0)->m_type == KindOfInt64) {
Object defVal4 = uninit_null();
fh_apc_bin_dumpfile((&(rv)), (long)(args[-0].m_data.num), (args-1), &args[-2].m_data, (count > 3) ? (long)(args[-3].m_data.num) : (long)(0), (count > 4) ? &args[-4].m_data : (Value*)(&defVal4));
if (rv.m_type == KindOfUninit) rv.m_type = KindOfNull;
frame_free_locals_no_this_inl(ar, 5);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
} else {
fg1_apc_bin_dumpfile(&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("apc_bin_dumpfile", 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_apc_bin_loadfile(HPHP::String const&, HPHP::Object const&, long, long)
_ZN4HPHP18f_apc_bin_loadfileERKNS_6StringERKNS_6ObjectEll
(return value) => rax
filename => rdi
context => rsi
flags => rdx
cache_id => rcx
*/
bool fh_apc_bin_loadfile(Value* filename, Value* context, long flags, long cache_id) asm("_ZN4HPHP18f_apc_bin_loadfileERKNS_6StringERKNS_6ObjectEll");
TypedValue * fg1_apc_bin_loadfile(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_apc_bin_loadfile(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) {
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 != KindOfObject) {
tvCastToObjectInPlace(args-1);
}
case 1:
break;
}
if (!IS_STRING_TYPE((args-0)->m_type)) {
tvCastToStringInPlace(args-0);
}
Object defVal1 = uninit_null();
rv->m_data.num = (fh_apc_bin_loadfile(&args[-0].m_data, (count > 1) ? &args[-1].m_data : (Value*)(&defVal1), (count > 2) ? (long)(args[-2].m_data.num) : (long)(0), (count > 3) ? (long)(args[-3].m_data.num) : (long)(0))) ? 1LL : 0LL;
return rv;
}
TypedValue* fg_apc_bin_loadfile(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 == KindOfObject) && IS_STRING_TYPE((args-0)->m_type)) {
rv.m_type = KindOfBoolean;
Object defVal1 = uninit_null();
rv.m_data.num = (fh_apc_bin_loadfile(&args[-0].m_data, (count > 1) ? &args[-1].m_data : (Value*)(&defVal1), (count > 2) ? (long)(args[-2].m_data.num) : (long)(0), (count > 3) ? (long)(args[-3].m_data.num) : (long)(0))) ? 1LL : 0LL;
frame_free_locals_no_this_inl(ar, 4);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
} else {
fg1_apc_bin_loadfile(&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("apc_bin_loadfile", 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