Arquivos
hhvm/hphp/runtime/ext/ext_misc.ext_hhvm.cpp
T
ptarjan f7b2fac580 become consistent with zend for too few param error
I've been fighting with these in the importer. What do you think about being consistent? It gives an extra param of info too.
2013-04-04 15:38:49 -07:00

1454 linhas
44 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 {
/*
long HPHP::f_connection_aborted()
_ZN4HPHP20f_connection_abortedEv
(return value) => rax
*/
long fh_connection_aborted() asm("_ZN4HPHP20f_connection_abortedEv");
TypedValue* fg_connection_aborted(HPHP::VM::ActRec *ar) {
TypedValue rv;
int64_t count = ar->numArgs();
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
if (count == 0LL) {
rv.m_type = KindOfInt64;
rv.m_data.num = (int64_t)fh_connection_aborted();
frame_free_locals_no_this_inl(ar, 0);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
} else {
throw_toomany_arguments_nr("connection_aborted", 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;
}
/*
long HPHP::f_connection_status()
_ZN4HPHP19f_connection_statusEv
(return value) => rax
*/
long fh_connection_status() asm("_ZN4HPHP19f_connection_statusEv");
TypedValue* fg_connection_status(HPHP::VM::ActRec *ar) {
TypedValue rv;
int64_t count = ar->numArgs();
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
if (count == 0LL) {
rv.m_type = KindOfInt64;
rv.m_data.num = (int64_t)fh_connection_status();
frame_free_locals_no_this_inl(ar, 0);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
} else {
throw_toomany_arguments_nr("connection_status", 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;
}
/*
long HPHP::f_connection_timeout()
_ZN4HPHP20f_connection_timeoutEv
(return value) => rax
*/
long fh_connection_timeout() asm("_ZN4HPHP20f_connection_timeoutEv");
TypedValue* fg_connection_timeout(HPHP::VM::ActRec *ar) {
TypedValue rv;
int64_t count = ar->numArgs();
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
if (count == 0LL) {
rv.m_type = KindOfInt64;
rv.m_data.num = (int64_t)fh_connection_timeout();
frame_free_locals_no_this_inl(ar, 0);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
} else {
throw_toomany_arguments_nr("connection_timeout", 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_constant(HPHP::String const&)
_ZN4HPHP10f_constantERKNS_6StringE
(return value) => rax
_rv => rdi
name => rsi
*/
TypedValue* fh_constant(TypedValue* _rv, Value* name) asm("_ZN4HPHP10f_constantERKNS_6StringE");
TypedValue * fg1_constant(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_constant(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) {
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
tvCastToStringInPlace(args-0);
fh_constant((rv), &args[-0].m_data);
if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull;
return rv;
}
TypedValue* fg_constant(HPHP::VM::ActRec *ar) {
TypedValue rv;
int64_t count = ar->numArgs();
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
if (count == 1LL) {
if (IS_STRING_TYPE((args-0)->m_type)) {
fh_constant((&(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_constant(&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("constant", 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_define(HPHP::String const&, HPHP::Variant const&, bool)
_ZN4HPHP8f_defineERKNS_6StringERKNS_7VariantEb
(return value) => rax
name => rdi
value => rsi
case_insensitive => rdx
*/
bool fh_define(Value* name, TypedValue* value, bool case_insensitive) asm("_ZN4HPHP8f_defineERKNS_6StringERKNS_7VariantEb");
TypedValue * fg1_define(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_define(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 != KindOfBoolean) {
tvCastToBooleanInPlace(args-2);
}
case 2:
break;
}
if (!IS_STRING_TYPE((args-0)->m_type)) {
tvCastToStringInPlace(args-0);
}
rv->m_data.num = (fh_define(&args[-0].m_data, (args-1), (count > 2) ? (bool)(args[-2].m_data.num) : (bool)(false))) ? 1LL : 0LL;
return rv;
}
TypedValue* fg_define(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 == KindOfBoolean) && IS_STRING_TYPE((args-0)->m_type)) {
rv.m_type = KindOfBoolean;
rv.m_data.num = (fh_define(&args[-0].m_data, (args-1), (count > 2) ? (bool)(args[-2].m_data.num) : (bool)(false))) ? 1LL : 0LL;
frame_free_locals_no_this_inl(ar, 3);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
} else {
fg1_define(&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("define", 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_defined(HPHP::String const&, bool)
_ZN4HPHP9f_definedERKNS_6StringEb
(return value) => rax
name => rdi
autoload => rsi
*/
bool fh_defined(Value* name, bool autoload) asm("_ZN4HPHP9f_definedERKNS_6StringEb");
TypedValue * fg1_defined(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_defined(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 != KindOfBoolean) {
tvCastToBooleanInPlace(args-1);
}
case 1:
break;
}
if (!IS_STRING_TYPE((args-0)->m_type)) {
tvCastToStringInPlace(args-0);
}
rv->m_data.num = (fh_defined(&args[-0].m_data, (count > 1) ? (bool)(args[-1].m_data.num) : (bool)(true))) ? 1LL : 0LL;
return rv;
}
TypedValue* fg_defined(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 == KindOfBoolean) && IS_STRING_TYPE((args-0)->m_type)) {
rv.m_type = KindOfBoolean;
rv.m_data.num = (fh_defined(&args[-0].m_data, (count > 1) ? (bool)(args[-1].m_data.num) : (bool)(true))) ? 1LL : 0LL;
frame_free_locals_no_this_inl(ar, 2);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
} else {
fg1_defined(&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("defined", 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_die(HPHP::Variant const&)
_ZN4HPHP5f_dieERKNS_7VariantE
(return value) => rax
_rv => rdi
status => rsi
*/
TypedValue* fh_die(TypedValue* _rv, TypedValue* status) asm("_ZN4HPHP5f_dieERKNS_7VariantE");
TypedValue* fg_die(HPHP::VM::ActRec *ar) {
TypedValue rv;
int64_t count = ar->numArgs();
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
if (count <= 1LL) {
fh_die((&(rv)), (count > 0) ? (args-0) : (TypedValue*)(&null_variant));
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 {
throw_toomany_arguments_nr("die", 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_exit(HPHP::Variant const&)
_ZN4HPHP6f_exitERKNS_7VariantE
(return value) => rax
_rv => rdi
status => rsi
*/
TypedValue* fh_exit(TypedValue* _rv, TypedValue* status) asm("_ZN4HPHP6f_exitERKNS_7VariantE");
TypedValue* fg_exit(HPHP::VM::ActRec *ar) {
TypedValue rv;
int64_t count = ar->numArgs();
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
if (count <= 1LL) {
fh_exit((&(rv)), (count > 0) ? (args-0) : (TypedValue*)(&null_variant));
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 {
throw_toomany_arguments_nr("exit", 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_eval(HPHP::String const&)
_ZN4HPHP6f_evalERKNS_6StringE
(return value) => rax
_rv => rdi
code_str => rsi
*/
TypedValue* fh_eval(TypedValue* _rv, Value* code_str) asm("_ZN4HPHP6f_evalERKNS_6StringE");
TypedValue * fg1_eval(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_eval(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) {
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
tvCastToStringInPlace(args-0);
fh_eval((rv), &args[-0].m_data);
if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull;
return rv;
}
TypedValue* fg_eval(HPHP::VM::ActRec *ar) {
TypedValue rv;
int64_t count = ar->numArgs();
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
if (count == 1LL) {
if (IS_STRING_TYPE((args-0)->m_type)) {
fh_eval((&(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_eval(&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("eval", 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_get_browser(HPHP::String const&, bool)
_ZN4HPHP13f_get_browserERKNS_6StringEb
(return value) => rax
_rv => rdi
user_agent => rsi
return_array => rdx
*/
TypedValue* fh_get_browser(TypedValue* _rv, Value* user_agent, bool return_array) asm("_ZN4HPHP13f_get_browserERKNS_6StringEb");
TypedValue * fg1_get_browser(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_get_browser(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 (!IS_STRING_TYPE((args-0)->m_type)) {
tvCastToStringInPlace(args-0);
}
case 0:
break;
}
fh_get_browser((rv), (count > 0) ? &args[-0].m_data : (Value*)(&null_string), (count > 1) ? (bool)(args[-1].m_data.num) : (bool)(false));
if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull;
return rv;
}
TypedValue* fg_get_browser(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 || IS_STRING_TYPE((args-0)->m_type))) {
fh_get_browser((&(rv)), (count > 0) ? &args[-0].m_data : (Value*)(&null_string), (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_get_browser(&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("get_browser", 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;
}
/*
void HPHP::f___halt_compiler()
_ZN4HPHP17f___halt_compilerEv
*/
void fh___halt_compiler() asm("_ZN4HPHP17f___halt_compilerEv");
TypedValue* fg___halt_compiler(HPHP::VM::ActRec *ar) {
TypedValue rv;
int64_t count = ar->numArgs();
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
if (count == 0LL) {
rv.m_data.num = 0LL;
rv.m_type = KindOfNull;
fh___halt_compiler();
frame_free_locals_no_this_inl(ar, 0);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
} else {
throw_toomany_arguments_nr("__halt_compiler", 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_highlight_file(HPHP::String const&, bool)
_ZN4HPHP16f_highlight_fileERKNS_6StringEb
(return value) => rax
_rv => rdi
filename => rsi
ret => rdx
*/
TypedValue* fh_highlight_file(TypedValue* _rv, Value* filename, bool ret) asm("_ZN4HPHP16f_highlight_fileERKNS_6StringEb");
TypedValue * fg1_highlight_file(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_highlight_file(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:
break;
}
if (!IS_STRING_TYPE((args-0)->m_type)) {
tvCastToStringInPlace(args-0);
}
fh_highlight_file((rv), &args[-0].m_data, (count > 1) ? (bool)(args[-1].m_data.num) : (bool)(false));
if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull;
return rv;
}
TypedValue* fg_highlight_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 == KindOfBoolean) && IS_STRING_TYPE((args-0)->m_type)) {
fh_highlight_file((&(rv)), &args[-0].m_data, (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_highlight_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("highlight_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_show_source(HPHP::String const&, bool)
_ZN4HPHP13f_show_sourceERKNS_6StringEb
(return value) => rax
_rv => rdi
filename => rsi
ret => rdx
*/
TypedValue* fh_show_source(TypedValue* _rv, Value* filename, bool ret) asm("_ZN4HPHP13f_show_sourceERKNS_6StringEb");
TypedValue * fg1_show_source(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_show_source(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:
break;
}
if (!IS_STRING_TYPE((args-0)->m_type)) {
tvCastToStringInPlace(args-0);
}
fh_show_source((rv), &args[-0].m_data, (count > 1) ? (bool)(args[-1].m_data.num) : (bool)(false));
if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull;
return rv;
}
TypedValue* fg_show_source(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 == KindOfBoolean) && IS_STRING_TYPE((args-0)->m_type)) {
fh_show_source((&(rv)), &args[-0].m_data, (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_show_source(&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("show_source", 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_highlight_string(HPHP::String const&, bool)
_ZN4HPHP18f_highlight_stringERKNS_6StringEb
(return value) => rax
_rv => rdi
str => rsi
ret => rdx
*/
TypedValue* fh_highlight_string(TypedValue* _rv, Value* str, bool ret) asm("_ZN4HPHP18f_highlight_stringERKNS_6StringEb");
TypedValue * fg1_highlight_string(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_highlight_string(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:
break;
}
if (!IS_STRING_TYPE((args-0)->m_type)) {
tvCastToStringInPlace(args-0);
}
fh_highlight_string((rv), &args[-0].m_data, (count > 1) ? (bool)(args[-1].m_data.num) : (bool)(false));
if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull;
return rv;
}
TypedValue* fg_highlight_string(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 == KindOfBoolean) && IS_STRING_TYPE((args-0)->m_type)) {
fh_highlight_string((&(rv)), &args[-0].m_data, (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_highlight_string(&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("highlight_string", 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;
}
/*
long HPHP::f_ignore_user_abort(bool)
_ZN4HPHP19f_ignore_user_abortEb
(return value) => rax
setting => rdi
*/
long fh_ignore_user_abort(bool setting) asm("_ZN4HPHP19f_ignore_user_abortEb");
TypedValue * fg1_ignore_user_abort(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_ignore_user_abort(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) {
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
rv->m_type = KindOfInt64;
tvCastToBooleanInPlace(args-0);
rv->m_data.num = (int64_t)fh_ignore_user_abort((count > 0) ? (bool)(args[-0].m_data.num) : (bool)(false));
return rv;
}
TypedValue* fg_ignore_user_abort(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 = KindOfInt64;
rv.m_data.num = (int64_t)fh_ignore_user_abort((count > 0) ? (bool)(args[-0].m_data.num) : (bool)(false));
frame_free_locals_no_this_inl(ar, 1);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
} else {
fg1_ignore_user_abort(&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("ignore_user_abort", 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_pack(int, HPHP::String const&, HPHP::Array const&)
_ZN4HPHP6f_packEiRKNS_6StringERKNS_5ArrayE
(return value) => rax
_rv => rdi
_argc => rsi
format => rdx
_argv => rcx
*/
TypedValue* fh_pack(TypedValue* _rv, int64_t _argc, Value* format, Value* _argv) asm("_ZN4HPHP6f_packEiRKNS_6StringERKNS_5ArrayE");
TypedValue * fg1_pack(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_pack(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) {
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
tvCastToStringInPlace(args-0);
Array extraArgs;
{
ArrayInit ai(count-1);
for (int64_t i = 1; i < count; ++i) {
TypedValue* extraArg = ar->getExtraArg(i-1);
if (tvIsStronglyBound(extraArg)) {
ai.setRef(i-1, tvAsVariant(extraArg));
} else {
ai.set(i-1, tvAsVariant(extraArg));
}
}
extraArgs = ai.create();
}
fh_pack((rv), (count), &args[-0].m_data, (Value*)(&extraArgs));
if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull;
return rv;
}
TypedValue* fg_pack(HPHP::VM::ActRec *ar) {
TypedValue rv;
int64_t count = ar->numArgs();
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
if (count >= 1LL) {
if (IS_STRING_TYPE((args-0)->m_type)) {
Array extraArgs;
{
ArrayInit ai(count-1);
for (int64_t i = 1; i < count; ++i) {
TypedValue* extraArg = ar->getExtraArg(i-1);
if (tvIsStronglyBound(extraArg)) {
ai.setRef(i-1, tvAsVariant(extraArg));
} else {
ai.set(i-1, tvAsVariant(extraArg));
}
}
extraArgs = ai.create();
}
fh_pack((&(rv)), (count), &args[-0].m_data, (Value*)(&extraArgs));
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_pack(&rv, ar, count);
frame_free_locals_no_this_inl(ar, 1);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
}
} else {
throw_missing_arguments_nr("pack", 1, count, 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_php_check_syntax(HPHP::String const&, HPHP::VRefParamValue const&)
_ZN4HPHP18f_php_check_syntaxERKNS_6StringERKNS_14VRefParamValueE
(return value) => rax
filename => rdi
error_message => rsi
*/
bool fh_php_check_syntax(Value* filename, TypedValue* error_message) asm("_ZN4HPHP18f_php_check_syntaxERKNS_6StringERKNS_14VRefParamValueE");
TypedValue * fg1_php_check_syntax(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_php_check_syntax(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) {
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
rv->m_type = KindOfBoolean;
tvCastToStringInPlace(args-0);
VRefParamValue defVal1 = uninit_null();
rv->m_data.num = (fh_php_check_syntax(&args[-0].m_data, (count > 1) ? (args-1) : (TypedValue*)(&defVal1))) ? 1LL : 0LL;
return rv;
}
TypedValue* fg_php_check_syntax(HPHP::VM::ActRec *ar) {
TypedValue rv;
int64_t count = ar->numArgs();
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
if (count >= 1LL && count <= 2LL) {
if (IS_STRING_TYPE((args-0)->m_type)) {
rv.m_type = KindOfBoolean;
VRefParamValue defVal1 = uninit_null();
rv.m_data.num = (fh_php_check_syntax(&args[-0].m_data, (count > 1) ? (args-1) : (TypedValue*)(&defVal1))) ? 1LL : 0LL;
frame_free_locals_no_this_inl(ar, 2);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
} else {
fg1_php_check_syntax(&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("php_check_syntax", 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::String HPHP::f_php_strip_whitespace(HPHP::String const&)
_ZN4HPHP22f_php_strip_whitespaceERKNS_6StringE
(return value) => rax
_rv => rdi
filename => rsi
*/
Value* fh_php_strip_whitespace(Value* _rv, Value* filename) asm("_ZN4HPHP22f_php_strip_whitespaceERKNS_6StringE");
TypedValue * fg1_php_strip_whitespace(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_php_strip_whitespace(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) {
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
rv->m_type = KindOfString;
tvCastToStringInPlace(args-0);
fh_php_strip_whitespace((&rv->m_data), &args[-0].m_data);
if (rv->m_data.num == 0LL) rv->m_type = KindOfNull;
return rv;
}
TypedValue* fg_php_strip_whitespace(HPHP::VM::ActRec *ar) {
TypedValue rv;
int64_t count = ar->numArgs();
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
if (count == 1LL) {
if (IS_STRING_TYPE((args-0)->m_type)) {
rv.m_type = KindOfString;
fh_php_strip_whitespace((&rv.m_data), &args[-0].m_data);
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_php_strip_whitespace(&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("php_strip_whitespace", 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;
}
/*
long HPHP::f_sleep(int)
_ZN4HPHP7f_sleepEi
(return value) => rax
seconds => rdi
*/
long fh_sleep(int seconds) asm("_ZN4HPHP7f_sleepEi");
TypedValue * fg1_sleep(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_sleep(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) {
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
rv->m_type = KindOfInt64;
tvCastToInt64InPlace(args-0);
rv->m_data.num = (int64_t)fh_sleep((int)(args[-0].m_data.num));
return rv;
}
TypedValue* fg_sleep(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 == KindOfInt64) {
rv.m_type = KindOfInt64;
rv.m_data.num = (int64_t)fh_sleep((int)(args[-0].m_data.num));
frame_free_locals_no_this_inl(ar, 1);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
} else {
fg1_sleep(&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("sleep", 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;
}
/*
void HPHP::f_usleep(int)
_ZN4HPHP8f_usleepEi
micro_seconds => rdi
*/
void fh_usleep(int micro_seconds) asm("_ZN4HPHP8f_usleepEi");
TypedValue * fg1_usleep(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_usleep(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) {
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
rv->m_data.num = 0LL;
rv->m_type = KindOfNull;
tvCastToInt64InPlace(args-0);
fh_usleep((int)(args[-0].m_data.num));
return rv;
}
TypedValue* fg_usleep(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 == KindOfInt64) {
rv.m_data.num = 0LL;
rv.m_type = KindOfNull;
fh_usleep((int)(args[-0].m_data.num));
frame_free_locals_no_this_inl(ar, 1);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
} else {
fg1_usleep(&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("usleep", 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_time_nanosleep(int, int)
_ZN4HPHP16f_time_nanosleepEii
(return value) => rax
_rv => rdi
seconds => rsi
nanoseconds => rdx
*/
TypedValue* fh_time_nanosleep(TypedValue* _rv, int seconds, int nanoseconds) asm("_ZN4HPHP16f_time_nanosleepEii");
TypedValue * fg1_time_nanosleep(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_time_nanosleep(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) {
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
if ((args-1)->m_type != KindOfInt64) {
tvCastToInt64InPlace(args-1);
}
if ((args-0)->m_type != KindOfInt64) {
tvCastToInt64InPlace(args-0);
}
fh_time_nanosleep((rv), (int)(args[-0].m_data.num), (int)(args[-1].m_data.num));
if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull;
return rv;
}
TypedValue* fg_time_nanosleep(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 == KindOfInt64) {
fh_time_nanosleep((&(rv)), (int)(args[-0].m_data.num), (int)(args[-1].m_data.num));
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_time_nanosleep(&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("time_nanosleep", 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;
}
/*
bool HPHP::f_time_sleep_until(double)
_ZN4HPHP18f_time_sleep_untilEd
(return value) => rax
timestamp => xmm0
*/
bool fh_time_sleep_until(double timestamp) asm("_ZN4HPHP18f_time_sleep_untilEd");
TypedValue * fg1_time_sleep_until(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_time_sleep_until(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) {
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
rv->m_type = KindOfBoolean;
tvCastToDoubleInPlace(args-0);
rv->m_data.num = (fh_time_sleep_until((args[-0].m_data.dbl))) ? 1LL : 0LL;
return rv;
}
TypedValue* fg_time_sleep_until(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 == KindOfDouble) {
rv.m_type = KindOfBoolean;
rv.m_data.num = (fh_time_sleep_until((args[-0].m_data.dbl))) ? 1LL : 0LL;
frame_free_locals_no_this_inl(ar, 1);
memcpy(&ar->m_r, &rv, sizeof(TypedValue));
return &ar->m_r;
} else {
fg1_time_sleep_until(&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("time_sleep_until", 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::String HPHP::f_uniqid(HPHP::String const&, bool)
_ZN4HPHP8f_uniqidERKNS_6StringEb
(return value) => rax
_rv => rdi
prefix => rsi
more_entropy => rdx
*/
Value* fh_uniqid(Value* _rv, Value* prefix, bool more_entropy) asm("_ZN4HPHP8f_uniqidERKNS_6StringEb");
TypedValue * fg1_uniqid(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_uniqid(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) {
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
rv->m_type = KindOfString;
switch (count) {
default: // count >= 2
if ((args-1)->m_type != KindOfBoolean) {
tvCastToBooleanInPlace(args-1);
}
case 1:
if (!IS_STRING_TYPE((args-0)->m_type)) {
tvCastToStringInPlace(args-0);
}
case 0:
break;
}
fh_uniqid((&rv->m_data), (count > 0) ? &args[-0].m_data : (Value*)(&null_string), (count > 1) ? (bool)(args[-1].m_data.num) : (bool)(false));
if (rv->m_data.num == 0LL) rv->m_type = KindOfNull;
return rv;
}
TypedValue* fg_uniqid(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 || IS_STRING_TYPE((args-0)->m_type))) {
rv.m_type = KindOfString;
fh_uniqid((&rv.m_data), (count > 0) ? &args[-0].m_data : (Value*)(&null_string), (count > 1) ? (bool)(args[-1].m_data.num) : (bool)(false));
if (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;
} else {
fg1_uniqid(&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("uniqid", 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_unpack(HPHP::String const&, HPHP::String const&)
_ZN4HPHP8f_unpackERKNS_6StringES2_
(return value) => rax
_rv => rdi
format => rsi
data => rdx
*/
TypedValue* fh_unpack(TypedValue* _rv, Value* format, Value* data) asm("_ZN4HPHP8f_unpackERKNS_6StringES2_");
TypedValue * fg1_unpack(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_unpack(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) {
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
if (!IS_STRING_TYPE((args-1)->m_type)) {
tvCastToStringInPlace(args-1);
}
if (!IS_STRING_TYPE((args-0)->m_type)) {
tvCastToStringInPlace(args-0);
}
fh_unpack((rv), &args[-0].m_data, &args[-1].m_data);
if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull;
return rv;
}
TypedValue* fg_unpack(HPHP::VM::ActRec *ar) {
TypedValue rv;
int64_t count = ar->numArgs();
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
if (count == 2LL) {
if (IS_STRING_TYPE((args-1)->m_type) && IS_STRING_TYPE((args-0)->m_type)) {
fh_unpack((&(rv)), &args[-0].m_data, &args[-1].m_data);
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_unpack(&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("unpack", 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;
}
/*
HPHP::Array HPHP::f_sys_getloadavg()
_ZN4HPHP16f_sys_getloadavgEv
(return value) => rax
_rv => rdi
*/
Value* fh_sys_getloadavg(Value* _rv) asm("_ZN4HPHP16f_sys_getloadavgEv");
TypedValue* fg_sys_getloadavg(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_sys_getloadavg((&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("sys_getloadavg", 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::Array HPHP::f_token_get_all(HPHP::String const&)
_ZN4HPHP15f_token_get_allERKNS_6StringE
(return value) => rax
_rv => rdi
source => rsi
*/
Value* fh_token_get_all(Value* _rv, Value* source) asm("_ZN4HPHP15f_token_get_allERKNS_6StringE");
TypedValue * fg1_token_get_all(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_token_get_all(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) {
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
rv->m_type = KindOfArray;
tvCastToStringInPlace(args-0);
fh_token_get_all((&rv->m_data), &args[-0].m_data);
if (rv->m_data.num == 0LL) rv->m_type = KindOfNull;
return rv;
}
TypedValue* fg_token_get_all(HPHP::VM::ActRec *ar) {
TypedValue rv;
int64_t count = ar->numArgs();
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
if (count == 1LL) {
if (IS_STRING_TYPE((args-0)->m_type)) {
rv.m_type = KindOfArray;
fh_token_get_all((&rv.m_data), &args[-0].m_data);
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_token_get_all(&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("token_get_all", 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::String HPHP::f_token_name(long)
_ZN4HPHP12f_token_nameEl
(return value) => rax
_rv => rdi
token => rsi
*/
Value* fh_token_name(Value* _rv, long token) asm("_ZN4HPHP12f_token_nameEl");
TypedValue * fg1_token_name(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold));
TypedValue * fg1_token_name(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) {
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
rv->m_type = KindOfString;
tvCastToInt64InPlace(args-0);
fh_token_name((&rv->m_data), (long)(args[-0].m_data.num));
if (rv->m_data.num == 0LL) rv->m_type = KindOfNull;
return rv;
}
TypedValue* fg_token_name(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 == KindOfInt64) {
rv.m_type = KindOfString;
fh_token_name((&rv.m_data), (long)(args[-0].m_data.num));
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_token_name(&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("token_name", 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_hphp_process_abort(HPHP::Variant const&)
_ZN4HPHP20f_hphp_process_abortERKNS_7VariantE
(return value) => rax
_rv => rdi
magic => rsi
*/
TypedValue* fh_hphp_process_abort(TypedValue* _rv, TypedValue* magic) asm("_ZN4HPHP20f_hphp_process_abortERKNS_7VariantE");
TypedValue* fg_hphp_process_abort(HPHP::VM::ActRec *ar) {
TypedValue rv;
int64_t count = ar->numArgs();
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
if (count == 1LL) {
fh_hphp_process_abort((&(rv)), (args-0));
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 {
throw_wrong_arguments_nr("hphp_process_abort", 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::String HPHP::f_hphp_to_string(HPHP::Variant const&)
_ZN4HPHP16f_hphp_to_stringERKNS_7VariantE
(return value) => rax
_rv => rdi
v => rsi
*/
Value* fh_hphp_to_string(Value* _rv, TypedValue* v) asm("_ZN4HPHP16f_hphp_to_stringERKNS_7VariantE");
TypedValue* fg_hphp_to_string(HPHP::VM::ActRec *ar) {
TypedValue rv;
int64_t count = ar->numArgs();
TypedValue* args UNUSED = ((TypedValue*)ar) - 1;
if (count == 1LL) {
rv.m_type = KindOfString;
fh_hphp_to_string((&rv.m_data), (args-0));
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 {
throw_wrong_arguments_nr("hphp_to_string", 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