/* +----------------------------------------------------------------------+ | 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::Array HPHP::f_spl_classes() _ZN4HPHP13f_spl_classesEv (return value) => rax _rv => rdi */ Value* fh_spl_classes(Value* _rv) asm("_ZN4HPHP13f_spl_classesEv"); TypedValue* fg_spl_classes(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_spl_classes((&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("spl_classes", 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::String HPHP::f_spl_object_hash(HPHP::Object const&) _ZN4HPHP17f_spl_object_hashERKNS_6ObjectE (return value) => rax _rv => rdi obj => rsi */ Value* fh_spl_object_hash(Value* _rv, Value* obj) asm("_ZN4HPHP17f_spl_object_hashERKNS_6ObjectE"); TypedValue * fg1_spl_object_hash(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_spl_object_hash(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfString; tvCastToObjectInPlace(args-0); fh_spl_object_hash((&rv->m_data), &args[-0].m_data); if (rv->m_data.num == 0LL) rv->m_type = KindOfNull; return rv; } TypedValue* fg_spl_object_hash(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 = KindOfString; fh_spl_object_hash((&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_spl_object_hash(&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("spl_object_hash", 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_get_this() _ZN4HPHP15f_hphp_get_thisEv (return value) => rax _rv => rdi */ TypedValue* fh_hphp_get_this(TypedValue* _rv) asm("_ZN4HPHP15f_hphp_get_thisEv"); TypedValue* fg_hphp_get_this(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count == 0LL) { fh_hphp_get_this((&(rv))); if (rv.m_type == KindOfUninit) 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("hphp_get_this", 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_class_implements(HPHP::Variant const&, bool) _ZN4HPHP18f_class_implementsERKNS_7VariantEb (return value) => rax _rv => rdi obj => rsi autoload => rdx */ TypedValue* fh_class_implements(TypedValue* _rv, TypedValue* obj, bool autoload) asm("_ZN4HPHP18f_class_implementsERKNS_7VariantEb"); TypedValue * fg1_class_implements(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_class_implements(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; tvCastToBooleanInPlace(args-1); fh_class_implements((rv), (args-0), (count > 1) ? (bool)(args[-1].m_data.num) : (bool)(true)); if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull; return rv; } TypedValue* fg_class_implements(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)) { fh_class_implements((&(rv)), (args-0), (count > 1) ? (bool)(args[-1].m_data.num) : (bool)(true)); 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_class_implements(&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("class_implements", 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_class_parents(HPHP::Variant const&, bool) _ZN4HPHP15f_class_parentsERKNS_7VariantEb (return value) => rax _rv => rdi obj => rsi autoload => rdx */ TypedValue* fh_class_parents(TypedValue* _rv, TypedValue* obj, bool autoload) asm("_ZN4HPHP15f_class_parentsERKNS_7VariantEb"); TypedValue * fg1_class_parents(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_class_parents(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; tvCastToBooleanInPlace(args-1); fh_class_parents((rv), (args-0), (count > 1) ? (bool)(args[-1].m_data.num) : (bool)(true)); if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull; return rv; } TypedValue* fg_class_parents(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)) { fh_class_parents((&(rv)), (args-0), (count > 1) ? (bool)(args[-1].m_data.num) : (bool)(true)); 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_class_parents(&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("class_parents", 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_class_uses(HPHP::Variant const&, bool) _ZN4HPHP12f_class_usesERKNS_7VariantEb (return value) => rax _rv => rdi obj => rsi autoload => rdx */ TypedValue* fh_class_uses(TypedValue* _rv, TypedValue* obj, bool autoload) asm("_ZN4HPHP12f_class_usesERKNS_7VariantEb"); TypedValue * fg1_class_uses(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_class_uses(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; tvCastToBooleanInPlace(args-1); fh_class_uses((rv), (args-0), (count > 1) ? (bool)(args[-1].m_data.num) : (bool)(true)); if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull; return rv; } TypedValue* fg_class_uses(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)) { fh_class_uses((&(rv)), (args-0), (count > 1) ? (bool)(args[-1].m_data.num) : (bool)(true)); 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_class_uses(&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("class_uses", 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_iterator_apply(HPHP::Variant const&, HPHP::Variant const&, HPHP::Array const&) _ZN4HPHP16f_iterator_applyERKNS_7VariantES2_RKNS_5ArrayE (return value) => rax _rv => rdi obj => rsi func => rdx params => rcx */ TypedValue* fh_iterator_apply(TypedValue* _rv, TypedValue* obj, TypedValue* func, Value* params) asm("_ZN4HPHP16f_iterator_applyERKNS_7VariantES2_RKNS_5ArrayE"); TypedValue * fg1_iterator_apply(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_iterator_apply(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; tvCastToArrayInPlace(args-2); fh_iterator_apply((rv), (args-0), (args-1), (count > 2) ? &args[-2].m_data : (Value*)(&null_array)); if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull; return rv; } TypedValue* fg_iterator_apply(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 == KindOfArray)) { fh_iterator_apply((&(rv)), (args-0), (args-1), (count > 2) ? &args[-2].m_data : (Value*)(&null_array)); 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_iterator_apply(&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("iterator_apply", 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::Variant HPHP::f_iterator_count(HPHP::Variant const&) _ZN4HPHP16f_iterator_countERKNS_7VariantE (return value) => rax _rv => rdi obj => rsi */ TypedValue* fh_iterator_count(TypedValue* _rv, TypedValue* obj) asm("_ZN4HPHP16f_iterator_countERKNS_7VariantE"); TypedValue* fg_iterator_count(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count == 1LL) { fh_iterator_count((&(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("iterator_count", 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_iterator_to_array(HPHP::Variant const&, bool) _ZN4HPHP19f_iterator_to_arrayERKNS_7VariantEb (return value) => rax _rv => rdi obj => rsi use_keys => rdx */ TypedValue* fh_iterator_to_array(TypedValue* _rv, TypedValue* obj, bool use_keys) asm("_ZN4HPHP19f_iterator_to_arrayERKNS_7VariantEb"); TypedValue * fg1_iterator_to_array(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_iterator_to_array(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; tvCastToBooleanInPlace(args-1); fh_iterator_to_array((rv), (args-0), (count > 1) ? (bool)(args[-1].m_data.num) : (bool)(true)); if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull; return rv; } TypedValue* fg_iterator_to_array(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)) { fh_iterator_to_array((&(rv)), (args-0), (count > 1) ? (bool)(args[-1].m_data.num) : (bool)(true)); 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_iterator_to_array(&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("iterator_to_array", 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; } /* void HPHP::f_spl_autoload_call(HPHP::String const&) _ZN4HPHP19f_spl_autoload_callERKNS_6StringE class_name => rdi */ void fh_spl_autoload_call(Value* class_name) asm("_ZN4HPHP19f_spl_autoload_callERKNS_6StringE"); TypedValue * fg1_spl_autoload_call(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_spl_autoload_call(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_data.num = 0LL; rv->m_type = KindOfNull; tvCastToStringInPlace(args-0); fh_spl_autoload_call(&args[-0].m_data); return rv; } TypedValue* fg_spl_autoload_call(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_data.num = 0LL; rv.m_type = KindOfNull; fh_spl_autoload_call(&args[-0].m_data); frame_free_locals_no_this_inl(ar, 1); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { fg1_spl_autoload_call(&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("spl_autoload_call", 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_spl_autoload_extensions(HPHP::String const&) _ZN4HPHP25f_spl_autoload_extensionsERKNS_6StringE (return value) => rax _rv => rdi file_extensions => rsi */ Value* fh_spl_autoload_extensions(Value* _rv, Value* file_extensions) asm("_ZN4HPHP25f_spl_autoload_extensionsERKNS_6StringE"); TypedValue * fg1_spl_autoload_extensions(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_spl_autoload_extensions(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfString; tvCastToStringInPlace(args-0); fh_spl_autoload_extensions((&rv->m_data), (count > 0) ? &args[-0].m_data : (Value*)(&null_string)); if (rv->m_data.num == 0LL) rv->m_type = KindOfNull; return rv; } TypedValue* fg_spl_autoload_extensions(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count <= 1LL) { if ((count <= 0 || IS_STRING_TYPE((args-0)->m_type))) { rv.m_type = KindOfString; fh_spl_autoload_extensions((&rv.m_data), (count > 0) ? &args[-0].m_data : (Value*)(&null_string)); 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_spl_autoload_extensions(&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("spl_autoload_extensions", 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_spl_autoload_functions() _ZN4HPHP24f_spl_autoload_functionsEv (return value) => rax _rv => rdi */ TypedValue* fh_spl_autoload_functions(TypedValue* _rv) asm("_ZN4HPHP24f_spl_autoload_functionsEv"); TypedValue* fg_spl_autoload_functions(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count == 0LL) { fh_spl_autoload_functions((&(rv))); if (rv.m_type == KindOfUninit) 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("spl_autoload_functions", 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; } /* bool HPHP::f_spl_autoload_register(HPHP::Variant const&, bool, bool) _ZN4HPHP23f_spl_autoload_registerERKNS_7VariantEbb (return value) => rax autoload_function => rdi throws => rsi prepend => rdx */ bool fh_spl_autoload_register(TypedValue* autoload_function, bool throws, bool prepend) asm("_ZN4HPHP23f_spl_autoload_registerERKNS_7VariantEbb"); TypedValue * fg1_spl_autoload_register(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_spl_autoload_register(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: if ((args-1)->m_type != KindOfBoolean) { tvCastToBooleanInPlace(args-1); } case 1: case 0: break; } rv->m_data.num = (fh_spl_autoload_register((count > 0) ? (args-0) : (TypedValue*)(&null_variant), (count > 1) ? (bool)(args[-1].m_data.num) : (bool)(true), (count > 2) ? (bool)(args[-2].m_data.num) : (bool)(false))) ? 1LL : 0LL; return rv; } TypedValue* fg_spl_autoload_register(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count <= 3LL) { if ((count <= 2 || (args-2)->m_type == KindOfBoolean) && (count <= 1 || (args-1)->m_type == KindOfBoolean)) { rv.m_type = KindOfBoolean; rv.m_data.num = (fh_spl_autoload_register((count > 0) ? (args-0) : (TypedValue*)(&null_variant), (count > 1) ? (bool)(args[-1].m_data.num) : (bool)(true), (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_spl_autoload_register(&rv, ar, count); frame_free_locals_no_this_inl(ar, 3); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_toomany_arguments_nr("spl_autoload_register", 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_spl_autoload_unregister(HPHP::Variant const&) _ZN4HPHP25f_spl_autoload_unregisterERKNS_7VariantE (return value) => rax autoload_function => rdi */ bool fh_spl_autoload_unregister(TypedValue* autoload_function) asm("_ZN4HPHP25f_spl_autoload_unregisterERKNS_7VariantE"); TypedValue* fg_spl_autoload_unregister(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count == 1LL) { rv.m_type = KindOfBoolean; rv.m_data.num = (fh_spl_autoload_unregister((args-0))) ? 1LL : 0LL; frame_free_locals_no_this_inl(ar, 1); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { throw_wrong_arguments_nr("spl_autoload_unregister", 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_spl_autoload(HPHP::String const&, HPHP::String const&) _ZN4HPHP14f_spl_autoloadERKNS_6StringES2_ class_name => rdi file_extensions => rsi */ void fh_spl_autoload(Value* class_name, Value* file_extensions) asm("_ZN4HPHP14f_spl_autoloadERKNS_6StringES2_"); TypedValue * fg1_spl_autoload(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_spl_autoload(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_data.num = 0LL; rv->m_type = KindOfNull; switch (count) { default: // count >= 2 if (!IS_STRING_TYPE((args-1)->m_type)) { tvCastToStringInPlace(args-1); } case 1: break; } if (!IS_STRING_TYPE((args-0)->m_type)) { tvCastToStringInPlace(args-0); } fh_spl_autoload(&args[-0].m_data, (count > 1) ? &args[-1].m_data : (Value*)(&null_string)); return rv; } TypedValue* fg_spl_autoload(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 || IS_STRING_TYPE((args-1)->m_type)) && IS_STRING_TYPE((args-0)->m_type)) { rv.m_data.num = 0LL; rv.m_type = KindOfNull; fh_spl_autoload(&args[-0].m_data, (count > 1) ? &args[-1].m_data : (Value*)(&null_string)); frame_free_locals_no_this_inl(ar, 2); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { fg1_spl_autoload(&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("spl_autoload", 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