/* +----------------------------------------------------------------------+ | 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::String HPHP::f_implode(HPHP::Variant const&, HPHP::Variant const&) _ZN4HPHP9f_implodeERKNS_7VariantES2_ (return value) => rax _rv => rdi arg1 => rsi arg2 => rdx */ Value* fh_implode(Value* _rv, TypedValue* arg1, TypedValue* arg2) asm("_ZN4HPHP9f_implodeERKNS_7VariantES2_"); TypedValue* fg_implode(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count >= 1LL && count <= 2LL) { rv.m_type = KindOfString; fh_implode((&rv.m_data), (args-0), (count > 1) ? (args-1) : (TypedValue*)(&null_variant)); 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 { throw_wrong_arguments_nr("implode", 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_strtok(HPHP::String const&, HPHP::Variant const&) _ZN4HPHP8f_strtokERKNS_6StringERKNS_7VariantE (return value) => rax _rv => rdi str => rsi token => rdx */ TypedValue* fh_strtok(TypedValue* _rv, Value* str, TypedValue* token) asm("_ZN4HPHP8f_strtokERKNS_6StringERKNS_7VariantE"); TypedValue * fg1_strtok(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_strtok(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; tvCastToStringInPlace(args-0); fh_strtok((rv), &args[-0].m_data, (count > 1) ? (args-1) : (TypedValue*)(&null_variant)); if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull; return rv; } TypedValue* fg_strtok(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)) { fh_strtok((&(rv)), &args[-0].m_data, (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_strtok(&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("strtok", 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_str_replace(HPHP::Variant const&, HPHP::Variant const&, HPHP::Variant const&, HPHP::VRefParamValue const&) _ZN4HPHP13f_str_replaceERKNS_7VariantES2_S2_RKNS_14VRefParamValueE (return value) => rax _rv => rdi search => rsi replace => rdx subject => rcx count => r8 */ TypedValue* fh_str_replace(TypedValue* _rv, TypedValue* search, TypedValue* replace, TypedValue* subject, TypedValue* count) asm("_ZN4HPHP13f_str_replaceERKNS_7VariantES2_S2_RKNS_14VRefParamValueE"); TypedValue* fg_str_replace(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count >= 3LL && count <= 4LL) { VRefParamValue defVal3 = uninit_null(); fh_str_replace((&(rv)), (args-0), (args-1), (args-2), (count > 3) ? (args-3) : (TypedValue*)(&defVal3)); 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 { throw_wrong_arguments_nr("str_replace", 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_str_ireplace(HPHP::Variant const&, HPHP::Variant const&, HPHP::Variant const&, HPHP::VRefParamValue const&) _ZN4HPHP14f_str_ireplaceERKNS_7VariantES2_S2_RKNS_14VRefParamValueE (return value) => rax _rv => rdi search => rsi replace => rdx subject => rcx count => r8 */ TypedValue* fh_str_ireplace(TypedValue* _rv, TypedValue* search, TypedValue* replace, TypedValue* subject, TypedValue* count) asm("_ZN4HPHP14f_str_ireplaceERKNS_7VariantES2_S2_RKNS_14VRefParamValueE"); TypedValue* fg_str_ireplace(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count >= 3LL && count <= 4LL) { VRefParamValue defVal3 = uninit_null(); fh_str_ireplace((&(rv)), (args-0), (args-1), (args-2), (count > 3) ? (args-3) : (TypedValue*)(&defVal3)); 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 { throw_wrong_arguments_nr("str_ireplace", 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_substr_replace(HPHP::Variant const&, HPHP::Variant const&, HPHP::Variant const&, HPHP::Variant const&) _ZN4HPHP16f_substr_replaceERKNS_7VariantES2_S2_S2_ (return value) => rax _rv => rdi str => rsi replacement => rdx start => rcx length => r8 */ TypedValue* fh_substr_replace(TypedValue* _rv, TypedValue* str, TypedValue* replacement, TypedValue* start, TypedValue* length) asm("_ZN4HPHP16f_substr_replaceERKNS_7VariantES2_S2_S2_"); TypedValue* fg_substr_replace(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count >= 3LL && count <= 4LL) { Variant defVal3 = 0x7FFFFFFF; fh_substr_replace((&(rv)), (args-0), (args-1), (args-2), (count > 3) ? (args-3) : (TypedValue*)(&defVal3)); 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 { throw_wrong_arguments_nr("substr_replace", 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_strtr(HPHP::String const&, HPHP::Variant const&, HPHP::Variant const&) _ZN4HPHP7f_strtrERKNS_6StringERKNS_7VariantES5_ (return value) => rax _rv => rdi str => rsi from => rdx to => rcx */ TypedValue* fh_strtr(TypedValue* _rv, Value* str, TypedValue* from, TypedValue* to) asm("_ZN4HPHP7f_strtrERKNS_6StringERKNS_7VariantES5_"); TypedValue * fg1_strtr(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_strtr(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; tvCastToStringInPlace(args-0); fh_strtr((rv), &args[-0].m_data, (args-1), (count > 2) ? (args-2) : (TypedValue*)(&null_variant)); if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull; return rv; } TypedValue* fg_strtr(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count >= 2LL && count <= 3LL) { if (IS_STRING_TYPE((args-0)->m_type)) { fh_strtr((&(rv)), &args[-0].m_data, (args-1), (count > 2) ? (args-2) : (TypedValue*)(&null_variant)); 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_strtr(&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("strtr", 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::String HPHP::f_convert_cyr_string(HPHP::String const&, HPHP::String const&, HPHP::String const&) _ZN4HPHP20f_convert_cyr_stringERKNS_6StringES2_S2_ (return value) => rax _rv => rdi str => rsi from => rdx to => rcx */ Value* fh_convert_cyr_string(Value* _rv, Value* str, Value* from, Value* to) asm("_ZN4HPHP20f_convert_cyr_stringERKNS_6StringES2_S2_"); TypedValue * fg1_convert_cyr_string(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_convert_cyr_string(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfString; if (!IS_STRING_TYPE((args-2)->m_type)) { tvCastToStringInPlace(args-2); } if (!IS_STRING_TYPE((args-1)->m_type)) { tvCastToStringInPlace(args-1); } if (!IS_STRING_TYPE((args-0)->m_type)) { tvCastToStringInPlace(args-0); } fh_convert_cyr_string((&rv->m_data), &args[-0].m_data, &args[-1].m_data, &args[-2].m_data); if (rv->m_data.num == 0LL) rv->m_type = KindOfNull; return rv; } TypedValue* fg_convert_cyr_string(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count == 3LL) { if (IS_STRING_TYPE((args-2)->m_type) && IS_STRING_TYPE((args-1)->m_type) && IS_STRING_TYPE((args-0)->m_type)) { rv.m_type = KindOfString; fh_convert_cyr_string((&rv.m_data), &args[-0].m_data, &args[-1].m_data, &args[-2].m_data); if (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; } else { fg1_convert_cyr_string(&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("convert_cyr_string", count, 3, 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_get_html_translation_table(int, int) _ZN4HPHP28f_get_html_translation_tableEii (return value) => rax _rv => rdi table => rsi quote_style => rdx */ Value* fh_get_html_translation_table(Value* _rv, int table, int quote_style) asm("_ZN4HPHP28f_get_html_translation_tableEii"); TypedValue * fg1_get_html_translation_table(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_get_html_translation_table(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfArray; switch (count) { default: // count >= 2 if ((args-1)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-1); } case 1: if ((args-0)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-0); } case 0: break; } fh_get_html_translation_table((&rv->m_data), (count > 0) ? (int)(args[-0].m_data.num) : (int)(0), (count > 1) ? (int)(args[-1].m_data.num) : (int)(k_ENT_COMPAT)); if (rv->m_data.num == 0LL) rv->m_type = KindOfNull; return rv; } TypedValue* fg_get_html_translation_table(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 == KindOfInt64) && (count <= 0 || (args-0)->m_type == KindOfInt64)) { rv.m_type = KindOfArray; fh_get_html_translation_table((&rv.m_data), (count > 0) ? (int)(args[-0].m_data.num) : (int)(0), (count > 1) ? (int)(args[-1].m_data.num) : (int)(k_ENT_COMPAT)); 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_get_html_translation_table(&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_html_translation_table", 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_hebrev(HPHP::String const&, int) _ZN4HPHP8f_hebrevERKNS_6StringEi (return value) => rax _rv => rdi hebrew_text => rsi max_chars_per_line => rdx */ Value* fh_hebrev(Value* _rv, Value* hebrew_text, int max_chars_per_line) asm("_ZN4HPHP8f_hebrevERKNS_6StringEi"); TypedValue * fg1_hebrev(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_hebrev(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 != KindOfInt64) { tvCastToInt64InPlace(args-1); } case 1: break; } if (!IS_STRING_TYPE((args-0)->m_type)) { tvCastToStringInPlace(args-0); } fh_hebrev((&rv->m_data), &args[-0].m_data, (count > 1) ? (int)(args[-1].m_data.num) : (int)(0)); if (rv->m_data.num == 0LL) rv->m_type = KindOfNull; return rv; } TypedValue* fg_hebrev(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) && IS_STRING_TYPE((args-0)->m_type)) { rv.m_type = KindOfString; fh_hebrev((&rv.m_data), &args[-0].m_data, (count > 1) ? (int)(args[-1].m_data.num) : (int)(0)); 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_hebrev(&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("hebrev", 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_hebrevc(HPHP::String const&, int) _ZN4HPHP9f_hebrevcERKNS_6StringEi (return value) => rax _rv => rdi hebrew_text => rsi max_chars_per_line => rdx */ Value* fh_hebrevc(Value* _rv, Value* hebrew_text, int max_chars_per_line) asm("_ZN4HPHP9f_hebrevcERKNS_6StringEi"); TypedValue * fg1_hebrevc(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_hebrevc(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 != KindOfInt64) { tvCastToInt64InPlace(args-1); } case 1: break; } if (!IS_STRING_TYPE((args-0)->m_type)) { tvCastToStringInPlace(args-0); } fh_hebrevc((&rv->m_data), &args[-0].m_data, (count > 1) ? (int)(args[-1].m_data.num) : (int)(0)); if (rv->m_data.num == 0LL) rv->m_type = KindOfNull; return rv; } TypedValue* fg_hebrevc(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) && IS_STRING_TYPE((args-0)->m_type)) { rv.m_type = KindOfString; fh_hebrevc((&rv.m_data), &args[-0].m_data, (count > 1) ? (int)(args[-1].m_data.num) : (int)(0)); 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_hebrevc(&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("hebrevc", 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_setlocale(int, int, HPHP::Variant const&, HPHP::Array const&) _ZN4HPHP11f_setlocaleEiiRKNS_7VariantERKNS_5ArrayE (return value) => rax _rv => rdi _argc => rsi category => rdx locale => rcx _argv => r8 */ TypedValue* fh_setlocale(TypedValue* _rv, int64_t _argc, int category, TypedValue* locale, Value* _argv) asm("_ZN4HPHP11f_setlocaleEiiRKNS_7VariantERKNS_5ArrayE"); TypedValue * fg1_setlocale(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_setlocale(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; tvCastToInt64InPlace(args-0); Array extraArgs; { ArrayInit ai(count-2); for (int64_t i = 2; i < count; ++i) { TypedValue* extraArg = ar->getExtraArg(i-2); if (tvIsStronglyBound(extraArg)) { ai.setRef(i-2, tvAsVariant(extraArg)); } else { ai.set(i-2, tvAsVariant(extraArg)); } } extraArgs = ai.create(); } fh_setlocale((rv), (count), (int)(args[-0].m_data.num), (args-1), (Value*)(&extraArgs)); if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull; return rv; } TypedValue* fg_setlocale(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count >= 2LL) { if ((args-0)->m_type == KindOfInt64) { Array extraArgs; { ArrayInit ai(count-2); for (int64_t i = 2; i < count; ++i) { TypedValue* extraArg = ar->getExtraArg(i-2); if (tvIsStronglyBound(extraArg)) { ai.setRef(i-2, tvAsVariant(extraArg)); } else { ai.set(i-2, tvAsVariant(extraArg)); } } extraArgs = ai.create(); } fh_setlocale((&(rv)), (count), (int)(args[-0].m_data.num), (args-1), (Value*)(&extraArgs)); 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_setlocale(&rv, ar, count); frame_free_locals_no_this_inl(ar, 2); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_missing_arguments_nr("setlocale", count+1, 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_localeconv() _ZN4HPHP12f_localeconvEv (return value) => rax _rv => rdi */ Value* fh_localeconv(Value* _rv) asm("_ZN4HPHP12f_localeconvEv"); TypedValue* fg_localeconv(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_localeconv((&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("localeconv", 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_sscanf(int, HPHP::String const&, HPHP::String const&, HPHP::Array const&) _ZN4HPHP8f_sscanfEiRKNS_6StringES2_RKNS_5ArrayE (return value) => rax _rv => rdi _argc => rsi str => rdx format => rcx _argv => r8 */ TypedValue* fh_sscanf(TypedValue* _rv, int64_t _argc, Value* str, Value* format, Value* _argv) asm("_ZN4HPHP8f_sscanfEiRKNS_6StringES2_RKNS_5ArrayE"); TypedValue * fg1_sscanf(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_sscanf(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); } Array extraArgs; { ArrayInit ai(count-2); for (int64_t i = 2; i < count; ++i) { TypedValue* extraArg = ar->getExtraArg(i-2); if (tvIsStronglyBound(extraArg)) { ai.setRef(i-2, tvAsVariant(extraArg)); } else { ai.set(i-2, tvAsVariant(extraArg)); } } extraArgs = ai.create(); } fh_sscanf((rv), (count), &args[-0].m_data, &args[-1].m_data, (Value*)(&extraArgs)); if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull; return rv; } TypedValue* fg_sscanf(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)) { Array extraArgs; { ArrayInit ai(count-2); for (int64_t i = 2; i < count; ++i) { TypedValue* extraArg = ar->getExtraArg(i-2); if (tvIsStronglyBound(extraArg)) { ai.setRef(i-2, tvAsVariant(extraArg)); } else { ai.set(i-2, tvAsVariant(extraArg)); } } extraArgs = ai.create(); } fh_sscanf((&(rv)), (count), &args[-0].m_data, &args[-1].m_data, (Value*)(&extraArgs)); 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_sscanf(&rv, ar, count); frame_free_locals_no_this_inl(ar, 2); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } } else { throw_missing_arguments_nr("sscanf", count+1, 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_number_format(double, int, HPHP::String const&, HPHP::String const&) _ZN4HPHP15f_number_formatEdiRKNS_6StringES2_ (return value) => rax _rv => rdi number => xmm0 decimals => rsi dec_point => rdx thousands_sep => rcx */ Value* fh_number_format(Value* _rv, double number, int decimals, Value* dec_point, Value* thousands_sep) asm("_ZN4HPHP15f_number_formatEdiRKNS_6StringES2_"); TypedValue * fg1_number_format(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_number_format(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; rv->m_type = KindOfString; switch (count) { default: // count >= 4 if (!IS_STRING_TYPE((args-3)->m_type)) { tvCastToStringInPlace(args-3); } case 3: if (!IS_STRING_TYPE((args-2)->m_type)) { tvCastToStringInPlace(args-2); } case 2: if ((args-1)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-1); } case 1: break; } if ((args-0)->m_type != KindOfDouble) { tvCastToDoubleInPlace(args-0); } String defVal2 = "."; String defVal3 = ","; fh_number_format((&rv->m_data), (args[-0].m_data.dbl), (count > 1) ? (int)(args[-1].m_data.num) : (int)(0), (count > 2) ? &args[-2].m_data : (Value*)(&defVal2), (count > 3) ? &args[-3].m_data : (Value*)(&defVal3)); if (rv->m_data.num == 0LL) rv->m_type = KindOfNull; return rv; } TypedValue* fg_number_format(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 || IS_STRING_TYPE((args-3)->m_type)) && (count <= 2 || IS_STRING_TYPE((args-2)->m_type)) && (count <= 1 || (args-1)->m_type == KindOfInt64) && (args-0)->m_type == KindOfDouble) { rv.m_type = KindOfString; String defVal2 = "."; String defVal3 = ","; fh_number_format((&rv.m_data), (args[-0].m_data.dbl), (count > 1) ? (int)(args[-1].m_data.num) : (int)(0), (count > 2) ? &args[-2].m_data : (Value*)(&defVal2), (count > 3) ? &args[-3].m_data : (Value*)(&defVal3)); if (rv.m_data.num == 0LL) rv.m_type = KindOfNull; frame_free_locals_no_this_inl(ar, 4); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { fg1_number_format(&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("number_format", 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_substr_compare(HPHP::String const&, HPHP::String const&, int, int, bool) _ZN4HPHP16f_substr_compareERKNS_6StringES2_iib (return value) => rax _rv => rdi main_str => rsi str => rdx offset => rcx length => r8 case_insensitivity => r9 */ TypedValue* fh_substr_compare(TypedValue* _rv, Value* main_str, Value* str, int offset, int length, bool case_insensitivity) asm("_ZN4HPHP16f_substr_compareERKNS_6StringES2_iib"); TypedValue * fg1_substr_compare(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_substr_compare(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 != KindOfBoolean) { tvCastToBooleanInPlace(args-4); } case 4: if ((args-3)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-3); } case 3: break; } if ((args-2)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-2); } if (!IS_STRING_TYPE((args-1)->m_type)) { tvCastToStringInPlace(args-1); } if (!IS_STRING_TYPE((args-0)->m_type)) { tvCastToStringInPlace(args-0); } fh_substr_compare((rv), &args[-0].m_data, &args[-1].m_data, (int)(args[-2].m_data.num), (count > 3) ? (int)(args[-3].m_data.num) : (int)(INT_MAX), (count > 4) ? (bool)(args[-4].m_data.num) : (bool)(false)); if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull; return rv; } TypedValue* fg_substr_compare(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 == KindOfBoolean) && (count <= 3 || (args-3)->m_type == KindOfInt64) && (args-2)->m_type == KindOfInt64 && IS_STRING_TYPE((args-1)->m_type) && IS_STRING_TYPE((args-0)->m_type)) { fh_substr_compare((&(rv)), &args[-0].m_data, &args[-1].m_data, (int)(args[-2].m_data.num), (count > 3) ? (int)(args[-3].m_data.num) : (int)(INT_MAX), (count > 4) ? (bool)(args[-4].m_data.num) : (bool)(false)); 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_substr_compare(&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("substr_compare", count, 3, 5, 1); } rv.m_data.num = 0LL; rv.m_type = KindOfNull; frame_free_locals_no_this_inl(ar, 5); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; return &ar->m_r; } /* HPHP::Variant HPHP::f_strrchr(HPHP::String const&, HPHP::Variant const&) _ZN4HPHP9f_strrchrERKNS_6StringERKNS_7VariantE (return value) => rax _rv => rdi haystack => rsi needle => rdx */ TypedValue* fh_strrchr(TypedValue* _rv, Value* haystack, TypedValue* needle) asm("_ZN4HPHP9f_strrchrERKNS_6StringERKNS_7VariantE"); TypedValue * fg1_strrchr(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_strrchr(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; tvCastToStringInPlace(args-0); fh_strrchr((rv), &args[-0].m_data, (args-1)); if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull; return rv; } TypedValue* fg_strrchr(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-0)->m_type)) { fh_strrchr((&(rv)), &args[-0].m_data, (args-1)); 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_strrchr(&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("strrchr", 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::Variant HPHP::f_strstr(HPHP::String const&, HPHP::Variant const&, bool) _ZN4HPHP8f_strstrERKNS_6StringERKNS_7VariantEb (return value) => rax _rv => rdi haystack => rsi needle => rdx before_needle => rcx */ TypedValue* fh_strstr(TypedValue* _rv, Value* haystack, TypedValue* needle, bool before_needle) asm("_ZN4HPHP8f_strstrERKNS_6StringERKNS_7VariantEb"); TypedValue * fg1_strstr(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_strstr(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; 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); } fh_strstr((rv), &args[-0].m_data, (args-1), (count > 2) ? (bool)(args[-2].m_data.num) : (bool)(false)); if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull; return rv; } TypedValue* fg_strstr(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)) { fh_strstr((&(rv)), &args[-0].m_data, (args-1), (count > 2) ? (bool)(args[-2].m_data.num) : (bool)(false)); 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_strstr(&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("strstr", 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_stristr(HPHP::String const&, HPHP::Variant const&) _ZN4HPHP9f_stristrERKNS_6StringERKNS_7VariantE (return value) => rax _rv => rdi haystack => rsi needle => rdx */ TypedValue* fh_stristr(TypedValue* _rv, Value* haystack, TypedValue* needle) asm("_ZN4HPHP9f_stristrERKNS_6StringERKNS_7VariantE"); TypedValue * fg1_stristr(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_stristr(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; tvCastToStringInPlace(args-0); fh_stristr((rv), &args[-0].m_data, (args-1)); if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull; return rv; } TypedValue* fg_stristr(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-0)->m_type)) { fh_stristr((&(rv)), &args[-0].m_data, (args-1)); 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_stristr(&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("stristr", 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::Variant HPHP::f_strpbrk(HPHP::String const&, HPHP::String const&) _ZN4HPHP9f_strpbrkERKNS_6StringES2_ (return value) => rax _rv => rdi haystack => rsi char_list => rdx */ TypedValue* fh_strpbrk(TypedValue* _rv, Value* haystack, Value* char_list) asm("_ZN4HPHP9f_strpbrkERKNS_6StringES2_"); TypedValue * fg1_strpbrk(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_strpbrk(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_strpbrk((rv), &args[-0].m_data, &args[-1].m_data); if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull; return rv; } TypedValue* fg_strpbrk(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_strpbrk((&(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_strpbrk(&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("strpbrk", 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::Variant HPHP::f_strpos(HPHP::String const&, HPHP::Variant const&, int) _ZN4HPHP8f_strposERKNS_6StringERKNS_7VariantEi (return value) => rax _rv => rdi haystack => rsi needle => rdx offset => rcx */ TypedValue* fh_strpos(TypedValue* _rv, Value* haystack, TypedValue* needle, int offset) asm("_ZN4HPHP8f_strposERKNS_6StringERKNS_7VariantEi"); TypedValue * fg1_strpos(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_strpos(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; switch (count) { default: // count >= 3 if ((args-2)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-2); } case 2: break; } if (!IS_STRING_TYPE((args-0)->m_type)) { tvCastToStringInPlace(args-0); } fh_strpos((rv), &args[-0].m_data, (args-1), (count > 2) ? (int)(args[-2].m_data.num) : (int)(0)); if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull; return rv; } TypedValue* fg_strpos(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count >= 2LL && count <= 3LL) { if ((count <= 2 || (args-2)->m_type == KindOfInt64) && IS_STRING_TYPE((args-0)->m_type)) { fh_strpos((&(rv)), &args[-0].m_data, (args-1), (count > 2) ? (int)(args[-2].m_data.num) : (int)(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_strpos(&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("strpos", 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_stripos(HPHP::String const&, HPHP::Variant const&, int) _ZN4HPHP9f_striposERKNS_6StringERKNS_7VariantEi (return value) => rax _rv => rdi haystack => rsi needle => rdx offset => rcx */ TypedValue* fh_stripos(TypedValue* _rv, Value* haystack, TypedValue* needle, int offset) asm("_ZN4HPHP9f_striposERKNS_6StringERKNS_7VariantEi"); TypedValue * fg1_stripos(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_stripos(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; switch (count) { default: // count >= 3 if ((args-2)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-2); } case 2: break; } if (!IS_STRING_TYPE((args-0)->m_type)) { tvCastToStringInPlace(args-0); } fh_stripos((rv), &args[-0].m_data, (args-1), (count > 2) ? (int)(args[-2].m_data.num) : (int)(0)); if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull; return rv; } TypedValue* fg_stripos(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count >= 2LL && count <= 3LL) { if ((count <= 2 || (args-2)->m_type == KindOfInt64) && IS_STRING_TYPE((args-0)->m_type)) { fh_stripos((&(rv)), &args[-0].m_data, (args-1), (count > 2) ? (int)(args[-2].m_data.num) : (int)(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_stripos(&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("stripos", 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_strrpos(HPHP::String const&, HPHP::Variant const&, int) _ZN4HPHP9f_strrposERKNS_6StringERKNS_7VariantEi (return value) => rax _rv => rdi haystack => rsi needle => rdx offset => rcx */ TypedValue* fh_strrpos(TypedValue* _rv, Value* haystack, TypedValue* needle, int offset) asm("_ZN4HPHP9f_strrposERKNS_6StringERKNS_7VariantEi"); TypedValue * fg1_strrpos(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_strrpos(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; switch (count) { default: // count >= 3 if ((args-2)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-2); } case 2: break; } if (!IS_STRING_TYPE((args-0)->m_type)) { tvCastToStringInPlace(args-0); } fh_strrpos((rv), &args[-0].m_data, (args-1), (count > 2) ? (int)(args[-2].m_data.num) : (int)(0)); if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull; return rv; } TypedValue* fg_strrpos(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count >= 2LL && count <= 3LL) { if ((count <= 2 || (args-2)->m_type == KindOfInt64) && IS_STRING_TYPE((args-0)->m_type)) { fh_strrpos((&(rv)), &args[-0].m_data, (args-1), (count > 2) ? (int)(args[-2].m_data.num) : (int)(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_strrpos(&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("strrpos", 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_strripos(HPHP::String const&, HPHP::Variant const&, int) _ZN4HPHP10f_strriposERKNS_6StringERKNS_7VariantEi (return value) => rax _rv => rdi haystack => rsi needle => rdx offset => rcx */ TypedValue* fh_strripos(TypedValue* _rv, Value* haystack, TypedValue* needle, int offset) asm("_ZN4HPHP10f_strriposERKNS_6StringERKNS_7VariantEi"); TypedValue * fg1_strripos(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_strripos(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; switch (count) { default: // count >= 3 if ((args-2)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-2); } case 2: break; } if (!IS_STRING_TYPE((args-0)->m_type)) { tvCastToStringInPlace(args-0); } fh_strripos((rv), &args[-0].m_data, (args-1), (count > 2) ? (int)(args[-2].m_data.num) : (int)(0)); if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull; return rv; } TypedValue* fg_strripos(HPHP::VM::ActRec *ar) { TypedValue rv; int64_t count = ar->numArgs(); TypedValue* args UNUSED = ((TypedValue*)ar) - 1; if (count >= 2LL && count <= 3LL) { if ((count <= 2 || (args-2)->m_type == KindOfInt64) && IS_STRING_TYPE((args-0)->m_type)) { fh_strripos((&(rv)), &args[-0].m_data, (args-1), (count > 2) ? (int)(args[-2].m_data.num) : (int)(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_strripos(&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("strripos", 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_substr_count(HPHP::String const&, HPHP::String const&, int, int) _ZN4HPHP14f_substr_countERKNS_6StringES2_ii (return value) => rax _rv => rdi haystack => rsi needle => rdx offset => rcx length => r8 */ TypedValue* fh_substr_count(TypedValue* _rv, Value* haystack, Value* needle, int offset, int length) asm("_ZN4HPHP14f_substr_countERKNS_6StringES2_ii"); TypedValue * fg1_substr_count(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_substr_count(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: if ((args-2)->m_type != KindOfInt64) { tvCastToInt64InPlace(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); } fh_substr_count((rv), &args[-0].m_data, &args[-1].m_data, (count > 2) ? (int)(args[-2].m_data.num) : (int)(0), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0x7FFFFFFF)); if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull; return rv; } TypedValue* fg_substr_count(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-1)->m_type) && IS_STRING_TYPE((args-0)->m_type)) { fh_substr_count((&(rv)), &args[-0].m_data, &args[-1].m_data, (count > 2) ? (int)(args[-2].m_data.num) : (int)(0), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0x7FFFFFFF)); 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_substr_count(&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("substr_count", 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_strspn(HPHP::String const&, HPHP::String const&, int, int) _ZN4HPHP8f_strspnERKNS_6StringES2_ii (return value) => rax _rv => rdi str1 => rsi str2 => rdx start => rcx length => r8 */ TypedValue* fh_strspn(TypedValue* _rv, Value* str1, Value* str2, int start, int length) asm("_ZN4HPHP8f_strspnERKNS_6StringES2_ii"); TypedValue * fg1_strspn(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_strspn(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: if ((args-2)->m_type != KindOfInt64) { tvCastToInt64InPlace(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); } fh_strspn((rv), &args[-0].m_data, &args[-1].m_data, (count > 2) ? (int)(args[-2].m_data.num) : (int)(0), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0x7FFFFFFF)); if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull; return rv; } TypedValue* fg_strspn(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-1)->m_type) && IS_STRING_TYPE((args-0)->m_type)) { fh_strspn((&(rv)), &args[-0].m_data, &args[-1].m_data, (count > 2) ? (int)(args[-2].m_data.num) : (int)(0), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0x7FFFFFFF)); 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_strspn(&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("strspn", 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_strcspn(HPHP::String const&, HPHP::String const&, int, int) _ZN4HPHP9f_strcspnERKNS_6StringES2_ii (return value) => rax _rv => rdi str1 => rsi str2 => rdx start => rcx length => r8 */ TypedValue* fh_strcspn(TypedValue* _rv, Value* str1, Value* str2, int start, int length) asm("_ZN4HPHP9f_strcspnERKNS_6StringES2_ii"); TypedValue * fg1_strcspn(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_strcspn(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: if ((args-2)->m_type != KindOfInt64) { tvCastToInt64InPlace(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); } fh_strcspn((rv), &args[-0].m_data, &args[-1].m_data, (count > 2) ? (int)(args[-2].m_data.num) : (int)(0), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0x7FFFFFFF)); if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull; return rv; } TypedValue* fg_strcspn(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-1)->m_type) && IS_STRING_TYPE((args-0)->m_type)) { fh_strcspn((&(rv)), &args[-0].m_data, &args[-1].m_data, (count > 2) ? (int)(args[-2].m_data.num) : (int)(0), (count > 3) ? (int)(args[-3].m_data.num) : (int)(0x7FFFFFFF)); 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_strcspn(&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("strcspn", 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_count_chars(HPHP::String const&, long) _ZN4HPHP13f_count_charsERKNS_6StringEl (return value) => rax _rv => rdi str => rsi mode => rdx */ TypedValue* fh_count_chars(TypedValue* _rv, Value* str, long mode) asm("_ZN4HPHP13f_count_charsERKNS_6StringEl"); TypedValue * fg1_count_chars(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_count_chars(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 != KindOfInt64) { tvCastToInt64InPlace(args-1); } case 1: break; } if (!IS_STRING_TYPE((args-0)->m_type)) { tvCastToStringInPlace(args-0); } fh_count_chars((rv), &args[-0].m_data, (count > 1) ? (long)(args[-1].m_data.num) : (long)(0)); if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull; return rv; } TypedValue* fg_count_chars(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) && IS_STRING_TYPE((args-0)->m_type)) { fh_count_chars((&(rv)), &args[-0].m_data, (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_count_chars(&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("count_chars", 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_str_word_count(HPHP::String const&, long, HPHP::String const&) _ZN4HPHP16f_str_word_countERKNS_6StringElS2_ (return value) => rax _rv => rdi str => rsi format => rdx charlist => rcx */ TypedValue* fh_str_word_count(TypedValue* _rv, Value* str, long format, Value* charlist) asm("_ZN4HPHP16f_str_word_countERKNS_6StringElS2_"); TypedValue * fg1_str_word_count(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_str_word_count(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) { TypedValue* args UNUSED = ((TypedValue*)ar) - 1; switch (count) { default: // count >= 3 if (!IS_STRING_TYPE((args-2)->m_type)) { tvCastToStringInPlace(args-2); } case 2: if ((args-1)->m_type != KindOfInt64) { tvCastToInt64InPlace(args-1); } case 1: break; } if (!IS_STRING_TYPE((args-0)->m_type)) { tvCastToStringInPlace(args-0); } fh_str_word_count((rv), &args[-0].m_data, (count > 1) ? (long)(args[-1].m_data.num) : (long)(0), (count > 2) ? &args[-2].m_data : (Value*)(&empty_string)); if (rv->m_type == KindOfUninit) rv->m_type = KindOfNull; return rv; } TypedValue* fg_str_word_count(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 || IS_STRING_TYPE((args-2)->m_type)) && (count <= 1 || (args-1)->m_type == KindOfInt64) && IS_STRING_TYPE((args-0)->m_type)) { fh_str_word_count((&(rv)), &args[-0].m_data, (count > 1) ? (long)(args[-1].m_data.num) : (long)(0), (count > 2) ? &args[-2].m_data : (Value*)(&empty_string)); 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_str_word_count(&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("str_word_count", 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; } /* void HPHP::f_parse_str(HPHP::String const&, HPHP::VRefParamValue const&) _ZN4HPHP11f_parse_strERKNS_6StringERKNS_14VRefParamValueE str => rdi arr => rsi */ void fh_parse_str(Value* str, TypedValue* arr) asm("_ZN4HPHP11f_parse_strERKNS_6StringERKNS_14VRefParamValueE"); TypedValue * fg1_parse_str(TypedValue* rv, HPHP::VM::ActRec* ar, int64_t count) __attribute__((noinline,cold)); TypedValue * fg1_parse_str(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); VRefParamValue defVal1 = uninit_null(); fh_parse_str(&args[-0].m_data, (count > 1) ? (args-1) : (TypedValue*)(&defVal1)); return rv; } TypedValue* fg_parse_str(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_data.num = 0LL; rv.m_type = KindOfNull; VRefParamValue defVal1 = uninit_null(); fh_parse_str(&args[-0].m_data, (count > 1) ? (args-1) : (TypedValue*)(&defVal1)); frame_free_locals_no_this_inl(ar, 2); memcpy(&ar->m_r, &rv, sizeof(TypedValue)); return &ar->m_r; } else { fg1_parse_str(&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("parse_str", 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