/******************************************************************************* * Copyright (c) 2015-2018 Skymind, Inc. * Copyright (c) 2019-2020 Konduit K.K. * * This program and the accompanying materials are made available under the * terms of the Apache License, Version 2.0 which is available at * https://www.apache.org/licenses/LICENSE-2.0. * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, WITHOUT * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the * License for the specific language governing permissions and limitations * under the License. * * SPDX-License-Identifier: Apache-2.0 ******************************************************************************/ // // Created by raver119 on 20/04/18. // @author Oleg Semeniv // #include #include #include #include namespace sd { static FORCEINLINE bool match(const uint8_t *haystack, const uint8_t *needle, uint64_t length) { for (int e = 0; e < length; e++) if (haystack[e] != needle[e]) return false; return true; } template std::string StringUtils::bitsToString(T value) { return std::bitset(value).to_string(); } template std::string StringUtils::bitsToString(int value); template std::string StringUtils::bitsToString(uint32_t value); template std::string StringUtils::bitsToString(Nd4jLong value); template std::string StringUtils::bitsToString(uint64_t value); uint64_t StringUtils::countSubarrays(const void *vhaystack, uint64_t haystackLength, const void *vneedle, uint64_t needleLength) { auto haystack = reinterpret_cast(vhaystack); auto needle = reinterpret_cast(vneedle); uint64_t number = 0; for (uint64_t e = 0; e < haystackLength - needleLength; e++) { if (match(&haystack[e], needle, needleLength)) number++; } return number; } uint64_t StringUtils::byteLength(const NDArray &array) { if (!array.isS()) throw sd::datatype_exception::build("StringUtils::byteLength expects one of String types;", array.dataType()); auto buffer = array.bufferAsT(); return buffer[array.lengthOf()]; } std::vector StringUtils::split(const std::string &haystack, const std::string &delimiter) { std::vector output; std::string::size_type prev_pos = 0, pos = 0; // iterating through the haystack till the end while((pos = haystack.find(delimiter, pos)) != std::string::npos) { output.emplace_back(haystack.substr(prev_pos, pos-prev_pos)); prev_pos = ++pos; } output.emplace_back(haystack.substr(prev_pos, pos - prev_pos)); // Last word return output; } bool StringUtils::u8StringToU16String(const std::string& u8, std::u16string& u16) { if (u8.empty()) return false; u16.resize(unicode::offsetUtf8StringInUtf16(u8.data(), u8.size()) / sizeof(char16_t)); if (u8.size() == u16.size()) u16.assign(u8.begin(), u8.end()); else return unicode::utf8to16(u8.data(), &u16[0], u8.size()); return true; } bool StringUtils::u8StringToU32String(const std::string& u8, std::u32string& u32) { if (u8.empty()) return false; u32.resize( unicode::offsetUtf8StringInUtf32(u8.data(), u8.size()) / sizeof(char32_t) ); if (u8.size() == u32.size()) u32.assign(u8.begin(), u8.end()); else return unicode::utf8to32(u8.data(), &u32[0], u8.size()); return true; } bool StringUtils::u16StringToU32String(const std::u16string& u16, std::u32string& u32) { if (u16.empty()) return false; u32.resize(unicode::offsetUtf16StringInUtf32(u16.data(), u16.size()) / sizeof(char32_t)); if (u16.size() == u32.size()) u32.assign(u16.begin(), u16.end()); else return unicode::utf16to32(u16.data(), &u32[0], u16.size()); return true; } bool StringUtils::u16StringToU8String(const std::u16string& u16, std::string& u8) { if (u16.empty()) return false; u8.resize(unicode::offsetUtf16StringInUtf8(u16.data(), u16.size())); if (u16.size() == u8.size()) u8.assign(u16.begin(), u16.end()); else return unicode::utf16to8(u16.data(), &u8[0], u16.size()); return true; } bool StringUtils::u32StringToU16String(const std::u32string& u32, std::u16string& u16) { if (u32.empty()) return false; u16.resize(unicode::offsetUtf32StringInUtf16(u32.data(), u32.size()) / sizeof(char16_t)); if (u32.size() == u16.size()) u16.assign(u32.begin(), u32.end()); else return unicode::utf32to16(u32.data(), &u16[0], u32.size()); return true; } bool StringUtils::u32StringToU8String(const std::u32string& u32, std::string& u8) { if (u32.empty()) return false; u8.resize(unicode::offsetUtf32StringInUtf8(u32.data(), u32.size())); if (u32.size() == u8.size()) u8.assign(u32.begin(), u32.end()); else return unicode::utf32to8(u32.data(), &u8[0], u32.size()); return true; } template std::string StringUtils::vectorToString(const std::vector &vec) { std::string result; for (auto v:vec) result += valueToString(v); return result; } template std::string StringUtils::vectorToString(const std::vector &vec); template std::string StringUtils::vectorToString(const std::vector &vec); template std::string StringUtils::vectorToString(const std::vector &vec); template std::string StringUtils::vectorToString(const std::vector &vec); }