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/*************************************************************************
* Copyright (C) 2017-2018 Barcelona Supercomputing Center *
* Centro Nacional de Supercomputacion *
* All rights reserved. *
* *
* This file is part of the NORNS Data Scheduler, a service that allows *
* other programs to start, track and manage asynchronous transfers of *
* data resources transfers requests between different storage backends. *
* *
* See AUTHORS file in the top level directory for information *
* regarding developers and contributors. *
* *
* The NORNS Data Scheduler is free software: you can redistribute it *
* and/or modify it under the terms of the GNU Lesser General Public *
* License as published by the Free Software Foundation, either *
* version 3 of the License, or (at your option) any later version. *
* *
* The NORNS Data Scheduler is distributed in the hope that it will be *
* useful, but WITHOUT ANY WARRANTY; without even the implied warranty *
* of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU *
* Lesser General Public License for more details. *
* *
* You should have received a copy of the GNU Lesser General *
* Public License along with the NORNS Data Scheduler. If not, see *
* <http://www.gnu.org/licenses/>. *
*************************************************************************/
#include <string>
#include <algorithm>
#include <locale>
#include "utils.hpp"
namespace utils {
uint64_t parse_size(const std::string& str){
constexpr const uint64_t B_FACTOR = 1;
constexpr const uint64_t KB_FACTOR = 1e3;
constexpr const uint64_t KiB_FACTOR = (1 << 10);
constexpr const uint64_t MB_FACTOR = 1e6;
constexpr const uint64_t MiB_FACTOR = (1 << 20);
constexpr const uint64_t GB_FACTOR = 1e9;
constexpr const uint64_t GiB_FACTOR = (1 << 30);
const std::pair<const std::string, const uint64_t> conversions[] = {
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{"GiB", GiB_FACTOR},
{"GB", GB_FACTOR},
{"G", GB_FACTOR},
{"MiB", MiB_FACTOR},
{"MB", MB_FACTOR},
{"M", MB_FACTOR},
{"KiB", KiB_FACTOR},
{"KB", KB_FACTOR},
{"K", KB_FACTOR},
{"B", B_FACTOR},
};
std::string scopy(str);
/* remove whitespaces from the string */
scopy.erase(std::remove_if(scopy.begin(), scopy.end(),
[](char ch){
return std::isspace<char>(ch, std::locale::classic());
}),
scopy.end() );
/* determine the units */
std::size_t pos = std::string::npos;
uint64_t factor = B_FACTOR;
for(const auto& c: conversions){
const std::string& suffix = c.first;
if((pos = scopy.find(suffix)) != std::string::npos){
/* check that the candidate is using the suffix EXACTLY
* to prevent accepting something like "GBfoo" as a valid Gigabyte unit */
if(suffix != scopy.substr(pos)){
pos = std::string::npos;
continue;
}
factor = c.second;
break;
}
}
/* this works as expected because if pos == std::string::npos, the standard
* states that all characters until the end of the string should be included.*/
std::string number_str = scopy.substr(0, pos);
/* check if it's a valid number */
if(number_str == "" || !std::all_of(number_str.begin(), number_str.end(), ::isdigit)){
throw std::invalid_argument("Not a number");
}
double value = std::stod(number_str);
return std::round(value*factor);
}
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// lexically remove any ./ and ../ components from a provided pathname
// (adapted from boost::filesystem::path::lexically_normal())
boost::filesystem::path lexical_normalize(const boost::filesystem::path& pathname,
bool as_directory) {
using boost::filesystem::path;
if(pathname.empty()) {
return path{};
}
if(pathname == "/") {
return path{"/"};
}
path tmp{"/"};
for(const auto& elem : pathname) {
if(elem == "..") {
// move back on '../'
tmp = tmp.remove_filename();
if(tmp.empty()) {
tmp = "/";
}
}
else if(elem != "." && elem != "/") {
// There is a weird case in some versions of boost, where the elem is returned
// incorrectly for paths with 2 leading slashes:
// Example: *path('//a/b/c').begin() returns '//a' instead of '/'
// If this happens, we extract the trailing component
if(elem.native().size() > 2 &&
((elem.native())[0] == '/' && (elem.native())[1] == '/')) {
tmp /= elem.native().substr(2);
}
else {
tmp /= elem;
}
}
// ignore './'
}
if(tmp != "/" && as_directory) {
tmp /= "/";
}
return tmp;
}
// remove a trailing separator
// (adapted from boost::filesystem::path::remove_trailing_separator())
boost::filesystem::path
remove_trailing_separator(const boost::filesystem::path& pathname) {
using boost::filesystem::path;
std::string str{pathname.generic_string()};
auto is_directory_separator = [](path::value_type c) {
return c == '/';
};
if(!str.empty() && is_directory_separator(str[str.size() - 1])) {
str.erase(str.size() - 1);
}
return path{str};
}
} // namespace utils
#if BOOST_VERSION <= 106000 // 1.6.0
namespace boost {
namespace filesystem {
template <>
path& path::append<path::iterator>(path::iterator begin, path::iterator end, const codecvt_type& cvt) {
(void) cvt;
for(; begin != end; ++begin)
*this /= *begin;
return *this;
}
/* Return path that 'p' made relative to 'base' */
path relative(path p, path base=boost::filesystem::current_path()) {
base = absolute(base);
p = absolute(p);
path::const_iterator base_it(base.begin());
path::const_iterator p_it(p.begin());
// Find common base
for(path::const_iterator to_end(p.end()), from_end(base.end());
base_it != from_end && p_it != to_end && *base_it == *p_it;
++base_it, ++p_it
);
// Navigate backwards in directory to reach previously found base
for(path::const_iterator from_end(base.end()); base_it != from_end; ++base_it) {
if((*base_it) != ".")
ret /= "..";
}
// Now navigate down the directory branch
ret.append(p_it, p.end());
return ret;
}
}
} // namespace boost::filesystem
#endif