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/* ************************************************************************
* Copyright (C) 2020-2024 Advanced Micro Devices, Inc. All rights reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell cop-
* ies of the Software, and to permit persons to whom the Software is furnished
* to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all
* copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IM-
* PLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
* FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
* COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
* IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNE-
* CTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*
* ************************************************************************ */
// This emulates the required functionality of boost::program_options
#pragma once
#include <cinttypes>
#include <cstdio>
#include <iomanip>
#include <map>
#include <ostream>
#include <regex>
#include <sstream>
#include <stdexcept>
#include <string>
#include <utility>
#include <vector>
namespace roc
{
// Regular expression for token delimiters (whitespace and commas)
static const std::regex program_options_regex{"[, \\f\\n\\r\\t\\v]+",
std::regex_constants::optimize};
// Polymorphic base class to use with dynamic_cast
class value_base
{
protected:
bool m_has_actual = false;
bool m_has_default = false;
public:
virtual ~value_base() = default;
bool has_actual() const
{
return m_has_actual;
}
bool has_default() const
{
return m_has_default;
}
};
// Value parameters
template <typename T>
class value : public value_base
{
T m_var{}; // Variable to be modified if no pointer provided
T* m_var_ptr; // Pointer to variable to be modified
public:
// Constructor
explicit value()
: m_var_ptr(nullptr)
{
}
explicit value(const T& var, bool defaulted)
: m_var(var)
, m_var_ptr(nullptr)
{
m_has_actual = !defaulted;
m_has_default = defaulted;
}
explicit value(T* var_ptr)
: m_var_ptr(var_ptr)
{
}
// Allows actual_value() and default_value()
value* operator->()
{
return this;
}
// Get the value
const T& get_value() const
{
if(m_var_ptr)
return *m_var_ptr;
else
return m_var;
}
// Set actual value
value& actual_value(T val)
{
if(m_var_ptr)
*m_var_ptr = std::move(val);
else
m_var = std::move(val);
m_has_actual = true;
return *this;
}
// Set default value
value& default_value(T val)
{
if(!m_has_actual)
{
if(m_var_ptr)
*m_var_ptr = std::move(val);
else
m_var = std::move(val);
m_has_default = true;
}
return *this;
}
};
// bool_switch is a value<bool>, which is handled specially
using bool_switch = value<bool>;
class variable_value
{
std::shared_ptr<value_base> m_val;
public:
// Constructor
explicit variable_value() = default;
template <typename T>
explicit variable_value(const T& xv, bool xdefaulted)
: m_val(std::make_shared<value<T>>(xv, xdefaulted))
{
}
explicit variable_value(std::shared_ptr<value_base> val)
: m_val(val)
{
}
// Member functions
bool empty() const
{
return !m_val.get() || (!m_val->has_actual() && !m_val->has_default());
}
bool defaulted() const
{
return m_val.get() && !m_val->has_actual() && m_val->has_default();
}
template <typename T>
const T& as() const
{
if(value<T>* val = dynamic_cast<value<T>*>(m_val.get()))
return val->get_value();
else
throw std::logic_error("Internal error: Invalid cast");
}
};
using variables_map = std::map<std::string, variable_value>;
class options_description
{
// desc_option describes a particular option
class desc_option
{
std::string m_opts;
std::shared_ptr<value_base> m_val;
std::string m_desc;
public:
// Constructor with options, value and description
template <typename T>
desc_option(std::string opts, value<T> val, std::string desc)
: m_opts(std::move(opts))
, m_val(new auto(std::move(val)))
, m_desc(std::move(desc))
{
}
// Constructor with options and description
desc_option(std::string opts, std::string desc)
: m_opts(std::move(opts))
, m_val(nullptr)
, m_desc(std::move(desc))
{
}
// Copy constructor is deleted
desc_option(const desc_option&) = delete;
// Move constructor
desc_option(desc_option&& other) = default;
// Accessors
const std::string& get_opts() const
{
return m_opts;
}
const std::shared_ptr<value_base> get_val() const
{
return m_val;
}
const std::string& get_desc() const
{
return m_desc;
}
// Set a value
void set_val(int& argc, char**& argv, const std::string& inopt) const
{
// We test all supported types with dynamic_cast and parse accordingly
bool match = false;
if(auto* ptr = dynamic_cast<value<int32_t>*>(m_val.get()))
{
int32_t val;
match = argc && sscanf(*argv, "%" SCNd32, &val) == 1;
ptr->actual_value(val);
}
else if(auto* ptr = dynamic_cast<value<uint32_t>*>(m_val.get()))
{
uint32_t val;
match = argc && sscanf(*argv, "%" SCNu32, &val) == 1;
ptr->actual_value(val);
}
else if(auto* ptr = dynamic_cast<value<int64_t>*>(m_val.get()))
{
int64_t val;
match = argc && sscanf(*argv, "%" SCNd64, &val) == 1;
ptr->actual_value(val);
}
else if(auto* ptr = dynamic_cast<value<uint64_t>*>(m_val.get()))
{
uint64_t val;
match = argc && sscanf(*argv, "%" SCNu64, &val) == 1;
ptr->actual_value(val);
}
else if(auto* ptr = dynamic_cast<value<float>*>(m_val.get()))
{
float val;
match = argc && sscanf(*argv, "%f", &val) == 1;
ptr->actual_value(val);
}
else if(auto* ptr = dynamic_cast<value<double>*>(m_val.get()))
{
double val;
match = argc && sscanf(*argv, "%lf", &val) == 1;
ptr->actual_value(val);
}
else if(auto* ptr = dynamic_cast<value<char>*>(m_val.get()))
{
char val;
match = argc && sscanf(*argv, " %c", &val) == 1;
ptr->actual_value(val);
}
else if(auto* ptr = dynamic_cast<value<int8_t>*>(m_val.get()))
{
int8_t val;
match = argc && sscanf(*argv, "%hhd", &val) == 1;
ptr->actual_value(val);
}
else if(auto* ptr = dynamic_cast<value<bool>*>(m_val.get()))
{
// We handle bool specially, setting the value to true without argument
ptr->actual_value(true);
return;
}
else if(auto* ptr = dynamic_cast<value<std::string>*>(m_val.get()))
{
if(argc)
{
ptr->actual_value(*argv);
match = true;
}
}
else
{
throw std::logic_error("Internal error: Unsupported data type (setting value)");
}
if(!match)
throw std::invalid_argument(argc ? "Invalid value for " + inopt
: "Missing required value for " + inopt);
// Skip past the argument's value
++argv;
--argc;
}
};
// Description and option list
std::string m_desc;
std::vector<desc_option> m_optlist;
// desc_optionlist allows chains of options to be parenthesized
class desc_optionlist
{
std::vector<desc_option>& m_list;
public:
explicit desc_optionlist(std::vector<desc_option>& list)
: m_list(list)
{
}
template <typename... Ts>
desc_optionlist operator()(Ts&&... arg)
{
m_list.push_back(desc_option(std::forward<Ts>(arg)...));
return *this;
}
};
// Parse an option at the current (argc, argv) position
void parse_option(int& argc, char**& argv, variables_map& vm, bool ignoreUnknown) const
{
// Iterate across all options
for(const auto& opt : m_optlist)
{
// Canonical name used for map
std::string canonical_name;
// Iterate across tokens in the opts
for(std::sregex_token_iterator tok{
opt.get_opts().begin(), opt.get_opts().end(), program_options_regex, -1};
tok != std::sregex_token_iterator();
++tok)
{
// The first option in a list of options is the canonical name
if(!canonical_name.length())
canonical_name = tok->str();
// If the length of the option is 1, it is single-dash; otherwise double-dash
const char* prefix = tok->length() == 1 ? "-" : "--";
// If option matches
if(*argv == prefix + tok->str())
{
++argv;
--argc;
// If option has a value, set it
if(opt.get_val().get())
opt.set_val(argc, argv, prefix + tok->str());
// Add seen options to map
vm[canonical_name] = variable_value(opt.get_val());
return; // Return successfully
}
}
}
// No options were matched
if(ignoreUnknown)
{
++argv;
--argc;
}
else
throw std::invalid_argument("Option " + std::string(argv[0]) + " is not defined.");
}
public:
// Constructor
explicit options_description(std::string desc)
: m_desc(std::move(desc))
{
}
// Start a desc_optionlist chain
desc_optionlist add_options() &
{
return desc_optionlist(m_optlist);
}
// Parse all options
void parse_options(int& argc,
char**& argv,
variables_map& vm,
bool ignoreUnknown = false) const
{
// Add options with default values to map
for(const auto& opt : m_optlist)
{
std::sregex_token_iterator tok{
opt.get_opts().begin(), opt.get_opts().end(), program_options_regex, -1};
// Canonical name used for map
std::string canonical_name = tok->str();
if(opt.get_val().get() && opt.get_val()->has_default())
vm[canonical_name] = variable_value(opt.get_val());
}
// Parse options
while(argc)
parse_option(argc, argv, vm, ignoreUnknown);
}
// Formatted output of command-line arguments description
friend std::ostream& operator<<(std::ostream& os, const options_description& d)
{
// Iterate across all options
for(const auto& opt : d.m_optlist)
{
bool first = true, printvalue = true;
const char* delim = "";
std::ostringstream left;
// Iterate across tokens in the opts
for(std::sregex_token_iterator tok{opt.get_opts().begin(),
opt.get_opts().end(),
program_options_regex,
-1};
tok != std::sregex_token_iterator();
++tok, first = false, delim = " ")
{
// If the length of the option is 1, it is single-dash; otherwise double-dash
const char* prefix = tok->length() == 1 ? "-" : "--";
left << delim << (first ? "" : "|") << prefix << tok->str();
if(tok->str() == "help" || tok->str() == "h" || tok->str() == "outofplace")
printvalue = false;
}
if(printvalue)
left << " <value>";
os << std::setw(26) << std::left << left.str() << " " << opt.get_desc() << " ";
left.str(std::string());
// Print the default value of the variable type if it exists
// We do not print the default value for bool
const value_base* val = opt.get_val().get();
if(val && !dynamic_cast<const value<bool>*>(val))
{
if(val->has_default())
{
// We test all supported types with dynamic_cast and print accordingly
left << " (Default value is: ";
if(dynamic_cast<const value<int32_t>*>(val))
left << dynamic_cast<const value<int32_t>*>(val)->get_value();
else if(dynamic_cast<const value<uint32_t>*>(val))
left << dynamic_cast<const value<uint32_t>*>(val)->get_value();
else if(dynamic_cast<const value<int64_t>*>(val))
left << dynamic_cast<const value<int64_t>*>(val)->get_value();
else if(dynamic_cast<const value<uint64_t>*>(val))
left << dynamic_cast<const value<uint64_t>*>(val)->get_value();
else if(dynamic_cast<const value<float>*>(val))
left << dynamic_cast<const value<float>*>(val)->get_value();
else if(dynamic_cast<const value<double>*>(val))
left << dynamic_cast<const value<double>*>(val)->get_value();
else if(dynamic_cast<const value<char>*>(val))
left << dynamic_cast<const value<char>*>(val)->get_value();
else if(dynamic_cast<const value<int8_t>*>(val))
left << dynamic_cast<const value<int8_t>*>(val)->get_value();
else if(dynamic_cast<const value<std::string>*>(val))
left << dynamic_cast<const value<std::string>*>(val)->get_value();
else
throw std::logic_error(
"Internal error: Unsupported data type (printing value)");
left << ")";
}
}
os << left.str() << "\n\n";
}
return os << std::flush;
}
};
// Class representing command line parser
class parse_command_line
{
variables_map m_vm;
public:
parse_command_line(int argc,
char** argv,
const options_description& desc,
bool ignoreUnknown = false)
{
++argv; // Skip argv[0]
--argc;
desc.parse_options(argc, argv, m_vm, ignoreUnknown);
}
// Copy the variables_map
friend void store(const parse_command_line& p, variables_map& vm)
{
vm = p.m_vm;
}
// Move the variables_map
friend void store(parse_command_line&& p, variables_map& vm)
{
vm = std::move(p.m_vm);
}
};
// We can define the notify() function as a no-op for our purposes
inline void notify(const variables_map&) {}
}
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