/** Common implementation for statement parameter lists.
*
* These are used for both prepared statements and parameterized statements.
*
* DO NOT INCLUDE THIS FILE DIRECTLY. Other headers include it for you.
*
* Copyright (c) 2000-2022, Jeroen T. Vermeulen.
*
* See COPYING for copyright license. If you did not receive a file called
* COPYING with this source code, please notify the distributor of this
* mistake, or contact the author.
*/
#ifndef PQXX_H_STATEMENT_PARAMETER
#define PQXX_H_STATEMENT_PARAMETER
#include <cstring>
#include <functional>
#include <iterator>
#include <string>
#include <vector>
#include "pqxx/binarystring.hxx"
#include "pqxx/strconv.hxx"
#include "pqxx/util.hxx"
namespace pqxx::internal
{
template<typename ITERATOR>
constexpr inline auto const iterator_identity{
[](decltype(*std::declval<ITERATOR>()) x) { return x; }};
/// Marker type: pass a dynamically-determined number of statement parameters.
/** @deprecated Use @ref params instead.
*
* Normally when invoking a prepared or parameterised statement, the number
* of parameters is known at compile time. For instance,
* `t.exec_prepared("foo", 1, "x");` executes statement `foo` with two
* parameters, an `int` and a C string.
*
* But sometimes you may want to pass a number of parameters known only at run
* time. In those cases, a @ref dynamic_params encodes a dynamically
* determined number of parameters. You can mix these with regular, static
* parameter lists, and you can re-use them for multiple statement invocations.
*
* A dynamic_params object does not store copies of its parameters, so make
* sure they remain accessible until you've executed the statement.
*
* The ACCESSOR is an optional callable (such as a lambda). If you pass an
* accessor `a`, then each parameter `p` goes into your statement as `a(p)`.
*/
template<typename IT, typename ACCESSOR = decltype(iterator_identity<IT>)>
class dynamic_params
{
public:
/// Wrap a sequence of pointers or iterators.
constexpr dynamic_params(IT begin, IT end) :
m_begin(begin), m_end(end), m_accessor(iterator_identity<IT>)
{}
/// Wrap a sequence of pointers or iterators.
/** This version takes an accessor callable. If you pass an accessor `acc`,
* then any parameter `p` will go into the statement's parameter list as
* `acc(p)`.
*/
constexpr dynamic_params(IT begin, IT end, ACCESSOR &acc) :
m_begin(begin), m_end(end), m_accessor(acc)
{}
/// Wrap a container.
template<typename C>
explicit constexpr dynamic_params(C &container) :
dynamic_params(std::begin(container), std::end(container))
{}
/// Wrap a container.
/** This version takes an accessor callable. If you pass an accessor `acc`,
* then any parameter `p` will go into the statement's parameter list as
* `acc(p)`.
*/
template<typename C>
explicit constexpr dynamic_params(C &container, ACCESSOR &acc) :
dynamic_params(std::begin(container), std::end(container), acc)
{}
constexpr IT begin() const noexcept { return m_begin; }
constexpr IT end() const noexcept { return m_end; }
constexpr auto access(decltype(*std::declval<IT>()) value) const
-> decltype(std::declval<ACCESSOR>()(value))
{
return m_accessor(value);
}
private:
IT const m_begin, m_end;
ACCESSOR m_accessor = iterator_identity<IT>;
};
/// Internal type: encode statement parameters.
/** Compiles arguments for prepared statements and parameterised queries into
* a format that can be passed into libpq.
*
* Objects of this type are meant to be short-lived: a `c_params` lives and
* dies entirely within the call to execute. So, for example, if you pass in a
* non-null pointer as a parameter, @ref params may simply use that pointer as
* a parameter value, without arranging longer-term storage for the data to
* which it points. All values referenced by parameters must remain "live"
* until the parameterised or prepared statement has been executed.
*/
struct PQXX_LIBEXPORT c_params
{
c_params() = default;
/// Copying these objects is pointless and expensive. Don't do it.
c_params(c_params const &) = delete;
c_params(c_params &&) = default;
/// Pre-allocate storage for `n` parameters.
void reserve(std::size_t n) &;
/// As used by libpq: pointers to parameter values.
std::vector<char const *> values;
/// As used by libpq: lengths of non-null arguments, in bytes.
std::vector<int> lengths;
/// As used by libpq: effectively boolean "is this a binary parameter?"
std::vector<format> formats;
};
} // namespace pqxx::internal
#endif