#include <tiledb/tiledb>
#include <tiledb/tiledb_experimental>

#include <pybind11/numpy.h>
#include <pybind11/pybind11.h>
#include <pybind11/pytypes.h>
#include <pybind11/stl.h>

#include "common.h"

namespace libtiledbcpp {

using namespace tiledb;
using namespace tiledbpy::common;
namespace py = pybind11;

void set_fill_value(Attribute &attr, py::array value) {
  attr.set_fill_value(value.data(), value.nbytes());
}

py::array get_fill_value(Attribute &attr) {
  // Get the fill value from the C++ API as a void* value.
  const void *value;
  uint64_t size;
  attr.get_fill_value(&value, &size);

  // If this is a string type, we want to return each value as a single cell.
  if (is_tdb_str(attr.type())) {
    auto value_type = py::dtype("|S1");
    return py::array(value_type, size, value);
  }

  // If this is a record type (void), return a single cell.
  // If this is a blob-like type, we want to return each value as a single byte
  // cell.
  auto tdb_type = attr.type();
  if (tdb_type == TILEDB_BLOB
#if TILEDB_VERSION_MAJOR >= 2 && TILEDB_VERSION_MINOR >= 21
      || tdb_type == TILEDB_GEOM_WKB || tdb_type == TILEDB_GEOM_WKT
#endif
  ) {
    auto value_type = py::dtype("S");
    return py::array(value_type, size, value);
  }

  // Get the number of values in a cell and the Python datatype.
  auto value_num = attr.cell_val_num();
  auto value_type = tdb_to_np_dtype(attr.type(), value_num);

  if (py::getattr(value_type, "kind").is(py::str("V"))) {
    return py::array(value_type, 1, value);
  }

  // If this is a complex type both cell values fit in a single complex element.
  if (value_type.is(py::dtype("complex64")) ||
      value_type.is(py::dtype("complex128"))) {
    return py::array(value_type, 1, value);
  }

  return py::array(value_type, value_num, value);
}

void set_enumeration_name(Attribute &attr, const Context &ctx,
                          const std::string &enumeration_name) {
  AttributeExperimental::set_enumeration_name(ctx, attr, enumeration_name);
}

std::optional<std::string> get_enumeration_name(Attribute &attr,
                                                const Context &ctx) {
  return AttributeExperimental::get_enumeration_name(ctx, attr);
}

void init_attribute(py::module &m) {
  py::class_<tiledb::Attribute>(m, "Attribute")
      .def(py::init<Attribute>())

      .def(py::init<Context &, std::string &, tiledb_datatype_t>())

      .def(
          py::init<Context &, std::string &, tiledb_datatype_t, FilterList &>())

      .def(py::init<const Context &, py::capsule>())

      .def(
          "__capsule__",
          [](Attribute &attr) { return py::capsule(attr.ptr().get(), "attr"); })

      .def_property_readonly("_name", &Attribute::name)

      .def_property_readonly("_tiledb_dtype", &Attribute::type)

      .def_property("_nullable", &Attribute::nullable, &Attribute::set_nullable)

      .def_property("_ncell", &Attribute::cell_val_num,
                    &Attribute::set_cell_val_num)

      .def_property_readonly("_var", &Attribute::variable_sized)

      .def_property("_filters", &Attribute::filter_list,
                    &Attribute::set_filter_list)

      .def_property_readonly("_cell_size", &Attribute::cell_size)

      .def_property("_fill", get_fill_value, set_fill_value)

      .def("_get_enumeration_name", get_enumeration_name)

      .def("_set_enumeration_name", set_enumeration_name)

      .def("_dump", [](Attribute &attr) {
#if TILEDB_VERSION_MAJOR >= 2 && TILEDB_VERSION_MINOR >= 26
        std::stringstream ss;
        ss << attr;
        return ss.str();
#else
        attr.dump();
#endif
      });
}

} // namespace libtiledbcpp