#include "typed_array.hpp"

#include <sstream>

namespace node_gdal {

// https://github.com/joyent/node/issues/4201#issuecomment-9837340

Local<Value> TypedArray::New(GDALDataType type, unsigned int length) {
  Nan::EscapableHandleScope scope;

  Local<Value> val;
  Local<Function> constructor;
  Local<Object> global = Nan::GetCurrentContext()->Global();

  const char *name;
  switch (type) {
    case GDT_Byte: name = "Uint8Array"; break;
    case GDT_Int16: name = "Int16Array"; break;
    case GDT_UInt16: name = "Uint16Array"; break;
    case GDT_Int32: name = "Int32Array"; break;
    case GDT_UInt32: name = "Uint32Array"; break;
    case GDT_Float32: name = "Float32Array"; break;
    case GDT_Float64: name = "Float64Array"; break;
    default: Nan::ThrowError("Unsupported array type"); return scope.Escape(Nan::Undefined());
  }

  // make ArrayBuffer
  val = Nan::Get(global, Nan::New("ArrayBuffer").ToLocalChecked()).ToLocalChecked();

  if (val.IsEmpty() || !val->IsFunction()) {
    Nan::ThrowError("Error getting ArrayBuffer constructor");
    return scope.Escape(Nan::Undefined());
  }

  constructor = val.As<Function>();
  Local<Value> size = Nan::New<Integer>(length * GDALGetDataTypeSize(type) / 8);
  Local<Value> array_buffer = Nan::NewInstance(constructor, 1, &size).ToLocalChecked();

  if (array_buffer.IsEmpty() || !array_buffer->IsObject()) {
    Nan::ThrowError("Error allocating ArrayBuffer");
    return scope.Escape(Nan::Undefined());
  }

  // make TypedArray
  val = Nan::Get(global, Nan::New(name).ToLocalChecked()).ToLocalChecked();

  if (val.IsEmpty() || !val->IsFunction()) {
    Nan::ThrowError("Error getting typed array constructor");
    return scope.Escape(Nan::Undefined());
  }

  constructor = val.As<Function>();
  Local<Object> array = Nan::NewInstance(constructor, 1, &array_buffer).ToLocalChecked();

  if (array.IsEmpty() || !array->IsObject()) {
    Nan::ThrowError("Error creating TypedArray");
    return scope.Escape(Nan::Undefined());
  }

  Nan::Set(array, Nan::New("_gdal_type").ToLocalChecked(), Nan::New(type));

  return scope.Escape(array);
}

GDALDataType TypedArray::Identify(Local<Object> obj) {
  Nan::HandleScope scope;

  Local<String> sym = Nan::New("_gdal_type").ToLocalChecked();
  if (!Nan::HasOwnProperty(obj, sym).FromMaybe(false)) return GDT_Unknown;
  Local<Value> val = Nan::Get(obj, sym).ToLocalChecked();
  if (!val->IsNumber()) return GDT_Unknown;

  return (GDALDataType)Nan::To<int32_t>(val).ToChecked();
}

void *TypedArray::Validate(Local<Object> obj, GDALDataType type, int min_length) {
  // validate array
  Nan::HandleScope scope;

  GDALDataType src_type = TypedArray::Identify(obj);
  if (src_type == GDT_Unknown) {
    Nan::ThrowTypeError("Unable to identify GDAL datatype of passed array object");
    return NULL;
  }
  if (src_type != type) {
    std::ostringstream ss;
    ss << "Array type does not match band data type ("
       << "input: " << GDALGetDataTypeName(src_type) << ", target: " << GDALGetDataTypeName(type) << ")";

    Nan::ThrowTypeError(ss.str().c_str());
    return NULL;
  }
  switch (type) {
    case GDT_Byte: {
      Nan::TypedArrayContents<GByte> contents(obj);
      if (ValidateLength(contents.length(), min_length)) return NULL;
      return *contents;
    }
    case GDT_Int16: {
      Nan::TypedArrayContents<GInt16> contents(obj);
      if (ValidateLength(contents.length(), min_length)) return NULL;
      return *contents;
    }
    case GDT_UInt16: {
      Nan::TypedArrayContents<GUInt16> contents(obj);
      if (ValidateLength(contents.length(), min_length)) return NULL;
      return *contents;
    }
    case GDT_Int32: {
      Nan::TypedArrayContents<GInt32> contents(obj);
      if (ValidateLength(contents.length(), min_length)) return NULL;
      return *contents;
    }
    case GDT_UInt32: {
      Nan::TypedArrayContents<GUInt32> contents(obj);
      if (ValidateLength(contents.length(), min_length)) return NULL;
      return *contents;
    }
    case GDT_Float32: {
      Nan::TypedArrayContents<float> contents(obj);
      if (ValidateLength(contents.length(), min_length)) return NULL;
      return *contents;
    }
    case GDT_Float64: {
      Nan::TypedArrayContents<double> contents(obj);
      if (ValidateLength(contents.length(), min_length)) return NULL;
      return *contents;
    }
    default: Nan::ThrowError("Unsupported array type"); return NULL;
  }
}
bool TypedArray::ValidateLength(int length, int min_length) {
  if (length < min_length) {
    std::ostringstream ss;
    ss << "Array length must be greater than or equal to " << min_length;

    Nan::ThrowError(ss.str().c_str());
    return true;
  }
  return false;
}

} // namespace node_gdal
