Exemplo n.º 1
0
        public Tuple <EdgeValueType[], EdgeValueType> CreateAlphaPartitionTreeElementArray <ElementValueType, EdgeValueType>(
            IAlgebraReal <EdgeValueType> algebra,
            IFunctionDissimilarity <ElementValueType, EdgeValueType> edge_function,
            ElementValueType [] element_values)
        {
            int element_count = this.ElementCount;

            EdgeValueType[] element_and_edge_values = new EdgeValueType[element_count];

            EdgeValueType max_value = algebra.MinValue;

            // do x edges
            for (int element_index = x_edge_offset; element_index < y_edge_offset; element_index++)
            {
                if (element_index % raster_size[0] != raster_size[0] - 1)
                {
                    element_and_edge_values[element_index] = edge_function.Compute(
                        element_values[element_index - x_edge_offset],
                        element_values[element_index - x_edge_offset + 1]);
                    max_value = algebra.Max(max_value, element_and_edge_values[element_index]);
                }
            }

            // do y edges
            for (int element_index = y_edge_offset; element_index < z_edge_offset; element_index++)
            {
                if ((element_index % size_xy) / raster_size[0] != raster_size[1] - 1)
                {
                    element_and_edge_values[element_index] = edge_function.Compute(
                        element_values[element_index - y_edge_offset],
                        element_values[element_index - y_edge_offset + this.size_x]);
                    max_value = algebra.Max(max_value, element_and_edge_values[element_index]);
                }
            }

            // do z edges
            for (int element_index = z_edge_offset; element_index < (element_and_edge_values.Length - size_xy); element_index++)
            {
                element_and_edge_values[element_index] = edge_function.Compute(
                    element_values[element_index - z_edge_offset],
                    element_values[element_index - z_edge_offset + this.size_xy]);
                max_value = algebra.Max(max_value, element_and_edge_values[element_index]);
            }

            // set real node values to max value
            for (int element_index = 0; element_index < x_edge_offset; element_index++)
            {
                element_and_edge_values[element_index] = max_value;
            }

            // flip all edges
            for (int element_index = x_edge_offset; element_index < element_count; element_index++)
            {
                element_and_edge_values[element_index] = algebra.Subtract(max_value, element_and_edge_values[element_index]);
            }

            return(new Tuple <EdgeValueType[], EdgeValueType>(element_and_edge_values, max_value));
        }
Exemplo n.º 2
0
        public Tuple <EdgeValueType[], EdgeValueType> CreateAlphaPartitionTreeElementArray <ElementValueType, EdgeValueType>(
            IAlgebraReal <EdgeValueType> algebra,
            IFunctionDissimilarity <ElementValueType, EdgeValueType> edge_function,
            ElementValueType[] element_values)
        {
            int element_count = this.ElementCount;

            EdgeValueType [] new_image = new EdgeValueType [element_count];
            EdgeValueType    max_value = algebra.MinValue;

            // do x edges
            for (int element_index = x_edge_offset; element_index < element_count; element_index++)
            {
                new_image[element_index] = edge_function.Compute(
                    element_values[element_index - x_edge_offset],
                    element_values[element_index - x_edge_offset + 1]);
                max_value = algebra.Max(max_value, new_image[element_index]);
            }

            // set node values
            for (int element_index = 0; element_index < x_edge_offset; element_index++)
            {
                new_image[element_index] = max_value;
            }

            // flip x edges
            for (int element_index = x_edge_offset; element_index < element_count; element_index++)
            {
                new_image[element_index] = algebra.Subtract(max_value, new_image[element_index]);
            }

            return(new Tuple <EdgeValueType[], EdgeValueType>(new_image, max_value));
        }