Exemple #1
0
        /// <summary>
        /// Parse the user input into an InputParserResult object
        /// </summary>
        /// <param name="input">The string the user has input</param>
        /// <param name="maxWidth">The maximum width of the parcel of land</param>
        /// <param name="maxHeight">The maximum height of the parcel of land.</param>
        /// <returns>An InputParserResult object.  This object will either store error information of will contain a 2D array representing the land mass.</returns>
        internal static InputParserResult ParseInput(string input, int maxWidth, int maxHeight)
        {
            // Subtract one from the maximum width and height right away since we're using a 0-based array to track the area
            maxWidth  -= 1;
            maxHeight -= 1;

            // In an ideal world this would be evaluated using a regular expression
            if (string.IsNullOrEmpty(input))
            {
                return(new InputParserResult(false, "The entered string was empty"));
            }
            if (!input.StartsWith("{"))
            {
                return(new InputParserResult(false, "The input string must start with '{'"));
            }
            input = input.Remove(0, 1);
            if (!input.EndsWith("}"))
            {
                return(new InputParserResult(false, "The input string must end with '}'"));
            }
            input = input.Remove(input.Length - 1, 1);
            // At this point the resulting string should not contain the curly braces, just the rectangles.
            // If the string ends with anything other than a quote then we have invalid input.
            if (!input.EndsWith("\""))
            {
                return(new InputParserResult(false, "The input string contains extra unexpected characters at the end."));
            }

            string[] rectangleStrings = input.Split(new string[] { ", " }, StringSplitOptions.None);
            int[,] landMass = new int[maxWidth + 1, maxHeight + 1];
            ArrayHelpers.Fill2DArrayWithRectangleValues(landMass, InputParserResult.FERTILE_INDICATOR, 0, 0, maxWidth, maxHeight);

            //foreach (string rectString in rectangleStrings)
            for (int i = 0; i < rectangleStrings.Length; i++)
            {
                string rectString = rectangleStrings[i];
                // If any rectangle in the collection does not start with or end with a quote at this point we have invalid input
                if (!rectString.StartsWith("\"") || !rectString.EndsWith("\""))
                {
                    return(new InputParserResult(false, "There were invalid delimiters in the rectangle string."));
                }
                string onlyDigits = rectString.Substring(1, rectString.Length - 2);
                // The string should be only digits separated by quotes at this point
                string[] digits = onlyDigits.Split(' ');
                if (digits.Length != 4)
                {
                    return(new InputParserResult(false, $"There were {digits.Length} sides of the rectangle specified instead of 4."));
                }

                int[] sides = new int[4];
                for (int j = 0; j < digits.Length; j++)
                {
                    if (!int.TryParse(digits[j], out int side))
                    {
                        return(new InputParserResult(false, $"{digits[j]} could not be parsed as an integer."));
                    }
                    sides[j] = side;
                }
                int low_x = sides[0];
                if (low_x < 0 || low_x > maxWidth)
                {
                    return(new InputParserResult(false, $"{low_x} is not a valid x starting coordinate."));
                }
                int low_y = sides[1];
                if (low_y < 0 || low_y > maxHeight)
                {
                    return(new InputParserResult(false, $"{low_y} is not a valid y starting coordinate."));
                }
                int up_x = sides[2];
                if (up_x > maxWidth || up_x < low_x)
                {
                    return(new InputParserResult(false, $"The resulting width is outside the allowable bounds."));
                }
                int up_y = sides[3];
                if (up_y > maxHeight || up_y < low_y)
                {
                    return(new InputParserResult(false, $"The resulting height is outside the allowable bounds."));
                }

                // If we've made it this far we have a valid rectangle string with four valid coordinates.
                // Take those coordinates and use them to fill in the barren land area based on those coordinates.
                ArrayHelpers.Fill2DArrayWithRectangleValues(landMass, InputParserResult.BARREN_INDICATOR, low_x, low_y, up_x, up_y);
            }

            return(new InputParserResult(true, "This is fine", landMass));
        }