using System; using System.Collections.Generic; using System.Globalization; using System.Linq; using System.Linq.Expressions; using System.Text.RegularExpressions; using System.Threading; using System.Threading.Tasks; using Microsoft.AspNetCore.Components; using Microsoft.AspNetCore.Components.Web; namespace AntDesign { public partial class InputNumber : AntInputComponentBase { private string _format; protected const string PrefixCls = "ant-input-number"; [Parameter] public Func Formatter { get; set; } [Parameter] public Func Parser { get; set; } private TValue _step; [Parameter] public TValue Step { get { return _step; } set { _step = value; var stepStr = _step.ToString(); if (string.IsNullOrEmpty(_format)) { _format = string.Join('.', stepStr.Split('.').Select(n => new string('0', n.Length))); } else { if (stepStr.IndexOf('.') > 0) _decimalPlaces = stepStr.Length - stepStr.IndexOf('.') - 1; else _decimalPlaces = 0; } } } private int? _decimalPlaces; [Parameter] public TValue DefaultValue { get; set; } [Parameter] public TValue Max { get; set; } [Parameter] public TValue Min { get; set; } [Parameter] public bool Disabled { get; set; } [Parameter] public EventCallback OnChange { get; set; } private readonly bool _isNullable; private readonly Func _increaseFunc; private readonly Func _decreaseFunc; private readonly Func _greaterThanFunc; private readonly Func _equalToFunc; private Func _toStringFunc; private readonly Func _roundFunc; private Func _parseFunc; private static readonly Type _surfaceType = typeof(TValue); private static readonly Type[] _smallIntegerType = new Type[] { typeof(sbyte), typeof(byte), typeof(short), typeof(ushort), }; private static readonly Type[] _supportTypes = new Type[] { typeof(sbyte), typeof(byte), typeof(short), typeof(ushort), typeof(int), typeof(uint), typeof(long), typeof(ulong), typeof(float), typeof(double), typeof(decimal) }; private static readonly Dictionary _defaultMaximum = new Dictionary() { { typeof(sbyte),sbyte.MaxValue }, { typeof(byte), byte.MaxValue }, { typeof(short),short.MaxValue }, { typeof(ushort),ushort.MaxValue }, { typeof(int),int.MaxValue }, { typeof(uint),uint.MaxValue }, { typeof(long),long.MaxValue }, { typeof(ulong),ulong.MaxValue }, { typeof(float),float.PositiveInfinity }, { typeof(double),double.PositiveInfinity }, { typeof(decimal),decimal.MaxValue }, }; private static readonly Dictionary _defaultMinimum = new Dictionary() { { typeof(sbyte),sbyte.MinValue }, { typeof(byte), byte.MinValue }, { typeof(short),short.MinValue }, { typeof(ushort),ushort.MinValue }, { typeof(int),int.MinValue }, { typeof(uint),uint.MinValue }, { typeof(long),long.MinValue }, { typeof(ulong),ulong.MinValue }, { typeof(float),float.NegativeInfinity}, { typeof(double),double.NegativeInfinity }, { typeof(decimal),decimal.MinValue }, }; private static Type[] _floatTypes = new Type[] { typeof(float), typeof(double), typeof(decimal) }; private string _inputString; private bool _focused; private readonly int _interval = 200; private CancellationTokenSource _increaseTokenSource; private CancellationTokenSource _decreaseTokenSource; public InputNumber() { _isNullable = _surfaceType.IsGenericType && _surfaceType.GetGenericTypeDefinition() == typeof(Nullable<>); var underlyingType = _isNullable ? Nullable.GetUnderlyingType(_surfaceType) : _surfaceType; if (!_supportTypes.Contains(underlyingType)) { throw new NotSupportedException("InputNumber supports only numeric types."); } //递增与递减 Increment and decrement ParameterExpression piValue = Expression.Parameter(_surfaceType, "value"); ParameterExpression piStep = Expression.Parameter(_surfaceType, "step"); Expression> fexpAdd; Expression> fexpSubtract; if (_smallIntegerType.Contains(underlyingType)) { fexpAdd = Expression.Lambda>(Expression.Convert(Expression.Add(Expression.Convert(piValue, typeof(int)), Expression.Convert(piStep, typeof(int))), _surfaceType), piValue, piStep); fexpSubtract = Expression.Lambda>(Expression.Convert(Expression.Subtract(Expression.Convert(piValue, typeof(int)), Expression.Convert(piStep, typeof(int))), _surfaceType), piValue, piStep); } else { fexpAdd = Expression.Lambda>(Expression.Add(piValue, piStep), piValue, piStep); fexpSubtract = Expression.Lambda>(Expression.Subtract(piValue, piStep), piValue, piStep); } _increaseFunc = fexpAdd.Compile(); _decreaseFunc = fexpSubtract.Compile(); //数字比较 Digital comparison ParameterExpression piLeft = Expression.Parameter(_surfaceType, "left"); ParameterExpression piRight = Expression.Parameter(_surfaceType, "right"); var fexpGreaterThan = Expression.Lambda>(Expression.GreaterThan(piLeft, piRight), piLeft, piRight); _greaterThanFunc = fexpGreaterThan.Compile(); var fexpEqualTo = Expression.Lambda>(Expression.Equal(piLeft, piRight), piLeft, piRight); _equalToFunc = fexpEqualTo.Compile(); //四舍五入 rounding if (_floatTypes.Contains(_surfaceType)) { ParameterExpression num = Expression.Parameter(_surfaceType, "num"); ParameterExpression decimalPlaces = Expression.Parameter(typeof(int), "decimalPlaces"); MethodCallExpression expRound = Expression.Call(null, typeof(InputNumberMath).GetMethod(nameof(InputNumberMath.Round), new Type[] { _surfaceType, typeof(int) }), num, decimalPlaces); var lambdaRound = Expression.Lambda>(expRound, num, decimalPlaces); _roundFunc = lambdaRound.Compile(); } if (_defaultMaximum.ContainsKey(underlyingType)) Max = (TValue)_defaultMaximum[underlyingType]; if (_defaultMinimum.ContainsKey(underlyingType)) Min = (TValue)_defaultMinimum[underlyingType]; _step = (TValue)Convert.ChangeType(1, underlyingType); } protected override void OnInitialized() { base.OnInitialized(); // 数字解析 Digital analysis ParameterExpression input = Expression.Parameter(typeof(string), "input"); ParameterExpression defaultValue = Expression.Parameter(typeof(TValue), "defaultValue"); MethodCallExpression inputParse = Expression.Call(null, typeof(InputNumberMath).GetMethod(nameof(InputNumberMath.Parse), new Type[] { typeof(string), typeof(TValue), typeof(CultureInfo) }), input, defaultValue, Expression.Constant(CultureInfo)); var lambdaParse = Expression.Lambda>(inputParse, input, defaultValue); _parseFunc = lambdaParse.Compile(); //格式化 format ParameterExpression format = Expression.Parameter(typeof(string), "format"); ParameterExpression value = Expression.Parameter(_surfaceType, "value"); Expression expValue; if (_isNullable) expValue = Expression.Property(value, "Value"); else expValue = value; MethodCallExpression expToString = Expression.Call(expValue, expValue.Type.GetMethod("ToString", new Type[] { typeof(string), typeof(IFormatProvider) }), format, Expression.Constant(CultureInfo)); var lambdaToString = Expression.Lambda>(expToString, value, format); _toStringFunc = lambdaToString.Compile(); SetClass(); CurrentValue = Value ?? DefaultValue; } /// /// Always return true, if input string is invalid, result = default, if input string is null or empty, result = DefaultValue /// /// /// /// /// protected override bool TryParseValueFromString(string value, out TValue result, out string validationErrorMessage) { validationErrorMessage = null; if (!Regex.IsMatch(value, @"^[+-]?\d*[.,]?\d*$")) { result = Value; return true; } if (value == "-" || value == "+") { value = "0"; } if (!_isNullable) { if (string.IsNullOrWhiteSpace(value)) { result = default; } else { result = _parseFunc(value, Value); } } else { if (string.IsNullOrWhiteSpace(value)) { result = default; } else { result = _parseFunc(value, Value); } } return true; } private void SetClass() { ClassMapper.Clear() .Add(PrefixCls) .If($"{PrefixCls}-lg", () => Size == InputSize.Large) .If($"{PrefixCls}-sm", () => Size == InputSize.Small) .If($"{PrefixCls}-focused", () => _focused) .If($"{PrefixCls}-disabled", () => this.Disabled) .If($"{PrefixCls}-rtl", () => RTL); } #region Value Increase and Decrease Methods private async Task IncreaseDown() { if (_isNullable && Value == null) { return; } if (_equalToFunc(Value, Max)) { return; } await SetFocus(); var num = _increaseFunc(Value, _step); await ChangeValueAsync(num); _increaseTokenSource = new CancellationTokenSource(); _ = Increase(_increaseTokenSource.Token).ConfigureAwait(false); } private void IncreaseUp() => _increaseTokenSource?.Cancel(); private async Task Increase(CancellationToken cancellationToken) { await Task.Delay(600, CancellationToken.None); while (true) { if (_equalToFunc(Value, Max) || cancellationToken.IsCancellationRequested) { return; } var num = _increaseFunc(Value, _step); await ChangeValueAsync(num); StateHasChanged(); await Task.Delay(_interval, CancellationToken.None); } } private async Task DecreaseDown() { if (_isNullable && Value == null) { return; } if (_equalToFunc(Value, Min)) { return; } await SetFocus(); var num = _decreaseFunc(Value, _step); await ChangeValueAsync(num); _decreaseTokenSource = new CancellationTokenSource(); _ = Decrease(_decreaseTokenSource.Token).ConfigureAwait(false); } private void DecreaseUp() => _decreaseTokenSource?.Cancel(); private async Task Decrease(CancellationToken cancellationToken) { await Task.Delay(600, CancellationToken.None); while (true) { if (_equalToFunc(Value, Min) || cancellationToken.IsCancellationRequested) { return; } var num = _decreaseFunc(Value, _step); await ChangeValueAsync(num); StateHasChanged(); await Task.Delay(_interval, CancellationToken.None); } } private async Task OnKeyDown(KeyboardEventArgs e) { if (_isNullable && Value == null) { return; } if (e.Key == "ArrowUp") { if (_equalToFunc(Value, Max)) { return; } var num = _increaseFunc(Value, _step); await ChangeValueAsync(num); StateHasChanged(); } else if (e.Key == "ArrowDown") { if (_equalToFunc(Value, Min)) { return; } var num = _decreaseFunc(Value, _step); await ChangeValueAsync(num); StateHasChanged(); } } #endregion Value Increase and Decrease Methods private async Task SetFocus() { _focused = true; await FocusAsync(Ref); } private void OnInput(ChangeEventArgs args) { _inputString = args.Value?.ToString(); } private void OnFocus() { _focused = true; CurrentValue = Value; } private async Task OnBlurAsync() { _focused = false; if (_inputString == null) { await ChangeValueAsync(Value); return; } if (!CurrentValueAsString.Equals(_inputString)) CurrentValueAsString = _inputString; _inputString = null; } private async Task ConvertNumberAsync(string inputString) { _ = TryParseValueFromString(inputString, out TValue num, out _); await ChangeValueAsync(num); } private async Task ChangeValueAsync(TValue value) { if (_greaterThanFunc(value, Max)) value = Max; else if (_greaterThanFunc(Min, value)) value = Min; if (_roundFunc == null) { CurrentValue = value; } else { CurrentValue = _decimalPlaces.HasValue ? _roundFunc(value, _decimalPlaces.Value) : value; } if (OnChange.HasDelegate) { await OnChange.InvokeAsync(value); } } private string GetIconClass(string direction) { string cls; if (direction == "up") { cls = $"ant-input-number-handler ant-input-number-handler-up " + (!_greaterThanFunc(Max, Value) ? "ant-input-number-handler-up-disabled" : string.Empty); } else { cls = $"ant-input-number-handler ant-input-number-handler-down " + (!_greaterThanFunc(Value, Min) ? "ant-input-number-handler-down-disabled" : string.Empty); } return cls; } protected override string FormatValueAsString(TValue value) { if (Formatter != null) { return Formatter(Value); } if (EqualityComparer.Default.Equals(value, default) == false) return _toStringFunc(value, _format); else return default(TValue)?.ToString(); } } }