Flow.Launcher/Plugins/Flow.Launcher.Plugin.Calculator/Main.cs
2025-07-28 02:56:32 +01:00

315 lines
11 KiB
C#

using System;
using System.Collections.Generic;
using System.Globalization;
using System.Linq;
using System.Runtime.InteropServices;
using System.Text.RegularExpressions;
using System.Windows.Controls;
using Mages.Core;
using Flow.Launcher.Plugin.Calculator.Views;
using Flow.Launcher.Plugin.Calculator.ViewModels;
namespace Flow.Launcher.Plugin.Calculator
{
public class Main : IPlugin, IPluginI18n, ISettingProvider
{
private static readonly Regex RegValidExpressChar = MainRegexHelper.GetRegValidExpressChar();
private static readonly Regex RegBrackets = MainRegexHelper.GetRegBrackets();
private static readonly Regex ThousandGroupRegex = MainRegexHelper.GetThousandGroupRegex();
private static readonly Regex NumberRegex = MainRegexHelper.GetNumberRegex();
private static Engine MagesEngine;
private const string Comma = ",";
private const string Dot = ".";
internal static PluginInitContext Context { get; set; } = null!;
private Settings _settings;
private SettingsViewModel _viewModel;
/// <summary>
/// Holds the formatting information for a single query.
/// This is used to ensure thread safety by keeping query state local.
/// </summary>
private class ParsingContext
{
public string InputDecimalSeparator { get; set; }
public bool InputUsesGroupSeparators { get; set; }
}
public void Init(PluginInitContext context)
{
Context = context;
_settings = context.API.LoadSettingJsonStorage<Settings>();
_viewModel = new SettingsViewModel(_settings);
MagesEngine = new Engine(new Configuration
{
Scope = new Dictionary<string, object>
{
{ "e", Math.E }, // e is not contained in the default mages engine
}
});
}
public List<Result> Query(Query query)
{
if (!CanCalculate(query))
{
return new List<Result>();
}
var context = new ParsingContext();
try
{
var expression = NumberRegex.Replace(query.Search, m => NormalizeNumber(m.Value, context));
var result = MagesEngine.Interpret(expression);
if (result?.ToString() == "NaN")
result = Localize.flowlauncher_plugin_calculator_not_a_number();
if (result is Function)
result = Localize.flowlauncher_plugin_calculator_expression_not_complete();
if (!string.IsNullOrEmpty(result?.ToString()))
{
decimal roundedResult = Math.Round(Convert.ToDecimal(result), _settings.MaxDecimalPlaces, MidpointRounding.AwayFromZero);
string newResult = FormatResult(roundedResult, context);
return new List<Result>
{
new Result
{
Title = newResult,
IcoPath = "Images/calculator.png",
Score = 300,
SubTitle = Localize.flowlauncher_plugin_calculator_copy_number_to_clipboard(),
CopyText = newResult,
Action = c =>
{
try
{
Context.API.CopyToClipboard(newResult);
return true;
}
catch (ExternalException)
{
Context.API.ShowMsgBox(Localize.flowlauncher_plugin_calculator_failed_to_copy());
return false;
}
}
}
};
}
}
catch (Exception)
{
// ignored
}
return new List<Result>();
}
/// <summary>
/// Parses a string representation of a number, detecting its format. It uses structural analysis
/// and falls back to system culture for truly ambiguous cases (e.g., "1,234").
/// It populates the provided ParsingContext with the detected format for later use.
/// </summary>
/// <returns>A normalized number string with '.' as the decimal separator for the Mages engine.</returns>
private string NormalizeNumber(string numberStr, ParsingContext context)
{
var systemGroupSep = CultureInfo.CurrentCulture.NumberFormat.NumberGroupSeparator;
int dotCount = numberStr.Count(f => f == '.');
int commaCount = numberStr.Count(f => f == ',');
// Case 1: Unambiguous mixed separators (e.g., "1.234,56")
if (dotCount > 0 && commaCount > 0)
{
context.InputUsesGroupSeparators = true;
if (numberStr.LastIndexOf('.') > numberStr.LastIndexOf(','))
{
context.InputDecimalSeparator = Dot;
return numberStr.Replace(Comma, string.Empty);
}
else
{
context.InputDecimalSeparator = Comma;
return numberStr.Replace(Dot, string.Empty).Replace(Comma, Dot);
}
}
// Case 2: Only dots
if (dotCount > 0)
{
if (dotCount > 1)
{
context.InputUsesGroupSeparators = true;
return numberStr.Replace(Dot, string.Empty);
}
// A number is ambiguous if it has a single Dot in the thousands position,
// and does not start with a "0." or "."
bool isAmbiguous = numberStr.Length - numberStr.LastIndexOf('.') == 4
&& !numberStr.StartsWith("0.")
&& !numberStr.StartsWith(".");
if (isAmbiguous)
{
if (systemGroupSep == Dot)
{
context.InputUsesGroupSeparators = true;
return numberStr.Replace(Dot, string.Empty);
}
else
{
context.InputDecimalSeparator = Dot;
return numberStr;
}
}
else // Unambiguous decimal (e.g., "12.34" or "0.123" or ".123")
{
context.InputDecimalSeparator = Dot;
return numberStr;
}
}
// Case 3: Only commas
if (commaCount > 0)
{
if (commaCount > 1)
{
context.InputUsesGroupSeparators = true;
return numberStr.Replace(Comma, string.Empty);
}
// A number is ambiguous if it has a single Comma in the thousands position,
// and does not start with a "0," or ","
bool isAmbiguous = numberStr.Length - numberStr.LastIndexOf(',') == 4
&& !numberStr.StartsWith("0,")
&& !numberStr.StartsWith(",");
if (isAmbiguous)
{
if (systemGroupSep == Comma)
{
context.InputUsesGroupSeparators = true;
return numberStr.Replace(Comma, string.Empty);
}
else
{
context.InputDecimalSeparator = Comma;
return numberStr.Replace(Comma, Dot);
}
}
else // Unambiguous decimal (e.g., "12,34" or "0,123" or ",123")
{
context.InputDecimalSeparator = Comma;
return numberStr.Replace(Comma, Dot);
}
}
// Case 4: No separators
return numberStr;
}
private string FormatResult(decimal roundedResult, ParsingContext context)
{
string decimalSeparator = context.InputDecimalSeparator ?? GetDecimalSeparator();
string groupSeparator = GetGroupSeparator(decimalSeparator);
string resultStr = roundedResult.ToString(CultureInfo.InvariantCulture);
string[] parts = resultStr.Split('.');
string integerPart = parts[0];
string fractionalPart = parts.Length > 1 ? parts[1] : string.Empty;
if (context.InputUsesGroupSeparators && integerPart.Length > 3)
{
integerPart = ThousandGroupRegex.Replace(integerPart, groupSeparator);
}
if (!string.IsNullOrEmpty(fractionalPart))
{
return integerPart + decimalSeparator + fractionalPart;
}
return integerPart;
}
private string GetGroupSeparator(string decimalSeparator)
{
// This logic is now independent of the system's group separator
// to ensure consistent output for unit testing.
return decimalSeparator == Dot ? Comma : Dot;
}
private bool CanCalculate(Query query)
{
if (query.Search.Length < 2)
{
return false;
}
if (!RegValidExpressChar.IsMatch(query.Search))
{
return false;
}
if (!IsBracketComplete(query.Search))
{
return false;
}
return true;
}
private string GetDecimalSeparator()
{
string systemDecimalSeparator = CultureInfo.CurrentCulture.NumberFormat.NumberDecimalSeparator;
return _settings.DecimalSeparator switch
{
DecimalSeparator.UseSystemLocale => systemDecimalSeparator,
DecimalSeparator.Dot => Dot,
DecimalSeparator.Comma => Comma,
_ => systemDecimalSeparator,
};
}
private static bool IsBracketComplete(string query)
{
var matchs = RegBrackets.Matches(query);
var leftBracketCount = 0;
foreach (Match match in matchs)
{
if (match.Value == "(" || match.Value == "[")
{
leftBracketCount++;
}
else
{
leftBracketCount--;
}
}
return leftBracketCount == 0;
}
public string GetTranslatedPluginTitle()
{
return Localize.flowlauncher_plugin_calculator_plugin_name();
}
public string GetTranslatedPluginDescription()
{
return Localize.flowlauncher_plugin_calculator_plugin_description();
}
public Control CreateSettingPanel()
{
return new CalculatorSettings(_settings);
}
public void OnCultureInfoChanged(CultureInfo newCulture)
{
DecimalSeparatorLocalized.UpdateLabels(_viewModel.AllDecimalSeparator);
}
}
}