public virtual string ToString(string format, IFormatProvider formatProvider) { if (format == null) { return(ToString()); } string decimalFormat = "F0"; string formatType = format; if (char.IsNumber(format, format.Length - 1)) { decimalFormat = "F" + format.Substring(format.Length - 1, 1); formatType = format.Substring(0, format.Length - 1).ToUpper(); } switch (formatType) { case "D": return(String.Format(formatProvider, "<{0}º>", Degrees.ToString(decimalFormat, formatProvider))); //case "HM": // return String.Format(formatProvider, "<{0}:{1}>", // Hour, MinutesRemained.ToString(decimalFormat, formatProvider)); //case "HMS": // return String.Format(formatProvider, "<{0}:{1}:{2}>", // Hour, Minute, Seconds.ToString(decimalFormat, formatProvider)); //case "ASTRO": // return String.Format(formatProvider, "{0}{1}{2}", // DecimalMinutes.AstroStringOf(decimalFormat, formatProvider)); default: return(ToString(DefaultFormat, System.Globalization.CultureInfo.InvariantCulture)); } }
/// <summary> /// Stringify, with format /// </summary> /// <param name="fmt"></param> /// <returns></returns> public string ToString(GeoAngleFormat fmt, GeoAngleFormatOptions options = GeoAngleFormatOptions.ShowUnits) { string rc = null; switch (fmt) { default: throw new ArgumentException("Unsupported format: " + fmt); case GeoAngleFormat.DDD: if (options == GeoAngleFormatOptions.Compact) { rc = Degrees.ToString("0.0000000"); } else { rc = Degrees.ToString("0.0000000") + Strings.degrees; } break; case GeoAngleFormat.DMM: { DMMComponents dmmComponents = new DMMComponents(Degrees); rc = ToStringDMM(dmmComponents, options); } break; case GeoAngleFormat.DMS: { DMSComponents dmsComponents = new DMSComponents(Degrees); rc = ToStringDMS(dmsComponents, options); } break; } return(rc); }
public string ToString(string format, IFormatProvider formatProvider) { //Lyyymmssdddd int indexOfL = format.IndexOf("L", 0, format.Length); string yToReplace = GetStringToReplace(format, "d"); string mToReplace = GetStringToReplace(format, "m"); string sToReplace = GetStringToReplace(format, "s"); string output = format.Replace("L", Str); if (yToReplace != string.Empty) { output = output.Replace(yToReplace, Degrees.ToString()); } if (mToReplace != string.Empty) { output = output.Replace(mToReplace, Minutes.ToString()); } if (sToReplace != string.Empty) { output = output.Replace(sToReplace, Seconds.ToString()); } return(output); //throw new NotImplementedException(); }
public void TockaProjekcija_SmjerniKut_koordinatene_osi_true() { TockaProjekcija stajaliste = new TockaProjekcija(5, 5); TockaProjekcija vizuraYosPozitivna = new TockaProjekcija(6, 5); TockaProjekcija vizuraYosNegativna = new TockaProjekcija(4, 5); TockaProjekcija vizuraXosPozitivna = new TockaProjekcija(5, 6); TockaProjekcija vizuraXosNegativna = new TockaProjekcija(5, 4); //Y pozitivna Degrees Kv1 = stajaliste.SmjerniKut(vizuraYosPozitivna).ToDegrees(); Assert.IsTrue(90 == Kv1.Angle, Kv1.ToString()); //Y negativna Degrees Kv2 = stajaliste.SmjerniKut(vizuraYosNegativna).ToDegrees(); Assert.IsTrue(270 == Kv2.Angle, Kv2.ToString()); //X pozitivna Degrees Kv3 = stajaliste.SmjerniKut(vizuraXosPozitivna).ToDegrees(); Assert.IsTrue(0 == Kv3.Angle, Kv3.ToString()); //X negativna Degrees Kv4 = stajaliste.SmjerniKut(vizuraXosNegativna).ToDegrees(); Assert.IsTrue(180 == Kv4.Angle, Kv4.ToString()); }
/// <summary> /// /// </summary> /// <param name="format"></param> /// <param name="provider"></param> /// <returns></returns> public string ToString(string format, IFormatProvider provider) { if (string.IsNullOrEmpty(format)) format = "G"; if (provider == null) provider = CultureInfo.CurrentCulture; switch (format) { case "G": case "L": return $"{ToString("D", provider)}{ToString("E", provider)} {ToString("M", provider)}"; case "D": return Direction ?? string.Empty; case "E": return Degrees.ToString("000") ?? string.Empty; case "M": return Minutes.ToString("00.000") ?? string.Empty; default: throw new FormatException($"Format string '{format}' is not valid."); } }
public void TockaProjekcija_SmjerniKut_kvadranti_true() { TockaProjekcija stajaliste = new TockaProjekcija(5, 5); TockaProjekcija vizura1kvadrant = new TockaProjekcija(6, 6); TockaProjekcija vizura2kvadrant = new TockaProjekcija(6, 4); TockaProjekcija vizura3kvadrant = new TockaProjekcija(4, 4); TockaProjekcija vizura4kvadrant = new TockaProjekcija(4, 6); //1. kvadrant Degrees Kv1 = stajaliste.SmjerniKut(vizura1kvadrant).ToDegrees(); Assert.IsTrue(45 == Kv1.Angle, Kv1.ToString()); //2. kvadrant Degrees Kv2 = stajaliste.SmjerniKut(vizura2kvadrant).ToDegrees(); Assert.IsTrue(135 == Kv2.Angle, Kv2.ToString()); //3. kvadrant Degrees Kv3 = stajaliste.SmjerniKut(vizura3kvadrant).ToDegrees(); Assert.IsTrue(225 == Kv3.Angle, Kv3.ToString()); //4. kvadrant Degrees Kv4 = stajaliste.SmjerniKut(vizura4kvadrant).ToDegrees(); Assert.IsTrue(315 == Kv4.Angle, Kv4.ToString()); }
public AngleControl() { InitializeComponent(); _angle = 0; _elevation = 0; _draggedinside = false; _anglestring = Degrees.ToString(); _showTextBox = true; }
public void Degrees_Arithmetic_oduzimanje2_ReturnsTrue() { Degrees a = new Degrees(1.3); Degrees b = new Degrees(2.1); Degrees rjesenje = new Degrees(-0.8); Degrees razlikaOduzimanja = a - b - rjesenje; Assert.IsTrue(razlikaOduzimanja.Angle < tolerance, razlikaOduzimanja.ToString()); }
public void Degrees_Arithmetic_zbrajanje_ReturnsTrue() { Degrees a = new Degrees(2.1); Degrees b = new Degrees(1.1); Degrees rjesenje = new Degrees(3.2); Degrees razlikaZbrajanja = a + b - rjesenje; Assert.IsTrue(razlikaZbrajanja.Angle < tolerance, razlikaZbrajanja.ToString()); }
public override string ToString() { switch (InputFormat) { case AngleFormat.Default: case AngleFormat.Decimal: return(Degrees.ToString()); default: return(RawValue); } }
public override string ToString() { switch (Type) { case PropertyType.Null: return("null"); case PropertyType.Calculated: return("calculated"); case PropertyType.Bool: return(Bool.ToString()); case PropertyType.String: return("string: " + StringHandle.ToString()); case PropertyType.MultiValue: return("multi: " + MultiValueHandle.ToString()); case PropertyType.Enum: return("enum: " + Enum.ToString()); case PropertyType.Color: return("color: " + Color.ToString()); case PropertyType.Integer: return(Integer.ToString() + " (integer)"); case PropertyType.Fractional: return(Fractional.ToString() + " (fractional)"); case PropertyType.Percentage: return(Percentage.ToString() + "%"); case PropertyType.AbsLength: return(Points.ToString() + "pt (" + Inches.ToString() + "in, " + Millimeters.ToString() + "mm) (abs)"); case PropertyType.RelLength: return(Points.ToString() + "pt (" + Inches.ToString() + "in, " + Millimeters.ToString() + "mm) (rel)"); case PropertyType.HtmlFontUnits: return(HtmlFontUnits.ToString() + " (html font units)"); case PropertyType.RelHtmlFontUnits: return(RelativeHtmlFontUnits.ToString() + " (relative html font units)"); case PropertyType.Multiple: return(Integer.ToString() + "*"); case PropertyType.Pixels: return(Pixels.ToString() + "px"); case PropertyType.Ems: return(Ems.ToString() + "em"); case PropertyType.Exs: return(Exs.ToString() + "ex"); case PropertyType.Milliseconds: return(Milliseconds.ToString() + "ms"); case PropertyType.kHz: return(kHz.ToString() + "kHz"); case PropertyType.Degrees: return(Degrees.ToString() + "deg"); } return("unknown value type"); }
public override string ToString() { return("firstName: " + firstName + Environment.NewLine + "secondName: " + secondName + Environment.NewLine + "familyName: " + familyName + Environment.NewLine + "faculty: " + faculty + Environment.NewLine + "specialty: " + specialty + Environment.NewLine + "degree: " + degree.ToString() + Environment.NewLine + "status: " + status.ToString() + Environment.NewLine + "facultyNumber: " + facultyNumber + Environment.NewLine + "course: " + course.ToString() + Environment.NewLine + "stream: " + stream + Environment.NewLine + "group: " + group.ToString() + Environment.NewLine + "lastZaverka: " + lastZaverkaDate.ToString() + Environment.NewLine + "lastPaidTaxDate: " + lastPaidTaxDate.ToString()); }
/// <summary> /// Sets the current angle in degrees /// </summary> /// <param name="ang">The angle in degrees.</param> public void SetAngle(int ang) { while (ang < 0) { ang += 360; } ang = ang % 360; _angle = ang * Math.PI / 180; _elevation = 0; _anglestring = Degrees.ToString(); UpdateAngle(); if (!_draggedinside) { FireAngleChangedEvent(); } }
public string ToNiceString() { if (Double.IsNaN(Radians)) { return("Invalid"); } if (_isHMS) { return(ascomutils.DegreesToHMS(Degrees, "h", "m", "s", 1)); } else if (_type == Type.Az || _type == Type.Alt) { return(Degrees.ToString("0.0°")); } else { return(ascomutils.DegreesToDMS(Degrees, "°", "'", "\"", 1)); } }
public AngleChangedEventArgs(double rad) { Radians = rad; Degrees = (int)(rad * 180 / Math.PI); Text = Degrees.ToString(); }
}// + .5f* Abs(Theta) + .1f*Abs(rotation); }// + Abs(rotation / 2); } public override string ToString() { string s = "R: " + R.ToString("F3") + ", Theta: " + Degrees.ToString("F3") + "° (" + X.ToString("F2") + "," + Y.ToString("F2") + ") Rot: " + rotation + " Val: " + Val; return(s); }
public override string ToString() { return("Turn " + Degrees.ToString("+0;-0") + "°"); }
public override string ToString() => Degrees.ToString("0.##°");
public void Degrees_Parse_ToString_ReturnsTrue() { Degrees deg = new Degrees(55.55); Assert.IsTrue(deg == Degrees.Parse(deg.ToString())); }
public string ToString(string format, IFormatProvider provider) { return(Degrees.ToString(format, provider)); }
/// <summary> /// Get coordinates as a string. /// </summary> /// <returns></returns> public override string ToString() { //return ToString("D6", System.Globalization.CultureInfo.InvariantCulture); return(Degrees.ToString(System.Globalization.CultureInfo.InvariantCulture)); }
public string ToString(string format) => Degrees.ToString(format);
/// <summary> /// Get coordinates as a string. This string is always culture invariant. /// </summary> /// <returns>The angle as a culture invariant string</returns> public override string ToString() { return(Degrees.ToString(NumberFormatInfo.InvariantInfo)); }
public override string ToString() => Degrees.ToString("#.00°");
public void draw() { GUILayout.Label((SteeringBar >= 0 ? "Right: " : "Left: ") + Math.Abs(Mathf.RoundToInt(SteeringBar * 100)) + "%", GUI.skin.textField); SteeringBar = GUILayout.HorizontalSlider(SteeringBar, -1, 1); reverse = GUILayout.Toggle(reverse, reverse ? "Reverse" : "Forward"); GUILayout.BeginHorizontal(); GUILayout.Label("Speed (m/s):", GUI.skin.textField, GUILayout.Width(100)); SpeedS = GUILayout.TextField(SpeedS, GUILayout.Width(50)); SpeedS = RTUtils.FormatNumString(SpeedS); if (SpeedS == "") { SpeedS = "0"; } if (GUILayout.Button("+", GUI.skin.textField, GUILayout.Width(21.0F))) { float tmp = Convert.ToSingle(SpeedS); tmp += 1; SpeedS = Mathf.RoundToInt(tmp).ToString(); } if (GUILayout.Button("-", GUI.skin.textField, GUILayout.Width(21.0F))) { float tmp = Convert.ToSingle(SpeedS); tmp -= 1; SpeedS = Mathf.RoundToInt(tmp).ToString(); } Speed = Mathf.Clamp(Convert.ToSingle(SpeedS), 0, float.MaxValue); SpeedS = Speed.ToString(); GUILayout.EndHorizontal(); GUILayout.BeginHorizontal(); GUILayout.Label("Drive (m):", GUI.skin.textField, GUILayout.Width(100)); DistS = GUILayout.TextField(DistS, GUILayout.Width(50)); DistS = RTUtils.FormatNumString(DistS); if (DistS == "") { DistS = "0"; } if (GUILayout.Button("+", GUI.skin.textField, GUILayout.Width(21.0F))) { float tmp = Convert.ToSingle(DistS); tmp += 1; DistS = Mathf.RoundToInt(tmp).ToString(); } if (GUILayout.Button("-", GUI.skin.textField, GUILayout.Width(21.0F))) { float tmp = Convert.ToSingle(DistS); tmp -= 1; DistS = Mathf.RoundToInt(tmp).ToString(); } Distance = Mathf.Clamp(Convert.ToSingle(DistS), 0, float.MaxValue); DistS = Distance.ToString(); if (GUILayout.Button("Send", GUI.skin.textField)) { RoverState r = new RoverState(); r.Steer = false; r.Target = Distance; r.Speed = Speed; r.reverse = reverse; r.Steering = 0; lastActTime = r.ActTime = Planetarium.GetUniversalTime() + (computer.core.localControl ? 0 : computer.core.path.ControlDelay); states.Enqueue(r); } GUILayout.EndHorizontal(); GUILayout.BeginHorizontal(); GUILayout.Label("Turn (°):", GUI.skin.textField, GUILayout.Width(100)); DegS = GUILayout.TextField(DegS, GUILayout.Width(50)); DegS = RTUtils.FormatNumString(DegS); if (DegS == "") { DegS = "0"; } if (GUILayout.Button("+", GUI.skin.textField, GUILayout.Width(21.0F))) { float tmp = Convert.ToSingle(DegS); tmp += 1; DegS = Mathf.RoundToInt(tmp).ToString(); } if (GUILayout.Button("-", GUI.skin.textField, GUILayout.Width(21.0F))) { float tmp = Convert.ToSingle(DegS); tmp -= 1; DegS = Mathf.RoundToInt(tmp).ToString(); } Degrees = Mathf.Clamp(Convert.ToSingle(DegS), 0, 90); DegS = Degrees.ToString(); if (GUILayout.Button("Send", GUI.skin.textField)) { RoverState r = new RoverState(); r.Steer = true; r.Target = Degrees; r.Speed = Speed; r.reverse = reverse; r.Steering = Mathf.RoundToInt(SteeringBar * 100) == 0 ? 0 : -SteeringBar; lastActTime = r.ActTime = Planetarium.GetUniversalTime() + (computer.core.localControl ? 0 : computer.core.path.ControlDelay); states.Enqueue(r); } GUILayout.EndHorizontal(); GUILayout.BeginHorizontal(); GUILayout.Label(sending ? "Sending " + computer.arrows : (computer.core.computer.roverActive ? DriveDescript : "") , GUI.skin.textField); GUILayout.Label(sending ? RTUtils.time(lastActTime - Planetarium.GetUniversalTime()) : (computer.core.computer.roverActive ? TargetDescript : "") , GUI.skin.textField, GUILayout.Width(100)); GUILayout.EndHorizontal(); }
public override string ToString() { return(Degrees.ToString()); }
/// <summary> /// Converts the numeric value of this instance to its equivalent string representation. /// </summary> public override string ToString() { return(Degrees.ToString("F2") + "º"); }
public override string ToString() { return(Degrees.ToString() + Convert.ToChar(0xB0)); }