const int LINE5 = 16;
const int LINE6 = 32;
const int LINE7 = 64;
+const int DECIMALSIGN = 128;
const int DIGIT0 = LINE1 | LINE2 | LINE3 | LINE4 | LINE5 | LINE6;
const int DIGIT1 = LINE2 | LINE3;
m_DigitMargin(-1),
m_LineLength(-1),
m_LineWidth(-1),
- m_DrawFaded(FALSE),
+ m_DrawFaded(false),
m_LeftStartPos(-1)
{
}
m_DigitMargin(-1),
m_LineLength(-1),
m_LineWidth(-1),
- m_DrawFaded(FALSE),
+ m_DrawFaded(false),
m_LeftStartPos(-1)
{
Create(parent, id, pos, size, style);
bool RetVal = wxControl::Create(parent, id, pos, size, style);
if ((style & wxLED_DRAW_FADED) != 0)
- SetDrawFaded(TRUE);
+ SetDrawFaded(true);
if ((style & wxLED_ALIGN_MASK) != 0)
SetAlignment((wxLEDValueAlign)(style & wxLED_ALIGN_MASK));
RecalcInternals(GetClientSize());
if (Redraw)
- Refresh(FALSE);
+ Refresh(false);
}
}
m_DrawFaded = DrawFaded;
if (Redraw)
- Refresh(FALSE);
+ Refresh(false);
}
}
{
if (Value != m_Value)
{
+#ifdef __WXDEBUG__
if (!Value.IsEmpty())
{
for(size_t i=0; i<Value.Length(); i++) {
wxChar ch = Value[i];
- wxASSERT_MSG((ch>='0' && ch<='9') || ch=='-' || ch==' ',
+ wxASSERT_MSG((ch>='0' && ch<='9') || ch=='-' || ch==' ' || ch=='.',
wxT("wxLEDNumberCtrl can only display numeric string values."));
}
}
+#endif
m_Value = Value;
RecalcInternals(GetClientSize());
if (Redraw)
- Refresh(FALSE);
+ Refresh(false);
}
}
END_EVENT_TABLE()
-void wxLEDNumberCtrl::OnEraseBackground(wxEraseEvent &Event)
+void wxLEDNumberCtrl::OnEraseBackground(wxEraseEvent &WXUNUSED(event))
{
}
-void wxLEDNumberCtrl::OnPaint(wxPaintEvent &Event)
+void wxLEDNumberCtrl::OnPaint(wxPaintEvent &WXUNUSED(event))
{
wxPaintDC Dc(this);
// Iterate each digit in the value, and draw.
const int DigitCount = m_Value.Len();
- for (int i = 0; i < DigitCount; ++i)
+ for (int offset=0, i = 0; offset < DigitCount; ++offset, ++i)
{
+ char c = m_Value.GetChar(offset);
+
// Draw faded lines if wanted.
- if (m_DrawFaded)
+ if (m_DrawFaded && (c != '.'))
DrawDigit(MemDc, DIGITALL, i);
// Draw the digits.
- switch (m_Value[i])
+ switch (c)
{
case '0' :
DrawDigit(MemDc, DIGIT0, i);
case '-' :
DrawDigit(MemDc, DASH, i);
break;
+ case '.' :
+ // Display the decimal in the previous segment
+ i--;
+ DrawDigit(MemDc, DECIMALSIGN, i);
+ break;
case ' ' :
// just skip it
break;
if (Digit == DIGITALL)
{
- const int R = LineColor.Red() / 3;
- const int G = LineColor.Green() / 3;
- const int B = LineColor.Blue() / 3;
+ const int R = LineColor.Red() / 16;
+ const int G = LineColor.Green() / 16;
+ const int B = LineColor.Blue() / 16;
LineColor.Set(R, G, B);
}
- int XPos = m_LeftStartPos;
-
- if (Column > 0)
- XPos += (Column * m_LineLength) + (m_DigitMargin) * Column;
+ int XPos = m_LeftStartPos + Column * (m_LineLength + m_DigitMargin);
// Create a pen and draw the lines.
wxPen Pen(LineColor, m_LineWidth, wxSOLID);
if ((Digit & LINE1))
{
Dc.DrawLine(XPos + m_LineMargin*2, m_LineMargin,
- XPos + m_LineLength, m_LineMargin);
- }
+ XPos + m_LineLength + m_LineMargin*2, m_LineMargin);
+ }
if (Digit & LINE2)
{
- Dc.DrawLine(XPos + m_LineLength + m_LineMargin, m_LineMargin*2,
- XPos + m_LineLength + m_LineMargin, m_LineLength + (m_LineMargin*2));
+ Dc.DrawLine(XPos + m_LineLength + m_LineMargin*3, m_LineMargin*2,
+ XPos + m_LineLength + m_LineMargin*3, m_LineLength + (m_LineMargin*2));
}
if (Digit & LINE3)
{
- Dc.DrawLine(XPos + m_LineLength + m_LineMargin, m_LineLength + (m_LineMargin*4),
- XPos + m_LineLength + m_LineMargin, m_LineLength*2 + (m_LineMargin*3));
+ Dc.DrawLine(XPos + m_LineLength + m_LineMargin*3, m_LineLength + (m_LineMargin*4),
+ XPos + m_LineLength + m_LineMargin*3, m_LineLength*2 + (m_LineMargin*4));
}
if (Digit & LINE4)
{
- Dc.DrawLine(XPos + m_LineMargin*2, m_LineLength*2 + (m_LineMargin*4),
- XPos + m_LineLength, m_LineLength*2 + (m_LineMargin*4));
+ Dc.DrawLine(XPos + m_LineMargin*2, m_LineLength*2 + (m_LineMargin*5),
+ XPos + m_LineLength + m_LineMargin*2, m_LineLength*2 + (m_LineMargin*5));
}
if (Digit & LINE5)
{
Dc.DrawLine(XPos + m_LineMargin, m_LineLength + (m_LineMargin*4),
- XPos + m_LineMargin, m_LineLength*2 + (m_LineMargin*3));
+ XPos + m_LineMargin, m_LineLength*2 + (m_LineMargin*4));
}
if (Digit & LINE6)
if (Digit & LINE7)
{
Dc.DrawLine(XPos + m_LineMargin*2, m_LineLength + (m_LineMargin*3),
- XPos + m_LineMargin + m_LineLength - m_LineMargin, m_LineLength + (m_LineMargin*3));
+ XPos + m_LineMargin*2 + m_LineLength, m_LineLength + (m_LineMargin*3));
+ }
+
+ if (Digit & DECIMALSIGN)
+ {
+ Dc.DrawLine(XPos + m_LineLength + m_LineMargin*4, m_LineLength*2 + (m_LineMargin*5),
+ XPos + m_LineLength + m_LineMargin*4, m_LineLength*2 + (m_LineMargin*5));
}
Dc.SetPen(wxNullPen);
void wxLEDNumberCtrl::RecalcInternals(const wxSize &CurrentSize)
{
+ // Dimensions of LED segments
+ //
+ // Size of character is based on the HEIGH of the widget, NOT the width.
+ // Segment height is calculated as follows:
+ // Each segment is m_LineLength pixels long.
+ // There is m_LineMargin pixels at the top and bottom of each line segment
+ // There is m_LineMargin pixels at the top and bottom of each digit
+ //
+ // Therefore, the heigth of each character is:
+ // m_LineMargin : Top digit boarder
+ // m_LineMargin+m_LineLength+m_LineMargin : Top half of segment
+ // m_LineMargin+m_LineLength+m_LineMargin : Bottom half of segment
+ // m_LineMargin : Bottom digit boarder
+ // ----------------------
+ // m_LineMargin*6 + m_LineLength*2 == Total height of digit.
+ // Therefore, (m_LineMargin*6 + m_LineLength*2) must equal Height
+ //
+ // Spacing between characters can then be calculated as follows:
+ // m_LineMargin : before the digit,
+ // m_LineMargin+m_LineLength+m_LineMargin : for the digit width
+ // m_LineMargin : after the digit
+ // = m_LineMargin*4 + m_LineLength
const int Height = CurrentSize.GetHeight();
- if ((Height * 0.07) < 1)
+ if ((Height * 0.075) < 1)
m_LineMargin = 1;
else
- m_LineMargin = Height * 0.07;
+ m_LineMargin = (int)(Height * 0.075);
- if ((Height * 0.35) < 1)
+ if ((Height * 0.275) < 1)
m_LineLength = 1;
else
- m_LineLength = Height * 0.35;
+ m_LineLength = (int)(Height * 0.275);
m_LineWidth = m_LineMargin;
m_DigitMargin = m_LineMargin * 4;
- const int ValueWidth = (m_LineLength + m_DigitMargin) * m_Value.Len();
+ // Count the number of characters in the string; '.' characters are not
+ // included because they do not take up space in the display
+ int count = 0;
+ for (unsigned int i = 0; i < m_Value.Len(); i++)
+ if (m_Value.GetChar(i) != '.')
+ count++;
+ const int ValueWidth = (m_LineLength + m_DigitMargin) * count;
const int ClientWidth = CurrentSize.GetWidth();
switch (m_Alignment)
{
case wxLED_ALIGN_LEFT :
- m_LeftStartPos = 0;
+ m_LeftStartPos = m_LineMargin;
break;
case wxLED_ALIGN_RIGHT :
- m_LeftStartPos = ClientWidth - ValueWidth;
+ m_LeftStartPos = ClientWidth - ValueWidth - m_LineMargin;
break;
case wxLED_ALIGN_CENTER :
m_LeftStartPos = (ClientWidth - ValueWidth) / 2;