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[wxWidgets.git] / contrib / src / gizmos / ledctrl.cpp
1 // ============================================================================
2 // headers
3 // ============================================================================
4
5 #include "wx/wxprec.h"
6
7 #ifdef __BORLANDC__
8 #pragma hdrstop
9 #endif //__BORLANDC__
10
11 #ifndef WX_PRECOMP
12 #include "wx/dcclient.h"
13 #include "wx/dcmemory.h"
14 #include "wx/intl.h"
15 #endif
16
17 #include "wx/gizmos/ledctrl.h"
18
19 // ----------------------------------------------------------------------------
20 // constants
21 // ----------------------------------------------------------------------------
22
23 // A LED digit is build up like this, with maximum 7 Lines :
24 //
25 // 111
26 // 6 2
27 // 777
28 // 5 3
29 // 444
30 //
31 // Each number contains combinations of the lines, and they are set up below.
32
33 const int LINE1 = 1;
34 const int LINE2 = 2;
35 const int LINE3 = 4;
36 const int LINE4 = 8;
37 const int LINE5 = 16;
38 const int LINE6 = 32;
39 const int LINE7 = 64;
40 const int DECIMALSIGN = 128;
41
42 const int DIGIT0 = LINE1 | LINE2 | LINE3 | LINE4 | LINE5 | LINE6;
43 const int DIGIT1 = LINE2 | LINE3;
44 const int DIGIT2 = LINE1 | LINE2 | LINE4 | LINE5 | LINE7;
45 const int DIGIT3 = LINE1 | LINE2 | LINE3 | LINE4 | LINE7;
46 const int DIGIT4 = LINE2 | LINE3 | LINE6 | LINE7;
47 const int DIGIT5 = LINE1 | LINE3 | LINE4 | LINE6 | LINE7;
48 const int DIGIT6 = LINE1 | LINE3 | LINE4 | LINE5 | LINE6 | LINE7;
49 const int DIGIT7 = LINE1 | LINE2 | LINE3;
50 const int DIGIT8 = LINE1 | LINE2 | LINE3 | LINE4 | LINE5 | LINE6 | LINE7;
51 const int DIGIT9 = LINE1 | LINE2 | LINE3 | LINE6 | LINE7;
52 const int DASH = LINE7;
53
54 const int DIGITALL = -1;
55
56 // ============================================================================
57 // wxLEDNumberCtrl class implementation
58 // ============================================================================
59
60 wxLEDNumberCtrl::wxLEDNumberCtrl()
61 : m_Alignment(wxLED_ALIGN_LEFT),
62 m_LineMargin(-1),
63 m_DigitMargin(-1),
64 m_LineLength(-1),
65 m_LineWidth(-1),
66 m_DrawFaded(false),
67 m_LeftStartPos(-1)
68 {
69 }
70
71
72 wxLEDNumberCtrl::wxLEDNumberCtrl(wxWindow *parent, wxWindowID id,
73 const wxPoint& pos, const wxSize& size,
74 long style)
75 : m_Alignment(wxLED_ALIGN_LEFT),
76 m_LineMargin(-1),
77 m_DigitMargin(-1),
78 m_LineLength(-1),
79 m_LineWidth(-1),
80 m_DrawFaded(false),
81 m_LeftStartPos(-1)
82 {
83 Create(parent, id, pos, size, style);
84 }
85
86
87 bool wxLEDNumberCtrl::Create(wxWindow *parent, wxWindowID id,
88 const wxPoint& pos, const wxSize& size,
89 long style)
90 {
91 bool RetVal = wxControl::Create(parent, id, pos, size, style);
92
93 if ((style & wxLED_DRAW_FADED) != 0)
94 SetDrawFaded(true);
95 if ((style & wxLED_ALIGN_MASK) != 0)
96 SetAlignment((wxLEDValueAlign)(style & wxLED_ALIGN_MASK));
97
98 SetBackgroundColour(*wxBLACK);
99 SetForegroundColour(*wxGREEN);
100
101 return RetVal;
102 }
103
104
105 void wxLEDNumberCtrl::SetAlignment(wxLEDValueAlign Alignment, bool Redraw)
106 {
107 if (Alignment != m_Alignment)
108 {
109 m_Alignment = Alignment;
110 RecalcInternals(GetClientSize());
111
112 if (Redraw)
113 Refresh(false);
114 }
115 }
116
117
118 void wxLEDNumberCtrl::SetDrawFaded(bool DrawFaded, bool Redraw)
119 {
120 if (DrawFaded != m_DrawFaded)
121 {
122 m_DrawFaded = DrawFaded;
123
124 if (Redraw)
125 Refresh(false);
126 }
127 }
128
129
130 void wxLEDNumberCtrl::SetValue(wxString const &Value, bool Redraw)
131 {
132 if (Value != m_Value)
133 {
134 #ifdef __WXDEBUG__
135 if (!Value.empty())
136 {
137 for(size_t i=0; i<Value.Length(); i++) {
138 wxChar ch = Value[i];
139 wxASSERT_MSG((ch>='0' && ch<='9') || ch=='-' || ch==' ' || ch=='.',
140 wxT("wxLEDNumberCtrl can only display numeric string values."));
141 }
142 }
143 #endif
144
145 m_Value = Value;
146 RecalcInternals(GetClientSize());
147
148 if (Redraw)
149 Refresh(false);
150 }
151 }
152
153
154 BEGIN_EVENT_TABLE(wxLEDNumberCtrl, wxControl)
155 EVT_ERASE_BACKGROUND(wxLEDNumberCtrl::OnEraseBackground)
156 EVT_PAINT(wxLEDNumberCtrl::OnPaint)
157 EVT_SIZE(wxLEDNumberCtrl::OnSize)
158 END_EVENT_TABLE()
159
160
161 void wxLEDNumberCtrl::OnEraseBackground(wxEraseEvent &WXUNUSED(event))
162 {
163 }
164
165
166 void wxLEDNumberCtrl::OnPaint(wxPaintEvent &WXUNUSED(event))
167 {
168 wxPaintDC Dc(this);
169
170 int Width, Height;
171 GetClientSize(&Width, &Height);
172
173 wxBitmap *pMemoryBitmap = new wxBitmap(Width, Height);
174 wxMemoryDC MemDc;
175
176 MemDc.SelectObject(*pMemoryBitmap);
177
178 // Draw background.
179 MemDc.SetBrush(wxBrush(GetBackgroundColour(), wxSOLID));
180 MemDc.DrawRectangle(wxRect(0, 0, Width, Height));
181 MemDc.SetBrush(wxNullBrush);
182
183 // Iterate each digit in the value, and draw.
184 const int DigitCount = m_Value.Len();
185 for (int offset=0, i = 0; offset < DigitCount; ++offset, ++i)
186 {
187 wxChar c = m_Value.GetChar(offset);
188
189 // Draw faded lines if wanted.
190 if (m_DrawFaded && (c != _T('.')))
191 DrawDigit(MemDc, DIGITALL, i);
192
193 // Draw the digits.
194 switch (c)
195 {
196 case _T('0') :
197 DrawDigit(MemDc, DIGIT0, i);
198 break;
199 case _T('1') :
200 DrawDigit(MemDc, DIGIT1, i);
201 break;
202 case _T('2') :
203 DrawDigit(MemDc, DIGIT2, i);
204 break;
205 case _T('3') :
206 DrawDigit(MemDc, DIGIT3, i);
207 break;
208 case _T('4') :
209 DrawDigit(MemDc, DIGIT4, i);
210 break;
211 case _T('5') :
212 DrawDigit(MemDc, DIGIT5, i);
213 break;
214 case _T('6') :
215 DrawDigit(MemDc, DIGIT6, i);
216 break;
217 case _T('7') :
218 DrawDigit(MemDc, DIGIT7, i);
219 break;
220 case _T('8') :
221 DrawDigit(MemDc, DIGIT8, i);
222 break;
223 case _T('9') :
224 DrawDigit(MemDc, DIGIT9, i);
225 break;
226 case _T('-') :
227 DrawDigit(MemDc, DASH, i);
228 break;
229 case _T('.') :
230 // Display the decimal in the previous segment
231 i--;
232 DrawDigit(MemDc, DECIMALSIGN, i);
233 break;
234 case _T(' ') :
235 // just skip it
236 break;
237 default :
238 wxFAIL_MSG(wxT("Unknown digit value"));
239 break;
240 }
241 }
242
243 // Blit the memory dc to screen.
244 Dc.Blit(0, 0, Width, Height, &MemDc, 0, 0, wxCOPY);
245 delete pMemoryBitmap;
246 }
247
248
249 void wxLEDNumberCtrl::DrawDigit(wxDC &Dc, int Digit, int Column)
250 {
251 wxColour LineColor(GetForegroundColour());
252
253 if (Digit == DIGITALL)
254 {
255 const unsigned char R = (unsigned char)(LineColor.Red() / 16);
256 const unsigned char G = (unsigned char)(LineColor.Green() / 16);
257 const unsigned char B = (unsigned char)(LineColor.Blue() / 16);
258
259 LineColor.Set(R, G, B);
260 }
261
262 int XPos = m_LeftStartPos + Column * (m_LineLength + m_DigitMargin);
263
264 // Create a pen and draw the lines.
265 wxPen Pen(LineColor, m_LineWidth, wxSOLID);
266 Dc.SetPen(Pen);
267
268 if ((Digit & LINE1))
269 {
270 Dc.DrawLine(XPos + m_LineMargin*2, m_LineMargin,
271 XPos + m_LineLength + m_LineMargin*2, m_LineMargin);
272 }
273
274 if (Digit & LINE2)
275 {
276 Dc.DrawLine(XPos + m_LineLength + m_LineMargin*3, m_LineMargin*2,
277 XPos + m_LineLength + m_LineMargin*3, m_LineLength + (m_LineMargin*2));
278 }
279
280 if (Digit & LINE3)
281 {
282 Dc.DrawLine(XPos + m_LineLength + m_LineMargin*3, m_LineLength + (m_LineMargin*4),
283 XPos + m_LineLength + m_LineMargin*3, m_LineLength*2 + (m_LineMargin*4));
284 }
285
286 if (Digit & LINE4)
287 {
288 Dc.DrawLine(XPos + m_LineMargin*2, m_LineLength*2 + (m_LineMargin*5),
289 XPos + m_LineLength + m_LineMargin*2, m_LineLength*2 + (m_LineMargin*5));
290 }
291
292 if (Digit & LINE5)
293 {
294 Dc.DrawLine(XPos + m_LineMargin, m_LineLength + (m_LineMargin*4),
295 XPos + m_LineMargin, m_LineLength*2 + (m_LineMargin*4));
296 }
297
298 if (Digit & LINE6)
299 {
300 Dc.DrawLine(XPos + m_LineMargin, m_LineMargin*2,
301 XPos + m_LineMargin, m_LineLength + (m_LineMargin*2));
302 }
303
304 if (Digit & LINE7)
305 {
306 Dc.DrawLine(XPos + m_LineMargin*2, m_LineLength + (m_LineMargin*3),
307 XPos + m_LineMargin*2 + m_LineLength, m_LineLength + (m_LineMargin*3));
308 }
309
310 if (Digit & DECIMALSIGN)
311 {
312 Dc.DrawLine(XPos + m_LineLength + m_LineMargin*4, m_LineLength*2 + (m_LineMargin*5),
313 XPos + m_LineLength + m_LineMargin*4, m_LineLength*2 + (m_LineMargin*5));
314 }
315
316 Dc.SetPen(wxNullPen);
317 }
318
319
320 void wxLEDNumberCtrl::RecalcInternals(const wxSize &CurrentSize)
321 {
322 // Dimensions of LED segments
323 //
324 // Size of character is based on the HEIGH of the widget, NOT the width.
325 // Segment height is calculated as follows:
326 // Each segment is m_LineLength pixels long.
327 // There is m_LineMargin pixels at the top and bottom of each line segment
328 // There is m_LineMargin pixels at the top and bottom of each digit
329 //
330 // Therefore, the heigth of each character is:
331 // m_LineMargin : Top digit boarder
332 // m_LineMargin+m_LineLength+m_LineMargin : Top half of segment
333 // m_LineMargin+m_LineLength+m_LineMargin : Bottom half of segment
334 // m_LineMargin : Bottom digit boarder
335 // ----------------------
336 // m_LineMargin*6 + m_LineLength*2 == Total height of digit.
337 // Therefore, (m_LineMargin*6 + m_LineLength*2) must equal Height
338 //
339 // Spacing between characters can then be calculated as follows:
340 // m_LineMargin : before the digit,
341 // m_LineMargin+m_LineLength+m_LineMargin : for the digit width
342 // m_LineMargin : after the digit
343 // = m_LineMargin*4 + m_LineLength
344 const int Height = CurrentSize.GetHeight();
345
346 if ((Height * 0.075) < 1)
347 m_LineMargin = 1;
348 else
349 m_LineMargin = (int)(Height * 0.075);
350
351 if ((Height * 0.275) < 1)
352 m_LineLength = 1;
353 else
354 m_LineLength = (int)(Height * 0.275);
355
356 m_LineWidth = m_LineMargin;
357
358 m_DigitMargin = m_LineMargin * 4;
359
360 // Count the number of characters in the string; '.' characters are not
361 // included because they do not take up space in the display
362 int count = 0;
363 for (unsigned int i = 0; i < m_Value.Len(); i++)
364 if (m_Value.GetChar(i) != '.')
365 count++;
366 const int ValueWidth = (m_LineLength + m_DigitMargin) * count;
367 const int ClientWidth = CurrentSize.GetWidth();
368
369 switch (m_Alignment)
370 {
371 case wxLED_ALIGN_LEFT :
372 m_LeftStartPos = m_LineMargin;
373 break;
374 case wxLED_ALIGN_RIGHT :
375 m_LeftStartPos = ClientWidth - ValueWidth - m_LineMargin;
376 break;
377 case wxLED_ALIGN_CENTER :
378 m_LeftStartPos = (ClientWidth - ValueWidth) / 2;
379 break;
380 default :
381 wxFAIL_MSG(wxT("Unknown alignent value for wxLEDNumberCtrl."));
382 break;
383 }
384 }
385
386
387 void wxLEDNumberCtrl::OnSize(wxSizeEvent &Event)
388 {
389 RecalcInternals(Event.GetSize());
390
391 Event.Skip();
392 }