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Initial commit of the Samsung YP-R0 port.
[maemo-rb.git] / apps / plugins / calculator.c
blob77c7a5588d1e972a979abf39f7447e51a650be69
1 /***************************************************************************
2 * __________ __ ___.
3 * Open \______ \ ____ ____ | | _\_ |__ _______ ___
4 * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
5 * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
6 * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
7 * \/ \/ \/ \/ \/
8 * $Id$
9 *
10 * Copyright (C) 2004 Pengxuan Liu (Isaac)
11 *
12 * This program is free software; you can redistribute it and/or
13 * modify it under the terms of the GNU General Public License
14 * as published by the Free Software Foundation; either version 2
15 * of the License, or (at your option) any later version.
16 *
17 * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
18 * KIND, either express or implied.
19 *
20 ****************************************************************************/
21
22 /*
23 00 01 21 22 23 43 44 45 65 66 67 87 88 89 109110111
24 00 |-----------|-----------|-----------|-----------|-----------|
25 01 | | | | | |
26 |***********|***********|***********|***********|***********|
27 |***********|***********|***********|***********|***********|
28 11 | | | | | |
29 12 |-----------|-----------|-----------|-----------|-----------|
30 13 |-----------|-----------|-----------|-----------|-----------| y1
31 14 | | | | | |
32 | | | | | |
33 22 | | | | | |
34 23 |-----------|-----------|-----------|-----------|-----------| y2
35 24 | | | | | |
36 | | | | | |
37 32 | | | | | |
38 33 |-----------|-----------|-----------|-----------|-----------| y3
39 34 | | | | | |
40 | | | | | |
41 42 | | | | | |
42 43 |-----------|-----------|-----------|-----------|-----------| y4
43 44 | | | | | |
44 | | | | | |
45 52 | | | | | |
46 53 |-----------|-----------|-----------|-----------|-----------| y5
47 54 | | | | | |
48 | | | | | |
49 62 | | | | | |
50 63 |-----------|-----------|-----------|-----------|-----------| y6
51 x0 x1 x2 x3 x4 x5
52 */
53
54 /*---------------------------------------------------------------------------
55 Features:
56 - Scientific number format core code. Support range 10^-999 ~ 10^999
57 - Number of significant figures up to 10
58
59 Limitations:
60 - Right now, only accept "num, operator (+,-,*,/), num, =" input sequence.
61 Input "3, +, 5, -, 2, =", the calculator will only do 5-2 and result = 3
62 You have to input "3, +, 5, =, -, 2, =" to get 3+5-2 = 6
63
64 - "*,/" have no priority. Actually you can't input 3+5*2 yet.
65
66 User Instructions:
67 use arrow button to move cursor, "play" button to select, "off" button to exit
68 F1: if typing numbers, it's equal to "Del"; otherwise, equal to "C"
69 F2: circle input "+, -, *, /"
70 F3: equal to "="
71
72 "MR" : load temp memory
73 "M+" : add currently display to temp memory
74 "C" : reset calculator
75 ---------------------------------------------------------------------------*/
76
77 #include "plugin.h"
78
79 #include "math.h"
80
81
82
83
84 #define M_TWOPI (M_PI * 2.0)
85
86 #define BUTTON_ROWS 5
87 #define BUTTON_COLS 5
88
89 #define REC_HEIGHT (int)(LCD_HEIGHT / (BUTTON_ROWS + 1))
90 #define REC_WIDTH (int)(LCD_WIDTH / BUTTON_COLS)
91
92 #define Y_6_POS (LCD_HEIGHT) /* Leave room for the border */
93 #define Y_5_POS (Y_6_POS - REC_HEIGHT) /* y5 = 53 */
94 #define Y_4_POS (Y_5_POS - REC_HEIGHT) /* y4 = 43 */
95 #define Y_3_POS (Y_4_POS - REC_HEIGHT) /* y3 = 33 */
96 #define Y_2_POS (Y_3_POS - REC_HEIGHT) /* y2 = 23 */
97 #define Y_1_POS (Y_2_POS - REC_HEIGHT) /* y1 = 13 */
98 #define Y_0_POS 0 /* y0 = 0 */
99
100 #define X_0_POS 0 /* x0 = 0 */
101 #define X_1_POS (X_0_POS + REC_WIDTH) /* x1 = 22 */
102 #define X_2_POS (X_1_POS + REC_WIDTH) /* x2 = 44 */
103 #define X_3_POS (X_2_POS + REC_WIDTH) /* x3 = 66 */
104 #define X_4_POS (X_3_POS + REC_WIDTH) /* x4 = 88 */
105 #define X_5_POS (X_4_POS + REC_WIDTH) /* x5 = 110, column 111 left blank */
106
107 #define SIGN(x) ((x)<0?-1:1)
108 #ifndef ABS
109 #define ABS(a) (((a) < 0) ? -(a) : (a))
110 #endif
111
112 /* variable button definitions */
113 #if CONFIG_KEYPAD == RECORDER_PAD
114 #define CALCULATOR_LEFT BUTTON_LEFT
115 #define CALCULATOR_RIGHT BUTTON_RIGHT
116 #define CALCULATOR_UP BUTTON_UP
117 #define CALCULATOR_DOWN BUTTON_DOWN
118 #define CALCULATOR_QUIT BUTTON_OFF
119 #define CALCULATOR_INPUT BUTTON_PLAY
120 #define CALCULATOR_CALC BUTTON_F3
121 #define CALCULATOR_OPERATORS BUTTON_F2
122 #define CALCULATOR_CLEAR BUTTON_F1
123
124 #elif CONFIG_KEYPAD == ARCHOS_AV300_PAD
125 #define CALCULATOR_LEFT BUTTON_LEFT
126 #define CALCULATOR_RIGHT BUTTON_RIGHT
127 #define CALCULATOR_UP BUTTON_UP
128 #define CALCULATOR_DOWN BUTTON_DOWN
129 #define CALCULATOR_QUIT BUTTON_OFF
130 #define CALCULATOR_INPUT BUTTON_SELECT
131 #define CALCULATOR_CALC BUTTON_F3
132 #define CALCULATOR_OPERATORS BUTTON_F2
133 #define CALCULATOR_CLEAR BUTTON_F1
134
135 #elif CONFIG_KEYPAD == ONDIO_PAD
136 #define CALCULATOR_LEFT BUTTON_LEFT
137 #define CALCULATOR_RIGHT BUTTON_RIGHT
138 #define CALCULATOR_UP BUTTON_UP
139 #define CALCULATOR_DOWN BUTTON_DOWN
140 #define CALCULATOR_QUIT BUTTON_OFF
141 #define CALCULATOR_INPUT_CALC_PRE BUTTON_MENU
142 #define CALCULATOR_INPUT (BUTTON_MENU | BUTTON_REL)
143 #define CALCULATOR_CALC (BUTTON_MENU | BUTTON_REPEAT)
144
145 #elif (CONFIG_KEYPAD == IRIVER_H100_PAD) || \
146 (CONFIG_KEYPAD == IRIVER_H300_PAD)
147 #define CALCULATOR_LEFT BUTTON_LEFT
148 #define CALCULATOR_RIGHT BUTTON_RIGHT
149 #define CALCULATOR_UP BUTTON_UP
150 #define CALCULATOR_DOWN BUTTON_DOWN
151 #define CALCULATOR_QUIT BUTTON_OFF
152 #define CALCULATOR_INPUT BUTTON_SELECT
153 #define CALCULATOR_CALC BUTTON_ON
154 #define CALCULATOR_OPERATORS BUTTON_MODE
155 #define CALCULATOR_CLEAR BUTTON_REC
156
157 #define CALCULATOR_RC_QUIT BUTTON_RC_STOP
158
159 #elif (CONFIG_KEYPAD == IPOD_4G_PAD) || \
160 (CONFIG_KEYPAD == IPOD_3G_PAD) || \
161 (CONFIG_KEYPAD == IPOD_1G2G_PAD)
162
163 #define CALCULATOR_LEFT BUTTON_LEFT
164 #define CALCULATOR_RIGHT BUTTON_RIGHT
165 #define CALCULATOR_UP_W_SHIFT BUTTON_SCROLL_BACK
166 #define CALCULATOR_DOWN_W_SHIFT BUTTON_SCROLL_FWD
167 #define CALCULATOR_QUIT BUTTON_MENU
168 #define CALCULATOR_INPUT BUTTON_SELECT
169 #define CALCULATOR_CALC BUTTON_PLAY
170
171 #elif (CONFIG_KEYPAD == IAUDIO_X5M5_PAD)
172
173 #define CALCULATOR_LEFT BUTTON_LEFT
174 #define CALCULATOR_RIGHT BUTTON_RIGHT
175 #define CALCULATOR_UP BUTTON_UP
176 #define CALCULATOR_DOWN BUTTON_DOWN
177 #define CALCULATOR_QUIT BUTTON_POWER
178 #define CALCULATOR_INPUT BUTTON_SELECT
179 #define CALCULATOR_CALC BUTTON_PLAY
180 #define CALCULATOR_CLEAR BUTTON_REC
181
182 #elif (CONFIG_KEYPAD == GIGABEAT_PAD)
183
184 #define CALCULATOR_LEFT BUTTON_LEFT
185 #define CALCULATOR_RIGHT BUTTON_RIGHT
186 #define CALCULATOR_UP BUTTON_UP
187 #define CALCULATOR_DOWN BUTTON_DOWN
188 #define CALCULATOR_QUIT BUTTON_POWER
189 #define CALCULATOR_INPUT BUTTON_SELECT
190 #define CALCULATOR_CALC BUTTON_MENU
191 #define CALCULATOR_CLEAR BUTTON_A
192
193 #elif (CONFIG_KEYPAD == SANSA_E200_PAD)
194 #define CALCULATOR_LEFT BUTTON_LEFT
195 #define CALCULATOR_RIGHT BUTTON_RIGHT
196 #define CALCULATOR_UP BUTTON_UP
197 #define CALCULATOR_DOWN BUTTON_DOWN
198 #define CALCULATOR_UP_W_SHIFT BUTTON_SCROLL_BACK
199 #define CALCULATOR_DOWN_W_SHIFT BUTTON_SCROLL_FWD
200 #define CALCULATOR_QUIT BUTTON_POWER
201 #define CALCULATOR_INPUT_CALC_PRE BUTTON_SELECT
202 #define CALCULATOR_INPUT (BUTTON_SELECT|BUTTON_REL)
203 #define CALCULATOR_CALC (BUTTON_SELECT|BUTTON_REPEAT)
204 #define CALCULATOR_CLEAR BUTTON_REC
205
206 #elif (CONFIG_KEYPAD == SANSA_C200_PAD)
207 #define CALCULATOR_LEFT BUTTON_LEFT
208 #define CALCULATOR_RIGHT BUTTON_RIGHT
209 #define CALCULATOR_UP BUTTON_UP
210 #define CALCULATOR_DOWN BUTTON_DOWN
211 #define CALCULATOR_QUIT BUTTON_POWER
212 #define CALCULATOR_INPUT_CALC_PRE BUTTON_SELECT
213 #define CALCULATOR_INPUT (BUTTON_SELECT|BUTTON_REL)
214 #define CALCULATOR_CALC (BUTTON_SELECT|BUTTON_REPEAT)
215
216 #elif (CONFIG_KEYPAD == SANSA_FUZE_PAD)
217 #define CALCULATOR_LEFT BUTTON_LEFT
218 #define CALCULATOR_RIGHT BUTTON_RIGHT
219 #define CALCULATOR_UP BUTTON_UP
220 #define CALCULATOR_DOWN BUTTON_DOWN
221 #define CALCULATOR_UP_W_SHIFT BUTTON_SCROLL_BACK
222 #define CALCULATOR_DOWN_W_SHIFT BUTTON_SCROLL_FWD
223 #define CALCULATOR_QUIT (BUTTON_HOME|BUTTON_REPEAT)
224 #define CALCULATOR_INPUT_CALC_PRE BUTTON_SELECT
225 #define CALCULATOR_INPUT (BUTTON_SELECT|BUTTON_REL)
226 #define CALCULATOR_CALC (BUTTON_SELECT|BUTTON_REPEAT)
227 #define CALCULATOR_CLEAR BUTTON_HOME
228
229
230 #elif (CONFIG_KEYPAD == SANSA_CLIP_PAD)
231 #define CALCULATOR_LEFT BUTTON_LEFT
232 #define CALCULATOR_RIGHT BUTTON_RIGHT
233 #define CALCULATOR_UP BUTTON_UP
234 #define CALCULATOR_DOWN BUTTON_DOWN
235 #define CALCULATOR_QUIT BUTTON_POWER
236 #define CALCULATOR_INPUT_CALC_PRE BUTTON_SELECT
237 #define CALCULATOR_INPUT (BUTTON_SELECT|BUTTON_REL)
238 #define CALCULATOR_CALC (BUTTON_SELECT|BUTTON_REPEAT)
239 #define CALCULATOR_CLEAR BUTTON_HOME
240
241 #elif (CONFIG_KEYPAD == SANSA_M200_PAD)
242 #define CALCULATOR_LEFT BUTTON_LEFT
243 #define CALCULATOR_RIGHT BUTTON_RIGHT
244 #define CALCULATOR_UP BUTTON_UP
245 #define CALCULATOR_DOWN BUTTON_DOWN
246 #define CALCULATOR_QUIT BUTTON_POWER
247 #define CALCULATOR_INPUT_CALC_PRE BUTTON_SELECT
248 #define CALCULATOR_INPUT (BUTTON_SELECT|BUTTON_REL)
249 #define CALCULATOR_CALC (BUTTON_SELECT|BUTTON_REPEAT)
250 #define CALCULATOR_CLEAR (BUTTON_SELECT|BUTTON_UP)
251
252 #elif (CONFIG_KEYPAD == IRIVER_H10_PAD)
253
254 #define CALCULATOR_LEFT BUTTON_LEFT
255 #define CALCULATOR_RIGHT BUTTON_RIGHT
256 #define CALCULATOR_UP BUTTON_SCROLL_UP
257 #define CALCULATOR_DOWN BUTTON_SCROLL_DOWN
258 #define CALCULATOR_QUIT BUTTON_POWER
259 #define CALCULATOR_INPUT_CALC_PRE BUTTON_PLAY
260 #define CALCULATOR_INPUT (BUTTON_PLAY | BUTTON_REL)
261 #define CALCULATOR_CALC (BUTTON_PLAY | BUTTON_REPEAT)
262 #define CALCULATOR_CLEAR BUTTON_REW
263
264 #elif (CONFIG_KEYPAD == GIGABEAT_S_PAD)
265
266 #define CALCULATOR_LEFT BUTTON_LEFT
267 #define CALCULATOR_RIGHT BUTTON_RIGHT
268 #define CALCULATOR_UP BUTTON_UP
269 #define CALCULATOR_DOWN BUTTON_DOWN
270 #define CALCULATOR_QUIT BUTTON_BACK
271 #define CALCULATOR_INPUT BUTTON_SELECT
272 #define CALCULATOR_CALC BUTTON_MENU
273 #define CALCULATOR_CLEAR BUTTON_PLAY
274
275 #elif (CONFIG_KEYPAD == MROBE100_PAD)
276
277 #define CALCULATOR_LEFT BUTTON_LEFT
278 #define CALCULATOR_RIGHT BUTTON_RIGHT
279 #define CALCULATOR_UP BUTTON_UP
280 #define CALCULATOR_DOWN BUTTON_DOWN
281 #define CALCULATOR_QUIT BUTTON_POWER
282 #define CALCULATOR_INPUT BUTTON_SELECT
283 #define CALCULATOR_CALC BUTTON_MENU
284 #define CALCULATOR_CLEAR BUTTON_DISPLAY
285
286 #elif CONFIG_KEYPAD == IAUDIO_M3_PAD
287
288 #define CALCULATOR_LEFT BUTTON_RC_REW
289 #define CALCULATOR_RIGHT BUTTON_RC_FF
290 #define CALCULATOR_UP BUTTON_RC_VOL_UP
291 #define CALCULATOR_DOWN BUTTON_RC_VOL_DOWN
292 #define CALCULATOR_QUIT BUTTON_RC_REC
293 #define CALCULATOR_INPUT BUTTON_RC_PLAY
294 #define CALCULATOR_CALC BUTTON_RC_MODE
295 #define CALCULATOR_CLEAR BUTTON_RC_MENU
296
297 #define CALCULATOR_RC_QUIT BUTTON_REC
298
299 #elif (CONFIG_KEYPAD == COWON_D2_PAD)
300
301 #define CALCULATOR_QUIT BUTTON_POWER
302 #define CALCULATOR_CLEAR BUTTON_MENU
303
304 #elif CONFIG_KEYPAD == IAUDIO67_PAD
305
306 #define CALCULATOR_LEFT BUTTON_LEFT
307 #define CALCULATOR_RIGHT BUTTON_RIGHT
308 #define CALCULATOR_UP BUTTON_VOLUP
309 #define CALCULATOR_DOWN BUTTON_VOLDOWN
310 #define CALCULATOR_QUIT BUTTON_POWER
311 #define CALCULATOR_INPUT BUTTON_PLAY
312 #define CALCULATOR_CALC BUTTON_MENU
313 #define CALCULATOR_CLEAR BUTTON_STOP
314
315 #define CALCULATOR_RC_QUIT (BUTTON_MENU|BUTTON_PLAY)
316
317 #elif (CONFIG_KEYPAD == CREATIVEZVM_PAD)
318
319 #define CALCULATOR_LEFT BUTTON_LEFT
320 #define CALCULATOR_RIGHT BUTTON_RIGHT
321 #define CALCULATOR_UP BUTTON_UP
322 #define CALCULATOR_DOWN BUTTON_DOWN
323 #define CALCULATOR_QUIT BUTTON_BACK
324 #define CALCULATOR_INPUT BUTTON_SELECT
325 #define CALCULATOR_CALC BUTTON_MENU
326 #define CALCULATOR_CLEAR BUTTON_PLAY
327
328 #elif CONFIG_KEYPAD == PHILIPS_HDD1630_PAD
329
330 #define CALCULATOR_LEFT BUTTON_LEFT
331 #define CALCULATOR_RIGHT BUTTON_RIGHT
332 #define CALCULATOR_UP BUTTON_UP
333 #define CALCULATOR_DOWN BUTTON_DOWN
334 #define CALCULATOR_QUIT BUTTON_POWER
335 #define CALCULATOR_INPUT BUTTON_SELECT
336 #define CALCULATOR_CALC BUTTON_MENU
337 #define CALCULATOR_CLEAR BUTTON_VIEW
338
339 #elif CONFIG_KEYPAD == PHILIPS_HDD6330_PAD
340
341 #define CALCULATOR_LEFT BUTTON_PREV
342 #define CALCULATOR_RIGHT BUTTON_NEXT
343 #define CALCULATOR_UP BUTTON_UP
344 #define CALCULATOR_DOWN BUTTON_DOWN
345 #define CALCULATOR_QUIT BUTTON_POWER
346 #define CALCULATOR_INPUT BUTTON_PLAY
347 #define CALCULATOR_CALC BUTTON_MENU
348 #define CALCULATOR_CLEAR BUTTON_RIGHT
349
350 #elif CONFIG_KEYPAD == PHILIPS_SA9200_PAD
351
352 #define CALCULATOR_LEFT BUTTON_PREV
353 #define CALCULATOR_RIGHT BUTTON_NEXT
354 #define CALCULATOR_UP BUTTON_UP
355 #define CALCULATOR_DOWN BUTTON_DOWN
356 #define CALCULATOR_QUIT BUTTON_POWER
357 #define CALCULATOR_INPUT BUTTON_PLAY
358 #define CALCULATOR_CALC BUTTON_MENU
359 #define CALCULATOR_CLEAR BUTTON_RIGHT
360
361 #elif (CONFIG_KEYPAD == ONDAVX747_PAD)
362
363 #define CALCULATOR_QUIT BUTTON_POWER
364 #define CALCULATOR_CLEAR BUTTON_MENU
365
366 #elif (CONFIG_KEYPAD == ONDAVX777_PAD)
367 #define CALCULATOR_QUIT BUTTON_POWER
368
369 #elif CONFIG_KEYPAD == MROBE500_PAD
370 #define CALCULATOR_QUIT BUTTON_POWER
371
372 #elif CONFIG_KEYPAD == SAMSUNG_YH_PAD
373
374 #define CALCULATOR_LEFT BUTTON_LEFT
375 #define CALCULATOR_RIGHT BUTTON_RIGHT
376 #define CALCULATOR_UP BUTTON_UP
377 #define CALCULATOR_DOWN BUTTON_DOWN
378 #define CALCULATOR_QUIT BUTTON_REC
379 #define CALCULATOR_INPUT BUTTON_PLAY
380 #define CALCULATOR_CALC BUTTON_FFWD
381 #define CALCULATOR_CLEAR BUTTON_REW
382
383 #elif CONFIG_KEYPAD == PBELL_VIBE500_PAD
384
385 #define CALCULATOR_LEFT BUTTON_PREV
386 #define CALCULATOR_RIGHT BUTTON_NEXT
387 #define CALCULATOR_UP BUTTON_UP
388 #define CALCULATOR_DOWN BUTTON_DOWN
389 #define CALCULATOR_QUIT BUTTON_REC
390 #define CALCULATOR_INPUT BUTTON_OK
391 #define CALCULATOR_CALC BUTTON_PLAY
392 #define CALCULATOR_CLEAR BUTTON_CANCEL
393
394 #elif CONFIG_KEYPAD == MPIO_HD200_PAD
395 #define CALCULATOR_LEFT BUTTON_REW
396 #define CALCULATOR_RIGHT BUTTON_FF
397 #define CALCULATOR_QUIT (BUTTON_REC|BUTTON_PLAY)
398 #define CALCULATOR_INPUT BUTTON_FUNC
399 #define CALCULATOR_CALC BUTTON_PLAY
400
401 #elif CONFIG_KEYPAD == MPIO_HD300_PAD
402 #define CALCULATOR_LEFT BUTTON_REW
403 #define CALCULATOR_RIGHT BUTTON_FF
404 #define CALCULATOR_UP BUTTON_UP
405 #define CALCULATOR_DOWN BUTTON_DOWN
406 #define CALCULATOR_QUIT (BUTTON_REC|BUTTON_REPEAT)
407 #define CALCULATOR_INPUT BUTTON_ENTER
408 #define CALCULATOR_CALC BUTTON_PLAY
409 #define CALCULATOR_CLEAR BUTTON_MENU
410
411 #elif CONFIG_KEYPAD == SANSA_FUZEPLUS_PAD
412 #define CALCULATOR_LEFT BUTTON_LEFT
413 #define CALCULATOR_RIGHT BUTTON_RIGHT
414 #define CALCULATOR_UP BUTTON_UP
415 #define CALCULATOR_DOWN BUTTON_DOWN
416 #define CALCULATOR_QUIT BUTTON_POWER
417 #define CALCULATOR_INPUT BUTTON_SELECT
418 #define CALCULATOR_CALC BUTTON_PLAYPAUSE
419 #define CALCULATOR_CLEAR BUTTON_BACK
420
421 #elif (CONFIG_KEYPAD == SANSA_CONNECT_PAD)
422 #define CALCULATOR_LEFT BUTTON_LEFT
423 #define CALCULATOR_RIGHT BUTTON_RIGHT
424 #define CALCULATOR_UP BUTTON_UP
425 #define CALCULATOR_DOWN BUTTON_DOWN
426 #define CALCULATOR_UP_W_SHIFT BUTTON_SCROLL_BACK
427 #define CALCULATOR_DOWN_W_SHIFT BUTTON_SCROLL_FWD
428 #define CALCULATOR_QUIT BUTTON_POWER
429 #define CALCULATOR_INPUT_CALC_PRE BUTTON_SELECT
430 #define CALCULATOR_INPUT (BUTTON_SELECT|BUTTON_REL)
431 #define CALCULATOR_CALC BUTTON_NEXT
432 #define CALCULATOR_CLEAR BUTTON_PREV
433
434 #elif (CONFIG_KEYPAD == SAMSUNG_YPR0_PAD)
435
436 #define CALCULATOR_LEFT BUTTON_LEFT
437 #define CALCULATOR_RIGHT BUTTON_RIGHT
438 #define CALCULATOR_UP BUTTON_UP
439 #define CALCULATOR_DOWN BUTTON_DOWN
440 #define CALCULATOR_QUIT BUTTON_BACK
441 #define CALCULATOR_INPUT BUTTON_SELECT
442 #define CALCULATOR_CALC BUTTON_MENU
443 #define CALCULATOR_CLEAR BUTTON_USER
444
445 #else
446 #error No keymap defined!
447 #endif
448
449 #ifdef HAVE_TOUCHSCREEN
450 #ifndef CALCULATOR_LEFT
451 #define CALCULATOR_LEFT BUTTON_MIDLEFT
452 #endif
453 #ifndef CALCULATOR_RIGHT
454 #define CALCULATOR_RIGHT BUTTON_MIDRIGHT
455 #endif
456 #ifndef CALCULATOR_UP
457 #define CALCULATOR_UP BUTTON_TOPMIDDLE
458 #endif
459 #ifndef CALCULATOR_DOWN
460 #define CALCULATOR_DOWN BUTTON_BOTTOMMIDDLE
461 #endif
462 #ifndef CALCULATOR_CALC
463 #define CALCULATOR_CALC BUTTON_BOTTOMRIGHT
464 #endif
465 #ifndef CALCULATOR_INPUT
466 #define CALCULATOR_INPUT BUTTON_CENTER
467 #endif
468 #ifndef CALCULATOR_CLEAR
469 #define CALCULATOR_CLEAR BUTTON_TOPRIGHT
470 #endif
471
472 #include "lib/pluginlib_touchscreen.h"
473 static struct ts_raster calc_raster = { X_0_POS, Y_1_POS,
474 BUTTON_COLS*REC_WIDTH, BUTTON_ROWS*REC_HEIGHT, REC_WIDTH, REC_HEIGHT };
475 #endif
476
477 enum {
478 basicButtons,
479 sciButtons
480 } buttonGroup;
481
482 unsigned char* buttonChar[2][5][5] = {
483 { { "MR" , "M+" , "2nd" , "CE" , "C" },
484 { "7" , "8" , "9" , "/" , "sqr" },
485 { "4" , "5" , "6" , "*" , "x^2" },
486 { "1" , "2" , "3" , "-" , "1/x" },
487 { "0" , "+/-", "." , "+" , "=" } },
488
489 { { "n!" , "PI" , "1st" , "sin" , "asi" },
490 { "7" , "8" , "9" , "cos" , "aco" },
491 { "4" , "5" , "6" , "tan" , "ata" },
492 { "1" , "2" , "3" , "ln" , "e^x" },
493 { "0" , "+/-", "." , "log" , "x^y" } }
494 };
495
496 enum { btn_MR , btn_M , btn_bas , btn_CE , btn_C ,
497 btn_7 , btn_8 , btn_9 , btn_div , btn_sqr ,
498 btn_4 , btn_5 , btn_6 , btn_time , btn_square ,
499 btn_1 , btn_2 , btn_3 , btn_minus , btn_rec ,
500 btn_0 , btn_sign , btn_dot , btn_add , btn_equal
501 };
502
503 enum { sci_fac, sci_pi , sci_sci , sci_sin , sci_asin ,
504 sci_7 , sci_8 , sci_9 , sci_cos , sci_acos ,
505 sci_4 , sci_5 , sci_6 , sci_tan , sci_atan ,
506 sci_1 , sci_2 , sci_3 , sci_ln , sci_exp ,
507 sci_0 , sci_sign , sci_dot , sci_log , sci_xy
508 };
509
510 #define MINIMUM 0.000000000001 /* e-12 */
511 /* ^ ^ ^ ^ */
512 /* 123456789abcdef */
513
514 #define DIGITLEN 10 /* must <= 10 */
515 #define SCIENTIFIC_FORMAT ( power < -(DIGITLEN-3) || power > (DIGITLEN))
516 /* 0.000 00000 0001 */
517 /* ^ ^ ^ ^ ^ ^ */
518 /* DIGITLEN 12345 6789a bcdef */
519 /* power 12 34567 89abc def */
520 /* 10^- 123 45678 9abcd ef */
521
522 unsigned char buf[19];/* 18 bytes of output line,
523 buf[0] is operator
524 buf[1] = 'M' if memTemp is not 0
525 buf[2] = ' '
526
527 if SCIENTIFIC_FORMAT
528 buf[2]-buf[12] or buf[3]-buf[13] = result;
529 format X.XXXXXXXX
530 buf[13] or buf[14] -buf[17] = power;
531 format eXXX or e-XXX
532 else
533 buf[3]-buf[6] = ' ';
534 buf[7]-buf[17] = result;
535
536 buf[18] = '\0' */
537
538 unsigned char typingbuf[DIGITLEN+2];/* byte 0 is sign or ' ',
539 byte 1~DIGITLEN are num and '.'
540 byte (DIGITLEN+1) is '\0' */
541 unsigned char* typingbufPointer = typingbuf;
542
543 double result = 0; /* main operand, format 0.xxxxx */
544 int power = 0; /* 10^power */
545 double modifier = 0.1; /* position of next input */
546 double operand = 0; /* second operand, format 0.xxxxx */
547 int operandPower = 0; /* 10^power of second operand */
548 char oper = ' '; /* operators: + - * / */
549 bool operInputted = false; /* false: do calculation first and
550 replace current oper
551 true: just replace current oper */
552
553 double memTemp = 0; /* temp memory */
554 int memTempPower = 0; /* 10^^power of memTemp */
555
556 int btn_row, btn_col; /* current position index for button */
557 int prev_btn_row, prev_btn_col; /* previous cursor position */
558 #define CAL_BUTTON (btn_row*5+btn_col)
559
560 int btn = BUTTON_NONE;
561 int lastbtn = BUTTON_NONE;
562
563 /* Status of calculator */
564 enum {cal_normal, /* 0, normal status, display result */
565 cal_typing, /* 1, currently typing, dot hasn't been typed */
566 cal_dotted, /* 2, currently typing, dot already has been typed. */
567 cal_error,
568 cal_exit,
569 cal_toDo
570 } calStatus;
571
572 /* constant table for CORDIC algorithm */
573 static const double cordicTable[51][2]= {
574 /* pow(2,0) - pow(2,-50) atan(pow(2,0) - atan(pow(2,-50) */
575 {1e+00, 7.853981633974483e-01},
576 {5e-01, 4.636476090008061e-01},
577 {2.5e-01, 2.449786631268641e-01},
578 {1.25e-01, 1.243549945467614e-01},
579 {6.25e-02, 6.241880999595735e-02},
580 {3.125e-02, 3.123983343026828e-02},
581 {1.5625e-02, 1.562372862047683e-02},
582 {7.8125e-03, 7.812341060101111e-03},
583 {3.90625e-03, 3.906230131966972e-03},
584 {1.953125e-03, 1.953122516478819e-03},
585 {9.765625e-04, 9.765621895593195e-04},
586 {4.8828125e-04, 4.882812111948983e-04},
587 {2.44140625e-04, 2.441406201493618e-04},
588 {1.220703125e-04, 1.220703118936702e-04},
589 {6.103515625e-05, 6.103515617420877e-05},
590 {3.0517578125e-05, 3.051757811552610e-05},
591 {1.52587890625e-05, 1.525878906131576e-05},
592 {7.62939453125e-06, 7.629394531101970e-06},
593 {3.814697265625e-06, 3.814697265606496e-06},
594 {1.9073486328125e-06, 1.907348632810187e-06},
595 {9.5367431640625e-07, 9.536743164059608e-07},
596 {4.76837158203125e-07, 4.768371582030888e-07},
597 {2.384185791015625e-07, 2.384185791015580e-07},
598 {1.1920928955078125e-07, 1.192092895507807e-07},
599 {5.9604644775390625e-08, 5.960464477539055e-08},
600 {2.98023223876953125e-08, 2.980232238769530e-08},
601 {1.490116119384765625e-08, 1.490116119384765e-08},
602 {7.450580596923828125e-09, 7.450580596923828e-09},
603 {3.7252902984619140625e-09, 3.725290298461914e-09},
604 {1.86264514923095703125e-09, 1.862645149230957e-09},
605 {9.31322574615478515625e-10, 9.313225746154785e-10},
606 {4.656612873077392578125e-10, 4.656612873077393e-10},
607 {2.3283064365386962890625e-10, 2.328306436538696e-10},
608 {1.16415321826934814453125e-10, 1.164153218269348e-10},
609 {5.82076609134674072265625e-11, 5.820766091346741e-11},
610 {2.910383045673370361328125e-11, 2.910383045673370e-11},
611 {1.4551915228366851806640625e-11, 1.455191522836685e-11},
612 {7.2759576141834259033203125e-12, 7.275957614183426e-12},
613 {3.63797880709171295166015625e-12, 3.637978807091713e-12},
614 {1.818989403545856475830078125e-12, 1.818989403545856e-12},
615 {9.094947017729282379150390625e-13, 9.094947017729282e-13},
616 {4.5474735088646411895751953125e-13, 4.547473508864641e-13},
617 {2.27373675443232059478759765625e-13, 2.273736754432321e-13},
618 {1.136868377216160297393798828125e-13, 1.136868377216160e-13},
619 {5.684341886080801486968994140625e-14, 5.684341886080801e-14},
620 {2.8421709430404007434844970703125e-14, 2.842170943040401e-14},
621 {1.42108547152020037174224853515625e-14, 1.421085471520200e-14},
622 {7.10542735760100185871124267578125e-15, 7.105427357601002e-15},
623 {3.552713678800500929355621337890625e-15, 3.552713678800501e-15},
624 {1.7763568394002504646778106689453125e-15, 1.776356839400250e-15},
625 {8.8817841970012523233890533447265625e-16, 8.881784197001252e-16}
626 };
627
628 static void doMultiple(double* operandOne, int* powerOne,
629 double operandTwo, int powerTwo);
630 static void doAdd (double* operandOne, int* powerOne,
631 double operandTwo, int powerTwo);
632 static void printResult(void);
633 static void formatResult(void);
634 static void oneOperand(void);
635
636 static void drawLines(void);
637 static void drawButtons(int group);
638
639 /* -----------------------------------------------------------------------
640 Handy functions
641 ----------------------------------------------------------------------- */
642 static void cleartypingbuf(void)
643 {
644 int k;
645 for( k=1; k<=(DIGITLEN+1); k++)
646 typingbuf[k] = 0;
647 typingbuf[0] = ' ';
648 typingbufPointer = typingbuf+1;
649 }
650 static void clearbuf(void)
651 {
652 int k;
653 for(k=0;k<18;k++)
654 buf[k]=' ';
655 buf[18] = 0;
656 }
657 static void clearResult(void)
658 {
659 result = 0;
660 power = 0;
661 modifier = 0.1;
662 }
663
664 static void clearInput(void)
665 {
666 calStatus = cal_normal;
667 clearResult();
668 cleartypingbuf();
669 rb->lcd_clear_display();
670 drawButtons(buttonGroup);
671 drawLines();
672 }
673
674 static void clearOperand(void)
675 {
676 operand = 0;
677 operandPower = 0;
678 }
679
680 static void clearMemTemp(void)
681 {
682 memTemp = 0;
683 memTempPower = 0;
684 }
685
686 static void clearOper(void)
687 {
688 oper = ' ';
689 operInputted = false;
690 }
691
692 static void clearMem(void)
693 {
694 clearInput();
695 clearMemTemp();
696 clearOperand();
697 clearOper();
698 btn = BUTTON_NONE;
699 }
700
701 static void switchOperands(void)
702 {
703 double tempr = operand;
704 int tempp = operandPower;
705 operand = result;
706 operandPower = power;
707 result = tempr;
708 power = tempp;
709 }
710
711 static void drawLines(void)
712 {
713 int i;
714 rb->lcd_hline(0, LCD_WIDTH, Y_1_POS-1);
715 for (i = 0; i < 5 ; i++)
716 rb->lcd_hline(0, LCD_WIDTH, Y_1_POS+i*REC_HEIGHT);
717 for (i = 0; i < 4 ; i++)
718 rb->lcd_vline(X_1_POS+i*REC_WIDTH, Y_1_POS, LCD_HEIGHT);
719 }
720
721 static void drawButtons(int group)
722 {
723 int i, j, w, h;
724 for (i = 0; i <= 4; i++){
725 for (j = 0; j <= 4; j++){
726 rb->lcd_getstringsize( buttonChar[group][i][j],&w,&h);
727 if (i == btn_row && j == btn_col) /* selected item */
728 rb->lcd_set_drawmode(DRMODE_SOLID);
729 else
730 rb->lcd_set_drawmode(DRMODE_SOLID|DRMODE_INVERSEVID);
731 rb->lcd_fillrect( X_0_POS + j*REC_WIDTH,
732 Y_1_POS + i*REC_HEIGHT,
733 REC_WIDTH, REC_HEIGHT+1);
734 if (i == btn_row && j == btn_col) /* selected item */
735 rb->lcd_set_drawmode(DRMODE_SOLID|DRMODE_INVERSEVID);
736 else
737 rb->lcd_set_drawmode(DRMODE_SOLID);
738 rb->lcd_putsxy( X_0_POS + j*REC_WIDTH + (REC_WIDTH - w)/2,
739 Y_1_POS + i*REC_HEIGHT + (REC_HEIGHT - h)/2 + 1,
740 buttonChar[group][i][j] );
741 }
742 }
743 rb->lcd_set_drawmode(DRMODE_SOLID);
744 }
745
746 /* -----------------------------------------------------------------------
747 Initiate calculator
748 ----------------------------------------------------------------------- */
749 static void cal_initial (void)
750 {
751 int w,h;
752
753 rb->lcd_getstringsize("2nd",&w,&h);
754 if (w > REC_WIDTH || h > REC_HEIGHT)
755 rb->lcd_setfont(FONT_SYSFIXED);
756
757 rb->lcd_clear_display();
758
759 #ifdef CALCULATOR_OPERATORS
760 /* basic operators are available through separate button */
761 buttonGroup = sciButtons;
762 #else
763 buttonGroup = basicButtons;
764 #endif
765
766 /* initially, invert button "5" */
767 btn_row = 2;
768 btn_col = 1;
769 prev_btn_row = btn_row;
770 prev_btn_col = btn_col;
771 drawButtons(buttonGroup);
772 drawLines();
773 rb->lcd_update();
774
775 /* initial mem and output display*/
776 clearMem();
777 printResult();
778
779 /* clear button queue */
780 rb->button_clear_queue();
781 }
782
783 /* -----------------------------------------------------------------------
784 mySqrt uses Heron's algorithm, which is the Newtone-Raphson algorhitm
785 in it's private case for sqrt.
786 Thanks BlueChip for his intro text and Dave Straayer for the actual name.
787 ----------------------------------------------------------------------- */
788 static double mySqrt(double square)
789 {
790 int k = 0;
791 double temp = 0;
792 double root= ABS(square+1)/2;
793
794 while( ABS(root - temp) > MINIMUM ){
795 temp = root;
796 root = (square/temp + temp)/2;
797 k++;
798 if (k>10000) return 0;
799 }
800
801 return root;
802 }
803 /* -----------------------------------------------------------------------
804 transcendFunc uses CORDIC (COordinate Rotation DIgital Computer) method
805 transcendFunc can do sin,cos,log,exp
806 input parameter is angle
807 ----------------------------------------------------------------------- */
808 static void transcendFunc(char* func, double* tt, int* ttPower)
809 {
810 double t = (*tt)*M_PI/180; int tPower = *ttPower;
811 int sign = 1;
812 int n = 50; /* n <=50, tables are all <= 50 */
813 int j;
814 double x,y,z,xt,yt,zt;
815
816 if (tPower < -998) {
817 calStatus = cal_normal;
818 return;
819 }
820 if (tPower > 8) {
821 calStatus = cal_error;
822 return;
823 }
824 *ttPower = 0;
825 calStatus = cal_normal;
826
827 if( func[0] =='s' || func[0] =='S'|| func[0] =='t' || func[0] =='T')
828 sign = SIGN(t);
829 else {
830 /* if( func[0] =='c' || func[0] =='C') */
831 sign = 1;
832 }
833 t = ABS(t);
834
835 while (tPower > 0){
836 t *= 10;
837 tPower--;
838 }
839 while (tPower < 0) {
840 t /= 10;
841 tPower++;
842 }
843 j = 0;
844 while (t > j*M_TWOPI) {j++;}
845 t -= (j-1)*M_TWOPI;
846 if (M_PI_2 < t && t < 3*M_PI_2){
847 t = M_PI - t;
848 if (func[0] =='c' || func[0] =='C')
849 sign = -1;
850 else if (func[0] =='t' || func[0] =='T')
851 t*=-1;
852 }
853 else if ( 3*M_PI_2 <= t && t <= M_TWOPI)
854 t -= M_TWOPI;
855
856 x = 0.60725293500888; y = 0; z = t;
857 for (j=1;j<n+2;j++){
858 xt = x - SIGN(z) * y*cordicTable[j-1][0];
859 yt = y + SIGN(z) * x*cordicTable[j-1][0];
860 zt = z - SIGN(z) * cordicTable[j-1][1];
861 x = xt;
862 y=yt;
863 z=zt;
864 }
865 if( func[0] =='s' || func[0] =='S') {
866 *tt = sign*y;
867 return;
868 }
869 else if( func[0] =='c' || func[0] =='C') {
870 *tt = sign*x;
871 return;
872 }
873 else /*if( func[0] =='t' || func[0] =='T')*/ {
874 if(t==M_PI_2||t==-M_PI_2){
875 calStatus = cal_error;
876 return;
877 }
878 else{
879 *tt = sign*(y/x);
880 return;
881 }
882 }
883
884 }
885 /* -----------------------------------------------------------------------
886 add in scientific number format
887 ----------------------------------------------------------------------- */
888 static void doAdd (double* operandOne, int* powerOne,
889 double operandTwo, int powerTwo)
890 {
891 if ( *powerOne >= powerTwo ){
892 if (*powerOne - powerTwo <= DIGITLEN+1){
893 while (powerTwo < *powerOne){
894 operandTwo /=10;
895 powerTwo++;
896 }
897 *operandOne += operandTwo;
898 }
899 /*do nothing if operandTwo is too small*/
900 }
901 else{
902 if (powerTwo - *powerOne <= DIGITLEN+1){
903 while(powerTwo > *powerOne){
904 *operandOne /=10;
905 (*powerOne)++;
906 }
907 (*operandOne) += operandTwo;
908 }
909 else{/* simply copy operandTwo if operandOne is too small */
910 *operandOne = operandTwo;
911 *powerOne = powerTwo;
912 }
913 }
914 }
915 /* -----------------------------------------------------------------------
916 multiple in scientific number format
917 ----------------------------------------------------------------------- */
918 static void doMultiple(double* operandOne, int* powerOne,
919 double operandTwo, int powerTwo)
920 {
921 (*operandOne) *= operandTwo;
922 (*powerOne) += powerTwo;
923 }
924
925 /* -----------------------------------------------------------------------
926 Handles all one operand calculations
927 ----------------------------------------------------------------------- */
928 static void oneOperand(void)
929 {
930 int k = 0;
931 if (buttonGroup == basicButtons){
932 switch(CAL_BUTTON){
933 case btn_sqr:
934 if (result<0)
935 calStatus = cal_error;
936 else{
937 if (power%2 == 1){
938 result = (mySqrt(result*10))/10;
939 power = (power+1) / 2;
940 }
941 else{
942 result = mySqrt(result);
943 power = power / 2;
944 }
945 calStatus = cal_normal;
946 }
947 break;
948 case btn_square:
949 power *= 2;
950 result *= result;
951 calStatus = cal_normal;
952 break;
953
954 case btn_rec:
955 if (result==0)
956 calStatus = cal_error;
957 else{
958 power = -power;
959 result = 1/result;
960 calStatus = cal_normal;
961 }
962 break;
963 default:
964 calStatus = cal_toDo;
965 break; /* just for the safety */
966 }
967 }
968 else{ /* sciButtons */
969 switch(CAL_BUTTON){
970 case sci_sin:
971 transcendFunc("sin", &result, &power);
972 break;
973 case sci_cos:
974 transcendFunc("cos", &result, &power);
975 break;
976 case sci_tan:
977 transcendFunc("tan", &result, &power);
978 break;
979 case sci_fac:
980 if (power<0 || power>8 || result<0 )
981 calStatus = cal_error;
982 else if(result == 0) {
983 result = 1;
984 power = 0;
985 }
986 else{
987 while(power > 0) {
988 result *= 10;
989 power--;
990 }
991 if ( ( result - (int)result) > MINIMUM )
992 calStatus = cal_error;
993 else {
994 k = result; result = 1;
995 while (k > 1){
996 doMultiple(&result, &power, k, 0);
997 formatResult();
998 k--;
999 }
1000 calStatus = cal_normal;
1001 }
1002 }
1003 break;
1004 default:
1005 calStatus = cal_toDo;
1006 break; /* just for the safety */
1007 }
1008 }
1009 }
1010
1011
1012 /* -----------------------------------------------------------------------
1013 Handles all two operands calculations
1014 ----------------------------------------------------------------------- */
1015 static void twoOperands(void)
1016 {
1017 switch(oper){
1018 case '-':
1019 doAdd(&operand, &operandPower, -result, power);
1020 break;
1021 case '+':
1022 doAdd(&operand, &operandPower, result, power);
1023 break;
1024 case '*':
1025 doMultiple(&operand, &operandPower, result, power);
1026 break;
1027 case '/':
1028 if ( ABS(result) > MINIMUM ){
1029 doMultiple(&operand, &operandPower, 1/result, -power);
1030 }
1031 else
1032 calStatus = cal_error;
1033 break;
1034 default: /* ' ' */
1035 switchOperands(); /* counter switchOperands() below */
1036 break;
1037 } /* switch(oper) */
1038 switchOperands();
1039 clearOper();
1040 }
1041
1042 /* First, increases *dimen1 by dimen1_delta modulo dimen1_modulo.
1043 If dimen1 wraps, increases *dimen2 by dimen2_delta modulo dimen2_modulo.
1044 */
1045 static void move_with_wrap_and_shift(
1046 int *dimen1, int dimen1_delta, int dimen1_modulo,
1047 int *dimen2, int dimen2_delta, int dimen2_modulo)
1048 {
1049 bool wrapped = false;
1050
1051 *dimen1 += dimen1_delta;
1052 if (*dimen1 < 0)
1053 {
1054 *dimen1 = dimen1_modulo - 1;
1055 wrapped = true;
1056 }
1057 else if (*dimen1 >= dimen1_modulo)
1058 {
1059 *dimen1 = 0;
1060 wrapped = true;
1061 }
1062
1063 if (wrapped)
1064 {
1065 /* Make the dividend always positive to be sure about the result.
1066 Adding dimen2_modulo does not change it since we do it modulo. */
1067 *dimen2 = (*dimen2 + dimen2_modulo + dimen2_delta) % dimen2_modulo;
1068 }
1069 }
1070
1071 /* -----------------------------------------------------------------------
1072 Print buttons when switching 1st and 2nd
1073 int group = {basicButtons, sciButtons}
1074 ----------------------------------------------------------------------- */
1075 static void printButtonGroups(int group)
1076 {
1077 drawButtons(group);
1078 drawLines();
1079 rb->lcd_update();
1080 }
1081 /* -----------------------------------------------------------------------
1082 flash the currently marked button
1083 ----------------------------------------------------------------------- */
1084 static void flashButton(void)
1085 {
1086 int k, w, h;
1087 for (k=2;k>0;k--)
1088 {
1089 rb->lcd_getstringsize( buttonChar[buttonGroup][btn_row][btn_col],&w,&h);
1090 rb->lcd_set_drawmode(DRMODE_SOLID|(k==1) ? 0 : DRMODE_INVERSEVID);
1091 rb->lcd_fillrect( X_0_POS + btn_col*REC_WIDTH + 1,
1092 Y_1_POS + btn_row*REC_HEIGHT + 1,
1093 REC_WIDTH - 1, REC_HEIGHT - 1);
1094 rb->lcd_putsxy( X_0_POS + btn_col*REC_WIDTH + (REC_WIDTH - w)/2,
1095 Y_1_POS + btn_row*REC_HEIGHT + (REC_HEIGHT - h)/2 +1,
1096 buttonChar[buttonGroup][btn_row][btn_col] );
1097 rb->lcd_update_rect( X_0_POS + btn_col*REC_WIDTH + 1,
1098 Y_1_POS + btn_row*REC_HEIGHT + 1,
1099 REC_WIDTH - 1, REC_HEIGHT - 1);
1100
1101 if (k!= 1)
1102 rb->sleep(HZ/22);
1103
1104 }
1105 }
1106
1107 /* -----------------------------------------------------------------------
1108 pos is the position that needs animation. pos = [1~18]
1109 ----------------------------------------------------------------------- */
1110 #if defined(CALCULATOR_CLEAR) || defined(CALCULATOR_OPERATORS)
1111 static void deleteAnimation(int pos)
1112 {
1113 int k, w, h, x;
1114 if (pos<1 || pos >18)
1115 return;
1116
1117 rb->lcd_getstringsize("0", &w, &h);
1118 x = (pos==1? 4: LCD_WIDTH - 4 - w);
1119
1120 for (k=0;k<4;k++){
1121 rb->lcd_set_drawmode(DRMODE_SOLID|DRMODE_INVERSEVID);
1122 rb->lcd_fillrect(x, Y_1_POS - h -1, w, h);
1123 rb->lcd_set_drawmode(DRMODE_SOLID);
1124 rb->lcd_fillrect(x + (w*k)/8, Y_1_POS - h -1 + (h*k)/8,
1125 (w*(4-k))/4, (h*(4-k))/4);
1126 rb->lcd_update_rect(x, Y_1_POS - h -1, w, h);
1127 rb->sleep(HZ/32);
1128 }
1129 }
1130 #endif
1131
1132 /* -----------------------------------------------------------------------
1133 result may be one of these formats:
1134 0
1135 xxxx.xxxx
1136 0.xxxx
1137 0.0000xxxx
1138
1139 formatResult() change result to standard format: 0.xxxx
1140 if result is close to 0, let it be 0;
1141 if result is close to 1, let it be 0.1 and power++;
1142 ----------------------------------------------------------------------- */
1143 static void formatResult(void)
1144 {
1145 int resultsign = SIGN(result);
1146 result = ABS(result);
1147 if(result > MINIMUM ){ /* doesn't check power, might have problem
1148 input wouldn't,
1149 + - * / of two formatted number wouldn't.
1150 only a calculation that makes a formatted
1151 number (0.xxxx) less than MINIMUM in only
1152 one operation */
1153
1154 if (result<1){
1155 while( (int)(result*10) == 0 ){
1156 result *= 10;
1157 power--;
1158 modifier *= 10;
1159 }
1160 }
1161 else{ /* result >= 1 */
1162 while( (int)result != 0 ){
1163 result /= 10;
1164 power++;
1165 modifier /= 10;
1166 }
1167 } /* if result<1 */
1168
1169 if (result > (1-MINIMUM)){
1170 result = 0.1;
1171 power++;
1172 modifier /= 10;
1173 }
1174 result *= resultsign;
1175 }
1176 else {
1177 result = 0;
1178 power = 0;
1179 modifier = 0.1;
1180 }
1181 }
1182
1183 /* -----------------------------------------------------------------------
1184 result2typingbuf() outputs standard format result to typingbuf.
1185 case SCIENTIFIC_FORMAT, let temppower = 1;
1186 case temppower > 0: print '.' in the middle
1187 case temppower <= 0: print '.' in the begining
1188 ----------------------------------------------------------------------- */
1189 static void result2typingbuf(void)
1190 {
1191 bool haveDot = false;
1192 char tempchar = 0;
1193 int k;
1194 double tempresult = ABS(result); /* positive num makes things simple */
1195
1196 int temppower;
1197 double tempmodifier = 1;
1198 int count;
1199
1200 if(SCIENTIFIC_FORMAT)
1201 temppower = 1; /* output x.xxxx format */
1202 else
1203 temppower = power;
1204
1205 cleartypingbuf();
1206
1207 if(tempresult < MINIMUM){ /* if 0,faster display and avoid complication*/
1208 typingbuf[0] = ' ';
1209 typingbuf[1] = '0';
1210 }
1211 else{ /* tempresult > 0 */
1212 typingbuf[0] = (SIGN(result)<0)?'-':' ';
1213
1214 typingbufPointer = typingbuf;
1215 if(temppower > 0){
1216 for (k = 0; k<DIGITLEN+1 ; k++){
1217 typingbufPointer++;
1218 if(temppower || *(typingbufPointer-1) == '.'){
1219 count = 0;
1220 tempmodifier = tempmodifier/10;
1221 while( (tempresult-tempmodifier*count) >
1222 (tempmodifier-MINIMUM)){
1223 count++;
1224 }
1225 tempresult -= tempmodifier*count;
1226 tempresult = ABS(tempresult);
1227 temppower-- ;
1228 *typingbufPointer = count + '0';
1229 }
1230 else{ /* temppower == 0 */
1231 *typingbufPointer = '.';
1232 haveDot = true;
1233 }
1234 } /* for */
1235 }
1236 else{
1237 haveDot = true;
1238 typingbufPointer++; *typingbufPointer = '0';
1239 typingbufPointer++; *typingbufPointer = '.';
1240 for (k = 2; k<DIGITLEN+1 ; k++){
1241 typingbufPointer++;
1242 count = 0;
1243 if ( (-temppower) < (k-1)){
1244 tempmodifier = tempmodifier/10;
1245 while((tempresult-tempmodifier*count)>(tempmodifier-MINIMUM)){
1246 count++;
1247
1248 }
1249 tempresult -= tempmodifier*count;
1250 tempresult = ABS(tempresult);
1251 temppower-- ;
1252 }
1253 *typingbufPointer = count + '0';
1254 }
1255 }
1256 /* now, typingbufPointer = typingbuf + 16 */
1257 /* backward strip off 0 and '.' */
1258 if (haveDot){
1259 while( (*typingbufPointer == '0') || (*typingbufPointer == '.')){
1260 tempchar = *typingbufPointer;
1261 *typingbufPointer = 0;
1262 typingbufPointer--;
1263 if (tempchar == '.') break;
1264 }
1265 }
1266 typingbuf[DIGITLEN+1] = 0;
1267 } /* else tempresult > 0 */
1268 }
1269
1270 /* -----------------------------------------------------------------------
1271 printResult() generates LCD display.
1272 ----------------------------------------------------------------------- */
1273 static void printResult(void)
1274 {
1275 int k, w, h;
1276
1277 char operbuf[3] = {0, 0, 0};
1278
1279 switch_Status:
1280 switch(calStatus){
1281 case cal_exit:
1282 rb->lcd_clear_display();
1283 rb->splash(HZ/3, "Bye now!");
1284 break;
1285 case cal_error:
1286 clearbuf();
1287 rb->snprintf(buf, 19, "%18s","Error");
1288 break;
1289 case cal_toDo:
1290 clearbuf();
1291 rb->snprintf(buf, 19, "%18s","Coming soon ^_* ");
1292 break;
1293
1294 case cal_normal:
1295 formatResult();
1296
1297 if( power > 1000 ){ /* power -1 > 999 */
1298 calStatus = cal_error;
1299 goto switch_Status;
1300 }
1301 if (power < -998 ) /* power -1 < -999 */
1302 clearResult(); /* too small, let it be 0 */
1303
1304 result2typingbuf();
1305 clearbuf();
1306
1307 operbuf[0] = oper;
1308 operbuf[1] = ( ABS(memTemp) > MINIMUM )?'M':' ';
1309 operbuf[2] = '\0';
1310
1311 if(SCIENTIFIC_FORMAT){
1312 /* output format: X.XXXX eXXX */
1313 if(power > -98){ /* power-1 >= -99, eXXX or e-XX */
1314 rb->snprintf(buf, 12, "%11s",typingbuf);
1315 for(k=11;k<=14;k++) buf[k] = ' ';
1316 cleartypingbuf();
1317 rb->snprintf(typingbuf, 5, "e%d",power-1);
1318 rb->snprintf(buf+11, 5, "%4s",typingbuf);
1319 }
1320 else{ /* power-1 <= -100, e-XXX */
1321 rb->snprintf(buf, 12, "%11s",typingbuf);
1322 rb->snprintf(buf+11, 6, "e%d",power-1);
1323 }
1324 }
1325 else{
1326 rb->snprintf(buf, 12, "%11s",typingbuf);
1327 } /* if SCIENTIFIC_FORMAT */
1328 break;
1329 case cal_typing:
1330 case cal_dotted:
1331 clearbuf();
1332 operbuf[0] = oper;
1333 operbuf[1] = ( ABS(memTemp) > MINIMUM )?'M':' ';
1334 rb->snprintf(buf, 12, "%11s",typingbuf);
1335 break;
1336
1337 }
1338
1339 rb->lcd_getstringsize(buf, &w, &h);
1340 rb->screen_clear_area(rb->screens[0], 0, 0, LCD_WIDTH, Y_1_POS - 1);
1341 rb->lcd_putsxy(4, Y_1_POS - h -1, operbuf);
1342 rb->lcd_putsxy(LCD_WIDTH - w - 4, Y_1_POS - h -1, buf);
1343 rb->lcd_update_rect(0, 1, LCD_WIDTH, Y_1_POS);
1344 }
1345
1346 /* -----------------------------------------------------------------------
1347 Process typing buttons: 1-9, '.', sign
1348 main operand "result" and typingbuf are processed seperately here.
1349 ----------------------------------------------------------------------- */
1350 static void typingProcess(void){
1351 switch( CAL_BUTTON ){
1352 case btn_sign:
1353 if (calStatus == cal_typing ||
1354 calStatus == cal_dotted)
1355 typingbuf[0] = (typingbuf[0]=='-')?' ':'-';
1356 result = -result;
1357 break;
1358 case btn_dot:
1359 operInputted = false;
1360 switch(calStatus){
1361 case cal_normal:
1362 clearInput();
1363 *typingbufPointer = '0';
1364 typingbufPointer++;
1365 case cal_typing:
1366 calStatus = cal_dotted;
1367 *typingbufPointer = '.';
1368 if (typingbufPointer != typingbuf+DIGITLEN+1)
1369 typingbufPointer++;
1370 break;
1371 default: /* cal_dotted */
1372 break;
1373 }
1374 break;
1375 default: /* 0-9 */
1376 operInputted = false;
1377 /* normal,0; normal,1-9; typing,0; typing,1-9 */
1378 switch(calStatus){
1379 case cal_normal:
1380 if(CAL_BUTTON == btn_0 )
1381 break; /* first input is 0, ignore */
1382 clearInput();
1383 /*no operator means start a new calculation*/
1384 if (oper ==' ')
1385 clearOperand();
1386 calStatus = cal_typing;
1387 /* go on typing, no break */
1388 case cal_typing:
1389 case cal_dotted:
1390 switch(CAL_BUTTON){
1391 case btn_0:
1392 *typingbufPointer = '0';
1393 break;
1394 default:
1395 *typingbufPointer=(7+btn_col-3*(btn_row-1))+ '0';
1396 break;
1397 }
1398 if (typingbufPointer!=typingbuf+DIGITLEN+1){
1399 typingbufPointer++;
1400
1401 {/* result processing */
1402 if (calStatus == cal_typing) power++;
1403 if (CAL_BUTTON != btn_0)
1404 result= result +
1405 SIGN(result)*
1406 (7+btn_col-3*(btn_row-1))*modifier;
1407 modifier /= 10;
1408 }
1409 }
1410 else /* last byte always '\0' */
1411 *typingbufPointer = 0;
1412 break;
1413 default: /* cal_error, cal_exit */
1414 break;
1415 }
1416 break; /* default, 0-9 */
1417 } /* switch( CAL_BUTTON ) */
1418 }
1419
1420 /* -----------------------------------------------------------------------
1421 Handle delete operation
1422 main operand "result" and typingbuf are processed seperately here.
1423 ----------------------------------------------------------------------- */
1424 #ifdef CALCULATOR_CLEAR
1425 static void doDelete(void){
1426 deleteAnimation(18);
1427 switch(calStatus){
1428 case cal_dotted:
1429 if (*(typingbufPointer-1) == '.'){
1430 /* if dotted and deleting '.',
1431 change status and delete '.' below */
1432 calStatus = cal_typing;
1433 }
1434 else{ /* if dotted and not deleting '.',
1435 power stays */
1436 power++; /* counter "power--;" below */
1437 }
1438 case cal_typing:
1439 typingbufPointer--;
1440
1441 {/* result processing */ /* 0-9, '.' */
1442 /* if deleting '.', do nothing */
1443 if ( *typingbufPointer != '.'){
1444 power--;
1445 modifier *= 10;
1446 result = result - SIGN(result)*
1447 ((*typingbufPointer)- '0')*modifier;
1448 }
1449 }
1450
1451 *typingbufPointer = 0;
1452
1453 /* if (only one digit left and it's 0)
1454 or no digit left, change status*/
1455 if ( typingbufPointer == typingbuf+1 ||
1456 ( typingbufPointer == typingbuf+2 &&
1457 *(typingbufPointer-1) == '0' ))
1458 calStatus = cal_normal;
1459 break;
1460 default: /* normal, error, exit */
1461 break;
1462 }
1463 }
1464 #endif
1465 /* -----------------------------------------------------------------------
1466 Handle buttons on basic screen
1467 ----------------------------------------------------------------------- */
1468 static void basicButtonsProcess(void){
1469 switch (btn) {
1470 case CALCULATOR_INPUT:
1471 if (calStatus == cal_error && (CAL_BUTTON != btn_C) ) break;
1472 flashButton();
1473 switch( CAL_BUTTON ){
1474 case btn_MR:
1475 operInputted = false;
1476 result = memTemp; power = memTempPower;
1477 calStatus = cal_normal;
1478 break;
1479 case btn_M:
1480 formatResult();
1481 if (memTemp > MINIMUM)
1482 doAdd(&memTemp, &memTempPower, result, power);
1483 else {
1484 /* if result is too small and memTemp = 0,
1485 doAdd will not add */
1486 memTemp = result;
1487 memTempPower = power;
1488 }
1489 calStatus = cal_normal;
1490 break;
1491
1492 case btn_C: clearMem(); break;
1493 case btn_CE: clearInput(); break;
1494
1495 case btn_bas:
1496 buttonGroup = sciButtons;
1497 printButtonGroups(buttonGroup);
1498 break;
1499
1500 /* one operand calculation, may be changed to
1501 like sin, cos, log, etc */
1502 case btn_sqr:
1503 case btn_square:
1504 case btn_rec:
1505 formatResult(); /* not necessary, just for safty */
1506 oneOperand();
1507 break;
1508
1509 case_btn_equal: /* F3 shortkey entrance */
1510 case btn_equal:
1511 formatResult();
1512 calStatus = cal_normal;
1513 operInputted = false;
1514 if (oper != ' ') twoOperands();
1515 break;
1516
1517 case btn_div:
1518 case btn_time:
1519 case btn_minus:
1520 case btn_add:
1521 if(!operInputted) {twoOperands(); operInputted = true;}
1522 oper = buttonChar[basicButtons][btn_row][btn_col][0];
1523 #ifdef CALCULATOR_OPERATORS
1524 case_cycle_operators: /* F2 shortkey entrance */
1525 #endif
1526 calStatus = cal_normal;
1527 formatResult();
1528 operand = result;
1529 operandPower = power;
1530
1531 break;
1532
1533 case btn_sign:
1534 case btn_dot:
1535 default: /* 0-9 */
1536 typingProcess();
1537 break;
1538 } /* switch (CAL_BUTTON) */
1539 break;
1540
1541 #ifdef CALCULATOR_OPERATORS
1542 case CALCULATOR_OPERATORS:
1543 if (calStatus == cal_error) break;
1544 if (!operInputted) {twoOperands(); operInputted = true;}
1545 switch (oper){
1546 case ' ':
1547 case '/': oper = '+'; flashButton(); break;
1548 case '+': oper = '-'; flashButton(); break;
1549 case '-': oper = '*'; flashButton(); break;
1550 case '*': oper = '/'; flashButton(); break;
1551 }
1552 goto case_cycle_operators;
1553 break;
1554 #endif
1555
1556 case CALCULATOR_CALC:
1557 if (calStatus == cal_error) break;
1558 flashButton();
1559 goto case_btn_equal;
1560 break;
1561 default: break;
1562 }
1563 printResult();
1564 }
1565
1566 /* -----------------------------------------------------------------------
1567 Handle buttons on scientific screen
1568 ----------------------------------------------------------------------- */
1569 static void sciButtonsProcess(void){
1570 switch (btn) {
1571 case CALCULATOR_INPUT:
1572 if (calStatus == cal_error && (CAL_BUTTON != sci_sci) ) break;
1573 flashButton();
1574 switch( CAL_BUTTON ){
1575
1576 case sci_pi:
1577 result = M_PI; power = 0;
1578 calStatus = cal_normal;
1579 break;
1580
1581 case sci_xy: break;
1582
1583 case sci_sci:
1584 buttonGroup = basicButtons;
1585 printButtonGroups(basicButtons);
1586 break;
1587
1588 case sci_fac:
1589 case sci_sin:
1590 case sci_asin:
1591 case sci_cos:
1592 case sci_acos:
1593 case sci_tan:
1594 case sci_atan:
1595 case sci_ln:
1596 case sci_exp:
1597 case sci_log:
1598 formatResult(); /* not necessary, just for safty */
1599 oneOperand();
1600 break;
1601
1602 case btn_sign:
1603 case btn_dot:
1604 default: /* 0-9 */
1605 typingProcess();
1606 break;
1607 } /* switch (CAL_BUTTON) */
1608 break;
1609
1610 #ifdef CALCULATOR_OPERATORS
1611 case CALCULATOR_OPERATORS:
1612 if (calStatus == cal_error) break;
1613 if (!operInputted) {twoOperands(); operInputted = true;}
1614 switch (oper){
1615 case ' ': oper = '+'; break;
1616 case '/': oper = '+'; deleteAnimation(1); break;
1617 case '+': oper = '-'; deleteAnimation(1); break;
1618 case '-': oper = '*'; deleteAnimation(1); break;
1619 case '*': oper = '/'; deleteAnimation(1); break;
1620 }
1621 calStatus = cal_normal;
1622 formatResult();
1623 operand = result;
1624 operandPower = power;
1625 break;
1626 #endif
1627
1628 case CALCULATOR_CALC:
1629 if (calStatus == cal_error) break;
1630 formatResult();
1631 calStatus = cal_normal;
1632 operInputted = false;
1633 if (oper != ' ') twoOperands();
1634 break;
1635 default: break;
1636 }
1637 printResult();
1638 }
1639
1640 /* -----------------------------------------------------------------------
1641 move button index
1642 Invert display new button, invert back previous button
1643 ----------------------------------------------------------------------- */
1644 static int handleButton(int button){
1645 switch(button)
1646 {
1647 case CALCULATOR_INPUT:
1648 case CALCULATOR_CALC:
1649 #ifdef CALCULATOR_INPUT_CALC_PRE
1650 if (lastbtn != CALCULATOR_INPUT_CALC_PRE)
1651 break;
1652 /* no unconditional break; here! */
1653 #endif
1654 #ifdef CALCULATOR_OPERATORS
1655 case CALCULATOR_OPERATORS:
1656 #endif
1657 switch(buttonGroup){
1658 case basicButtons:
1659 basicButtonsProcess();
1660 break;
1661 case sciButtons:
1662 sciButtonsProcess();
1663 break;
1664 }
1665 break;
1666
1667 #ifdef CALCULATOR_CLEAR
1668 case CALCULATOR_CLEAR:
1669 switch(calStatus){
1670 case cal_typing:
1671 case cal_dotted:
1672 doDelete();
1673 break;
1674 default: /* cal_normal, cal_error, cal_exit */
1675 clearMem();
1676 break;
1677 }
1678 printResult();
1679 break;
1680 #endif
1681 case CALCULATOR_LEFT:
1682 case CALCULATOR_LEFT | BUTTON_REPEAT:
1683 move_with_wrap_and_shift(
1684 &btn_col, -1, BUTTON_COLS,
1685 &btn_row, 0, BUTTON_ROWS);
1686 break;
1687
1688 case CALCULATOR_RIGHT:
1689 case CALCULATOR_RIGHT | BUTTON_REPEAT:
1690 move_with_wrap_and_shift(
1691 &btn_col, 1, BUTTON_COLS,
1692 &btn_row, 0, BUTTON_ROWS);
1693 break;
1694
1695 #ifdef CALCULATOR_UP
1696 case CALCULATOR_UP:
1697 case CALCULATOR_UP | BUTTON_REPEAT:
1698 move_with_wrap_and_shift(
1699 &btn_row, -1, BUTTON_ROWS,
1700 &btn_col, 0, BUTTON_COLS);
1701 break;
1702 #endif
1703 #ifdef CALCULATOR_DOWN
1704 case CALCULATOR_DOWN:
1705 case CALCULATOR_DOWN | BUTTON_REPEAT:
1706 move_with_wrap_and_shift(
1707 &btn_row, 1, BUTTON_ROWS,
1708 &btn_col, 0, BUTTON_COLS);
1709 break;
1710 #endif
1711
1712 #ifdef CALCULATOR_UP_W_SHIFT
1713 case CALCULATOR_UP_W_SHIFT:
1714 case CALCULATOR_UP_W_SHIFT | BUTTON_REPEAT:
1715 move_with_wrap_and_shift(
1716 &btn_row, -1, BUTTON_ROWS,
1717 &btn_col, -1, BUTTON_COLS);
1718 break;
1719 #endif
1720 #ifdef CALCULATOR_DOWN_W_SHIFT
1721 case CALCULATOR_DOWN_W_SHIFT:
1722 case CALCULATOR_DOWN_W_SHIFT | BUTTON_REPEAT:
1723 move_with_wrap_and_shift(
1724 &btn_row, 1, BUTTON_ROWS,
1725 &btn_col, 1, BUTTON_COLS);
1726 break;
1727 #endif
1728 #ifdef CALCULATOR_LEFT_W_SHIFT
1729 case CALCULATOR_LEFT_W_SHIFT:
1730 case CALCULATOR_LEFT_W_SHIFT | BUTTON_REPEAT:
1731 move_with_wrap_and_shift(
1732 &btn_col, -1, BUTTON_COLS,
1733 &btn_row, -1, BUTTON_ROWS);
1734 break;
1735 #endif
1736 #ifdef CALCULATOR_RIGHT_W_SHIFT
1737 case CALCULATOR_RIGHT_W_SHIFT:
1738 case CALCULATOR_RIGHT_W_SHIFT | BUTTON_REPEAT:
1739 move_with_wrap_and_shift(
1740 &btn_col, 1, BUTTON_COLS,
1741 &btn_row, 1, BUTTON_ROWS);
1742 break;
1743 #endif
1744 #ifdef CALCULATOR_RC_QUIT
1745 case CALCULATOR_RC_QUIT:
1746 #endif
1747 case CALCULATOR_QUIT:
1748 return -1;
1749 }
1750
1751 return 0;
1752 }
1753
1754 /* -----------------------------------------------------------------------
1755 Main();
1756 ----------------------------------------------------------------------- */
1757 enum plugin_status plugin_start(const void* parameter)
1758 {
1759 (void)parameter;
1760
1761 /* now go ahead and have fun! */
1762
1763 #ifdef HAVE_TOUCHSCREEN
1764 rb->touchscreen_set_mode(TOUCHSCREEN_POINT);
1765 #endif
1766
1767 cal_initial();
1768
1769 while (calStatus != cal_exit ) {
1770 btn = rb->button_get_w_tmo(HZ/2);
1771 #ifdef HAVE_TOUCHSCREEN
1772 if(btn & BUTTON_TOUCHSCREEN)
1773 {
1774 struct ts_raster_result res;
1775 if(touchscreen_map_raster(&calc_raster, rb->button_get_data() >> 16,
1776 rb->button_get_data() & 0xffff, &res) == 1)
1777 {
1778 btn_row = res.y;
1779 btn_col = res.x;
1780 drawButtons(buttonGroup);
1781 drawLines();
1782
1783 rb->lcd_update();
1784
1785 prev_btn_row = btn_row;
1786 prev_btn_col = btn_col;
1787 if(btn & BUTTON_REL)
1788 {
1789 btn = CALCULATOR_INPUT;
1790 switch(buttonGroup){
1791 case basicButtons:
1792 basicButtonsProcess();
1793 break;
1794 case sciButtons:
1795 sciButtonsProcess();
1796 break;
1797 }
1798 btn = BUTTON_TOUCHSCREEN;
1799 }
1800 }
1801 }
1802 #endif
1803 if (handleButton(btn) == -1)
1804 {
1805 calStatus = cal_exit;
1806 printResult();
1807 }
1808 else
1809 {
1810 drawButtons(buttonGroup);
1811 drawLines();
1812 }
1813
1814 rb->lcd_update();
1815
1816 if(rb->default_event_handler(btn) == SYS_USB_CONNECTED)
1817 return PLUGIN_USB_CONNECTED;
1818
1819 if (btn != BUTTON_NONE)
1820 lastbtn = btn;
1821 } /* while (calStatus != cal_exit ) */
1822
1823 rb->button_clear_queue();
1824 return PLUGIN_OK;
1825 }
thomasjfox's rockbox modifications (mameo port)