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rockbox/apps/plugins/calculator.c
Marcoen Hirschberg 338e2bbb0c first gigabeat commit 
git-svn-id: svn://svn.rockbox.org/rockbox/trunk@8831 a1c6a512-1295-4272-9138-f99709370657
2006-02-24 15:42:52 +00:00

1422 lines
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/***************************************************************************
* __________ __ ___.
* Open \______ \ ____ ____ | | _\_ |__ _______ ___
* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
* \/ \/ \/ \/ \/
* $Id$
*
* Copyright (C) 2004 Pengxuan(Isaac) <tinousus@yahoo.com>
*
* All files in this archive are subject to the GNU General Public License.
* See the file COPYING in the source tree root for full license agreement.
*
* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
* KIND, either express or implied.
*
****************************************************************************/
/*
00 01 21 22 23 43 44 45 65 66 67 87 88 89 109110111
00 |-----------|-----------|-----------|-----------|-----------|
01 | | | | | |
|***********|***********|***********|***********|***********|
|***********|***********|***********|***********|***********|
11 | | | | | |
12 |-----------|-----------|-----------|-----------|-----------|
13 |-----------|-----------|-----------|-----------|-----------| y1
14 | | | | | |
| | | | | |
22 | | | | | |
23 |-----------|-----------|-----------|-----------|-----------| y2
24 | | | | | |
| | | | | |
32 | | | | | |
33 |-----------|-----------|-----------|-----------|-----------| y3
34 | | | | | |
| | | | | |
42 | | | | | |
43 |-----------|-----------|-----------|-----------|-----------| y4
44 | | | | | |
| | | | | |
52 | | | | | |
53 |-----------|-----------|-----------|-----------|-----------| y5
54 | | | | | |
| | | | | |
62 | | | | | |
63 |-----------|-----------|-----------|-----------|-----------| y6
x0 x1 x2 x3 x4 x5
*/
/*---------------------------------------------------------------------------
Features:
- Scientific number format core code. Support range 10^-999 ~ 10^999
- Number of significant figures up to 10
Limitations:
- Right now, only accept "num, operator (+,-,*,/), num, =" input sequence.
Input "3, +, 5, -, 2, =", the calculator will only do 5-2 and result = 3
You have to input "3, +, 5, =, -, 2, =" to get 3+5-2 = 6
- "*,/" have no priority. Actually you can't input 3+5*2 yet.
User Instructions:
use arrow button to move cursor, "play" button to select, "off" button to exit
F1: if typing numbers, it's equal to "Del"; otherwise, equal to "C"
F2: circle input "+, -, *, /"
F3: equal to "="
"MR" : load temp memory
"M+" : add currently display to temp memory
"C" : reset calculator
---------------------------------------------------------------------------*/
#include "plugin.h"
#ifdef HAVE_LCD_BITMAP
#include "math.h"
PLUGIN_HEADER
#define REC_HEIGHT 10 /* blank height = 9 */
#define REC_WIDTH 22 /* blank width = 21 */
#define Y_6_POS (LCD_HEIGHT - 1) /* y6 = 63 */
#define Y_5_POS (Y_6_POS - REC_HEIGHT) /* y5 = 53 */
#define Y_4_POS (Y_5_POS - REC_HEIGHT) /* y4 = 43 */
#define Y_3_POS (Y_4_POS - REC_HEIGHT) /* y3 = 33 */
#define Y_2_POS (Y_3_POS - REC_HEIGHT) /* y2 = 23 */
#define Y_1_POS (Y_2_POS - REC_HEIGHT) /* y1 = 13 */
#define Y_0_POS 0 /* y0 = 0 */
#define X_0_POS 0 /* x0 = 0 */
#define X_1_POS (X_0_POS + REC_WIDTH) /* x1 = 22 */
#define X_2_POS (X_1_POS + REC_WIDTH) /* x2 = 44 */
#define X_3_POS (X_2_POS + REC_WIDTH) /* x3 = 66 */
#define X_4_POS (X_3_POS + REC_WIDTH) /* x4 = 88 */
#define X_5_POS (X_4_POS + REC_WIDTH) /* x5 = 110, column 111 left blank */
#define TEXT_1_POS (Y_1_POS-10) /* y1 = 2 */ /* blank height = 12 */
#define TEXT_2_POS (Y_2_POS-8) /* y2 = 15 */ /* blank height = 9 */
#define TEXT_3_POS (Y_3_POS-8) /* y3 = 25 */
#define TEXT_4_POS (Y_4_POS-8) /* y4 = 35 */
#define TEXT_5_POS (Y_5_POS-8) /* y5 = 45 */
#define TEXT_6_POS (Y_6_POS-8) /* y6 = 55 */
#define SIGN(x) ((x)<0?-1:1)
#define ABS(x) ((x)<0?-(x):(x))
/* variable button definitions */
#if CONFIG_KEYPAD == RECORDER_PAD
#define CALCULATOR_UP BUTTON_UP
#define CALCULATOR_DOWN BUTTON_DOWN
#define CALCULATOR_QUIT BUTTON_OFF
#define CALCULATOR_INPUT BUTTON_PLAY
#define CALCULATOR_CALC BUTTON_F3
#define CALCULATOR_OPERATORS BUTTON_F2
#define CALCULATOR_CLEAR BUTTON_F1
#elif CONFIG_KEYPAD == ONDIO_PAD
#define CALCULATOR_UP BUTTON_UP
#define CALCULATOR_DOWN BUTTON_DOWN
#define CALCULATOR_QUIT BUTTON_OFF
#define CALCULATOR_INPUT_CALC_PRE BUTTON_MENU
#define CALCULATOR_INPUT (BUTTON_MENU | BUTTON_REL)
#define CALCULATOR_CALC (BUTTON_MENU | BUTTON_REPEAT)
#elif (CONFIG_KEYPAD == IRIVER_H100_PAD) || \
(CONFIG_KEYPAD == IRIVER_H300_PAD)
#define CALCULATOR_UP BUTTON_UP
#define CALCULATOR_DOWN BUTTON_DOWN
#define CALCULATOR_QUIT BUTTON_OFF
#define CALCULATOR_INPUT BUTTON_SELECT
#define CALCULATOR_CALC BUTTON_ON
#define CALCULATOR_OPERATORS BUTTON_MODE
#define CALCULATOR_CLEAR BUTTON_REC
#elif (CONFIG_KEYPAD == IPOD_4G_PAD)
#define CALCULATOR_UP BUTTON_SCROLL_BACK
#define CALCULATOR_DOWN BUTTON_SCROLL_FWD
#define CALCULATOR_QUIT BUTTON_MENU
#define CALCULATOR_INPUT_CALC_PRE BUTTON_SELECT
#define CALCULATOR_INPUT (BUTTON_SELECT | BUTTON_REL)
#define CALCULATOR_CALC (BUTTON_PLAY | BUTTON_REPEAT)
#elif (CONFIG_KEYPAD == IAUDIO_X5_PAD)
#define CALCULATOR_UP BUTTON_UP
#define CALCULATOR_DOWN BUTTON_DOWN
#define CALCULATOR_QUIT BUTTON_POWER
#define CALCULATOR_INPUT_CALC_PRE BUTTON_SELECT
#define CALCULATOR_INPUT (BUTTON_SELECT | BUTTON_REL)
#define CALCULATOR_CALC BUTTON_PLAY
#define CALCULATOR_CLEAR BUTTON_REC
#elif (CONFIG_KEYPAD == GIGABEAT_PAD)
#define CALCULATOR_UP BUTTON_UP
#define CALCULATOR_DOWN BUTTON_DOWN
#define CALCULATOR_QUIT BUTTON_A
#define CALCULATOR_INPUT_CALC_PRE BUTTON_MENU
#define CALCULATOR_INPUT (BUTTON_MENU | BUTTON_REL)
#define CALCULATOR_CALC BUTTON_SELECT
#define CALCULATOR_CLEAR BUTTON_POWER
#endif
static struct plugin_api* rb;
enum {
basicButtons,
sciButtons
} buttonGroup;
unsigned char* buttonChar[2][5][5] = {
{ { "MR" , "M+" , "2nd" , "CE" , "C" },
{ "7" , "8" , "9" , "/" , "sqr" },
{ "4" , "5" , "6" , "*" , "x^2" },
{ "1" , "2" , "3" , "-" , "1/x" },
{ "0" , "+/-", "." , "+" , "=" } },
{ { "n!" , "PI" , "1st" , "sin" , "asi" },
{ "7" , "8" , "9" , "cos" , "aco" },
{ "4" , "5" , "6" , "tan" , "ata" },
{ "1" , "2" , "3" , "ln" , "e^x" },
{ "0" , "+/-", "." , "log" , "x^y" } }
};
enum { btn_MR , btn_M , btn_bas , btn_CE , btn_C ,
btn_7 , btn_8 , btn_9 , btn_div , btn_sqr ,
btn_4 , btn_5 , btn_6 , btn_time , btn_square ,
btn_1 , btn_2 , btn_3 , btn_minus , btn_rec ,
btn_0 , btn_sign , btn_dot , btn_add , btn_equal
};
enum { sci_fac, sci_pi , sci_sci , sci_sin , sci_asin ,
sci_7 , sci_8 , sci_9 , sci_cos , sci_acos ,
sci_4 , sci_5 , sci_6 , sci_tan , sci_atan ,
sci_1 , sci_2 , sci_3 , sci_ln , sci_exp ,
sci_0 , sci_sign , sci_dot , sci_log , sci_xy
};
#define PI 3.14159265358979323846
#define MINIMUM 0.000000000001 /* e-12 */
/* ^ ^ ^ ^ */
/* 123456789abcdef */
#define DIGITLEN 10 /* must <= 10 */
#define SCIENTIFIC_FORMAT ( power < -(DIGITLEN-3) || power > (DIGITLEN))
/* 0.000 00000 0001 */
/* ^ ^ ^ ^ ^ ^ */
/* DIGITLEN 12345 6789a bcdef */
/* power 12 34567 89abc def */
/* 10^- 123 45678 9abcd ef */
unsigned char buf[19];/* 18 bytes of output line,
buf[0] is operator
buf[1] = 'M' if memTemp is not 0
buf[2] = ' '
if SCIENTIFIC_FORMAT
buf[2]-buf[12] or buf[3]-buf[13] = result;
format X.XXXXXXXX
buf[13] or buf[14] -buf[17] = power;
format eXXX or e-XXX
else
buf[3]-buf[6] = ' ';
buf[7]-buf[17] = result;
buf[18] = '\0' */
unsigned char typingbuf[DIGITLEN+2];/* byte 0 is sign or ' ',
byte 1~DIGITLEN are num and '.'
byte (DIGITLEN+1) is '\0' */
unsigned char* typingbufPointer = typingbuf;
double result = 0; /* main operand, format 0.xxxxx */
int power = 0; /* 10^power */
double modifier = 0.1; /* position of next input */
double operand = 0; /* second operand, format 0.xxxxx */
int operandPower = 0; /* 10^power of second operand */
char oper = ' '; /* operators: + - * / */
bool operInputted = false; /* false: do calculation first and
replace current oper
true: just replace current oper */
double memTemp = 0; /* temp memory */
int memTempPower = 0; /* 10^^power of memTemp */
int m, n, prev_m, prev_n; /* position index for button */
#define CAL_BUTTON (m*5+n)
int btn = BUTTON_NONE;
int lastbtn = BUTTON_NONE;
/* Status of calculator */
enum {cal_normal, /* 0, normal status, display result */
cal_typing, /* 1, currently typing, dot hasn't been typed */
cal_dotted, /* 2, currently typing, dot already has been typed. */
cal_error,
cal_exit,
cal_toDo
} calStatus;
/* constant table for CORDIC algorithm */
double cordicTable[51][2]= {
/* pow(2,0) - pow(2,-50) atan(pow(2,0) - atan(pow(2,-50) */
{1e+00, 7.853981633974483e-01},
{5e-01, 4.636476090008061e-01},
{2.5e-01, 2.449786631268641e-01},
{1.25e-01, 1.243549945467614e-01},
{6.25e-02, 6.241880999595735e-02},
{3.125e-02, 3.123983343026828e-02},
{1.5625e-02, 1.562372862047683e-02},
{7.8125e-03, 7.812341060101111e-03},
{3.90625e-03, 3.906230131966972e-03},
{1.953125e-03, 1.953122516478819e-03},
{9.765625e-04, 9.765621895593195e-04},
{4.8828125e-04, 4.882812111948983e-04},
{2.44140625e-04, 2.441406201493618e-04},
{1.220703125e-04, 1.220703118936702e-04},
{6.103515625e-05, 6.103515617420877e-05},
{3.0517578125e-05, 3.051757811552610e-05},
{1.52587890625e-05, 1.525878906131576e-05},
{7.62939453125e-06, 7.629394531101970e-06},
{3.814697265625e-06, 3.814697265606496e-06},
{1.9073486328125e-06, 1.907348632810187e-06},
{9.5367431640625e-07, 9.536743164059608e-07},
{4.76837158203125e-07, 4.768371582030888e-07},
{2.384185791015625e-07, 2.384185791015580e-07},
{1.1920928955078125e-07, 1.192092895507807e-07},
{5.9604644775390625e-08, 5.960464477539055e-08},
{2.98023223876953125e-08, 2.980232238769530e-08},
{1.490116119384765625e-08, 1.490116119384765e-08},
{7.450580596923828125e-09, 7.450580596923828e-09},
{3.7252902984619140625e-09, 3.725290298461914e-09},
{1.86264514923095703125e-09, 1.862645149230957e-09},
{9.31322574615478515625e-10, 9.313225746154785e-10},
{4.656612873077392578125e-10, 4.656612873077393e-10},
{2.3283064365386962890625e-10, 2.328306436538696e-10},
{1.16415321826934814453125e-10, 1.164153218269348e-10},
{5.82076609134674072265625e-11, 5.820766091346741e-11},
{2.910383045673370361328125e-11, 2.910383045673370e-11},
{1.4551915228366851806640625e-11, 1.455191522836685e-11},
{7.2759576141834259033203125e-12, 7.275957614183426e-12},
{3.63797880709171295166015625e-12, 3.637978807091713e-12},
{1.818989403545856475830078125e-12, 1.818989403545856e-12},
{9.094947017729282379150390625e-13, 9.094947017729282e-13},
{4.5474735088646411895751953125e-13, 4.547473508864641e-13},
{2.27373675443232059478759765625e-13, 2.273736754432321e-13},
{1.136868377216160297393798828125e-13, 1.136868377216160e-13},
{5.684341886080801486968994140625e-14, 5.684341886080801e-14},
{2.8421709430404007434844970703125e-14, 2.842170943040401e-14},
{1.42108547152020037174224853515625e-14, 1.421085471520200e-14},
{7.10542735760100185871124267578125e-15, 7.105427357601002e-15},
{3.552713678800500929355621337890625e-15, 3.552713678800501e-15},
{1.7763568394002504646778106689453125e-15, 1.776356839400250e-15},
{8.8817841970012523233890533447265625e-16, 8.881784197001252e-16}
};
void doMultiple(double* operandOne, int* powerOne,
double operandTwo, int powerTwo);
void doAdd (double* operandOne, int* powerOne,
double operandTwo, int powerTwo);
void printResult(void);
void formatResult(void);
void oneOperand(void);
/* -----------------------------------------------------------------------
Handy funtions
----------------------------------------------------------------------- */
void cleartypingbuf(void)
{
int k;
for( k=1; k<=(DIGITLEN+1); k++)
typingbuf[k] = 0;
typingbuf[0] = ' ';
typingbufPointer = typingbuf+1;
}
void clearbuf(void)
{
int k;
for(k=0;k<18;k++)
buf[k]=' ';
buf[18] = 0;
}
void clearResult(void)
{
result = 0;
power = 0;
modifier = 0.1;
}
void clearInput(void)
{
calStatus = cal_normal;
clearResult();
cleartypingbuf();
}
void clearOperand(void)
{
operand = 0;
operandPower = 0;
}
void clearMemTemp(void)
{
memTemp = 0;
memTempPower = 0;
}
void clearOper(void)
{
oper = ' ';
operInputted = false;
}
void clearMem(void)
{
clearInput();
clearMemTemp();
clearOperand();
clearOper();
btn = BUTTON_NONE;
}
void switchOperands(void)
{
double tempr = operand;
int tempp = operandPower;
operand = result;
operandPower = power;
result = tempr;
power = tempp;
}
/* -----------------------------------------------------------------------
Initiate calculator
----------------------------------------------------------------------- */
void cal_initial (void)
{
int i,j,w,h;
rb->lcd_setfont(FONT_SYSFIXED);
rb->lcd_clear_display();
/* draw lines */
rb->lcd_drawrect(X_0_POS, Y_0_POS, LCD_WIDTH-1, LCD_HEIGHT);
rb->lcd_drawline(X_0_POS, Y_1_POS-1, X_5_POS, Y_1_POS-1);
for (i = 0; i < 5 ; i++)
rb->lcd_drawline(X_0_POS, Y_1_POS+i*REC_HEIGHT,
X_5_POS, Y_1_POS+i*REC_HEIGHT);
for (i = 0; i < 4 ; i++)
rb->lcd_drawline(X_1_POS+i*REC_WIDTH, Y_1_POS,
X_1_POS+i*REC_WIDTH, Y_6_POS);
#ifdef CALCULATOR_OPERATORS
/* basic operators are available through separate button */
buttonGroup = sciButtons;
#else
buttonGroup = basicButtons;
#endif
/* draw buttons */
for (i = 0; i < 5; i++){
for (j = 0; j < 5; j++){
rb->lcd_getstringsize( buttonChar[buttonGroup][i][j],&w,&h);
rb->lcd_putsxy( X_0_POS + j*REC_WIDTH + (REC_WIDTH - w)/2,
TEXT_2_POS + i*REC_HEIGHT,
buttonChar[buttonGroup][i][j] );
}
}
/* initially, invert button "5" */
m = 2;
n = 1;
prev_m = m;
prev_n = n;
rb->lcd_set_drawmode(DRMODE_COMPLEMENT);
rb->lcd_fillrect( X_0_POS + n*REC_WIDTH + 1,
Y_1_POS + m*REC_HEIGHT + 1,
REC_WIDTH - 1, REC_HEIGHT - 1);
rb->lcd_set_drawmode(DRMODE_SOLID);
rb->lcd_update();
/* initial mem and output display*/
clearMem();
printResult();
/* clear button queue */
rb->button_clear_queue();
}
/* -----------------------------------------------------------------------
mySqrt uses Heron's algorithm, which is the Newtone-Raphson algorhitm
in it's private case for sqrt.
Thanks BlueChip for his intro text and Dave Straayer for the actual name.
----------------------------------------------------------------------- */
double mySqrt(double square)
{
int k = 0;
double temp = 0;
double root= ABS(square+1)/2;
while( ABS(root - temp) > MINIMUM ){
temp = root;
root = (square/temp + temp)/2;
k++;
if (k>10000) return 0;
}
return root;
}
/* -----------------------------------------------------------------------
transcendFunc uses CORDIC (COordinate Rotation DIgital Computer) method
transcendFunc can do sin,cos,log,exp
input parameter is angle
----------------------------------------------------------------------- */
void transcendFunc(char* func, double* tt, int* ttPower)
{
double t = (*tt)*PI/180; int tPower = *ttPower;
int sign = 1;
int n = 50; /* n <=50, tables are all <= 50 */
int j;
double x,y,z,xt,yt,zt;
if (tPower < -998) {
calStatus = cal_normal;
return;
}
if (tPower > 8) {
calStatus = cal_error;
return;
}
*ttPower = 0;
calStatus = cal_normal;
if( func[0] =='s' || func[0] =='S')
sign = SIGN(t);
else {
/* if( func[0] =='c' || func[0] =='C') */
sign = 1;
}
t = ABS(t);
while (tPower > 0){
t *= 10;
tPower--;
}
while (tPower < 0) {
t /= 10;
tPower++;
}
j = 0;
while (t > j*2*PI) {j++;}
t -= (j-1)*2*PI;
if (PI/2 < t && t < 3*PI/2){
t = PI - t;
if (func[0] =='c' || func[0] =='C')
sign = -1;
}
else if ( 3*PI/2 <= t && t <= 2*PI)
t -= 2*PI;
x = 0.60725293500888; y = 0; z = t;
for (j=1;j<n+2;j++){
xt = x - SIGN(z) * y*cordicTable[j-1][0];
yt = y + SIGN(z) * x*cordicTable[j-1][0];
zt = z - SIGN(z) * cordicTable[j-1][1];
x = xt;
y=yt;
z=zt;
}
if( func[0] =='s' || func[0] =='S') {
*tt = sign*y;
return;
}
else /* if( func[0] =='c' || func[0] =='C')*/ {
*tt = sign*x;
return;
}
}
/* -----------------------------------------------------------------------
add in scientific number format
----------------------------------------------------------------------- */
void doAdd (double* operandOne, int* powerOne,
double operandTwo, int powerTwo)
{
if ( *powerOne >= powerTwo ){
if (*powerOne - powerTwo <= DIGITLEN+1){
while (powerTwo < *powerOne){
operandTwo /=10;
powerTwo++;
}
*operandOne += operandTwo;
}
/*do nothing if operandTwo is too small*/
}
else{
if (powerTwo - *powerOne <= DIGITLEN+1){
while(powerTwo > *powerOne){
*operandOne /=10;
(*powerOne)++;
}
(*operandOne) += operandTwo;
}
else{/* simply copy operandTwo if operandOne is too small */
*operandOne = operandTwo;
*powerOne = powerTwo;
}
}
}
/* -----------------------------------------------------------------------
multiple in scientific number format
----------------------------------------------------------------------- */
void doMultiple(double* operandOne, int* powerOne,
double operandTwo, int powerTwo)
{
(*operandOne) *= operandTwo;
(*powerOne) += powerTwo;
}
/* -----------------------------------------------------------------------
Handles all one operand calculations
----------------------------------------------------------------------- */
void oneOperand(void)
{
int k = 0;
if (buttonGroup == basicButtons){
switch(CAL_BUTTON){
case btn_sqr:
if (result<0)
calStatus = cal_error;
else{
if (power%2 == 1){
result = (mySqrt(result*10))/10;
power = (power+1) / 2;
}
else{
result = mySqrt(result);
power = power / 2;
}
calStatus = cal_normal;
}
break;
case btn_square:
power *= 2;
result *= result;
calStatus = cal_normal;
break;
case btn_rec:
if (result==0)
calStatus = cal_error;
else{
power = -power;
result = 1/result;
calStatus = cal_normal;
}
break;
default:
calStatus = cal_toDo;
break; /* just for the safety */
}
}
else{ /* sciButtons */
switch(CAL_BUTTON){
case sci_sin:
transcendFunc("sin", &result, &power);
break;
case sci_cos:
transcendFunc("cos", &result, &power);
break;
case sci_fac:
if (power<0 || power>8 || result<0 )
calStatus = cal_error;
else if(result == 0) {
result = 1;
power = 0;
}
else{
while(power > 0) {
result *= 10;
power--;
}
if ( ( result - (int)result) > MINIMUM )
calStatus = cal_error;
else {
k = result; result = 1;
while (k > 1){
doMultiple(&result, &power, k, 0);
formatResult();
k--;
}
calStatus = cal_normal;
}
}
break;
default:
calStatus = cal_toDo;
break; /* just for the safety */
}
}
}
/* -----------------------------------------------------------------------
Handles all two operands calculations
----------------------------------------------------------------------- */
void twoOperands(void)
{
switch(oper){
case '-':
doAdd(&operand, &operandPower, -result, power);
break;
case '+':
doAdd(&operand, &operandPower, result, power);
break;
case '*':
doMultiple(&operand, &operandPower, result, power);
break;
case '/':
if ( ABS(result) > MINIMUM ){
doMultiple(&operand, &operandPower, 1/result, -power);
}
else
calStatus = cal_error;
break;
default: /* ' ' */
switchOperands(); /* counter switchOperands() below */
break;
} /* switch(oper) */
switchOperands();
clearOper();
}
/* -----------------------------------------------------------------------
move button index
Invert display new button, invert back previous button
----------------------------------------------------------------------- */
void moveButton(void){
switch(btn){
case BUTTON_LEFT:
case BUTTON_LEFT | BUTTON_REPEAT:
if (n == 0)
n = 4;
else
n--;
break;
case BUTTON_RIGHT:
case BUTTON_RIGHT | BUTTON_REPEAT:
if (n == 4)
n = 0;
else
n++;
break;
case CALCULATOR_UP:
case CALCULATOR_UP | BUTTON_REPEAT:
if (m == 0)
m = 4;
else
m--;
break;
case CALCULATOR_DOWN:
case CALCULATOR_DOWN | BUTTON_REPEAT:
if (m == 4)
m = 0;
else
m++;
break;
}
rb->lcd_set_drawmode(DRMODE_COMPLEMENT);
rb->lcd_fillrect( X_0_POS + prev_n*REC_WIDTH + 1,
Y_1_POS + prev_m*REC_HEIGHT + 1,
REC_WIDTH - 1, REC_HEIGHT - 1);
rb->lcd_fillrect( X_0_POS + n*REC_WIDTH + 1,
Y_1_POS + m*REC_HEIGHT + 1,
REC_WIDTH - 1, REC_HEIGHT - 1);
rb->lcd_set_drawmode(DRMODE_SOLID);
rb->lcd_update_rect( X_0_POS + prev_n*REC_WIDTH + 1,
Y_1_POS + prev_m*REC_HEIGHT + 1,
REC_WIDTH - 1, REC_HEIGHT - 1);
rb->lcd_update_rect( X_0_POS + n*REC_WIDTH + 1,
Y_1_POS + m*REC_HEIGHT + 1,
REC_WIDTH - 1, REC_HEIGHT - 1);
prev_m = m;
prev_n = n;
}
/* -----------------------------------------------------------------------
Print buttons when switching 1st and 2nd
int group = {basicButtons, sciButtons}
----------------------------------------------------------------------- */
void printButtonGroups(int group)
{
int i,j,w,h;
for (i = 0; i < 5; i++){
for (j = 3; j <= 4; j++){
rb->lcd_getstringsize( buttonChar[group][i][j],&w,&h);
rb->lcd_set_drawmode(DRMODE_SOLID|DRMODE_INVERSEVID);
rb->lcd_fillrect( X_0_POS + j*REC_WIDTH + 1,
Y_1_POS + i*REC_HEIGHT + 1,
REC_WIDTH - 1, REC_HEIGHT - 1);
rb->lcd_set_drawmode(DRMODE_SOLID);
rb->lcd_putsxy( X_0_POS + j*REC_WIDTH + (REC_WIDTH - w)/2,
TEXT_2_POS + i*REC_HEIGHT,
buttonChar[group][i][j] );
}
}
for (i = 0; i <= 0; i++){
for (j = 0; j <= 2; j++){
rb->lcd_getstringsize( buttonChar[group][i][j],&w,&h);
rb->lcd_set_drawmode(DRMODE_SOLID|DRMODE_INVERSEVID);
rb->lcd_fillrect( X_0_POS + j*REC_WIDTH + 1,
Y_1_POS + i*REC_HEIGHT + 1,
REC_WIDTH - 1, REC_HEIGHT - 1);
rb->lcd_set_drawmode(DRMODE_SOLID);
rb->lcd_putsxy( X_0_POS + j*REC_WIDTH + (REC_WIDTH - w)/2,
TEXT_2_POS + i*REC_HEIGHT,
buttonChar[group][i][j] );
}
}
rb->lcd_set_drawmode(DRMODE_COMPLEMENT);
rb->lcd_fillrect( X_0_POS + 2*REC_WIDTH + 1,
Y_1_POS + 0*REC_HEIGHT + 1,
REC_WIDTH - 1, REC_HEIGHT - 1);
rb->lcd_set_drawmode(DRMODE_SOLID);
rb->lcd_update_rect( X_0_POS, Y_1_POS,
REC_WIDTH*5, REC_HEIGHT*5);
}
/* -----------------------------------------------------------------------
flash the button pressed
----------------------------------------------------------------------- */
void flashButton(int b)
{
int i = b/5; int j = b - i*5;
int k;
rb->lcd_set_drawmode(DRMODE_COMPLEMENT);
for (k=1*2;k>0;k--){
rb->lcd_fillrect( X_0_POS + j*REC_WIDTH + 1,
Y_1_POS + i*REC_HEIGHT + 1,
REC_WIDTH - 1, REC_HEIGHT - 1);
rb->lcd_update_rect( X_0_POS + j*REC_WIDTH + 1,
Y_1_POS + i*REC_HEIGHT + 1,
REC_WIDTH - 1, REC_HEIGHT - 1);
if (k!= 1)
rb->sleep(HZ/22);
}
rb->lcd_set_drawmode(DRMODE_SOLID);
}
/* -----------------------------------------------------------------------
pos is the position that needs animation. pos = [1~18]
----------------------------------------------------------------------- */
void deleteAnimation(int pos)
{
int k;
if (pos<1 || pos >18)
return;
pos--;
rb->lcd_fillrect(1+pos*6, TEXT_1_POS, 6, 8);
rb->lcd_update_rect(1+pos*6, TEXT_1_POS, 6, 8);
for (k=1;k<=4;k++){
rb->sleep(HZ/32);
rb->lcd_set_drawmode(DRMODE_SOLID|DRMODE_INVERSEVID);
rb->lcd_fillrect(1+pos*6, TEXT_1_POS, 6, 8);
rb->lcd_set_drawmode(DRMODE_SOLID);
rb->lcd_fillrect(1+pos*6+1+k, TEXT_1_POS+k,
(5-2*k)>0?(5-2*k):1, (7-2*k)>0?(7-2*k):1 );
rb->lcd_update_rect(1+pos*6, TEXT_1_POS, 6, 8);
}
}
/* -----------------------------------------------------------------------
result may be one of these formats:
0
xxxx.xxxx
0.xxxx
0.0000xxxx
formatResult() change result to standard format: 0.xxxx
if result is close to 0, let it be 0;
if result is close to 1, let it be 0.1 and power++;
----------------------------------------------------------------------- */
void formatResult(void)
{
int resultsign = SIGN(result);
result = ABS(result);
if(result > MINIMUM ){ /* doesn't check power, might have problem
input wouldn't,
+ - * / of two formatted number wouldn't.
only a calculation that makes a formatted
number (0.xxxx) less than MINIMUM in only
one operation */
if (result<1){
while( (int)(result*10) == 0 ){
result *= 10;
power--;
modifier *= 10;
}
}
else{ /* result >= 1 */
while( (int)result != 0 ){
result /= 10;
power++;
modifier /= 10;
}
} /* if result<1 */
if (result > (1-MINIMUM)){
result = 0.1;
power++;
modifier /= 10;
}
result *= resultsign;
}
else {
result = 0;
power = 0;
modifier = 0.1;
}
}
/* -----------------------------------------------------------------------
result2typingbuf() outputs standard format result to typingbuf.
case SCIENTIFIC_FORMAT, let temppower = 1;
case temppower > 0: print '.' in the middle
case temppower <= 0: print '.' in the begining
----------------------------------------------------------------------- */
void result2typingbuf(void)
{
bool haveDot = false;
char tempchar = 0;
int k;
double tempresult = ABS(result); /* positive num makes things simple */
int temppower;
double tempmodifier = 1;
int count;
if(SCIENTIFIC_FORMAT)
temppower = 1; /* output x.xxxx format */
else
temppower = power;
cleartypingbuf();
if(tempresult < MINIMUM){ /* if 0,faster display and avoid complication*/
typingbuf[0] = ' ';
typingbuf[1] = '0';
}
else{ /* tempresult > 0 */
typingbuf[0] = (SIGN(result)<0)?'-':' ';
typingbufPointer = typingbuf;
if(temppower > 0){
for (k = 0; k<DIGITLEN+1 ; k++){
typingbufPointer++;
if(temppower || *(typingbufPointer-1) == '.'){
count = 0;
tempmodifier = tempmodifier/10;
while( (tempresult-tempmodifier*count) >
(tempmodifier-MINIMUM)){
count++;
}
tempresult -= tempmodifier*count;
tempresult = ABS(tempresult);
temppower-- ;
*typingbufPointer = count + '0';
}
else{ /* temppower == 0 */
*typingbufPointer = '.';
haveDot = true;
}
} /* for */
}
else{
haveDot = true;
typingbufPointer++; *typingbufPointer = '0';
typingbufPointer++; *typingbufPointer = '.';
for (k = 2; k<DIGITLEN+1 ; k++){
typingbufPointer++;
count = 0;
if ( (-temppower) < (k-1)){
tempmodifier = tempmodifier/10;
while((tempresult-tempmodifier*count)>(tempmodifier-MINIMUM)){
count++;
}
tempresult -= tempmodifier*count;
tempresult = ABS(tempresult);
temppower-- ;
}
*typingbufPointer = count + '0';
}
}
/* now, typingbufPointer = typingbuf + 16 */
/* backward strip off 0 and '.' */
if (haveDot){
while( (*typingbufPointer == '0') || (*typingbufPointer == '.')){
tempchar = *typingbufPointer;
*typingbufPointer = 0;
typingbufPointer--;
if (tempchar == '.') break;
}
}
typingbuf[DIGITLEN+1] = 0;
} /* else tempresult > 0 */
}
/* -----------------------------------------------------------------------
printResult() generates LCD display.
----------------------------------------------------------------------- */
void printResult(void)
{
int k;
switch_Status:
switch(calStatus){
case cal_exit:
rb->lcd_clear_display();
rb->splash(HZ/3, true, "Bye now!");
break;
case cal_error:
clearbuf();
rb->snprintf(buf, 19, "%18s","Error");
break;
case cal_toDo:
clearbuf();
rb->snprintf(buf, 19, "%18s","Coming soon ^_* ");
break;
case cal_normal:
formatResult();
if( power > 1000 ){ /* power -1 > 999 */
calStatus = cal_error;
goto switch_Status;
}
if (power < -998 ) /* power -1 < -999 */
clearResult(); /* too small, let it be 0 */
result2typingbuf();
clearbuf();
buf[0] = oper;
buf[1] = ( ABS(memTemp) > MINIMUM )?'M':' ';
buf[2] = ' ';
if(SCIENTIFIC_FORMAT){
/* output format: X.XXXX eXXX */
if(power > -98){ /* power-1 >= -99, eXXX or e-XX */
rb->snprintf(buf+3, 12, "%11s",typingbuf);
for(k=14;k<=17;k++) buf[k] = ' ';
cleartypingbuf();
rb->snprintf(typingbuf, 5, "e%d",power-1);
rb->snprintf(buf+14, 5, "%4s",typingbuf);
}
else{ /* power-1 <= -100, e-XXX */
rb->snprintf(buf+2, 12, "%11s",typingbuf);
rb->snprintf(buf+13, 6, "e%d",power-1);
}
}
else{
rb->snprintf(buf+7, 12, "%11s",typingbuf);
} /* if SCIENTIFIC_FORMAT */
break;
case cal_typing:
case cal_dotted:
clearbuf();
buf[0] = oper;
buf[1] = ( ABS(memTemp) > MINIMUM )?'M':' ';
for(k=2;k<=6;k++)
buf[k] = ' ';
rb->snprintf(buf+7, 12, "%11s",typingbuf);
break;
}
rb->lcd_putsxy(1, TEXT_1_POS,buf);
rb->lcd_update_rect(1, TEXT_1_POS, 6*18, 8);
}
/* -----------------------------------------------------------------------
Process typing buttons: 1-9, '.', sign
main operand "result" and typingbuf are processed seperately here.
----------------------------------------------------------------------- */
void typingProcess(void){
switch( CAL_BUTTON ){
case btn_sign:
if (calStatus == cal_typing ||
calStatus == cal_dotted)
typingbuf[0] = (typingbuf[0]=='-')?' ':'-';
result = -result;
break;
case btn_dot:
operInputted = false;
switch(calStatus){
case cal_normal:
clearInput();
*typingbufPointer = '0';
typingbufPointer++;
case cal_typing:
calStatus = cal_dotted;
*typingbufPointer = '.';
if (typingbufPointer != typingbuf+DIGITLEN+1)
typingbufPointer++;
break;
default: /* cal_dotted */
break;
}
break;
default: /* 0-9 */
operInputted = false;
/* normal,0; normal,1-9; typing,0; typing,1-9 */
switch(calStatus){
case cal_normal:
if(CAL_BUTTON == btn_0 )
break; /* first input is 0, ignore */
clearInput();
/*no operator means start a new calculation*/
if (oper ==' ')
clearOperand();
calStatus = cal_typing;
/* go on typing, no break */
case cal_typing:
case cal_dotted:
switch(CAL_BUTTON){
case btn_0:
*typingbufPointer = '0';
break;
default:
*typingbufPointer=(7+n-3*(m-1))+ '0';
break;
}
if (typingbufPointer!=typingbuf+DIGITLEN+1){
typingbufPointer++;
{/* result processing */
if (calStatus == cal_typing) power++;
if (CAL_BUTTON != btn_0)
result= result +
SIGN(result)*
(7+n-3*(m-1))*modifier;
modifier /= 10;
}
}
else /* last byte always '\0' */
*typingbufPointer = 0;
break;
default: /* cal_error, cal_exit */
break;
}
break; /* default, 0-9 */
} /* switch( CAL_BUTTON ) */
}
/* -----------------------------------------------------------------------
Handle delete operation
main operand "result" and typingbuf are processed seperately here.
----------------------------------------------------------------------- */
void doDelete(void){
deleteAnimation(18);
switch(calStatus){
case cal_dotted:
if (*(typingbufPointer-1) == '.'){
/* if dotted and deleting '.',
change status and delete '.' below */
calStatus = cal_typing;
}
else{ /* if dotted and not deleting '.',
power stays */
power++; /* counter "power--;" below */
}
case cal_typing:
typingbufPointer--;
{/* result processing */ /* 0-9, '.' */
/* if deleting '.', do nothing */
if ( *typingbufPointer != '.'){
power--;
modifier *= 10;
result = result - SIGN(result)*
((*typingbufPointer)- '0')*modifier;
}
}
*typingbufPointer = 0;
/* if (only one digit left and it's 0)
or no digit left, change status*/
if ( typingbufPointer == typingbuf+1 ||
( typingbufPointer == typingbuf+2 &&
*(typingbufPointer-1) == '0' ))
calStatus = cal_normal;
break;
default: /* normal, error, exit */
break;
}
}
/* -----------------------------------------------------------------------
Handle buttons on basic screen
----------------------------------------------------------------------- */
void basicButtonsProcess(void){
switch (btn) {
case CALCULATOR_INPUT:
if (calStatus == cal_error && (CAL_BUTTON != btn_C) ) break;
flashButton(CAL_BUTTON);
switch( CAL_BUTTON ){
case btn_MR:
operInputted = false;
result = memTemp; power = memTempPower;
calStatus = cal_normal;
break;
case btn_M:
formatResult();
if (memTemp > MINIMUM)
doAdd(&memTemp, &memTempPower, result, power);
else {
/* if result is too small and memTemp = 0,
doAdd will not add */
memTemp = result;
memTempPower = power;
}
calStatus = cal_normal;
break;
case btn_C: clearMem(); break;
case btn_CE: clearInput(); break;
case btn_bas:
buttonGroup = sciButtons;
printButtonGroups(buttonGroup);
break;
/* one operand calculation, may be changed to
like sin, cos, log, etc */
case btn_sqr:
case btn_square:
case btn_rec:
formatResult(); /* not necessary, just for safty */
oneOperand();
break;
case_btn_equal: /* F3 shortkey entrance */
case btn_equal:
formatResult();
calStatus = cal_normal;
operInputted = false;
if (oper != ' ') twoOperands();
break;
case btn_div:
case btn_time:
case btn_minus:
case btn_add:
if(!operInputted) {twoOperands(); operInputted = true;}
oper = buttonChar[basicButtons][m][n][0];
#ifdef CALCULATOR_OPERATORS
case_cycle_operators: /* F2 shortkey entrance */
#endif
calStatus = cal_normal;
formatResult();
operand = result;
operandPower = power;
break;
case btn_sign:
case btn_dot:
default: /* 0-9 */
typingProcess();
break;
} /* switch (CAL_BUTTON) */
break;
#ifdef CALCULATOR_OPERATORS
case CALCULATOR_OPERATORS:
if (calStatus == cal_error) break;
if (!operInputted) {twoOperands(); operInputted = true;}
switch (oper){
case ' ':
case '/': oper = '+'; flashButton(btn_add); break;
case '+': oper = '-'; flashButton(btn_minus); break;
case '-': oper = '*'; flashButton(btn_time); break;
case '*': oper = '/'; flashButton(btn_div); break;
}
goto case_cycle_operators;
break;
#endif
case CALCULATOR_CALC:
if (calStatus == cal_error) break;
flashButton(btn_equal);
goto case_btn_equal;
break;
default: break;
}
printResult();
}
/* -----------------------------------------------------------------------
Handle buttons on scientific screen
----------------------------------------------------------------------- */
void sciButtonsProcess(void){
switch (btn) {
case CALCULATOR_INPUT:
if (calStatus == cal_error && (CAL_BUTTON != sci_sci) ) break;
flashButton(CAL_BUTTON);
switch( CAL_BUTTON ){
case sci_pi:
result = PI; power = 0;
calStatus = cal_normal;
break;
case sci_xy: break;
case sci_sci:
buttonGroup = basicButtons;
printButtonGroups(basicButtons);
break;
case sci_fac:
case sci_sin:
case sci_asin:
case sci_cos:
case sci_acos:
case sci_tan:
case sci_atan:
case sci_ln:
case sci_exp:
case sci_log:
formatResult(); /* not necessary, just for safty */
oneOperand();
break;
case btn_sign:
case btn_dot:
default: /* 0-9 */
typingProcess();
break;
} /* switch (CAL_BUTTON) */
break;
#ifdef CALCULATOR_OPERATORS
case CALCULATOR_OPERATORS:
if (calStatus == cal_error) break;
if (!operInputted) {twoOperands(); operInputted = true;}
switch (oper){
case ' ': oper = '+'; break;
case '/': oper = '+'; deleteAnimation(1); break;
case '+': oper = '-'; deleteAnimation(1); break;
case '-': oper = '*'; deleteAnimation(1); break;
case '*': oper = '/'; deleteAnimation(1); break;
}
calStatus = cal_normal;
formatResult();
operand = result;
operandPower = power;
break;
#endif
case CALCULATOR_CALC:
if (calStatus == cal_error) break;
formatResult();
calStatus = cal_normal;
operInputted = false;
if (oper != ' ') twoOperands();
break;
default: break;
}
printResult();
}
/* -----------------------------------------------------------------------
Main();
----------------------------------------------------------------------- */
enum plugin_status plugin_start(struct plugin_api* api, void* parameter)
{
(void)parameter;
rb = api;
/* now go ahead and have fun! */
cal_initial();
while (calStatus != cal_exit ) {
btn = rb->button_get_w_tmo(HZ/2);
switch (btn) {
case CALCULATOR_INPUT:
case CALCULATOR_CALC:
#ifdef CALCULATOR_INPUT_CALC_PRE
if (lastbtn != CALCULATOR_INPUT_CALC_PRE)
break;
/* no unconditional break; here! */
#endif
#ifdef CALCULATOR_OPERATORS
case CALCULATOR_OPERATORS:
#endif
switch(buttonGroup){
case basicButtons:
basicButtonsProcess();
break;
case sciButtons:
sciButtonsProcess();
break;
}
break;
#ifdef CALCULATOR_CLEAR
case CALCULATOR_CLEAR:
switch(calStatus){
case cal_typing:
case cal_dotted:
doDelete();
break;
default: /* cal_normal, cal_error, cal_exit */
clearMem();
break;
}
printResult();
break;
#endif
case BUTTON_LEFT:
case BUTTON_LEFT | BUTTON_REPEAT:
case BUTTON_RIGHT:
case BUTTON_RIGHT | BUTTON_REPEAT:
case CALCULATOR_UP:
case CALCULATOR_UP | BUTTON_REPEAT:
case CALCULATOR_DOWN:
case CALCULATOR_DOWN | BUTTON_REPEAT:
moveButton();
break;
case CALCULATOR_QUIT:
calStatus = cal_exit;
printResult();
break;
default:
if(rb->default_event_handler(btn) == SYS_USB_CONNECTED)
return PLUGIN_USB_CONNECTED;
break;
} /* switch (btn) */
if (btn != BUTTON_NONE)
lastbtn = btn;
} /* while (calStatus != cal_exit ) */
/* rb->splash(HZ*2, true, "Hello world!"); */
rb->button_clear_queue();
return PLUGIN_OK;
}
#endif /* #ifdef HAVE_LCD_BITMAP */
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