mirror of
https://git.planet-casio.com/Lephenixnoir/gint.git
synced 2024-12-29 13:03:36 +01:00
268 lines
5 KiB
C
268 lines
5 KiB
C
#include "gintdemo.h"
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#include <stddef.h>
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#include <stdio.h>
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#include <string.h>
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#include <internals/timer.h>
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#include <timer.h>
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#include <display.h>
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#include <keyboard.h>
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#include <clock.h>
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#include <mpu.h>
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#include <rtc.h>
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static void draw(int new_tab);
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static struct ClockConfig conf;
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//---
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// Timer-RTC comparison.
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// The precision of the timer is measured by comparing it to the RTC.
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//---
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static volatile int elapsed_timer = -1;
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static volatile int elapsed_rtc = -1;
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static int cb_id = -1;
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static void timing_rtc(void)
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{
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elapsed_rtc++;
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}
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static void timing_timer(void)
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{
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elapsed_timer++;
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}
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static void timing_start(void)
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{
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timer_start(TIMER_USER, 64, Clock_Hz, timing_timer, 0);
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rtc_cb_edit(cb_id, RTCFreq_64Hz, timing_rtc);
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elapsed_timer = 0;
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elapsed_rtc = 0;
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}
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//---
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// Drawing.
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//---
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/*
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small_text()
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Renders small text using a minimalist bitmap-based font.
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*/
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static void small_text(int x, int y, const char *text, int alignment)
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{
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extern Image res_clock_chars;
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Image *chars = &res_clock_chars;
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const char *table = "0123456789kMHz*/";
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if(alignment) x -= 2 * strlen(text) - 1, y -= 2;
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int c;
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while(*text)
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{
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const char *ptr = strchr(table, *text++);
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if(!ptr) continue;
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c = ptr - table;
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dimage_part(x, y, chars, c << 2, 0, 3, 5);
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x += 4;
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}
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}
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/*
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getFreq()
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Prints the given frequency in a string on the form:
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332kHz
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There are 1, 2 or 3 characters for the value, and 2 or 3
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characters for the unit. The string is compacted.
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*/
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void getFreq(char *str, int freq)
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{
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if(freq < 1000) sprintf(str, "%dHz", freq);
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else if(freq < 1000000) sprintf(str, "%dkHz", (freq + 500) / 1000);
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else sprintf(str, "%dMHz", (freq + 500000) / 1000000);
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}
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/*
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dislay_freq()
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Displays a frequency value a unit, in an simple form.
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*/
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static void display_freq(int x, int y, int freq)
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{
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int ratio, letter, dot, i;
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char buffer[10];
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if(freq <= 0)
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{
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dtext(x, y, "Unknown");
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return;
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}
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if(freq < 10000)
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{
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dprint(x, y, "%5d", freq);
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small_text(x + 31, y + 2, "Hz", 0);
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return;
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}
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if(freq < 10000000) ratio = 1, letter = 'k';
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else ratio = 1000, letter = 'M';
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dot = 1 + (freq >= 10000 * ratio) + (freq >= 100000 * ratio);
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freq += (ratio * (1 + 9 * (dot >= 2) + 90 * (dot >= 3))) / 2;
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snprintf(buffer, 6, "%d", freq);
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for(i = 4; i > dot; i--) buffer[i] = buffer[i - 1];
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buffer[dot] = '.';
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dprint(x, y, buffer);
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sprintf(buffer, "%cHz", letter);
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small_text(x + 31, y + 2, buffer, 0);
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}
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/*
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draw()
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Draws the test interface.
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*/
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static void draw(int tab)
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{
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extern Image res_opt_timer;
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extern Image res_clock_7705;
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extern Image res_clock_7305;
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char buffer[16];
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dclear();
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dimage(0, 56, &res_opt_timer);
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if(!tab)
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{
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locate(1, 1, "Clock frequency");
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dtext(7, 20, "B\x1e");
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display_freq(24, 20, conf.Bphi_f);
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dtext(7, 28, "I\x1e");
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display_freq(24, 28, conf.Iphi_f);
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dtext(7, 36, "P\x1e");
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display_freq(24, 36, conf.Pphi_f);
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if(isSH3())
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{
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dimage(64, 0, &res_clock_7705);
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getFreq(buffer, conf.CKIO_f);
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small_text(84, 16, buffer, 1);
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sprintf(buffer, "*%d", conf.PLL1);
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small_text(84, 34, buffer, 1);
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if(conf.Iphi_div1 == 1)
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dline(85, 43, 99, 43, Color_Black);
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else
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{
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sprintf(buffer, "/%d", conf.Iphi_div1);
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small_text(89, 41, buffer, 0);
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}
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if(conf.Pphi_div1 == 1)
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dline(85, 50, 99, 50, Color_Black);
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else
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{
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sprintf(buffer, "/%d", conf.Pphi_div1);
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small_text(89, 48, buffer, 0);
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}
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}
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else
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{
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dimage(64, 0, &res_clock_7305);
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getFreq(buffer, conf.RTCCLK_f);
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small_text(82, 13, buffer, 1);
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sprintf(buffer, "*%d", conf.FLL);
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small_text(82, 23, buffer, 1);
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sprintf(buffer, "*%d", conf.PLL);
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small_text(82, 33, buffer, 1);
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sprintf(buffer, "/%d", conf.Bphi_div1);
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small_text(87, 40, buffer, 0);
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sprintf(buffer, "/%d", conf.Iphi_div1);
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small_text(87, 47, buffer, 0);
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sprintf(buffer, "/%d", conf.Pphi_div1);
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small_text(87, 54, buffer, 0);
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}
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}
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else
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{
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int timer = elapsed_timer, rtc = elapsed_rtc; // just in case
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locate(1, 1, "Timer/RTC comparison");
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locate(2, 3, "Timer");
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if(timer >= 0) print(12, 3, "%04x", timer);
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else locate(12, 3, "...");
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locate(2, 4, "RTC");
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if(rtc >= 0) print(12, 4, "%04x", rtc);
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else locate(12, 4, "...");
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// We define the accuracy of the timer as the ratio between the
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// two counters.
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locate(2, 5, "Accuracy");
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if(rtc > 0 && timer > 0)
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{
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int ratio;
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if(timer <= rtc) ratio = (10000 * timer) / rtc;
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else ratio = (10000 * rtc) / timer;
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print(12, 5, "%d.%02d%%", ratio / 100, ratio % 100);
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}
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else locate(12, 5, "...");
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}
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dupdate();
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}
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//---
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// Timer/clock test.
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//---
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/*
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test_timer()
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Clock timer and timer precision.
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*/
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void test_timer(void)
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{
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int tab = 0;
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conf = clock_config();
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elapsed_timer = -1;
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elapsed_rtc = -1;
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cb_id = rtc_cb_add(RTCFreq_64Hz, timing_start, 0);
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text_configure(NULL, Color_Black);
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while(1)
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{
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draw(tab);
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switch(getkey_opt(Getkey_NoOption, 1))
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{
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case KEY_EXIT:
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timer_stop(TIMER_USER);
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rtc_cb_end(cb_id);
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return;
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case KEY_F1:
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tab = 0;
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break;
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case KEY_F2:
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tab = 1;
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break;
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}
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}
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}
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