upload apps by JohnXenox: Beat, PlayNote

git-svn-id: svn://kolibrios.org@7940 a494cfbc-eb01-0410-851d-a64ba20cac60
This commit is contained in:
Kirill Lipatov (Leency) 2020-05-17 20:07:05 +00:00
parent f871bfac83
commit d23d7c335a
21 changed files with 1868 additions and 0 deletions

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programs/media/Beat/Beat Normal file

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/*
* Author: JohnXenox aka Aleksandr Igorevich.
*
* Programme name: Beat
* Description: A simple metronome.
*/
#include <stdio.h>
#include <string.h>
#include <kolibrisys.h>
char header[] = "Beat 2020.05.17";
unsigned int skin_height = 0;
unsigned int key = 0;
unsigned int btn = 0;
short ctrl_keys_state = 0;
int thread_stack = 0x1000;
int stack_size = 0x100;
char startButtonBit = 0;
char tempoSelector = 0;
short tempo = 100; // Beats Per Minute.
char meter = 4; // 4/4
char accentBeatFlags[12] = {0};
char counter = 1;
counterIndicatorFlag = 0;
//Event mask bits for function 40.
enum EVENT_MASKS
{
EVM_REDRAW = 0x00000001,
EVM_KEY = 0x00000002,
EVM_BUTTON = 0x00000004,
EVM_EXIT = 0x00000008,
EVM_BACKGROUND = 0x00000016,
EVM_MOUSE = 0x00000032,
EVM_IPC = 0x00000064,
EVM_STACK = 0x00000128,
EVM_DEBUG = 0x00000256,
EVM_STACK2 = 0x00000512,
EVM_MOUSE_FILTER = 0x80000000,
EVM_CURSOR_FILTER = 0x40000000
};
enum EVENTS
{
EVENT_REDRAW = 1, /* Window and window elements should be redrawn */
EVENT_KEY = 2, /* A key on the keyboard was pressed */
EVENT_BUTTON = 3, /* A button was clicked with the mouse */
EVENT_MOUSE = 6 /* Mouse activity (movement, button press) was detected */
};
struct system_colors
{
int frame; // color of frame.
int grab; // color of header.
int grab_button; // color of button on header bar.
int grab_button_text; // color of text on button on header bar.
int grab_text; // color of text on header.
int work; // color of working area.
int work_button; // color of button in working area.
int work_button_text; // color of text on button in working area.
int work_text; // color of text in working area.
int work_graph; // color of graphics in working area.
};
struct system_colors sc;
#include "Beat_lang.h"
#include "Beat_lib.h"
#define KEY_ARROW_UP 0xB2
#define KEY_ARROW_DOWN 0xB1
#define KEY_ARROW_LEFT 0xB0
#define KEY_ARROW_RIGHT 0xB3
#define KEYS_CTRL_ARROW_UP 0x52
#define KEYS_CTRL_ARROW_DOWN 0x51
#define KEYS_CTRL_ARROW_LEFT 0x50
#define KEYS_CTRL_ARROW_RIGHT 0x53
#define KEY_SPACE 0x20
#define KEY_ESCAPE 0x1B
#define KEY_SLASH 0x2F
char redraw_flag = 0;
#define SMPL_NAME1 "Beep1.raw"
#define SMPL_NAME2 "Beep2.raw"
#define PRG_NAME "PlayNote"
char _path_to_a_sample1[4096] = {0};
char _path_to_a_sample2[4096] = {0};
char _path_to_a_playnote[4096] = {0};
#define SEARCH_PATHES_NUMBER 3
unsigned char* search_pathes_to_a_playnote[] = {
_path_to_a_playnote,
"/sys/"PRG_NAME,
"/sys/Media/"PRG_NAME,
};
char *path_to_a_playnote = 0;
int main(int argc, char** argv)
{
setCurrentPathToARawFile(_path_to_a_sample1, argv[0], SMPL_NAME1);
setCurrentPathToARawFile(_path_to_a_sample2, argv[0], SMPL_NAME2);
setCurrentPathToARawFile(_path_to_a_playnote, argv[0], PRG_NAME);
// searches for a PlayNote programme.
for(char i = 0; (i < SEARCH_PATHES_NUMBER); i++)
{
if(startApp("/sys/loool.raw", 0, search_pathes_to_a_playnote[i]) > 0)
{
path_to_a_playnote = search_pathes_to_a_playnote[i];
}
}
if(path_to_a_playnote == 0)
{
#if defined (lang_en)
startApp("\"Can't find a PlayNote programme!\" -W", 0, "/sys/@notify");
#elif defined (lang_ru)
startApp("\"<EFBFBD>¥ ¬®£ã ­ ©â¨ ¯à®£à ¬¬ã PlayNote!\" -W", 0, "/sys/@notify");
#endif
return 1;
}
_ksys_set_wanted_events(EVM_REDRAW | EVM_KEY | EVM_BUTTON | EVM_MOUSE_FILTER);
drawWindow();
for (;;)
{
if(startButtonBit == 1)
{
if(redraw_flag == 0)
{
//if(counter == 0) counter++;
if(counter < meter)
counter++;
else if(counter == meter)
counter = 1;
if(accentBeatFlags[counter - 1] == 0)
{
// play a beep sound.
startApp(_path_to_a_sample2, 0, path_to_a_playnote);
}
else
{
// play a beep sound.
startApp(_path_to_a_sample1, 0, path_to_a_playnote);
}
showCounterIndicator();
// makeDelay(7);
}
else
{
redraw_flag = 0;
}
}
switch(_ksys_wait_for_event(6000 / (tempo)))
{
case EVENT_REDRAW:
redraw_flag = 1;
drawWindow();
break;
case EVENT_KEY:
ctrl_keys_state = getControlKeysOnAKeyboard();
// key pressed, read it and ignore
key = _ksys_get_key();
key = ((key >> 8) & 0x000000FF);
//printfOnADebugBoard("ctrl_keys_state: %d\n", ctrl_keys_state);
// makes exit.
if(key == KEY_ESCAPE) return 0;
// starts beats.
if(key == KEY_SPACE)
{
if(startButtonBit == 0)
startButtonBit = 1;
else
startButtonBit = 0;
showStartButton();
}
// decreases tempo.
if(key == KEY_ARROW_LEFT)
{
if(tempo != 1)
{
showTempoBar2(--tempo);
setTempoSelectorByTempo(&tempo, &tempoSelector);
}
}
// increases tempo.
if(key == KEY_ARROW_RIGHT)
{
if(tempo != 320)
{
showTempoBar2(++tempo);
setTempoSelectorByTempo(&tempo, &tempoSelector);
}
}
// decreases a tempo selector.
if(key == KEYS_CTRL_ARROW_LEFT)
{
if ((ctrl_keys_state == 4) || (ctrl_keys_state == 8))
{
if(tempoSelector != 0)
{
showTempoBar1(--tempoSelector);
setTempoByTempoSelector(&tempo, tempoSelector);
showTempoBar2(tempo);
}
}
}
// increases a tempo selector.
if(key == KEYS_CTRL_ARROW_RIGHT)
{
if ((ctrl_keys_state == 4) || (ctrl_keys_state == 8))
{
if(tempoSelector != 9)
{
showTempoBar1(++tempoSelector);
setTempoByTempoSelector(&tempo, tempoSelector);
showTempoBar2(tempo);
}
}
}
if(key == 0x2C)
{
if(meter > 1)
{
showMeterBar(--meter);
showMeterIndicator();
}
}
if(key == 0x2E)
{
if(meter < 12)
{
showMeterBar(++meter);
showMeterIndicator();
}
}
for(unsigned char i = 0; i < 9; i++)
{
if(key == (0x31 + i))
{
if(accentBeatFlags[i] == 0)
{
accentBeatFlags[i] = 1;
}
else if (accentBeatFlags[i] != 0)
{
accentBeatFlags[i] = 0;
}
showMeterIndicator();
}
}
if(key == 0x30)
{
if(accentBeatFlags[9] == 0)
accentBeatFlags[9] = 1;
else if (accentBeatFlags[9] != 0)
accentBeatFlags[9] = 0;
showMeterIndicator();
}
if(key == 0x2D)
{
if(accentBeatFlags[10] == 0)
accentBeatFlags[10] = 1;
else if (accentBeatFlags[10] != 0)
accentBeatFlags[10] = 0;
showMeterIndicator();
}
if(key == 0x3D)
{
if(accentBeatFlags[11] == 0)
accentBeatFlags[11] = 1;
else if (accentBeatFlags[11] != 0)
accentBeatFlags[11] = 0;
showMeterIndicator();
}
// invertation of colours.
if(key == KEY_SLASH)
{
if(counterIndicatorFlag != 0)
counterIndicatorFlag = 0;
else if (counterIndicatorFlag == 0)
counterIndicatorFlag = 1;
showCounterIndicator();
}
break;
case EVENT_BUTTON:
// button pressed; we have only one button, close
btn = _ksys_get_button_id();
if(btn == 1) return 0;
if(btn == 7)
{
if(startButtonBit == 0)
startButtonBit = 1;
else
startButtonBit = 0;
showStartButton();
}
// decreases a tempo selector.
if(btn == 10)
{
if(tempoSelector != 0)
{
showTempoBar1(--tempoSelector);
setTempoByTempoSelector(&tempo, tempoSelector);
showTempoBar2(tempo);
}
}
// increases a tempo selector.
if(btn == 11)
{
if(tempoSelector != 9)
{
showTempoBar1(++tempoSelector);
setTempoByTempoSelector(&tempo, tempoSelector);
showTempoBar2(tempo);
}
}
// decreases tempo.
if(btn == 12)
{
if(tempo != 1)
{
showTempoBar2(--tempo);
setTempoSelectorByTempo(&tempo, &tempoSelector);
}
}
// increases tempo.
if(btn == 13)
{
if(tempo < 320)
{
showTempoBar2(++tempo);
setTempoSelectorByTempo(&tempo, &tempoSelector);
}
}
if(btn == 14)
{
if(meter > 1)
{
showMeterBar(--meter);
// clreans unused flags.
for(unsigned char i = meter; i < 11; i++)
{
accentBeatFlags[i] = 0;
}
//if(meter == 1) accentBeatFlags[0] = 0;
showMeterIndicator();
}
}
if(btn == 15)
{
if(meter < 12)
{
showMeterBar(++meter);
// clreans unused flags.
for(unsigned char i = meter; i < 11; i++)
{
accentBeatFlags[i] = 0;
}
showMeterIndicator();
}
}
for(unsigned char i = 0; i < 12; i++)
{
if(btn == (100 + i))
{
//if(meter > 1)
//{
if(accentBeatFlags[i] == 0)
{
accentBeatFlags[i] = 1;
}
else if (accentBeatFlags[i] != 0)
{
accentBeatFlags[i] = 0;
}
//}
//else if(meter == 1) accentBeatFlags[i] = 0;
showMeterIndicator();
}
}
if(btn == 200)
{
if(counterIndicatorFlag != 0)
counterIndicatorFlag = 0;
else if (counterIndicatorFlag == 0)
counterIndicatorFlag = 1;
showCounterIndicator();
}
break;
}
}
}

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//#define lang_ru
#define lang_en

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/*
* Beat_lib.h
* Author: JohnXenox aka Aleksandr Igorevich.
*/
#ifndef __Beat_lib_h__
#define __Beat_lib_h__
void __attribute__ ((noinline)) printfOnADebugBoard(const char *format,...)
{
va_list ap;
char log_board[300];
va_start (ap, format);
tiny_vsnprintf(log_board, sizeof log_board, format, ap);
va_end(ap);
char *str = log_board;
while(*str) __asm__ __volatile__("int $0x40"::"a"(63), "b"(1), "c"(*str++));
}
/*
int start_new_thread(void* proc, unsigned int* stack_top)
{
register int val;
__asm__ __volatile__("int $0x40":"=a"(val):"a"(51), "b"(1), "c"(proc), "d"(stack_top));
return val;
}
*/
static inline int startApp(char *args, unsigned int enc, char *path)
{
int val;
char dt[28]; // basic information structure.
(int ) dt[0] = 7; // subfunction number.
(int ) dt[4] = 0; // flags field.
(char*) dt[8] = args; // 0 or pointer to ASCIIZ-string with parameters.
(int ) dt[12] = 0; // (reserved).
(int ) dt[16] = 0; // (reserved).
(int ) dt[20] = 1; // string encoding (0 = default, 1 = cp866, 2 = UTF-16LE, 3 = UTF-8).
(char*) dt[24] = path; // pointer to the path to the file.
__asm__ __volatile__("int $0x40":"=a"(val):"a"(80), "b"(&dt));
return val;
}
static inline void makeDelay(unsigned int time)
{
__asm__ __volatile__("int $0x40"::"a"(5), "b"(time):"memory");
}
static inline void getSystemColors(struct system_colors *color_table)
{
__asm__ volatile ("int $0x40"::"a"(48),"b"(3),"c"(color_table),"d"(40));
}
static inline short getControlKeysOnAKeyboard(void)
{
short val;
__asm__ __volatile__("int $0x40":"=a"(val):"a"(66),"b"(3));
return val;
}
static inline void showButton(int x, int y, int w, int h, unsigned int style, unsigned int id, unsigned int clr)
{
w-=1;
h-=1;
__asm__ __volatile__("int $0x40"::"a"(8),"b"((x << 16) | w),"c"((y << 16) | h),"d"((style << 24) | id),"S"(clr));
}
static inline void deleteButton(unsigned int id)
{
__asm__ __volatile__("int $0x40"::"a"(8),"d"(0x80000000 | id));
}
static inline void showNumber(int x, int y, unsigned int opt1, unsigned char opt2, unsigned int clr, unsigned int number)
{
__asm__ __volatile__("int $0x40"::"a"(47),"b"(opt1),"c"(number),"d"((x << 16) | y),"S"(clr | ((int) opt2 << 24)));
}
/*
static inline void killThreadByTID(int tid)
{
__asm__ __volatile__("int $0x40"::"a"(18), "b"(18), "c"(tid));
}
*/
static inline void showLine(int xs, int ys, int xe, int ye, unsigned int clr)
{
__asm__ __volatile__("int $0x40"::"a"(38), "d"(clr),"b"((xs << 16) | xe),"c"((ys << 16) | ye));
}
// ============================================================================ //
void showRectangle(int x, int y, int w, int h, unsigned int clr)
{
// top h line.
showLine(x + 1, y, w + x - 2, y, clr);
// bottom h line.
showLine(x + 1, y + h - 1, w + x - 2, y + h - 1, clr);
// left v line.
showLine(x, y + 1, x, h + y - 2, clr);
// right v line.
showLine(x + w - 1, y + 1, x + w - 1, h + y - 2, clr);
}
static inline void setCurrentPathToARawFile(char *dst_path, char *src_path, char* file_name)
{
unsigned offset = 0;
// cleans a dst path if not clean.
if(dst_path[offset] != 0)
{
for(; dst_path[offset] != 0; offset++) dst_path[offset] = 0;
}
// copys current path into a buffer.
strcpy(dst_path, src_path);
offset = 0;
// goes to the end of a string.
while(dst_path[offset] != 0) offset++;
// clears all bytes to a character '/'.
for(; dst_path[offset] != '/'; offset--) dst_path[offset] = 0;
// increments a variable.
offset++;
// stores a name of a file in a buffer.
strcpy(dst_path + offset, file_name);
}
static inline void showNamedButton(int x, int y, int w, int h, int style, int id, int clr, \
char font_style, int tx, int ty, unsigned int text_clr, \
unsigned int text_len, char* text)
{
// w--;
// h--;
char chr_w = 8;
char chr_h = 16;
deleteButton(id);
_ksys_make_button(x, y, (w - 1), (h - 1), (style | id), clr);
_ksys_write_text((x + ((w / 2) - ((chr_w * text_len) / 2))), (y + 1 + ((h / 2) - (chr_h / 2))), \
(((int)font_style << 24) | text_clr), text, text_len);
}
static inline void StartButton(int x, int y, int w, int h, unsigned int clr, unsigned int text_clr, unsigned char state)
{
#define BTN_ID 7
#if defined (lang_en)
char* btn_name[] = {"Start", "Stop"};
#elif defined (lang_ru)
char* btn_name[] = {"‘â àâ", "‘⮯"};
#endif
showNamedButton(x, y, w, h, 0, BTN_ID, clr, 0b00010000, 2, 2, text_clr, strlen(btn_name[state]), btn_name[state]);
if(state == 1) counter = 0;
#undef BTN_ID
}
static inline void showPlusButton(int x, int y, int w, int h, unsigned int id, unsigned int clr, unsigned int text_clr)
{
showNamedButton(x, y, w, h, 0, id, clr, 0b00010000, 2, 2, text_clr, 1, "+");
}
static inline void showMinusButton(int x, int y, int w, int h, unsigned int id, unsigned int clr, unsigned int text_clr)
{
showNamedButton(x, y, w, h, 0, id, clr, 0b00010000, 2, 2, text_clr, 1, "-");
}
//===================================================================================//
void counterIndicator(int x, int y, int w, int h, unsigned int clr1, unsigned int clr2, unsigned char flag)
{
#define BTN_ID 200
unsigned int _clr1;
unsigned int _clr2;
char chr_w = 8 * 3;
char chr_h = 16 * 3;
unsigned char text_len = 1;
deleteButton(BTN_ID);
_ksys_make_button(x, y, w - 1, h - 1, (0x40000000 | BTN_ID), clr1);
if(flag == 0)
{
_clr1 = clr1;
_clr2 = clr2;
}
if(flag != 0)
{
_clr1 = clr2;
_clr2 = clr1;
}
showRectangle(x, y, w, h, _clr2);
_ksys_draw_bar((x + 1), (y + 1), (w - 2), (h - 2), _clr1);
if(counter > 9) text_len = 2;
showNumber((x + ((w / 2) - ((chr_w * text_len) / 2))), ((y + ((h / 2) - (chr_h / 2))) - 4), 0b10000000000000110000000000000000, 0b00010011, _clr2, counter);
#undef BTN_ID
}
void meterIndicator(int x, int y, int w, int h, unsigned int clr1, unsigned int clr2, unsigned char meter, unsigned char *accentBeatFlags)
{
#define SPACE 2
#define BTN_ID 100
char chr_w = 8;
char chr_h = 16;
int text_len = 1;
unsigned int btn_clr = 0;
unsigned int num_clr = 0;
_ksys_draw_bar(10, y, w + 5, h, sc.work);
// deletes all possible buttons.
for(unsigned short i = 0; (i < 12); i++)
{
deleteButton(BTN_ID + i);
}
unsigned char num_of_spaces = 0;
unsigned short spaces_sz = 0;
unsigned int btn_x = x;
unsigned int btn_w = w;
//===========================================//
char spc = 0;
if(meter > 1)
{
spc = 1;
num_of_spaces = (meter - 1);
spaces_sz = (num_of_spaces * SPACE);
}
btn_w = ((btn_w / meter) - spc);
//===========================================//
// draws button(s).
for(unsigned short i = 0; (i < meter); i++)
{
if((i + 1) > 9) text_len = 2;
if(accentBeatFlags[i] == 0)
{
btn_clr = clr1;
num_clr = clr2;
}
else
{
btn_clr = clr2;
num_clr = clr1;
}
showButton(btn_x, y, btn_w, h, 0, (BTN_ID + i), btn_clr);
//_ksys_make_button(btn_x, y, (btn_w - 1), (h - 1), (0 | (BTN_ID + i)), btn_clr);
showNumber(((btn_x + ((btn_w / 2) - ((chr_w * text_len) / 2)))), (y + 2 + ((h / 2) - (chr_h / 2))), 0b10000000000000110000000000000000, 0b00010000, num_clr, (i + 1));
btn_x += (btn_w + SPACE);
}
#undef SPACE
#undef BTN_ID
}
void tempoBar1(int x, int y, int w, int h, unsigned int clr1, unsigned int clr2, unsigned int clr3, unsigned char sel)
{
#define BTN_ID_MINUS 10
#define BTN_ID_PLUS 11
char chr_w = 8;
char chr_h = 16;
char* text = 0;
int text_len = 0;
char* tempoIt[] = {"Larghissimo", "Grave", "Lento", "Larghetto", "Adagio", "Andante", \
"Moderato", "Allegro", "Presto", "Prestissimo"};
_ksys_draw_bar((x + 1), y, (w - 2), h, clr1);
text = tempoIt[sel];
text_len = strlen(tempoIt[sel]);
_ksys_write_text((x + ((w / 2) - ((chr_w * text_len) / 2))), (y + 0 + ((h / 2) - (chr_h / 2))), (((int)0b00010000 << 24) | clr2), text, text_len);
showMinusButton(x, y, h, h, BTN_ID_MINUS, clr3, clr2);
showPlusButton(((x + w) - h), y, h, h, BTN_ID_PLUS, clr3, clr2);
#undef BTN_ID_MINUS
#undef BTN_ID_PLUS
}
void tempoBar2(int x, int y, int w, int h, unsigned int clr1, unsigned int clr2, unsigned int clr3, unsigned short tempo)
{
#define BTN_ID_MINUS 12
#define BTN_ID_PLUS 13
char chr_w = 8;
char chr_h = 16;
int text_len = 0;
if(tempo < 10)
{
text_len = 1;
}
else if((tempo > 9) && (tempo < 100))
{
text_len = 2;
}
else if((tempo > 99) && (tempo < 321))
{
text_len = 3;
}
_ksys_draw_bar((x + 1), y, (w - 2), h, clr1);
showNumber((x + ((w / 2) - ((chr_w * text_len) / 2))), (y + ((h / 2) - (chr_h / 2))), 0b10000000000000110000000000000000, 0b00010000, clr2, tempo);
showMinusButton(x, y, h, h, BTN_ID_MINUS, clr3, clr2);
showPlusButton(((x + w) - h), y, h, h, BTN_ID_PLUS, clr3, clr2);
#undef BTN_ID_MINUS
#undef BTN_ID_PLUS
}
void meterBar(int x, int y, int w, int h, unsigned int clr1, unsigned int clr2, unsigned int clr3, unsigned char meter, unsigned int divider)
{
#define BTN_ID_MINUS 14
#define BTN_ID_PLUS 15
char chr_w = 8;
char chr_h = 16;
int text_len = 3;
if(meter > 9) text_len = 4;
_ksys_draw_bar((x + 1), y, (w - 2), h, clr1);
unsigned int num_x = ((x + ((w / 2) - ((chr_w * text_len) / 2))));
unsigned int num_y = (y + ((h / 2) - (chr_h / 2)));
showNumber(num_x, num_y, 0b10000000000000110000000000000000, 0b00010000, clr2, meter);
_ksys_write_text((num_x + (chr_w * (text_len - 2))), num_y, (((int)0b00010000 << 24) | clr2), "/", 1);
showNumber((num_x + (chr_w * (text_len - 1))), num_y, 0b10000000000000110000000000000000, 0b00010000, clr2, 4);
showMinusButton(x, y, h, h, BTN_ID_MINUS, clr3, clr2);
showPlusButton(((x + w) - h), y, h, h, BTN_ID_PLUS, clr3, clr2);
#undef BTN_ID_MINUS
#undef BTN_ID_PLUS
}
//===================================================================//
void showCounterIndicator()
{
counterIndicator(10, (skin_height + 5), 310, 60, sc.work_button, sc.work_button_text, counterIndicatorFlag);
}
void showMeterIndicator()
{
meterIndicator(10, (skin_height + 70), 310, 21, sc.work_button, sc.work_button_text, meter, accentBeatFlags);
}
void showTempoBar1(char tempoSelector)
{
tempoBar1(10, (skin_height + 96), 140, 20, sc.work_graph, sc.work_button_text, sc.work_button, tempoSelector);
}
void showTempoBar2(short tempo)
{
tempoBar2((10 + 145), (skin_height + 96), 76, 20, sc.work_graph, sc.work_button_text, sc.work_button, tempo);
}
void showMeterBar(char meter)
{
meterBar((10 + 140 + 5 + 76 + 5), (skin_height + 96), 84, 20, sc.work_graph, sc.work_button_text, sc.work_button, meter, 4);
}
void showStartButton(void)
{
StartButton(10, (skin_height + 121), 310, 25, sc.work_button, sc.work_button_text, startButtonBit);
}
//================================================================================//
void setTempoByTempoSelector(unsigned short *tempo, unsigned char tempoSelector)
{
enum tempoSelectors
{
LARGHISSIMO = 0,
GRAVE,
LENTO,
LARGHETTO,
ADAGIO,
ANDANTE,
MODERATO,
ALLEGRO,
PRESTO,
PRESTISSIMO
};
// switches tempo (beats per minet).
switch(tempoSelector)
{
case LARGHISSIMO: *tempo = 20; // 1 - 25 bpm.
break;
case GRAVE: *tempo = (46 - ((46 - 25) / 2)); // 25 - 46 bpm. calculates an average value.
break;
case LENTO: *tempo = (61 - ((61 - 46) / 2)); // 46 - 61 bpm
break;
case LARGHETTO: *tempo = (67 - ((67 - 61) / 2));
break;
case ADAGIO: *tempo = (77 - ((77 - 67) / 2));
break;
case ANDANTE: *tempo = (109 - ((109 - 77) / 2));
break;
case MODERATO: *tempo = (121 - ((121 - 109) / 2));
break;
case ALLEGRO: *tempo = (169 - ((169 - 121) / 2));
break;
case PRESTO: *tempo = (201 - ((201 - 169) / 2));
break;
case PRESTISSIMO: *tempo = (320 - ((320 - 201) / 2));
break;
}
}
void setTempoSelectorByTempo(unsigned short *tempo, unsigned char *tempoSelector)
{
enum tempoSelectors
{
LARGHISSIMO = 0,
GRAVE,
LENTO,
LARGHETTO,
ADAGIO,
ANDANTE,
MODERATO,
ALLEGRO,
PRESTO,
PRESTISSIMO
};
// switches a selector.
if((*tempo > 0) && (*tempo < 25))
{
if(*tempoSelector != LARGHISSIMO)
{
*tempoSelector = LARGHISSIMO;
showTempoBar1(*tempoSelector);
}
}
else if((*tempo >= 25) && (*tempo < 46))
{
if(*tempoSelector != GRAVE)
{
*tempoSelector = GRAVE;
showTempoBar1(*tempoSelector);
}
}
else if((*tempo >= 46) && (*tempo < 61))
{
if(*tempoSelector != LENTO)
{
*tempoSelector = LENTO;
showTempoBar1(*tempoSelector);
}
}
else if((*tempo >= 61) && (*tempo < 67))
{
if(*tempoSelector != LARGHETTO)
{
*tempoSelector = LARGHETTO;
showTempoBar1(*tempoSelector);
}
}
else if((*tempo >= 67) && (*tempo < 77))
{
if(*tempoSelector != ADAGIO)
{
*tempoSelector = ADAGIO;
showTempoBar1(*tempoSelector);
}
}
else if((*tempo >= 77) && (*tempo < 109))
{
if(*tempoSelector != ANDANTE)
{
*tempoSelector = ANDANTE;
showTempoBar1(*tempoSelector);
}
}
else if((*tempo >= 109) && (*tempo < 121))
{
if(*tempoSelector != MODERATO)
{
*tempoSelector = MODERATO;
showTempoBar1(*tempoSelector);
}
}
else if((*tempo >= 121) && (*tempo < 169))
{
if(*tempoSelector != ALLEGRO)
{
*tempoSelector = ALLEGRO;
showTempoBar1(*tempoSelector);
}
}
else if((*tempo >= 169) && (*tempo < 201))
{
if(*tempoSelector != PRESTO)
{
*tempoSelector = PRESTO;
showTempoBar1(*tempoSelector);
}
}
else if((*tempo >= 201) && (*tempo < 321))
{
if(*tempoSelector != PRESTISSIMO)
{
*tempoSelector = PRESTISSIMO;
showTempoBar1(*tempoSelector);
}
}
}
void drawWindow()
{
//if(counter > 1) counter = 1;
getSystemColors(&sc);
skin_height = _ksys_get_skin_height();
_ksys_window_redraw(1);
_ksys_draw_window(10, 10, 330, 200, sc.work, 0x14, 0x5080d0, 0, (int)header);
_ksys_window_redraw(2);
showCounterIndicator();
showMeterIndicator();
setTempoSelectorByTempo(&tempo, &tempoSelector);
showTempoBar1(tempoSelector);
showTempoBar2(tempo);
showMeterBar(meter);
showStartButton();
//int a_x = ((x + ((w / 2) - ((chr_w * text_len) / 2))) - num_offset);
#if defined (lang_en)
_ksys_write_text(94, (skin_height + 153), (((int)0b10010000 << 24) | sc.work_text), "Author: JohnXenox", 0);
#elif defined (lang_ru)
_ksys_write_text(94, (skin_height + 153), (((int)0b10010000 << 24) | sc.work_text), "€¢â®à: JohnXenox", 0);
#endif
//showRectangle(10, (skin_height + 5), 315, 50, 0xff0000);
}
#endif

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#SHS
tcc Beat.c -o Beat -lck
exit

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History:
Beat 2020.05.17
First release.

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#SHS
tcc PlayNote.c -o PlayNote -lck
exit

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History:
PlayNote 2020.05.17
Code optimization.
PlayNote 2020.05.07
First release.

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/*
* Author: JohnXenox aka Aleksandr Igorevich.
*
* Programme name: PlayNote
* Description: The programme to play a note.
*
* Works from command line, only!
*/
// To generate .wav file with sox (to listen):
// sox -n -L -c 1 -b 16 -r 48000 Note_C5.wav synth 1 sine 1046.4
// To generate .raw file with sox (to PlayNote):
// sox -n -L -c 1 -b 16 -r 48000 Note_C5.raw synth 1 sine 1046.4
#define CREATION_DATE "2020.05.17"
#include <conio.h>
#include <stdio.h>
#include <string.h>
#include "PlayNote_lib1.h"
#include "PlayNote_lib2.h"
unsigned int drv_ver = 0;
unsigned int buffer = 0;
unsigned int *raw_file_data = 0;
char raw_file[4096] = {0};
int main(int argc, char** argv)
{
// ============================================================ //
// checks memory availability ================================= //
if(initMemory() == 0) return -1;
// ============================================================ //
// sets a current path to a raw file ========================== //
//setCurrentPathToARawFile(raw_file, argv[0], "Note_C6_0.5.raw");
_ksys_set_wanted_events(0);
// ============================================================ //
// processes the command line arguments ======================= //
if (argc > 1)
{
//printfOnADebugBoard("ARGV1: %s\n", argv[1]);
strcpy(raw_file, argv[1]);
// checks to a full path to a file?
if(*argv[1] != '/')
{
setCurrentPathToARawFile(raw_file, argv[0], argv[1]);
}
}
else
{
if (con_init_console_dll()) return 1; // init fail
con_set_title("Useful info!");
con_printf("\n Name: PlayNote");
con_printf("\n Date: %s", CREATION_DATE);
con_printf("\n Description: The programme to play a note.\n");
con_printf("\n Author: JohnXenox\n");
con_printf("\n Usage: PlayNote <path>\n");
con_printf(" path - path to a file to be played.\n\n");
con_printf(" Examples:\n");
con_printf(" PlayNote note.raw\n");
con_printf(" PlayNote /tmp0/1/note.raw\n");
return 0;
}
//printfOnADebugBoard("raw_file path: %s\n", argv[1]);
// ============================================================ //
// plays a note =============================================== //
int raw_file_length = 0;
raw_file_data = openFile(&raw_file_length,raw_file);
if(raw_file_data == 0) return -2;
_InitSound(&drv_ver);
_CreateBuffer((PCM_STATIC | PCM_1_16_48), raw_file_length, &buffer);
_SetBuffer((int*)buffer, (int*)raw_file_data, 0, raw_file_length);
_SetBufferPos((int*)buffer, 0);
_PlayBuffer((int*)buffer, 0);
makeDelay(30);
_StopBuffer((int*)buffer);
return 0;
}

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/*
* Author: JohnXenox aka Aleksandr Igorevich.
*
* PlayNote_lib1.h
*/
#ifndef __PlayNote_lib1_h__
#define __PlayNote_lib1_h__
static inline int initMemory(void)
{
int size;
__asm__ __volatile__("int $0x40":"=a"(size):"a"(68),"b"(11));
return size;
}
static inline void makeDelay(int time)
{
__asm__ __volatile__("int $0x40"::"a"(5), "b"(time):"memory");
}
static inline void *openFile(int *length, const char *path)
{
int *fd;
__asm__ __volatile__ ("int $0x40":"=a"(fd), "=d"(*length):"a" (68), "b"(27),"c"(path));
return fd;
}
static inline void setCurrentPathToARawFile(char *dst_path, char *src_path, char* file_name)
{
unsigned offset = 0;
// cleans a dst path if not clean.
if(dst_path[offset] != 0)
{
for(; dst_path[offset] != 0; offset++) dst_path[offset] = 0;
}
// copys current path into a buffer.
strcpy(dst_path, src_path);
offset = 0;
// go to the end of a string.
while(dst_path[offset] != 0) offset++;
// clears all bytes to a character '/'.
for(; dst_path[offset] != '/'; offset--) dst_path[offset] = 0;
// increments a variable.
offset++;
// stores a name of a file in a buffer.
strcpy(dst_path + offset, file_name);
}
void __attribute__ ((noinline)) printfOnADebugBoard(const char *format,...)
{
va_list ap;
char log_board[300];
va_start (ap, format);
tiny_vsnprintf(log_board, sizeof log_board, format, ap);
va_end(ap);
char *str = log_board;
while(*str) __asm__ __volatile__("int $0x40"::"a"(63), "b"(1), "c"(*str++));
}
#endif

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/*
* Author: JohnXenox aka Aleksandr Igorevich.
*
* PlayNote_lib2.h
*/
#ifndef __PlayNote_lib2_h__
#define __PlayNote_lib2_h__
/*
struct CTRL_INFO
{ int pci_cmd;
int irq;
int glob_cntrl;
int glob_sta;
int codec_io_base;
int ctrl_io_base;
int codec_mem_base;
int ctrl_mem_base;
int codec_id;
};
#define CTRL_INFO_SIZE (9*4)
*/
//====================================//
#define SRV_GETVERSION 0
#define SND_CREATE_BUFF 1
#define SND_DESTROY_BUFF 2
#define SND_SETFORMAT 3
#define SND_GETFORMAT 4
#define SND_RESET 5
#define SND_SETPOS 6
#define SND_GETPOS 7
#define SND_SETBUFF 8
#define SND_OUT 9
#define SND_PLAY 10
#define SND_STOP 11
#define SND_SETVOLUME 12
#define SND_GETVOLUME 13
#define SND_SETPAN 14
#define SND_GETPAN 15
#define SND_GETBUFFSIZE 16
#define SND_GETFREESPACE 17
#define SND_SETTIMEBASE 18
#define SND_GETTIMESTAMP 19
#define DEV_SET_BUFF 4
#define DEV_NOTIFY 5
#define DEV_SET_MASTERVOL 6
#define DEV_GET_MASTERVOL 7
#define DEV_GET_INFO 8
//====================================//
#define SOUND_VERSION 0x0101
#define PCM_ALL 0
#define PCM_OUT 0x08000000
#define PCM_RING 0x10000000
#define PCM_STATIC 0x20000000
#define PCM_FLOAT 0x40000000
#define PCM_FILTER 0x80000000
#define PCM_2_16_48 1
#define PCM_1_16_48 2
#define PCM_2_16_44 3
#define PCM_1_16_44 4
#define PCM_2_16_32 5
#define PCM_1_16_32 6
#define PCM_2_16_24 7
#define PCM_1_16_24 8
#define PCM_2_16_22 9
#define PCM_1_16_22 10
#define PCM_2_16_16 11
#define PCM_1_16_16 12
#define PCM_2_16_12 13
#define PCM_1_16_12 14
#define PCM_2_16_11 15
#define PCM_1_16_11 16
#define PCM_2_16_8 17
#define PCM_1_16_8 18
#define PCM_2_8_48 19
#define PCM_1_8_48 20
#define PCM_2_8_44 21
#define PCM_1_8_44 22
#define PCM_2_8_32 23
#define PCM_1_8_32 24
#define PCM_2_8_24 25
#define PCM_1_8_24 26
#define PCM_2_8_22 27
#define PCM_1_8_22 28
#define PCM_2_8_16 29
#define PCM_1_8_16 30
#define PCM_2_8_12 31
#define PCM_1_8_12 32
#define PCM_2_8_11 33
#define PCM_1_8_11 34
#define PCM_2_8_8 35
#define PCM_1_8_8 36
//====================================//
const char szInfinity[] = "INFINITY";
const char szSound[] = "SOUND";
int *hSound = 0;
int *hrdwSound = 0;
struct MNG_DRV
{
int *handle;
int code;
int **input;
int inp_size;
int **output;
int out_size;
};
static inline void *LoadDriver(void *ptr)
{
void *val;
__asm__ __volatile__("int $0x40":"=a"(val):"a"(68), "b"(16),"c"(ptr));
return val;
}
static inline int ManageDriver(void *ptr)
{
int val;
__asm__ __volatile__("int $0x40":"=a"(val):"a"(68), "b"(17),"c"(ptr));
return val;
}
static int _InitSound(int* p_ver)
{
hSound = LoadDriver(&szInfinity);
if(hSound == 0) return -1;
hrdwSound = LoadDriver(&szSound);
struct MNG_DRV MNG_DRV = {
.handle = hSound,
.code = SRV_GETVERSION,
.input = 0,
.inp_size = 0,
.output = &p_ver,
.out_size = 4
};
return ManageDriver(&MNG_DRV);
}
static int _CreateBuffer(int format, int size, int *p_str)
{
struct MNG_DRV MNG_DRV = {
.handle = hSound,
.code = SND_CREATE_BUFF,
.input = &(int*)format,
.inp_size = 8,
.output = &p_str,
.out_size = 4
};
return ManageDriver(&MNG_DRV);
}
static int _SetBuffer(int *str, int* src, int offs, int size)
{
struct MNG_DRV MNG_DRV = {
.handle = hSound,
.code = SND_SETBUFF,
.input = &(int*)str,
.inp_size = 16,
.output = 0,
.out_size = 0
};
return ManageDriver(&MNG_DRV);
}
static int _PlayBuffer(int* str, int flags)
{
struct MNG_DRV MNG_DRV = {
.handle = hSound,
.code = SND_PLAY,
.input = &(int*)str,
.inp_size = 8,
.output = 0,
.out_size = 0
};
return ManageDriver(&MNG_DRV);
}
static int _SetBufferPos(int *str, int offs)
{
struct MNG_DRV MNG_DRV = {
.handle = hSound,
.code = SND_SETPOS,
.input = &(int*)str,
.inp_size = 8,
.output = 0,
.out_size = 0
};
return ManageDriver(&MNG_DRV);
}
static int _StopBuffer(int* str)
{
struct MNG_DRV MNG_DRV = {
.handle = hSound,
.code = SND_STOP,
.input = &(int*)str,
.inp_size = 4,
.output = 0,
.out_size = 0
};
return ManageDriver(&MNG_DRV);
}
#endif

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PlayNote (release date 2020.05.17)
PlayNote is a programme to play a note. Sound plays through a sound driver.
Usage: PlayNote <path>
path - path to a file to be played.
Examples:
PlayNote note.raw
PlayNote /tmp0/1/note.raw
===========================
To generate a note in a .wav format with a sox (to listening):
sox -n -L -c 1 -b 16 -r 48000 Note_C6.wav synth 1 sine 1046.4
To generate a note in a .raw format with a sox (to PlayNote):
sox -n -L -c 1 -b 16 -r 48000 Note_C6.raw synth 1 sine 1046.4
To install a sox in Ubuntu:
sudo apt install sox
===========================
//--------------------------------------//
The programme:
- Compiled with KTCC compiler.
- Written in KolibriOS NB svn7768.
- Designed and written by JohnXenox
aka Aleksandr Igorevich.
//--------------------------------------//

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PlayNote (дата выпуска 2020.05.17)
PlayNote - простая программа для проигрывания ноты. Звук проигрывается через звуковой драйвер.
Использование: PlayNote <path>
path - путь к файлу, который будет проигран.
Примеры:
PlayNote note.raw
PlayNote /tmp0/1/note.raw
===========================
Для генерирования ноты в формате .wav при помощи sox (для прослушивания результата:
sox -n -L -c 1 -b 16 -r 48000 Note_C6.wav synth 1 sine 1046.4
Для генерирования ноты в формате .raw при помощи sox (для программы PlayNote):
sox -n -L -c 1 -b 16 -r 48000 Note_C6.raw synth 1 sine 1046.4
Для установки программы sox в Ubuntu:
sudo apt install sox
===========================
//--------------------------------------//
The programme:
- Compiled with KTCC compiler.
- Written in KolibriOS NB svn7768.
- Designed and written by JohnXenox
aka Aleksandr Igorevich.
//--------------------------------------//

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Beat (release date 2020.05.17)
Beat is a simple metronome. Uses a PlayNote programme.
Samples Beep1.raw and Beep2.raw must be placed with a Beat.
A PlayNote must be placed in one of the next directory:
/sys, /sys/media or in the same place as a Beat.
Hot keys:
- CTRL + LEFT ARROW - backward tempo mnemonics.
- CTRL + LEFT ARROW - forward tempo mnemonics.
- LEFT ARROW - decreases a tempo beat (beats per minute).
- RIGHT ARROW - increases a tempo beat (beats per minute).
- COMMA - decreases a meter.
- DOT - increases a meter.
- SLASH - inverts colours of a counter indicator.
- From "NUM 1" to "+ SIGN") - (1 ... 12) makes an accent on selected beat.
//--------------------------------------//
The programme:
- Compiled with KTCC compiler.
- Written in KolibriOS NB svn7768.
- Designed and written by JohnXenox
aka Aleksandr Igorevich.
//--------------------------------------//

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Beat (дата выпуска 2020.05.17)
Beat - простой метроном. Для работы использует программу PlayNote.
Сэмплы Beep1.raw и Beep2.raw должны находится с рядом программой Beat.
Программа PlayNote должна находиться в одной из следующих директорий:
/sys, /sys/media или в томже месте, что и Beat.
Горячие клавиши:
- CTRL + LEFT ARROW - перемотка обратно мнемоник темпа.
- CTRL + LEFT ARROW - премотка вперёд мнемоник темпа.
- LEFT ARROW - уменьшает бит темпа (биты в минуту).
- RIGHT ARROW - увеличивает бит темпа (биты в минуту).
- COMMA - уменьшает метр.
- DOT - увеличивает метр.
- SLASH - инвертирует цвета индикатора темпа.
- От "NUM 1" до "+ SIGN") - (1 ... 12) делает акцент на выбраном бите.
//--------------------------------------//
The programme:
- Compiled with KTCC compiler.
- Written in KolibriOS NB svn7768.
- Designed and written by JohnXenox
aka Aleksandr Igorevich.
//--------------------------------------//