Added subscreens to periodic table face; added title and faster scrolling (#1)

* Added subscreens to periodic table face; added title and faster scrolling

* Resized buf for element display

* Fixed scrolling to work on actual hardware

* Added delay before _loop_text at title and bugfix on elements shorter than 6 char

* Title screen displays when le_mode starts

* Added documentation on usage and removed unneeded variable
This commit is contained in:
voloved 2024-07-23 05:35:38 -04:00 committed by GitHub
parent 7eb725a5f6
commit c8702d346e
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GPG key ID: B5690EEEBB952194
2 changed files with 388 additions and 240 deletions

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@ -26,6 +26,15 @@
#include <string.h>
#include "periodic_face.h"
#define FREQ_FAST 8
#define FREQ 2
static bool _quick_ticks_running;
static uint8_t _ts_ticks = 0;
static int16_t _text_pos;
static const char* _text_looping;
static const char title_text[] = "Periodic Table";
void periodic_face_setup(movement_settings_t *settings, uint8_t watch_face_index, void **context_ptr)
{
(void)settings;
@ -42,304 +51,418 @@ void periodic_face_activate(movement_settings_t *settings, void *context)
(void)settings;
periodic_state_t *state = (periodic_state_t *)context;
state->atomic_num = 1;
state->atomic_num = 0;
state->mode = 0;
state->selection_index = 0;
movement_request_tick_frequency(2);
_quick_ticks_running = false;
movement_request_tick_frequency(FREQ);
}
typedef struct
{
char name[3];
uint16_t atomic_mass;
char symbol[3];
char name[14]; // Longest is Rutherfordium
int16_t year_discovered; // Negative is BC
uint16_t atomic_mass; // In units of 0.01 AMU
uint16_t electronegativity; // In units of 0.01
char group[3];
} element;
typedef enum {
SCREEN_TITLE = 0,
SCREEN_ELEMENT,
SCREEN_ATOMIC_MASS,
SCREEN_DISCOVER_YEAR,
SCREEN_ELECTRONEGATIVITY,
SCREEN_FULL_NAME,
SCREENS_COUNT
} PeriodicScreens;
const char screen_name[SCREENS_COUNT][3] = {
[SCREEN_ATOMIC_MASS] = "am",
[SCREEN_DISCOVER_YEAR] = " y",
[SCREEN_ELECTRONEGATIVITY] = "EL",
[SCREEN_FULL_NAME] = " n",
};
// Comments on the table denote symbols that cannot be displayed
#define MAX_ELEMENT 118
const element table[MAX_ELEMENT] = {
{"H ", 1, " "},
{"He", 4, " 0"},
{"Li", 7, " 1"},
{"Be", 9, " 2"},
{"B ", 11, " 3"},
{"C ", 12, " 4"},
{"N ", 14, " 5"},
{"O ", 16, " 6"},
{"F ", 19, " 7"},
{"Ne", 20, " 0"},
{"Na", 23, " 1"},
{"Mg", 24, " 2"}, //
{"Al", 27, " 3"},
{"Si", 28, " 4"},
{"P ", 31, " 5"},
{"S ", 32, " 6"},
{"Cl", 355, " 7"},
{"Ar", 40, " 0"},
{"K ", 39, " 1"},
{"Ca", 40, " 2"},
{"Sc", 45, " T"},
{"Ti", 48, " T"},
{" W", 51, " T"}, // "V"
{"Cr", 52, " T"},
{"Mn", 55, " T"},
{"Fe", 56, " T"},
{"Co", 59, " T"},
{"Ni", 59, " T"},
{"Cu", 635, " T"},
{"Zn", 65, " T"},
{"Ga", 70, " 3"},
{"Ge", 73, " 4"},
{"As", 75, " 5"}, //
{"Se", 79, " 6"},
{"Br", 80, " 7"},
{"Kr", 84, " 0"},
{"Rb", 85, " 1"},
{"Sr", 88, " 2"},
{"Y ", 89, " T"},
{"Zr", 91, " T"},
{"Nb", 93, " T"},
{"Mo", 96, " T"},
{"Tc", 97, " T"},
{"Ru", 101, " T"},
{"Rh", 103, " T"},
{"Pd", 106, " T"},
{"Ag", 108, " T"}, //
{"Cd", 112, " T"},
{"In", 115, " 3"},
{"Sn", 119, " 4"},
{"Sb", 122, " 5"},
{"Te", 128, " 6"},
{"I ", 127, " 7"},
{"Xe", 131, " 0"},
{"CS", 133, " 1"},
{"Ba", 137, " 2"},
{"La", 139, "1a"}, // La
{"Ce", 140, "1a"},
{"Pr", 141, "1a"},
{"Nd", 144, "1a"},
{"Pm", 145, "1a"},
{"Sm", 150, "1a"},
{"Eu", 152, "1a"},
{"Gd", 157, "1a"},
{"Tb", 159, "1a"},
{"Dy", 163, "1a"}, // .5 Rounded up due to space constraints
{"Ho", 165, "1a"},
{"Er", 167, "1a"},
{"Tm", 169, "1a"},
{"Yb", 173, "1a"},
{"Lu", 175, "1a"},
{"Hf", 179, " T"},
{"Ta", 181, " T"},
{"W ", 184, " T"},
{"Re", 186, " T"},
{"OS", 190, " T"},
{"Ir", 192, " T"},
{"Pt", 195, " T"},
{"Au", 197, " T"},
{"Hg", 201, " T"}, //
{"Tl", 204, " 3"},
{"Pb", 207, " 4"},
{"Bi", 209, " 5"},
{"Po", 209, " 6"},
{"At", 210, " 7"},
{"Rn", 222, " 0"},
{"Fr", 223, " 1"},
{"Ra", 226, " 2"},
{"Ac", 227, "Ac"},
{"Th", 232, "Ac"},
{"Pa", 231, "Ac"},
{"U ", 238, "Ac"},
{"Np", 237, "Ac"}, //
{"Pu", 244, "Ac"},
{"Am", 243, "Ac"},
{"Cm", 247, "Ac"},
{"Bk", 247, "Ac"}, //
{"Cf", 251, "Ac"},
{"Es", 252, "Ac"}, //
{"Fm", 257, "Ac"},
{"Md", 258, "Ac"},
{"No", 259, "Ac"},
{"Lr", 262, "Ac"},
{"Rf", 267, " T"},
{"Db", 262, " T"},
{"Sg", 269, " T"}, //
{"Bh", 264, " T"},
{"Hs", 269, " T"},
{"Mt", 278, " T"},
{"Ds", 281, " T"}, //
{"Rg", 282, " T"}, //
{"Cn", 285, " T"},
{"Nh", 286, " 3"},
{"Fl", 289, " 4"},
{"Mc", 289, " 5"},
{"LW", 293, " 6"}, // Lv
{"Ts", 294, " 7"}, //
{"Og", 294, " 0"}, //
{ .symbol = "H", .name = "Hydrogen", .year_discovered = 1671, .atomic_mass = 101, .electronegativity = 220, .group = " " },
{ .symbol = "HE", .name = "Helium", .year_discovered = 1868, .atomic_mass = 400, .electronegativity = 0, .group = "0" },
{ .symbol = "LI", .name = "Lithium", .year_discovered = 1817, .atomic_mass = 694, .electronegativity = 98, .group = "1" },
{ .symbol = "BE", .name = "Beryllium", .year_discovered = 1798, .atomic_mass = 901, .electronegativity = 157, .group = "2" },
{ .symbol = "B", .name = "Boron", .year_discovered = 1787, .atomic_mass = 1081, .electronegativity = 204, .group = "3" },
{ .symbol = "C", .name = "Carbon", .year_discovered = -26000, .atomic_mass = 1201, .electronegativity = 255, .group = "4" },
{ .symbol = "N", .name = "Nitrogen", .year_discovered = 1772, .atomic_mass = 1401, .electronegativity = 304, .group = "5" },
{ .symbol = "O", .name = "Oxygen", .year_discovered = 1771, .atomic_mass = 1600, .electronegativity = 344, .group = "6" },
{ .symbol = "F", .name = "Fluorine", .year_discovered = 1771, .atomic_mass = 1900, .electronegativity = 398, .group = "7" },
{ .symbol = "NE", .name = "Neon", .year_discovered = 1898, .atomic_mass = 2018, .electronegativity = 0, .group = "0" },
{ .symbol = "NA", .name = "Sodium", .year_discovered = 1702, .atomic_mass = 2299, .electronegativity = 93, .group = "1" },
{ .symbol = "MG", .name = "Magnesium", .year_discovered = 1755, .atomic_mass = 2431, .electronegativity = 131, .group = "2" },
{ .symbol = "AL", .name = "Aluminium", .year_discovered = 1746, .atomic_mass = 2698, .electronegativity = 161, .group = "3" },
{ .symbol = "SI", .name = "Silicon", .year_discovered = 1739, .atomic_mass = 2809, .electronegativity = 190, .group = "4" },
{ .symbol = "P", .name = "Phosphorus", .year_discovered = 1669, .atomic_mass = 3097, .electronegativity = 219, .group = "5" },
{ .symbol = "S", .name = "Sulfur", .year_discovered = -2000, .atomic_mass = 3206, .electronegativity = 258, .group = "6" },
{ .symbol = "CL", .name = "Chlorine", .year_discovered = 1774, .atomic_mass = 3545., .electronegativity = 316, .group = "7" },
{ .symbol = "AR", .name = "Argon", .year_discovered = 1894, .atomic_mass = 3995., .electronegativity = 0, .group = "0" },
{ .symbol = "K", .name = "Potassium", .year_discovered = 1702, .atomic_mass = 3910, .electronegativity = 82, .group = "1" },
{ .symbol = "CA", .name = "Calcium", .year_discovered = 1739, .atomic_mass = 4008, .electronegativity = 100, .group = "2" },
{ .symbol = "SC", .name = "Scandium", .year_discovered = 1879, .atomic_mass = 4496, .electronegativity = 136, .group = " T" },
{ .symbol = "TI", .name = "Titanium", .year_discovered = 1791, .atomic_mass = 4787, .electronegativity = 154, .group = " T" },
{ .symbol = "W", .name = "Vanadium", .year_discovered = 1801, .atomic_mass = 5094, .electronegativity = 163, .group = " T" },
{ .symbol = "CR", .name = "Chromium", .year_discovered = 1797, .atomic_mass = 5200, .electronegativity = 166, .group = " T" },
{ .symbol = "MN", .name = "Manganese", .year_discovered = 1774, .atomic_mass = 5494, .electronegativity = 155, .group = " T" },
{ .symbol = "FE", .name = "Iron", .year_discovered = -5000, .atomic_mass = 5585, .electronegativity = 183, .group = " T" },
{ .symbol = "CO", .name = "Cobalt", .year_discovered = 1735, .atomic_mass = 5893, .electronegativity = 188, .group = " T" },
{ .symbol = "NI", .name = "Nickel", .year_discovered = 1751, .atomic_mass = 5869, .electronegativity = 191, .group = " T" },
{ .symbol = "CU", .name = "Copper", .year_discovered = -9000, .atomic_mass = 6355, .electronegativity = 190, .group = " T" },
{ .symbol = "ZN", .name = "Zinc", .year_discovered = -1000, .atomic_mass = 6538, .electronegativity = 165, .group = " T" },
{ .symbol = "GA", .name = "Gallium", .year_discovered = 1875, .atomic_mass = 6972, .electronegativity = 181, .group = "3" },
{ .symbol = "GE", .name = "Germanium", .year_discovered = 1886, .atomic_mass = 7263, .electronegativity = 201, .group = "4" },
{ .symbol = "AS", .name = "Arsenic", .year_discovered = 300, .atomic_mass = 7492, .electronegativity = 218, .group = "5" },
{ .symbol = "SE", .name = "Selenium", .year_discovered = 1817, .atomic_mass = 7897, .electronegativity = 255, .group = "6" },
{ .symbol = "BR", .name = "Bromine", .year_discovered = 1825, .atomic_mass = 7990., .electronegativity = 296, .group = "7" },
{ .symbol = "KR", .name = "Krypton", .year_discovered = 1898, .atomic_mass = 8380, .electronegativity = 300, .group = "0" },
{ .symbol = "RB", .name = "Rubidium", .year_discovered = 1861, .atomic_mass = 8547, .electronegativity = 82, .group = "1" },
{ .symbol = "SR", .name = "Strontium", .year_discovered = 1787, .atomic_mass = 8762, .electronegativity = 95, .group = "2" },
{ .symbol = "Y", .name = "Yttrium", .year_discovered = 1794, .atomic_mass = 8891, .electronegativity = 122, .group = " T" },
{ .symbol = "ZR", .name = "Zirconium", .year_discovered = 1789, .atomic_mass = 9122, .electronegativity = 133, .group = " T" },
{ .symbol = "NB", .name = "Niobium", .year_discovered = 1801, .atomic_mass = 9291, .electronegativity = 160, .group = " T" },
{ .symbol = "MO", .name = "Molybdenum", .year_discovered = 1778, .atomic_mass = 9595, .electronegativity = 216, .group = " T" },
{ .symbol = "TC", .name = "Technetium", .year_discovered = 1937, .atomic_mass = 9700, .electronegativity = 190, .group = " T" },
{ .symbol = "RU", .name = "Ruthenium", .year_discovered = 1844, .atomic_mass = 10107, .electronegativity = 220, .group = " T" },
{ .symbol = "RH", .name = "Rhodium", .year_discovered = 1804, .atomic_mass = 10291, .electronegativity = 228, .group = " T" },
{ .symbol = "PD", .name = "Palladium", .year_discovered = 1802, .atomic_mass = 10642, .electronegativity = 220, .group = " T" },
{ .symbol = "AG", .name = "Silver", .year_discovered = -5000, .atomic_mass = 10787, .electronegativity = 193, .group = " T" },
{ .symbol = "CD", .name = "Cadmium", .year_discovered = 1817, .atomic_mass = 11241, .electronegativity = 169, .group = " T" },
{ .symbol = "IN", .name = "Indium", .year_discovered = 1863, .atomic_mass = 11482, .electronegativity = 178, .group = "3" },
{ .symbol = "SN", .name = "Tin", .year_discovered = -3500, .atomic_mass = 11871, .electronegativity = 196, .group = "4" },
{ .symbol = "SB", .name = "Antimony", .year_discovered = -3000, .atomic_mass = 12176, .electronegativity = 205, .group = "5" },
{ .symbol = "TE", .name = "Tellurium", .year_discovered = 1782, .atomic_mass = 12760, .electronegativity = 210, .group = "6" },
{ .symbol = "I", .name = "Iodine", .year_discovered = 1811, .atomic_mass = 12690, .electronegativity = 266, .group = "7" },
{ .symbol = "XE", .name = "Xenon", .year_discovered = 1898, .atomic_mass = 13129, .electronegativity = 260, .group = "0" },
{ .symbol = "CS", .name = "Caesium", .year_discovered = 1860, .atomic_mass = 13291, .electronegativity = 79, .group = "1" },
{ .symbol = "BA", .name = "Barium", .year_discovered = 1772, .atomic_mass = 13733., .electronegativity = 89, .group = "2" },
{ .symbol = "LA", .name = "Lanthanum", .year_discovered = 1838, .atomic_mass = 13891, .electronegativity = 110, .group = "1a" },
{ .symbol = "CE", .name = "Cerium", .year_discovered = 1803, .atomic_mass = 14012, .electronegativity = 112, .group = "1a" },
{ .symbol = "PR", .name = "Praseodymium", .year_discovered = 1885, .atomic_mass = 14091, .electronegativity = 113, .group = "1a" },
{ .symbol = "ND", .name = "Neodymium", .year_discovered = 1841, .atomic_mass = 14424, .electronegativity = 114, .group = "1a" },
{ .symbol = "PM", .name = "Promethium", .year_discovered = 1945, .atomic_mass = 14500, .electronegativity = 113, .group = "1a" },
{ .symbol = "SM", .name = "Samarium", .year_discovered = 1879, .atomic_mass = 15036., .electronegativity = 117, .group = "1a" },
{ .symbol = "EU", .name = "Europium", .year_discovered = 1896, .atomic_mass = 15196, .electronegativity = 120, .group = "1a" },
{ .symbol = "GD", .name = "Gadolinium", .year_discovered = 1880, .atomic_mass = 15725, .electronegativity = 120, .group = "1a" },
{ .symbol = "TB", .name = "Terbium", .year_discovered = 1843, .atomic_mass = 15893, .electronegativity = 120, .group = "1a" },
{ .symbol = "DY", .name = "Dysprosium", .year_discovered = 1886, .atomic_mass = 16250, .electronegativity = 122, .group = "1a" },
{ .symbol = "HO", .name = "Holmium", .year_discovered = 1878, .atomic_mass = 16493, .electronegativity = 123, .group = "1a" },
{ .symbol = "ER", .name = "Erbium", .year_discovered = 1843, .atomic_mass = 16726, .electronegativity = 124, .group = "1a" },
{ .symbol = "TM", .name = "Thulium", .year_discovered = 1879, .atomic_mass = 16893, .electronegativity = 125, .group = "1a" },
{ .symbol = "YB", .name = "Ytterbium", .year_discovered = 1878, .atomic_mass = 17305, .electronegativity = 110, .group = "1a" },
{ .symbol = "LU", .name = "Lutetium", .year_discovered = 1906, .atomic_mass = 17497, .electronegativity = 127, .group = "1a" },
{ .symbol = "HF", .name = "Hafnium", .year_discovered = 1922, .atomic_mass = 17849, .electronegativity = 130, .group = " T" },
{ .symbol = "TA", .name = "Tantalum", .year_discovered = 1802, .atomic_mass = 18095, .electronegativity = 150, .group = " T" },
{ .symbol = "W", .name = "Tungsten", .year_discovered = 1781, .atomic_mass = 18384, .electronegativity = 236, .group = " T" },
{ .symbol = "RE", .name = "Rhenium", .year_discovered = 1908, .atomic_mass = 18621, .electronegativity = 190, .group = " T" },
{ .symbol = "OS", .name = "Osmium", .year_discovered = 1803, .atomic_mass = 19023, .electronegativity = 220, .group = " T" },
{ .symbol = "IR", .name = "Iridium", .year_discovered = 1803, .atomic_mass = 19222, .electronegativity = 220, .group = " T" },
{ .symbol = "PT", .name = "Platinum", .year_discovered = -600, .atomic_mass = 19508, .electronegativity = 228, .group = " T" },
{ .symbol = "AU", .name = "Gold", .year_discovered = -6000, .atomic_mass = 19697, .electronegativity = 254, .group = " T" },
{ .symbol = "HG", .name = "Mercury", .year_discovered = -1500, .atomic_mass = 20059, .electronegativity = 200, .group = " T" },
{ .symbol = "TL", .name = "Thallium", .year_discovered = 1861, .atomic_mass = 20438, .electronegativity = 162, .group = "3" },
{ .symbol = "PB", .name = "Lead", .year_discovered = -7000, .atomic_mass = 20720, .electronegativity = 187, .group = "4" },
{ .symbol = "BI", .name = "Bismuth", .year_discovered = 1500, .atomic_mass = 20898, .electronegativity = 202, .group = "5" },
{ .symbol = "PO", .name = "Polonium", .year_discovered = 1898, .atomic_mass = 20900, .electronegativity = 200, .group = "6" },
{ .symbol = "AT", .name = "Astatine", .year_discovered = 1940, .atomic_mass = 21000, .electronegativity = 220, .group = "7" },
{ .symbol = "RN", .name = "Radon", .year_discovered = 1899, .atomic_mass = 22200, .electronegativity = 220, .group = "0" },
{ .symbol = "FR", .name = "Francium", .year_discovered = 1939, .atomic_mass = 22300, .electronegativity = 79, .group = "1" },
{ .symbol = "RA", .name = "Radium", .year_discovered = 1898, .atomic_mass = 22600, .electronegativity = 90, .group = "2" },
{ .symbol = "AC", .name = "Actinium", .year_discovered = 1902, .atomic_mass = 22700, .electronegativity = 110, .group = "Ac" },
{ .symbol = "TH", .name = "Thorium", .year_discovered = 1829, .atomic_mass = 23204, .electronegativity = 130, .group = "Ac" },
{ .symbol = "PA", .name = "Protactinium", .year_discovered = 1913, .atomic_mass = 23104, .electronegativity = 150, .group = "Ac" },
{ .symbol = "U", .name = "Uranium", .year_discovered = 1789, .atomic_mass = 23803, .electronegativity = 138, .group = "Ac" },
{ .symbol = "NP", .name = "Neptunium", .year_discovered = 1940, .atomic_mass = 23700, .electronegativity = 136, .group = "Ac" },
{ .symbol = "PU", .name = "Plutonium", .year_discovered = 1941, .atomic_mass = 24400, .electronegativity = 128, .group = "Ac" },
{ .symbol = "AM", .name = "Americium", .year_discovered = 1944, .atomic_mass = 24300, .electronegativity = 113, .group = "Ac" },
{ .symbol = "CM", .name = "Curium", .year_discovered = 1944, .atomic_mass = 24700, .electronegativity = 128, .group = "Ac" },
{ .symbol = "BK", .name = "Berkelium", .year_discovered = 1949, .atomic_mass = 24700, .electronegativity = 130, .group = "Ac" },
{ .symbol = "CF", .name = "Californium", .year_discovered = 1950, .atomic_mass = 25100, .electronegativity = 130, .group = "Ac" },
{ .symbol = "ES", .name = "Einsteinium", .year_discovered = 1952, .atomic_mass = 25200, .electronegativity = 130, .group = "Ac" },
{ .symbol = "FM", .name = "Fermium", .year_discovered = 1953, .atomic_mass = 25700, .electronegativity = 130, .group = "Ac" },
{ .symbol = "MD", .name = "Mendelevium", .year_discovered = 1955, .atomic_mass = 25800, .electronegativity = 130, .group = "Ac" },
{ .symbol = "NO", .name = "Nobelium", .year_discovered = 1965, .atomic_mass = 25900, .electronegativity = 130, .group = "Ac" },
{ .symbol = "LR", .name = "Lawrencium", .year_discovered = 1961, .atomic_mass = 26600, .electronegativity = 130, .group = "Ac" },
{ .symbol = "RF", .name = "Rutherfordium", .year_discovered = 1969, .atomic_mass = 26700, .electronegativity = 0, .group = " T" },
{ .symbol = "DB", .name = "Dubnium", .year_discovered = 1970, .atomic_mass = 26800, .electronegativity = 0, .group = " T" },
{ .symbol = "SG", .name = "Seaborgium", .year_discovered = 1974, .atomic_mass = 26700, .electronegativity = 0, .group = " T" },
{ .symbol = "BH", .name = "Bohrium", .year_discovered = 1981, .atomic_mass = 27000, .electronegativity = 0, .group = " T" },
{ .symbol = "HS", .name = "Hassium", .year_discovered = 1984, .atomic_mass = 27100, .electronegativity = 0, .group = " T" },
{ .symbol = "MT", .name = "Meitnerium", .year_discovered = 1982, .atomic_mass = 27800, .electronegativity = 0, .group = " T" },
{ .symbol = "DS", .name = "Darmstadtium", .year_discovered = 1994, .atomic_mass = 28100, .electronegativity = 0, .group = " T" },
{ .symbol = "RG", .name = "Roentgenium", .year_discovered = 1994, .atomic_mass = 28200, .electronegativity = 0, .group = " T" },
{ .symbol = "CN", .name = "Copernicium", .year_discovered = 1996, .atomic_mass = 28500, .electronegativity = 0, .group = " T" },
{ .symbol = "NH", .name = "Nihonium", .year_discovered = 2004, .atomic_mass = 28600, .electronegativity = 0, .group = "3" },
{ .symbol = "FL", .name = "Flerovium", .year_discovered = 1999, .atomic_mass = 28900, .electronegativity = 0, .group = "4" },
{ .symbol = "MC", .name = "Moscovium", .year_discovered = 2003, .atomic_mass = 29000, .electronegativity = 0, .group = "5" },
{ .symbol = "LW", .name = "Livermorium", .year_discovered = 2000, .atomic_mass = 29300, .electronegativity = 0, .group = "6" },
{ .symbol = "TS", .name = "Tennessine", .year_discovered = 2009, .atomic_mass = 29400, .electronegativity = 0, .group = "7" },
{ .symbol = "OG", .name = "Oganesson", .year_discovered = 2002, .atomic_mass = 29400, .electronegativity = 0, .group = "0" },
};
// Warning light for symbols that can't be displayed
static void _warning(periodic_state_t *state)
{
char second_char = table[state->atomic_num - 1].name[1];
if (second_char == 'p' || second_char == 'g' || second_char == 'y' || second_char == 's')
{
watch_set_indicator(WATCH_INDICATOR_BELL);
}
else
{
watch_clear_indicator(WATCH_INDICATOR_BELL);
static void _make_upper(char *string) {
size_t i = 0;
while(string[i] != 0) {
if (string[i] >= 'a' && string[i] <= 'z')
string[i]-=32; // 32 = 'a'-'A'
i++;
}
}
// Regular mode display
static void _periodic_face_update_lcd(periodic_state_t *state)
static void _display_element(periodic_state_t *state)
{
// Colon as a decimal for Cl & Cu
if (state->atomic_num == 17 || state->atomic_num == 29)
{
watch_set_colon();
}
else
{
watch_clear_colon();
}
_warning(state);
char buf[9];
char ele[3];
uint8_t atomic_num = state->atomic_num;
strcpy(ele, table[atomic_num - 1].symbol);
_make_upper(ele);
sprintf(buf, "%2s%3d %-2s", table[atomic_num - 1].group, atomic_num, ele);
watch_display_string(buf, 2);
}
static void _display_atomic_mass(periodic_state_t *state)
{
char buf[11];
sprintf(buf, "%s%s%-3d%3d", table[state->atomic_num - 1].name, table[state->atomic_num - 1].group, table[state->atomic_num - 1].atomic_mass, state->atomic_num);
watch_display_string(buf, 0);
uint16_t mass = table[state->atomic_num - 1].atomic_mass;
uint16_t integer = mass / 100;
uint16_t decimal = mass % 100;
if (decimal == 0)
sprintf(buf, "%-2s%2s%4d", table[state->atomic_num - 1].symbol, screen_name[state->mode], integer);
else
sprintf(buf, "%-2s%2s%3d_%.2d", table[state->atomic_num - 1].symbol, screen_name[state->mode], integer, decimal);
watch_display_string(buf, 0);
}
// Selection mode logic
static void _periodic_face_selection_increment(periodic_state_t *state)
static void _display_year_discovered(periodic_state_t *state)
{
uint8_t digit0 = (state->atomic_num / 100) % 10;
uint8_t digit1 = (state->atomic_num / 10) % 10;
uint8_t digit2 = (state->atomic_num) % 10;
// Increment the selected digit by 1
switch (state->selection_index)
{
case 0:
digit0 ^= 1;
break;
case 1:
if (digit0 == MAX_ELEMENT / 100 && digit1 == (MAX_ELEMENT / 10) % 10)
digit1 = 0;
else
digit1 = (digit1 + 1) % 10;
break;
case 2:
if (digit0 == MAX_ELEMENT / 100 && digit1 == (MAX_ELEMENT / 10) % 10 && digit2 == MAX_ELEMENT % 10)
digit2 = 0;
else
digit2 = (digit2 + 1) % 10;
break;
char buf[11];
char year_buf[7];
int16_t year = table[state->atomic_num - 1].year_discovered;
if (abs(year) > 9999)
sprintf(year_buf, "---- ");
else
sprintf(year_buf, "%4d ", abs(year));
if (year < 0) {
year_buf[4] = 'b';
year_buf[5] = 'c';
}
// Prevent 000
if (digit0 == 0 && digit1 == 0 && digit2 == 0) {
digit2 = 1;
}
// Prevent Overflow
if (digit0 == (MAX_ELEMENT / 100) % 10 && digit1 > (MAX_ELEMENT / 10) % 10)
{
digit2 = MAX_ELEMENT % 10;
digit1 = (MAX_ELEMENT / 10) % 10;
}
state->atomic_num = digit0 * 100 + digit1 * 10 + digit2;
sprintf(buf, "%-2s%-2s%s", table[state->atomic_num - 1].symbol, screen_name[state->mode], year_buf);
watch_display_string(buf, 0);
}
// Selection mode display
static void _periodic_face_selection(periodic_state_t *state, uint8_t subsec)
static void _display_name(periodic_state_t *state)
{
uint8_t digit0 = (state->atomic_num / 100) % 10;
uint8_t digit1 = (state->atomic_num / 10) % 10;
uint8_t digit2 = (state->atomic_num) % 10;
char buf[11];
_text_looping = table[state->atomic_num - 1].name;
_text_pos = 0;
sprintf(buf, "%-2s%-2s%s", table[state->atomic_num - 1].symbol, screen_name[state->mode], table[state->atomic_num - 1].name);
watch_display_string(buf, 0);
}
watch_display_string(" ", 0);
static void _display_electronegativity(periodic_state_t *state)
{
char buf[11];
uint16_t electronegativity = table[state->atomic_num - 1].electronegativity;
uint16_t integer = electronegativity / 100;
uint16_t decimal = electronegativity % 100;
if (decimal == 0)
sprintf(buf, "%-2s%2s%4d", table[state->atomic_num - 1].symbol, screen_name[state->mode], integer);
else
sprintf(buf, "%-2s%2s%3d_%.2d", table[state->atomic_num - 1].symbol, screen_name[state->mode], integer, decimal);
watch_display_string(buf, 0);
}
char buf[2] = {'\0'};
static void start_quick_cyc(void){
_quick_ticks_running = true;
movement_request_tick_frequency(FREQ_FAST);
}
buf[0] = (state->selection_index == 0 && subsec == 0) ? ' ' : digit0 + '0';
watch_display_string(buf, 5);
static void stop_quick_cyc(void){
_quick_ticks_running = false;
movement_request_tick_frequency(FREQ);
}
buf[0] = (state->selection_index == 1 && subsec == 0) ? ' ' : digit1 + '0';
watch_display_string(buf, 6);
static int16_t _loop_text(const char* text, int8_t curr_loc, uint8_t char_len){
// if curr_loc, then use that many ticks as a delay before looping
char buf[15];
uint8_t next_pos;
uint8_t text_len = strlen(text);
uint8_t pos = 10 - char_len;
if (curr_loc == -1) curr_loc = 0; // To avoid double-showing the 0
if (char_len >= text_len || curr_loc < 0) {
sprintf(buf, "%s", text);
watch_display_string(buf, pos);
if (curr_loc < 0) return ++curr_loc;
return 0;
}
else if (curr_loc == (text_len + 1))
curr_loc = 0;
next_pos = curr_loc + 1;
sprintf(buf, "%.6s %.6s", text + curr_loc, text);
watch_display_string(buf, pos);
return next_pos;
}
buf[0] = (state->selection_index == 2 && subsec == 0) ? ' ' : digit2 + '0';
watch_display_string(buf, 7);
static void _display_title(periodic_state_t *state){
state->atomic_num = 0;
watch_clear_colon();
watch_clear_all_indicators();
_text_looping = title_text;
_text_pos = FREQ * -1;
_text_pos = _loop_text(_text_looping, _text_pos, 5);
}
char buf2[3];
sprintf(buf2, "%s", table[state->atomic_num - 1].name);
watch_display_string(buf2, 0);
static void _display_screen(periodic_state_t *state, bool should_sound){
watch_clear_display();
watch_clear_all_indicators();
switch (state->mode)
{
case SCREEN_TITLE:
_display_title(state);
break;
case SCREEN_ELEMENT:
case SCREENS_COUNT:
_display_element(state);
break;
case SCREEN_ATOMIC_MASS:
_display_atomic_mass(state);
break;
case SCREEN_DISCOVER_YEAR:
_display_year_discovered(state);
break;
case SCREEN_ELECTRONEGATIVITY:
_display_electronegativity(state);
break;
case SCREEN_FULL_NAME:
_display_name(state);
break;
}
if (should_sound) watch_buzzer_play_note(BUZZER_NOTE_C7, 50);
}
_warning(state);
static void _handle_forward(periodic_state_t *state, bool should_sound){
state->atomic_num = (state->atomic_num % MAX_ELEMENT) + 1; // Wraps back to 1
state->mode = SCREEN_ELEMENT;
_display_screen(state, false);
if (should_sound) watch_buzzer_play_note(BUZZER_NOTE_C7, 50);
}
static void _handle_backward(periodic_state_t *state, bool should_sound){
if (state->atomic_num <= 1) state->atomic_num = MAX_ELEMENT;
else state->atomic_num = state->atomic_num - 1;
state->mode = SCREEN_ELEMENT;
_display_screen(state, false);
if (should_sound) watch_buzzer_play_note(BUZZER_NOTE_A6, 50);
}
static void _handle_mode_still_pressed(periodic_state_t *state, bool should_sound) {
if (_ts_ticks != 0){
if (!watch_get_pin_level(BTN_MODE)) {
_ts_ticks = 0;
return;
}
else if (--_ts_ticks == 0){
switch (state->mode)
{
case SCREEN_TITLE:
movement_move_to_face(0);
return;
case SCREEN_ELEMENT:
state->mode = SCREEN_TITLE;
_display_screen(state, should_sound);
break;
default:
state->mode = SCREEN_ELEMENT;
_display_screen(state, should_sound);
break;
}
_ts_ticks = 2;
}
}
}
bool periodic_face_loop(movement_event_t event, movement_settings_t *settings, void *context)
{
periodic_state_t *state = (periodic_state_t *)context;
switch (event.event_type)
{
case EVENT_ACTIVATE:
_periodic_face_update_lcd(state);
state->mode = SCREEN_TITLE;
_display_screen(state, false);
break;
case EVENT_TICK:
if (state->mode != 0)
{
_periodic_face_selection(state, event.subsecond % 2);
if (state->mode == SCREEN_TITLE) _text_pos = _loop_text(_text_looping, _text_pos, 5);
else if (state->mode == SCREEN_FULL_NAME) _text_pos = _loop_text(_text_looping, _text_pos, 6);
if (_quick_ticks_running) {
if (watch_get_pin_level(BTN_LIGHT)) _handle_backward(state, false);
else if (watch_get_pin_level(BTN_ALARM)) _handle_forward(state, false);
else stop_quick_cyc();
}
_handle_mode_still_pressed(state, settings->bit.button_should_sound);
break;
case EVENT_LIGHT_BUTTON_UP:
// Only light LED when in regular mode
if (state->mode != MODE_VIEW)
{
state->selection_index = (state->selection_index + 1) % 3;
_periodic_face_selection(state, event.subsecond % 2);
}
_handle_backward(state, settings->bit.button_should_sound);
break;
case EVENT_LIGHT_BUTTON_DOWN:
if (state->mode != MODE_SELECT)
movement_illuminate_led();
break;
case EVENT_ALARM_BUTTON_UP:
if (state->mode == MODE_VIEW)
{
state->atomic_num = (state->atomic_num % MAX_ELEMENT) + 1; // Wraps back to 1
_periodic_face_update_lcd(state);
if (settings->bit.button_should_sound) watch_buzzer_play_note(BUZZER_NOTE_C7, 50);
}
else
{
_periodic_face_selection_increment(state);
_periodic_face_selection(state, event.subsecond % 2);
}
_handle_forward(state, settings->bit.button_should_sound);
break;
case EVENT_ALARM_LONG_PRESS:
// Toggle between selection mode and regular
if (state->mode == MODE_VIEW)
{
state->mode = MODE_SELECT;
_periodic_face_selection(state, event.subsecond % 2);
start_quick_cyc();
_handle_forward(state, settings->bit.button_should_sound);
break;
case EVENT_LIGHT_LONG_PRESS:
start_quick_cyc();
_handle_backward(state, settings->bit.button_should_sound);
break;
case EVENT_MODE_BUTTON_UP:
if (state->mode == SCREEN_TITLE) movement_move_to_next_face();
else {
state->mode = (state->mode + 1) % SCREENS_COUNT;
if (state->mode == SCREEN_TITLE)
state->mode = (state->mode + 1) % SCREENS_COUNT;
if (state->mode == SCREEN_ELEMENT){
_display_screen(state, false);
if (settings->bit.button_should_sound) watch_buzzer_play_note(BUZZER_NOTE_A6, 50);
}
else
_display_screen(state, settings->bit.button_should_sound);
}
else
break;
case EVENT_MODE_LONG_PRESS:
switch (state->mode)
{
state->mode = MODE_VIEW;
_periodic_face_update_lcd(state);
case SCREEN_TITLE:
movement_move_to_face(0);
return true;
case SCREEN_ELEMENT:
state->mode = SCREEN_TITLE;
_display_screen(state, settings->bit.button_should_sound);
break;
default:
state->mode = SCREEN_ELEMENT;
_display_screen(state, settings->bit.button_should_sound);
break;
}
if (settings->bit.button_should_sound) watch_buzzer_play_note(BUZZER_NOTE_C8, 50);
_ts_ticks = 2;
break;
case EVENT_TIMEOUT:
break;
case EVENT_LOW_ENERGY_UPDATE:
// Display title in LE mode.
if (state->mode == SCREEN_TITLE) break;
state->mode = SCREEN_TITLE;
_display_screen(state, false);
break;
default:
return movement_default_loop_handler(event, settings);

View file

@ -29,9 +29,34 @@
/*
* Periodic Table Face
* Allows for viewing data of the Periodic Table on your wrist.
* When looking at an element, it'll show you the atomic number on the center of the screen,
* symbol on the right, and it's group on the top-right.
* Pressing the mode button will cycle through the pages.
* Page 1: Atomic Mass
* Page 2: Year Discovered
* Page 3: Electronegativity
* Page 4: Full Name of the Element
*
* Controls:
* Mode Press
* On Title: Next Screen
* Else: Cycle through info of an element
* Mode Hold
* On Title: First Screen
* On Element Symbol Screen: Go to Title Screen
* Else: Go to Symbol Screen of current element
* If you are in a subscreen and just keep holding MODE, you will go through all of these menus without needing to depress.
*
* Light Press
* Previous Element
* Light Hold
* Fast Cycle through Previous Elements
*
* Elements can be viewed sequentially with a short press of the alarm button,
* or the atomic number can be input directly after holding down the alarm button.
* Alarm Press
* Next Element
* Alarm Hold
* Fast Cycle through Next Elements
*
*/