416 lines
9.9 KiB
C
416 lines
9.9 KiB
C
/*
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* Module for interfacing with cheap rotary switches that
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* are much used in the automtive industry as the cntrols for
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* CD players and the like.
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*
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* Philip Gladstone, N1DQ
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*/
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#include "module.h"
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#include "lauxlib.h"
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#include "platform.h"
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#include "task/task.h"
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#include <stdint.h>
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#include <stdlib.h>
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#include "user_interface.h"
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#include "driver/rotary.h"
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#define MASK(x) (1 << ROTARY_ ## x ## _INDEX)
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#define ROTARY_PRESS_INDEX 0
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#define ROTARY_LONGPRESS_INDEX 1
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#define ROTARY_RELEASE_INDEX 2
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#define ROTARY_TURN_INDEX 3
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#define ROTARY_CLICK_INDEX 4
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#define ROTARY_DBLCLICK_INDEX 5
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#define ROTARY_ALL 0x3f
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#define LONGPRESS_DELAY_US 500000
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#define CLICK_DELAY_US 500000
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#define CALLBACK_COUNT 6
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#ifdef LUA_USE_MODULES_ROTARY
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#if !defined(GPIO_INTERRUPT_ENABLE) || !defined(GPIO_INTERRUPT_HOOK_ENABLE)
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#error Must have GPIO_INTERRUPT and GPIO_INTERRUPT_HOOK if using ROTARY module
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#endif
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#endif
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typedef struct {
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int lastpos;
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int last_recent_event_was_press : 1;
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int last_recent_event_was_release : 1;
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int timer_running : 1;
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int possible_dbl_click : 1;
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uint8_t id;
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int click_delay_us;
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int longpress_delay_us;
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uint32_t last_event_time;
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int callback[CALLBACK_COUNT];
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ETSTimer timer;
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} DATA;
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static DATA *data[ROTARY_CHANNEL_COUNT];
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static task_handle_t tasknumber;
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static void lrotary_timer_done(void *param);
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static void lrotary_check_timer(DATA *d, uint32_t time_us, bool dotimer);
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static void callback_free_one(lua_State *L, int *cb_ptr)
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{
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if (*cb_ptr != LUA_NOREF) {
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luaL_unref(L, LUA_REGISTRYINDEX, *cb_ptr);
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*cb_ptr = LUA_NOREF;
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}
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}
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static void callback_free(lua_State* L, unsigned int id, int mask)
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{
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DATA *d = data[id];
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if (d) {
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int i;
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for (i = 0; i < CALLBACK_COUNT; i++) {
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if (mask & (1 << i)) {
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callback_free_one(L, &d->callback[i]);
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}
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}
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}
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}
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static int callback_setOne(lua_State* L, int *cb_ptr, int arg_number)
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{
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if (lua_isfunction(L, arg_number)) {
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lua_pushvalue(L, arg_number); // copy argument (func) to the top of stack
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callback_free_one(L, cb_ptr);
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*cb_ptr = luaL_ref(L, LUA_REGISTRYINDEX);
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return 0;
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}
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return -1;
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}
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static int callback_set(lua_State* L, int id, int mask, int arg_number)
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{
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DATA *d = data[id];
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int result = 0;
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int i;
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for (i = 0; i < CALLBACK_COUNT; i++) {
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if (mask & (1 << i)) {
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result |= callback_setOne(L, &d->callback[i], arg_number);
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}
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}
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return result;
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}
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static void callback_callOne(lua_State* L, int cb, int mask, int arg, uint32_t time)
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{
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if (cb != LUA_NOREF) {
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lua_rawgeti(L, LUA_REGISTRYINDEX, cb);
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lua_pushinteger(L, mask);
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lua_pushinteger(L, arg);
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lua_pushinteger(L, time);
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luaL_pcallx(L, 3, 0);
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}
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}
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static void callback_call(lua_State* L, DATA *d, int cbnum, int arg, uint32_t time)
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{
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if (d) {
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callback_callOne(L, d->callback[cbnum], 1 << cbnum, arg, time);
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}
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}
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int platform_rotary_exists( unsigned int id )
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{
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return (id < ROTARY_CHANNEL_COUNT);
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}
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#include "pm/swtimer.h"
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// Lua: setup(id, phase_a, phase_b [, press])
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static int lrotary_setup( lua_State* L )
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{
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unsigned int id;
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id = luaL_checkinteger( L, 1 );
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MOD_CHECK_ID( rotary, id );
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if (rotary_close(id)) {
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return luaL_error( L, "Unable to close switch." );
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}
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callback_free(L, id, ROTARY_ALL);
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if (!data[id]) {
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data[id] = (DATA *) calloc(1, sizeof(DATA));
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if (!data[id]) {
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return -1;
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}
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}
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DATA *d = data[id];
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memset(d, 0, sizeof(*d));
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d->id = id;
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os_timer_setfn(&d->timer, lrotary_timer_done, (void *) d);
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SWTIMER_REG_CB(lrotary_timer_done, SWTIMER_RESUME);
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//lrotary_timer_done checks time elapsed since last event
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//My guess: Since proper functionality relies on some variables to be reset via timer callback and state would be invalid anyway.
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//It is probably best to resume this timer so it can reset it's state variables
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int i;
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for (i = 0; i < CALLBACK_COUNT; i++) {
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d->callback[i] = LUA_NOREF;
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}
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d->click_delay_us = CLICK_DELAY_US;
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d->longpress_delay_us = LONGPRESS_DELAY_US;
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int phase_a = luaL_checkinteger(L, 2);
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luaL_argcheck(L, platform_gpio_exists(phase_a) && phase_a > 0, 2, "Invalid pin");
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int phase_b = luaL_checkinteger(L, 3);
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luaL_argcheck(L, platform_gpio_exists(phase_b) && phase_b > 0, 3, "Invalid pin");
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int press;
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if (lua_gettop(L) >= 4) {
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press = luaL_checkinteger(L, 4);
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luaL_argcheck(L, platform_gpio_exists(press) && press > 0, 4, "Invalid pin");
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} else {
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press = -1;
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}
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if (lua_gettop(L) >= 5) {
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d->longpress_delay_us = 1000 * luaL_checkinteger(L, 5);
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luaL_argcheck(L, d->longpress_delay_us > 0, 5, "Invalid timeout");
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}
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if (lua_gettop(L) >= 6) {
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d->click_delay_us = 1000 * luaL_checkinteger(L, 6);
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luaL_argcheck(L, d->click_delay_us > 0, 6, "Invalid timeout");
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}
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if (rotary_setup(id, phase_a, phase_b, press, tasknumber)) {
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return luaL_error(L, "Unable to setup rotary switch.");
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}
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return 0;
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}
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// Lua: close( id )
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static int lrotary_close( lua_State* L )
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{
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unsigned int id;
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id = luaL_checkinteger( L, 1 );
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MOD_CHECK_ID( rotary, id );
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callback_free(L, id, ROTARY_ALL);
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DATA *d = data[id];
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if (d) {
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data[id] = NULL;
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free(d);
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}
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if (rotary_close( id )) {
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return luaL_error( L, "Unable to close switch." );
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}
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return 0;
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}
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// Lua: on( id, mask[, cb] )
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static int lrotary_on( lua_State* L )
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{
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unsigned int id;
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id = luaL_checkinteger( L, 1 );
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MOD_CHECK_ID( rotary, id );
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int mask = luaL_checkinteger(L, 2);
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if (lua_gettop(L) >= 3) {
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if (callback_set(L, id, mask, 3)) {
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return luaL_error( L, "Unable to set callback." );
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}
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} else {
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callback_free(L, id, mask);
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}
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return 0;
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}
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// Lua: getpos( id ) -> pos, PRESS/RELEASE
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static int lrotary_getpos( lua_State* L )
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{
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unsigned int id;
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id = luaL_checkinteger( L, 1 );
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MOD_CHECK_ID( rotary, id );
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int pos = rotary_getpos(id);
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if (pos == -1) {
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return 0;
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}
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lua_pushnumber(L, (pos << 1) >> 1);
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lua_pushnumber(L, (pos & 0x80000000) ? MASK(PRESS) : MASK(RELEASE));
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return 2;
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}
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// Returns TRUE if there maybe/is more stuff to do
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static bool lrotary_dequeue_single(lua_State* L, DATA *d)
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{
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bool something_pending = FALSE;
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if (d) {
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// This chnnel is open
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rotary_event_t result;
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if (rotary_getevent(d->id, &result)) {
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int pos = result.pos;
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lrotary_check_timer(d, result.time_us, 0);
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if (pos != d->lastpos) {
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// We have something to enqueue
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if ((pos ^ d->lastpos) & 0x7fffffff) {
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// Some turning has happened
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callback_call(L, d, ROTARY_TURN_INDEX, (pos << 1) >> 1, result.time_us);
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}
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if ((pos ^ d->lastpos) & 0x80000000) {
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// pressing or releasing has happened
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callback_call(L, d, (pos & 0x80000000) ? ROTARY_PRESS_INDEX : ROTARY_RELEASE_INDEX, (pos << 1) >> 1, result.time_us);
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if (pos & 0x80000000) {
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// Press
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if (d->last_recent_event_was_release && result.time_us - d->last_event_time < d->click_delay_us) {
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d->possible_dbl_click = 1;
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}
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d->last_recent_event_was_press = 1;
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d->last_recent_event_was_release = 0;
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} else {
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// Release
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d->last_recent_event_was_press = 0;
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if (d->possible_dbl_click) {
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callback_call(L, d, ROTARY_DBLCLICK_INDEX, (pos << 1) >> 1, result.time_us);
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d->possible_dbl_click = 0;
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// Do this to suppress the CLICK event
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d->last_recent_event_was_release = 0;
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} else {
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d->last_recent_event_was_release = 1;
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}
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}
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d->last_event_time = result.time_us;
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}
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d->lastpos = pos;
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}
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something_pending = rotary_has_queued_event(d->id);
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}
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lrotary_check_timer(d, system_get_time(), 1);
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}
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return something_pending;
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}
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static void lrotary_timer_done(void *param)
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{
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DATA *d = (DATA *) param;
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d->timer_running = 0;
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lrotary_check_timer(d, system_get_time(), 1);
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}
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static void lrotary_check_timer(DATA *d, uint32_t time_us, bool dotimer)
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{
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uint32_t delay = time_us - d->last_event_time;
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if (d->timer_running) {
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os_timer_disarm(&d->timer);
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d->timer_running = 0;
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}
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int timeout = -1;
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if (d->last_recent_event_was_press) {
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if (delay > d->longpress_delay_us) {
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callback_call(lua_getstate(), d, ROTARY_LONGPRESS_INDEX, (d->lastpos << 1) >> 1, d->last_event_time + d->longpress_delay_us);
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d->last_recent_event_was_press = 0;
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} else {
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timeout = (d->longpress_delay_us - delay) / 1000;
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}
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}
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if (d->last_recent_event_was_release) {
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if (delay > d->click_delay_us) {
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callback_call(lua_getstate(), d, ROTARY_CLICK_INDEX, (d->lastpos << 1) >> 1, d->last_event_time + d->click_delay_us);
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d->last_recent_event_was_release = 0;
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} else {
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timeout = (d->click_delay_us - delay) / 1000;
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}
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}
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if (dotimer && timeout >= 0) {
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d->timer_running = 1;
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os_timer_arm(&d->timer, timeout + 1, 0);
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}
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}
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static void lrotary_task(os_param_t param, uint8_t prio)
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{
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(void) param;
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(void) prio;
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uint8_t *task_queue_ptr = (uint8_t*) param;
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if (task_queue_ptr) {
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// Signal that new events may need another task post
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*task_queue_ptr = 0;
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}
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int id;
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bool need_to_post = FALSE;
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lua_State *L = lua_getstate();
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for (id = 0; id < ROTARY_CHANNEL_COUNT; id++) {
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DATA *d = data[id];
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if (d) {
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if (lrotary_dequeue_single(L, d)) {
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need_to_post = TRUE;
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}
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}
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}
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if (need_to_post) {
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// If there is pending stuff, queue another task
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task_post_medium(tasknumber, 0);
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}
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}
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static int rotary_open(lua_State *L)
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{
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tasknumber = task_get_id(lrotary_task);
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return 0;
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}
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// Module function map
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LROT_BEGIN(rotary, NULL, 0)
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LROT_FUNCENTRY( setup, lrotary_setup )
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LROT_FUNCENTRY( close, lrotary_close )
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LROT_FUNCENTRY( on, lrotary_on )
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LROT_FUNCENTRY( getpos, lrotary_getpos )
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LROT_NUMENTRY( TURN, MASK(TURN) )
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LROT_NUMENTRY( PRESS, MASK(PRESS) )
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LROT_NUMENTRY( RELEASE, MASK(RELEASE) )
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LROT_NUMENTRY( LONGPRESS, MASK(LONGPRESS) )
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LROT_NUMENTRY( CLICK, MASK(CLICK) )
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LROT_NUMENTRY( DBLCLICK, MASK(DBLCLICK) )
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LROT_NUMENTRY( ALL, ROTARY_ALL )
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LROT_END(rotary, NULL, 0)
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NODEMCU_MODULE(ROTARY, "rotary", rotary, rotary_open);
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