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keys.c
executable file
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keys.c
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//(c) uARM project https://github.com/uARM-Palm/uARM uARM@dmitry.gr
#include <string.h>
#include <stdlib.h>
#include "util.h"
#include "keys.h"
#define MAX_GPIO_KEYS 64
#define MAX_KP_ROWS 12
#define MAX_KP_COLS 8
struct KeyGpio {
uint32_t sdlKey; //0 for inval
int8_t gpioNum;
bool activeHigh;
};
struct KeyMatrix {
uint32_t sdlKey; //0 for inval
bool isDown;
};
struct Keypad {
struct SocGpio *gpio;
struct KeyGpio gpios[MAX_GPIO_KEYS];
int8_t kpGpioRow[MAX_KP_ROWS]; //<0 for inval
int8_t kpGpioCol[MAX_KP_COLS]; //<0 for inval
struct KeyMatrix km[MAX_KP_ROWS][MAX_KP_COLS];
bool recalcing, matrixHasPullUps;
};
static void keypadPrvMatrixRecalc(struct Keypad *kp)
{
int i, j;
kp->recalcing = true;
//calc input rows
for (i = 0; i < MAX_KP_ROWS; i++) {
bool rowState = kp->matrixHasPullUps;
bool haveStrong = false;
if (kp->kpGpioRow[i] < 0)
continue;
if (socGpioGetState(kp->gpio, kp->kpGpioRow[i]) != SocGpioStateHiZ)
continue;
for (j = 0; j < MAX_KP_COLS; j++) {
uint8_t colSta;
if (kp->kpGpioCol[j] < 0)
continue;
if (!kp->km[i][j].isDown)
continue;
colSta = socGpioGetState(kp->gpio, kp->kpGpioCol[j]);
if (colSta == SocGpioStateLow || colSta == SocGpioStateHigh) {
bool colHi = colSta == SocGpioStateHigh;
if (haveStrong && !rowState != !colHi)
fprintf(stderr, "row %u (%u) being pulled in different directions\n", i, kp->kpGpioRow[i]);
haveStrong = true;
rowState = rowState && colHi;
}
}
socGpioSetState(kp->gpio, kp->kpGpioRow[i], rowState);
}
//calc input cols
for (j = 0; j < MAX_KP_COLS; j++) {
bool colState = kp->matrixHasPullUps;
bool haveStrong = false;
if (kp->kpGpioCol[j] < 0)
continue;
if (socGpioGetState(kp->gpio, kp->kpGpioCol[j]) != SocGpioStateHiZ)
continue;
for (i = 0; i < MAX_KP_ROWS; i++) {
uint8_t rowSta;
if (kp->kpGpioRow[i] < 0)
continue;
if (!kp->km[i][j].isDown)
continue;
rowSta = socGpioGetState(kp->gpio, kp->kpGpioRow[i]);
if (rowSta == SocGpioStateLow || rowSta == SocGpioStateHigh) {
bool rowHi = rowSta == SocGpioStateHigh;
if (haveStrong && !rowHi != !colState)
fprintf(stderr, "col %u (%u) being pulled in different directions\n", j, kp->kpGpioCol[j]);
haveStrong = true;
colState = rowHi && colState;
}
}
socGpioSetState(kp->gpio, kp->kpGpioCol[j], colState);
}
kp->recalcing = false;
}
static void keypadPrvGpioDirsChanged(void* userData)
{
struct Keypad *kp = (struct Keypad*)userData;
if (!kp->recalcing)
keypadPrvMatrixRecalc(kp);
}
struct Keypad* keypadInit(struct SocGpio *gpio, bool matrixHasPullUps)
{
struct Keypad *kp = (struct Keypad*)malloc(sizeof(*kp));
unsigned i;
if (!kp)
ERR("cannot alloc Keypad");
memset(kp, 0, sizeof (*kp));
kp->gpio = gpio;
kp->matrixHasPullUps = matrixHasPullUps;
for (i = 0; i < MAX_KP_ROWS; i++)
kp->kpGpioRow[i] = -1;
for (i = 0; i < MAX_KP_COLS; i++)
kp->kpGpioCol[i] = -1;
socGpioSetDirsChangedNotif(kp->gpio, keypadPrvGpioDirsChanged, kp);
return kp;
}
void keypadSdlKeyEvt(struct Keypad *kp, uint32_t sdlKey, bool wentDown)
{
int i, j;
for (i = 0; i < MAX_GPIO_KEYS; i++) {
if (kp->gpios[i].sdlKey == sdlKey && kp->gpios[i].gpioNum >= 0) {
socGpioSetState(kp->gpio, kp->gpios[i].gpioNum, (wentDown && kp->gpios[i].activeHigh) || (!wentDown && !kp->gpios[i].activeHigh));
}
}
for (i = 0; i < MAX_KP_ROWS; i++) {
if (kp->kpGpioRow[i] < 0)
continue;
for (j = 0; j < MAX_KP_COLS; j++) {
if (kp->kpGpioCol[j] < 0)
continue;
if (kp->km[i][j].sdlKey != sdlKey)
continue;
kp->km[i][j].isDown = wentDown;
}
}
keypadPrvMatrixRecalc(kp);
}
static void keypadPrvGpioChanged(void* userData, uint32_t gpio, bool oldState, bool newState)
{
struct Keypad *kp = (struct Keypad*)userData;
(void)gpio;
(void)oldState;
(void)newState;
if (!kp->recalcing)
keypadPrvMatrixRecalc(kp);
}
static bool keypadDefineRowOrCol(struct Keypad *kp, unsigned idx, int8_t *arr, unsigned max, int8_t gpioNum)
{
if (idx >= max)
return false;
if (arr[idx] >= 0)
return false;
arr[idx] = gpioNum;
socGpioSetNotif(kp->gpio, gpioNum, keypadPrvGpioChanged, kp);
socGpioSetState(kp->gpio, gpioNum, kp->matrixHasPullUps);
keypadPrvMatrixRecalc(kp);
return true;
}
bool keypadDefineRow(struct Keypad *kp, unsigned rowIdx, int8_t gpio)
{
return keypadDefineRowOrCol(kp, rowIdx, kp->kpGpioRow, MAX_KP_ROWS, gpio);
}
bool keypadDefineCol(struct Keypad *kp, unsigned colIdx, int8_t gpio)
{
return keypadDefineRowOrCol(kp, colIdx, kp->kpGpioCol, MAX_KP_COLS, gpio);
}
bool keypadAddGpioKey(struct Keypad *kp, uint32_t sdlKey, int8_t gpioNum, bool activeHigh)
{
unsigned i;
for (i = 0; i < MAX_GPIO_KEYS; i++) {
if (!kp->gpios[i].sdlKey) {
kp->gpios[i].sdlKey = sdlKey;
kp->gpios[i].gpioNum = gpioNum;
kp->gpios[i].activeHigh = activeHigh;
socGpioSetState(kp->gpio, gpioNum, !activeHigh);
return true;
}
}
return false;
}
bool keypadAddMatrixKey(struct Keypad *kp, uint32_t sdlKey, unsigned row, unsigned col)
{
//coords must be valid
if (row >= MAX_KP_ROWS || col >= MAX_KP_COLS)
return false;
//and rows and cols must be hooked up
if (kp->kpGpioRow[row] < 0 || kp->kpGpioCol[col] < 0)
return false;
//must be unused
if (kp->km[row][col].sdlKey)
return false;
kp->km[row][col].sdlKey = sdlKey;
kp->km[row][col].isDown = false;
return true;
}