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This commit is contained in:
Edward Emelianov 2025-09-23 22:25:07 +03:00
parent 2465cd9bd4
commit 02c6bd124f
9 changed files with 175 additions and 114 deletions
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3
F3:F303/MLX90640multi/i2c.c
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@ -44,7 +44,7 @@ static volatile uint16_t dma_remain = 0; // remain bytes of DMA read/write
static inline int isI2Cbusy(){ static inline int isI2Cbusy(){
cntr = Tms; cntr = Tms;
do{ do{
if(Tms - cntr > I2C_TIMEOUT){ U("Timeout, DMA transfer in progress?"); return 1;} if(Tms - cntr > I2C_TIMEOUT){ USND("Timeout, DMA transfer in progress?"); return 1;}
}while(I2Cbusy); }while(I2Cbusy);
return 0; return 0;
} }
@ -329,6 +329,7 @@ void i2c_bufdudump(){
// get DMA buffer with conversion to little-endian (if transfer was for 16-bit) // get DMA buffer with conversion to little-endian (if transfer was for 16-bit)
uint16_t *i2c_dma_getbuf(uint16_t *len){ uint16_t *i2c_dma_getbuf(uint16_t *len){
if(i2c_got_DMA) USND("DMA GOT!");
if(!i2c_got_DMA || i2cbuflen < 1) return NULL; if(!i2c_got_DMA || i2cbuflen < 1) return NULL;
i2c_got_DMA = 0; i2c_got_DMA = 0;
i2cbuflen >>= 1; // for hexdump16 - now buffer have uint16_t! i2cbuflen >>= 1; // for hexdump16 - now buffer have uint16_t!

17
F3:F303/MLX90640multi/main.c
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@ -44,7 +44,8 @@ int main(void){
i2c_setup(I2C_SPEED_100K); i2c_setup(I2C_SPEED_100K);
USB_setup(); USB_setup();
USBPU_ON(); USBPU_ON();
uint32_t ctr = Tms, Tlastima = 0; uint32_t ctr = Tms, Tlastima[N_SESORS] = {0};
mlx_continue(); // init state machine
while(1){ while(1){
if(Tms - ctr > 499){ if(Tms - ctr > 499){
ctr = Tms; ctr = Tms;
@ -66,13 +67,13 @@ int main(void){
} }
} }
mlx_process(); mlx_process();
if(cartoon){ if(cartoon) for(int i = 0; i < N_SESORS; ++i){
uint32_t Tnow = mlx_lastimT(); uint32_t Tnow = mlx_lastimT(i);
if(Tnow != Tlastima){ if(Tnow != Tlastima[i]){
fp_t *i = mlx_getimage(&Tnow); fp_t *im = mlx_getimage(i);
if(i){ if(im){
U("Timage="); USND(u2str(Tnow)); drawIma(i); U("Timage="); USND(u2str(Tnow)); drawIma(im);
Tlastima = Tnow; Tlastima[i] = Tnow;
} }
} }
} }

BIN
F3:F303/MLX90640multi/mlx90640.bin
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3
F3:F303/MLX90640multi/mlx90640.c
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@ -264,7 +264,8 @@ int get_parameters(const uint16_t dataarray[MLX_DMA_MAXLEN], MLX90640_params *pa
fp_t *process_image(const MLX90640_params *params, const int16_t subpage1[REG_IMAGEDATA_LEN]){ fp_t *process_image(const MLX90640_params *params, const int16_t subpage1[REG_IMAGEDATA_LEN]){
#define IMD_VAL(reg) subpage1[IMD_IDX(reg)] #define IMD_VAL(reg) subpage1[IMD_IDX(reg)]
// 11.2.2.1. Resolution restore // 11.2.2.1. Resolution restore
fp_t resol_corr = (fp_t)(1<<params->resolEE) / (1<<mlx_getresolution()); // calibrated resol/current resol //fp_t resol_corr = (fp_t)(1<<params->resolEE) / (1<<mlx_getresolution()); // calibrated resol/current resol
fp_t resol_corr = (fp_t)(1<<params->resolEE) / (1<<2); // ONLY DEFAULT!
int16_t i16a; int16_t i16a;
fp_t dvdd, dTa, Kgain, pixOS[2]; // values for both subpages fp_t dvdd, dTa, Kgain, pixOS[2]; // values for both subpages
// 11.2.2.2. Supply voltage value calculation // 11.2.2.2. Supply voltage value calculation

2
F3:F303/MLX90640multi/mlx90640.creator.user
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@ -1,6 +1,6 @@
<?xml version="1.0" encoding="UTF-8"?> <?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE QtCreatorProject> <!DOCTYPE QtCreatorProject>
<!-- Written by QtCreator 17.0.1, 2025-09-22T23:16:50. --> <!-- Written by QtCreator 17.0.1, 2025-09-23T22:23:26. -->
<qtcreator> <qtcreator>
<data> <data>
<variable>EnvironmentId</variable> <variable>EnvironmentId</variable>

165
F3:F303/MLX90640multi/mlxproc.c
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@ -21,36 +21,44 @@
#include "i2c.h" #include "i2c.h"
#include "mlxproc.h" #include "mlxproc.h"
#include "mlx90640_regs.h" #include "mlx90640_regs.h"
//#include "usb_dev.h" #include "usb_dev.h"
//#include "strfunc.h" #include "strfunc.h"
extern volatile uint32_t Tms; extern volatile uint32_t Tms;
// current state and state before `stop` called // current state and state before `stop` called
static mlx_state_t MLX_state = MLX_NOTINIT, MLX_oldstate = MLX_NOTINIT; static mlx_state_t MLX_state = MLX_RELAX, MLX_oldstate = MLX_RELAX;
static MLX90640_params p;
static int parsrdy = 0;
static uint8_t MLX_address = 0x33 << 1;
static int errctr = 0; // errors counter - cleared by mlx_continue static int errctr = 0; // errors counter - cleared by mlx_continue
static uint32_t Tlastimage = 0; static uint32_t Tlastimage[N_SESORS] = {0};
static uint8_t resolution = 2; // default: 18bit
static int16_t subpage1[REG_IMAGEDATA_LEN]; // subpages and configs of all sensors
static int16_t imdata[N_SESORS][REG_IMAGEDATA_LEN];
static uint16_t confdata[N_SESORS][MLX_DMA_MAXLEN];
static uint8_t sens_addresses[N_SESORS] = {0x10<<1, 0x11<<1, 0x12<<1, 0x13<<1, 0x14<<1}; // addresses of all sensors (if 0 - omit this one)
static uint8_t sensaddr[N_SESORS];
static int sensno = -1;
// get current state // get current state
mlx_state_t mlx_state(){ return MLX_state; } mlx_state_t mlx_state(){ return MLX_state; }
// set address // set address
int mlx_setaddr(uint8_t addr){ int mlx_setaddr(int n, uint8_t addr){
if(n < 0 || n > N_SESORS) return 0;
if(addr > 0x7f) return 0; if(addr > 0x7f) return 0;
MLX_address = addr << 1; sens_addresses[n] = addr << 1;
Tlastimage = Tms; // refresh counter for autoreset I2C in case of error Tlastimage[n] = Tms; // refresh counter for autoreset I2C in case of error
return 1; return 1;
} }
// temporary stop // pause state machine and stop
void mlx_stop(){ void mlx_pause(){
MLX_oldstate = MLX_state; MLX_oldstate = MLX_state;
MLX_state = MLX_RELAX; MLX_state = MLX_RELAX;
} }
void mlx_stop(){
MLX_oldstate = MLX_NOTINIT;
MLX_state = MLX_RELAX;
}
// continue processing // continue processing
void mlx_continue(){ void mlx_continue(){
errctr = 0; errctr = 0;
@ -62,96 +70,145 @@ void mlx_continue(){
//case MLX_NOTINIT: //case MLX_NOTINIT:
//case MLX_WAITPARAMS: //case MLX_WAITPARAMS:
default: default:
memcpy(sensaddr, sens_addresses, sizeof(sens_addresses));
MLX_state = MLX_NOTINIT; MLX_state = MLX_NOTINIT;
sensno = -1;
break; break;
} }
} }
static int nextsensno(int s){
if(mlx_nactive() == 0){
mlx_stop();
return -1;
}
int next = s + 1;
for(; next < N_SESORS; ++next) if(sensaddr[next]) break;
if(next == N_SESORS) return nextsensno(-1); // roll to start
U(i2str(next)); USND(" - new sensor number");
return next;
}
// count active sensors
int mlx_nactive(){
int N = 0;
for(int i = 0; i < N_SESORS; ++i) if(sensaddr[i]) ++N;
return N;
}
/**
* @brief mlx_process - main state machine
* 1. Process conf data for each sensor
* 2. Start image processing and store subpage1 for each sensor
*/
void mlx_process(){ void mlx_process(){
static uint32_t TT = 0;
if(Tms == TT) return;
TT = Tms;
// static uint32_t Tlast = 0; // static uint32_t Tlast = 0;
static int subpage = 0; static int subpage = 0;
if(MLX_state == MLX_RELAX) return;
if(sensno == -1){ // init
sensno = nextsensno(-1);
if(-1 == sensno) return; // no sensors found
}
switch(MLX_state){ switch(MLX_state){
case MLX_NOTINIT: // start reading parameters case MLX_NOTINIT: // start reading parameters
if(i2c_read_reg16(MLX_address, REG_CALIDATA, MLX_DMA_MAXLEN, 1)){ if(i2c_read_reg16(sensaddr[sensno], REG_CALIDATA, MLX_DMA_MAXLEN, 1)){
U(i2str(sensno)); USND(" wait conf");
errctr = 0; errctr = 0;
MLX_state = MLX_WAITPARAMS; MLX_state = MLX_WAITPARAMS;
}else ++errctr; }else ++errctr;
break; break;
case MLX_WAITPARAMS: // check DMA ends and calculate parameters case MLX_WAITPARAMS: // check DMA ends and calculate parameters
if(i2c_dma_haderr()) MLX_state = MLX_NOTINIT; if(i2c_dma_haderr()){ MLX_state = MLX_NOTINIT; USND("DMA err");}
else{ else{
uint16_t len, *buf = i2c_dma_getbuf(&len); uint16_t len, *buf = i2c_dma_getbuf(&len);
if(buf){ if(buf) USND("READ");
if(len != MLX_DMA_MAXLEN) MLX_state = MLX_NOTINIT; else break;
else if(get_parameters(buf, &p)){ if(len != MLX_DMA_MAXLEN){ MLX_state = MLX_NOTINIT; break; }
memcpy(confdata[sensno], buf, MLX_DMA_MAXLEN * sizeof(uint16_t));
U(i2str(sensno)); USND(" got conf");
int next = nextsensno(sensno);
errctr = 0; errctr = 0;
MLX_state = MLX_WAITSUBPAGE; // fine! we could wait subpage if(next <= sensno) MLX_state = MLX_WAITSUBPAGE; // all configuration read
parsrdy = 1; else MLX_state = MLX_NOTINIT; // read next
} sensno = next;
} return;
} }
break; break;
case MLX_WAITSUBPAGE: // wait for subpage 1 ready case MLX_WAITSUBPAGE: // wait for subpage 1 ready
{uint16_t *got = i2c_read_reg16(MLX_address, REG_STATUS, 1, 0); {uint16_t *got = i2c_read_reg16(sensaddr[sensno], REG_STATUS, 1, 0);
if(got && *got & REG_STATUS_NEWDATA){ if(got && *got & REG_STATUS_NEWDATA){
if(subpage == (*got & REG_STATUS_SPNO)){ if(subpage == (*got & REG_STATUS_SPNO)){
if(subpage == 0){ subpage = 1; break; } errctr = 0;
if(i2c_read_reg16(MLX_address, REG_IMAGEDATA, REG_IMAGEDATA_LEN, 1)){ if(subpage == 0){ // omit zero subpage for each sensor
int next = nextsensno(sensno);
if(next <= sensno) subpage = 1; // all scanned - now wait for page 1
break;
}
if(i2c_read_reg16(sensaddr[sensno], REG_IMAGEDATA, REG_IMAGEDATA_LEN, 1)){
errctr = 0; errctr = 0;
MLX_state = MLX_READSUBPAGE; MLX_state = MLX_READSUBPAGE;
// U("spstart"); USB_putbyte('0'+subpage); USB_putbyte('='); USND(u2str(Tms - Tlast)); // U("spstart"); USB_putbyte('0'+subpage); USB_putbyte('='); USND(u2str(Tms - Tlast));
}else ++errctr; }else ++errctr;
} }
}} }else ++errctr;
}
break; break;
case MLX_READSUBPAGE: // wait ends of DMA read and calculate subpage case MLX_READSUBPAGE: // wait ends of DMA read and calculate subpage
if(i2c_dma_haderr()) MLX_state = MLX_NOTINIT; if(i2c_dma_haderr()) MLX_state = MLX_WAITSUBPAGE;
else{ else{
uint16_t len, *buf = i2c_dma_getbuf(&len); uint16_t len, *buf = i2c_dma_getbuf(&len);
if(buf){ if(buf){
// U("spread="); USND(u2str(Tms - Tlast)); // U("spread="); USND(u2str(Tms - Tlast));
if(len != REG_IMAGEDATA_LEN){ if(len != REG_IMAGEDATA_LEN){
MLX_state = MLX_WAITSUBPAGE; ++errctr;
}else{ }else{ // fine! we could check next sensor
errctr = 0; errctr = 0;
memcpy(subpage1, buf, REG_IMAGEDATA_LEN * sizeof(int16_t)); memcpy(imdata[sensno], buf, REG_IMAGEDATA_LEN * sizeof(int16_t));
MLX_state = MLX_WAITSUBPAGE; // fine! we could wait next subpage
// U("spgot="); USND(u2str(Tms - Tlast)); // U("spgot="); USND(u2str(Tms - Tlast));
Tlastimage = Tms; Tlastimage[sensno] = Tms;
// U("imgot="); USND(u2str(Tms - Tlast)); Tlast = Tms; // U("imgot="); USND(u2str(Tms - Tlast)); Tlast = Tms;
int next = nextsensno(sensno);
if(next <= sensno) subpage = 0; // roll to start - omit page 0 for all
} }
subpage = 0; MLX_state = MLX_WAITSUBPAGE;
} }
} }
break; break;
default: default:
return; return;
} }
if(MLX_state != MLX_RELAX && Tms - Tlastimage > MLX_I2CERR_TMOUT){ i2c_setup(i2c_curspeed); Tlastimage = Tms; } if(MLX_state != MLX_RELAX && Tms - Tlastimage[sensno] > MLX_I2CERR_TMOUT){ i2c_setup(i2c_curspeed); Tlastimage[sensno] = Tms; }
if(errctr > MLX_MAX_ERRORS) mlx_stop(); if(errctr > MLX_MAX_ERRORS){
errctr = 0;
sensaddr[sensno] = 0; // throw out this value
sensno = nextsensno(sensno);
}
} }
// get parameters - memcpy to user's // recalculate parameters
int mlx_getparams(MLX90640_params *pars){ int mlx_getparams(int n, MLX90640_params *pars){
if(!pars || !parsrdy) return 0; if(!pars) return 0;
memcpy(pars, &p, sizeof(p)); if(!get_parameters(confdata[n], pars)) return 0;
return 1; return 1;
} }
uint32_t mlx_lastimT(){ return Tlastimage; } uint32_t mlx_lastimT(int n){ return Tlastimage[n]; }
fp_t *mlx_getimage(uint32_t *Tgot){ fp_t *mlx_getimage(int n){
fp_t *ready_image = process_image(&p, subpage1); if(n < 0 || n >= N_SESORS || !sensaddr[n]) return NULL;
MLX90640_params p;
if(!get_parameters(confdata[n], &p)) return NULL;
fp_t *ready_image = process_image(&p, imdata[n]);
if(!ready_image) return NULL; if(!ready_image) return NULL;
if(Tgot) *Tgot = Tlastimage;
return ready_image; return ready_image;
} }
uint8_t mlx_getresolution(){ // this function can be run only when state machine is paused/stopped!
return resolution; // WARNING: `MLX_address` is shifted, `addr` - NOT!
} int mlx_sethwaddr(uint8_t MLX_address, uint8_t addr){
int mlx_sethwaddr(uint8_t addr){
if(addr > 0x7f) return 0; if(addr > 0x7f) return 0;
uint16_t data[2], *ptr; uint16_t data[2], *ptr;
if(!(ptr = i2c_read_reg16(MLX_address, REG_MLXADDR, 1, 0))) return 0; if(!(ptr = i2c_read_reg16(MLX_address, REG_MLXADDR, 1, 0))) return 0;
@ -179,13 +236,3 @@ int mlx_sethwaddr(uint8_t addr){
return 1; return 1;
} }
int mlx_setresolution(uint8_t newresol){
if(newresol > 3) return 0;
uint16_t data[2], *ptr;
if(!(ptr = i2c_read_reg16(MLX_address, REG_CONTROL, 1, 0))) return 0;
data[0] = REG_CONTROL;
data[1] = (*ptr & ~REG_CONTROL_RESMASK) | (newresol << 10);
if(!i2c_write(MLX_address, data, 2)) return 0;
resolution = newresol;
return 1;
}

17
F3:F303/MLX90640multi/mlxproc.h
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@ -22,6 +22,9 @@
#include "mlx90640.h" #include "mlx90640.h"
// amount of sensors processing
#define N_SESORS (5)
// maximal errors number to stop processing // maximal errors number to stop processing
#define MLX_MAX_ERRORS (11) #define MLX_MAX_ERRORS (11)
// if there's no new data by this time - reset bus // if there's no new data by this time - reset bus
@ -35,14 +38,14 @@ typedef enum{
MLX_RELAX // do nothing - pause MLX_RELAX // do nothing - pause
} mlx_state_t; } mlx_state_t;
int mlx_setaddr(uint8_t addr); int mlx_setaddr(int n, uint8_t addr);
mlx_state_t mlx_state(); mlx_state_t mlx_state();
int mlx_nactive();
void mlx_pause();
void mlx_stop(); void mlx_stop();
void mlx_continue(); void mlx_continue();
void mlx_process(); void mlx_process();
int mlx_getparams(MLX90640_params *pars); int mlx_getparams(int sensno, MLX90640_params *pars);
fp_t *mlx_getimage(uint32_t *Tgot); fp_t *mlx_getimage(int sensno);
int mlx_setresolution(uint8_t newresol); int mlx_sethwaddr(uint8_t MLX_address, uint8_t addr);
uint8_t mlx_getresolution(); uint32_t mlx_lastimT(int sensno);
int mlx_sethwaddr(uint8_t addr);
uint32_t mlx_lastimT();

74
F3:F303/MLX90640multi/proto.c
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@ -41,12 +41,12 @@ const char *helpstring =
"d - draw image in ASCII\n" "d - draw image in ASCII\n"
"i0..4 - setup I2C with speed 10k, 100k, 400k, 1M or 2M (experimental!)\n" "i0..4 - setup I2C with speed 10k, 100k, 400k, 1M or 2M (experimental!)\n"
"p - pause MLX\n" "p - pause MLX\n"
"r0..3 - change resolution (0 - 16bit, 3 - 19-bit)\n" "s - stop MLX (and start from zero @ 'c'\n"
"t - show temperature map\n" "t - show temperature map\n"
"C - \"cartoon\" mode on/off (show each new image)\n" "C - \"cartoon\" mode on/off (show each new image)\n"
"D - dump MLX parameters\n" "Dn - dump MLX parameters for sensor number n\n"
"G - get MLX state\n" "G - get MLX state\n"
"Ia addr - set device address\n" "Ia addr [n] - set device address for interactive work or (with n) change address of n'th sensor\n"
"Ir reg n - read n words from 16-bit register\n" "Ir reg n - read n words from 16-bit register\n"
"Iw words - send words (hex/dec/oct/bin) to I2C\n" "Iw words - send words (hex/dec/oct/bin) to I2C\n"
"Is - scan I2C bus\n" "Is - scan I2C bus\n"
@ -78,7 +78,7 @@ TRUE_INLINE const char *chhwaddr(const char *buf){
if(buf && *buf){ if(buf && *buf){
const char *nxt = getnum(buf, &a); const char *nxt = getnum(buf, &a);
if(nxt && nxt != buf){ if(nxt && nxt != buf){
if(!mlx_sethwaddr(a)) return ERR; if(!mlx_sethwaddr(I2Caddress, a)) return ERR;
}else{ }else{
USND("Wrong number"); USND("Wrong number");
return ERR; return ERR;
@ -90,24 +90,16 @@ TRUE_INLINE const char *chhwaddr(const char *buf){
return OK; return OK;
} }
TRUE_INLINE const char *chres(const char *buf){
uint32_t r;
if(buf && *buf){
const char *nxt = getnum(buf, &r);
if(nxt && nxt != buf) if(!mlx_setresolution(r)) return ERR;
}
r = mlx_getresolution();
U("MLXRESOLUTION="); USND(u2str(r));
return NULL;
}
TRUE_INLINE const char *chaddr(const char *buf){ TRUE_INLINE const char *chaddr(const char *buf){
uint32_t addr; uint32_t addr, num;
const char *nxt = getnum(buf, &addr); const char *nxt = getnum(buf, &addr);
if(nxt && nxt != buf){ if(nxt && nxt != buf){
if(addr > 0x7f) return ERR; if(addr > 0x7f) return ERR;
mlx_setaddr(addr);
I2Caddress = (uint8_t) addr << 1; I2Caddress = (uint8_t) addr << 1;
buf = getnum(nxt, &num);
if(buf && nxt != buf && num < N_SESORS){
mlx_setaddr(num, addr);
}
}else addr = I2Caddress >> 1; }else addr = I2Caddress >> 1;
U("I2CADDR="); USND(uhex2str(addr)); U("I2CADDR="); USND(uhex2str(addr));
return NULL; return NULL;
@ -163,9 +155,13 @@ static void dumpfarr(float *arr){
} }
} }
// dump MLX parameters // dump MLX parameters
TRUE_INLINE void dumpparams(){ TRUE_INLINE void dumpparams(const char *buf){
uint32_t N = 0;
const char *nxt = getnum(buf, &N);
U(u2str(N)); USND("sn");
if(!nxt || buf == nxt || N > N_SESORS){ U(ERR); return; }
MLX90640_params params; MLX90640_params params;
if(!mlx_getparams(&params)){ U(ERR); return; } if(!mlx_getparams(N, &params)){ U(ERR); return; }
U("\nkVdd="); printi(params.kVdd); U("\nkVdd="); printi(params.kVdd);
U("\nvdd25="); printi(params.vdd25); U("\nvdd25="); printi(params.vdd25);
U("\nKvPTAT="); printfl(params.KvPTAT, 4); U("\nKvPTAT="); printfl(params.KvPTAT, 4);
@ -221,17 +217,35 @@ TRUE_INLINE void getst(){
USND(states[s]); USND(states[s]);
} }
// `draw`==1 - draw, ==0 - show T map
static const char *drawimg(const char *buf, int draw){
uint32_t sensno;
const char *nxt = getnum(buf, &sensno);
if(nxt && nxt != buf && sensno < N_SESORS){
uint32_t T = mlx_lastimT(sensno);
fp_t *img = mlx_getimage(sensno);
if(img){
U("Timage="); USND(u2str(T));
if(draw) drawIma(img);
else dumpIma(img);
return NULL;
}
}
return ERR;
}
const char *parse_cmd(char *buf){ const char *parse_cmd(char *buf){
if(!buf || !*buf) return NULL; if(!buf || !*buf) return NULL;
uint32_t u32;
if(buf[1]){ if(buf[1]){
switch(*buf){ // "long" commands switch(*buf){ // "long" commands
case 'a': case 'a':
return chhwaddr(buf + 1); return chhwaddr(buf + 1);
case 'i': case 'i':
return setupI2C(buf + 1); return setupI2C(buf + 1);
case 'r': case 'D':
return chres(buf + 1); dumpparams(buf + 1);
return;
break;
case 'I': case 'I':
buf = omit_spaces(buf + 1); buf = omit_spaces(buf + 1);
switch(*buf){ switch(*buf){
@ -257,25 +271,19 @@ const char *parse_cmd(char *buf){
mlx_continue(); return OK; mlx_continue(); return OK;
break; break;
case 'd': case 'd':
{fp_t *i = mlx_getimage(&u32); return drawimg(buf+1, 1);
if(i){ U("Timage="); USND(u2str(u32)); drawIma(i); }
else U(ERR);}
break; break;
case 'i': return setupI2C(NULL); // current settings case 'i': return setupI2C(NULL); // current settings
case 'p': case 'p':
mlx_stop(); return OK; mlx_pause(); return OK;
break; break;
case 'r': return chres(NULL); case 's':
mlx_stop(); return OK;
case 't': case 't':
{fp_t *i = mlx_getimage(&u32); return drawimg(buf+1, 0);
if(i){ U("Timage="); USND(u2str(u32)); dumpIma(i); }
else U(ERR);}
break; break;
case 'C': case 'C':
cartoon = !cartoon; return OK; cartoon = !cartoon; return OK;
case 'D':
dumpparams();
break;
case 'G': case 'G':
getst(); getst();
break; break;

4
F3:F303/MLX90640multi/version.inc
View File

@ -1,2 +1,2 @@
#define BUILD_NUMBER "14" #define BUILD_NUMBER "30"
#define BUILD_DATE "2025-09-22" #define BUILD_DATE "2025-09-23"