/***************************************************
* Draw file list
*/
void drawFileList(void)
{
if (currentFile >= fileListSz)
currentFile = 0;
if (currentFile < 0)
currentFile = fileListSz - 1;
if ((firstFileInWin + currentFile) >= FILE_LIST_ROWS)
firstFileInWin = currentFile - FILE_LIST_ROWS + 1;
if (firstFileInWin > currentFile)
firstFileInWin = currentFile;
if (firstFileInWin < 0)
firstFileInWin = 0;
win_showMenuScroll(0, 0, 38, FILE_LIST_ROWS, firstFileInWin, currentFile, fileListSz);
for (int i = 0; i < fileListSz; i++)
{
if (i == currentFile)
scr_fontColorInvers();
else
scr_fontColorNormal();
scr_printf("%s\n", &fileList[i][0]);
}
}
static int
load_modules ()
{
const char *STEP_OK = "*";
const char *FAILED = "failed to load with";
int ret, ipcfg_ret = 0;
size_t i;
const char *IPCONFIG_DAT_PATHS[] =
{
"mc0:/BIDATA-SYSTEM/IPCONFIG.DAT", /* japan */
"mc0:/BADATA-SYSTEM/IPCONFIG.DAT", /* us */
"mc0:/BEDATA-SYSTEM/IPCONFIG.DAT", /* europe */
"mc0:/SYS-CONF/IPCONFIG.DAT", /* old location */
NULL
};
#if defined (LOAD_MRBROWN_PATCHES)
sbv_patch_enable_lmb ();
sbv_patch_disable_prefix_check ();
scr_printf (STEP_OK);
#endif
#if defined (LOAD_SIOMAN_AND_MC)
ret = SifLoadModule ("rom0:SIO2MAN", 0, NULL);
if (ret > 0)
scr_printf (STEP_OK);
else
{
scr_printf ("\nrom0:SIO2MAN %s %d\n", FAILED, ret);
return (-1);
}
ret = SifLoadModule ("rom0:MCMAN", 0, NULL);
if (ret > 0)
scr_printf (STEP_OK);
else
{
scr_printf ("\nrom0:MCMAN %s %d\n", FAILED, ret);
return (-1);
}
ret = SifLoadModule ("rom0:MCSERV", 0, NULL);
if (ret > 0)
scr_printf (STEP_OK);
else
{
scr_printf ("\nrom0:MCSERV %s %d\n", FAILED, ret);
return (-1);
}
#endif
SifExecModuleBuffer (&iomanx_irx, size_iomanx_irx, 0, NULL, &ret);
if (ret == 0)
scr_printf (STEP_OK);
else
{
scr_printf ("IOMANX.IRX %s %d\n", FAILED, ret);
return (-1);
}
SifExecModuleBuffer (&ps2dev9_irx, size_ps2dev9_irx, 0, NULL, &ret);
if (ret == 0)
scr_printf (STEP_OK);
else
{
scr_printf ("PS2DEV9.IRX %s %d\n", FAILED, ret);
return (-1);
}
SifExecModuleBuffer (&ps2atad_irx, size_ps2atad_irx, 0, NULL, &ret);
if (ret == 0)
scr_printf (STEP_OK);
else
{
scr_printf ("PS2ATAD.IRX %s %d\n", FAILED, ret);
return (-1);
}
SifExecModuleBuffer (&ps2ip_irx, size_ps2ip_irx, 0, NULL, &ret);
if (ret == 0)
scr_printf (STEP_OK);
else
{
scr_printf ("PS2IP.IRX %s %d\n", FAILED, ret);
return (-1);
}
ipcfg_ret = -1;
for (i = 0; ipcfg_ret != 0 && IPCONFIG_DAT_PATHS[i] != NULL; ++i)
{
ipcfg_ret = setup_ip (IPCONFIG_DAT_PATHS[i], if_conf, &if_conf_len);
}
SifExecModuleBuffer (&ps2smap_irx, size_ps2smap_irx,
if_conf_len, if_conf, &ret);
if (ret == 0)
scr_printf (STEP_OK);
else
{
scr_printf ("PS2SMAP.IRX %s %d\n", FAILED, ret);
return (-1);
}
scr_printf ("\n");
switch (ipcfg_ret)
{
case 0:
scr_printf ("\nusing %s\n", IPCONFIG_DAT_PATHS[i - 1]);
break;
case -1:
scr_printf ("\nuse one of the following locations to set IP address:\n");
for (i = 0; IPCONFIG_DAT_PATHS[i] != NULL; ++i)
scr_printf (" %s\n", IPCONFIG_DAT_PATHS[i]);
break;
case -2:
scr_printf ("\nusing %s\n", IPCONFIG_DAT_PATHS[i - 1]);
scr_printf ("\ninvalid configuration file format; use:\n"
"ip_address network_mask gateway_ip\n"
"separated by a single space; for example:"
"192.168.0.10 255.255.255.0 192.168.0.1\n\n");
break;
}
scr_printf ("Playstation 2 IP address: %s\n", if_conf);
return (0);
}
/*
* Edit or delete a user (cmd=25 to edit/create, 96 to delete)
*/
void edituser(CtdlIPC *ipc, int cmd)
{
char buf[SIZ];
char who[USERNAME_SIZE];
char newname[USERNAME_SIZE];
struct ctdluser *user = NULL;
int newnow = 0;
int r; /* IPC response code */
int change_name = 0;
strcpy(newname, "");
newprompt("User name: ", who, 29);
while ((r = CtdlIPCAideGetUserParameters(ipc, who, &user, buf)) / 100 != 2) {
scr_printf("%s\n", buf);
if (cmd == 25) {
scr_printf("Do you want to create this user? ");
if (yesno()) {
r = CtdlIPCCreateUser(ipc, who, 0, buf);
if (r / 100 == 2) {
newnow = 1;
continue;
}
scr_printf("%s\n", buf);
}
}
free(user);
return;
}
if (cmd == 25) {
val_user(ipc, user->fullname, 0); /* Display registration */
if (!newnow) {
change_name = 1;
while (change_name == 1) {
if (boolprompt("Change name", 0)) {
strprompt("New name", newname, USERNAME_SIZE-1);
r = CtdlIPCRenameUser(ipc, user->fullname, newname, buf);
if (r / 100 != 2) {
scr_printf("%s\n", buf);
}
else {
strcpy(user->fullname, newname);
change_name = 0;
}
}
else {
change_name = 0;
}
}
}
if (newnow || boolprompt("Change password", 0)) {
strprompt("Password", user->password, -19);
}
user->axlevel = intprompt("Access level", user->axlevel, 0, 6);
if (boolprompt("Permission to send Internet mail", (user->flags & US_INTERNET)))
user->flags |= US_INTERNET;
else
user->flags &= ~US_INTERNET;
if (boolprompt("Ask user to register again", !(user->flags & US_REGIS)))
user->flags &= ~US_REGIS;
else
user->flags |= US_REGIS;
user->timescalled = intprompt("Times called",
user->timescalled, 0, INT_MAX);
user->posted = intprompt("Messages posted",
user->posted, 0, INT_MAX);
user->lastcall = boolprompt("Set last call to now", 0) ?
time(NULL) : user->lastcall;
user->USuserpurge = intprompt("Purge time (in days, 0 for system default",
user->USuserpurge, 0, INT_MAX);
}
if (cmd == 96) {
scr_printf("Do you want to delete this user? ");
if (!yesno()) {
free(user);
return;
}
user->axlevel = AxDeleted;
}
r = CtdlIPCAideSetUserParameters(ipc, user, buf);
if (r / 100 != 2) {
scr_printf("%s\n", buf);
}
free(user);
}
/*
* modes are: 0 - .EC command, 1 - .EC for new user,
* 2 - toggle Xpert mode 3 - toggle floor mode
*/
void enter_config(CtdlIPC *ipc, int mode)
{
char buf[SIZ];
struct ctdluser *user = NULL;
int r; /* IPC response code */
r = CtdlIPCGetConfig(ipc, &user, buf);
if (r / 100 != 2) {
scr_printf("%s\n", buf);
free(user);
return;
}
if (mode == 0 || mode == 1) {
user->flags = set_attr(ipc, user->flags,
"Are you an experienced Citadel user",
US_EXPERT, 0);
if ((user->flags & US_EXPERT) == 0 && mode == 1) {
free(user);
return;
}
user->flags = set_attr(
ipc,
user->flags,
"Print last old message on New message request",
US_LASTOLD,
0
);
user->flags = set_attr(
ipc,
user->flags,
"Prompt after each message",
US_NOPROMPT,
1
);
if ((user->flags & US_NOPROMPT) == 0) {
user->flags = set_attr(
ipc,
user->flags,
"Use 'disappearing' prompts",
US_DISAPPEAR,
0
);
}
user->flags = set_attr(
ipc,
user->flags,
"Pause after each screenful of text",
US_PAGINATOR,
0
);
if (rc_prompt_control == 3 && (user->flags & US_PAGINATOR)) {
user->flags = set_attr(
ipc,
user->flags,
"<N>ext and <S>top work at paginator prompt",
US_PROMPTCTL,
0
);
}
if (rc_floor_mode == RC_DEFAULT) {
user->flags = set_attr(
ipc,
user->flags,
"View rooms by floor",
US_FLOORS,
0
);
}
if (rc_ansi_color == 3) {
user->flags = set_attr(
ipc,
user->flags,
"Enable color support",
US_COLOR,
0
);
}
if ((user->flags & US_EXPERT) == 0) {
formout(ipc, "unlisted");
}
user->flags = set_attr(
ipc,
user->flags,
"Be unlisted in userlog",
US_UNLISTED,
0
);
if (!IsEmptyStr(editor_path)) {
user->flags = set_attr(
ipc,
user->flags,
"Always enter messages with the full-screen editor",
US_EXTEDIT,
0
);
}
}
if (mode == 2) {
if (user->flags & US_EXPERT) {
user->flags ^= US_EXPERT;
scr_printf("Expert mode now OFF\n");
} else {
user->flags |= US_EXPERT;
scr_printf("Expert mode now ON\n");
}
}
if (mode == 3) {
if (user->flags & US_FLOORS) {
user->flags ^= US_FLOORS;
scr_printf("Floor mode now OFF\n");
} else {
user->flags |= US_FLOORS;
scr_printf("Floor mode now ON\n");
}
}
r = CtdlIPCSetConfig(ipc, user, buf);
if (r / 100 != 2) scr_printf("%s\n", buf);
userflags = user->flags;
free(user);
}
uint8_t cnc_waitSMotorReady(void)
{
#if (USE_LCD != 0)
static uint32_t time = 0;
#endif
#if (USE_STEP_DEBUG == 1)
static uint8_t isStepDump = false;
#endif
int i;
do
{
if (stepm_getRemainLines() > 1)
{
scr_fontColor(Yellow, Black);
for (i = 0; i < STEPS_MOTORS; i++)
{
int32_t globalSteps = stepm_getCurGlobalStepsNum(i);
double n = (double)globalSteps / axisK[i];
scr_gotoxy(1 + i * 10, 3);
scr_printf("%c:%f ", axisName[i], n);
#if (USE_ENCODER == 1)
if (i == 2)
{
int32_t enVal = encoderZvalue();
double encValmm = (double)(enVal * MM_PER_360) / ENCODER_Z_CNT_PER_360;
scr_gotoxy(1 + 2 * 10, 4); scr_printf("errZ:%f ", encValmm - n);
if (isEncoderCorrection)
{
scr_gotoxy(1, 6);
scr_printf("dZ:%d[%d] ", encoderCorrectionDelta, encoderCorrectionMaxDelta);
scr_gotoxy(15, 6);
scr_printf("Up:%d Dn:%d ", encoderCorrectionCntUp, encoderCorrectionCntDown);
}
}
#endif
}
#if (USE_STEP_DEBUG == 1)
if (isStepDump)
step_dump();
#endif
#if (USE_LCD != 0)
if (time != Seconds())
{
uint32_t t;
time = Seconds();
t = time - startWorkTime;
scr_gotoxy(30, 12);
scr_fontColor(Cyan, Black);
scr_printf("%02d:%02d:%02d", t / 3600, (t / 60) % 60, t % 60);
}
#endif
}
#if (USE_KEYBOARD != 0)
switch (kbd_getKey())
{
case KEY_C:
stepm_EmergeStop();
return false;
case KEY_A:
isPause = true;
break;
case KEY_0:
#if (USE_ENCODER == 1)
isEncoderCorrection = false;
#endif
scr_gotoxy(1, 6);
scr_clrEndl();
break;
case KEY_1:
#if (USE_ENCODER == 1)
isEncoderCorrection = true;
#endif
break;
case KEY_7:
#if (USE_STEP_DEBUG == 1)
isStepDump = true;
#endif
break;
case KEY_8:
#if (USE_STEP_DEBUG == 1)
isStepDump = false;
#endif
break;
}
#endif
} while (stepm_LinesBufferIsFull());
if (limits_chk())
{
stepm_EmergeStop();
#if (USE_LCD != 0)
scr_fontColor(Red, Black);
scr_gotoxy(7, 11);
scr_puts("LIMITS ERROR!");
scr_clrEndl();
#endif
return false;
}
return true;
}
void cnc_gfile(char *fileName, int mode)
{
#if (USE_LCD != 0) && (MAX_SHOW_GCODE_LINES > 0)
int n;
#endif
int lineNum;
uint8_t hasMoreLines;
initGcodeProc();
#if (USE_SDCARD != 0)
FIL fid;
FRESULT res = f_open(&fid, fileName, FA_READ);
if (res != FR_OK)
{
win_showErrorWin();
#if (USE_SDCARD == 1)
scr_printf("Error open file:'%s'\nStatus:%d [%d]", fileName, (int)res, SD_errno);
#elif (USE_SDCARD == 2)
scr_printf("Error open file:'%s'\nStatus:%d", fileName, (int)res);
#endif
return;
}
#endif
curGCodeMode = mode;
#if (USE_LCD != 0)
if ((curGCodeMode & GFILE_MODE_MASK_SHOW) != 0)
{
scr_Rectangle(crdXtoScr(0), crdYtoScr(MAX_TABLE_SIZE_Y), crdXtoScr(MAX_TABLE_SIZE_X), crdYtoScr(0), Red, false);
scr_Line(prev_scrX, 30, prev_scrX, 240 - 30, Green);
scr_Line(50, prev_scrY, 320 - 50, prev_scrY, Green);
}
#endif
if ((curGCodeMode & GFILE_MODE_MASK_EXEC) != 0)
{
#if (USE_KEYBOARD == 1)
scr_fontColor(Blue, Black);
scr_gotoxy(3, 14);
scr_puts("C-Cancel A-Pause 0/1-encoder");
#elif (USE_KEYBOARD == 2)
SetTouchKeys(kbdGFile);
#endif
}
lineNum = 1;
hasMoreLines = true;
do
{
char *p = cncFileBuf, *str;
while (true)
{
*p = 0;
str = p + 1;
if ((cncFileBuf + sizeof(cncFileBuf) - str) < (MAX_STR_SIZE + 1))
break;
#if (USE_SDCARD != 0)
if (f_gets(str, MAX_STR_SIZE, &fid) == NULL)
{
hasMoreLines = false;
break;
}
#endif
str_trim(str);
*p = (uint8_t)strlen(str) + 1;
p += *p + 1;
}
for (p = cncFileBuf; !isGcodeStop && *p != 0; lineNum++, p += *p + 1)
{
uint8_t st;
str = p + 1;
if ((curGCodeMode & GFILE_MODE_MASK_EXEC) != 0)
{
GCODE_CMD *gp;
#if (USE_LCD != 0) && (MAX_SHOW_GCODE_LINES > 0)
int i;
#endif
linesBuffer.gcodePtrCur++;
if (linesBuffer.gcodePtrCur > (MAX_SHOW_GCODE_LINES - 1))
linesBuffer.gcodePtrCur = 0;
gp = &linesBuffer.gcode[linesBuffer.gcodePtrCur];
strcpy(gp->cmd, str);
gp->lineNum = lineNum;
#if (USE_LCD != 0) && (MAX_SHOW_GCODE_LINES > 0)
scr_fontColor(Green, Black);
// if(stepm_getRemainLines() > 1) {
for (i = 0, n = linesBuffer.gcodePtrCur + 1; i < MAX_SHOW_GCODE_LINES; i++, n++)
{
if (n > (MAX_SHOW_GCODE_LINES - 1))
n = 0;
gp = &linesBuffer.gcode[n];
scr_gotoxy(1, i);
if (gp->lineNum)
scr_printf("%d:%s", gp->lineNum, gp->cmd);
scr_clrEndl();
}
// }
#endif
}
DBG("\n [gcode:%d] %s", lineNum, str);
st = gc_execute_line(str);
if (st != GCSTATUS_OK)
{
#if (USE_LCD != 0)
scr_fontColor(Red, Black);
scr_gotoxy(1, 11);
switch (st)
{
case GCSTATUS_BAD_NUMBER_FORMAT:
scr_puts("BAD_NUMBER_FORMAT");
break;
case GCSTATUS_EXPECTED_COMMAND_LETTER:
scr_puts("EXPECTED_COMMAND_LETTER");
break;
case GCSTATUS_UNSUPPORTED_STATEMENT:
scr_puts("UNSUPPORTED_STATEMENT");
break;
case GCSTATUS_FLOATING_POINT_ERROR:
scr_puts("FLOATING_POINT_ERROR");
break;
case GCSTATUS_UNSUPPORTED_PARAM:
scr_puts("UNSUPPORTED_PARAM");
break;
case GCSTATUS_UNSOPORTED_FEEDRATE:
scr_puts("GCSTATUS_UNSUPPORTED_FEEDRATE");
break;
case GCSTATUS_TABLE_SIZE_OVER_X:
scr_puts("GCSTATUS_TABLE_SIZE_OVER_X");
break;
case GCSTATUS_TABLE_SIZE_OVER_Y:
scr_puts("GCSTATUS_TABLE_SIZE_OVER_Y");
break;
case GCSTATUS_TABLE_SIZE_OVER_Z:
scr_puts("GCSTATUS_TABLE_SIZE_OVER_Z");
break;
case GCSTATUS_CANCELED:
scr_puts("GCSTATUS_CANCELED");
break;
}
scr_printf(" at line %d:\n %s", lineNum, str);
#endif
#if (USE_SDCARD != 0)
f_close(&fid);
#endif
return;
}
}
} while (!isGcodeStop && hasMoreLines);
#if (USE_SDCARD != 0)
f_close(&fid);
#endif
if ((curGCodeMode & GFILE_MODE_MASK_EXEC) == 0)
{
#if (USE_LCD != 0)
short scrX = crdXtoScr(TABLE_CENTER_X);
short scrY = crdYtoScr(TABLE_CENTER_Y);
int t1 = commonTimeIdeal / 1000;
int t2 = commonTimeReal / 1000;
scr_Line(scrX - 8, scrY, scrX + 8, scrY, Red);
scr_Line(scrX, scrY - 8, scrX, scrY + 8, Red);
scr_fontColor(Green, Black);
scr_gotoxy(1, 0);
scr_printf("Time %02d:%02d:%02d(%02d:%02d:%02d) N.cmd:%d",
t1 / 3600, (t1 / 60) % 60, t1 % 60,
t2 / 3600, (t2 / 60) % 60, t2 % 60,
lineNum
);
scr_printf("\n X%f/%f Y%f/%f Z%f/%f", minX, maxX, minY, maxY, minZ, maxZ);
#endif
}
else
{
#ifndef NO_ACCELERATION_CORRECTION
cnc_line(0, 0, 0, 0, 0, 0);
cnc_line(0, 0, 0, 0, 0, 0);
#endif
}
}
void manualMode(void)
{
static uint8_t limits = 0xFF;
const double axisK[4] = { SM_X_STEPS_PER_MM, SM_Y_STEPS_PER_MM, SM_Z_STEPS_PER_MM, SM_E_STEPS_PER_MM };
int i, k = SM_X_STEPS_PER_MM;
uint32_t frq[4] = {
SM_MANUAL_MODE_STEPS_PER_SEC * K_FRQ,
SM_MANUAL_MODE_STEPS_PER_SEC * K_FRQ,
SM_MANUAL_MODE_STEPS_PER_SEC * K_FRQ,
SM_MANUAL_MODE_STEPS_PER_SEC * K_FRQ
};
uint8_t dir[4] = { 0, 0, 0, 0 };
uint32_t steps[4] = { 0, 0, 0, 0 };
LCD_Clear(Black);
scr_setfullTextWindow();
scr_gotoxy(6, 0); scr_fontColor(Green, Black);
scr_puts("CNC MANUAL MODE");
scr_fontColor(Yellow, Black);
scr_puts("\n key '6' - [X+] key '4' - [X-] ");
scr_puts("\n key '2' - [Y+] key '8' - [Y-] ");
scr_puts("\n key '1' - [Z+] key '7' - [Z-] ");
scr_puts("\n key '3' - [E+] key '9' - [E-] ");
scr_puts("\n 'A'k+1 'B'k-1 '*'k=1 '#'k++");
scr_puts("\n step motors 'D' - full stop");
scr_puts("\n 0 - zero 5 - goto zero C - exit");
delayMs(700);
while (kbd_getKey() >= 0) {};
while (true)
{
scr_fontColor(White, Black);
for (i = 0; i < 3; i++)
{
double n = (double)stepm_getCurGlobalStepsNum(i) / axisK[i];
scr_gotoxy(1 + i * 10, TEXT_Y_MAX - 4); scr_printf("%c:%f ", axisName[i], n);
if (i < 3)
{
scr_gotoxy(1, TEXT_Y_MAX - 3 + i);
scr_printf("steps %c:%d ", axisName[i], stepm_getCurGlobalStepsNum(i));
}
#if (USE_ENCODER == 1)
if (i == 2)
{
int32_t v = encoderZvalue();
scr_gotoxy(25, TEXT_Y_MAX - 1); scr_printf("encZ:%d ", v);
scr_gotoxy(1 + 2 * 10, TEXT_Y_MAX - 5);
scr_printf("errZ:%f ", (double)(v*MM_PER_360) / ENCODER_Z_CNT_PER_360 - n);
}
#endif
dir[i] = 0;
steps[i] = 0;
}
scr_fontColor(Blue, Black);
scr_gotoxy(2, TEXT_Y_MAX - 7);
scr_printf("step per key press: %f mm ", (double)k / SM_X_STEPS_PER_MM);
switch (kbd_getKey())
{
case KEY_0:
while (stepm_inProc() && kbd_getKey() != KEY_C) {}
stepm_ZeroGlobalCrd();
#if (USE_ENCODER == 1)
encoderZreset();
encoderCorrectionCntUp = encoderCorrectionCntDown = encoderCorrectionDelta = encoderCorrectionMaxDelta = 0;
#endif
break;
case KEY_6: steps[0] = k; dir[0] = 1; stepm_addMove(steps, frq, dir); break;
case KEY_4: steps[0] = k; dir[0] = 0; stepm_addMove(steps, frq, dir); break;
case KEY_2: steps[1] = k; dir[1] = 1; stepm_addMove(steps, frq, dir); break;
case KEY_8: steps[1] = k; dir[1] = 0; stepm_addMove(steps, frq, dir); break;
case KEY_1: steps[2] = k; dir[2] = 1; stepm_addMove(steps, frq, dir); break;
case KEY_7: steps[2] = k; dir[2] = 0; stepm_addMove(steps, frq, dir); break;
case KEY_3: steps[3] = k; dir[3] = 1; stepm_addMove(steps, frq, dir); break;
case KEY_9: steps[3] = k; dir[3] = 0; stepm_addMove(steps, frq, dir); break;
case KEY_5:
while (stepm_inProc() && kbd_getKey() != KEY_C) {}
if (stepm_getCurGlobalStepsNum(0) != 0 || stepm_getCurGlobalStepsNum(1) != 0)
{
steps[0] = labs(stepm_getCurGlobalStepsNum(0));
dir[0] = stepm_getCurGlobalStepsNum(0) < 0;
steps[1] = labs(stepm_getCurGlobalStepsNum(1));
dir[1] = stepm_getCurGlobalStepsNum(1) < 0;
steps[2] = 0;
dir[2] = 0;
}
else
{
steps[0] = steps[1] = 0;
dir[0] = dir[1] = 0;
steps[2] = labs(stepm_getCurGlobalStepsNum(2));
dir[2] = stepm_getCurGlobalStepsNum(2) < 0;
}
stepm_addMove(steps, frq, dir);
break;
case KEY_A:
if (k < SM_X_STEPS_PER_MM) k++;
break;
case KEY_B:
if (k > 1) k--;
break;
case KEY_STAR:
k = 1;
break;
case KEY_DIES:
if (k < SM_X_STEPS_PER_MM) k += SM_X_STEPS_PER_MM / 8;
break;
case KEY_C:
stepm_EmergeStop();
return;
case KEY_D:
stepm_EmergeStop();
break;
}
if (limits != limits_chk())
{
limits = limits_chk();
scr_Rectangle(304, 232, 309, 239, limitX_chk() ? Red : Green, true);
scr_Rectangle(310, 232, 315, 239, limitY_chk() ? Red : Green, true);
scr_Rectangle(314, 232, 319, 239, limitZ_chk() ? Red : Green, true);
}
}
}
/* ---------------- prob_vec_info --------------------------
* Print information about the probability vector.
* This uses the ugly machinery to write into scratch space.
* Changed so it always writes out the total of probabilities
* and the sum of squares of probabilities.
*/
char *
prob_vec_info (struct prob_vec *p_v)
{
char *ret = NULL;
float *totals, *total2;
size_t i, j, k, m, n, tomall;
if (p_v -> mship == NULL)
prob_vec_expand (p_v);
scr_reset();
scr_printf ("# Probability vector as ");
if (p_v->norm_type == PVEC_TRUE_PROB)
scr_printf ("true probability form\n");
else if ( p_v->norm_type == PVEC_UNIT_VEC)
scr_printf ("unit vector normalised\n");
else
scr_printf ("unknown normalised form\n");
scr_printf ("# protein length: %u ", (unsigned) p_v->prot_len);
scr_printf (" num vectors: %u ", (unsigned) p_v->n_pvec);
scr_printf (" fragment length: %u ", (unsigned) p_v->frag_len);
scr_printf (" num classes: %u\n", (unsigned) p_v->n_class);
scr_printf ("# res class\n");
scr_printf ("# num");
for (i = 0; i < p_v->n_class; i++)
scr_printf ("%8d", i + 1);
scr_printf ("%8s", "total");
scr_printf ("%8s", "tot^2");
scr_printf ("\n");
tomall = p_v->n_pvec * sizeof (totals[0]);
totals = E_MALLOC (tomall);
memset (totals, 0, tomall);
total2 = E_MALLOC (tomall);
memset (total2, 0, tomall);
for (j = 0; j < p_v->n_pvec; j++) {
for (k = 0; k < p_v->n_class; k++) {
totals [j] += p_v->mship [j][k];
total2 [j] += (p_v->mship [j][k] * p_v->mship [j][k]);
}
}
for (m = 0; m < p_v->n_pvec; m++) {
scr_printf ("%5u ", m);
for (n = 0; n < p_v->n_class; n++)
scr_printf ("%7.2g ", p_v->mship[m][n]);
scr_printf ("%7.2g %7.2g", totals[m], total2[m]);
ret = scr_printf ("\n");
}
free (totals);
free (total2);
return ret;
}
/***************************************************
* Main
*/
int main()
{
bool rereadDir = false, redrawScr = true, redrawDir = false;
SystemStartup();
#if (USE_SDCARD == 1)
rereadDir = true;
FRESULT fres = f_mount(0, &fatfs);
if (fres != FR_OK)
{
showCriticalStatus(
" Mount SD error [code:%d]\n"
" SD card used for any CNC process\n"
" Only RESET possible at now", fres);
WAIT_KEY_C();
}
#elif (USE_SDCARD == 2) && (USE_KEYBOARD != 0)
FRESULT fres;
#endif
initSmParam();
while (1)
{
if (SystemProcess() == SYS_READ_FLASH)
rereadDir = true;
if (rereadDir)
{
rereadDir = false;
readFileList();
redrawScr = true;
}
if (redrawScr)
{
redrawScr = false;
LCD_Clear(Black);
#if (USE_KEYBOARD == 1)
win_showMenu(0, 144, 40, 4);
scr_puts(
"0 - start gcode 1 - manual mode\n"
"2 - show gcode 3 - delete file\n"
"4 - set time 5 - file info\n"
//"6 - scan mode\t "
"7 - save conf.file (v1.1)");
#endif
#if (USE_KEYBOARD == 2)
SetTouchKeys(kbdSelectFile);
#endif
redrawDir = true;
}
if (redrawDir)
{
redrawDir = false;
drawFileList();
}
showStatusString();
#if (USE_KEYBOARD != 0)
switch (kbd_getKey())
{
case KEY_A:
currentFile--;
redrawDir = true;
break;
case KEY_B:
currentFile++;
redrawDir = true;
break;
#if (USE_KEYBOARD == 1)
case KEY_STAR:
currentFile += FILE_LIST_ROWS;
redrawDir = true;
break;
case KEY_DIES:
currentFile -= FILE_LIST_ROWS;
redrawDir = true;
break;
#endif
//
// Start GCode
//
case KEY_0:
{
FLASH_KEYS();
#if (USE_LCD == 1)
uint32_t stime;
stime = Seconds();
#endif
cnc_gfile(&fileList[currentFile][0], GFILE_MODE_MASK_EXEC);
while (stepm_inProc())
{
scr_fontColor(Yellow, Blue);
scr_gotoxy(1, 13);
scr_printf(" remain moves: %d", stepm_getRemainLines());
scr_clrEndl();
}
stepm_EmergeStop();
#if (USE_LCD == 1)
scr_fontColor(Yellow, Blue);
scr_gotoxy(0, 13);
scr_puts(" FINISH. PRESS C-KEY");
scr_clrEndl();
stime = Seconds() - stime;
scr_fontColor(Yellow, Blue);
scr_gotoxy(0, 14);
scr_printf(" work time: %02d:%02d", stime / 60, stime % 60);
scr_clrEndl();
#endif
#if (USE_LCD == 2)
SetTouchKeys(kbdLast2Lines);
#endif
FLASH_KEYS();
WAIT_KEY_C();
redrawScr = true;
break;
}
//
// Manual Mode
//
case KEY_1:
manualMode();
redrawScr = true;
break;
#if (USE_SDCARD == 1)
//
// Show GCode
//
case KEY_2:
FLASH_KEYS();
cnc_gfile(&fileList[currentFile][0], GFILE_MODE_MASK_SHOW | GFILE_MODE_MASK_CHK);
scr_printf("\n PRESS C-KEY");
FLASH_KEYS();
while (kbd_getKey() != KEY_C);
redrawScr = true;
break;
//
// Delete file
//
case KEY_3:
if (questionYesNo("Delete file:\n'%s'?", &fileList[currentFile][0]))
{
rereadDir = true;
f_unlink(&fileList[currentFile][0]);
}
else
redrawScr = true;
break;
#endif
#if (USE_RTC == 1)
//
// Set time
//
case KEY_4:
setTime();
redrawScr = true;
break;
//
// Save conf. file
//
case KEY_7:
win_showMsgWin();
saveSmParam();
scr_printf("\n\n\n PRESS C-KEY");
WAIT_KEY_C();
redrawScr = true;
break;
#endif
#if (USE_SDCARD != 0)
//
// File info
//
case KEY_5:
{
FILINFO finf;
FIL fid;
int c, n;
memset(&finf, 0, sizeof(finf));
win_showMsgWin();
scr_setScroll(false);
scr_printf("File:%s", &fileList[currentFile][0]);
f_stat(&fileList[currentFile][0], &finf);
scr_gotoxy(0, 1);
scr_printf("Size:%d\n", (uint32_t)finf.fsize);
fres = f_open(&fid, &fileList[currentFile][0], FA_READ);
if (fres != FR_OK)
{
#if (USE_SDCARD == 1)
scr_printf("Error open file: '%s'\nStatus:%d [%d]", &fileList[currentFile][0], fres, SD_errno);
#elif (USE_SDCARD == 2)
scr_printf("Error open file: '%s'\nStatus:%d", &fileList[currentFile][0], fres);
#endif
}
else
{
char str[150];
scr_fontColorInvers();
scr_setScroll(false);
// Read lines from 3 to 6 from file and display it
for (n = 2; n < 7 && f_gets(str, sizeof(str), &fid) != NULL; n++)
{
scr_gotoxy(0, n);
scr_puts(str_trim(str));
}
}
scr_fontColorNormal();
scr_gotoxy(8, 7);
scr_printf("PRESS C-KEY");
redrawScr = true;
do {
c = kbd_getKey();
if (c == KEY_B)
{
char str[150];
scr_fontColorInvers();
for (n = 2; n < 7 && f_gets(str, sizeof(str), &fid) != NULL; n++)
{
scr_gotoxy(0, n);
scr_puts(str_trim(str));
scr_clrEndl();
}
}
} while (c != KEY_C);
f_close(&fid);
rereadDir = true;
}
break;
#endif
}
#endif
}
}
