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some work done

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This commit is contained in:
Edward Emelianov 2026-01-24 00:57:11 +03:00
parent c8449c916a
commit 50cbaea550
11 changed files with 239 additions and 106 deletions
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6
Auxiliary_utils/LibSidServo/TODO
View File

@ -1,3 +1,3 @@
1. PID: slew2 fix encoders opening for several tries
2. add model & config "model ON" encoderthread2() - change main cycle (remove pause, read data independently, ask for new only after timeout after last request)
Read HW config even in model mode

8
Auxiliary_utils/LibSidServo/examples/SSIIconf.c
View File

@ -34,7 +34,9 @@ typedef struct{
static hardware_configuration_t HW = {0}; static hardware_configuration_t HW = {0};
static parameters G = {0}; static parameters G = {
.conffile = "servo.conf",
};
static sl_option_t cmdlnopts[] = { static sl_option_t cmdlnopts[] = {
{"help", NO_ARGS, NULL, 'h', arg_int, APTR(&G.help), "show this help"}, {"help", NO_ARGS, NULL, 'h', arg_int, APTR(&G.help), "show this help"},
@ -53,7 +55,7 @@ static sl_option_t confopts[] = {
static void dumpaxis(char axis, axis_config_t *c){ static void dumpaxis(char axis, axis_config_t *c){
#define STRUCTPAR(p) (c)->p #define STRUCTPAR(p) (c)->p
#define DUMP(par) do{printf("%c%s=%g\n", axis, #par, STRUCTPAR(par));}while(0) #define DUMP(par) do{printf("%c%s=%.10g\n", axis, #par, STRUCTPAR(par));}while(0)
#define DUMPD(par) do{printf("%c%s=%g\n", axis, #par, RAD2DEG(STRUCTPAR(par)));}while(0) #define DUMPD(par) do{printf("%c%s=%g\n", axis, #par, RAD2DEG(STRUCTPAR(par)));}while(0)
DUMPD(accel); DUMPD(accel);
DUMPD(backlash); DUMPD(backlash);
@ -64,6 +66,8 @@ static void dumpaxis(char axis, axis_config_t *c){
DUMP(outplimit); DUMP(outplimit);
DUMP(currlimit); DUMP(currlimit);
DUMP(intlimit); DUMP(intlimit);
DUMP(motor_stepsperrev);
DUMP(axis_stepsperrev);
#undef DUMP #undef DUMP
#undef DUMPD #undef DUMPD
} }

16
Auxiliary_utils/LibSidServo/examples/conf.c
View File

@ -83,6 +83,8 @@ static sl_option_t opts[] = {
{"MaxPointingErr", NEED_ARG, NULL, 0, arg_double, APTR(&Config.MaxPointingErr), "if angle < this, change state from \"slewing\" to \"pointing\" (coarse pointing): 8 degrees"}, {"MaxPointingErr", NEED_ARG, NULL, 0, arg_double, APTR(&Config.MaxPointingErr), "if angle < this, change state from \"slewing\" to \"pointing\" (coarse pointing): 8 degrees"},
{"MaxFinePointingErr",NEED_ARG, NULL, 0, arg_double, APTR(&Config.MaxFinePointingErr), "if angle < this, chane state from \"pointing\" to \"guiding\" (fine poinging): 1.5 deg"}, {"MaxFinePointingErr",NEED_ARG, NULL, 0, arg_double, APTR(&Config.MaxFinePointingErr), "if angle < this, chane state from \"pointing\" to \"guiding\" (fine poinging): 1.5 deg"},
{"MaxGuidingErr", NEED_ARG, NULL, 0, arg_double, APTR(&Config.MaxGuidingErr), "if error less than this value we suppose that target is captured and guiding is good (true guiding): 0.1''"}, {"MaxGuidingErr", NEED_ARG, NULL, 0, arg_double, APTR(&Config.MaxGuidingErr), "if error less than this value we suppose that target is captured and guiding is good (true guiding): 0.1''"},
{"XEncZero", NEED_ARG, NULL, 0, arg_int, APTR(&Config.XEncZero), "X axis encoder approximate zero position"},
{"YEncZero", NEED_ARG, NULL, 0, arg_int, APTR(&Config.YEncZero), "Y axis encoder approximate zero position"},
// {"",NEED_ARG, NULL, 0, arg_double, APTR(&Config.), ""}, // {"",NEED_ARG, NULL, 0, arg_double, APTR(&Config.), ""},
end_option end_option
}; };
@ -110,3 +112,17 @@ void dumpConf(){
void confHelp(){ void confHelp(){
sl_conf_showhelp(-1, opts); sl_conf_showhelp(-1, opts);
} }
const char* errcodes[MCC_E_AMOUNT] = {
[MCC_E_OK] = "OK",
[MCC_E_FATAL] = "Fatal error",
[MCC_E_BADFORMAT] = "Wrong data format",
[MCC_E_ENCODERDEV] = "Encoder error",
[MCC_E_MOUNTDEV] = "Mount error",
[MCC_E_FAILED] = "Failed to run"
};
// return string with error code
const char *EcodeStr(mcc_errcodes_t e){
if(e >= MCC_E_AMOUNT) return "Wrong error code";
return errcodes[e];
}

1
Auxiliary_utils/LibSidServo/examples/conf.h
View File

@ -25,3 +25,4 @@
void confHelp(); void confHelp();
conf_t *readServoConf(const char *filename); conf_t *readServoConf(const char *filename);
void dumpConf(); void dumpConf();
const char *EcodeStr(mcc_errcodes_t e);

10
Auxiliary_utils/LibSidServo/examples/goto.c
View File

@ -120,7 +120,11 @@ int main(int _U_ argc, char _U_ **argv){
} }
printf("Moving to X=%gdeg, Y=%gdeg\n", G.X, G.Y); printf("Moving to X=%gdeg, Y=%gdeg\n", G.X, G.Y);
tag.X = DEG2RAD(G.X); tag.Y = DEG2RAD(G.Y); tag.X = DEG2RAD(G.X); tag.Y = DEG2RAD(G.Y);
Mount.moveTo(&tag); mcc_errcodes_t e = Mount.moveTo(&tag);
if(MCC_E_OK != e){
WARNX("Cant go to given coordinates: %s\n", EcodeStr(e));
goto out;
}
if(G.wait){ if(G.wait){
sleep(1); sleep(1);
waitmoving(G.Ncycles); waitmoving(G.Ncycles);
@ -132,7 +136,9 @@ out:
if(G.coordsoutput) pthread_join(dthr, NULL); if(G.coordsoutput) pthread_join(dthr, NULL);
DBG("QUIT"); DBG("QUIT");
if(G.wait){ if(G.wait){
if(getPos(&M, NULL)) printf("Mount position: X=%g, Y=%g\n", RAD2DEG(M.X.val), RAD2DEG(M.Y.val)); usleep(250000); // pause to refresh coordinates
if(getPos(&M, &E)) printf("Mount position: X=%g, Y=%g; encoders: X=%g, Y=%g\n", RAD2DEG(M.X.val), RAD2DEG(M.Y.val),
RAD2DEG(E.X.val), RAD2DEG(E.Y.val));
Mount.quit(); Mount.quit();
} }
return 0; return 0;

22
Auxiliary_utils/LibSidServo/libsidservo.creator.user
View File

@ -1,10 +1,10 @@
<?xml version="1.0" encoding="UTF-8"?> <?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE QtCreatorProject> <!DOCTYPE QtCreatorProject>
<!-- Written by QtCreator 18.0.0, 2025-12-08T13:32:37. --> <!-- Written by QtCreator 18.0.1, 2026-01-22T21:17:18. -->
<qtcreator> <qtcreator>
<data> <data>
<variable>EnvironmentId</variable> <variable>EnvironmentId</variable>
<value type="QByteArray">{cf63021e-ef53-49b0-b03b-2f2570cdf3b6}</value> <value type="QByteArray">{7bd84e39-ca37-46d3-be9d-99ebea85bc0d}</value>
</data> </data>
<data> <data>
<variable>ProjectExplorer.Project.ActiveTarget</variable> <variable>ProjectExplorer.Project.ActiveTarget</variable>
@ -40,9 +40,9 @@
<value type="int" key="EditorConfiguration.PaddingMode">1</value> <value type="int" key="EditorConfiguration.PaddingMode">1</value>
<value type="int" key="EditorConfiguration.PreferAfterWhitespaceComments">0</value> <value type="int" key="EditorConfiguration.PreferAfterWhitespaceComments">0</value>
<value type="bool" key="EditorConfiguration.PreferSingleLineComments">false</value> <value type="bool" key="EditorConfiguration.PreferSingleLineComments">false</value>
<value type="bool" key="EditorConfiguration.ScrollWheelZooming">false</value> <value type="bool" key="EditorConfiguration.ScrollWheelZooming">true</value>
<value type="bool" key="EditorConfiguration.ShowMargin">false</value> <value type="bool" key="EditorConfiguration.ShowMargin">false</value>
<value type="int" key="EditorConfiguration.SmartBackspaceBehavior">1</value> <value type="int" key="EditorConfiguration.SmartBackspaceBehavior">0</value>
<value type="bool" key="EditorConfiguration.SmartSelectionChanging">true</value> <value type="bool" key="EditorConfiguration.SmartSelectionChanging">true</value>
<value type="bool" key="EditorConfiguration.SpacesForTabs">true</value> <value type="bool" key="EditorConfiguration.SpacesForTabs">true</value>
<value type="int" key="EditorConfiguration.TabKeyBehavior">0</value> <value type="int" key="EditorConfiguration.TabKeyBehavior">0</value>
@ -51,10 +51,10 @@
<value type="bool" key="EditorConfiguration.UseIndenter">false</value> <value type="bool" key="EditorConfiguration.UseIndenter">false</value>
<value type="int" key="EditorConfiguration.Utf8BomBehavior">1</value> <value type="int" key="EditorConfiguration.Utf8BomBehavior">1</value>
<value type="bool" key="EditorConfiguration.addFinalNewLine">true</value> <value type="bool" key="EditorConfiguration.addFinalNewLine">true</value>
<value type="bool" key="EditorConfiguration.cleanIndentation">true</value> <value type="bool" key="EditorConfiguration.cleanIndentation">false</value>
<value type="bool" key="EditorConfiguration.cleanWhitespace">true</value> <value type="bool" key="EditorConfiguration.cleanWhitespace">true</value>
<value type="QString" key="EditorConfiguration.ignoreFileTypes">*.md, *.MD, Makefile</value> <value type="QString" key="EditorConfiguration.ignoreFileTypes">*.md, *.MD, Makefile</value>
<value type="bool" key="EditorConfiguration.inEntireDocument">true</value> <value type="bool" key="EditorConfiguration.inEntireDocument">false</value>
<value type="bool" key="EditorConfiguration.skipTrailingWhitespace">true</value> <value type="bool" key="EditorConfiguration.skipTrailingWhitespace">true</value>
<value type="bool" key="EditorConfiguration.tintMarginArea">true</value> <value type="bool" key="EditorConfiguration.tintMarginArea">true</value>
</valuemap> </valuemap>
@ -79,7 +79,7 @@
<value type="bool" key="ClangTools.AnalyzeOpenFiles">true</value> <value type="bool" key="ClangTools.AnalyzeOpenFiles">true</value>
<value type="bool" key="ClangTools.BuildBeforeAnalysis">true</value> <value type="bool" key="ClangTools.BuildBeforeAnalysis">true</value>
<value type="QString" key="ClangTools.DiagnosticConfig">Builtin.DefaultTidyAndClazy</value> <value type="QString" key="ClangTools.DiagnosticConfig">Builtin.DefaultTidyAndClazy</value>
<value type="int" key="ClangTools.ParallelJobs">4</value> <value type="int" key="ClangTools.ParallelJobs">8</value>
<value type="bool" key="ClangTools.PreferConfigFile">true</value> <value type="bool" key="ClangTools.PreferConfigFile">true</value>
<valuelist type="QVariantList" key="ClangTools.SelectedDirs"/> <valuelist type="QVariantList" key="ClangTools.SelectedDirs"/>
<valuelist type="QVariantList" key="ClangTools.SelectedFiles"/> <valuelist type="QVariantList" key="ClangTools.SelectedFiles"/>
@ -96,12 +96,12 @@
<value type="bool" key="HasPerBcDcs">true</value> <value type="bool" key="HasPerBcDcs">true</value>
<value type="QString" key="ProjectExplorer.ProjectConfiguration.DefaultDisplayName">Desktop</value> <value type="QString" key="ProjectExplorer.ProjectConfiguration.DefaultDisplayName">Desktop</value>
<value type="QString" key="ProjectExplorer.ProjectConfiguration.DisplayName">Desktop</value> <value type="QString" key="ProjectExplorer.ProjectConfiguration.DisplayName">Desktop</value>
<value type="QString" key="ProjectExplorer.ProjectConfiguration.Id">{91347f2c-5221-46a7-80b1-0a054ca02f79}</value> <value type="QString" key="ProjectExplorer.ProjectConfiguration.Id">{65a14f9e-e008-4c1b-89df-4eaa4774b6e3}</value>
<value type="qlonglong" key="ProjectExplorer.Target.ActiveBuildConfiguration">0</value> <value type="qlonglong" key="ProjectExplorer.Target.ActiveBuildConfiguration">0</value>
<value type="qlonglong" key="ProjectExplorer.Target.ActiveDeployConfiguration">0</value> <value type="qlonglong" key="ProjectExplorer.Target.ActiveDeployConfiguration">0</value>
<value type="qlonglong" key="ProjectExplorer.Target.ActiveRunConfiguration">0</value> <value type="qlonglong" key="ProjectExplorer.Target.ActiveRunConfiguration">0</value>
<valuemap type="QVariantMap" key="ProjectExplorer.Target.BuildConfiguration.0"> <valuemap type="QVariantMap" key="ProjectExplorer.Target.BuildConfiguration.0">
<value type="QString" key="ProjectExplorer.BuildConfiguration.BuildDirectory">/home/eddy/Docs/SAO/10micron/C-sources/erfa_functions</value> <value type="QString" key="ProjectExplorer.BuildConfiguration.BuildDirectory">/tmp/robo5/mountcontrol.git/LibSidServo</value>
<valuemap type="QVariantMap" key="ProjectExplorer.BuildConfiguration.BuildStepList.0"> <valuemap type="QVariantMap" key="ProjectExplorer.BuildConfiguration.BuildStepList.0">
<valuemap type="QVariantMap" key="ProjectExplorer.BuildStepList.Step.0"> <valuemap type="QVariantMap" key="ProjectExplorer.BuildStepList.Step.0">
<valuelist type="QVariantList" key="GenericProjectManager.GenericMakeStep.BuildTargets"> <valuelist type="QVariantList" key="GenericProjectManager.GenericMakeStep.BuildTargets">
@ -133,7 +133,7 @@
<valuelist type="QVariantList" key="ProjectExplorer.BuildConfiguration.CustomParsers"/> <valuelist type="QVariantList" key="ProjectExplorer.BuildConfiguration.CustomParsers"/>
<value type="bool" key="ProjectExplorer.BuildConfiguration.ParseStandardOutput">false</value> <value type="bool" key="ProjectExplorer.BuildConfiguration.ParseStandardOutput">false</value>
<valuelist type="QVariantList" key="ProjectExplorer.BuildConfiguration.UserEnvironmentChanges"/> <valuelist type="QVariantList" key="ProjectExplorer.BuildConfiguration.UserEnvironmentChanges"/>
<value type="QString" key="ProjectExplorer.ProjectConfiguration.DisplayName">По умолчанию</value> <value type="QString" key="ProjectExplorer.ProjectConfiguration.DisplayName">Default</value>
<value type="QString" key="ProjectExplorer.ProjectConfiguration.Id">GenericProjectManager.GenericBuildConfiguration</value> <value type="QString" key="ProjectExplorer.ProjectConfiguration.Id">GenericProjectManager.GenericBuildConfiguration</value>
<value type="qlonglong" key="ProjectExplorer.Target.ActiveDeployConfiguration">0</value> <value type="qlonglong" key="ProjectExplorer.Target.ActiveDeployConfiguration">0</value>
<value type="qlonglong" key="ProjectExplorer.Target.ActiveRunConfiguration">0</value> <value type="qlonglong" key="ProjectExplorer.Target.ActiveRunConfiguration">0</value>
@ -168,6 +168,7 @@
<value type="QString" key="ProjectExplorer.RunConfiguration.UniqueId"></value> <value type="QString" key="ProjectExplorer.RunConfiguration.UniqueId"></value>
<value type="bool" key="RunConfiguration.UseCppDebuggerAuto">true</value> <value type="bool" key="RunConfiguration.UseCppDebuggerAuto">true</value>
<value type="bool" key="RunConfiguration.UseQmlDebuggerAuto">true</value> <value type="bool" key="RunConfiguration.UseQmlDebuggerAuto">true</value>
<value type="QString" key="RunConfiguration.WorkingDirectory.default">%{RunConfig:Executable:Path}</value>
</valuemap> </valuemap>
<value type="qlonglong" key="ProjectExplorer.Target.RunConfigurationCount">1</value> <value type="qlonglong" key="ProjectExplorer.Target.RunConfigurationCount">1</value>
</valuemap> </valuemap>
@ -203,6 +204,7 @@
<value type="QString" key="ProjectExplorer.RunConfiguration.UniqueId"></value> <value type="QString" key="ProjectExplorer.RunConfiguration.UniqueId"></value>
<value type="bool" key="RunConfiguration.UseCppDebuggerAuto">true</value> <value type="bool" key="RunConfiguration.UseCppDebuggerAuto">true</value>
<value type="bool" key="RunConfiguration.UseQmlDebuggerAuto">true</value> <value type="bool" key="RunConfiguration.UseQmlDebuggerAuto">true</value>
<value type="QString" key="RunConfiguration.WorkingDirectory.default">%{RunConfig:Executable:Path}</value>
</valuemap> </valuemap>
<value type="qlonglong" key="ProjectExplorer.Target.RunConfigurationCount">1</value> <value type="qlonglong" key="ProjectExplorer.Target.RunConfigurationCount">1</value>
</valuemap> </valuemap>

70
Auxiliary_utils/LibSidServo/main.c
View File

@ -25,6 +25,7 @@
#include <time.h> #include <time.h>
#include <stdio.h> #include <stdio.h>
#include <stdlib.h> #include <stdlib.h>
#include <unistd.h>
#include "main.h" #include "main.h"
#include "movingmodel.h" #include "movingmodel.h"
@ -53,6 +54,7 @@ limits_t
.max = {.coord = 3.1241, .speed = 0.139626, .accel = 0.165806}} .max = {.coord = 3.1241, .speed = 0.139626, .accel = 0.165806}}
; ;
static mcc_errcodes_t shortcmd(short_command_t *cmd); static mcc_errcodes_t shortcmd(short_command_t *cmd);
static mcc_errcodes_t get_hwconf(hardware_configuration_t *hwConfig);
/** /**
* @brief curtime - monotonic time from first run * @brief curtime - monotonic time from first run
@ -87,6 +89,7 @@ static int initstarttime(){
curtime(&t0); curtime(&t0);
return TRUE; return TRUE;
} }
// return difference (in seconds) between time1 and time0 // return difference (in seconds) between time1 and time0
double timediff(const struct timespec *time1, const struct timespec *time0){ double timediff(const struct timespec *time1, const struct timespec *time0){
if(!time1 || !time0) return -1.; if(!time1 || !time0) return -1.;
@ -220,7 +223,18 @@ static mcc_errcodes_t init(conf_t *c){
} }
if(!SSrawcmd(CMD_EXITACM, NULL)) ret = MCC_E_FAILED; if(!SSrawcmd(CMD_EXITACM, NULL)) ret = MCC_E_FAILED;
if(ret != MCC_E_OK) return ret; if(ret != MCC_E_OK) return ret;
return updateMotorPos(); // read HW config to update constants
hardware_configuration_t HW;
if(MCC_E_OK != get_hwconf(&HW)) return MCC_E_FAILED;
// make a pause for actual encoder's values
double t0 = timefromstart();
while(timefromstart() - t0 < Conf.EncoderReqInterval) usleep(1000);
mcc_errcodes_t e = updateMotorPos();
// and refresh data after updating
DBG("Wait for next mount reading");
t0 = timefromstart();
while(timefromstart() - t0 < Conf.MountReqInterval * 3.) usleep(1000);
return e;
} }
// check coordinates (rad) and speeds (rad/s); return FALSE if failed // check coordinates (rad) and speeds (rad/s); return FALSE if failed
@ -242,7 +256,7 @@ static int chkYs(double s){
return TRUE; return TRUE;
} }
// set SLEWING state if axis was stopped later // set SLEWING state if axis was stopped
static void setslewingstate(){ static void setslewingstate(){
//FNAME(); //FNAME();
mountdata_t d; mountdata_t d;
@ -258,19 +272,6 @@ static void setslewingstate(){
}else DBG("CAN't GET MOUNT DATA!"); }else DBG("CAN't GET MOUNT DATA!");
} }
/*
static mcc_errcodes_t slew2(const coordpair_t *target, slewflags_t flags){
(void)target;
(void)flags;
//if(Conf.RunModel) return ... ;
if(MCC_E_OK != updateMotorPos()) return MCC_E_FAILED;
//...
setStat(AXIS_SLEWING, AXIS_SLEWING);
//...
return MCC_E_FAILED;
}
*/
/** /**
* @brief move2 - simple move to given point and stop * @brief move2 - simple move to given point and stop
* @param X - new X coordinate (radians: -pi..pi) or NULL * @param X - new X coordinate (radians: -pi..pi) or NULL
@ -287,10 +288,11 @@ static mcc_errcodes_t move2(const coordpair_t *target){
cmd.Ymot = target->Y; cmd.Ymot = target->Y;
cmd.Xspeed = Xlimits.max.speed; cmd.Xspeed = Xlimits.max.speed;
cmd.Yspeed = Ylimits.max.speed; cmd.Yspeed = Ylimits.max.speed;
mcc_errcodes_t r = shortcmd(&cmd); /*mcc_errcodes_t r = shortcmd(&cmd);
if(r != MCC_E_OK) return r; if(r != MCC_E_OK) return r;
setslewingstate(); setslewingstate();
return MCC_E_OK; return MCC_E_OK;*/
return shortcmd(&cmd);
} }
/** /**
@ -427,6 +429,7 @@ static mcc_errcodes_t get_hwconf(hardware_configuration_t *hwConfig){
if(!hwConfig) return MCC_E_BADFORMAT; if(!hwConfig) return MCC_E_BADFORMAT;
if(Conf.RunModel) return MCC_E_FAILED; if(Conf.RunModel) return MCC_E_FAILED;
SSconfig config; SSconfig config;
DBG("Read HW configuration");
if(!cmdC(&config, FALSE)) return MCC_E_FAILED; if(!cmdC(&config, FALSE)) return MCC_E_FAILED;
// Convert acceleration (ticks per loop^2 to rad/s^2) // Convert acceleration (ticks per loop^2 to rad/s^2)
hwConfig->Xconf.accel = X_MOTACC2RS(config.Xconf.accel); hwConfig->Xconf.accel = X_MOTACC2RS(config.Xconf.accel);
@ -466,8 +469,8 @@ static mcc_errcodes_t get_hwconf(hardware_configuration_t *hwConfig){
// Copy ticks per revolution // Copy ticks per revolution
hwConfig->Xsetpr = __bswap_32(config.Xsetpr); hwConfig->Xsetpr = __bswap_32(config.Xsetpr);
hwConfig->Ysetpr = __bswap_32(config.Ysetpr); hwConfig->Ysetpr = __bswap_32(config.Ysetpr);
hwConfig->Xmetpr = __bswap_32(config.Xmetpr) / 4; // as documentation said, real ticks are 4 times less hwConfig->Xmetpr = __bswap_32(config.Xmetpr); // as documentation said, real ticks are 4 times less
hwConfig->Ymetpr = __bswap_32(config.Ymetpr) / 4; hwConfig->Ymetpr = __bswap_32(config.Ymetpr);
// Convert slew rates (ticks per loop to rad/s) // Convert slew rates (ticks per loop to rad/s)
hwConfig->Xslewrate = X_MOTSPD2RS(config.Xslewrate); hwConfig->Xslewrate = X_MOTSPD2RS(config.Xslewrate);
hwConfig->Yslewrate = Y_MOTSPD2RS(config.Yslewrate); hwConfig->Yslewrate = Y_MOTSPD2RS(config.Yslewrate);
@ -485,6 +488,30 @@ static mcc_errcodes_t get_hwconf(hardware_configuration_t *hwConfig){
hwConfig->locsspeed = (double)config.locsspeed * M_PI / (180.0 * 3600.0); hwConfig->locsspeed = (double)config.locsspeed * M_PI / (180.0 * 3600.0);
// Convert backlash speed (ticks per loop to rad/s) // Convert backlash speed (ticks per loop to rad/s)
hwConfig->backlspd = X_MOTSPD2RS(config.backlspd); hwConfig->backlspd = X_MOTSPD2RS(config.backlspd);
// now read text commands
int64_t i64;
double Xticks, Yticks;
DBG("SERIAL");
// motor's encoder ticks per rev
if(!SSgetint(CMD_MEPRX, &i64)) return MCC_E_FAILED;
Xticks = ((double) i64); // divide by 4 as these values stored ???
if(!SSgetint(CMD_MEPRY, &i64)) return MCC_E_FAILED;
Yticks = ((double) i64);
X_ENC_ZERO = Conf.XEncZero;
Y_ENC_ZERO = Conf.YEncZero;
DBG("xyrev: %d/%d", config.xbits.motrev, config.ybits.motrev);
X_MOT_STEPSPERREV = hwConfig->Xconf.motor_stepsperrev = Xticks; // (config.xbits.motrev) ? -Xticks : Xticks;
Y_MOT_STEPSPERREV = hwConfig->Yconf.motor_stepsperrev = Yticks; //(config.ybits.motrev) ? -Yticks : Yticks;
DBG("zero: %d/%d; motsteps: %.10g/%.10g", X_ENC_ZERO, Y_ENC_ZERO, X_MOT_STEPSPERREV, Y_MOT_STEPSPERREV);
// axis encoder ticks per rev
if(!SSgetint(CMD_AEPRX, &i64)) return MCC_E_FAILED;
Xticks = (double) i64;
if(!SSgetint(CMD_AEPRY, &i64)) return MCC_E_FAILED;
Yticks = (double) i64;
DBG("xyencrev: %d/%d", config.xbits.encrev, config.ybits.encrev);
X_ENC_STEPSPERREV = hwConfig->Xconf.axis_stepsperrev = (config.xbits.encrev) ? -Xticks : Xticks;
Y_ENC_STEPSPERREV = hwConfig->Yconf.axis_stepsperrev = (config.ybits.encrev) ? -Yticks : Yticks;
DBG("encsteps: %.10g/%.10g", X_ENC_STEPSPERREV, Y_ENC_STEPSPERREV);
return MCC_E_OK; return MCC_E_OK;
} }
@ -538,8 +565,9 @@ static mcc_errcodes_t write_hwconf(hardware_configuration_t *hwConfig){
config.backlspd = X_RS2MOTSPD(hwConfig->backlspd); config.backlspd = X_RS2MOTSPD(hwConfig->backlspd);
config.Xsetpr = __bswap_32(hwConfig->Xsetpr); config.Xsetpr = __bswap_32(hwConfig->Xsetpr);
config.Ysetpr = __bswap_32(hwConfig->Ysetpr); config.Ysetpr = __bswap_32(hwConfig->Ysetpr);
config.Xmetpr = __bswap_32(hwConfig->Xmetpr * 4); config.Xmetpr = __bswap_32(hwConfig->Xmetpr);
config.Ymetpr = __bswap_32(hwConfig->Ymetpr * 4); config.Ymetpr = __bswap_32(hwConfig->Ymetpr);
// todo - also write text params
// TODO - next // TODO - next
(void) config; (void) config;
return MCC_E_OK; return MCC_E_OK;

114
Auxiliary_utils/LibSidServo/serial.c
View File

@ -48,7 +48,7 @@ static pthread_mutex_t mntmutex = PTHREAD_MUTEX_INITIALIZER,
// encoders thread and mount thread // encoders thread and mount thread
static pthread_t encthread, mntthread; static pthread_t encthread, mntthread;
// max timeout for 1.5 bytes of encoder and 2 bytes of mount - for `select` // max timeout for 1.5 bytes of encoder and 2 bytes of mount - for `select`
static struct timeval encRtmout = {.tv_sec = 0, .tv_usec = 50000}, mntRtmout = {.tv_sec = 0, .tv_usec = 50000}; static struct timeval encRtmout = {.tv_sec = 0, .tv_usec = 100}, mntRtmout = {.tv_sec = 0, .tv_usec = 50000};
// encoders raw data // encoders raw data
typedef struct __attribute__((packed)){ typedef struct __attribute__((packed)){
uint8_t magick; uint8_t magick;
@ -131,8 +131,8 @@ static void parse_encbuf(uint8_t databuf[ENC_DATALEN], struct timespec *t){
return; return;
} }
pthread_mutex_lock(&datamutex); pthread_mutex_lock(&datamutex);
mountdata.encXposition.val = X_ENC2RAD(edata->encX); mountdata.encXposition.val = Xenc2rad(edata->encX);
mountdata.encYposition.val = Y_ENC2RAD(edata->encY); mountdata.encYposition.val = Yenc2rad(edata->encY);
DBG("Got positions X/Y= %.6g / %.6g", mountdata.encXposition.val, mountdata.encYposition.val); DBG("Got positions X/Y= %.6g / %.6g", mountdata.encXposition.val, mountdata.encYposition.val);
mountdata.encXposition.t = *t; mountdata.encXposition.t = *t;
mountdata.encYposition.t = *t; mountdata.encYposition.t = *t;
@ -151,32 +151,52 @@ static void parse_encbuf(uint8_t databuf[ENC_DATALEN], struct timespec *t){
* @return amount of data read or 0 if problem * @return amount of data read or 0 if problem
*/ */
static int getencval(int fd, double *val, struct timespec *t){ static int getencval(int fd, double *val, struct timespec *t){
if(fd < 0) return FALSE; if(fd < 0){
DBG("Encoder fd < 0!");
return FALSE;
}
char buf[128]; char buf[128];
int got = 0, Lmax = 127; int got = 0, Lmax = 127;
double t0 = timefromstart(); double t0 = timefromstart();
//DBG("start: %.6g", t0);
do{ do{
fd_set rfds; fd_set rfds;
FD_ZERO(&rfds); FD_ZERO(&rfds);
FD_SET(fd, &rfds); FD_SET(fd, &rfds);
struct timeval tv = encRtmout; struct timeval tv = encRtmout;
int retval = select(fd + 1, &rfds, NULL, NULL, &tv); int retval = select(fd + 1, &rfds, NULL, NULL, &tv);
if(!retval) continue; if(!retval){
//DBG("select()==0 - timeout, %.6g", timefromstart());
break;
}
if(retval < 0){ if(retval < 0){
if(errno == EINTR) continue; if(errno == EINTR){
DBG("EINTR");
continue;
}
DBG("select() < 0");
return 0; return 0;
} }
if(FD_ISSET(fd, &rfds)){ if(FD_ISSET(fd, &rfds)){
ssize_t l = read(fd, &buf[got], Lmax); ssize_t l = read(fd, &buf[got], Lmax);
if(l < 1) return 0; // disconnected ?? if(l < 1){
DBG("read() < 0");
return 0; // disconnected ??
}
got += l; Lmax -= l; got += l; Lmax -= l;
buf[got] = 0; buf[got] = 0;
} else continue; } else continue;
if(strchr(buf, '\n')) break; if(buf[got-1] == '\n') break; // got EOL as last symbol
}while(Lmax && timefromstart() - t0 < Conf.EncoderReqInterval); }while(Lmax && timefromstart() - t0 < Conf.EncoderReqInterval / 5.);
if(got == 0) return 0; // WTF? if(got == 0){
//DBG("No data from encoder, tfs=%.6g", timefromstart());
return 0;
}
char *estr = strrchr(buf, '\n'); char *estr = strrchr(buf, '\n');
if(!estr) return 0; if(!estr){
DBG("No EOL");
return 0;
}
*estr = 0; *estr = 0;
char *bgn = strrchr(buf, '\n'); char *bgn = strrchr(buf, '\n');
if(bgn) ++bgn; if(bgn) ++bgn;
@ -188,7 +208,7 @@ static int getencval(int fd, double *val, struct timespec *t){
return 0; // wrong number return 0; // wrong number
} }
if(val) *val = (double) data; if(val) *val = (double) data;
if(t){ if(!curtime(t)) return 0; } if(t){ if(!curtime(t)){ DBG("Can't get time"); return 0; }}
return got; return got;
} }
// try to read 1 byte from encoder; return -1 if nothing to read or -2 if device seems to be disconnected // try to read 1 byte from encoder; return -1 if nothing to read or -2 if device seems to be disconnected
@ -312,40 +332,56 @@ static void *encoderthread2(void _U_ *u){
int need2ask = 0; // need or not to ask encoder for new data int need2ask = 0; // need or not to ask encoder for new data
while(encfd[0] > -1 && encfd[1] > -1 && errctr < MAX_ERR_CTR){ while(encfd[0] > -1 && encfd[1] > -1 && errctr < MAX_ERR_CTR){
struct timespec t; struct timespec t;
if(!curtime(&t)) continue;
if(need2ask){ if(need2ask){
//DBG("ASK for new data, tfs=%.6g", timefromstart());
if(1 != write(encfd[0], req, 1)) { ++errctr; continue; } if(1 != write(encfd[0], req, 1)) { ++errctr; continue; }
else if(1 != write(encfd[1], req, 1)) { ++errctr; continue; } else if(1 != write(encfd[1], req, 1)) { ++errctr; continue; }
//DBG("OK");
need2ask = 0;
usleep(100);
}
if(!curtime(&t)){
DBG("Where is time?");
continue;
} }
double v; double v;
if(getencval(encfd[0], &v, &t)){ if(getencval(encfd[0], &v, &t)){
pthread_mutex_lock(&datamutex); pthread_mutex_lock(&datamutex);
mountdata.encXposition.val = X_ENC2RAD(v); mountdata.encXposition.val = Xenc2rad(v);
mountdata.encXposition.t = t; mountdata.encXposition.t = t;
pthread_mutex_unlock(&datamutex); pthread_mutex_unlock(&datamutex);
//DBG("MDXpos: %.10g/%g (xez=%d, xesr=%.10g), tfs=%.6g", v, mountdata.encXposition.val, X_ENC_ZERO, X_ENC_STEPSPERREV, timefromstart());
getXspeed(); getXspeed();
if(getencval(encfd[1], &v, &t)){ if(getencval(encfd[1], &v, &t)){
pthread_mutex_lock(&datamutex); pthread_mutex_lock(&datamutex);
mountdata.encYposition.val = Y_ENC2RAD(v); mountdata.encYposition.val = Yenc2rad(v);
mountdata.encYposition.t = t; mountdata.encYposition.t = t;
pthread_mutex_unlock(&datamutex); pthread_mutex_unlock(&datamutex);
//DBG("MDYpos: %.10g/%g (yez=%d, yesr=%.10g)", v, mountdata.encYposition.val, Y_ENC_ZERO, Y_ENC_STEPSPERREV);
getYspeed(); getYspeed();
errctr = 0; errctr = 0;
need2ask = 0; need2ask = 0;
} else { //DBG("tgot=%.6g", timefromstart());
if(need2ask) ++errctr; while(timefromstart() - t0 < Conf.EncoderReqInterval){ usleep(50); }
t0 = timefromstart();
}else{
DBG("NO Y DATA!!!");
/*if(need2ask) ++errctr;
else need2ask = 1; else need2ask = 1;
continue; continue;*/
++errctr;
need2ask = 1;
} }
} else { }else{ // no data - ask for new
if(need2ask) ++errctr; //DBG("Need new, tfs=%.6g", timefromstart());
/*if(need2ask) ++errctr;
else need2ask = 1; else need2ask = 1;
continue; continue;*/
++errctr;
need2ask = 1;
} }
while(timefromstart() - t0 < Conf.EncoderReqInterval){ usleep(50); }
t0 = timefromstart();
} }
DBG("ERRCTR=%d", errctr); DBG("\n\nEXIT: ERRCTR=%d", errctr);
for(int i = 0; i < 2; ++i){ for(int i = 0; i < 2; ++i){
if(encfd[i] > -1){ if(encfd[i] > -1){
close(encfd[i]); close(encfd[i]);
@ -480,8 +516,15 @@ static int ttyopen(const char *path, speed_t speed){
int fd = -1; int fd = -1;
struct termios2 tty; struct termios2 tty;
DBG("Try to open %s @ %d", path, speed); DBG("Try to open %s @ %d", path, speed);
if((fd = open(path, O_RDWR|O_NOCTTY)) < 0) return -1; if((fd = open(path, O_RDWR|O_NOCTTY)) < 0){
if(ioctl(fd, TCGETS2, &tty)){ close(fd); return -1; } DBG("Can't open device %s: %s", path, strerror(errno));
return -1;
}
if(ioctl(fd, TCGETS2, &tty)){
DBG("Can't read TTY settings");
close(fd);
return -1;
}
tty.c_lflag = 0; // ~(ICANON | ECHO | ECHOE | ISIG) tty.c_lflag = 0; // ~(ICANON | ECHO | ECHOE | ISIG)
tty.c_iflag = 0; // don't do any changes in input stream tty.c_iflag = 0; // don't do any changes in input stream
tty.c_oflag = 0; // don't do any changes in output stream tty.c_oflag = 0; // don't do any changes in output stream
@ -490,7 +533,11 @@ static int ttyopen(const char *path, speed_t speed){
tty.c_ospeed = speed; tty.c_ospeed = speed;
//tty.c_cc[VMIN] = 0; // non-canonical mode //tty.c_cc[VMIN] = 0; // non-canonical mode
//tty.c_cc[VTIME] = 5; //tty.c_cc[VTIME] = 5;
if(ioctl(fd, TCSETS2, &tty)){ close(fd); return -1; } if(ioctl(fd, TCSETS2, &tty)){
DBG("Can't set TTY settings");
close(fd);
return -1;
}
DBG("Check speed: i=%d, o=%d", tty.c_ispeed, tty.c_ospeed); DBG("Check speed: i=%d, o=%d", tty.c_ispeed, tty.c_ospeed);
if(tty.c_ispeed != (speed_t) speed || tty.c_ospeed != (speed_t)speed){ close(fd); return -1; } if(tty.c_ispeed != (speed_t) speed || tty.c_ospeed != (speed_t)speed){ close(fd); return -1; }
// try to set exclusive // try to set exclusive
@ -523,7 +570,7 @@ int openEncoder(){
if(encfd[i] < 0) return FALSE; if(encfd[i] < 0) return FALSE;
} }
encRtmout.tv_sec = 0; encRtmout.tv_sec = 0;
encRtmout.tv_usec = 1000; // 1ms encRtmout.tv_usec = 100000000 / Conf.EncoderDevSpeed;
if(pthread_create(&encthread, NULL, encoderthread2, NULL)){ if(pthread_create(&encthread, NULL, encoderthread2, NULL)){
for(int i = 0; i < 2; ++i){ for(int i = 0; i < 2; ++i){
close(encfd[i]); close(encfd[i]);
@ -602,6 +649,8 @@ mcc_errcodes_t getMD(mountdata_t *d){
pthread_mutex_lock(&datamutex); pthread_mutex_lock(&datamutex);
*d = mountdata; *d = mountdata;
pthread_mutex_unlock(&datamutex); pthread_mutex_unlock(&datamutex);
//DBG("ENCpos: %.10g/%.10g", d->encXposition.val, d->encYposition.val);
//DBG("millis: %u, encxt: %zd (time: %zd)", d->millis, d->encXposition.t.tv_sec, time(NULL));
return MCC_E_OK; return MCC_E_OK;
} }
@ -629,6 +678,7 @@ static int wr(const data_t *out, data_t *in, int needeol){
int g = write(mntfd, "\r", 1); // add EOL int g = write(mntfd, "\r", 1); // add EOL
(void) g; (void) g;
} }
usleep(50000); // add little pause so that the idiot has time to swallow
} }
if(!in) return TRUE; if(!in) return TRUE;
in->len = 0; in->len = 0;
@ -740,7 +790,13 @@ int cmdC(SSconfig *conf, int rw){
}else{ // read }else{ // read
data_t d; data_t d;
d.buf = (uint8_t *) conf; d.buf = (uint8_t *) conf;
d.len = 0; d.maxlen = sizeof(SSconfig); d.len = 0; d.maxlen = 0;
ret = wr(rcmd, &d, 1);
DBG("write command: %s", ret ? "TRUE" : "FALSE");
if(!ret) goto rtn;
// make a huge pause for stupid SSII
usleep(100000);
d.len = 0; d.maxlen = sizeof(SSconfig);
ret = wr(rcmd, &d, 1); ret = wr(rcmd, &d, 1);
DBG("wr returned %s; got %zd bytes of %zd", ret ? "TRUE" : "FALSE", d.len, d.maxlen); DBG("wr returned %s; got %zd bytes of %zd", ret ? "TRUE" : "FALSE", d.len, d.maxlen);
if(d.len != d.maxlen){ ret = FALSE; goto rtn; } if(d.len != d.maxlen){ ret = FALSE; goto rtn; }

12
Auxiliary_utils/LibSidServo/sidservo.h
View File

@ -48,6 +48,7 @@ typedef enum{
MCC_E_ENCODERDEV, // encoder device error or can't open MCC_E_ENCODERDEV, // encoder device error or can't open
MCC_E_MOUNTDEV, // mount device error or can't open MCC_E_MOUNTDEV, // mount device error or can't open
MCC_E_FAILED, // failed to run command - protocol error MCC_E_FAILED, // failed to run command - protocol error
MCC_E_AMOUNT // Just amount of errors
} mcc_errcodes_t; } mcc_errcodes_t;
typedef struct{ typedef struct{
@ -74,9 +75,11 @@ typedef struct{
PIDpar_t XPIDV; PIDpar_t XPIDV;
PIDpar_t YPIDC; PIDpar_t YPIDC;
PIDpar_t YPIDV; PIDpar_t YPIDV;
double MaxPointingErr; // if angle < this, change state from "slewing" to "pointing" (coarse pointing): 8 degrees double MaxPointingErr; // if angle < this, change state from "slewing" to "pointing" (coarse pointing): 8 degrees
double MaxFinePointingErr; // if angle < this, chane state from "pointing" to "guiding" (fine poinging): 1.5 deg double MaxFinePointingErr; // if angle < this, chane state from "pointing" to "guiding" (fine poinging): 1.5 deg
double MaxGuidingErr; // if error less than this value we suppose that target is captured and guiding is good (true guiding): 0.1'' double MaxGuidingErr; // if error less than this value we suppose that target is captured and guiding is good (true guiding): 0.1''
int XEncZero; // encoders' zero position
int YEncZero;
} conf_t; } conf_t;
// coordinates/speeds in degrees or d/s: X, Y // coordinates/speeds in degrees or d/s: X, Y
@ -188,6 +191,9 @@ typedef struct{
double outplimit; // Output Limit, percent (0..100) double outplimit; // Output Limit, percent (0..100)
double currlimit; // Current Limit (A) double currlimit; // Current Limit (A)
double intlimit; // Integral Limit (???) double intlimit; // Integral Limit (???)
// these params are taken from mount by text commands (don't save negative values - better save these marks in xybits
double motor_stepsperrev;// encoder's steps per revolution: motor and axis
double axis_stepsperrev; // negative sign of these values means reverse direction
} __attribute__((packed)) axis_config_t; } __attribute__((packed)) axis_config_t;
// hardware configuration // hardware configuration

16
Auxiliary_utils/LibSidServo/ssii.c
View File

@ -26,6 +26,9 @@
#include "serial.h" #include "serial.h"
#include "ssii.h" #include "ssii.h"
int X_ENC_ZERO, Y_ENC_ZERO;
double X_MOT_STEPSPERREV = 1., Y_MOT_STEPSPERREV = 1., X_ENC_STEPSPERREV = 1., Y_ENC_STEPSPERREV = 1.;
uint16_t SScalcChecksum(uint8_t *buf, int len){ uint16_t SScalcChecksum(uint8_t *buf, int len){
uint16_t checksum = 0; uint16_t checksum = 0;
for(int i = 0; i < len; i++){ for(int i = 0; i < len; i++){
@ -75,8 +78,9 @@ void SSconvstat(const SSstat *s, mountdata_t *m, struct timespec *t){
m->motXposition.t = m->motYposition.t = *t; m->motXposition.t = m->motYposition.t = *t;
// fill encoder data from here, as there's no separate enc thread // fill encoder data from here, as there's no separate enc thread
if(!Conf.SepEncoder){ if(!Conf.SepEncoder){
m->encXposition.val = X_ENC2RAD(s->Xenc); m->encXposition.val = Xenc2rad(s->Xenc);
m->encYposition.val = Y_ENC2RAD(s->Yenc); DBG("encx: %g", m->encXposition.val);
m->encYposition.val = Yenc2rad(s->Yenc);
m->encXposition.t = m->encYposition.t = *t; m->encXposition.t = m->encYposition.t = *t;
getXspeed(); getYspeed(); getXspeed(); getYspeed();
} }
@ -185,9 +189,10 @@ mcc_errcodes_t updateMotorPos(){
usleep(10000); usleep(10000);
continue; continue;
} }
//DBG("XENC2RAD: %g (xez=%d, xesr=%.10g)", Xenc2rad(32424842), X_ENC_ZERO, X_ENC_STEPSPERREV);
if(MCC_E_OK == getMD(&md)){ if(MCC_E_OK == getMD(&md)){
if(md.encXposition.t.tv_sec == 0 || md.encYposition.t.tv_sec == 0){ if(md.encXposition.t.tv_sec == 0 || md.encYposition.t.tv_sec == 0){
DBG("Just started, t-t0 = %g!", t - t0); DBG("Just started? t-t0 = %g!", t - t0);
usleep(10000); usleep(10000);
continue; continue;
} }
@ -195,14 +200,15 @@ mcc_errcodes_t updateMotorPos(){
DBG("got; t pos x/y: %ld/%ld; tnow: %ld", md.encXposition.t.tv_sec, md.encYposition.t.tv_sec, curt.tv_sec); DBG("got; t pos x/y: %ld/%ld; tnow: %ld", md.encXposition.t.tv_sec, md.encYposition.t.tv_sec, curt.tv_sec);
mcc_errcodes_t OK = MCC_E_OK; mcc_errcodes_t OK = MCC_E_OK;
if(fabs(md.motXposition.val - md.encXposition.val) > Conf.EncodersDisagreement && md.Xstate == AXIS_STOPPED){ if(fabs(md.motXposition.val - md.encXposition.val) > Conf.EncodersDisagreement && md.Xstate == AXIS_STOPPED){
DBG("NEED to sync X: motors=%g, axiss=%g", md.motXposition.val, md.encXposition.val); DBG("NEED to sync X: motors=%g, axis=%g", md.motXposition.val, md.encXposition.val);
DBG("new motsteps: %d", X_RAD2MOT(md.encXposition.val));
if(!SSsetterI(CMD_MOTXSET, X_RAD2MOT(md.encXposition.val))){ if(!SSsetterI(CMD_MOTXSET, X_RAD2MOT(md.encXposition.val))){
DBG("Xpos sync failed!"); DBG("Xpos sync failed!");
OK = MCC_E_FAILED; OK = MCC_E_FAILED;
}else DBG("Xpos sync OK, Dt=%g", t - t0); }else DBG("Xpos sync OK, Dt=%g", t - t0);
} }
if(fabs(md.motYposition.val - md.encYposition.val) > Conf.EncodersDisagreement && md.Ystate == AXIS_STOPPED){ if(fabs(md.motYposition.val - md.encYposition.val) > Conf.EncodersDisagreement && md.Ystate == AXIS_STOPPED){
DBG("NEED to sync Y: motors=%g, axiss=%g", md.motYposition.val, md.encYposition.val); DBG("NEED to sync Y: motors=%g, axis=%g", md.motYposition.val, md.encYposition.val);
if(!SSsetterI(CMD_MOTYSET, Y_RAD2MOT(md.encYposition.val))){ if(!SSsetterI(CMD_MOTYSET, Y_RAD2MOT(md.encYposition.val))){
DBG("Ypos sync failed!"); DBG("Ypos sync failed!");
OK = MCC_E_FAILED; OK = MCC_E_FAILED;

70
Auxiliary_utils/LibSidServo/ssii.h
View File

@ -175,62 +175,70 @@
// amount of consequent same coordinates to detect stop // amount of consequent same coordinates to detect stop
#define MOTOR_STOPPED_CNT (19) #define MOTOR_STOPPED_CNT (19)
// replace macros with global variables inited when config read
extern int X_ENC_ZERO, Y_ENC_ZERO;
extern double X_MOT_STEPSPERREV, Y_MOT_STEPSPERREV, X_ENC_STEPSPERREV, Y_ENC_STEPSPERREV;
// TODO: take it from settings? // TODO: take it from settings?
// steps per revolution (SSI - x4 - for SSI) // steps per revolution (SSI - x4 - for SSI)
#define X_MOT_STEPSPERREV_SSI (13312000.) // -> hwconf.Xconf.mot/enc_stepsperrev
//#define X_MOT_STEPSPERREV_SSI (13312000.)
// 13312000 / 4 = 3328000 // 13312000 / 4 = 3328000
#define X_MOT_STEPSPERREV (3328000.) //#define X_MOT_STEPSPERREV (3328000.)
#define Y_MOT_STEPSPERREV_SSI (17578668.) //#define Y_MOT_STEPSPERREV_SSI (17578668.)
// 17578668 / 4 = 4394667 // 17578668 / 4 = 4394667
#define Y_MOT_STEPSPERREV (4394667.) //#define Y_MOT_STEPSPERREV (4394667.)
// encoder per revolution // encoder per revolution
#define X_ENC_STEPSPERREV (67108864.) //#define X_ENC_STEPSPERREV (67108864.)
#define Y_ENC_STEPSPERREV (67108864.) //#define Y_ENC_STEPSPERREV (67108864.)
// encoder zero position // encoder zero position
#define X_ENC_ZERO (61245239) // -> conf.XEncZero/YEncZero
#define Y_ENC_ZERO (36999830) //#define X_ENC_ZERO (61245239)
// encoder reversed (no: +1) //#define Y_ENC_ZERO (36999830)
#define X_ENC_SIGN (-1.) // encoder reversed (no: +1) -> sign of ...stepsperrev
#define Y_ENC_SIGN (-1.) //#define X_ENC_SIGN (-1.)
//#define Y_ENC_SIGN (-1.)
// encoder position to radians and back // encoder position to radians and back
#define X_ENC2RAD(n) ang2half(X_ENC_SIGN * 2.*M_PI * ((double)((n)-X_ENC_ZERO)) / X_ENC_STEPSPERREV) #define Xenc2rad(n) ang2half(2.*M_PI * ((double)((n)-(X_ENC_ZERO))) / (X_ENC_STEPSPERREV))
#define Y_ENC2RAD(n) ang2half(Y_ENC_SIGN * 2.*M_PI * ((double)((n)-Y_ENC_ZERO)) / Y_ENC_STEPSPERREV) #define Yenc2rad(n) ang2half(2.*M_PI * ((double)((n)-(Y_ENC_ZERO))) / (Y_ENC_STEPSPERREV))
#define X_RAD2ENC(r) ((uint32_t)((r) / 2./M_PI * X_ENC_STEPSPERREV)) #define Xrad2enc(r) ((uint32_t)((r) / 2./M_PI * (X_ENC_STEPSPERREV)))
#define Y_RAD2ENC(r) ((uint32_t)((r) / 2./M_PI * Y_ENC_STEPSPERREV)) #define Yrad2enc(r) ((uint32_t)((r) / 2./M_PI * (Y_ENC_STEPSPERREV)))
// convert angle in radians to +-pi // convert angle in radians to +-pi
static inline double ang2half(double ang){ static inline __attribute__((always_inline)) double ang2half(double ang){
if(ang < -M_PI) ang += 2.*M_PI; if(ang < -M_PI) ang += 2.*M_PI;
else if(ang > M_PI) ang -= 2.*M_PI; else if(ang > M_PI) ang -= 2.*M_PI;
return ang; return ang;
} }
// convert to only positive: 0..2pi // convert to only positive: 0..2pi
static inline double ang2full(double ang){ static inline __attribute__((always_inline)) double ang2full(double ang){
if(ang < 0.) ang += 2.*M_PI; if(ang < 0.) ang += 2.*M_PI;
else if(ang > 2.*M_PI) ang -= 2.*M_PI; else if(ang > 2.*M_PI) ang -= 2.*M_PI;
return ang; return ang;
} }
// motor position to radians and back // motor position to radians and back
#define X_MOT2RAD(n) ang2half(2. * M_PI * ((double)(n)) / X_MOT_STEPSPERREV) #define X_MOT2RAD(n) ang2half(2. * M_PI * ((double)(n)) / (X_MOT_STEPSPERREV))
#define Y_MOT2RAD(n) ang2half(2. * M_PI * ((double)(n)) / Y_MOT_STEPSPERREV) #define Y_MOT2RAD(n) ang2half(2. * M_PI * ((double)(n)) / (Y_MOT_STEPSPERREV))
#define X_RAD2MOT(r) ((int32_t)((r) / (2. * M_PI) * X_MOT_STEPSPERREV)) #define X_RAD2MOT(r) ((int32_t)((r) / (2. * M_PI) * (X_MOT_STEPSPERREV)))
#define Y_RAD2MOT(r) ((int32_t)((r) / (2. * M_PI) * Y_MOT_STEPSPERREV)) #define Y_RAD2MOT(r) ((int32_t)((r) / (2. * M_PI) * (Y_MOT_STEPSPERREV)))
// motor speed in rad/s and back // motor speed in rad/s and back
#define X_MOTSPD2RS(n) (X_MOT2RAD(n) / 65536. * SITECH_LOOP_FREQUENCY) #define X_MOTSPD2RS(n) (X_MOT2RAD(n) / 65536. * (SITECH_LOOP_FREQUENCY))
#define Y_MOTSPD2RS(n) (Y_MOT2RAD(n) / 65536. * SITECH_LOOP_FREQUENCY) #define Y_MOTSPD2RS(n) (Y_MOT2RAD(n) / 65536. * (SITECH_LOOP_FREQUENCY))
#define X_RS2MOTSPD(r) ((int32_t)(X_RAD2MOT(r) * 65536. / SITECH_LOOP_FREQUENCY)) #define X_RS2MOTSPD(r) ((int32_t)(X_RAD2MOT(r) * 65536. / (SITECH_LOOP_FREQUENCY)))
#define Y_RS2MOTSPD(r) ((int32_t)(Y_RAD2MOT(r) * 65536. / SITECH_LOOP_FREQUENCY)) #define Y_RS2MOTSPD(r) ((int32_t)(Y_RAD2MOT(r) * 65536. / (SITECH_LOOP_FREQUENCY)))
// motor acceleration -//- // motor acceleration -//-
#define X_MOTACC2RS(n) (X_MOT2RAD(n) / 65536. * SITECH_LOOP_FREQUENCY * SITECH_LOOP_FREQUENCY) #define X_MOTACC2RS(n) (X_MOT2RAD(n) / 65536. * (SITECH_LOOP_FREQUENCY) * (SITECH_LOOP_FREQUENCY))
#define Y_MOTACC2RS(n) (Y_MOT2RAD(n) / 65536. * SITECH_LOOP_FREQUENCY * SITECH_LOOP_FREQUENCY) #define Y_MOTACC2RS(n) (Y_MOT2RAD(n) / 65536. * (SITECH_LOOP_FREQUENCY) * (SITECH_LOOP_FREQUENCY))
#define X_RS2MOTACC(r) ((int32_t)(X_RAD2MOT(r) * 65536. / SITECH_LOOP_FREQUENCY / SITECH_LOOP_FREQUENCY)) #define X_RS2MOTACC(r) ((int32_t)(X_RAD2MOT(r) * 65536. / (SITECH_LOOP_FREQUENCY) / (SITECH_LOOP_FREQUENCY)))
#define Y_RS2MOTACC(r) ((int32_t)(Y_RAD2MOT(r) * 65536. / SITECH_LOOP_FREQUENCY / SITECH_LOOP_FREQUENCY)) #define Y_RS2MOTACC(r) ((int32_t)(Y_RAD2MOT(r) * 65536. / (SITECH_LOOP_FREQUENCY) / (SITECH_LOOP_FREQUENCY)))
// adder time to seconds vice versa // adder time to seconds vice versa
#define ADDER2S(a) ((a) / SITECH_LOOP_FREQUENCY) #define ADDER2S(a) ((a) / (SITECH_LOOP_FREQUENCY))
#define S2ADDER(s) ((s) * SITECH_LOOP_FREQUENCY) #define S2ADDER(s) ((s) * (SITECH_LOOP_FREQUENCY))
// encoder's tolerance (ticks) // encoder's tolerance (ticks)
#define YencTOL (25.) #define YencTOL (25.)