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-rwxr-xr-xModelica-Arduino-MDD_Arduino_Revised/MDD_build/servo/servo_reverse_main.c213
1 files changed, 213 insertions, 0 deletions
diff --git a/Modelica-Arduino-MDD_Arduino_Revised/MDD_build/servo/servo_reverse_main.c b/Modelica-Arduino-MDD_Arduino_Revised/MDD_build/servo/servo_reverse_main.c
new file mode 100755
index 0000000..5382666
--- /dev/null
+++ b/Modelica-Arduino-MDD_Arduino_Revised/MDD_build/servo/servo_reverse_main.c
@@ -0,0 +1,213 @@
+#define fmi2TypesPlatform_h
+
+#define fmi2TypesPlatform "default" /* Compatible */
+
+typedef struct servo_reverse_fmi2Component_s* fmi2Component;
+typedef void* fmi2ComponentEnvironment; /* Pointer to FMU environment */
+typedef void* fmi2FMUstate; /* Pointer to internal FMU state */
+typedef unsigned int fmi2ValueReference;
+typedef double fmi2Real;
+typedef int fmi2Integer;
+typedef int fmi2Boolean;
+typedef char fmi2Char;
+typedef const fmi2Char* fmi2String;
+typedef char fmi2Byte;
+
+#define fmi2True 1
+#define fmi2False 0
+
+#include "fmi2/fmi2Functions.h"
+
+#include <stdint.h>
+#include <stdio.h>
+
+void ModelicaFormatMessage(const char *fmt, ...)
+{
+ va_list args;
+ va_start(args, fmt);
+ vprintf(fmt, args);
+ va_end(args);
+}
+
+typedef struct servo_reverse_fmi2Component_s {
+ fmi2Real currentTime;
+ fmi2Integer fmi2IntegerVars[1];
+ fmi2Real fmi2RealParameter[1];
+ void* extObjs[4];
+} servo_reverse_fmi2Component;
+
+servo_reverse_fmi2Component servo_reverse_component = {
+ .fmi2IntegerVars = {
+ 22 /*pwm._u[1]*/,
+ },
+ .fmi2RealParameter = {
+ 0.01 /*synchronizeRealtime1._actualInterval*/,
+ },
+};
+
+#include <math.h>
+/* TODO: Generate used builtin functions before SimCode */
+static inline double om_mod(double x, double y)
+{
+ return x-floor(x/y)*y;
+}
+
+#include "MDDAVRTimer.h"
+#include "MDDAVRRealTime.h"
+#include "MDDAVRAnalog.h"
+
+static inline void Modelica__DeviceDrivers_EmbeddedTargets_AVR_Functions_PWM_set(fmi2Component comp, void* om_pwm, fmi2Integer om_value);
+static inline void* Modelica__DeviceDrivers_EmbeddedTargets_AVR_Functions_PWM_Init_constructor(fmi2Component comp, void* om_timer, fmi2Integer om_pin, fmi2Integer om_initialValue, fmi2Boolean om_inverted);
+static inline void Modelica__DeviceDrivers_EmbeddedTargets_AVR_Functions_PWM_Init_destructor(fmi2Component comp, void* om_pwm);
+static inline void Modelica__DeviceDrivers_EmbeddedTargets_AVR_Functions_RealTimeSynchronization_wait(fmi2Component comp, void* om_rt);
+static inline void* Modelica__DeviceDrivers_EmbeddedTargets_AVR_Functions_RealTimeSynchronization_Init_constructor(fmi2Component comp, void* om_timer, fmi2Integer om_timerValue, fmi2Integer om_numTimerInterruptsPerCycle);
+static inline void Modelica__DeviceDrivers_EmbeddedTargets_AVR_Functions_RealTimeSynchronization_Init_destructor(fmi2Component comp, void* om_rt);
+static inline void* Modelica__DeviceDrivers_EmbeddedTargets_AVR_Functions_Timers_Timer_constructor(fmi2Component comp, fmi2Integer om_timerSelect, fmi2Integer om_clockSelect, fmi2Boolean om_clearTimerOnMatch);
+static inline void Modelica__DeviceDrivers_EmbeddedTargets_AVR_Functions_Timers_Timer_destructor(fmi2Component comp, void* om_timer);
+
+static inline void Modelica__DeviceDrivers_EmbeddedTargets_AVR_Functions_PWM_set(fmi2Component comp, void* om_pwm, fmi2Integer om_value)
+{
+ MDD_avr_pwm_set(om_pwm, om_value);
+}
+static inline void* Modelica__DeviceDrivers_EmbeddedTargets_AVR_Functions_PWM_Init_constructor(fmi2Component comp, void* om_timer, fmi2Integer om_pin, fmi2Integer om_initialValue, fmi2Boolean om_inverted)
+{
+ void* om_pwm;
+ om_pwm = MDD_avr_pwm_init(om_timer, om_pin, om_initialValue, om_inverted);
+ return om_pwm;
+}
+static inline void Modelica__DeviceDrivers_EmbeddedTargets_AVR_Functions_PWM_Init_destructor(fmi2Component comp, void* om_pwm)
+{
+ MDD_avr_pwm_close(om_pwm);
+}
+static inline void Modelica__DeviceDrivers_EmbeddedTargets_AVR_Functions_RealTimeSynchronization_wait(fmi2Component comp, void* om_rt)
+{
+ MDD_avr_rt_wait(om_rt);
+}
+static inline void* Modelica__DeviceDrivers_EmbeddedTargets_AVR_Functions_RealTimeSynchronization_Init_constructor(fmi2Component comp, void* om_timer, fmi2Integer om_timerValue, fmi2Integer om_numTimerInterruptsPerCycle)
+{
+ void* om_rt;
+ om_rt = MDD_avr_rt_init(om_timer, om_timerValue, om_numTimerInterruptsPerCycle);
+ return om_rt;
+}
+static inline void Modelica__DeviceDrivers_EmbeddedTargets_AVR_Functions_RealTimeSynchronization_Init_destructor(fmi2Component comp, void* om_rt)
+{
+ MDD_avr_rt_close(om_rt);
+}
+static inline void* Modelica__DeviceDrivers_EmbeddedTargets_AVR_Functions_Timers_Timer_constructor(fmi2Component comp, fmi2Integer om_timerSelect, fmi2Integer om_clockSelect, fmi2Boolean om_clearTimerOnMatch)
+{
+ void* om_timer;
+ om_timer = MDD_avr_timer_init(om_timerSelect, om_clockSelect, om_clearTimerOnMatch);
+ return om_timer;
+}
+static inline void Modelica__DeviceDrivers_EmbeddedTargets_AVR_Functions_Timers_Timer_destructor(fmi2Component comp, void* om_timer)
+{
+ MDD_avr_timer_close(om_timer);
+}
+
+fmi2Component servo_reverse_fmi2Instantiate(fmi2String name, fmi2Type ty, fmi2String GUID, fmi2String resources, const fmi2CallbackFunctions* functions, fmi2Boolean visible, fmi2Boolean loggingOn)
+{
+ static int initDone=0;
+ if (initDone) {
+ return NULL;
+ }
+ return &servo_reverse_component;
+}
+
+fmi2Status servo_reverse_fmi2SetupExperiment(fmi2Component comp, fmi2Boolean toleranceDefined, fmi2Real tolerance, fmi2Real startTime, fmi2Boolean stopTimeDefined, fmi2Real stopTime)
+{
+ return fmi2OK;
+}
+
+fmi2Status servo_reverse_fmi2EnterInitializationMode(fmi2Component comp)
+{
+ comp->extObjs[0] /* pwm._clock EXTOBJ: Modelica_DeviceDrivers.EmbeddedTargets.AVR.Functions.Timers.Timer */ = Modelica__DeviceDrivers_EmbeddedTargets_AVR_Functions_Timers_Timer_constructor(comp, 2, 7, fmi2True);
+ comp->extObjs[1] /* pwm._pwm[1] EXTOBJ: Modelica_DeviceDrivers.EmbeddedTargets.AVR.Functions.PWM.Init */ = Modelica__DeviceDrivers_EmbeddedTargets_AVR_Functions_PWM_Init_constructor(comp, comp->extObjs[0] /* pwm._clock EXTOBJ: Modelica_DeviceDrivers.EmbeddedTargets.AVR.Functions.Timers.Timer */, 1, 0, fmi2False);
+ comp->extObjs[2] /* synchronizeRealtime1._clock EXTOBJ: Modelica_DeviceDrivers.EmbeddedTargets.AVR.Functions.Timers.Timer */ = Modelica__DeviceDrivers_EmbeddedTargets_AVR_Functions_Timers_Timer_constructor(comp, 1, 4, fmi2False);
+ comp->extObjs[3] /* synchronizeRealtime1._sync EXTOBJ: Modelica_DeviceDrivers.EmbeddedTargets.AVR.Functions.RealTimeSynchronization.Init */ = Modelica__DeviceDrivers_EmbeddedTargets_AVR_Functions_RealTimeSynchronization_Init_constructor(comp, comp->extObjs[2] /* synchronizeRealtime1._clock EXTOBJ: Modelica_DeviceDrivers.EmbeddedTargets.AVR.Functions.Timers.Timer */, 249, 10);
+ return fmi2OK;
+}
+
+fmi2Status servo_reverse_fmi2ExitInitializationMode(fmi2Component comp)
+{
+ return fmi2OK;
+}
+
+static fmi2Status servo_reverse_functionODE(fmi2Component comp)
+{
+}
+
+static fmi2Status servo_reverse_functionOutputs(fmi2Component comp)
+{
+ comp->fmi2IntegerVars[0] /* pwm._u[1] DISCRETE */ = ((comp->currentTime)<(0.2)) ? (22) : (15); /* equation 3 */Modelica__DeviceDrivers_EmbeddedTargets_AVR_Functions_RealTimeSynchronization_wait(comp, comp->extObjs[3] /* synchronizeRealtime1._sync EXTOBJ: Modelica_DeviceDrivers.EmbeddedTargets.AVR.Functions.RealTimeSynchronization.Init */);Modelica__DeviceDrivers_EmbeddedTargets_AVR_Functions_PWM_set(comp, comp->extObjs[1] /* pwm._pwm[1] EXTOBJ: Modelica_DeviceDrivers.EmbeddedTargets.AVR.Functions.PWM.Init */, comp->fmi2IntegerVars[0] /* pwm._u[1] DISCRETE */);
+}
+
+fmi2Status servo_reverse_fmi2DoStep(fmi2Component comp, fmi2Real currentCommunicationPoint, fmi2Real communicationStepSize, fmi2Boolean noSetFMUStatePriorToCurrentPoint)
+{
+ comp->currentTime = currentCommunicationPoint;
+ /* TODO: Calculate time/state-dependent variables here... */
+ servo_reverse_functionOutputs(comp);
+ return fmi2OK;
+}
+
+int main(int argc, char **argv)
+{
+ int terminateSimulation = 0;
+ fmi2Status status = fmi2OK;
+ fmi2CallbackFunctions cbf = {
+ .logger = NULL,
+ .allocateMemory = NULL /*calloc*/,
+ .freeMemory = NULL /*free*/,
+ .stepFinished = NULL, //synchronous execution
+ .componentEnvironment = NULL
+ };
+
+ fmi2Component comp = servo_reverse_fmi2Instantiate("", fmi2CoSimulation, "", "", &cbf, fmi2False, fmi2False);
+ if (comp==NULL) {
+ return 1;
+ }
+ servo_reverse_fmi2SetupExperiment(comp, fmi2False, 0.0, 0.0, fmi2False, 1.0);
+ servo_reverse_fmi2EnterInitializationMode(comp);
+ // Set start-values? Nah...
+ servo_reverse_fmi2ExitInitializationMode(comp);
+
+ double currentTime = 0.0;
+ double h = 0.002;
+ uint32_t i = 0;
+
+ while (status == fmi2OK) {
+ //retrieve outputs
+ // fmi2GetReal(m, ..., 1, &y1);
+ //set inputs
+ // fmi2SetReal(m, ..., 1, &y2);
+
+ //call slave and check status
+ status = servo_reverse_fmi2DoStep(comp, currentTime, h, fmi2True);
+ switch (status) {
+ case fmi2Discard:
+ case fmi2Error:
+ case fmi2Fatal:
+ case fmi2Pending /* Cannot happen */:
+ terminateSimulation = 1;
+ break;
+ case fmi2OK:
+ case fmi2Warning:
+ break;
+ }
+ if (terminateSimulation) {
+ break;
+ }
+ i++;
+ /* increment master time */
+ currentTime = 0.0 + h*i;
+ }
+
+#if 0
+ if ((status != fmi2Error) && (status != fmi2Fatal)) {
+ fmi2Terminate(m);
+ }
+ if (status != fmi2Fatal) {
+ fmi2FreeInstance(m);
+ }
+#endif
+}
+