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fix decode error with imtq defintions
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Robin Müller 2022-02-03 16:25:16 +01:00
parent 339b8e8ecc
commit 2cdd192eeb
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GPG Key ID: 71B58F8A3CDFA9AC
4 changed files with 248 additions and 248 deletions
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2
generators/events/translateEvents.cpp
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@ -1,7 +1,7 @@
/** /**
* @brief Auto-generated event translation file. Contains 116 translations. * @brief Auto-generated event translation file. Contains 116 translations.
* @details * @details
* Generated on: 2022-02-03 12:03:33 * Generated on: 2022-02-03 16:24:52
*/ */
#include "translateEvents.h" #include "translateEvents.h"

2
linux/fsfwconfig/events/translateEvents.cpp
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@ -1,7 +1,7 @@
/** /**
* @brief Auto-generated event translation file. Contains 116 translations. * @brief Auto-generated event translation file. Contains 116 translations.
* @details * @details
* Generated on: 2022-02-03 12:03:33 * Generated on: 2022-02-03 16:24:52
*/ */
#include "translateEvents.h" #include "translateEvents.h"

14
mission/devices/devicedefinitions/IMTQHandlerDefinitions.h
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@ -390,7 +390,7 @@ class EngHkDataset : public StaticLocalDataSet<ENG_HK_SET_POOL_ENTRIES> {
lp_var_t<float> coilXCurrentmA = lp_var_t<float>(sid.objectId, COIL_X_CURRENT, this); lp_var_t<float> coilXCurrentmA = lp_var_t<float>(sid.objectId, COIL_X_CURRENT, this);
lp_var_t<float> coilYCurrentmA = lp_var_t<float>(sid.objectId, COIL_Y_CURRENT, this); lp_var_t<float> coilYCurrentmA = lp_var_t<float>(sid.objectId, COIL_Y_CURRENT, this);
lp_var_t<float> coilZCurrentmA = lp_var_t<float>(sid.objectId, COIL_Z_CURRENT, this); lp_var_t<float> coilZCurrentmA = lp_var_t<float>(sid.objectId, COIL_Z_CURRENT, this);
/** All temperatures in [°C] */ /** All temperatures in [<EFBFBD>C] */
lp_var_t<uint16_t> coilXTemperature = lp_var_t<uint16_t>(sid.objectId, COIL_X_TEMPERATURE, this); lp_var_t<uint16_t> coilXTemperature = lp_var_t<uint16_t>(sid.objectId, COIL_X_TEMPERATURE, this);
lp_var_t<uint16_t> coilYTemperature = lp_var_t<uint16_t>(sid.objectId, COIL_Y_TEMPERATURE, this); lp_var_t<uint16_t> coilYTemperature = lp_var_t<uint16_t>(sid.objectId, COIL_Y_TEMPERATURE, this);
lp_var_t<uint16_t> coilZTemperature = lp_var_t<uint16_t>(sid.objectId, COIL_Z_TEMPERATURE, this); lp_var_t<uint16_t> coilZTemperature = lp_var_t<uint16_t>(sid.objectId, COIL_Z_TEMPERATURE, this);
@ -477,7 +477,7 @@ class CommandDipolePacket : public SerialLinkedListAdapter<SerializeIF> {
* Raw magnetic field: [nT] * Raw magnetic field: [nT]
* Calibrated magnetic field: [nT] * Calibrated magnetic field: [nT]
* Coil currents: [mA] * Coil currents: [mA]
* Temperature: [°C] * Temperature: [C]
* The +X self test generates a positive dipole in X direction and measures the magnetic * The +X self test generates a positive dipole in X direction and measures the magnetic
* field with the built-in MTM. The procedure of the test is as follows: * field with the built-in MTM. The procedure of the test is as follows:
* 1. All coils off (INIT step) * 1. All coils off (INIT step)
@ -554,7 +554,7 @@ class PosXSelfTestSet : public StaticLocalDataSet<SELF_TEST_DATASET_ENTRIES> {
* Raw magnetic field: [nT] * Raw magnetic field: [nT]
* Calibrated magnetic field: [nT] * Calibrated magnetic field: [nT]
* Coil currents: [mA] * Coil currents: [mA]
* Temperature: [°C] * Temperature: [C]
* The -X self test generates a negative dipole in X direction and measures the magnetic * The -X self test generates a negative dipole in X direction and measures the magnetic
* field with the built-in MTM. The procedure of the test is as follows: * field with the built-in MTM. The procedure of the test is as follows:
* 1. All coils off (INIT step) * 1. All coils off (INIT step)
@ -631,7 +631,7 @@ class NegXSelfTestSet : public StaticLocalDataSet<SELF_TEST_DATASET_ENTRIES> {
* Raw magnetic field: [nT] * Raw magnetic field: [nT]
* Calibrated magnetic field: [nT] * Calibrated magnetic field: [nT]
* Coil currents: [mA] * Coil currents: [mA]
* Temperature: [°C] * Temperature: [C]
* The +Y self test generates a positive dipole in y direction and measures the magnetic * The +Y self test generates a positive dipole in y direction and measures the magnetic
* field with the built-in MTM. The procedure of the test is as follows: * field with the built-in MTM. The procedure of the test is as follows:
* 1. All coils off (INIT step) * 1. All coils off (INIT step)
@ -708,7 +708,7 @@ class PosYSelfTestSet : public StaticLocalDataSet<SELF_TEST_DATASET_ENTRIES> {
* Raw magnetic field: [nT] * Raw magnetic field: [nT]
* Calibrated magnetic field: [nT] * Calibrated magnetic field: [nT]
* Coil currents: [mA] * Coil currents: [mA]
* Temperature: [°C] * Temperature: [C]
* The -Y self test generates a negative dipole in y direction and measures the magnetic * The -Y self test generates a negative dipole in y direction and measures the magnetic
* field with the built-in MTM. The procedure of the test is as follows: * field with the built-in MTM. The procedure of the test is as follows:
* 1. All coils off (INIT step) * 1. All coils off (INIT step)
@ -785,7 +785,7 @@ class NegYSelfTestSet : public StaticLocalDataSet<SELF_TEST_DATASET_ENTRIES> {
* Raw magnetic field: [nT] * Raw magnetic field: [nT]
* Calibrated magnetic field: [nT] * Calibrated magnetic field: [nT]
* Coil currents: [mA] * Coil currents: [mA]
* Temperature: [°C] * Temperature: [C]
* The +Z self test generates a positive dipole in z direction and measures the magnetic * The +Z self test generates a positive dipole in z direction and measures the magnetic
* field with the built-in MTM. The procedure of the test is as follows: * field with the built-in MTM. The procedure of the test is as follows:
* 1. All coils off (INIT step) * 1. All coils off (INIT step)
@ -862,7 +862,7 @@ class PosZSelfTestSet : public StaticLocalDataSet<SELF_TEST_DATASET_ENTRIES> {
* Raw magnetic field: [nT] * Raw magnetic field: [nT]
* Calibrated magnetic field: [nT] * Calibrated magnetic field: [nT]
* Coil currents: [mA] * Coil currents: [mA]
* Temperature: [°C] * Temperature: [C]
* The -Z self test generates a negative dipole in z direction and measures the magnetic * The -Z self test generates a negative dipole in z direction and measures the magnetic
* field with the built-in MTM. The procedure of the test is as follows: * field with the built-in MTM. The procedure of the test is as follows:
* 1. All coils off (INIT step) * 1. All coils off (INIT step)