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HVAC_M7_MODEL/Model_actuator.c

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/*
* File: Model_actuator.c
*
* Code generated for Simulink model 'Model_actuator'.
*
* Model version : 1.572
* Simulink Coder version : 24.1 (R2024a) 19-Nov-2023
* C/C++ source code generated on : Fri Jan 30 16:05:13 2026
*
* Target selection: ert.tlc
* Embedded hardware selection: ARM Compatible->ARM Cortex-M
* Emulation hardware selection:
* Differs from embedded hardware (MATLAB Host)
* Code generation objectives: Unspecified
* Validation result: Not run
*/
#include "Model_actuator.h"
#include <stdbool.h>
#include <stdint.h>
#include "Model_actuator_private.h"
/* Block states (default storage) */
DW rtDW;
/* Real-time model */
static RT_MODEL rtM_;
RT_MODEL *const rtM = &rtM_;
double look1_binlx(double u0, const double bp0[], const double table[], uint32_t
maxIndex)
{
double frac;
double yL_0d0;
uint32_t iLeft;
/* Column-major Lookup 1-D
Search method: 'binary'
Use previous index: 'off'
Interpolation method: 'Linear point-slope'
Extrapolation method: 'Linear'
Use last breakpoint for index at or above upper limit: 'off'
Remove protection against out-of-range input in generated code: 'off'
*/
/* Prelookup - Index and Fraction
Index Search method: 'binary'
Extrapolation method: 'Linear'
Use previous index: 'off'
Use last breakpoint for index at or above upper limit: 'off'
Remove protection against out-of-range input in generated code: 'off'
*/
if (u0 <= bp0[0U]) {
iLeft = 0U;
frac = (u0 - bp0[0U]) / (bp0[1U] - bp0[0U]);
} else if (u0 < bp0[maxIndex]) {
uint32_t bpIdx;
uint32_t iRght;
/* Binary Search */
bpIdx = maxIndex >> 1U;
iLeft = 0U;
iRght = maxIndex;
while (iRght - iLeft > 1U) {
if (u0 < bp0[bpIdx]) {
iRght = bpIdx;
} else {
iLeft = bpIdx;
}
bpIdx = (iRght + iLeft) >> 1U;
}
frac = (u0 - bp0[iLeft]) / (bp0[iLeft + 1U] - bp0[iLeft]);
} else {
iLeft = maxIndex - 1U;
frac = (u0 - bp0[maxIndex - 1U]) / (bp0[maxIndex] - bp0[maxIndex - 1U]);
}
/* Column-major Interpolation 1-D
Interpolation method: 'Linear point-slope'
Use last breakpoint for index at or above upper limit: 'off'
Overflow mode: 'wrapping'
*/
yL_0d0 = table[iLeft];
return (table[iLeft + 1U] - yL_0d0) * frac + yL_0d0;
}
/* Model step function */
void Model_actuator_step(void)
{
double IncarFL;
double rtb_Divide1;
uint32_t rtb_dt;
bool IncarFLErr;
bool rtb_FailCond;
/* Product: '<S2>/Divide1' incorporates:
* Constant: '<S2>/Constant'
* Constant: '<S2>/Constant1'
* DataStoreRead: '<S2>/Data Store Read1'
* Product: '<S2>/Divide'
*/
rtb_Divide1 = (double)rtDW.controllerDataIncarInput.InIncarFL / 4095.0 * 5.0;
/* Logic: '<S2>/Logical Operator' incorporates:
* Constant: '<S3>/Constant'
* RelationalOperator: '<S3>/Compare'
*/
rtb_FailCond = (rtb_Divide1 < 15.0);
/* Switch: '<S10>/Switch' incorporates:
* DataStoreRead: '<S10>/Data Store Read4'
* DataStoreWrite: '<S10>/Data Store Write'
* Logic: '<S10>/Logical Operator3'
* Logic: '<S10>/Logical Operator4'
* UnitDelay: '<S10>/Unit Delay'
*/
if (rtb_FailCond && (!rtDW.UnitDelay_DSTATE)) {
rtDW.UnitDelay1_DSTATE = rtDW.t_now;
}
/* End of Switch: '<S10>/Switch' */
/* Sum: '<S10>/Subtract' incorporates:
* DataStoreRead: '<S10>/Data Store Read4'
* DataStoreWrite: '<S10>/Data Store Write'
*/
rtb_dt = rtDW.t_now - rtDW.UnitDelay1_DSTATE;
/* Logic: '<S2>/Logical Operator1' incorporates:
* Constant: '<S5>/Constant'
* DataStoreWrite: '<S2>/Data Store Write1'
* RelationalOperator: '<S5>/Compare'
*/
IncarFLErr = (rtb_FailCond && (rtb_dt >= 3000U));
/* Switch: '<S2>/Switch' incorporates:
* Constant: '<S2>/Constant2'
* DataStoreWrite: '<S2>/Data Store Write'
* DataStoreWrite: '<S2>/Data Store Write1'
* Lookup_n-D: '<S2>/1-D Lookup Table'
* Product: '<S2>/Divide1'
*/
if (IncarFLErr) {
IncarFL = 200.0;
} else {
IncarFL = look1_binlx(rtb_Divide1, rtConstP.uDLookupTable_bp01Data,
rtConstP.uDLookupTable_tableData, 475U);
}
/* End of Switch: '<S2>/Switch' */
/* MATLAB Function: '<S10>/Normal Mode2' */
/* : y = dt ; */
/* : fprintf('int16 %d\n',int16(dt)); */
if (rtb_dt > 32767U) {
rtb_dt = 32767U;
}
printf("int16 %d\n", (int16_t)rtb_dt);
fflush(stdout);
/* End of MATLAB Function: '<S10>/Normal Mode2' */
/* MATLAB Function: '<S2>/Normal Mode' incorporates:
* DataStoreRead: '<S2>/Data Store Read1'
*/
/* : y = IncarFL; */
/* : fprintf('IncarFL %u \n',IncarFL); */
printf("IncarFL %u \n", rtDW.controllerDataIncarInput.InIncarFL);
fflush(stdout);
/* MATLAB Function: '<S2>/Normal Mode1' */
/* : y = IncarFL_VIN ; */
/* : fprintf('IncarFL_VIN %f\n',IncarFL_VIN); */
printf("IncarFL_VIN %f\n", rtb_Divide1);
fflush(stdout);
/* MATLAB Function: '<S2>/Normal Mode2' incorporates:
* DataStoreWrite: '<S2>/Data Store Write1'
*/
/* : y = IncarFLErr ; */
/* : fprintf('IncarFLErr %d\n',int8(IncarFLErr)); */
printf("IncarFLErr %d\n", (int8_t)IncarFLErr);
fflush(stdout);
/* MATLAB Function: '<S2>/Normal Mode3' incorporates:
* DataStoreWrite: '<S2>/Data Store Write'
*/
/* : y = IncarFLOut ; */
/* : fprintf('IncarFLOut %f\n',IncarFLOut); */
printf("IncarFLOut %f\n", IncarFL);
fflush(stdout);
/* Update for UnitDelay: '<S10>/Unit Delay' */
rtDW.UnitDelay_DSTATE = rtb_FailCond;
}
/* Model initialize function */
void Model_actuator_initialize(void)
{
/* (no initialization code required) */
}
/* Model terminate function */
void Model_actuator_terminate(void)
{
/* (no terminate code required) */
}
/*
* File trailer for generated code.
*
* [EOF]
*/
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