📄 cdma20001x_acc.h
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*/
real_T PN_Sequence_b_P2_Size[2]; /* Computed Parameter: P2Size
* '<S22>/PN Sequence'
*/
real_T PN_Sequence_b_P2[15]; /* Expression: ini_sta
* '<S22>/PN Sequence'
*/
real_T PN_Sequence_b_P3_Size[2]; /* Computed Parameter: P3Size
* '<S22>/PN Sequence'
*/
real_T PN_Sequence_b_P3[15]; /* Expression: shift
* '<S22>/PN Sequence'
*/
real_T PN_Sequence_b_P4_Size[2]; /* Computed Parameter: P4Size
* '<S22>/PN Sequence'
*/
real_T PN_Sequence_b_P4; /* Expression: Ts
* '<S22>/PN Sequence'
*/
real_T PN_Sequence_b_P5_Size[2]; /* Computed Parameter: P5Size
* '<S22>/PN Sequence'
*/
real_T PN_Sequence_b_P5; /* Expression: frameBased
* '<S22>/PN Sequence'
*/
real_T PN_Sequence_b_P6_Size[2]; /* Computed Parameter: P6Size
* '<S22>/PN Sequence'
*/
real_T PN_Sequence_b_P6; /* Expression: sampPerFrame
* '<S22>/PN Sequence'
*/
real_T PN_Sequence_b_P7_Size[2]; /* Computed Parameter: P7Size
* '<S22>/PN Sequence'
*/
real_T PN_Sequence_b_P7; /* Expression: reset
* '<S22>/PN Sequence'
*/
real_T Insert_Zero_b_P1_Size[2]; /* Computed Parameter: P1Size
* '<S22>/Insert Zero'
*/
real_T Insert_Zero_b_P1[32768]; /* Expression: insertZeroVector
* '<S22>/Insert Zero'
*/
real_T Insert_Zero_b_P2_Size[2]; /* Computed Parameter: P2Size
* '<S22>/Insert Zero'
*/
real_T Insert_Zero_b_P2; /* Expression: method
* '<S22>/Insert Zero'
*/
real_T Gain_c_Gain; /* Expression: 2
* '<S21>/Gain'
*/
real_T Constant_c_Value; /* Expression: M-1
* '<S21>/Constant'
*/
real_T Polarity_c_Gain; /* Expression: pole
* '<S21>/Polarity'
*/
real_T Relative_Gain_Value; /* Expression: 1
* '<Root>/Relative Gain'
*/
real_T Random_Source_Min; /* Expression: Min
* '<S8>/Random Source'
*/
real_T Random_Source_Max; /* Expression: Max
* '<S8>/Random Source'
*/
real_T Random_Source_DialogSeed; /* Expression: Seed
* '<S8>/Random Source'
*/
real_T Reshape_a_P1; /* Expression: OutputDimensionality
* '<S8>/Reshape'
*/
real_T Reshape_a_P2[2]; /* Expression: OutputDimensions
* '<S8>/Reshape'
*/
real_T Zero_Pad_a_PadValue; /* Expression: 0
* '<S4>/Zero Pad'
*/
real_T General_CRC_Generator_P1_Size[2]; /* Computed Parameter: P1Size
* '<S4>/General CRC Generator'
*/
real_T General_CRC_Generator_P1; /* Expression: genPoly
* '<S4>/General CRC Generator'
*/
real_T General_CRC_Generator_P2_Size[2]; /* Computed Parameter: P2Size
* '<S4>/General CRC Generator'
*/
real_T General_CRC_Generator_P2; /* Expression: numBits
* '<S4>/General CRC Generator'
*/
real_T General_CRC_Generator_P3_Size[2]; /* Computed Parameter: P3Size
* '<S4>/General CRC Generator'
*/
real_T General_CRC_Generator_P3; /* Expression: iniStates
* '<S4>/General CRC Generator'
*/
real_T General_CRC_Generator_P4_Size[2]; /* Computed Parameter: P4Size
* '<S4>/General CRC Generator'
*/
real_T General_CRC_Generator_P4; /* Expression: numChecksums
* '<S4>/General CRC Generator'
*/
real_T Zero_Pad_b_PadValue; /* Expression: 0
* '<S5>/Zero Pad'
*/
real_T Convolutional_Encoder_P1_Size[2]; /* Computed Parameter: P1Size
* '<S5>/Convolutional Encoder'
*/
real_T Convolutional_Encoder_P1; /* Expression: s.k
* '<S5>/Convolutional Encoder'
*/
real_T Convolutional_Encoder_P2_Size[2]; /* Computed Parameter: P2Size
* '<S5>/Convolutional Encoder'
*/
real_T Convolutional_Encoder_P2; /* Expression: s.n
* '<S5>/Convolutional Encoder'
*/
real_T Convolutional_Encoder_P3_Size[2]; /* Computed Parameter: P3Size
* '<S5>/Convolutional Encoder'
*/
real_T Convolutional_Encoder_P3; /* Expression: s.numStates
* '<S5>/Convolutional Encoder'
*/
real_T Convolutional_Encoder_P4_Size[2]; /* Computed Parameter: P4Size
* '<S5>/Convolutional Encoder'
*/
real_T Convolutional_Encoder_P4[512]; /* Expression: s.outputs
* '<S5>/Convolutional Encoder'
*/
real_T Convolutional_Encoder_P5_Size[2]; /* Computed Parameter: P5Size
* '<S5>/Convolutional Encoder'
*/
real_T Convolutional_Encoder_P5[512]; /* Expression: s.nextStates
* '<S5>/Convolutional Encoder'
*/
real_T Convolutional_Encoder_P6_Size[2]; /* Computed Parameter: P6Size
* '<S5>/Convolutional Encoder'
*/
real_T Convolutional_Encoder_P6; /* Expression: s.reset
* '<S5>/Convolutional Encoder'
*/
real_T Repeat_a_IC; /* Computed Parameter: IC
* '<S6>/Repeat'
*/
real_T Puncture_P1_Size[2]; /* Computed Parameter: P1Size
* '<S6>/Puncture'
*/
real_T Puncture_P1; /* Expression: punctureVector
* '<S6>/Puncture'
*/
real_T Puncture_P2_Size[2]; /* Computed Parameter: P2Size
* '<S6>/Puncture'
*/
real_T Puncture_P2; /* Expression: method
* '<S6>/Puncture'
*/
real_T S_Function_a_P1_Size[2]; /* Computed Parameter: P1Size
* '<S6>/S-Function'
*/
real_T S_Function_a_P1; /* Expression: xInterleaverSize
* '<S6>/S-Function'
*/
real_T Repeat_b_IC; /* Computed Parameter: IC
* '<S7>/Repeat'
*/
real_T Gain_d_Gain; /* Expression: 2
* '<S12>/Gain'
*/
real_T Constant_d_Value; /* Expression: M-1
* '<S12>/Constant'
*/
real_T Polarity_d_Gain; /* Expression: pole
* '<S12>/Polarity'
*/
real_T Reshape_b_P1; /* Expression: OutputDimensionality
* '<S11>/Reshape'
*/
real_T Reshape_b_P2[2]; /* Expression: OutputDimensions
* '<S11>/Reshape'
*/
real_T FIR_Interpolati_a_FILTER_COEFF[48]; /* Computed Parameter: FILTER_COEFF
* '<S2>/FIR Interpolation 1'
*/
real_T FIR_Interpolati_a_IC; /* Computed Parameter: IC
* '<S2>/FIR Interpolation 1'
*/
real_T FIR_Interpolati_b_FILTER_COEFF[48]; /* Computed Parameter: FILTER_COEFF
* '<S2>/FIR Interpolation 2'
*/
real_T FIR_Interpolati_b_IC; /* Computed Parameter: IC
* '<S2>/FIR Interpolation 2'
*/
real_T Gain_e_Value; /* Expression: 1/2
* '<Root>/Gain'
*/
real_T Window_WindowSamples[128]; /* Computed Parameter: WindowSamples
* '<S25>/Window'
*/
real_T FFT_TwiddleTable[96]; /* Computed Parameter: TwiddleTable
* '<S26>/FFT'
*/
real_T Digital_Filter_ICRTP; /* Computed Parameter: ICRTP
* '<S25>/Digital Filter'
*/
real_T Digital_Filter_RTP1COEFF[2]; /* Expression: a.Coeff1
* '<S25>/Digital Filter'
*/
real_T Check_Signal_Attributes_P1; /* Expression: SigAttribCheckMethod
* '<S28>/Check Signal Attributes'
*/
real_T Check_Signal_Attributes_P2; /* Expression: Complexity
* '<S28>/Check Signal Attributes'
*/
real_T Check_Signal_Attributes_P3; /* Expression: Frame
* '<S28>/Check Signal Attributes'
*/
real_T Check_Signal_Attributes_P4; /* Expression: DimsCheckMethod
* '<S28>/Check Signal Attributes'
*/
real_T Check_Signal_Attributes_P5; /* Expression: Dimensions
* '<S28>/Check Signal Attributes'
*/
real_T Check_Signal_Attributes_P6; /* Expression: DatatypeCheckMethod
* '<S28>/Check Signal Attributes'
*/
real_T Check_Signal_Attributes_P7; /* Expression: DatatypeGeneral
* '<S28>/Check Signal Attributes'
*/
real_T Check_Signal_Attributes_P8; /* Expression: DtypeFloatSpecific
* '<S28>/Check Signal Attributes'
*/
real_T Check_Signal_Attributes_P9; /* Expression: DtypeFixedSpecific
* '<S28>/Check Signal Attributes'
*/
real_T Check_Signal_Attributes_P10; /* Expression: DtypeIntSpecific
* '<S28>/Check Signal Attributes'
*/
real_T Check_Signal_Attributes_P11; /* Expression: SampleMode
* '<S28>/Check Signal Attributes'
*/
creal_T Buffer_IC; /* Computed Parameter: IC
* '<S24>/Buffer'
*/
creal_T Zero_Pad_c_PadValue; /* Expression: 0
* '<S26>/Zero Pad'
*/
uint32_T Random_Source_InitSeed; /* Expression: SFcnSeed
* '<S8>/Random Source'
*/
char pad_Random_Source_InitSeed[4];
};
/* External outputs (root outports fed by signals with auto storage) */
typedef struct _cdma20001x_ExternalOutputs_tag {
creal_T *Out1; /* '<Root>/Out1' */
} cdma20001x_ExternalOutputs;
extern cdma20001x_Parameters cdma20001x_DefaultParameters; /* parameters */
#endif /* _RTW_HEADER_cdma20001x_acc_h_ */
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