ref: 8e1e9a12ceca8faeb38a6f32353c93be32342331
dir: /psych.h/
/************************* MPEG-2 NBC Audio Decoder ************************** * * "This software module was originally developed by Fraunhofer Gesellschaft IIS / University of Erlangen (UER) in the course of development of the MPEG-2 NBC/MPEG-4 Audio standard ISO/IEC 13818-7, 14496-1,2 and 3. This software module is an implementation of a part of one or more MPEG-2 NBC/MPEG-4 Audio tools as specified by the MPEG-2 NBC/MPEG-4 Audio standard. ISO/IEC gives users of the MPEG-2 NBC/MPEG-4 Audio standards free license to this software module or modifications thereof for use in hardware or software products claiming conformance to the MPEG-2 NBC/MPEG-4 Audio standards. Those intending to use this software module in hardware or software products are advised that this use may infringe existing patents. The original developer of this software module and his/her company, the subsequent editors and their companies, and ISO/IEC have no liability for use of this software module or modifications thereof in an implementation. Copyright is not released for non MPEG-2 NBC/MPEG-4 Audio conforming products.The original developer retains full right to use the code for his/her own purpose, assign or donate the code to a third party and to inhibit third party from using the code for non MPEG-2 NBC/MPEG-4 Audio conforming products. This copyright notice must be included in all copies or derivative works." Copyright(c)1996. ----- This software module was modified by Tadashi Araki (Ricoh Company, ltd.) Tatsuya Okada (Waseda Univ.) and edited by in the course of development of the MPEG-2 NBC/MPEG-4 Audio standard ISO/IEC 13818-7, 14496-1,2 and 3. Copyright (c) 1997. * * ****************************************************************************/ /* CREATED BY : Bernhard Grill -- August-96 */ #include "all.h" #ifndef M_PI #define M_PI 3.14159265358979323846 #endif typedef struct { long sampling_rate; /* the following entries are for this sampling rate */ int num_cb_long; int num_cb_short; int cb_width_long[NSFB_LONG]; int cb_width_short[NSFB_SHORT]; } SR_INFO; /* added by T. Araki (1997.10.17) */ #define OFFSET_FOR_SHORT 448 #define NPART_LONG 100 #define NPART_SHORT 100 /* added by T. Araki (1997.10.17) end */ /* added by T. Araki (1997.07.10) */ typedef struct { double hw[BLOCK_LEN_LONG*2]; /* Hann window table */ } FFT_TABLE_LONG; typedef struct { double hw[BLOCK_LEN_SHORT*2]; /* Hann window table */ } FFT_TABLE_SHORT; typedef struct { double bval[NPART_LONG]; double qsthr[NPART_LONG]; double rnorm[NPART_LONG]; double bmax[NPART_LONG]; double spreading[NPART_LONG][NPART_LONG]; } DYN_PART_TABLE_LONG; typedef struct { int sampling_rate; int len; /* length of the table */ int w_low[NPART_LONG]; int w_high[NPART_LONG]; int width[NPART_LONG]; DYN_PART_TABLE_LONG *dyn; } PARTITION_TABLE_LONG; typedef struct { double bval[NPART_SHORT]; double qsthr[NPART_SHORT]; double rnorm[NPART_SHORT]; double bmax[NPART_SHORT]; double spreading[NPART_SHORT][NPART_SHORT]; } DYN_PART_TABLE_SHORT; typedef struct { int sampling_rate; int len; /* length of the table */ int w_low[NPART_SHORT]; int w_high[NPART_SHORT]; int width[NPART_SHORT]; DYN_PART_TABLE_SHORT *dyn; } PARTITION_TABLE_SHORT; typedef struct { double fft_r[BLOCK_LEN_LONG*3]; double fft_f[BLOCK_LEN_LONG*3]; int p_fft; /* pointer for fft_r and fft_f */ double nb[NPART_LONG*2]; double en[NPART_LONG]; double save_npart_l[NSFB_LONG]; int p_nb; /* pointer for nb */ double ismr[NSFB_LONG]; /* 1/SMR in each swb */ double save_tb[NPART_LONG]; double save_cw[NPART_LONG]; int use_ms[NSFB_LONG]; } PSY_STATVARIABLE_LONG; typedef struct { double r_pred[BLOCK_LEN_LONG]; double f_pred[BLOCK_LEN_LONG]; double c[BLOCK_LEN_LONG]; double e[NPART_LONG]; double cw[NPART_LONG]; double en[NPART_LONG]; double cb[NPART_LONG]; double tb[NPART_LONG]; double snr[NPART_LONG]; double bc[NPART_LONG]; double pe; double epart[NSFB_LONG]; double thr[BLOCK_LEN_LONG]; double npart[NSFB_LONG]; } PSY_VARIABLE_LONG; typedef struct { double fft_r[MAX_SHORT_WINDOWS][BLOCK_LEN_SHORT]; double fft_f[MAX_SHORT_WINDOWS][BLOCK_LEN_SHORT]; double last6_fft_r[BLOCK_LEN_SHORT]; double last6_fft_f[BLOCK_LEN_SHORT]; double last7_fft_r[BLOCK_LEN_SHORT]; double last7_fft_f[BLOCK_LEN_SHORT]; double nb[MAX_SHORT_WINDOWS][NPART_SHORT]; double en[MAX_SHORT_WINDOWS][NPART_SHORT]; double save_npart_s[MAX_SHORT_WINDOWS][NSFB_SHORT]; double last7_nb[NPART_SHORT]; double ismr[MAX_SHORT_WINDOWS][NSFB_SHORT]; /* 1/SMR in each swb */ double save_tb[MAX_SHORT_WINDOWS][NPART_SHORT]; double save_cw[MAX_SHORT_WINDOWS][NPART_SHORT]; int use_ms[MAX_SHORT_WINDOWS][NSFB_SHORT]; } PSY_STATVARIABLE_SHORT; typedef struct { double r_pred[MAX_SHORT_WINDOWS][BLOCK_LEN_SHORT]; double f_pred[MAX_SHORT_WINDOWS][BLOCK_LEN_SHORT]; double c[MAX_SHORT_WINDOWS][BLOCK_LEN_SHORT]; double e[MAX_SHORT_WINDOWS][NPART_SHORT]; double cw[MAX_SHORT_WINDOWS][NPART_SHORT]; double en[MAX_SHORT_WINDOWS][NPART_SHORT]; double cb[MAX_SHORT_WINDOWS][NPART_SHORT]; double tb[MAX_SHORT_WINDOWS][NPART_SHORT]; double snr[MAX_SHORT_WINDOWS][NPART_SHORT]; double bc[MAX_SHORT_WINDOWS][NPART_SHORT]; double epart[MAX_SHORT_WINDOWS][NSFB_SHORT]; double thr[MAX_SHORT_WINDOWS][BLOCK_LEN_SHORT]; double npart[MAX_SHORT_WINDOWS][NSFB_SHORT]; } PSY_VARIABLE_SHORT; /* added by T. Araki (1997.07.10) end */ typedef struct { double *p_ratio; int *cb_width; int use_ms[NSFB_LONG]; int no_of_cb; } CH_PSYCH_OUTPUT_LONG; typedef struct { double *p_ratio; int *cb_width; int use_ms[NSFB_SHORT]; int no_of_cb; } CH_PSYCH_OUTPUT_SHORT; #ifdef __cplusplus extern "C" { #endif void EncTf_psycho_acoustic_init( void ); void psy_fill_lookahead(double *p_time_signal[], int no_of_chan); void EncTf_psycho_acoustic( /* input */ double sampling_rate, int no_of_chan, /* no of audio channels */ double *p_time_signal[], enum WINDOW_TYPE block_type[], int qcSelect, int frameLength, /* output */ CH_PSYCH_OUTPUT_LONG p_chpo_long[], CH_PSYCH_OUTPUT_SHORT p_chpo_short[][MAX_SHORT_WINDOWS] ); /* added by T. Okada( 1997.07.10 ) */ /* Jul 10 */ #define psy_max(x,y) ((x) > (y) ? (x) : (y)) #define psy_min(x,y) ((x) < (y) ? (x) : (y)) #define psy_sqr(x) ((x)*(x)) double psy_get_absthr(double f); /* Jul 8 */ void psy_fft_table_init(FFT_TABLE_LONG *fft_tbl_long, FFT_TABLE_SHORT *fft_tbl_short ); void psy_part_table_init(double sampling_rate, PARTITION_TABLE_LONG *part_tbl_long, PARTITION_TABLE_SHORT *part_tbl_short ); void psy_calc_init(double sample[][BLOCK_LEN_LONG*2], PSY_STATVARIABLE_LONG *psy_stvar_long, PSY_STATVARIABLE_SHORT *psy_stvar_short ); void psy_step1(double* p_time_signal[], double sample[][BLOCK_LEN_LONG*2], int ch ); void psy_step2(double sample[][BLOCK_LEN_LONG*2], PSY_STATVARIABLE_LONG *psy_stvar_long, PSY_STATVARIABLE_SHORT *psy_stvar_short, FFT_TABLE_LONG *fft_tbl_long, FFT_TABLE_SHORT *fft_tbl_short, int ch ); void psy_step3(PSY_STATVARIABLE_LONG *psy_stvar_long, PSY_STATVARIABLE_SHORT *psy_stvar_short, PSY_VARIABLE_LONG *psy_var_long, PSY_VARIABLE_SHORT *psy_var_short, int ch ); void psy_step4(PSY_STATVARIABLE_LONG *psy_stvar_long, PSY_STATVARIABLE_SHORT *psy_stvar_short, PSY_VARIABLE_LONG *psy_var_long, PSY_VARIABLE_SHORT *psy_var_short, int ch ); void psy_step5(PARTITION_TABLE_LONG *part_tbl_long, PARTITION_TABLE_SHORT *part_tbl_short, PSY_STATVARIABLE_LONG *psy_stvar_long, PSY_STATVARIABLE_SHORT *psy_stvar_short, PSY_VARIABLE_LONG *psy_var_long, PSY_VARIABLE_SHORT *psy_var_short, int ch ); void psy_step6(PARTITION_TABLE_LONG *part_tbl_long, PARTITION_TABLE_SHORT *part_tbl_short, PSY_STATVARIABLE_LONG *psy_stvar_long, PSY_STATVARIABLE_SHORT *psy_stvar_short, PSY_VARIABLE_LONG *psy_var_long, PSY_VARIABLE_SHORT *psy_var_short ); void psy_step7(PARTITION_TABLE_LONG *part_tbl_long, PARTITION_TABLE_SHORT *part_tbl_short, PSY_VARIABLE_LONG *psy_var_long, PSY_VARIABLE_SHORT *psy_var_short ); void psy_step8(PARTITION_TABLE_LONG *part_tbl_long, PARTITION_TABLE_SHORT *part_tbl_short, PSY_VARIABLE_LONG *psy_var_long, PSY_VARIABLE_SHORT *psy_var_short ); void psy_step9(PARTITION_TABLE_LONG *part_tbl_long, PARTITION_TABLE_SHORT *part_tbl_short, PSY_VARIABLE_LONG *psy_var_long, PSY_VARIABLE_SHORT *psy_var_short ); void psy_step10(PARTITION_TABLE_LONG *part_tbl_long, PARTITION_TABLE_SHORT *part_tbl_short, PSY_STATVARIABLE_LONG *psy_stvar_long, PSY_STATVARIABLE_SHORT *psy_stvar_short, PSY_VARIABLE_LONG *psy_var_long, PSY_VARIABLE_SHORT *psy_var_short, int ch /* ch */ ); void psy_step11(PARTITION_TABLE_LONG *part_tbl_long, PARTITION_TABLE_SHORT *part_tbl_short, PSY_STATVARIABLE_LONG *psy_stvar_long, PSY_STATVARIABLE_SHORT *psy_stvar_short, int ch ); void psy_step11andahalf(PARTITION_TABLE_LONG *part_tbl_long, PARTITION_TABLE_SHORT *part_tbl_short, PSY_STATVARIABLE_LONG *psy_stvar_long, PSY_STATVARIABLE_SHORT *psy_stvar_short, int ch); void psy_step12(PARTITION_TABLE_LONG *part_tbl_long, PARTITION_TABLE_SHORT *part_tbl_short, PSY_STATVARIABLE_LONG *psy_stvar_long, PSY_STATVARIABLE_SHORT *psy_stvar_short, PSY_VARIABLE_LONG *psy_var_long, PSY_VARIABLE_SHORT *psy_var_short, int ch ); void psy_step13(PSY_VARIABLE_LONG *psy_var_long, enum WINDOW_TYPE *block_type, int ch ); void psy_step14(SR_INFO *p_sri, PARTITION_TABLE_LONG *part_tbl_long, PARTITION_TABLE_SHORT *part_tbl_short, PSY_STATVARIABLE_LONG *psy_stvar_long, PSY_STATVARIABLE_SHORT *psy_stvar_short, PSY_VARIABLE_LONG *psy_var_long, PSY_VARIABLE_SHORT *psy_var_short, int ch); void psy_step15(int use_ms_l[NSFB_LONG], int use_ms_s[MAX_SHORT_WINDOWS][NSFB_SHORT], SR_INFO *p_sri, PSY_STATVARIABLE_LONG *psy_stvar_long, PSY_STATVARIABLE_SHORT *psy_stvar_short, PSY_VARIABLE_LONG *psy_var_long, PSY_VARIABLE_SHORT *psy_var_short, int ch ); #ifdef __cplusplus } #endif